source "drivers/staging/quickstart/Kconfig"
-source "drivers/staging/westbridge/Kconfig"
-
source "drivers/staging/sbe-2t3e3/Kconfig"
source "drivers/staging/ath6kl/Kconfig"
obj-$(CONFIG_SOLO6X10) += solo6x10/
obj-$(CONFIG_TIDSPBRIDGE) += tidspbridge/
obj-$(CONFIG_ACPI_QUICKSTART) += quickstart/
-obj-$(CONFIG_WESTBRIDGE_ASTORIA) += westbridge/astoria/
obj-$(CONFIG_SBE_2T3E3) += sbe-2t3e3/
obj-$(CONFIG_ATH6K_LEGACY) += ath6kl/
obj-$(CONFIG_USB_ENESTORAGE) += keucr/
+++ /dev/null
-#
-# West Bridge configuration
-#
-
-menuconfig WESTBRIDGE
- tristate "West Bridge support"
- depends on WESTBRIDGE_HAL_SELECTED
- help
- This selects West Bridge Peripheral controller support.
-
- If you want West Bridge support, you should say Y here.
-
-menuconfig WESTBRIDGE_ASTORIA
- bool "West Bridge Astoria support"
- depends on WESTBRIDGE != n && WESTBRIDGE_HAL_SELECTED
- help
- This option enables support for West Bridge Astoria
-
-if WESTBRIDGE_ASTORIA
-source "drivers/staging/westbridge/astoria/Kconfig"
-endif #WESTBRIDGE_ASTORIA
-
-config WESTBRIDGE_HAL_SELECTED
- boolean
-
-choice
- prompt "West Bridge HAL"
- help
- West Bridge HAL/processor interface to be used
-
-#
-# HAL Layers
-#
-
-config MACH_OMAP3_WESTBRIDGE_AST_PNAND_HAL
- bool "WESTBRIDGE OMAP3430 Astoria PNAND HAL"
- depends on ARCH_OMAP3
- select WESTBRIDGE_HAL_SELECTED
- help
- Include the OMAP3430 HAL for PNAND interface
-
-config MACH_NO_WESTBRIDGE
- bool "no West Bridge HAL selected"
- help
- Do not include any HAL layer(de-activates West Bridge option)
-endchoice
-
-config WESTBRIDGE_DEBUG
- bool "West Bridge debugging"
- depends on WESTBRIDGE != n
- help
- This is an option for use by developers; most people should
- say N here. This enables WESTBRIDGE core and driver debugging.
+++ /dev/null
-TODO:
-- checkpatch.pl fixes
-- determine where to put the hal and common api code
-- modify the driver directory structure in an intuitive way
-
-Please send any patches to Greg Kroah-Hartman <gregkh@suse.de>
-and David Cross <david.cross@cypress.com>.
+++ /dev/null
-#
-# West Bridge configuration
-#
-source "drivers/staging/westbridge/astoria/device/Kconfig"
-
-source "drivers/staging/westbridge/astoria/block/Kconfig"
-
-source "drivers/staging/westbridge/astoria/gadget/Kconfig"
-
+++ /dev/null
-#
-# Makefile for the kernel westbridge device drivers.
-#
-
-ifneq ($(CONFIG_WESTBRIDGE_DEBUG),y)
- EXTRA_CFLAGS += -WESTBRIDGE_NDEBUG
-endif
-
-obj-$(CONFIG_WESTBRIDGE) += device/
-obj-$(CONFIG_WESTBRIDGE) += block/
-obj-$(CONFIG_WESTBRIDGE) += gadget/
\ No newline at end of file
+++ /dev/null
-#
-# Makefile for the kernel westbridge core.
-#
-
-ifeq ($(CONFIG_WESTBRIDGE_DEBUG),n)
- EXTRA_CFLAGS += -NDEBUG
-endif
-
-obj-$(CONFIG_WESTBRIDGE_DEVICE_DRIVER) += cyasapi.o
-cyasapi-y := src/cyasdma.o src/cyasintr.o src/cyaslep2pep.o \
- src/cyaslowlevel.o src/cyasmisc.o src/cyasmtp.o \
- src/cyasstorage.o src/cyasusb.o
-
-
+++ /dev/null
-/* Cypress West Bridge API source file (cyasdma.c)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#include "../../include/linux/westbridge/cyashal.h"
-#include "../../include/linux/westbridge/cyasdma.h"
-#include "../../include/linux/westbridge/cyaslowlevel.h"
-#include "../../include/linux/westbridge/cyaserr.h"
-#include "../../include/linux/westbridge/cyasregs.h"
-
-/*
- * Add the DMA queue entry to the free list to be re-used later
- */
-static void
-cy_as_dma_add_request_to_free_queue(cy_as_device *dev_p,
- cy_as_dma_queue_entry *req_p)
-{
- uint32_t imask;
- imask = cy_as_hal_disable_interrupts();
-
- req_p->next_p = dev_p->dma_freelist_p;
- dev_p->dma_freelist_p = req_p;
-
- cy_as_hal_enable_interrupts(imask);
-}
-
-/*
- * Get a DMA queue entry from the free list.
- */
-static cy_as_dma_queue_entry *
-cy_as_dma_get_dma_queue_entry(cy_as_device *dev_p)
-{
- cy_as_dma_queue_entry *req_p;
- uint32_t imask;
-
- cy_as_hal_assert(dev_p->dma_freelist_p != 0);
-
- imask = cy_as_hal_disable_interrupts();
- req_p = dev_p->dma_freelist_p;
- dev_p->dma_freelist_p = req_p->next_p;
- cy_as_hal_enable_interrupts(imask);
-
- return req_p;
-}
-
-/*
- * Set the maximum size that the West Bridge hardware
- * can handle in a single DMA operation. This size
- * may change for the P <-> U endpoints as a function
- * of the endpoint type and whether we are running
- * at full speed or high speed.
- */
-cy_as_return_status_t
-cy_as_dma_set_max_dma_size(cy_as_device *dev_p,
- cy_as_end_point_number_t ep, uint32_t size)
-{
- /* In MTP mode, EP2 is allowed to have all max sizes. */
- if ((!dev_p->is_mtp_firmware) || (ep != 0x02)) {
- if (size < 64 || size > 1024)
- return CY_AS_ERROR_INVALID_SIZE;
- }
-
- CY_AS_NUM_EP(dev_p, ep)->maxhwdata = (uint16_t)size;
- return CY_AS_ERROR_SUCCESS;
-}
-
-/*
- * The callback for requests sent to West Bridge
- * to relay endpoint data. Endpoint data for EP0
- * and EP1 are sent using mailbox requests. This
- * is the callback that is called when a response
- * to a mailbox request to send data is received.
- */
-static void
-cy_as_dma_request_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *resp_p,
- cy_as_return_status_t ret)
-{
- uint16_t v;
- uint16_t datacnt;
- cy_as_end_point_number_t ep;
-
- (void)context;
-
- cy_as_log_debug_message(5, "cy_as_dma_request_callback called");
-
- /*
- * extract the return code from the firmware
- */
- if (ret == CY_AS_ERROR_SUCCESS) {
- if (cy_as_ll_request_response__get_code(resp_p) !=
- CY_RESP_SUCCESS_FAILURE)
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- else
- ret = cy_as_ll_request_response__get_word(resp_p, 0);
- }
-
- /*
- * extract the endpoint number and the transferred byte count
- * from the request.
- */
- v = cy_as_ll_request_response__get_word(req_p, 0);
- ep = (cy_as_end_point_number_t)((v >> 13) & 0x01);
-
- if (ret == CY_AS_ERROR_SUCCESS) {
- /*
- * if the firmware returns success,
- * all of the data requested was
- * transferred. there are no partial
- * transfers.
- */
- datacnt = v & 0x3FF;
- } else {
- /*
- * if the firmware returned an error, no data was transferred.
- */
- datacnt = 0;
- }
-
- /*
- * queue the request and response data structures for use with the
- * next EP0 or EP1 request.
- */
- if (ep == 0) {
- dev_p->usb_ep0_dma_req = req_p;
- dev_p->usb_ep0_dma_resp = resp_p;
- } else {
- dev_p->usb_ep1_dma_req = req_p;
- dev_p->usb_ep1_dma_resp = resp_p;
- }
-
- /*
- * call the DMA complete function so we can
- * signal that this portion of the transfer
- * has completed. if the low level request
- * was canceled, we do not need to signal
- * the completed function as the only way a
- * cancel can happen is via the DMA cancel
- * function.
- */
- if (ret != CY_AS_ERROR_CANCELED)
- cy_as_dma_completed_callback(dev_p->tag, ep, datacnt, ret);
-}
-
-/*
- * Set the DRQ mask register for the given endpoint number. If state is
- * CyTrue, the DRQ interrupt for the given endpoint is enabled, otherwise
- * it is disabled.
- */
-static void
-cy_as_dma_set_drq(cy_as_device *dev_p,
- cy_as_end_point_number_t ep, cy_bool state)
-{
- uint16_t mask;
- uint16_t v;
- uint32_t intval;
-
- /*
- * there are not DRQ register bits for EP0 and EP1
- */
- if (ep == 0 || ep == 1)
- return;
-
- /*
- * disable interrupts while we do this to be sure the state of the
- * DRQ mask register is always well defined.
- */
- intval = cy_as_hal_disable_interrupts();
-
- /*
- * set the DRQ bit to the given state for the ep given
- */
- mask = (1 << ep);
- v = cy_as_hal_read_register(dev_p->tag, CY_AS_MEM_P0_DRQ_MASK);
-
- if (state)
- v |= mask;
- else
- v &= ~mask;
-
- cy_as_hal_write_register(dev_p->tag, CY_AS_MEM_P0_DRQ_MASK, v);
- cy_as_hal_enable_interrupts(intval);
-}
-
-/*
-* Send the next DMA request for the endpoint given
-*/
-static void
-cy_as_dma_send_next_dma_request(cy_as_device *dev_p, cy_as_dma_end_point *ep_p)
-{
- uint32_t datacnt;
- void *buf_p;
- cy_as_dma_queue_entry *dma_p;
-
- cy_as_log_debug_message(6, "cy_as_dma_send_next_dma_request called");
-
- /* If the queue is empty, nothing to do */
- dma_p = ep_p->queue_p;
- if (dma_p == 0) {
- /*
- * there are no pending DMA requests
- * for this endpoint. disable the DRQ
- * mask bits to insure no interrupts
- * will be triggered by this endpoint
- * until someone is interested in the data.
- */
- cy_as_dma_set_drq(dev_p, ep_p->ep, cy_false);
- return;
- }
-
- cy_as_dma_end_point_set_running(ep_p);
-
- /*
- * get the number of words that still
- * need to be xferred in this request.
- */
- datacnt = dma_p->size - dma_p->offset;
- cy_as_hal_assert(datacnt >= 0);
-
- /*
- * the HAL layer should never limit the size
- * of the transfer to something less than the
- * maxhwdata otherwise, the data will be sent
- * in packets that are not correct in size.
- */
- cy_as_hal_assert(ep_p->maxhaldata == CY_AS_DMA_MAX_SIZE_HW_SIZE
- || ep_p->maxhaldata >= ep_p->maxhwdata);
-
- /*
- * update the number of words that need to be xferred yet
- * based on the limits of the HAL layer.
- */
- if (ep_p->maxhaldata == CY_AS_DMA_MAX_SIZE_HW_SIZE) {
- if (datacnt > ep_p->maxhwdata)
- datacnt = ep_p->maxhwdata;
- } else {
- if (datacnt > ep_p->maxhaldata)
- datacnt = ep_p->maxhaldata;
- }
-
- /*
- * find a pointer to the data that needs to be transferred
- */
- buf_p = (((char *)dma_p->buf_p) + dma_p->offset);
-
- /*
- * mark a request in transit
- */
- cy_as_dma_end_point_set_in_transit(ep_p);
-
- if (ep_p->ep == 0 || ep_p->ep == 1) {
- /*
- * if this is a WRITE request on EP0 and EP1
- * we write the data via an EP_DATA request
- * to west bridge via the mailbox registers.
- * if this is a READ request, we do nothing
- * and the data will arrive via an EP_DATA
- * request from west bridge. in the request
- * handler for the USB context we will pass
- * the data back into the DMA module.
- */
- if (dma_p->readreq == cy_false) {
- uint16_t v;
- uint16_t len;
- cy_as_ll_request_response *resp_p;
- cy_as_ll_request_response *req_p;
- cy_as_return_status_t ret;
-
- len = (uint16_t)(datacnt / 2);
- if (datacnt % 2)
- len++;
-
- len++;
-
- if (ep_p->ep == 0) {
- req_p = dev_p->usb_ep0_dma_req;
- resp_p = dev_p->usb_ep0_dma_resp;
- dev_p->usb_ep0_dma_req = 0;
- dev_p->usb_ep0_dma_resp = 0;
- } else {
- req_p = dev_p->usb_ep1_dma_req;
- resp_p = dev_p->usb_ep1_dma_resp;
- dev_p->usb_ep1_dma_req = 0;
- dev_p->usb_ep1_dma_resp = 0;
- }
-
- cy_as_hal_assert(req_p != 0);
- cy_as_hal_assert(resp_p != 0);
- cy_as_hal_assert(len <= 64);
-
- cy_as_ll_init_request(req_p, CY_RQT_USB_EP_DATA,
- CY_RQT_USB_RQT_CONTEXT, len);
-
- v = (uint16_t)(datacnt | (ep_p->ep << 13) | (1 << 14));
- if (dma_p->offset == 0)
- v |= (1 << 12);/* Set the first packet bit */
- if (dma_p->offset + datacnt == dma_p->size)
- v |= (1 << 11);/* Set the last packet bit */
-
- cy_as_ll_request_response__set_word(req_p, 0, v);
- cy_as_ll_request_response__pack(req_p,
- 1, datacnt, buf_p);
-
- cy_as_ll_init_response(resp_p, 1);
-
- ret = cy_as_ll_send_request(dev_p, req_p, resp_p,
- cy_false, cy_as_dma_request_callback);
- if (ret == CY_AS_ERROR_SUCCESS)
- cy_as_log_debug_message(5,
- "+++ send EP 0/1 data via mailbox registers");
- else
- cy_as_log_debug_message(5,
- "+++ error sending EP 0/1 data via mailbox "
- "registers - CY_AS_ERROR_TIMEOUT");
-
- if (ret != CY_AS_ERROR_SUCCESS)
- cy_as_dma_completed_callback(dev_p->tag,
- ep_p->ep, 0, ret);
- }
- } else {
- /*
- * this is a DMA request on an endpoint that is accessible
- * via the P port. ask the HAL DMA capabilities to
- * perform this. the amount of data sent is limited by the
- * HAL max size as well as what we need to send. if the
- * ep_p->maxhaldata is set to a value larger than the
- * endpoint buffer size, then we will pass more than a
- * single buffer worth of data to the HAL layer and expect
- * the HAL layer to divide the data into packets. the last
- * parameter here (ep_p->maxhwdata) gives the packet size for
- * the data so the HAL layer knows what the packet size should
- * be.
- */
- if (cy_as_dma_end_point_is_direction_in(ep_p))
- cy_as_hal_dma_setup_write(dev_p->tag,
- ep_p->ep, buf_p, datacnt, ep_p->maxhwdata);
- else
- cy_as_hal_dma_setup_read(dev_p->tag,
- ep_p->ep, buf_p, datacnt, ep_p->maxhwdata);
-
- /*
- * the DRQ interrupt for this endpoint should be enabled
- * so that the data transfer progresses at interrupt time.
- */
- cy_as_dma_set_drq(dev_p, ep_p->ep, cy_true);
- }
-}
-
-/*
- * This function is called when the HAL layer has
- * completed the last requested DMA operation.
- * This function sends/receives the next batch of
- * data associated with the current DMA request,
- * or it is is complete, moves to the next DMA request.
- */
-void
-cy_as_dma_completed_callback(cy_as_hal_device_tag tag,
- cy_as_end_point_number_t ep, uint32_t cnt, cy_as_return_status_t status)
-{
- uint32_t mask;
- cy_as_dma_queue_entry *req_p;
- cy_as_dma_end_point *ep_p;
- cy_as_device *dev_p = cy_as_device_find_from_tag(tag);
-
- /* Make sure the HAL layer gave us good parameters */
- cy_as_hal_assert(dev_p != 0);
- cy_as_hal_assert(dev_p->sig == CY_AS_DEVICE_HANDLE_SIGNATURE);
- cy_as_hal_assert(ep < 16);
-
-
- /* Get the endpoint ptr */
- ep_p = CY_AS_NUM_EP(dev_p, ep);
- cy_as_hal_assert(ep_p->queue_p != 0);
-
- /* Get a pointer to the current entry in the queue */
- mask = cy_as_hal_disable_interrupts();
- req_p = ep_p->queue_p;
-
- /* Update the offset to reflect the data actually received or sent */
- req_p->offset += cnt;
-
- /*
- * if we are still sending/receiving the current packet,
- * send/receive the next chunk basically we keep going
- * if we have not sent/received enough data, and we are
- * not doing a packet operation, and the last packet
- * sent or received was a full sized packet. in other
- * words, when we are NOT doing a packet operation, a
- * less than full size packet (a short packet) will
- * terminate the operation.
- *
- * note: if this is EP1 request and the request has
- * timed out, it means the buffer is not free.
- * we have to resend the data.
- *
- * note: for the MTP data transfers, the DMA transfer
- * for the next packet can only be started asynchronously,
- * after a firmware event notifies that the device is ready.
- */
- if (((req_p->offset != req_p->size) && (req_p->packet == cy_false) &&
- ((cnt == ep_p->maxhaldata) || ((cnt == ep_p->maxhwdata) &&
- ((ep != CY_AS_MTP_READ_ENDPOINT) ||
- (cnt == dev_p->usb_max_tx_size)))))
- || ((ep == 1) && (status == CY_AS_ERROR_TIMEOUT))) {
- cy_as_hal_enable_interrupts(mask);
-
- /*
- * and send the request again to send the next block of
- * data. special handling for MTP transfers on E_ps 2
- * and 6. the send_next_request will be processed based
- * on the event sent by the firmware.
- */
- if ((ep == CY_AS_MTP_WRITE_ENDPOINT) || (
- (ep == CY_AS_MTP_READ_ENDPOINT) &&
- (!cy_as_dma_end_point_is_direction_in(ep_p))))
- cy_as_dma_end_point_set_stopped(ep_p);
- else
- cy_as_dma_send_next_dma_request(dev_p, ep_p);
- } else {
- /*
- * we get here if ...
- * we have sent or received all of the data
- * or
- * we are doing a packet operation
- * or
- * we receive a short packet
- */
-
- /*
- * remove this entry from the DMA queue for this endpoint.
- */
- cy_as_dma_end_point_clear_in_transit(ep_p);
- ep_p->queue_p = req_p->next_p;
- if (ep_p->last_p == req_p) {
- /*
- * we have removed the last packet from the DMA queue,
- * disable the interrupt associated with this interrupt.
- */
- ep_p->last_p = 0;
- cy_as_hal_enable_interrupts(mask);
- cy_as_dma_set_drq(dev_p, ep, cy_false);
- } else
- cy_as_hal_enable_interrupts(mask);
-
- if (req_p->cb) {
- /*
- * if the request has a callback associated with it,
- * call the callback to tell the interested party that
- * this DMA request has completed.
- *
- * note, we set the in_callback bit to insure that we
- * cannot recursively call an API function that is
- * synchronous only from a callback.
- */
- cy_as_device_set_in_callback(dev_p);
- (*req_p->cb)(dev_p, ep, req_p->buf_p,
- req_p->offset, status);
- cy_as_device_clear_in_callback(dev_p);
- }
-
- /*
- * we are done with this request, put it on the freelist to be
- * reused at a later time.
- */
- cy_as_dma_add_request_to_free_queue(dev_p, req_p);
-
- if (ep_p->queue_p == 0) {
- /*
- * if the endpoint is out of DMA entries, set the
- * endpoint as stopped.
- */
- cy_as_dma_end_point_set_stopped(ep_p);
-
- /*
- * the DMA queue is empty, wake any task waiting on
- * the QUEUE to drain.
- */
- if (cy_as_dma_end_point_is_sleeping(ep_p)) {
- cy_as_dma_end_point_set_wake_state(ep_p);
- cy_as_hal_wake(&ep_p->channel);
- }
- } else {
- /*
- * if the queued operation is a MTP transfer,
- * wait until firmware event before sending
- * down the next DMA request.
- */
- if ((ep == CY_AS_MTP_WRITE_ENDPOINT) ||
- ((ep == CY_AS_MTP_READ_ENDPOINT) &&
- (!cy_as_dma_end_point_is_direction_in(ep_p))) ||
- ((ep == dev_p->storage_read_endpoint) &&
- (!cy_as_device_is_p2s_dma_start_recvd(dev_p)))
- || ((ep == dev_p->storage_write_endpoint) &&
- (!cy_as_device_is_p2s_dma_start_recvd(dev_p))))
- cy_as_dma_end_point_set_stopped(ep_p);
- else
- cy_as_dma_send_next_dma_request(dev_p, ep_p);
- }
- }
-}
-
-/*
-* This function is used to kick start DMA on a given
-* channel. If DMA is already running on the given
-* endpoint, nothing happens. If DMA is not running,
-* the first entry is pulled from the DMA queue and
-* sent/recevied to/from the West Bridge device.
-*/
-cy_as_return_status_t
-cy_as_dma_kick_start(cy_as_device *dev_p, cy_as_end_point_number_t ep)
-{
- cy_as_dma_end_point *ep_p;
- cy_as_hal_assert(dev_p->sig == CY_AS_DEVICE_HANDLE_SIGNATURE);
-
- ep_p = CY_AS_NUM_EP(dev_p, ep);
-
- /* We are already running */
- if (cy_as_dma_end_point_is_running(ep_p))
- return CY_AS_ERROR_SUCCESS;
-
- cy_as_dma_send_next_dma_request(dev_p, ep_p);
- return CY_AS_ERROR_SUCCESS;
-}
-
-/*
- * This function stops the given endpoint. Stopping and endpoint cancels
- * any pending DMA operations and frees all resources associated with the
- * given endpoint.
- */
-static cy_as_return_status_t
-cy_as_dma_stop_end_point(cy_as_device *dev_p, cy_as_end_point_number_t ep)
-{
- cy_as_return_status_t ret;
- cy_as_dma_end_point *ep_p = CY_AS_NUM_EP(dev_p, ep);
-
- /*
- * cancel any pending DMA requests associated with this endpoint. this
- * cancels any DMA requests at the HAL layer as well as dequeues any
- * request that is currently pending.
- */
- ret = cy_as_dma_cancel(dev_p, ep, CY_AS_ERROR_CANCELED);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /*
- * destroy the sleep channel
- */
- if (!cy_as_hal_destroy_sleep_channel(&ep_p->channel)
- && ret == CY_AS_ERROR_SUCCESS)
- ret = CY_AS_ERROR_DESTROY_SLEEP_CHANNEL_FAILED;
-
- /*
- * free the memory associated with this endpoint
- */
- cy_as_hal_free(ep_p);
-
- /*
- * set the data structure ptr to something sane since the
- * previous pointer is now free.
- */
- dev_p->endp[ep] = 0;
-
- return ret;
-}
-
-/*
- * This method stops the USB stack. This is an internal function that does
- * all of the work of destroying the USB stack without the protections that
- * we provide to the API (i.e. stopping at stack that is not running).
- */
-static cy_as_return_status_t
-cy_as_dma_stop_internal(cy_as_device *dev_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_return_status_t lret;
- cy_as_end_point_number_t i;
-
- /*
- * stop all of the endpoints. this cancels all DMA requests, and
- * frees all resources associated with each endpoint.
- */
- for (i = 0; i < sizeof(dev_p->endp)/(sizeof(dev_p->endp[0])); i++) {
- lret = cy_as_dma_stop_end_point(dev_p, i);
- if (lret != CY_AS_ERROR_SUCCESS && ret == CY_AS_ERROR_SUCCESS)
- ret = lret;
- }
-
- /*
- * now, free the list of DMA requests structures that we use to manage
- * DMA requests.
- */
- while (dev_p->dma_freelist_p) {
- cy_as_dma_queue_entry *req_p;
- uint32_t imask = cy_as_hal_disable_interrupts();
-
- req_p = dev_p->dma_freelist_p;
- dev_p->dma_freelist_p = req_p->next_p;
-
- cy_as_hal_enable_interrupts(imask);
-
- cy_as_hal_free(req_p);
- }
-
- cy_as_ll_destroy_request(dev_p, dev_p->usb_ep0_dma_req);
- cy_as_ll_destroy_request(dev_p, dev_p->usb_ep1_dma_req);
- cy_as_ll_destroy_response(dev_p, dev_p->usb_ep0_dma_resp);
- cy_as_ll_destroy_response(dev_p, dev_p->usb_ep1_dma_resp);
-
- return ret;
-}
-
-
-/*
- * CyAsDmaStop()
- *
- * This function shuts down the DMA module. All resources
- * associated with the DMA module will be freed. This
- * routine is the API stop function. It insures that we
- * are stopping a stack that is actually running and then
- * calls the internal function to do the work.
- */
-cy_as_return_status_t
-cy_as_dma_stop(cy_as_device *dev_p)
-{
- cy_as_return_status_t ret;
-
- ret = cy_as_dma_stop_internal(dev_p);
- cy_as_device_set_dma_stopped(dev_p);
-
- return ret;
-}
-
-/*
- * CyAsDmaStart()
- *
- * This function initializes the DMA module to insure it is up and running.
- */
-cy_as_return_status_t
-cy_as_dma_start(cy_as_device *dev_p)
-{
- cy_as_end_point_number_t i;
- uint16_t cnt;
-
- if (cy_as_device_is_dma_running(dev_p))
- return CY_AS_ERROR_ALREADY_RUNNING;
-
- /*
- * pre-allocate DMA queue structures to be used in the interrupt context
- */
- for (cnt = 0; cnt < 32; cnt++) {
- cy_as_dma_queue_entry *entry_p = (cy_as_dma_queue_entry *)
- cy_as_hal_alloc(sizeof(cy_as_dma_queue_entry));
- if (entry_p == 0) {
- cy_as_dma_stop_internal(dev_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
- cy_as_dma_add_request_to_free_queue(dev_p, entry_p);
- }
-
- /*
- * pre-allocate the DMA requests for sending EP0
- * and EP1 data to west bridge
- */
- dev_p->usb_ep0_dma_req = cy_as_ll_create_request(dev_p,
- CY_RQT_USB_EP_DATA, CY_RQT_USB_RQT_CONTEXT, 64);
- dev_p->usb_ep1_dma_req = cy_as_ll_create_request(dev_p,
- CY_RQT_USB_EP_DATA, CY_RQT_USB_RQT_CONTEXT, 64);
-
- if (dev_p->usb_ep0_dma_req == 0 || dev_p->usb_ep1_dma_req == 0) {
- cy_as_dma_stop_internal(dev_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
- dev_p->usb_ep0_dma_req_save = dev_p->usb_ep0_dma_req;
-
- dev_p->usb_ep0_dma_resp = cy_as_ll_create_response(dev_p, 1);
- dev_p->usb_ep1_dma_resp = cy_as_ll_create_response(dev_p, 1);
- if (dev_p->usb_ep0_dma_resp == 0 || dev_p->usb_ep1_dma_resp == 0) {
- cy_as_dma_stop_internal(dev_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
- dev_p->usb_ep0_dma_resp_save = dev_p->usb_ep0_dma_resp;
-
- /*
- * set the dev_p->endp to all zeros to insure cleanup is possible if
- * an error occurs during initialization.
- */
- cy_as_hal_mem_set(dev_p->endp, 0, sizeof(dev_p->endp));
-
- /*
- * now, iterate through each of the endpoints and initialize each
- * one.
- */
- for (i = 0; i < sizeof(dev_p->endp)/sizeof(dev_p->endp[0]); i++) {
- dev_p->endp[i] = (cy_as_dma_end_point *)
- cy_as_hal_alloc(sizeof(cy_as_dma_end_point));
- if (dev_p->endp[i] == 0) {
- cy_as_dma_stop_internal(dev_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
- cy_as_hal_mem_set(dev_p->endp[i], 0,
- sizeof(cy_as_dma_end_point));
-
- dev_p->endp[i]->ep = i;
- dev_p->endp[i]->queue_p = 0;
- dev_p->endp[i]->last_p = 0;
-
- cy_as_dma_set_drq(dev_p, i, cy_false);
-
- if (!cy_as_hal_create_sleep_channel(&dev_p->endp[i]->channel))
- return CY_AS_ERROR_CREATE_SLEEP_CHANNEL_FAILED;
- }
-
- /*
- * tell the HAL layer who to call when the
- * HAL layer completes a DMA request
- */
- cy_as_hal_dma_register_callback(dev_p->tag,
- cy_as_dma_completed_callback);
-
- /*
- * mark DMA as up and running on this device
- */
- cy_as_device_set_dma_running(dev_p);
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-/*
-* Wait for all entries in the DMA queue associated
-* the given endpoint to be drained. This function
-* will not return until all the DMA data has been
-* transferred.
-*/
-cy_as_return_status_t
-cy_as_dma_drain_queue(cy_as_device *dev_p,
- cy_as_end_point_number_t ep, cy_bool kickstart)
-{
- cy_as_dma_end_point *ep_p;
- int loopcount = 1000;
- uint32_t mask;
-
- /*
- * make sure the endpoint is valid
- */
- if (ep >= sizeof(dev_p->endp)/sizeof(dev_p->endp[0]))
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- /* Get the endpoint pointer based on the endpoint number */
- ep_p = CY_AS_NUM_EP(dev_p, ep);
-
- /*
- * if the endpoint is empty of traffic, we return
- * with success immediately
- */
- mask = cy_as_hal_disable_interrupts();
- if (ep_p->queue_p == 0) {
- cy_as_hal_enable_interrupts(mask);
- return CY_AS_ERROR_SUCCESS;
- } else {
- /*
- * add 10 seconds to the time out value for each 64 KB segment
- * of data to be transferred.
- */
- if (ep_p->queue_p->size > 0x10000)
- loopcount += ((ep_p->queue_p->size / 0x10000) * 1000);
- }
- cy_as_hal_enable_interrupts(mask);
-
- /* If we are already sleeping on this endpoint, it is an error */
- if (cy_as_dma_end_point_is_sleeping(ep_p))
- return CY_AS_ERROR_NESTED_SLEEP;
-
- /*
- * we disable the endpoint while the queue drains to
- * prevent any additional requests from being queued while we are waiting
- */
- cy_as_dma_enable_end_point(dev_p, ep,
- cy_false, cy_as_direction_dont_change);
-
- if (kickstart) {
- /*
- * now, kick start the DMA if necessary
- */
- cy_as_dma_kick_start(dev_p, ep);
- }
-
- /*
- * check one last time before we begin sleeping to see if the
- * queue is drained.
- */
- if (ep_p->queue_p == 0) {
- cy_as_dma_enable_end_point(dev_p, ep, cy_true,
- cy_as_direction_dont_change);
- return CY_AS_ERROR_SUCCESS;
- }
-
- while (loopcount-- > 0) {
- /*
- * sleep for 10 ms maximum (per loop) while
- * waiting for the transfer to complete.
- */
- cy_as_dma_end_point_set_sleep_state(ep_p);
- cy_as_hal_sleep_on(&ep_p->channel, 10);
-
- /* If we timed out, the sleep bit will still be set */
- cy_as_dma_end_point_set_wake_state(ep_p);
-
- /* Check the queue to see if is drained */
- if (ep_p->queue_p == 0) {
- /*
- * clear the endpoint running and in transit flags
- * for the endpoint, now that its DMA queue is empty.
- */
- cy_as_dma_end_point_clear_in_transit(ep_p);
- cy_as_dma_end_point_set_stopped(ep_p);
-
- cy_as_dma_enable_end_point(dev_p, ep,
- cy_true, cy_as_direction_dont_change);
- return CY_AS_ERROR_SUCCESS;
- }
- }
-
- /*
- * the DMA operation that has timed out can be cancelled, so that later
- * operations on this queue can proceed.
- */
- cy_as_dma_cancel(dev_p, ep, CY_AS_ERROR_TIMEOUT);
- cy_as_dma_enable_end_point(dev_p, ep,
- cy_true, cy_as_direction_dont_change);
- return CY_AS_ERROR_TIMEOUT;
-}
-
-/*
-* This function queues a write request in the DMA queue
-* for a given endpoint. The direction of the
-* entry will be inferred from the endpoint direction.
-*/
-cy_as_return_status_t
-cy_as_dma_queue_request(cy_as_device *dev_p,
- cy_as_end_point_number_t ep, void *mem_p,
- uint32_t size, cy_bool pkt, cy_bool readreq, cy_as_dma_callback cb)
-{
- uint32_t mask;
- cy_as_dma_queue_entry *entry_p;
- cy_as_dma_end_point *ep_p;
-
- /*
- * make sure the endpoint is valid
- */
- if (ep >= sizeof(dev_p->endp)/sizeof(dev_p->endp[0]))
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- /* Get the endpoint pointer based on the endpoint number */
- ep_p = CY_AS_NUM_EP(dev_p, ep);
-
- if (!cy_as_dma_end_point_is_enabled(ep_p))
- return CY_AS_ERROR_ENDPOINT_DISABLED;
-
- entry_p = cy_as_dma_get_dma_queue_entry(dev_p);
-
- entry_p->buf_p = mem_p;
- entry_p->cb = cb;
- entry_p->size = size;
- entry_p->offset = 0;
- entry_p->packet = pkt;
- entry_p->readreq = readreq;
-
- mask = cy_as_hal_disable_interrupts();
- entry_p->next_p = 0;
- if (ep_p->last_p)
- ep_p->last_p->next_p = entry_p;
- ep_p->last_p = entry_p;
- if (ep_p->queue_p == 0)
- ep_p->queue_p = entry_p;
- cy_as_hal_enable_interrupts(mask);
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-/*
-* This function enables or disables and endpoint for DMA
-* queueing. If an endpoint is disabled, any queue requests
-* continue to be processed, but no new requests can be queued.
-*/
-cy_as_return_status_t
-cy_as_dma_enable_end_point(cy_as_device *dev_p,
- cy_as_end_point_number_t ep, cy_bool enable, cy_as_dma_direction dir)
-{
- cy_as_dma_end_point *ep_p;
-
- /*
- * make sure the endpoint is valid
- */
- if (ep >= sizeof(dev_p->endp)/sizeof(dev_p->endp[0]))
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- /* Get the endpoint pointer based on the endpoint number */
- ep_p = CY_AS_NUM_EP(dev_p, ep);
-
- if (dir == cy_as_direction_out)
- cy_as_dma_end_point_set_direction_out(ep_p);
- else if (dir == cy_as_direction_in)
- cy_as_dma_end_point_set_direction_in(ep_p);
-
- /*
- * get the maximum size of data buffer the HAL
- * layer can accept. this is used when the DMA
- * module is sending DMA requests to the HAL.
- * the DMA module will never send down a request
- * that is greater than this value.
- *
- * for EP0 and EP1, we can send no more than 64
- * bytes of data at one time as this is the maximum
- * size of a packet that can be sent via these
- * endpoints.
- */
- if (ep == 0 || ep == 1)
- ep_p->maxhaldata = 64;
- else
- ep_p->maxhaldata = cy_as_hal_dma_max_request_size(
- dev_p->tag, ep);
-
- if (enable)
- cy_as_dma_end_point_enable(ep_p);
- else
- cy_as_dma_end_point_disable(ep_p);
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-/*
- * This function cancels any DMA operations pending with the HAL layer as well
- * as any DMA operation queued on the endpoint.
- */
-cy_as_return_status_t
-cy_as_dma_cancel(
- cy_as_device *dev_p,
- cy_as_end_point_number_t ep,
- cy_as_return_status_t err)
-{
- uint32_t mask;
- cy_as_dma_end_point *ep_p;
- cy_as_dma_queue_entry *entry_p;
- cy_bool epstate;
-
- /*
- * make sure the endpoint is valid
- */
- if (ep >= sizeof(dev_p->endp)/sizeof(dev_p->endp[0]))
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- /* Get the endpoint pointer based on the endpoint number */
- ep_p = CY_AS_NUM_EP(dev_p, ep);
-
- if (ep_p) {
- /* Remember the state of the endpoint */
- epstate = cy_as_dma_end_point_is_enabled(ep_p);
-
- /*
- * disable the endpoint so no more DMA packets can be
- * queued.
- */
- cy_as_dma_enable_end_point(dev_p, ep,
- cy_false, cy_as_direction_dont_change);
-
- /*
- * don't allow any interrupts from this endpoint
- * while we get the most current request off of
- * the queue.
- */
- cy_as_dma_set_drq(dev_p, ep, cy_false);
-
- /*
- * cancel any pending request queued in the HAL layer
- */
- if (cy_as_dma_end_point_in_transit(ep_p))
- cy_as_hal_dma_cancel_request(dev_p->tag, ep_p->ep);
-
- /*
- * shutdown the DMA for this endpoint so no
- * more data is transferred
- */
- cy_as_dma_end_point_set_stopped(ep_p);
-
- /*
- * mark the endpoint as not in transit, because we are
- * going to consume any queued requests
- */
- cy_as_dma_end_point_clear_in_transit(ep_p);
-
- /*
- * now, remove each entry in the queue and call the
- * associated callback stating that the request was
- * canceled.
- */
- ep_p->last_p = 0;
- while (ep_p->queue_p != 0) {
- /* Disable interrupts to manipulate the queue */
- mask = cy_as_hal_disable_interrupts();
-
- /* Remove an entry from the queue */
- entry_p = ep_p->queue_p;
- ep_p->queue_p = entry_p->next_p;
-
- /* Ok, the queue has been updated, we can
- * turn interrupts back on */
- cy_as_hal_enable_interrupts(mask);
-
- /* Call the callback indicating we have
- * canceled the DMA */
- if (entry_p->cb)
- entry_p->cb(dev_p, ep,
- entry_p->buf_p, entry_p->size, err);
-
- cy_as_dma_add_request_to_free_queue(dev_p, entry_p);
- }
-
- if (ep == 0 || ep == 1) {
- /*
- * if this endpoint is zero or one, we need to
- * clear the queue of any pending CY_RQT_USB_EP_DATA
- * requests as these are pending requests to send
- * data to the west bridge device.
- */
- cy_as_ll_remove_ep_data_requests(dev_p, ep);
- }
-
- if (epstate) {
- /*
- * the endpoint started out enabled, so we
- * re-enable the endpoint here.
- */
- cy_as_dma_enable_end_point(dev_p, ep,
- cy_true, cy_as_direction_dont_change);
- }
- }
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-cy_as_return_status_t
-cy_as_dma_received_data(cy_as_device *dev_p,
- cy_as_end_point_number_t ep, uint32_t dsize, void *data)
-{
- cy_as_dma_queue_entry *dma_p;
- uint8_t *src_p, *dest_p;
- cy_as_dma_end_point *ep_p;
- uint32_t xfersize;
-
- /*
- * make sure the endpoint is valid
- */
- if (ep != 0 && ep != 1)
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- /* Get the endpoint pointer based on the endpoint number */
- ep_p = CY_AS_NUM_EP(dev_p, ep);
- dma_p = ep_p->queue_p;
- if (dma_p == 0)
- return CY_AS_ERROR_SUCCESS;
-
- /*
- * if the data received exceeds the size of the DMA buffer,
- * clip the data to the size of the buffer. this can lead
- * to losing some data, but is not different than doing
- * non-packet reads on the other endpoints.
- */
- if (dsize > dma_p->size - dma_p->offset)
- dsize = dma_p->size - dma_p->offset;
-
- /*
- * copy the data from the request packet to the DMA buffer
- * for the endpoint
- */
- src_p = (uint8_t *)data;
- dest_p = ((uint8_t *)(dma_p->buf_p)) + dma_p->offset;
- xfersize = dsize;
- while (xfersize-- > 0)
- *dest_p++ = *src_p++;
-
- /* Signal the DMA module that we have
- * received data for this EP request */
- cy_as_dma_completed_callback(dev_p->tag,
- ep, dsize, CY_AS_ERROR_SUCCESS);
-
- return CY_AS_ERROR_SUCCESS;
-}
+++ /dev/null
-/* Cypress West Bridge API source file (cyasintr.c)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#include "../../include/linux/westbridge/cyashal.h"
-#include "../../include/linux/westbridge/cyasdevice.h"
-#include "../../include/linux/westbridge/cyasregs.h"
-#include "../../include/linux/westbridge/cyaserr.h"
-
-extern void cy_as_mail_box_interrupt_handler(cy_as_device *);
-
-void
-cy_as_mcu_interrupt_handler(cy_as_device *dev_p)
-{
- /* Read and clear the interrupt. */
- uint16_t v;
-
- v = cy_as_hal_read_register(dev_p->tag, CY_AS_MEM_P0_MCU_STAT);
- v = v;
-}
-
-void
-cy_as_power_management_interrupt_handler(cy_as_device *dev_p)
-{
- uint16_t v;
-
- v = cy_as_hal_read_register(dev_p->tag, CY_AS_MEM_PWR_MAGT_STAT);
- v = v;
-}
-
-void
-cy_as_pll_lock_loss_interrupt_handler(cy_as_device *dev_p)
-{
- uint16_t v;
-
- v = cy_as_hal_read_register(dev_p->tag, CY_AS_MEM_PLL_LOCK_LOSS_STAT);
- v = v;
-}
-
-uint32_t cy_as_intr_start(cy_as_device *dev_p, cy_bool dmaintr)
-{
- uint16_t v;
-
- cy_as_hal_assert(dev_p->sig == CY_AS_DEVICE_HANDLE_SIGNATURE);
-
- if (cy_as_device_is_intr_running(dev_p) != 0)
- return CY_AS_ERROR_ALREADY_RUNNING;
-
- v = CY_AS_MEM_P0_INT_MASK_REG_MMCUINT |
- CY_AS_MEM_P0_INT_MASK_REG_MMBINT |
- CY_AS_MEM_P0_INT_MASK_REG_MPMINT;
-
- if (dmaintr)
- v |= CY_AS_MEM_P0_INT_MASK_REG_MDRQINT;
-
- /* Enable the interrupts of interest */
- cy_as_hal_write_register(dev_p->tag, CY_AS_MEM_P0_INT_MASK_REG, v);
-
- /* Mark the interrupt module as initialized */
- cy_as_device_set_intr_running(dev_p);
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-uint32_t cy_as_intr_stop(cy_as_device *dev_p)
-{
- cy_as_hal_assert(dev_p->sig == CY_AS_DEVICE_HANDLE_SIGNATURE);
-
- if (cy_as_device_is_intr_running(dev_p) == 0)
- return CY_AS_ERROR_NOT_RUNNING;
-
- cy_as_hal_write_register(dev_p->tag, CY_AS_MEM_P0_INT_MASK_REG, 0);
- cy_as_device_set_intr_stopped(dev_p);
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-void cy_as_intr_service_interrupt(cy_as_hal_device_tag tag)
-{
- uint16_t v;
- cy_as_device *dev_p;
-
- dev_p = cy_as_device_find_from_tag(tag);
-
- /*
- * only power management interrupts can occur before the
- * antioch API setup is complete. if this is a PM interrupt
- * handle it here; otherwise output a warning message.
- */
- if (dev_p == 0) {
- v = cy_as_hal_read_register(tag, CY_AS_MEM_P0_INTR_REG);
- if (v == CY_AS_MEM_P0_INTR_REG_PMINT) {
- /* Read the PWR_MAGT_STAT register
- * to clear this interrupt. */
- v = cy_as_hal_read_register(tag,
- CY_AS_MEM_PWR_MAGT_STAT);
- } else
- cy_as_hal_print_message("stray antioch "
- "interrupt detected"
- ", tag not associated "
- "with any created device.");
- return;
- }
-
- /* Make sure we got a valid object from CyAsDeviceFindFromTag */
- cy_as_hal_assert(dev_p->sig == CY_AS_DEVICE_HANDLE_SIGNATURE);
-
- v = cy_as_hal_read_register(dev_p->tag, CY_AS_MEM_P0_INTR_REG);
-
- if (v & CY_AS_MEM_P0_INTR_REG_MCUINT)
- cy_as_mcu_interrupt_handler(dev_p);
-
- if (v & CY_AS_MEM_P0_INTR_REG_PMINT)
- cy_as_power_management_interrupt_handler(dev_p);
-
- if (v & CY_AS_MEM_P0_INTR_REG_PLLLOCKINT)
- cy_as_pll_lock_loss_interrupt_handler(dev_p);
-
- /* If the interrupt module is not running, no mailbox
- * interrupts are expected from the west bridge. */
- if (cy_as_device_is_intr_running(dev_p) == 0)
- return;
-
- if (v & CY_AS_MEM_P0_INTR_REG_MBINT)
- cy_as_mail_box_interrupt_handler(dev_p);
-}
+++ /dev/null
-/* Cypress West Bridge API source file (cyaslep2pep.c)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#include "../../include/linux/westbridge/cyashal.h"
-#include "../../include/linux/westbridge/cyasusb.h"
-#include "../../include/linux/westbridge/cyaserr.h"
-#include "../../include/linux/westbridge/cyaslowlevel.h"
-#include "../../include/linux/westbridge/cyasdma.h"
-
-typedef enum cy_as_physical_endpoint_state {
- cy_as_e_p_free,
- cy_as_e_p_in,
- cy_as_e_p_out,
- cy_as_e_p_iso_in,
- cy_as_e_p_iso_out
-} cy_as_physical_endpoint_state;
-
-
-/*
-* This map is used to map an index between 1 and 10
-* to a logical endpoint number. This is used to map
-* LEP register indexes into actual EP numbers.
-*/
-static cy_as_end_point_number_t end_point_map[] = {
- 3, 5, 7, 9, 10, 11, 12, 13, 14, 15 };
-
-#define CY_AS_EPCFG_1024 (1 << 3)
-#define CY_AS_EPCFG_DBL (0x02)
-#define CY_AS_EPCFG_TRIPLE (0x03)
-#define CY_AS_EPCFG_QUAD (0x00)
-
-/*
- * NB: This table contains the register values for PEP1
- * and PEP3. PEP2 and PEP4 only have a bit to change the
- * direction of the PEP and therefre are not represented
- * in this table.
- */
-static uint8_t pep_register_values[12][4] = {
- /* Bit 1:0 buffering, 0 = quad, 2 = double, 3 = triple */
- /* Bit 3 size, 0 = 512, 1 = 1024 */
- {
- CY_AS_EPCFG_DBL,
- CY_AS_EPCFG_DBL,
- },/* Config 1 - PEP1 (2 * 512), PEP2 (2 * 512),
- * PEP3 (2 * 512), PEP4 (2 * 512) */
- {
- CY_AS_EPCFG_DBL,
- CY_AS_EPCFG_QUAD,
- }, /* Config 2 - PEP1 (2 * 512), PEP2 (2 * 512),
- * PEP3 (4 * 512), PEP4 (N/A) */
- {
- CY_AS_EPCFG_DBL,
- CY_AS_EPCFG_DBL | CY_AS_EPCFG_1024,
- },/* Config 3 - PEP1 (2 * 512), PEP2 (2 * 512),
- * PEP3 (2 * 1024), PEP4(N/A) */
- {
- CY_AS_EPCFG_QUAD,
- CY_AS_EPCFG_DBL,
- },/* Config 4 - PEP1 (4 * 512), PEP2 (N/A),
- * PEP3 (2 * 512), PEP4 (2 * 512) */
- {
- CY_AS_EPCFG_QUAD,
- CY_AS_EPCFG_QUAD,
- },/* Config 5 - PEP1 (4 * 512), PEP2 (N/A),
- * PEP3 (4 * 512), PEP4 (N/A) */
- {
- CY_AS_EPCFG_QUAD,
- CY_AS_EPCFG_1024 | CY_AS_EPCFG_DBL,
- },/* Config 6 - PEP1 (4 * 512), PEP2 (N/A),
- * PEP3 (2 * 1024), PEP4 (N/A) */
- {
- CY_AS_EPCFG_1024 | CY_AS_EPCFG_DBL,
- CY_AS_EPCFG_DBL,
- },/* Config 7 - PEP1 (2 * 1024), PEP2 (N/A),
- * PEP3 (2 * 512), PEP4 (2 * 512) */
- {
- CY_AS_EPCFG_1024 | CY_AS_EPCFG_DBL,
- CY_AS_EPCFG_QUAD,
- },/* Config 8 - PEP1 (2 * 1024), PEP2 (N/A),
- * PEP3 (4 * 512), PEP4 (N/A) */
- {
- CY_AS_EPCFG_1024 | CY_AS_EPCFG_DBL,
- CY_AS_EPCFG_1024 | CY_AS_EPCFG_DBL,
- },/* Config 9 - PEP1 (2 * 1024), PEP2 (N/A),
- * PEP3 (2 * 1024), PEP4 (N/A)*/
- {
- CY_AS_EPCFG_TRIPLE,
- CY_AS_EPCFG_TRIPLE,
- },/* Config 10 - PEP1 (3 * 512), PEP2 (N/A),
- * PEP3 (3 * 512), PEP4 (2 * 512)*/
- {
- CY_AS_EPCFG_TRIPLE | CY_AS_EPCFG_1024,
- CY_AS_EPCFG_DBL,
- },/* Config 11 - PEP1 (3 * 1024), PEP2 (N/A),
- * PEP3 (N/A), PEP4 (2 * 512) */
- {
- CY_AS_EPCFG_QUAD | CY_AS_EPCFG_1024,
- CY_AS_EPCFG_DBL,
- },/* Config 12 - PEP1 (4 * 1024), PEP2 (N/A),
- * PEP3 (N/A), PEP4 (N/A) */
-};
-
-static cy_as_return_status_t
-find_endpoint_directions(cy_as_device *dev_p,
- cy_as_physical_endpoint_state epstate[4])
-{
- int i;
- cy_as_physical_endpoint_state desired;
-
- /*
- * note, there is no error checking here because
- * ISO error checking happens when the API is called.
- */
- for (i = 0; i < 10; i++) {
- int epno = end_point_map[i];
- if (dev_p->usb_config[epno].enabled) {
- int pep = dev_p->usb_config[epno].physical;
- if (dev_p->usb_config[epno].type == cy_as_usb_iso) {
- /*
- * marking this as an ISO endpoint, removes the
- * physical EP from consideration when
- * mapping the remaining E_ps.
- */
- if (dev_p->usb_config[epno].dir == cy_as_usb_in)
- desired = cy_as_e_p_iso_in;
- else
- desired = cy_as_e_p_iso_out;
- } else {
- if (dev_p->usb_config[epno].dir == cy_as_usb_in)
- desired = cy_as_e_p_in;
- else
- desired = cy_as_e_p_out;
- }
-
- /*
- * NB: Note the API calls insure that an ISO endpoint
- * has a physical and logical EP number that are the
- * same, therefore this condition is not enforced here.
- */
- if (epstate[pep - 1] !=
- cy_as_e_p_free && epstate[pep - 1] != desired)
- return CY_AS_ERROR_INVALID_CONFIGURATION;
-
- epstate[pep - 1] = desired;
- }
- }
-
- /*
- * create the EP1 config values directly.
- * both EP1OUT and EP1IN are invalid by default.
- */
- dev_p->usb_ep1cfg[0] = 0;
- dev_p->usb_ep1cfg[1] = 0;
- if (dev_p->usb_config[1].enabled) {
- if ((dev_p->usb_config[1].dir == cy_as_usb_out) ||
- (dev_p->usb_config[1].dir == cy_as_usb_in_out)) {
- /* Set the valid bit and type field. */
- dev_p->usb_ep1cfg[0] = (1 << 7);
- if (dev_p->usb_config[1].type == cy_as_usb_bulk)
- dev_p->usb_ep1cfg[0] |= (2 << 4);
- else
- dev_p->usb_ep1cfg[0] |= (3 << 4);
- }
-
- if ((dev_p->usb_config[1].dir == cy_as_usb_in) ||
- (dev_p->usb_config[1].dir == cy_as_usb_in_out)) {
- /* Set the valid bit and type field. */
- dev_p->usb_ep1cfg[1] = (1 << 7);
- if (dev_p->usb_config[1].type == cy_as_usb_bulk)
- dev_p->usb_ep1cfg[1] |= (2 << 4);
- else
- dev_p->usb_ep1cfg[1] |= (3 << 4);
- }
- }
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-static void
-create_register_settings(cy_as_device *dev_p,
- cy_as_physical_endpoint_state epstate[4])
-{
- int i;
- uint8_t v;
-
- for (i = 0; i < 4; i++) {
- if (i == 0) {
- /* Start with the values that specify size */
- dev_p->usb_pepcfg[i] =
- pep_register_values
- [dev_p->usb_phy_config - 1][0];
- } else if (i == 2) {
- /* Start with the values that specify size */
- dev_p->usb_pepcfg[i] =
- pep_register_values
- [dev_p->usb_phy_config - 1][1];
- } else
- dev_p->usb_pepcfg[i] = 0;
-
- /* Adjust direction if it is in */
- if (epstate[i] == cy_as_e_p_iso_in ||
- epstate[i] == cy_as_e_p_in)
- dev_p->usb_pepcfg[i] |= (1 << 6);
- }
-
- /* Configure the logical EP registers */
- for (i = 0; i < 10; i++) {
- int val;
- int epnum = end_point_map[i];
-
- v = 0x10; /* PEP 1, Bulk Endpoint, EP not valid */
- if (dev_p->usb_config[epnum].enabled) {
- v |= (1 << 7); /* Enabled */
-
- val = dev_p->usb_config[epnum].physical - 1;
- cy_as_hal_assert(val >= 0 && val <= 3);
- v |= (val << 5);
-
- switch (dev_p->usb_config[epnum].type) {
- case cy_as_usb_bulk:
- val = 2;
- break;
- case cy_as_usb_int:
- val = 3;
- break;
- case cy_as_usb_iso:
- val = 1;
- break;
- default:
- cy_as_hal_assert(cy_false);
- break;
- }
- v |= (val << 3);
- }
-
- dev_p->usb_lepcfg[i] = v;
- }
-}
-
-
-cy_as_return_status_t
-cy_as_usb_map_logical2_physical(cy_as_device *dev_p)
-{
- cy_as_return_status_t ret;
-
- /* Physical EPs 3 5 7 9 respectively in the array */
- cy_as_physical_endpoint_state epstate[4] = {
- cy_as_e_p_free, cy_as_e_p_free,
- cy_as_e_p_free, cy_as_e_p_free };
-
- /* Find the direction for the endpoints */
- ret = find_endpoint_directions(dev_p, epstate);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /*
- * now create the register settings based on the given
- * assigned of logical E_ps to physical endpoints.
- */
- create_register_settings(dev_p, epstate);
-
- return ret;
-}
-
-static uint16_t
-get_max_dma_size(cy_as_device *dev_p, cy_as_end_point_number_t ep)
-{
- uint16_t size = dev_p->usb_config[ep].size;
-
- if (size == 0) {
- switch (dev_p->usb_config[ep].type) {
- case cy_as_usb_control:
- size = 64;
- break;
-
- case cy_as_usb_bulk:
- size = cy_as_device_is_usb_high_speed(dev_p) ?
- 512 : 64;
- break;
-
- case cy_as_usb_int:
- size = cy_as_device_is_usb_high_speed(dev_p) ?
- 1024 : 64;
- break;
-
- case cy_as_usb_iso:
- size = cy_as_device_is_usb_high_speed(dev_p) ?
- 1024 : 1023;
- break;
- }
- }
-
- return size;
-}
-
-cy_as_return_status_t
-cy_as_usb_set_dma_sizes(cy_as_device *dev_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint32_t i;
-
- for (i = 0; i < 10; i++) {
- cy_as_usb_end_point_config *config_p =
- &dev_p->usb_config[end_point_map[i]];
- if (config_p->enabled) {
- ret = cy_as_dma_set_max_dma_size(dev_p,
- end_point_map[i],
- get_max_dma_size(dev_p, end_point_map[i]));
- if (ret != CY_AS_ERROR_SUCCESS)
- break;
- }
- }
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_usb_setup_dma(cy_as_device *dev_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint32_t i;
-
- for (i = 0; i < 10; i++) {
- cy_as_usb_end_point_config *config_p =
- &dev_p->usb_config[end_point_map[i]];
- if (config_p->enabled) {
- /* Map the endpoint direction to the DMA direction */
- cy_as_dma_direction dir = cy_as_direction_out;
- if (config_p->dir == cy_as_usb_in)
- dir = cy_as_direction_in;
-
- ret = cy_as_dma_enable_end_point(dev_p,
- end_point_map[i], cy_true, dir);
- if (ret != CY_AS_ERROR_SUCCESS)
- break;
- }
- }
-
- return ret;
-}
+++ /dev/null
-/* Cypress West Bridge API source file (cyaslowlevel.c)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#include "../../include/linux/westbridge/cyashal.h"
-#include "../../include/linux/westbridge/cyascast.h"
-#include "../../include/linux/westbridge/cyasdevice.h"
-#include "../../include/linux/westbridge/cyaslowlevel.h"
-#include "../../include/linux/westbridge/cyasintr.h"
-#include "../../include/linux/westbridge/cyaserr.h"
-#include "../../include/linux/westbridge/cyasregs.h"
-
-static const uint32_t cy_as_low_level_timeout_count = 65536 * 4;
-
-/* Forward declaration */
-static cy_as_return_status_t cy_as_send_one(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p);
-
-/*
-* This array holds the size of the largest request we will ever recevie from
-* the West Bridge device per context. The size is in 16 bit words. Note a
-* size of 0xffff indicates that there will be no requests on this context
-* from West Bridge.
-*/
-static uint16_t max_request_length[CY_RQT_CONTEXT_COUNT] = {
- 8, /* CY_RQT_GENERAL_RQT_CONTEXT - CY_RQT_INITIALIZATION_COMPLETE */
- 8, /* CY_RQT_RESOURCE_RQT_CONTEXT - none */
- 8, /* CY_RQT_STORAGE_RQT_CONTEXT - CY_RQT_MEDIA_CHANGED */
- 128, /* CY_RQT_USB_RQT_CONTEXT - CY_RQT_USB_EVENT */
- 8 /* CY_RQT_TUR_RQT_CONTEXT - CY_RQT_TURBO_CMD_FROM_HOST */
-};
-
-/*
-* For the given context, this function removes the request node at the head
-* of the queue from the context. This is called after all processing has
-* occurred on the given request and response and we are ready to remove this
-* entry from the queue.
-*/
-static void
-cy_as_ll_remove_request_queue_head(cy_as_device *dev_p, cy_as_context *ctxt_p)
-{
- uint32_t mask, state;
- cy_as_ll_request_list_node *node_p;
-
- (void)dev_p;
- cy_as_hal_assert(ctxt_p->request_queue_p != 0);
-
- mask = cy_as_hal_disable_interrupts();
- node_p = ctxt_p->request_queue_p;
- ctxt_p->request_queue_p = node_p->next;
- cy_as_hal_enable_interrupts(mask);
-
- node_p->callback = 0;
- node_p->rqt = 0;
- node_p->resp = 0;
-
- /*
- * note that the caller allocates and destroys the request and
- * response. generally the destroy happens in the callback for
- * async requests and after the wait returns for sync. the
- * request and response may not actually be destroyed but may be
- * managed in other ways as well. it is the responsibilty of
- * the caller to deal with these in any case. the caller can do
- * this in the request/response callback function.
- */
- state = cy_as_hal_disable_interrupts();
- cy_as_hal_c_b_free(node_p);
- cy_as_hal_enable_interrupts(state);
-}
-
-/*
-* For the context given, this function sends the next request to
-* West Bridge via the mailbox register, if the next request is
-* ready to be sent and has not already been sent.
-*/
-static void
-cy_as_ll_send_next_request(cy_as_device *dev_p, cy_as_context *ctxt_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- /*
- * ret == ret is equivalent to while (1) but eliminates compiler
- * warnings for some compilers.
- */
- while (ret == ret) {
- cy_as_ll_request_list_node *node_p = ctxt_p->request_queue_p;
- if (node_p == 0)
- break;
-
- if (cy_as_request_get_node_state(node_p) !=
- CY_AS_REQUEST_LIST_STATE_QUEUED)
- break;
-
- cy_as_request_set_node_state(node_p,
- CY_AS_REQUEST_LIST_STATE_WAITING);
- ret = cy_as_send_one(dev_p, node_p->rqt);
- if (ret == CY_AS_ERROR_SUCCESS)
- break;
-
- /*
- * if an error occurs in sending the request, tell the requester
- * about the error and remove the request from the queue.
- */
- cy_as_request_set_node_state(node_p,
- CY_AS_REQUEST_LIST_STATE_RECEIVED);
- node_p->callback(dev_p, ctxt_p->number,
- node_p->rqt, node_p->resp, ret);
- cy_as_ll_remove_request_queue_head(dev_p, ctxt_p);
-
- /*
- * this falls through to the while loop to send the next request
- * since the previous request did not get sent.
- */
- }
-}
-
-/*
-* This method removes an entry from the request queue of a given context.
-* The entry is removed only if it is not in transit.
-*/
-cy_as_remove_request_result_t
-cy_as_ll_remove_request(cy_as_device *dev_p, cy_as_context *ctxt_p,
- cy_as_ll_request_response *req_p, cy_bool force)
-{
- uint32_t imask;
- cy_as_ll_request_list_node *node_p;
- cy_as_ll_request_list_node *tmp_p;
- uint32_t state;
-
- imask = cy_as_hal_disable_interrupts();
- if (ctxt_p->request_queue_p != 0 &&
- ctxt_p->request_queue_p->rqt == req_p) {
- node_p = ctxt_p->request_queue_p;
- if ((cy_as_request_get_node_state(node_p) ==
- CY_AS_REQUEST_LIST_STATE_WAITING) && (!force)) {
- cy_as_hal_enable_interrupts(imask);
- return cy_as_remove_request_in_transit;
- }
-
- ctxt_p->request_queue_p = node_p->next;
- } else {
- tmp_p = ctxt_p->request_queue_p;
- while (tmp_p != 0 && tmp_p->next != 0 &&
- tmp_p->next->rqt != req_p)
- tmp_p = tmp_p->next;
-
- if (tmp_p == 0 || tmp_p->next == 0) {
- cy_as_hal_enable_interrupts(imask);
- return cy_as_remove_request_not_found;
- }
-
- node_p = tmp_p->next;
- tmp_p->next = node_p->next;
- }
-
- if (node_p->callback)
- node_p->callback(dev_p, ctxt_p->number, node_p->rqt,
- node_p->resp, CY_AS_ERROR_CANCELED);
-
- state = cy_as_hal_disable_interrupts();
- cy_as_hal_c_b_free(node_p);
- cy_as_hal_enable_interrupts(state);
-
- cy_as_hal_enable_interrupts(imask);
- return cy_as_remove_request_sucessful;
-}
-
-void
-cy_as_ll_remove_all_requests(cy_as_device *dev_p, cy_as_context *ctxt_p)
-{
- cy_as_ll_request_list_node *node = ctxt_p->request_queue_p;
-
- while (node) {
- if (cy_as_request_get_node_state(ctxt_p->request_queue_p) !=
- CY_AS_REQUEST_LIST_STATE_RECEIVED)
- cy_as_ll_remove_request(dev_p, ctxt_p,
- node->rqt, cy_true);
- node = node->next;
- }
-}
-
-static cy_bool
-cy_as_ll_is_in_queue(cy_as_context *ctxt_p, cy_as_ll_request_response *req_p)
-{
- uint32_t mask;
- cy_as_ll_request_list_node *node_p;
-
- mask = cy_as_hal_disable_interrupts();
- node_p = ctxt_p->request_queue_p;
- while (node_p) {
- if (node_p->rqt == req_p) {
- cy_as_hal_enable_interrupts(mask);
- return cy_true;
- }
- node_p = node_p->next;
- }
- cy_as_hal_enable_interrupts(mask);
- return cy_false;
-}
-
-/*
-* This is the handler for mailbox data when we are trying to send data
-* to the West Bridge firmware. The firmware may be trying to send us
-* data and we need to queue this data to allow the firmware to move
-* forward and be in a state to receive our request. Here we just queue
-* the data and it is processed at a later time by the mailbox interrupt
-* handler.
-*/
-void
-cy_as_ll_queue_mailbox_data(cy_as_device *dev_p)
-{
- cy_as_context *ctxt_p;
- uint8_t context;
- uint16_t data[4];
- int32_t i;
-
- /* Read the data from mailbox 0 to determine what to do with the data */
- for (i = 3; i >= 0; i--)
- data[i] = cy_as_hal_read_register(dev_p->tag,
- cy_cast_int2U_int16(CY_AS_MEM_P0_MAILBOX0 + i));
-
- context = cy_as_mbox_get_context(data[0]);
- if (context >= CY_RQT_CONTEXT_COUNT) {
- cy_as_hal_print_message("mailbox request/response received "
- "with invalid context value (%d)\n", context);
- return;
- }
-
- ctxt_p = dev_p->context[context];
-
- /*
- * if we have queued too much data, drop future data.
- */
- cy_as_hal_assert(ctxt_p->queue_index * sizeof(uint16_t) +
- sizeof(data) <= sizeof(ctxt_p->data_queue));
-
- for (i = 0; i < 4; i++)
- ctxt_p->data_queue[ctxt_p->queue_index++] = data[i];
-
- cy_as_hal_assert((ctxt_p->queue_index % 4) == 0);
- dev_p->ll_queued_data = cy_true;
-}
-
-void
-cy_as_mail_box_process_data(cy_as_device *dev_p, uint16_t *data)
-{
- cy_as_context *ctxt_p;
- uint8_t context;
- uint16_t *len_p;
- cy_as_ll_request_response *rec_p;
- uint8_t st;
- uint16_t src, dest;
-
- context = cy_as_mbox_get_context(data[0]);
- if (context >= CY_RQT_CONTEXT_COUNT) {
- cy_as_hal_print_message("mailbox request/response received "
- "with invalid context value (%d)\n", context);
- return;
- }
-
- ctxt_p = dev_p->context[context];
-
- if (cy_as_mbox_is_request(data[0])) {
- cy_as_hal_assert(ctxt_p->req_p != 0);
- rec_p = ctxt_p->req_p;
- len_p = &ctxt_p->request_length;
-
- } else {
- if (ctxt_p->request_queue_p == 0 ||
- cy_as_request_get_node_state(ctxt_p->request_queue_p)
- != CY_AS_REQUEST_LIST_STATE_WAITING) {
- cy_as_hal_print_message("mailbox response received on "
- "context that was not expecting a response\n");
- cy_as_hal_print_message(" context: %d\n", context);
- cy_as_hal_print_message(" contents: 0x%04x 0x%04x "
- "0x%04x 0x%04x\n",
- data[0], data[1], data[2], data[3]);
- if (ctxt_p->request_queue_p != 0)
- cy_as_hal_print_message(" state: 0x%02x\n",
- ctxt_p->request_queue_p->state);
- return;
- }
-
- /* Make sure the request has an associated response */
- cy_as_hal_assert(ctxt_p->request_queue_p->resp != 0);
-
- rec_p = ctxt_p->request_queue_p->resp;
- len_p = &ctxt_p->request_queue_p->length;
- }
-
- if (rec_p->stored == 0) {
- /*
- * this is the first cycle of the response
- */
- cy_as_ll_request_response__set_code(rec_p,
- cy_as_mbox_get_code(data[0]));
- cy_as_ll_request_response__set_context(rec_p, context);
-
- if (cy_as_mbox_is_last(data[0])) {
- /* This is a single cycle response */
- *len_p = rec_p->length;
- st = 1;
- } else {
- /* Ensure that enough memory has been
- * reserved for the response. */
- cy_as_hal_assert(rec_p->length >= data[1]);
- *len_p = (data[1] < rec_p->length) ?
- data[1] : rec_p->length;
- st = 2;
- }
- } else
- st = 1;
-
- /* Trasnfer the data from the mailboxes to the response */
- while (rec_p->stored < *len_p && st < 4)
- rec_p->data[rec_p->stored++] = data[st++];
-
- if (cy_as_mbox_is_last(data[0])) {
- /* NB: The call-back that is made below can cause the
- * addition of more data in this queue, thus causing
- * a recursive overflow of the queue. this is prevented
- * by removing the request entry that is currently
- * being passed up from the data queue. if this is done,
- * the queue only needs to be as long as two request
- * entries from west bridge.
- */
- if ((ctxt_p->rqt_index > 0) &&
- (ctxt_p->rqt_index <= ctxt_p->queue_index)) {
- dest = 0;
- src = ctxt_p->rqt_index;
-
- while (src < ctxt_p->queue_index)
- ctxt_p->data_queue[dest++] =
- ctxt_p->data_queue[src++];
-
- ctxt_p->rqt_index = 0;
- ctxt_p->queue_index = dest;
- cy_as_hal_assert((ctxt_p->queue_index % 4) == 0);
- }
-
- if (ctxt_p->request_queue_p != 0 && rec_p ==
- ctxt_p->request_queue_p->resp) {
- /*
- * if this is the last cycle of the response, call the
- * callback and reset for the next response.
- */
- cy_as_ll_request_response *resp_p =
- ctxt_p->request_queue_p->resp;
- resp_p->length = ctxt_p->request_queue_p->length;
- cy_as_request_set_node_state(ctxt_p->request_queue_p,
- CY_AS_REQUEST_LIST_STATE_RECEIVED);
-
- cy_as_device_set_in_callback(dev_p);
- ctxt_p->request_queue_p->callback(dev_p, context,
- ctxt_p->request_queue_p->rqt,
- resp_p, CY_AS_ERROR_SUCCESS);
-
- cy_as_device_clear_in_callback(dev_p);
-
- cy_as_ll_remove_request_queue_head(dev_p, ctxt_p);
- cy_as_ll_send_next_request(dev_p, ctxt_p);
- } else {
- /* Send the request to the appropriate
- * module to handle */
- cy_as_ll_request_response *request_p = ctxt_p->req_p;
- ctxt_p->req_p = 0;
- if (ctxt_p->request_callback) {
- cy_as_device_set_in_callback(dev_p);
- ctxt_p->request_callback(dev_p, context,
- request_p, 0, CY_AS_ERROR_SUCCESS);
- cy_as_device_clear_in_callback(dev_p);
- }
- cy_as_ll_init_request(request_p, 0,
- context, request_p->length);
- ctxt_p->req_p = request_p;
- }
- }
-}
-
-/*
-* This is the handler for processing queued mailbox data
-*/
-void
-cy_as_mail_box_queued_data_handler(cy_as_device *dev_p)
-{
- uint16_t i;
-
- /*
- * if more data gets queued in between our entering this call
- * and the end of the iteration on all contexts; we should
- * continue processing the queued data.
- */
- while (dev_p->ll_queued_data) {
- dev_p->ll_queued_data = cy_false;
- for (i = 0; i < CY_RQT_CONTEXT_COUNT; i++) {
- uint16_t offset;
- cy_as_context *ctxt_p = dev_p->context[i];
- cy_as_hal_assert((ctxt_p->queue_index % 4) == 0);
-
- offset = 0;
- while (offset < ctxt_p->queue_index) {
- ctxt_p->rqt_index = offset + 4;
- cy_as_mail_box_process_data(dev_p,
- ctxt_p->data_queue + offset);
- offset = ctxt_p->rqt_index;
- }
- ctxt_p->queue_index = 0;
- }
- }
-}
-
-/*
-* This is the handler for the mailbox interrupt. This function reads
-* data from the mailbox registers until a complete request or response
-* is received. When a complete request is received, the callback
-* associated with requests on that context is called. When a complete
-* response is recevied, the callback associated with the request that
-* generated the response is called.
-*/
-void
-cy_as_mail_box_interrupt_handler(cy_as_device *dev_p)
-{
- cy_as_hal_assert(dev_p->sig == CY_AS_DEVICE_HANDLE_SIGNATURE);
-
- /*
- * queue the mailbox data to preserve
- * order for later processing.
- */
- cy_as_ll_queue_mailbox_data(dev_p);
-
- /*
- * process what was queued and anything that may be pending
- */
- cy_as_mail_box_queued_data_handler(dev_p);
-}
-
-cy_as_return_status_t
-cy_as_ll_start(cy_as_device *dev_p)
-{
- uint16_t i;
-
- if (cy_as_device_is_low_level_running(dev_p))
- return CY_AS_ERROR_ALREADY_RUNNING;
-
- dev_p->ll_sending_rqt = cy_false;
- dev_p->ll_abort_curr_rqt = cy_false;
-
- for (i = 0; i < CY_RQT_CONTEXT_COUNT; i++) {
- dev_p->context[i] = (cy_as_context *)
- cy_as_hal_alloc(sizeof(cy_as_context));
- if (dev_p->context[i] == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- dev_p->context[i]->number = (uint8_t)i;
- dev_p->context[i]->request_callback = 0;
- dev_p->context[i]->request_queue_p = 0;
- dev_p->context[i]->last_node_p = 0;
- dev_p->context[i]->req_p = cy_as_ll_create_request(dev_p,
- 0, (uint8_t)i, max_request_length[i]);
- dev_p->context[i]->queue_index = 0;
-
- if (!cy_as_hal_create_sleep_channel
- (&dev_p->context[i]->channel))
- return CY_AS_ERROR_CREATE_SLEEP_CHANNEL_FAILED;
- }
-
- cy_as_device_set_low_level_running(dev_p);
- return CY_AS_ERROR_SUCCESS;
-}
-
-/*
-* Shutdown the low level communications module. This operation will
-* also cancel any queued low level requests.
-*/
-cy_as_return_status_t
-cy_as_ll_stop(cy_as_device *dev_p)
-{
- uint8_t i;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_context *ctxt_p;
- uint32_t mask;
-
- for (i = 0; i < CY_RQT_CONTEXT_COUNT; i++) {
- ctxt_p = dev_p->context[i];
- if (!cy_as_hal_destroy_sleep_channel(&ctxt_p->channel))
- return CY_AS_ERROR_DESTROY_SLEEP_CHANNEL_FAILED;
-
- /*
- * now, free any queued requests and assocaited responses
- */
- while (ctxt_p->request_queue_p) {
- uint32_t state;
- cy_as_ll_request_list_node *node_p =
- ctxt_p->request_queue_p;
-
- /* Mark this pair as in a cancel operation */
- cy_as_request_set_node_state(node_p,
- CY_AS_REQUEST_LIST_STATE_CANCELING);
-
- /* Tell the caller that we are canceling this request */
- /* NB: The callback is responsible for destroying the
- * request and the response. we cannot count on the
- * contents of these two after calling the callback.
- */
- node_p->callback(dev_p, i, node_p->rqt,
- node_p->resp, CY_AS_ERROR_CANCELED);
-
- /* Remove the pair from the queue */
- mask = cy_as_hal_disable_interrupts();
- ctxt_p->request_queue_p = node_p->next;
- cy_as_hal_enable_interrupts(mask);
-
- /* Free the list node */
- state = cy_as_hal_disable_interrupts();
- cy_as_hal_c_b_free(node_p);
- cy_as_hal_enable_interrupts(state);
- }
-
- cy_as_ll_destroy_request(dev_p, dev_p->context[i]->req_p);
- cy_as_hal_free(dev_p->context[i]);
- dev_p->context[i] = 0;
-
- }
- cy_as_device_set_low_level_stopped(dev_p);
-
- return ret;
-}
-
-void
-cy_as_ll_init_request(cy_as_ll_request_response *req_p,
- uint16_t code, uint16_t context, uint16_t length)
-{
- uint16_t totallen = sizeof(cy_as_ll_request_response) +
- (length - 1) * sizeof(uint16_t);
-
- cy_as_hal_mem_set(req_p, 0, totallen);
- req_p->length = length;
- cy_as_ll_request_response__set_code(req_p, code);
- cy_as_ll_request_response__set_context(req_p, context);
- cy_as_ll_request_response__set_request(req_p);
-}
-
-/*
-* Create a new request.
-*/
-cy_as_ll_request_response *
-cy_as_ll_create_request(cy_as_device *dev_p, uint16_t code,
- uint8_t context, uint16_t length)
-{
- cy_as_ll_request_response *req_p;
- uint32_t state;
- uint16_t totallen = sizeof(cy_as_ll_request_response) +
- (length - 1) * sizeof(uint16_t);
-
- (void)dev_p;
-
- state = cy_as_hal_disable_interrupts();
- req_p = cy_as_hal_c_b_alloc(totallen);
- cy_as_hal_enable_interrupts(state);
- if (req_p)
- cy_as_ll_init_request(req_p, code, context, length);
-
- return req_p;
-}
-
-/*
-* Destroy a request.
-*/
-void
-cy_as_ll_destroy_request(cy_as_device *dev_p, cy_as_ll_request_response *req_p)
-{
- uint32_t state;
- (void)dev_p;
- (void)req_p;
-
- state = cy_as_hal_disable_interrupts();
- cy_as_hal_c_b_free(req_p);
- cy_as_hal_enable_interrupts(state);
-
-}
-
-void
-cy_as_ll_init_response(cy_as_ll_request_response *req_p, uint16_t length)
-{
- uint16_t totallen = sizeof(cy_as_ll_request_response) +
- (length - 1) * sizeof(uint16_t);
-
- cy_as_hal_mem_set(req_p, 0, totallen);
- req_p->length = length;
- cy_as_ll_request_response__set_response(req_p);
-}
-
-/*
-* Create a new response
-*/
-cy_as_ll_request_response *
-cy_as_ll_create_response(cy_as_device *dev_p, uint16_t length)
-{
- cy_as_ll_request_response *req_p;
- uint32_t state;
- uint16_t totallen = sizeof(cy_as_ll_request_response) +
- (length - 1) * sizeof(uint16_t);
-
- (void)dev_p;
-
- state = cy_as_hal_disable_interrupts();
- req_p = cy_as_hal_c_b_alloc(totallen);
- cy_as_hal_enable_interrupts(state);
- if (req_p)
- cy_as_ll_init_response(req_p, length);
-
- return req_p;
-}
-
-/*
-* Destroy the new response
-*/
-void
-cy_as_ll_destroy_response(cy_as_device *dev_p, cy_as_ll_request_response *req_p)
-{
- uint32_t state;
- (void)dev_p;
- (void)req_p;
-
- state = cy_as_hal_disable_interrupts();
- cy_as_hal_c_b_free(req_p);
- cy_as_hal_enable_interrupts(state);
-}
-
-static uint16_t
-cy_as_read_intr_status(
- cy_as_device *dev_p)
-{
- uint32_t mask;
- cy_bool bloop = cy_true;
- uint16_t v = 0, last = 0xffff;
-
- /*
- * before determining if the mailboxes are ready for more data,
- * we first check the mailbox interrupt to see if we need to
- * receive data. this prevents a dead-lock condition that can
- * occur when both sides are trying to receive data.
- */
- while (last == last) {
- /*
- * disable interrupts to be sure we don't process the mailbox
- * here and have the interrupt routine try to read this data
- * as well.
- */
- mask = cy_as_hal_disable_interrupts();
-
- /*
- * see if there is data to be read.
- */
- v = cy_as_hal_read_register(dev_p->tag, CY_AS_MEM_P0_INTR_REG);
- if ((v & CY_AS_MEM_P0_INTR_REG_MBINT) == 0) {
- cy_as_hal_enable_interrupts(mask);
- break;
- }
-
- /*
- * queue the mailbox data for later processing.
- * this allows the firmware to move forward and
- * service the requst from the P port.
- */
- cy_as_ll_queue_mailbox_data(dev_p);
-
- /*
- * enable interrupts again to service mailbox
- * interrupts appropriately
- */
- cy_as_hal_enable_interrupts(mask);
- }
-
- /*
- * now, all data is received
- */
- last = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_MCU_MB_STAT) & CY_AS_MEM_P0_MCU_MBNOTRD;
- while (bloop) {
- v = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_MCU_MB_STAT) & CY_AS_MEM_P0_MCU_MBNOTRD;
- if (v == last)
- break;
-
- last = v;
- }
-
- return v;
-}
-
-/*
-* Send a single request or response using the mail box register.
-* This function does not deal with the internal queues at all,
-* but only sends the request or response across to the firmware
-*/
-static cy_as_return_status_t
-cy_as_send_one(
- cy_as_device *dev_p,
- cy_as_ll_request_response *req_p)
-{
- int i;
- uint16_t mb0, v;
- int32_t loopcount;
- uint32_t int_stat;
-
-#ifdef _DEBUG
- if (cy_as_ll_request_response__is_request(req_p)) {
- switch (cy_as_ll_request_response__get_context(req_p)) {
- case CY_RQT_GENERAL_RQT_CONTEXT:
- cy_as_hal_assert(req_p->length * 2 + 2 <
- CY_CTX_GEN_MAX_DATA_SIZE);
- break;
-
- case CY_RQT_RESOURCE_RQT_CONTEXT:
- cy_as_hal_assert(req_p->length * 2 + 2 <
- CY_CTX_RES_MAX_DATA_SIZE);
- break;
-
- case CY_RQT_STORAGE_RQT_CONTEXT:
- cy_as_hal_assert(req_p->length * 2 + 2 <
- CY_CTX_STR_MAX_DATA_SIZE);
- break;
-
- case CY_RQT_USB_RQT_CONTEXT:
- cy_as_hal_assert(req_p->length * 2 + 2 <
- CY_CTX_USB_MAX_DATA_SIZE);
- break;
- }
- }
-#endif
-
- /* Write the request to the mail box registers */
- if (req_p->length > 3) {
- uint16_t length = req_p->length;
- int which = 0;
- int st = 1;
-
- dev_p->ll_sending_rqt = cy_true;
- while (which < length) {
- loopcount = cy_as_low_level_timeout_count;
- do {
- v = cy_as_read_intr_status(dev_p);
-
- } while (v && loopcount-- > 0);
-
- if (v) {
- cy_as_hal_print_message(
- ">>>>>> LOW LEVEL TIMEOUT "
- "%x %x %x %x\n",
- cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_MCU_MAILBOX0),
- cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_MCU_MAILBOX1),
- cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_MCU_MAILBOX2),
- cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_MCU_MAILBOX3));
- return CY_AS_ERROR_TIMEOUT;
- }
-
- if (dev_p->ll_abort_curr_rqt) {
- dev_p->ll_sending_rqt = cy_false;
- dev_p->ll_abort_curr_rqt = cy_false;
- return CY_AS_ERROR_CANCELED;
- }
-
- int_stat = cy_as_hal_disable_interrupts();
-
- /*
- * check again whether the mailbox is free.
- * it is possible that an ISR came in and
- * wrote into the mailboxes since we last
- * checked the status.
- */
- v = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_MCU_MB_STAT) &
- CY_AS_MEM_P0_MCU_MBNOTRD;
- if (v) {
- /* Go back to the original check since
- * the mailbox is not free. */
- cy_as_hal_enable_interrupts(int_stat);
- continue;
- }
-
- if (which == 0) {
- cy_as_hal_write_register(dev_p->tag,
- CY_AS_MEM_MCU_MAILBOX1, length);
- st = 2;
- } else {
- st = 1;
- }
-
- while ((which < length) && (st < 4)) {
- cy_as_hal_write_register(dev_p->tag,
- cy_cast_int2U_int16
- (CY_AS_MEM_MCU_MAILBOX0 + st),
- req_p->data[which++]);
- st++;
- }
-
- mb0 = req_p->box0;
- if (which == length) {
- dev_p->ll_sending_rqt = cy_false;
- mb0 |= CY_AS_REQUEST_RESPONSE_LAST_MASK;
- }
-
- if (dev_p->ll_abort_curr_rqt) {
- dev_p->ll_sending_rqt = cy_false;
- dev_p->ll_abort_curr_rqt = cy_false;
- cy_as_hal_enable_interrupts(int_stat);
- return CY_AS_ERROR_CANCELED;
- }
-
- cy_as_hal_write_register(dev_p->tag,
- CY_AS_MEM_MCU_MAILBOX0, mb0);
-
- /* Wait for the MBOX interrupt to be high */
- cy_as_hal_sleep150();
- cy_as_hal_enable_interrupts(int_stat);
- }
- } else {
-check_mailbox_availability:
- /*
- * wait for the mailbox registers to become available. this
- * should be a very quick wait as the firmware is designed
- * to accept requests at interrupt time and queue them for
- * future processing.
- */
- loopcount = cy_as_low_level_timeout_count;
- do {
- v = cy_as_read_intr_status(dev_p);
-
- } while (v && loopcount-- > 0);
-
- if (v) {
- cy_as_hal_print_message(
- ">>>>>> LOW LEVEL TIMEOUT %x %x %x %x\n",
- cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_MCU_MAILBOX0),
- cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_MCU_MAILBOX1),
- cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_MCU_MAILBOX2),
- cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_MCU_MAILBOX3));
- return CY_AS_ERROR_TIMEOUT;
- }
-
- int_stat = cy_as_hal_disable_interrupts();
-
- /*
- * check again whether the mailbox is free. it is
- * possible that an ISR came in and wrote into the
- * mailboxes since we last checked the status.
- */
- v = cy_as_hal_read_register(dev_p->tag, CY_AS_MEM_MCU_MB_STAT) &
- CY_AS_MEM_P0_MCU_MBNOTRD;
- if (v) {
- /* Go back to the original check
- * since the mailbox is not free. */
- cy_as_hal_enable_interrupts(int_stat);
- goto check_mailbox_availability;
- }
-
- /* Write the data associated with the request
- * into the mbox registers 1 - 3 */
- v = 0;
- for (i = req_p->length - 1; i >= 0; i--)
- cy_as_hal_write_register(dev_p->tag,
- cy_cast_int2U_int16(CY_AS_MEM_MCU_MAILBOX1 + i),
- req_p->data[i]);
-
- /* Write the mbox register 0 to trigger the interrupt */
- cy_as_hal_write_register(dev_p->tag, CY_AS_MEM_MCU_MAILBOX0,
- req_p->box0 | CY_AS_REQUEST_RESPONSE_LAST_MASK);
-
- cy_as_hal_sleep150();
- cy_as_hal_enable_interrupts(int_stat);
- }
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-/*
-* This function queues a single request to be sent to the firmware.
-*/
-extern cy_as_return_status_t
-cy_as_ll_send_request(
- cy_as_device *dev_p,
- /* The request to send */
- cy_as_ll_request_response *req,
- /* Storage for a reply, must be sure
- * it is of sufficient size */
- cy_as_ll_request_response *resp,
- /* If true, this is a synchronous request */
- cy_bool sync,
- /* Callback to call when reply is received */
- cy_as_response_callback cb
-)
-{
- cy_as_context *ctxt_p;
- uint16_t box0 = req->box0;
- uint8_t context;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_ll_request_list_node *node_p;
- uint32_t mask, state;
-
- cy_as_hal_assert(dev_p->sig == CY_AS_DEVICE_HANDLE_SIGNATURE);
-
- context = cy_as_mbox_get_context(box0);
- cy_as_hal_assert(context < CY_RQT_CONTEXT_COUNT);
- ctxt_p = dev_p->context[context];
-
- /* Allocate the list node */
- state = cy_as_hal_disable_interrupts();
- node_p = cy_as_hal_c_b_alloc(sizeof(cy_as_ll_request_list_node));
- cy_as_hal_enable_interrupts(state);
-
- if (node_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* Initialize the list node */
- node_p->callback = cb;
- node_p->length = 0;
- node_p->next = 0;
- node_p->resp = resp;
- node_p->rqt = req;
- node_p->state = CY_AS_REQUEST_LIST_STATE_QUEUED;
- if (sync)
- cy_as_request_node_set_sync(node_p);
-
- /* Put the request into the queue */
- mask = cy_as_hal_disable_interrupts();
- if (ctxt_p->request_queue_p == 0) {
- /* Empty queue */
- ctxt_p->request_queue_p = node_p;
- ctxt_p->last_node_p = node_p;
- } else {
- ctxt_p->last_node_p->next = node_p;
- ctxt_p->last_node_p = node_p;
- }
- cy_as_hal_enable_interrupts(mask);
- cy_as_ll_send_next_request(dev_p, ctxt_p);
-
- if (!cy_as_device_is_in_callback(dev_p)) {
- mask = cy_as_hal_disable_interrupts();
- cy_as_mail_box_queued_data_handler(dev_p);
- cy_as_hal_enable_interrupts(mask);
- }
-
- return ret;
-}
-
-static void
-cy_as_ll_send_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t ret)
-{
- (void)rqt;
- (void)resp;
- (void)ret;
-
-
- cy_as_hal_assert(dev_p->sig == CY_AS_DEVICE_HANDLE_SIGNATURE);
-
- /*
- * storage the state to return to the caller
- */
- dev_p->ll_error = ret;
-
- /*
- * now wake the caller
- */
- cy_as_hal_wake(&dev_p->context[context]->channel);
-}
-
-cy_as_return_status_t
-cy_as_ll_send_request_wait_reply(
- cy_as_device *dev_p,
- /* The request to send */
- cy_as_ll_request_response *req,
- /* Storage for a reply, must be
- * sure it is of sufficient size */
- cy_as_ll_request_response *resp
- )
-{
- cy_as_return_status_t ret;
- uint8_t context;
- /* Larger 8 sec time-out to handle the init
- * delay for slower storage devices in USB FS. */
- uint32_t loopcount = 800;
- cy_as_context *ctxt_p;
-
- /* Get the context for the request */
- context = cy_as_ll_request_response__get_context(req);
- cy_as_hal_assert(context < CY_RQT_CONTEXT_COUNT);
- ctxt_p = dev_p->context[context];
-
- ret = cy_as_ll_send_request(dev_p, req, resp,
- cy_true, cy_as_ll_send_callback);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- while (loopcount-- > 0) {
- /*
- * sleep while we wait on the response. receiving the reply will
- * wake this thread. we will wait, at most 2 seconds (10 ms*200
- * tries) before we timeout. note if the reply arrives, we will
- * not sleep the entire 10 ms, just til the reply arrives.
- */
- cy_as_hal_sleep_on(&ctxt_p->channel, 10);
-
- /*
- * if the request has left the queue, it means the request has
- * been sent and the reply has been received. this means we can
- * return to the caller and be sure the reply has been received.
- */
- if (!cy_as_ll_is_in_queue(ctxt_p, req))
- return dev_p->ll_error;
- }
-
- /* Remove the QueueListNode for this request. */
- cy_as_ll_remove_request(dev_p, ctxt_p, req, cy_true);
-
- return CY_AS_ERROR_TIMEOUT;
-}
-
-cy_as_return_status_t
-cy_as_ll_register_request_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_response_callback cb)
-{
- cy_as_context *ctxt_p;
- cy_as_hal_assert(context < CY_RQT_CONTEXT_COUNT);
- ctxt_p = dev_p->context[context];
-
- ctxt_p->request_callback = cb;
- return CY_AS_ERROR_SUCCESS;
-}
-
-void
-cy_as_ll_request_response__pack(
- cy_as_ll_request_response *req_p,
- uint32_t offset,
- uint32_t length,
- void *data_p)
-{
- uint16_t dt;
- uint8_t *dp = (uint8_t *)data_p;
-
- while (length > 1) {
- dt = ((*dp++) << 8);
- dt |= (*dp++);
- cy_as_ll_request_response__set_word(req_p, offset, dt);
- offset++;
- length -= 2;
- }
-
- if (length == 1) {
- dt = (*dp << 8);
- cy_as_ll_request_response__set_word(req_p, offset, dt);
- }
-}
-
-void
-cy_as_ll_request_response__unpack(
- cy_as_ll_request_response *req_p,
- uint32_t offset,
- uint32_t length,
- void *data_p)
-{
- uint8_t *dp = (uint8_t *)data_p;
-
- while (length-- > 0) {
- uint16_t val = cy_as_ll_request_response__get_word
- (req_p, offset++);
- *dp++ = (uint8_t)((val >> 8) & 0xff);
-
- if (length) {
- length--;
- *dp++ = (uint8_t)(val & 0xff);
- }
- }
-}
-
-extern cy_as_return_status_t
-cy_as_ll_send_status_response(
- cy_as_device *dev_p,
- uint8_t context,
- uint16_t code,
- uint8_t clear_storage)
-{
- cy_as_return_status_t ret;
- cy_as_ll_request_response resp;
- cy_as_ll_request_response *resp_p = &resp;
-
- cy_as_hal_mem_set(resp_p, 0, sizeof(resp));
- resp_p->length = 1;
- cy_as_ll_request_response__set_response(resp_p);
- cy_as_ll_request_response__set_context(resp_p, context);
-
- if (clear_storage)
- cy_as_ll_request_response__set_clear_storage_flag(resp_p);
-
- cy_as_ll_request_response__set_code(resp_p, CY_RESP_SUCCESS_FAILURE);
- cy_as_ll_request_response__set_word(resp_p, 0, code);
-
- ret = cy_as_send_one(dev_p, resp_p);
-
- return ret;
-}
-
-extern cy_as_return_status_t
-cy_as_ll_send_data_response(
- cy_as_device *dev_p,
- uint8_t context,
- uint16_t code,
- uint16_t length,
- void *data)
-{
- cy_as_ll_request_response *resp_p;
- uint16_t wlen;
- uint8_t respbuf[256];
-
- if (length > 192)
- return CY_AS_ERROR_INVALID_SIZE;
-
- /* Word length for bytes */
- wlen = length / 2;
-
- /* If byte length odd, add one more */
- if (length % 2)
- wlen++;
-
- /* One for the length of field */
- wlen++;
-
- resp_p = (cy_as_ll_request_response *)respbuf;
- cy_as_hal_mem_set(resp_p, 0, sizeof(respbuf));
- resp_p->length = wlen;
- cy_as_ll_request_response__set_context(resp_p, context);
- cy_as_ll_request_response__set_code(resp_p, code);
-
- cy_as_ll_request_response__set_word(resp_p, 0, length);
- cy_as_ll_request_response__pack(resp_p, 1, length, data);
-
- return cy_as_send_one(dev_p, resp_p);
-}
-
-static cy_bool
-cy_as_ll_is_e_p_transfer_related_request(cy_as_ll_request_response *rqt_p,
- cy_as_end_point_number_t ep)
-{
- uint16_t v;
- uint8_t type = cy_as_ll_request_response__get_code(rqt_p);
-
- if (cy_as_ll_request_response__get_context(rqt_p) !=
- CY_RQT_USB_RQT_CONTEXT)
- return cy_false;
-
- /*
- * when cancelling outstanding EP0 data transfers, any pending
- * setup ACK requests also need to be cancelled.
- */
- if ((ep == 0) && (type == CY_RQT_ACK_SETUP_PACKET))
- return cy_true;
-
- if (type != CY_RQT_USB_EP_DATA)
- return cy_false;
-
- v = cy_as_ll_request_response__get_word(rqt_p, 0);
- if ((cy_as_end_point_number_t)((v >> 13) & 1) != ep)
- return cy_false;
-
- return cy_true;
-}
-
-cy_as_return_status_t
-cy_as_ll_remove_ep_data_requests(cy_as_device *dev_p,
- cy_as_end_point_number_t ep)
-{
- cy_as_context *ctxt_p;
- cy_as_ll_request_list_node *node_p;
- uint32_t imask;
-
- /*
- * first, remove any queued requests
- */
- ctxt_p = dev_p->context[CY_RQT_USB_RQT_CONTEXT];
- if (ctxt_p) {
- for (node_p = ctxt_p->request_queue_p; node_p;
- node_p = node_p->next) {
- if (cy_as_ll_is_e_p_transfer_related_request
- (node_p->rqt, ep)) {
- cy_as_ll_remove_request(dev_p, ctxt_p,
- node_p->rqt, cy_false);
- break;
- }
- }
-
- /*
- * now, deal with any request that may be in transit
- */
- imask = cy_as_hal_disable_interrupts();
-
- if (ctxt_p->request_queue_p != 0 &&
- cy_as_ll_is_e_p_transfer_related_request
- (ctxt_p->request_queue_p->rqt, ep) &&
- cy_as_request_get_node_state(ctxt_p->request_queue_p) ==
- CY_AS_REQUEST_LIST_STATE_WAITING) {
- cy_as_hal_print_message("need to remove an in-transit "
- "request to antioch\n");
-
- /*
- * if the request has not been fully sent to west bridge
- * yet, abort sending. otherwise, terminate the request
- * with a CANCELED status. firmware will already have
- * terminated this transfer.
- */
- if (dev_p->ll_sending_rqt)
- dev_p->ll_abort_curr_rqt = cy_true;
- else {
- uint32_t state;
-
- node_p = ctxt_p->request_queue_p;
- if (node_p->callback)
- node_p->callback(dev_p, ctxt_p->number,
- node_p->rqt, node_p->resp,
- CY_AS_ERROR_CANCELED);
-
- ctxt_p->request_queue_p = node_p->next;
- state = cy_as_hal_disable_interrupts();
- cy_as_hal_c_b_free(node_p);
- cy_as_hal_enable_interrupts(state);
- }
- }
-
- cy_as_hal_enable_interrupts(imask);
- }
-
- return CY_AS_ERROR_SUCCESS;
-}
+++ /dev/null
-/* Cypress West Bridge API source file (cyasmisc.c)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#include "../../include/linux/westbridge/cyashal.h"
-#include "../../include/linux/westbridge/cyasmisc.h"
-#include "../../include/linux/westbridge/cyasdma.h"
-#include "../../include/linux/westbridge/cyasintr.h"
-#include "../../include/linux/westbridge/cyaserr.h"
-#include "../../include/linux/westbridge/cyasregs.h"
-#include "../../include/linux/westbridge/cyaslowlevel.h"
-#include "../../include/linux/westbridge/cyasprotocol.h"
-
-/*
-* The device list, the only global in the API
-*/
-static cy_as_device *g_device_list;
-
-/*
- * The current debug level
- */
-static uint8_t debug_level;
-
-/*
- * This function sets the debug level for the API
- *
- */
-void
-cy_as_misc_set_log_level(uint8_t level)
-{
- debug_level = level;
-}
-
-#ifdef CY_AS_LOG_SUPPORT
-
-/*
- * This function is a low level logger for the API.
- */
-void
-cy_as_log_debug_message(int level, const char *str)
-{
- if (level <= debug_level)
- cy_as_hal_print_message("log %d: %s\n", level, str);
-}
-
-#endif
-
-#define cy_as_check_device_ready(dev_p) \
-{\
- if (!(dev_p) || ((dev_p)->sig != \
- CY_AS_DEVICE_HANDLE_SIGNATURE)) \
- return CY_AS_ERROR_INVALID_HANDLE; \
-\
- if (!cy_as_device_is_configured(dev_p)) \
- return CY_AS_ERROR_NOT_CONFIGURED; \
-\
- if (!cy_as_device_is_firmware_loaded(dev_p))\
- return CY_AS_ERROR_NO_FIRMWARE; \
-}
-
-/* Find an West Bridge device based on a TAG */
-cy_as_device *
-cy_as_device_find_from_tag(cy_as_hal_device_tag tag)
-{
- cy_as_device *dev_p;
-
- for (dev_p = g_device_list; dev_p != 0; dev_p = dev_p->next_p) {
- if (dev_p->tag == tag)
- return dev_p;
- }
-
- return 0;
-}
-
-/* Map a pre-V1.2 media type to the V1.2+ bus number */
-static void
-cy_as_bus_from_media_type(cy_as_media_type type,
- cy_as_bus_number_t *bus)
-{
- if (type == cy_as_media_nand)
- *bus = 0;
- else
- *bus = 1;
-}
-
-static cy_as_return_status_t
-my_handle_response_no_data(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE)
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- else
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
-
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-/*
-* Create a new West Bridge device
-*/
-cy_as_return_status_t
-cy_as_misc_create_device(cy_as_device_handle *handle_p,
- cy_as_hal_device_tag tag)
-{
- cy_as_device *dev_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- cy_as_log_debug_message(6, "cy_as_misc_create_device called");
-
- dev_p = (cy_as_device *)cy_as_hal_alloc(sizeof(cy_as_device));
- if (dev_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
- cy_as_hal_mem_set(dev_p, 0, sizeof(cy_as_device));
-
- /*
- * dynamically allocating this buffer to ensure that it is
- * word aligned.
- */
- dev_p->usb_ep_data = (uint8_t *)cy_as_hal_alloc(64 * sizeof(uint8_t));
- if (dev_p->usb_ep_data == 0) {
- cy_as_hal_free(dev_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- dev_p->sig = CY_AS_DEVICE_HANDLE_SIGNATURE;
- dev_p->tag = tag;
- dev_p->usb_max_tx_size = 0x40;
-
- dev_p->storage_write_endpoint = CY_AS_P2S_WRITE_ENDPOINT;
- dev_p->storage_read_endpoint = CY_AS_P2S_READ_ENDPOINT;
-
- dev_p->func_cbs_misc = cy_as_create_c_b_queue(CYAS_FUNC_CB);
- if (dev_p->func_cbs_misc == 0)
- goto destroy;
-
- dev_p->func_cbs_res = cy_as_create_c_b_queue(CYAS_FUNC_CB);
- if (dev_p->func_cbs_res == 0)
- goto destroy;
-
- dev_p->func_cbs_stor = cy_as_create_c_b_queue(CYAS_FUNC_CB);
- if (dev_p->func_cbs_stor == 0)
- goto destroy;
-
- dev_p->func_cbs_usb = cy_as_create_c_b_queue(CYAS_FUNC_CB);
- if (dev_p->func_cbs_usb == 0)
- goto destroy;
-
- dev_p->func_cbs_mtp = cy_as_create_c_b_queue(CYAS_FUNC_CB);
- if (dev_p->func_cbs_mtp == 0)
- goto destroy;
-
- /*
- * allocate memory for the DMA module here. it is then marked idle, and
- * will be activated when cy_as_misc_configure_device is called.
- */
- ret = cy_as_dma_start(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- cy_as_device_set_dma_stopped(dev_p);
-
- /*
- * allocate memory for the low level module here. this module is also
- * activated only when cy_as_misc_configure_device is called.
- */
- ret = cy_as_ll_start(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- cy_as_device_set_low_level_stopped(dev_p);
-
- dev_p->next_p = g_device_list;
- g_device_list = dev_p;
-
- *handle_p = dev_p;
- cy_as_hal_init_dev_registers(tag, cy_false);
- return CY_AS_ERROR_SUCCESS;
-
-destroy:
- /* Free any queues that were successfully allocated. */
- if (dev_p->func_cbs_misc)
- cy_as_destroy_c_b_queue(dev_p->func_cbs_misc);
-
- if (dev_p->func_cbs_res)
- cy_as_destroy_c_b_queue(dev_p->func_cbs_res);
-
- if (dev_p->func_cbs_stor)
- cy_as_destroy_c_b_queue(dev_p->func_cbs_stor);
-
- if (dev_p->func_cbs_usb)
- cy_as_destroy_c_b_queue(dev_p->func_cbs_usb);
-
- if (dev_p->func_cbs_mtp)
- cy_as_destroy_c_b_queue(dev_p->func_cbs_mtp);
-
- cy_as_hal_free(dev_p->usb_ep_data);
- cy_as_hal_free(dev_p);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
- else
- return CY_AS_ERROR_OUT_OF_MEMORY;
-}
-
-/*
-* Destroy an existing West Bridge device
-*/
-cy_as_return_status_t
-cy_as_misc_destroy_device(cy_as_device_handle handle)
-{
- cy_as_return_status_t ret;
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_misc_destroy_device called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- /*
- * if the USB stack is still running,
- * it must be stopped first
- */
- if (dev_p->usb_count > 0)
- return CY_AS_ERROR_STILL_RUNNING;
-
- /*
- * if the STORAGE stack is still running,
- * it must be stopped first
- */
- if (dev_p->storage_count > 0)
- return CY_AS_ERROR_STILL_RUNNING;
-
- if (cy_as_device_is_intr_running(dev_p))
- ret = cy_as_intr_stop(dev_p);
-
- ret = cy_as_ll_stop(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_intr_start(dev_p, dev_p->use_int_drq);
- return ret;
- }
-
- ret = cy_as_dma_stop(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_intr_start(dev_p, dev_p->use_int_drq);
- return ret;
- }
-
- /* Reset the West Bridge device. */
- cy_as_hal_write_register(dev_p->tag, CY_AS_MEM_RST_CTRL_REG,
- CY_AS_MEM_RST_CTRL_REG_HARD);
-
- /*
- * remove the device from the device list
- */
- if (g_device_list == dev_p) {
- g_device_list = dev_p->next_p;
- } else {
- cy_as_device *tmp_p = g_device_list;
- while (tmp_p && tmp_p->next_p != dev_p)
- tmp_p = tmp_p->next_p;
-
- cy_as_hal_assert(tmp_p != 0);
- tmp_p->next_p = dev_p->next_p;
- }
-
- /*
- * reset the signature so this will not be detected
- * as a valid handle
- */
- dev_p->sig = 0;
-
- cy_as_destroy_c_b_queue(dev_p->func_cbs_misc);
- cy_as_destroy_c_b_queue(dev_p->func_cbs_res);
- cy_as_destroy_c_b_queue(dev_p->func_cbs_stor);
- cy_as_destroy_c_b_queue(dev_p->func_cbs_usb);
- cy_as_destroy_c_b_queue(dev_p->func_cbs_mtp);
-
- /*
- * free the memory associated with the device
- */
- cy_as_hal_free(dev_p->usb_ep_data);
- cy_as_hal_free(dev_p);
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-/*
-* Determine the endian mode for the processor we are
-* running on, then set the endian mode register
-*/
-static void
-cy_as_setup_endian_mode(cy_as_device *dev_p)
-{
- /*
- * In general, we always set west bridge intothe little
- * endian mode. this causes the data on bit 0 internally
- * to come out on data line 0 externally and it is generally
- * what we want regardless of the endian mode of the
- * processor. this capability in west bridge should be
- * labeled as a "SWAP" capability and can be used to swap the
- * bytes of data in and out of west bridge. this is
- * useful if there is DMA hardware that requires this for some
- * reason I cannot imagine at this time. basically if the
- * wires are connected correctly, we should never need to
- * change the endian-ness of west bridge.
- */
- cy_as_hal_write_register(dev_p->tag, CY_AS_MEM_P0_ENDIAN,
- CY_AS_LITTLE_ENDIAN);
-}
-
-/*
-* Query the West Bridge device and determine if we are an standby mode
-*/
-cy_as_return_status_t
-cy_as_misc_in_standby(cy_as_device_handle handle, cy_bool *standby)
-{
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_misc_in_standby called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (cy_as_device_is_pin_standby(dev_p) ||
- cy_as_device_is_register_standby(dev_p)) {
- *standby = cy_true;
- } else
- *standby = cy_false;
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-static void
-cy_as_misc_func_callback(cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t ret);
-
-
-static void
-my_misc_callback(cy_as_device *dev_p, uint8_t context,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *resp_p,
- cy_as_return_status_t ret)
-{
- (void)resp_p;
- (void)context;
- (void)ret;
-
- switch (cy_as_ll_request_response__get_code(req_p)) {
- case CY_RQT_INITIALIZATION_COMPLETE:
- {
- uint16_t v;
-
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_GENERAL_RQT_CONTEXT,
- CY_AS_ERROR_SUCCESS, 0);
- cy_as_device_set_firmware_loaded(dev_p);
-
- if (cy_as_device_is_waking(dev_p)) {
- /*
- * this is a callback from a
- * cy_as_misc_leave_standby()
- * request. in this case we call
- * the standby callback and clear
- * the waking state.
- */
- if (dev_p->misc_event_cb)
- dev_p->misc_event_cb(
- (cy_as_device_handle)dev_p,
- cy_as_event_misc_awake, 0);
- cy_as_device_clear_waking(dev_p);
- } else {
- v = cy_as_ll_request_response__get_word
- (req_p, 3);
-
- /*
- * store the media supported on
- * each of the device buses.
- */
- dev_p->media_supported[0] =
- (uint8_t)(v & 0xFF);
- dev_p->media_supported[1] =
- (uint8_t)((v >> 8) & 0xFF);
-
- v = cy_as_ll_request_response__get_word
- (req_p, 4);
-
- dev_p->is_mtp_firmware =
- (cy_bool)((v >> 8) & 0xFF);
-
- if (dev_p->misc_event_cb)
- dev_p->misc_event_cb(
- (cy_as_device_handle)dev_p,
- cy_as_event_misc_initialized, 0);
- }
-
- v = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_P0_VM_SET);
-
- if (v & CY_AS_MEM_P0_VM_SET_CFGMODE)
- cy_as_hal_print_message(
- "initialization message "
- "received, but config bit "
- "still set\n");
-
- v = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_RST_CTRL_REG);
- if ((v & CY_AS_MEM_RST_RSTCMPT) == 0)
- cy_as_hal_print_message(
- "initialization message "
- "received, but reset complete "
- "bit still not set\n");
- }
- break;
-
- case CY_RQT_OUT_OF_SUSPEND:
- cy_as_ll_send_status_response(dev_p, CY_RQT_GENERAL_RQT_CONTEXT,
- CY_AS_ERROR_SUCCESS, 0);
- cy_as_device_clear_suspend_mode(dev_p);
-
- /*
- * if the wakeup was caused by an async cy_as_misc_leave_suspend
- * call, we have to call the corresponding callback.
- */
- if (dev_p->func_cbs_misc->count > 0) {
- cy_as_func_c_b_node *node = (cy_as_func_c_b_node *)
- dev_p->func_cbs_misc->head_p;
- cy_as_hal_assert(node);
-
- if (cy_as_funct_c_b_type_get_type(node->data_type) ==
- CY_FUNCT_CB_MISC_LEAVESUSPEND) {
- cy_as_hal_assert(node->cb_p != 0);
-
- node->cb_p((cy_as_device_handle)dev_p,
- CY_AS_ERROR_SUCCESS, node->client_data,
- CY_FUNCT_CB_MISC_LEAVESUSPEND, 0);
- cy_as_remove_c_b_node(dev_p->func_cbs_misc);
- }
- }
-
- if (dev_p->misc_event_cb)
- dev_p->misc_event_cb((cy_as_device_handle)dev_p,
- cy_as_event_misc_wakeup, 0);
- break;
-
- case CY_RQT_DEBUG_MESSAGE:
- if ((req_p->data[0] == 0) && (req_p->data[1] == 0) &&
- (req_p->data[2] == 0)) {
- if (dev_p->misc_event_cb)
- dev_p->misc_event_cb((cy_as_device_handle)dev_p,
- cy_as_event_misc_heart_beat, 0);
- } else {
- cy_as_hal_print_message(
- "**** debug message: %02x "
- "%02x %02x %02x %02x %02x\n",
- req_p->data[0] & 0xff,
- (req_p->data[0] >> 8) & 0xff,
- req_p->data[1] & 0xff,
- (req_p->data[1] >> 8) & 0xff,
- req_p->data[2] & 0xff,
- (req_p->data[2] >> 8) & 0xff);
- }
- break;
-
- case CY_RQT_WB_DEVICE_MISMATCH:
- {
- if (dev_p->misc_event_cb)
- dev_p->misc_event_cb((cy_as_device_handle)dev_p,
- cy_as_event_misc_device_mismatch, 0);
- }
- break;
-
- case CY_RQT_BOOTLOAD_NO_FIRMWARE:
- {
- /* TODO Handle case when firmware is
- * not found during bootloading. */
- cy_as_hal_print_message("no firmware image found "
- "during bootload. device not started\n");
- }
- break;
-
- default:
- cy_as_hal_assert(0);
- }
-}
-
-static cy_bool
-is_valid_silicon_id(uint16_t v)
-{
- cy_bool idok = cy_false;
-
- /*
- * remove the revision number from the ID value
- */
- v = v & CY_AS_MEM_CM_WB_CFG_ID_HDID_MASK;
-
- /*
- * if this is west bridge, then we are OK.
- */
- if (v == CY_AS_MEM_CM_WB_CFG_ID_HDID_ANTIOCH_VALUE ||
- v == CY_AS_MEM_CM_WB_CFG_ID_HDID_ASTORIA_FPGA_VALUE ||
- v == CY_AS_MEM_CM_WB_CFG_ID_HDID_ASTORIA_VALUE)
- idok = cy_true;
-
- return idok;
-}
-
-/*
-* Configure the West Bridge device hardware
-*/
-cy_as_return_status_t
-cy_as_misc_configure_device(cy_as_device_handle handle,
- cy_as_device_config *config_p)
-{
- cy_as_return_status_t ret;
- cy_bool standby;
- cy_as_device *dev_p;
- uint16_t v;
- uint16_t fw_present;
- cy_as_log_debug_message(6, "cy_as_misc_configure_device called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- /* Setup big endian vs little endian */
- cy_as_setup_endian_mode(dev_p);
-
- /* Now, confirm that we can talk to the West Bridge device */
- dev_p->silicon_id = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_CM_WB_CFG_ID);
- fw_present = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_RST_CTRL_REG);
- if (!(fw_present & CY_AS_MEM_RST_RSTCMPT)) {
- if (!is_valid_silicon_id(dev_p->silicon_id))
- return CY_AS_ERROR_NO_ANTIOCH;
- }
- /* Check for standby mode */
- ret = cy_as_misc_in_standby(handle, &standby);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
- if (ret)
- return CY_AS_ERROR_IN_STANDBY;
-
- /* Setup P-port interface mode (CRAM / SRAM). */
- if (cy_as_device_is_astoria_dev(dev_p)) {
- if (config_p->srammode)
- v = CY_AS_MEM_P0_VM_SET_VMTYPE_SRAM;
- else
- v = CY_AS_MEM_P0_VM_SET_VMTYPE_RAM;
- } else
- v = CY_AS_MEM_P0_VM_SET_VMTYPE_RAM;
-
- /* Setup synchronous versus asynchronous mode */
- if (config_p->sync)
- v |= CY_AS_MEM_P0_VM_SET_IFMODE;
- if (config_p->dackmode == cy_as_device_dack_ack)
- v |= CY_AS_MEM_P0_VM_SET_DACKEOB;
- if (config_p->drqpol)
- v |= CY_AS_MEM_P0_VM_SET_DRQPOL;
- if (config_p->dackpol)
- v |= CY_AS_MEM_P0_VM_SET_DACKPOL;
- cy_as_hal_write_register(dev_p->tag, CY_AS_MEM_P0_VM_SET, v);
-
- if (config_p->crystal)
- cy_as_device_set_crystal(dev_p);
- else
- cy_as_device_set_external_clock(dev_p);
-
- /* Register a callback to handle MISC requests from the firmware */
- cy_as_ll_register_request_callback(dev_p,
- CY_RQT_GENERAL_RQT_CONTEXT, my_misc_callback);
-
- /* Now mark the DMA and low level modules as active. */
- cy_as_device_set_dma_running(dev_p);
- cy_as_device_set_low_level_running(dev_p);
-
- /* Now, initialize the interrupt module */
- dev_p->use_int_drq = config_p->dmaintr;
- ret = cy_as_intr_start(dev_p, config_p->dmaintr);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /* Mark the interface as initialized */
- cy_as_device_set_configured(dev_p);
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-static void
-my_dma_callback(cy_as_device *dev_p,
- cy_as_end_point_number_t ep,
- void *mem_p,
- uint32_t size,
- cy_as_return_status_t ret
- )
-{
- cy_as_dma_end_point *ep_p;
-
- (void)size;
-
- /* Get the endpoint pointer based on the endpoint number */
- ep_p = CY_AS_NUM_EP(dev_p, ep);
-
- /* Check the queue to see if is drained */
- if (ep_p->queue_p == 0) {
- cy_as_func_c_b_node *node =
- (cy_as_func_c_b_node *)dev_p->func_cbs_misc->head_p;
-
- cy_as_hal_assert(node);
-
- if (ret == CY_AS_ERROR_SUCCESS) {
- /*
- * disable endpoint 2. the storage module
- * will enable this EP if necessary.
- */
- cy_as_dma_enable_end_point(dev_p,
- CY_AS_FIRMWARE_ENDPOINT,
- cy_false, cy_as_direction_in);
-
- /*
- * clear the reset register. this releases the
- * antioch micro-controller from reset and begins
- * running the code at address zero.
- */
- cy_as_hal_write_register(dev_p->tag,
- CY_AS_MEM_RST_CTRL_REG, 0x00);
- }
-
- /* Call the user Callback */
- node->cb_p((cy_as_device_handle)dev_p, ret, node->client_data,
- node->data_type, node->data);
- cy_as_remove_c_b_node(dev_p->func_cbs_misc);
- } else {
- /* This is the header data that was allocated in the
- * download firmware function, and can be safely freed
- * here. */
- uint32_t state = cy_as_hal_disable_interrupts();
- cy_as_hal_c_b_free(mem_p);
- cy_as_hal_enable_interrupts(state);
- }
-}
-
-cy_as_return_status_t
-cy_as_misc_download_firmware(cy_as_device_handle handle,
- const void *mem_p,
- uint16_t size,
- cy_as_function_callback cb,
- uint32_t client)
-{
- uint8_t *header;
- cy_as_return_status_t ret;
- cy_bool standby;
- cy_as_device *dev_p;
- cy_as_dma_callback dmacb = 0;
- uint32_t state;
-
- cy_as_log_debug_message(6, "cy_as_misc_download_firmware called");
-
- /* Make sure we have a valid device */
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- /*
- * if the device has not been initialized, we cannot download firmware
- * to the device.
- */
- if (!cy_as_device_is_configured(dev_p))
- return CY_AS_ERROR_NOT_CONFIGURED;
-
- /*
- * make sure west bridge is not in standby
- */
- ret = cy_as_misc_in_standby(dev_p, &standby);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (standby)
- return CY_AS_ERROR_IN_STANDBY;
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- /*
- * make sure we are in configuration mode
- */
- if ((cy_as_hal_read_register(dev_p->tag, CY_AS_MEM_P0_VM_SET) &
- CY_AS_MEM_P0_VM_SET_CFGMODE) == 0)
- return CY_AS_ERROR_NOT_IN_CONFIG_MODE;
-
- /* Maximum firmware size is 24k */
- if (size > CY_AS_MAXIMUM_FIRMWARE_SIZE)
- return CY_AS_ERROR_INVALID_SIZE;
-
- /* Make sure the size is an even number of bytes as well */
- if (size & 0x01)
- return CY_AS_ERROR_ALIGNMENT_ERROR;
-
- /*
- * write the two word header that gives the base address and
- * size of the firmware image to download
- */
- state = cy_as_hal_disable_interrupts();
- header = (uint8_t *)cy_as_hal_c_b_alloc(4);
- cy_as_hal_enable_interrupts(state);
- if (header == NULL)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- header[0] = 0x00;
- header[1] = 0x00;
- header[2] = (uint8_t)(size & 0xff);
- header[3] = (uint8_t)((size >> 8) & 0xff);
-
- /* Enable the firmware endpoint */
- ret = cy_as_dma_enable_end_point(dev_p, CY_AS_FIRMWARE_ENDPOINT,
- cy_true, cy_as_direction_in);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /*
- * setup DMA for 64 byte packets. this is the requirement for downloading
- * firmware to west bridge.
- */
- cy_as_dma_set_max_dma_size(dev_p, CY_AS_FIRMWARE_ENDPOINT, 64);
-
- if (cb)
- dmacb = my_dma_callback;
-
- ret = cy_as_dma_queue_request(dev_p, CY_AS_FIRMWARE_ENDPOINT, header,
- 4, cy_false, cy_false, dmacb);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /*
- * write the firmware image to the west bridge device
- */
- ret = cy_as_dma_queue_request(dev_p, CY_AS_FIRMWARE_ENDPOINT,
- (void *)mem_p, size, cy_false, cy_false, dmacb);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cb) {
- cy_as_func_c_b_node *cbnode = cy_as_create_func_c_b_node_data(
- cb, client, CY_FUNCT_CB_MISC_DOWNLOADFIRMWARE, 0);
-
- if (cbnode == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
- else
- cy_as_insert_c_b_node(dev_p->func_cbs_misc, cbnode);
-
- ret = cy_as_dma_kick_start(dev_p, CY_AS_FIRMWARE_ENDPOINT);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
- } else {
- ret = cy_as_dma_drain_queue(dev_p,
- CY_AS_FIRMWARE_ENDPOINT, cy_true);
-
- /* Free the header memory that was allocated earlier. */
- cy_as_hal_c_b_free(header);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /*
- * disable EP 2. the storage module will
- * enable this EP if necessary.
- */
- cy_as_dma_enable_end_point(dev_p, CY_AS_FIRMWARE_ENDPOINT,
- cy_false, cy_as_direction_in);
-
- /*
- * clear the reset register. this releases the west bridge
- * micro-controller from reset and begins running the code at
- * address zero.
- */
- cy_as_hal_write_register(dev_p->tag,
- CY_AS_MEM_RST_CTRL_REG, 0x00);
- }
-
- /*
- * the firmware is not marked as loaded until the firmware
- * initializes west bridge and a request is sent from west bridge
- * to the P port processor indicating that west bridge is ready.
- */
- return CY_AS_ERROR_SUCCESS;
-}
-
-
-static cy_as_return_status_t
-my_handle_response_get_firmware_version(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_get_firmware_version_data *data_p)
-{
-
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint16_t val;
-
- if (cy_as_ll_request_response__get_code(reply_p)
- != CY_RESP_FIRMWARE_VERSION) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- data_p->major = cy_as_ll_request_response__get_word(reply_p, 0);
- data_p->minor = cy_as_ll_request_response__get_word(reply_p, 1);
- data_p->build = cy_as_ll_request_response__get_word(reply_p, 2);
- val = cy_as_ll_request_response__get_word(reply_p, 3);
- data_p->media_type = (uint8_t)(((val >> 8) & 0xFF) | (val & 0xFF));
- val = cy_as_ll_request_response__get_word(reply_p, 4);
- data_p->is_debug_mode = (cy_bool)(val & 0xFF);
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_misc_get_firmware_version(cy_as_device_handle handle,
- cy_as_get_firmware_version_data *data,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_bool standby;
- cy_as_ll_request_response *req_p, *reply_p;
-
- cy_as_device *dev_p;
-
- (void)client;
-
- cy_as_log_debug_message(6, "cy_as_misc_get_firmware_version called");
-
- /* Make sure we have a valid device */
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- /*
- * make sure antioch is not in standby
- */
- ret = cy_as_misc_in_standby(dev_p, &standby);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
- if (standby)
- return CY_AS_ERROR_IN_STANDBY;
-
- /* Make sure the Antioch is not in suspend mode. */
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_GET_FIRMWARE_VERSION,
- CY_RQT_GENERAL_RQT_CONTEXT, 0);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /*
- * Reserve space for the reply, the reply data
- * will not exceed three words
- */
- reply_p = cy_as_ll_create_response(dev_p, 5);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* Request and response are freed in
- * MyHandleResponseGetFirmwareVersion. */
- ret = my_handle_response_get_firmware_version(dev_p,
- req_p, reply_p, data);
- return ret;
- } else {
-
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MISC_GETFIRMWAREVERSION, data,
- dev_p->func_cbs_misc, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_misc_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed
- * as part of the MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_misc_get_firmware_version);
-
-static cy_as_return_status_t
-my_handle_response_read_m_c_u_register(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- uint8_t *data_p)
-{
-
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (cy_as_ll_request_response__get_code(reply_p)
- != CY_RESP_MCU_REGISTER_DATA) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- *data_p = (uint8_t)
- (cy_as_ll_request_response__get_word(reply_p, 0));
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-static cy_as_return_status_t
-my_handle_response_get_gpio_value(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- uint8_t *data_p)
-{
-
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (cy_as_ll_request_response__get_code(reply_p)
- != CY_RESP_GPIO_STATE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- } else
- *data_p = (uint8_t)
- (cy_as_ll_request_response__get_word(reply_p, 0));
-
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-
-cy_as_return_status_t cy_as_misc_set_sd_power_polarity(
- cy_as_device_handle handle,
- cy_as_misc_signal_polarity polarity,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (!cy_as_device_is_configured(dev_p))
- return CY_AS_ERROR_NOT_CONFIGURED;
-
- if (!cy_as_device_is_firmware_loaded(dev_p))
- return CY_AS_ERROR_NO_FIRMWARE;
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_SDPOLARITY,
- CY_RQT_GENERAL_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- (uint16_t)polarity);
-
- /*
- * Reserve space for the reply, the reply data will
- * not exceed one word
- */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return (my_handle_response_no_data(dev_p, req_p, reply_p));
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MISC_SETSDPOLARITY, 0, dev_p->func_cbs_misc,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_misc_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed
- * as part of the FuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
- return ret;
-}
-
-
-cy_as_return_status_t
-cy_as_misc_read_m_c_u_register(cy_as_device_handle handle,
- uint16_t address,
- uint8_t *value,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_ll_request_response *req_p, *reply_p;
-
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_misc_read_m_c_u_register called");
-
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- /* Check whether the firmware supports this command. */
- if (cy_as_device_is_nand_storage_supported(dev_p))
- return CY_AS_ERROR_NOT_SUPPORTED;
-
- /* Make sure the Antioch is not in suspend mode. */
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_READ_MCU_REGISTER,
- CY_RQT_GENERAL_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0, (uint16_t)address);
-
- /* Reserve space for the reply, the reply
- * data will not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_MCU_REGISTER_DATA) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- *value = (uint8_t)(cy_as_ll_request_response__get_word
- (reply_p, 0));
- } else {
-
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MISC_READMCUREGISTER, value,
- dev_p->func_cbs_misc, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_misc_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed
- * as part of the MiscFuncCallback */
- return ret;
- }
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_misc_read_m_c_u_register);
-
-cy_as_return_status_t
-cy_as_misc_write_m_c_u_register(cy_as_device_handle handle,
- uint16_t address,
- uint8_t mask,
- uint8_t value,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_misc_write_m_c_u_register called");
-
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- /* Check whether the firmware supports this command. */
- if (cy_as_device_is_nand_storage_supported(dev_p))
- return CY_AS_ERROR_NOT_SUPPORTED;
-
- /* Make sure the Antioch is not in suspend mode. */
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_WRITE_MCU_REGISTER,
- CY_RQT_GENERAL_RQT_CONTEXT, 2);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0, (uint16_t)address);
- cy_as_ll_request_response__set_word(req_p, 1,
- (uint16_t)((mask << 8) | value));
-
- /*
- * Reserve space for the reply, the reply data
- * will not exceed one word
- */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MISC_WRITEMCUREGISTER, 0,
- dev_p->func_cbs_misc, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_misc_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /*
- * The request and response are freed as part of the
- * MiscFuncCallback
- */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-my_handle_response_reset(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_reset_type type)
-{
- uint16_t v;
-
- (void)req_p;
- (void)reply_p;
-
- /*
- * if the device is in suspend mode, it needs to be woken up
- * so that the write to the reset control register succeeds.
- * we need not however wait for the wake up procedure to be
- * complete.
- */
- if (cy_as_device_is_in_suspend_mode(dev_p)) {
- v = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_CM_WB_CFG_ID);
- cy_as_hal_sleep(1);
- }
-
- if (type == cy_as_reset_hard) {
- cy_as_misc_cancel_ex_requests(dev_p);
- cy_as_hal_write_register(dev_p->tag, CY_AS_MEM_RST_CTRL_REG,
- CY_AS_MEM_RST_CTRL_REG_HARD);
- cy_as_device_set_unconfigured(dev_p);
- cy_as_device_set_firmware_not_loaded(dev_p);
- cy_as_device_set_dma_stopped(dev_p);
- cy_as_device_set_low_level_stopped(dev_p);
- cy_as_device_set_intr_stopped(dev_p);
- cy_as_device_clear_suspend_mode(dev_p);
- cy_as_usb_cleanup(dev_p);
- cy_as_storage_cleanup(dev_p);
-
- /*
- * wait for a small amount of time to
- * allow reset to be complete.
- */
- cy_as_hal_sleep(100);
- }
-
- cy_as_device_clear_reset_pending(dev_p);
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-cy_as_return_status_t
-cy_as_misc_reset(cy_as_device_handle handle,
- cy_as_reset_type type,
- cy_bool flush,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p;
- cy_as_end_point_number_t i;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- (void)client;
- (void)cb;
-
- cy_as_log_debug_message(6, "cy_as_misc_reset_e_x called");
-
- /* Make sure the device is ready for the command. */
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- /*
- * soft reset is not supported until we close on the issues
- * in the firmware with what needs to happen.
- */
- if (type == cy_as_reset_soft)
- return CY_AS_ERROR_NOT_YET_SUPPORTED;
-
- cy_as_device_set_reset_pending(dev_p);
-
- if (flush) {
- /* Unable to DrainQueues in polling mode */
- if ((dev_p->storage_cb || dev_p->storage_cb_ms) &&
- cy_as_hal_is_polling())
- return CY_AS_ERROR_ASYNC_PENDING;
-
- /*
- * shutdown the endpoints so no more traffic can be queued
- */
- for (i = 0; i < 15; i++)
- cy_as_dma_enable_end_point(dev_p, i, cy_false,
- cy_as_direction_dont_change);
-
- /*
- * if we are in normal mode, drain all traffic across all
- * endpoints to be sure all traffic is flushed. if the
- * device is suspended, data will not be coming in on any
- * endpoint and all outstanding DMA operations can be
- * cancelled.
- */
- if (cy_as_device_is_in_suspend_mode(dev_p)) {
- for (i = 0; i < 15; i++)
- cy_as_dma_cancel(dev_p, i,
- CY_AS_ERROR_CANCELED);
- } else {
- for (i = 0; i < 15; i++) {
- if ((i == CY_AS_P2S_WRITE_ENDPOINT) ||
- (i == CY_AS_P2S_READ_ENDPOINT))
- cy_as_dma_drain_queue(dev_p, i,
- cy_false);
- else
- cy_as_dma_drain_queue(dev_p, i,
- cy_true);
- }
- }
- } else {
- /* No flush was requested, so cancel any outstanding DMAs
- * so the user callbacks are called as needed
- */
- if (cy_as_device_is_storage_async_pending(dev_p)) {
- for (i = 0; i < 15; i++)
- cy_as_dma_cancel(dev_p, i,
- CY_AS_ERROR_CANCELED);
- }
- }
-
- ret = my_handle_response_reset(dev_p, 0, 0, type);
-
- if (cb)
- /* Even though no mailbox communication was needed,
- * issue the callback so the user does not need to
- * special case their code. */
- cb((cy_as_device_handle)dev_p, ret, client,
- CY_FUNCT_CB_MISC_RESET, 0);
-
- /*
- * initialize any registers that may have been
- * changed when the device was reset.
- */
- cy_as_hal_init_dev_registers(dev_p->tag, cy_false);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_misc_reset);
-
-static cy_as_return_status_t
-get_unallocated_resource(cy_as_device *dev_p, cy_as_resource_type resource)
-{
- uint8_t shift = 0;
- uint16_t v;
- cy_as_return_status_t ret = CY_AS_ERROR_NOT_ACQUIRED;
-
- switch (resource) {
- case cy_as_bus_u_s_b:
- shift = 4;
- break;
- case cy_as_bus_1:
- shift = 0;
- break;
- case cy_as_bus_0:
- shift = 2;
- break;
- default:
- cy_as_hal_assert(cy_false);
- break;
- }
-
- /* Get the semaphore value for this resource */
- v = cy_as_hal_read_register(dev_p->tag, CY_AS_MEM_P0_RSE_ALLOCATE);
- v = (v >> shift) & 0x03;
-
- if (v == 0x03) {
- ret = CY_AS_ERROR_RESOURCE_ALREADY_OWNED;
- } else if ((v & 0x01) == 0) {
- /* The resource is not owned by anyone, we can try to get it */
- cy_as_hal_write_register(dev_p->tag,
- CY_AS_MEM_P0_RSE_MASK, (0x03 << shift));
- v = cy_as_hal_read_register(dev_p->tag, CY_AS_MEM_P0_RSE_MASK);
- cy_as_hal_write_register(dev_p->tag,
- CY_AS_MEM_P0_RSE_ALLOCATE, (0x01 << shift));
- v = cy_as_hal_read_register(dev_p->tag, CY_AS_MEM_P0_RSE_MASK);
-
- v = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_P0_RSE_ALLOCATE);
- v = (v >> shift) & 0x03;
- if (v == 0x03)
- ret = CY_AS_ERROR_SUCCESS;
- }
-
- return ret;
-}
-
-static cy_as_return_status_t
-my_handle_response_acquire_resource(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_resource_type *resource)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- if (ret == CY_AS_ERROR_SUCCESS) {
- ret = get_unallocated_resource(dev_p, *resource);
- if (ret != CY_AS_ERROR_NOT_ACQUIRED)
- ret = CY_AS_ERROR_SUCCESS;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_misc_acquire_resource(cy_as_device_handle handle,
- cy_as_resource_type *resource,
- cy_bool force,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_return_status_t ret;
-
- cy_as_device *dev_p;
-
- (void)client;
-
- cy_as_log_debug_message(6, "cy_as_misc_acquire_resource called");
-
- if (*resource != cy_as_bus_u_s_b && *resource !=
- cy_as_bus_0 && *resource != cy_as_bus_1)
- return CY_AS_ERROR_INVALID_RESOURCE;
-
-
- /* Make sure the device is ready to accept the command. */
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
-
- ret = get_unallocated_resource(dev_p, *resource);
-
- /*
- * make sure that the callback is called if the resource is
- * successfully acquired at this point.
- */
- if ((ret == CY_AS_ERROR_SUCCESS) && (cb != 0))
- cb(handle, ret, client,
- CY_FUNCT_CB_MISC_ACQUIRERESOURCE, resource);
-
- if (ret != CY_AS_ERROR_NOT_ACQUIRED)
- return ret;
-
- if (!force)
- return CY_AS_ERROR_NOT_ACQUIRED;
-
- /* Create the request to acquire the resource */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_ACQUIRE_RESOURCE,
- CY_RQT_RESOURCE_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0, (uint16_t)(*resource));
-
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MISC_ACQUIRERESOURCE, resource,
- dev_p->func_cbs_res, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_misc_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed
- * as part of the MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- if (ret == CY_AS_ERROR_SUCCESS) {
- ret = get_unallocated_resource(dev_p, *resource);
- if (ret != CY_AS_ERROR_NOT_ACQUIRED)
- ret = CY_AS_ERROR_SUCCESS;
- }
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_misc_acquire_resource);
-
-cy_as_return_status_t
-cy_as_misc_release_resource(cy_as_device_handle handle,
- cy_as_resource_type resource)
-{
- uint8_t shift = 0;
- uint16_t v;
-
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_misc_release_resource called");
-
- /* Make sure the device is ready for the command. */
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- if (resource != cy_as_bus_u_s_b && resource !=
- cy_as_bus_0 && resource != cy_as_bus_1)
- return CY_AS_ERROR_INVALID_RESOURCE;
-
- switch (resource) {
- case cy_as_bus_u_s_b:
- shift = 4;
- break;
- case cy_as_bus_1:
- shift = 0;
- break;
- case cy_as_bus_0:
- shift = 2;
- break;
- default:
- cy_as_hal_assert(cy_false);
- break;
- }
-
- /* Get the semaphore value for this resource */
- v = (cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_P0_RSE_ALLOCATE) >> shift) & 0x03;
- if (v == 0 || v == 1 || v == 2)
- return CY_AS_ERROR_RESOURCE_NOT_OWNED;
-
- cy_as_hal_write_register(dev_p->tag,
- CY_AS_MEM_P0_RSE_MASK, (0x03 << shift));
- cy_as_hal_write_register(dev_p->tag,
- CY_AS_MEM_P0_RSE_ALLOCATE, (0x02 << shift));
- cy_as_hal_write_register(dev_p->tag,
- CY_AS_MEM_P0_RSE_MASK, 0);
-
- return CY_AS_ERROR_SUCCESS;
-}
-EXPORT_SYMBOL(cy_as_misc_release_resource);
-
-cy_as_return_status_t
-cy_as_misc_set_trace_level(cy_as_device_handle handle,
- uint8_t level,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint32_t unit,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_return_status_t ret;
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_misc_set_trace_level called");
-
- /* Make sure the device is ready for the command. */
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- if (bus < 0 || bus >= CY_AS_MAX_BUSES)
- return CY_AS_ERROR_NO_SUCH_BUS;
-
- if (device >= CY_AS_MAX_STORAGE_DEVICES)
- return CY_AS_ERROR_NO_SUCH_DEVICE;
-
- if (unit > 255)
- return CY_AS_ERROR_NO_SUCH_UNIT;
-
- if (level >= CYAS_FW_TRACE_MAX_LEVEL)
- return CY_AS_ERROR_INVALID_TRACE_LEVEL;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_SET_TRACE_LEVEL,
- CY_RQT_GENERAL_RQT_CONTEXT, 2);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- (uint16_t)level);
- cy_as_ll_request_response__set_word(req_p, 1,
- (uint16_t)((bus << 12) | (device << 8) | (unit)));
-
- /*
- * Reserve space for the reply, the reply data will not
- * exceed three words
- */
- reply_p = cy_as_ll_create_response(dev_p, 2);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_NOT_SUPPORTED;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- } else {
-
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MISC_SETTRACELEVEL, 0, dev_p->func_cbs_misc,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_misc_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as part of the
- * MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_misc_heart_beat_control(cy_as_device_handle handle,
- cy_bool enable,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_return_status_t ret;
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_misc_heart_beat_control called");
-
- /* Make sure the device is ready for the command. */
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_CONTROL_ANTIOCH_HEARTBEAT,
- CY_RQT_GENERAL_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0, (uint16_t)enable);
-
- /* Reserve space for the reply, the reply
- * data will not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- } else {
-
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MISC_HEARTBEATCONTROL, 0,
- dev_p->func_cbs_misc, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_misc_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as part of the
- * MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_misc_heart_beat_control);
-
-static cy_as_return_status_t
-my_set_sd_clock_freq(
- cy_as_device *dev_p,
- uint8_t card_type,
- uint8_t setting,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_ll_request_response *req_p, *reply_p;
-
- if (cy_as_device_is_in_callback(dev_p) && (cb == 0))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_SET_SD_CLOCK_FREQ,
- CY_RQT_GENERAL_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- (uint16_t)((card_type << 8) | setting));
-
- /* Reserve space for the reply, which will not exceed one word. */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MISC_SETSDFREQ, 0, dev_p->func_cbs_misc,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_misc_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as part of the
- * MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_misc_set_low_speed_sd_freq(
- cy_as_device_handle handle,
- cy_as_low_speed_sd_freq setting,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_misc_set_low_speed_sd_freq called");
-
- /* Make sure the device is ready for the command. */
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- if ((setting != CY_AS_SD_DEFAULT_FREQ) &&
- (setting != CY_AS_SD_RATED_FREQ))
- return CY_AS_ERROR_INVALID_PARAMETER;
-
- return my_set_sd_clock_freq(dev_p, 0, (uint8_t)setting, cb, client);
-}
-EXPORT_SYMBOL(cy_as_misc_set_low_speed_sd_freq);
-
-cy_as_return_status_t
-cy_as_misc_set_high_speed_sd_freq(
- cy_as_device_handle handle,
- cy_as_high_speed_sd_freq setting,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_misc_set_high_speed_sd_freq called");
-
- /* Make sure the device is ready for the command. */
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- if ((setting != CY_AS_HS_SD_FREQ_24) &&
- (setting != CY_AS_HS_SD_FREQ_48))
- return CY_AS_ERROR_INVALID_PARAMETER;
-
- return my_set_sd_clock_freq(dev_p, 1, (uint8_t)setting, cb, client);
-}
-EXPORT_SYMBOL(cy_as_misc_set_high_speed_sd_freq);
-
-cy_as_return_status_t
-cy_as_misc_get_gpio_value(cy_as_device_handle handle,
- cy_as_misc_gpio pin,
- uint8_t *value,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_device *dev_p;
- uint16_t v;
-
- cy_as_log_debug_message(6, "cy_as_misc_get_gpio_value called");
-
- /* Make sure the device is ready for the command. */
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- /* If the pin specified is UVALID, there is no need
- * for firmware to be loaded. */
- if (pin == cy_as_misc_gpio_U_valid) {
- v = cy_as_hal_read_register(dev_p->tag, CY_AS_MEM_PMU_UPDATE);
- *value = (uint8_t)(v & CY_AS_MEM_PMU_UPDATE_UVALID);
-
- if (cb != 0)
- cb(dev_p, ret, client,
- CY_FUNCT_CB_MISC_GETGPIOVALUE, value);
-
- return ret;
- }
-
- /* Check whether the firmware supports this command. */
- if (cy_as_device_is_nand_storage_supported(dev_p))
- return CY_AS_ERROR_NOT_SUPPORTED;
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- /* Make sure the pin selected is valid */
- if ((pin != cy_as_misc_gpio_1) && (pin != cy_as_misc_gpio_0))
- return CY_AS_ERROR_INVALID_PARAMETER;
-
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_GET_GPIO_STATE,
- CY_RQT_GENERAL_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0, ((uint8_t)pin << 8));
-
- /* Reserve space for the reply, which will not exceed one word. */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_GPIO_STATE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- *value = (uint8_t)
- cy_as_ll_request_response__get_word(reply_p, 0);
- } else {
-
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MISC_GETGPIOVALUE, value,
- dev_p->func_cbs_misc, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_misc_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as part of the
- * MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_misc_get_gpio_value);
-
-cy_as_return_status_t
-cy_as_misc_set_gpio_value(cy_as_device_handle handle,
- cy_as_misc_gpio pin,
- uint8_t value,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_device *dev_p;
- uint16_t v;
-
- cy_as_log_debug_message(6, "cy_as_misc_set_gpio_value called");
-
- /* Make sure the device is ready for the command. */
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- /* If the pin specified is UVALID, there is
- * no need for firmware to be loaded. */
- if (pin == cy_as_misc_gpio_U_valid) {
- v = cy_as_hal_read_register(dev_p->tag, CY_AS_MEM_PMU_UPDATE);
- if (value)
- cy_as_hal_write_register(dev_p->tag,
- CY_AS_MEM_PMU_UPDATE,
- (v | CY_AS_MEM_PMU_UPDATE_UVALID));
- else
- cy_as_hal_write_register(dev_p->tag,
- CY_AS_MEM_PMU_UPDATE,
- (v & ~CY_AS_MEM_PMU_UPDATE_UVALID));
-
- if (cb != 0)
- cb(dev_p, ret, client,
- CY_FUNCT_CB_MISC_SETGPIOVALUE, 0);
- return ret;
- }
-
- /* Check whether the firmware supports this command. */
- if (cy_as_device_is_nand_storage_supported(dev_p))
- return CY_AS_ERROR_NOT_SUPPORTED;
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- /* Make sure the pin selected is valid */
- if ((pin < cy_as_misc_gpio_0) || (pin > cy_as_misc_gpio_U_valid))
- return CY_AS_ERROR_INVALID_PARAMETER;
-
- /* Create and initialize the low level request to the firmware. */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_SET_GPIO_STATE,
- CY_RQT_GENERAL_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- v = (uint16_t)(((uint8_t)pin << 8) | (value > 0));
- cy_as_ll_request_response__set_word(req_p, 0, v);
-
- /* Reserve space for the reply, which will not exceed one word. */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- } else {
-
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MISC_SETGPIOVALUE, 0,
- dev_p->func_cbs_misc, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_misc_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as part of the
- * MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_misc_set_gpio_value);
-
-static cy_as_return_status_t
-my_enter_standby(cy_as_device *dev_p, cy_bool pin)
-{
- cy_as_misc_cancel_ex_requests(dev_p);
-
- /* Save the current values in the critical P-port
- * registers, where necessary. */
- cy_as_hal_read_regs_before_standby(dev_p->tag);
-
- if (pin) {
- if (cy_as_hal_set_wakeup_pin(dev_p->tag, cy_false))
- cy_as_device_set_pin_standby(dev_p);
- else
- return CY_AS_ERROR_SETTING_WAKEUP_PIN;
- } else {
- /*
- * put antioch in the standby mode
- */
- cy_as_hal_write_register(dev_p->tag,
- CY_AS_MEM_PWR_MAGT_STAT, 0x02);
- cy_as_device_set_register_standby(dev_p);
- }
-
- /*
- * when the antioch comes out of standby, we have to wait until
- * the firmware initialization completes before sending other
- * requests down.
- */
- cy_as_device_set_firmware_not_loaded(dev_p);
-
- /*
- * keep west bridge interrupt disabled until the device is being woken
- * up from standby.
- */
- dev_p->stby_int_mask = cy_as_hal_disable_interrupts();
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-static cy_as_return_status_t
-my_handle_response_enter_standby(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_bool pin)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- ret = my_enter_standby(dev_p, pin);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_misc_enter_standby(cy_as_device_handle handle,
- cy_bool pin,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_ll_request_response *req_p, *reply_p;
- cy_bool standby;
-
- cy_as_log_debug_message(6, "cy_as_misc_enter_standby called");
-
- /* Make sure we have a valid device */
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- /*
- * if we already are in standby, do not do it again and let the
- * user know via the error return.
- */
- ret = cy_as_misc_in_standby(handle, &standby);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (standby == cy_true)
- return CY_AS_ERROR_ALREADY_STANDBY;
-
- /*
- * if the user wants to transition from suspend mode to standby mode,
- * the device needs to be woken up so that it can complete all pending
- * operations.
- */
- if (cy_as_device_is_in_suspend_mode(dev_p))
- cy_as_misc_leave_suspend(dev_p, 0, 0);
-
- if (dev_p->usb_count) {
- /*
- * we do not allow west bridge to go into standby mode when the
- * USB stack is initialized. you must stop the USB stack in
- * order to enter standby mode.
- */
- return CY_AS_ERROR_USB_RUNNING;
- }
-
- /*
- * if the storage stack is not running, the device can directly be
- * put into sleep mode. otherwise, the firmware needs to be signaled
- * to prepare for going into sleep mode.
- */
- if (dev_p->storage_count) {
- /*
- * if there are async storage operations pending,
- * make one attempt to complete them.
- */
- if (cy_as_device_is_storage_async_pending(dev_p)) {
- /* DrainQueue will not work in polling mode */
- if (cy_as_hal_is_polling())
- return CY_AS_ERROR_ASYNC_PENDING;
-
- cy_as_dma_drain_queue(dev_p,
- CY_AS_P2S_READ_ENDPOINT, cy_false);
- cy_as_dma_drain_queue(dev_p,
- CY_AS_P2S_WRITE_ENDPOINT, cy_false);
-
- /*
- * if more storage operations were queued
- * at this stage, return an error.
- */
- if (cy_as_device_is_storage_async_pending(dev_p))
- return CY_AS_ERROR_ASYNC_PENDING;
- }
-
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_PREPARE_FOR_STANDBY,
- CY_RQT_GENERAL_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (!cb) {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed
- * in the HandleResponse */
- return my_handle_response_enter_standby(dev_p,
- req_p, reply_p, pin);
-
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MISC_ENTERSTANDBY, (void *)pin,
- dev_p->func_cbs_misc, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_misc_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed
- * as part of the MiscFuncCallback */
- return ret;
- }
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
- } else {
- ret = my_enter_standby(dev_p, pin);
- if (cb)
- /* Even though no mailbox communication was
- * needed, issue the callback so the user
- * does not need to special case their code. */
- cb((cy_as_device_handle)dev_p, ret, client,
- CY_FUNCT_CB_MISC_ENTERSTANDBY, 0);
- }
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_misc_enter_standby);
-
-cy_as_return_status_t
-cy_as_misc_enter_standby_e_x_u(cy_as_device_handle handle,
- cy_bool pin,
- cy_bool uvalid_special,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p;
-
- dev_p = (cy_as_device *)handle;
- if (uvalid_special)
- cy_as_hal_write_register(dev_p->tag, 0xc5, 0x4);
-
- return cy_as_misc_enter_standby(handle, pin, cb, client);
-}
-
-cy_as_return_status_t
-cy_as_misc_leave_standby(cy_as_device_handle handle,
- cy_as_resource_type resource)
-{
- cy_as_device *dev_p;
- uint16_t v;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint32_t count = 8;
- uint8_t retry = 1;
-
- cy_as_log_debug_message(6, "cy_as_misc_leave_standby called");
- (void)resource;
-
- /* Make sure we have a valid device */
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (cy_as_device_is_register_standby(dev_p)) {
- /*
- * set a flag to indicate that the west bridge is waking
- * up from standby.
- */
- cy_as_device_set_waking(dev_p);
-
- /*
- * the initial read will not succeed, but will just wake
- * the west bridge device from standby. successive reads
- * should succeed and in that way we know west bridge is awake.
- */
- v = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_CM_WB_CFG_ID);
-
- do {
- /*
- * we have initiated the operation to leave standby, now
- * we need to wait at least N ms before trying to access
- * the west bridge device to insure the PLLs have locked
- * and we can talk to the device.
- */
- if (cy_as_device_is_crystal(dev_p))
- cy_as_hal_sleep(
- CY_AS_LEAVE_STANDBY_DELAY_CRYSTAL);
- else
- cy_as_hal_sleep(
- CY_AS_LEAVE_STANDBY_DELAY_CLOCK);
- v = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_CM_WB_CFG_ID);
-
- /*
- * if the P-SPI interface mode is in use, there may be a
- * need to re-synchronise the serial clock used for
- * astoria access.
- */
- if (!is_valid_silicon_id(v)) {
- if (cy_as_hal_sync_device_clocks(dev_p->tag) !=
- cy_true) {
- cy_as_hal_enable_interrupts(
- dev_p->stby_int_mask);
- return CY_AS_ERROR_TIMEOUT;
- }
- }
- } while (!is_valid_silicon_id(v) && count-- > 0);
-
- /*
- * if we tried to read the register and could not,
- * return a timeout
- */
- if (count == 0) {
- cy_as_hal_enable_interrupts(
- dev_p->stby_int_mask);
- return CY_AS_ERROR_TIMEOUT;
- }
-
- /*
- * the standby flag is cleared here, after the action to
- * exit standby has been taken. the wait for firmware
- * initialization, is ensured by marking the firmware as
- * not loaded until the init event is received.
- */
- cy_as_device_clear_register_standby(dev_p);
-
- /*
- * initialize any registers that may have been changed
- * while the device was in standby mode.
- */
- cy_as_hal_init_dev_registers(dev_p->tag, cy_true);
- } else if (cy_as_device_is_pin_standby(dev_p)) {
- /*
- * set a flag to indicate that the west bridge is waking
- * up from standby.
- */
- cy_as_device_set_waking(dev_p);
-
-try_wakeup_again:
- /*
- * try to set the wakeup pin, if this fails in the HAL
- * layer, return this failure to the user.
- */
- if (!cy_as_hal_set_wakeup_pin(dev_p->tag, cy_true)) {
- cy_as_hal_enable_interrupts(dev_p->stby_int_mask);
- return CY_AS_ERROR_SETTING_WAKEUP_PIN;
- }
-
- /*
- * we have initiated the operation to leave standby, now
- * we need to wait at least N ms before trying to access
- * the west bridge device to insure the PL_ls have locked
- * and we can talk to the device.
- */
- if (cy_as_device_is_crystal(dev_p))
- cy_as_hal_sleep(CY_AS_LEAVE_STANDBY_DELAY_CRYSTAL);
- else
- cy_as_hal_sleep(CY_AS_LEAVE_STANDBY_DELAY_CLOCK);
-
- /*
- * initialize any registers that may have been changed
- * while the device was in standby mode.
- */
- cy_as_hal_init_dev_registers(dev_p->tag, cy_true);
-
- /*
- * the standby flag is cleared here, after the action to
- * exit standby has been taken. the wait for firmware
- * initialization, is ensured by marking the firmware as
- * not loaded until the init event is received.
- */
- cy_as_device_clear_pin_standby(dev_p);
- } else {
- return CY_AS_ERROR_NOT_IN_STANDBY;
- }
-
- /*
- * the west bridge interrupt can be enabled now.
- */
- cy_as_hal_enable_interrupts(dev_p->stby_int_mask);
-
- /*
- * release the west bridge micro-_controller from reset,
- * so that firmware initialization can complete. the attempt
- * to release antioch reset is made up to 8 times.
- */
- v = 0x03;
- count = 0x08;
- while ((v & 0x03) && (count)) {
- cy_as_hal_write_register(dev_p->tag,
- CY_AS_MEM_RST_CTRL_REG, 0x00);
- v = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_RST_CTRL_REG);
- count--;
- }
-
- if (v & 0x03) {
- cy_as_hal_print_message("failed to clear antioch reset\n");
- return CY_AS_ERROR_TIMEOUT;
- }
-
- /*
- * if the wake-up pin is being used, wait here to make
- * sure that the wake-up event is received within a
- * reasonable delay. otherwise, toggle the wake-up pin
- * again in an attempt to start the firmware properly.
- */
- if (retry) {
- count = 10;
- while (count) {
- /* If the wake-up event has been received,
- * we can return. */
- if (cy_as_device_is_firmware_loaded(dev_p))
- break;
- /* If we are in polling mode, the interrupt may
- * not have been serviced as yet. read the
- * interrupt status register. if a pending mailbox
- * interrupt is seen, we can assume that the
- * wake-up event will be received soon. */
- v = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_P0_INTR_REG);
- if (v & CY_AS_MEM_P0_INTR_REG_MBINT)
- break;
-
- cy_as_hal_sleep(10);
- count--;
- }
-
- if (!count) {
- retry = 0;
- dev_p->stby_int_mask = cy_as_hal_disable_interrupts();
- cy_as_hal_set_wakeup_pin(dev_p->tag, cy_false);
- cy_as_hal_sleep(10);
- goto try_wakeup_again;
- }
- }
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_misc_leave_standby);
-
-cy_as_return_status_t
-cy_as_misc_register_callback(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The function to call */
- cy_as_misc_event_callback callback
- )
-{
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_misc_register_callback called");
-
- /* Make sure we have a valid device */
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- dev_p->misc_event_cb = callback;
- return CY_AS_ERROR_SUCCESS;
-}
-
-cy_as_return_status_t
-cy_as_misc_storage_changed(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_bool standby;
- cy_as_ll_request_response *req_p, *reply_p;
-
- cy_as_log_debug_message(6, "cy_as_misc_storage_changed called");
-
- /* Make sure the device is ready for the command. */
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- /*
- * make sure antioch is not in standby
- */
- ret = cy_as_misc_in_standby(dev_p, &standby);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (standby)
- return CY_AS_ERROR_IN_STANDBY;
-
- /*
- * make sure westbridge is not in suspend mode.
- */
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_STORAGE_MEDIA_CHANGED,
- CY_RQT_GENERAL_RQT_CONTEXT, 0);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* Reserve space for the reply, the reply data will
- * not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- } else {
-
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MISC_STORAGECHANGED, 0,
- dev_p->func_cbs_misc, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_misc_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as part of the
- * MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_misc_storage_changed);
-
-cy_as_return_status_t
-cy_as_misc_enter_suspend(
- cy_as_device_handle handle,
- cy_bool usb_wakeup_en,
- cy_bool gpio_wakeup_en,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_bool standby;
- cy_as_ll_request_response *req_p, *reply_p;
- uint16_t value;
- uint32_t int_state;
-
- cy_as_log_debug_message(6, "cy_as_misc_enter_suspend called");
-
- /*
- * basic sanity checks to ensure that the device is initialised.
- */
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- /*
- * make sure west bridge is not already in standby
- */
- cy_as_misc_in_standby(dev_p, &standby);
- if (standby)
- return CY_AS_ERROR_IN_STANDBY;
-
- /*
- * make sure that the device is not already in suspend mode.
- */
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- /*
- * make sure there is no active USB connection.
- */
- if ((cy_as_device_is_usb_connected(dev_p)) && (dev_p->usb_last_event
- != cy_as_event_usb_suspend))
- return CY_AS_ERROR_USB_CONNECTED;
-
- /*
- * make sure that there are no async requests at this point in time.
- */
- int_state = cy_as_hal_disable_interrupts();
- if ((dev_p->func_cbs_misc->count) || (dev_p->func_cbs_res->count) ||
- (dev_p->func_cbs_stor->count) || (dev_p->func_cbs_usb->count)) {
- cy_as_hal_enable_interrupts(int_state);
- return CY_AS_ERROR_ASYNC_PENDING;
- }
- cy_as_hal_enable_interrupts(int_state);
-
- /* Create the request to send to the Antioch device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_ENTER_SUSPEND_MODE,
- CY_RQT_GENERAL_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* Reserve space for the reply, the reply data will not
- * exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- /* Wakeup control flags. */
- value = 0x0001;
- if (usb_wakeup_en)
- value |= 0x04;
- if (gpio_wakeup_en)
- value |= 0x02;
- cy_as_ll_request_response__set_word(req_p, 0, value);
-
- if (cb != 0) {
-
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MISC_ENTERSUSPEND,
- 0, dev_p->func_cbs_misc, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p,
- cy_as_misc_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return CY_AS_ERROR_SUCCESS;
- } else {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE)
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- else
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- }
-
-destroy:
- if (ret == CY_AS_ERROR_SUCCESS)
- cy_as_device_set_suspend_mode(dev_p);
-
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_misc_enter_suspend);
-
-cy_as_return_status_t
-cy_as_misc_leave_suspend(
- cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p;
- uint16_t v, count;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- cy_as_log_debug_message(6, "cy_as_misc_leave_suspend called");
-
- /* Make sure we have a valid device */
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- /* Make sure we are in suspend mode. */
- if (cy_as_device_is_in_suspend_mode(dev_p)) {
- if (cb) {
- cy_as_func_c_b_node *cbnode =
- cy_as_create_func_c_b_node_data(cb, client,
- CY_FUNCT_CB_MISC_LEAVESUSPEND, 0);
- if (cbnode == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_insert_c_b_node(dev_p->func_cbs_misc, cbnode);
- }
-
- /*
- * do a read from the ID register so that the CE assertion
- * will wake west bridge. the read is repeated until the
- * read comes back with valid data.
- */
- count = 8;
-
- v = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_CM_WB_CFG_ID);
-
- while (!is_valid_silicon_id(v) && count-- > 0) {
- cy_as_hal_sleep(CY_AS_LEAVE_STANDBY_DELAY_CLOCK);
- v = cy_as_hal_read_register(dev_p->tag,
- CY_AS_MEM_CM_WB_CFG_ID);
- }
-
- /*
- * if we tried to read the register and could not,
- * return a timeout
- */
- if (count == 0)
- return CY_AS_ERROR_TIMEOUT;
- } else
- return CY_AS_ERROR_NOT_IN_SUSPEND;
-
- if (cb == 0) {
- /*
- * wait until the in suspend mode flag is cleared.
- */
- count = 20;
- while ((cy_as_device_is_in_suspend_mode(dev_p))
- && (count--)) {
- cy_as_hal_sleep(CY_AS_LEAVE_STANDBY_DELAY_CLOCK);
- }
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- ret = CY_AS_ERROR_TIMEOUT;
- }
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_misc_leave_suspend);
-
-cy_as_return_status_t
-cy_as_misc_reserve_l_n_a_boot_area(cy_as_device_handle handle,
- uint8_t numzones,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_bool standby;
- cy_as_ll_request_response *req_p, *reply_p;
-
- cy_as_device *dev_p;
-
- (void)client;
-
- cy_as_log_debug_message(6, "cy_as_misc_switch_pnand_mode called");
-
- /* Make sure we have a valid device */
- dev_p = (cy_as_device *)handle;
- cy_as_check_device_ready(dev_p);
-
- /*
- * make sure antioch is not in standby
- */
- ret = cy_as_misc_in_standby(dev_p, &standby);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
- if (standby)
- return CY_AS_ERROR_IN_STANDBY;
-
- /* Make sure the Antioch is not in suspend mode. */
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_RESERVE_LNA_BOOT_AREA,
- CY_RQT_GENERAL_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
- cy_as_ll_request_response__set_word(req_p,
- 0, (uint16_t)numzones);
-
- /* Reserve space for the reply, the reply data will not
- * exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- } else {
-
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MISC_RESERVELNABOOTAREA,
- 0, dev_p->func_cbs_misc, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_misc_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as part of the
- * MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_func_c_b_node*
-cy_as_create_func_c_b_node_data(cy_as_function_callback cb,
- uint32_t client,
- cy_as_funct_c_b_type type,
- void *data)
-{
- uint32_t state = cy_as_hal_disable_interrupts();
- cy_as_func_c_b_node *node = cy_as_hal_c_b_alloc(
- sizeof(cy_as_func_c_b_node));
- cy_as_hal_enable_interrupts(state);
- if (node != 0) {
- node->node_type = CYAS_FUNC_CB;
- node->cb_p = cb;
- node->client_data = client;
- node->data_type = type;
- if (data != 0)
- node->data_type |= CY_FUNCT_CB_DATA;
- else
- node->data_type |= CY_FUNCT_CB_NODATA;
- node->data = data;
- node->next_p = 0;
- }
- return node;
-}
-
-cy_as_func_c_b_node*
-cy_as_create_func_c_b_node(cy_as_function_callback cb,
- uint32_t client)
-{
- return cy_as_create_func_c_b_node_data(cb, client,
- CY_FUNCT_CB_NODATA, 0);
-}
-
-void
-cy_as_destroy_func_c_b_node(cy_as_func_c_b_node *node)
-{
- uint32_t state;
-
- node->node_type = CYAS_INVALID;
- state = cy_as_hal_disable_interrupts();
- cy_as_hal_c_b_free(node);
- cy_as_hal_enable_interrupts(state);
-}
-
-cy_as_usb_func_c_b_node*
-cy_as_create_usb_func_c_b_node(
- cy_as_usb_function_callback cb, uint32_t client)
-{
- uint32_t state = cy_as_hal_disable_interrupts();
- cy_as_usb_func_c_b_node *node = cy_as_hal_c_b_alloc(
- sizeof(cy_as_usb_func_c_b_node));
- cy_as_hal_enable_interrupts(state);
- if (node != 0) {
- node->type = CYAS_USB_FUNC_CB;
- node->cb_p = cb;
- node->client_data = client;
- node->next_p = 0;
- }
- return node;
-}
-
-void
-cy_as_destroy_usb_func_c_b_node(cy_as_usb_func_c_b_node *node)
-{
- uint32_t state;
-
- node->type = CYAS_INVALID;
- state = cy_as_hal_disable_interrupts();
- cy_as_hal_c_b_free(node);
- cy_as_hal_enable_interrupts(state);
-}
-
-cy_as_usb_io_c_b_node*
-cy_as_create_usb_io_c_b_node(cy_as_usb_io_callback cb)
-{
- uint32_t state = cy_as_hal_disable_interrupts();
- cy_as_usb_io_c_b_node *node = cy_as_hal_c_b_alloc(
- sizeof(cy_as_usb_io_c_b_node));
- cy_as_hal_enable_interrupts(state);
- if (node != 0) {
- node->type = CYAS_USB_IO_CB;
- node->cb_p = cb;
- node->next_p = 0;
- }
- return node;
-}
-
-void
-cy_as_destroy_usb_io_c_b_node(cy_as_usb_io_c_b_node *node)
-{
- uint32_t state;
-
- node->type = CYAS_INVALID;
-
- state = cy_as_hal_disable_interrupts();
- cy_as_hal_c_b_free(node);
- cy_as_hal_enable_interrupts(state);
-}
-
-cy_as_storage_io_c_b_node*
-cy_as_create_storage_io_c_b_node(cy_as_storage_callback cb,
- cy_as_media_type media, uint32_t device_index,
- uint32_t unit, uint32_t block_addr, cy_as_oper_type oper,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p)
-{
- uint32_t state = cy_as_hal_disable_interrupts();
- cy_as_storage_io_c_b_node *node = cy_as_hal_c_b_alloc(
- sizeof(cy_as_storage_io_c_b_node));
- cy_as_hal_enable_interrupts(state);
- if (node != 0) {
- node->type = CYAS_STORAGE_IO_CB;
- node->cb_p = cb;
- node->media = media;
- node->device_index = device_index;
- node->unit = unit;
- node->block_addr = block_addr;
- node->oper = oper;
- node->req_p = req_p;
- node->reply_p = reply_p;
- node->next_p = 0;
- }
- return node;
-}
-
-void
-cy_as_destroy_storage_io_c_b_node(cy_as_storage_io_c_b_node *node)
-{
- uint32_t state;
- node->type = CYAS_INVALID;
- state = cy_as_hal_disable_interrupts();
- cy_as_hal_c_b_free(node);
- cy_as_hal_enable_interrupts(state);
-}
-
-cy_as_c_b_queue *
-cy_as_create_c_b_queue(cy_as_c_b_node_type type)
-{
- uint32_t state = cy_as_hal_disable_interrupts();
- cy_as_c_b_queue *queue = cy_as_hal_c_b_alloc(
- sizeof(cy_as_c_b_queue));
- cy_as_hal_enable_interrupts(state);
- if (queue) {
- queue->type = type;
- queue->head_p = 0;
- queue->tail_p = 0;
- queue->count = 0;
- }
-
- return queue;
-}
-
-void
-cy_as_destroy_c_b_queue(cy_as_c_b_queue *queue)
-{
- uint32_t state;
- queue->type = CYAS_INVALID;
- queue->head_p = 0;
- queue->tail_p = 0;
- queue->count = 0;
- state = cy_as_hal_disable_interrupts();
- cy_as_hal_c_b_free(queue);
- cy_as_hal_enable_interrupts(state);
-}
-
-/* Inserts a CyAsCBNode into the queue, the
- * node type must match the queue type*/
-void
-cy_as_insert_c_b_node(cy_as_c_b_queue *queue_p, void*cbnode)
-{
- uint32_t int_state;
-
- int_state = cy_as_hal_disable_interrupts();
-
- cy_as_hal_assert(queue_p != 0);
-
- switch (queue_p->type) {
- case CYAS_USB_FUNC_CB:
- {
- cy_as_usb_func_c_b_node *node =
- (cy_as_usb_func_c_b_node *)cbnode;
- cy_as_usb_func_c_b_node *tail =
- (cy_as_usb_func_c_b_node *)queue_p->tail_p;
-
- cy_as_hal_assert(node->type == CYAS_USB_FUNC_CB);
- cy_as_hal_assert(tail == 0 ||
- tail->type == CYAS_USB_FUNC_CB);
- if (queue_p->head_p == 0)
- queue_p->head_p = node;
- else
- tail->next_p = node;
-
- queue_p->tail_p = node;
- }
- break;
-
- case CYAS_USB_IO_CB:
- {
- cy_as_usb_io_c_b_node *node =
- (cy_as_usb_io_c_b_node *)cbnode;
- cy_as_usb_io_c_b_node *tail =
- (cy_as_usb_io_c_b_node *)queue_p->tail_p;
-
- cy_as_hal_assert(node->type == CYAS_USB_IO_CB);
- cy_as_hal_assert(tail == 0 ||
- tail->type == CYAS_USB_IO_CB);
- if (queue_p->head_p == 0)
- queue_p->head_p = node;
- else
- tail->next_p = node;
-
- queue_p->tail_p = node;
- }
- break;
-
- case CYAS_STORAGE_IO_CB:
- {
- cy_as_storage_io_c_b_node *node =
- (cy_as_storage_io_c_b_node *)cbnode;
- cy_as_storage_io_c_b_node *tail =
- (cy_as_storage_io_c_b_node *)queue_p->tail_p;
-
- cy_as_hal_assert(node->type == CYAS_STORAGE_IO_CB);
- cy_as_hal_assert(tail == 0 ||
- tail->type == CYAS_STORAGE_IO_CB);
- if (queue_p->head_p == 0)
- queue_p->head_p = node;
- else
- tail->next_p = node;
-
- queue_p->tail_p = node;
- }
- break;
-
- case CYAS_FUNC_CB:
- {
- cy_as_func_c_b_node *node =
- (cy_as_func_c_b_node *)cbnode;
- cy_as_func_c_b_node *tail =
- (cy_as_func_c_b_node *)queue_p->tail_p;
-
- cy_as_hal_assert(node->node_type == CYAS_FUNC_CB);
- cy_as_hal_assert(tail == 0 ||
- tail->node_type == CYAS_FUNC_CB);
- if (queue_p->head_p == 0)
- queue_p->head_p = node;
- else
- tail->next_p = node;
-
- queue_p->tail_p = node;
- }
- break;
-
- default:
- cy_as_hal_assert(cy_false);
- break;
- }
-
- queue_p->count++;
-
- cy_as_hal_enable_interrupts(int_state);
-}
-
-/* Removes the tail node from the queue and frees it */
-void
-cy_as_remove_c_b_tail_node(cy_as_c_b_queue *queue_p)
-{
- uint32_t int_state;
-
- int_state = cy_as_hal_disable_interrupts();
-
- if (queue_p->count > 0) {
- /*
- * the worst case length of the queue should be
- * under 10 elements, and the average case should
- * be just 1 element. so, we just employ a linear
- * search to find the node to be freed.
- */
- switch (queue_p->type) {
- case CYAS_FUNC_CB:
- {
- cy_as_func_c_b_node *node =
- (cy_as_func_c_b_node *)
- queue_p->head_p;
- cy_as_func_c_b_node *tail =
- (cy_as_func_c_b_node *)
- queue_p->tail_p;
- if (node != tail) {
- while (node->next_p != tail)
- node = node->next_p;
- node->next_p = 0;
- queue_p->tail_p = node;
- }
- cy_as_destroy_func_c_b_node(tail);
- }
- break;
-
- case CYAS_USB_FUNC_CB:
- {
- cy_as_usb_func_c_b_node *node =
- (cy_as_usb_func_c_b_node *)
- queue_p->head_p;
- cy_as_usb_func_c_b_node *tail =
- (cy_as_usb_func_c_b_node *)
- queue_p->tail_p;
- if (node != tail) {
- while (node->next_p != tail)
- node = node->next_p;
- node->next_p = 0;
- queue_p->tail_p = node;
- }
-
- cy_as_destroy_usb_func_c_b_node(tail);
- }
- break;
-
- case CYAS_USB_IO_CB:
- {
- cy_as_usb_io_c_b_node *node =
- (cy_as_usb_io_c_b_node *)
- queue_p->head_p;
- cy_as_usb_io_c_b_node *tail =
- (cy_as_usb_io_c_b_node *)
- queue_p->tail_p;
- if (node != tail) {
- while (node->next_p != tail)
- node = node->next_p;
- node->next_p = 0;
- queue_p->tail_p = node;
- }
- cy_as_destroy_usb_io_c_b_node(tail);
- }
- break;
-
- case CYAS_STORAGE_IO_CB:
- {
- cy_as_storage_io_c_b_node *node =
- (cy_as_storage_io_c_b_node *)
- queue_p->head_p;
- cy_as_storage_io_c_b_node *tail =
- (cy_as_storage_io_c_b_node *)
- queue_p->tail_p;
- if (node != tail) {
- while (node->next_p != tail)
- node = node->next_p;
- node->next_p = 0;
- queue_p->tail_p = node;
- }
- cy_as_destroy_storage_io_c_b_node(tail);
- }
- break;
-
- default:
- cy_as_hal_assert(cy_false);
- }
-
- queue_p->count--;
- if (queue_p->count == 0) {
- queue_p->head_p = 0;
- queue_p->tail_p = 0;
- }
- }
-
- cy_as_hal_enable_interrupts(int_state);
-}
-
-/* Removes the first CyAsCBNode from the queue and frees it */
-void
-cy_as_remove_c_b_node(cy_as_c_b_queue *queue_p)
-{
- uint32_t int_state;
-
- int_state = cy_as_hal_disable_interrupts();
-
- cy_as_hal_assert(queue_p->count >= 0);
- if (queue_p->count > 0) {
- if (queue_p->type == CYAS_USB_FUNC_CB) {
- cy_as_usb_func_c_b_node *node =
- (cy_as_usb_func_c_b_node *)
- queue_p->head_p;
- queue_p->head_p = node->next_p;
- cy_as_destroy_usb_func_c_b_node(node);
- } else if (queue_p->type == CYAS_USB_IO_CB) {
- cy_as_usb_io_c_b_node *node =
- (cy_as_usb_io_c_b_node *)
- queue_p->head_p;
- queue_p->head_p = node->next_p;
- cy_as_destroy_usb_io_c_b_node(node);
- } else if (queue_p->type == CYAS_STORAGE_IO_CB) {
- cy_as_storage_io_c_b_node *node =
- (cy_as_storage_io_c_b_node *)
- queue_p->head_p;
- queue_p->head_p = node->next_p;
- cy_as_destroy_storage_io_c_b_node(node);
- } else if (queue_p->type == CYAS_FUNC_CB) {
- cy_as_func_c_b_node *node =
- (cy_as_func_c_b_node *)
- queue_p->head_p;
- queue_p->head_p = node->next_p;
- cy_as_destroy_func_c_b_node(node);
- } else {
- cy_as_hal_assert(cy_false);
- }
-
- queue_p->count--;
- if (queue_p->count == 0) {
- queue_p->head_p = 0;
- queue_p->tail_p = 0;
- }
- }
-
- cy_as_hal_enable_interrupts(int_state);
-}
-
-void my_print_func_c_b_node(cy_as_func_c_b_node *node)
-{
- cy_as_funct_c_b_type type =
- cy_as_funct_c_b_type_get_type(node->data_type);
- cy_as_hal_print_message("[cd:%2u dt:%2u cb:0x%08x "
- "d:0x%08x nt:%1i]", node->client_data, type,
- (uint32_t)node->cb_p, (uint32_t)node->data,
- node->node_type);
-}
-
-void my_print_c_b_queue(cy_as_c_b_queue *queue_p)
-{
- uint32_t i = 0;
-
- cy_as_hal_print_message("| count: %u type: ", queue_p->count);
-
- if (queue_p->type == CYAS_USB_FUNC_CB) {
- cy_as_hal_print_message("USB_FUNC_CB\n");
- } else if (queue_p->type == CYAS_USB_IO_CB) {
- cy_as_hal_print_message("USB_IO_CB\n");
- } else if (queue_p->type == CYAS_STORAGE_IO_CB) {
- cy_as_hal_print_message("STORAGE_IO_CB\n");
- } else if (queue_p->type == CYAS_FUNC_CB) {
- cy_as_func_c_b_node *node = queue_p->head_p;
- cy_as_hal_print_message("FUNC_CB\n");
- if (queue_p->count > 0) {
- cy_as_hal_print_message("| head->");
-
- for (i = 0; i < queue_p->count; i++) {
- if (node) {
- cy_as_hal_print_message("->");
- my_print_func_c_b_node(node);
- node = node->next_p;
- } else
- cy_as_hal_print_message("->[NULL]\n");
- }
-
- cy_as_hal_print_message("\n| tail->");
- my_print_func_c_b_node(queue_p->tail_p);
- cy_as_hal_print_message("\n");
- }
- } else {
- cy_as_hal_print_message("INVALID\n");
- }
-
- cy_as_hal_print_message("|----------\n");
-}
-
-
-/* Removes and frees all pending callbacks */
-void
-cy_as_clear_c_b_queue(cy_as_c_b_queue *queue_p)
-{
- uint32_t int_state = cy_as_hal_disable_interrupts();
-
- while (queue_p->count != 0)
- cy_as_remove_c_b_node(queue_p);
-
- cy_as_hal_enable_interrupts(int_state);
-}
-
-cy_as_return_status_t
-cy_as_misc_send_request(cy_as_device *dev_p,
- cy_as_function_callback cb,
- uint32_t client,
- cy_as_funct_c_b_type type,
- void *data,
- cy_as_c_b_queue *queue,
- uint16_t req_type,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_response_callback rcb)
-{
-
- cy_as_func_c_b_node *cbnode = cy_as_create_func_c_b_node_data(cb,
- client, type, data);
- cy_as_return_status_t ret;
-
- if (cbnode == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
- else
- cy_as_insert_c_b_node(queue, cbnode);
-
- req_p->flags |= req_type;
-
- ret = cy_as_ll_send_request(dev_p, req_p, reply_p, cy_false, rcb);
- if (ret != CY_AS_ERROR_SUCCESS)
- cy_as_remove_c_b_tail_node(queue);
-
- return ret;
-}
-
-void
-cy_as_misc_cancel_ex_requests(cy_as_device *dev_p)
-{
- int i;
- for (i = 0; i < CY_RQT_CONTEXT_COUNT; i++)
- cy_as_ll_remove_all_requests(dev_p, dev_p->context[i]);
-}
-
-
-static void
-cy_as_misc_func_callback(cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t stat)
-{
- cy_as_func_c_b_node *node = NULL;
- cy_as_return_status_t ret;
-
- cy_bool ex_request = (rqt->flags & CY_AS_REQUEST_RESPONSE_EX)
- == CY_AS_REQUEST_RESPONSE_EX;
- cy_bool ms_request = (rqt->flags & CY_AS_REQUEST_RESPONSE_MS)
- == CY_AS_REQUEST_RESPONSE_MS;
- uint8_t code;
- uint32_t type;
- uint8_t cntxt;
-
- cy_as_hal_assert(ex_request || ms_request);
- (void) ex_request;
- (void) ms_request;
- (void)context;
-
- cntxt = cy_as_ll_request_response__get_context(rqt);
- code = cy_as_ll_request_response__get_code(rqt);
-
- switch (cntxt) {
- case CY_RQT_GENERAL_RQT_CONTEXT:
- cy_as_hal_assert(dev_p->func_cbs_misc->count != 0);
- cy_as_hal_assert(dev_p->func_cbs_misc->type == CYAS_FUNC_CB);
- node = (cy_as_func_c_b_node *)dev_p->func_cbs_misc->head_p;
- type = cy_as_funct_c_b_type_get_type(node->data_type);
-
- switch (code) {
- case CY_RQT_GET_FIRMWARE_VERSION:
- cy_as_hal_assert(node->data != 0);
- cy_as_hal_assert(type ==
- CY_FUNCT_CB_MISC_GETFIRMWAREVERSION);
- ret = my_handle_response_get_firmware_version(dev_p,
- rqt, resp,
- (cy_as_get_firmware_version_data *)node->data);
- break;
- case CY_RQT_READ_MCU_REGISTER:
- cy_as_hal_assert(node->data != 0);
- cy_as_hal_assert(type ==
- CY_FUNCT_CB_MISC_READMCUREGISTER);
- ret = my_handle_response_read_m_c_u_register(dev_p, rqt,
- resp, (uint8_t *)node->data);
- break;
- case CY_RQT_GET_GPIO_STATE:
- cy_as_hal_assert(node->data != 0);
- cy_as_hal_assert(type ==
- CY_FUNCT_CB_MISC_GETGPIOVALUE);
- ret = my_handle_response_get_gpio_value(dev_p, rqt,
- resp, (uint8_t *)node->data);
- break;
- case CY_RQT_SET_SD_CLOCK_FREQ:
- cy_as_hal_assert(type == CY_FUNCT_CB_MISC_SETSDFREQ);
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- case CY_RQT_CONTROL_ANTIOCH_HEARTBEAT:
- cy_as_hal_assert(type ==
- CY_FUNCT_CB_MISC_HEARTBEATCONTROL);
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- case CY_RQT_WRITE_MCU_REGISTER:
- cy_as_hal_assert(type ==
- CY_FUNCT_CB_MISC_WRITEMCUREGISTER);
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- case CY_RQT_STORAGE_MEDIA_CHANGED:
- cy_as_hal_assert(type ==
- CY_FUNCT_CB_MISC_STORAGECHANGED);
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- case CY_RQT_SET_GPIO_STATE:
- cy_as_hal_assert(type ==
- CY_FUNCT_CB_MISC_SETGPIOVALUE);
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- case CY_RQT_SET_TRACE_LEVEL:
- cy_as_hal_assert(type ==
- CY_FUNCT_CB_MISC_SETTRACELEVEL);
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- if (ret == CY_AS_ERROR_INVALID_RESPONSE)
- ret = CY_AS_ERROR_NOT_SUPPORTED;
- break;
- case CY_RQT_PREPARE_FOR_STANDBY:
- cy_as_hal_assert(type ==
- CY_FUNCT_CB_MISC_ENTERSTANDBY);
- ret = my_handle_response_enter_standby(dev_p, rqt, resp,
- (cy_bool)node->data);
- break;
- case CY_RQT_ENTER_SUSPEND_MODE:
- cy_as_hal_assert(type ==
- CY_FUNCT_CB_MISC_ENTERSUSPEND);
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- if (ret == CY_AS_ERROR_SUCCESS)
- cy_as_device_set_suspend_mode(dev_p);
-
- break;
- case CY_RQT_RESERVE_LNA_BOOT_AREA:
- cy_as_hal_assert(type ==
- CY_FUNCT_CB_MISC_RESERVELNABOOTAREA);
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- case CY_RQT_SDPOLARITY:
- cy_as_hal_assert(type ==
- CY_FUNCT_CB_MISC_SETSDPOLARITY);
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- default:
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- cy_as_hal_assert(cy_false);
- break;
- }
- break;
-
- case CY_RQT_RESOURCE_RQT_CONTEXT:
- cy_as_hal_assert(dev_p->func_cbs_res->count != 0);
- cy_as_hal_assert(dev_p->func_cbs_res->type == CYAS_FUNC_CB);
- node = (cy_as_func_c_b_node *)dev_p->func_cbs_res->head_p;
- type = cy_as_funct_c_b_type_get_type(node->data_type);
-
- switch (code) {
- case CY_RQT_ACQUIRE_RESOURCE:
- /* The node->data field is actually an enum value
- * which could be 0, thus no assert is done */
- cy_as_hal_assert(type ==
- CY_FUNCT_CB_MISC_ACQUIRERESOURCE);
- ret = my_handle_response_acquire_resource(dev_p, rqt,
- resp, (cy_as_resource_type *)node->data);
- break;
- default:
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- cy_as_hal_assert(cy_false);
- break;
- }
- break;
-
- default:
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- cy_as_hal_assert(cy_false);
- break;
- }
-
- /*
- * if the low level layer returns a direct error, use the
- * corresponding error code. if not, use the error code
- * based on the response from firmware.
- */
- if (stat == CY_AS_ERROR_SUCCESS)
- stat = ret;
-
- /* Call the user Callback */
- node->cb_p((cy_as_device_handle)dev_p, stat, node->client_data,
- node->data_type, node->data);
- if (cntxt == CY_RQT_GENERAL_RQT_CONTEXT)
- cy_as_remove_c_b_node(dev_p->func_cbs_misc);
- else
- cy_as_remove_c_b_node(dev_p->func_cbs_res);
-
-}
-
-
-
-/*[]*/
+++ /dev/null
-/* Cypress West Bridge API header file (cyasmtp.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#include "../../include/linux/westbridge/cyashal.h"
-#include "../../include/linux/westbridge/cyasmtp.h"
-#include "../../include/linux/westbridge/cyaserr.h"
-#include "../../include/linux/westbridge/cyasdma.h"
-#include "../../include/linux/westbridge/cyaslowlevel.h"
-
-static void
-cy_as_mtp_func_callback(cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t stat);
-
-static cy_as_return_status_t
-is_mtp_active(cy_as_device *dev_p)
-{
- if (!cy_as_device_is_configured(dev_p))
- return CY_AS_ERROR_NOT_CONFIGURED;
-
- if (!cy_as_device_is_firmware_loaded(dev_p))
- return CY_AS_ERROR_NO_FIRMWARE;
-
- if (dev_p->mtp_count == 0)
- return CY_AS_ERROR_NOT_RUNNING;
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-static void
-my_mtp_request_callback(cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *resp_p,
- cy_as_return_status_t ret)
-{
- uint16_t val, ev, status;
- uint16_t mtp_datalen = 0;
- uint32_t bytecount_l, bytecount_h;
- cy_as_mtp_send_object_complete_data send_obj_data;
- cy_as_mtp_get_object_complete_data get_obj_data;
- cy_as_dma_end_point *ep_p;
-
- uint8_t code = cy_as_ll_request_response__get_code(req_p);
-
- (void)resp_p;
- (void)context;
- (void)ret;
-
- switch (code) {
- case CY_RQT_MTP_EVENT:
- val = cy_as_ll_request_response__get_word(req_p, 0);
- /* MSB indicates status of read/write */
- status = (val >> 8) & 0xFF;
- /* event type */
- ev = val & 0xFF;
- switch (ev) {
- case 0: /* SendObject Complete */
- {
- bytecount_l =
- cy_as_ll_request_response__get_word
- (req_p, 1);
- bytecount_h =
- cy_as_ll_request_response__get_word
- (req_p, 2);
- send_obj_data.byte_count =
- (bytecount_h << 16) | bytecount_l;
-
- send_obj_data.status = status;
-
- /* use the byte count again */
- bytecount_l =
- cy_as_ll_request_response__get_word
- (req_p, 3);
- bytecount_h =
- cy_as_ll_request_response__get_word
- (req_p, 4);
- send_obj_data.transaction_id =
- (bytecount_h << 16) | bytecount_l;
-
- dev_p->mtp_turbo_active = cy_false;
-
- if (dev_p->mtp_event_cb)
- dev_p->mtp_event_cb(
- (cy_as_device_handle) dev_p,
- cy_as_mtp_send_object_complete,
- &send_obj_data);
- }
- break;
-
- case 1: /* GetObject Complete */
- {
- bytecount_l =
- cy_as_ll_request_response__get_word
- (req_p, 1);
- bytecount_h =
- cy_as_ll_request_response__get_word
- (req_p, 2);
-
- get_obj_data.byte_count =
- (bytecount_h << 16) | bytecount_l;
-
- get_obj_data.status = status;
-
- dev_p->mtp_turbo_active = cy_false;
-
- if (dev_p->mtp_event_cb)
- dev_p->mtp_event_cb(
- (cy_as_device_handle) dev_p,
- cy_as_mtp_get_object_complete,
- &get_obj_data);
- }
- break;
-
- case 2: /* BlockTable Needed */
- {
- if (dev_p->mtp_event_cb)
- dev_p->mtp_event_cb(
- (cy_as_device_handle) dev_p,
- cy_as_mtp_block_table_needed, 0);
- }
- break;
- default:
- cy_as_hal_print_message("invalid event type\n");
- cy_as_ll_send_data_response(dev_p,
- CY_RQT_TUR_RQT_CONTEXT,
- CY_RESP_MTP_INVALID_EVENT,
- sizeof(ev), &ev);
- break;
- }
- break;
-
- case CY_RQT_TURBO_CMD_FROM_HOST:
- {
- mtp_datalen =
- cy_as_ll_request_response__get_word(req_p, 1);
-
- /* Get the endpoint pointer based on
- * the endpoint number */
- ep_p = CY_AS_NUM_EP(dev_p, CY_AS_MTP_READ_ENDPOINT);
-
- /* The event should arrive only after the DMA operation
- * has been queued. */
- cy_as_hal_assert(ep_p->queue_p != 0);
-
- /* Put the len in ep data information in
- * dmaqueue and kick start the queue */
- cy_as_hal_assert(ep_p->queue_p->size >= mtp_datalen);
-
- if (mtp_datalen == 0) {
- cy_as_dma_completed_callback(dev_p->tag,
- CY_AS_MTP_READ_ENDPOINT, 0,
- CY_AS_ERROR_SUCCESS);
- } else {
- ep_p->maxhwdata = mtp_datalen;
-
- /*
- * make sure that the DMA status for this
- * EP is not running, so that the call to
- * cy_as_dma_kick_start gets this transfer
- * going. note: in MTP mode, we never leave
- * a DMA transfer of greater than one packet
- * running. so, it is okay to override the
- * status here and start the next packet
- * transfer.
- */
- cy_as_dma_end_point_set_stopped(ep_p);
-
- /* Kick start the queue if it is not running */
- cy_as_dma_kick_start(dev_p,
- CY_AS_MTP_READ_ENDPOINT);
- }
- }
- break;
-
- case CY_RQT_TURBO_START_WRITE_DMA:
- {
- /*
- * now that the firmware is ready to receive the
- * next packet of data, start the corresponding
- * DMA transfer. first, ensure that a DMA
- * operation is still pending in the queue for the
- * write endpoint.
- */
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_TUR_RQT_CONTEXT,
- CY_AS_ERROR_SUCCESS, 0);
-
- ep_p = CY_AS_NUM_EP(dev_p, CY_AS_MTP_WRITE_ENDPOINT);
- cy_as_hal_assert(ep_p->queue_p != 0);
-
- cy_as_dma_end_point_set_stopped(ep_p);
- cy_as_dma_kick_start(dev_p, CY_AS_MTP_WRITE_ENDPOINT);
- }
- break;
-
- default:
- cy_as_hal_print_message("invalid request received "
- "on TUR context\n");
- val = req_p->box0;
- cy_as_ll_send_data_response(dev_p, CY_RQT_TUR_RQT_CONTEXT,
- CY_RESP_INVALID_REQUEST, sizeof(val), &val);
- break;
- }
-}
-
-static cy_as_return_status_t
-my_handle_response_no_data(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-static cy_as_return_status_t
-my_handle_response_mtp_start(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_return_status_t ret)
-{
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- dev_p->mtp_count++;
-
- cy_as_dma_enable_end_point(dev_p, CY_AS_MTP_READ_ENDPOINT,
- cy_true, cy_as_direction_out);
- dev_p->usb_config[CY_AS_MTP_READ_ENDPOINT].enabled = cy_true;
- dev_p->usb_config[CY_AS_MTP_READ_ENDPOINT].dir = cy_as_usb_out;
- dev_p->usb_config[CY_AS_MTP_READ_ENDPOINT].type = cy_as_usb_bulk;
-
- cy_as_dma_enable_end_point(dev_p, CY_AS_MTP_WRITE_ENDPOINT,
- cy_true, cy_as_direction_in);
- dev_p->usb_config[CY_AS_MTP_WRITE_ENDPOINT].enabled = cy_true;
- dev_p->usb_config[CY_AS_MTP_WRITE_ENDPOINT].dir = cy_as_usb_in;
- dev_p->usb_config[CY_AS_MTP_WRITE_ENDPOINT].type = cy_as_usb_bulk;
-
- /* Packet size is 512 bytes */
- cy_as_dma_set_max_dma_size(dev_p, 0x02, 0x0200);
- /* Packet size is 64 bytes until a switch to high speed happens.*/
- cy_as_dma_set_max_dma_size(dev_p, 0x06, 0x40);
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- cy_as_ll_register_request_callback(dev_p,
- CY_RQT_TUR_RQT_CONTEXT, 0);
-
- cy_as_device_clear_m_s_s_pending(dev_p);
-
- return ret;
-}
-
-
-cy_as_return_status_t
-cy_as_mtp_start(cy_as_device_handle handle,
- cy_as_mtp_event_callback event_c_b,
- cy_as_function_callback cb,
- uint32_t client
- )
-{
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_device *dev_p;
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (!cy_as_device_is_configured(dev_p))
- return CY_AS_ERROR_NOT_CONFIGURED;
-
- if (!cy_as_device_is_firmware_loaded(dev_p))
- return CY_AS_ERROR_NO_FIRMWARE;
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- if (cy_as_device_is_m_s_s_pending(dev_p))
- return CY_AS_ERROR_STARTSTOP_PENDING;
-
- if (dev_p->storage_count == 0)
- return CY_AS_ERROR_NOT_RUNNING;
-
- if (dev_p->usb_count == 0)
- return CY_AS_ERROR_NOT_RUNNING;
-
- if (dev_p->is_mtp_firmware == 0)
- return CY_AS_ERROR_NOT_SUPPORTED;
-
- cy_as_device_set_m_s_s_pending(dev_p);
-
- if (dev_p->mtp_count == 0) {
-
- dev_p->mtp_event_cb = event_c_b;
- /*
- * we register here because the start request may cause
- * events to occur before the response to the start request.
- */
- cy_as_ll_register_request_callback(dev_p,
- CY_RQT_TUR_RQT_CONTEXT, my_mtp_request_callback);
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_START_MTP, CY_RQT_TUR_RQT_CONTEXT, 0);
- if (req_p == 0) {
- cy_as_device_clear_m_s_s_pending(dev_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- /* Reserve space for the reply, the reply data will
- * not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_device_clear_m_s_s_pending(dev_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_mtp_start(dev_p, req_p,
- reply_p, ret);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MTP_START, 0, dev_p->func_cbs_mtp,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_mtp_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
- } else {
- dev_p->mtp_count++;
- if (cb)
- cb(handle, ret, client, CY_FUNCT_CB_MTP_START, 0);
- }
-
- cy_as_device_clear_m_s_s_pending(dev_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_mtp_start);
-
-static cy_as_return_status_t
-my_handle_response_mtp_stop(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_return_status_t ret)
-{
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /*
- * we successfully shutdown the stack, so decrement
- * to make the count zero.
- */
- dev_p->mtp_count--;
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- cy_as_ll_register_request_callback(dev_p,
- CY_RQT_TUR_RQT_CONTEXT, 0);
-
- cy_as_device_clear_m_s_s_pending(dev_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_mtp_stop(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client
- )
-{
- cy_as_ll_request_response *req_p = 0, *reply_p = 0;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_mtp_stop called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_mtp_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- if (cy_as_device_is_m_s_s_pending(dev_p))
- return CY_AS_ERROR_STARTSTOP_PENDING;
-
- cy_as_device_set_m_s_s_pending(dev_p);
-
- if (dev_p->mtp_count == 1) {
- /* Create the request to send to the West
- * Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_STOP_MTP,
- CY_RQT_TUR_RQT_CONTEXT, 0);
- if (req_p == 0) {
- ret = CY_AS_ERROR_OUT_OF_MEMORY;
- goto destroy;
- }
-
- /* Reserve space for the reply, the reply data will
- * not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- ret = CY_AS_ERROR_OUT_OF_MEMORY;
- goto destroy;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_mtp_stop(dev_p, req_p,
- reply_p, ret);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MTP_STOP, 0, dev_p->func_cbs_mtp,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_mtp_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
- } else if (dev_p->mtp_count > 1) {
-
- dev_p->mtp_count--;
-
- if (cb)
- cb(handle, ret, client, CY_FUNCT_CB_MTP_STOP, 0);
- }
-
- cy_as_device_clear_m_s_s_pending(dev_p);
-
- return ret;
-}
-
-static void
-mtp_write_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t ret)
-{
- cy_as_hal_assert(context == CY_RQT_TUR_RQT_CONTEXT);
-
- if (ret == CY_AS_ERROR_SUCCESS) {
- if (cy_as_ll_request_response__get_code(resp) !=
- CY_RESP_SUCCESS_FAILURE)
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- else
- ret = cy_as_ll_request_response__get_word(resp, 0);
- }
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- /* Firmware failed the request. Cancel the DMA transfer. */
- cy_as_dma_cancel(dev_p, 0x04, CY_AS_ERROR_CANCELED);
- cy_as_device_clear_storage_async_pending(dev_p);
- }
-
- cy_as_ll_destroy_response(dev_p, resp);
- cy_as_ll_destroy_request(dev_p, rqt);
-}
-
-static void
-async_write_request_callback(cy_as_device *dev_p,
- cy_as_end_point_number_t ep, void *buf_p, uint32_t size,
- cy_as_return_status_t err)
-{
- cy_as_device_handle h;
- cy_as_function_callback cb;
-
- (void)size;
- (void)buf_p;
- (void)ep;
-
-
- cy_as_log_debug_message(6, "async_write_request_callback called");
-
- h = (cy_as_device_handle)dev_p;
-
- cb = dev_p->mtp_cb;
- dev_p->mtp_cb = 0;
-
- cy_as_device_clear_storage_async_pending(dev_p);
-
- if (cb)
- cb(h, err, dev_p->mtp_client, dev_p->mtp_op, 0);
-
-}
-
-static void
-sync_mtp_callback(cy_as_device *dev_p, cy_as_end_point_number_t ep,
- void *buf_p, uint32_t size, cy_as_return_status_t err)
-{
- (void)ep;
- (void)buf_p;
- (void)size;
-
- dev_p->mtp_error = err;
-}
-
-static cy_as_return_status_t
-cy_as_mtp_operation(cy_as_device *dev_p,
- cy_as_mtp_block_table *blk_table,
- uint32_t num_bytes,
- uint32_t transaction_id,
- cy_as_function_callback cb,
- uint32_t client,
- uint8_t rqttype
- )
-{
- cy_as_ll_request_response *req_p = 0, *reply_p = 0;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint32_t mask = 0;
- cy_as_funct_c_b_type mtp_cb_op = 0;
- uint16_t size = 2;
-
- if (dev_p->mtp_count == 0)
- return CY_AS_ERROR_NOT_RUNNING;
-
- if (rqttype == CY_RQT_INIT_SEND_OBJECT) {
- mtp_cb_op = CY_FUNCT_CB_MTP_INIT_SEND_OBJECT;
- dev_p->mtp_turbo_active = cy_true;
- } else if (rqttype == CY_RQT_INIT_GET_OBJECT) {
- mtp_cb_op = CY_FUNCT_CB_MTP_INIT_GET_OBJECT;
- dev_p->mtp_turbo_active = cy_true;
- } else
- mtp_cb_op = CY_FUNCT_CB_MTP_SEND_BLOCK_TABLE;
-
- ret = is_mtp_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (CY_RQT_INIT_GET_OBJECT == rqttype)
- size = 4;
-
- /* Create the request to send to the West
- * Bridge device */
- req_p = cy_as_ll_create_request(dev_p, rqttype,
- CY_RQT_TUR_RQT_CONTEXT, size);
- if (req_p == 0) {
- ret = CY_AS_ERROR_OUT_OF_MEMORY;
- goto destroy;
- }
-
- /* Reserve space for the reply, the reply data will
- * not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- ret = CY_AS_ERROR_OUT_OF_MEMORY;
- goto destroy;
- }
-
- cy_as_ll_request_response__set_word(req_p, 0,
- (uint16_t)(num_bytes & 0xFFFF));
- cy_as_ll_request_response__set_word(req_p, 1,
- (uint16_t)((num_bytes >> 16) & 0xFFFF));
-
- /* If it is GET_OBJECT, send transaction id as well*/
- if (CY_RQT_INIT_GET_OBJECT == rqttype) {
- cy_as_ll_request_response__set_word(req_p, 2,
- (uint16_t)(transaction_id & 0xFFFF));
- cy_as_ll_request_response__set_word(req_p, 3,
- (uint16_t)((transaction_id >> 16) & 0xFFFF));
- }
-
- if (cb == 0) {
- /* Queue the DMA request for block table write */
- ret = cy_as_dma_queue_request(dev_p, 4, blk_table,
- sizeof(cy_as_mtp_block_table), cy_false,
- cy_false, sync_mtp_callback);
-
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_dma_cancel(dev_p, 4, CY_AS_ERROR_CANCELED);
- cy_as_device_clear_storage_async_pending(dev_p);
-
- goto destroy;
- }
-
- ret = cy_as_dma_drain_queue(dev_p, 4, cy_true);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- ret = dev_p->mtp_error;
- goto destroy;
- } else {
-#if 0
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MTP_INIT_SEND_OBJECT,
- 0, dev_p->func_cbs_mtp, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_mtp_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-#endif
-
- /* Protection from interrupt driven code */
- /* since we are using storage EP4 check if any
- * storage activity is pending */
- mask = cy_as_hal_disable_interrupts();
- if ((cy_as_device_is_storage_async_pending(dev_p)) ||
- (dev_p->storage_wait)) {
- cy_as_hal_enable_interrupts(mask);
- return CY_AS_ERROR_ASYNC_PENDING;
- }
- cy_as_device_set_storage_async_pending(dev_p);
- cy_as_hal_enable_interrupts(mask);
-
- dev_p->mtp_cb = cb;
- dev_p->mtp_client = client;
- dev_p->mtp_op = mtp_cb_op;
-
- ret = cy_as_ll_send_request(dev_p, req_p, reply_p,
- cy_false, mtp_write_callback);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- ret = cy_as_dma_queue_request(dev_p, 4, blk_table,
- sizeof(cy_as_mtp_block_table), cy_false, cy_false,
- async_write_request_callback);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /* Kick start the queue if it is not running */
- cy_as_dma_kick_start(dev_p, 4);
-
- return CY_AS_ERROR_SUCCESS;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_mtp_init_send_object(cy_as_device_handle handle,
- cy_as_mtp_block_table *blk_table,
- uint32_t num_bytes,
- cy_as_function_callback cb,
- uint32_t client
- )
-{
- cy_as_device *dev_p;
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- return cy_as_mtp_operation(dev_p, blk_table, num_bytes, 0, cb,
- client, CY_RQT_INIT_SEND_OBJECT);
-
-}
-EXPORT_SYMBOL(cy_as_mtp_init_send_object);
-
-cy_as_return_status_t
-cy_as_mtp_init_get_object(cy_as_device_handle handle,
- cy_as_mtp_block_table *blk_table,
- uint32_t num_bytes,
- uint32_t transaction_id,
- cy_as_function_callback cb,
- uint32_t client
- )
-{
- cy_as_device *dev_p;
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- return cy_as_mtp_operation(dev_p, blk_table, num_bytes,
- transaction_id, cb, client, CY_RQT_INIT_GET_OBJECT);
-
-}
-EXPORT_SYMBOL(cy_as_mtp_init_get_object);
-
-static cy_as_return_status_t
-my_handle_response_cancel_send_object(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_return_status_t ret)
-{
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_mtp_cancel_send_object(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client
- )
-{
- cy_as_ll_request_response *req_p = 0, *reply_p = 0;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_device *dev_p;
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (dev_p->mtp_count == 0)
- return CY_AS_ERROR_NOT_RUNNING;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_CANCEL_SEND_OBJECT, CY_RQT_TUR_RQT_CONTEXT, 0);
- if (req_p == 0) {
- ret = CY_AS_ERROR_OUT_OF_MEMORY;
- goto destroy;
- }
-
- /* Reserve space for the reply, the reply data will
- * not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- ret = CY_AS_ERROR_OUT_OF_MEMORY;
- goto destroy;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_cancel_send_object(dev_p,
- req_p, reply_p, ret);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MTP_CANCEL_SEND_OBJECT, 0,
- dev_p->func_cbs_mtp, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_mtp_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_mtp_cancel_send_object);
-
-static cy_as_return_status_t
-my_handle_response_cancel_get_object(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_return_status_t ret)
-{
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_mtp_cancel_get_object(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client
- )
-{
- cy_as_ll_request_response *req_p = 0, *reply_p = 0;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_device *dev_p;
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (dev_p->mtp_count == 0)
- return CY_AS_ERROR_NOT_RUNNING;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_CANCEL_GET_OBJECT,
- CY_RQT_TUR_RQT_CONTEXT, 0);
- if (req_p == 0) {
- ret = CY_AS_ERROR_OUT_OF_MEMORY;
- goto destroy;
- }
-
- /* Reserve space for the reply, the reply data will
- * not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- ret = CY_AS_ERROR_OUT_OF_MEMORY;
- goto destroy;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_cancel_get_object(dev_p,
- req_p, reply_p, ret);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MTP_CANCEL_GET_OBJECT, 0,
- dev_p->func_cbs_mtp, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_mtp_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_mtp_cancel_get_object);
-
-cy_as_return_status_t
-cy_as_mtp_send_block_table(cy_as_device_handle handle,
- cy_as_mtp_block_table *blk_table,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p;
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- return cy_as_mtp_operation(dev_p, blk_table, 0, 0, cb,
- client, CY_RQT_SEND_BLOCK_TABLE);
-}
-
-static void
-cy_as_mtp_func_callback(cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t stat)
-{
- cy_as_func_c_b_node* node = (cy_as_func_c_b_node *)
- dev_p->func_cbs_mtp->head_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint8_t code;
- cy_bool delay_callback = cy_false;
-
- cy_as_hal_assert(dev_p->func_cbs_mtp->count != 0);
- cy_as_hal_assert(dev_p->func_cbs_mtp->type == CYAS_FUNC_CB);
-
- (void)context;
-
- /* The Handlers are responsible for Deleting the
- * rqt and resp when they are finished
- */
- code = cy_as_ll_request_response__get_code(rqt);
- switch (code) {
- case CY_RQT_START_MTP:
- ret = my_handle_response_mtp_start(dev_p, rqt,
- resp, stat);
- break;
- case CY_RQT_STOP_MTP:
- ret = my_handle_response_mtp_stop(dev_p, rqt,
- resp, stat);
- break;
-#if 0
- case CY_RQT_INIT_SEND_OBJECT:
- ret = my_handle_response_init_send_object(dev_p,
- rqt, resp, stat, cy_true);
- delay_callback = cy_true;
- break;
-#endif
- case CY_RQT_CANCEL_SEND_OBJECT:
- ret = my_handle_response_cancel_send_object(dev_p,
- rqt, resp, stat);
- break;
-#if 0
- case CY_RQT_INIT_GET_OBJECT:
- ret = my_handle_response_init_get_object(dev_p,
- rqt, resp, stat, cy_true);
- delay_callback = cy_true;
- break;
-#endif
- case CY_RQT_CANCEL_GET_OBJECT:
- ret = my_handle_response_cancel_get_object(dev_p,
- rqt, resp, stat);
- break;
-#if 0
- case CY_RQT_SEND_BLOCK_TABLE:
- ret = my_handle_response_send_block_table(dev_p, rqt,
- resp, stat, cy_true);
- delay_callback = cy_true;
- break;
-#endif
- case CY_RQT_ENABLE_USB_PATH:
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- if (ret == CY_AS_ERROR_SUCCESS)
- dev_p->is_storage_only_mode = cy_false;
- break;
- default:
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- cy_as_hal_assert(cy_false);
- break;
- }
-
- /*
- * if the low level layer returns a direct error, use the
- * corresponding error code. if not, use the error code
- * based on the response from firmware.
- */
- if (stat == CY_AS_ERROR_SUCCESS)
- stat = ret;
-
- if (!delay_callback) {
- node->cb_p((cy_as_device_handle)dev_p, stat, node->client_data,
- node->data_type, node->data);
- cy_as_remove_c_b_node(dev_p->func_cbs_mtp);
- }
-}
-
-cy_as_return_status_t
-cy_as_mtp_storage_only_start(cy_as_device_handle handle)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (!cy_as_device_is_configured(dev_p))
- return CY_AS_ERROR_NOT_CONFIGURED;
-
- if (!cy_as_device_is_firmware_loaded(dev_p))
- return CY_AS_ERROR_NO_FIRMWARE;
-
- if (dev_p->storage_count == 0)
- return CY_AS_ERROR_NOT_RUNNING;
-
- dev_p->is_storage_only_mode = cy_true;
- return CY_AS_ERROR_SUCCESS;
-}
-EXPORT_SYMBOL(cy_as_mtp_storage_only_start);
-
-cy_as_return_status_t
-cy_as_mtp_storage_only_stop(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (!cy_as_device_is_configured(dev_p))
- return CY_AS_ERROR_NOT_CONFIGURED;
-
- if (!cy_as_device_is_firmware_loaded(dev_p))
- return CY_AS_ERROR_NO_FIRMWARE;
-
- if (dev_p->storage_count == 0)
- return CY_AS_ERROR_NOT_RUNNING;
-
- if (dev_p->is_storage_only_mode == cy_false)
- return CY_AS_ERROR_SUCCESS;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_ENABLE_USB_PATH, CY_RQT_TUR_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- ret = my_handle_response_no_data(dev_p, req_p,
- reply_p);
- if (ret == CY_AS_ERROR_SUCCESS)
- dev_p->is_storage_only_mode = cy_false;
- return ret;
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_MTP_STOP_STORAGE_ONLY, 0,
- dev_p->func_cbs_mtp, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_mtp_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_mtp_storage_only_stop);
-
+++ /dev/null
-/* Cypress West Bridge API source file (cyasstorage.c)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-/*
-* Storage Design
-*
-* The storage module is fairly straight forward once the
-* DMA and LOWLEVEL modules have been designed. The
-* storage module simple takes requests from the user, queues
-* the associated DMA requests for action, and then sends
-* the low level requests to the West Bridge firmware.
-*
-*/
-
-#include "../../include/linux/westbridge/cyashal.h"
-#include "../../include/linux/westbridge/cyasstorage.h"
-#include "../../include/linux/westbridge/cyaserr.h"
-#include "../../include/linux/westbridge/cyasdevice.h"
-#include "../../include/linux/westbridge/cyaslowlevel.h"
-#include "../../include/linux/westbridge/cyasdma.h"
-#include "../../include/linux/westbridge/cyasregs.h"
-
-/* Map a pre-V1.2 media type to the V1.2+ bus number */
-cy_as_return_status_t
-cy_an_map_bus_from_media_type(cy_as_device *dev_p,
- cy_as_media_type type, cy_as_bus_number_t *bus)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint8_t code = (uint8_t)(1 << type);
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (!cy_as_device_is_configured(dev_p))
- return CY_AS_ERROR_NOT_CONFIGURED;
-
- if (!cy_as_device_is_firmware_loaded(dev_p))
- return CY_AS_ERROR_NO_FIRMWARE;
-
-
- if (dev_p->media_supported[0] & code) {
- if (dev_p->media_supported[1] & code) {
- /*
- * this media type could be supported on multiple
- * buses. so, report an address resolution error.
- */
- ret = CY_AS_ERROR_ADDRESS_RESOLUTION_ERROR;
- } else
- *bus = 0;
- } else {
- if (dev_p->media_supported[1] & code)
- *bus = 1;
- else
- ret = CY_AS_ERROR_NO_SUCH_MEDIA;
- }
-
- return ret;
-}
-
-static uint16_t
-create_address(cy_as_bus_number_t bus, uint32_t device, uint8_t unit)
-{
- cy_as_hal_assert(bus >= 0 && bus < CY_AS_MAX_BUSES);
- cy_as_hal_assert(device < 16);
-
- return (uint16_t)(((uint8_t)bus << 12) | (device << 8) | unit);
-}
-
-cy_as_media_type
-cy_as_storage_get_media_from_address(uint16_t v)
-{
- cy_as_media_type media = cy_as_media_max_media_value;
-
- switch (v & 0xFF) {
- case 0x00:
- break;
- case 0x01:
- media = cy_as_media_nand;
- break;
- case 0x02:
- media = cy_as_media_sd_flash;
- break;
- case 0x04:
- media = cy_as_media_mmc_flash;
- break;
- case 0x08:
- media = cy_as_media_ce_ata;
- break;
- case 0x10:
- media = cy_as_media_sdio;
- break;
- default:
- cy_as_hal_assert(0);
- break;
- }
-
- return media;
-}
-
-cy_as_bus_number_t
-cy_as_storage_get_bus_from_address(uint16_t v)
-{
- cy_as_bus_number_t bus = (cy_as_bus_number_t)((v >> 12) & 0x0f);
- cy_as_hal_assert(bus >= 0 && bus < CY_AS_MAX_BUSES);
- return bus;
-}
-
-uint32_t
-cy_as_storage_get_device_from_address(uint16_t v)
-{
- return (uint32_t)((v >> 8) & 0x0f);
-}
-
-static uint8_t
-get_unit_from_address(uint16_t v)
-{
- return (uint8_t)(v & 0xff);
-}
-
-static cy_as_return_status_t
-cy_as_map_bad_addr(uint16_t val)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_INVALID_RESPONSE;
-
- switch (val) {
- case 0:
- ret = CY_AS_ERROR_NO_SUCH_BUS;
- break;
- case 1:
- ret = CY_AS_ERROR_NO_SUCH_DEVICE;
- break;
- case 2:
- ret = CY_AS_ERROR_NO_SUCH_UNIT;
- break;
- case 3:
- ret = CY_AS_ERROR_INVALID_BLOCK;
- break;
- }
-
- return ret;
-}
-
-static void
-my_storage_request_callback(cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *resp_p,
- cy_as_return_status_t ret)
-{
- uint16_t val;
- uint16_t addr;
- cy_as_bus_number_t bus;
- uint32_t device;
- cy_as_device_handle h = (cy_as_device_handle)dev_p;
- cy_as_dma_end_point *ep_p = NULL;
-
- (void)resp_p;
- (void)context;
- (void)ret;
-
- switch (cy_as_ll_request_response__get_code(req_p)) {
- case CY_RQT_MEDIA_CHANGED:
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_STORAGE_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 0);
-
- /* Media has either been inserted or removed */
- addr = cy_as_ll_request_response__get_word(req_p, 0);
-
- bus = cy_as_storage_get_bus_from_address(addr);
- device = cy_as_storage_get_device_from_address(addr);
-
- /* Clear the entry for this device to force re-query later */
- cy_as_hal_mem_set(&(dev_p->storage_device_info[bus][device]), 0,
- sizeof(dev_p->storage_device_info[bus][device]));
-
- val = cy_as_ll_request_response__get_word(req_p, 1);
- if (dev_p->storage_event_cb_ms) {
- if (val == 1)
- dev_p->storage_event_cb_ms(h, bus,
- device, cy_as_storage_removed, 0);
- else
- dev_p->storage_event_cb_ms(h, bus,
- device, cy_as_storage_inserted, 0);
- } else if (dev_p->storage_event_cb) {
- if (val == 1)
- dev_p->storage_event_cb(h, bus,
- cy_as_storage_removed, 0);
- else
- dev_p->storage_event_cb(h, bus,
- cy_as_storage_inserted, 0);
- }
-
- break;
-
- case CY_RQT_ANTIOCH_CLAIM:
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_STORAGE_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 0);
- if (dev_p->storage_event_cb || dev_p->storage_event_cb_ms) {
- val = cy_as_ll_request_response__get_word(req_p, 0);
- if (dev_p->storage_event_cb_ms) {
- if (val & 0x0100)
- dev_p->storage_event_cb_ms(h, 0, 0,
- cy_as_storage_antioch, 0);
- if (val & 0x0200)
- dev_p->storage_event_cb_ms(h, 1, 0,
- cy_as_storage_antioch, 0);
- } else {
- if (val & 0x01)
- dev_p->storage_event_cb(h,
- cy_as_media_nand,
- cy_as_storage_antioch, 0);
- if (val & 0x02)
- dev_p->storage_event_cb(h,
- cy_as_media_sd_flash,
- cy_as_storage_antioch, 0);
- if (val & 0x04)
- dev_p->storage_event_cb(h,
- cy_as_media_mmc_flash,
- cy_as_storage_antioch, 0);
- if (val & 0x08)
- dev_p->storage_event_cb(h,
- cy_as_media_ce_ata,
- cy_as_storage_antioch, 0);
- }
- }
- break;
-
- case CY_RQT_ANTIOCH_RELEASE:
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_STORAGE_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 0);
- val = cy_as_ll_request_response__get_word(req_p, 0);
- if (dev_p->storage_event_cb_ms) {
- if (val & 0x0100)
- dev_p->storage_event_cb_ms(h, 0, 0,
- cy_as_storage_processor, 0);
- if (val & 0x0200)
- dev_p->storage_event_cb_ms(h, 1, 0,
- cy_as_storage_processor, 0);
- } else if (dev_p->storage_event_cb) {
- if (val & 0x01)
- dev_p->storage_event_cb(h,
- cy_as_media_nand,
- cy_as_storage_processor, 0);
- if (val & 0x02)
- dev_p->storage_event_cb(h,
- cy_as_media_sd_flash,
- cy_as_storage_processor, 0);
- if (val & 0x04)
- dev_p->storage_event_cb(h,
- cy_as_media_mmc_flash,
- cy_as_storage_processor, 0);
- if (val & 0x08)
- dev_p->storage_event_cb(h,
- cy_as_media_ce_ata,
- cy_as_storage_processor, 0);
- }
- break;
-
-
- case CY_RQT_SDIO_INTR:
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_STORAGE_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 0);
- val = cy_as_ll_request_response__get_word(req_p, 0);
- if (dev_p->storage_event_cb_ms) {
- if (val & 0x0100)
- dev_p->storage_event_cb_ms(h, 1, 0,
- cy_as_sdio_interrupt, 0);
- else
- dev_p->storage_event_cb_ms(h, 0, 0,
- cy_as_sdio_interrupt, 0);
-
- } else if (dev_p->storage_event_cb) {
- dev_p->storage_event_cb(h,
- cy_as_media_sdio, cy_as_sdio_interrupt, 0);
- }
- break;
-
- case CY_RQT_P2S_DMA_START:
- /* Do the DMA setup for the waiting operation. */
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_STORAGE_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 0);
- cy_as_device_set_p2s_dma_start_recvd(dev_p);
- if (dev_p->storage_oper == cy_as_op_read) {
- ep_p = CY_AS_NUM_EP(dev_p, CY_AS_P2S_READ_ENDPOINT);
- cy_as_dma_end_point_set_stopped(ep_p);
- cy_as_dma_kick_start(dev_p, CY_AS_P2S_READ_ENDPOINT);
- } else {
- ep_p = CY_AS_NUM_EP(dev_p, CY_AS_P2S_WRITE_ENDPOINT);
- cy_as_dma_end_point_set_stopped(ep_p);
- cy_as_dma_kick_start(dev_p, CY_AS_P2S_WRITE_ENDPOINT);
- }
- break;
-
- default:
- cy_as_hal_print_message("invalid request received "
- "on storage context\n");
- val = req_p->box0;
- cy_as_ll_send_data_response(dev_p, CY_RQT_STORAGE_RQT_CONTEXT,
- CY_RESP_INVALID_REQUEST, sizeof(val), &val);
- break;
- }
-}
-
-static cy_as_return_status_t
-is_storage_active(cy_as_device *dev_p)
-{
- if (!cy_as_device_is_configured(dev_p))
- return CY_AS_ERROR_NOT_CONFIGURED;
-
- if (!cy_as_device_is_firmware_loaded(dev_p))
- return CY_AS_ERROR_NO_FIRMWARE;
-
- if (dev_p->storage_count == 0)
- return CY_AS_ERROR_NOT_RUNNING;
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-static void
-cy_as_storage_func_callback(cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t ret);
-
-static cy_as_return_status_t
-my_handle_response_no_data(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-static cy_as_return_status_t
-my_handle_response_storage_start(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_return_status_t ret)
-{
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- if (dev_p->storage_count > 0 && ret ==
- CY_AS_ERROR_ALREADY_RUNNING)
- ret = CY_AS_ERROR_SUCCESS;
-
- ret = cy_as_dma_enable_end_point(dev_p,
- CY_AS_P2S_WRITE_ENDPOINT, cy_true, cy_as_direction_in);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- ret = cy_as_dma_set_max_dma_size(dev_p,
- CY_AS_P2S_WRITE_ENDPOINT, CY_AS_STORAGE_EP_SIZE);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- ret = cy_as_dma_enable_end_point(dev_p,
- CY_AS_P2S_READ_ENDPOINT, cy_true, cy_as_direction_out);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- ret = cy_as_dma_set_max_dma_size(dev_p,
- CY_AS_P2S_READ_ENDPOINT, CY_AS_STORAGE_EP_SIZE);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- cy_as_ll_register_request_callback(dev_p,
- CY_RQT_STORAGE_RQT_CONTEXT, my_storage_request_callback);
-
- /* Create the request/response used for storage reads and writes. */
- dev_p->storage_rw_req_p = cy_as_ll_create_request(dev_p,
- 0, CY_RQT_STORAGE_RQT_CONTEXT, 5);
- if (dev_p->storage_rw_req_p == 0) {
- ret = CY_AS_ERROR_OUT_OF_MEMORY;
- goto destroy;
- }
-
- dev_p->storage_rw_resp_p = cy_as_ll_create_response(dev_p, 5);
- if (dev_p->storage_rw_resp_p == 0) {
- cy_as_ll_destroy_request(dev_p, dev_p->storage_rw_req_p);
- ret = CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- /* Increment the storage count only if
- * the above functionality succeeds.*/
- if (ret == CY_AS_ERROR_SUCCESS) {
- if (dev_p->storage_count == 0) {
- cy_as_hal_mem_set(dev_p->storage_device_info,
- 0, sizeof(dev_p->storage_device_info));
- dev_p->is_storage_only_mode = cy_false;
- }
-
- dev_p->storage_count++;
- }
-
- cy_as_device_clear_s_s_s_pending(dev_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_storage_start(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (!cy_as_device_is_configured(dev_p))
- return CY_AS_ERROR_NOT_CONFIGURED;
-
- if (!cy_as_device_is_firmware_loaded(dev_p))
- return CY_AS_ERROR_NO_FIRMWARE;
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- if (cy_as_device_is_s_s_s_pending(dev_p))
- return CY_AS_ERROR_STARTSTOP_PENDING;
-
- cy_as_device_set_s_s_s_pending(dev_p);
-
- if (dev_p->storage_count == 0) {
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_START_STORAGE, CY_RQT_STORAGE_RQT_CONTEXT, 1);
- if (req_p == 0) {
- cy_as_device_clear_s_s_s_pending(dev_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- /* Reserve space for the reply, the reply data
- * will not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_device_clear_s_s_s_pending(dev_p);
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_storage_start(dev_p,
- req_p, reply_p, ret);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_STOR_START, 0, dev_p->func_cbs_stor,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_storage_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as
- * part of the FuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
- } else {
- dev_p->storage_count++;
- if (cb)
- cb(handle, ret, client, CY_FUNCT_CB_STOR_START, 0);
- }
-
- cy_as_device_clear_s_s_s_pending(dev_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_storage_start);
-
-static cy_as_return_status_t
-my_handle_response_storage_stop(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_return_status_t ret)
-{
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- if (ret == CY_AS_ERROR_SUCCESS) {
- cy_as_ll_destroy_request(dev_p, dev_p->storage_rw_req_p);
- cy_as_ll_destroy_response(dev_p, dev_p->storage_rw_resp_p);
- dev_p->storage_count--;
- }
-
- cy_as_device_clear_s_s_s_pending(dev_p);
-
- return ret;
-}
-cy_as_return_status_t
-cy_as_storage_stop(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_storage_async_pending(dev_p))
- return CY_AS_ERROR_ASYNC_PENDING;
-
- if (cy_as_device_is_s_s_s_pending(dev_p))
- return CY_AS_ERROR_STARTSTOP_PENDING;
-
- cy_as_device_set_s_s_s_pending(dev_p);
-
- if (dev_p->storage_count == 1) {
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_STOP_STORAGE, CY_RQT_STORAGE_RQT_CONTEXT, 0);
- if (req_p == 0) {
- cy_as_device_clear_s_s_s_pending(dev_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- /* Reserve space for the reply, the reply data
- * will not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_device_clear_s_s_s_pending(dev_p);
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_storage_stop(dev_p,
- req_p, reply_p, ret);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_STOR_STOP, 0, dev_p->func_cbs_stor,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_storage_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed
- * as part of the MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
- } else if (dev_p->storage_count > 1) {
- dev_p->storage_count--;
- if (cb)
- cb(handle, ret, client, CY_FUNCT_CB_STOR_STOP, 0);
- }
-
- cy_as_device_clear_s_s_s_pending(dev_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_storage_stop);
-
-cy_as_return_status_t
-cy_as_storage_register_callback(cy_as_device_handle handle,
- cy_as_storage_event_callback callback)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (!cy_as_device_is_configured(dev_p))
- return CY_AS_ERROR_NOT_CONFIGURED;
-
- if (!cy_as_device_is_firmware_loaded(dev_p))
- return CY_AS_ERROR_NO_FIRMWARE;
-
- if (dev_p->storage_count == 0)
- return CY_AS_ERROR_NOT_RUNNING;
-
- dev_p->storage_event_cb = NULL;
- dev_p->storage_event_cb_ms = callback;
-
- return CY_AS_ERROR_SUCCESS;
-}
-EXPORT_SYMBOL(cy_as_storage_register_callback);
-
-
-static cy_as_return_status_t
-my_handle_response_storage_claim(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (cy_as_ll_request_response__get_code(reply_p) ==
- CY_RESP_NO_SUCH_ADDRESS) {
- ret = cy_as_map_bad_addr(
- cy_as_ll_request_response__get_word(reply_p, 3));
- goto destroy;
- }
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_MEDIA_CLAIMED_RELEASED) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- /* The response must be about the address I am
- * trying to claim or the firmware is broken */
- if ((cy_as_storage_get_bus_from_address(
- cy_as_ll_request_response__get_word(req_p, 0)) !=
- cy_as_storage_get_bus_from_address(
- cy_as_ll_request_response__get_word(reply_p, 0))) ||
- (cy_as_storage_get_device_from_address(
- cy_as_ll_request_response__get_word(req_p, 0)) !=
- cy_as_storage_get_device_from_address(
- cy_as_ll_request_response__get_word(reply_p, 0)))) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- if (cy_as_ll_request_response__get_word(reply_p, 1) != 1)
- ret = CY_AS_ERROR_NOT_ACQUIRED;
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-static cy_as_return_status_t
-my_storage_claim(cy_as_device *dev_p,
- void *data,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint16_t req_flags,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (dev_p->mtp_count > 0)
- return CY_AS_ERROR_NOT_VALID_IN_MTP;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_CLAIM_STORAGE, CY_RQT_STORAGE_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p,
- 0, create_address(bus, device, 0));
-
- /* Reserve space for the reply, the reply data will
- * not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 4);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_storage_claim(dev_p, req_p, reply_p);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_STOR_CLAIM, data, dev_p->func_cbs_stor,
- req_flags, req_p, reply_p,
- cy_as_storage_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as part of
- * the MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_storage_claim(cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- if (bus < 0 || bus >= CY_AS_MAX_BUSES)
- return CY_AS_ERROR_NO_SUCH_BUS;
-
- return my_storage_claim(dev_p, NULL, bus, device,
- CY_AS_REQUEST_RESPONSE_MS, cb, client);
-}
-EXPORT_SYMBOL(cy_as_storage_claim);
-
-static cy_as_return_status_t
-my_handle_response_storage_release(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (cy_as_ll_request_response__get_code(reply_p) ==
- CY_RESP_NO_SUCH_ADDRESS) {
- ret = cy_as_map_bad_addr(
- cy_as_ll_request_response__get_word(reply_p, 3));
- goto destroy;
- }
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_MEDIA_CLAIMED_RELEASED) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- /* The response must be about the address I am
- * trying to release or the firmware is broken */
- if ((cy_as_storage_get_bus_from_address(
- cy_as_ll_request_response__get_word(req_p, 0)) !=
- cy_as_storage_get_bus_from_address(
- cy_as_ll_request_response__get_word(reply_p, 0))) ||
- (cy_as_storage_get_device_from_address(
- cy_as_ll_request_response__get_word(req_p, 0)) !=
- cy_as_storage_get_device_from_address(
- cy_as_ll_request_response__get_word(reply_p, 0)))) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
-
- if (cy_as_ll_request_response__get_word(reply_p, 1) != 0)
- ret = CY_AS_ERROR_NOT_RELEASED;
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-static cy_as_return_status_t
-my_storage_release(cy_as_device *dev_p,
- void *data,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint16_t req_flags,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (dev_p->mtp_count > 0)
- return CY_AS_ERROR_NOT_VALID_IN_MTP;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_RELEASE_STORAGE,
- CY_RQT_STORAGE_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(
- req_p, 0, create_address(bus, device, 0));
-
- /* Reserve space for the reply, the reply
- * data will not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 4);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_storage_release(
- dev_p, req_p, reply_p);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_STOR_RELEASE, data, dev_p->func_cbs_stor,
- req_flags, req_p, reply_p,
- cy_as_storage_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as
- * part of the MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_storage_release(cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- if (bus < 0 || bus >= CY_AS_MAX_BUSES)
- return CY_AS_ERROR_NO_SUCH_BUS;
-
- return my_storage_release(dev_p, NULL, bus, device,
- CY_AS_REQUEST_RESPONSE_MS, cb, client);
-}
-EXPORT_SYMBOL(cy_as_storage_release);
-
-static cy_as_return_status_t
-my_handle_response_storage_query_bus(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- uint32_t *count)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint8_t code = cy_as_ll_request_response__get_code(reply_p);
- uint16_t v;
-
- if (code == CY_RESP_NO_SUCH_ADDRESS) {
- ret = CY_AS_ERROR_NO_SUCH_BUS;
- goto destroy;
- }
-
- if (code != CY_RESP_BUS_DESCRIPTOR) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- /*
- * verify that the response corresponds to the bus that was queried.
- */
- if (cy_as_storage_get_bus_from_address(
- cy_as_ll_request_response__get_word(req_p, 0)) !=
- cy_as_storage_get_bus_from_address(
- cy_as_ll_request_response__get_word(reply_p, 0))) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- v = cy_as_ll_request_response__get_word(reply_p, 1);
- if (req_p->flags & CY_AS_REQUEST_RESPONSE_MS) {
- /*
- * this request is only for the count of devices
- * on the bus. there is no need to check the media type.
- */
- if (v)
- *count = 1;
- else
- *count = 0;
- } else {
- /*
- * this request is for the count of devices of a
- * particular type. we need to check whether the media
- * type found matches the queried type.
- */
- cy_as_media_type queried = (cy_as_media_type)
- cy_as_ll_request_response__get_word(req_p, 1);
- cy_as_media_type found =
- cy_as_storage_get_media_from_address(v);
-
- if (queried == found)
- *count = 1;
- else
- *count = 0;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-my_storage_query_bus(cy_as_device *dev_p,
- cy_as_bus_number_t bus,
- cy_as_media_type type,
- uint16_t req_flags,
- uint32_t *count,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret;
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_funct_c_b_type cb_type = CY_FUNCT_CB_STOR_QUERYBUS;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /* Create the request to send to the Antioch device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_QUERY_BUS, CY_RQT_STORAGE_RQT_CONTEXT, 2);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p,
- 0, create_address(bus, 0, 0));
- cy_as_ll_request_response__set_word(req_p, 1, (uint16_t)type);
-
- /* Reserve space for the reply, the reply data
- * will not exceed two words. */
- reply_p = cy_as_ll_create_response(dev_p, 2);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- req_p->flags |= req_flags;
- return my_handle_response_storage_query_bus(dev_p,
- req_p, reply_p, count);
- } else {
- if (req_flags == CY_AS_REQUEST_RESPONSE_EX)
- cb_type = CY_FUNCT_CB_STOR_QUERYMEDIA;
-
- ret = cy_as_misc_send_request(dev_p, cb, client, cb_type,
- count, dev_p->func_cbs_stor, req_flags,
- req_p, reply_p, cy_as_storage_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as part of
- * the MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_storage_query_bus(cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t *count,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- return my_storage_query_bus(dev_p, bus, cy_as_media_max_media_value,
- CY_AS_REQUEST_RESPONSE_MS, count, cb, client);
-}
-EXPORT_SYMBOL(cy_as_storage_query_bus);
-
-cy_as_return_status_t
-cy_as_storage_query_media(cy_as_device_handle handle,
- cy_as_media_type type,
- uint32_t *count,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_bus_number_t bus;
-
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- ret = cy_an_map_bus_from_media_type(dev_p, type, &bus);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- return my_storage_query_bus(dev_p, bus, type, CY_AS_REQUEST_RESPONSE_EX,
- count, cb, client);
-}
-EXPORT_SYMBOL(cy_as_storage_query_media);
-
-static cy_as_return_status_t
-my_handle_response_storage_query_device(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- void *data_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint16_t v;
- cy_as_bus_number_t bus;
- cy_as_media_type type;
- uint32_t device;
- cy_bool removable;
- cy_bool writeable;
- cy_bool locked;
- uint16_t block_size;
- uint32_t number_units;
- uint32_t number_eus;
-
- if (cy_as_ll_request_response__get_code(reply_p)
- == CY_RESP_NO_SUCH_ADDRESS) {
- ret = cy_as_map_bad_addr(
- cy_as_ll_request_response__get_word(reply_p, 3));
- goto destroy;
- }
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_DEVICE_DESCRIPTOR) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- /* Unpack the response */
- v = cy_as_ll_request_response__get_word(reply_p, 0);
- type = cy_as_storage_get_media_from_address(v);
- bus = cy_as_storage_get_bus_from_address(v);
- device = cy_as_storage_get_device_from_address(v);
-
- block_size = cy_as_ll_request_response__get_word(reply_p, 1);
-
- v = cy_as_ll_request_response__get_word(reply_p, 2);
- removable = (v & 0x8000) ? cy_true : cy_false;
- writeable = (v & 0x0100) ? cy_true : cy_false;
- locked = (v & 0x0200) ? cy_true : cy_false;
- number_units = (v & 0xff);
-
- number_eus = (cy_as_ll_request_response__get_word(reply_p, 3) << 16)
- | cy_as_ll_request_response__get_word(reply_p, 4);
-
- /* Store the results based on the version of originating function */
- if (req_p->flags & CY_AS_REQUEST_RESPONSE_MS) {
- cy_as_storage_query_device_data *store_p =
- (cy_as_storage_query_device_data *)data_p;
-
- /* Make sure the response is about the address we asked
- * about - if not, firmware error */
- if ((bus != store_p->bus) || (device != store_p->device)) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- store_p->desc_p.type = type;
- store_p->desc_p.removable = removable;
- store_p->desc_p.writeable = writeable;
- store_p->desc_p.block_size = block_size;
- store_p->desc_p.number_units = number_units;
- store_p->desc_p.locked = locked;
- store_p->desc_p.erase_unit_size = number_eus;
- dev_p->storage_device_info[bus][device] = store_p->desc_p;
- } else {
- cy_as_storage_query_device_data_dep *store_p =
- (cy_as_storage_query_device_data_dep *)data_p;
-
- /* Make sure the response is about the address we asked
- * about - if not, firmware error */
- if ((type != store_p->type) || (device != store_p->device)) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- store_p->desc_p.type = type;
- store_p->desc_p.removable = removable;
- store_p->desc_p.writeable = writeable;
- store_p->desc_p.block_size = block_size;
- store_p->desc_p.number_units = number_units;
- store_p->desc_p.locked = locked;
- store_p->desc_p.erase_unit_size = number_eus;
- dev_p->storage_device_info[bus][device] = store_p->desc_p;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-static cy_as_return_status_t
-my_storage_query_device(cy_as_device *dev_p,
- void *data_p,
- uint16_t req_flags,
- cy_as_bus_number_t bus,
- uint32_t device,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /* Create the request to send to the Antioch device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_QUERY_DEVICE, CY_RQT_STORAGE_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, device, 0));
-
- /* Reserve space for the reply, the reply data
- * will not exceed five words. */
- reply_p = cy_as_ll_create_response(dev_p, 5);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- req_p->flags |= req_flags;
- return my_handle_response_storage_query_device(dev_p,
- req_p, reply_p, data_p);
- } else {
-
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_STOR_QUERYDEVICE, data_p,
- dev_p->func_cbs_stor, req_flags, req_p,
- reply_p, cy_as_storage_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as part of the
- * MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_storage_query_device(cy_as_device_handle handle,
- cy_as_storage_query_device_data *data_p,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
- return my_storage_query_device(dev_p, data_p,
- CY_AS_REQUEST_RESPONSE_MS, data_p->bus,
- data_p->device, cb, client);
-}
-EXPORT_SYMBOL(cy_as_storage_query_device);
-
-static cy_as_return_status_t
-my_handle_response_storage_query_unit(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- void *data_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_bus_number_t bus;
- uint32_t device;
- uint32_t unit;
- cy_as_media_type type;
- uint16_t block_size;
- uint32_t start_block;
- uint32_t unit_size;
- uint16_t v;
-
- if (cy_as_ll_request_response__get_code(reply_p) ==
- CY_RESP_NO_SUCH_ADDRESS) {
- ret = cy_as_map_bad_addr(
- cy_as_ll_request_response__get_word(reply_p, 3));
- goto destroy;
- }
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_UNIT_DESCRIPTOR) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- /* Unpack the response */
- v = cy_as_ll_request_response__get_word(reply_p, 0);
- bus = cy_as_storage_get_bus_from_address(v);
- device = cy_as_storage_get_device_from_address(v);
- unit = get_unit_from_address(v);
-
- type = cy_as_storage_get_media_from_address(
- cy_as_ll_request_response__get_word(reply_p, 1));
-
- block_size = cy_as_ll_request_response__get_word(reply_p, 2);
- start_block = cy_as_ll_request_response__get_word(reply_p, 3)
- | (cy_as_ll_request_response__get_word(reply_p, 4) << 16);
- unit_size = cy_as_ll_request_response__get_word(reply_p, 5)
- | (cy_as_ll_request_response__get_word(reply_p, 6) << 16);
-
- /* Store the results based on the version of
- * originating function */
- if (req_p->flags & CY_AS_REQUEST_RESPONSE_MS) {
- cy_as_storage_query_unit_data *store_p =
- (cy_as_storage_query_unit_data *)data_p;
-
- /* Make sure the response is about the address we
- * asked about - if not, firmware error */
- if (bus != store_p->bus || device != store_p->device ||
- unit != store_p->unit) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- store_p->desc_p.type = type;
- store_p->desc_p.block_size = block_size;
- store_p->desc_p.start_block = start_block;
- store_p->desc_p.unit_size = unit_size;
- } else {
- cy_as_storage_query_unit_data_dep *store_p =
- (cy_as_storage_query_unit_data_dep *)data_p;
-
- /* Make sure the response is about the media type we asked
- * about - if not, firmware error */
- if ((type != store_p->type) || (device != store_p->device) ||
- (unit != store_p->unit)) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- store_p->desc_p.type = type;
- store_p->desc_p.block_size = block_size;
- store_p->desc_p.start_block = start_block;
- store_p->desc_p.unit_size = unit_size;
- }
-
- dev_p->storage_device_info[bus][device].type = type;
- dev_p->storage_device_info[bus][device].block_size = block_size;
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-static cy_as_return_status_t
-my_storage_query_unit(cy_as_device *dev_p,
- void *data_p,
- uint16_t req_flags,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint32_t unit,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_QUERY_UNIT, CY_RQT_STORAGE_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- if (device > 255)
- return CY_AS_ERROR_NO_SUCH_DEVICE;
-
- if (unit > 255)
- return CY_AS_ERROR_NO_SUCH_UNIT;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, device, (uint8_t)unit));
-
- /* Reserve space for the reply, the reply data
- * will be of seven words. */
- reply_p = cy_as_ll_create_response(dev_p, 7);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- req_p->flags |= req_flags;
- return my_handle_response_storage_query_unit(dev_p,
- req_p, reply_p, data_p);
- } else {
-
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_STOR_QUERYUNIT, data_p,
- dev_p->func_cbs_stor, req_flags, req_p, reply_p,
- cy_as_storage_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed
- * as part of the MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_storage_query_unit(cy_as_device_handle handle,
- cy_as_storage_query_unit_data *data_p,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
- return my_storage_query_unit(dev_p, data_p, CY_AS_REQUEST_RESPONSE_MS,
- data_p->bus, data_p->device, data_p->unit, cb, client);
-}
-EXPORT_SYMBOL(cy_as_storage_query_unit);
-
-static cy_as_return_status_t
-cy_as_get_block_size(cy_as_device *dev_p,
- cy_as_bus_number_t bus,
- uint32_t device,
- cy_as_function_callback cb)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_QUERY_DEVICE,
- CY_RQT_STORAGE_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, device, 0));
-
- reply_p = cy_as_ll_create_response(dev_p, 4);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p)
- == CY_RESP_NO_SUCH_ADDRESS) {
- ret = CY_AS_ERROR_NO_SUCH_BUS;
- goto destroy;
- }
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_DEVICE_DESCRIPTOR) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- /* Make sure the response is about the media type we asked
- * about - if not, firmware error */
- if ((cy_as_storage_get_bus_from_address
- (cy_as_ll_request_response__get_word(reply_p, 0))
- != bus) || (cy_as_storage_get_device_from_address
- (cy_as_ll_request_response__get_word(reply_p, 0))
- != device)) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
-
- dev_p->storage_device_info[bus][device].block_size =
- cy_as_ll_request_response__get_word(reply_p, 1);
- } else
- ret = CY_AS_ERROR_INVALID_REQUEST;
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-my_storage_device_control(
- cy_as_device *dev_p,
- cy_as_bus_number_t bus,
- uint32_t device,
- cy_bool card_detect_en,
- cy_bool write_prot_en,
- cy_as_storage_card_detect config_detect,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret;
- cy_bool use_gpio = cy_false;
-
- (void)device;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (!cy_as_device_is_configured(dev_p))
- return CY_AS_ERROR_NOT_CONFIGURED;
-
- if (!cy_as_device_is_firmware_loaded(dev_p))
- return CY_AS_ERROR_NO_FIRMWARE;
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- if (bus < 0 || bus >= CY_AS_MAX_BUSES)
- return CY_AS_ERROR_NO_SUCH_BUS;
-
- if (device >= CY_AS_MAX_STORAGE_DEVICES)
- return CY_AS_ERROR_NO_SUCH_DEVICE;
-
- /* If SD is not supported on the specified bus,
- * then return ERROR */
- if ((dev_p->media_supported[bus] == 0) ||
- (dev_p->media_supported[bus] & (1<<cy_as_media_nand)))
- return CY_AS_ERROR_NOT_SUPPORTED;
-
- if (config_detect == cy_as_storage_detect_GPIO)
- use_gpio = cy_true;
- else if (config_detect == cy_as_storage_detect_SDAT_3)
- use_gpio = cy_false;
- else
- return CY_AS_ERROR_INVALID_PARAMETER;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_SD_INTERFACE_CONTROL, CY_RQT_STORAGE_RQT_CONTEXT, 2);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p,
- 0, create_address(bus, device, 0));
- cy_as_ll_request_response__set_word(req_p,
- 1, (((uint16_t)card_detect_en << 8) |
- ((uint16_t)use_gpio << 1) | (uint16_t)write_prot_en));
-
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- } else {
-
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_STOR_DEVICECONTROL,
- 0, dev_p->func_cbs_stor, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_storage_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as part of the
- * MiscFuncCallback */
- return ret;
- }
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_storage_device_control(cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- cy_bool card_detect_en,
- cy_bool write_prot_en,
- cy_as_storage_card_detect config_detect,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- return my_storage_device_control(dev_p, bus, device, card_detect_en,
- write_prot_en, config_detect, cb, client);
-}
-EXPORT_SYMBOL(cy_as_storage_device_control);
-
-static void
-cy_as_async_storage_callback(cy_as_device *dev_p,
- cy_as_end_point_number_t ep, void *buf_p, uint32_t size,
- cy_as_return_status_t ret)
-{
- cy_as_storage_callback_dep cb;
- cy_as_storage_callback cb_ms;
-
- (void)size;
- (void)buf_p;
- (void)ep;
-
- cy_as_device_clear_storage_async_pending(dev_p);
-
- /*
- * if the LL request callback has already been called,
- * the user callback has to be called from here.
- */
- if (!dev_p->storage_wait) {
- cy_as_hal_assert(dev_p->storage_cb != NULL ||
- dev_p->storage_cb_ms != NULL);
- cb = dev_p->storage_cb;
- cb_ms = dev_p->storage_cb_ms;
-
- dev_p->storage_cb = 0;
- dev_p->storage_cb_ms = 0;
-
- if (ret == CY_AS_ERROR_SUCCESS)
- ret = dev_p->storage_error;
-
- if (cb_ms) {
- cb_ms((cy_as_device_handle)dev_p,
- dev_p->storage_bus_index,
- dev_p->storage_device_index,
- dev_p->storage_unit,
- dev_p->storage_block_addr,
- dev_p->storage_oper, ret);
- } else {
- cb((cy_as_device_handle)dev_p,
- dev_p->storage_device_info
- [dev_p->storage_bus_index]
- [dev_p->storage_device_index].type,
- dev_p->storage_device_index,
- dev_p->storage_unit,
- dev_p->storage_block_addr,
- dev_p->storage_oper, ret);
- }
- } else
- dev_p->storage_error = ret;
-}
-
-static void
-cy_as_async_storage_reply_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t ret)
-{
- cy_as_storage_callback_dep cb;
- cy_as_storage_callback cb_ms;
- uint8_t reqtype;
- (void)rqt;
- (void)context;
-
- reqtype = cy_as_ll_request_response__get_code(rqt);
-
- if (ret == CY_AS_ERROR_SUCCESS) {
- if (cy_as_ll_request_response__get_code(resp) ==
- CY_RESP_ANTIOCH_DEFERRED_ERROR) {
- ret = cy_as_ll_request_response__get_word
- (resp, 0) & 0x00FF;
- } else if (cy_as_ll_request_response__get_code(resp) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- }
- }
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- if (reqtype == CY_RQT_READ_BLOCK)
- cy_as_dma_cancel(dev_p,
- dev_p->storage_read_endpoint, ret);
- else
- cy_as_dma_cancel(dev_p,
- dev_p->storage_write_endpoint, ret);
- }
-
- dev_p->storage_wait = cy_false;
-
- /*
- * if the DMA callback has already been called, the
- * user callback has to be called from here.
- */
- if (!cy_as_device_is_storage_async_pending(dev_p)) {
- cy_as_hal_assert(dev_p->storage_cb != NULL ||
- dev_p->storage_cb_ms != NULL);
- cb = dev_p->storage_cb;
- cb_ms = dev_p->storage_cb_ms;
-
- dev_p->storage_cb = 0;
- dev_p->storage_cb_ms = 0;
-
- if (ret == CY_AS_ERROR_SUCCESS)
- ret = dev_p->storage_error;
-
- if (cb_ms) {
- cb_ms((cy_as_device_handle)dev_p,
- dev_p->storage_bus_index,
- dev_p->storage_device_index,
- dev_p->storage_unit,
- dev_p->storage_block_addr,
- dev_p->storage_oper, ret);
- } else {
- cb((cy_as_device_handle)dev_p,
- dev_p->storage_device_info
- [dev_p->storage_bus_index]
- [dev_p->storage_device_index].type,
- dev_p->storage_device_index,
- dev_p->storage_unit,
- dev_p->storage_block_addr,
- dev_p->storage_oper, ret);
- }
- } else
- dev_p->storage_error = ret;
-}
-
-static cy_as_return_status_t
-cy_as_storage_async_oper(cy_as_device *dev_p, cy_as_end_point_number_t ep,
- uint8_t reqtype, uint16_t req_flags, cy_as_bus_number_t bus,
- uint32_t device, uint32_t unit, uint32_t block, void *data_p,
- uint16_t num_blocks, cy_as_storage_callback_dep callback,
- cy_as_storage_callback callback_ms)
-{
- uint32_t mask;
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (bus < 0 || bus >= CY_AS_MAX_BUSES)
- return CY_AS_ERROR_NO_SUCH_BUS;
-
- if (device >= CY_AS_MAX_STORAGE_DEVICES)
- return CY_AS_ERROR_NO_SUCH_DEVICE;
-
- if (unit > 255)
- return CY_AS_ERROR_NO_SUCH_UNIT;
-
- /* We are supposed to return success if the number of
- * blocks is zero
- */
- if (num_blocks == 0) {
- if (callback_ms)
- callback_ms((cy_as_device_handle)dev_p,
- bus, device, unit, block,
- ((reqtype == CY_RQT_WRITE_BLOCK)
- ? cy_as_op_write : cy_as_op_read),
- CY_AS_ERROR_SUCCESS);
- else
- callback((cy_as_device_handle)dev_p,
- dev_p->storage_device_info[bus][device].type,
- device, unit, block,
- ((reqtype == CY_RQT_WRITE_BLOCK) ?
- cy_as_op_write : cy_as_op_read),
- CY_AS_ERROR_SUCCESS);
-
- return CY_AS_ERROR_SUCCESS;
- }
-
- if (dev_p->storage_device_info[bus][device].block_size == 0)
- return CY_AS_ERROR_QUERY_DEVICE_NEEDED;
-
- /*
- * since async operations can be triggered by interrupt
- * code, we must insure that we do not get multiple
- * async operations going at one time and protect this
- * test and set operation from interrupts. also need to
- * check for pending async MTP writes
- */
- mask = cy_as_hal_disable_interrupts();
- if ((cy_as_device_is_storage_async_pending(dev_p)) ||
- (dev_p->storage_wait) ||
- (cy_as_device_is_usb_async_pending(dev_p, 6))) {
- cy_as_hal_enable_interrupts(mask);
- return CY_AS_ERROR_ASYNC_PENDING;
- }
-
- cy_as_device_set_storage_async_pending(dev_p);
- cy_as_device_clear_p2s_dma_start_recvd(dev_p);
- cy_as_hal_enable_interrupts(mask);
-
- /*
- * storage information about the currently outstanding request
- */
- dev_p->storage_cb = callback;
- dev_p->storage_cb_ms = callback_ms;
- dev_p->storage_bus_index = bus;
- dev_p->storage_device_index = device;
- dev_p->storage_unit = unit;
- dev_p->storage_block_addr = block;
-
- /* Initialise the request to send to the West Bridge. */
- req_p = dev_p->storage_rw_req_p;
- cy_as_ll_init_request(req_p, reqtype, CY_RQT_STORAGE_RQT_CONTEXT, 5);
-
- /* Initialise the space for reply from the West Bridge. */
- reply_p = dev_p->storage_rw_resp_p;
- cy_as_ll_init_response(reply_p, 5);
-
- /* Remember which version of the API originated the request */
- req_p->flags |= req_flags;
-
- /* Setup the DMA request and adjust the storage
- * operation if we are reading */
- if (reqtype == CY_RQT_READ_BLOCK) {
- ret = cy_as_dma_queue_request(dev_p, ep, data_p,
- dev_p->storage_device_info[bus][device].block_size
- * num_blocks, cy_false, cy_true,
- cy_as_async_storage_callback);
- dev_p->storage_oper = cy_as_op_read;
- } else if (reqtype == CY_RQT_WRITE_BLOCK) {
- ret = cy_as_dma_queue_request(dev_p, ep, data_p,
- dev_p->storage_device_info[bus][device].block_size *
- num_blocks, cy_false, cy_false,
- cy_as_async_storage_callback);
- dev_p->storage_oper = cy_as_op_write;
- }
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_device_clear_storage_async_pending(dev_p);
- return ret;
- }
-
- cy_as_ll_request_response__set_word(req_p,
- 0, create_address(bus, (uint8_t)device, (uint8_t)unit));
- cy_as_ll_request_response__set_word(req_p,
- 1, (uint16_t)((block >> 16) & 0xffff));
- cy_as_ll_request_response__set_word(req_p,
- 2, (uint16_t)(block & 0xffff));
- cy_as_ll_request_response__set_word(req_p,
- 3, (uint16_t)((num_blocks >> 8) & 0x00ff));
- cy_as_ll_request_response__set_word(req_p,
- 4, (uint16_t)((num_blocks << 8) & 0xff00));
-
- /* Set the burst mode flag. */
- if (dev_p->is_storage_only_mode)
- req_p->data[4] |= 0x0001;
-
- /* Send the request and wait for completion
- * of storage request */
- dev_p->storage_wait = cy_true;
- ret = cy_as_ll_send_request(dev_p, req_p, reply_p,
- cy_true, cy_as_async_storage_reply_callback);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_dma_cancel(dev_p, ep, CY_AS_ERROR_CANCELED);
- cy_as_device_clear_storage_async_pending(dev_p);
- }
-
- return ret;
-}
-
-static void
-cy_as_sync_storage_callback(cy_as_device *dev_p,
- cy_as_end_point_number_t ep, void *buf_p,
- uint32_t size, cy_as_return_status_t err)
-{
- (void)ep;
- (void)buf_p;
- (void)size;
-
- dev_p->storage_error = err;
-}
-
-static void
-cy_as_sync_storage_reply_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t ret)
-{
- uint8_t reqtype;
- (void)rqt;
-
- reqtype = cy_as_ll_request_response__get_code(rqt);
-
- if (cy_as_ll_request_response__get_code(resp) ==
- CY_RESP_ANTIOCH_DEFERRED_ERROR) {
- ret = cy_as_ll_request_response__get_word(resp, 0) & 0x00FF;
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- if (reqtype == CY_RQT_READ_BLOCK)
- cy_as_dma_cancel(dev_p,
- dev_p->storage_read_endpoint, ret);
- else
- cy_as_dma_cancel(dev_p,
- dev_p->storage_write_endpoint, ret);
- }
- } else if (cy_as_ll_request_response__get_code(resp) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- }
-
- dev_p->storage_wait = cy_false;
- dev_p->storage_error = ret;
-
- /* Wake any threads/processes that are waiting on
- * the read/write completion. */
- cy_as_hal_wake(&dev_p->context[context]->channel);
-}
-
-static cy_as_return_status_t
-cy_as_storage_sync_oper(cy_as_device *dev_p,
- cy_as_end_point_number_t ep, uint8_t reqtype,
- cy_as_bus_number_t bus, uint32_t device,
- uint32_t unit, uint32_t block, void *data_p,
- uint16_t num_blocks)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_context *ctxt_p;
- uint32_t loopcount = 200;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (bus < 0 || bus >= CY_AS_MAX_BUSES)
- return CY_AS_ERROR_NO_SUCH_BUS;
-
- if (device >= CY_AS_MAX_STORAGE_DEVICES)
- return CY_AS_ERROR_NO_SUCH_DEVICE;
-
- if (unit > 255)
- return CY_AS_ERROR_NO_SUCH_UNIT;
-
- if ((cy_as_device_is_storage_async_pending(dev_p)) ||
- (dev_p->storage_wait))
- return CY_AS_ERROR_ASYNC_PENDING;
-
- /* Also need to check for pending Async MTP writes */
- if (cy_as_device_is_usb_async_pending(dev_p, 6))
- return CY_AS_ERROR_ASYNC_PENDING;
-
- /* We are supposed to return success if the number of
- * blocks is zero
- */
- if (num_blocks == 0)
- return CY_AS_ERROR_SUCCESS;
-
- if (dev_p->storage_device_info[bus][device].block_size == 0) {
- /*
- * normally, a given device has been queried via
- * the query device call before a read request is issued.
- * therefore, this normally will not be run.
- */
- ret = cy_as_get_block_size(dev_p, bus, device, 0);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
- }
-
- /* Initialise the request to send to the West Bridge. */
- req_p = dev_p->storage_rw_req_p;
- cy_as_ll_init_request(req_p, reqtype,
- CY_RQT_STORAGE_RQT_CONTEXT, 5);
-
- /* Initialise the space for reply from
- * the West Bridge. */
- reply_p = dev_p->storage_rw_resp_p;
- cy_as_ll_init_response(reply_p, 5);
- cy_as_device_clear_p2s_dma_start_recvd(dev_p);
-
- /* Setup the DMA request */
- if (reqtype == CY_RQT_READ_BLOCK) {
- ret = cy_as_dma_queue_request(dev_p, ep, data_p,
- dev_p->storage_device_info[bus][device].block_size *
- num_blocks, cy_false,
- cy_true, cy_as_sync_storage_callback);
- dev_p->storage_oper = cy_as_op_read;
- } else if (reqtype == CY_RQT_WRITE_BLOCK) {
- ret = cy_as_dma_queue_request(dev_p, ep, data_p,
- dev_p->storage_device_info[bus][device].block_size *
- num_blocks, cy_false, cy_false,
- cy_as_sync_storage_callback);
- dev_p->storage_oper = cy_as_op_write;
- }
-
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, (uint8_t)device, (uint8_t)unit));
- cy_as_ll_request_response__set_word(req_p, 1,
- (uint16_t)((block >> 16) & 0xffff));
- cy_as_ll_request_response__set_word(req_p, 2,
- (uint16_t)(block & 0xffff));
- cy_as_ll_request_response__set_word(req_p, 3,
- (uint16_t)((num_blocks >> 8) & 0x00ff));
- cy_as_ll_request_response__set_word(req_p, 4,
- (uint16_t)((num_blocks << 8) & 0xff00));
-
- /* Set the burst mode flag. */
- if (dev_p->is_storage_only_mode)
- req_p->data[4] |= 0x0001;
-
- /* Send the request and wait for
- * completion of storage request */
- dev_p->storage_wait = cy_true;
- ret = cy_as_ll_send_request(dev_p, req_p, reply_p, cy_true,
- cy_as_sync_storage_reply_callback);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_dma_cancel(dev_p, ep, CY_AS_ERROR_CANCELED);
- } else {
- /* Setup the DMA request */
- ctxt_p = dev_p->context[CY_RQT_STORAGE_RQT_CONTEXT];
- ret = cy_as_dma_drain_queue(dev_p, ep, cy_false);
-
- while (loopcount-- > 0) {
- if (dev_p->storage_wait == cy_false)
- break;
- cy_as_hal_sleep_on(&ctxt_p->channel, 10);
- }
-
- if (dev_p->storage_wait == cy_true) {
- dev_p->storage_wait = cy_false;
- cy_as_ll_remove_request(dev_p, ctxt_p, req_p, cy_true);
- ret = CY_AS_ERROR_TIMEOUT;
- }
-
- if (ret == CY_AS_ERROR_SUCCESS)
- ret = dev_p->storage_error;
- }
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_storage_read(cy_as_device_handle handle,
- cy_as_bus_number_t bus, uint32_t device,
- uint32_t unit, uint32_t block,
- void *data_p, uint16_t num_blocks)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- return cy_as_storage_sync_oper(dev_p, dev_p->storage_read_endpoint,
- CY_RQT_READ_BLOCK, bus, device,
- unit, block, data_p, num_blocks);
-}
-EXPORT_SYMBOL(cy_as_storage_read);
-
-cy_as_return_status_t
-cy_as_storage_write(cy_as_device_handle handle,
- cy_as_bus_number_t bus, uint32_t device,
- uint32_t unit, uint32_t block, void *data_p,
- uint16_t num_blocks)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (dev_p->mtp_turbo_active)
- return CY_AS_ERROR_NOT_VALID_DURING_MTP;
-
- return cy_as_storage_sync_oper(dev_p,
- dev_p->storage_write_endpoint,
- CY_RQT_WRITE_BLOCK, bus, device,
- unit, block, data_p, num_blocks);
-}
-EXPORT_SYMBOL(cy_as_storage_write);
-
-cy_as_return_status_t
-cy_as_storage_read_async(cy_as_device_handle handle,
- cy_as_bus_number_t bus, uint32_t device, uint32_t unit,
- uint32_t block, void *data_p, uint16_t num_blocks,
- cy_as_storage_callback callback)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (callback == 0)
- return CY_AS_ERROR_NULL_CALLBACK;
-
- return cy_as_storage_async_oper(dev_p,
- dev_p->storage_read_endpoint, CY_RQT_READ_BLOCK,
- CY_AS_REQUEST_RESPONSE_MS, bus, device, unit,
- block, data_p, num_blocks, NULL, callback);
-}
-EXPORT_SYMBOL(cy_as_storage_read_async);
-
-cy_as_return_status_t
-cy_as_storage_write_async(cy_as_device_handle handle,
- cy_as_bus_number_t bus, uint32_t device, uint32_t unit,
- uint32_t block, void *data_p, uint16_t num_blocks,
- cy_as_storage_callback callback)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (callback == 0)
- return CY_AS_ERROR_NULL_CALLBACK;
-
- if (dev_p->mtp_turbo_active)
- return CY_AS_ERROR_NOT_VALID_DURING_MTP;
-
- return cy_as_storage_async_oper(dev_p,
- dev_p->storage_write_endpoint, CY_RQT_WRITE_BLOCK,
- CY_AS_REQUEST_RESPONSE_MS, bus, device, unit, block,
- data_p, num_blocks, NULL, callback);
-}
-EXPORT_SYMBOL(cy_as_storage_write_async);
-
-static void
-my_storage_cancel_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t stat)
-{
- (void)context;
- (void)stat;
-
- /* Nothing to do here, except free up the
- * request and response structures. */
- cy_as_ll_destroy_response(dev_p, resp);
- cy_as_ll_destroy_request(dev_p, rqt);
-}
-
-
-cy_as_return_status_t
-cy_as_storage_cancel_async(cy_as_device_handle handle)
-{
- cy_as_return_status_t ret;
- cy_as_ll_request_response *req_p , *reply_p;
-
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (!cy_as_device_is_storage_async_pending(dev_p))
- return CY_AS_ERROR_ASYNC_NOT_PENDING;
-
- /*
- * create and send a mailbox request to firmware
- * asking it to abort processing of the current
- * P2S operation. the rest of the cancel processing will be
- * driven through the callbacks for the read/write call.
- */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_ABORT_P2S_XFER,
- CY_RQT_GENERAL_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- ret = cy_as_ll_send_request(dev_p, req_p,
- reply_p, cy_false, my_storage_cancel_callback);
- if (ret) {
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
- }
-
- return CY_AS_ERROR_SUCCESS;
-}
-EXPORT_SYMBOL(cy_as_storage_cancel_async);
-
-/*
- * This function does all the API side clean-up associated with
- * CyAsStorageStop, without any communication with the firmware.
- */
-void cy_as_storage_cleanup(cy_as_device *dev_p)
-{
- if (dev_p->storage_count) {
- cy_as_ll_destroy_request(dev_p, dev_p->storage_rw_req_p);
- cy_as_ll_destroy_response(dev_p, dev_p->storage_rw_resp_p);
- dev_p->storage_count = 0;
- cy_as_device_clear_scsi_messages(dev_p);
- cy_as_hal_mem_set(dev_p->storage_device_info,
- 0, sizeof(dev_p->storage_device_info));
-
- cy_as_device_clear_storage_async_pending(dev_p);
- dev_p->storage_cb = 0;
- dev_p->storage_cb_ms = 0;
- dev_p->storage_wait = cy_false;
- }
-}
-
-static cy_as_return_status_t
-my_handle_response_sd_reg_read(
- cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_storage_sd_reg_read_data *info)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint8_t resp_type, i;
- uint16_t resp_len;
- uint8_t length = info->length;
- uint8_t *data_p = info->buf_p;
-
- resp_type = cy_as_ll_request_response__get_code(reply_p);
- if (resp_type == CY_RESP_SD_REGISTER_DATA) {
- uint16_t *resp_p = reply_p->data + 1;
- uint16_t temp;
-
- resp_len = cy_as_ll_request_response__get_word(reply_p, 0);
- cy_as_hal_assert(resp_len >= length);
-
- /*
- * copy the values into the output buffer after doing the
- * necessary bit shifting. the bit shifting is required because
- * the data comes out of the west bridge with a 6 bit offset.
- */
- i = 0;
- while (length) {
- temp = ((resp_p[i] << 6) | (resp_p[i + 1] >> 10));
- i++;
-
- *data_p++ = (uint8_t)(temp >> 8);
- length--;
-
- if (length) {
- *data_p++ = (uint8_t)(temp & 0xFF);
- length--;
- }
- }
- } else {
- if (resp_type == CY_RESP_SUCCESS_FAILURE)
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- else
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- }
-
- cy_as_ll_destroy_response(dev_p, reply_p);
- cy_as_ll_destroy_request(dev_p, req_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_storage_sd_register_read(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint8_t device,
- cy_as_sd_card_reg_type reg_type,
- cy_as_storage_sd_reg_read_data *data_p,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint8_t length;
-
- /*
- * sanity checks required before sending the request to the
- * firmware.
- */
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (device >= CY_AS_MAX_STORAGE_DEVICES)
- return CY_AS_ERROR_NO_SUCH_DEVICE;
-
- if (reg_type > cy_as_sd_reg_CSD)
- return CY_AS_ERROR_INVALID_PARAMETER;
-
- /* If SD/MMC media is not supported on the
- * addressed bus, return error. */
- if ((dev_p->media_supported[bus] & (1 << cy_as_media_sd_flash)) == 0)
- return CY_AS_ERROR_INVALID_PARAMETER;
-
- /*
- * find the amount of data to be returned. this will be the minimum of
- * the actual data length, and the length requested.
- */
- switch (reg_type) {
- case cy_as_sd_reg_OCR:
- length = CY_AS_SD_REG_OCR_LENGTH;
- break;
- case cy_as_sd_reg_CID:
- length = CY_AS_SD_REG_CID_LENGTH;
- break;
- case cy_as_sd_reg_CSD:
- length = CY_AS_SD_REG_CSD_LENGTH;
- break;
-
- default:
- length = 0;
- cy_as_hal_assert(0);
- }
-
- if (length < data_p->length)
- data_p->length = length;
- length = data_p->length;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_SD_REGISTER_READ,
- CY_RQT_STORAGE_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- (create_address(bus, device, 0) | (uint16_t)reg_type));
-
- reply_p = cy_as_ll_create_response(dev_p,
- CY_AS_SD_REG_MAX_RESP_LENGTH);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_sd_reg_read(dev_p,
- req_p, reply_p, data_p);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_STOR_SDREGISTERREAD, data_p,
- dev_p->func_cbs_stor, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_storage_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as part of the
- * MiscFuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_storage_sd_register_read);
-
-cy_as_return_status_t
-cy_as_storage_create_p_partition(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- /* of P-port only partition in blocks */
- uint32_t size,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /* Partitions cannot be created or deleted while
- * the USB stack is active. */
- if (dev_p->usb_count)
- return CY_AS_ERROR_USB_RUNNING;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_PARTITION_STORAGE,
- CY_RQT_STORAGE_RQT_CONTEXT, 3);
-
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* Reserve space for the reply, the reply
- * data will not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, (uint8_t)device, 0x00));
- cy_as_ll_request_response__set_word(req_p, 1,
- (uint16_t)((size >> 16) & 0xffff));
- cy_as_ll_request_response__set_word(req_p, 2,
- (uint16_t)(size & 0xffff));
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_no_data(dev_p, req_p, reply_p);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_STOR_PARTITION, 0, dev_p->func_cbs_stor,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_storage_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as part of the
- * FuncCallback */
- return ret;
-
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_storage_create_p_partition);
-
-cy_as_return_status_t
-cy_as_storage_remove_p_partition(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /* Partitions cannot be created or deleted while
- * the USB stack is active. */
- if (dev_p->usb_count)
- return CY_AS_ERROR_USB_RUNNING;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_PARTITION_ERASE,
- CY_RQT_STORAGE_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* Reserve space for the reply, the reply
- * data will not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- cy_as_ll_request_response__set_word(req_p,
- 0, create_address(bus, (uint8_t)device, 0x00));
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_no_data(dev_p, req_p, reply_p);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_NODATA, 0, dev_p->func_cbs_stor,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_storage_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed
- * as part of the FuncCallback */
- return ret;
-
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_storage_remove_p_partition);
-
-static cy_as_return_status_t
-my_handle_response_get_transfer_amount(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_m_s_c_progress_data *data)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint8_t code = cy_as_ll_request_response__get_code(reply_p);
- uint16_t v1, v2;
-
- if (code != CY_RESP_TRANSFER_COUNT) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- v1 = cy_as_ll_request_response__get_word(reply_p, 0);
- v2 = cy_as_ll_request_response__get_word(reply_p, 1);
- data->wr_count = (uint32_t)((v1 << 16) | v2);
-
- v1 = cy_as_ll_request_response__get_word(reply_p, 2);
- v2 = cy_as_ll_request_response__get_word(reply_p, 3);
- data->rd_count = (uint32_t)((v1 << 16) | v2);
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_storage_get_transfer_amount(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- cy_as_m_s_c_progress_data *data_p,
- cy_as_function_callback cb,
- uint32_t client
- )
-{
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /* Check if the firmware image supports this feature. */
- if ((dev_p->media_supported[0]) && (dev_p->media_supported[0]
- == (1 << cy_as_media_nand)))
- return CY_AS_ERROR_NOT_SUPPORTED;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_GET_TRANSFER_AMOUNT,
- CY_RQT_STORAGE_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* Reserve space for the reply, the reply data
- * will not exceed four words. */
- reply_p = cy_as_ll_create_response(dev_p, 4);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, (uint8_t)device, 0x00));
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_get_transfer_amount(dev_p,
- req_p, reply_p, data_p);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_STOR_GETTRANSFERAMOUNT, (void *)data_p,
- dev_p->func_cbs_stor, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_storage_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed as part of the
- * FuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-
-}
-EXPORT_SYMBOL(cy_as_storage_get_transfer_amount);
-
-cy_as_return_status_t
-cy_as_storage_erase(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint32_t erase_unit,
- uint16_t num_erase_units,
- cy_as_function_callback cb,
- uint32_t client
- )
-{
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_storage_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (bus < 0 || bus >= CY_AS_MAX_BUSES)
- return CY_AS_ERROR_NO_SUCH_BUS;
-
- if (device >= CY_AS_MAX_STORAGE_DEVICES)
- return CY_AS_ERROR_NO_SUCH_DEVICE;
-
- if (dev_p->storage_device_info[bus][device].block_size == 0)
- return CY_AS_ERROR_QUERY_DEVICE_NEEDED;
-
- /* If SD is not supported on the specified bus, then return ERROR */
- if (dev_p->storage_device_info[bus][device].type !=
- cy_as_media_sd_flash)
- return CY_AS_ERROR_NOT_SUPPORTED;
-
- if (num_erase_units == 0)
- return CY_AS_ERROR_SUCCESS;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_ERASE,
- CY_RQT_STORAGE_RQT_CONTEXT, 5);
-
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* Reserve space for the reply, the reply
- * data will not exceed four words. */
- reply_p = cy_as_ll_create_response(dev_p, 4);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, (uint8_t)device, 0x00));
- cy_as_ll_request_response__set_word(req_p, 1,
- (uint16_t)((erase_unit >> 16) & 0xffff));
- cy_as_ll_request_response__set_word(req_p, 2,
- (uint16_t)(erase_unit & 0xffff));
- cy_as_ll_request_response__set_word(req_p, 3,
- (uint16_t)((num_erase_units >> 8) & 0x00ff));
- cy_as_ll_request_response__set_word(req_p, 4,
- (uint16_t)((num_erase_units << 8) & 0xff00));
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- ret = my_handle_response_no_data(dev_p, req_p, reply_p);
-
- /* If error = "invalid response", this (very likely) means
- * that we are not using the SD-only firmware module which
- * is the only one supporting storage_erase. in this case
- * force a "non supported" error code */
- if (ret == CY_AS_ERROR_INVALID_RESPONSE)
- ret = CY_AS_ERROR_NOT_SUPPORTED;
-
- return ret;
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_STOR_ERASE, 0, dev_p->func_cbs_stor,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_storage_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* The request and response are freed
- * as part of the FuncCallback */
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_storage_erase);
-
-static void
-cy_as_storage_func_callback(cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t stat)
-{
- cy_as_func_c_b_node *node = (cy_as_func_c_b_node *)
- dev_p->func_cbs_stor->head_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- cy_bool ex_request = (rqt->flags & CY_AS_REQUEST_RESPONSE_EX)
- == CY_AS_REQUEST_RESPONSE_EX;
- cy_bool ms_request = (rqt->flags & CY_AS_REQUEST_RESPONSE_MS)
- == CY_AS_REQUEST_RESPONSE_MS;
- uint8_t code;
- uint8_t cntxt;
-
- cy_as_hal_assert(ex_request || ms_request);
- cy_as_hal_assert(dev_p->func_cbs_stor->count != 0);
- cy_as_hal_assert(dev_p->func_cbs_stor->type == CYAS_FUNC_CB);
- (void) ex_request;
- (void) ms_request;
-
- (void)context;
-
- cntxt = cy_as_ll_request_response__get_context(rqt);
- cy_as_hal_assert(cntxt == CY_RQT_STORAGE_RQT_CONTEXT);
-
- code = cy_as_ll_request_response__get_code(rqt);
- switch (code) {
- case CY_RQT_START_STORAGE:
- ret = my_handle_response_storage_start(dev_p, rqt, resp, stat);
- break;
- case CY_RQT_STOP_STORAGE:
- ret = my_handle_response_storage_stop(dev_p, rqt, resp, stat);
- break;
- case CY_RQT_CLAIM_STORAGE:
- ret = my_handle_response_storage_claim(dev_p, rqt, resp);
- break;
- case CY_RQT_RELEASE_STORAGE:
- ret = my_handle_response_storage_release(dev_p, rqt, resp);
- break;
- case CY_RQT_QUERY_MEDIA:
- cy_as_hal_assert(cy_false);/* Not used any more. */
- break;
- case CY_RQT_QUERY_BUS:
- cy_as_hal_assert(node->data != 0);
- ret = my_handle_response_storage_query_bus(dev_p,
- rqt, resp, (uint32_t *)node->data);
- break;
- case CY_RQT_QUERY_DEVICE:
- cy_as_hal_assert(node->data != 0);
- ret = my_handle_response_storage_query_device(dev_p,
- rqt, resp, node->data);
- break;
- case CY_RQT_QUERY_UNIT:
- cy_as_hal_assert(node->data != 0);
- ret = my_handle_response_storage_query_unit(dev_p,
- rqt, resp, node->data);
- break;
- case CY_RQT_SD_INTERFACE_CONTROL:
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- case CY_RQT_SD_REGISTER_READ:
- cy_as_hal_assert(node->data != 0);
- ret = my_handle_response_sd_reg_read(dev_p, rqt, resp,
- (cy_as_storage_sd_reg_read_data *)node->data);
- break;
- case CY_RQT_PARTITION_STORAGE:
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- case CY_RQT_PARTITION_ERASE:
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- case CY_RQT_GET_TRANSFER_AMOUNT:
- cy_as_hal_assert(node->data != 0);
- ret = my_handle_response_get_transfer_amount(dev_p,
- rqt, resp, (cy_as_m_s_c_progress_data *)node->data);
- break;
- case CY_RQT_ERASE:
- ret = my_handle_response_no_data(dev_p, rqt, resp);
-
- /* If error = "invalid response", this (very likely)
- * means that we are not using the SD-only firmware
- * module which is the only one supporting storage_erase.
- * in this case force a "non supported" error code */
- if (ret == CY_AS_ERROR_INVALID_RESPONSE)
- ret = CY_AS_ERROR_NOT_SUPPORTED;
-
- break;
-
- default:
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- cy_as_hal_assert(cy_false);
- break;
- }
-
- /*
- * if the low level layer returns a direct error, use the
- * corresponding error code. if not, use the error code
- * based on the response from firmware.
- */
- if (stat == CY_AS_ERROR_SUCCESS)
- stat = ret;
-
- /* Call the user callback, if there is one */
- if (node->cb_p)
- node->cb_p((cy_as_device_handle)dev_p, stat,
- node->client_data, node->data_type, node->data);
- cy_as_remove_c_b_node(dev_p->func_cbs_stor);
-}
-
-
-static void
-cy_as_sdio_sync_reply_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t ret)
-{
- (void)rqt;
-
- if ((cy_as_ll_request_response__get_code(resp) ==
- CY_RESP_SDIO_GET_TUPLE) ||
- (cy_as_ll_request_response__get_code(resp) ==
- CY_RESP_SDIO_EXT)) {
- ret = cy_as_ll_request_response__get_word(resp, 0);
- if ((ret & 0x00FF) != CY_AS_ERROR_SUCCESS) {
- if (cy_as_ll_request_response__get_code(rqt) ==
- CY_RQT_SDIO_READ_EXTENDED)
- cy_as_dma_cancel(dev_p,
- dev_p->storage_read_endpoint, ret);
- else
- cy_as_dma_cancel(dev_p,
- dev_p->storage_write_endpoint, ret);
- }
- } else {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- }
-
- dev_p->storage_rw_resp_p = resp;
- dev_p->storage_wait = cy_false;
- if (((ret & 0x00FF) == CY_AS_ERROR_IO_ABORTED) || ((ret & 0x00FF)
- == CY_AS_ERROR_IO_SUSPENDED))
- dev_p->storage_error = (ret & 0x00FF);
- else
- dev_p->storage_error = (ret & 0x00FF) ?
- CY_AS_ERROR_INVALID_RESPONSE : CY_AS_ERROR_SUCCESS;
-
- /* Wake any threads/processes that are waiting on
- * the read/write completion. */
- cy_as_hal_wake(&dev_p->context[context]->channel);
-}
-
-cy_as_return_status_t
-cy_as_sdio_device_check(
- cy_as_device *dev_p,
- cy_as_bus_number_t bus,
- uint32_t device)
-{
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (bus < 0 || bus >= CY_AS_MAX_BUSES)
- return CY_AS_ERROR_NO_SUCH_BUS;
-
- if (device >= CY_AS_MAX_STORAGE_DEVICES)
- return CY_AS_ERROR_NO_SUCH_DEVICE;
-
- if (!cy_as_device_is_astoria_dev(dev_p))
- return CY_AS_ERROR_NOT_SUPPORTED;
-
- return (is_storage_active(dev_p));
-}
-
-cy_as_return_status_t
-cy_as_sdio_direct_io(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no,
- uint32_t address,
- uint8_t misc_buf,
- uint16_t argument,
- uint8_t is_write,
- uint8_t *data_p)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint16_t resp_data;
-
- /*
- * sanity checks required before sending the request to the
- * firmware.
- */
- cy_as_device *dev_p = (cy_as_device *)handle;
- ret = cy_as_sdio_device_check(dev_p, bus, device);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
-
- if (!(cy_as_sdio_check_function_initialized(handle,
- bus, n_function_no)))
- return CY_AS_ERROR_INVALID_FUNCTION;
- if (cy_as_sdio_check_function_suspended(handle, bus, n_function_no))
- return CY_AS_ERROR_FUNCTION_SUSPENDED;
-
- req_p = cy_as_ll_create_request(dev_p, (is_write == cy_true) ?
- CY_RQT_SDIO_WRITE_DIRECT : CY_RQT_SDIO_READ_DIRECT,
- CY_RQT_STORAGE_RQT_CONTEXT, 3);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /*Setting up request*/
-
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, (uint8_t)device, n_function_no));
- /* D1 */
- if (is_write == cy_true) {
- cy_as_ll_request_response__set_word(req_p, 1,
- ((argument<<8) | 0x0080 | (n_function_no<<4) |
- ((misc_buf&CY_SDIO_RAW)<<3) |
- ((misc_buf&CY_SDIO_REARM_INT)>>5) |
- (uint16_t)(address>>15)));
- } else {
- cy_as_ll_request_response__set_word(req_p, 1,
- (n_function_no<<4) | ((misc_buf&CY_SDIO_REARM_INT)>>5) |
- (uint16_t)(address>>15));
- }
- /* D2 */
- cy_as_ll_request_response__set_word(req_p, 2,
- ((uint16_t)((address&0x00007fff)<<1)));
-
- /*Create response*/
- reply_p = cy_as_ll_create_response(dev_p, 2);
-
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- /*Sending the request*/
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /*Check reply type*/
- if (cy_as_ll_request_response__get_code(reply_p) ==
- CY_RESP_SDIO_DIRECT) {
- resp_data = cy_as_ll_request_response__get_word(reply_p, 0);
- if (resp_data >> 8)
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- else if (data_p != 0)
- *(uint8_t *)(data_p) = (uint8_t)(resp_data&0x00ff);
- } else {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- }
-
-destroy:
- if (req_p != 0)
- cy_as_ll_destroy_request(dev_p, req_p);
- if (reply_p != 0)
- cy_as_ll_destroy_response(dev_p, reply_p);
- return ret;
-}
-
-
-cy_as_return_status_t
-cy_as_sdio_direct_read(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no,
- uint32_t address,
- uint8_t misc_buf,
- uint8_t *data_p)
-{
- return cy_as_sdio_direct_io(handle, bus, device, n_function_no,
- address, misc_buf, 0x00, cy_false, data_p);
-}
-EXPORT_SYMBOL(cy_as_sdio_direct_read);
-
-cy_as_return_status_t
-cy_as_sdio_direct_write(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no,
- uint32_t address,
- uint8_t misc_buf,
- uint16_t argument,
- uint8_t *data_p)
-{
- return cy_as_sdio_direct_io(handle, bus, device, n_function_no,
- address, misc_buf, argument, cy_true, data_p);
-}
-EXPORT_SYMBOL(cy_as_sdio_direct_write);
-
-/*Cmd53 IO*/
-cy_as_return_status_t
-cy_as_sdio_extended_i_o(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no,
- uint32_t address,
- uint8_t misc_buf,
- uint16_t argument,
- uint8_t is_write,
- uint8_t *data_p ,
- uint8_t is_resume)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint8_t resp_type;
- uint8_t reqtype;
- uint16_t resp_data;
- cy_as_context *ctxt_p;
- uint32_t dmasize, loopcount = 200;
- cy_as_end_point_number_t ep;
-
- cy_as_device *dev_p = (cy_as_device *)handle;
- ret = cy_as_sdio_device_check(dev_p, bus, device);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (!(cy_as_sdio_check_function_initialized(handle,
- bus, n_function_no)))
- return CY_AS_ERROR_INVALID_FUNCTION;
- if (cy_as_sdio_check_function_suspended(handle, bus, n_function_no))
- return CY_AS_ERROR_FUNCTION_SUSPENDED;
-
-
- if ((cy_as_device_is_storage_async_pending(dev_p)) ||
- (dev_p->storage_wait))
- return CY_AS_ERROR_ASYNC_PENDING;
-
- /* Request for 0 bytes of blocks is returned as a success*/
- if (argument == 0)
- return CY_AS_ERROR_SUCCESS;
-
- /* Initialise the request to send to the West Bridge device. */
- if (is_write == cy_true) {
- reqtype = CY_RQT_SDIO_WRITE_EXTENDED;
- ep = dev_p->storage_write_endpoint;
- } else {
- reqtype = CY_RQT_SDIO_READ_EXTENDED;
- ep = dev_p->storage_read_endpoint;
- }
-
- req_p = dev_p->storage_rw_req_p;
- cy_as_ll_init_request(req_p, reqtype, CY_RQT_STORAGE_RQT_CONTEXT, 3);
-
- /* Initialise the space for reply from the Antioch. */
- reply_p = dev_p->storage_rw_resp_p;
- cy_as_ll_init_response(reply_p, 2);
-
- /* Setup the DMA request */
- if (!(misc_buf&CY_SDIO_BLOCKMODE)) {
- if (argument >
- dev_p->sdiocard[bus].
- function[n_function_no-1].blocksize)
- return CY_AS_ERROR_INVALID_BLOCKSIZE;
-
- } else {
- if (argument > 511)
- return CY_AS_ERROR_INVALID_BLOCKSIZE;
- }
-
- if (argument == 512)
- argument = 0;
-
- dmasize = ((misc_buf&CY_SDIO_BLOCKMODE) != 0) ?
- dev_p->sdiocard[bus].function[n_function_no-1].blocksize
- * argument : argument;
-
- ret = cy_as_dma_queue_request(dev_p, ep, (void *)(data_p),
- dmasize, cy_false, (is_write & cy_true) ? cy_false :
- cy_true, cy_as_sync_storage_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, (uint8_t)device,
- n_function_no | ((is_resume) ? 0x80 : 0x00)));
- cy_as_ll_request_response__set_word(req_p, 1,
- ((uint16_t)n_function_no)<<12|
- ((uint16_t)(misc_buf & (CY_SDIO_BLOCKMODE|CY_SDIO_OP_INCR)))
- << 9 | (uint16_t)(address >> 7) |
- ((is_write == cy_true) ? 0x8000 : 0x0000));
- cy_as_ll_request_response__set_word(req_p, 2,
- ((uint16_t)(address&0x0000ffff) << 9) | argument);
-
-
- /* Send the request and wait for completion of storage request */
- dev_p->storage_wait = cy_true;
- ret = cy_as_ll_send_request(dev_p, req_p, reply_p,
- cy_true, cy_as_sdio_sync_reply_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_dma_cancel(dev_p, ep, CY_AS_ERROR_CANCELED);
- } else {
- /* Setup the DMA request */
- ctxt_p = dev_p->context[CY_RQT_STORAGE_RQT_CONTEXT];
- ret = cy_as_dma_drain_queue(dev_p, ep, cy_true);
-
- while (loopcount-- > 0) {
- if (dev_p->storage_wait == cy_false)
- break;
- cy_as_hal_sleep_on(&ctxt_p->channel, 10);
- }
- if (dev_p->storage_wait == cy_true) {
- dev_p->storage_wait = cy_false;
- cy_as_ll_remove_request(dev_p, ctxt_p, req_p, cy_true);
- dev_p->storage_error = CY_AS_ERROR_TIMEOUT;
- }
-
- ret = dev_p->storage_error;
-
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- resp_type = cy_as_ll_request_response__get_code(
- dev_p->storage_rw_resp_p);
- if (resp_type == CY_RESP_SDIO_EXT) {
- resp_data = cy_as_ll_request_response__get_word
- (reply_p, 0)&0x00ff;
- if (resp_data)
- ret = CY_AS_ERROR_INVALID_REQUEST;
-
- } else {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- }
- }
- return ret;
-
-}
-
-static void
-cy_as_sdio_async_reply_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t ret)
-{
- cy_as_storage_callback cb_ms;
- uint8_t reqtype;
- uint32_t pendingblocks;
- (void)rqt;
- (void)context;
-
- pendingblocks = 0;
- reqtype = cy_as_ll_request_response__get_code(rqt);
- if (ret == CY_AS_ERROR_SUCCESS) {
- if ((cy_as_ll_request_response__get_code(resp) ==
- CY_RESP_SUCCESS_FAILURE) ||
- (cy_as_ll_request_response__get_code(resp) ==
- CY_RESP_SDIO_EXT)) {
- ret = cy_as_ll_request_response__get_word(resp, 0);
- ret &= 0x00FF;
- } else {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- }
- }
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- if (reqtype == CY_RQT_SDIO_READ_EXTENDED)
- cy_as_dma_cancel(dev_p,
- dev_p->storage_read_endpoint, ret);
- else
- cy_as_dma_cancel(dev_p,
- dev_p->storage_write_endpoint, ret);
-
- dev_p->storage_error = ret;
- }
-
- dev_p->storage_wait = cy_false;
-
- /*
- * if the DMA callback has already been called,
- * the user callback has to be called from here.
- */
- if (!cy_as_device_is_storage_async_pending(dev_p)) {
- cy_as_hal_assert(dev_p->storage_cb_ms != NULL);
- cb_ms = dev_p->storage_cb_ms;
-
- dev_p->storage_cb = 0;
- dev_p->storage_cb_ms = 0;
-
- if ((ret == CY_AS_ERROR_SUCCESS) ||
- (ret == CY_AS_ERROR_IO_ABORTED) ||
- (ret == CY_AS_ERROR_IO_SUSPENDED)) {
- ret = dev_p->storage_error;
- pendingblocks = ((uint32_t)
- cy_as_ll_request_response__get_word
- (resp, 1)) << 16;
- } else
- ret = CY_AS_ERROR_INVALID_RESPONSE;
-
- cb_ms((cy_as_device_handle)dev_p, dev_p->storage_bus_index,
- dev_p->storage_device_index,
- (dev_p->storage_unit | pendingblocks),
- dev_p->storage_block_addr, dev_p->storage_oper, ret);
- } else
- dev_p->storage_error = ret;
-}
-
-
-cy_as_return_status_t
-cy_as_sdio_extended_i_o_async(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no,
- uint32_t address,
- uint8_t misc_buf,
- uint16_t argument,
- uint8_t is_write,
- uint8_t *data_p,
- cy_as_storage_callback callback)
-{
-
- uint32_t mask;
- uint32_t dmasize;
- cy_as_ll_request_response *req_p , *reply_p;
- uint8_t reqtype;
- cy_as_end_point_number_t ep;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- ret = cy_as_sdio_device_check(dev_p, bus, device);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (!(cy_as_sdio_check_function_initialized(handle,
- bus, n_function_no)))
- return CY_AS_ERROR_INVALID_FUNCTION;
- if (cy_as_sdio_check_function_suspended(handle, bus, n_function_no))
- return CY_AS_ERROR_FUNCTION_SUSPENDED;
-
- if (callback == 0)
- return CY_AS_ERROR_NULL_CALLBACK;
-
- /* We are supposed to return success if the number of
- * blocks is zero
- */
- if (((misc_buf&CY_SDIO_BLOCKMODE) != 0) && (argument == 0)) {
- callback(handle, bus, device, n_function_no, address,
- ((is_write) ? cy_as_op_write : cy_as_op_read),
- CY_AS_ERROR_SUCCESS);
- return CY_AS_ERROR_SUCCESS;
- }
-
-
- /*
- * since async operations can be triggered by interrupt
- * code, we must insure that we do not get multiple async
- * operations going at one time and protect this test and
- * set operation from interrupts.
- */
- mask = cy_as_hal_disable_interrupts();
- if ((cy_as_device_is_storage_async_pending(dev_p)) ||
- (dev_p->storage_wait)) {
- cy_as_hal_enable_interrupts(mask);
- return CY_AS_ERROR_ASYNC_PENDING;
- }
- cy_as_device_set_storage_async_pending(dev_p);
- cy_as_hal_enable_interrupts(mask);
-
-
- /*
- * storage information about the currently
- * outstanding request
- */
- dev_p->storage_cb_ms = callback;
- dev_p->storage_bus_index = bus;
- dev_p->storage_device_index = device;
- dev_p->storage_unit = n_function_no;
- dev_p->storage_block_addr = address;
-
- if (is_write == cy_true) {
- reqtype = CY_RQT_SDIO_WRITE_EXTENDED;
- ep = dev_p->storage_write_endpoint;
- } else {
- reqtype = CY_RQT_SDIO_READ_EXTENDED;
- ep = dev_p->storage_read_endpoint;
- }
-
- /* Initialise the request to send to the West Bridge. */
- req_p = dev_p->storage_rw_req_p;
- cy_as_ll_init_request(req_p, reqtype,
- CY_RQT_STORAGE_RQT_CONTEXT, 3);
-
- /* Initialise the space for reply from the West Bridge. */
- reply_p = dev_p->storage_rw_resp_p;
- cy_as_ll_init_response(reply_p, 2);
-
- if (!(misc_buf&CY_SDIO_BLOCKMODE)) {
- if (argument >
- dev_p->sdiocard[bus].function[n_function_no-1].blocksize)
- return CY_AS_ERROR_INVALID_BLOCKSIZE;
-
- } else {
- if (argument > 511)
- return CY_AS_ERROR_INVALID_BLOCKSIZE;
- }
-
- if (argument == 512)
- argument = 0;
- dmasize = ((misc_buf&CY_SDIO_BLOCKMODE) != 0) ?
- dev_p->sdiocard[bus].function[n_function_no-1].blocksize *
- argument : argument;
-
- /* Setup the DMA request and adjust the storage
- * operation if we are reading */
- if (reqtype == CY_RQT_SDIO_READ_EXTENDED) {
- ret = cy_as_dma_queue_request(dev_p, ep,
- (void *)data_p, dmasize , cy_false, cy_true,
- cy_as_async_storage_callback);
- dev_p->storage_oper = cy_as_op_read;
- } else if (reqtype == CY_RQT_SDIO_WRITE_EXTENDED) {
- ret = cy_as_dma_queue_request(dev_p, ep, (void *)data_p,
- dmasize, cy_false, cy_false, cy_as_async_storage_callback);
- dev_p->storage_oper = cy_as_op_write;
- }
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_device_clear_storage_async_pending(dev_p);
- return ret;
- }
-
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, (uint8_t)device, n_function_no));
- cy_as_ll_request_response__set_word(req_p, 1,
- ((uint16_t)n_function_no) << 12 |
- ((uint16_t)(misc_buf & (CY_SDIO_BLOCKMODE | CY_SDIO_OP_INCR)))
- << 9 | (uint16_t)(address>>7) |
- ((is_write == cy_true) ? 0x8000 : 0x0000));
- cy_as_ll_request_response__set_word(req_p, 2,
- ((uint16_t)(address&0x0000ffff) << 9) | argument);
-
-
- /* Send the request and wait for completion of storage request */
- dev_p->storage_wait = cy_true;
- ret = cy_as_ll_send_request(dev_p, req_p, reply_p, cy_true,
- cy_as_sdio_async_reply_callback);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_dma_cancel(dev_p, ep, CY_AS_ERROR_CANCELED);
- cy_as_device_clear_storage_async_pending(dev_p);
- } else {
- cy_as_dma_kick_start(dev_p, ep);
- }
-
- return ret;
-}
-
-/* CMD53 Extended Read*/
-cy_as_return_status_t
-cy_as_sdio_extended_read(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no,
- uint32_t address,
- uint8_t misc_buf,
- uint16_t argument,
- uint8_t *data_p,
- cy_as_sdio_callback callback)
-{
- if (callback == 0)
- return cy_as_sdio_extended_i_o(handle, bus, device,
- n_function_no, address, misc_buf, argument,
- cy_false, data_p, 0);
-
- return cy_as_sdio_extended_i_o_async(handle, bus, device,
- n_function_no, address, misc_buf, argument, cy_false,
- data_p, callback);
-}
-EXPORT_SYMBOL(cy_as_sdio_extended_read);
-
-/* CMD53 Extended Write*/
-cy_as_return_status_t
-cy_as_sdio_extended_write(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no,
- uint32_t address,
- uint8_t misc_buf,
- uint16_t argument,
- uint8_t *data_p,
- cy_as_sdio_callback callback)
-{
- if (callback == 0)
- return cy_as_sdio_extended_i_o(handle, bus, device,
- n_function_no, address, misc_buf, argument, cy_true,
- data_p, 0);
-
- return cy_as_sdio_extended_i_o_async(handle, bus, device,
- n_function_no, address, misc_buf, argument, cy_true,
- data_p, callback);
-}
-EXPORT_SYMBOL(cy_as_sdio_extended_write);
-
-/* Read the CIS info tuples for the given function and Tuple ID*/
-cy_as_return_status_t
-cy_as_sdio_get_c_i_s_info(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no,
- uint16_t tuple_id,
- uint8_t *data_p)
-{
-
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint16_t resp_data;
- cy_as_context *ctxt_p;
- uint32_t loopcount = 200;
-
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- ret = cy_as_sdio_device_check(dev_p, bus, device);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (!(cy_as_sdio_check_function_initialized(handle, bus, 0)))
- return CY_AS_ERROR_INVALID_FUNCTION;
-
- if ((cy_as_device_is_storage_async_pending(dev_p)) ||
- (dev_p->storage_wait))
- return CY_AS_ERROR_ASYNC_PENDING;
-
-
- /* Initialise the request to send to the Antioch. */
- req_p = dev_p->storage_rw_req_p;
- cy_as_ll_init_request(req_p, CY_RQT_SDIO_GET_TUPLE,
- CY_RQT_STORAGE_RQT_CONTEXT, 2);
-
- /* Initialise the space for reply from the Antioch. */
- reply_p = dev_p->storage_rw_resp_p;
- cy_as_ll_init_response(reply_p, 3);
-
- /* Setup the DMA request */
- ret = cy_as_dma_queue_request(dev_p, dev_p->storage_read_endpoint,
- data_p+1, 255, cy_false, cy_true, cy_as_sync_storage_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, (uint8_t)device, n_function_no));
-
- /* Set tuple id to fetch. */
- cy_as_ll_request_response__set_word(req_p, 1, tuple_id<<8);
-
- /* Send the request and wait for completion of storage request */
- dev_p->storage_wait = cy_true;
- ret = cy_as_ll_send_request(dev_p, req_p, reply_p, cy_true,
- cy_as_sdio_sync_reply_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_dma_cancel(dev_p,
- dev_p->storage_read_endpoint, CY_AS_ERROR_CANCELED);
- } else {
- /* Setup the DMA request */
- ctxt_p = dev_p->context[CY_RQT_STORAGE_RQT_CONTEXT];
- ret = cy_as_dma_drain_queue(dev_p,
- dev_p->storage_read_endpoint, cy_true);
-
- while (loopcount-- > 0) {
- if (dev_p->storage_wait == cy_false)
- break;
- cy_as_hal_sleep_on(&ctxt_p->channel, 10);
- }
-
- if (dev_p->storage_wait == cy_true) {
- dev_p->storage_wait = cy_false;
- cy_as_ll_remove_request(dev_p, ctxt_p, req_p, cy_true);
- return CY_AS_ERROR_TIMEOUT;
- }
- ret = dev_p->storage_error;
-
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_ll_request_response__get_code
- (dev_p->storage_rw_resp_p) == CY_RESP_SDIO_GET_TUPLE) {
- resp_data = cy_as_ll_request_response__get_word
- (reply_p, 0);
- if (resp_data) {
- ret = CY_AS_ERROR_INVALID_REQUEST;
- } else if (data_p != 0)
- *(uint8_t *)data_p = (uint8_t)
- (cy_as_ll_request_response__get_word
- (reply_p, 0)&0x00ff);
- } else {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- }
- }
- return ret;
-}
-
-/*Query Device*/
-cy_as_return_status_t
-cy_as_sdio_query_card(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- cy_as_sdio_card *data_p)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- uint8_t resp_type;
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- ret = cy_as_sdio_device_check(dev_p, bus, device);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /* Allocating memory to the SDIO device structure in dev_p */
-
- cy_as_hal_mem_set(&dev_p->sdiocard[bus], 0, sizeof(cy_as_sdio_device));
-
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_SDIO_QUERY_CARD,
- CY_RQT_STORAGE_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, (uint8_t)device, 0));
-
- reply_p = cy_as_ll_create_response(dev_p, 5);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- resp_type = cy_as_ll_request_response__get_code(reply_p);
- if (resp_type == CY_RESP_SDIO_QUERY_CARD) {
- dev_p->sdiocard[bus].card.num_functions =
- (uint8_t)((reply_p->data[0]&0xff00)>>8);
- dev_p->sdiocard[bus].card.memory_present =
- (uint8_t)reply_p->data[0]&0x0001;
- dev_p->sdiocard[bus].card.manufacturer__id =
- reply_p->data[1];
- dev_p->sdiocard[bus].card.manufacturer_info =
- reply_p->data[2];
- dev_p->sdiocard[bus].card.blocksize =
- reply_p->data[3];
- dev_p->sdiocard[bus].card.maxblocksize =
- reply_p->data[3];
- dev_p->sdiocard[bus].card.card_capability =
- (uint8_t)((reply_p->data[4]&0xff00)>>8);
- dev_p->sdiocard[bus].card.sdio_version =
- (uint8_t)(reply_p->data[4]&0x00ff);
- dev_p->sdiocard[bus].function_init_map = 0x01;
- data_p->num_functions =
- dev_p->sdiocard[bus].card.num_functions;
- data_p->memory_present =
- dev_p->sdiocard[bus].card.memory_present;
- data_p->manufacturer__id =
- dev_p->sdiocard[bus].card.manufacturer__id;
- data_p->manufacturer_info =
- dev_p->sdiocard[bus].card.manufacturer_info;
- data_p->blocksize = dev_p->sdiocard[bus].card.blocksize;
- data_p->maxblocksize =
- dev_p->sdiocard[bus].card.maxblocksize;
- data_p->card_capability =
- dev_p->sdiocard[bus].card.card_capability;
- data_p->sdio_version =
- dev_p->sdiocard[bus].card.sdio_version;
- } else {
- if (resp_type == CY_RESP_SUCCESS_FAILURE)
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- else
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- }
-destroy:
- if (req_p != 0)
- cy_as_ll_destroy_request(dev_p, req_p);
- if (reply_p != 0)
- cy_as_ll_destroy_response(dev_p, reply_p);
- return ret;
-}
-EXPORT_SYMBOL(cy_as_sdio_query_card);
-
-/*Reset SDIO card. */
-cy_as_return_status_t
-cy_as_sdio_reset_card(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device)
-{
-
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint8_t resp_type;
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- ret = cy_as_sdio_device_check(dev_p, bus, device);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (dev_p->sdiocard != 0) {
- dev_p->sdiocard[bus].function_init_map = 0;
- dev_p->sdiocard[bus].function_suspended_map = 0;
- }
-
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_SDIO_RESET_DEV,
- CY_RQT_STORAGE_RQT_CONTEXT, 1);
-
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /*Setup mailbox */
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, (uint8_t)device, 0));
-
- reply_p = cy_as_ll_create_response(dev_p, 2);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- resp_type = cy_as_ll_request_response__get_code(reply_p);
-
- if (resp_type == CY_RESP_SUCCESS_FAILURE) {
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- if (ret == CY_AS_ERROR_SUCCESS)
- ret = cy_as_sdio_query_card(handle, bus, device, 0);
- } else
- ret = CY_AS_ERROR_INVALID_RESPONSE;
-
-destroy:
- if (req_p != 0)
- cy_as_ll_destroy_request(dev_p, req_p);
- if (reply_p != 0)
- cy_as_ll_destroy_response(dev_p, reply_p);
- return ret;
-}
-
-/* Initialise an IO function*/
-cy_as_return_status_t
-cy_as_sdio_init_function(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no,
- uint8_t misc_buf)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint8_t resp_type;
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- ret = cy_as_sdio_device_check(dev_p, bus, device);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (!(cy_as_sdio_check_function_initialized
- (handle, bus, 0)))
- return CY_AS_ERROR_NOT_RUNNING;
-
- if ((cy_as_sdio_check_function_initialized
- (handle, bus, n_function_no))) {
- if (misc_buf&CY_SDIO_FORCE_INIT)
- dev_p->sdiocard[bus].function_init_map &=
- (~(1 << n_function_no));
- else
- return CY_AS_ERROR_ALREADY_RUNNING;
- }
-
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_SDIO_INIT_FUNCTION, CY_RQT_STORAGE_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, (uint8_t)device, n_function_no));
-
- reply_p = cy_as_ll_create_response(dev_p, 5);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- resp_type = cy_as_ll_request_response__get_code(reply_p);
-
- if (resp_type == CY_RESP_SDIO_INIT_FUNCTION) {
- dev_p->sdiocard[bus].function[n_function_no-1].function_code =
- (uint8_t)((reply_p->data[0]&0xff00)>>8);
- dev_p->sdiocard[bus].function[n_function_no-1].
- extended_func_code = (uint8_t)reply_p->data[0]&0x00ff;
- dev_p->sdiocard[bus].function[n_function_no-1].blocksize =
- reply_p->data[1];
- dev_p->sdiocard[bus].function[n_function_no-1].
- maxblocksize = reply_p->data[1];
- dev_p->sdiocard[bus].function[n_function_no-1].card_psn =
- (uint32_t)(reply_p->data[2])<<16;
- dev_p->sdiocard[bus].function[n_function_no-1].card_psn |=
- (uint32_t)(reply_p->data[3]);
- dev_p->sdiocard[bus].function[n_function_no-1].csa_bits =
- (uint8_t)((reply_p->data[4]&0xff00)>>8);
- dev_p->sdiocard[bus].function[n_function_no-1].wakeup_support =
- (uint8_t)(reply_p->data[4]&0x0001);
- dev_p->sdiocard[bus].function_init_map |= (1 << n_function_no);
- cy_as_sdio_clear_function_suspended(handle, bus, n_function_no);
-
- } else {
- if (resp_type == CY_RESP_SUCCESS_FAILURE)
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- else
- ret = CY_AS_ERROR_INVALID_FUNCTION;
- }
-
-destroy:
- if (req_p != 0)
- cy_as_ll_destroy_request(dev_p, req_p);
- if (reply_p != 0)
- cy_as_ll_destroy_response(dev_p, reply_p);
- return ret;
-}
-EXPORT_SYMBOL(cy_as_sdio_init_function);
-
-/*Query individual functions. */
-cy_as_return_status_t
-cy_as_sdio_query_function(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no,
- cy_as_sdio_func *data_p)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
- cy_as_return_status_t ret;
-
- ret = cy_as_sdio_device_check(dev_p, bus, device);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (!(cy_as_sdio_check_function_initialized(handle,
- bus, n_function_no)))
- return CY_AS_ERROR_INVALID_FUNCTION;
-
- data_p->blocksize =
- dev_p->sdiocard[bus].function[n_function_no-1].blocksize;
- data_p->card_psn =
- dev_p->sdiocard[bus].function[n_function_no-1].card_psn;
- data_p->csa_bits =
- dev_p->sdiocard[bus].function[n_function_no-1].csa_bits;
- data_p->extended_func_code =
- dev_p->sdiocard[bus].function[n_function_no-1].
- extended_func_code;
- data_p->function_code =
- dev_p->sdiocard[bus].function[n_function_no-1].function_code;
- data_p->maxblocksize =
- dev_p->sdiocard[bus].function[n_function_no-1].maxblocksize;
- data_p->wakeup_support =
- dev_p->sdiocard[bus].function[n_function_no-1].wakeup_support;
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-/* Abort the Current Extended IO Operation*/
-cy_as_return_status_t
-cy_as_sdio_abort_function(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint8_t resp_type;
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- ret = cy_as_sdio_device_check(dev_p, bus, device);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (!(cy_as_sdio_check_function_initialized(handle,
- bus, n_function_no)))
- return CY_AS_ERROR_INVALID_FUNCTION;
-
- if ((cy_as_device_is_storage_async_pending(dev_p)) ||
- (dev_p->storage_wait)) {
- if (!(cy_as_sdio_get_card_capability(handle, bus) &
- CY_SDIO_SDC))
- return CY_AS_ERROR_INVALID_COMMAND;
- }
-
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_SDIO_ABORT_IO,
- CY_RQT_GENERAL_RQT_CONTEXT, 1);
-
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /*Setup mailbox */
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, (uint8_t)device, n_function_no));
-
- reply_p = cy_as_ll_create_response(dev_p, 2);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- resp_type = cy_as_ll_request_response__get_code(reply_p);
-
- if (resp_type == CY_RESP_SUCCESS_FAILURE)
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- else
- ret = CY_AS_ERROR_INVALID_RESPONSE;
-
-
-destroy:
- if (req_p != 0)
- cy_as_ll_destroy_request(dev_p, req_p);
- if (reply_p != 0)
- cy_as_ll_destroy_response(dev_p, reply_p);
- return ret;
-}
-
-/* Suspend IO to current function*/
-cy_as_return_status_t
-cy_as_sdio_suspend(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- ret = cy_as_sdio_device_check(dev_p, bus, device);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (!(cy_as_sdio_check_function_initialized(handle, bus,
- n_function_no)))
- return CY_AS_ERROR_INVALID_FUNCTION;
- if (!(cy_as_sdio_check_support_bus_suspend(handle, bus)))
- return CY_AS_ERROR_INVALID_FUNCTION;
- if (!(cy_as_sdio_get_card_capability(handle, bus) & CY_SDIO_SDC))
- return CY_AS_ERROR_INVALID_FUNCTION;
- if (cy_as_sdio_check_function_suspended(handle, bus, n_function_no))
- return CY_AS_ERROR_FUNCTION_SUSPENDED;
-
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_SDIO_SUSPEND, CY_RQT_GENERAL_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /*Setup mailbox */
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, (uint8_t)device, n_function_no));
-
- reply_p = cy_as_ll_create_response(dev_p, 2);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
-
- if (ret == CY_AS_ERROR_SUCCESS) {
- ret = cy_as_ll_request_response__get_code(reply_p);
- cy_as_sdio_set_function_suspended(handle, bus, n_function_no);
- }
-
- if (req_p != 0)
- cy_as_ll_destroy_request(dev_p, req_p);
- if (reply_p != 0)
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-/*Resume suspended function*/
-cy_as_return_status_t
-cy_as_sdio_resume(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no,
- cy_as_oper_type op,
- uint8_t misc_buf,
- uint16_t pendingblockcount,
- uint8_t *data_p
- )
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t resp_data, ret = CY_AS_ERROR_SUCCESS;
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- ret = cy_as_sdio_device_check(dev_p, bus, device);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (!(cy_as_sdio_check_function_initialized
- (handle, bus, n_function_no)))
- return CY_AS_ERROR_INVALID_FUNCTION;
-
- /* If suspend resume is not supported return */
- if (!(cy_as_sdio_check_support_bus_suspend(handle, bus)))
- return CY_AS_ERROR_INVALID_FUNCTION;
-
- /* if the function is not suspended return. */
- if (!(cy_as_sdio_check_function_suspended
- (handle, bus, n_function_no)))
- return CY_AS_ERROR_INVALID_FUNCTION;
-
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_SDIO_RESUME, CY_RQT_STORAGE_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /*Setup mailbox */
- cy_as_ll_request_response__set_word(req_p, 0,
- create_address(bus, (uint8_t)device, n_function_no));
-
- reply_p = cy_as_ll_create_response(dev_p, 2);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) ==
- CY_RESP_SDIO_RESUME) {
- resp_data = cy_as_ll_request_response__get_word(reply_p, 0);
- if (resp_data & 0x00ff) {
- /* Send extended read request to resume the read. */
- if (op == cy_as_op_read) {
- ret = cy_as_sdio_extended_i_o(handle, bus,
- device, n_function_no, 0, misc_buf,
- pendingblockcount, cy_false, data_p, 1);
- } else {
- ret = cy_as_sdio_extended_i_o(handle, bus,
- device, n_function_no, 0, misc_buf,
- pendingblockcount, cy_true, data_p, 1);
- }
- } else {
- ret = CY_AS_ERROR_SUCCESS;
- }
- } else {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- }
-
-destroy:
- cy_as_sdio_clear_function_suspended(handle, bus, n_function_no);
- if (req_p != 0)
- cy_as_ll_destroy_request(dev_p, req_p);
- if (reply_p != 0)
- cy_as_ll_destroy_response(dev_p, reply_p);
- return ret;
-
-}
-
-/*Set function blocksize. Size cannot exceed max
- * block size for the function*/
-cy_as_return_status_t
-cy_as_sdio_set_blocksize(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no,
- uint16_t blocksize)
-{
- cy_as_return_status_t ret;
- cy_as_device *dev_p = (cy_as_device *)handle;
- ret = cy_as_sdio_device_check(dev_p, bus, device);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (!(cy_as_sdio_check_function_initialized
- (handle, bus, n_function_no)))
- return CY_AS_ERROR_INVALID_FUNCTION;
- if (n_function_no == 0) {
- if (blocksize > cy_as_sdio_get_card_max_blocksize(handle, bus))
- return CY_AS_ERROR_INVALID_BLOCKSIZE;
- else if (blocksize == cy_as_sdio_get_card_blocksize
- (handle, bus))
- return CY_AS_ERROR_SUCCESS;
- } else {
- if (blocksize >
- cy_as_sdio_get_function_max_blocksize(handle,
- bus, n_function_no))
- return CY_AS_ERROR_INVALID_BLOCKSIZE;
- else if (blocksize ==
- cy_as_sdio_get_function_blocksize(handle,
- bus, n_function_no))
- return CY_AS_ERROR_SUCCESS;
- }
-
- ret = cy_as_sdio_direct_write(handle, bus, device, 0,
- (uint16_t)(n_function_no << 8) |
- 0x10, 0, blocksize & 0x00ff, 0);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- ret = cy_as_sdio_direct_write(handle, bus, device, 0,
- (uint16_t)(n_function_no << 8) |
- 0x11, 0, (blocksize & 0xff00) >> 8, 0);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (n_function_no == 0)
- cy_as_sdio_set_card_block_size(handle, bus, blocksize);
- else
- cy_as_sdio_set_function_block_size(handle,
- bus, n_function_no, blocksize);
- return ret;
-}
-EXPORT_SYMBOL(cy_as_sdio_set_blocksize);
-
-/* Deinitialize an SDIO function*/
-cy_as_return_status_t
-cy_as_sdio_de_init_function(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- uint8_t n_function_no)
-{
- cy_as_return_status_t ret;
- uint8_t temp;
-
- if (n_function_no == 0)
- return CY_AS_ERROR_INVALID_FUNCTION;
-
- ret = cy_as_sdio_device_check((cy_as_device *)handle, bus, device);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (!(cy_as_sdio_check_function_initialized
- (handle, bus, n_function_no)))
- return CY_AS_ERROR_SUCCESS;
-
- temp = (uint8_t)(((cy_as_device *)handle)->sdiocard[bus].
- function_init_map & (~(1 << n_function_no)));
-
- cy_as_sdio_direct_write(handle, bus, device, 0, 0x02, 0, temp, 0);
-
- ((cy_as_device *)handle)->sdiocard[bus].function_init_map &=
- (~(1 << n_function_no));
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-
-/*[]*/
+++ /dev/null
-/* Cypress West Bridge API source file (cyasusb.c)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#include "../../include/linux/westbridge/cyashal.h"
-#include "../../include/linux/westbridge/cyasusb.h"
-#include "../../include/linux/westbridge/cyaserr.h"
-#include "../../include/linux/westbridge/cyasdma.h"
-#include "../../include/linux/westbridge/cyaslowlevel.h"
-#include "../../include/linux/westbridge/cyaslep2pep.h"
-#include "../../include/linux/westbridge/cyasregs.h"
-#include "../../include/linux/westbridge/cyasstorage.h"
-
-static cy_as_return_status_t
-cy_as_usb_ack_setup_packet(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-static void
-cy_as_usb_func_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t ret);
-/*
-* Reset the USB EP0 state
-*/
-static void
-cy_as_usb_reset_e_p0_state(cy_as_device *dev_p)
-{
- cy_as_log_debug_message(6, "cy_as_usb_reset_e_p0_state called");
-
- cy_as_device_clear_ack_delayed(dev_p);
- cy_as_device_clear_setup_packet(dev_p);
- if (cy_as_device_is_usb_async_pending(dev_p, 0))
- cy_as_usb_cancel_async((cy_as_device_handle)dev_p, 0);
-
- dev_p->usb_pending_buffer = 0;
-}
-
-/*
-* External function to map logical endpoints to physical endpoints
-*/
-static cy_as_return_status_t
-is_usb_active(cy_as_device *dev_p)
-{
- if (!cy_as_device_is_configured(dev_p))
- return CY_AS_ERROR_NOT_CONFIGURED;
-
- if (!cy_as_device_is_firmware_loaded(dev_p))
- return CY_AS_ERROR_NO_FIRMWARE;
-
- if (dev_p->usb_count == 0)
- return CY_AS_ERROR_NOT_RUNNING;
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-static void
-usb_ack_callback(cy_as_device_handle h,
- cy_as_return_status_t status,
- uint32_t client,
- cy_as_funct_c_b_type type,
- void *data)
-{
- cy_as_device *dev_p = (cy_as_device *)h;
-
- (void)client;
- (void)status;
- (void)data;
-
- cy_as_hal_assert(type == CY_FUNCT_CB_NODATA);
-
- if (dev_p->usb_pending_buffer) {
- cy_as_usb_io_callback cb;
-
- cb = dev_p->usb_cb[0];
- dev_p->usb_cb[0] = 0;
- cy_as_device_clear_usb_async_pending(dev_p, 0);
- if (cb)
- cb(h, 0, dev_p->usb_pending_size,
- dev_p->usb_pending_buffer, dev_p->usb_error);
-
- dev_p->usb_pending_buffer = 0;
- }
-
- cy_as_device_clear_setup_packet(dev_p);
-}
-
-static void
-my_usb_request_callback_usb_event(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p)
-{
- uint16_t ev;
- uint16_t val;
- cy_as_device_handle h = (cy_as_device_handle)dev_p;
-
- ev = cy_as_ll_request_response__get_word(req_p, 0);
- switch (ev) {
- case 0: /* Reserved */
- cy_as_ll_send_status_response(dev_p, CY_RQT_USB_RQT_CONTEXT,
- CY_AS_ERROR_INVALID_REQUEST, 0);
- break;
-
- case 1: /* Reserved */
- cy_as_ll_send_status_response(dev_p, CY_RQT_USB_RQT_CONTEXT,
- CY_AS_ERROR_INVALID_REQUEST, 0);
- break;
-
- case 2: /* USB Suspend */
- dev_p->usb_last_event = cy_as_event_usb_suspend;
- if (dev_p->usb_event_cb_ms)
- dev_p->usb_event_cb_ms(h, cy_as_event_usb_suspend, 0);
- else if (dev_p->usb_event_cb)
- dev_p->usb_event_cb(h, cy_as_event_usb_suspend, 0);
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 0);
- break;
-
- case 3: /* USB Resume */
- dev_p->usb_last_event = cy_as_event_usb_resume;
- if (dev_p->usb_event_cb_ms)
- dev_p->usb_event_cb_ms(h, cy_as_event_usb_resume, 0);
- else if (dev_p->usb_event_cb)
- dev_p->usb_event_cb(h, cy_as_event_usb_resume, 0);
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 0);
- break;
-
- case 4: /* USB Reset */
- /*
- * if we get a USB reset, the USB host did not understand
- * our response or we timed out for some reason. reset
- * our internal state to be ready for another set of
- * enumeration based requests.
- */
- if (cy_as_device_is_ack_delayed(dev_p))
- cy_as_usb_reset_e_p0_state(dev_p);
-
- dev_p->usb_last_event = cy_as_event_usb_reset;
- if (dev_p->usb_event_cb_ms)
- dev_p->usb_event_cb_ms(h, cy_as_event_usb_reset, 0);
- else if (dev_p->usb_event_cb)
- dev_p->usb_event_cb(h, cy_as_event_usb_reset, 0);
-
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 0);
- cy_as_device_clear_usb_high_speed(dev_p);
- cy_as_usb_set_dma_sizes(dev_p);
- dev_p->usb_max_tx_size = 0x40;
- cy_as_dma_set_max_dma_size(dev_p, 0x06, 0x40);
- break;
-
- case 5: /* USB Set Configuration */
- /* The configuration to set */
- val = cy_as_ll_request_response__get_word(req_p, 1);
- dev_p->usb_last_event = cy_as_event_usb_set_config;
- if (dev_p->usb_event_cb_ms)
- dev_p->usb_event_cb_ms(h,
- cy_as_event_usb_set_config, &val);
- else if (dev_p->usb_event_cb)
- dev_p->usb_event_cb(h,
- cy_as_event_usb_set_config, &val);
-
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 0);
- break;
-
- case 6: /* USB Speed change */
- /* Connect speed */
- val = cy_as_ll_request_response__get_word(req_p, 1);
- dev_p->usb_last_event = cy_as_event_usb_speed_change;
- if (dev_p->usb_event_cb_ms)
- dev_p->usb_event_cb_ms(h,
- cy_as_event_usb_speed_change, &val);
- else if (dev_p->usb_event_cb)
- dev_p->usb_event_cb(h,
- cy_as_event_usb_speed_change, &val);
-
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 0);
- cy_as_device_set_usb_high_speed(dev_p);
- cy_as_usb_set_dma_sizes(dev_p);
- dev_p->usb_max_tx_size = 0x200;
- cy_as_dma_set_max_dma_size(dev_p, 0x06, 0x200);
- break;
-
- case 7: /* USB Clear Feature */
- /* EP Number */
- val = cy_as_ll_request_response__get_word(req_p, 1);
- if (dev_p->usb_event_cb_ms)
- dev_p->usb_event_cb_ms(h,
- cy_as_event_usb_clear_feature, &val);
- if (dev_p->usb_event_cb)
- dev_p->usb_event_cb(h,
- cy_as_event_usb_clear_feature, &val);
-
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 0);
- break;
-
- default:
- cy_as_hal_print_message("invalid event type\n");
- cy_as_ll_send_data_response(dev_p, CY_RQT_USB_RQT_CONTEXT,
- CY_RESP_USB_INVALID_EVENT, sizeof(ev), &ev);
- break;
- }
-}
-
-static void
-my_usb_request_callback_usb_data(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p)
-{
- cy_as_end_point_number_t ep;
- uint8_t type;
- uint16_t len;
- uint16_t val;
- cy_as_device_handle h = (cy_as_device_handle)dev_p;
-
- val = cy_as_ll_request_response__get_word(req_p, 0);
- ep = (cy_as_end_point_number_t)((val >> 13) & 0x01);
- len = (val & 0x1ff);
-
- cy_as_hal_assert(len <= 64);
- cy_as_ll_request_response__unpack(req_p,
- 1, len, dev_p->usb_ep_data);
-
- type = (uint8_t)((val >> 14) & 0x03);
- if (type == 0) {
- if (cy_as_device_is_ack_delayed(dev_p)) {
- /*
- * A setup packet has arrived while we are
- * processing a previous setup packet. reset
- * our state with respect to EP0 to be ready
- * to process the new packet.
- */
- cy_as_usb_reset_e_p0_state(dev_p);
- }
-
- if (len != 8)
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT,
- CY_AS_ERROR_INVALID_REQUEST, 0);
- else {
- cy_as_device_clear_ep0_stalled(dev_p);
- cy_as_device_set_setup_packet(dev_p);
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT,
- CY_AS_ERROR_SUCCESS, 0);
-
- if (dev_p->usb_event_cb_ms)
- dev_p->usb_event_cb_ms(h,
- cy_as_event_usb_setup_packet,
- dev_p->usb_ep_data);
- else
- dev_p->usb_event_cb(h,
- cy_as_event_usb_setup_packet,
- dev_p->usb_ep_data);
-
- if ((!cy_as_device_is_ack_delayed(dev_p)) &&
- (!cy_as_device_is_ep0_stalled(dev_p)))
- cy_as_usb_ack_setup_packet(h,
- usb_ack_callback, 0);
- }
- } else if (type == 2) {
- if (len != 0)
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT,
- CY_AS_ERROR_INVALID_REQUEST, 0);
- else {
- if (dev_p->usb_event_cb_ms)
- dev_p->usb_event_cb_ms(h,
- cy_as_event_usb_status_packet, 0);
- else
- dev_p->usb_event_cb(h,
- cy_as_event_usb_status_packet, 0);
-
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT,
- CY_AS_ERROR_SUCCESS, 0);
- }
- } else if (type == 1) {
- /*
- * we need to hand the data associated with these
- * endpoints to the DMA module.
- */
- cy_as_dma_received_data(dev_p, ep, len, dev_p->usb_ep_data);
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 0);
- }
-}
-
-static void
-my_usb_request_callback_inquiry(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p)
-{
- cy_as_usb_inquiry_data_dep cbdata;
- cy_as_usb_inquiry_data cbdata_ms;
- void *data;
- uint16_t val;
- cy_as_device_handle h = (cy_as_device_handle)dev_p;
- uint8_t def_inq_data[64];
- uint8_t evpd;
- uint8_t codepage;
- cy_bool updated;
- uint16_t length;
-
- cy_as_bus_number_t bus;
- uint32_t device;
- cy_as_media_type media;
-
- val = cy_as_ll_request_response__get_word(req_p, 0);
- bus = cy_as_storage_get_bus_from_address(val);
- device = cy_as_storage_get_device_from_address(val);
- media = cy_as_storage_get_media_from_address(val);
-
- val = cy_as_ll_request_response__get_word(req_p, 1);
- evpd = (uint8_t)((val >> 8) & 0x01);
- codepage = (uint8_t)(val & 0xff);
-
- length = cy_as_ll_request_response__get_word(req_p, 2);
- data = (void *)def_inq_data;
-
- updated = cy_false;
-
- if (dev_p->usb_event_cb_ms) {
- cbdata_ms.bus = bus;
- cbdata_ms.device = device;
- cbdata_ms.updated = updated;
- cbdata_ms.evpd = evpd;
- cbdata_ms.codepage = codepage;
- cbdata_ms.length = length;
- cbdata_ms.data = data;
-
- cy_as_hal_assert(cbdata_ms.length <= sizeof(def_inq_data));
- cy_as_ll_request_response__unpack(req_p,
- 3, cbdata_ms.length, cbdata_ms.data);
-
- dev_p->usb_event_cb_ms(h,
- cy_as_event_usb_inquiry_before, &cbdata_ms);
-
- updated = cbdata_ms.updated;
- data = cbdata_ms.data;
- length = cbdata_ms.length;
- } else if (dev_p->usb_event_cb) {
- cbdata.media = media;
- cbdata.updated = updated;
- cbdata.evpd = evpd;
- cbdata.codepage = codepage;
- cbdata.length = length;
- cbdata.data = data;
-
- cy_as_hal_assert(cbdata.length <=
- sizeof(def_inq_data));
- cy_as_ll_request_response__unpack(req_p, 3,
- cbdata.length, cbdata.data);
-
- dev_p->usb_event_cb(h,
- cy_as_event_usb_inquiry_before, &cbdata);
-
- updated = cbdata.updated;
- data = cbdata.data;
- length = cbdata.length;
- }
-
- if (updated && length > 192)
- cy_as_hal_print_message("an inquiry result from a "
- "cy_as_event_usb_inquiry_before event "
- "was greater than 192 bytes.");
-
- /* Now send the reply with the data back
- * to the West Bridge device */
- if (updated && length <= 192) {
- /*
- * the callback function modified the inquiry
- * data, ship the data back to the west bridge firmware.
- */
- cy_as_ll_send_data_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT,
- CY_RESP_INQUIRY_DATA, length, data);
- } else {
- /*
- * the callback did not modify the data, just acknowledge
- * that we processed the request
- */
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 1);
- }
-
- if (dev_p->usb_event_cb_ms)
- dev_p->usb_event_cb_ms(h,
- cy_as_event_usb_inquiry_after, &cbdata_ms);
- else if (dev_p->usb_event_cb)
- dev_p->usb_event_cb(h,
- cy_as_event_usb_inquiry_after, &cbdata);
-}
-
-static void
-my_usb_request_callback_start_stop(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p)
-{
- cy_as_bus_number_t bus;
- cy_as_media_type media;
- uint32_t device;
- uint16_t val;
-
- if (dev_p->usb_event_cb_ms || dev_p->usb_event_cb) {
- cy_bool loej;
- cy_bool start;
- cy_as_device_handle h = (cy_as_device_handle)dev_p;
-
- val = cy_as_ll_request_response__get_word(req_p, 0);
- bus = cy_as_storage_get_bus_from_address(val);
- device = cy_as_storage_get_device_from_address(val);
- media = cy_as_storage_get_media_from_address(val);
-
- val = cy_as_ll_request_response__get_word(req_p, 1);
- loej = (val & 0x02) ? cy_true : cy_false;
- start = (val & 0x01) ? cy_true : cy_false;
-
- if (dev_p->usb_event_cb_ms) {
- cy_as_usb_start_stop_data cbdata_ms;
-
- cbdata_ms.bus = bus;
- cbdata_ms.device = device;
- cbdata_ms.loej = loej;
- cbdata_ms.start = start;
- dev_p->usb_event_cb_ms(h,
- cy_as_event_usb_start_stop, &cbdata_ms);
-
- } else if (dev_p->usb_event_cb) {
- cy_as_usb_start_stop_data_dep cbdata;
-
- cbdata.media = media;
- cbdata.loej = loej;
- cbdata.start = start;
- dev_p->usb_event_cb(h,
- cy_as_event_usb_start_stop, &cbdata);
- }
- }
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 1);
-}
-
-static void
-my_usb_request_callback_uknown_c_b_w(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p)
-{
- uint16_t val;
- cy_as_device_handle h = (cy_as_device_handle)dev_p;
- uint8_t buf[16];
-
- uint8_t response[4];
- uint16_t reqlen;
- void *request;
- uint8_t status;
- uint8_t key;
- uint8_t asc;
- uint8_t ascq;
-
- val = cy_as_ll_request_response__get_word(req_p, 0);
- /* Failed by default */
- status = 1;
- /* Invalid command */
- key = 0x05;
- /* Invalid command */
- asc = 0x20;
- /* Invalid command */
- ascq = 0x00;
- reqlen = cy_as_ll_request_response__get_word(req_p, 1);
- request = buf;
-
- cy_as_hal_assert(reqlen <= sizeof(buf));
- cy_as_ll_request_response__unpack(req_p, 2, reqlen, request);
-
- if (dev_p->usb_event_cb_ms) {
- cy_as_usb_unknown_command_data cbdata_ms;
- cbdata_ms.bus = cy_as_storage_get_bus_from_address(val);
- cbdata_ms.device =
- cy_as_storage_get_device_from_address(val);
- cbdata_ms.reqlen = reqlen;
- cbdata_ms.request = request;
- cbdata_ms.status = status;
- cbdata_ms.key = key;
- cbdata_ms.asc = asc;
- cbdata_ms.ascq = ascq;
-
- dev_p->usb_event_cb_ms(h,
- cy_as_event_usb_unknown_storage, &cbdata_ms);
- status = cbdata_ms.status;
- key = cbdata_ms.key;
- asc = cbdata_ms.asc;
- ascq = cbdata_ms.ascq;
- } else if (dev_p->usb_event_cb) {
- cy_as_usb_unknown_command_data_dep cbdata;
- cbdata.media =
- cy_as_storage_get_media_from_address(val);
- cbdata.reqlen = reqlen;
- cbdata.request = request;
- cbdata.status = status;
- cbdata.key = key;
- cbdata.asc = asc;
- cbdata.ascq = ascq;
-
- dev_p->usb_event_cb(h,
- cy_as_event_usb_unknown_storage, &cbdata);
- status = cbdata.status;
- key = cbdata.key;
- asc = cbdata.asc;
- ascq = cbdata.ascq;
- }
-
- response[0] = status;
- response[1] = key;
- response[2] = asc;
- response[3] = ascq;
- cy_as_ll_send_data_response(dev_p, CY_RQT_USB_RQT_CONTEXT,
- CY_RESP_UNKNOWN_SCSI_COMMAND, sizeof(response), response);
-}
-
-static void
-my_usb_request_callback_m_s_c_progress(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p)
-{
- uint16_t val1, val2;
- cy_as_device_handle h = (cy_as_device_handle)dev_p;
-
- if ((dev_p->usb_event_cb) || (dev_p->usb_event_cb_ms)) {
- cy_as_m_s_c_progress_data cbdata;
-
- val1 = cy_as_ll_request_response__get_word(req_p, 0);
- val2 = cy_as_ll_request_response__get_word(req_p, 1);
- cbdata.wr_count = (uint32_t)((val1 << 16) | val2);
-
- val1 = cy_as_ll_request_response__get_word(req_p, 2);
- val2 = cy_as_ll_request_response__get_word(req_p, 3);
- cbdata.rd_count = (uint32_t)((val1 << 16) | val2);
-
- if (dev_p->usb_event_cb)
- dev_p->usb_event_cb(h,
- cy_as_event_usb_m_s_c_progress, &cbdata);
- else
- dev_p->usb_event_cb_ms(h,
- cy_as_event_usb_m_s_c_progress, &cbdata);
- }
-
- cy_as_ll_send_status_response(dev_p,
- CY_RQT_USB_RQT_CONTEXT, CY_AS_ERROR_SUCCESS, 0);
-}
-
-/*
-* This function processes the requests delivered from the
-* firmware within the West Bridge device that are delivered
-* in the USB context. These requests generally are EP0 and
-* EP1 related requests or USB events.
-*/
-static void
-my_usb_request_callback(cy_as_device *dev_p, uint8_t context,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *resp_p,
- cy_as_return_status_t ret)
-{
- uint16_t val;
- uint8_t code = cy_as_ll_request_response__get_code(req_p);
-
- (void)resp_p;
- (void)context;
- (void)ret;
-
- switch (code) {
- case CY_RQT_USB_EVENT:
- my_usb_request_callback_usb_event(dev_p, req_p);
- break;
-
- case CY_RQT_USB_EP_DATA:
- dev_p->usb_last_event = cy_as_event_usb_setup_packet;
- my_usb_request_callback_usb_data(dev_p, req_p);
- break;
-
- case CY_RQT_SCSI_INQUIRY_COMMAND:
- dev_p->usb_last_event = cy_as_event_usb_inquiry_after;
- my_usb_request_callback_inquiry(dev_p, req_p);
- break;
-
- case CY_RQT_SCSI_START_STOP_COMMAND:
- dev_p->usb_last_event = cy_as_event_usb_start_stop;
- my_usb_request_callback_start_stop(dev_p, req_p);
- break;
-
- case CY_RQT_SCSI_UNKNOWN_COMMAND:
- dev_p->usb_last_event = cy_as_event_usb_unknown_storage;
- my_usb_request_callback_uknown_c_b_w(dev_p, req_p);
- break;
-
- case CY_RQT_USB_ACTIVITY_UPDATE:
- dev_p->usb_last_event = cy_as_event_usb_m_s_c_progress;
- my_usb_request_callback_m_s_c_progress(dev_p, req_p);
- break;
-
- default:
- cy_as_hal_print_message("invalid request "
- "received on USB context\n");
- val = req_p->box0;
- cy_as_ll_send_data_response(dev_p, CY_RQT_USB_RQT_CONTEXT,
- CY_RESP_INVALID_REQUEST, sizeof(val), &val);
- break;
- }
-}
-
-static cy_as_return_status_t
-my_handle_response_usb_start(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_return_status_t ret)
-{
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /*
- * mark EP 0 and EP1 as 64 byte endpoints
- */
- cy_as_dma_set_max_dma_size(dev_p, 0, 64);
- cy_as_dma_set_max_dma_size(dev_p, 1, 64);
-
- dev_p->usb_count++;
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_destroy_c_b_queue(dev_p->usb_func_cbs);
- cy_as_ll_register_request_callback(dev_p,
- CY_RQT_USB_RQT_CONTEXT, 0);
- }
-
- cy_as_device_clear_u_s_s_pending(dev_p);
-
- return ret;
-
-}
-
-/*
-* This function starts the USB stack. The stack is reference
-* counted so if the stack is already started, this function
-* just increments the count. If the stack has not been started,
-* a start request is sent to the West Bridge device.
-*
-* Note: Starting the USB stack does not cause the USB signals
-* to be connected to the USB pins. To do this and therefore
-* initiate enumeration, CyAsUsbConnect() must be called.
-*/
-cy_as_return_status_t
-cy_as_usb_start(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p, *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_start called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (!cy_as_device_is_configured(dev_p))
- return CY_AS_ERROR_NOT_CONFIGURED;
-
- if (!cy_as_device_is_firmware_loaded(dev_p))
- return CY_AS_ERROR_NO_FIRMWARE;
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- if (cy_as_device_is_u_s_s_pending(dev_p))
- return CY_AS_ERROR_STARTSTOP_PENDING;
-
- cy_as_device_set_u_s_s_pending(dev_p);
-
- if (dev_p->usb_count == 0) {
- /*
- * since we are just starting the stack,
- * mark USB as not connected to the remote host
- */
- cy_as_device_clear_usb_connected(dev_p);
- dev_p->usb_phy_config = 0;
-
- /* Queue for 1.0 Async Requests, kept for
- * backwards compatibility */
- dev_p->usb_func_cbs = cy_as_create_c_b_queue(CYAS_USB_FUNC_CB);
- if (dev_p->usb_func_cbs == 0) {
- cy_as_device_clear_u_s_s_pending(dev_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- /* Reset the EP0 state */
- cy_as_usb_reset_e_p0_state(dev_p);
-
- /*
- * we register here because the start request may cause
- * events to occur before the response to the start request.
- */
- cy_as_ll_register_request_callback(dev_p,
- CY_RQT_USB_RQT_CONTEXT, my_usb_request_callback);
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_START_USB, CY_RQT_USB_RQT_CONTEXT, 0);
- if (req_p == 0) {
- cy_as_destroy_c_b_queue(dev_p->usb_func_cbs);
- dev_p->usb_func_cbs = 0;
- cy_as_device_clear_u_s_s_pending(dev_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- /* Reserve space for the reply, the reply data
- * will not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_destroy_c_b_queue(dev_p->usb_func_cbs);
- dev_p->usb_func_cbs = 0;
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_device_clear_u_s_s_pending(dev_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_usb_start(dev_p,
- req_p, reply_p, ret);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb,
- client, CY_FUNCT_CB_USB_START, 0,
- dev_p->func_cbs_usb,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_usb_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
- } else {
- dev_p->usb_count++;
- if (cb)
- cb(handle, ret, client, CY_FUNCT_CB_USB_START, 0);
- }
-
- cy_as_device_clear_u_s_s_pending(dev_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_usb_start);
-
-void
-cy_as_usb_reset(cy_as_device *dev_p)
-{
- int i;
-
- cy_as_device_clear_usb_connected(dev_p);
-
- for (i = 0; i < sizeof(dev_p->usb_config) /
- sizeof(dev_p->usb_config[0]); i++) {
- /*
- * cancel all pending USB read/write operations, as it is
- * possible that the USB stack comes up in a different
- * configuration with a different set of endpoints.
- */
- if (cy_as_device_is_usb_async_pending(dev_p, i))
- cy_as_usb_cancel_async(dev_p,
- (cy_as_end_point_number_t)i);
-
- dev_p->usb_cb[i] = 0;
- dev_p->usb_config[i].enabled = cy_false;
- }
-
- dev_p->usb_phy_config = 0;
-}
-
-/*
- * This function does all the API side clean-up associated
- * with CyAsUsbStop, without any communication with firmware.
- * This needs to be done when the device is being reset while
- * the USB stack is active.
- */
-void
-cy_as_usb_cleanup(cy_as_device *dev_p)
-{
- if (dev_p->usb_count) {
- cy_as_usb_reset_e_p0_state(dev_p);
- cy_as_usb_reset(dev_p);
- cy_as_hal_mem_set(dev_p->usb_config, 0,
- sizeof(dev_p->usb_config));
- cy_as_destroy_c_b_queue(dev_p->usb_func_cbs);
-
- dev_p->usb_count = 0;
- }
-}
-
-static cy_as_return_status_t
-my_handle_response_usb_stop(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_return_status_t ret)
-{
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /*
- * we successfully shutdown the stack, so
- * decrement to make the count zero.
- */
- cy_as_usb_cleanup(dev_p);
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- cy_as_ll_register_request_callback(dev_p,
- CY_RQT_USB_RQT_CONTEXT, 0);
-
- cy_as_device_clear_u_s_s_pending(dev_p);
-
- return ret;
-}
-
-/*
-* This function stops the USB stack. The USB stack is reference
-* counted so first is reference count is decremented. If the
-* reference count is then zero, a request is sent to the West
-* Bridge device to stop the USB stack on the West Bridge device.
-*/
-cy_as_return_status_t
-cy_as_usb_stop(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p = 0, *reply_p = 0;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_stop called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_usb_connected(dev_p))
- return CY_AS_ERROR_USB_CONNECTED;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- if (cy_as_device_is_u_s_s_pending(dev_p))
- return CY_AS_ERROR_STARTSTOP_PENDING;
-
- cy_as_device_set_u_s_s_pending(dev_p);
-
- if (dev_p->usb_count == 1) {
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_STOP_USB,
- CY_RQT_USB_RQT_CONTEXT, 0);
- if (req_p == 0) {
- ret = CY_AS_ERROR_OUT_OF_MEMORY;
- goto destroy;
- }
-
- /* Reserve space for the reply, the reply data will not
- * exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- ret = CY_AS_ERROR_OUT_OF_MEMORY;
- goto destroy;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_usb_stop(dev_p,
- req_p, reply_p, ret);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_USB_STOP, 0, dev_p->func_cbs_usb,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_usb_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
- } else if (dev_p->usb_count > 1) {
- /*
- * reset all LE_ps to inactive state, after cleaning
- * up any pending async read/write calls.
- */
- cy_as_usb_reset(dev_p);
- dev_p->usb_count--;
-
- if (cb)
- cb(handle, ret, client, CY_FUNCT_CB_USB_STOP, 0);
- }
-
- cy_as_device_clear_u_s_s_pending(dev_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_usb_stop);
-
-/*
-* This function registers a callback to be called when
-* USB events are processed
-*/
-cy_as_return_status_t
-cy_as_usb_register_callback(cy_as_device_handle handle,
- cy_as_usb_event_callback callback)
-{
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_register_callback called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (!cy_as_device_is_configured(dev_p))
- return CY_AS_ERROR_NOT_CONFIGURED;
-
- if (!cy_as_device_is_firmware_loaded(dev_p))
- return CY_AS_ERROR_NO_FIRMWARE;
-
- dev_p->usb_event_cb = NULL;
- dev_p->usb_event_cb_ms = callback;
- return CY_AS_ERROR_SUCCESS;
-}
-EXPORT_SYMBOL(cy_as_usb_register_callback);
-
-static cy_as_return_status_t
-my_handle_response_no_data(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE)
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- else
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
-
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-static cy_as_return_status_t
-my_handle_response_connect(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_return_status_t ret)
-{
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- if (ret == CY_AS_ERROR_SUCCESS)
- cy_as_device_set_usb_connected(dev_p);
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-
-/*
-* This method asks the West Bridge device to connect the
-* internal USB D+ and D- signals to the USB pins, thus
-* starting the enumeration processes if the external pins
-* are connected to a USB host. If the external pins are
-* not connected to a USB host, enumeration will begin as soon
-* as the USB pins are connected to a host.
-*/
-cy_as_return_status_t
-cy_as_usb_connect(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_connect called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_SET_CONNECT_STATE, CY_RQT_USB_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* 1 = Connect request */
- cy_as_ll_request_response__set_word(req_p, 0, 1);
-
- /* Reserve space for the reply, the reply
- * data will not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_connect(dev_p, req_p, reply_p, ret);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_USB_CONNECT, 0, dev_p->func_cbs_usb,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_usb_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_usb_connect);
-
-static cy_as_return_status_t
-my_handle_response_disconnect(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_return_status_t ret)
-{
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- if (ret == CY_AS_ERROR_SUCCESS)
- cy_as_device_clear_usb_connected(dev_p);
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-/*
-* This method forces a disconnect of the D+ and D- pins
-* external to the West Bridge device from the D+ and D-
-* signals internally, effectively disconnecting the West
-* Bridge device from any connected USB host.
-*/
-cy_as_return_status_t
-cy_as_usb_disconnect(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_disconnect called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- if (!cy_as_device_is_usb_connected(dev_p))
- return CY_AS_ERROR_USB_NOT_CONNECTED;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_SET_CONNECT_STATE, CY_RQT_USB_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0, 0);
-
- /* Reserve space for the reply, the reply
- * data will not exceed two bytes */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_disconnect(dev_p,
- req_p, reply_p, ret);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_USB_DISCONNECT, 0, dev_p->func_cbs_usb,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_usb_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_usb_disconnect);
-
-static cy_as_return_status_t
-my_handle_response_set_enum_config(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
-
- if (ret == CY_AS_ERROR_SUCCESS) {
- /*
- * we configured the west bridge device and
- * enumeration is going to happen on the P port
- * processor. now we must enable endpoint zero
- */
- cy_as_usb_end_point_config config;
-
- config.dir = cy_as_usb_in_out;
- config.type = cy_as_usb_control;
- config.enabled = cy_true;
-
- ret = cy_as_usb_set_end_point_config((cy_as_device_handle *)
- dev_p, 0, &config);
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-/*
-* This method sets how the USB is enumerated and should
-* be called before the CyAsUsbConnect() is called.
-*/
-static cy_as_return_status_t
-my_usb_set_enum_config(cy_as_device *dev_p,
- uint8_t bus_mask,
- uint8_t media_mask,
- cy_bool use_antioch_enumeration,
- uint8_t mass_storage_interface,
- uint8_t mtp_interface,
- cy_bool mass_storage_callbacks,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- cy_as_log_debug_message(6, "cy_as_usb_set_enum_config called");
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_usb_connected(dev_p))
- return CY_AS_ERROR_USB_CONNECTED;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- /* if we are using MTP firmware: */
- if (dev_p->is_mtp_firmware == 1) {
- /* we cannot enumerate MSC */
- if (mass_storage_interface != 0)
- return CY_AS_ERROR_INVALID_CONFIGURATION;
-
- if (bus_mask == 0) {
- if (mtp_interface != 0)
- return CY_AS_ERROR_INVALID_CONFIGURATION;
- } else if (bus_mask == 2) {
- /* enable EP 1 as it will be used */
- cy_as_dma_enable_end_point(dev_p, 1, cy_true,
- cy_as_direction_in);
- dev_p->usb_config[1].enabled = cy_true;
- dev_p->usb_config[1].dir = cy_as_usb_in;
- dev_p->usb_config[1].type = cy_as_usb_int;
- } else {
- return CY_AS_ERROR_INVALID_CONFIGURATION;
- }
- /* if we are not using MTP firmware, we cannot enumerate MTP */
- } else if (mtp_interface != 0)
- return CY_AS_ERROR_INVALID_CONFIGURATION;
-
- /*
- * if we are not enumerating mass storage, we should
- * not be providing an interface number.
- */
- if (bus_mask == 0 && mass_storage_interface != 0)
- return CY_AS_ERROR_INVALID_CONFIGURATION;
-
- /*
- * if we are going to use mtp_interface, bus mask must be 2.
- */
- if (mtp_interface != 0 && bus_mask != 2)
- return CY_AS_ERROR_INVALID_CONFIGURATION;
-
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_SET_USB_CONFIG, CY_RQT_USB_RQT_CONTEXT, 4);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* Marshal the structure */
- cy_as_ll_request_response__set_word(req_p, 0,
- (uint16_t)((media_mask << 8) | bus_mask));
- cy_as_ll_request_response__set_word(req_p, 1,
- (uint16_t)use_antioch_enumeration);
- cy_as_ll_request_response__set_word(req_p, 2,
- dev_p->is_mtp_firmware ? mtp_interface :
- mass_storage_interface);
- cy_as_ll_request_response__set_word(req_p, 3,
- (uint16_t)mass_storage_callbacks);
-
- /* Reserve space for the reply, the reply
- * data will not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
-
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_set_enum_config(dev_p,
- req_p, reply_p);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_USB_SETENUMCONFIG, 0, dev_p->func_cbs_usb,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_usb_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-/*
- * This method sets how the USB is enumerated and should
- * be called before the CyAsUsbConnect() is called.
- */
-cy_as_return_status_t
-cy_as_usb_set_enum_config(cy_as_device_handle handle,
- cy_as_usb_enum_control *config_p,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
- uint8_t bus_mask, media_mask;
- uint32_t bus, device;
- cy_as_return_status_t ret;
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if ((cy_as_device_is_in_callback(dev_p)) && (cb != 0))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- /* Since we are mapping the media types to bus with NAND to 0
- * and the rest to 1, and we are only allowing for enumerating
- * all the devices on a bus we just scan the array for any
- * positions where there a device is enabled and mark the bus
- * to be enumerated.
- */
- bus_mask = 0;
- media_mask = 0;
- for (bus = 0; bus < CY_AS_MAX_BUSES; bus++) {
- for (device = 0; device < CY_AS_MAX_STORAGE_DEVICES; device++) {
- if (config_p->devices_to_enumerate[bus][device] ==
- cy_true) {
- bus_mask |= (0x01 << bus);
- media_mask |= dev_p->media_supported[bus];
- media_mask |= dev_p->media_supported[bus];
- }
- }
- }
-
- return my_usb_set_enum_config(dev_p, bus_mask, media_mask,
- config_p->antioch_enumeration,
- config_p->mass_storage_interface,
- config_p->mtp_interface,
- config_p->mass_storage_callbacks,
- cb,
- client
- );
-}
-EXPORT_SYMBOL(cy_as_usb_set_enum_config);
-
-static cy_as_return_status_t
-my_handle_response_get_enum_config(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- void *config_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint16_t val;
- uint8_t bus_mask;
- uint32_t bus;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_USB_CONFIG) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- /* Marshal the reply */
- if (req_p->flags & CY_AS_REQUEST_RESPONSE_MS) {
- uint32_t device;
- cy_bool state;
- cy_as_usb_enum_control *ms_config_p =
- (cy_as_usb_enum_control *)config_p;
-
- bus_mask = (uint8_t)
- (cy_as_ll_request_response__get_word
- (reply_p, 0) & 0xFF);
- for (bus = 0; bus < CY_AS_MAX_BUSES; bus++) {
- if (bus_mask & (1 << bus))
- state = cy_true;
- else
- state = cy_false;
-
- for (device = 0; device < CY_AS_MAX_STORAGE_DEVICES;
- device++)
- ms_config_p->devices_to_enumerate[bus][device]
- = state;
- }
-
- ms_config_p->antioch_enumeration =
- (cy_bool)cy_as_ll_request_response__get_word
- (reply_p, 1);
-
- val = cy_as_ll_request_response__get_word(reply_p, 2);
- if (dev_p->is_mtp_firmware) {
- ms_config_p->mass_storage_interface = 0;
- ms_config_p->mtp_interface = (uint8_t)(val & 0xFF);
- } else {
- ms_config_p->mass_storage_interface =
- (uint8_t)(val & 0xFF);
- ms_config_p->mtp_interface = 0;
- }
- ms_config_p->mass_storage_callbacks = (cy_bool)(val >> 8);
-
- /*
- * firmware returns an invalid interface number for mass storage,
- * if mass storage is not enabled. this needs to be converted to
- * zero to match the input configuration.
- */
- if (bus_mask == 0) {
- if (dev_p->is_mtp_firmware)
- ms_config_p->mtp_interface = 0;
- else
- ms_config_p->mass_storage_interface = 0;
- }
- } else {
- cy_as_usb_enum_control_dep *ex_config_p =
- (cy_as_usb_enum_control_dep *)config_p;
-
- ex_config_p->enum_mass_storage = (uint8_t)
- ((cy_as_ll_request_response__get_word
- (reply_p, 0) >> 8) & 0xFF);
- ex_config_p->antioch_enumeration = (cy_bool)
- cy_as_ll_request_response__get_word(reply_p, 1);
-
- val = cy_as_ll_request_response__get_word(reply_p, 2);
- ex_config_p->mass_storage_interface = (uint8_t)(val & 0xFF);
- ex_config_p->mass_storage_callbacks = (cy_bool)(val >> 8);
-
- /*
- * firmware returns an invalid interface number for mass
- * storage, if mass storage is not enabled. this needs to
- * be converted to zero to match the input configuration.
- */
- if (ex_config_p->enum_mass_storage == 0)
- ex_config_p->mass_storage_interface = 0;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-/*
-* This sets up the request for the enumerateion configuration
-* information, based on if the request is from the old pre-1.2
-* functions.
-*/
-static cy_as_return_status_t
-my_usb_get_enum_config(cy_as_device_handle handle,
- uint16_t req_flags,
- void *config_p,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_get_enum_config called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_GET_USB_CONFIG, CY_RQT_USB_RQT_CONTEXT, 0);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* Reserve space for the reply, the reply data
- * will not exceed two bytes */
- reply_p = cy_as_ll_create_response(dev_p, 3);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- /* we need to know the type of request to
- * know how to manage the data */
- req_p->flags |= req_flags;
- return my_handle_response_get_enum_config(dev_p,
- req_p, reply_p, config_p);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_USB_GETENUMCONFIG, config_p,
- dev_p->func_cbs_usb, req_flags, req_p, reply_p,
- cy_as_usb_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-/*
- * This method returns the enumerateion configuration information
- * from the West Bridge device. Generally this is not used by
- * client software but is provided mostly for debug information.
- * We want a method to read all state information from the device.
- */
-cy_as_return_status_t
-cy_as_usb_get_enum_config(cy_as_device_handle handle,
- cy_as_usb_enum_control *config_p,
- cy_as_function_callback cb,
- uint32_t client)
-{
- return my_usb_get_enum_config(handle,
- CY_AS_REQUEST_RESPONSE_MS, config_p, cb, client);
-}
-EXPORT_SYMBOL(cy_as_usb_get_enum_config);
-
-/*
-* This method sets the USB descriptor for a given entity.
-*/
-cy_as_return_status_t
-cy_as_usb_set_descriptor(cy_as_device_handle handle,
- cy_as_usb_desc_type type,
- uint8_t index,
- void *desc_p,
- uint16_t length,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint16_t pktlen;
-
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_set_descriptor called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- if (length > CY_AS_MAX_USB_DESCRIPTOR_SIZE)
- return CY_AS_ERROR_INVALID_DESCRIPTOR;
-
- pktlen = (uint16_t)length / 2;
- if (length % 2)
- pktlen++;
- pktlen += 2; /* 1 for type, 1 for length */
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_SET_DESCRIPTOR,
- CY_RQT_USB_RQT_CONTEXT, (uint16_t)pktlen);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- (uint16_t)((uint8_t)type | (index << 8)));
- cy_as_ll_request_response__set_word(req_p, 1,
- (uint16_t)length);
- cy_as_ll_request_response__pack(req_p, 2, length, desc_p);
-
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_no_data(dev_p, req_p, reply_p);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_USB_SETDESCRIPTOR, 0, dev_p->func_cbs_usb,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_usb_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_usb_set_descriptor);
-
-/*
- * This method clears all descriptors that were previously
- * stored on the West Bridge through CyAsUsbSetDescriptor calls.
- */
-cy_as_return_status_t
-cy_as_usb_clear_descriptors(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_clear_descriptors called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if ((cy_as_device_is_in_callback(dev_p)) && (cb == 0))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_CLEAR_DESCRIPTORS, CY_RQT_USB_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
-
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_no_data(dev_p, req_p, reply_p);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_USB_CLEARDESCRIPTORS, 0,
- dev_p->func_cbs_usb,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_usb_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_usb_clear_descriptors);
-
-static cy_as_return_status_t
-my_handle_response_get_descriptor(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_get_descriptor_data *data)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint32_t retlen;
-
- if (cy_as_ll_request_response__get_code(reply_p) ==
- CY_RESP_SUCCESS_FAILURE) {
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- goto destroy;
- } else if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_USB_DESCRIPTOR) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- retlen = cy_as_ll_request_response__get_word(reply_p, 0);
- if (retlen > data->length) {
- ret = CY_AS_ERROR_INVALID_SIZE;
- goto destroy;
- }
-
- ret = CY_AS_ERROR_SUCCESS;
- cy_as_ll_request_response__unpack(reply_p, 1,
- retlen, data->desc_p);
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-/*
-* This method retreives the USB descriptor for a given type.
-*/
-cy_as_return_status_t
-cy_as_usb_get_descriptor(cy_as_device_handle handle,
- cy_as_usb_desc_type type,
- uint8_t index,
- cy_as_get_descriptor_data *data,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret;
- cy_as_ll_request_response *req_p , *reply_p;
-
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_get_descriptor called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_GET_DESCRIPTOR, CY_RQT_USB_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- (uint16_t)((uint8_t)type | (index << 8)));
-
- /* Add one for the length field */
- reply_p = cy_as_ll_create_response(dev_p,
- CY_AS_MAX_USB_DESCRIPTOR_SIZE + 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(
- dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return my_handle_response_get_descriptor(dev_p,
- req_p, reply_p, data);
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_USB_GETDESCRIPTOR, data,
- dev_p->func_cbs_usb,
- CY_AS_REQUEST_RESPONSE_EX, req_p,
- reply_p, cy_as_usb_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_usb_get_descriptor);
-
-cy_as_return_status_t
-cy_as_usb_set_physical_configuration(cy_as_device_handle handle,
- uint8_t config)
-{
- cy_as_return_status_t ret;
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6,
- "cy_as_usb_set_physical_configuration called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_usb_connected(dev_p))
- return CY_AS_ERROR_USB_CONNECTED;
-
- if (config < 1 || config > 12)
- return CY_AS_ERROR_INVALID_CONFIGURATION;
-
- dev_p->usb_phy_config = config;
-
- return CY_AS_ERROR_SUCCESS;
-}
-EXPORT_SYMBOL(cy_as_usb_set_physical_configuration);
-
-static cy_bool
-is_physical_valid(uint8_t config, cy_as_end_point_number_t ep)
-{
- static uint8_t validmask[12] = {
- 0x0f, /* Config 1 - 1, 2, 3, 4 */
- 0x07, /* Config 2 - 1, 2, 3 */
- 0x07, /* Config 3 - 1, 2, 3 */
- 0x0d, /* Config 4 - 1, 3, 4 */
- 0x05, /* Config 5 - 1, 3 */
- 0x05, /* Config 6 - 1, 3 */
- 0x0d, /* Config 7 - 1, 3, 4 */
- 0x05, /* Config 8 - 1, 3 */
- 0x05, /* Config 9 - 1, 3 */
- 0x0d, /* Config 10 - 1, 3, 4 */
- 0x09, /* Config 11 - 1, 4 */
- 0x01 /* Config 12 - 1 */
- };
-
- return (validmask[config - 1] & (1 << (ep - 1))) ? cy_true : cy_false;
-}
-
-/*
-* This method sets the configuration for an endpoint
-*/
-cy_as_return_status_t
-cy_as_usb_set_end_point_config(cy_as_device_handle handle,
- cy_as_end_point_number_t ep, cy_as_usb_end_point_config *config_p)
-{
- cy_as_return_status_t ret;
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_set_end_point_config called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_usb_connected(dev_p))
- return CY_AS_ERROR_USB_CONNECTED;
-
- if (ep >= 16 || ep == 2 || ep == 4 || ep == 6 || ep == 8)
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- if (ep == 0) {
- /* Endpoint 0 must be 64 byte, dir IN/OUT,
- * and control type */
- if (config_p->dir != cy_as_usb_in_out ||
- config_p->type != cy_as_usb_control)
- return CY_AS_ERROR_INVALID_CONFIGURATION;
- } else if (ep == 1) {
- if ((dev_p->is_mtp_firmware == 1) &&
- (dev_p->usb_config[1].enabled == cy_true)) {
- return CY_AS_ERROR_INVALID_ENDPOINT;
- }
-
- /*
- * EP1 can only be used either as an OUT ep, or as an IN ep.
- */
- if ((config_p->type == cy_as_usb_control) ||
- (config_p->type == cy_as_usb_iso) ||
- (config_p->dir == cy_as_usb_in_out))
- return CY_AS_ERROR_INVALID_CONFIGURATION;
- } else {
- if (config_p->dir == cy_as_usb_in_out ||
- config_p->type == cy_as_usb_control)
- return CY_AS_ERROR_INVALID_CONFIGURATION;
-
- if (!is_physical_valid(dev_p->usb_phy_config,
- config_p->physical))
- return CY_AS_ERROR_INVALID_PHYSICAL_ENDPOINT;
-
- /*
- * ISO endpoints must be on E_ps 3, 5, 7 or 9 as
- * they need to align directly with the underlying
- * physical endpoint.
- */
- if (config_p->type == cy_as_usb_iso) {
- if (ep != 3 && ep != 5 && ep != 7 && ep != 9)
- return CY_AS_ERROR_INVALID_CONFIGURATION;
-
- if (ep == 3 && config_p->physical != 1)
- return CY_AS_ERROR_INVALID_CONFIGURATION;
-
- if (ep == 5 && config_p->physical != 2)
- return CY_AS_ERROR_INVALID_CONFIGURATION;
-
- if (ep == 7 && config_p->physical != 3)
- return CY_AS_ERROR_INVALID_CONFIGURATION;
-
- if (ep == 9 && config_p->physical != 4)
- return CY_AS_ERROR_INVALID_CONFIGURATION;
- }
- }
-
- /* Store the configuration information until a
- * CyAsUsbCommitConfig is done */
- dev_p->usb_config[ep] = *config_p;
-
- /* If the endpoint is enabled, enable DMA associated
- * with the endpoint */
- /*
- * we make some assumptions that we check here. we assume
- * that the direction fields for the DMA module are the same
- * values as the direction values for the USB module.
- */
- cy_as_hal_assert((int)cy_as_usb_in == (int)cy_as_direction_in);
- cy_as_hal_assert((int)cy_as_usb_out == (int)cy_as_direction_out);
- cy_as_hal_assert((int)cy_as_usb_in_out == (int)cy_as_direction_in_out);
-
- return cy_as_dma_enable_end_point(dev_p, ep,
- config_p->enabled, (cy_as_dma_direction)config_p->dir);
-}
-EXPORT_SYMBOL(cy_as_usb_set_end_point_config);
-
-cy_as_return_status_t
-cy_as_usb_get_end_point_config(cy_as_device_handle handle,
- cy_as_end_point_number_t ep, cy_as_usb_end_point_config *config_p)
-{
- cy_as_return_status_t ret;
-
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_get_end_point_config called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (ep >= 16 || ep == 2 || ep == 4 || ep == 6 || ep == 8)
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- *config_p = dev_p->usb_config[ep];
-
- return CY_AS_ERROR_SUCCESS;
-}
-EXPORT_SYMBOL(cy_as_usb_get_end_point_config);
-
-/*
-* Commit the configuration of the various endpoints to the hardware.
-*/
-cy_as_return_status_t
-cy_as_usb_commit_config(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client)
-{
- uint32_t i;
- cy_as_return_status_t ret;
- cy_as_ll_request_response *req_p , *reply_p;
- cy_as_device *dev_p;
- uint16_t data;
-
- cy_as_log_debug_message(6, "cy_as_usb_commit_config called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_usb_connected(dev_p))
- return CY_AS_ERROR_USB_CONNECTED;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- /*
- * this performs the mapping based on informatation that was
- * previously stored on the device about the various endpoints
- * and how they are configured. the output of this mapping is
- * setting the the 14 register values contained in usb_lepcfg
- * and usb_pepcfg
- */
- ret = cy_as_usb_map_logical2_physical(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /*
- * now, package the information about the various logical and
- * physical endpoint configuration registers and send it
- * across to the west bridge device.
- */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_SET_USB_CONFIG_REGISTERS, CY_RQT_USB_RQT_CONTEXT, 8);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_hal_print_message("USB configuration: %d\n",
- dev_p->usb_phy_config);
- cy_as_hal_print_message("EP1OUT: 0x%02x EP1IN: 0x%02x\n",
- dev_p->usb_ep1cfg[0], dev_p->usb_ep1cfg[1]);
- cy_as_hal_print_message("PEP registers: 0x%02x 0x%02x 0x%02x 0x%02x\n",
- dev_p->usb_pepcfg[0], dev_p->usb_pepcfg[1],
- dev_p->usb_pepcfg[2], dev_p->usb_pepcfg[3]);
-
- cy_as_hal_print_message("LEP registers: 0x%02x 0x%02x 0x%02x "
- "0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n",
- dev_p->usb_lepcfg[0], dev_p->usb_lepcfg[1],
- dev_p->usb_lepcfg[2], dev_p->usb_lepcfg[3],
- dev_p->usb_lepcfg[4], dev_p->usb_lepcfg[5],
- dev_p->usb_lepcfg[6], dev_p->usb_lepcfg[7],
- dev_p->usb_lepcfg[8], dev_p->usb_lepcfg[9]);
-
- /* Write the EP1OUTCFG and EP1INCFG data in the first word. */
- data = (uint16_t)((dev_p->usb_ep1cfg[0] << 8) |
- dev_p->usb_ep1cfg[1]);
- cy_as_ll_request_response__set_word(req_p, 0, data);
-
- /* Write the PEP CFG data in the next 2 words */
- for (i = 0; i < 4; i += 2) {
- data = (uint16_t)((dev_p->usb_pepcfg[i] << 8) |
- dev_p->usb_pepcfg[i + 1]);
- cy_as_ll_request_response__set_word(req_p,
- 1 + i / 2, data);
- }
-
- /* Write the LEP CFG data in the next 5 words */
- for (i = 0; i < 10; i += 2) {
- data = (uint16_t)((dev_p->usb_lepcfg[i] << 8) |
- dev_p->usb_lepcfg[i + 1]);
- cy_as_ll_request_response__set_word(req_p,
- 3 + i / 2, data);
- }
-
- /* A single status word response type */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- ret = my_handle_response_no_data(dev_p,
- req_p, reply_p);
-
- if (ret == CY_AS_ERROR_SUCCESS)
- ret = cy_as_usb_setup_dma(dev_p);
-
- return ret;
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_USB_COMMITCONFIG, 0, dev_p->func_cbs_usb,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_usb_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_usb_commit_config);
-
-static void
-sync_request_callback(cy_as_device *dev_p,
- cy_as_end_point_number_t ep, void *buf_p,
- uint32_t size, cy_as_return_status_t err)
-{
- (void)ep;
- (void)buf_p;
-
- dev_p->usb_error = err;
- dev_p->usb_actual_cnt = size;
-}
-
-static void
-async_read_request_callback(cy_as_device *dev_p,
- cy_as_end_point_number_t ep, void *buf_p,
- uint32_t size, cy_as_return_status_t err)
-{
- cy_as_device_handle h;
-
- cy_as_log_debug_message(6,
- "async_read_request_callback called");
-
- h = (cy_as_device_handle)dev_p;
-
- if (ep == 0 && cy_as_device_is_ack_delayed(dev_p)) {
- dev_p->usb_pending_buffer = buf_p;
- dev_p->usb_pending_size = size;
- dev_p->usb_error = err;
- cy_as_usb_ack_setup_packet(h, usb_ack_callback, 0);
- } else {
- cy_as_usb_io_callback cb;
-
- cb = dev_p->usb_cb[ep];
- dev_p->usb_cb[ep] = 0;
- cy_as_device_clear_usb_async_pending(dev_p, ep);
- if (cb)
- cb(h, ep, size, buf_p, err);
- }
-}
-
-static void
-async_write_request_callback(cy_as_device *dev_p,
- cy_as_end_point_number_t ep, void *buf_p,
- uint32_t size, cy_as_return_status_t err)
-{
- cy_as_device_handle h;
-
- cy_as_log_debug_message(6,
- "async_write_request_callback called");
-
- h = (cy_as_device_handle)dev_p;
-
- if (ep == 0 && cy_as_device_is_ack_delayed(dev_p)) {
- dev_p->usb_pending_buffer = buf_p;
- dev_p->usb_pending_size = size;
- dev_p->usb_error = err;
-
- /* The west bridge protocol generates ZLPs as required. */
- cy_as_usb_ack_setup_packet(h, usb_ack_callback, 0);
- } else {
- cy_as_usb_io_callback cb;
-
- cb = dev_p->usb_cb[ep];
- dev_p->usb_cb[ep] = 0;
-
- cy_as_device_clear_usb_async_pending(dev_p, ep);
- if (cb)
- cb(h, ep, size, buf_p, err);
- }
-}
-
-static void
-my_turbo_rqt_callback(cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t stat)
-{
- uint8_t code;
-
- (void)context;
- (void)stat;
-
- /* The Handlers are responsible for Deleting the rqt and resp when
- * they are finished
- */
- code = cy_as_ll_request_response__get_code(rqt);
- switch (code) {
- case CY_RQT_TURBO_SWITCH_ENDPOINT:
- cy_as_hal_assert(stat == CY_AS_ERROR_SUCCESS);
- cy_as_ll_destroy_request(dev_p, rqt);
- cy_as_ll_destroy_response(dev_p, resp);
- break;
- default:
- cy_as_hal_assert(cy_false);
- break;
- }
-}
-
-/* Send a mailbox request to prepare the endpoint for switching */
-static cy_as_return_status_t
-my_send_turbo_switch(cy_as_device *dev_p, uint32_t size, cy_bool pktread)
-{
- cy_as_return_status_t ret;
- cy_as_ll_request_response *req_p , *reply_p;
-
- /* Create the request to send to the West Bridge device */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_TURBO_SWITCH_ENDPOINT, CY_RQT_TUR_RQT_CONTEXT, 3);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* Reserve space for the reply, the reply data will
- * not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- cy_as_ll_request_response__set_word(req_p, 0,
- (uint16_t)pktread);
- cy_as_ll_request_response__set_word(req_p, 1,
- (uint16_t)((size >> 16) & 0xFFFF));
- cy_as_ll_request_response__set_word(req_p, 2,
- (uint16_t)(size & 0xFFFF));
-
- ret = cy_as_ll_send_request(dev_p, req_p,
- reply_p, cy_false, my_turbo_rqt_callback);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_request(dev_p, reply_p);
- return ret;
- }
-
- return CY_AS_ERROR_SUCCESS;
-}
-
-cy_as_return_status_t
-cy_as_usb_read_data(cy_as_device_handle handle,
- cy_as_end_point_number_t ep, cy_bool pktread,
- uint32_t dsize, uint32_t *dataread, void *data)
-{
- cy_as_return_status_t ret;
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_read_data called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- if (ep >= 16 || ep == 4 || ep == 6 || ep == 8)
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- /* EP2 is available for reading when MTP is active */
- if (dev_p->mtp_count == 0 && ep == CY_AS_MTP_READ_ENDPOINT)
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- /* If the endpoint is disabled, we cannot
- * write data to the endpoint */
- if (!dev_p->usb_config[ep].enabled)
- return CY_AS_ERROR_ENDPOINT_DISABLED;
-
- if (dev_p->usb_config[ep].dir != cy_as_usb_out)
- return CY_AS_ERROR_USB_BAD_DIRECTION;
-
- ret = cy_as_dma_queue_request(dev_p, ep, data, dsize,
- pktread, cy_true, sync_request_callback);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (ep == CY_AS_MTP_READ_ENDPOINT) {
- ret = my_send_turbo_switch(dev_p, dsize, pktread);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_dma_cancel(dev_p, ep, ret);
- return ret;
- }
-
- ret = cy_as_dma_drain_queue(dev_p, ep, cy_false);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
- } else {
- ret = cy_as_dma_drain_queue(dev_p, ep, cy_true);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
- }
-
- ret = dev_p->usb_error;
- *dataread = dev_p->usb_actual_cnt;
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_usb_read_data);
-
-cy_as_return_status_t
-cy_as_usb_read_data_async(cy_as_device_handle handle,
- cy_as_end_point_number_t ep, cy_bool pktread,
- uint32_t dsize, void *data, cy_as_usb_io_callback cb)
-{
- cy_as_return_status_t ret;
- uint32_t mask;
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_read_data_async called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (ep >= 16 || ep == 4 || ep == 6 || ep == 8)
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- /* EP2 is available for reading when MTP is active */
- if (dev_p->mtp_count == 0 && ep == CY_AS_MTP_READ_ENDPOINT)
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- /* If the endpoint is disabled, we cannot
- * write data to the endpoint */
- if (!dev_p->usb_config[ep].enabled)
- return CY_AS_ERROR_ENDPOINT_DISABLED;
-
- if (dev_p->usb_config[ep].dir != cy_as_usb_out &&
- dev_p->usb_config[ep].dir != cy_as_usb_in_out)
- return CY_AS_ERROR_USB_BAD_DIRECTION;
-
- /*
- * since async operations can be triggered by interrupt
- * code, we must insure that we do not get multiple async
- * operations going at one time and protect this test and
- * set operation from interrupts.
- */
- mask = cy_as_hal_disable_interrupts();
- if (cy_as_device_is_usb_async_pending(dev_p, ep)) {
- cy_as_hal_enable_interrupts(mask);
- return CY_AS_ERROR_ASYNC_PENDING;
- }
- cy_as_device_set_usb_async_pending(dev_p, ep);
-
- /*
- * if this is for EP0, we set this bit to delay the
- * ACK response until after this read has completed.
- */
- if (ep == 0)
- cy_as_device_set_ack_delayed(dev_p);
-
- cy_as_hal_enable_interrupts(mask);
-
- cy_as_hal_assert(dev_p->usb_cb[ep] == 0);
- dev_p->usb_cb[ep] = cb;
-
- ret = cy_as_dma_queue_request(dev_p, ep, data, dsize,
- pktread, cy_true, async_read_request_callback);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (ep == CY_AS_MTP_READ_ENDPOINT) {
- ret = my_send_turbo_switch(dev_p, dsize, pktread);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_dma_cancel(dev_p, ep, ret);
- return ret;
- }
- } else {
- /* Kick start the queue if it is not running */
- cy_as_dma_kick_start(dev_p, ep);
- }
- return ret;
-}
-EXPORT_SYMBOL(cy_as_usb_read_data_async);
-
-cy_as_return_status_t
-cy_as_usb_write_data(cy_as_device_handle handle,
- cy_as_end_point_number_t ep, uint32_t dsize, void *data)
-{
- cy_as_return_status_t ret;
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_write_data called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- if (ep >= 16 || ep == 2 || ep == 4 || ep == 8)
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- /* EP6 is available for writing when MTP is active */
- if (dev_p->mtp_count == 0 && ep == CY_AS_MTP_WRITE_ENDPOINT)
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- /* If the endpoint is disabled, we cannot
- * write data to the endpoint */
- if (!dev_p->usb_config[ep].enabled)
- return CY_AS_ERROR_ENDPOINT_DISABLED;
-
- if (dev_p->usb_config[ep].dir != cy_as_usb_in &&
- dev_p->usb_config[ep].dir != cy_as_usb_in_out)
- return CY_AS_ERROR_USB_BAD_DIRECTION;
-
- /* Write on Turbo endpoint */
- if (ep == CY_AS_MTP_WRITE_ENDPOINT) {
- cy_as_ll_request_response *req_p, *reply_p;
-
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_TURBO_SEND_RESP_DATA_TO_HOST,
- CY_RQT_TUR_RQT_CONTEXT, 3);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p,
- 0, 0x0006); /* EP number to use. */
- cy_as_ll_request_response__set_word(req_p,
- 1, (uint16_t)((dsize >> 16) & 0xFFFF));
- cy_as_ll_request_response__set_word(req_p,
- 2, (uint16_t)(dsize & 0xFFFF));
-
- /* Reserve space for the reply, the reply data
- * will not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (dsize) {
- ret = cy_as_dma_queue_request(dev_p,
- ep, data, dsize, cy_false,
- cy_false, sync_request_callback);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
- }
-
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret == CY_AS_ERROR_SUCCESS) {
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE)
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- else
- ret = cy_as_ll_request_response__get_word
- (reply_p, 0);
- }
-
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- if (dsize)
- cy_as_dma_cancel(dev_p, ep, ret);
- return ret;
- }
-
- /* If this is a zero-byte write, firmware will
- * handle it. there is no need to do any work here.
- */
- if (!dsize)
- return CY_AS_ERROR_SUCCESS;
- } else {
- ret = cy_as_dma_queue_request(dev_p, ep, data, dsize,
- cy_false, cy_false, sync_request_callback);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
- }
-
- if (ep != CY_AS_MTP_WRITE_ENDPOINT)
- ret = cy_as_dma_drain_queue(dev_p, ep, cy_true);
- else
- ret = cy_as_dma_drain_queue(dev_p, ep, cy_false);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- ret = dev_p->usb_error;
- return ret;
-}
-EXPORT_SYMBOL(cy_as_usb_write_data);
-
-static void
-mtp_write_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t ret)
-{
- cy_as_usb_io_callback cb;
- cy_as_device_handle h = (cy_as_device_handle)dev_p;
-
- cy_as_hal_assert(context == CY_RQT_TUR_RQT_CONTEXT);
-
- if (ret == CY_AS_ERROR_SUCCESS) {
- if (cy_as_ll_request_response__get_code(resp) !=
- CY_RESP_SUCCESS_FAILURE)
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- else
- ret = cy_as_ll_request_response__get_word(resp, 0);
- }
-
- /* If this was a zero byte transfer request, we can
- * call the callback from here. */
- if ((cy_as_ll_request_response__get_word(rqt, 1) == 0) &&
- (cy_as_ll_request_response__get_word(rqt, 2) == 0)) {
- cb = dev_p->usb_cb[CY_AS_MTP_WRITE_ENDPOINT];
- dev_p->usb_cb[CY_AS_MTP_WRITE_ENDPOINT] = 0;
- cy_as_device_clear_usb_async_pending(dev_p,
- CY_AS_MTP_WRITE_ENDPOINT);
- if (cb)
- cb(h, CY_AS_MTP_WRITE_ENDPOINT, 0, 0, ret);
-
- goto destroy;
- }
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- /* Firmware failed the request. Cancel the DMA transfer. */
- cy_as_dma_cancel(dev_p, 0x06, CY_AS_ERROR_CANCELED);
- dev_p->usb_cb[0x06] = 0;
- cy_as_device_clear_usb_async_pending(dev_p, 0x06);
- }
-
-destroy:
- cy_as_ll_destroy_response(dev_p, resp);
- cy_as_ll_destroy_request(dev_p, rqt);
-}
-
-cy_as_return_status_t
-cy_as_usb_write_data_async(cy_as_device_handle handle,
- cy_as_end_point_number_t ep, uint32_t dsize, void *data,
- cy_bool spacket, cy_as_usb_io_callback cb)
-{
- uint32_t mask;
- cy_as_return_status_t ret;
- cy_as_device *dev_p;
-
- cy_as_log_debug_message(6, "cy_as_usb_write_data_async called");
-
- dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (ep >= 16 || ep == 2 || ep == 4 || ep == 8)
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- /* EP6 is available for writing when MTP is active */
- if (dev_p->mtp_count == 0 && ep == CY_AS_MTP_WRITE_ENDPOINT)
- return CY_AS_ERROR_INVALID_ENDPOINT;
-
- /* If the endpoint is disabled, we cannot
- * write data to the endpoint */
- if (!dev_p->usb_config[ep].enabled)
- return CY_AS_ERROR_ENDPOINT_DISABLED;
-
- if (dev_p->usb_config[ep].dir != cy_as_usb_in &&
- dev_p->usb_config[ep].dir != cy_as_usb_in_out)
- return CY_AS_ERROR_USB_BAD_DIRECTION;
-
- /*
- * since async operations can be triggered by interrupt
- * code, we must insure that we do not get multiple
- * async operations going at one time and
- * protect this test and set operation from interrupts.
- */
- mask = cy_as_hal_disable_interrupts();
- if (cy_as_device_is_usb_async_pending(dev_p, ep)) {
- cy_as_hal_enable_interrupts(mask);
- return CY_AS_ERROR_ASYNC_PENDING;
- }
-
- cy_as_device_set_usb_async_pending(dev_p, ep);
-
- if (ep == 0)
- cy_as_device_set_ack_delayed(dev_p);
-
- cy_as_hal_enable_interrupts(mask);
-
- cy_as_hal_assert(dev_p->usb_cb[ep] == 0);
- dev_p->usb_cb[ep] = cb;
- dev_p->usb_spacket[ep] = spacket;
-
- /* Write on Turbo endpoint */
- if (ep == CY_AS_MTP_WRITE_ENDPOINT) {
- cy_as_ll_request_response *req_p, *reply_p;
-
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_TURBO_SEND_RESP_DATA_TO_HOST,
- CY_RQT_TUR_RQT_CONTEXT, 3);
-
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- cy_as_ll_request_response__set_word(req_p, 0,
- 0x0006); /* EP number to use. */
- cy_as_ll_request_response__set_word(req_p, 1,
- (uint16_t)((dsize >> 16) & 0xFFFF));
- cy_as_ll_request_response__set_word(req_p, 2,
- (uint16_t)(dsize & 0xFFFF));
-
- /* Reserve space for the reply, the reply data
- * will not exceed one word */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (dsize) {
- ret = cy_as_dma_queue_request(dev_p, ep, data,
- dsize, cy_false, cy_false,
- async_write_request_callback);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
- }
-
- ret = cy_as_ll_send_request(dev_p, req_p, reply_p,
- cy_false, mtp_write_callback);
- if (ret != CY_AS_ERROR_SUCCESS) {
- if (dsize)
- cy_as_dma_cancel(dev_p, ep, ret);
- return ret;
- }
-
- /* Firmware will handle a zero byte transfer
- * without any DMA transfers. */
- if (!dsize)
- return CY_AS_ERROR_SUCCESS;
- } else {
- ret = cy_as_dma_queue_request(dev_p, ep, data, dsize,
- cy_false, cy_false, async_write_request_callback);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
- }
-
- /* Kick start the queue if it is not running */
- if (ep != CY_AS_MTP_WRITE_ENDPOINT)
- cy_as_dma_kick_start(dev_p, ep);
-
- return CY_AS_ERROR_SUCCESS;
-}
-EXPORT_SYMBOL(cy_as_usb_write_data_async);
-
-static void
-my_usb_cancel_async_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t ret)
-{
- uint8_t ep;
- (void)context;
-
- ep = (uint8_t)cy_as_ll_request_response__get_word(rqt, 0);
- if (ret == CY_AS_ERROR_SUCCESS) {
- if (cy_as_ll_request_response__get_code(resp) !=
- CY_RESP_SUCCESS_FAILURE)
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- else
- ret = cy_as_ll_request_response__get_word(resp, 0);
- }
-
- cy_as_ll_destroy_request(dev_p, rqt);
- cy_as_ll_destroy_response(dev_p, resp);
-
- if (ret == CY_AS_ERROR_SUCCESS) {
- cy_as_dma_cancel(dev_p, ep, CY_AS_ERROR_CANCELED);
- dev_p->usb_cb[ep] = 0;
- cy_as_device_clear_usb_async_pending(dev_p, ep);
- }
-}
-
-cy_as_return_status_t
-cy_as_usb_cancel_async(cy_as_device_handle handle,
- cy_as_end_point_number_t ep)
-{
- cy_as_return_status_t ret;
- cy_as_ll_request_response *req_p, *reply_p;
-
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ep &= 0x7F; /* Remove the direction bit. */
- if (!cy_as_device_is_usb_async_pending(dev_p, ep))
- return CY_AS_ERROR_ASYNC_NOT_PENDING;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_in_suspend_mode(dev_p))
- return CY_AS_ERROR_IN_SUSPEND;
-
- if ((ep == CY_AS_MTP_WRITE_ENDPOINT) ||
- (ep == CY_AS_MTP_READ_ENDPOINT)) {
- /* Need firmware support for the cancel operation. */
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_CANCEL_ASYNC_TRANSFER,
- CY_RQT_TUR_RQT_CONTEXT, 1);
-
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- cy_as_ll_request_response__set_word(req_p, 0,
- (uint16_t)ep);
-
- ret = cy_as_ll_send_request(dev_p, req_p, reply_p,
- cy_false, my_usb_cancel_async_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
- return ret;
- }
- } else {
- ret = cy_as_dma_cancel(dev_p, ep, CY_AS_ERROR_CANCELED);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- dev_p->usb_cb[ep] = 0;
- cy_as_device_clear_usb_async_pending(dev_p, ep);
- }
-
- return CY_AS_ERROR_SUCCESS;
-}
-EXPORT_SYMBOL(cy_as_usb_cancel_async);
-
-static void
-cy_as_usb_ack_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t ret)
-{
- cy_as_func_c_b_node *node = (cy_as_func_c_b_node *)
- dev_p->func_cbs_usb->head_p;
-
- (void)context;
-
- if (ret == CY_AS_ERROR_SUCCESS) {
- if (cy_as_ll_request_response__get_code(resp) !=
- CY_RESP_SUCCESS_FAILURE)
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- else
- ret = cy_as_ll_request_response__get_word(resp, 0);
- }
-
- node->cb_p((cy_as_device_handle)dev_p, ret,
- node->client_data, node->data_type, node->data);
- cy_as_remove_c_b_node(dev_p->func_cbs_usb);
-
- cy_as_ll_destroy_request(dev_p, rqt);
- cy_as_ll_destroy_response(dev_p, resp);
- cy_as_device_clear_ack_delayed(dev_p);
-}
-
-static cy_as_return_status_t
-cy_as_usb_ack_setup_packet(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret;
- cy_as_ll_request_response *req_p;
- cy_as_ll_request_response *reply_p;
- cy_as_func_c_b_node *cbnode;
-
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_in_callback(dev_p) && cb == 0)
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- cy_as_hal_assert(cb != 0);
-
- cbnode = cy_as_create_func_c_b_node(cb, client);
- if (cbnode == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- req_p = cy_as_ll_create_request(dev_p, 0,
- CY_RQT_USB_RQT_CONTEXT, 2);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- cy_as_ll_init_request(req_p, CY_RQT_ACK_SETUP_PACKET,
- CY_RQT_USB_RQT_CONTEXT, 1);
- cy_as_ll_init_response(reply_p, 1);
-
- req_p->flags |= CY_AS_REQUEST_RESPONSE_EX;
-
- cy_as_insert_c_b_node(dev_p->func_cbs_usb, cbnode);
-
- ret = cy_as_ll_send_request(dev_p, req_p, reply_p,
- cy_false, cy_as_usb_ack_callback);
-
- return ret;
-}
-
-/*
- * Flush all data in logical EP that is being NAK-ed or
- * Stall-ed, so that this does not continue to block data
- * on other LEPs that use the same physical EP.
- */
-static void
-cy_as_usb_flush_logical_e_p(
- cy_as_device *dev_p,
- uint16_t ep)
-{
- uint16_t addr, val, count;
-
- addr = CY_AS_MEM_P0_EP2_DMA_REG + ep - 2;
- val = cy_as_hal_read_register(dev_p->tag, addr);
-
- while (val) {
- count = ((val & 0xFFF) + 1) / 2;
- while (count--)
- val = cy_as_hal_read_register(dev_p->tag, ep);
-
- cy_as_hal_write_register(dev_p->tag, addr, 0);
- val = cy_as_hal_read_register(dev_p->tag, addr);
- }
-}
-
-static cy_as_return_status_t
-cy_as_usb_nak_stall_request(cy_as_device_handle handle,
- cy_as_end_point_number_t ep,
- uint16_t request,
- cy_bool state,
- cy_as_usb_function_callback cb,
- cy_as_function_callback fcb,
- uint32_t client)
-{
- cy_as_return_status_t ret;
- cy_as_ll_request_response *req_p , *reply_p;
- uint16_t data;
-
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- if (cb)
- cy_as_hal_assert(fcb == 0);
- if (fcb)
- cy_as_hal_assert(cb == 0);
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_in_callback(dev_p) && cb == 0 && fcb == 0)
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- req_p = cy_as_ll_create_request(dev_p,
- request, CY_RQT_USB_RQT_CONTEXT, 2);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* A single status word response type */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- /* Set the endpoint */
- data = (uint8_t)ep;
- cy_as_ll_request_response__set_word(req_p, 0, data);
-
- /* Set stall state to stalled */
- cy_as_ll_request_response__set_word(req_p, 1, (uint8_t)state);
-
- if (cb || fcb) {
- void *cbnode;
- cy_as_c_b_queue *queue;
- if (cb) {
- cbnode = cy_as_create_usb_func_c_b_node(cb, client);
- queue = dev_p->usb_func_cbs;
- } else {
- cbnode = cy_as_create_func_c_b_node(fcb, client);
- queue = dev_p->func_cbs_usb;
- req_p->flags |= CY_AS_REQUEST_RESPONSE_EX;
- }
-
- if (cbnode == 0) {
- ret = CY_AS_ERROR_OUT_OF_MEMORY;
- goto destroy;
- } else
- cy_as_insert_c_b_node(queue, cbnode);
-
-
- if (cy_as_device_is_setup_packet(dev_p)) {
- /* No Ack is needed on a stall request on EP0 */
- if ((state == cy_true) && (ep == 0)) {
- cy_as_device_set_ep0_stalled(dev_p);
- } else {
- cy_as_device_set_ack_delayed(dev_p);
- req_p->flags |=
- CY_AS_REQUEST_RESPONSE_DELAY_ACK;
- }
- }
-
- ret = cy_as_ll_send_request(dev_p, req_p,
- reply_p, cy_false, cy_as_usb_func_callback);
- if (ret != CY_AS_ERROR_SUCCESS) {
- if (req_p->flags & CY_AS_REQUEST_RESPONSE_DELAY_ACK)
- cy_as_device_rem_ack_delayed(dev_p);
- cy_as_remove_c_b_tail_node(queue);
-
- goto destroy;
- }
- } else {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) !=
- CY_RESP_SUCCESS_FAILURE) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
-
- if ((ret == CY_AS_ERROR_SUCCESS) &&
- (request == CY_RQT_STALL_ENDPOINT)) {
- if ((ep > 1) && (state != 0) &&
- (dev_p->usb_config[ep].dir == cy_as_usb_out))
- cy_as_usb_flush_logical_e_p(dev_p, ep);
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
- }
-
- return ret;
-}
-
-static cy_as_return_status_t
-my_handle_response_get_stall(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_bool *state_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint8_t code = cy_as_ll_request_response__get_code(reply_p);
-
- if (code == CY_RESP_SUCCESS_FAILURE) {
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- goto destroy;
- } else if (code != CY_RESP_ENDPOINT_STALL) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- *state_p = (cy_bool)cy_as_ll_request_response__get_word(reply_p, 0);
- ret = CY_AS_ERROR_SUCCESS;
-
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-static cy_as_return_status_t
-my_handle_response_get_nak(cy_as_device *dev_p,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_bool *state_p)
-{
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
- uint8_t code = cy_as_ll_request_response__get_code(reply_p);
-
- if (code == CY_RESP_SUCCESS_FAILURE) {
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- goto destroy;
- } else if (code != CY_RESP_ENDPOINT_NAK) {
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- goto destroy;
- }
-
- *state_p = (cy_bool)cy_as_ll_request_response__get_word(reply_p, 0);
- ret = CY_AS_ERROR_SUCCESS;
-
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-static cy_as_return_status_t
-cy_as_usb_get_nak_stall(cy_as_device_handle handle,
- cy_as_end_point_number_t ep,
- uint16_t request,
- uint16_t response,
- cy_bool *state_p,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret;
- cy_as_ll_request_response *req_p , *reply_p;
- uint16_t data;
-
- cy_as_device *dev_p = (cy_as_device *)handle;
-
- (void)response;
-
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_in_callback(dev_p) && !cb)
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- req_p = cy_as_ll_create_request(dev_p, request,
- CY_RQT_USB_RQT_CONTEXT, 1);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* Set the endpoint */
- data = (uint8_t)ep;
- cy_as_ll_request_response__set_word(req_p, 0, (uint16_t)ep);
-
- /* A single status word response type */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p,
- req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (request == CY_RQT_GET_STALL)
- return my_handle_response_get_stall(dev_p,
- req_p, reply_p, state_p);
- else
- return my_handle_response_get_nak(dev_p,
- req_p, reply_p, state_p);
-
- } else {
- cy_as_funct_c_b_type type;
-
- if (request == CY_RQT_GET_STALL)
- type = CY_FUNCT_CB_USB_GETSTALL;
- else
- type = CY_FUNCT_CB_USB_GETNAK;
-
- ret = cy_as_misc_send_request(dev_p, cb, client, type,
- state_p, dev_p->func_cbs_usb, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_usb_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-
-cy_as_return_status_t
-cy_as_usb_set_nak(cy_as_device_handle handle,
- cy_as_end_point_number_t ep,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- /*
- * we send the firmware the EP# with the appropriate direction
- * bit, regardless of what the user gave us.
- */
- ep &= 0x0f;
- if (dev_p->usb_config[ep].dir == cy_as_usb_in)
- ep |= 0x80;
-
- if (dev_p->mtp_count > 0)
- return CY_AS_ERROR_NOT_VALID_IN_MTP;
-
- return cy_as_usb_nak_stall_request(handle, ep,
- CY_RQT_ENDPOINT_SET_NAK, cy_true, 0, cb, client);
-}
-EXPORT_SYMBOL(cy_as_usb_set_nak);
-
-cy_as_return_status_t
-cy_as_usb_clear_nak(cy_as_device_handle handle,
- cy_as_end_point_number_t ep,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- /*
- * we send the firmware the EP# with the appropriate
- * direction bit, regardless of what the user gave us.
- */
- ep &= 0x0f;
- if (dev_p->usb_config[ep].dir == cy_as_usb_in)
- ep |= 0x80;
-
- if (dev_p->mtp_count > 0)
- return CY_AS_ERROR_NOT_VALID_IN_MTP;
-
- return cy_as_usb_nak_stall_request(handle, ep,
- CY_RQT_ENDPOINT_SET_NAK, cy_false, 0, cb, client);
-}
-EXPORT_SYMBOL(cy_as_usb_clear_nak);
-
-cy_as_return_status_t
-cy_as_usb_get_nak(cy_as_device_handle handle,
- cy_as_end_point_number_t ep,
- cy_bool *nak_p,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- /*
- * we send the firmware the EP# with the appropriate
- * direction bit, regardless of what the user gave us.
- */
- ep &= 0x0f;
- if (dev_p->usb_config[ep].dir == cy_as_usb_in)
- ep |= 0x80;
-
- if (dev_p->mtp_count > 0)
- return CY_AS_ERROR_NOT_VALID_IN_MTP;
-
- return cy_as_usb_get_nak_stall(handle, ep,
- CY_RQT_GET_ENDPOINT_NAK, CY_RESP_ENDPOINT_NAK,
- nak_p, cb, client);
-}
-EXPORT_SYMBOL(cy_as_usb_get_nak);
-
-cy_as_return_status_t
-cy_as_usb_set_stall(cy_as_device_handle handle,
- cy_as_end_point_number_t ep,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- /*
- * we send the firmware the EP# with the appropriate
- * direction bit, regardless of what the user gave us.
- */
- ep &= 0x0f;
- if (dev_p->usb_config[ep].dir == cy_as_usb_in)
- ep |= 0x80;
-
- if (dev_p->mtp_turbo_active)
- return CY_AS_ERROR_NOT_VALID_DURING_MTP;
-
- return cy_as_usb_nak_stall_request(handle, ep,
- CY_RQT_STALL_ENDPOINT, cy_true, 0, cb, client);
-}
-EXPORT_SYMBOL(cy_as_usb_set_stall);
-
-cy_as_return_status_t
-cy_as_usb_clear_stall(cy_as_device_handle handle,
- cy_as_end_point_number_t ep,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- /*
- * we send the firmware the EP# with the appropriate
- * direction bit, regardless of what the user gave us.
- */
- ep &= 0x0f;
- if (dev_p->usb_config[ep].dir == cy_as_usb_in)
- ep |= 0x80;
-
- if (dev_p->mtp_turbo_active)
- return CY_AS_ERROR_NOT_VALID_DURING_MTP;
-
- return cy_as_usb_nak_stall_request(handle, ep,
- CY_RQT_STALL_ENDPOINT, cy_false, 0, cb, client);
-}
-EXPORT_SYMBOL(cy_as_usb_clear_stall);
-
-cy_as_return_status_t
-cy_as_usb_get_stall(cy_as_device_handle handle,
- cy_as_end_point_number_t ep,
- cy_bool *stall_p,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- /*
- * we send the firmware the EP# with the appropriate
- * direction bit, regardless of what the user gave us.
- */
- ep &= 0x0f;
- if (dev_p->usb_config[ep].dir == cy_as_usb_in)
- ep |= 0x80;
-
- if (dev_p->mtp_turbo_active)
- return CY_AS_ERROR_NOT_VALID_DURING_MTP;
-
- return cy_as_usb_get_nak_stall(handle, ep,
- CY_RQT_GET_STALL, CY_RESP_ENDPOINT_STALL, stall_p, cb, client);
-}
-EXPORT_SYMBOL(cy_as_usb_get_stall);
-
-cy_as_return_status_t
-cy_as_usb_signal_remote_wakeup(cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret;
- cy_as_ll_request_response *req_p , *reply_p;
-
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if (cy_as_device_is_in_callback(dev_p))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- if (dev_p->usb_last_event != cy_as_event_usb_suspend)
- return CY_AS_ERROR_NOT_IN_SUSPEND;
-
- req_p = cy_as_ll_create_request(dev_p,
- CY_RQT_USB_REMOTE_WAKEUP, CY_RQT_USB_RQT_CONTEXT, 0);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* A single status word response type */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) ==
- CY_RESP_SUCCESS_FAILURE)
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- else
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_USB_SIGNALREMOTEWAKEUP, 0,
- dev_p->func_cbs_usb,
- CY_AS_REQUEST_RESPONSE_EX, req_p,
- reply_p, cy_as_usb_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_usb_signal_remote_wakeup);
-
-cy_as_return_status_t
-cy_as_usb_set_m_s_report_threshold(cy_as_device_handle handle,
- uint32_t wr_sectors,
- uint32_t rd_sectors,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret;
- cy_as_ll_request_response *req_p , *reply_p;
-
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- if ((cb == 0) && (cy_as_device_is_in_callback(dev_p)))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- /* Check if the firmware version supports this feature. */
- if ((dev_p->media_supported[0]) && (dev_p->media_supported[0] ==
- (1 << cy_as_media_nand)))
- return CY_AS_ERROR_NOT_SUPPORTED;
-
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_USB_STORAGE_MONITOR,
- CY_RQT_USB_RQT_CONTEXT, 4);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* A single status word response type */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- /* Set the read and write count parameters into
- * the request structure. */
- cy_as_ll_request_response__set_word(req_p, 0,
- (uint16_t)((wr_sectors >> 16) & 0xFFFF));
- cy_as_ll_request_response__set_word(req_p, 1,
- (uint16_t)(wr_sectors & 0xFFFF));
- cy_as_ll_request_response__set_word(req_p, 2,
- (uint16_t)((rd_sectors >> 16) & 0xFFFF));
- cy_as_ll_request_response__set_word(req_p, 3,
- (uint16_t)(rd_sectors & 0xFFFF));
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) ==
- CY_RESP_SUCCESS_FAILURE)
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- else
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_USB_SET_MSREPORT_THRESHOLD, 0,
- dev_p->func_cbs_usb, CY_AS_REQUEST_RESPONSE_EX,
- req_p, reply_p, cy_as_usb_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_usb_set_m_s_report_threshold);
-
-cy_as_return_status_t
-cy_as_usb_select_m_s_partitions(
- cy_as_device_handle handle,
- cy_as_bus_number_t bus,
- uint32_t device,
- cy_as_usb_m_s_type_t type,
- cy_as_function_callback cb,
- uint32_t client)
-{
- cy_as_return_status_t ret;
- cy_as_ll_request_response *req_p , *reply_p;
- uint16_t val;
-
- cy_as_device *dev_p = (cy_as_device *)handle;
- if (!dev_p || (dev_p->sig != CY_AS_DEVICE_HANDLE_SIGNATURE))
- return CY_AS_ERROR_INVALID_HANDLE;
-
- ret = is_usb_active(dev_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- return ret;
-
- /* This API has to be made before SetEnumConfig is called. */
- if (dev_p->usb_config[0].enabled)
- return CY_AS_ERROR_INVALID_CALL_SEQUENCE;
-
- if ((cb == 0) && (cy_as_device_is_in_callback(dev_p)))
- return CY_AS_ERROR_INVALID_IN_CALLBACK;
-
- req_p = cy_as_ll_create_request(dev_p, CY_RQT_MS_PARTITION_SELECT,
- CY_RQT_USB_RQT_CONTEXT, 2);
- if (req_p == 0)
- return CY_AS_ERROR_OUT_OF_MEMORY;
-
- /* A single status word response type */
- reply_p = cy_as_ll_create_response(dev_p, 1);
- if (reply_p == 0) {
- cy_as_ll_destroy_request(dev_p, req_p);
- return CY_AS_ERROR_OUT_OF_MEMORY;
- }
-
- /* Set the read and write count parameters into
- * the request structure. */
- cy_as_ll_request_response__set_word(req_p, 0,
- (uint16_t)((bus << 8) | device));
-
- val = 0;
- if ((type == cy_as_usb_m_s_unit0) || (type == cy_as_usb_m_s_both))
- val |= 1;
- if ((type == cy_as_usb_m_s_unit1) || (type == cy_as_usb_m_s_both))
- val |= (1 << 8);
-
- cy_as_ll_request_response__set_word(req_p, 1, val);
-
- if (cb == 0) {
- ret = cy_as_ll_send_request_wait_reply(dev_p, req_p, reply_p);
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
-
- if (cy_as_ll_request_response__get_code(reply_p) ==
- CY_RESP_SUCCESS_FAILURE)
- ret = cy_as_ll_request_response__get_word(reply_p, 0);
- else
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- } else {
- ret = cy_as_misc_send_request(dev_p, cb, client,
- CY_FUNCT_CB_NODATA, 0, dev_p->func_cbs_usb,
- CY_AS_REQUEST_RESPONSE_EX, req_p, reply_p,
- cy_as_usb_func_callback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- goto destroy;
- return ret;
- }
-
-destroy:
- cy_as_ll_destroy_request(dev_p, req_p);
- cy_as_ll_destroy_response(dev_p, reply_p);
-
- return ret;
-}
-EXPORT_SYMBOL(cy_as_usb_select_m_s_partitions);
-
-static void
-cy_as_usb_func_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_ll_request_response *rqt,
- cy_as_ll_request_response *resp,
- cy_as_return_status_t stat)
-{
- cy_as_usb_func_c_b_node* node = (cy_as_usb_func_c_b_node *)
- dev_p->usb_func_cbs->head_p;
- cy_as_func_c_b_node* fnode = (cy_as_func_c_b_node *)
- dev_p->func_cbs_usb->head_p;
- cy_as_return_status_t ret = CY_AS_ERROR_SUCCESS;
-
- cy_as_device_handle h = (cy_as_device_handle)dev_p;
- cy_bool delayed_ack = (rqt->flags & CY_AS_REQUEST_RESPONSE_DELAY_ACK)
- == CY_AS_REQUEST_RESPONSE_DELAY_ACK;
- cy_bool ex_request = (rqt->flags & CY_AS_REQUEST_RESPONSE_EX)
- == CY_AS_REQUEST_RESPONSE_EX;
- cy_bool ms_request = (rqt->flags & CY_AS_REQUEST_RESPONSE_MS)
- == CY_AS_REQUEST_RESPONSE_MS;
- uint8_t code;
- uint8_t ep, state;
-
- if (!ex_request && !ms_request) {
- cy_as_hal_assert(dev_p->usb_func_cbs->count != 0);
- cy_as_hal_assert(dev_p->usb_func_cbs->type ==
- CYAS_USB_FUNC_CB);
- } else {
- cy_as_hal_assert(dev_p->func_cbs_usb->count != 0);
- cy_as_hal_assert(dev_p->func_cbs_usb->type == CYAS_FUNC_CB);
- }
-
- (void)context;
-
- /* The Handlers are responsible for Deleting the rqt and resp when
- * they are finished
- */
- code = cy_as_ll_request_response__get_code(rqt);
- switch (code) {
- case CY_RQT_START_USB:
- ret = my_handle_response_usb_start(dev_p, rqt, resp, stat);
- break;
- case CY_RQT_STOP_USB:
- ret = my_handle_response_usb_stop(dev_p, rqt, resp, stat);
- break;
- case CY_RQT_SET_CONNECT_STATE:
- if (!cy_as_ll_request_response__get_word(rqt, 0))
- ret = my_handle_response_disconnect(
- dev_p, rqt, resp, stat);
- else
- ret = my_handle_response_connect(
- dev_p, rqt, resp, stat);
- break;
- case CY_RQT_GET_CONNECT_STATE:
- break;
- case CY_RQT_SET_USB_CONFIG:
- ret = my_handle_response_set_enum_config(dev_p, rqt, resp);
- break;
- case CY_RQT_GET_USB_CONFIG:
- cy_as_hal_assert(fnode->data != 0);
- ret = my_handle_response_get_enum_config(dev_p,
- rqt, resp, fnode->data);
- break;
- case CY_RQT_STALL_ENDPOINT:
- ep = (uint8_t)cy_as_ll_request_response__get_word(rqt, 0);
- state = (uint8_t)cy_as_ll_request_response__get_word(rqt, 1);
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- if ((ret == CY_AS_ERROR_SUCCESS) && (ep > 1) && (state != 0)
- && (dev_p->usb_config[ep].dir == cy_as_usb_out))
- cy_as_usb_flush_logical_e_p(dev_p, ep);
- break;
- case CY_RQT_GET_STALL:
- cy_as_hal_assert(fnode->data != 0);
- ret = my_handle_response_get_stall(dev_p,
- rqt, resp, (cy_bool *)fnode->data);
- break;
- case CY_RQT_SET_DESCRIPTOR:
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- case CY_RQT_GET_DESCRIPTOR:
- cy_as_hal_assert(fnode->data != 0);
- ret = my_handle_response_get_descriptor(dev_p,
- rqt, resp, (cy_as_get_descriptor_data *)fnode->data);
- break;
- case CY_RQT_SET_USB_CONFIG_REGISTERS:
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- if (ret == CY_AS_ERROR_SUCCESS)
- ret = cy_as_usb_setup_dma(dev_p);
- break;
- case CY_RQT_ENDPOINT_SET_NAK:
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- case CY_RQT_GET_ENDPOINT_NAK:
- cy_as_hal_assert(fnode->data != 0);
- ret = my_handle_response_get_nak(dev_p,
- rqt, resp, (cy_bool *)fnode->data);
- break;
- case CY_RQT_ACK_SETUP_PACKET:
- break;
- case CY_RQT_USB_REMOTE_WAKEUP:
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- case CY_RQT_CLEAR_DESCRIPTORS:
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- case CY_RQT_USB_STORAGE_MONITOR:
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- case CY_RQT_MS_PARTITION_SELECT:
- ret = my_handle_response_no_data(dev_p, rqt, resp);
- break;
- default:
- ret = CY_AS_ERROR_INVALID_RESPONSE;
- cy_as_hal_assert(cy_false);
- break;
- }
-
- /*
- * if the low level layer returns a direct error, use
- * the corresponding error code. if not, use the error
- * code based on the response from firmware.
- */
- if (stat == CY_AS_ERROR_SUCCESS)
- stat = ret;
-
- if (ex_request || ms_request) {
- fnode->cb_p((cy_as_device_handle)dev_p, stat,
- fnode->client_data, fnode->data_type, fnode->data);
- cy_as_remove_c_b_node(dev_p->func_cbs_usb);
- } else {
- node->cb_p((cy_as_device_handle)dev_p, stat,
- node->client_data);
- cy_as_remove_c_b_node(dev_p->usb_func_cbs);
- }
-
- if (delayed_ack) {
- cy_as_hal_assert(cy_as_device_is_ack_delayed(dev_p));
- cy_as_device_rem_ack_delayed(dev_p);
-
- /*
- * send the ACK if required.
- */
- if (!cy_as_device_is_ack_delayed(dev_p))
- cy_as_usb_ack_setup_packet(h,
- usb_ack_callback, 0);
- }
-}
-
-
-/*[]*/
+++ /dev/null
-/* Cypress WestBridge OMAP3430 Kernel Hal source file (cyashalomap_kernel.c)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor,
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifdef CONFIG_MACH_OMAP3_WESTBRIDGE_AST_PNAND_HAL
-
-#include <linux/fs.h>
-#include <linux/ioport.h>
-#include <linux/timer.h>
-#include <linux/gpio.h>
-#include <linux/interrupt.h>
-#include <linux/delay.h>
-#include <linux/scatterlist.h>
-#include <linux/mm.h>
-#include <linux/irq.h>
-#include <linux/slab.h>
-#include <linux/sched.h>
-/* include seems broken moving for patch submission
- * #include <mach/mux.h>
- * #include <mach/gpmc.h>
- * #include <mach/westbridge/westbridge-omap3-pnand-hal/cyashalomap_kernel.h>
- * #include <mach/westbridge/westbridge-omap3-pnand-hal/cyasomapdev_kernel.h>
- * #include <mach/westbridge/westbridge-omap3-pnand-hal/cyasmemmap.h>
- * #include <linux/westbridge/cyaserr.h>
- * #include <linux/westbridge/cyasregs.h>
- * #include <linux/westbridge/cyasdma.h>
- * #include <linux/westbridge/cyasintr.h>
- */
-#include <linux/../../arch/arm/plat-omap/include/plat/mux.h>
-#include <linux/../../arch/arm/plat-omap/include/plat/gpmc.h>
-#include "../plat-omap/include/mach/westbridge/westbridge-omap3-pnand-hal/cyashalomap_kernel.h"
-#include "../plat-omap/include/mach/westbridge/westbridge-omap3-pnand-hal/cyasomapdev_kernel.h"
-#include "../plat-omap/include/mach/westbridge/westbridge-omap3-pnand-hal/cyasmemmap.h"
-#include "../../../include/linux/westbridge/cyaserr.h"
-#include "../../../include/linux/westbridge/cyasregs.h"
-#include "../../../include/linux/westbridge/cyasdma.h"
-#include "../../../include/linux/westbridge/cyasintr.h"
-
-#define HAL_REV "1.1.0"
-
-/*
- * uncomment to enable 16bit pnand interface
- */
-#define PNAND_16BIT_MODE
-
-/*
- * selects one of 3 versions of pnand_lbd_read()
- * PNAND_LBD_READ_NO_PFE - original 8/16 bit code
- * reads through the gpmc CONTROLLER REGISTERS
- * ENABLE_GPMC_PF_ENGINE - USES GPMC PFE FIFO reads, in 8 bit mode,
- * same speed as the above
- * PFE_LBD_READ_V2 - slightly diffrenet, performance same as above
- */
-#define PNAND_LBD_READ_NO_PFE
-/* #define ENABLE_GPMC_PF_ENGINE */
-/* #define PFE_LBD_READ_V2 */
-
-/*
- * westbrige astoria ISR options to limit number of
- * back to back DMA transfers per ISR interrupt
- */
-#define MAX_DRQ_LOOPS_IN_ISR 4
-
-/*
- * debug prints enabling
- *#define DBGPRN_ENABLED
- *#define DBGPRN_DMA_SETUP_RD
- *#define DBGPRN_DMA_SETUP_WR
- */
-
-
-/*
- * For performance reasons, we handle storage endpoint transfers up to 4 KB
- * within the HAL itself.
- */
- #define CYASSTORAGE_WRITE_EP_NUM (4)
- #define CYASSTORAGE_READ_EP_NUM (8)
-
-/*
- * size of DMA packet HAL can accept from Storage API
- * HAL will fragment it into smaller chunks that the P port can accept
- */
-#define CYASSTORAGE_MAX_XFER_SIZE (2*32768)
-
-/*
- * P port MAX DMA packet size according to interface/ep configurartion
- */
-#define HAL_DMA_PKT_SZ 512
-
-#define is_storage_e_p(ep) (((ep) == 2) || ((ep) == 4) || \
- ((ep) == 6) || ((ep) == 8))
-
-/*
- * persistent, stores current GPMC interface cfg mode
- */
-static uint8_t pnand_16bit;
-
-/*
- * keep processing new WB DRQ in ISR until all handled (performance feature)
- */
-#define PROCESS_MULTIPLE_DRQ_IN_ISR (1)
-
-
-/*
- * ASTORIA PNAND IF COMMANDS, CASDO - READ, CASDI - WRITE
- */
-#define CASDO 0x05
-#define CASDI 0x85
-#define RDPAGE_B1 0x00
-#define RDPAGE_B2 0x30
-#define PGMPAGE_B1 0x80
-#define PGMPAGE_B2 0x10
-
-/*
- * The type of DMA operation, per endpoint
- */
-typedef enum cy_as_hal_dma_type {
- cy_as_hal_read,
- cy_as_hal_write,
- cy_as_hal_none
-} cy_as_hal_dma_type;
-
-
-/*
- * SG list halpers defined in scaterlist.h
-#define sg_is_chain(sg) ((sg)->page_link & 0x01)
-#define sg_is_last(sg) ((sg)->page_link & 0x02)
-#define sg_chain_ptr(sg) \
- ((struct scatterlist *) ((sg)->page_link & ~0x03))
-*/
-typedef struct cy_as_hal_endpoint_dma {
- cy_bool buffer_valid;
- uint8_t *data_p;
- uint32_t size;
- /*
- * sg_list_enabled - if true use, r/w DMA transfers use sg list,
- * FALSE use pointer to a buffer
- * sg_p - pointer to the owner's sg list, of there is such
- * (like blockdriver)
- * dma_xfer_sz - size of the next dma xfer on P port
- * seg_xfer_cnt - counts xfered bytes for in current sg_list
- * memory segment
- * req_xfer_cnt - total number of bytes transferred so far in
- * current request
- * req_length - total request length
- */
- bool sg_list_enabled;
- struct scatterlist *sg_p;
- uint16_t dma_xfer_sz;
- uint32_t seg_xfer_cnt;
- uint16_t req_xfer_cnt;
- uint16_t req_length;
- cy_as_hal_dma_type type;
- cy_bool pending;
-} cy_as_hal_endpoint_dma;
-
-/*
- * The list of OMAP devices (should be one)
- */
-static cy_as_omap_dev_kernel *m_omap_list_p;
-
-/*
- * The callback to call after DMA operations are complete
- */
-static cy_as_hal_dma_complete_callback callback;
-
-/*
- * Pending data size for the endpoints
- */
-static cy_as_hal_endpoint_dma end_points[16];
-
-/*
- * Forward declaration
- */
-static void cy_handle_d_r_q_interrupt(cy_as_omap_dev_kernel *dev_p);
-
-static uint16_t intr_sequence_num;
-static uint8_t intr__enable;
-spinlock_t int_lock;
-
-static u32 iomux_vma;
-static u32 csa_phy;
-
-/*
- * gpmc I/O registers VMA
- */
-static u32 gpmc_base;
-
-/*
- * gpmc data VMA associated with CS4 (ASTORIA CS on GPMC)
- */
-static u32 gpmc_data_vma;
-static u32 ndata_reg_vma;
-static u32 ncmd_reg_vma;
-static u32 naddr_reg_vma;
-
-/*
- * fwd declarations
- */
-static void p_nand_lbd_read(u16 col_addr, u32 row_addr, u16 count, void *buff);
-static void p_nand_lbd_write(u16 col_addr, u32 row_addr, u16 count, void *buff);
-static inline u16 __attribute__((always_inline))
- ast_p_nand_casdo_read(u8 reg_addr8);
-static inline void __attribute__((always_inline))
- ast_p_nand_casdi_write(u8 reg_addr8, u16 data);
-
-/*
- * prints given number of omap registers
- */
-static void cy_as_hal_print_omap_regs(char *name_prefix,
- u8 name_base, u32 virt_base, u16 count)
-{
- u32 reg_val, reg_addr;
- u16 i;
- cy_as_hal_print_message(KERN_INFO "\n");
- for (i = 0; i < count; i++) {
-
- reg_addr = virt_base + (i*4);
- /* use virtual addresses here*/
- reg_val = __raw_readl(reg_addr);
- cy_as_hal_print_message(KERN_INFO "%s_%d[%8.8x]=%8.8x\n",
- name_prefix, name_base+i,
- reg_addr, reg_val);
- }
-}
-
-/*
- * setMUX function for a pad + additional pad flags
- */
-static u16 omap_cfg_reg_L(u32 pad_func_index)
-{
- static u8 sanity_check = 1;
-
- u32 reg_vma;
- u16 cur_val, wr_val, rdback_val;
-
- /*
- * do sanity check on the omap_mux_pin_cfg[] table
- */
- cy_as_hal_print_message(KERN_INFO" OMAP pins user_pad cfg ");
- if (sanity_check) {
- if ((omap_mux_pin_cfg[END_OF_TABLE].name[0] == 'E') &&
- (omap_mux_pin_cfg[END_OF_TABLE].name[1] == 'N') &&
- (omap_mux_pin_cfg[END_OF_TABLE].name[2] == 'D')) {
-
- cy_as_hal_print_message(KERN_INFO
- "table is good.\n");
- } else {
- cy_as_hal_print_message(KERN_WARNING
- "table is bad, fix it");
- }
- /*
- * do it only once
- */
- sanity_check = 0;
- }
-
- /*
- * get virtual address to the PADCNF_REG
- */
- reg_vma = (u32)iomux_vma + omap_mux_pin_cfg[pad_func_index].offset;
-
- /*
- * add additional USER PU/PD/EN flags
- */
- wr_val = omap_mux_pin_cfg[pad_func_index].mux_val;
- cur_val = IORD16(reg_vma);
-
- /*
- * PADCFG regs 16 bit long, packed into 32 bit regs,
- * can also be accessed as u16
- */
- IOWR16(reg_vma, wr_val);
- rdback_val = IORD16(reg_vma);
-
- /*
- * in case if the caller wants to save the old value
- */
- return wr_val;
-}
-
-#define BLKSZ_4K 0x1000
-
-/*
- * switch GPMC DATA bus mode
- */
-void cy_as_hal_gpmc_enable_16bit_bus(bool dbus16_enabled)
-{
- uint32_t tmp32;
-
- /*
- * disable gpmc CS4 operation 1st
- */
- tmp32 = gpmc_cs_read_reg(AST_GPMC_CS,
- GPMC_CS_CONFIG7) & ~GPMC_CONFIG7_CSVALID;
- gpmc_cs_write_reg(AST_GPMC_CS, GPMC_CS_CONFIG7, tmp32);
-
- /*
- * GPMC NAND data bus can be 8 or 16 bit wide
- */
- if (dbus16_enabled) {
- DBGPRN("enabling 16 bit bus\n");
- gpmc_cs_write_reg(AST_GPMC_CS, GPMC_CS_CONFIG1,
- (GPMC_CONFIG1_DEVICETYPE(2) |
- GPMC_CONFIG1_WAIT_PIN_SEL(2) |
- GPMC_CONFIG1_DEVICESIZE_16)
- );
- } else {
- DBGPRN(KERN_INFO "enabling 8 bit bus\n");
- gpmc_cs_write_reg(AST_GPMC_CS, GPMC_CS_CONFIG1,
- (GPMC_CONFIG1_DEVICETYPE(2) |
- GPMC_CONFIG1_WAIT_PIN_SEL(2))
- );
- }
-
- /*
- * re-enable astoria CS operation on GPMC
- */
- gpmc_cs_write_reg(AST_GPMC_CS, GPMC_CS_CONFIG7,
- (tmp32 | GPMC_CONFIG7_CSVALID));
-
- /*
- *remember the state
- */
- pnand_16bit = dbus16_enabled;
-}
-
-static int cy_as_hal_gpmc_init(void)
-{
- u32 tmp32;
- int err;
- struct gpmc_timings timings;
-
- gpmc_base = (u32)ioremap_nocache(OMAP34XX_GPMC_BASE, BLKSZ_4K);
- DBGPRN(KERN_INFO "kernel has gpmc_base=%x , val@ the base=%x",
- gpmc_base, __raw_readl(gpmc_base)
- );
-
- /*
- * these are globals are full VMAs of the gpmc_base above
- */
- ncmd_reg_vma = GPMC_VMA(AST_GPMC_NAND_CMD);
- naddr_reg_vma = GPMC_VMA(AST_GPMC_NAND_ADDR);
- ndata_reg_vma = GPMC_VMA(AST_GPMC_NAND_DATA);
-
- /*
- * request GPMC CS for ASTORIA request
- */
- if (gpmc_cs_request(AST_GPMC_CS, SZ_16M, (void *)&csa_phy) < 0) {
- cy_as_hal_print_message(KERN_ERR "error failed to request"
- "ncs4 for ASTORIA\n");
- return -1;
- } else {
- DBGPRN(KERN_INFO "got phy_addr:%x for "
- "GPMC CS%d GPMC_CFGREG7[CS4]\n",
- csa_phy, AST_GPMC_CS);
- }
-
- /*
- * request VM region for 4K addr space for chip select 4 phy address
- * technically we don't need it for NAND devices, but do it anyway
- * so that data read/write bus cycle can be triggered by reading
- * or writing this mem region
- */
- if (!request_mem_region(csa_phy, BLKSZ_4K, "AST_OMAP_HAL")) {
- err = -EBUSY;
- cy_as_hal_print_message(KERN_ERR "error MEM region "
- "request for phy_addr:%x failed\n",
- csa_phy);
- goto out_free_cs;
- }
-
- /*
- * REMAP mem region associated with our CS
- */
- gpmc_data_vma = (u32)ioremap_nocache(csa_phy, BLKSZ_4K);
- if (!gpmc_data_vma) {
- err = -ENOMEM;
- cy_as_hal_print_message(KERN_ERR "error- ioremap()"
- "for phy_addr:%x failed", csa_phy);
-
- goto out_release_mem_region;
- }
- cy_as_hal_print_message(KERN_INFO "ioremap(%x) returned vma=%x\n",
- csa_phy, gpmc_data_vma);
-
- gpmc_cs_write_reg(AST_GPMC_CS, GPMC_CS_CONFIG1,
- (GPMC_CONFIG1_DEVICETYPE(2) |
- GPMC_CONFIG1_WAIT_PIN_SEL(2)));
-
- memset(&timings, 0, sizeof(timings));
-
- /* cs timing */
- timings.cs_on = WB_GPMC_CS_t_o_n;
- timings.cs_wr_off = WB_GPMC_BUSCYC_t;
- timings.cs_rd_off = WB_GPMC_BUSCYC_t;
-
- /* adv timing */
- timings.adv_on = WB_GPMC_ADV_t_o_n;
- timings.adv_rd_off = WB_GPMC_BUSCYC_t;
- timings.adv_wr_off = WB_GPMC_BUSCYC_t;
-
- /* oe timing */
- timings.oe_on = WB_GPMC_OE_t_o_n;
- timings.oe_off = WB_GPMC_OE_t_o_f_f;
- timings.access = WB_GPMC_RD_t_a_c_c;
- timings.rd_cycle = WB_GPMC_BUSCYC_t;
-
- /* we timing */
- timings.we_on = WB_GPMC_WE_t_o_n;
- timings.we_off = WB_GPMC_WE_t_o_f_f;
- timings.wr_access = WB_GPMC_WR_t_a_c_c;
- timings.wr_cycle = WB_GPMC_BUSCYC_t;
-
- timings.page_burst_access = WB_GPMC_BUSCYC_t;
- timings.wr_data_mux_bus = WB_GPMC_BUSCYC_t;
- gpmc_cs_set_timings(AST_GPMC_CS, &timings);
-
- cy_as_hal_print_omap_regs("GPMC_CONFIG", 1,
- GPMC_VMA(GPMC_CFG_REG(1, AST_GPMC_CS)), 7);
-
- /*
- * DISABLE cs4, NOTE GPMC REG7 is already configured
- * at this point by gpmc_cs_request
- */
- tmp32 = gpmc_cs_read_reg(AST_GPMC_CS, GPMC_CS_CONFIG7) &
- ~GPMC_CONFIG7_CSVALID;
- gpmc_cs_write_reg(AST_GPMC_CS, GPMC_CS_CONFIG7, tmp32);
-
- /*
- * PROGRAM chip select Region, (see OMAP3430 TRM PAGE 1088)
- */
- gpmc_cs_write_reg(AST_GPMC_CS, GPMC_CS_CONFIG7,
- (AS_CS_MASK | AS_CS_BADDR));
-
- /*
- * by default configure GPMC into 8 bit mode
- * (to match astoria default mode)
- */
- gpmc_cs_write_reg(AST_GPMC_CS, GPMC_CS_CONFIG1,
- (GPMC_CONFIG1_DEVICETYPE(2) |
- GPMC_CONFIG1_WAIT_PIN_SEL(2)));
-
- /*
- * ENABLE astoria cs operation on GPMC
- */
- gpmc_cs_write_reg(AST_GPMC_CS, GPMC_CS_CONFIG7,
- (tmp32 | GPMC_CONFIG7_CSVALID));
-
- /*
- * No method currently exists to write this register through GPMC APIs
- * need to change WAIT2 polarity
- */
- tmp32 = IORD32(GPMC_VMA(GPMC_CONFIG_REG));
- tmp32 = tmp32 | NAND_FORCE_POSTED_WRITE_B | 0x40;
- IOWR32(GPMC_VMA(GPMC_CONFIG_REG), tmp32);
-
- tmp32 = IORD32(GPMC_VMA(GPMC_CONFIG_REG));
- cy_as_hal_print_message("GPMC_CONFIG_REG=0x%x\n", tmp32);
-
- return 0;
-
-out_release_mem_region:
- release_mem_region(csa_phy, BLKSZ_4K);
-
-out_free_cs:
- gpmc_cs_free(AST_GPMC_CS);
-
- return err;
-}
-
-/*
- * west bridge astoria ISR (Interrupt handler)
- */
-static irqreturn_t cy_astoria_int_handler(int irq,
- void *dev_id, struct pt_regs *regs)
-{
- cy_as_omap_dev_kernel *dev_p;
- uint16_t read_val = 0;
- uint16_t mask_val = 0;
-
- /*
- * debug stuff, counts number of loops per one intr trigger
- */
- uint16_t drq_loop_cnt = 0;
- uint8_t irq_pin;
- /*
- * flags to watch
- */
- const uint16_t sentinel = (CY_AS_MEM_P0_INTR_REG_MCUINT |
- CY_AS_MEM_P0_INTR_REG_MBINT |
- CY_AS_MEM_P0_INTR_REG_PMINT |
- CY_AS_MEM_P0_INTR_REG_PLLLOCKINT);
-
- /*
- * sample IRQ pin level (just for statistics)
- */
- irq_pin = __gpio_get_value(AST_INT);
-
- /*
- * this one just for debugging
- */
- intr_sequence_num++;
-
- /*
- * astoria device handle
- */
- dev_p = dev_id;
-
- /*
- * read Astoria intr register
- */
- read_val = cy_as_hal_read_register((cy_as_hal_device_tag)dev_p,
- CY_AS_MEM_P0_INTR_REG);
-
- /*
- * save current mask value
- */
- mask_val = cy_as_hal_read_register((cy_as_hal_device_tag)dev_p,
- CY_AS_MEM_P0_INT_MASK_REG);
-
- DBGPRN("<1>HAL__intr__enter:_seq:%d, P0_INTR_REG:%x\n",
- intr_sequence_num, read_val);
-
- /*
- * Disable WB interrupt signal generation while we are in ISR
- */
- cy_as_hal_write_register((cy_as_hal_device_tag)dev_p,
- CY_AS_MEM_P0_INT_MASK_REG, 0x0000);
-
- /*
- * this is a DRQ Interrupt
- */
- if (read_val & CY_AS_MEM_P0_INTR_REG_DRQINT) {
-
- do {
- /*
- * handle DRQ interrupt
- */
- drq_loop_cnt++;
-
- cy_handle_d_r_q_interrupt(dev_p);
-
- /*
- * spending to much time in ISR may impact
- * average system performance
- */
- if (drq_loop_cnt >= MAX_DRQ_LOOPS_IN_ISR)
- break;
-
- /*
- * Keep processing if there is another DRQ int flag
- */
- } while (cy_as_hal_read_register((cy_as_hal_device_tag)dev_p,
- CY_AS_MEM_P0_INTR_REG) &
- CY_AS_MEM_P0_INTR_REG_DRQINT);
- }
-
- if (read_val & sentinel)
- cy_as_intr_service_interrupt((cy_as_hal_device_tag)dev_p);
-
- DBGPRN("<1>_hal:_intr__exit seq:%d, mask=%4.4x,"
- "int_pin:%d DRQ_jobs:%d\n",
- intr_sequence_num,
- mask_val,
- irq_pin,
- drq_loop_cnt);
-
- /*
- * re-enable WB hw interrupts
- */
- cy_as_hal_write_register((cy_as_hal_device_tag)dev_p,
- CY_AS_MEM_P0_INT_MASK_REG, mask_val);
-
- return IRQ_HANDLED;
-}
-
-static int cy_as_hal_configure_interrupts(void *dev_p)
-{
- int result;
- int irq_pin = AST_INT;
-
- irq_set_irq_type(OMAP_GPIO_IRQ(irq_pin), IRQ_TYPE_LEVEL_LOW);
-
- /*
- * for shared IRQS must provide non NULL device ptr
- * othervise the int won't register
- * */
- result = request_irq(OMAP_GPIO_IRQ(irq_pin),
- (irq_handler_t)cy_astoria_int_handler,
- IRQF_SHARED, "AST_INT#", dev_p);
-
- if (result == 0) {
- /*
- * OMAP_GPIO_IRQ(irq_pin) - omap logical IRQ number
- * assigned to this interrupt
- * OMAP_GPIO_BIT(AST_INT, GPIO_IRQENABLE1) - print status
- * of AST_INT GPIO IRQ_ENABLE FLAG
- */
- cy_as_hal_print_message(KERN_INFO"AST_INT omap_pin:"
- "%d assigned IRQ #%d IRQEN1=%d\n",
- irq_pin,
- OMAP_GPIO_IRQ(irq_pin),
- OMAP_GPIO_BIT(AST_INT, GPIO_IRQENABLE1)
- );
- } else {
- cy_as_hal_print_message("cyasomaphal: interrupt "
- "failed to register\n");
- gpio_free(irq_pin);
- cy_as_hal_print_message(KERN_WARNING
- "ASTORIA: can't get assigned IRQ"
- "%i for INT#\n", OMAP_GPIO_IRQ(irq_pin));
- }
-
- return result;
-}
-
-/*
- * initialize OMAP pads/pins to user defined functions
- */
-static void cy_as_hal_init_user_pads(user_pad_cfg_t *pad_cfg_tab)
-{
- /*
- * browse through the table an dinitiaze the pins
- */
- u32 in_level = 0;
- u16 tmp16, mux_val;
-
- while (pad_cfg_tab->name != NULL) {
-
- if (gpio_request(pad_cfg_tab->pin_num, NULL) == 0) {
-
- pad_cfg_tab->valid = 1;
- mux_val = omap_cfg_reg_L(pad_cfg_tab->mux_func);
-
- /*
- * always set drv level before changing out direction
- */
- __gpio_set_value(pad_cfg_tab->pin_num,
- pad_cfg_tab->drv);
-
- /*
- * "0" - OUT, "1", input omap_set_gpio_direction
- * (pad_cfg_tab->pin_num, pad_cfg_tab->dir);
- */
- if (pad_cfg_tab->dir)
- gpio_direction_input(pad_cfg_tab->pin_num);
- else
- gpio_direction_output(pad_cfg_tab->pin_num,
- pad_cfg_tab->drv);
-
- /* sample the pin */
- in_level = __gpio_get_value(pad_cfg_tab->pin_num);
-
- cy_as_hal_print_message(KERN_INFO "configured %s to "
- "OMAP pad_%d, DIR=%d "
- "DOUT=%d, DIN=%d\n",
- pad_cfg_tab->name,
- pad_cfg_tab->pin_num,
- pad_cfg_tab->dir,
- pad_cfg_tab->drv,
- in_level
- );
- } else {
- /*
- * get the pad_mux value to check on the pin_function
- */
- cy_as_hal_print_message(KERN_INFO "couldn't cfg pin %d"
- "for signal %s, its already taken\n",
- pad_cfg_tab->pin_num,
- pad_cfg_tab->name);
- }
-
- tmp16 = *(u16 *)PADCFG_VMA
- (omap_mux_pin_cfg[pad_cfg_tab->mux_func].offset);
-
- cy_as_hal_print_message(KERN_INFO "GPIO_%d(PAD_CFG=%x,OE=%d"
- "DOUT=%d, DIN=%d IRQEN=%d)\n\n",
- pad_cfg_tab->pin_num, tmp16,
- OMAP_GPIO_BIT(pad_cfg_tab->pin_num, GPIO_OE),
- OMAP_GPIO_BIT(pad_cfg_tab->pin_num, GPIO_DATA_OUT),
- OMAP_GPIO_BIT(pad_cfg_tab->pin_num, GPIO_DATA_IN),
- OMAP_GPIO_BIT(pad_cfg_tab->pin_num, GPIO_IRQENABLE1)
- );
-
- /*
- * next pad_cfg deriptor
- */
- pad_cfg_tab++;
- }
-
- cy_as_hal_print_message(KERN_INFO"pads configured\n");
-}
-
-
-/*
- * release gpios taken by the module
- */
-static void cy_as_hal_release_user_pads(user_pad_cfg_t *pad_cfg_tab)
-{
- while (pad_cfg_tab->name != NULL) {
-
- if (pad_cfg_tab->valid) {
- gpio_free(pad_cfg_tab->pin_num);
- pad_cfg_tab->valid = 0;
- cy_as_hal_print_message(KERN_INFO "GPIO_%d "
- "released from %s\n",
- pad_cfg_tab->pin_num,
- pad_cfg_tab->name);
- } else {
- cy_as_hal_print_message(KERN_INFO "no release "
- "for %s, GPIO_%d, wasn't acquired\n",
- pad_cfg_tab->name,
- pad_cfg_tab->pin_num);
- }
- pad_cfg_tab++;
- }
-}
-
-void cy_as_hal_config_c_s_mux(void)
-{
- /*
- * FORCE the GPMC CS4 pin (it is in use by the zoom system)
- */
- omap_cfg_reg_L(T8_OMAP3430_GPMC_n_c_s4);
-}
-EXPORT_SYMBOL(cy_as_hal_config_c_s_mux);
-
-/*
- * inits all omap h/w
- */
-uint32_t cy_as_hal_processor_hw_init(void)
-{
- int i, err;
-
- cy_as_hal_print_message(KERN_INFO "init OMAP3430 hw...\n");
-
- iomux_vma = (u32)ioremap_nocache(
- (u32)CTLPADCONF_BASE_ADDR, CTLPADCONF_SIZE);
- cy_as_hal_print_message(KERN_INFO "PADCONF_VMA=%x val=%x\n",
- iomux_vma, IORD32(iomux_vma));
-
- /*
- * remap gpio banks
- */
- for (i = 0; i < 6; i++) {
- gpio_vma_tab[i].virt_addr = (u32)ioremap_nocache(
- gpio_vma_tab[i].phy_addr,
- gpio_vma_tab[i].size);
-
- cy_as_hal_print_message(KERN_INFO "%s virt_addr=%x\n",
- gpio_vma_tab[i].name,
- (u32)gpio_vma_tab[i].virt_addr);
- }
-
- /*
- * force OMAP_GPIO_126 to rleased state,
- * will be configured to drive reset
- */
- gpio_free(AST_RESET);
-
- /*
- *same thing with AStoria CS pin
- */
- gpio_free(AST_CS);
-
- /*
- * initialize all the OMAP pads connected to astoria
- */
- cy_as_hal_init_user_pads(user_pad_cfg);
-
- err = cy_as_hal_gpmc_init();
- if (err < 0)
- cy_as_hal_print_message(KERN_INFO"gpmc init failed:%d", err);
-
- cy_as_hal_config_c_s_mux();
-
- return gpmc_data_vma;
-}
-EXPORT_SYMBOL(cy_as_hal_processor_hw_init);
-
-void cy_as_hal_omap_hardware_deinit(cy_as_omap_dev_kernel *dev_p)
-{
- /*
- * free omap hw resources
- */
- if (gpmc_data_vma != 0)
- iounmap((void *)gpmc_data_vma);
-
- if (csa_phy != 0)
- release_mem_region(csa_phy, BLKSZ_4K);
-
- gpmc_cs_free(AST_GPMC_CS);
-
- free_irq(OMAP_GPIO_IRQ(AST_INT), dev_p);
-
- cy_as_hal_release_user_pads(user_pad_cfg);
-}
-
-/*
- * These are the functions that are not part of the
- * HAL layer, but are required to be called for this HAL
- */
-
-/*
- * Called On AstDevice LKM exit
- */
-int stop_o_m_a_p_kernel(const char *pgm, cy_as_hal_device_tag tag)
-{
- cy_as_omap_dev_kernel *dev_p = (cy_as_omap_dev_kernel *)tag;
-
- /*
- * TODO: Need to disable WB interrupt handlere 1st
- */
- if (0 == dev_p)
- return 1;
-
- cy_as_hal_print_message("<1>_stopping OMAP34xx HAL layer object\n");
- if (dev_p->m_sig != CY_AS_OMAP_KERNEL_HAL_SIG) {
- cy_as_hal_print_message("<1>%s: %s: bad HAL tag\n",
- pgm, __func__);
- return 1;
- }
-
- /*
- * disable interrupt
- */
- cy_as_hal_write_register((cy_as_hal_device_tag)dev_p,
- CY_AS_MEM_P0_INT_MASK_REG, 0x0000);
-
-#if 0
- if (dev_p->thread_flag == 0) {
- dev_p->thread_flag = 1;
- wait_for_completion(&dev_p->thread_complete);
- cy_as_hal_print_message("cyasomaphal:"
- "done cleaning thread\n");
- cy_as_hal_destroy_sleep_channel(&dev_p->thread_sc);
- }
-#endif
-
- cy_as_hal_omap_hardware_deinit(dev_p);
-
- /*
- * Rearrange the list
- */
- if (m_omap_list_p == dev_p)
- m_omap_list_p = dev_p->m_next_p;
-
- cy_as_hal_free(dev_p);
-
- cy_as_hal_print_message(KERN_INFO"OMAP_kernel_hal stopped\n");
- return 0;
-}
-
-int omap_start_intr(cy_as_hal_device_tag tag)
-{
- cy_as_omap_dev_kernel *dev_p = (cy_as_omap_dev_kernel *)tag;
- int ret = 0;
- const uint16_t mask = CY_AS_MEM_P0_INTR_REG_DRQINT |
- CY_AS_MEM_P0_INTR_REG_MBINT;
-
- /*
- * register for interrupts
- */
- ret = cy_as_hal_configure_interrupts(dev_p);
-
- /*
- * enable only MBox & DRQ interrupts for now
- */
- cy_as_hal_write_register((cy_as_hal_device_tag)dev_p,
- CY_AS_MEM_P0_INT_MASK_REG, mask);
-
- return 1;
-}
-
-/*
- * Below are the functions that communicate with the WestBridge device.
- * These are system dependent and must be defined by the HAL layer
- * for a given system.
- */
-
-/*
- * GPMC NAND command+addr write phase
- */
-static inline void nand_cmd_n_addr(u8 cmdb1, u16 col_addr, u32 row_addr)
-{
- /*
- * byte order on the bus <cmd> <CA0,CA1,RA0,RA1, RA2>
- */
- u32 tmpa32 = ((row_addr << 16) | col_addr);
- u8 RA2 = (u8)(row_addr >> 16);
-
- if (!pnand_16bit) {
- /*
- * GPMC PNAND 8bit BUS
- */
- /*
- * CMD1
- */
- IOWR8(ncmd_reg_vma, cmdb1);
-
- /*
- *pnand bus: <CA0,CA1,RA0,RA1>
- */
- IOWR32(naddr_reg_vma, tmpa32);
-
- /*
- * <RA2> , always zero
- */
- IOWR8(naddr_reg_vma, RA2);
-
- } else {
- /*
- * GPMC PNAND 16bit BUS , in 16 bit mode CMD
- * and ADDR sent on [d7..d0]
- */
- uint8_t CA0, CA1, RA0, RA1;
- CA0 = tmpa32 & 0x000000ff;
- CA1 = (tmpa32 >> 8) & 0x000000ff;
- RA0 = (tmpa32 >> 16) & 0x000000ff;
- RA1 = (tmpa32 >> 24) & 0x000000ff;
-
- /*
- * can't use 32 bit writes here omap will not serialize
- * them to lower half in16 bit mode
- */
-
- /*
- *pnand bus: <CMD1, CA0,CA1,RA0,RA1, RA2 (always zero)>
- */
- IOWR8(ncmd_reg_vma, cmdb1);
- IOWR8(naddr_reg_vma, CA0);
- IOWR8(naddr_reg_vma, CA1);
- IOWR8(naddr_reg_vma, RA0);
- IOWR8(naddr_reg_vma, RA1);
- IOWR8(naddr_reg_vma, RA2);
- }
-}
-
-/*
- * spin until r/b goes high
- */
-inline int wait_rn_b_high(void)
-{
- u32 w_spins = 0;
-
- /*
- * TODO: note R/b may go low here, need to spin until high
- * while (omap_get_gpio_datain(AST_RnB) == 0) {
- * w_spins++;
- * }
- * if (OMAP_GPIO_BIT(AST_RnB, GPIO_DATA_IN) == 0) {
- *
- * while (OMAP_GPIO_BIT(AST_RnB, GPIO_DATA_IN) == 0) {
- * w_spins++;
- * }
- * printk("<1>RnB=0!:%d\n",w_spins);
- * }
- */
- return w_spins;
-}
-
-#ifdef ENABLE_GPMC_PF_ENGINE
-/* #define PFE_READ_DEBUG
- * PNAND block read with OMAP PFE enabled
- * status: Not tested, NW, broken , etc
- */
-static void p_nand_lbd_read(u16 col_addr, u32 row_addr, u16 count, void *buff)
-{
- uint16_t w32cnt;
- uint32_t *ptr32;
- uint8_t *ptr8;
- uint8_t bytes_in_fifo;
-
- /* debug vars*/
-#ifdef PFE_READ_DEBUG
- uint32_t loop_limit;
- uint16_t bytes_read = 0;
-#endif
-
- /*
- * configure the prefetch engine
- */
- uint32_t tmp32;
- uint32_t pfe_status;
-
- /*
- * DISABLE GPMC CS4 operation 1st, this is
- * in case engine is be already disabled
- */
- IOWR32(GPMC_VMA(GPMC_PREFETCH_CONTROL), 0x0);
- IOWR32(GPMC_VMA(GPMC_PREFETCH_CONFIG1), GPMC_PREFETCH_CONFIG1_VAL);
- IOWR32(GPMC_VMA(GPMC_PREFETCH_CONFIG2), count);
-
-#ifdef PFE_READ_DEBUG
- tmp32 = IORD32(GPMC_VMA(GPMC_PREFETCH_CONFIG1));
- if (tmp32 != GPMC_PREFETCH_CONFIG1_VAL) {
- printk(KERN_INFO "<1> prefetch is CONFIG1 read val:%8.8x, != VAL written:%8.8x\n",
- tmp32, GPMC_PREFETCH_CONFIG1_VAL);
- tmp32 = IORD32(GPMC_VMA(GPMC_PREFETCH_STATUS));
- printk(KERN_INFO "<1> GPMC_PREFETCH_STATUS : %8.8x\n", tmp32);
- }
-
- /*
- *sanity check 2
- */
- tmp32 = IORD32(GPMC_VMA(GPMC_PREFETCH_CONFIG2));
- if (tmp32 != (count))
- printk(KERN_INFO "<1> GPMC_PREFETCH_CONFIG2 read val:%d, "
- "!= VAL written:%d\n", tmp32, count);
-#endif
-
- /*
- * ISSUE PNAND CMD+ADDR, note gpmc puts 32b words
- * on the bus least sig. byte 1st
- */
- nand_cmd_n_addr(RDPAGE_B1, col_addr, row_addr);
-
- IOWR8(ncmd_reg_vma, RDPAGE_B2);
-
- /*
- * start the prefetch engine
- */
- IOWR32(GPMC_VMA(GPMC_PREFETCH_CONTROL), 0x1);
-
- ptr32 = buff;
-
- while (1) {
- /*
- * GPMC PFE service loop
- */
- do {
- /*
- * spin until PFE fetched some
- * PNAND bus words in the FIFO
- */
- pfe_status = IORD32(GPMC_VMA(GPMC_PREFETCH_STATUS));
- bytes_in_fifo = (pfe_status >> 24) & 0x7f;
- } while (bytes_in_fifo == 0);
-
- /* whole 32 bit words in fifo */
- w32cnt = bytes_in_fifo >> 2;
-
-#if 0
- /*
- *NOTE: FIFO_PTR indicates number of NAND bus words bytes
- * already received in the FIFO and available to be read
- * by DMA or MPU whether COUNTVAL indicates number of BUS
- * words yet to be read from PNAND bus words
- */
- printk(KERN_ERR "<1> got PF_STATUS:%8.8x FIFO_PTR:%d, COUNTVAL:%d, w32cnt:%d\n",
- pfe_status, bytes_in_fifo,
- (pfe_status & 0x3fff), w32cnt);
-#endif
-
- while (w32cnt--)
- *ptr32++ = IORD32(gpmc_data_vma);
-
- if ((pfe_status & 0x3fff) == 0) {
- /*
- * PFE acc angine done, there still may be data leftover
- * in the FIFO re-read FIFO BYTE counter (check for
- * leftovers from 32 bit read accesses above)
- */
- bytes_in_fifo = (IORD32(
- GPMC_VMA(GPMC_PREFETCH_STATUS)) >> 24) & 0x7f;
-
- /*
- * NOTE we may still have one word left in the fifo
- * read it out
- */
- ptr8 = ptr32;
- switch (bytes_in_fifo) {
-
- case 0:
- /*
- * nothing to do we already read the
- * FIFO out with 32 bit accesses
- */
- break;
- case 1:
- /*
- * this only possible
- * for 8 bit pNAND only
- */
- *ptr8 = IORD8(gpmc_data_vma);
- break;
-
- case 2:
- /*
- * this one can occur in either modes
- */
- *(uint16_t *)ptr8 = IORD16(gpmc_data_vma);
- break;
-
- case 3:
- /*
- * this only possible for 8 bit pNAND only
- */
- *(uint16_t *)ptr8 = IORD16(gpmc_data_vma);
- ptr8 += 2;
- *ptr8 = IORD8(gpmc_data_vma);
- break;
-
- case 4:
- /*
- * shouldn't happen, but has been seen
- * in 8 bit mode
- */
- *ptr32 = IORD32(gpmc_data_vma);
- break;
-
- default:
- printk(KERN_ERR"<1>_error: PFE FIFO bytes leftover is not read:%d\n",
- bytes_in_fifo);
- break;
- }
- /*
- * read is completed, get out of the while(1) loop
- */
- break;
- }
- }
-}
-#endif
-
-#ifdef PFE_LBD_READ_V2
-/*
- * PFE engine assisted reads with the 64 byte blocks
- */
-static void p_nand_lbd_read(u16 col_addr, u32 row_addr, u16 count, void *buff)
-{
- uint8_t rd_cnt;
- uint32_t *ptr32;
- uint8_t *ptr8;
- uint16_t reminder;
- uint32_t pfe_status;
-
- /*
- * ISSUE PNAND CMD+ADDR
- * note gpmc puts 32b words on the bus least sig. byte 1st
- */
- nand_cmd_n_addr(RDPAGE_B1, col_addr, row_addr);
- IOWR8(ncmd_reg_vma, RDPAGE_B2);
-
- /*
- * setup PFE block
- * count - OMAP number of bytes to access on pnand bus
- */
-
- IOWR32(GPMC_VMA(GPMC_PREFETCH_CONFIG1), GPMC_PREFETCH_CONFIG1_VAL);
- IOWR32(GPMC_VMA(GPMC_PREFETCH_CONFIG2), count);
- IOWR32(GPMC_VMA(GPMC_PREFETCH_CONTROL), 0x1);
-
- ptr32 = buff;
-
- do {
- pfe_status = IORD32(GPMC_VMA(GPMC_PREFETCH_STATUS));
- rd_cnt = pfe_status >> (24+2);
-
- while (rd_cnt--)
- *ptr32++ = IORD32(gpmc_data_vma);
-
- } while (pfe_status & 0x3fff);
-
- /*
- * read out the leftover
- */
- ptr8 = ptr32;
- rd_cnt = (IORD32(GPMC_VMA(GPMC_PREFETCH_STATUS)) >> 24) & 0x7f;
-
- while (rd_cnt--)
- *ptr8++ = IORD8(gpmc_data_vma);
-}
-#endif
-
-#ifdef PNAND_LBD_READ_NO_PFE
-/*
- * Endpoint buffer read w/o OMAP GPMC Prefetch Engine
- * the original working code, works at max speed for 8 bit xfers
- * for 16 bit the bus diagram has gaps
- */
-static void p_nand_lbd_read(u16 col_addr, u32 row_addr, u16 count, void *buff)
-{
- uint16_t w32cnt;
- uint32_t *ptr32;
- uint16_t *ptr16;
- uint16_t remainder;
-
- DBGPRN("<1> %s(): NO_PFE\n", __func__);
-
- ptr32 = buff;
- /* number of whole 32 bit words in the transfer */
- w32cnt = count >> 2;
-
- /* remainder, in bytes(0..3) */
- remainder = count & 03;
-
- /*
- * note gpmc puts 32b words on the bus least sig. byte 1st
- */
- nand_cmd_n_addr(RDPAGE_B1, col_addr, row_addr);
- IOWR8(ncmd_reg_vma, RDPAGE_B2);
-
- /*
- * read data by 32 bit chunks
- */
- while (w32cnt--)
- *ptr32++ = IORD32(ndata_reg_vma);
-
- /*
- * now do the remainder(it can be 0, 1, 2 or 3)
- * same code for both 8 & 16 bit bus
- * do 1 or 2 MORE words
- */
- ptr16 = (uint16_t *)ptr32;
-
- switch (remainder) {
- case 1:
- /* read one 16 bit word
- * IN 8 BIT WE NEED TO READ even number of bytes
- */
- case 2:
- *ptr16 = IORD16(ndata_reg_vma);
- break;
- case 3:
- /*
- * for 3 bytes read 2 16 bit words
- */
- *ptr16++ = IORD16(ndata_reg_vma);
- *ptr16 = IORD16(ndata_reg_vma);
- break;
- default:
- /*
- * remainder is 0
- */
- break;
- }
-}
-#endif
-
-/*
- * uses LBD mode to write N bytes into astoria
- * Status: Working, however there are 150ns idle
- * timeafter every 2 (16 bit or 4(8 bit) bus cycles
- */
-static void p_nand_lbd_write(u16 col_addr, u32 row_addr, u16 count, void *buff)
-{
- uint16_t w32cnt;
- uint16_t remainder;
- uint8_t *ptr8;
- uint16_t *ptr16;
- uint32_t *ptr32;
-
- remainder = count & 03;
- w32cnt = count >> 2;
- ptr32 = buff;
- ptr8 = buff;
-
- /*
- * send: CMDB1, CA0,CA1,RA0,RA1,RA2
- */
- nand_cmd_n_addr(PGMPAGE_B1, col_addr, row_addr);
-
- /*
- * blast the data out in 32bit chunks
- */
- while (w32cnt--)
- IOWR32(ndata_reg_vma, *ptr32++);
-
- /*
- * do the reminder if there is one
- * same handling for both 8 & 16 bit pnand: mode
- */
- ptr16 = (uint16_t *)ptr32; /* do 1 or 2 words */
-
- switch (remainder) {
- case 1:
- /*
- * read one 16 bit word
- */
- case 2:
- IOWR16(ndata_reg_vma, *ptr16);
- break;
-
- case 3:
- /*
- * for 3 bytes read 2 16 bit words
- */
- IOWR16(ndata_reg_vma, *ptr16++);
- IOWR16(ndata_reg_vma, *ptr16);
- break;
- default:
- /*
- * reminder is 0
- */
- break;
- }
- /*
- * finally issue a PGM cmd
- */
- IOWR8(ncmd_reg_vma, PGMPAGE_B2);
-}
-
-/*
- * write Astoria register
- */
-static inline void ast_p_nand_casdi_write(u8 reg_addr8, u16 data)
-{
- unsigned long flags;
- u16 addr16;
- /*
- * throw an error if called from multiple threads
- */
- static atomic_t rdreg_usage_cnt = { 0 };
-
- /*
- * disable interrupts
- */
- local_irq_save(flags);
-
- if (atomic_read(&rdreg_usage_cnt) != 0) {
- cy_as_hal_print_message(KERN_ERR "cy_as_omap_hal:"
- "* cy_as_hal_write_register usage:%d\n",
- atomic_read(&rdreg_usage_cnt));
- }
-
- atomic_inc(&rdreg_usage_cnt);
-
- /*
- * 2 flavors of GPMC -> PNAND access
- */
- if (pnand_16bit) {
- /*
- * 16 BIT gpmc NAND mode
- */
-
- /*
- * CMD1, CA1, CA2,
- */
- IOWR8(ncmd_reg_vma, 0x85);
- IOWR8(naddr_reg_vma, reg_addr8);
- IOWR8(naddr_reg_vma, 0x0c);
-
- /*
- * this should be sent on the 16 bit bus
- */
- IOWR16(ndata_reg_vma, data);
- } else {
- /*
- * 8 bit nand mode GPMC will automatically
- * seriallize 16bit or 32 bit writes into
- * 8 bit onesto the lower 8 bit in LE order
- */
- addr16 = 0x0c00 | reg_addr8;
-
- /*
- * CMD1, CA1, CA2,
- */
- IOWR8(ncmd_reg_vma, 0x85);
- IOWR16(naddr_reg_vma, addr16);
- IOWR16(ndata_reg_vma, data);
- }
-
- /*
- * re-enable interrupts
- */
- atomic_dec(&rdreg_usage_cnt);
- local_irq_restore(flags);
-}
-
-
-/*
- * read astoria register via pNAND interface
- */
-static inline u16 ast_p_nand_casdo_read(u8 reg_addr8)
-{
- u16 data;
- u16 addr16;
- unsigned long flags;
- /*
- * throw an error if called from multiple threads
- */
- static atomic_t wrreg_usage_cnt = { 0 };
-
- /*
- * disable interrupts
- */
- local_irq_save(flags);
-
- if (atomic_read(&wrreg_usage_cnt) != 0) {
- /*
- * if it gets here ( from other threads), this function needs
- * need spin_lock_irq save() protection
- */
- cy_as_hal_print_message(KERN_ERR"cy_as_omap_hal: "
- "cy_as_hal_write_register usage:%d\n",
- atomic_read(&wrreg_usage_cnt));
- }
- atomic_inc(&wrreg_usage_cnt);
-
- /*
- * 2 flavors of GPMC -> PNAND access
- */
- if (pnand_16bit) {
- /*
- * 16 BIT gpmc NAND mode
- * CMD1, CA1, CA2,
- */
-
- IOWR8(ncmd_reg_vma, 0x05);
- IOWR8(naddr_reg_vma, reg_addr8);
- IOWR8(naddr_reg_vma, 0x0c);
- IOWR8(ncmd_reg_vma, 0x00E0);
-
- udelay(1);
-
- /*
- * much faster through the gPMC Register space
- */
- data = IORD16(ndata_reg_vma);
- } else {
- /*
- * 8 BIT gpmc NAND mode
- * CMD1, CA1, CA2, CMD2
- */
- addr16 = 0x0c00 | reg_addr8;
- IOWR8(ncmd_reg_vma, 0x05);
- IOWR16(naddr_reg_vma, addr16);
- IOWR8(ncmd_reg_vma, 0xE0);
- udelay(1);
- data = IORD16(ndata_reg_vma);
- }
-
- /*
- * re-enable interrupts
- */
- atomic_dec(&wrreg_usage_cnt);
- local_irq_restore(flags);
-
- return data;
-}
-
-
-/*
- * This function must be defined to write a register within the WestBridge
- * device. The addr value is the address of the register to write with
- * respect to the base address of the WestBridge device.
- */
-void cy_as_hal_write_register(
- cy_as_hal_device_tag tag,
- uint16_t addr, uint16_t data)
-{
- ast_p_nand_casdi_write((u8)addr, data);
-}
-
-/*
- * This function must be defined to read a register from the WestBridge
- * device. The addr value is the address of the register to read with
- * respect to the base address of the WestBridge device.
- */
-uint16_t cy_as_hal_read_register(cy_as_hal_device_tag tag, uint16_t addr)
-{
- uint16_t data = 0;
-
- /*
- * READ ASTORIA REGISTER USING CASDO
- */
- data = ast_p_nand_casdo_read((u8)addr);
-
- return data;
-}
-
-/*
- * preps Ep pointers & data counters for next packet
- * (fragment of the request) xfer returns true if
- * there is a next transfer, and false if all bytes in
- * current request have been xfered
- */
-static inline bool prep_for_next_xfer(cy_as_hal_device_tag tag, uint8_t ep)
-{
-
- if (!end_points[ep].sg_list_enabled) {
- /*
- * no further transfers for non storage EPs
- * (like EP2 during firmware download, done
- * in 64 byte chunks)
- */
- if (end_points[ep].req_xfer_cnt >= end_points[ep].req_length) {
- DBGPRN("<1> %s():RQ sz:%d non-_sg EP:%d completed\n",
- __func__, end_points[ep].req_length, ep);
-
- /*
- * no more transfers, we are done with the request
- */
- return false;
- }
-
- /*
- * calculate size of the next DMA xfer, corner
- * case for non-storage EPs where transfer size
- * is not egual N * HAL_DMA_PKT_SZ xfers
- */
- if ((end_points[ep].req_length - end_points[ep].req_xfer_cnt)
- >= HAL_DMA_PKT_SZ) {
- end_points[ep].dma_xfer_sz = HAL_DMA_PKT_SZ;
- } else {
- /*
- * that would be the last chunk less
- * than P-port max size
- */
- end_points[ep].dma_xfer_sz = end_points[ep].req_length -
- end_points[ep].req_xfer_cnt;
- }
-
- return true;
- }
-
- /*
- * for SG_list assisted dma xfers
- * are we done with current SG ?
- */
- if (end_points[ep].seg_xfer_cnt == end_points[ep].sg_p->length) {
- /*
- * was it the Last SG segment on the list ?
- */
- if (sg_is_last(end_points[ep].sg_p)) {
- DBGPRN("<1> %s: EP:%d completed,"
- "%d bytes xfered\n",
- __func__,
- ep,
- end_points[ep].req_xfer_cnt
- );
-
- return false;
- } else {
- /*
- * There are more SG segments in current
- * request's sg list setup new segment
- */
-
- end_points[ep].seg_xfer_cnt = 0;
- end_points[ep].sg_p = sg_next(end_points[ep].sg_p);
- /* set data pointer for next DMA sg transfer*/
- end_points[ep].data_p = sg_virt(end_points[ep].sg_p);
- DBGPRN("<1> %s new SG:_va:%p\n\n",
- __func__, end_points[ep].data_p);
- }
-
- }
-
- /*
- * for sg list xfers it will always be 512 or 1024
- */
- end_points[ep].dma_xfer_sz = HAL_DMA_PKT_SZ;
-
- /*
- * next transfer is required
- */
-
- return true;
-}
-
-/*
- * Astoria DMA read request, APP_CPU reads from WB ep buffer
- */
-static void cy_service_e_p_dma_read_request(
- cy_as_omap_dev_kernel *dev_p, uint8_t ep)
-{
- cy_as_hal_device_tag tag = (cy_as_hal_device_tag)dev_p;
- uint16_t v, size;
- void *dptr;
- uint16_t col_addr = 0x0000;
- uint32_t row_addr = CYAS_DEV_CALC_EP_ADDR(ep);
- uint16_t ep_dma_reg = CY_AS_MEM_P0_EP2_DMA_REG + ep - 2;
-
- /*
- * get the XFER size frtom WB eP DMA REGISTER
- */
- v = cy_as_hal_read_register(tag, ep_dma_reg);
-
- /*
- * amount of data in EP buff in bytes
- */
- size = v & CY_AS_MEM_P0_E_pn_DMA_REG_COUNT_MASK;
-
- /*
- * memory pointer for this DMA packet xfer (sub_segment)
- */
- dptr = end_points[ep].data_p;
-
- DBGPRN("<1>HAL:_svc_dma_read on EP_%d sz:%d, intr_seq:%d, dptr:%p\n",
- ep,
- size,
- intr_sequence_num,
- dptr
- );
-
- cy_as_hal_assert(size != 0);
-
- if (size) {
- /*
- * the actual WB-->OMAP memory "soft" DMA xfer
- */
- p_nand_lbd_read(col_addr, row_addr, size, dptr);
- }
-
- /*
- * clear DMAVALID bit indicating that the data has been read
- */
- cy_as_hal_write_register(tag, ep_dma_reg, 0);
-
- end_points[ep].seg_xfer_cnt += size;
- end_points[ep].req_xfer_cnt += size;
-
- /*
- * pre-advance data pointer (if it's outside sg
- * list it will be reset anyway
- */
- end_points[ep].data_p += size;
-
- if (prep_for_next_xfer(tag, ep)) {
- /*
- * we have more data to read in this request,
- * setup next dma packet due tell WB how much
- * data we are going to xfer next
- */
- v = end_points[ep].dma_xfer_sz/*HAL_DMA_PKT_SZ*/ |
- CY_AS_MEM_P0_E_pn_DMA_REG_DMAVAL;
- cy_as_hal_write_register(tag, ep_dma_reg, v);
- } else {
- end_points[ep].pending = cy_false;
- end_points[ep].type = cy_as_hal_none;
- end_points[ep].buffer_valid = cy_false;
-
- /*
- * notify the API that we are done with rq on this EP
- */
- if (callback) {
- DBGPRN("<1>trigg rd_dma completion cb: xfer_sz:%d\n",
- end_points[ep].req_xfer_cnt);
- callback(tag, ep,
- end_points[ep].req_xfer_cnt,
- CY_AS_ERROR_SUCCESS);
- }
- }
-}
-
-/*
- * omap_cpu needs to transfer data to ASTORIA EP buffer
- */
-static void cy_service_e_p_dma_write_request(
- cy_as_omap_dev_kernel *dev_p, uint8_t ep)
-{
- uint16_t addr;
- uint16_t v = 0;
- uint32_t size;
- uint16_t col_addr = 0x0000;
- uint32_t row_addr = CYAS_DEV_CALC_EP_ADDR(ep);
- void *dptr;
-
- cy_as_hal_device_tag tag = (cy_as_hal_device_tag)dev_p;
- /*
- * note: size here its the size of the dma transfer could be
- * anything > 0 && < P_PORT packet size
- */
- size = end_points[ep].dma_xfer_sz;
- dptr = end_points[ep].data_p;
-
- /*
- * perform the soft DMA transfer, soft in this case
- */
- if (size)
- p_nand_lbd_write(col_addr, row_addr, size, dptr);
-
- end_points[ep].seg_xfer_cnt += size;
- end_points[ep].req_xfer_cnt += size;
- /*
- * pre-advance data pointer
- * (if it's outside sg list it will be reset anyway)
- */
- end_points[ep].data_p += size;
-
- /*
- * now clear DMAVAL bit to indicate we are done
- * transferring data and that the data can now be
- * sent via USB to the USB host, sent to storage,
- * or used internally.
- */
-
- addr = CY_AS_MEM_P0_EP2_DMA_REG + ep - 2;
- cy_as_hal_write_register(tag, addr, size);
-
- /*
- * finally, tell the USB subsystem that the
- * data is gone and we can accept the
- * next request if one exists.
- */
- if (prep_for_next_xfer(tag, ep)) {
- /*
- * There is more data to go. Re-init the WestBridge DMA side
- */
- v = end_points[ep].dma_xfer_sz |
- CY_AS_MEM_P0_E_pn_DMA_REG_DMAVAL;
- cy_as_hal_write_register(tag, addr, v);
- } else {
-
- end_points[ep].pending = cy_false;
- end_points[ep].type = cy_as_hal_none;
- end_points[ep].buffer_valid = cy_false;
-
- /*
- * notify the API that we are done with rq on this EP
- */
- if (callback) {
- /*
- * this callback will wake up the process that might be
- * sleeping on the EP which data is being transferred
- */
- callback(tag, ep,
- end_points[ep].req_xfer_cnt,
- CY_AS_ERROR_SUCCESS);
- }
- }
-}
-
-/*
- * HANDLE DRQINT from Astoria (called in AS_Intr context
- */
-static void cy_handle_d_r_q_interrupt(cy_as_omap_dev_kernel *dev_p)
-{
- uint16_t v;
- static uint8_t service_ep = 2;
-
- /*
- * We've got DRQ INT, read DRQ STATUS Register */
- v = cy_as_hal_read_register((cy_as_hal_device_tag)dev_p,
- CY_AS_MEM_P0_DRQ);
-
- if (v == 0) {
-#ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("stray DRQ interrupt detected\n");
-#endif
- return;
- }
-
- /*
- * Now, pick a given DMA request to handle, for now, we just
- * go round robin. Each bit position in the service_mask
- * represents an endpoint from EP2 to EP15. We rotate through
- * each of the endpoints to find one that needs to be serviced.
- */
- while ((v & (1 << service_ep)) == 0) {
-
- if (service_ep == 15)
- service_ep = 2;
- else
- service_ep++;
- }
-
- if (end_points[service_ep].type == cy_as_hal_write) {
- /*
- * handle DMA WRITE REQUEST: app_cpu will
- * write data into astoria EP buffer
- */
- cy_service_e_p_dma_write_request(dev_p, service_ep);
- } else if (end_points[service_ep].type == cy_as_hal_read) {
- /*
- * handle DMA READ REQUEST: cpu will
- * read EP buffer from Astoria
- */
- cy_service_e_p_dma_read_request(dev_p, service_ep);
- }
-#ifndef WESTBRIDGE_NDEBUG
- else
- cy_as_hal_print_message("cyashalomap:interrupt,"
- " w/o pending DMA job,"
- "-check DRQ_MASK logic\n");
-#endif
-
- /*
- * Now bump the EP ahead, so other endpoints get
- * a shot before the one we just serviced
- */
- if (end_points[service_ep].type == cy_as_hal_none) {
- if (service_ep == 15)
- service_ep = 2;
- else
- service_ep++;
- }
-
-}
-
-void cy_as_hal_dma_cancel_request(cy_as_hal_device_tag tag, uint8_t ep)
-{
- DBGPRN("cy_as_hal_dma_cancel_request on ep:%d", ep);
- if (end_points[ep].pending)
- cy_as_hal_write_register(tag,
- CY_AS_MEM_P0_EP2_DMA_REG + ep - 2, 0);
-
- end_points[ep].buffer_valid = cy_false;
- end_points[ep].type = cy_as_hal_none;
-}
-
-/*
- * enables/disables SG list assisted DMA xfers for the given EP
- * sg_list assisted XFERS can use physical addresses of mem pages in case if the
- * xfer is performed by a h/w DMA controller rather then the CPU on P port
- */
-void cy_as_hal_set_ep_dma_mode(uint8_t ep, bool sg_xfer_enabled)
-{
- end_points[ep].sg_list_enabled = sg_xfer_enabled;
- DBGPRN("<1> EP:%d sg_list assisted DMA mode set to = %d\n",
- ep, end_points[ep].sg_list_enabled);
-}
-EXPORT_SYMBOL(cy_as_hal_set_ep_dma_mode);
-
-/*
- * This function must be defined to transfer a block of data to
- * the WestBridge device. This function can use the burst write
- * (DMA) capabilities of WestBridge to do this, or it can just copy
- * the data using writes.
- */
-void cy_as_hal_dma_setup_write(cy_as_hal_device_tag tag,
- uint8_t ep, void *buf,
- uint32_t size, uint16_t maxsize)
-{
- uint32_t addr = 0;
- uint16_t v = 0;
-
- /*
- * Note: "size" is the actual request size
- * "maxsize" - is the P port fragment size
- * No EP0 or EP1 traffic should get here
- */
- cy_as_hal_assert(ep != 0 && ep != 1);
-
- /*
- * If this asserts, we have an ordering problem. Another DMA request
- * is coming down before the previous one has completed.
- */
- cy_as_hal_assert(end_points[ep].buffer_valid == cy_false);
- end_points[ep].buffer_valid = cy_true;
- end_points[ep].type = cy_as_hal_write;
- end_points[ep].pending = cy_true;
-
- /*
- * total length of the request
- */
- end_points[ep].req_length = size;
-
- if (size >= maxsize) {
- /*
- * set xfer size for very 1st DMA xfer operation
- * port max packet size ( typically 512 or 1024)
- */
- end_points[ep].dma_xfer_sz = maxsize;
- } else {
- /*
- * smaller xfers for non-storage EPs
- */
- end_points[ep].dma_xfer_sz = size;
- }
-
- /*
- * check the EP transfer mode uses sg_list rather then a memory buffer
- * block devices pass it to the HAL, so the hAL could get to the real
- * physical address for each segment and set up a DMA controller
- * hardware ( if there is one)
- */
- if (end_points[ep].sg_list_enabled) {
- /*
- * buf - pointer to the SG list
- * data_p - data pointer to the 1st DMA segment
- * seg_xfer_cnt - keeps track of N of bytes sent in current
- * sg_list segment
- * req_xfer_cnt - keeps track of the total N of bytes
- * transferred for the request
- */
- end_points[ep].sg_p = buf;
- end_points[ep].data_p = sg_virt(end_points[ep].sg_p);
- end_points[ep].seg_xfer_cnt = 0;
- end_points[ep].req_xfer_cnt = 0;
-
-#ifdef DBGPRN_DMA_SETUP_WR
- DBGPRN("cyasomaphal:%s: EP:%d, buf:%p, buf_va:%p,"
- "req_sz:%d, maxsz:%d\n",
- __func__,
- ep,
- buf,
- end_points[ep].data_p,
- size,
- maxsize);
-#endif
-
- } else {
- /*
- * setup XFER for non sg_list assisted EPs
- */
-
- #ifdef DBGPRN_DMA_SETUP_WR
- DBGPRN("<1>%s non storage or sz < 512:"
- "EP:%d, sz:%d\n", __func__, ep, size);
- #endif
-
- end_points[ep].sg_p = NULL;
-
- /*
- * must be a VMA of a membuf in kernel space
- */
- end_points[ep].data_p = buf;
-
- /*
- * will keep track No of bytes xferred for the request
- */
- end_points[ep].req_xfer_cnt = 0;
- }
-
- /*
- * Tell WB we are ready to send data on the given endpoint
- */
- v = (end_points[ep].dma_xfer_sz & CY_AS_MEM_P0_E_pn_DMA_REG_COUNT_MASK)
- | CY_AS_MEM_P0_E_pn_DMA_REG_DMAVAL;
-
- addr = CY_AS_MEM_P0_EP2_DMA_REG + ep - 2;
-
- cy_as_hal_write_register(tag, addr, v);
-}
-
-/*
- * This function must be defined to transfer a block of data from
- * the WestBridge device. This function can use the burst read
- * (DMA) capabilities of WestBridge to do this, or it can just
- * copy the data using reads.
- */
-void cy_as_hal_dma_setup_read(cy_as_hal_device_tag tag,
- uint8_t ep, void *buf,
- uint32_t size, uint16_t maxsize)
-{
- uint32_t addr;
- uint16_t v;
-
- /*
- * Note: "size" is the actual request size
- * "maxsize" - is the P port fragment size
- * No EP0 or EP1 traffic should get here
- */
- cy_as_hal_assert(ep != 0 && ep != 1);
-
- /*
- * If this asserts, we have an ordering problem.
- * Another DMA request is coming down before the
- * previous one has completed. we should not get
- * new requests if current is still in process
- */
-
- cy_as_hal_assert(end_points[ep].buffer_valid == cy_false);
-
- end_points[ep].buffer_valid = cy_true;
- end_points[ep].type = cy_as_hal_read;
- end_points[ep].pending = cy_true;
- end_points[ep].req_xfer_cnt = 0;
- end_points[ep].req_length = size;
-
- if (size >= maxsize) {
- /*
- * set xfer size for very 1st DMA xfer operation
- * port max packet size ( typically 512 or 1024)
- */
- end_points[ep].dma_xfer_sz = maxsize;
- } else {
- /*
- * so that we could handle small xfers on in case
- * of non-storage EPs
- */
- end_points[ep].dma_xfer_sz = size;
- }
-
- addr = CY_AS_MEM_P0_EP2_DMA_REG + ep - 2;
-
- if (end_points[ep].sg_list_enabled) {
- /*
- * Handle sg-list assisted EPs
- * seg_xfer_cnt - keeps track of N of sent packets
- * buf - pointer to the SG list
- * data_p - data pointer for the 1st DMA segment
- */
- end_points[ep].seg_xfer_cnt = 0;
- end_points[ep].sg_p = buf;
- end_points[ep].data_p = sg_virt(end_points[ep].sg_p);
-
- #ifdef DBGPRN_DMA_SETUP_RD
- DBGPRN("cyasomaphal:DMA_setup_read sg_list EP:%d, "
- "buf:%p, buf_va:%p, req_sz:%d, maxsz:%d\n",
- ep,
- buf,
- end_points[ep].data_p,
- size,
- maxsize);
- #endif
- v = (end_points[ep].dma_xfer_sz &
- CY_AS_MEM_P0_E_pn_DMA_REG_COUNT_MASK) |
- CY_AS_MEM_P0_E_pn_DMA_REG_DMAVAL;
- cy_as_hal_write_register(tag, addr, v);
- } else {
- /*
- * Non sg list EP passed void *buf rather then scatterlist *sg
- */
- #ifdef DBGPRN_DMA_SETUP_RD
- DBGPRN("%s:non-sg_list EP:%d,"
- "RQ_sz:%d, maxsz:%d\n",
- __func__, ep, size, maxsize);
- #endif
-
- end_points[ep].sg_p = NULL;
-
- /*
- * must be a VMA of a membuf in kernel space
- */
- end_points[ep].data_p = buf;
-
- /*
- * Program the EP DMA register for Storage endpoints only.
- */
- if (is_storage_e_p(ep)) {
- v = (end_points[ep].dma_xfer_sz &
- CY_AS_MEM_P0_E_pn_DMA_REG_COUNT_MASK) |
- CY_AS_MEM_P0_E_pn_DMA_REG_DMAVAL;
- cy_as_hal_write_register(tag, addr, v);
- }
- }
-}
-
-/*
- * This function must be defined to allow the WB API to
- * register a callback function that is called when a
- * DMA transfer is complete.
- */
-void cy_as_hal_dma_register_callback(cy_as_hal_device_tag tag,
- cy_as_hal_dma_complete_callback cb)
-{
- DBGPRN("<1>\n%s: WB API has registered a dma_complete callback:%x\n",
- __func__, (uint32_t)cb);
- callback = cb;
-}
-
-/*
- * This function must be defined to return the maximum size of
- * DMA request that can be handled on the given endpoint. The
- * return value should be the maximum size in bytes that the DMA
- * module can handle.
- */
-uint32_t cy_as_hal_dma_max_request_size(cy_as_hal_device_tag tag,
- cy_as_end_point_number_t ep)
-{
- /*
- * Storage reads and writes are always done in 512 byte blocks.
- * So, we do the count handling within the HAL, and save on
- * some of the data transfer delay.
- */
- if ((ep == CYASSTORAGE_READ_EP_NUM) ||
- (ep == CYASSTORAGE_WRITE_EP_NUM)) {
- /* max DMA request size HAL can handle by itself */
- return CYASSTORAGE_MAX_XFER_SIZE;
- } else {
- /*
- * For the USB - Processor endpoints, the maximum transfer
- * size depends on the speed of USB operation. So, we use
- * the following constant to indicate to the API that
- * splitting of the data into chunks less that or equal to
- * the max transfer size should be handled internally.
- */
-
- /* DEFINED AS 0xffffffff in cyasdma.h */
- return CY_AS_DMA_MAX_SIZE_HW_SIZE;
- }
-}
-
-/*
- * This function must be defined to set the state of the WAKEUP pin
- * on the WestBridge device. Generally this is done via a GPIO of
- * some type.
- */
-cy_bool cy_as_hal_set_wakeup_pin(cy_as_hal_device_tag tag, cy_bool state)
-{
- /*
- * Not supported as of now.
- */
- return cy_false;
-}
-
-void cy_as_hal_pll_lock_loss_handler(cy_as_hal_device_tag tag)
-{
- cy_as_hal_print_message("error: astoria PLL lock is lost\n");
- cy_as_hal_print_message("please check the input voltage levels");
- cy_as_hal_print_message("and clock, and restart the system\n");
-}
-
-/*
- * Below are the functions that must be defined to provide the basic
- * operating system services required by the API.
- */
-
-/*
- * This function is required by the API to allocate memory.
- * This function is expected to work exactly like malloc().
- */
-void *cy_as_hal_alloc(uint32_t cnt)
-{
- return kmalloc(cnt, GFP_ATOMIC);
-}
-
-/*
- * This function is required by the API to free memory allocated
- * with CyAsHalAlloc(). This function is'expected to work exacly
- * like free().
- */
-void cy_as_hal_free(void *mem_p)
-{
- kfree(mem_p);
-}
-
-/*
- * Allocator that can be used in interrupt context.
- * We have to ensure that the kmalloc call does not
- * sleep in this case.
- */
-void *cy_as_hal_c_b_alloc(uint32_t cnt)
-{
- return kmalloc(cnt, GFP_ATOMIC);
-}
-
-/*
- * This function is required to set a block of memory to a
- * specific value. This function is expected to work exactly
- * like memset()
- */
-void cy_as_hal_mem_set(void *ptr, uint8_t value, uint32_t cnt)
-{
- memset(ptr, value, cnt);
-}
-
-/*
- * This function is expected to create a sleep channel.
- * The data structure that represents the sleep channel object
- * sleep channel (which is Linux "wait_queue_head_t wq" for this particular HAL)
- * passed as a pointer, and allpocated by the caller
- * (typically as a local var on the stack) "Create" word should read as
- * "SleepOn", this func doesn't actually create anything
- */
-cy_bool cy_as_hal_create_sleep_channel(cy_as_hal_sleep_channel *channel)
-{
- init_waitqueue_head(&channel->wq);
- return cy_true;
-}
-
-/*
- * for this particular HAL it doesn't actually destroy anything
- * since no actual sleep object is created in CreateSleepChannel()
- * sleep channel is given by the pointer in the argument.
- */
-cy_bool cy_as_hal_destroy_sleep_channel(cy_as_hal_sleep_channel *channel)
-{
- return cy_true;
-}
-
-/*
- * platform specific wakeable Sleep implementation
- */
-cy_bool cy_as_hal_sleep_on(cy_as_hal_sleep_channel *channel, uint32_t ms)
-{
- wait_event_interruptible_timeout(channel->wq, 0, ((ms * HZ)/1000));
- return cy_true;
-}
-
-/*
- * wakes up the process waiting on the CHANNEL
- */
-cy_bool cy_as_hal_wake(cy_as_hal_sleep_channel *channel)
-{
- wake_up_interruptible_all(&channel->wq);
- return cy_true;
-}
-
-uint32_t cy_as_hal_disable_interrupts()
-{
- if (0 == intr__enable)
- ;
-
- intr__enable++;
- return 0;
-}
-
-void cy_as_hal_enable_interrupts(uint32_t val)
-{
- intr__enable--;
- if (0 == intr__enable)
- ;
-}
-
-/*
- * Sleep atleast 150ns, cpu dependent
- */
-void cy_as_hal_sleep150(void)
-{
- uint32_t i, j;
-
- j = 0;
- for (i = 0; i < 1000; i++)
- j += (~i);
-}
-
-void cy_as_hal_sleep(uint32_t ms)
-{
- cy_as_hal_sleep_channel channel;
-
- cy_as_hal_create_sleep_channel(&channel);
- cy_as_hal_sleep_on(&channel, ms);
- cy_as_hal_destroy_sleep_channel(&channel);
-}
-
-cy_bool cy_as_hal_is_polling()
-{
- return cy_false;
-}
-
-void cy_as_hal_c_b_free(void *ptr)
-{
- cy_as_hal_free(ptr);
-}
-
-/*
- * suppose to reinstate the astoria registers
- * that may be clobbered in sleep mode
- */
-void cy_as_hal_init_dev_registers(cy_as_hal_device_tag tag,
- cy_bool is_standby_wakeup)
-{
- /* specific to SPI, no implementation required */
- (void) tag;
- (void) is_standby_wakeup;
-}
-
-void cy_as_hal_read_regs_before_standby(cy_as_hal_device_tag tag)
-{
- /* specific to SPI, no implementation required */
- (void) tag;
-}
-
-cy_bool cy_as_hal_sync_device_clocks(cy_as_hal_device_tag tag)
-{
- /*
- * we are in asynchronous mode. so no need to handle this
- */
- return true;
-}
-
-/*
- * init OMAP h/w resources
- */
-int start_o_m_a_p_kernel(const char *pgm,
- cy_as_hal_device_tag *tag, cy_bool debug)
-{
- cy_as_omap_dev_kernel *dev_p;
- int i;
- u16 data16[4];
- u8 pncfg_reg;
-
- /*
- * No debug mode support through argument as of now
- */
- (void)debug;
-
- DBGPRN(KERN_INFO"starting OMAP34xx HAL...\n");
-
- /*
- * Initialize the HAL level endpoint DMA data.
- */
- for (i = 0; i < sizeof(end_points)/sizeof(end_points[0]); i++) {
- end_points[i].data_p = 0;
- end_points[i].pending = cy_false;
- end_points[i].size = 0;
- end_points[i].type = cy_as_hal_none;
- end_points[i].sg_list_enabled = cy_false;
-
- /*
- * by default the DMA transfers to/from the E_ps don't
- * use sg_list that implies that the upper devices like
- * blockdevice have to enable it for the E_ps in their
- * initialization code
- */
- }
-
- /*
- * allocate memory for OMAP HAL
- */
- dev_p = (cy_as_omap_dev_kernel *)cy_as_hal_alloc(
- sizeof(cy_as_omap_dev_kernel));
- if (dev_p == 0) {
- cy_as_hal_print_message("out of memory allocating OMAP"
- "device structure\n");
- return 0;
- }
-
- dev_p->m_sig = CY_AS_OMAP_KERNEL_HAL_SIG;
-
- /*
- * initialize OMAP hardware and StartOMAPKernelall gpio pins
- */
- dev_p->m_addr_base = (void *)cy_as_hal_processor_hw_init();
-
- /*
- * Now perform a hard reset of the device to have
- * the new settings take effect
- */
- __gpio_set_value(AST_WAKEUP, 1);
-
- /*
- * do Astoria h/w reset
- */
- DBGPRN(KERN_INFO"-_-_pulse -> westbridge RST pin\n");
-
- /*
- * NEGATIVE PULSE on RST pin
- */
- __gpio_set_value(AST_RESET, 0);
- mdelay(1);
- __gpio_set_value(AST_RESET, 1);
- mdelay(50);
-
- /*
- * note AFTER reset PNAND interface is 8 bit mode
- * so if gpmc Is configured in 8 bit mode upper half will be FF
- */
- pncfg_reg = ast_p_nand_casdo_read(CY_AS_MEM_PNAND_CFG);
-
-#ifdef PNAND_16BIT_MODE
-
- /*
- * switch to 16 bit mode, force NON-LNA LBD mode, 3 RA addr bytes
- */
- ast_p_nand_casdi_write(CY_AS_MEM_PNAND_CFG, 0x0001);
-
- /*
- * now in order to continue to talk to astoria
- * sw OMAP GPMC into 16 bit mode as well
- */
- cy_as_hal_gpmc_enable_16bit_bus(cy_true);
-#else
- /* Astoria and GPMC are already in 8 bit mode, just initialize PNAND_CFG */
- ast_p_nand_casdi_write(CY_AS_MEM_PNAND_CFG, 0x0000);
-#endif
-
- /*
- * NOTE: if you want to capture bus activity on the LA,
- * don't use printks in between the activities you want to capture.
- * prinks may take milliseconds, and the data of interest
- * will fall outside the LA capture window/buffer
- */
- data16[0] = ast_p_nand_casdo_read(CY_AS_MEM_CM_WB_CFG_ID);
- data16[1] = ast_p_nand_casdo_read(CY_AS_MEM_PNAND_CFG);
-
- if (data16[0] != 0xA200) {
- /*
- * astoria device is not found
- */
- printk(KERN_ERR "ERROR: astoria device is not found, CY_AS_MEM_CM_WB_CFG_ID ");
- printk(KERN_ERR "read returned:%4.4X: CY_AS_MEM_PNAND_CFG:%4.4x !\n",
- data16[0], data16[0]);
- goto bus_acc_error;
- }
-
- cy_as_hal_print_message(KERN_INFO" register access CASDO test:"
- "\n CY_AS_MEM_CM_WB_CFG_ID:%4.4x\n"
- "PNAND_CFG after RST:%4.4x\n "
- "CY_AS_MEM_PNAND_CFG"
- "after cfg_wr:%4.4x\n\n",
- data16[0], pncfg_reg, data16[1]);
-
- dev_p->thread_flag = 1;
- spin_lock_init(&int_lock);
- dev_p->m_next_p = m_omap_list_p;
-
- m_omap_list_p = dev_p;
- *tag = dev_p;
-
- cy_as_hal_configure_interrupts((void *)dev_p);
-
- cy_as_hal_print_message(KERN_INFO"OMAP3430__hal started tag:%p"
- ", kernel HZ:%d\n", dev_p, HZ);
-
- /*
- *make processor to storage endpoints SG assisted by default
- */
- cy_as_hal_set_ep_dma_mode(4, true);
- cy_as_hal_set_ep_dma_mode(8, true);
-
- return 1;
-
- /*
- * there's been a NAND bus access error or
- * astoria device is not connected
- */
-bus_acc_error:
- /*
- * at this point hal tag hasn't been set yet
- * so the device will not call omap_stop
- */
- cy_as_hal_omap_hardware_deinit(dev_p);
- cy_as_hal_free(dev_p);
- return 0;
-}
-
-#else
-/*
- * Some compilers do not like empty C files, so if the OMAP hal is not being
- * compiled, we compile this single function. We do this so that for a
- * given target HAL there are not multiple sources for the HAL functions.
- */
-void my_o_m_a_p_kernel_hal_dummy_function(void)
-{
-}
-
-#endif
+++ /dev/null
-/* Cypress West Bridge API header file (cyashaldef.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASHALDEF_H_
-#define _INCLUDED_CYASHALDEF_H_
-
-/* Summary
- * If set to TRUE, the basic numeric types are defined by the
- * West Bridge API code
- *
- * Description
- * The West Bridge API relies on some basic integral types to be
- * defined. These types include uint8_t, int8_t, uint16_t,
- * int16_t, uint32_t, and int32_t. If this macro is defined the
- * West Bridge API will define these types based on some basic
- * assumptions. If this value is set and the West Bridge API is
- * used to set these types, the definition of these types must be
- * examined to insure that they are appropriate for the given
- * target architecture and compiler.
- *
- * Notes
- * It is preferred that if the basic platform development
- * environment defines these types that the CY_DEFINE_BASIC_TYPES
- * macro be undefined and the appropriate target system header file
- * be added to the file cyashaldef.h.
- */
-
-#include <linux/types.h>
-
-
-#if !defined(__doxygen__)
-typedef int cy_bool;
-#define cy_true (1)
-#define cy_false (0)
-#endif
-
-#endif /* _INCLUDED_CYASHALDEF_H_ */
+++ /dev/null
-/* Cypress Antioch HAL for OMAP KERNEL header file (cyashalomapkernel.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-/*
- * This file contains the definition of the hardware abstraction
- * layer on OMAP3430 talking to the West Bridge Astoria device
- */
-
-
-#ifndef _INCLUDED_CYASHALOMAP_KERNEL_H_
-#define _INCLUDED_CYASHALOMAP_KERNEL_H_
-
-#include <linux/kernel.h>
-#include <linux/module.h>
-#include <linux/wait.h>
-#include <linux/string.h>
-/* include does not seem to work
- * moving for patch submission
-#include <mach/gpmc.h>
-*/
-#include <linux/../../arch/arm/plat-omap/include/plat/gpmc.h>
-typedef struct cy_as_hal_sleep_channel_t {
- wait_queue_head_t wq;
-} cy_as_hal_sleep_channel;
-
-/* moved to staging location, eventual location
- * considered is here
-#include <mach/westbridge/cyashaldef.h>
-#include <linux/westbridge/cyastypes.h>
-#include <linux/westbridge/cyas_cplus_start.h>
-*/
-#include "../cyashaldef.h"
-#include "../../../../../../../include/linux/westbridge/cyastypes.h"
-#include "../../../../../../../include/linux/westbridge/cyas_cplus_start.h"
-#include "cyasomapdev_kernel.h"
-
-/*
- * Below are the data structures that must be defined by the HAL layer
- */
-
-/*
- * The HAL layer must define a TAG for identifying a specific Astoria
- * device in the system. In this case the tag is a void * which is
- * really an OMAP device pointer
- */
-typedef void *cy_as_hal_device_tag;
-
-
-/* This must be included after the CyAsHalDeviceTag type is defined */
-
-/* moved to staging location, eventual location
- * considered is here
- * #include <linux/westbridge/cyashalcb.h>
-*/
-#include "../../../../../../../include/linux/westbridge/cyashalcb.h"
-/*
- * Below are the functions that communicate with the West Bridge
- * device. These are system dependent and must be defined by
- * the HAL layer for a given system.
- */
-
-/*
- * This function must be defined to write a register within the Antioch
- * device. The addr value is the address of the register to write with
- * respect to the base address of the Antioch device.
- */
-void
-cy_as_hal_write_register(cy_as_hal_device_tag tag,
- uint16_t addr, uint16_t data);
-
-/*
- * This function must be defined to read a register from
- * the west bridge device. The addr value is the address of
- * the register to read with respect to the base address
- * of the west bridge device.
- */
-uint16_t
-cy_as_hal_read_register(cy_as_hal_device_tag tag, uint16_t addr);
-
-/*
- * This function must be defined to transfer a block of data
- * to the west bridge device. This function can use the burst write
- * (DMA) capabilities of Antioch to do this, or it can just copy
- * the data using writes.
- */
-void
-cy_as_hal_dma_setup_write(cy_as_hal_device_tag tag,
- uint8_t ep, void *buf, uint32_t size, uint16_t maxsize);
-
-/*
- * This function must be defined to transfer a block of data
- * from the Antioch device. This function can use the burst
- * read (DMA) capabilities of Antioch to do this, or it can
- * just copy the data using reads.
- */
-void
-cy_as_hal_dma_setup_read(cy_as_hal_device_tag tag, uint8_t ep,
- void *buf, uint32_t size, uint16_t maxsize);
-
-/*
- * This function must be defined to cancel any pending DMA request.
- */
-void
-cy_as_hal_dma_cancel_request(cy_as_hal_device_tag tag, uint8_t ep);
-
-/*
- * This function must be defined to allow the Antioch API to
- * register a callback function that is called when a DMA transfer
- * is complete.
- */
-void
-cy_as_hal_dma_register_callback(cy_as_hal_device_tag tag,
- cy_as_hal_dma_complete_callback cb);
-
-/*
- * This function must be defined to return the maximum size of DMA
- * request that can be handled on the given endpoint. The return
- * value should be the maximum size in bytes that the DMA module can
- * handle.
- */
-uint32_t
-cy_as_hal_dma_max_request_size(cy_as_hal_device_tag tag,
- cy_as_end_point_number_t ep);
-
-/*
- * This function must be defined to set the state of the WAKEUP pin
- * on the Antioch device. Generally this is done via a GPIO of some
- * type.
- */
-cy_bool
-cy_as_hal_set_wakeup_pin(cy_as_hal_device_tag tag, cy_bool state);
-
-/*
- * This function is called when the Antioch PLL loses lock, because
- * of a problem in the supply voltage or the input clock.
- */
-void
-cy_as_hal_pll_lock_loss_handler(cy_as_hal_device_tag tag);
-
-
-/**********************************************************************
- *
- * Below are the functions that must be defined to provide the basic
- * operating system services required by the API.
- *
-***********************************************************************/
-
-/*
- * This function is required by the API to allocate memory. This function
- * is expected to work exactly like malloc().
- */
-void *
-cy_as_hal_alloc(uint32_t cnt);
-
-/*
- * This function is required by the API to free memory allocated with
- * CyAsHalAlloc(). This function is expected to work exacly like free().
- */
-void
-cy_as_hal_free(void *mem_p);
-
-/*
- * This function is required by the API to allocate memory during a
- * callback. This function must be able to provide storage at inturupt
- * time.
- */
-void *
-cy_as_hal_c_b_alloc(uint32_t cnt);
-
-/*
- * This function is required by the API to free memory allocated with
- * CyAsCBHalAlloc().
- */
-void
-cy_as_hal_c_b_free(void *ptr);
-
-/*
- * This function is required to set a block of memory to a specific
- * value. This function is expected to work exactly like memset()
- */
-void
-cy_as_hal_mem_set(void *ptr, uint8_t value, uint32_t cnt);
-
-/*
- * This function is expected to create a sleep channel. The data
- * structure that represents the sleep channel is given by the
- * pointer in the argument.
- */
-cy_bool
-cy_as_hal_create_sleep_channel(cy_as_hal_sleep_channel *channel);
-
-/*
- * This function is expected to destroy a sleep channel. The data
- * structure that represents the sleep channel is given by
- * the pointer in the argument.
- */
-
-
-cy_bool
-cy_as_hal_destroy_sleep_channel(cy_as_hal_sleep_channel *channel);
-
-cy_bool
-cy_as_hal_sleep_on(cy_as_hal_sleep_channel *channel, uint32_t ms);
-
-cy_bool
-cy_as_hal_wake(cy_as_hal_sleep_channel *channel);
-
-uint32_t
-cy_as_hal_disable_interrupts(void);
-
-void
-cy_as_hal_enable_interrupts(uint32_t);
-
-void
-cy_as_hal_sleep150(void);
-
-void
-cy_as_hal_sleep(uint32_t ms);
-
-cy_bool
-cy_as_hal_is_polling(void);
-
-void cy_as_hal_init_dev_registers(cy_as_hal_device_tag tag,
- cy_bool is_standby_wakeup);
-
-/*
- * required only in spi mode
- */
-cy_bool cy_as_hal_sync_device_clocks(cy_as_hal_device_tag tag);
-
-void cy_as_hal_read_regs_before_standby(cy_as_hal_device_tag tag);
-
-
-#ifndef NDEBUG
-#define cy_as_hal_assert(cond) if (!(cond))\
- printk(KERN_WARNING"assertion failed at %s:%d\n", __FILE__, __LINE__);
-#else
-#define cy_as_hal_assert(cond)
-#endif
-
-#define cy_as_hal_print_message printk
-
-/* removable debug printks */
-#ifndef WESTBRIDGE_NDEBUG
-#define DBG_PRINT_ENABLED
-#endif
-
-/*#define MBOX_ACCESS_DBG_PRINT_ENABLED*/
-
-
-#ifdef DBG_PRINT_ENABLED
- /* Debug printing enabled */
-
- #define DBGPRN(...) printk(__VA_ARGS__)
- #define DBGPRN_FUNC_NAME printk("<1> %x:_func: %s\n", \
- current->pid, __func__)
-
-#else
- /** NO DEBUG PRINTING **/
- #define DBGPRN(...)
- #define DBGPRN_FUNC_NAME
-
-#endif
-
-/*
-CyAsMiscSetLogLevel(uint8_t level)
-{
- debug_level = level;
-}
-
-#ifdef CY_AS_LOG_SUPPORT
-
-void
-cy_as_log_debug_message(int level, const char *str)
-{
- if (level <= debug_level)
- cy_as_hal_print_message("log %d: %s\n", level, str);
-}
-*/
-
-
-/*
- * print buffer helper
- */
-void cyashal_prn_buf(void *buf, uint16_t offset, int len);
-
-/*
- * These are the functions that are not part of the HAL layer,
- * but are required to be called for this HAL.
- */
-int start_o_m_a_p_kernel(const char *pgm,
- cy_as_hal_device_tag *tag, cy_bool debug);
-int stop_o_m_a_p_kernel(const char *pgm, cy_as_hal_device_tag tag);
-int omap_start_intr(cy_as_hal_device_tag tag);
-void cy_as_hal_set_ep_dma_mode(uint8_t ep, bool sg_xfer_enabled);
-
-/* moved to staging location
-#include <linux/westbridge/cyas_cplus_end.h>
-*/
-#include "../../../../../../../include/linux/westbridge/cyas_cplus_start.h"
-#endif
+++ /dev/null
-/*
- OMAP3430 ZOOM MDK astoria interface defs(cyasmemmap.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-/* include does not seem to work
- * moving for patch submission
-#include <mach/gpmc.h>
-#include <mach/mux.h>
-*/
-#include <linux/../../arch/arm/plat-omap/include/plat/gpmc.h>
-#include <linux/../../arch/arm/plat-omap/include/plat/mux.h>
-
-#ifndef _INCLUDED_CYASMEMMAP_H_
-#define _INCLUDED_CYASMEMMAP_H_
-
-/* defines copied from OMAP kernel branch */
-
-#define OMAP2_PULL_UP (1 << 4)
-#define OMAP2_PULL_ENA (1 << 3)
-#define OMAP34XX_MUX_MODE0 0
-#define OMAP34XX_MUX_MODE4 4
-#define OMAP3_INPUT_EN (1 << 8)
-#define OMAP34XX_PIN_INPUT_PULLUP (OMAP2_PULL_ENA | OMAP3_INPUT_EN \
- | OMAP2_PULL_UP)
-
-/*
- * for OMAP3430 <-> astoria : ADmux mode, 8 bit data path
- * WB Signal- OMAP3430 signal COMMENTS
- * --------------------------- --------------------
- * CS_L -GPMC_nCS4_GPIO_53 ZOOM I SOM board
- * signal: up_nCS_A_EXT
- * AD[7:0]-upD[7:0] buffered on the
- * transposer board
- * GPMC_ADDR
- * [A8:A1]->upD[7:0]
- * INT# -GPMC_nWP_GPIO_62
- * DACK -N/C not connected
- * WAKEUP-GPIO_167
- * RESET-GPIO_126
- * R/B -GPMC_WAIT2_GPIO_64
- * -------------------------------------------
- * The address range for nCS1B is 0x06000000 - 0x07FF FFFF.
-*/
-
-/*
- *OMAP_ZOOM LEDS
- */
-#define LED_0 156
-#define LED_1 128
-#define LED_2 64
-#define LED_3 60
-
-#define HIGH 1
-#define LOW 1
-
-/*
- *omap GPIO number
- */
-#define AST_WAKEUP 167
-#define AST_RESET 126
-#define AST__rn_b 64
-
-/*
- * NOTE THIS PIN IS USED AS WP for OMAP NAND
- */
-#define AST_INT 62
-
-/*
- * as an I/O, it is actually controlled by GPMC
- */
-#define AST_CS 55
-
-
-/*
- *GPMC prefetch engine
- */
-
-/* register and its bit fields */
-#define GPMC_PREFETCH_CONFIG1 0x01E0
-
- /*32 bytes for 16 bit pnand mode*/
- #define PFE_THRESHOLD 31
-
- /*
- * bit fields
- * PF_ACCESSMODE - 0 - read mode, 1 - write mode
- * PF_DMAMODE - 0 - default only intr line signal will be generated
- * PF_SYNCHROMODE - default 0 - engin will start access as soon as
- * ctrl re STARTENGINE is set
- * PF_WAITPINSEL - FOR synchro mode selects WAIT pin whch edge
- * will be monitored
- * PF_EN_ENGINE - 1- ENABLES ENGINE, but it needs to be started after
- * that C ctrl reg bit 0
- * PF_FIFO_THRESHOLD - FIFO threshold in number of BUS(8 or 16) words
- * PF_WEIGHTED_PRIO - NUM of cycles granted to PFE if RND_ROBIN
- * prioritization is enabled
- * PF_ROUND_ROBIN - if enabled, gives priority to other CS, but
- * reserves NUM of cycles for PFE's turn
- * PF_ENGIN_CS_SEL - GPMC CS assotiated with PFE function
- */
- #define PF_ACCESSMODE (0 << 0)
- #define PF_DMAMODE (0 << 2)
- #define PF_SYNCHROMODE (0 << 3)
- #define PF_WAITPINSEL (0x0 << 4)
- #define PF_EN_ENGINE (1 << 7)
- #define PF_FIFO_THRESHOLD (PFE_THRESHOLD << 8)
- #define PF_WEIGHTED_PRIO (0x0 << 16)
- #define PF_ROUND_ROBIN (0 << 23)
- #define PF_ENGIN_CS_SEL (AST_GPMC_CS << 24)
- #define PF_EN_OPTIM_ACC (0 << 27)
- #define PF_CYCLEOPTIM (0x0 << 28)
-
-#define GPMC_PREFETCH_CONFIG1_VAL (PF_ACCESSMODE | \
- PF_DMAMODE | PF_SYNCHROMODE | \
- PF_WAITPINSEL | PF_EN_ENGINE | \
- PF_FIFO_THRESHOLD | PF_FIFO_THRESHOLD | \
- PF_WEIGHTED_PRIO | PF_ROUND_ROBIN | \
- PF_ENGIN_CS_SEL | PF_EN_OPTIM_ACC | \
- PF_CYCLEOPTIM)
-
-/* register and its bit fields */
-#define GPMC_PREFETCH_CONFIG2 0x01E4
- /*
- * bit fields
- * 14 bit field NOTE this counts is also
- * is in number of BUS(8 or 16) words
- */
- #define PF_TRANSFERCOUNT (0x000)
-
-
-/* register and its bit fields */
-#define GPMC_PREFETCH_CONTROL 0x01EC
- /*
- * bit fields , ONLY BIT 0 is implemented
- * PFWE engin must be programmed with this bit = 0
- */
- #define PFPW_STARTENGINE (1 << 0)
-
-/* register and its bit fields */
-#define GPMC_PREFETCH_STATUS 0x01F0
-
- /* */
- #define PFE_FIFO_THRESHOLD (1 << 16)
-
-/*
- * GPMC posted write/prefetch engine end
- */
-
-
-/*
- * chip select number on GPMC ( 0..7 )
- */
-#define AST_GPMC_CS 4
-
-/*
- * not connected
- */
-#define AST_DACK 00
-
-
-/*
- * Physical address above the NAND flash
- * we use CS For mapping in OMAP3430 RAM space use 0x0600 0000
- */
-#define CYAS_DEV_BASE_ADDR (0x20000000)
-
-#define CYAS_DEV_MAX_ADDR (0xFF)
-#define CYAS_DEV_ADDR_RANGE (CYAS_DEV_MAX_ADDR << 1)
-
-#ifdef p_s_r_a_m_INTERFACE
- /* in CRAM or PSRAM mode OMAP A1..An wires-> Astoria, there is no A0 line */
- #define CYAS_DEV_CALC_ADDR(cyas_addr) (cyas_addr << 1)
- #define CYAS_DEV_CALC_EP_ADDR(ep) (ep << 1)
-#else
- /*
- * For pNAND interface it depends on NAND emulation mode
- * SBD/LBD etc we use NON-LNA_LBD mode, so it goes like this:
- * forlbd <CMD><CA0,CA1,RA0,RA1,RA2> <CMD>,
- * where CA1 address must have bits 2,3 = "11"
- * ep is mapped into RA1 bits {4:0}
- */
- #define CYAS_DEV_CALC_ADDR(cyas_addr) (cyas_addr | 0x0c00)
- #define CYAS_DEV_CALC_EP_ADDR(ep) ep
-#endif
-
-/*
- *OMAP3430 i/o access macros
- */
-#define IORD32(addr) (*(volatile u32 *)(addr))
-#define IOWR32(addr, val) (*(volatile u32 *)(addr) = val)
-
-#define IORD16(addr) (*(volatile u16 *)(addr))
-#define IOWR16(addr, val) (*(volatile u16 *)(addr) = val)
-
-#define IORD8(addr) (*(volatile u8 *)(addr))
-#define IOWR8(addr, val) (*(volatile u8 *)(addr) = val)
-
-/*
- * local defines for accessing to OMAP GPIO ***
- */
-#define CTLPADCONF_BASE_ADDR 0x48002000
-#define CTLPADCONF_SIZE 0x1000
-
-#define GPIO1_BASE_ADDR 0x48310000
-#define GPIO2_BASE_ADDR 0x49050000
-#define GPIO3_BASE_ADDR 0x49052000
-#define GPIO4_BASE_ADDR 0x49054000
-#define GPIO5_BASE_ADDR 0x49056000
-#define GPIO6_BASE_ADDR 0x49058000
-#define GPIO_SPACE_SIZE 0x1000
-
-
-/*
- * OMAP3430 GPMC timing for pNAND interface
- */
-#define GPMC_BASE 0x6E000000
-#define GPMC_REGION_SIZE 0x1000
-#define GPMC_CONFIG_REG (0x50)
-
-/*
- * bit 0 in the GPMC_CONFIG_REG
- */
-#define NAND_FORCE_POSTED_WRITE_B 1
-
-/*
- * WAIT2STATUS, must be (1 << 10)
- */
-#define AS_WAIT_PIN_MASK (1 << 10)
-
-
-/*
- * GPMC_CONFIG(reg number [1..7] [for chip sel CS[0..7])
- */
-#define GPMC_CFG_REG(N, CS) ((0x60 + (4*(N-1))) + (0x30*CS))
-
-/*
- *gpmc nand registers for CS4
- */
-#define AST_GPMC_NAND_CMD (0x7c + (0x30*AST_GPMC_CS))
-#define AST_GPMC_NAND_ADDR (0x80 + (0x30*AST_GPMC_CS))
-#define AST_GPMC_NAND_DATA (0x84 + (0x30*AST_GPMC_CS))
-
-#define GPMC_STAT_REG (0x54)
-#define GPMC_ERR_TYPE (0x48)
-
-/*
- * we get "gpmc_base" from kernel
- */
-#define GPMC_VMA(offset) (gpmc_base + offset)
-
-/*
- * GPMC CS space VMA start address
- */
-#define GPMC_CS_VMA(offset) (gpmc_data_vma + offset)
-
-/*
- * PAD_CFG mux space VMA
- */
-#define PADCFG_VMA(offset) (iomux_vma + offset)
-
-/*
- * CONFIG1: by default, sngle access, async r/w RD_MULTIPLE[30]
- * WR_MULTIPLE[28]; GPMC_FCL_DIV[1:0]
- */
-#define GPMC_FCLK_DIV ((0) << 0)
-
-/*
- * ADDITIONAL DIVIDER FOR ALL TIMING PARAMS
- */
-#define TIME_GRAN_SCALE ((0) << 4)
-
-/*
- * for use by gpmc_set_timings api, measured in ns, not clocks
- */
-#define WB_GPMC_BUSCYC_t (7 * 6)
-#define WB_GPMC_CS_t_o_n (0)
-#define WB_GPMC_ADV_t_o_n (0)
-#define WB_GPMC_OE_t_o_n (0)
-#define WB_GPMC_OE_t_o_f_f (5 * 6)
-#define WB_GPMC_WE_t_o_n (1 * 6)
-#define WB_GPMC_WE_t_o_f_f (5 * 6)
-#define WB_GPMC_RDS_ADJ (2 * 6)
-#define WB_GPMC_RD_t_a_c_c (WB_GPMC_OE_t_o_f_f + WB_GPMC_RDS_ADJ)
-#define WB_GPMC_WR_t_a_c_c (WB_GPMC_BUSCYC_t)
-
-#define DIR_OUT 0
-#define DIR_INP 1
-#define DRV_HI 1
-#define DRV_LO 0
-
-/*
- * GPMC_CONFIG7[cs] register bit fields
- * AS_CS_MASK - 3 bit mask for A26,A25,A24,
- * AS_CS_BADDR - 6 BIT VALUE A29 ...A24
- * CSVALID_B - CSVALID bit on GPMC_CONFIG7[cs] register
- */
-#define AS_CS_MASK (0X7 << 8)
-#define AS_CS_BADDR 0x02
-#define CSVALID_B (1 << 6)
-
-/*
- * DEFINE OMAP34XX GPIO OFFSETS (should have been defined in kernel /arch
- * these are offsets from the BASE_ADDRESS of the GPIO BLOCK
- */
-#define GPIO_REVISION 0x000
-#define GPIO_SYSCONFIG 0x010
-#define GPIO_SYSSTATUS1 0x014
-#define GPIO_IRQSTATUS1 0x018
-#define GPIO_IRQENABLE1 0x01C
-#define GPIO_IRQSTATUS2 0x028
-#define GPIO_CTRL 0x030
-#define GPIO_OE 0x034
-#define GPIO_DATA_IN 0x038
-#define GPIO_DATA_OUT 0x03C
-#define GPIO_LEVELDETECT0 0x040
-#define GPIO_LEVELDETECT1 0x044
-#define GPIO_RISINGDETECT 0x048
-#define GPIO_FALLINGDETECT 0x04c
-#define GPIO_CLEAR_DATAOUT 0x090
-#define GPIO_SET_DATAOUT 0x094
-
-typedef struct {
- char *name;
- u32 phy_addr;
- u32 virt_addr;
- u32 size;
-} io2vma_tab_t;
-
-/*
- * GPIO phy to translation VMA table
- */
-static io2vma_tab_t gpio_vma_tab[6] = {
- {"GPIO1_BASE_ADDR", GPIO1_BASE_ADDR , 0 , GPIO_SPACE_SIZE},
- {"GPIO2_BASE_ADDR", GPIO2_BASE_ADDR , 0 , GPIO_SPACE_SIZE},
- {"GPIO3_BASE_ADDR", GPIO3_BASE_ADDR , 0 , GPIO_SPACE_SIZE},
- {"GPIO4_BASE_ADDR", GPIO4_BASE_ADDR , 0 , GPIO_SPACE_SIZE},
- {"GPIO5_BASE_ADDR", GPIO5_BASE_ADDR , 0 , GPIO_SPACE_SIZE},
- {"GPIO6_BASE_ADDR", GPIO6_BASE_ADDR , 0 , GPIO_SPACE_SIZE}
-};
-/*
- * name - USER signal name assigned to the pin ( for printks)
- * mux_func - enum index NAME for the pad_cfg function
- * pin_num - pin_number if mux_func is GPIO, if not a GPIO it is -1
- * mux_ptr - pointer to the corresponding pad_cfg_reg
- * (used for pad release )
- * mux_save - preserve here original PAD_CNF value for this
- * pin (used for pad release)
- * dir - if GPIO: 0 - OUT , 1 - IN
- * dir_save - save original pin direction
- * drv - initial drive level "0" or "1"
- * drv_save - save original pin drive level
- * valid - 1 if successfuly configured
-*/
-typedef struct {
- char *name;
- u32 mux_func;
- int pin_num;
- u16 *mux_ptr;
- u16 mux_save;
- u8 dir;
- u8 dir_save;
- u8 drv;
- u8 drv_save;
- u8 valid;
-} user_pad_cfg_t;
-
-/*
- * need to ensure that enums are in sync with the
- * omap_mux_pin_cfg table, these enums designate
- * functions that OMAP pads can be configured to
- */
-enum {
- B23_OMAP3430_GPIO_167,
- D23_OMAP3430_GPIO_126,
- H1_OMAP3430_GPIO_62,
- H1_OMAP3430_GPMC_n_w_p,
- T8_OMAP3430_GPMC_n_c_s4,
- T8_OMAP3430_GPIO_55,
- R25_OMAP3430_GPIO_156,
- R27_OMAP3430_GPIO_128,
- K8_OMAP3430_GPIO_64,
- K8_GPMC_WAIT2,
- G3_OMAP3430_GPIO_60,
- G3_OMAP3430_n_b_e0_CLE,
- C6_GPMC_WAIT3,
- J1_OMAP3430_GPIO_61,
- C6_OMAP3430_GPIO_65,
-
- END_OF_TABLE
-};
-
-/*
- * number of GPIOS we plan to grab
- */
-#define GPIO_SLOTS 8
-
-/*
- * user_pads_init() reads(and saves) from/to this table
- * used in conjunction with omap_3430_mux_t table in .h file
- * because the way it's done in the kernel code
- * TODO: implement restore of the the original cfg and i/o regs
- */
-
-static user_pad_cfg_t user_pad_cfg[] = {
- /*
- * name,pad_func,pin_num, mux_ptr, mux_sav, dir,
- * dir_sav, drv, drv_save, valid
- */
- {"AST_WAKEUP", B23_OMAP3430_GPIO_167, 167, NULL, 0,
- DIR_OUT, 0, DRV_HI, 0, 0},
- {"AST_RESET", D23_OMAP3430_GPIO_126, 126, NULL, 0,
- DIR_OUT, 0, DRV_HI, 0, 0},
- {"AST__rn_b", K8_GPMC_WAIT2, 64, NULL, 0,
- DIR_INP, 0, 0, 0, 0},
- {"AST_INTR", H1_OMAP3430_GPIO_62, 62, NULL, 0,
- DIR_INP, 0, DRV_HI, 0, 0},
- {"AST_CS", T8_OMAP3430_GPMC_n_c_s4, 55, NULL, 0,
- DIR_OUT, 0, DRV_HI, 0, 0},
- {"LED_0", R25_OMAP3430_GPIO_156, 156, NULL, 0,
- DIR_OUT, 0, DRV_LO, 0, 0},
- {"LED_1", R27_OMAP3430_GPIO_128, 128, NULL, 0,
- DIR_OUT, 0, DRV_LO, 0, 0},
- {"AST_CLE", G3_OMAP3430_n_b_e0_CLE , 60, NULL, 0,
- DIR_OUT, 0, DRV_LO, 0, 0},
- /*
- * Z terminator, must always be present
- * for sanity check, don't remove
- */
- {NULL}
-};
-
-#define GPIO_BANK(pin) (pin >> 5)
-#define REG_WIDTH 32
-#define GPIO_REG_VMA(pin_num, offset) \
- (gpio_vma_tab[GPIO_BANK(pin_num)].virt_addr + offset)
-
-/*
- * OMAP GPIO_REG 32 BIT MASK for a bit or
- * flag in gpio_No[0..191] apply it to a 32 bit
- * location to set clear or check on a corresponding
- * gpio bit or flag
- */
-#define GPIO_REG_MASK(pin_num) (1 << \
- (pin_num - (GPIO_BANK(pin_num) * REG_WIDTH)))
-
-/*
- * OMAP GPIO registers bitwise access macros
- */
-
-#define OMAP_GPIO_BIT(pin_num, reg) \
- ((*((u32 *)GPIO_REG_VMA(pin_num, reg)) \
- & GPIO_REG_MASK(pin_num)) ? 1 : 0)
-
-#define RD_OMAP_GPIO_BIT(pin_num, v) OMAP_GPIO_BIT(pin_num, reg)
-
-/*
- *these are superfast set/clr bitbang macro, 48ns cyc tyme
- */
-#define OMAP_SET_GPIO(pin_num) \
- (*(u32 *)GPIO_REG_VMA(pin_num, GPIO_SET_DATAOUT) \
- = GPIO_REG_MASK(pin_num))
-#define OMAP_CLR_GPIO(pin_num) \
- (*(u32 *)GPIO_REG_VMA(pin_num, GPIO_CLEAR_DATAOUT) \
- = GPIO_REG_MASK(pin_num))
-
-#define WR_OMAP_GPIO_BIT(pin_num, v) \
- (v ? (*(u32 *)GPIO_REG_VMA(pin_num, \
- GPIO_SET_DATAOUT) = GPIO_REG_MASK(pin_num)) \
- : (*(u32 *)GPIO_REG_VMA(pin_num, \
- GPIO_CLEAR_DATAOUT) = GPIO_REG_MASK(pin_num)))
-
-/*
- * Note this pin cfg mimicks similar implementation
- * in linux kernel, which unfortunately doesn't allow
- * us to dynamically insert new custom GPIO mux
- * configurations all REG definitions used in this
- * applications. to add a new pad_cfg function, insert
- * a new ENUM and new pin_cfg entry in omap_mux_pin_cfg[]
- * table below
- *
- * offset - note this is a word offset since the
- * SCM regs are 16 bit packed in one 32 bit word
- * mux_val - just enough to describe pins used
- */
-typedef struct {
- char *name;
- u16 offset;
- u16 mux_val;
-} omap_3430_mux_t;
-
-/*
- * "OUTIN" is configuration when DATA reg drives the
- * pin but the level at the pin can be sensed
- */
-#define PAD_AS_OUTIN (OMAP34XX_MUX_MODE4 | \
- OMAP34XX_PIN_OUTPUT | OMAP34XX_PIN_INPUT)
-
-omap_3430_mux_t omap_mux_pin_cfg[] = {
- /*
- * B23_OMAP3430_GPIO_167 - GPIO func to PAD 167 WB wakeup
- * D23_OMAP3430_GPIO_126 - drive GPIO_126 ( AST RESET)
- * H1_OMAP3430_GPIO_62 - need a pullup on this pin
- * H1_OMAP3430_GPMC_n_w_p - GPMC NAND CTRL n_w_p out
- * T8_OMAP3430_GPMC_n_c_s4" - T8 is controlled b_y GPMC NAND ctrl
- * R25_OMAP3430_GPIO_156 - OMAPZOOM drive LED_0
- * R27_OMAP3430_GPIO_128 - OMAPZOOM drive LED_1
- * K8_OMAP3430_GPIO_64 - OMAPZOOM drive LED_2
- * K8_GPMC_WAIT2 - GPMC WAIT2 function on PAD K8
- * G3_OMAP3430_GPIO_60 - OMAPZOOM drive LED_3
- * G3_OMAP3430_n_b_e0_CLE -GPMC NAND ctrl CLE signal
- */
-
- {"B23_OMAP3430_GPIO_167", 0x0130, (OMAP34XX_MUX_MODE4)},
- {"D23_OMAP3430_GPIO_126", 0x0132, (OMAP34XX_MUX_MODE4)},
- {"H1_OMAP3430_GPIO_62", 0x00CA, (OMAP34XX_MUX_MODE4 |
- OMAP3_INPUT_EN | OMAP34XX_PIN_INPUT_PULLUP) },
- {"H1_OMAP3430_GPMC_n_w_p", 0x00CA, (OMAP34XX_MUX_MODE0)},
- {"T8_OMAP3430_GPMC_n_c_s4", 0x00B6, (OMAP34XX_MUX_MODE0) },
- {"T8_OMAP3430_GPIO_55", 0x00B6, (OMAP34XX_MUX_MODE4) },
- {"R25_OMAP3430_GPIO_156", 0x018C, (OMAP34XX_MUX_MODE4) },
- {"R27_OMAP3430_GPIO_128", 0x0154, (OMAP34XX_MUX_MODE4) },
- {"K8_OMAP3430_GPIO_64", 0x00d0, (OMAP34XX_MUX_MODE4) },
- {"K8_GPMC_WAIT2", 0x00d0, (OMAP34XX_MUX_MODE0) },
- {"G3_OMAP3430_GPIO_60", 0x00C6, (OMAP34XX_MUX_MODE4 |
- OMAP3_INPUT_EN)},
- {"G3_OMAP3430_n_b_e0_CLE", 0x00C6, (OMAP34XX_MUX_MODE0)},
- {"C6_GPMC_WAIT3", 0x00d2, (OMAP34XX_MUX_MODE0)},
- {"C6_OMAP3430_GPIO_65", 0x00d2, (OMAP34XX_MUX_MODE4 |
- OMAP3_INPUT_EN)},
- {"J1_OMAP3430_GPIO_61", 0x00C8, (OMAP34XX_MUX_MODE4 |
- OMAP3_INPUT_EN | OMAP34XX_PIN_INPUT_PULLUP)},
- /*
- * don't remove, used for sanity check.
- */
- {"END_OF_TABLE"}
-};
-
-
-#endif /* _INCLUDED_CYASMEMMAP_H_ */
-
-/*[]*/
+++ /dev/null
-/* Cypress Antioch OMAP KERNEL file (cyanomapdev_kernel.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor,
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef __CY_AS_OMAP_DEV_KERNEL_H__
-#define __CY_AS_OMAP_DEV_KERNEL_H__
-
-
-#include <linux/module.h>
-#include <linux/kernel.h>
-#include <linux/completion.h>
-
-/* include does not seem to work
- * moving for patch submission
-#include <mach/gpmc.h>
-*/
-#include <linux/../../arch/arm/plat-omap/include/plat/gpmc.h>
-
-/*
- * Constants
- */
-#define CY_AS_OMAP_KERNEL_HAL_SIG (0x1441)
-
-
-/*
- * Data structures
- */
-typedef struct cy_as_omap_dev_kernel {
- /* This is the signature for this data structure */
- unsigned int m_sig;
-
- /* Address base of Antioch Device */
- void *m_addr_base;
-
- /* This is a pointer to the next Antioch device in the system */
- struct cy_as_omap_dev_kernel *m_next_p;
-
- /* This is for thread sync */
- struct completion thread_complete;
-
- /* This is for thread to wait for interrupts */
- cy_as_hal_sleep_channel thread_sc;
-
- /* This is for thread to exit upon StopOmapKernel */
- int thread_flag; /* set 1 to exit */
-
- int dma_ch;
-
- /* This is for dma sync */
- struct completion dma_complete;
-} cy_as_omap_dev_kernel;
-
-#endif
-
-/*[]*/
+++ /dev/null
-#
-# West Bridge block driver configuration
-#
-
-config WESTBRIDGE_BLOCK_DRIVER
- tristate "West Bridge Block Driver"
- help
- Include the West Bridge based block driver
-
+++ /dev/null
-#
-# Makefile for the kernel westbridge block driver
-#
-
-ifneq ($(CONFIG_WESTBRIDGE_DEBUG),y)
- EXTRA_CFLAGS += -DWESTBRIDGE_NDEBUG
-endif
-
-obj-$(CONFIG_WESTBRIDGE_BLOCK_DRIVER) += cyasblkdev.o
-cyasblkdev-y := cyasblkdev_block.o cyasblkdev_queue.o
-
+++ /dev/null
-/* cyanblkdev_block.c - West Bridge Linux Block Driver source file
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-/*
- * Linux block driver implementation for Cypress West Bridge.
- * Based on the mmc block driver implementation by Andrew Christian
- * for the linux 2.6.26 kernel.
- * mmc_block.c, 5/28/2002
- */
-
-/*
- * Block driver for media (i.e., flash cards)
- *
- * Copyright 2002 Hewlett-Packard Company
- *
- * Use consistent with the GNU GPL is permitted,
- * provided that this copyright notice is
- * preserved in its entirety in all copies and derived works.
- *
- * HEWLETT-PACKARD COMPANY MAKES NO WARRANTIES, EXPRESSED OR IMPLIED,
- * AS TO THE USEFULNESS OR CORRECTNESS OF THIS CODE OR ITS
- * FITNESS FOR ANY PARTICULAR PURPOSE.
- *
- * Many thanks to Alessandro Rubini and Jonathan Corbet!
- *
- * Author: Andrew Christian
- * 28 May 2002
- */
-
-#include <linux/moduleparam.h>
-#include <linux/module.h>
-#include <linux/init.h>
-#include <linux/slab.h>
-#include <linux/sched.h>
-#include <linux/kernel.h>
-#include <linux/fs.h>
-#include <linux/errno.h>
-#include <linux/hdreg.h>
-#include <linux/kdev_t.h>
-#include <linux/blkdev.h>
-
-#include <asm/system.h>
-#include <linux/uaccess.h>
-
-#include <linux/scatterlist.h>
-#include <linux/time.h>
-#include <linux/signal.h>
-#include <linux/delay.h>
-
-#include "cyasblkdev_queue.h"
-
-#define CYASBLKDEV_SHIFT 0 /* Only a single partition. */
-#define CYASBLKDEV_MAX_REQ_LEN (256)
-#define CYASBLKDEV_NUM_MINORS (256 >> CYASBLKDEV_SHIFT)
-#define CY_AS_TEST_NUM_BLOCKS (64)
-#define CYASBLKDEV_MINOR_0 1
-#define CYASBLKDEV_MINOR_1 2
-#define CYASBLKDEV_MINOR_2 3
-
-static int major;
-module_param(major, int, 0444);
-MODULE_PARM_DESC(major,
- "specify the major device number for cyasblkdev block driver");
-
-/* parameters passed from the user space */
-static int vfat_search;
-module_param(vfat_search, bool, S_IRUGO | S_IWUSR);
-MODULE_PARM_DESC(vfat_search,
- "dynamically find the location of the first sector");
-
-static int private_partition_bus = -1;
-module_param(private_partition_bus, int, S_IRUGO | S_IWUSR);
-MODULE_PARM_DESC(private_partition_bus,
- "bus number for private partition");
-
-static int private_partition_size = -1;
-module_param(private_partition_size, int, S_IRUGO | S_IWUSR);
-MODULE_PARM_DESC(private_partition_size,
- "size of the private partition");
-
-/*
- * There is one cyasblkdev_blk_data per slot.
- */
-struct cyasblkdev_blk_data {
- spinlock_t lock;
- int media_count[2];
- const struct block_device_operations *blkops;
- unsigned int usage;
- unsigned int suspended;
-
- /* handle to the west bridge device this handle, typdefed as *void */
- cy_as_device_handle dev_handle;
-
- /* our custom structure, in addition to request queue,
- * adds lock & semaphore items*/
- struct cyasblkdev_queue queue;
-
- /* 16 entries is enough given max request size
- * 16 * 4K (64 K per request)*/
- struct scatterlist sg[16];
-
- /* non-zero enables printk of executed reqests */
- unsigned int dbgprn_flags;
-
- /*gen_disk for private, system disk */
- struct gendisk *system_disk;
- cy_as_media_type system_disk_type;
- cy_bool system_disk_read_only;
- cy_bool system_disk_bus_num;
-
- /* sector size for the medium */
- unsigned int system_disk_blk_size;
- unsigned int system_disk_first_sector;
- unsigned int system_disk_unit_no;
-
- /*gen_disk for bus 0 */
- struct gendisk *user_disk_0;
- cy_as_media_type user_disk_0_type;
- cy_bool user_disk_0_read_only;
- cy_bool user_disk_0_bus_num;
-
- /* sector size for the medium */
- unsigned int user_disk_0_blk_size;
- unsigned int user_disk_0_first_sector;
- unsigned int user_disk_0_unit_no;
-
- /*gen_disk for bus 1 */
- struct gendisk *user_disk_1;
- cy_as_media_type user_disk_1_type;
- cy_bool user_disk_1_read_only;
- cy_bool user_disk_1_bus_num;
-
- /* sector size for the medium */
- unsigned int user_disk_1_blk_size;
- unsigned int user_disk_1_first_sector;
- unsigned int user_disk_1_unit_no;
-};
-
-/* pointer to west bridge block data device superstructure */
-static struct cyasblkdev_blk_data *gl_bd;
-
-static DEFINE_SEMAPHORE(open_lock);
-
-/* local forwardd declarationss */
-static cy_as_device_handle *cyas_dev_handle;
-static void cyasblkdev_blk_deinit(struct cyasblkdev_blk_data *bd);
-
-/*change debug print options */
- #define DBGPRN_RD_RQ (1 < 0)
- #define DBGPRN_WR_RQ (1 < 1)
- #define DBGPRN_RQ_END (1 < 2)
-
-int blkdev_ctl_dbgprn(
- int prn_flags
- )
-{
- int cur_options = gl_bd->dbgprn_flags;
-
- DBGPRN_FUNC_NAME;
-
- /* set new debug print options */
- gl_bd->dbgprn_flags = prn_flags;
-
- /* return previous */
- return cur_options;
-}
-EXPORT_SYMBOL(blkdev_ctl_dbgprn);
-
-static struct cyasblkdev_blk_data *cyasblkdev_blk_get(
- struct gendisk *disk
- )
-{
- struct cyasblkdev_blk_data *bd;
-
- DBGPRN_FUNC_NAME;
-
- down(&open_lock);
-
- bd = disk->private_data;
-
- if (bd && (bd->usage == 0))
- bd = NULL;
-
- if (bd) {
- bd->usage++;
- #ifndef NBDEBUG
- cy_as_hal_print_message(
- "cyasblkdev_blk_get: usage = %d\n", bd->usage);
- #endif
- }
- up(&open_lock);
-
- return bd;
-}
-
-static void cyasblkdev_blk_put(
- struct cyasblkdev_blk_data *bd
- )
-{
- DBGPRN_FUNC_NAME;
-
- down(&open_lock);
-
- if (bd) {
- bd->usage--;
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- " cyasblkdev_blk_put , bd->usage= %d\n", bd->usage);
- #endif
- } else {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "cyasblkdev: blk_put(bd) on bd = NULL!: usage = %d\n",
- bd->usage);
- #endif
- up(&open_lock);
- return;
- }
-
- if (bd->usage == 0) {
- put_disk(bd->user_disk_0);
- put_disk(bd->user_disk_1);
- put_disk(bd->system_disk);
- cyasblkdev_cleanup_queue(&bd->queue);
-
- if (CY_AS_ERROR_SUCCESS !=
- cy_as_storage_release(bd->dev_handle, 0, 0, 0, 0)) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "cyasblkdev: cannot release bus 0\n");
- #endif
- }
-
- if (CY_AS_ERROR_SUCCESS !=
- cy_as_storage_release(bd->dev_handle, 1, 0, 0, 0)) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "cyasblkdev: cannot release bus 1\n");
- #endif
- }
-
- if (CY_AS_ERROR_SUCCESS !=
- cy_as_storage_stop(bd->dev_handle, 0, 0)) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "cyasblkdev: cannot stop storage stack\n");
- #endif
- }
-
- #ifdef __CY_ASTORIA_SCM_KERNEL_HAL__
- /* If the SCM Kernel HAL is being used, disable the use
- * of scatter/gather lists at the end of block driver usage.
- */
- cy_as_hal_disable_scatter_list(cyasdevice_gethaltag());
- #endif
-
- /*ptr to global struct cyasblkdev_blk_data */
- gl_bd = NULL;
- kfree(bd);
- }
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "cyasblkdev (blk_put): usage = %d\n",
- bd->usage);
- #endif
- up(&open_lock);
-}
-
-static int cyasblkdev_blk_open(
- struct block_device *bdev,
- fmode_t mode
- )
-{
- struct cyasblkdev_blk_data *bd = cyasblkdev_blk_get(bdev->bd_disk);
- int ret = -ENXIO;
-
- DBGPRN_FUNC_NAME;
-
- if (bd) {
- if (bd->usage == 2)
- check_disk_change(bdev);
-
- ret = 0;
-
- if (bdev->bd_disk == bd->user_disk_0) {
- if ((mode & FMODE_WRITE) && bd->user_disk_0_read_only) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "device marked as readonly "
- "and write requested\n");
- #endif
-
- cyasblkdev_blk_put(bd);
- ret = -EROFS;
- }
- } else if (bdev->bd_disk == bd->user_disk_1) {
- if ((mode & FMODE_WRITE) && bd->user_disk_1_read_only) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "device marked as readonly "
- "and write requested\n");
- #endif
-
- cyasblkdev_blk_put(bd);
- ret = -EROFS;
- }
- } else if (bdev->bd_disk == bd->system_disk) {
- if ((mode & FMODE_WRITE) && bd->system_disk_read_only) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "device marked as readonly "
- "and write requested\n");
- #endif
-
- cyasblkdev_blk_put(bd);
- ret = -EROFS;
- }
- }
- }
-
- return ret;
-}
-
-static int cyasblkdev_blk_release(
- struct gendisk *disk,
- fmode_t mode
- )
-{
- struct cyasblkdev_blk_data *bd = disk->private_data;
-
- DBGPRN_FUNC_NAME;
-
- cyasblkdev_blk_put(bd);
- return 0;
-}
-
-static int cyasblkdev_blk_ioctl(
- struct block_device *bdev,
- fmode_t mode,
- unsigned int cmd,
- unsigned long arg
- )
-{
- DBGPRN_FUNC_NAME;
-
- if (cmd == HDIO_GETGEO) {
- /*for now we only process geometry IOCTL*/
- struct hd_geometry geo;
-
- memset(&geo, 0, sizeof(struct hd_geometry));
-
- geo.cylinders = get_capacity(bdev->bd_disk) / (4 * 16);
- geo.heads = 4;
- geo.sectors = 16;
- geo.start = get_start_sect(bdev);
-
- /* copy to user space */
- return copy_to_user((void __user *)arg, &geo, sizeof(geo))
- ? -EFAULT : 0;
- }
-
- return -ENOTTY;
-}
-
-/* check_events block_device opp
- * this one is called by kernel to confirm if the media really changed
- * as we indicated by issuing check_disk_change() call */
-unsigned int cyasblkdev_check_events(struct gendisk *gd, unsigned int clearing)
-{
- struct cyasblkdev_blk_data *bd;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("cyasblkdev_media_changed() is called\n");
- #endif
-
- if (gd)
- bd = gd->private_data;
- else {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "cyasblkdev_media_changed() is called, "
- "but gd is null\n");
- #endif
- }
-
- /* return media change state - DISK_EVENT_MEDIA_CHANGE yes, 0 no */
- return 0;
-}
-
-/* this one called by kernel to give us a chence
- * to prep the new media before it starts to rescaning
- * of the newlly inserted SD media */
-int cyasblkdev_revalidate_disk(struct gendisk *gd)
-{
- /*int (*revalidate_disk) (struct gendisk *); */
-
- #ifndef WESTBRIDGE_NDEBUG
- if (gd)
- cy_as_hal_print_message(
- "cyasblkdev_revalidate_disk() is called, "
- "(gl_bd->usage:%d)\n", gl_bd->usage);
- #endif
-
- /* 0 means ok, kern can go ahead with partition rescan */
- return 0;
-}
-
-
-/*standard block device driver interface */
-static struct block_device_operations cyasblkdev_bdops = {
- .open = cyasblkdev_blk_open,
- .release = cyasblkdev_blk_release,
- .ioctl = cyasblkdev_blk_ioctl,
- /* .getgeo = cyasblkdev_blk_getgeo, */
- /* added to support media removal( real and simulated) media */
- .check_events = cyasblkdev_check_events,
- /* added to support media removal( real and simulated) media */
- .revalidate_disk = cyasblkdev_revalidate_disk,
- .owner = THIS_MODULE,
-};
-
-/* west bridge block device prep request function */
-static int cyasblkdev_blk_prep_rq(
- struct cyasblkdev_queue *bq,
- struct request *req
- )
-{
- struct cyasblkdev_blk_data *bd = bq->data;
- int stat = BLKPREP_OK;
-
- DBGPRN_FUNC_NAME;
-
- /* If we have no device, we haven't finished initialising. */
- if (!bd || !bd->dev_handle) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(KERN_ERR
- "cyasblkdev %s: killing request - no device/host\n",
- req->rq_disk->disk_name);
- #endif
- stat = BLKPREP_KILL;
- }
-
- if (bd->suspended) {
- blk_plug_device(bd->queue.queue);
- stat = BLKPREP_DEFER;
- }
-
- /* Check for excessive requests.*/
- if (blk_rq_pos(req) + blk_rq_sectors(req) > get_capacity(req->rq_disk)) {
- cy_as_hal_print_message("cyasblkdev: bad request address\n");
- stat = BLKPREP_KILL;
- }
-
- return stat;
-}
-
-/*west bridge storage async api on_completed callback */
-static void cyasblkdev_issuecallback(
- /* Handle to the device completing the storage operation */
- cy_as_device_handle handle,
- /* The media type completing the operation */
- cy_as_media_type type,
- /* The device completing the operation */
- uint32_t device,
- /* The unit completing the operation */
- uint32_t unit,
- /* The block number of the completed operation */
- uint32_t block_number,
- /* The type of operation */
- cy_as_oper_type op,
- /* The error status */
- cy_as_return_status_t status
- )
-{
- int retry_cnt = 0;
- DBGPRN_FUNC_NAME;
-
- if (status != CY_AS_ERROR_SUCCESS) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: async r/w: op:%d failed with error %d at address %d\n",
- __func__, op, status, block_number);
- #endif
- }
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s calling blk_end_request from issue_callback "
- "req=0x%x, status=0x%x, nr_sectors=0x%x\n",
- __func__, (unsigned int) gl_bd->queue.req, status,
- (unsigned int) blk_rq_sectors(gl_bd->queue.req));
- #endif
-
- /* note: blk_end_request w/o __ prefix should
- * not require spinlocks on the queue*/
- while (blk_end_request(gl_bd->queue.req,
- status, blk_rq_sectors(gl_bd->queue.req)*512)) {
- retry_cnt++;
- }
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s blkdev_callback: ended rq on %d sectors, "
- "with err:%d, n:%d times\n", __func__,
- (int)blk_rq_sectors(gl_bd->queue.req), status,
- retry_cnt
- );
- #endif
-
- spin_lock_irq(&gl_bd->lock);
-
- /*elevate next request, if there is one*/
- if (!blk_queue_plugged(gl_bd->queue.queue)) {
- /* queue is not plugged */
- gl_bd->queue.req = blk_fetch_request(gl_bd->queue.queue);
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s blkdev_callback: "
- "blk_fetch_request():%p\n",
- __func__, gl_bd->queue.req);
- #endif
- }
-
- if (gl_bd->queue.req) {
- spin_unlock_irq(&gl_bd->lock);
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s blkdev_callback: about to "
- "call issue_fn:%p\n", __func__, gl_bd->queue.req);
- #endif
-
- gl_bd->queue.issue_fn(&gl_bd->queue, gl_bd->queue.req);
- } else {
- spin_unlock_irq(&gl_bd->lock);
- }
-}
-
-/* issue astoria blkdev request (issue_fn) */
-static int cyasblkdev_blk_issue_rq(
- struct cyasblkdev_queue *bq,
- struct request *req
- )
-{
- struct cyasblkdev_blk_data *bd = bq->data;
- int index = 0;
- int ret = CY_AS_ERROR_SUCCESS;
- uint32_t req_sector = 0;
- uint32_t req_nr_sectors = 0;
- int bus_num = 0;
- int lcl_unit_no = 0;
-
- DBGPRN_FUNC_NAME;
-
- /*
- * will construct a scatterlist for the given request;
- * the return value is the number of actually used
- * entries in the resulting list. Then, this scatterlist
- * can be used for the actual DMA prep operation.
- */
- spin_lock_irq(&bd->lock);
- index = blk_rq_map_sg(bq->queue, req, bd->sg);
-
- if (req->rq_disk == bd->user_disk_0) {
- bus_num = bd->user_disk_0_bus_num;
- req_sector = blk_rq_pos(req) + gl_bd->user_disk_0_first_sector;
- req_nr_sectors = blk_rq_sectors(req);
- lcl_unit_no = gl_bd->user_disk_0_unit_no;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: request made to disk 0 "
- "for sector=%d, num_sectors=%d, unit_no=%d\n",
- __func__, req_sector, (int) blk_rq_sectors(req),
- lcl_unit_no);
- #endif
- } else if (req->rq_disk == bd->user_disk_1) {
- bus_num = bd->user_disk_1_bus_num;
- req_sector = blk_rq_pos(req) + gl_bd->user_disk_1_first_sector;
- /*SECT_NUM_TRANSLATE(blk_rq_sectors(req));*/
- req_nr_sectors = blk_rq_sectors(req);
- lcl_unit_no = gl_bd->user_disk_1_unit_no;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: request made to disk 1 for "
- "sector=%d, num_sectors=%d, unit_no=%d\n", __func__,
- req_sector, (int) blk_rq_sectors(req), lcl_unit_no);
- #endif
- } else if (req->rq_disk == bd->system_disk) {
- bus_num = bd->system_disk_bus_num;
- req_sector = blk_rq_pos(req) + gl_bd->system_disk_first_sector;
- req_nr_sectors = blk_rq_sectors(req);
- lcl_unit_no = gl_bd->system_disk_unit_no;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: request made to system disk "
- "for sector=%d, num_sectors=%d, unit_no=%d\n", __func__,
- req_sector, (int) blk_rq_sectors(req), lcl_unit_no);
- #endif
- }
- #ifndef WESTBRIDGE_NDEBUG
- else {
- cy_as_hal_print_message(
- "%s: invalid disk used for request\n", __func__);
- }
- #endif
-
- spin_unlock_irq(&bd->lock);
-
- if (rq_data_dir(req) == READ) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: calling readasync() "
- "req_sector=0x%x, req_nr_sectors=0x%x, bd->sg:%x\n\n",
- __func__, req_sector, req_nr_sectors, (uint32_t)bd->sg);
- #endif
-
- ret = cy_as_storage_read_async(bd->dev_handle, bus_num, 0,
- lcl_unit_no, req_sector, bd->sg, req_nr_sectors,
- (cy_as_storage_callback)cyasblkdev_issuecallback);
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s:readasync() error %d at "
- "address %ld, unit no %d\n", __func__, ret,
- blk_rq_pos(req), lcl_unit_no);
- cy_as_hal_print_message("%s:ending i/o request "
- "on reg:%x\n", __func__, (uint32_t)req);
- #endif
-
- while (blk_end_request(req,
- (ret == CY_AS_ERROR_SUCCESS),
- req_nr_sectors*512))
- ;
-
- bq->req = NULL;
- }
- } else {
- ret = cy_as_storage_write_async(bd->dev_handle, bus_num, 0,
- lcl_unit_no, req_sector, bd->sg, req_nr_sectors,
- (cy_as_storage_callback)cyasblkdev_issuecallback);
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: write failed with "
- "error %d at address %ld, unit no %d\n",
- __func__, ret, blk_rq_pos(req), lcl_unit_no);
- #endif
-
- /*end IO op on this request(does both
- * end_that_request_... _first & _last) */
- while (blk_end_request(req,
- (ret == CY_AS_ERROR_SUCCESS),
- req_nr_sectors*512))
- ;
-
- bq->req = NULL;
- }
- }
-
- return ret;
-}
-
-static unsigned long
-dev_use[CYASBLKDEV_NUM_MINORS / (8 * sizeof(unsigned long))];
-
-
-/* storage event callback (note: called in astoria isr context) */
-static void cyasblkdev_storage_callback(
- cy_as_device_handle dev_h,
- cy_as_bus_number_t bus,
- uint32_t device,
- cy_as_storage_event evtype,
- void *evdata
- )
-{
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: bus:%d, device:%d, evtype:%d, "
- "evdata:%p\n ", __func__, bus, device, evtype, evdata);
- #endif
-
- switch (evtype) {
- case cy_as_storage_processor:
- break;
-
- case cy_as_storage_removed:
- break;
-
- case cy_as_storage_inserted:
- break;
-
- default:
- break;
- }
-}
-
-#define SECTORS_TO_SCAN 4096
-
-uint32_t cyasblkdev_get_vfat_offset(int bus_num, int unit_no)
-{
- /*
- * for sd media, vfat partition boot record is not always
- * located at sector it greatly depends on the system and
- * software that was used to format the sd however, linux
- * fs layer always expects it at sector 0, this function
- * finds the offset and then uses it in all media r/w
- * operations
- */
- int sect_no, stat;
- uint8_t *sect_buf;
- bool br_found = false;
-
- DBGPRN_FUNC_NAME;
-
- sect_buf = kmalloc(1024, GFP_KERNEL);
-
- /* since HAL layer always uses sg lists instead of the
- * buffer (for hw dmas) we need to initialize the sg list
- * for local buffer*/
- sg_init_one(gl_bd->sg, sect_buf, 512);
-
- /*
- * Check MPR partition table 1st, then try to scan through
- * 1st 384 sectors until BR signature(intel JMP istruction
- * code and ,0x55AA) is found
- */
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s scanning media for vfat partition...\n", __func__);
- #endif
-
- for (sect_no = 0; sect_no < SECTORS_TO_SCAN; sect_no++) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s before cyasstorageread "
- "gl_bd->sg addr=0x%x\n", __func__,
- (unsigned int) gl_bd->sg);
- #endif
-
- stat = cy_as_storage_read(
- /* Handle to the device of interest */
- gl_bd->dev_handle,
- /* The bus to access */
- bus_num,
- /* The device to access */
- 0,
- /* The unit to access */
- unit_no,
- /* absolute sector number */
- sect_no,
- /* sg structure */
- gl_bd->sg,
- /* The number of blocks to be read */
- 1
- );
-
- /* try only sectors with boot signature */
- if ((sect_buf[510] == 0x55) && (sect_buf[511] == 0xaa)) {
- /* vfat boot record may also be located at
- * sector 0, check it first */
- if (sect_buf[0] == 0xEB) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s vfat partition found "
- "at sector:%d\n",
- __func__, sect_no);
- #endif
-
- br_found = true;
- break;
- }
- }
-
- if (stat != 0) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s sector scan error\n",
- __func__);
- #endif
- break;
- }
- }
-
- kfree(sect_buf);
-
- if (br_found) {
- return sect_no;
- } else {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s vfat partition is not found, using 0 offset\n",
- __func__);
- #endif
- return 0;
- }
-}
-
-cy_as_storage_query_device_data dev_data = {0};
-
-static int cyasblkdev_add_disks(int bus_num,
- struct cyasblkdev_blk_data *bd,
- int total_media_count,
- int devidx)
-{
- int ret = 0;
- uint64_t disk_cap;
- int lcl_unit_no;
- cy_as_storage_query_unit_data unit_data = {0};
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s:query device: "
- "type:%d, removable:%d, writable:%d, "
- "blksize %d, units:%d, locked:%d, "
- "erase_sz:%d\n",
- __func__,
- dev_data.desc_p.type,
- dev_data.desc_p.removable,
- dev_data.desc_p.writeable,
- dev_data.desc_p.block_size,
- dev_data.desc_p.number_units,
- dev_data.desc_p.locked,
- dev_data.desc_p.erase_unit_size
- );
- #endif
-
- /* make sure that device is not locked */
- if (dev_data.desc_p.locked) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: device is locked\n", __func__);
- #endif
- ret = cy_as_storage_release(
- bd->dev_handle, bus_num, 0, 0, 0);
- if (ret != CY_AS_ERROR_SUCCESS) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s cannot release"
- " storage\n", __func__);
- #endif
- goto out;
- }
- goto out;
- }
-
- unit_data.device = 0;
- unit_data.unit = 0;
- unit_data.bus = bus_num;
- ret = cy_as_storage_query_unit(bd->dev_handle,
- &unit_data, 0, 0);
- if (ret != CY_AS_ERROR_SUCCESS) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: cannot query "
- "%d device unit - reason code %d\n",
- __func__, bus_num, ret);
- #endif
- goto out;
- }
-
- if (private_partition_bus == bus_num) {
- if (private_partition_size > 0) {
- ret = cy_as_storage_create_p_partition(
- bd->dev_handle, bus_num, 0,
- private_partition_size, 0, 0);
- if ((ret != CY_AS_ERROR_SUCCESS) &&
- (ret != CY_AS_ERROR_ALREADY_PARTITIONED)) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: cy_as_storage_"
- "create_p_partition after size > 0 check "
- "failed with error code %d\n",
- __func__, ret);
- #endif
-
- disk_cap = (uint64_t)
- (unit_data.desc_p.unit_size);
- lcl_unit_no = 0;
-
- } else if (ret == CY_AS_ERROR_ALREADY_PARTITIONED) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: cy_as_storage_create_p_partition "
- "indicates memory already partitioned\n",
- __func__);
- #endif
-
- /*check to see that partition
- * matches size */
- if (unit_data.desc_p.unit_size !=
- private_partition_size) {
- ret = cy_as_storage_remove_p_partition(
- bd->dev_handle,
- bus_num, 0, 0, 0);
- if (ret == CY_AS_ERROR_SUCCESS) {
- ret = cy_as_storage_create_p_partition(
- bd->dev_handle, bus_num, 0,
- private_partition_size, 0, 0);
- if (ret == CY_AS_ERROR_SUCCESS) {
- unit_data.bus = bus_num;
- unit_data.device = 0;
- unit_data.unit = 1;
- } else {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: cy_as_storage_create_p_partition "
- "after removal unexpectedly failed "
- "with error %d\n", __func__, ret);
- #endif
-
- /* need to requery bus
- * seeing as delete
- * successful and create
- * failed we have changed
- * the disk properties */
- unit_data.bus = bus_num;
- unit_data.device = 0;
- unit_data.unit = 0;
- }
-
- ret = cy_as_storage_query_unit(
- bd->dev_handle,
- &unit_data, 0, 0);
- if (ret != CY_AS_ERROR_SUCCESS) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: cannot query %d "
- "device unit - reason code %d\n",
- __func__, bus_num, ret);
- #endif
- goto out;
- } else {
- disk_cap = (uint64_t)
- (unit_data.desc_p.unit_size);
- lcl_unit_no =
- unit_data.unit;
- }
- } else {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: cy_as_storage_remove_p_partition "
- "failed with error %d\n",
- __func__, ret);
- #endif
-
- unit_data.bus = bus_num;
- unit_data.device = 0;
- unit_data.unit = 1;
-
- ret = cy_as_storage_query_unit(
- bd->dev_handle, &unit_data, 0, 0);
- if (ret != CY_AS_ERROR_SUCCESS) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: cannot query %d "
- "device unit - reason "
- "code %d\n", __func__,
- bus_num, ret);
- #endif
- goto out;
- }
-
- disk_cap = (uint64_t)
- (unit_data.desc_p.unit_size);
- lcl_unit_no =
- unit_data.unit;
- }
- } else {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: partition "
- "exists and sizes equal\n",
- __func__);
- #endif
-
- /*partition already existed,
- * need to query second unit*/
- unit_data.bus = bus_num;
- unit_data.device = 0;
- unit_data.unit = 1;
-
- ret = cy_as_storage_query_unit(
- bd->dev_handle, &unit_data, 0, 0);
- if (ret != CY_AS_ERROR_SUCCESS) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: cannot query %d "
- "device unit "
- "- reason code %d\n",
- __func__, bus_num, ret);
- #endif
- goto out;
- } else {
- disk_cap = (uint64_t)
- (unit_data.desc_p.unit_size);
- lcl_unit_no = unit_data.unit;
- }
- }
- } else {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: cy_as_storage_create_p_partition "
- "created successfully\n", __func__);
- #endif
-
- disk_cap = (uint64_t)
- (unit_data.desc_p.unit_size -
- private_partition_size);
-
- lcl_unit_no = 1;
- }
- }
- #ifndef WESTBRIDGE_NDEBUG
- else {
- cy_as_hal_print_message(
- "%s: invalid partition_size%d\n", __func__,
- private_partition_size);
-
- disk_cap = (uint64_t)
- (unit_data.desc_p.unit_size);
- lcl_unit_no = 0;
- }
- #endif
- } else {
- disk_cap = (uint64_t)
- (unit_data.desc_p.unit_size);
- lcl_unit_no = 0;
- }
-
- if ((bus_num == 0) ||
- (total_media_count == 1)) {
- sprintf(bd->user_disk_0->disk_name,
- "cyasblkdevblk%d", devidx);
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: disk unit_sz:%lu blk_sz:%d, "
- "start_blk:%lu, capacity:%llu\n",
- __func__, (unsigned long)
- unit_data.desc_p.unit_size,
- unit_data.desc_p.block_size,
- (unsigned long)
- unit_data.desc_p.start_block,
- (uint64_t)disk_cap
- );
- #endif
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: setting gendisk disk "
- "capacity to %d\n", __func__, (int) disk_cap);
- #endif
-
- /* initializing bd->queue */
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: init bd->queue\n",
- __func__);
- #endif
-
- /* this will create a
- * queue kernel thread */
- cyasblkdev_init_queue(
- &bd->queue, &bd->lock);
-
- bd->queue.prep_fn = cyasblkdev_blk_prep_rq;
- bd->queue.issue_fn = cyasblkdev_blk_issue_rq;
- bd->queue.data = bd;
-
- /*blk_size should always
- * be a multiple of 512,
- * set to the max to ensure
- * that all accesses aligned
- * to the greatest multiple,
- * can adjust request to
- * smaller block sizes
- * dynamically*/
-
- bd->user_disk_0_read_only = !dev_data.desc_p.writeable;
- bd->user_disk_0_blk_size = dev_data.desc_p.block_size;
- bd->user_disk_0_type = dev_data.desc_p.type;
- bd->user_disk_0_bus_num = bus_num;
- bd->user_disk_0->major = major;
- bd->user_disk_0->first_minor = devidx << CYASBLKDEV_SHIFT;
- bd->user_disk_0->minors = 8;
- bd->user_disk_0->fops = &cyasblkdev_bdops;
- bd->user_disk_0->events = DISK_EVENT_MEDIA_CHANGE;
- bd->user_disk_0->private_data = bd;
- bd->user_disk_0->queue = bd->queue.queue;
- bd->dbgprn_flags = DBGPRN_RD_RQ;
- bd->user_disk_0_unit_no = lcl_unit_no;
-
- blk_queue_logical_block_size(bd->queue.queue,
- bd->user_disk_0_blk_size);
-
- set_capacity(bd->user_disk_0,
- disk_cap);
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: returned from set_capacity %d\n",
- __func__, (int) disk_cap);
- #endif
-
- /* need to start search from
- * public partition beginning */
- if (vfat_search) {
- bd->user_disk_0_first_sector =
- cyasblkdev_get_vfat_offset(
- bd->user_disk_0_bus_num,
- bd->user_disk_0_unit_no);
- } else {
- bd->user_disk_0_first_sector = 0;
- }
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: set user_disk_0_first "
- "sector to %d\n", __func__,
- bd->user_disk_0_first_sector);
- cy_as_hal_print_message(
- "%s: add_disk: disk->major=0x%x\n",
- __func__,
- bd->user_disk_0->major);
- cy_as_hal_print_message(
- "%s: add_disk: "
- "disk->first_minor=0x%x\n", __func__,
- bd->user_disk_0->first_minor);
- cy_as_hal_print_message(
- "%s: add_disk: "
- "disk->minors=0x%x\n", __func__,
- bd->user_disk_0->minors);
- cy_as_hal_print_message(
- "%s: add_disk: "
- "disk->disk_name=%s\n",
- __func__,
- bd->user_disk_0->disk_name);
- cy_as_hal_print_message(
- "%s: add_disk: "
- "disk->part_tbl=0x%x\n", __func__,
- (unsigned int)
- bd->user_disk_0->part_tbl);
- cy_as_hal_print_message(
- "%s: add_disk: "
- "disk->queue=0x%x\n", __func__,
- (unsigned int)
- bd->user_disk_0->queue);
- cy_as_hal_print_message(
- "%s: add_disk: "
- "disk->flags=0x%x\n",
- __func__, (unsigned int)
- bd->user_disk_0->flags);
- cy_as_hal_print_message(
- "%s: add_disk: "
- "disk->driverfs_dev=0x%x\n",
- __func__, (unsigned int)
- bd->user_disk_0->driverfs_dev);
- cy_as_hal_print_message(
- "%s: add_disk: "
- "disk->slave_dir=0x%x\n",
- __func__, (unsigned int)
- bd->user_disk_0->slave_dir);
- cy_as_hal_print_message(
- "%s: add_disk: "
- "disk->random=0x%x\n",
- __func__, (unsigned int)
- bd->user_disk_0->random);
- cy_as_hal_print_message(
- "%s: add_disk: "
- "disk->node_id=0x%x\n",
- __func__, (unsigned int)
- bd->user_disk_0->node_id);
-
- #endif
-
- add_disk(bd->user_disk_0);
-
- } else if ((bus_num == 1) &&
- (total_media_count == 2)) {
- bd->user_disk_1_read_only = !dev_data.desc_p.writeable;
- bd->user_disk_1_blk_size = dev_data.desc_p.block_size;
- bd->user_disk_1_type = dev_data.desc_p.type;
- bd->user_disk_1_bus_num = bus_num;
- bd->user_disk_1->major = major;
- bd->user_disk_1->first_minor = (devidx + 1) << CYASBLKDEV_SHIFT;
- bd->user_disk_1->minors = 8;
- bd->user_disk_1->fops = &cyasblkdev_bdops;
- bd->user_disk_1->events = DISK_EVENT_MEDIA_CHANGE;
- bd->user_disk_1->private_data = bd;
- bd->user_disk_1->queue = bd->queue.queue;
- bd->dbgprn_flags = DBGPRN_RD_RQ;
- bd->user_disk_1_unit_no = lcl_unit_no;
-
- sprintf(bd->user_disk_1->disk_name,
- "cyasblkdevblk%d", (devidx + 1));
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: disk unit_sz:%lu "
- "blk_sz:%d, "
- "start_blk:%lu, "
- "capacity:%llu\n",
- __func__,
- (unsigned long)
- unit_data.desc_p.unit_size,
- unit_data.desc_p.block_size,
- (unsigned long)
- unit_data.desc_p.start_block,
- (uint64_t)disk_cap
- );
- #endif
-
- /*blk_size should always be a
- * multiple of 512, set to the max
- * to ensure that all accesses
- * aligned to the greatest multiple,
- * can adjust request to smaller
- * block sizes dynamically*/
- if (bd->user_disk_0_blk_size >
- bd->user_disk_1_blk_size) {
- blk_queue_logical_block_size(bd->queue.queue,
- bd->user_disk_0_blk_size);
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: set hard sect_sz:%d\n",
- __func__,
- bd->user_disk_0_blk_size);
- #endif
- } else {
- blk_queue_logical_block_size(bd->queue.queue,
- bd->user_disk_1_blk_size);
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: set hard sect_sz:%d\n",
- __func__,
- bd->user_disk_1_blk_size);
- #endif
- }
-
- set_capacity(bd->user_disk_1, disk_cap);
- if (vfat_search) {
- bd->user_disk_1_first_sector =
- cyasblkdev_get_vfat_offset(
- bd->user_disk_1_bus_num,
- bd->user_disk_1_unit_no);
- } else {
- bd->user_disk_1_first_sector
- = 0;
- }
-
- add_disk(bd->user_disk_1);
- }
-
- if (lcl_unit_no > 0) {
- if (bd->system_disk == NULL) {
- bd->system_disk =
- alloc_disk(8);
-
- if (bd->system_disk == NULL) {
- kfree(bd);
- bd = ERR_PTR(-ENOMEM);
- return bd;
- }
- disk_cap = (uint64_t)
- (private_partition_size);
-
- /* set properties of
- * system disk */
- bd->system_disk_read_only = !dev_data.desc_p.writeable;
- bd->system_disk_blk_size = dev_data.desc_p.block_size;
- bd->system_disk_bus_num = bus_num;
- bd->system_disk->major = major;
- bd->system_disk->first_minor =
- (devidx + 2) << CYASBLKDEV_SHIFT;
- bd->system_disk->minors = 8;
- bd->system_disk->fops = &cyasblkdev_bdops;
- bd->system_disk->events = DISK_EVENT_MEDIA_CHANGE;
- bd->system_disk->private_data = bd;
- bd->system_disk->queue = bd->queue.queue;
- /* don't search for vfat
- * with system disk */
- bd->system_disk_first_sector = 0;
- sprintf(
- bd->system_disk->disk_name,
- "cyasblkdevblk%d", (devidx + 2));
-
- set_capacity(bd->system_disk,
- disk_cap);
-
- add_disk(bd->system_disk);
- }
- #ifndef WESTBRIDGE_NDEBUG
- else {
- cy_as_hal_print_message(
- "%s: system disk already allocated %d\n",
- __func__, bus_num);
- }
- #endif
- }
-out:
- return ret;
-}
-
-static struct cyasblkdev_blk_data *cyasblkdev_blk_alloc(void)
-{
- struct cyasblkdev_blk_data *bd;
- int ret = 0;
- cy_as_return_status_t stat = -1;
- int bus_num = 0;
- int total_media_count = 0;
- int devidx = 0;
- DBGPRN_FUNC_NAME;
-
- total_media_count = 0;
- devidx = find_first_zero_bit(dev_use, CYASBLKDEV_NUM_MINORS);
- if (devidx >= CYASBLKDEV_NUM_MINORS)
- return ERR_PTR(-ENOSPC);
-
- __set_bit(devidx, dev_use);
- __set_bit(devidx + 1, dev_use);
-
- bd = kzalloc(sizeof(struct cyasblkdev_blk_data), GFP_KERNEL);
- if (bd) {
- gl_bd = bd;
-
- spin_lock_init(&bd->lock);
- bd->usage = 1;
-
- /* setup the block_dev_ops pointer*/
- bd->blkops = &cyasblkdev_bdops;
-
- /* Get the device handle */
- bd->dev_handle = cyasdevice_getdevhandle();
- if (0 == bd->dev_handle) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: get device failed\n", __func__);
- #endif
- ret = ENODEV;
- goto out;
- }
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s west bridge device handle:%x\n",
- __func__, (uint32_t)bd->dev_handle);
- #endif
-
- /* start the storage api and get a handle to the
- * device we are interested in. */
-
- /* Error code to use if the conditions are not satisfied. */
- ret = ENOMEDIUM;
-
- stat = cy_as_misc_release_resource(bd->dev_handle, cy_as_bus_0);
- if ((stat != CY_AS_ERROR_SUCCESS) &&
- (stat != CY_AS_ERROR_RESOURCE_NOT_OWNED)) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: cannot release "
- "resource bus 0 - reason code %d\n",
- __func__, stat);
- #endif
- }
-
- stat = cy_as_misc_release_resource(bd->dev_handle, cy_as_bus_1);
- if ((stat != CY_AS_ERROR_SUCCESS) &&
- (stat != CY_AS_ERROR_RESOURCE_NOT_OWNED)) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: cannot release "
- "resource bus 0 - reason code %d\n",
- __func__, stat);
- #endif
- }
-
- /* start storage stack*/
- stat = cy_as_storage_start(bd->dev_handle, 0, 0x101);
- if (stat != CY_AS_ERROR_SUCCESS) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: cannot start storage "
- "stack - reason code %d\n", __func__, stat);
- #endif
- goto out;
- }
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: storage started:%d ok\n",
- __func__, stat);
- #endif
-
- stat = cy_as_storage_register_callback(bd->dev_handle,
- cyasblkdev_storage_callback);
- if (stat != CY_AS_ERROR_SUCCESS) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: cannot register callback "
- "- reason code %d\n", __func__, stat);
- #endif
- goto out;
- }
-
- for (bus_num = 0; bus_num < 2; bus_num++) {
- stat = cy_as_storage_query_bus(bd->dev_handle,
- bus_num, &bd->media_count[bus_num], 0, 0);
- if (stat == CY_AS_ERROR_SUCCESS) {
- total_media_count = total_media_count +
- bd->media_count[bus_num];
- } else {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: cannot query %d, "
- "reason code: %d\n",
- __func__, bus_num, stat);
- #endif
- goto out;
- }
- }
-
- if (total_media_count == 0) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: no storage media was found\n", __func__);
- #endif
- goto out;
- } else if (total_media_count >= 1) {
- if (bd->user_disk_0 == NULL) {
-
- bd->user_disk_0 =
- alloc_disk(8);
- if (bd->user_disk_0 == NULL) {
- kfree(bd);
- bd = ERR_PTR(-ENOMEM);
- return bd;
- }
- }
- #ifndef WESTBRIDGE_NDEBUG
- else {
- cy_as_hal_print_message("%s: no available "
- "gen_disk for disk 0, "
- "physically inconsistent\n", __func__);
- }
- #endif
- }
-
- if (total_media_count == 2) {
- if (bd->user_disk_1 == NULL) {
- bd->user_disk_1 =
- alloc_disk(8);
- if (bd->user_disk_1 == NULL) {
- kfree(bd);
- bd = ERR_PTR(-ENOMEM);
- return bd;
- }
- }
- #ifndef WESTBRIDGE_NDEBUG
- else {
- cy_as_hal_print_message("%s: no available "
- "gen_disk for media, "
- "physically inconsistent\n", __func__);
- }
- #endif
- }
- #ifndef WESTBRIDGE_NDEBUG
- else if (total_media_count > 2) {
- cy_as_hal_print_message("%s: count corrupted = 0x%d\n",
- __func__, total_media_count);
- }
- #endif
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: %d device(s) found\n",
- __func__, total_media_count);
- #endif
-
- for (bus_num = 0; bus_num <= 1; bus_num++) {
- /*claim storage for cpu */
- stat = cy_as_storage_claim(bd->dev_handle,
- bus_num, 0, 0, 0);
- if (stat != CY_AS_ERROR_SUCCESS) {
- cy_as_hal_print_message("%s: cannot claim "
- "%d bus - reason code %d\n",
- __func__, bus_num, stat);
- goto out;
- }
-
- dev_data.bus = bus_num;
- dev_data.device = 0;
-
- stat = cy_as_storage_query_device(bd->dev_handle,
- &dev_data, 0, 0);
- if (stat == CY_AS_ERROR_SUCCESS) {
- cyasblkdev_add_disks(bus_num, bd,
- total_media_count, devidx);
- } else if (stat == CY_AS_ERROR_NO_SUCH_DEVICE) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: no device on bus %d\n",
- __func__, bus_num);
- #endif
- } else {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: cannot query %d device "
- "- reason code %d\n",
- __func__, bus_num, stat);
- #endif
- goto out;
- }
- } /* end for (bus_num = 0; bus_num <= 1; bus_num++)*/
-
- return bd;
- }
-out:
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: bd failed to initialize\n", __func__);
- #endif
-
- kfree(bd);
- bd = ERR_PTR(-ret);
- return bd;
-}
-
-
-/*init west bridge block device */
-static int cyasblkdev_blk_initialize(void)
-{
- struct cyasblkdev_blk_data *bd;
- int res;
-
- DBGPRN_FUNC_NAME;
-
- res = register_blkdev(major, "cyasblkdev");
-
- if (res < 0) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(KERN_WARNING
- "%s unable to get major %d for cyasblkdev media: %d\n",
- __func__, major, res);
- #endif
- return res;
- }
-
- if (major == 0)
- major = res;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s cyasblkdev registered with major number: %d\n",
- __func__, major);
- #endif
-
- bd = cyasblkdev_blk_alloc();
- if (IS_ERR(bd))
- return PTR_ERR(bd);
-
- return 0;
-}
-
-/* start block device */
-static int __init cyasblkdev_blk_init(void)
-{
- int res = -ENOMEM;
-
- DBGPRN_FUNC_NAME;
-
- /* get the cyasdev handle for future use*/
- cyas_dev_handle = cyasdevice_getdevhandle();
-
- if (cyasblkdev_blk_initialize() == 0)
- return 0;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("cyasblkdev init error:%d\n", res);
- #endif
- return res;
-}
-
-
-static void cyasblkdev_blk_deinit(struct cyasblkdev_blk_data *bd)
-{
- DBGPRN_FUNC_NAME;
-
- if (bd) {
- int devidx;
-
- if (bd->user_disk_0 != NULL) {
- del_gendisk(bd->user_disk_0);
- devidx = bd->user_disk_0->first_minor
- >> CYASBLKDEV_SHIFT;
- __clear_bit(devidx, dev_use);
- }
-
- if (bd->user_disk_1 != NULL) {
- del_gendisk(bd->user_disk_1);
- devidx = bd->user_disk_1->first_minor
- >> CYASBLKDEV_SHIFT;
- __clear_bit(devidx, dev_use);
- }
-
- if (bd->system_disk != NULL) {
- del_gendisk(bd->system_disk);
- devidx = bd->system_disk->first_minor
- >> CYASBLKDEV_SHIFT;
- __clear_bit(devidx, dev_use);
- }
-
- cyasblkdev_blk_put(bd);
- }
-}
-
-/* block device exit */
-static void __exit cyasblkdev_blk_exit(void)
-{
- DBGPRN_FUNC_NAME;
-
- cyasblkdev_blk_deinit(gl_bd);
- unregister_blkdev(major, "cyasblkdev");
-
-}
-
-module_init(cyasblkdev_blk_init);
-module_exit(cyasblkdev_blk_exit);
-
-MODULE_LICENSE("GPL");
-MODULE_DESCRIPTION("antioch (cyasblkdev) block device driver");
-MODULE_AUTHOR("cypress semiconductor");
-
-/*[]*/
+++ /dev/null
-/* cyanblkdev_queue.h - Antioch Linux Block Driver queue source file
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor,
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-/*
- * Request queue handling for Antioch block device driver.
- * Based on the mmc queue handling code by Russell King in the
- * linux 2.6.10 kernel.
- */
-
-/*
- * linux/drivers/mmc/mmc_queue.c
- *
- * Copyright (C) 2003 Russell King, All Rights Reserved.
- *
- * This program is free software; you can redistribute it and/or modify
- * it under the terms of the GNU General Public License version 2 as
- * published by the Free Software Foundation.
- *
- */
-
-#include <linux/module.h>
-#include <linux/blkdev.h>
-
-#include "cyasblkdev_queue.h"
-
-#define CYASBLKDEV_QUEUE_EXIT (1 << 0)
-#define CYASBLKDEV_QUEUE_SUSPENDED (1 << 1)
-#define CY_AS_USE_ASYNC_API
-
-
-
-/* print flags by name */
-const char *rq_flag_bit_names[] = {
- "REQ_RW", /* not set, read. set, write */
- "REQ_FAILFAST", /* no low level driver retries */
- "REQ_SORTED", /* elevator knows about this request */
- "REQ_SOFTBARRIER", /* may not be passed by ioscheduler */
- "REQ_HARDBARRIER", /* may not be passed by drive either */
- "REQ_FUA", /* forced unit access */
- "REQ_NOMERGE", /* don't touch this for merging */
- "REQ_STARTED", /* drive already may have started this one */
- "REQ_DONTPREP", /* don't call prep for this one */
- "REQ_QUEUED", /* uses queueing */
- "REQ_ELVPRIV", /* elevator private data attached */
- "REQ_FAILED", /* set if the request failed */
- "REQ_QUIET", /* don't worry about errors */
- "REQ_PREEMPT", /* set for "ide_preempt" requests */
- "REQ_ORDERED_COLOR",/* is before or after barrier */
- "REQ_RW_SYNC", /* request is sync (O_DIRECT) */
- "REQ_ALLOCED", /* request came from our alloc pool */
- "REQ_RW_META", /* metadata io request */
- "REQ_COPY_USER", /* contains copies of user pages */
- "REQ_NR_BITS", /* stops here */
-};
-
-void verbose_rq_flags(int flags)
-{
- int i;
- uint32_t j;
- j = 1;
- for (i = 0; i < 32; i++) {
- if (flags & j)
- DBGPRN("<1>%s", rq_flag_bit_names[i]);
- j = j << 1;
- }
-}
-
-
-/*
- * Prepare a -BLK_DEV request. Essentially, this means passing the
- * preparation off to the media driver. The media driver will
- * create request to CyAsDev.
- */
-static int cyasblkdev_prep_request(
- struct request_queue *q, struct request *req)
-{
- DBGPRN_FUNC_NAME;
-
- /* we only like normal block requests.*/
- if (req->cmd_type != REQ_TYPE_FS && !(req->cmd_flags & REQ_DISCARD)) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s:%x bad request received\n",
- __func__, current->pid);
- #endif
-
- blk_dump_rq_flags(req, "cyasblkdev bad request");
- return BLKPREP_KILL;
- }
-
- req->cmd_flags |= REQ_DONTPREP;
-
- return BLKPREP_OK;
-}
-
-/* queue worker thread */
-static int cyasblkdev_queue_thread(void *d)
-{
- DECLARE_WAITQUEUE(wait, current);
- struct cyasblkdev_queue *bq = d;
- struct request_queue *q = bq->queue;
- u32 qth_pid;
-
- DBGPRN_FUNC_NAME;
-
- /*
- * set iothread to ensure that we aren't put to sleep by
- * the process freezing. we handle suspension ourselves.
- */
- daemonize("cyasblkdev_queue_thread");
-
- /* signal to queue_init() so it could contnue */
- complete(&bq->thread_complete);
-
- down(&bq->thread_sem);
- add_wait_queue(&bq->thread_wq, &wait);
-
- qth_pid = current->pid;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s:%x started, bq:%p, q:%p\n", __func__, qth_pid, bq, q);
- #endif
-
- do {
- struct request *req = NULL;
-
- /* the thread wants to be woken up by signals as well */
- set_current_state(TASK_INTERRUPTIBLE);
-
- spin_lock_irq(q->queue_lock);
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: for bq->queue is null\n", __func__);
- #endif
-
- if (!bq->req) {
- /* chk if queue is plugged */
- if (!blk_queue_plugged(q)) {
- bq->req = req = blk_fetch_request(q);
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: blk_fetch_request:%x\n",
- __func__, (uint32_t)req);
- #endif
- } else {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: queue plugged, "
- "skip blk_fetch()\n", __func__);
- #endif
- }
- }
- spin_unlock_irq(q->queue_lock);
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: checking if request queue is null\n", __func__);
- #endif
-
- if (!req) {
- if (bq->flags & CYASBLKDEV_QUEUE_EXIT) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s:got QUEUE_EXIT flag\n", __func__);
- #endif
-
- break;
- }
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: request queue is null, goto sleep, "
- "thread_sem->count=%d\n",
- __func__, bq->thread_sem.count);
- if (spin_is_locked(q->queue_lock)) {
- cy_as_hal_print_message("%s: queue_lock "
- "is locked, need to release\n", __func__);
- spin_unlock(q->queue_lock);
-
- if (spin_is_locked(q->queue_lock))
- cy_as_hal_print_message(
- "%s: unlock did not work\n",
- __func__);
- } else {
- cy_as_hal_print_message(
- "%s: checked lock, is not locked\n",
- __func__);
- }
- #endif
-
- up(&bq->thread_sem);
-
- /* yields to the next rdytorun proc,
- * then goes back to sleep*/
- schedule();
- down(&bq->thread_sem);
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: wake_up,continue\n",
- __func__);
- #endif
- continue;
- }
-
- /* new req received, issue it to the driver */
- set_current_state(TASK_RUNNING);
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: issued a RQ:%x\n",
- __func__, (uint32_t)req);
- #endif
-
- bq->issue_fn(bq, req);
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: bq->issue_fn() returned\n",
- __func__);
- #endif
-
-
- } while (1);
-
- set_current_state(TASK_RUNNING);
- remove_wait_queue(&bq->thread_wq, &wait);
- up(&bq->thread_sem);
-
- complete_and_exit(&bq->thread_complete, 0);
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: is finished\n", __func__);
- #endif
-
- return 0;
-}
-
-/*
- * Generic request handler. it is called for any queue on a
- * particular host. When the host is not busy, we look for a request
- * on any queue on this host, and attempt to issue it. This may
- * not be the queue we were asked to process.
- */
-static void cyasblkdev_request(struct request_queue *q)
-{
- struct cyasblkdev_queue *bq = q->queuedata;
- DBGPRN_FUNC_NAME;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s new request on cyasblkdev_queue_t bq:=%x\n",
- __func__, (uint32_t)bq);
- #endif
-
- if (!bq->req) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s wake_up(&bq->thread_wq)\n",
- __func__);
- #endif
-
- /* wake up cyasblkdev_queue worker thread*/
- wake_up(&bq->thread_wq);
- } else {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: don't wake Q_thr, bq->req:%x\n",
- __func__, (uint32_t)bq->req);
- #endif
- }
-}
-
-/*
- * cyasblkdev_init_queue - initialise a queue structure.
- * @bq: cyasblkdev queue
- * @dev: CyAsDeviceHandle to attach this queue
- * @lock: queue lock
- *
- * Initialise a cyasblkdev_request queue.
- */
-
-/* MAX NUMBER OF SECTORS PER REQUEST **/
-#define Q_MAX_SECTORS 128
-
-/* MAX NUMBER OF PHYS SEGMENTS (entries in the SG list)*/
-#define Q_MAX_SGS 16
-
-int cyasblkdev_init_queue(struct cyasblkdev_queue *bq, spinlock_t *lock)
-{
- int ret;
-
- DBGPRN_FUNC_NAME;
-
- /* 1st param is a function that wakes up the queue thread */
- bq->queue = blk_init_queue(cyasblkdev_request, lock);
- if (!bq->queue)
- return -ENOMEM;
-
- blk_queue_prep_rq(bq->queue, cyasblkdev_prep_request);
-
- blk_queue_bounce_limit(bq->queue, BLK_BOUNCE_ANY);
- blk_queue_max_hw_sectors(bq->queue, Q_MAX_SECTORS);
-
- /* As of now, we have the HAL/driver support to
- * merge scattered segments and handle them simultaneously.
- * so, setting the max_phys_segments to 8. */
- /*blk_queue_max_phys_segments(bq->queue, Q_MAX_SGS);
- blk_queue_max_hw_segments(bq->queue, Q_MAX_SGS);*/
- blk_queue_max_segments(bq->queue, Q_MAX_SGS);
-
- /* should be < then HAL can handle */
- blk_queue_max_segment_size(bq->queue, 512*Q_MAX_SECTORS);
-
- bq->queue->queuedata = bq;
- bq->req = NULL;
-
- init_completion(&bq->thread_complete);
- init_waitqueue_head(&bq->thread_wq);
- sema_init(&bq->thread_sem, 1);
-
- ret = kernel_thread(cyasblkdev_queue_thread, bq, CLONE_KERNEL);
- if (ret >= 0) {
- /* wait until the thread is spawned */
- wait_for_completion(&bq->thread_complete);
-
- /* reinitialize the completion */
- init_completion(&bq->thread_complete);
- ret = 0;
- goto out;
- }
-
-out:
- return ret;
-}
-EXPORT_SYMBOL(cyasblkdev_init_queue);
-
-/*called from blk_put() */
-void cyasblkdev_cleanup_queue(struct cyasblkdev_queue *bq)
-{
- DBGPRN_FUNC_NAME;
-
- bq->flags |= CYASBLKDEV_QUEUE_EXIT;
- wake_up(&bq->thread_wq);
- wait_for_completion(&bq->thread_complete);
-
- blk_cleanup_queue(bq->queue);
-}
-EXPORT_SYMBOL(cyasblkdev_cleanup_queue);
-
-
-/**
- * cyasblkdev_queue_suspend - suspend a CyAsBlkDev request queue
- * @bq: CyAsBlkDev queue to suspend
- *
- * Stop the block request queue, and wait for our thread to
- * complete any outstanding requests. This ensures that we
- * won't suspend while a request is being processed.
- */
-void cyasblkdev_queue_suspend(struct cyasblkdev_queue *bq)
-{
- struct request_queue *q = bq->queue;
- unsigned long flags;
-
- DBGPRN_FUNC_NAME;
-
- if (!(bq->flags & CYASBLKDEV_QUEUE_SUSPENDED)) {
- bq->flags |= CYASBLKDEV_QUEUE_SUSPENDED;
-
- spin_lock_irqsave(q->queue_lock, flags);
- blk_stop_queue(q);
- spin_unlock_irqrestore(q->queue_lock, flags);
-
- down(&bq->thread_sem);
- }
-}
-EXPORT_SYMBOL(cyasblkdev_queue_suspend);
-
-/*cyasblkdev_queue_resume - resume a previously suspended
- * CyAsBlkDev request queue @bq: CyAsBlkDev queue to resume */
-void cyasblkdev_queue_resume(struct cyasblkdev_queue *bq)
-{
- struct request_queue *q = bq->queue;
- unsigned long flags;
-
- DBGPRN_FUNC_NAME;
-
- if (bq->flags & CYASBLKDEV_QUEUE_SUSPENDED) {
- bq->flags &= ~CYASBLKDEV_QUEUE_SUSPENDED;
-
- up(&bq->thread_sem);
-
- spin_lock_irqsave(q->queue_lock, flags);
- blk_start_queue(q);
- spin_unlock_irqrestore(q->queue_lock, flags);
- }
-}
-EXPORT_SYMBOL(cyasblkdev_queue_resume);
-
-/*[]*/
+++ /dev/null
-/* cyanblkdev_queue.h - Antioch Linux Block Driver queue header file
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYANBLKDEV_QUEUE_H_
-#define _INCLUDED_CYANBLKDEV_QUEUE_H_
-
-/*
- * may contain various useful MACRO and debug printks
- */
-
-/* moved to staging location, eventual implementation
- * considered is here
- * #include <linux/westbridge/cyashal.h>
- * #include <linux/westbridge/cyastoria.h>
- * */
-
-#include "../include/linux/westbridge/cyashal.h"
-#include "../include/linux/westbridge/cyastoria.h"
-
-struct request;
-struct task_struct;
-
-struct cyasblkdev_queue {
- struct completion thread_complete;
- wait_queue_head_t thread_wq;
- struct semaphore thread_sem;
- unsigned int flags;
- struct request *req;
- int (*prep_fn)(struct cyasblkdev_queue *, struct request *);
- int (*issue_fn)(struct cyasblkdev_queue *, struct request *);
- void *data;
- struct request_queue *queue;
-};
-
-extern int cyasblkdev_init_queue(struct cyasblkdev_queue *, spinlock_t *);
-extern void cyasblkdev_cleanup_queue(struct cyasblkdev_queue *);
-extern void cyasblkdev_queue_suspend(struct cyasblkdev_queue *);
-extern void cyasblkdev_queue_resume(struct cyasblkdev_queue *);
-
-extern cy_as_device_handle cyasdevice_getdevhandle(void);
-#define MOD_LOGS 1
-void verbose_rq_flags(int flags);
-
-#endif /* _INCLUDED_CYANBLKDEV_QUEUE_H_ */
-
-/*[]*/
+++ /dev/null
-#
-# West Bridge block driver configuration
-#
-
-config WESTBRIDGE_DEVICE_DRIVER
- tristate "West Bridge Device Driver"
- help
- Include the West Bridge based device driver
-
+++ /dev/null
-#
-# Makefile for the kernel westbridge device driver
-#
-
-ifneq ($(CONFIG_WESTBRIDGE_DEBUG),y)
- EXTRA_CFLAGS += -DWESTBRIDGE_NDEBUG
-endif
-
-obj-$(CONFIG_WESTBRIDGE_DEVICE_DRIVER) += cyasdev.o
-
-
-ifeq ($(CONFIG_MACH_OMAP3_WESTBRIDGE_AST_PNAND_HAL),y)
-#moved for staging compatbility
-#cyasdev-y := ../../../arch/arm/mach-omap2/cyashalomap_kernel.o cyasdevice.o
-cyasdev-y := ../arch/arm/mach-omap2/cyashalomap_kernel.o cyasdevice.o \
- ../api/src/cyasdma.o ../api/src/cyasintr.o ../api/src/cyaslep2pep.o \
- ../api/src/cyaslowlevel.o ../api/src/cyasmisc.o ../api/src/cyasmtp.o \
- ../api/src/cyasstorage.o ../api/src/cyasusb.o
-
-else
-# should not get here, need to be built with some hal
-cyasdev-y := cyasdevice.o
-endif
+++ /dev/null
-/*
-## cyandevice.c - Linux Antioch device driver file
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#include <linux/delay.h>
-#include <linux/device.h>
-#include <linux/sched.h>
-#include <linux/scatterlist.h>
-#include <linux/err.h>
-#include <linux/firmware.h>
-#include <linux/platform_device.h>
-#include <linux/slab.h>
-
-/* moved for staging location
- * update/patch submission
-#include <linux/westbridge/cyastoria.h>
-#include <linux/westbridge/cyashal.h>
-#include <linux/westbridge/cyasregs.h>
-*/
-
-#include "../include/linux/westbridge/cyastoria.h"
-#include "../include/linux/westbridge/cyashal.h"
-#include "../include/linux/westbridge/cyasregs.h"
-
-typedef struct cyasdevice {
- /* Handle to the Antioch device */
- cy_as_device_handle dev_handle;
- /* Handle to the HAL */
- cy_as_hal_device_tag hal_tag;
- spinlock_t common_lock;
- unsigned long flags;
-} cyasdevice;
-
-/* global ptr to astoria device */
-static cyasdevice *cy_as_device_controller;
-int cy_as_device_init_done;
-const char *dev_handle_name = "cy_astoria_dev_handle";
-
-#ifdef CONFIG_MACH_OMAP3_WESTBRIDGE_AST_PNAND_HAL
-extern void cy_as_hal_config_c_s_mux(void);
-#endif
-
-static void cyasdevice_deinit(cyasdevice *cy_as_dev)
-{
- cy_as_hal_print_message("<1>_cy_as_device deinitialize called\n");
- if (!cy_as_dev) {
- cy_as_hal_print_message("<1>_cy_as_device_deinit: "
- "device handle %x is invalid\n", (uint32_t)cy_as_dev);
- return;
- }
-
- /* stop west_brige */
- if (cy_as_dev->dev_handle) {
- cy_as_hal_print_message("<1>_cy_as_device: "
- "cy_as_misc_destroy_device called\n");
- if (cy_as_misc_destroy_device(cy_as_dev->dev_handle) !=
- CY_AS_ERROR_SUCCESS) {
- cy_as_hal_print_message(
- "<1>_cy_as_device: destroying failed\n");
- }
- }
-
- if (cy_as_dev->hal_tag) {
-
- #ifdef CONFIG_MACH_OMAP3_WESTBRIDGE_AST_PNAND_HAL
- if (stop_o_m_a_p_kernel(dev_handle_name,
- cy_as_dev->hal_tag) != 0)
- cy_as_hal_print_message("<1>_cy_as_device: stopping "
- "OMAP kernel HAL failed\n");
-
- #endif
- }
- cy_as_hal_print_message("<1>_cy_as_device:HAL layer stopped\n");
-
- kfree(cy_as_dev);
- cy_as_device_controller = NULL;
- cy_as_hal_print_message("<1>_cy_as_device: deinitialized\n");
-}
-
-/*called from src/cyasmisc.c:MyMiscCallback() as a func
- * pointer [dev_p->misc_event_cb] which was previously
- * registered by CyAsLLRegisterRequestCallback(...,
- * MyMiscCallback); called from CyAsMiscConfigureDevice()
- * which is in turn called from cyasdevice_initialize() in
- * this src
- */
-static void cy_misc_callback(cy_as_device_handle h,
- cy_as_misc_event_type evtype, void *evdata)
-{
- (void)h;
- (void)evdata;
-
- switch (evtype) {
- case cy_as_event_misc_initialized:
- cy_as_hal_print_message("<1>_cy_as_device: "
- "initialization done callback triggered\n");
- cy_as_device_init_done = 1;
- break;
-
- case cy_as_event_misc_awake:
- cy_as_hal_print_message("<1>_cy_as_device: "
- "cy_as_event_misc_awake event callback triggered\n");
- cy_as_device_init_done = 1;
- break;
- default:
- break;
- }
-}
-
-void cy_as_acquire_common_lock()
-{
- spin_lock_irqsave(&cy_as_device_controller->common_lock,
- cy_as_device_controller->flags);
-}
-EXPORT_SYMBOL(cy_as_acquire_common_lock);
-
-void cy_as_release_common_lock()
-{
- spin_unlock_irqrestore(&cy_as_device_controller->common_lock,
- cy_as_device_controller->flags);
-}
-EXPORT_SYMBOL(cy_as_release_common_lock);
-
-/* reset astoria and reinit all regs */
- #define PNAND_REG_CFG_INIT_VAL 0x0000
-void hal_reset(cy_as_hal_device_tag tag)
-{
- cy_as_hal_print_message("<1> send soft hard rst: "
- "MEM_RST_CTRL_REG_HARD...\n");
- cy_as_hal_write_register(tag, CY_AS_MEM_RST_CTRL_REG,
- CY_AS_MEM_RST_CTRL_REG_HARD);
- mdelay(60);
-
- cy_as_hal_print_message("<1> after RST: si_rev_REG:%x, "
- "PNANDCFG_reg:%x\n",
- cy_as_hal_read_register(tag, CY_AS_MEM_CM_WB_CFG_ID),
- cy_as_hal_read_register(tag, CY_AS_MEM_PNAND_CFG)
- );
-
- /* set it to LBD */
- cy_as_hal_write_register(tag, CY_AS_MEM_PNAND_CFG,
- PNAND_REG_CFG_INIT_VAL);
-}
-EXPORT_SYMBOL(hal_reset);
-
-
-/* below structures and functions primarily
- * implemented for firmware loading */
-static struct platform_device *westbridge_pd;
-
-static int __devinit wb_probe(struct platform_device *devptr)
-{
- cy_as_hal_print_message("%s called\n", __func__);
- return 0;
-}
-
-static int __devexit wb_remove(struct platform_device *devptr)
-{
- cy_as_hal_print_message("%s called\n", __func__);
- return 0;
-}
-
-static struct platform_driver west_bridge_driver = {
- .probe = wb_probe,
- .remove = __devexit_p(wb_remove),
- .driver = {
- .name = "west_bridge_dev"},
-};
-
-/* west bridge device driver main init */
-static int cyasdevice_initialize(void)
-{
- cyasdevice *cy_as_dev = 0;
- int ret = 0;
- int retval = 0;
- cy_as_device_config config;
- cy_as_hal_sleep_channel channel;
- cy_as_get_firmware_version_data ver_data = {0};
- const char *str = "";
- int spin_lim;
- const struct firmware *fw_entry;
-
- cy_as_device_init_done = 0;
-
- cy_as_misc_set_log_level(8);
-
- cy_as_hal_print_message("<1>_cy_as_device initialize called\n");
-
- if (cy_as_device_controller != 0) {
- cy_as_hal_print_message("<1>_cy_as_device: the device "
- "has already been initilaized. ignoring\n");
- return -EBUSY;
- }
-
- /* cy_as_dev = CyAsHalAlloc (sizeof(cyasdevice), SLAB_KERNEL); */
- cy_as_dev = cy_as_hal_alloc(sizeof(cyasdevice));
- if (cy_as_dev == NULL) {
- cy_as_hal_print_message("<1>_cy_as_device: "
- "memory allocation failed\n");
- return -ENOMEM;
- }
- memset(cy_as_dev, 0, sizeof(cyasdevice));
-
-
- /* Init the HAL & CyAsDeviceHandle */
-
- #ifdef CONFIG_MACH_OMAP3_WESTBRIDGE_AST_PNAND_HAL
- /* start OMAP HAL init instsnce */
-
- if (!start_o_m_a_p_kernel(dev_handle_name,
- &(cy_as_dev->hal_tag), cy_false)) {
-
- cy_as_hal_print_message(
- "<1>_cy_as_device: start OMAP34xx HAL failed\n");
- goto done;
- }
- #endif
-
- /* Now create the device */
- if (cy_as_misc_create_device(&(cy_as_dev->dev_handle),
- cy_as_dev->hal_tag) != CY_AS_ERROR_SUCCESS) {
-
- cy_as_hal_print_message(
- "<1>_cy_as_device: create device failed\n");
- goto done;
- }
-
- memset(&config, 0, sizeof(config));
- config.dmaintr = cy_true;
-
- ret = cy_as_misc_configure_device(cy_as_dev->dev_handle, &config);
- if (ret != CY_AS_ERROR_SUCCESS) {
-
- cy_as_hal_print_message(
- "<1>_cy_as_device: configure device "
- "failed. reason code: %d\n", ret);
- goto done;
- }
-
- ret = cy_as_misc_register_callback(cy_as_dev->dev_handle,
- cy_misc_callback);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_hal_print_message("<1>_cy_as_device: "
- "cy_as_misc_register_callback failed. "
- "reason code: %d\n", ret);
- goto done;
- }
-
- ret = platform_driver_register(&west_bridge_driver);
- if (unlikely(ret < 0))
- return ret;
- westbridge_pd = platform_device_register_simple(
- "west_bridge_dev", -1, NULL, 0);
-
- if (IS_ERR(westbridge_pd)) {
- platform_driver_unregister(&west_bridge_driver);
- return PTR_ERR(westbridge_pd);
- }
- /* Load the firmware */
- ret = request_firmware(&fw_entry,
- "west bridge fw", &westbridge_pd->dev);
- if (ret) {
- cy_as_hal_print_message("cy_as_device: "
- "request_firmware failed return val = %d\n", ret);
- } else {
- cy_as_hal_print_message("cy_as_device: "
- "got the firmware %d size=0x%x\n", ret, fw_entry->size);
-
- ret = cy_as_misc_download_firmware(
- cy_as_dev->dev_handle,
- fw_entry->data,
- fw_entry->size ,
- 0, 0);
- }
-
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_hal_print_message("<1>_cy_as_device: cannot download "
- "firmware. reason code: %d\n", ret);
- goto done;
- }
-
- /* spin until the device init is completed */
- /* 50 -MAX wait time for the FW load & init
- * to complete is 5sec*/
- spin_lim = 50;
-
- cy_as_hal_create_sleep_channel(&channel);
- while (!cy_as_device_init_done) {
-
- cy_as_hal_sleep_on(&channel, 100);
-
- if (spin_lim-- <= 0) {
- cy_as_hal_print_message(
- "<1>\n_e_r_r_o_r!: "
- "wait for FW init has timed out !!!");
- break;
- }
- }
- cy_as_hal_destroy_sleep_channel(&channel);
-
- if (spin_lim > 0)
- cy_as_hal_print_message(
- "cy_as_device: astoria firmware is loaded\n");
-
- ret = cy_as_misc_get_firmware_version(cy_as_dev->dev_handle,
- &ver_data, 0, 0);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_hal_print_message("<1>_cy_as_device: cannot get firmware "
- "version. reason code: %d\n", ret);
- goto done;
- }
-
- if ((ver_data.media_type & 0x01) && (ver_data.media_type & 0x06))
- str = "nand and SD/MMC.";
- else if ((ver_data.media_type & 0x01) && (ver_data.media_type & 0x08))
- str = "nand and CEATA.";
- else if (ver_data.media_type & 0x01)
- str = "nand.";
- else if (ver_data.media_type & 0x08)
- str = "CEATA.";
- else
- str = "SD/MMC.";
-
- cy_as_hal_print_message("<1> cy_as_device:_firmware version: %s "
- "major=%d minor=%d build=%d,\n_media types supported:%s\n",
- ((ver_data.is_debug_mode) ? "debug" : "release"),
- ver_data.major, ver_data.minor, ver_data.build, str);
-
- spin_lock_init(&cy_as_dev->common_lock);
-
- /* done now */
- cy_as_device_controller = cy_as_dev;
-
- return 0;
-
-done:
- if (cy_as_dev)
- cyasdevice_deinit(cy_as_dev);
-
- return -EINVAL;
-}
-
-cy_as_device_handle cyasdevice_getdevhandle(void)
-{
- if (cy_as_device_controller) {
- #ifdef CONFIG_MACH_OMAP3_WESTBRIDGE_AST_PNAND_HAL
- cy_as_hal_config_c_s_mux();
- #endif
-
- return cy_as_device_controller->dev_handle;
- }
- return NULL;
-}
-EXPORT_SYMBOL(cyasdevice_getdevhandle);
-
-cy_as_hal_device_tag cyasdevice_gethaltag(void)
-{
- if (cy_as_device_controller)
- return (cy_as_hal_device_tag)
- cy_as_device_controller->hal_tag;
-
- return NULL;
-}
-EXPORT_SYMBOL(cyasdevice_gethaltag);
-
-
-/*init Westbridge device driver **/
-static int __init cyasdevice_init(void)
-{
- if (cyasdevice_initialize() != 0)
- return -ENODEV;
-
- return 0;
-}
-
-
-static void __exit cyasdevice_cleanup(void)
-{
-
- cyasdevice_deinit(cy_as_device_controller);
-}
-
-
-MODULE_DESCRIPTION("west bridge device driver");
-MODULE_AUTHOR("cypress semiconductor");
-MODULE_LICENSE("GPL");
-
-module_init(cyasdevice_init);
-module_exit(cyasdevice_cleanup);
-
-/*[]*/
+++ /dev/null
-#
-# West Bridge gadget driver configuration
-#
-
-config WESTBRIDGE_GADGET_DRIVER
- tristate "West Bridge Gadget Driver"
- help
- Include the West Bridge based gadget peripheral controller driver
-
+++ /dev/null
-#
-# Makefile for the kernel westbridge hal
-#
-
-ifneq ($(CONFIG_WESTBRIDGE_DEBUG),y)
- EXTRA_CFLAGS += -DWESTBRIDGE_NDEBUG
-endif
-
-obj-$(CONFIG_WESTBRIDGE_GADGET_DRIVER) += cyasgadgetctrl.o
-cyasgadgetctrl-y := cyasgadget.o
-
+++ /dev/null
-/* cyangadget.c - Linux USB Gadget driver file for the Cypress West Bridge
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-/*
- * Cypress West Bridge high/full speed usb device controller code
- * Based on the Netchip 2280 device controller by David Brownell
- * in the linux 2.6.10 kernel
- *
- * linux/drivers/usb/gadget/net2280.c
- */
-
-/*
- * Copyright (C) 2002 NetChip Technology, Inc. (http://www.netchip.com)
- * Copyright (C) 2003 David Brownell
- *
- * This program is free software; you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation; either version 2 of the License, or
- * (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place, Suite 330
- * Boston, MA 02111-1307 USA
- */
-
-#include "cyasgadget.h"
-
-#define CY_AS_DRIVER_DESC "cypress west bridge usb gadget"
-#define CY_AS_DRIVER_VERSION "REV B"
-#define DMA_ADDR_INVALID (~(dma_addr_t)0)
-
-static const char cy_as_driver_name[] = "cy_astoria_gadget";
-static const char cy_as_driver_desc[] = CY_AS_DRIVER_DESC;
-
-static const char cy_as_ep0name[] = "EP0";
-static const char *cy_as_ep_names[] = {
- cy_as_ep0name, "EP1",
- "EP2", "EP3", "EP4", "EP5", "EP6", "EP7", "EP8",
- "EP9", "EP10", "EP11", "EP12", "EP13", "EP14", "EP15"
-};
-
-/* forward declarations */
-static void
-cyas_ep_reset(
- struct cyasgadget_ep *an_ep);
-
-static int
-cyasgadget_fifo_status(
- struct usb_ep *_ep);
-
-static void
-cyasgadget_stallcallback(
- cy_as_device_handle h,
- cy_as_return_status_t status,
- uint32_t tag,
- cy_as_funct_c_b_type cbtype,
- void *cbdata);
-
-/* variables */
-static cyasgadget *cy_as_gadget_controller;
-
-static int append_mtp;
-module_param(append_mtp, bool, S_IRUGO | S_IWUSR);
-MODULE_PARM_DESC(append_mtp,
- "west bridge to append descriptors for mtp 0=no 1=yes");
-
-static int msc_enum_bus_0;
-module_param(msc_enum_bus_0, bool, S_IRUGO | S_IWUSR);
-MODULE_PARM_DESC(msc_enum_bus_0,
- "west bridge to enumerate bus 0 as msc 0=no 1=yes");
-
-static int msc_enum_bus_1;
-module_param(msc_enum_bus_1, bool, S_IRUGO | S_IWUSR);
-MODULE_PARM_DESC(msc_enum_bus_1,
- "west bridge to enumerate bus 1 as msc 0=no 1=yes");
-
-/* all Callbacks are placed in this subsection*/
-static void cy_as_gadget_usb_event_callback(
- cy_as_device_handle h,
- cy_as_usb_event ev,
- void *evdata
- )
-{
- cyasgadget *cy_as_dev;
- #ifndef WESTBRIDGE_NDEBUG
- struct usb_ctrlrequest *ctrlreq;
- #endif
-
- /* cy_as_dev = container_of(h, cyasgadget, dev_handle); */
- cy_as_dev = cy_as_gadget_controller;
- switch (ev) {
- case cy_as_event_usb_suspend:
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "<1>_cy_as_event_usb_suspend received\n");
- #endif
- cy_as_dev->driver->suspend(&cy_as_dev->gadget);
- break;
-
- case cy_as_event_usb_resume:
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "<1>_cy_as_event_usb_resume received\n");
- #endif
- cy_as_dev->driver->resume(&cy_as_dev->gadget);
- break;
-
- case cy_as_event_usb_reset:
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "<1>_cy_as_event_usb_reset received\n");
- #endif
- break;
-
- case cy_as_event_usb_speed_change:
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "<1>_cy_as_event_usb_speed_change received\n");
- #endif
- break;
-
- case cy_as_event_usb_set_config:
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "<1>_cy_as_event_usb_set_config received\n");
- #endif
- break;
-
- case cy_as_event_usb_setup_packet:
- #ifndef WESTBRIDGE_NDEBUG
- ctrlreq = (struct usb_ctrlrequest *)evdata;
-
- cy_as_hal_print_message("<1>_cy_as_event_usb_setup_packet "
- "received"
- "bRequestType=0x%x,"
- "bRequest=0x%x,"
- "wValue=x%x,"
- "wIndex=0x%x,"
- "wLength=0x%x,",
- ctrlreq->bRequestType,
- ctrlreq->bRequest,
- ctrlreq->wValue,
- ctrlreq->wIndex,
- ctrlreq->wLength
- );
- #endif
- cy_as_dev->outsetupreq = 0;
- if ((((uint8_t *)evdata)[0] & USB_DIR_IN) == USB_DIR_OUT)
- cy_as_dev->outsetupreq = 1;
- cy_as_dev->driver->setup(&cy_as_dev->gadget,
- (struct usb_ctrlrequest *)evdata);
- break;
-
- case cy_as_event_usb_status_packet:
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "<1>_cy_as_event_usb_status_packet received\n");
- #endif
- break;
-
- case cy_as_event_usb_inquiry_before:
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "<1>_cy_as_event_usb_inquiry_before received\n");
- #endif
- break;
-
- case cy_as_event_usb_inquiry_after:
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "<1>_cy_as_event_usb_inquiry_after received\n");
- #endif
- break;
-
- case cy_as_event_usb_start_stop:
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "<1>_cy_as_event_usb_start_stop received\n");
- #endif
- break;
-
- default:
- break;
- }
-}
-
-static void cy_as_gadget_mtp_event_callback(
- cy_as_device_handle handle,
- cy_as_mtp_event evtype,
- void *evdata
- )
-{
-
- cyasgadget *dev = cy_as_gadget_controller;
- (void) handle;
-
- switch (evtype) {
- case cy_as_mtp_send_object_complete:
- {
- cy_as_mtp_send_object_complete_data *send_obj_data =
- (cy_as_mtp_send_object_complete_data *) evdata;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "<6>MTP EVENT: send_object_complete\n");
- cy_as_hal_print_message(
- "<6>_bytes sent = %d\n_send status = %d",
- send_obj_data->byte_count,
- send_obj_data->status);
- #endif
-
- dev->tmtp_send_complete_data.byte_count =
- send_obj_data->byte_count;
- dev->tmtp_send_complete_data.status =
- send_obj_data->status;
- dev->tmtp_send_complete_data.transaction_id =
- send_obj_data->transaction_id;
- dev->tmtp_send_complete = cy_true;
- break;
- }
- case cy_as_mtp_get_object_complete:
- {
- cy_as_mtp_get_object_complete_data *get_obj_data =
- (cy_as_mtp_get_object_complete_data *) evdata;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "<6>MTP EVENT: get_object_complete\n");
- cy_as_hal_print_message(
- "<6>_bytes got = %d\n_get status = %d",
- get_obj_data->byte_count, get_obj_data->status);
- #endif
-
- dev->tmtp_get_complete_data.byte_count =
- get_obj_data->byte_count;
- dev->tmtp_get_complete_data.status =
- get_obj_data->status;
- dev->tmtp_get_complete = cy_true;
- break;
- }
- case cy_as_mtp_block_table_needed:
- {
- dev->tmtp_need_new_blk_tbl = cy_true;
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "<6>MTP EVENT: cy_as_mtp_block_table_needed\n");
- #endif
- break;
- }
- default:
- break;
- }
-}
-
-static void
-cyasgadget_setupreadcallback(
- cy_as_device_handle h,
- cy_as_end_point_number_t ep,
- uint32_t count,
- void *buf,
- cy_as_return_status_t status)
-{
- cyasgadget_ep *an_ep;
- cyasgadget_req *an_req;
- cyasgadget *cy_as_dev;
- unsigned stopped;
- unsigned long flags;
- (void)buf;
-
- cy_as_dev = cy_as_gadget_controller;
- if (cy_as_dev->driver == NULL)
- return;
-
- an_ep = &cy_as_dev->an_gadget_ep[ep];
- spin_lock_irqsave(&cy_as_dev->lock, flags);
- stopped = an_ep->stopped;
-
-#ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: ep=%d, count=%d, "
- "status=%d\n", __func__, ep, count, status);
-#endif
-
- an_req = list_entry(an_ep->queue.next,
- cyasgadget_req, queue);
- list_del_init(&an_req->queue);
-
- if (status == CY_AS_ERROR_SUCCESS)
- an_req->req.status = 0;
- else
- an_req->req.status = -status;
- an_req->req.actual = count;
- an_ep->stopped = 1;
-
- spin_unlock_irqrestore(&cy_as_dev->lock, flags);
-
- an_req->req.complete(&an_ep->usb_ep_inst, &an_req->req);
-
- an_ep->stopped = stopped;
-
-}
-/*called when the write of a setup packet has been completed*/
-static void cyasgadget_setupwritecallback(
- cy_as_device_handle h,
- cy_as_end_point_number_t ep,
- uint32_t count,
- void *buf,
- cy_as_return_status_t status
- )
-{
- cyasgadget_ep *an_ep;
- cyasgadget_req *an_req;
- cyasgadget *cy_as_dev;
- unsigned stopped;
- unsigned long flags;
-
- (void)buf;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called status=0x%x\n",
- __func__, status);
- #endif
-
- cy_as_dev = cy_as_gadget_controller;
-
- if (cy_as_dev->driver == NULL)
- return;
-
- an_ep = &cy_as_dev->an_gadget_ep[ep];
-
- spin_lock_irqsave(&cy_as_dev->lock, flags);
-
- stopped = an_ep->stopped;
-
-#ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("setup_write_callback: ep=%d, "
- "count=%d, status=%d\n", ep, count, status);
-#endif
-
- an_req = list_entry(an_ep->queue.next, cyasgadget_req, queue);
- list_del_init(&an_req->queue);
-
- an_req->req.actual = count;
- an_req->req.status = 0;
- an_ep->stopped = 1;
-
- spin_unlock_irqrestore(&cy_as_dev->lock, flags);
-
- an_req->req.complete(&an_ep->usb_ep_inst, &an_req->req);
-
- an_ep->stopped = stopped;
-
-}
-
-/* called when a read operation has completed.*/
-static void cyasgadget_readcallback(
- cy_as_device_handle h,
- cy_as_end_point_number_t ep,
- uint32_t count,
- void *buf,
- cy_as_return_status_t status
- )
-{
- cyasgadget_ep *an_ep;
- cyasgadget_req *an_req;
- cyasgadget *cy_as_dev;
- unsigned stopped;
- cy_as_return_status_t ret;
- unsigned long flags;
-
- (void)h;
- (void)buf;
-
- cy_as_dev = cy_as_gadget_controller;
-
- if (cy_as_dev->driver == NULL)
- return;
-
- an_ep = &cy_as_dev->an_gadget_ep[ep];
- stopped = an_ep->stopped;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: ep=%d, count=%d, status=%d\n",
- __func__, ep, count, status);
- #endif
-
- if (status == CY_AS_ERROR_CANCELED)
- return;
-
- spin_lock_irqsave(&cy_as_dev->lock, flags);
-
- an_req = list_entry(an_ep->queue.next, cyasgadget_req, queue);
- list_del_init(&an_req->queue);
-
- if (status == CY_AS_ERROR_SUCCESS)
- an_req->req.status = 0;
- else
- an_req->req.status = -status;
-
- an_req->complete = 1;
- an_req->req.actual = count;
- an_ep->stopped = 1;
-
- spin_unlock_irqrestore(&cy_as_dev->lock, flags);
- an_req->req.complete(&an_ep->usb_ep_inst, &an_req->req);
-
- an_ep->stopped = stopped;
-
- /* We need to call ReadAsync on this end-point
- * again, so as to not miss any data packets. */
- if (!an_ep->stopped) {
- spin_lock_irqsave(&cy_as_dev->lock, flags);
- an_req = 0;
- if (!list_empty(&an_ep->queue))
- an_req = list_entry(an_ep->queue.next,
- cyasgadget_req, queue);
-
- spin_unlock_irqrestore(&cy_as_dev->lock, flags);
-
- if ((an_req) && (an_req->req.status == -EINPROGRESS)) {
- ret = cy_as_usb_read_data_async(cy_as_dev->dev_handle,
- an_ep->num, cy_false, an_req->req.length,
- an_req->req.buf, cyasgadget_readcallback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_read_data_async failed "
- "with error code %d\n", ret);
- else
- an_req->req.status = -EALREADY;
- }
- }
-}
-
-/* function is called when a usb write operation has completed*/
-static void cyasgadget_writecallback(
- cy_as_device_handle h,
- cy_as_end_point_number_t ep,
- uint32_t count,
- void *buf,
- cy_as_return_status_t status
- )
-{
- cyasgadget_ep *an_ep;
- cyasgadget_req *an_req;
- cyasgadget *cy_as_dev;
- unsigned stopped = 0;
- cy_as_return_status_t ret;
- unsigned long flags;
-
- (void)h;
- (void)buf;
-
- cy_as_dev = cy_as_gadget_controller;
- if (cy_as_dev->driver == NULL)
- return;
-
- an_ep = &cy_as_dev->an_gadget_ep[ep];
-
- if (status == CY_AS_ERROR_CANCELED)
- return;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: ep=%d, count=%d, status=%d\n",
- __func__, ep, count, status);
- #endif
-
- spin_lock_irqsave(&cy_as_dev->lock, flags);
-
- an_req = list_entry(an_ep->queue.next, cyasgadget_req, queue);
- list_del_init(&an_req->queue);
- an_req->req.actual = count;
-
- /* Verify the status value before setting req.status to zero */
- if (status == CY_AS_ERROR_SUCCESS)
- an_req->req.status = 0;
- else
- an_req->req.status = -status;
-
- an_ep->stopped = 1;
-
- spin_unlock_irqrestore(&cy_as_dev->lock, flags);
-
- an_req->req.complete(&an_ep->usb_ep_inst, &an_req->req);
- an_ep->stopped = stopped;
-
- /* We need to call WriteAsync on this end-point again, so as to not
- miss any data packets. */
- if (!an_ep->stopped) {
- spin_lock_irqsave(&cy_as_dev->lock, flags);
- an_req = 0;
- if (!list_empty(&an_ep->queue))
- an_req = list_entry(an_ep->queue.next,
- cyasgadget_req, queue);
- spin_unlock_irqrestore(&cy_as_dev->lock, flags);
-
- if ((an_req) && (an_req->req.status == -EINPROGRESS)) {
- ret = cy_as_usb_write_data_async(cy_as_dev->dev_handle,
- an_ep->num, an_req->req.length, an_req->req.buf,
- cy_false, cyasgadget_writecallback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_write_data_async "
- "failed with error code %d\n", ret);
- else
- an_req->req.status = -EALREADY;
- }
- }
-}
-
-static void cyasgadget_stallcallback(
- cy_as_device_handle h,
- cy_as_return_status_t status,
- uint32_t tag,
- cy_as_funct_c_b_type cbtype,
- void *cbdata
- )
-{
- #ifndef WESTBRIDGE_NDEBUG
- if (status != CY_AS_ERROR_SUCCESS)
- cy_as_hal_print_message("<1>_set/_clear stall "
- "failed with status %d\n", status);
- #endif
-}
-
-
-/*******************************************************************/
-/* All usb_ep_ops (cyasgadget_ep_ops) are placed in this subsection*/
-/*******************************************************************/
-static int cyasgadget_enable(
- struct usb_ep *_ep,
- const struct usb_endpoint_descriptor *desc
- )
-{
- cyasgadget *an_dev;
- cyasgadget_ep *an_ep;
- u32 max, tmp;
- unsigned long flags;
-
- an_ep = container_of(_ep, cyasgadget_ep, usb_ep_inst);
- if (!_ep || !desc || an_ep->desc || _ep->name == cy_as_ep0name
- || desc->bDescriptorType != USB_DT_ENDPOINT)
- return -EINVAL;
-
- an_dev = an_ep->dev;
- if (!an_dev->driver || an_dev->gadget.speed == USB_SPEED_UNKNOWN)
- return -ESHUTDOWN;
-
- max = le16_to_cpu(desc->wMaxPacketSize) & 0x1fff;
-
- spin_lock_irqsave(&an_dev->lock, flags);
- _ep->maxpacket = max & 0x7ff;
- an_ep->desc = desc;
-
- /* ep_reset() has already been called */
- an_ep->stopped = 0;
- an_ep->out_overflow = 0;
-
- if (an_ep->cyepconfig.enabled != cy_true) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_end_point_config EP %s mismatch "
- "on enabled\n", an_ep->usb_ep_inst.name);
- #endif
- spin_unlock_irqrestore(&an_dev->lock, flags);
- return -EINVAL;
- }
-
- tmp = (desc->bmAttributes & USB_ENDPOINT_XFERTYPE_MASK);
- an_ep->is_iso = (tmp == USB_ENDPOINT_XFER_ISOC) ? 1 : 0;
-
- spin_unlock_irqrestore(&an_dev->lock, flags);
-
- switch (tmp) {
- case USB_ENDPOINT_XFER_ISOC:
- if (an_ep->cyepconfig.type != cy_as_usb_iso) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_end_point_config EP %s mismatch "
- "on type %d %d\n", an_ep->usb_ep_inst.name,
- an_ep->cyepconfig.type, cy_as_usb_iso);
- #endif
- return -EINVAL;
- }
- break;
- case USB_ENDPOINT_XFER_INT:
- if (an_ep->cyepconfig.type != cy_as_usb_int) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_end_point_config EP %s mismatch "
- "on type %d %d\n", an_ep->usb_ep_inst.name,
- an_ep->cyepconfig.type, cy_as_usb_int);
- #endif
- return -EINVAL;
- }
- break;
- default:
- if (an_ep->cyepconfig.type != cy_as_usb_bulk) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_end_point_config EP %s mismatch "
- "on type %d %d\n", an_ep->usb_ep_inst.name,
- an_ep->cyepconfig.type, cy_as_usb_bulk);
- #endif
- return -EINVAL;
- }
- break;
- }
-
- tmp = desc->bEndpointAddress;
- an_ep->is_in = (tmp & USB_DIR_IN) != 0;
-
- if ((an_ep->cyepconfig.dir == cy_as_usb_in) &&
- (!an_ep->is_in)) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_end_point_config EP %s mismatch "
- "on dir %d %d\n", an_ep->usb_ep_inst.name,
- an_ep->cyepconfig.dir, cy_as_usb_in);
- #endif
- return -EINVAL;
- } else if ((an_ep->cyepconfig.dir == cy_as_usb_out) &&
- (an_ep->is_in)) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_end_point_config EP %s mismatch "
- "on dir %d %d\n", an_ep->usb_ep_inst.name,
- an_ep->cyepconfig.dir, cy_as_usb_out);
- #endif
- return -EINVAL;
- }
-
- cy_as_usb_clear_stall(an_dev->dev_handle, an_ep->num,
- cyasgadget_stallcallback, 0);
-
- cy_as_hal_print_message("%s enabled %s (ep%d-%d) max %04x\n",
- __func__, _ep->name, an_ep->num, tmp, max);
-
- return 0;
-}
-
-static int cyasgadget_disable(
- struct usb_ep *_ep
- )
-{
- cyasgadget_ep *an_ep;
- unsigned long flags;
-
- an_ep = container_of(_ep, cyasgadget_ep, usb_ep_inst);
- if (!_ep || !an_ep->desc || _ep->name == cy_as_ep0name)
- return -EINVAL;
-
- spin_lock_irqsave(&an_ep->dev->lock, flags);
- cyas_ep_reset(an_ep);
-
- spin_unlock_irqrestore(&an_ep->dev->lock, flags);
- return 0;
-}
-
-static struct usb_request *cyasgadget_alloc_request(
- struct usb_ep *_ep, gfp_t gfp_flags
- )
-{
- cyasgadget_ep *an_ep;
- cyasgadget_req *an_req;
-
- if (!_ep)
- return NULL;
-
- an_ep = container_of(_ep, cyasgadget_ep, usb_ep_inst);
-
- an_req = kzalloc(sizeof(cyasgadget_req), gfp_flags);
- if (!an_req)
- return NULL;
-
- an_req->req.dma = DMA_ADDR_INVALID;
- INIT_LIST_HEAD(&an_req->queue);
-
- return &an_req->req;
-}
-
-static void cyasgadget_free_request(
- struct usb_ep *_ep,
- struct usb_request *_req
- )
-{
- cyasgadget_req *an_req;
-
- if (!_ep || !_req)
- return;
-
- an_req = container_of(_req, cyasgadget_req, req);
-
- kfree(an_req);
-}
-
-/* Load a packet into the fifo we use for usb IN transfers.
- * works for all endpoints. */
-static int cyasgadget_queue(
- struct usb_ep *_ep,
- struct usb_request *_req,
- gfp_t gfp_flags
- )
-{
- cyasgadget_req *as_req;
- cyasgadget_ep *as_ep;
- cyasgadget *cy_as_dev;
- unsigned long flags;
- cy_as_return_status_t ret = 0;
-
- as_req = container_of(_req, cyasgadget_req, req);
- if (!_req || !_req->complete || !_req->buf
- || !list_empty(&as_req->queue))
- return -EINVAL;
-
- as_ep = container_of(_ep, cyasgadget_ep, usb_ep_inst);
-
- if (!_ep || (!as_ep->desc && (as_ep->num != 0)))
- return -EINVAL;
-
- cy_as_dev = as_ep->dev;
- if (!cy_as_dev->driver ||
- cy_as_dev->gadget.speed == USB_SPEED_UNKNOWN)
- return -ESHUTDOWN;
-
- spin_lock_irqsave(&cy_as_dev->lock, flags);
-
- _req->status = -EINPROGRESS;
- _req->actual = 0;
-
- spin_unlock_irqrestore(&cy_as_dev->lock, flags);
-
- /* Call Async functions */
- if (as_ep->is_in) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_write_data_async being called "
- "on ep %d\n", as_ep->num);
- #endif
-
- ret = cy_as_usb_write_data_async(cy_as_dev->dev_handle,
- as_ep->num, _req->length, _req->buf,
- cy_false, cyasgadget_writecallback);
- if (ret != CY_AS_ERROR_SUCCESS)
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_write_data_async failed with "
- "error code %d\n", ret);
- else
- _req->status = -EALREADY;
- } else if (as_ep->num == 0) {
- /*
- ret = cy_as_usb_write_data_async(cy_as_dev->dev_handle,
- as_ep->num, _req->length, _req->buf, cy_false,
- cyasgadget_setupwritecallback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_write_data_async failed with error "
- "code %d\n", ret);
- */
- if ((cy_as_dev->outsetupreq) && (_req->length)) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_read_data_async "
- "being called on ep %d\n",
- as_ep->num);
- #endif
-
- ret = cy_as_usb_read_data_async (
- cy_as_dev->dev_handle, as_ep->num,
- cy_true, _req->length, _req->buf,
- cyasgadget_setupreadcallback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_read_data_async failed with "
- "error code %d\n", ret);
-
- } else {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_write_data_async "
- "being called on ep %d\n",
- as_ep->num);
- #endif
-
- ret = cy_as_usb_write_data_async(cy_as_dev->dev_handle,
- as_ep->num, _req->length, _req->buf, cy_false,
- cyasgadget_setupwritecallback);
-
- if (ret != CY_AS_ERROR_SUCCESS)
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_write_data_async failed with "
- "error code %d\n", ret);
- }
-
- } else if (list_empty(&as_ep->queue)) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_read_data_async being called since "
- "ep queue empty%d\n", ret);
- #endif
-
- ret = cy_as_usb_read_data_async(cy_as_dev->dev_handle,
- as_ep->num, cy_false, _req->length, _req->buf,
- cyasgadget_readcallback);
- if (ret != CY_AS_ERROR_SUCCESS)
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_read_data_async failed with error "
- "code %d\n", ret);
- else
- _req->status = -EALREADY;
- }
-
- spin_lock_irqsave(&cy_as_dev->lock, flags);
-
- if (as_req)
- list_add_tail(&as_req->queue, &as_ep->queue);
-
- spin_unlock_irqrestore(&cy_as_dev->lock, flags);
-
- return 0;
-}
-
-/* dequeue request */
-static int cyasgadget_dequeue(
- struct usb_ep *_ep,
- struct usb_request *_req
- )
-{
- cyasgadget_ep *an_ep;
- cyasgadget *dev;
- an_ep = container_of(_ep, cyasgadget_ep, usb_ep_inst);
- dev = an_ep->dev;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called\n", __func__);
- #endif
-
- cy_as_usb_cancel_async(dev->dev_handle, an_ep->num);
-
- return 0;
-}
-
-static int cyasgadget_set_halt(
- struct usb_ep *_ep,
- int value
- )
-{
- cyasgadget_ep *an_ep;
- int retval = 0;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called\n", __func__);
- #endif
-
- an_ep = container_of(_ep, cyasgadget_ep, usb_ep_inst);
- if (!_ep || (!an_ep->desc && an_ep->num != 0))
- return -EINVAL;
-
- if (!an_ep->dev->driver || an_ep->dev->gadget.speed ==
- USB_SPEED_UNKNOWN)
- return -ESHUTDOWN;
-
- if (an_ep->desc /* not ep0 */ &&
- (an_ep->desc->bmAttributes & 0x03) == USB_ENDPOINT_XFER_ISOC)
- return -EINVAL;
-
- if (!list_empty(&an_ep->queue))
- retval = -EAGAIN;
- else if (an_ep->is_in && value &&
- cyasgadget_fifo_status(_ep) != 0)
- retval = -EAGAIN;
- else {
- if (value) {
- cy_as_usb_set_stall(an_ep->dev->dev_handle,
- an_ep->num, cyasgadget_stallcallback, 0);
- } else {
- cy_as_usb_clear_stall(an_ep->dev->dev_handle,
- an_ep->num, cyasgadget_stallcallback, 0);
- }
- }
-
- return retval;
-}
-
-static int cyasgadget_fifo_status(
- struct usb_ep *_ep
- )
-{
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called\n", __func__);
- #endif
-
- return 0;
-}
-
-static void cyasgadget_fifo_flush(
- struct usb_ep *_ep
- )
-{
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called\n", __func__);
- #endif
-}
-
-static struct usb_ep_ops cyasgadget_ep_ops = {
- .enable = cyasgadget_enable,
- .disable = cyasgadget_disable,
- .alloc_request = cyasgadget_alloc_request,
- .free_request = cyasgadget_free_request,
- .queue = cyasgadget_queue,
- .dequeue = cyasgadget_dequeue,
- .set_halt = cyasgadget_set_halt,
- .fifo_status = cyasgadget_fifo_status,
- .fifo_flush = cyasgadget_fifo_flush,
-};
-
-/*************************************************************/
-/*This subsection contains all usb_gadget_ops cyasgadget_ops */
-/*************************************************************/
-static int cyasgadget_get_frame(
- struct usb_gadget *_gadget
- )
-{
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called\n", __func__);
- #endif
- return 0;
-}
-
-static int cyasgadget_wakeup(
- struct usb_gadget *_gadget
- )
-{
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called\n", __func__);
- #endif
- return 0;
-}
-
-static int cyasgadget_set_selfpowered(
- struct usb_gadget *_gadget,
- int value
- )
-{
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called\n", __func__);
- #endif
- return 0;
-}
-
-static int cyasgadget_pullup(
- struct usb_gadget *_gadget,
- int is_on
- )
-{
- struct cyasgadget *cy_as_dev;
- unsigned long flags;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called\n", __func__);
- #endif
-
- if (!_gadget)
- return -ENODEV;
-
- cy_as_dev = container_of(_gadget, cyasgadget, gadget);
-
- spin_lock_irqsave(&cy_as_dev->lock, flags);
- cy_as_dev->softconnect = (is_on != 0);
- if (is_on)
- cy_as_usb_connect(cy_as_dev->dev_handle, 0, 0);
- else
- cy_as_usb_disconnect(cy_as_dev->dev_handle, 0, 0);
-
- spin_unlock_irqrestore(&cy_as_dev->lock, flags);
-
- return 0;
-}
-
-static int cyasgadget_ioctl(
- struct usb_gadget *_gadget,
- unsigned code,
- unsigned long param
- )
-{
- int err = 0;
- int retval = 0;
- int ret_stat = 0;
- cyasgadget *dev = cy_as_gadget_controller;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called, code=%d, param=%ld\n",
- __func__, code, param);
- #endif
- /*
- * extract the type and number bitfields, and don't decode
- * wrong cmds: return ENOTTY (inappropriate ioctl) before access_ok()
- */
- if (_IOC_TYPE(code) != CYASGADGET_IOC_MAGIC) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s, bad magic number = 0x%x\n",
- __func__, _IOC_TYPE(code));
- #endif
- return -ENOTTY;
- }
-
- if (_IOC_NR(code) > CYASGADGET_IOC_MAXNR) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s, bad ioctl code = 0x%x\n",
- __func__, _IOC_NR(code));
- #endif
- return -ENOTTY;
- }
-
- /*
- * the direction is a bitmask, and VERIFY_WRITE catches R/W
- * transfers. `Type' is user-oriented, while
- * access_ok is kernel-oriented, so the concept of "read" and
- * "write" is reversed
- */
- if (_IOC_DIR(code) & _IOC_READ)
- err = !access_ok(VERIFY_WRITE,
- (void __user *)param, _IOC_SIZE(code));
- else if (_IOC_DIR(code) & _IOC_WRITE)
- err = !access_ok(VERIFY_READ,
- (void __user *)param, _IOC_SIZE(code));
-
- if (err) {
- cy_as_hal_print_message("%s, bad ioctl dir = 0x%x\n",
- __func__, _IOC_DIR(code));
- return -EFAULT;
- }
-
- switch (code) {
- case CYASGADGET_GETMTPSTATUS:
- {
- cy_as_gadget_ioctl_tmtp_status *usr_d =
- (cy_as_gadget_ioctl_tmtp_status *)param;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: got CYASGADGET_GETMTPSTATUS\n",
- __func__);
- #endif
-
- retval = __put_user(dev->tmtp_send_complete,
- (uint32_t __user *)(&(usr_d->tmtp_send_complete)));
- retval = __put_user(dev->tmtp_get_complete,
- (uint32_t __user *)(&(usr_d->tmtp_get_complete)));
- retval = __put_user(dev->tmtp_need_new_blk_tbl,
- (uint32_t __user *)(&(usr_d->tmtp_need_new_blk_tbl)));
-
- if (copy_to_user((&(usr_d->tmtp_send_complete_data)),
- (&(dev->tmtp_send_complete_data)),
- sizeof(cy_as_gadget_ioctl_send_object)))
- return -EFAULT;
-
- if (copy_to_user((&(usr_d->tmtp_get_complete_data)),
- (&(dev->tmtp_get_complete_data)),
- sizeof(cy_as_gadget_ioctl_get_object)))
- return -EFAULT;
- break;
- }
- case CYASGADGET_CLEARTMTPSTATUS:
- {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s got CYASGADGET_CLEARTMTPSTATUS\n",
- __func__);
- #endif
-
- dev->tmtp_send_complete = 0;
- dev->tmtp_get_complete = 0;
- dev->tmtp_need_new_blk_tbl = 0;
-
- break;
- }
- case CYASGADGET_INITSOJ:
- {
- cy_as_gadget_ioctl_i_s_o_j_d k_d;
- cy_as_gadget_ioctl_i_s_o_j_d *usr_d =
- (cy_as_gadget_ioctl_i_s_o_j_d *)param;
- cy_as_mtp_block_table blk_table;
- struct scatterlist sg;
- char *alloc_filename;
- struct file *file_to_allocate;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s got CYASGADGET_INITSOJ\n",
- __func__);
- #endif
-
- memset(&blk_table, 0, sizeof(blk_table));
-
- /* Get user argument structure */
- if (copy_from_user(&k_d, usr_d,
- sizeof(cy_as_gadget_ioctl_i_s_o_j_d)))
- return -EFAULT;
-
- /* better use fixed size buff*/
- alloc_filename = kmalloc(k_d.name_length + 1, GFP_KERNEL);
- if (alloc_filename == NULL)
- return -ENOMEM;
-
- /* get the filename */
- if (copy_from_user(alloc_filename, k_d.file_name,
- k_d.name_length + 1)) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: CYASGADGET_INITSOJ, "
- "copy file name from user space failed\n",
- __func__);
- #endif
- kfree(alloc_filename);
- return -EFAULT;
- }
-
- file_to_allocate = filp_open(alloc_filename, O_RDWR, 0);
-
- if (!IS_ERR(file_to_allocate)) {
-
- struct address_space *mapping =
- file_to_allocate->f_mapping;
- const struct address_space_operations *a_ops =
- mapping->a_ops;
- struct inode *inode = mapping->host;
- struct inode *alloc_inode =
- file_to_allocate->f_path.dentry->d_inode;
- uint32_t num_clusters = 0;
- struct buffer_head bh;
- struct kstat stat;
- int nr_pages = 0;
- int ret_stat = 0;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: fhandle is OK, "
- "calling vfs_getattr\n", __func__);
- #endif
-
- ret_stat = vfs_getattr(file_to_allocate->f_path.mnt,
- file_to_allocate->f_path.dentry, &stat);
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: returned from "
- "vfs_getattr() stat->blksize=0x%lx\n",
- __func__, stat.blksize);
- #endif
-
- /* TODO: get this from disk properties
- * (from blockdevice)*/
- #define SECTOR_SIZE 512
- if (stat.blksize != 0) {
- num_clusters = (k_d.num_bytes) / SECTOR_SIZE;
-
- if (((k_d.num_bytes) % SECTOR_SIZE) != 0)
- num_clusters++;
- } else {
- goto initsoj_safe_exit;
- }
-
- bh.b_state = 0;
- bh.b_blocknr = 0;
- /* block size is arbitrary , we'll use sector size*/
- bh.b_size = SECTOR_SIZE;
-
-
-
- /* clear dirty pages in page cache
- * (if were any allocated) */
- nr_pages = (k_d.num_bytes) / (PAGE_CACHE_SIZE);
-
- if (((k_d.num_bytes) % (PAGE_CACHE_SIZE)) != 0)
- nr_pages++;
-
- #ifndef WESTBRIDGE_NDEBUG
- /*check out how many pages where actually allocated */
- if (mapping->nrpages != nr_pages)
- cy_as_hal_print_message("%s mpage_cleardirty "
- "mapping->nrpages %d != num_pages %d\n",
- __func__, (int) mapping->nrpages,
- nr_pages);
-
- cy_as_hal_print_message("%s: calling "
- "mpage_cleardirty() "
- "for %d pages\n", __func__, nr_pages);
- #endif
-
- ret_stat = mpage_cleardirty(mapping, nr_pages);
-
- /*fill up the the block table from the addr mapping */
- if (a_ops->bmap) {
- int8_t blk_table_idx = -1;
- uint32_t file_block_idx = 0;
- uint32_t last_blk_addr_map = 0,
- curr_blk_addr_map = 0;
-
- #ifndef WESTBRIDGE_NDEBUG
- if (alloc_inode->i_bytes == 0)
- cy_as_hal_print_message(
- "%s: alloc_inode->ibytes =0\n",
- __func__);
- #endif
-
- /* iterate through the list of
- * blocks (not clusters)*/
- for (file_block_idx = 0;
- file_block_idx < num_clusters
- /*inode->i_bytes*/; file_block_idx++) {
-
- /* returns starting sector number */
- curr_blk_addr_map =
- a_ops->bmap(mapping,
- file_block_idx);
-
- /*no valid mapping*/
- if (curr_blk_addr_map == 0) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s:hit invalid "
- "mapping\n", __func__);
- #endif
- break;
- } else if (curr_blk_addr_map !=
- (last_blk_addr_map + 1) ||
- (blk_table.num_blocks
- [blk_table_idx] == 65535)) {
-
- /* next table entry */
- blk_table_idx++;
- /* starting sector of a
- * scattered cluster*/
- blk_table.start_blocks
- [blk_table_idx] =
- curr_blk_addr_map;
- /* ++ num of blocks in cur
- * table entry*/
- blk_table.
- num_blocks[blk_table_idx]++;
-
- #ifndef WESTBRIDGE_NDEBUG
- if (file_block_idx != 0)
- cy_as_hal_print_message(
- "<*> next table "
- "entry:%d required\n",
- blk_table_idx);
- #endif
- } else {
- /*add contiguous block*/
- blk_table.num_blocks
- [blk_table_idx]++;
- } /*if (curr_blk_addr_map == 0)*/
-
- last_blk_addr_map = curr_blk_addr_map;
- } /* end for (file_block_idx = 0; file_block_idx
- < inode->i_bytes;) */
-
- #ifndef WESTBRIDGE_NDEBUG
- /*print result for verification*/
- {
- int i;
- cy_as_hal_print_message(
- "%s: print block table "
- "mapping:\n",
- __func__);
- for (i = 0; i <= blk_table_idx; i++) {
- cy_as_hal_print_message(
- "<1> %d 0x%x 0x%x\n", i,
- blk_table.start_blocks[i],
- blk_table.num_blocks[i]);
- }
- }
- #endif
-
- /* copy the block table to user
- * space (for debug purposes) */
- retval = __put_user(
- blk_table.start_blocks[blk_table_idx],
- (uint32_t __user *)
- (&(usr_d->blk_addr_p)));
-
- retval = __put_user(
- blk_table.num_blocks[blk_table_idx],
- (uint32_t __user *)
- (&(usr_d->blk_count_p)));
-
- blk_table_idx++;
- retval = __put_user(blk_table_idx,
- (uint32_t __user *)
- (&(usr_d->item_count)));
-
- } /*end if (a_ops->bmap)*/
-
- filp_close(file_to_allocate, NULL);
-
- dev->tmtp_send_complete = 0;
- dev->tmtp_need_new_blk_tbl = 0;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: calling cy_as_mtp_init_send_object()\n",
- __func__);
- #endif
- sg_init_one(&sg, &blk_table, sizeof(blk_table));
- ret_stat = cy_as_mtp_init_send_object(dev->dev_handle,
- (cy_as_mtp_block_table *)&sg,
- k_d.num_bytes, 0, 0);
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: returned from "
- "cy_as_mtp_init_send_object()\n", __func__);
- #endif
-
- }
- #ifndef WESTBRIDGE_NDEBUG
- else {
- cy_as_hal_print_message(
- "%s: failed to allocate the file %s\n",
- __func__, alloc_filename);
- } /* end if (file_to_allocate)*/
- #endif
- kfree(alloc_filename);
-initsoj_safe_exit:
- ret_stat = 0;
- retval = __put_user(ret_stat,
- (uint32_t __user *)(&(usr_d->ret_val)));
-
- break;
- }
- case CYASGADGET_INITGOJ:
- {
- cy_as_gadget_ioctl_i_g_o_j_d k_d;
- cy_as_gadget_ioctl_i_g_o_j_d *usr_d =
- (cy_as_gadget_ioctl_i_g_o_j_d *)param;
- cy_as_mtp_block_table blk_table;
- struct scatterlist sg;
- char *map_filename;
- struct file *file_to_map;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: got CYASGADGET_INITGOJ\n",
- __func__);
- #endif
-
- memset(&blk_table, 0, sizeof(blk_table));
-
- /* Get user argument sturcutre */
- if (copy_from_user(&k_d, usr_d,
- sizeof(cy_as_gadget_ioctl_i_g_o_j_d)))
- return -EFAULT;
-
- map_filename = kmalloc(k_d.name_length + 1, GFP_KERNEL);
- if (map_filename == NULL)
- return -ENOMEM;
- if (copy_from_user(map_filename, k_d.file_name,
- k_d.name_length + 1)) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: copy file name from "
- "user space failed\n", __func__);
- #endif
- kfree(map_filename);
- return -EFAULT;
- }
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<*>%s: opening %s for kernel "
- "mode access map\n", __func__, map_filename);
- #endif
- file_to_map = filp_open(map_filename, O_RDWR, 0);
- if (file_to_map) {
- struct address_space *mapping = file_to_map->f_mapping;
- const struct address_space_operations
- *a_ops = mapping->a_ops;
- struct inode *inode = mapping->host;
-
- int8_t blk_table_idx = -1;
- uint32_t file_block_idx = 0;
- uint32_t last_blk_addr_map = 0, curr_blk_addr_map = 0;
-
- /*verify operation exists*/
- if (a_ops->bmap) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "<*>%s: bmap found, i_bytes=0x%x, "
- "i_size=0x%x, i_blocks=0x%x\n",
- __func__, inode->i_bytes,
- (unsigned int) inode->i_size,
- (unsigned int) inode->i_blocks);
- #endif
-
- k_d.num_bytes = inode->i_size;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "<*>%s: k_d.num_bytes=0x%x\n",
- __func__, k_d.num_bytes);
- #endif
-
- for (file_block_idx = 0;
- file_block_idx < inode->i_size;
- file_block_idx++) {
- curr_blk_addr_map =
- a_ops->bmap(mapping,
- file_block_idx);
-
- if (curr_blk_addr_map == 0) {
- /*no valid mapping*/
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: no valid "
- "mapping\n", __func__);
- #endif
- break;
- } else if (curr_blk_addr_map !=
- (last_blk_addr_map + 1)) {
- /*non-contiguous break*/
- blk_table_idx++;
- blk_table.start_blocks
- [blk_table_idx] =
- curr_blk_addr_map;
- blk_table.num_blocks
- [blk_table_idx]++;
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: found non-"
- "contiguous break",
- __func__);
- #endif
- } else {
- /*add contiguous block*/
- blk_table.num_blocks
- [blk_table_idx]++;
- }
- last_blk_addr_map = curr_blk_addr_map;
- }
-
- /*print result for verification*/
- #ifndef WESTBRIDGE_NDEBUG
- {
- int i = 0;
-
- for (i = 0; i <= blk_table_idx; i++) {
- cy_as_hal_print_message(
- "%s %d 0x%x 0x%x\n",
- __func__, i,
- blk_table.start_blocks[i],
- blk_table.num_blocks[i]);
- }
- }
- #endif
- } else {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: could not find "
- "a_ops->bmap\n", __func__);
- #endif
- return -EFAULT;
- }
-
- filp_close(file_to_map, NULL);
-
- dev->tmtp_get_complete = 0;
- dev->tmtp_need_new_blk_tbl = 0;
-
- ret_stat = __put_user(
- blk_table.start_blocks[blk_table_idx],
- (uint32_t __user *)(&(usr_d->blk_addr_p)));
-
- ret_stat = __put_user(
- blk_table.num_blocks[blk_table_idx],
- (uint32_t __user *)(&(usr_d->blk_count_p)));
-
- sg_init_one(&sg, &blk_table, sizeof(blk_table));
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: calling cy_as_mtp_init_get_object() "
- "start=0x%x, num =0x%x, tid=0x%x, "
- "num_bytes=0x%x\n",
- __func__,
- blk_table.start_blocks[0],
- blk_table.num_blocks[0],
- k_d.tid,
- k_d.num_bytes);
- #endif
-
- ret_stat = cy_as_mtp_init_get_object(
- dev->dev_handle,
- (cy_as_mtp_block_table *)&sg,
- k_d.num_bytes, k_d.tid, 0, 0);
- if (ret_stat != CY_AS_ERROR_SUCCESS) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: cy_as_mtp_init_get_object "
- "failed ret_stat=0x%x\n",
- __func__, ret_stat);
- #endif
- }
- }
- #ifndef WESTBRIDGE_NDEBUG
- else {
- cy_as_hal_print_message(
- "%s: failed to open file %s\n",
- __func__, map_filename);
- }
- #endif
- kfree(map_filename);
-
- ret_stat = 0;
- retval = __put_user(ret_stat, (uint32_t __user *)
- (&(usr_d->ret_val)));
- break;
- }
- case CYASGADGET_CANCELSOJ:
- {
- cy_as_gadget_ioctl_cancel *usr_d =
- (cy_as_gadget_ioctl_cancel *)param;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message(
- "%s: got CYASGADGET_CANCELSOJ\n",
- __func__);
- #endif
-
- ret_stat = cy_as_mtp_cancel_send_object(dev->dev_handle, 0, 0);
-
- retval = __put_user(ret_stat, (uint32_t __user *)
- (&(usr_d->ret_val)));
- break;
- }
- case CYASGADGET_CANCELGOJ:
- {
- cy_as_gadget_ioctl_cancel *usr_d =
- (cy_as_gadget_ioctl_cancel *)param;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: got CYASGADGET_CANCELGOJ\n",
- __func__);
- #endif
-
- ret_stat = cy_as_mtp_cancel_get_object(dev->dev_handle, 0, 0);
-
- retval = __put_user(ret_stat,
- (uint32_t __user *)(&(usr_d->ret_val)));
- break;
- }
- default:
- {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: unknown ioctl received: %d\n",
- __func__, code);
-
- cy_as_hal_print_message("%s: known codes:\n"
- "CYASGADGET_GETMTPSTATUS=%d\n"
- "CYASGADGET_CLEARTMTPSTATUS=%d\n"
- "CYASGADGET_INITSOJ=%d\n"
- "CYASGADGET_INITGOJ=%d\n"
- "CYASGADGET_CANCELSOJ=%d\n"
- "CYASGADGET_CANCELGOJ=%d\n",
- __func__,
- CYASGADGET_GETMTPSTATUS,
- CYASGADGET_CLEARTMTPSTATUS,
- CYASGADGET_INITSOJ,
- CYASGADGET_INITGOJ,
- CYASGADGET_CANCELSOJ,
- CYASGADGET_CANCELGOJ);
- #endif
- break;
- }
- }
-
- return 0;
-}
-
-static int cyasgadget_start(struct usb_gadget_driver *driver,
- int (*bind)(struct usb_gadget *));
-static int cyasgadget_stop(struct usb_gadget_driver *driver);
-
-static const struct usb_gadget_ops cyasgadget_ops = {
- .get_frame = cyasgadget_get_frame,
- .wakeup = cyasgadget_wakeup,
- .set_selfpowered = cyasgadget_set_selfpowered,
- .pullup = cyasgadget_pullup,
- .ioctl = cyasgadget_ioctl,
- .start = cyasgadget_start,
- .stop = cyasgadget_stop,
-};
-
-
-/* keeping it simple:
- * - one bus driver, initted first;
- * - one function driver, initted second
- *
- * most of the work to support multiple controllers would
- * be to associate this gadget driver with all of them, or
- * perhaps to bind specific drivers to specific devices.
- */
-
-static void cyas_ep_reset(
- cyasgadget_ep *an_ep
- )
-{
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called\n", __func__);
- #endif
-
- an_ep->desc = NULL;
- INIT_LIST_HEAD(&an_ep->queue);
-
- an_ep->stopped = 0;
- an_ep->is_in = 0;
- an_ep->is_iso = 0;
- an_ep->usb_ep_inst.maxpacket = ~0;
- an_ep->usb_ep_inst.ops = &cyasgadget_ep_ops;
-}
-
-static void cyas_usb_reset(
- cyasgadget *cy_as_dev
- )
-{
- cy_as_return_status_t ret;
- cy_as_usb_enum_control config;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_device *dev_p = (cy_as_device *)cy_as_dev->dev_handle;
-
- cy_as_hal_print_message("<1>%s called mtp_firmware=0x%x\n",
- __func__, dev_p->is_mtp_firmware);
- #endif
-
- ret = cy_as_misc_release_resource(cy_as_dev->dev_handle,
- cy_as_bus_u_s_b);
- if (ret != CY_AS_ERROR_SUCCESS && ret !=
- CY_AS_ERROR_RESOURCE_NOT_OWNED) {
- cy_as_hal_print_message("<1>_cy_as_gadget: cannot "
- "release usb resource: failed with error code %d\n",
- ret);
- return;
- }
-
- cy_as_dev->gadget.speed = USB_SPEED_HIGH;
-
- ret = cy_as_usb_start(cy_as_dev->dev_handle, 0, 0);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_start failed with error code %d\n",
- ret);
- return;
- }
- /* P port will do enumeration, not West Bridge */
- config.antioch_enumeration = cy_false;
- /* 1 2 : 1-BUS_NUM , 2:Storage_device number, SD - is bus 1*/
-
- /* TODO: add module param to enumerate mass storage */
- config.mass_storage_interface = 0;
-
- if (append_mtp) {
- ret = cy_as_mtp_start(cy_as_dev->dev_handle,
- cy_as_gadget_mtp_event_callback, 0, 0);
- if (ret == CY_AS_ERROR_SUCCESS) {
- cy_as_hal_print_message("MTP start passed, enumerating "
- "MTP interface\n");
- config.mtp_interface = append_mtp;
- /*Do not enumerate NAND storage*/
- config.devices_to_enumerate[0][0] = cy_false;
-
- /*enumerate SD storage as MTP*/
- config.devices_to_enumerate[1][0] = cy_true;
- }
- } else {
- cy_as_hal_print_message("MTP start not attempted, not "
- "enumerating MTP interface\n");
- config.mtp_interface = 0;
- /* enumerate mass storage based on module parameters */
- config.devices_to_enumerate[0][0] = msc_enum_bus_0;
- config.devices_to_enumerate[1][0] = msc_enum_bus_1;
- }
-
- ret = cy_as_usb_set_enum_config(cy_as_dev->dev_handle,
- &config, 0, 0);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_hal_print_message("<1>_cy_as_gadget: "
- "cy_as_usb_set_enum_config failed with error "
- "code %d\n", ret);
- return;
- }
-
- cy_as_usb_set_physical_configuration(cy_as_dev->dev_handle, 1);
-
-}
-
-static void cyas_usb_reinit(
- cyasgadget *cy_as_dev
- )
-{
- int index = 0;
- cyasgadget_ep *an_ep_p;
- cy_as_return_status_t ret;
- cy_as_device *dev_p = (cy_as_device *)cy_as_dev->dev_handle;
-
- INIT_LIST_HEAD(&cy_as_dev->gadget.ep_list);
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called, is_mtp_firmware = "
- "0x%x\n", __func__, dev_p->is_mtp_firmware);
- #endif
-
- /* Init the end points */
- for (index = 1; index <= 15; index++) {
- an_ep_p = &cy_as_dev->an_gadget_ep[index];
- cyas_ep_reset(an_ep_p);
- an_ep_p->usb_ep_inst.name = cy_as_ep_names[index];
- an_ep_p->dev = cy_as_dev;
- an_ep_p->num = index;
- memset(&an_ep_p->cyepconfig, 0, sizeof(an_ep_p->cyepconfig));
-
- /* EP0, EPs 2,4,6,8 need not be added */
- if ((index <= 8) && (index % 2 == 0) &&
- (!dev_p->is_mtp_firmware)) {
- /* EP0 is 64 and EPs 2,4,6,8 not allowed */
- cy_as_dev->an_gadget_ep[index].fifo_size = 0;
- } else {
- if (index == 1)
- an_ep_p->fifo_size = 64;
- else
- an_ep_p->fifo_size = 512;
- list_add_tail(&an_ep_p->usb_ep_inst.ep_list,
- &cy_as_dev->gadget.ep_list);
- }
- }
- /* need to setendpointconfig before usb connect, this is not
- * quite compatible with gadget methodology (ep_enable called
- * by gadget after connect), therefore need to set config in
- * initialization and verify compatibility in ep_enable,
- * kick up error otherwise*/
- an_ep_p = &cy_as_dev->an_gadget_ep[3];
- an_ep_p->cyepconfig.enabled = cy_true;
- an_ep_p->cyepconfig.dir = cy_as_usb_out;
- an_ep_p->cyepconfig.type = cy_as_usb_bulk;
- an_ep_p->cyepconfig.size = 0;
- an_ep_p->cyepconfig.physical = 1;
- ret = cy_as_usb_set_end_point_config(an_ep_p->dev->dev_handle,
- 3, &an_ep_p->cyepconfig);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_hal_print_message("cy_as_usb_set_end_point_config "
- "failed with error code %d\n", ret);
- }
-
- cy_as_usb_set_stall(an_ep_p->dev->dev_handle, 3, 0, 0);
-
- an_ep_p = &cy_as_dev->an_gadget_ep[5];
- an_ep_p->cyepconfig.enabled = cy_true;
- an_ep_p->cyepconfig.dir = cy_as_usb_in;
- an_ep_p->cyepconfig.type = cy_as_usb_bulk;
- an_ep_p->cyepconfig.size = 0;
- an_ep_p->cyepconfig.physical = 2;
- ret = cy_as_usb_set_end_point_config(an_ep_p->dev->dev_handle,
- 5, &an_ep_p->cyepconfig);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_hal_print_message("cy_as_usb_set_end_point_config "
- "failed with error code %d\n", ret);
- }
-
- cy_as_usb_set_stall(an_ep_p->dev->dev_handle, 5, 0, 0);
-
- an_ep_p = &cy_as_dev->an_gadget_ep[9];
- an_ep_p->cyepconfig.enabled = cy_true;
- an_ep_p->cyepconfig.dir = cy_as_usb_in;
- an_ep_p->cyepconfig.type = cy_as_usb_bulk;
- an_ep_p->cyepconfig.size = 0;
- an_ep_p->cyepconfig.physical = 4;
- ret = cy_as_usb_set_end_point_config(an_ep_p->dev->dev_handle,
- 9, &an_ep_p->cyepconfig);
- if (ret != CY_AS_ERROR_SUCCESS) {
- cy_as_hal_print_message("cy_as_usb_set_end_point_config "
- "failed with error code %d\n", ret);
- }
-
- cy_as_usb_set_stall(an_ep_p->dev->dev_handle, 9, 0, 0);
-
- if (dev_p->mtp_count != 0) {
- /* these need to be set for compatibility with
- * the gadget_enable logic */
- an_ep_p = &cy_as_dev->an_gadget_ep[2];
- an_ep_p->cyepconfig.enabled = cy_true;
- an_ep_p->cyepconfig.dir = cy_as_usb_out;
- an_ep_p->cyepconfig.type = cy_as_usb_bulk;
- an_ep_p->cyepconfig.size = 0;
- an_ep_p->cyepconfig.physical = 0;
- cy_as_usb_set_stall(an_ep_p->dev->dev_handle, 2, 0, 0);
-
- an_ep_p = &cy_as_dev->an_gadget_ep[6];
- an_ep_p->cyepconfig.enabled = cy_true;
- an_ep_p->cyepconfig.dir = cy_as_usb_in;
- an_ep_p->cyepconfig.type = cy_as_usb_bulk;
- an_ep_p->cyepconfig.size = 0;
- an_ep_p->cyepconfig.physical = 0;
- cy_as_usb_set_stall(an_ep_p->dev->dev_handle, 6, 0, 0);
- }
-
- cyas_ep_reset(&cy_as_dev->an_gadget_ep[0]);
- cy_as_dev->an_gadget_ep[0].usb_ep_inst.name = cy_as_ep_names[0];
- cy_as_dev->an_gadget_ep[0].dev = cy_as_dev;
- cy_as_dev->an_gadget_ep[0].num = 0;
- cy_as_dev->an_gadget_ep[0].fifo_size = 64;
-
- cy_as_dev->an_gadget_ep[0].usb_ep_inst.maxpacket = 64;
- cy_as_dev->gadget.ep0 = &cy_as_dev->an_gadget_ep[0].usb_ep_inst;
- cy_as_dev->an_gadget_ep[0].stopped = 0;
- INIT_LIST_HEAD(&cy_as_dev->gadget.ep0->ep_list);
-}
-
-static void cyas_ep0_start(
- cyasgadget *dev
- )
-{
- cy_as_return_status_t ret;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called\n", __func__);
- #endif
-
- ret = cy_as_usb_register_callback(dev->dev_handle,
- cy_as_gadget_usb_event_callback);
- if (ret != CY_AS_ERROR_SUCCESS) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: cy_as_usb_register_callback "
- "failed with error code %d\n", __func__, ret);
- #endif
- return;
- }
-
- ret = cy_as_usb_commit_config(dev->dev_handle, 0, 0);
- if (ret != CY_AS_ERROR_SUCCESS) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: cy_as_usb_commit_config "
- "failed with error code %d\n", __func__, ret);
- #endif
- return;
- }
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: cy_as_usb_commit_config "
- "message sent\n", __func__);
- #endif
-
- ret = cy_as_usb_connect(dev->dev_handle, 0, 0);
- if (ret != CY_AS_ERROR_SUCCESS) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: cy_as_usb_connect failed "
- "with error code %d\n", __func__, ret);
- #endif
- return;
- }
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s: cy_as_usb_connect message "
- "sent\n", __func__);
- #endif
-}
-
-/*
- * When a driver is successfully registered, it will receive
- * control requests including set_configuration(), which enables
- * non-control requests. then usb traffic follows until a
- * disconnect is reported. then a host may connect again, or
- * the driver might get unbound.
- */
-static int cyasgadget_start(struct usb_gadget_driver *driver,
- int (*bind)(struct usb_gadget *))
-{
- cyasgadget *dev = cy_as_gadget_controller;
- int retval;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called driver=0x%x\n",
- __func__, (unsigned int) driver);
- #endif
-
- /* insist on high speed support from the driver, since
- * "must not be used in normal operation"
- */
- if (!driver
- || !bind
- || !driver->unbind
- || !driver->setup)
- return -EINVAL;
-
- if (!dev)
- return -ENODEV;
-
- if (dev->driver)
- return -EBUSY;
-
- /* hook up the driver ... */
- dev->softconnect = 1;
- driver->driver.bus = NULL;
- dev->driver = driver;
- dev->gadget.dev.driver = &driver->driver;
-
- /* Do the needful */
- cyas_usb_reset(dev); /* External usb */
- cyas_usb_reinit(dev); /* Internal */
-
- retval = bind(&dev->gadget);
- if (retval) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("%s bind to driver %s --> %d\n",
- __func__, driver->driver.name, retval);
- #endif
-
- dev->driver = NULL;
- dev->gadget.dev.driver = NULL;
- return retval;
- }
-
- /* ... then enable host detection and ep0; and we're ready
- * for set_configuration as well as eventual disconnect.
- */
- cyas_ep0_start(dev);
-
- return 0;
-}
-
-static void cyasgadget_nuke(
- cyasgadget_ep *an_ep
- )
-{
- cyasgadget *dev = cy_as_gadget_controller;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called\n", __func__);
- #endif
-
- cy_as_usb_cancel_async(dev->dev_handle, an_ep->num);
- an_ep->stopped = 1;
-
- while (!list_empty(&an_ep->queue)) {
- cyasgadget_req *an_req = list_entry
- (an_ep->queue.next, cyasgadget_req, queue);
- list_del_init(&an_req->queue);
- an_req->req.status = -ESHUTDOWN;
- an_req->req.complete(&an_ep->usb_ep_inst, &an_req->req);
- }
-}
-
-static void cyasgadget_stop_activity(
- cyasgadget *dev,
- struct usb_gadget_driver *driver
- )
-{
- int index;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called\n", __func__);
- #endif
-
- /* don't disconnect if it's not connected */
- if (dev->gadget.speed == USB_SPEED_UNKNOWN)
- driver = NULL;
-
- if (spin_is_locked(&dev->lock))
- spin_unlock(&dev->lock);
-
- /* Stop hardware; prevent new request submissions;
- * and kill any outstanding requests.
- */
- cy_as_usb_disconnect(dev->dev_handle, 0, 0);
-
- for (index = 3; index <= 7; index += 2) {
- cyasgadget_ep *an_ep_p = &dev->an_gadget_ep[index];
- cyasgadget_nuke(an_ep_p);
- }
-
- for (index = 9; index <= 15; index++) {
- cyasgadget_ep *an_ep_p = &dev->an_gadget_ep[index];
- cyasgadget_nuke(an_ep_p);
- }
-
- /* report disconnect; the driver is already quiesced */
- if (driver)
- driver->disconnect(&dev->gadget);
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("cy_as_usb_disconnect returned success");
- #endif
-
- /* Stop Usb */
- cy_as_usb_stop(dev->dev_handle, 0, 0);
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("cy_as_usb_stop returned success");
- #endif
-}
-
-static int cyasgadget_stop(
- struct usb_gadget_driver *driver
- )
-{
- cyasgadget *dev = cy_as_gadget_controller;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called\n", __func__);
- #endif
-
- if (!dev)
- return -ENODEV;
-
- if (!driver || driver != dev->driver)
- return -EINVAL;
-
- cyasgadget_stop_activity(dev, driver);
-
- driver->unbind(&dev->gadget);
- dev->gadget.dev.driver = NULL;
- dev->driver = NULL;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("unregistered driver '%s'\n",
- driver->driver.name);
- #endif
-
- return 0;
-}
-
-static void cyas_gadget_release(
- struct device *_dev
- )
-{
- cyasgadget *dev = dev_get_drvdata(_dev);
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>%s called\n", __func__);
- #endif
-
- kfree(dev);
-}
-
-/* DeInitialize gadget driver */
-static void cyasgadget_deinit(
- cyasgadget *cy_as_dev
- )
-{
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>_cy_as_gadget deinitialize called\n");
- #endif
-
- if (!cy_as_dev) {
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>_cy_as_gadget_deinit: "
- "invalid cyasgadget device\n");
- #endif
- return;
- }
- usb_del_gadget_udc(&cy_as_dev->gadget);
-
- if (cy_as_dev->driver) {
- /* should have been done already by driver model core */
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1> cy_as_gadget: '%s' "
- "is still registered\n",
- cy_as_dev->driver->driver.name);
- #endif
- usb_gadget_unregister_driver(cy_as_dev->driver);
- }
-
- kfree(cy_as_dev);
- cy_as_gadget_controller = NULL;
-}
-
-/* Initialize gadget driver */
-static int cyasgadget_initialize(void)
-{
- cyasgadget *cy_as_dev = 0;
- int retval = 0;
-
- #ifndef WESTBRIDGE_NDEBUG
- cy_as_hal_print_message("<1>_cy_as_gadget [V1.1] initialize called\n");
- #endif
-
- if (cy_as_gadget_controller != 0) {
- cy_as_hal_print_message("<1> cy_as_gadget: the device has "
- "already been initilaized. ignoring\n");
- return -EBUSY;
- }
-
- cy_as_dev = kzalloc(sizeof(cyasgadget), GFP_ATOMIC);
- if (cy_as_dev == NULL) {
- cy_as_hal_print_message("<1> cy_as_gadget: memory "
- "allocation failed\n");
- return -ENOMEM;
- }
-
- spin_lock_init(&cy_as_dev->lock);
- cy_as_dev->gadget.ops = &cyasgadget_ops;
- cy_as_dev->gadget.is_dualspeed = 1;
-
- /* the "gadget" abstracts/virtualizes the controller */
- /*strcpy(cy_as_dev->gadget.dev.bus_id, "cyasgadget");*/
- cy_as_dev->gadget.dev.release = cyas_gadget_release;
- cy_as_dev->gadget.name = cy_as_driver_name;
-
- /* Get the device handle */
- cy_as_dev->dev_handle = cyasdevice_getdevhandle();
- if (0 == cy_as_dev->dev_handle) {
- #ifndef NDEBUG
- cy_as_hal_print_message("<1> cy_as_gadget: "
- "no west bridge device\n");
- #endif
- retval = -EFAULT;
- goto done;
- }
-
- /* We are done now */
- cy_as_gadget_controller = cy_as_dev;
-#if 0
- pdev is the platform_device or pci_device or whatever is used here
- retval = usb_add_gadget_udc(&pdev->dev, &cy_as_dev->gadget);
- if (retval)
- goto done;
-#endif
-
- return 0;
-
-/*
- * in case of an error
- */
-done:
- if (cy_as_dev)
- cyasgadget_deinit(cy_as_dev);
-
- return retval;
-}
-
-static int __init cyas_init(void)
-{
- int init_res = 0;
-
- init_res = cyasgadget_initialize();
-
- if (init_res != 0) {
- printk(KERN_WARNING "<1> gadget ctl instance "
- "init error:%d\n", init_res);
- if (init_res > 0) {
- /* force -E/0 linux convention */
- init_res = init_res * -1;
- }
- }
-
- return init_res;
-}
-module_init(cyas_init);
-
-static void __exit cyas_cleanup(void)
-{
- if (cy_as_gadget_controller != NULL)
- cyasgadget_deinit(cy_as_gadget_controller);
-}
-module_exit(cyas_cleanup);
-
-
-MODULE_LICENSE("GPL");
-MODULE_DESCRIPTION(CY_AS_DRIVER_DESC);
-MODULE_AUTHOR("cypress semiconductor");
-
-/*[]*/
+++ /dev/null
-/* cyangadget.h - Linux USB Gadget driver file for the Cypress West Bridge
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-/*
- * Cypress West Bridge high/full speed USB device controller code
- * Based on the Netchip 2280 device controller by David Brownell
- * in the linux 2.6.10 kernel
- *
- * linux/drivers/usb/gadget/net2280.h
- */
-
-/*
- * Copyright (C) 2002 NetChip Technology, Inc. (http://www.netchip.com)
- * Copyright (C) 2003 David Brownell
- *
- * This program is free software; you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation; either version 2 of the License, or
- * (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
- */
-
-#ifndef _INCLUDED_CYANGADGET_H_
-#define _INCLUDED_CYANGADGET_H_
-
-#include <linux/device.h>
-#include <linux/moduleparam.h>
-#include <linux/usb/ch9.h>
-#include <linux/usb/gadget.h>
-#include <linux/sched.h>
-
-#include "../include/linux/westbridge/cyastoria.h"
-#include "../include/linux/westbridge/cyashal.h"
-#include "../include/linux/westbridge/cyasdevice.h"
-#include "cyasgadget_ioctl.h"
-
-#include <linux/module.h>
-#include <linux/init.h>
-
-/*char driver defines, revisit*/
-#include <linux/module.h>
-#include <linux/moduleparam.h>
-#include <linux/init.h>
-#include <linux/fs.h> /* everything... */
-#include <linux/errno.h> /* error codes */
-#include <linux/types.h> /* size_t */
-#include <linux/proc_fs.h>
-#include <linux/fcntl.h> /* O_ACCMODE */
-#include <linux/seq_file.h>
-#include <linux/cdev.h>
-#include <linux/scatterlist.h>
-#include <linux/pagemap.h>
-#include <linux/vmalloc.h> /* vmalloc(), vfree */
-#include <linux/msdos_fs.h> /*fat_alloc_cluster*/
-#include <linux/buffer_head.h>
-#include <asm/system.h> /* cli(), *_flags */
-#include <linux/uaccess.h> /* copy_*_user */
-
-extern int mpage_cleardirty(struct address_space *mapping, int num_pages);
-extern int fat_get_block(struct inode *, sector_t , struct buffer_head *, int);
-extern cy_as_device_handle *cyasdevice_getdevhandle(void);
-
-/* Driver data structures and utilities */
-typedef struct cyasgadget_ep {
- struct usb_ep usb_ep_inst;
- struct cyasgadget *dev;
-
- /* analogous to a host-side qh */
- struct list_head queue;
- const struct usb_endpoint_descriptor *desc;
- unsigned num:8,
- fifo_size:12,
- in_fifo_validate:1,
- out_overflow:1,
- stopped:1,
- is_in:1,
- is_iso:1;
- cy_as_usb_end_point_config cyepconfig;
-} cyasgadget_ep;
-
-typedef struct cyasgadget_req {
- struct usb_request req;
- struct list_head queue;
- int ep_num;
- unsigned mapped:1,
- valid:1,
- complete:1,
- ep_stopped:1;
-} cyasgadget_req;
-
-typedef struct cyasgadget {
- /* each device provides one gadget, several endpoints */
- struct usb_gadget gadget;
- spinlock_t lock;
- struct cyasgadget_ep an_gadget_ep[16];
- struct usb_gadget_driver *driver;
- /* Handle to the West Bridge device */
- cy_as_device_handle dev_handle;
- unsigned enabled:1,
- protocol_stall:1,
- softconnect:1,
- outsetupreq:1;
- struct completion thread_complete;
- wait_queue_head_t thread_wq;
- struct semaphore thread_sem;
- struct list_head thread_queue;
-
- cy_bool tmtp_send_complete;
- cy_bool tmtp_get_complete;
- cy_bool tmtp_need_new_blk_tbl;
- /* Data member used to store the SendObjectComplete event data */
- cy_as_mtp_send_object_complete_data tmtp_send_complete_data;
- /* Data member used to store the GetObjectComplete event data */
- cy_as_mtp_get_object_complete_data tmtp_get_complete_data;
-
-} cyasgadget;
-
-static inline void set_halt(cyasgadget_ep *ep)
-{
- return;
-}
-
-static inline void clear_halt(cyasgadget_ep *ep)
-{
- return;
-}
-
-#define xprintk(dev, level, fmt, args...) \
- printk(level "%s %s: " fmt, driver_name, \
- pci_name(dev->pdev), ## args)
-
-#ifdef DEBUG
-#undef DEBUG
-#define DEBUG(dev, fmt, args...) \
- xprintk(dev, KERN_DEBUG, fmt, ## args)
-#else
-#define DEBUG(dev, fmt, args...) \
- do { } while (0)
-#endif /* DEBUG */
-
-#ifdef VERBOSE
-#define VDEBUG DEBUG
-#else
-#define VDEBUG(dev, fmt, args...) \
- do { } while (0)
-#endif /* VERBOSE */
-
-#define ERROR(dev, fmt, args...) \
- xprintk(dev, KERN_ERR, fmt, ## args)
-#define GADG_WARN(dev, fmt, args...) \
- xprintk(dev, KERN_WARNING, fmt, ## args)
-#define INFO(dev, fmt, args...) \
- xprintk(dev, KERN_INFO, fmt, ## args)
-
-/*-------------------------------------------------------------------------*/
-
-static inline void start_out_naking(struct cyasgadget_ep *ep)
-{
- return;
-}
-
-static inline void stop_out_naking(struct cyasgadget_ep *ep)
-{
- return;
-}
-
-#endif /* _INCLUDED_CYANGADGET_H_ */
+++ /dev/null
-/* cyasgadget_ioctl.h - Linux USB Gadget driver ioctl file for
- * Cypress West Bridge
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef CYASGADGET_IOCTL_H
-#define CYASGADGET_IOCTL_H
-
-
-#include <linux/types.h>
-#include <linux/ioctl.h>
-
-typedef struct cy_as_gadget_ioctl_send_object {
- uint32_t status;
- uint32_t byte_count;
- uint32_t transaction_id;
-} cy_as_gadget_ioctl_send_object;
-
-typedef struct cy_as_gadget_ioctl_get_object {
- uint32_t status;
- uint32_t byte_count;
-} cy_as_gadget_ioctl_get_object;
-
-
-typedef struct cy_as_gadget_ioctl_tmtp_status {
- cy_bool tmtp_send_complete;
- cy_bool tmtp_get_complete;
- cy_bool tmtp_need_new_blk_tbl;
- cy_as_gadget_ioctl_send_object tmtp_send_complete_data;
- cy_as_gadget_ioctl_get_object tmtp_get_complete_data;
- uint32_t t_usec;
-} cy_as_gadget_ioctl_tmtp_status;
-
-/*Init send object data*/
-typedef struct cy_as_gadget_ioctl_i_s_o_j_d {
- uint32_t *blk_addr_p; /* starting sector */
- uint16_t *blk_count_p; /* num of sectors in the block */
- /* number of entries in the blk table */
- uint32_t item_count;
- uint32_t num_bytes;
- /* in case if more prcise timestamping is done in kernel mode */
- uint32_t t_usec;
- uint32_t ret_val;
- char *file_name;
- uint32_t name_length;
-
-} cy_as_gadget_ioctl_i_s_o_j_d;
-
-
-/*Init get object data*/
-typedef struct cy_as_gadget_ioctl_i_g_o_j_d {
- uint32_t *blk_addr_p;
- uint16_t *blk_count_p;
- uint32_t item_count;
- uint32_t num_bytes;
- uint32_t tid;
- uint32_t ret_val;
- char *file_name;
- uint32_t name_length;
-
-} cy_as_gadget_ioctl_i_g_o_j_d;
-
-typedef struct cy_as_gadget_ioctl_cancel {
- uint32_t ret_val;
-} cy_as_gadget_ioctl_cancel;
-
-#define CYASGADGET_IOC_MAGIC 0xEF
-#define CYASGADGET_GETMTPSTATUS \
- _IOW(CYASGADGET_IOC_MAGIC, 0, cy_as_gadget_ioctl_tmtp_status)
-#define CYASGADGET_CLEARTMTPSTATUS \
- _IO(CYASGADGET_IOC_MAGIC, 1)
-#define CYASGADGET_INITSOJ \
- _IOW(CYASGADGET_IOC_MAGIC, 2, cy_as_gadget_ioctl_i_s_o_j_d)
-#define CYASGADGET_INITGOJ \
- _IOW(CYASGADGET_IOC_MAGIC, 3, cy_as_gadget_ioctl_i_g_o_j_d)
-#define CYASGADGET_CANCELSOJ \
- _IOW(CYASGADGET_IOC_MAGIC, 4, cy_as_gadget_ioctl_cancel)
-#define CYASGADGET_CANCELGOJ \
- _IOW(CYASGADGET_IOC_MAGIC, 5, cy_as_gadget_ioctl_cancel)
-#define CYASGADGET_IOC_MAXNR 6
-
-#endif
+++ /dev/null
-/* Cypress West Bridge API header file (cyanerr.h)
- ## Symbols for backward compatibility with previous releases of Antioch SDK.
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYANERR_H_
-#define _INCLUDED_CYANERR_H_
-
-#include "cyaserr.h"
-
-#ifndef __doxygen__
-
-/*
- * Function completed successfully.
- */
-#define CY_AN_ERROR_SUCCESS (CY_AS_ERROR_SUCCESS)
-
-/*
- * A function trying to acquire a resource was unable to do so.
- */
-#define CY_AN_ERROR_NOT_ACQUIRED (CY_AS_ERROR_NOT_ACQUIRED)
-
-/*
- * A function trying to acquire a resource was unable to do so.
- */
-#define CY_AN_ERROR_NOT_RELEASED (CY_AS_ERROR_NOT_RELEASED)
-
-/*
- * The West Bridge firmware is not loaded.
- */
-#define CY_AN_ERROR_NO_FIRMWARE (CY_AS_ERROR_NO_FIRMWARE)
-
-/*
- * A timeout occurred waiting on a response from the West Bridge device
- */
-#define CY_AN_ERROR_TIMEOUT (CY_AS_ERROR_TIMEOUT)
-
-/*
- * A request to download firmware was made while not in the CONFIG mode
- */
-#define CY_AN_ERROR_NOT_IN_CONFIG_MODE (CY_AS_ERROR_NOT_IN_CONFIG_MODE)
-
-/*
- * This error is returned if the firmware size specified is too invalid.
- */
-#define CY_AN_ERROR_INVALID_SIZE (CY_AS_ERROR_INVALID_SIZE)
-
-/*
- * This error is returned if a request is made to acquire a resource that has
- * already been acquired.
- */
-#define CY_AN_ERROR_RESOURCE_ALREADY_OWNED (CY_AS_ERROR_RESOURCE_ALREADY_OWNED)
-
-/*
- * This error is returned if a request is made to release a resource that has
- * not previously been acquired.
- */
-#define CY_AN_ERROR_RESOURCE_NOT_OWNED (CY_AS_ERROR_RESOURCE_NOT_OWNED)
-
-/*
- * This error is returned when a request is made for a media that does not
- * exist
- */
-#define CY_AN_ERROR_NO_SUCH_MEDIA (CY_AS_ERROR_NO_SUCH_MEDIA)
-
-/*
- * This error is returned when a request is made for a device that does
- * not exist
- */
-#define CY_AN_ERROR_NO_SUCH_DEVICE (CY_AS_ERROR_NO_SUCH_DEVICE)
-
-/*
- * This error is returned when a request is made for a unit that does
- * not exist
- */
-#define CY_AN_ERROR_NO_SUCH_UNIT (CY_AS_ERROR_NO_SUCH_UNIT)
-
-/*
- * This error is returned when a request is made for a block that does
- * not exist
- */
-#define CY_AN_ERROR_INVALID_BLOCK (CY_AS_ERROR_INVALID_BLOCK)
-
-/*
- * This error is returned when an invalid trace level is set.
- */
-#define CY_AN_ERROR_INVALID_TRACE_LEVEL (CY_AS_ERROR_INVALID_TRACE_LEVEL)
-
-/*
- * This error is returned when West Bridge is already in the standby state
- * and an attempt is made to put West Bridge into this state again.
- */
-#define CY_AN_ERROR_ALREADY_STANDBY (CY_AS_ERROR_ALREADY_STANDBY)
-
-/*
- * This error is returned when the API needs to set a pin on the
- * West Bridge device, but this is not supported by the underlying HAL
- * layer.
- */
-#define CY_AN_ERROR_SETTING_WAKEUP_PIN (CY_AS_ERROR_SETTING_WAKEUP_PIN)
-
-/*
- * This error is returned when a module is being started that has
- * already been started.
- */
-#define CY_AN_ERROR_ALREADY_RUNNING (CY_AS_ERROR_ALREADY_RUNNING)
-
-/*
- * This error is returned when a module is being stopped that has
- * already been stopped.
- */
-#define CY_AN_ERROR_NOT_RUNNING (CY_AS_ERROR_NOT_RUNNING)
-
-/*
- * This error is returned when the caller tries to claim a media that has
- * already been claimed.
- */
-#define CY_AN_ERROR_MEDIA_ALREADY_CLAIMED (CY_AS_ERROR_MEDIA_ALREADY_CLAIMED)
-
-/*
- * This error is returned when the caller tries to release a media that
- * has already been released.
- */
-#define CY_AN_ERROR_MEDIA_NOT_CLAIMED (CY_AS_ERROR_MEDIA_NOT_CLAIMED)
-
-/*
- * This error is returned when canceling trying to cancel an asynchronous
- * operation when an async operation is not pending.
- */
-#define CY_AN_ERROR_NO_OPERATION_PENDING (CY_AS_ERROR_NO_OPERATION_PENDING)
-
-/*
- * This error is returned when an invalid endpoint number is provided
- * to an API call.
- */
-#define CY_AN_ERROR_INVALID_ENDPOINT (CY_AS_ERROR_INVALID_ENDPOINT)
-
-/*
- * This error is returned when an invalid descriptor type
- * is specified in an API call.
- */
-#define CY_AN_ERROR_INVALID_DESCRIPTOR (CY_AS_ERROR_INVALID_DESCRIPTOR)
-
-/*
- * This error is returned when an invalid descriptor index
- * is specified in an API call.
- */
-#define CY_AN_ERROR_BAD_INDEX (CY_AS_ERROR_BAD_INDEX)
-
-/*
- * This error is returned if trying to set a USB descriptor
- * when in the P port enumeration mode.
- */
-#define CY_AN_ERROR_BAD_ENUMERATION_MODE (CY_AS_ERROR_BAD_ENUMERATION_MODE)
-
-/*
- * This error is returned when the endpoint configuration specified
- * is not valid.
- */
-#define CY_AN_ERROR_INVALID_CONFIGURATION (CY_AS_ERROR_INVALID_CONFIGURATION)
-
-/*
- * This error is returned when the API cannot verify it is connected
- * to an West Bridge device.
- */
-#define CY_AN_ERROR_NO_ANTIOCH (CY_AS_ERROR_NO_ANTIOCH)
-
-/*
- * This error is returned when an API function is called and
- * CyAnMiscConfigureDevice has not been called to configure West
- * Bridge for the current environment.
- */
-#define CY_AN_ERROR_NOT_CONFIGURED (CY_AS_ERROR_NOT_CONFIGURED)
-
-/*
- * This error is returned when West Bridge cannot allocate memory required for
- * internal API operations.
- */
-#define CY_AN_ERROR_OUT_OF_MEMORY (CY_AS_ERROR_OUT_OF_MEMORY)
-
-/*
- * This error is returned when a module is being started that has
- * already been started.
- */
-#define CY_AN_ERROR_NESTED_SLEEP (CY_AS_ERROR_NESTED_SLEEP)
-
-/*
- * This error is returned when an operation is attempted on an endpoint that has
- * been disabled.
- */
-#define CY_AN_ERROR_ENDPOINT_DISABLED (CY_AS_ERROR_ENDPOINT_DISABLED)
-
-/*
- * This error is returned when a call is made to an API function when the device
- * is in standby.
- */
-#define CY_AN_ERROR_IN_STANDBY (CY_AS_ERROR_IN_STANDBY)
-
-/*
- * This error is returned when an API call is made with an invalid handle value.
- */
-#define CY_AN_ERROR_INVALID_HANDLE (CY_AS_ERROR_INVALID_HANDLE)
-
-/*
- * This error is returned when an invalid response is returned from the West
- * Bridge device.
- */
-#define CY_AN_ERROR_INVALID_RESPONSE (CY_AS_ERROR_INVALID_RESPONSE)
-
-/*
- * This error is returned from the callback function for any asynchronous
- * read or write request that is canceled.
- */
-#define CY_AN_ERROR_CANCELED (CY_AS_ERROR_CANCELED)
-
-/*
- * This error is returned when the call to create sleep channel fails
- * in the HAL layer.
- */
-#define CY_AN_ERROR_CREATE_SLEEP_CHANNEL_FAILED \
- (CY_AS_ERROR_CREATE_SLEEP_CHANNEL_FAILED)
-
-/*
- * This error is returned when the call to CyAnMiscLeaveStandby
- * is made and the device is not in standby.
- */
-#define CY_AN_ERROR_NOT_IN_STANDBY (CY_AS_ERROR_NOT_IN_STANDBY)
-
-/*
- * This error is returned when the call to destroy sleep channel fails
- * in the HAL layer.
- */
-#define CY_AN_ERROR_DESTROY_SLEEP_CHANNEL_FAILED \
- (CY_AS_ERROR_DESTROY_SLEEP_CHANNEL_FAILED)
-
-/*
- * This error is returned when an invalid resource is specified to a call
- * to CyAnMiscAcquireResource() or CyAnMiscReleaseResource()
- */
-#define CY_AN_ERROR_INVALID_RESOURCE (CY_AS_ERROR_INVALID_RESOURCE)
-
-/*
- * This error occurs when an operation is requested on an endpoint that has
- * a currently pending async operation.
- */
-#define CY_AN_ERROR_ASYNC_PENDING (CY_AS_ERROR_ASYNC_PENDING)
-
-/*
- * This error is returned when a call to CyAnStorageCancelAsync() or
- * CyAnUsbCancelAsync() is made when no asynchronous request is pending.
- */
-#define CY_AN_ERROR_ASYNC_NOT_PENDING (CY_AS_ERROR_ASYNC_NOT_PENDING)
-
-/*
- * This error is returned when a request is made to put the West Bridge device
- * into standby mode while the USB stack is still active.
- */
-#define CY_AN_ERROR_USB_RUNNING (CY_AS_ERROR_USB_RUNNING)
-
-/*
- * A request for in the wrong direction was issued on an endpoint.
- */
-#define CY_AN_ERROR_USB_BAD_DIRECTION (CY_AS_ERROR_USB_BAD_DIRECTION)
-
-/*
- * An invalid request was received
- */
-#define CY_AN_ERROR_INVALID_REQUEST (CY_AS_ERROR_INVALID_REQUEST)
-
-/*
- * An ACK request was requested while no setup packet was pending.
- */
-#define CY_AN_ERROR_NO_SETUP_PACKET_PENDING \
- (CY_AS_ERROR_NO_SETUP_PACKET_PENDING)
-
-/*
- * A call was made to a API function that cannot be called from a callback.
- */
-#define CY_AN_ERROR_INVALID_IN_CALLBACK (CY_AS_ERROR_INVALID_IN_CALLBACK)
-
-/*
- * A call was made to CyAnUsbSetEndPointConfig() before
- * CyAnUsbSetPhysicalConfiguration() was called.
- */
-#define CY_AN_ERROR_ENDPOINT_CONFIG_NOT_SET \
- (CY_AS_ERROR_ENDPOINT_CONFIG_NOT_SET)
-
-/*
- * The physical endpoint referenced is not valid in the current
- * physical configuration
- */
-#define CY_AN_ERROR_INVALID_PHYSICAL_ENDPOINT \
- (CY_AS_ERROR_INVALID_PHYSICAL_ENDPOINT)
-
-/*
- * The data supplied to the CyAnMiscDownloadFirmware() call is not aligned on a
- * WORD (16 bit) boundary.
- */
-#define CY_AN_ERROR_ALIGNMENT_ERROR (CY_AS_ERROR_ALIGNMENT_ERROR)
-
-/*
- * A call was made to destroy the West Bridge device, but the USB stack or the
- * storage stack was will running.
- */
-#define CY_AN_ERROR_STILL_RUNNING (CY_AS_ERROR_STILL_RUNNING)
-
-/*
- * A call was made to the API for a function that is not yet supported.
- */
-#define CY_AN_ERROR_NOT_YET_SUPPORTED (CY_AS_ERROR_NOT_YET_SUPPORTED)
-
-/*
- * A NULL callback was provided where a non-NULL callback was required
- */
-#define CY_AN_ERROR_NULL_CALLBACK (CY_AS_ERROR_NULL_CALLBACK)
-
-/*
- * This error is returned when a request is made to put the West Bridge device
- * into standby mode while the storage stack is still active.
- */
-#define CY_AN_ERROR_STORAGE_RUNNING (CY_AS_ERROR_STORAGE_RUNNING)
-
-/*
- * This error is returned when an operation is attempted that cannot be
- * completed while the USB stack is connected to a USB host.
- */
-#define CY_AN_ERROR_USB_CONNECTED (CY_AS_ERROR_USB_CONNECTED)
-
-/*
- * This error is returned when a USB disconnect is attempted and the
- * West Bridge device is not connected.
- */
-#define CY_AN_ERROR_USB_NOT_CONNECTED (CY_AS_ERROR_USB_NOT_CONNECTED)
-
-/*
- * This error is returned when an P2S storage operation attempted and
- * data could not be read or written to the storage media.
- */
-#define CY_AN_ERROR_MEDIA_ACCESS_FAILURE (CY_AS_ERROR_MEDIA_ACCESS_FAILURE)
-
-/*
- * This error is returned when an P2S storage operation attempted and
- * the media is write protected.
- */
-#define CY_AN_ERROR_MEDIA_WRITE_PROTECTED (CY_AS_ERROR_MEDIA_WRITE_PROTECTED)
-
-/*
- * This error is returned when an attempt is made to cancel a request
- * that has already been sent to the West Bridge.
- */
-#define CY_AN_ERROR_OPERATION_IN_TRANSIT (CY_AS_ERROR_OPERATION_IN_TRANSIT)
-
-/*
- * This error is returned when an invalid parameter is passed to one of
- * the APIs.
- */
-#define CY_AN_ERROR_INVALID_PARAMETER (CY_AS_ERROR_INVALID_PARAMETER)
-
-/*
- * This error is returned if an API is not supported by the current
- * West Bridge device or the active firmware version.
- */
-#define CY_AN_ERROR_NOT_SUPPORTED (CY_AS_ERROR_NOT_SUPPORTED)
-
-/*
- * This error is returned when a call is made to one of the Storage or
- * USB APIs while the device is in suspend mode.
- */
-#define CY_AN_ERROR_IN_SUSPEND (CY_AS_ERROR_IN_SUSPEND)
-
-/*
- * This error is returned when the call to CyAnMiscLeaveSuspend
- * is made and the device is not in suspend mode.
- */
-#define CY_AN_ERROR_NOT_IN_SUSPEND (CY_AS_ERROR_NOT_IN_SUSPEND)
-
-/*
- * This error is returned when a command that is disabled by USB is called.
- */
-#define CY_AN_ERROR_FEATURE_NOT_ENABLED (CY_AS_ERROR_FEATURE_NOT_ENABLED)
-
-/*
- * This error is returned when an Async storage read or write is called before a
- * query device call is issued.
- */
-#define CY_AN_ERROR_QUERY_DEVICE_NEEDED (CY_AS_ERROR_QUERY_DEVICE_NEEDED)
-
-/*
- * This error is returned when a call is made to USB or STORAGE Start or
- * Stop before a prior Start or Stop has finished.
- */
-#define CY_AN_ERROR_STARTSTOP_PENDING (CY_AS_ERROR_STARTSTOP_PENDING)
-
-/*
- * This error is returned when a request is made for a bus that does not exist
- */
-#define CY_AN_ERROR_NO_SUCH_BUS (CY_AS_ERROR_NO_SUCH_BUS)
-
-#endif /* __doxygen__ */
-
-#endif /* _INCLUDED_CYANERR_H_ */
+++ /dev/null
-/* Cypress West Bridge API header file (cyanmedia.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYANMEDIA_H_
-#define _INCLUDED_CYANMEDIA_H_
-
-#include "cyas_cplus_start.h"
-
-/* Summary
- Specifies a specific type of media supported by West Bridge
-
- Description
- The West Bridge device supports five specific types
- of media as storage/IO devices attached to it's S-Port. This
- type is used to indicate the type of media being referenced in
- any API call.
-*/
-#include "cyasmedia.h"
-
-/* Flash NAND memory (may be SLC or MLC) */
-#define cy_an_media_nand cy_as_media_nand
-
-/* An SD flash memory device */
-#define cy_an_media_sd_flash cy_as_media_sd_flash
-
-/* An MMC flash memory device */
-#define cy_an_media_mmc_flash cy_as_media_mmc_flash
-
-/* A CE-ATA disk drive */
-#define cy_an_media_ce_ata cy_as_media_ce_ata
-
- /* SDIO device. */
-#define cy_an_media_sdio cy_as_media_sdio
-#define cy_an_media_max_media_value \
- cy_as_media_max_media_value
-
-typedef cy_as_media_type cy_an_media_type;
-
-#include "cyas_cplus_end.h"
-
-#endif /* _INCLUDED_CYANMEDIA_H_ */
+++ /dev/null
-/* Cypress West Bridge API header file (cyanmisc.h)
- ## Version for backward compatibility with previous Antioch SDK releases.
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYANMISC_H_
-#define _INCLUDED_CYANMISC_H_
-
-#include "cyantypes.h"
-#include <cyasmisc.h>
-#include "cyanmedia.h"
-#include "cyas_cplus_start.h"
-
-#define CY_AN_LEAVE_STANDBY_DELAY_CLOCK \
- (CY_AS_LEAVE_STANDBY_DELAY_CLOCK)
-#define CY_AN_RESET_DELAY_CLOCK \
- (CY_AS_RESET_DELAY_CLOCK)
-
-#define CY_AN_LEAVE_STANDBY_DELAY_CRYSTAL \
- (CY_AS_LEAVE_STANDBY_DELAY_CRYSTAL)
-
-#define CY_AN_RESET_DELAY_CRYSTAL \
- (CY_AS_RESET_DELAY_CRYSTAL)
-
-/* Defines to convert the old CyAn names to the new
- * CyAs names
- */
-typedef cy_as_device_handle cy_an_device_handle;
-
-#define cy_an_device_dack_ack cy_as_device_dack_ack
-#define cy_an_device_dack_eob cy_as_device_dack_eob
-typedef cy_as_device_dack_mode cy_an_device_dack_mode;
-
-typedef cy_as_device_config cy_an_device_config;
-
-#define cy_an_resource_u_s_b cy_as_bus_u_sB
-#define cy_an_resource_sdio_MMC cy_as_bus_1
-#define cy_an_resource_nand cy_as_bus_0
-typedef cy_as_resource_type cy_an_resource_type;
-
-#define cy_an_reset_soft cy_as_reset_soft
-#define cy_an_reset_hard cy_as_reset_hard
-typedef cy_as_reset_type cy_an_reset_type;
-typedef cy_as_funct_c_b_type cy_an_funct_c_b_type;
-typedef cy_as_function_callback cy_an_function_callback;
-
-#define cy_an_event_misc_initialized \
- cy_as_event_misc_initialized
-#define cy_an_event_misc_awake \
- cy_as_event_misc_awake
-#define cy_an_event_misc_heart_beat \
- cy_as_event_misc_heart_beat
-#define cy_an_event_misc_wakeup \
- cy_as_event_misc_wakeup
-#define cy_an_event_misc_device_mismatch \
- cy_as_event_misc_device_mismatch
-typedef cy_as_misc_event_type \
- cy_an_misc_event_type;
-typedef cy_as_misc_event_callback \
- cy_an_misc_event_callback;
-
-#define cy_an_misc_gpio_0 cy_as_misc_gpio_0
-#define cy_an_misc_gpio_1 cy_as_misc_gpio_1
-#define cy_an_misc_gpio__nand_CE \
- cy_as_misc_gpio__nand_CE
-#define cy_an_misc_gpio__nand_CE2 \
- cy_as_misc_gpio__nand_CE2
-#define cy_an_misc_gpio__nand_WP \
- cy_as_misc_gpio__nand_WP
-#define cy_an_misc_gpio__nand_CLE \
- cy_as_misc_gpio__nand_CLE
-#define cy_an_misc_gpio__nand_ALE \
- cy_as_misc_gpio__nand_ALE
-#define cy_an_misc_gpio_U_valid \
- cy_as_misc_gpio_U_valid
-#define cy_an_misc_gpio_SD_POW \
- cy_as_misc_gpio_SD_POW
-typedef cy_as_misc_gpio cy_an_misc_gpio;
-
-#define CY_AN_SD_DEFAULT_FREQ CY_AS_SD_DEFAULT_FREQ
-#define CY_AN_SD_RATED_FREQ CY_AS_SD_RATED_FREQ
-typedef cy_as_low_speed_sd_freq cy_an_low_speed_sd_freq;
-
-#define CY_AN_HS_SD_FREQ_48 CY_AS_HS_SD_FREQ_48
-#define CY_AN_HS_SD_FREQ_24 CY_AS_HS_SD_FREQ_24
-typedef cy_as_high_speed_sd_freq \
- cy_an_high_speed_sd_freq;
-
-#define cy_an_misc_active_high cy_as_misc_active_high
-#define cy_an_misc_active_low cy_as_misc_active_low
-typedef cy_as_misc_signal_polarity cy_an_misc_signal_polarity;
-
-typedef cy_as_get_firmware_version_data \
- cy_an_get_firmware_version_data;
-
-enum {
- CYAN_FW_TRACE_LOG_NONE = 0,
- CYAN_FW_TRACE_LOG_STATE,
- CYAN_FW_TRACE_LOG_CALLS,
- CYAN_FW_TRACE_LOG_STACK_TRACE,
- CYAN_FW_TRACE_MAX_LEVEL
-};
-
-
-/***********************************/
-/***********************************/
-/* FUNCTIONS */
-/***********************************/
-/***********************************/
-
-
-EXTERN cy_an_return_status_t
-cy_an_misc_create_device(
- cy_an_device_handle *handle_p,
- cy_an_hal_device_tag tag
- );
-#define cy_an_misc_create_device(h, tag) \
- cy_as_misc_create_device((cy_as_device_handle *)(h), \
- (cy_as_hal_device_tag)(tag))
-
-EXTERN cy_an_return_status_t
-cy_an_misc_destroy_device(
- cy_an_device_handle handle
- );
-#define cy_an_misc_destroy_device(h) \
- cy_as_misc_destroy_device((cy_as_device_handle)(h))
-
-EXTERN cy_an_return_status_t
-cy_an_misc_configure_device(
- cy_an_device_handle handle,
- cy_an_device_config *config_p
- );
-#define cy_an_misc_configure_device(h, cfg) \
- cy_as_misc_configure_device((cy_as_device_handle)(h), \
- (cy_as_device_config *)(cfg))
-
-EXTERN cy_an_return_status_t
-cy_an_misc_in_standby(
- cy_an_device_handle handle,
- cy_bool *standby
- );
-#define cy_an_misc_in_standby(h, standby) \
- cy_as_misc_in_standby((cy_as_device_handle)(h), (standby))
-
-/* Sync version of Download Firmware */
-EXTERN cy_an_return_status_t
-cy_an_misc_download_firmware(
- cy_an_device_handle handle,
- const void *fw_p,
- uint16_t size
- );
-
-#define cy_an_misc_download_firmware(handle, fw_p, size) \
- cy_as_misc_download_firmware((cy_as_device_handle)\
- (handle), (fw_p), (size), 0, 0)
-
-/* Async version of Download Firmware */
-EXTERN cy_an_return_status_t
-cy_an_misc_download_firmware_e_x(
- cy_an_device_handle handle,
- const void *fw_p,
- uint16_t size,
- cy_an_function_callback cb,
- uint32_t client
- );
-
-#define cy_an_misc_download_firmware_e_x(h, fw_p, size, cb, client) \
- cy_as_misc_download_firmware((cy_as_device_handle)(h), \
- (fw_p), (size), (cy_as_function_callback)(cb), (client))
-
-/* Sync version of Get Firmware Version */
-EXTERN cy_an_return_status_t
-cy_as_misc_get_firmware_version_dep(
- cy_as_device_handle handle,
- uint16_t *major,
- uint16_t *minor,
- uint16_t *build,
- uint8_t *media_type,
- cy_bool *is_debug_mode);
-
-#define cy_an_misc_get_firmware_version\
- (h, major, minor, bld, type, mode) \
- cy_as_misc_get_firmware_version_dep((cy_as_device_handle)(h), \
- (major), (minor), (bld), (type), (mode))
-
-/* Async version of Get Firmware Version*/
-EXTERN cy_an_return_status_t
-cy_an_misc_get_firmware_version_e_x(
- cy_an_device_handle handle,
- cy_an_get_firmware_version_data *data,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_misc_get_firmware_version_e_x\
- (h, data, cb, client) \
- cy_as_misc_get_firmware_version((cy_as_device_handle)(h), \
- (data), (cy_as_function_callback)(cb), (client))
-
-/* Sync version of Read MCU Register*/
-EXTERN cy_an_return_status_t
-cy_an_misc_read_m_c_u_register(
- cy_an_device_handle handle,
- uint16_t address,
- uint8_t *value
- );
-
-#define cy_an_misc_read_m_c_u_register(handle, address, value) \
- cy_as_misc_read_m_c_u_register((cy_as_device_handle)(handle), \
- (address), (value), 0, 0)
-
-/* Async version of Read MCU Register*/
-EXTERN cy_an_return_status_t
-cy_an_misc_read_m_c_u_register_e_x(
- cy_an_device_handle handle,
- uint16_t address,
- uint8_t *value,
- cy_an_function_callback cb,
- uint32_t client
- );
-
-#define cy_an_misc_read_m_c_u_register_e_x\
- (h, addr, val, cb, client) \
- cy_as_misc_read_m_c_u_register((cy_as_device_handle)(h), \
- (addr), (val), (cy_as_function_callback)(cb), (client))
-
-/* Sync version of Write MCU Register*/
-EXTERN cy_an_return_status_t
-cy_an_misc_write_m_c_u_register(
- cy_an_device_handle handle,
- uint16_t address,
- uint8_t mask,
- uint8_t value
- );
-#define cy_an_misc_write_m_c_u_register\
- (handle, address, mask, value) \
- cy_as_misc_write_m_c_u_register((cy_as_device_handle)(handle), \
- (address), (mask), (value), 0, 0)
-
-/* Async version of Write MCU Register*/
-EXTERN cy_an_return_status_t
-cy_an_misc_write_m_c_u_register_e_x(
- cy_an_device_handle handle,
- uint16_t address,
- uint8_t mask,
- uint8_t value,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_misc_write_m_c_u_register_e_x\
- (h, addr, mask, val, cb, client) \
- cy_as_misc_write_m_c_u_register((cy_as_device_handle)(h), \
- (addr), (mask), (val), (cy_as_function_callback)(cb), (client))
-
-/* Sync version of Write MCU Register*/
-EXTERN cy_an_return_status_t
-cy_an_misc_reset(
- cy_an_device_handle handle,
- cy_an_reset_type type,
- cy_bool flush
- );
-#define cy_an_misc_reset(handle, type, flush) \
- cy_as_misc_reset((cy_as_device_handle)(handle), \
- (type), (flush), 0, 0)
-
-/* Async version of Write MCU Register*/
-EXTERN cy_an_return_status_t
-cy_an_misc_reset_e_x(
- cy_an_device_handle handle,
- cy_an_reset_type type,
- cy_bool flush,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_misc_reset_e_x(h, type, flush, cb, client) \
- cy_as_misc_reset((cy_as_device_handle)(h), \
- (cy_as_reset_type)(type), (flush), \
- (cy_as_function_callback)(cb), (client))
-
-/* Synchronous version of CyAnMiscAcquireResource. */
-EXTERN cy_an_return_status_t
-cy_an_misc_acquire_resource(
- cy_an_device_handle handle,
- cy_an_resource_type type,
- cy_bool force
- );
-#define cy_an_misc_acquire_resource(h, type, force) \
- cy_as_misc_acquire_resource_dep((cy_as_device_handle)(h), \
- (cy_as_resource_type)(type), (force))
-
-/* Asynchronous version of CyAnMiscAcquireResource. */
-EXTERN cy_an_return_status_t
-cy_an_misc_acquire_resource_e_x(
- cy_an_device_handle handle,
- cy_an_resource_type *type,
- cy_bool force,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_misc_acquire_resource_e_x\
- (h, type_p, force, cb, client) \
- cy_as_misc_acquire_resource((cy_as_device_handle)(h), \
- (cy_as_resource_type *)(type_p), \
- (force), (cy_as_function_callback)(cb), (client))
-
-/* The one and only version of Release resource */
-EXTERN cy_an_return_status_t
-cy_an_misc_release_resource(
- cy_an_device_handle handle,
- cy_an_resource_type type
- );
-#define cy_an_misc_release_resource(h, type)\
- cy_as_misc_release_resource((cy_as_device_handle)(h), \
- (cy_as_resource_type)(type))
-
-/* Synchronous version of CyAnMiscSetTraceLevel. */
-EXTERN cy_an_return_status_t
-cy_an_misc_set_trace_level(
- cy_an_device_handle handle,
- uint8_t level,
- cy_an_media_type media,
- uint32_t device,
- uint32_t unit
- );
-
-#define cy_an_misc_set_trace_level\
- (handle, level, media, device, unit) \
- cy_as_misc_set_trace_level_dep((cy_as_device_handle)(handle), \
- (level), (cy_as_media_type)(media), (device), (unit), 0, 0)
-
-/* Asynchronous version of CyAnMiscSetTraceLevel. */
-EXTERN cy_an_return_status_t
-cy_an_misc_set_trace_level_e_x(
- cy_an_device_handle handle,
- uint8_t level,
- cy_an_media_type media,
- uint32_t device,
- uint32_t unit,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_misc_set_trace_level_e_x\
- (h, level, media, device, unit, cb, client) \
- cy_as_misc_set_trace_level_dep((cy_as_device_handle)(h), \
- (level), (cy_as_media_type)(media), (device), (unit), \
- (cy_as_function_callback)(cb), (client))
-
-/* Synchronous version of CyAnMiscEnterStandby. */
-EXTERN cy_an_return_status_t
-cy_an_misc_enter_standby(
- cy_an_device_handle handle,
- cy_bool pin
- );
-#define cy_an_misc_enter_standby(handle, pin) \
- cy_as_misc_enter_standby(\
- (cy_as_device_handle)(handle), (pin), 0, 0)
-
-/* Synchronous version of CyAnMiscEnterStandby. */
-EXTERN cy_an_return_status_t
-cy_an_misc_enter_standby_e_x(
- cy_an_device_handle handle,
- cy_bool pin,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_misc_enter_standby_e_x(h, pin, cb, client) \
- cy_as_misc_enter_standby((cy_as_device_handle)(h), \
- (pin), (cy_as_function_callback)(cb), (client))
-
-/* Only one version of CyAnMiscLeaveStandby. */
-EXTERN cy_an_return_status_t
-cy_an_misc_leave_standby(
- cy_an_device_handle handle,
- cy_an_resource_type type
- );
-#define cy_an_misc_leave_standby(h, type) \
- cy_as_misc_leave_standby((cy_as_device_handle)(h), \
- (cy_as_resource_type)(type))
-
-/* The one version of Misc Register Callback */
-EXTERN cy_an_return_status_t
-cy_an_misc_register_callback(
- cy_an_device_handle handle,
- cy_an_misc_event_callback callback
- );
-#define cy_an_misc_register_callback(h, cb) \
- cy_as_misc_register_callback((cy_as_device_handle)(h), \
- (cy_as_misc_event_callback)(cb))
-
-/* The only version of SetLogLevel */
-EXTERN void
-cy_an_misc_set_log_level(
- uint8_t level
- );
-#define cy_an_misc_set_log_level(level) \
- cy_as_misc_set_log_level(level)
-
-/* Sync version of Misc Storage Changed */
-EXTERN cy_an_return_status_t
-cy_an_misc_storage_changed(
- cy_an_device_handle handle
- );
-#define cy_an_misc_storage_changed(handle) \
- cy_as_misc_storage_changed((cy_as_device_handle)(handle), 0, 0)
-
-/* Async version of Misc Storage Changed */
-EXTERN cy_an_return_status_t
-cy_an_misc_storage_changed_e_x(
- cy_an_device_handle handle,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_misc_storage_changed_e_x(h, cb, client) \
- cy_as_misc_storage_changed((cy_as_device_handle)(h), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync version of Heartbeat control */
-EXTERN cy_an_return_status_t
-cy_an_misc_heart_beat_control(
- cy_an_device_handle handle,
- cy_bool enable
- );
-#define cy_an_misc_heart_beat_control(handle, enable) \
- cy_as_misc_heart_beat_control((cy_as_device_handle)\
- (handle), (enable), 0, 0)
-
-/* Async version of Heartbeat control */
-EXTERN cy_an_return_status_t
-cy_an_misc_heart_beat_control_e_x(
- cy_an_device_handle handle,
- cy_bool enable,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_misc_heart_beat_control_e_x(h, enable, cb, client) \
- cy_as_misc_heart_beat_control((cy_as_device_handle)(h), \
- (enable), (cy_as_function_callback)(cb), (client))
-
-/* Sync version of Get Gpio */
-EXTERN cy_an_return_status_t
-cy_an_misc_get_gpio_value(
- cy_an_device_handle handle,
- cy_an_misc_gpio pin,
- uint8_t *value
- );
-#define cy_an_misc_get_gpio_value(handle, pin, value) \
- cy_as_misc_get_gpio_value((cy_as_device_handle)(handle), \
- (cy_as_misc_gpio)(pin), (value), 0, 0)
-
-/* Async version of Get Gpio */
-EXTERN cy_an_return_status_t
-cy_an_misc_get_gpio_value_e_x(
- cy_an_device_handle handle,
- cy_an_misc_gpio pin,
- uint8_t *value,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_misc_get_gpio_value_e_x(h, pin, value, cb, client) \
- cy_as_misc_get_gpio_value((cy_as_device_handle)(h), \
- (cy_as_misc_gpio)(pin), (value), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync version of Set Gpio */
-EXTERN cy_an_return_status_t
-cy_an_misc_set_gpio_value(
- cy_an_device_handle handle,
- cy_an_misc_gpio pin,
- uint8_t value
- );
-#define cy_an_misc_set_gpio_value(handle, pin, value) \
- cy_as_misc_set_gpio_value((cy_as_device_handle)(handle), \
- (cy_as_misc_gpio)(pin), (value), 0, 0)
-
-/* Async version of Set Gpio */
-EXTERN cy_an_return_status_t
-cy_an_misc_set_gpio_value_e_x(
- cy_an_device_handle handle,
- cy_an_misc_gpio pin,
- uint8_t value,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_misc_set_gpio_value_e_x\
- (h, pin, value, cb, client) \
- cy_as_misc_set_gpio_value((cy_as_device_handle)(h), \
- (cy_as_misc_gpio)(pin), (value), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync version of Enter suspend */
-EXTERN cy_an_return_status_t
-cy_an_misc_enter_suspend(
- cy_an_device_handle handle,
- cy_bool usb_wakeup_en,
- cy_bool gpio_wakeup_en
- );
-#define cy_an_misc_enter_suspend(handle, usb_wakeup_en, \
- gpio_wakeup_en) \
- cy_as_misc_enter_suspend((cy_as_device_handle)(handle), \
- (usb_wakeup_en), (gpio_wakeup_en), 0, 0)
-
-/* Async version of Enter suspend */
-EXTERN cy_an_return_status_t
-cy_an_misc_enter_suspend_e_x(
- cy_an_device_handle handle,
- cy_bool usb_wakeup_en,
- cy_bool gpio_wakeup_en,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_misc_enter_suspend_e_x(h, usb_en, gpio_en, cb, client)\
- cy_as_misc_enter_suspend((cy_as_device_handle)(h), (usb_en), \
- (gpio_en), (cy_as_function_callback)(cb), (client))
-
-/* Sync version of Enter suspend */
-EXTERN cy_an_return_status_t
-cy_an_misc_leave_suspend(
- cy_an_device_handle handle
- );
-#define cy_an_misc_leave_suspend(handle) \
- cy_as_misc_leave_suspend((cy_as_device_handle)(handle), 0, 0)
-
-/* Async version of Enter suspend */
-EXTERN cy_an_return_status_t
-cy_an_misc_leave_suspend_e_x(
- cy_an_device_handle handle,
- cy_an_function_callback cb,
- uint32_t client
- );
-
-#define cy_an_misc_leave_suspend_e_x(h, cb, client) \
- cy_as_misc_leave_suspend((cy_as_device_handle)(h), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync version of SetLowSpeedSDFreq */
-EXTERN cy_an_return_status_t
-cy_an_misc_set_low_speed_sd_freq(
- cy_an_device_handle handle,
- cy_an_low_speed_sd_freq setting
- );
-#define cy_an_misc_set_low_speed_sd_freq(h, setting) \
- cy_as_misc_set_low_speed_sd_freq((cy_as_device_handle)(h), \
- (cy_as_low_speed_sd_freq)(setting), 0, 0)
-
-/* Async version of SetLowSpeedSDFreq */
-EXTERN cy_an_return_status_t
-cy_an_misc_set_low_speed_sd_freq_e_x(
- cy_an_device_handle handle,
- cy_an_low_speed_sd_freq setting,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_misc_set_low_speed_sd_freq_e_x\
-(h, setting, cb, client) \
- cy_as_misc_set_low_speed_sd_freq((cy_as_device_handle)(h), \
- (cy_as_low_speed_sd_freq)(setting), \
- (cy_as_function_callback)(cb), (client))
-
-/* SetHighSpeedSDFreq */
-EXTERN cy_an_return_status_t
-cy_an_misc_set_high_speed_sd_freq(
- cy_an_device_handle handle,
- cy_an_high_speed_sd_freq setting,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_misc_set_high_speed_sd_freq(h, setting, cb, client) \
- cy_as_misc_set_high_speed_sd_freq((cy_as_device_handle)(h), \
- (cy_as_high_speed_sd_freq)(setting), \
- (cy_as_function_callback)(cb), (client))
-
-/* ReserveLNABootArea */
-EXTERN cy_an_return_status_t
-cy_an_misc_reserve_l_n_a_boot_area(
- cy_an_device_handle handle,
- uint8_t numzones,
- cy_an_function_callback cb,
- uint32_t client);
-#define cy_an_misc_reserve_l_n_a_boot_area(h, num, cb, client) \
- cy_as_misc_reserve_l_n_a_boot_area((cy_as_device_handle)(h), \
- num, (cy_as_function_callback)(cb), (client))
-
-/* SetSDPowerPolarity */
-EXTERN cy_an_return_status_t
-cy_an_misc_set_sd_power_polarity(
- cy_an_device_handle handle,
- cy_an_misc_signal_polarity polarity,
- cy_an_function_callback cb,
- uint32_t client);
-#define cy_an_misc_set_sd_power_polarity(h, pol, cb, client) \
- cy_as_misc_set_sd_power_polarity((cy_as_device_handle)(h), \
- (cy_as_misc_signal_polarity)(pol), \
- (cy_as_function_callback)(cb), (client))
-
-#include "cyas_cplus_end.h"
-
-#endif
-
+++ /dev/null
-/* Cypress West Bridge API header file (cyanregs.h)
- ## Register and field definitions for the Antioch device.
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYANREG_H_
-#define _INCLUDED_CYANREG_H_
-
-#if !defined(__doxygen__)
-
-#define CY_AN_MEM_CM_WB_CFG_ID (0x80)
-#define CY_AN_MEM_CM_WB_CFG_ID_VER_MASK (0x000F)
-#define CY_AN_MEM_CM_WB_CFG_ID_HDID_MASK (0xFFF0)
-#define CY_AN_MEM_CM_WB_CFG_ID_HDID_ANTIOCH_VALUE (0xA100)
-#define CY_AN_MEM_CM_WB_CFG_ID_HDID_ASTORIA_FPGA_VALUE (0x6800)
-#define CY_AN_MEM_CM_WB_CFG_ID_HDID_ASTORIA_VALUE (0xA200)
-
-
-#define CY_AN_MEM_RST_CTRL_REG (0x81)
-#define CY_AN_MEM_RST_CTRL_REG_HARD (0x0003)
-#define CY_AN_MEM_RST_CTRL_REG_SOFT (0x0001)
-#define CY_AN_MEM_RST_RSTCMPT (0x0004)
-
-#define CY_AN_MEM_P0_ENDIAN (0x82)
-#define CY_AN_LITTLE_ENDIAN (0x0000)
-#define CY_AN_BIG_ENDIAN (0x0101)
-
-#define CY_AN_MEM_P0_VM_SET (0x83)
-#define CY_AN_MEM_P0_VM_SET_VMTYPE_MASK (0x0007)
-#define CY_AN_MEM_P0_VM_SET_VMTYPE_RAM (0x0005)
-#define CY_AN_MEM_P0_VM_SET_VMTYPE_VMWIDTH (0x0008)
-#define CY_AN_MEM_P0_VM_SET_VMTYPE_FLOWCTRL (0x0010)
-#define CY_AN_MEM_P0_VM_SET_IFMODE (0x0020)
-#define CY_AN_MEM_P0_VM_SET_CFGMODE (0x0040)
-#define CY_AN_MEM_P0_VM_SET_DACKEOB (0x0080)
-#define CY_AN_MEM_P0_VM_SET_OVERRIDE (0x0100)
-#define CY_AN_MEM_P0_VM_SET_INTOVERD (0x0200)
-#define CY_AN_MEM_P0_VM_SET_DRQOVERD (0x0400)
-#define CY_AN_MEM_P0_VM_SET_DRQPOL (0x0800)
-#define CY_AN_MEM_P0_VM_SET_DACKPOL (0x1000)
-
-
-#define CY_AN_MEM_P0_NV_SET (0x84)
-#define CY_AN_MEM_P0_NV_SET_WPSWEN (0x0001)
-#define CY_AN_MEM_P0_NV_SET_WPPOLAR (0x0002)
-
-#define CY_AN_MEM_PMU_UPDATE (0x85)
-#define CY_AN_MEM_PMU_UPDATE_UVALID (0x0001)
-#define CY_AN_MEM_PMU_UPDATE_USBUPDATE (0x0002)
-#define CY_AN_MEM_PMU_UPDATE_SDIOUPDATE (0x0004)
-
-#define CY_AN_MEM_P0_INTR_REG (0x90)
-#define CY_AN_MEM_P0_INTR_REG_MCUINT (0x0020)
-#define CY_AN_MEM_P0_INTR_REG_DRQINT (0x0800)
-#define CY_AN_MEM_P0_INTR_REG_MBINT (0x1000)
-#define CY_AN_MEM_P0_INTR_REG_PMINT (0x2000)
-#define CY_AN_MEM_P0_INTR_REG_PLLLOCKINT (0x4000)
-
-#define CY_AN_MEM_P0_INT_MASK_REG (0x91)
-#define CY_AN_MEM_P0_INT_MASK_REG_MMCUINT (0x0020)
-#define CY_AN_MEM_P0_INT_MASK_REG_MDRQINT (0x0800)
-#define CY_AN_MEM_P0_INT_MASK_REG_MMBINT (0x1000)
-#define CY_AN_MEM_P0_INT_MASK_REG_MPMINT (0x2000)
-#define CY_AN_MEM_P0_INT_MASK_REG_MPLLLOCKINT (0x4000)
-
-#define CY_AN_MEM_MCU_MB_STAT (0x92)
-#define CY_AN_MEM_P0_MCU_MBNOTRD (0x0001)
-
-#define CY_AN_MEM_P0_MCU_STAT (0x94)
-#define CY_AN_MEM_P0_MCU_STAT_CARDINS (0x0001)
-#define CY_AN_MEM_P0_MCU_STAT_CARDREM (0x0002)
-
-#define CY_AN_MEM_PWR_MAGT_STAT (0x95)
-#define CY_AN_MEM_PWR_MAGT_STAT_WAKEUP (0x0001)
-
-#define CY_AN_MEM_P0_RSE_ALLOCATE (0x98)
-#define CY_AN_MEM_P0_RSE_ALLOCATE_SDIOAVI (0x0001)
-#define CY_AN_MEM_P0_RSE_ALLOCATE_SDIOALLO (0x0002)
-#define CY_AN_MEM_P0_RSE_ALLOCATE_NANDAVI (0x0004)
-#define CY_AN_MEM_P0_RSE_ALLOCATE_NANDALLO (0x0008)
-#define CY_AN_MEM_P0_RSE_ALLOCATE_USBAVI (0x0010)
-#define CY_AN_MEM_P0_RSE_ALLOCATE_USBALLO (0x0020)
-
-#define CY_AN_MEM_P0_RSE_MASK (0x9A)
-#define CY_AN_MEM_P0_RSE_MASK_MSDIOBUS_RW (0x0003)
-#define CY_AN_MEM_P0_RSE_MASK_MNANDBUS_RW (0x00C0)
-#define CY_AN_MEM_P0_RSE_MASK_MUSBBUS_RW (0x0030)
-
-#define CY_AN_MEM_P0_DRQ (0xA0)
-#define CY_AN_MEM_P0_DRQ_EP2DRQ (0x0004)
-#define CY_AN_MEM_P0_DRQ_EP3DRQ (0x0008)
-#define CY_AN_MEM_P0_DRQ_EP4DRQ (0x0010)
-#define CY_AN_MEM_P0_DRQ_EP5DRQ (0x0020)
-#define CY_AN_MEM_P0_DRQ_EP6DRQ (0x0040)
-#define CY_AN_MEM_P0_DRQ_EP7DRQ (0x0080)
-#define CY_AN_MEM_P0_DRQ_EP8DRQ (0x0100)
-#define CY_AN_MEM_P0_DRQ_EP9DRQ (0x0200)
-#define CY_AN_MEM_P0_DRQ_EP10DRQ (0x0400)
-#define CY_AN_MEM_P0_DRQ_EP11DRQ (0x0800)
-#define CY_AN_MEM_P0_DRQ_EP12DRQ (0x1000)
-#define CY_AN_MEM_P0_DRQ_EP13DRQ (0x2000)
-#define CY_AN_MEM_P0_DRQ_EP14DRQ (0x4000)
-#define CY_AN_MEM_P0_DRQ_EP15DRQ (0x8000)
-
-#define CY_AN_MEM_P0_DRQ_MASK (0xA1)
-#define CY_AN_MEM_P0_DRQ_MASK_MEP2DRQ (0x0004)
-#define CY_AN_MEM_P0_DRQ_MASK_MEP3DRQ (0x0008)
-#define CY_AN_MEM_P0_DRQ_MASK_MEP4DRQ (0x0010)
-#define CY_AN_MEM_P0_DRQ_MASK_MEP5DRQ (0x0020)
-#define CY_AN_MEM_P0_DRQ_MASK_MEP6DRQ (0x0040)
-#define CY_AN_MEM_P0_DRQ_MASK_MEP7DRQ (0x0080)
-#define CY_AN_MEM_P0_DRQ_MASK_MEP8DRQ (0x0100)
-#define CY_AN_MEM_P0_DRQ_MASK_MEP9DRQ (0x0200)
-#define CY_AN_MEM_P0_DRQ_MASK_MEP10DRQ (0x0400)
-#define CY_AN_MEM_P0_DRQ_MASK_MEP11DRQ (0x0800)
-#define CY_AN_MEM_P0_DRQ_MASK_MEP12DRQ (0x1000)
-#define CY_AN_MEM_P0_DRQ_MASK_MEP13DRQ (0x2000)
-#define CY_AN_MEM_P0_DRQ_MASK_MEP14DRQ (0x4000)
-#define CY_AN_MEM_P0_DRQ_MASK_MEP15DRQ (0x8000)
-
-#define CY_AN_MEM_P0_EP2_DMA_REG (0xA2)
-#define CY_AN_MEM_P0_E_pn_DMA_REG_COUNT_MASK (0x7FF)
-#define CY_AN_MEM_P0_E_pn_DMA_REG_DMAVAL (1 << 12)
-#define CY_AN_MEM_P0_EP3_DMA_REG (0xA3)
-#define CY_AN_MEM_P0_EP4_DMA_REG (0xA4)
-#define CY_AN_MEM_P0_EP5_DMA_REG (0xA5)
-#define CY_AN_MEM_P0_EP6_DMA_REG (0xA6)
-#define CY_AN_MEM_P0_EP7_DMA_REG (0xA7)
-#define CY_AN_MEM_P0_EP8_DMA_REG (0xA8)
-#define CY_AN_MEM_P0_EP9_DMA_REG (0xA9)
-#define CY_AN_MEM_P0_EP10_DMA_REG (0xAA)
-#define CY_AN_MEM_P0_EP11_DMA_REG (0xAB)
-#define CY_AN_MEM_P0_EP12_DMA_REG (0xAC)
-#define CY_AN_MEM_P0_EP13_DMA_REG (0xAD)
-#define CY_AN_MEM_P0_EP14_DMA_REG (0xAE)
-#define CY_AN_MEM_P0_EP15_DMA_REG (0xAF)
-
-#define CY_AN_MEM_IROS_IO_CFG (0xC1)
-#define CY_AN_MEM_IROS_IO_CFG_GPIODRVST_MASK (0x0003)
-#define CY_AN_MEM_IROS_IO_CFG_GPIOSLEW_MASK (0x0004)
-#define CY_AN_MEM_IROS_IO_CFG_PPIODRVST_MASK (0x0018)
-#define CY_AN_MEM_IROS_IO_CFG_PPIOSLEW_MASK (0x0020)
-#define CY_AN_MEM_IROS_IO_CFG_SSIODRVST_MASK (0x0300)
-#define CY_AN_MEM_IROS_IO_CFG_SSIOSLEW_MASK (0x0400)
-#define CY_AN_MEM_IROS_IO_CFG_SNIODRVST_MASK (0x1800)
-#define CY_AN_MEM_IROS_IO_CFG_SNIOSLEW_MASK (0x2000)
-
-#define CY_AN_MEM_PLL_LOCK_LOSS_STAT (0xC4)
-#define CY_AN_MEM_PLL_LOCK_LOSS_STAT_PLLSTAT (0x0800)
-
-#define CY_AN_MEM_P0_MAILBOX0 (0xF0)
-#define CY_AN_MEM_P0_MAILBOX1 (0xF1)
-#define CY_AN_MEM_P0_MAILBOX2 (0xF2)
-#define CY_AN_MEM_P0_MAILBOX3 (0xF3)
-
-#define CY_AN_MEM_MCU_MAILBOX0 (0xF8)
-#define CY_AN_MEM_MCU_MAILBOX1 (0xF9)
-#define CY_AN_MEM_MCU_MAILBOX2 (0xFA)
-#define CY_AN_MEM_MCU_MAILBOX3 (0xFB)
-
-#endif /* !defined(__doxygen__) */
-
-#endif /* _INCLUDED_CYANREG_H_ */
+++ /dev/null
-/* Cypress Antioch Sdk Version file (cyansdkversion.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYANSDK_VERSION_H_
-#define _INCLUDED_CYANSDK_VERSION_H_
-
-/* Antioch SDK version 1.3.2 */
-#define CYAN_MAJOR_VERSION (1)
-#define CYAN_MINOR_VERSION (3)
-#define CYAN_BUILD_NUMBER (473)
-
-#endif /*_INCLUDED_CYANSDK_VERSION_H_*/
+++ /dev/null
-/* Cypress West Bridge API header file (cyanstorage.h)
- ## Header for backward compatibility with previous releases of Antioch SDK.
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYANSTORAGE_H_
-#define _INCLUDED_CYANSTORAGE_H_
-#ifndef __doxygen__
-
-#include "cyanmedia.h"
-#include "cyanmisc.h"
-#include "cyasstorage.h"
-#include "cyas_cplus_start.h"
-
-#define CY_AN_LUN_PHYSICAL_DEVICE (CY_AS_LUN_PHYSICAL_DEVICE)
-#define CY_AN_STORAGE_EP_SIZE (CY_AS_STORAGE_EP_SIZE)
-
-#define cy_an_storage_antioch cy_as_storage_antioch
-#define cy_an_storage_processor cy_as_storage_processor
-#define cy_an_storage_removed cy_as_storage_removed
-#define cy_an_storage_inserted cy_as_storage_inserted
-#define cy_an_sdio_interrupt cy_as_sdio_interrupt
-typedef cy_as_storage_event cy_an_storage_event;
-
-#define cy_an_op_read cy_as_op_read
-#define cy_an_op_write cy_as_op_write
-typedef cy_as_oper_type cy_an_oper_type;
-
-typedef cy_as_device_desc cy_an_device_desc;
-
-typedef cy_as_unit_desc cy_an_unit_desc;
-
-typedef cy_as_storage_callback_dep \
- cy_an_storage_callback;
-
-typedef cy_as_storage_event_callback_dep \
- cy_an_storage_event_callback;
-
-#define cy_an_sd_reg_OCR cy_as_sd_reg_OCR
-#define cy_an_sd_reg_CID cy_as_sd_reg_CID
-#define cy_an_sd_reg_CSD cy_as_sd_reg_CSD
-typedef cy_as_sd_card_reg_type \
- cy_an_sd_card_reg_type;
-
-typedef cy_as_storage_query_device_data_dep \
- cy_an_storage_query_device_data;
-
-typedef cy_as_storage_query_unit_data_dep \
- cy_an_storage_query_unit_data;
-
-typedef cy_as_storage_sd_reg_read_data \
- cy_an_storage_sd_reg_read_data;
-
-#define CY_AN_SD_REG_OCR_LENGTH (CY_AS_SD_REG_OCR_LENGTH)
-#define CY_AN_SD_REG_CID_LENGTH (CY_AS_SD_REG_CID_LENGTH)
-#define CY_AN_SD_REG_CSD_LENGTH (CY_AS_SD_REG_CSD_LENGTH)
-#define CY_AN_SD_REG_MAX_RESP_LENGTH \
- (CY_AS_SD_REG_MAX_RESP_LENGTH)
-
-/**** API Functions ******/
-
-/* Sync version of Storage Start */
-EXTERN cy_an_return_status_t
-cy_an_storage_start(
- cy_an_device_handle handle
- );
-#define cy_an_storage_start(handle) \
- cy_as_storage_start((cy_as_device_handle)(handle), 0, 0)
-
-/* Async version of Storage Start */
-EXTERN cy_an_return_status_t
-cy_an_storage_start_e_x(
- cy_an_device_handle handle,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_storage_start_e_x(h, cb, client) \
- cy_as_storage_start((cy_as_device_handle)(h), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync version of Storage Stop */
-EXTERN cy_an_return_status_t
-cy_an_storage_stop(
- cy_an_device_handle handle
- );
-#define cy_an_storage_stop(handle) \
- cy_as_storage_stop((cy_as_device_handle)(handle), 0, 0)
-
-/* Async version of Storage Stop */
-EXTERN cy_an_return_status_t
-cy_an_storage_stop_e_x(
- cy_an_device_handle handle,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_storage_stop_e_x(h, cb, client) \
- cy_as_storage_stop((cy_as_device_handle)(h), \
- (cy_as_function_callback)(cb), (client))
-
-/* Register Call back api */
-EXTERN cy_an_return_status_t
-cy_an_storage_register_callback(
- cy_an_device_handle handle,
- cy_an_storage_event_callback callback
- );
-#define cy_an_storage_register_callback(h, cb) \
- cy_as_storage_register_callback_dep((cy_as_device_handle)(h), \
- (cy_as_storage_event_callback_dep)(cb))
-
-/* Sync version of Storage Claim */
-EXTERN cy_an_return_status_t
-cy_an_storage_claim(
- cy_an_device_handle handle,
- cy_an_media_type type
- );
-#define cy_an_storage_claim(h, type) \
- cy_as_storage_claim_dep((cy_as_device_handle)(h), \
- (cy_as_media_type)(type))
-
-/* Async version of Storage Claim */
-EXTERN cy_an_return_status_t
-cy_an_storage_claim_e_x(
- cy_an_device_handle handle,
- cy_an_media_type *type,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_storage_claim_e_x(h, type_p, cb, client) \
- cy_as_storage_claim_dep_EX((cy_as_device_handle)(h), \
- (cy_as_media_type *)(type_p), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync Version of Storage Release */
-EXTERN cy_an_return_status_t
-cy_an_storage_release(
- cy_an_device_handle handle,
- cy_an_media_type type
- );
-#define cy_an_storage_release(h, type) \
- cy_as_storage_release_dep((cy_as_device_handle)(h), \
- (cy_as_media_type)(type))
-
-/* Async Version of Storage Release */
-EXTERN cy_an_return_status_t
-cy_an_storage_release_e_x(
- cy_an_device_handle handle,
- cy_an_media_type *type,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_storage_release_e_x(h, type_p, cb, client) \
- cy_as_storage_release_dep_EX((cy_as_device_handle)(h), \
- (cy_as_media_type *)(type_p), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync version of Query Media */
-EXTERN cy_an_return_status_t
-cy_an_storage_query_media(
- cy_an_device_handle handle,
- cy_an_media_type type,
- uint32_t *count
- );
-#define cy_an_storage_query_media(handle, type, count) \
- cy_as_storage_query_media((cy_as_device_handle)(handle), \
- (cy_as_media_type)(type), (count), 0, 0)
-
-/* Async version of Query Media */
-EXTERN cy_an_return_status_t
-cy_an_storage_query_media_e_x(
- cy_an_device_handle handle,
- cy_an_media_type type,
- uint32_t *count,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_storage_query_media_e_x(h, type, count, cb, client) \
- cy_as_storage_query_media((cy_as_device_handle)(h), \
- (cy_as_media_type)(type), (count), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync version of Query device */
-EXTERN cy_an_return_status_t
-cy_an_storage_query_device(
- cy_an_device_handle handle,
- cy_an_media_type type,
- uint32_t device,
- cy_an_device_desc *desc_p
- );
-#define cy_an_storage_query_device(h, type, device, desc_p) \
- cy_as_storage_query_device_dep((cy_as_device_handle)(h), \
- (cy_as_media_type)(type), (device), (cy_as_device_desc *)(desc_p))
-
-/* Async version of Query device */
-EXTERN cy_an_return_status_t
-cy_an_storage_query_device_e_x(
- cy_an_device_handle handle,
- cy_an_storage_query_device_data *data,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_storage_query_device_e_x(h, data, cb, client) \
- cy_as_storage_query_device_dep_EX((cy_as_device_handle)(h), \
- (cy_as_storage_query_device_data_dep *)(data), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync version of Query Unit */
-EXTERN cy_an_return_status_t
-cy_an_storage_query_unit(
- cy_an_device_handle handle,
- cy_an_media_type type,
- uint32_t device,
- uint32_t unit,
- cy_an_unit_desc *desc_p
- );
-#define cy_an_storage_query_unit(h, type, device, unit, desc_p) \
- cy_as_storage_query_unit_dep((cy_as_device_handle)(h), \
- (cy_as_media_type)(type), (device), \
- (unit), (cy_as_unit_desc *)(desc_p))
-
-/* Async version of Query Unit */
-EXTERN cy_an_return_status_t
-cy_an_storage_query_unit_e_x(
- cy_an_device_handle handle,
- cy_an_storage_query_unit_data *data_p,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_storage_query_unit_e_x(h, data_p, cb, client) \
- cy_as_storage_query_unit_dep_EX((cy_as_device_handle)(h), \
- (cy_as_storage_query_unit_data_dep *)(data_p), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync version of device control */
-EXTERN cy_an_return_status_t
-cy_an_storage_device_control(
- cy_an_device_handle handle,
- cy_bool card_detect_en,
- cy_bool write_prot_en
- );
-#define cy_an_storage_device_control(handle, \
- card_detect_en, write_prot_en) \
- cy_as_storage_device_control_dep((cy_as_device_handle)(handle), \
- (card_detect_en), (write_prot_en), 0, 0)
-
-/* Async version of device control */
-EXTERN cy_an_return_status_t
-cy_an_storage_device_control_e_x(
- cy_an_device_handle handle,
- cy_bool card_detect_en,
- cy_bool write_prot_en,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_storage_device_control_e_x(h, det_en, prot_en, cb, client) \
- cy_as_storage_device_control_dep((cy_as_device_handle)(h), (det_en), \
- (prot_en), (cy_as_function_callback)(cb), (client))
-
-/* Sync Read */
-EXTERN cy_an_return_status_t
-cy_an_storage_read(
- cy_an_device_handle handle,
- cy_an_media_type type,
- uint32_t device,
- uint32_t unit,
- uint32_t block,
- void *data_p,
- uint16_t num_blocks
- );
-#define cy_an_storage_read(h, type, device, unit, block, data_p, nblks) \
- cy_as_storage_read_dep((cy_as_device_handle)(h), \
- (cy_as_media_type)(type), (device), (unit), \
- (block), (data_p), (nblks))
-
-/* Async Read */
-EXTERN cy_an_return_status_t
-cy_an_storage_read_async(
- cy_an_device_handle handle,
- cy_an_media_type type,
- uint32_t device,
- uint32_t unit,
- uint32_t block,
- void *data_p,
- uint16_t num_blocks,
- cy_an_storage_callback callback
- );
-#define cy_an_storage_read_async(h, type, device, unit, \
- block, data_p, nblks, cb) \
- cy_as_storage_read_async_dep((cy_as_device_handle)(h), \
- (cy_as_media_type)(type), (device), (unit), (block), \
- (data_p), (nblks), (cy_as_storage_callback_dep)(cb))
-
-/* Sync Write */
-EXTERN cy_an_return_status_t
-cy_an_storage_write(
- cy_an_device_handle handle,
- cy_an_media_type type,
- uint32_t device,
- uint32_t unit,
- uint32_t block,
- void *data_p,
- uint16_t num_blocks
- );
-#define cy_an_storage_write(h, type, device, unit, \
- block, data_p, nblks) \
- cy_as_storage_write_dep((cy_as_device_handle)(h), \
- (cy_as_media_type)(type), (device), (unit), \
- (block), (data_p), (nblks))
-
-/* Async Write */
-EXTERN cy_an_return_status_t
-cy_an_storage_write_async(
- cy_an_device_handle handle,
- cy_an_media_type type,
- uint32_t device,
- uint32_t unit,
- uint32_t block,
- void *data_p,
- uint16_t num_blocks,
- cy_an_storage_callback callback
- );
-#define cy_an_storage_write_async(h, type, device, unit, \
- block, data_p, nblks, cb) \
- cy_as_storage_write_async_dep((cy_as_device_handle)(h), \
- (cy_as_media_type)(type), (device), (unit), (block), \
- (data_p), (nblks), (cy_as_storage_callback_dep)(cb))
-
-/* Cancel Async */
-EXTERN cy_an_return_status_t
-cy_an_storage_cancel_async(
- cy_an_device_handle handle
- );
-#define cy_an_storage_cancel_async(h) \
- cy_as_storage_cancel_async((cy_as_device_handle)(h))
-
-/* Sync SD Register Read*/
-EXTERN cy_an_return_status_t
-cy_an_storage_sd_register_read(
- cy_an_device_handle handle,
- cy_an_media_type type,
- uint8_t device,
- cy_an_sd_card_reg_type reg_type,
- uint8_t read_len,
- uint8_t *data_p
- );
-#define cy_an_storage_sd_register_read(h, type, device, \
- reg_type, len, data_p) \
- cy_as_storage_sd_register_read_dep((cy_as_device_handle)(h), \
- (cy_as_media_type)(type), (device), \
- (cy_as_sd_card_reg_type)(reg_type), (len), (data_p))
-
-/*Async SD Register Read*/
-EXTERN cy_an_return_status_t
-cy_an_storage_sd_register_read_e_x(
- cy_an_device_handle handle,
- cy_an_media_type type,
- uint8_t device,
- cy_an_sd_card_reg_type reg_type,
- cy_an_storage_sd_reg_read_data *data_p,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_storage_sd_register_read_e_x(h, type, device, \
- reg_type, data_p, cb, client) \
- cy_as_storage_sd_register_read_dep_EX((cy_as_device_handle)(h), \
- (cy_as_media_type)(type), (device), \
- (cy_as_sd_card_reg_type)(reg_type), \
- (cy_as_storage_sd_reg_read_data *)(data_p), \
- (cy_as_function_callback)(cb), (client))
-
-/* Create partition on storage device */
-EXTERN cy_an_return_status_t
-cy_an_storage_create_p_partition(
- cy_an_device_handle handle,
- cy_an_media_type media,
- uint32_t device,
- uint32_t size,
- cy_an_function_callback cb,
- uint32_t client);
-#define cy_an_storage_create_p_partition(h, media, dev, \
- size, cb, client) \
- cy_as_storage_create_p_partition_dep((cy_as_device_handle)(h), \
- (cy_as_media_type)(media), (dev), \
- (size), (cy_as_function_callback)(cb), (client))
-
-/* Remove partition on storage device */
-EXTERN cy_an_return_status_t
-cy_an_storage_remove_p_partition(
- cy_an_device_handle handle,
- cy_an_media_type media,
- uint32_t device,
- cy_an_function_callback cb,
- uint32_t client);
-#define cy_an_storage_remove_p_partition\
-(h, media, dev, cb, client) \
- cy_as_storage_remove_p_partition_dep((cy_as_device_handle)(h), \
- (cy_as_media_type)(media), (dev), \
- (cy_as_function_callback)(cb), (client))
-
-#include "cyas_cplus_end.h"
-#endif /*__doxygen__ */
-
-#endif
+++ /dev/null
-/* Cypress West Bridge API header file (cyastioch.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYANTIOCH_H_
-#define _INCLUDED_CYANTIOCH_H_
-
-#if !defined(__doxygen__)
-
-#include "cyanerr.h"
-#include "cyanmisc.h"
-#include "cyanstorage.h"
-#include "cyanusb.h"
-#include "cyanch9.h"
-
-#endif
-
-#endif
+++ /dev/null
-/* Cypress West Bridge API header file (cyantypes.h)
-## Type definitions for backward compatibility with previous
-## Antioch SDK releases.
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYANTYPES_H_
-#define _INCLUDED_CYANTYPES_H_
-
-#include "cyastypes.h"
-typedef cy_as_end_point_number_t cy_an_end_point_number_t;
-typedef cy_as_return_status_t cy_an_return_status_t;
-typedef cy_as_bus_number_t cy_an_bus_number_t;
-#endif
+++ /dev/null
-/* Cypress West Bridge API header file (cyanusb.h)
- ## Header for backward compatibility with previous Antioch SDK releases.
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYANUSB_H_
-#define _INCLUDED_CYANUSB_H_
-
-#if !defined(__doxygen__)
-
-#include "cyanmisc.h"
-#include "cyasusb.h"
-#include "cyas_cplus_start.h"
-
-#define CY_AN_MAX_USB_DESCRIPTOR_SIZE (CY_AS_MAX_USB_DESCRIPTOR_SIZE)
-
-typedef cy_as_usb_inquiry_data_dep cy_an_usb_inquiry_data;
-typedef cy_as_usb_unknown_command_data_dep \
- cy_an_usb_unknown_command_data;
-typedef cy_as_usb_start_stop_data_dep cy_an_usb_start_stop_data;
-typedef cy_as_m_s_c_progress_data cy_an_m_s_c_progress_data;
-
-#define cy_an_usb_nand_enum cy_as_usb_nand_enum
-#define cy_an_usb_sd_enum cy_as_usb_sd_enum
-#define cy_an_usb_mmc_enum cy_as_usb_mmc_enum
-#define cy_an_usb_ce_ata_enum cy_as_usb_ce_ata_enum
-typedef cy_as_usb_mass_storage_enum cy_an_usb_mass_storage_enum;
-
-#define cy_an_usb_desc_device cy_as_usb_desc_device
-#define cy_an_usb_desc_device_qual cy_as_usb_desc_device_qual
-#define cy_an_usb_desc_f_s_configuration \
- cy_as_usb_desc_f_s_configuration
-#define cy_an_usb_desc_h_s_configuration \
- cy_as_usb_desc_h_s_configuration
-#define cy_an_usb_desc_string cy_as_usb_desc_string
-typedef cy_as_usb_desc_type cy_an_usb_desc_type;
-
-#define cy_an_usb_in cy_as_usb_in
-#define cy_an_usb_out cy_as_usb_out
-#define cy_an_usb_in_out cy_as_usb_in_out
-typedef cy_as_usb_end_point_dir cy_an_usb_end_point_dir;
-
-
-#define cy_an_usb_control cy_as_usb_control
-#define cy_an_usb_iso cy_as_usb_iso
-#define cy_an_usb_bulk cy_as_usb_bulk
-#define cy_an_usb_int cy_as_usb_int
-typedef cy_as_usb_end_point_type cy_an_usb_end_point_type;
-
-
-typedef cy_as_usb_enum_control_dep cy_an_usb_enum_control;
-typedef cy_as_usb_end_point_config cy_an_usb_end_point_config;
-
-#define cy_an_usb_m_s_unit0 cy_as_usb_m_s_unit0
-#define cy_an_usb_m_s_unit1 cy_as_usb_m_s_unit1
-#define cy_an_usb_m_s_both cy_as_usb_m_s_both
-typedef cy_as_usb_m_s_type_t cy_an_usb_m_s_type_t;
-
-#define cy_an_event_usb_suspend cy_as_event_usb_suspend
-#define cy_an_event_usb_resume cy_as_event_usb_resume
-#define cy_an_event_usb_reset cy_as_event_usb_reset
-#define cy_an_event_usb_set_config cy_as_event_usb_set_config
-#define cy_an_event_usb_speed_change cy_as_event_usb_speed_change
-#define cy_an_event_usb_setup_packet cy_as_event_usb_setup_packet
-#define cy_an_event_usb_status_packet cy_as_event_usb_status_packet
-#define cy_an_event_usb_inquiry_before cy_as_event_usb_inquiry_before
-#define cy_an_event_usb_inquiry_after cy_as_event_usb_inquiry_after
-#define cy_an_event_usb_start_stop cy_as_event_usb_start_stop
-#define cy_an_event_usb_unknown_storage cy_as_event_usb_unknown_storage
-#define cy_an_event_usb_m_s_c_progress cy_as_event_usb_m_s_c_progress
-typedef cy_as_usb_event cy_an_usb_event;
-
-typedef cy_as_usb_event_callback_dep cy_an_usb_event_callback;
-
-typedef cy_as_usb_io_callback cy_an_usb_io_callback;
-typedef cy_as_usb_function_callback cy_an_usb_function_callback;
-
-/******* USB Functions ********************/
-
-/* Sync Usb Start */
-extern cy_an_return_status_t
-cy_an_usb_start(
- cy_an_device_handle handle
- );
-#define cy_an_usb_start(handle) \
- cy_as_usb_start((cy_as_device_handle)(handle), 0, 0)
-
-/*Async Usb Start */
-extern cy_an_return_status_t
-cy_an_usb_start_e_x(
- cy_an_device_handle handle,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_start_e_x(h, cb, client) \
- cy_as_usb_start((cy_as_device_handle)(h), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync Usb Stop */
-extern cy_an_return_status_t
-cy_an_usb_stop(
- cy_an_device_handle handle
- );
-#define cy_an_usb_stop(handle) \
- cy_as_usb_stop((cy_as_device_handle)(handle), 0, 0)
-
-/*Async Usb Stop */
-extern cy_an_return_status_t
-cy_an_usb_stop_e_x(
- cy_an_device_handle handle,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_stop_e_x(h, cb, client) \
- cy_as_usb_stop((cy_as_device_handle)(h), \
- (cy_as_function_callback)(cb), (client))
-
-/* Register USB event callback */
-EXTERN cy_an_return_status_t
-cy_an_usb_register_callback(
- cy_an_device_handle handle,
- cy_an_usb_event_callback callback
- );
-#define cy_an_usb_register_callback(h, cb) \
- cy_as_usb_register_callback_dep((cy_as_device_handle)(h), \
- (cy_as_usb_event_callback_dep)(cb))
-
-/*Sync Usb connect */
-EXTERN cy_an_return_status_t
-cy_an_usb_connect(
- cy_an_device_handle handle
- );
-#define cy_an_usb_connect(handle) \
- cy_as_usb_connect((cy_as_device_handle)(handle), 0, 0)
-
-/*Async Usb connect */
-extern cy_an_return_status_t
-cy_an_usb_connect_e_x(
- cy_an_device_handle handle,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_connect_e_x(h, cb, client) \
- cy_as_usb_connect((cy_as_device_handle)(h), \
- (cy_as_function_callback)(cb), (client))
-
-/*Sync Usb disconnect */
-EXTERN cy_an_return_status_t
-cy_an_usb_disconnect(
- cy_an_device_handle handle
- );
-#define cy_an_usb_disconnect(handle) \
- cy_as_usb_disconnect((cy_as_device_handle)(handle), 0, 0)
-
-/*Async Usb disconnect */
-extern cy_an_return_status_t
-cy_an_usb_disconnect_e_x(
- cy_an_device_handle handle,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_disconnect_e_x(h, cb, client) \
- cy_as_usb_disconnect((cy_as_device_handle)(h), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync version of set enum config */
-EXTERN cy_an_return_status_t
-cy_an_usb_set_enum_config(
- cy_an_device_handle handle,
- cy_an_usb_enum_control *config_p
- );
-#define cy_an_usb_set_enum_config(handle, config_p) \
- cy_as_usb_set_enum_config_dep((cy_as_device_handle)(handle), \
- (cy_as_usb_enum_control_dep *)(config_p), 0, 0)
-
-/* Async version of set enum config */
-extern cy_an_return_status_t
-cy_an_usb_set_enum_config_e_x(
- cy_an_device_handle handle,
- cy_an_usb_enum_control *config_p,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_set_enum_config_e_x(h, config_p, cb, client) \
- cy_as_usb_set_enum_config_dep((cy_as_device_handle)(h), \
- (cy_as_usb_enum_control_dep *)(config_p), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync version of get enum config */
-EXTERN cy_an_return_status_t
-cy_an_usb_get_enum_config(
- cy_an_device_handle handle,
- cy_an_usb_enum_control *config_p
- );
-#define cy_an_usb_get_enum_config(handle, config_p) \
- cy_as_usb_get_enum_config_dep((cy_as_device_handle)(handle), \
- (cy_as_usb_enum_control_dep *)(config_p), 0, 0)
-
-/* Async version of get enum config */
-extern cy_an_return_status_t
-cy_an_usb_get_enum_config_e_x(
- cy_an_device_handle handle,
- cy_an_usb_enum_control *config_p,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_get_enum_config_e_x(h, config_p, cb, client) \
- cy_as_usb_get_enum_config_dep((cy_as_device_handle)(h), \
- (cy_as_usb_enum_control_dep *)(config_p), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync Version of Set descriptor */
-EXTERN cy_an_return_status_t
-cy_an_usb_set_descriptor(
- cy_an_device_handle handle,
- cy_an_usb_desc_type type,
- uint8_t index,
- void *desc_p,
- uint16_t length
- );
-#define cy_an_usb_set_descriptor(handle, type, index, desc_p, length) \
- cy_as_usb_set_descriptor((cy_as_device_handle)(handle), \
- (cy_as_usb_desc_type)(type), (index), (desc_p), (length), 0, 0)
-
-/* Async Version of Set descriptor */
-extern cy_an_return_status_t
-cy_an_usb_set_descriptor_e_x(
- cy_an_device_handle handle,
- cy_an_usb_desc_type type,
- uint8_t index,
- void *desc_p,
- uint16_t length,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_set_descriptor_e_x\
- (h, type, index, desc_p, length, cb, client) \
- cy_as_usb_set_descriptor((cy_as_device_handle)(h), \
- (cy_as_usb_desc_type)(type), (index), (desc_p), (length), \
- (cy_as_function_callback)(cb), (client))
-
-/* Only version of clear descriptors */
-EXTERN cy_an_return_status_t
-cy_an_usb_clear_descriptors(
- cy_an_device_handle handle,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_clear_descriptors(h, cb, client) \
- cy_as_usb_clear_descriptors((cy_as_device_handle)(h), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync version of get descriptor*/
-EXTERN cy_an_return_status_t
-cy_an_usb_get_descriptor(
- cy_an_device_handle handle,
- cy_an_usb_desc_type type,
- uint8_t index,
- void *desc_p,
- uint32_t *length_p
- );
-#define cy_an_usb_get_descriptor(h, type, index, desc_p, length_p) \
- cy_as_usb_get_descriptor_dep((cy_as_device_handle)(h), \
- (cy_as_usb_desc_type)(type), (index), (desc_p), (length_p))
-
-typedef cy_as_get_descriptor_data cy_an_get_descriptor_data;
-
-/* Async version of get descriptor */
-extern cy_an_return_status_t
-cy_an_usb_get_descriptor_e_x(
- cy_an_device_handle handle,
- cy_an_usb_desc_type type,
- uint8_t index,
- cy_an_get_descriptor_data *data,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_get_descriptor_e_x\
- (h, type, index, data, cb, client) \
- cy_as_usb_get_descriptor((cy_as_device_handle)(h), \
- (cy_as_usb_desc_type)(type), (index), \
- (cy_as_get_descriptor_data *)(data), \
- (cy_as_function_callback)(cb), (client))
-
-EXTERN cy_an_return_status_t
-cy_an_usb_set_physical_configuration(
- cy_an_device_handle handle,
- uint8_t config
- );
-#define cy_an_usb_set_physical_configuration(h, config) \
- cy_as_usb_set_physical_configuration\
- ((cy_as_device_handle)(h), (config))
-
-EXTERN cy_an_return_status_t
-cy_an_usb_set_end_point_config(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_an_usb_end_point_config *config_p
- );
-#define cy_an_usb_set_end_point_config(h, ep, config_p) \
- cy_as_usb_set_end_point_config((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), \
- (cy_as_usb_end_point_config *)(config_p))
-
-EXTERN cy_an_return_status_t
-cy_an_usb_get_end_point_config(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_an_usb_end_point_config *config_p
- );
-#define cy_an_usb_get_end_point_config(h, ep, config_p) \
- cy_as_usb_get_end_point_config((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), \
- (cy_as_usb_end_point_config *)(config_p))
-
-/* Sync version of commit */
-EXTERN cy_an_return_status_t
-cy_an_usb_commit_config(
- cy_an_device_handle handle
- );
-#define cy_an_usb_commit_config(handle) \
- cy_as_usb_commit_config((cy_as_device_handle)(handle), 0, 0)
-
-/* Async version of commit */
-extern cy_an_return_status_t
-cy_an_usb_commit_config_e_x(
- cy_an_device_handle handle,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_commit_config_e_x(h, cb, client) \
- cy_as_usb_commit_config((cy_as_device_handle)(h), \
- (cy_as_function_callback)(cb), (client))
-
-EXTERN cy_an_return_status_t
-cy_an_usb_read_data(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_bool pktread,
- uint32_t dsize,
- uint32_t *dataread,
- void *data
- );
-#define cy_an_usb_read_data(h, ep, pkt, dsize, dataread, data_p) \
- cy_as_usb_read_data((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), (pkt), (dsize), \
- (dataread), (data_p))
-
-EXTERN cy_an_return_status_t
-cy_an_usb_read_data_async(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_bool pktread,
- uint32_t dsize,
- void *data,
- cy_an_usb_io_callback callback
- );
-#define cy_an_usb_read_data_async(h, ep, pkt, dsize, data_p, cb) \
- cy_as_usb_read_data_async((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), (pkt), (dsize), (data_p), \
- (cy_as_usb_io_callback)(cb))
-
-EXTERN cy_an_return_status_t
-cy_an_usb_write_data(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- uint32_t dsize,
- void *data
- );
-#define cy_an_usb_write_data(h, ep, dsize, data_p) \
- cy_as_usb_write_data((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), (dsize), (data_p))
-
-EXTERN cy_an_return_status_t
-cy_an_usb_write_data_async(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- uint32_t dsize,
- void *data,
- cy_bool spacket,
- cy_an_usb_io_callback callback
- );
-#define cy_an_usb_write_data_async(h, ep, dsize, data_p, spacket, cb) \
- cy_as_usb_write_data_async((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), (dsize), (data_p), (spacket), \
- (cy_as_usb_io_callback)(cb))
-
-EXTERN cy_an_return_status_t
-cy_an_usb_cancel_async(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep
- );
-#define cy_an_usb_cancel_async(h, ep) \
- cy_as_usb_cancel_async((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep))
-
-/* Sync version of set stall */
-EXTERN cy_an_return_status_t
-cy_an_usb_set_stall(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_an_usb_function_callback cb,
- uint32_t client
-);
-#define cy_an_usb_set_stall(h, ep, cb, client) \
- cy_as_usb_set_stall_dep((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), \
- (cy_as_usb_function_callback)(cb), (client))
-
-/* Async version of set stall */
-extern cy_an_return_status_t
-cy_an_usb_set_stall_e_x(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_an_function_callback cb,
- uint32_t client
-);
-#define cy_an_usb_set_stall_e_x(h, ep, cb, client) \
- cy_as_usb_set_stall((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), \
- (cy_as_function_callback)(cb), (client))
-
-/*Sync version of clear stall */
-EXTERN cy_an_return_status_t
-cy_an_usb_clear_stall(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_an_usb_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_clear_stall(h, ep, cb, client) \
- cy_as_usb_clear_stall_dep((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), \
- (cy_as_usb_function_callback)(cb), (client))
-
-/*Sync version of clear stall */
-extern cy_an_return_status_t
-cy_an_usb_clear_stall_e_x(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_clear_stall_e_x(h, ep, cb, client) \
- cy_as_usb_clear_stall((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync get stall */
-EXTERN cy_an_return_status_t
-cy_an_usb_get_stall(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_bool *stall_p
- );
-#define cy_an_usb_get_stall(handle, ep, stall_p) \
- cy_as_usb_get_stall((cy_as_device_handle)(handle), \
- (cy_as_end_point_number_t)(ep), (stall_p), 0, 0)
-
-/* Async get stall */
-extern cy_an_return_status_t
-cy_an_usb_get_stall_e_x(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_bool *stall_p,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_get_stall_e_x(h, ep, stall_p, cb, client) \
- cy_as_usb_get_stall((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), (stall_p), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync version of Set Nak */
-EXTERN cy_an_return_status_t
-cy_an_usb_set_nak(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_an_usb_function_callback cb,
- uint32_t client
-);
-
-#define cy_an_usb_set_nak(h, ep, cb, client) \
- cy_as_usb_set_nak_dep((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), \
- (cy_as_usb_function_callback)(cb), (client))
-
-/* Async version of Set Nak */
-extern cy_an_return_status_t
-cy_an_usb_set_nak_e_x(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_an_function_callback cb,
- uint32_t client
-);
-#define cy_an_usb_set_nak_e_x(h, ep, cb, client) \
- cy_as_usb_set_nak((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync version of clear nak */
-EXTERN cy_an_return_status_t
-cy_an_usb_clear_nak(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_an_usb_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_clear_nak(h, ep, cb, client) \
- cy_as_usb_clear_nak_dep((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), \
- (cy_as_usb_function_callback)(cb), (client))
-
-/* Sync version of clear nak */
-extern cy_an_return_status_t
-cy_an_usb_clear_nak_e_x(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_clear_nak_e_x(h, ep, cb, client) \
- cy_as_usb_clear_nak((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync Get NAK */
-EXTERN cy_an_return_status_t
-cy_an_usb_get_nak(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_bool *nak_p
-);
-#define cy_an_usb_get_nak(handle, ep, nak_p) \
- cy_as_usb_get_nak((cy_as_device_handle)(handle), \
- (cy_as_end_point_number_t)(ep), (nak_p), 0, 0)
-
-/* Async Get NAK */
-EXTERN cy_an_return_status_t
-cy_an_usb_get_nak_e_x(
- cy_an_device_handle handle,
- cy_an_end_point_number_t ep,
- cy_bool *nak_p,
- cy_an_function_callback cb,
- uint32_t client
-);
-#define cy_an_usb_get_nak_e_x(h, ep, nak_p, cb, client) \
- cy_as_usb_get_nak((cy_as_device_handle)(h), \
- (cy_as_end_point_number_t)(ep), (nak_p), \
- (cy_as_function_callback)(cb), (client))
-
-/* Sync remote wakup */
-EXTERN cy_an_return_status_t
-cy_an_usb_signal_remote_wakeup(
- cy_an_device_handle handle
- );
-#define cy_an_usb_signal_remote_wakeup(handle) \
- cy_as_usb_signal_remote_wakeup((cy_as_device_handle)(handle), 0, 0)
-
-/* Async remote wakup */
-EXTERN cy_an_return_status_t
-cy_an_usb_signal_remote_wakeup_e_x(
- cy_an_device_handle handle,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_signal_remote_wakeup_e_x(h, cb, client) \
- cy_as_usb_signal_remote_wakeup((cy_as_device_handle)(h), \
- (cy_as_function_callback)(cb), (client))
-
-/* Only version of SetMSReportThreshold */
-EXTERN cy_an_return_status_t
-cy_an_usb_set_m_s_report_threshold(
- cy_an_device_handle handle,
- uint32_t wr_sectors,
- uint32_t rd_sectors,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_set_m_s_report_threshold\
- (h, wr_cnt, rd_cnt, cb, client) \
- cy_as_usb_set_m_s_report_threshold((cy_as_device_handle)(h), \
- wr_cnt, rd_cnt, (cy_as_function_callback)(cb), (client))
-
-/* Select storage partitions to be enumerated. */
-EXTERN cy_an_return_status_t
-cy_an_usb_select_m_s_partitions(
- cy_an_device_handle handle,
- cy_an_media_type media,
- uint32_t device,
- cy_an_usb_m_s_type_t type,
- cy_an_function_callback cb,
- uint32_t client
- );
-#define cy_an_usb_select_m_s_partitions(h, media, dev, type, cb, client) \
- cy_as_usb_select_m_s_partitions_dep((cy_as_device_handle)(h), \
- (cy_as_media_type)(media), (dev), \
- (cy_as_usb_m_s_type_t)(type), (cy_as_function_callback)(cb), (client))
-
-#include "cyas_cplus_end.h"
-#endif /*__doxygen__*/
-#endif /*_INCLUDED_CYANUSB_H_*/
+++ /dev/null
-/*
- * This file is included at the end of other include files.
- * It basically turns off the C++ specific code words that
- * insure this code is seen as C code even within
- * a C++ compiler.
- *
- */
-
-#ifdef __cplusplus
-}
-#endif
+++ /dev/null
-/*
- * This file is included after all other headers files, but before any other
- * definitions in the file. It basically insures that the definitions within
- * the file are seen as C defintions even when compiled by a C++ compiler.
- */
-
-#ifdef __cplusplus
-
-extern "C" {
-
-#endif
+++ /dev/null
-/* Cypress West Bridge API header file (cyascast.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASCAST_H_
-#define _INCLUDED_CYASCAST_H_
-
-#ifndef __doxygen__
-
-#ifdef _DEBUG
-#define cy_cast_int2U_int16(v) \
- (cy_as_hal_assert(v < 65536), (uint16_t)(v))
-#else /* _DEBUG */
-#define cy_cast_int2U_int16(v) ((uint16_t)(v))
-#endif /* _DEBUG */
-
-#endif /* __doxygen__ */
-#endif /* _INCLUDED_CYASCAST_H_ */
+++ /dev/null
-/* Cypress West Bridge API header file (cyasdevice.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-##Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef __INCLUDED_CYASDEVICE_H__
-#define __INCLUDED_CYASDEVICE_H__
-
-#include "cyashal.h"
-#include "cyasprotocol.h"
-#include "cyasusb.h"
-#include "cyasstorage.h"
-#include "cyasmtp.h"
-#include "cyas_cplus_start.h"
-
-/***********************************
- * West Bridge Constants
- ***********************************/
-
-/* The endpoints used by West Bridge for the P port to S port path */
-#define CY_AS_P2S_WRITE_ENDPOINT (0x04)
-#define CY_AS_P2S_READ_ENDPOINT (0x08)
-
-/* The endpoint to use for firmware download */
-#define CY_AS_FIRMWARE_ENDPOINT (0x02)
-
-/* The maximum size of the firmware image West Bridge can accept */
-#define CY_AS_MAXIMUM_FIRMWARE_SIZE (24 * 1024)
-
-/* The maximum size of a write for EP0 and EP1 */
-#define CY_AS_EP0_MAX_WRITE_SIZE (128)
-#define CY_AS_EP1_MAX_WRITE_SIZE (64)
-
-/* The bitfields for the device state value */
-
-/* The device is in StandBy mode */
-#define CY_AS_DEVICE_STATE_PIN_STANDBY (0x00000001)
-/* The device has been configured */
-#define CY_AS_DEVICE_STATE_CONFIGURED (0x00000002)
-/* The firmware has been loaded into the device */
-#define CY_AS_DEVICE_STATE_FIRMWARE_LOADED (0x00000004)
-/* The interrupt module has been initialized */
-#define CY_AS_DEVICE_STATE_LOWLEVEL_MODULE (0x00000008)
-/* The DMA module has been initialized */
-#define CY_AS_DEVICE_STATE_DMA_MODULE (0x00000010)
-/* The interrupt module has been initialized */
-#define CY_AS_DEVICE_STATE_INTR_MODULE (0x00000020)
-/* The storage module has been initialized */
-#define CY_AS_DEVICE_STATE_STORAGE_MODULE (0x00000040)
-/* The USB module has been initialized */
-#define CY_AS_DEVICE_STATE_USB_MODULE (0x00000080)
-/* If set, the API wants SCSI messages */
-#define CY_AS_DEVICE_STATE_STORAGE_SCSIMSG (0x00000100)
-/* If set, an ASYNC storage operation is pending */
-#define CY_AS_DEVICE_STATE_STORAGE_ASYNC_PENDING (0x00000200)
-/* If set, the USB port is connected */
-#define CY_AS_DEVICE_STATE_USB_CONNECTED (0x00000400)
-/* If set and USB is connected, it is high speed */
-#define CY_AS_DEVICE_STATE_USB_HIGHSPEED (0x00000800)
-/* If set, we are in a callback */
-#define CY_AS_DEVICE_STATE_IN_CALLBACK (0x00001000)
-/* If set, we are processing a setup packet */
-#define CY_AS_DEVICE_STATE_IN_SETUP_PACKET (0x00004000)
-/* The device was placed in standby via register */
-#define CY_AS_DEVICE_STATE_REGISTER_STANDBY (0x00008000)
-/* If set, the device is using a crystal */
-#define CY_AS_DEVICE_STATE_CRYSTAL (0x00010000)
-/* If set, wakeup has been called */
-#define CY_AS_DEVICE_STATE_WAKING (0x00020000)
-/* If set, EP0 has been stalled. */
-#define CY_AS_DEVICE_STATE_EP0_STALLED (0x00040000)
-/* If set, device is in suspend mode. */
-#define CY_AS_DEVICE_STATE_SUSPEND (0x00080000)
-/* If set, device is a reset is pending. */
-#define CY_AS_DEVICE_STATE_RESETP (0x00100000)
-/* If set, device is a standby is pending. */
-#define CY_AS_DEVICE_STATE_STANDP (0x00200000)
-/* If set, device has a storage start or stop pending. */
-#define CY_AS_DEVICE_STATE_SSSP (0x00400000)
-/* If set, device has a usb start or stop pending. */
-#define CY_AS_DEVICE_STATE_USSP (0x00800000)
-/* If set, device has a mtp start or stop pending. */
-#define CY_AS_DEVICE_STATE_MSSP (0x01000000)
-/* If set, P2S DMA transfer can be started. */
-#define CY_AS_DEVICE_STATE_P2SDMA_START (0x02000000)
-
-/* The bitfields for the endpoint state value */
-/* DMA requests are accepted into the queue */
-#define CY_AS_DMA_ENDPOINT_STATE_ENABLED (0x0001)
-/* The endpoint has a sleeping client, waiting on a queue drain */
-#define CY_AS_DMA_ENDPOINT_STATE_SLEEPING (0x0002)
-/* The DMA backend to hardware is running */
-#define CY_AS_DMA_ENDPOINT_STATE_DMA_RUNNING (0x0004)
-/* There is an outstanding DMA entry deployed to the HAL */
-#define CY_AS_DMA_ENDPOINT_STATE_IN_TRANSIT (0x0008)
-/* 0 = OUT (West Bridge -> P Port), 1 = IN (P Port -> West Bridge) */
-#define CY_AS_DMA_ENDPOINT_STATE_DIRECTION (0x0010)
-
-/* The state values for the request list */
-/* Mask for getting the state information */
-#define CY_AS_REQUEST_LIST_STATE_MASK (0x0f)
-/* The request is queued, nothing further */
-#define CY_AS_REQUEST_LIST_STATE_QUEUED (0x00)
-/* The request is sent, waiting for response */
-#define CY_AS_REQUEST_LIST_STATE_WAITING (0x01)
-/* The response has been received, processing response */
-#define CY_AS_REQUEST_LIST_STATE_RECEIVED (0x02)
-/* The request/response is being canceled */
-#define CY_AS_REQUEST_LIST_STATE_CANCELING (0x03)
-/* The request is synchronous */
-#define CY_AS_REQUEST_LIST_STATE_SYNC (0x80)
-
-/* The flag values for a LL RequestResponse */
-/* This request requires an ACK to be sent after it is completed */
-#define CY_AS_REQUEST_RESPONSE_DELAY_ACK (0x01)
-/* This request originated from a version V1.1 function call */
-#define CY_AS_REQUEST_RESPONSE_EX (0x02)
-/* This request originated from a version V1.2 function call */
-#define CY_AS_REQUEST_RESPONSE_MS (0x04)
-
-
-#define CY_AS_DEVICE_HANDLE_SIGNATURE (0x01211219)
-
-/*
- * This macro returns the endpoint pointer given the
- * device pointer and an endpoint number
- */
-#define CY_AS_NUM_EP(dev_p, num) ((dev_p)->endp[(num)])
-
-/****************************************
- * West Bridge Data Structures
- ****************************************/
-
-typedef struct cy_as_device cy_as_device;
-
-/* Summary
- This type defines a callback function that will be called
- on completion of a DMA operation.
-
- Description
- This function definition is for a function that is called when
- the DMA operation is complete. This function is called with the
- endpoint number, operation type, buffer pointer and size.
-
- See Also
- * CyAsDmaOper
- * CyAsDmaQueueWrite
- */
-typedef void (*cy_as_dma_callback)(
- /* The device that completed DMA */
- cy_as_device *dev_p,
- /* The endpoint that completed DMA */
- cy_as_end_point_number_t ep,
- /* The pointer to the buffer that completed DMA */
- void *mem_p,
- /* The amount of data transferred */
- uint32_t size,
- /* The error code for this DMA xfer */
- cy_as_return_status_t error
- );
-
-/* Summary
- This structure defines a DMA request that is queued
-
- Description
- This structure contains the information about a DMA
- request that is queued and is to be sent when possible.
-*/
-typedef struct cy_as_dma_queue_entry {
- /* Pointer to memory buffer for this request */
- void *buf_p;
- /* Size of the memory buffer for DMA operation */
- uint32_t size;
- /* Offset into memory buffer for next DMA operation */
- uint32_t offset;
- /* If TRUE and IN request */
- cy_bool packet;
- /* If TRUE, this is a read request */
- cy_bool readreq;
- /* Callback function for when DMA is complete */
- cy_as_dma_callback cb;
- /* Pointer to next entry in queue */
- struct cy_as_dma_queue_entry *next_p;
-} cy_as_dma_queue_entry;
-
-/* Summary
- This structure defines the endpoint data for a given
-
- Description
- This structure defines all of the information required
- to manage DMA for a given endpoint.
-*/
-typedef struct cy_as_dma_end_point {
- /* The endpoint number */
- cy_as_end_point_number_t ep;
- /* The state of this endpoint */
- uint8_t state;
- /* The maximum amount of data accepted in a packet by the hw */
- uint16_t maxhwdata;
- /* The maximum amount of data accepted by the HAL layer */
- uint32_t maxhaldata;
- /* The queue for DMA operations */
- cy_as_dma_queue_entry *queue_p;
- /* The last entry in the DMA queue */
- cy_as_dma_queue_entry *last_p;
- /* This sleep channel is used to wait while the DMA queue
- * drains for a given endpoint */
- cy_as_hal_sleep_channel channel;
-} cy_as_dma_end_point;
-
-#define cy_as_end_point_number_is_usb(n) \
- ((n) != 2 && (n) != 4 && (n) != 6 && (n) != 8)
-#define cy_as_end_point_number_is_storage(n) \
- ((n) == 2 || (n) == 4 || (n) == 6 || (n) == 8)
-
-#define cy_as_dma_end_point_is_enabled(ep) \
- ((ep)->state & CY_AS_DMA_ENDPOINT_STATE_ENABLED)
-#define cy_as_dma_end_point_enable(ep) \
- ((ep)->state |= CY_AS_DMA_ENDPOINT_STATE_ENABLED)
-#define cy_as_dma_end_point_disable(ep) \
- ((ep)->state &= ~CY_AS_DMA_ENDPOINT_STATE_ENABLED)
-
-#define cy_as_dma_end_point_is_sleeping(ep) \
- ((ep)->state & CY_AS_DMA_ENDPOINT_STATE_SLEEPING)
-#define cy_as_dma_end_point_set_sleep_state(ep) \
- ((ep)->state |= CY_AS_DMA_ENDPOINT_STATE_SLEEPING)
-#define cy_as_dma_end_point_set_wake_state(ep) \
- ((ep)->state &= ~CY_AS_DMA_ENDPOINT_STATE_SLEEPING)
-
-#define cy_as_dma_end_point_is_running(ep) \
- ((ep)->state & CY_AS_DMA_ENDPOINT_STATE_DMA_RUNNING)
-#define cy_as_dma_end_point_set_running(ep) \
- ((ep)->state |= CY_AS_DMA_ENDPOINT_STATE_DMA_RUNNING)
-#define cy_as_dma_end_point_set_stopped(ep) \
- ((ep)->state &= ~CY_AS_DMA_ENDPOINT_STATE_DMA_RUNNING)
-
-#define cy_as_dma_end_point_in_transit(ep) \
- ((ep)->state & CY_AS_DMA_ENDPOINT_STATE_IN_TRANSIT)
-#define cy_as_dma_end_point_set_in_transit(ep) \
- ((ep)->state |= CY_AS_DMA_ENDPOINT_STATE_IN_TRANSIT)
-#define cy_as_dma_end_point_clear_in_transit(ep) \
- ((ep)->state &= ~CY_AS_DMA_ENDPOINT_STATE_IN_TRANSIT)
-
-#define cy_as_dma_end_point_is_direction_in(ep) \
- (((ep)->state & CY_AS_DMA_ENDPOINT_STATE_DIRECTION) == \
- CY_AS_DMA_ENDPOINT_STATE_DIRECTION)
-#define cy_as_dma_end_point_is_direction_out(ep) \
- (((ep)->state & CY_AS_DMA_ENDPOINT_STATE_DIRECTION) == 0)
-#define cy_as_dma_end_point_set_direction_in(ep) \
- ((ep)->state |= CY_AS_DMA_ENDPOINT_STATE_DIRECTION)
-#define cy_as_dma_end_point_set_direction_out(ep) \
- ((ep)->state &= ~CY_AS_DMA_ENDPOINT_STATE_DIRECTION)
-
-#define cy_as_dma_end_point_is_usb(p) \
- cy_as_end_point_number_is_usb((p)->ep)
-#define cy_as_dma_end_point_is_storage(p) \
- cy_as_end_point_number_is_storage((p)->ep)
-
-typedef struct cy_as_ll_request_response {
- /* The mbox[0] contents - see low level comm section of API doc */
- uint16_t box0;
- /* The amount of data stored in this request/response in bytes */
- uint16_t stored;
- /* Length of this request in words */
- uint16_t length;
- /* Additional status information about the request */
- uint16_t flags;
- /* Note: This is over indexed and contains the request/response data */
- uint16_t data[1];
-} cy_as_ll_request_response;
-
-/*
- * The callback function for responses
- */
-typedef void (*cy_as_response_callback)(
- /* The device that had the response */
- cy_as_device *dev_p,
- /* The context receiving a response */
- uint8_t context,
- /* The request data */
- cy_as_ll_request_response *rqt,
- /* The response data */
- cy_as_ll_request_response *resp,
- /* The status of the request */
- cy_as_return_status_t status
- );
-
-typedef struct cy_as_ll_request_list_node {
- /* The request to send */
- cy_as_ll_request_response *rqt;
- /* The associated response for the request */
- cy_as_ll_request_response *resp;
- /* Length of the response */
- uint16_t length;
- /* The callback to call when done */
- cy_as_response_callback callback;
- /* The state of the request */
- uint8_t state;
- /* The next request in the list */
- struct cy_as_ll_request_list_node *next;
-} cy_as_ll_request_list_node;
-
-#define cy_as_request_get_node_state(node_p) \
- ((node_p)->state & CY_AS_REQUEST_LIST_STATE_MASK)
-#define cy_as_request_set_node_state(node_p, st) \
- ((node_p)->state = \
- ((node_p)->state & ~CY_AS_REQUEST_LIST_STATE_MASK) | (st))
-
-#define cy_as_request_node_is_sync(node_p) \
- ((node_p)->state & CY_AS_REQUEST_LIST_STATE_SYNC)
-#define cy_as_request_node_set_sync(node_p) \
- ((node_p)->state |= CY_AS_REQUEST_LIST_STATE_SYNC)
-#define cy_as_request_node_clear_sync(node_p) \
- ((node_p)->state &= ~CY_AS_REQUEST_LIST_STATE_SYNC)
-
-#ifndef __doxygen__
-typedef enum cy_as_c_b_node_type {
- CYAS_INVALID,
- CYAS_USB_FUNC_CB,
- CYAS_USB_IO_CB,
- CYAS_STORAGE_IO_CB,
- CYAS_FUNC_CB
-} cy_as_c_b_node_type;
-
-typedef struct cy_as_func_c_b_node {
- cy_as_c_b_node_type node_type;
- cy_as_function_callback cb_p;
- uint32_t client_data;
- cy_as_funct_c_b_type data_type;
- void *data;
- struct cy_as_func_c_b_node *next_p;
-} cy_as_func_c_b_node;
-
-extern cy_as_func_c_b_node*
-cy_as_create_func_c_b_node_data(cy_as_function_callback
- cb, uint32_t client, cy_as_funct_c_b_type type, void *data);
-
-extern cy_as_func_c_b_node*
-cy_as_create_func_c_b_node(cy_as_function_callback cb,
- uint32_t client);
-
-extern void
-cy_as_destroy_func_c_b_node(cy_as_func_c_b_node *node);
-
-typedef struct cy_as_mtp_func_c_b_node {
- cy_as_c_b_node_type type;
- cy_as_mtp_function_callback cb_p;
- uint32_t client_data;
- struct cy_as_mtp_func_c_b_node *next_p;
-} cy_as_mtp_func_c_b_node;
-
-extern cy_as_mtp_func_c_b_node*
-cy_as_create_mtp_func_c_b_node(cy_as_mtp_function_callback cb,
- uint32_t client);
-
-extern void
-cy_as_destroy_mtp_func_c_b_node(cy_as_mtp_func_c_b_node *node);
-
-typedef struct cy_as_usb_func_c_b_node {
- cy_as_c_b_node_type type;
- cy_as_usb_function_callback cb_p;
- uint32_t client_data;
- struct cy_as_usb_func_c_b_node *next_p;
-} cy_as_usb_func_c_b_node;
-
-extern cy_as_usb_func_c_b_node*
-cy_as_create_usb_func_c_b_node(cy_as_usb_function_callback cb,
- uint32_t client);
-
-extern void
-cy_as_destroy_usb_func_c_b_node(cy_as_usb_func_c_b_node *node);
-
-typedef struct cy_as_usb_io_c_b_node {
- cy_as_c_b_node_type type;
- cy_as_usb_io_callback cb_p;
- struct cy_as_usb_io_c_b_node *next_p;
-} cy_as_usb_io_c_b_node;
-
-extern cy_as_usb_io_c_b_node*
-cy_as_create_usb_io_c_b_node(cy_as_usb_io_callback cb);
-
-extern void
-cy_as_destroy_usb_io_c_b_node(cy_as_usb_io_c_b_node *node);
-
-typedef struct cy_as_storage_io_c_b_node {
- cy_as_c_b_node_type type;
- cy_as_storage_callback cb_p;
- /* The media for the currently outstanding async storage request */
- cy_as_media_type media;
- /* The device index for the currently outstanding async storage
- * request */
- uint32_t device_index;
- /* The unit index for the currently outstanding async storage
- * request */
- uint32_t unit;
- /* The block address for the currently outstanding async storage
- * request */
- uint32_t block_addr;
- /* The operation for the currently outstanding async storage
- * request */
- cy_as_oper_type oper;
- cy_as_ll_request_response *req_p;
- cy_as_ll_request_response *reply_p;
- struct cy_as_storage_io_c_b_node *next_p;
-} cy_as_storage_io_c_b_node;
-
-extern cy_as_storage_io_c_b_node*
-cy_as_create_storage_io_c_b_node(cy_as_storage_callback cb,
- cy_as_media_type media, uint32_t device_index,
- uint32_t unit, uint32_t block_addr, cy_as_oper_type oper,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p);
-
-extern void
-cy_as_destroy_storage_io_c_b_node(cy_as_storage_io_c_b_node *node);
-
-typedef struct cy_as_c_b_queue {
- void *head_p;
- void *tail_p;
- uint32_t count;
- cy_as_c_b_node_type type;
-} cy_as_c_b_queue;
-
-extern cy_as_c_b_queue *
-cy_as_create_c_b_queue(cy_as_c_b_node_type type);
-
-extern void
-cy_as_destroy_c_b_queue(cy_as_c_b_queue *queue);
-
-/* Allocates a new CyAsCBNode */
-extern void
-cy_as_insert_c_b_node(cy_as_c_b_queue *queue_p, void *cbnode);
-
-/* Removes the first CyAsCBNode from the queue and frees it */
-extern void
-cy_as_remove_c_b_node(cy_as_c_b_queue *queue_p);
-
-/* Remove the last CyAsCBNode from the queue and frees it */
-extern void
-cy_as_remove_c_b_tail_node(cy_as_c_b_queue *queue_p);
-
-/* Removes and frees all pending callbacks */
-extern void
-cy_as_clear_c_b_queue(cy_as_c_b_queue *queue_p);
-
-extern cy_as_return_status_t
-cy_as_misc_send_request(cy_as_device *dev_p,
- cy_as_function_callback cb,
- uint32_t client,
- cy_as_funct_c_b_type type,
- void *data,
- cy_as_c_b_queue *queue,
- uint16_t req_type,
- cy_as_ll_request_response *req_p,
- cy_as_ll_request_response *reply_p,
- cy_as_response_callback rcb);
-
-extern void
-cy_as_misc_cancel_ex_requests(cy_as_device *dev_p);
-
-/* Summary
- Free all memory allocated by and zero all
- structures initialized by CyAsUsbStart.
- */
-extern void
-cy_as_usb_cleanup(
- cy_as_device *dev_p);
-
-/* Summary
- Free all memory allocated and zero all structures initialized
- by CyAsStorageStart.
- */
-extern void
-cy_as_storage_cleanup(
- cy_as_device *dev_p);
-#endif
-
-/* Summary
- This structure defines the data structure to support a
- given command context
-
- Description
- All commands send to the West Bridge device via the mailbox
- registers are sent via a context.Each context is independent
- and there can be a parallel stream of requests and responses on
- each context. This structure is used to manage a single context.
-*/
-typedef struct cy_as_context {
- /* The context number for this context */
- uint8_t number;
- /* This sleep channel is used to sleep while waiting on a
- * response from the west bridge device for a request. */
- cy_as_hal_sleep_channel channel;
- /* The buffer for received requests */
- cy_as_ll_request_response *req_p;
- /* The length of the request being received */
- uint16_t request_length;
- /* The callback for the next request received */
- cy_as_response_callback request_callback;
- /* A list of low level requests to go to the firmware */
- cy_as_ll_request_list_node *request_queue_p;
- /* The list node in the request queue */
- cy_as_ll_request_list_node *last_node_p;
- /* Index up to which data is stored. */
- uint16_t queue_index;
- /* Index to the next request in the queue. */
- uint16_t rqt_index;
- /* Queue of data stored */
- uint16_t data_queue[128];
-
-} cy_as_context;
-
-#define cy_as_context_is_waiting(ctxt) \
- ((ctxt)->state & CY_AS_CTXT_STATE_WAITING_RESPONSE)
-#define cy_as_context_set_waiting(ctxt) \
- ((ctxt)->state |= CY_AS_CTXT_STATE_WAITING_RESPONSE)
-#define cy_as_context_clear_waiting(ctxt) \
- ((ctxt)->state &= ~CY_AS_CTXT_STATE_WAITING_RESPONSE)
-
-
-
-/* Summary
- This data structure stores SDIO function
- parameters for a SDIO card
-
- Description
-*/
-typedef struct cy_as_sdio_device {
- /* Keeps track of IO functions initialized*/
- uint8_t function_init_map;
- uint8_t function_suspended_map;
- /* Function 0 (Card Common) properties*/
- cy_as_sdio_card card;
- /* Function 1-7 (Mapped to array element 0-6) properties.*/
- cy_as_sdio_func function[7];
-
-} cy_as_sdio_device;
-
-/* Summary
-Macros to access the SDIO card properties
-*/
-
-#define cy_as_sdio_get_function_code(handle, bus, i) \
- (((cy_as_device *)handle)->sdiocard[bus].function[i-1].function_code)
-
-#define cy_as_sdio_get_function_ext_code(handle, bus, i) \
- (((cy_as_device *)handle)->sdiocard[bus].\
- function[i-1].extended_func_code)
-
-#define cy_as_sdio_get_function_p_s_n(handle, bus, i) \
- (((cy_as_device *)handle)->sdiocard[bus].function[i-1].card_psn)
-
-#define cy_as_sdio_get_function_blocksize(handle, bus, i) \
- (((cy_as_device *)handle)->sdiocard[bus].function[i-1].blocksize)
-
-#define cy_as_sdio_get_function_max_blocksize(handle, bus, i) \
- (((cy_as_device *)handle)->sdiocard[bus].function[i-1].maxblocksize)
-
-#define cy_as_sdio_get_function_csa_support(handle, bus, i) \
- (((cy_as_device *)handle)->sdiocard[bus].function[i-1].csa_bits)
-
-#define cy_as_sdio_get_function_wakeup_support(handle, bus, i) \
- (((cy_as_device *)handle)->sdiocard[bus].function[i-1]. wakeup_support)
-
-#define cy_as_sdio_set_function_block_size(handle, bus, i, blocksize) \
- (((cy_as_device *)handle)->sdiocard[bus].function[i-1].blocksize = \
- blocksize)
-
-#define cy_as_sdio_get_card_num_functions(handle, bus) \
- (((cy_as_device *)handle)->sdiocard[bus].card.num_functions)
-
-#define cy_as_sdio_get_card_mem_present(handle, bus) \
- (((cy_as_device *)handle)->sdiocard[bus].card.memory_present)
-
-#define cy_as_sdio_get_card_manf_id(handle, bus) \
- (((cy_as_device *)handle)->sdiocard[bus].card.manufacturer__id)
-
-#define cy_as_sdio_get_card_manf_info(handle, bus) \
- (((cy_as_device *)handle)->sdiocard[bus].card.manufacturer_info)
-
-#define cy_as_sdio_get_card_blocksize(handle, bus) \
- (((cy_as_device *)handle)->sdiocard[bus].card.blocksize)
-
-#define cy_as_sdio_get_card_max_blocksize(handle, bus) \
- (((cy_as_device *)handle)->sdiocard[bus].card.maxblocksize)
-
-#define cy_as_sdio_get_card_sdio_version(handle, bus) \
- (((cy_as_device *)handle)->sdiocard[bus].card.sdio_version)
-
-#define cy_as_sdio_get_card_capability(handle, bus) \
- (((cy_as_device *)handle)->sdiocard[bus].card.card_capability)
-
-#define cy_as_sdio_get_function_init_map(handle, bus) \
- (((cy_as_device *)handle)->sdiocard[bus].function_init_map)
-
-#define cy_as_sdio_check_function_initialized(handle, bus, i) \
- (((cy_as_sdio_get_function_init_map(handle, bus)) & (0x01<<i)) ? 1 : 0)
-
-#define cy_as_sdio_set_card_block_size(handle, bus, blocksize) \
- (((cy_as_device *)handle)->sdiocard[bus].card.blocksize = blocksize)
-
-#define cy_as_sdio_check_support_bus_suspend(handle, bus) \
- ((cy_as_sdio_get_card_capability(handle, bus) & CY_SDIO_SBS) ? 1 : 0)
-
-#define cy_as_sdio_check_function_suspended(handle, bus, i) \
- ((((cy_as_device *)handle)->sdiocard[bus].function_suspended_map & \
- (0x01<<i)) ? 1 : 0)
-
-#define cy_as_sdio_set_function_suspended(handle, bus, i) \
- ((((cy_as_device *)handle)->sdiocard[bus].function_suspended_map) \
- |= (0x01<<i))
-
-#define cy_as_sdio_clear_function_suspended(handle, bus, i) \
- ((((cy_as_device *)handle)->sdiocard[bus].function_suspended_map) \
- &= (~(0x01<<i)))
-
-/* Summary
- This data structure represents a single device.
-
- Description
-*/
-struct cy_as_device {
- /* General stuff */
- /* A signature to insure we have a valid handle */
- uint32_t sig;
- /* The ID of the silicon */
- uint16_t silicon_id;
- /* Pointer to the next device */
- struct cy_as_device *next_p;
- /* This is the client specific tag for this device */
- cy_as_hal_device_tag tag;
- /* This contains various state information about the device */
- uint32_t state;
- /* Flag indicating whether INT# pin is used for DRQ */
- cy_bool use_int_drq;
-
- /* DMA related */
- /* The endpoint pointers associated with this device */
- cy_as_dma_end_point *endp[16];
- /* List of queue entries that can be used for xfers */
- cy_as_dma_queue_entry *dma_freelist_p;
-
- /* Low level comm related */
- /* The contexts available in this device */
- cy_as_context *context[CY_RQT_CONTEXT_COUNT];
- /* The low level error returned from sending an async request */
- cy_as_return_status_t ll_error;
- /* A request is currently being sent to West Bridge. */
- cy_bool ll_sending_rqt;
- /* The current mailbox request should be aborted. */
- cy_bool ll_abort_curr_rqt;
- /* Indicates that the LL layer has queued mailbox data. */
- cy_bool ll_queued_data;
-
- /* MISC API related */
- /* Misc callback */
- cy_as_misc_event_callback misc_event_cb;
-
- /* Storage Related */
- /* The reference count for the Storage API */
- uint32_t storage_count;
- /* Callback for storage events */
- cy_as_storage_event_callback_dep storage_event_cb;
- /* V1.2+ callback for storage events */
- cy_as_storage_event_callback storage_event_cb_ms;
- /* The error for a sleeping storage operation */
- cy_as_return_status_t storage_error;
- /* Flag indicating that the storage stack is waiting for an operation */
- cy_bool storage_wait;
- /* Request used for storage read/writes. */
- cy_as_ll_request_response *storage_rw_req_p;
- /* Response used for storage read/writes. */
- cy_as_ll_request_response *storage_rw_resp_p;
- /* The storage callback */
- cy_as_storage_callback_dep storage_cb;
- /* The V1.2+ storage callback */
- cy_as_storage_callback storage_cb_ms;
- /* The bus index for the currently outstanding async storage request */
- cy_as_bus_number_t storage_bus_index;
- /* The device index for the currently outstanding async storage
- * request */
- uint32_t storage_device_index;
- /* The unit index for the currently outstanding async storage request */
- uint32_t storage_unit;
- /* The block address for the currently outstanding async storage
- * request */
- uint32_t storage_block_addr;
- /* The operation for the currently outstanding async storage request */
- cy_as_oper_type storage_oper;
- /* The endpoint used to read Storage data */
- cy_as_end_point_number_t storage_read_endpoint;
- /* The endpoint used to write endpoint data */
- cy_as_end_point_number_t storage_write_endpoint;
- cy_as_device_desc storage_device_info
- [CY_AS_MAX_BUSES][CY_AS_MAX_STORAGE_DEVICES];
- /* The information on each device on each bus */
-
- /* USB Related */
- /* This conatins the endpoint async state */
- uint16_t epasync;
- /* The reference count for the USB API */
- uint32_t usb_count;
- /* The physical endpoint configuration */
- uint8_t usb_phy_config;
- /* The callbacks for async func calls */
- cy_as_c_b_queue *usb_func_cbs;
- /* Endpoint configuration information */
- cy_as_usb_end_point_config usb_config[16];
- /* The USB callback */
- cy_as_usb_event_callback_dep usb_event_cb;
- /* The V1.2+ USB callback */
- cy_as_usb_event_callback usb_event_cb_ms;
- /* The error for a sleeping usb operation */
- cy_as_return_status_t usb_error;
- /* The USB callback for a pending storage operation */
- cy_as_usb_io_callback usb_cb[16];
- /* The buffer pending from a USB operation */
- void *usb_pending_buffer;
- /* The size of the buffer pending from a USB operation */
- uint32_t usb_pending_size;
- /* If true, send a short packet */
- cy_bool usb_spacket[16];
- /* The amount of data actually xferred */
- uint32_t usb_actual_cnt;
- /* EP1OUT and EP1IN config register contents */
- uint8_t usb_ep1cfg[2];
- /* LEP config register contents */
- uint16_t usb_lepcfg[10];
- /* PEP config register contents */
- uint16_t usb_pepcfg[4];
- /* Buffer for EP0 and EP1 data sent via mailboxes */
- uint8_t *usb_ep_data;
- /* Used to track how many ack requests are pending */
- uint32_t usb_delay_ack_count;
- /* Maximum transfer size for USB endpoints. */
- uint32_t usb_max_tx_size;
-
- /* Request for sending EP0 data to West Bridge */
- cy_as_ll_request_response *usb_ep0_dma_req;
- /* Response for EP0 data sent to West Bridge */
- cy_as_ll_request_response *usb_ep0_dma_resp;
- /* Request for sending EP1 data to West Bridge */
- cy_as_ll_request_response *usb_ep1_dma_req;
- /* Response for EP1 data sent to West Bridge */
- cy_as_ll_request_response *usb_ep1_dma_resp;
-
- cy_as_ll_request_response *usb_ep0_dma_req_save;
- cy_as_ll_request_response *usb_ep0_dma_resp_save;
-
- /* MTP Related */
- /* The reference count for the MTP API */
- uint32_t mtp_count;
- /* The MTP event callback supplied by the client */
- cy_as_mtp_event_callback mtp_event_cb;
- /* The current block table to be transferred */
- cy_as_mtp_block_table *tp_blk_tbl;
-
- cy_as_c_b_queue *func_cbs_mtp;
- cy_as_c_b_queue *func_cbs_usb;
- cy_as_c_b_queue *func_cbs_stor;
- cy_as_c_b_queue *func_cbs_misc;
- cy_as_c_b_queue *func_cbs_res;
-
- /* The last USB event that was received */
- cy_as_usb_event usb_last_event;
- /* Types of storage media supported by the firmware */
- uint8_t media_supported[CY_AS_MAX_BUSES];
-
- /* SDIO card parameters*/
- cy_as_sdio_device sdiocard[CY_AS_MAX_BUSES];
- /* if true, MTP enabled Firmware. */
- cy_bool is_mtp_firmware;
- /* if true, mailbox message has come already */
- cy_bool is_mtp_data_pending;
- /* True between the time an Init was called and
- * the complete event is generated */
- cy_bool mtp_turbo_active;
- /* mbox reported EP 2 data len */
- uint16_t mtp_data_len;
- /* The error for mtp EP4 write operation */
- cy_as_return_status_t mtp_error;
- /* mtp send/get operation callback */
- cy_as_function_callback mtp_cb;
- /* mtp send/get operation client id */
- uint32_t mtp_client;
- /* mtp operation type. To be used in callback */
- cy_as_funct_c_b_type mtp_op;
-
- /* Firmware is running in P2S only mode. */
- cy_bool is_storage_only_mode;
- /* Interrupt mask value during device standby. */
- uint32_t stby_int_mask;
-};
-
-#define cy_as_device_is_configured(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_CONFIGURED)
-#define cy_as_device_set_configured(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_CONFIGURED)
-#define cy_as_device_set_unconfigured(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_CONFIGURED)
-
-#define cy_as_device_is_dma_running(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_DMA_MODULE)
-#define cy_as_device_set_dma_running(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_DMA_MODULE)
-#define cy_as_device_set_dma_stopped(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_DMA_MODULE)
-
-#define cy_as_device_is_low_level_running(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_LOWLEVEL_MODULE)
-#define cy_as_device_set_low_level_running(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_LOWLEVEL_MODULE)
-#define cy_as_device_set_low_level_stopped(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_LOWLEVEL_MODULE)
-
-#define cy_as_device_is_intr_running(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_INTR_MODULE)
-#define cy_as_device_set_intr_running(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_INTR_MODULE)
-#define cy_as_device_set_intr_stopped(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_INTR_MODULE)
-
-#define cy_as_device_is_firmware_loaded(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_FIRMWARE_LOADED)
-#define cy_as_device_set_firmware_loaded(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_FIRMWARE_LOADED)
-#define cy_as_device_set_firmware_not_loaded(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_FIRMWARE_LOADED)
-
-#define cy_as_device_is_storage_running(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_STORAGE_MODULE)
-#define cy_as_device_set_storage_running(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_STORAGE_MODULE)
-#define cy_as_device_set_storage_stopped(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_STORAGE_MODULE)
-
-#define cy_as_device_is_usb_running(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_USB_MODULE)
-#define cy_as_device_set_usb_running(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_USB_MODULE)
-#define cy_as_device_set_usb_stopped(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_USB_MODULE)
-
-#define cy_as_device_wants_scsi_messages(dp) \
- (((dp)->state & CY_AS_DEVICE_STATE_STORAGE_SCSIMSG) \
- ? cy_true : cy_false)
-#define cy_as_device_set_scsi_messages(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_STORAGE_SCSIMSG)
-#define cy_as_device_clear_scsi_messages(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_STORAGE_SCSIMSG)
-
-#define cy_as_device_is_storage_async_pending(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_STORAGE_ASYNC_PENDING)
-#define cy_as_device_set_storage_async_pending(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_STORAGE_ASYNC_PENDING)
-#define cy_as_device_clear_storage_async_pending(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_STORAGE_ASYNC_PENDING)
-
-#define cy_as_device_is_usb_connected(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_USB_CONNECTED)
-#define cy_as_device_set_usb_connected(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_USB_CONNECTED)
-#define cy_as_device_clear_usb_connected(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_USB_CONNECTED)
-
-#define cy_as_device_is_usb_high_speed(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_USB_HIGHSPEED)
-#define cy_as_device_set_usb_high_speed(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_USB_HIGHSPEED)
-#define cy_as_device_clear_usb_high_speed(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_USB_HIGHSPEED)
-
-#define cy_as_device_is_in_callback(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_IN_CALLBACK)
-#define cy_as_device_set_in_callback(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_IN_CALLBACK)
-#define cy_as_device_clear_in_callback(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_IN_CALLBACK)
-
-#define cy_as_device_is_setup_i_o_performed(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_SETUP_IO_PERFORMED)
-#define cy_as_device_set_setup_i_o_performed(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_SETUP_IO_PERFORMED)
-#define cy_as_device_clear_setup_i_o_performed(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_SETUP_IO_PERFORMED)
-
-#define cy_as_device_is_ack_delayed(dp) \
- ((dp)->usb_delay_ack_count > 0)
-#define cy_as_device_set_ack_delayed(dp) \
- ((dp)->usb_delay_ack_count++)
-#define cy_as_device_rem_ack_delayed(dp) \
- ((dp)->usb_delay_ack_count--)
-#define cy_as_device_clear_ack_delayed(dp) \
- ((dp)->usb_delay_ack_count = 0)
-
-#define cy_as_device_is_setup_packet(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_IN_SETUP_PACKET)
-#define cy_as_device_set_setup_packet(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_IN_SETUP_PACKET)
-#define cy_as_device_clear_setup_packet(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_IN_SETUP_PACKET)
-
-#define cy_as_device_is_ep0_stalled(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_EP0_STALLED)
-#define cy_as_device_set_ep0_stalled(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_EP0_STALLED)
-#define cy_as_device_clear_ep0_stalled(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_EP0_STALLED)
-
-#define cy_as_device_is_register_standby(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_REGISTER_STANDBY)
-#define cy_as_device_set_register_standby(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_REGISTER_STANDBY)
-#define cy_as_device_clear_register_standby(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_REGISTER_STANDBY)
-
-#define cy_as_device_is_pin_standby(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_PIN_STANDBY)
-#define cy_as_device_set_pin_standby(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_PIN_STANDBY)
-#define cy_as_device_clear_pin_standby(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_PIN_STANDBY)
-
-#define cy_as_device_is_crystal(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_CRYSTAL)
-#define cy_as_device_is_external_clock(dp) \
- (!((dp)->state & CY_AS_DEVICE_STATE_CRYSTAL))
-#define cy_as_device_set_crystal(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_CRYSTAL)
-#define cy_as_device_set_external_clock(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_CRYSTAL)
-
-#define cy_as_device_is_waking(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_WAKING)
-#define cy_as_device_set_waking(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_WAKING)
-#define cy_as_device_clear_waking(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_WAKING)
-
-#define cy_as_device_is_in_suspend_mode(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_SUSPEND)
-#define cy_as_device_set_suspend_mode(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_SUSPEND)
-#define cy_as_device_clear_suspend_mode(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_SUSPEND)
-
-#define cy_as_device_is_reset_pending(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_RESETP)
-#define cy_as_device_set_reset_pending(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_RESETP)
-#define cy_as_device_clear_reset_pending(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_RESETP)
-
-#define cy_as_device_is_standby_pending(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_STANDP)
-#define cy_as_device_set_standby_pending(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_STANDP)
-#define cy_as_device_clear_standby_pending(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_STANDP)
-
-#define cy_as_device_is_s_s_s_pending(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_SSSP)
-#define cy_as_device_set_s_s_s_pending(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_SSSP)
-#define cy_as_device_clear_s_s_s_pending(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_SSSP)
-
-#define cy_as_device_is_u_s_s_pending(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_USSP)
-#define cy_as_device_set_u_s_s_pending(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_USSP)
-#define cy_as_device_clear_u_s_s_pending(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_USSP)
-
-#define cy_as_device_is_m_s_s_pending(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_MSSP)
-#define cy_as_device_set_m_s_s_pending(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_MSSP)
-#define cy_as_device_clear_m_s_s_pending(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_MSSP)
-
-#define cy_as_device_is_p2s_dma_start_recvd(dp) \
- ((dp)->state & CY_AS_DEVICE_STATE_P2SDMA_START)
-#define cy_as_device_set_p2s_dma_start_recvd(dp) \
- ((dp)->state |= CY_AS_DEVICE_STATE_P2SDMA_START)
-#define cy_as_device_clear_p2s_dma_start_recvd(dp) \
- ((dp)->state &= ~CY_AS_DEVICE_STATE_P2SDMA_START)
-
-#define cy_as_device_is_usb_async_pending(dp, ep) \
- ((dp)->epasync & (1 << ep))
-#define cy_as_device_set_usb_async_pending(dp, ep) \
- ((dp)->epasync |= (1 << ep))
-#define cy_as_device_clear_usb_async_pending(dp, ep) \
- ((dp)->epasync &= ~(1 << ep))
-
-#define cy_as_device_is_nand_storage_supported(dp) \
- ((dp)->media_supported[0] & 1)
-
-/* Macros to check the type of West Bridge device. */
-#define cy_as_device_is_astoria_dev(dp) \
- (((dp)->silicon_id == CY_AS_MEM_CM_WB_CFG_ID_HDID_ASTORIA_VALUE) || \
- ((dp)->silicon_id == CY_AS_MEM_CM_WB_CFG_ID_HDID_ASTORIA_FPGA_VALUE))
-#define cy_as_device_is_antioch_dev(dp) \
- ((dp)->silicon_id == CY_AS_MEM_CM_WB_CFG_ID_HDID_ANTIOCH_VALUE)
-
-#ifdef CY_AS_LOG_SUPPORT
-extern void cy_as_log_debug_message(int value, const char *msg);
-#else
-#define cy_as_log_debug_message(value, msg)
-#endif
-
-/* Summary
- This function finds the device object given the HAL tag
-
- Description
- The user associats a device TAG with each West Bridge device
- created. This tag is passed from the API functions to and HAL
- functions that need to ID a specific West Bridge device. This
- tag is also passed in from the user back into the API via
- interrupt functions. This function allows the API to find the
- device structure associated with a given tag.
-
- Notes
- This function does a simple linear search for the device based
- on the TAG. This function is called each time an West Bridge
- interrupt handler is called. Therefore this works fine for a
- small number of West Bridge devices (e.g. less than five).
- Anything more than this and this methodology will need to be
- updated.
-
- Returns
- Pointer to a CyAsDevice associated with the tag
-*/
-extern cy_as_device *
-cy_as_device_find_from_tag(
- cy_as_hal_device_tag tag
- );
-
-#include "cyas_cplus_end.h"
-
-#endif /* __INCLUDED_CYASDEVICE_H__ */
+++ /dev/null
-/* Cypress West Bridge API header file (cyasdma.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASDMA_H_
-#define _INCLUDED_CYASDMA_H_
-
-#include "cyashal.h"
-#include "cyasdevice.h"
-
-#include "cyas_cplus_start.h"
-
-
-/*@@DMA Overview
- This module manages the DMA operations to/from the West Bridge
- device. The DMA module maintains a DMA queue for each endpoint
- so multiple DMA requests may be queued and they will complete
- at some future time.
-
- The DMA module must be started before it can be used. It is
- started by calling CyAsDmaStart(). This function initializes
- all of the endpoint data structures.
-
- In order to perform DMA on a particular endpoint, the endpoint
- must be enabled by calling CyAsDmaEnableEndPoint(). In addition
- to enabling or disabling the endpoint, this function also sets
- the direction for a given endpoint. Direction is given in USB
- terms. For P port to West Bridge traffic, the endpoint is a
- CyAsDirectionIn endpoint. For West Bridge to P port traffic,
- the endpoint is a CyAsDirectionOut endpoint.
-
- Once DMA is started and an endpoint is enabled, DMA requests
- are issued by calling CyAsDmaQueueRequest(). This function
- queue either a DMA read or DMA write request. The callback
- associated with the request is called once the request has been
- fulfilled.
-
- See Also
- * CyAsDmaStart
- * CyAsDmaEnableEndPoint
- * CyAsDmaDirection
- * CyAsDmaQueueRequest
- */
-
-/************************
- * West Bridge Constants
- ************************/
-#define CY_AS_DMA_MAX_SIZE_HW_SIZE (0xffffffff)
-
-/************************
- * West Bridge Data Structures
- ************************/
-
-/* Summary
- This type specifies the direction of an endpoint to the
- CyAsDmaEnableEndPoint function.
-
- Description
- When an endpoint is enabled, the direction of the endpoint
- can also be set. This type is used to specify the endpoint
- type. Note that the direction is specified in USB terms.
- Therefore, if the DMA is from the P port to West Bridge,
- the direction is IN.
-
- See Also
- * CyAsDmaEnableEndPoint
-*/
-typedef enum cy_as_dma_direction {
- /* Set the endpoint to type IN (P -> West Bridge) */
- cy_as_direction_in = 0,
- /* Set the endpoint to type OUT (West Bridge -> P) */
- cy_as_direction_out = 1,
- /* Only valid for EP 0 */
- cy_as_direction_in_out = 2,
- /* Do no change the endpoint type */
- cy_as_direction_dont_change = 3
-} cy_as_dma_direction;
-
-/*********************************
- * West Bridge Functions
- *********************************/
-
-/* Summary
- Initialize the DMA module and ready the module for receiving data
-
- Description
- This function initializes the DMA module by initializing all of
- the endpoint data structures associated with the device given.
- This function also register a DMA complete callback with the HAL
- DMA code. This callback is called whenever the HAL DMA subsystem
- completes a requested DMA operation.
-
- Returns
- CY_AS_ERROR_SUCCESS - the module initialized successfully
- CY_AS_ERROR_OUT_OF_MEMORY - memory allocation failed during
- initialization
- CY_AS_ERROR_ALREADY_RUNNING - the DMA module was already running
-
- See Also
- * CyAsDmaStop
-*/
-extern cy_as_return_status_t
-cy_as_dma_start(
- /* The device to start */
- cy_as_device *dev_p
- );
-
-/* Summary
- Shutdown the DMA module
-
- Description
- This function shuts down the DMA module for this device by
- canceling any DMA requests associated with each endpoint and
- then freeing the resources associated with each DMA endpoint.
-
- Returns
- CY_AS_ERROR_SUCCESS - the module shutdown successfully
- CY_AS_ERROR_NOT_RUNNING - the DMA module was not running
-
- See Also
- * CyAsDmaStart
- * CyAsDmaCancel
-*/
-extern cy_as_return_status_t
-cy_as_dma_stop(
- /* The device to stop */
- cy_as_device *dev_p
- );
-
-/* Summary
- This function cancels all outstanding DMA requests on a given endpoint
-
- Description
- This function cancels any DMA requests outstanding on a given endpoint
- by disabling the transfer of DMA requests from the queue to the HAL
- layer and then removing any pending DMA requests from the queue. The
- callback associated with any DMA requests that are being removed is
- called with an error code of CY_AS_ERROR_CANCELED.
-
- Notes
- If a request has already been sent to the HAL layer it will be
- completed and not canceled. Only requests that have not been sent to
- the HAL layer will be cancelled.
-
- Returns
- CY_AS_ERROR_SUCCESS - the traffic on the endpoint is canceled
- successfully
-
- See Also
-*/
-extern cy_as_return_status_t
-cy_as_dma_cancel(
- /* The device of interest */
- cy_as_device *dev_p,
- /* The endpoint to cancel */
- cy_as_end_point_number_t ep,
- cy_as_return_status_t err
- );
-
-/* Summary
- This function enables a single endpoint for DMA operations
-
- Description
- In order to enable the queuing of DMA requests on a given
- endpoint, the endpoint must be enabled for DMA. This function
- enables a given endpoint. In addition, this function sets the
- direction of the DMA operation.
-
- Returns
- * CY_AS_ERROR_INVALID_ENDPOINT - invalid endpoint number
- * CY_AS_ERROR_SUCCESS - endpoint was enabled or disabled
- * successfully
-
- See Also
- * CyAsDmaQueueRequest
-*/
-extern cy_as_return_status_t
-cy_as_dma_enable_end_point(
- /* The device of interest */
- cy_as_device *dev_p,
- /* The endpoint to enable or disable */
- cy_as_end_point_number_t ep,
- /* CyTrue to enable, CyFalse to disable */
- cy_bool enable,
- /* The direction of the endpoint */
- cy_as_dma_direction dir
-);
-
-/* Summary
- This function queue a DMA request for a given endpoint
-
- Description
- When an West Bridge API module wishes to do a DMA operation,
- this function is called on the associated endpoint to queue
- a DMA request. When the DMA request has been fulfilled, the
- callback associated with the DMA operation is called.
-
- Notes
- The buffer associated with the DMA request, must remain valid
- until after the callback function is calld.
-
- Returns
- * CY_AS_ERROR_SUCCESS - the DMA operation was queued successfully
- * CY_AS_ERROR_INVALID_ENDPOINT - the endpoint number was invalid
- * CY_AS_ERROR_ENDPOINT_DISABLED - the endpoint was disabled
- * CY_AS_ERROR_OUT_OF_MEMORY - out of memory processing the request
-
- See Also
- * CyAsDmaEnableEndPoint
- * CyAsDmaCancel
-*/
-extern cy_as_return_status_t
-cy_as_dma_queue_request(
- /* The device of interest */
- cy_as_device *dev_p,
- /* The endpoint to receive a new request */
- cy_as_end_point_number_t ep,
- /* The memory buffer for the DMA request -
- * must be valid until after the callback has been called */
- void *mem_p,
- /* The size of the DMA request in bytes */
- uint32_t size,
- /* If true and a DMA read request, return the next packet
- * regardless of size */
- cy_bool packet,
- /* If true, this is a read request,
- * otherwise it is a write request */
- cy_bool readreq,
- /* The callback to call when the DMA request is complete,
- * either successfully or via an error */
- cy_as_dma_callback cb
- );
-
-/* Summary
- This function waits until all DMA requests on a given endpoint
- have been processed and then return
-
- Description
- There are times when a module in the West Bridge API needs to
- wait until the DMA operations have been queued. This function
- sleeps until all DMA requests have been fulfilled and only then
- returns to the caller.
-
- Notes
- I don't think we will need a list of sleeping clients to support
- multiple parallel client modules sleeping on a single endpoint,
- but if we do instead of having a single sleep channel in the
- endpoint, each client will have to supply a sleep channel and we
- will have to maintain a list of sleep channels to wake.
-
- Returns
- * CY_AS_ERROR_SUCCESS - the queue has drained successfully
- * CY_AS_ERROR_INVALID_ENDPOINT - the endpoint given is not valid
- * CY_AS_ERROR_NESTED_SLEEP - CyAsDmaQueueRequest() was requested
- * on an endpoint where CyAsDmaQueueRequest was already called
-*/
-extern cy_as_return_status_t
-cy_as_dma_drain_queue(
- /* The device of interest */
- cy_as_device *dev_p,
- /* The endpoint to drain */
- cy_as_end_point_number_t ep,
- /* If CyTrue, call kickstart to start the DMA process,
- if cy_false, west bridge will start the DMA process */
- cy_bool kickstart
- );
-
-/* Summary
- Sets the maximum amount of data West Bridge can accept in a single
- DMA Operation for the given endpoint
-
- Description
- Depending on the configuration of the West Bridge device endpoint,
- the amount of data that can be accepted varies. This function
- sets the maximum amount of data West Bridge can accept in a single
- DMA operation. The value is stored with the endpoint and passed
- to the HAL layer in the CyAsHalDmaSetupWrite() and
- CyAsHalDmaSetupRead() functoins.
-
- Returns
- * CY_AS_ERROR_SUCCESS - the value was set successfully
- * CY_AS_ERROR_INVALID_SIZE - the size value was not valid
-*/
-extern cy_as_return_status_t
-cy_as_dma_set_max_dma_size(
- /* The device of interest */
- cy_as_device *dev_p,
- /* The endpoint to change */
- cy_as_end_point_number_t ep,
- /* The max size of this endpoint in bytes */
- uint32_t size
- );
-
-/* Summary
- This function starts the DMA process on a given channel.
-
- Description
- When transferring data from the P port processor to West
- Bridge, the DMA operation must be initiated P Port software
- for the first transfer. Subsequent transferrs will be
- handled at the interrupt level.
-
- Returns
- * CY_AS_ERROR_SUCCESS
-*/
-extern cy_as_return_status_t
-cy_as_dma_kick_start(
- /* The device of interest */
- cy_as_device *dev_p,
- /* The endpoint to change */
- cy_as_end_point_number_t ep
- );
-
-/* Summary
- This function receives endpoint data from a request.
-
- Description
- For endpoint 0 and 1 the endpoint data is transferred from
- the West Bridge device to the DMA via a lowlevel
- requests (via the mailbox registers).
-
- Returns
- * CY_AS_ERROR_SUCCESS
-*/
-extern cy_as_return_status_t
-cy_as_dma_received_data(
- /* The device of interest */
- cy_as_device *dev_p,
- /* The endpoint that received data */
- cy_as_end_point_number_t ep,
- /* The data size */
- uint32_t dsize,
- /* The data buffer */
- void *data
- );
-
-/* Summary
- This function is called when the DMA operation on
- an endpoint has been completed.
-
- Returns
- * void
- */
-extern void
-cy_as_dma_completed_callback(
- /* Tag to HAL completing the DMA operation. */
- cy_as_hal_device_tag tag,
- /* Endpoint on which DMA has been completed. */
- cy_as_end_point_number_t ep,
- /* Length of data received. */
- uint32_t length,
- /* Status of DMA operation. */
- cy_as_return_status_t status
- );
-
-#include "cyas_cplus_end.h"
-
-#endif /* _INCLUDED_CYASDMA_H_ */
+++ /dev/null
-/* Cypress West Bridge API header file (cyaserr.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASERR_H_
-#define _INCLUDED_CYASERR_H_
-
-/*@@West Bridge Errors
- Summary
- This section lists the error codes for West Bridge.
-
-*/
-
-/* Summary
- The function completed successfully
-*/
-#define CY_AS_ERROR_SUCCESS (0)
-
-/* Summary
- A function trying to acquire a resource was unable to do so.
-
- Description
- This code indicates that a resource that the API was trying to claim
- could not be claimed.
-
- See Also
- * CyAsMiscAcquireResource
- * CyAsStorageClaim
-*/
-#define CY_AS_ERROR_NOT_ACQUIRED (1)
-
-/* Summary
- A function trying to acquire a resource was unable to do so.
-
- Description
- The West Bridge API provides the capability to assign the storage media to
- either the West Bridge device or the USB port. This error indicates the
- P port was trying to release a storage media and was not able to do
- so. This generally means it was not owned by the P port processor.
-
- See Also
- * CyAsStorageRelease
-*/
-#define CY_AS_ERROR_NOT_RELEASED (2)
-
-/* Summary
- The West Bridge firmware is not loaded.
-
- Description
- Most of the API functions that are part of the West Bridge API rely on
- firmware running on the West Bridge device. This error code is
- returned when one of these functions is called and the firmware has
- not yet been loaded.
-
- See Also
- * CyAsMiscGetFirmwareVersion
- * CyAsMiscReset
- * CyAsMiscAcquireResource
- * CyAsMiscReleaseResource
- * CyAsMiscSetTraceLevel
- * CyAsStorageStart
- * CyAsStorageStop
- * CyAsStorageRegisterCallback
- * CyAsStorageClaim
- * CyAsStorageRelease
- * CyAsStorageQueryMedia
- * CyAsStorageQueryDevice
- * CyAsStorageQueryUnit
- * CyAsStorageRead
- * CyAsStorageWrite
- * CyAsStorageReadAsync
- * CyAsStorageWriteAsync
-*/
-#define CY_AS_ERROR_NO_FIRMWARE (3)
-
-/* Summary
- A timeout occurred waiting on a response from the West Bridge device
-
- Description
- When requests are made of the West Bridge device, a response is expected
- within a given timeframe. If a response is not recevied within the
- given timeframe, a timeout error occurs.
-*/
-#define CY_AS_ERROR_TIMEOUT (4)
-
-/* Summary
- A request to download firmware was made while not in the CONFIG mode
-
- Description
- Firmware is downloaded via the CyAsMiscDownloadFirmware() function. This
- function can only be called while in the CONFIG mode. This error indicates
- that the CyAsMiscDownloadFirmware() call was made while not in the CONFIG
- mode.
-
- See Also
- * CyAsMiscDownloadFirmware
-*/
-#define CY_AS_ERROR_NOT_IN_CONFIG_MODE (5)
-
-/* Summary
- This error is returned if the firmware size specified is too invalid.
-
- Description
- If the size of the firmware to be downloaded into West Bridge is
- invalid, this error is issued. Invalid firmware sizes are those
- greater than 24K or a size of zero.
-
- See Also
- * CyAsMiscDownloadFirmare
-*/
-#define CY_AS_ERROR_INVALID_SIZE (6)
-
-/* Summary
- This error is returned if a request is made to acquire a resource that has
- already been acquired.
-
- Description
- This error is returned if a request is made to acquire a resource that has
- already been acquired.
-
- See Also
- * CyAsMiscAcquireResource
- * CyAsMiscReleaseResource
-*/
-#define CY_AS_ERROR_RESOURCE_ALREADY_OWNED (7)
-
-/* Summary
- This error is returned if a request is made to release a resource that has
- not previously been acquired.
-
- Description
- This error is returned if a request is made to release a resource that has
- not previously been acquired.
-
- See Also
- * CyAsMiscAcquireResource
- * CyAsMiscReleaseResource
-*/
-#define CY_AS_ERROR_RESOURCE_NOT_OWNED (8)
-
-/* Summary
- This error is returned when a request is made for a media that
- does not exist
-
- Description
- This error is returned when a request is made that references
- a storage media that does not exist. This error is returned
- when the storage media is not present in the current system,
- or if the media value given is not valid.
-
- See Also
- * CyAsMiscSetTraceLevel
- * CyAsStorageClaim
- * CyAsStorageRelease
- * CyAsStorageRead
- * CyAsStorageWrite
- * CyAsStorageReadAsync
- * CyAsStorageWriteAsync
-*/
-#define CY_AS_ERROR_NO_SUCH_MEDIA (9)
-
-/* Summary
- This error is returned when a request is made for a device
- that does not exist
-
- Description
- This error is returned when a request is made that references a
- storage device that does not exist. This error is returned when
- the device index is not present in the current system, or if the
- device index exceeds 15.
-
- See Also
- * CyAsMiscSetTraceLevel
- * CyAsStorageQueryDevice
- * CyAsStorageRead
- * CyAsStorageWrite
- * CyAsStorageReadAsync
- * CyAsStorageWriteAsync
-*/
-#define CY_AS_ERROR_NO_SUCH_DEVICE (10)
-
-/* Summary
- This error is returned when a request is made for a unit that
- does not exist
-
- Description
- This error is returned when a request is made that references
- a storage unit that does not exist. This error is returned
- when the unit index is not present in the current system, or
- if the unit index exceeds 255.
-
- See Also
- * CyAsMiscSetTraceLevel
- * CyAsStorageQueryDevice
- * CyAsStorageQueryUnit
- * CyAsStorageRead
- * CyAsStorageWrite
- * CyAsStorageReadAsync
- * CyAsStorageWriteAsync
-*/
-#define CY_AS_ERROR_NO_SUCH_UNIT (11)
-
-/* Summary
- This error is returned when a request is made for a block that
- does not exist
-
- Description
- This error is returned when a request is made that references
- a storage block that does not exist. This error is returned
- when the block address reference an address beyond the end of
- the unit selected.
-
- See Also
- * CyAsStorageRead
- * CyAsStorageWrite
- * CyAsStorageReadAsync
- * CyAsStorageWriteAsync
-*/
-#define CY_AS_ERROR_INVALID_BLOCK (12)
-
-/* Summary
- This error is returned when an invalid trace level is set.
-
- Description
- This error is returned when the trace level request is greater
- than three.
-
- See Also
- * CyAsMiscSetTraceLevel
-*/
-#define CY_AS_ERROR_INVALID_TRACE_LEVEL (13)
-
-/* Summary
- This error is returned when West Bridge is already in the standby state
- and an attempt is made to put West Bridge into this state again.
-
- Description
- This error is returned when West Bridge is already in the standby state
- and an attempt is made to put West Bridge into this state again.
-
- See Also
- * CyAsMiscEnterStandby
-*/
-#define CY_AS_ERROR_ALREADY_STANDBY (14)
-
-/* Summary
- This error is returned when the API needs to set a pin on the
- West Bridge device, but this is not supported by the underlying HAL
- layer.
-
- Description
- This error is returned when the API needs to set a pin on the
- West Bridge device, but this is not supported by the underlying HAL
- layer.
-
- See Also
- * CyAsMiscEnterStandby
- * CyAsMiscLeaveStandby
-*/
-#define CY_AS_ERROR_SETTING_WAKEUP_PIN (15)
-
-/* Summary
- This error is returned when a module is being started that has
- already been started.
-
- Description
- This error is returned when a module is being started and that module
- has already been started. This error does not occur with the
- CyAsStorageStart() or CyAsUsbStart() functions as the storage and
- USB modules are reference counted.
-
- Note
- At the current time, this error is returned by module internal to
- the API but not returned by any of the API functions.
-*/
-#define CY_AS_ERROR_ALREADY_RUNNING (16)
-
-/* Summary
- This error is returned when a module is being stopped that has
- already been stopped.
-
- Description
- This error is returned when a module is being stopped and that module
- has already been stopped. This error does not occur with the
- CyAsStorageStop() or CyAsUsbStop() functions as the storage and USB
- modules are reference counted.
-
- Note
- At the current time, this error is returned by module internal to
- the API but not returned by any of the API functions.
-*/
-
-#define CY_AS_ERROR_NOT_RUNNING (17)
-
-/* Summary
- This error is returned when the caller tries to claim a media that
- has already been claimed.
-
- Description
- This error is returned when the caller tries to claim a media that
- has already been claimed.
-
- See Also
- * CyAsStorageClaim
-*/
-#define CY_AS_ERROR_MEDIA_ALREADY_CLAIMED (18)
-
-/* Summary
- This error is returned when the caller tries to release a media that has
- already been released.
-
- Description
- This error is returned when the caller tries to release a media that has
- already been released.
-
- See Also
- * CyAsStorageRelease
-*/
-#define CY_AS_ERROR_MEDIA_NOT_CLAIMED (19)
-
-/* Summary
- This error is returned when canceling trying to cancel an asynchronous
- operation when an async operation is not pending.
-
- Description
- This error is returned when a call is made to a function to cancel an
- asynchronous operation and there is no asynchronous operation pending.
-
- See Also
- * CyAsStorageCancelAsync
- * CyAsUsbCancelAsync
-*/
-#define CY_AS_ERROR_NO_OPERATION_PENDING (20)
-
-/* Summary
- This error is returned when an invalid endpoint number is provided to
- an API call.
-
- Description
- This error is returned when an invalid endpoint number is specified in
- an API call. The endpoint number may be invalid because it is greater
- than 15, or because it was a reference to an endpoint that is invalid
- for West Bridge (2, 4, 6, or 8).
-
- See Also
- * CyAsUsbSetEndPointConfig
- * CyAsUsbGetEndPointConfig
- * CyAsUsbReadData
- * CyAsUsbWriteData
- * CyAsUsbReadDataAsync
- * CyAsUsbWriteDataAsync
- * CyAsUsbSetStall
- * CyAsUsbGetStall
-*/
-#define CY_AS_ERROR_INVALID_ENDPOINT (21)
-
-/* Summary
- This error is returned when an invalid descriptor type
- is specified in an API call.
-
- Description
- This error is returned when an invalid descriptor type
- is specified in an API call.
-
- See Also
- * CyAsUsbSetDescriptor
- * CyAsUsbGetDescriptor
-*/
-#define CY_AS_ERROR_INVALID_DESCRIPTOR (22)
-
-/* Summary
- This error is returned when an invalid descriptor index
- is specified in an API call.
-
- Description
- This error is returned when an invalid descriptor index
- is specified in an API call.
-
- See Also
- * CyAsUsbSetDescriptor
- * CyAsUsbGetDescriptor
-*/
-#define CY_AS_ERROR_BAD_INDEX (23)
-
-/* Summary
- This error is returned if trying to set a USB descriptor
- when in the P port enumeration mode.
-
- Description
- This error is returned if trying to set a USB descriptor
- when in the P port enumeration mode.
-
- See Also
- * CyAsUsbSetDescriptor
- * CyAsUsbGetDescriptor
-*/
-#define CY_AS_ERROR_BAD_ENUMERATION_MODE (24)
-
-/* Summary
- This error is returned when the endpoint configuration specified
- is not valid.
-
- Description
- This error is returned when the endpoint configuration specified
- is not valid.
-
- See Also
- * CyAsUsbSetDescriptor
- * CyAsUsbGetDescriptor
- * CyAsUsbCommitConfig
-*/
-#define CY_AS_ERROR_INVALID_CONFIGURATION (25)
-
-/* Summary
- This error is returned when the API cannot verify it is connected
- to an West Bridge device.
-
- Description
- When the API is initialized, the API tries to read the ID register from
- the West Bridge device. The value from this ID register should match the
- value expected before communications with West Bridge are established. This
- error means that the contents of the ID register cannot be verified.
-
- See Also
- * CyAsMiscConfigureDevice
-*/
-#define CY_AS_ERROR_NO_ANTIOCH (26)
-
-/* Summary
- This error is returned when an API function is called and
- CyAsMiscConfigureDevice has not been called to configure West Bridge
- for the current environment.
-
- Description
- This error is returned when an API function is called and
- CyAsMiscConfigureDevice has not been called to configure West Bridge for
- the current environment.
-
- See Also
- * Almost all API function
-*/
-#define CY_AS_ERROR_NOT_CONFIGURED (27)
-
-/* Summary
- This error is returned when West Bridge cannot allocate memory required for
- internal API operations.
-
- Description
- This error is returned when West Bridge cannot allocate memory required for
- internal API operations.
-
- See Also
- * Almost all API functoins
-*/
-#define CY_AS_ERROR_OUT_OF_MEMORY (28)
-
-/* Summary
- This error is returned when a module is being started that has
- already been started.
-
- Description
- This error is returned when a module is being started and that module
- has already been started. This error does not occur with the
- CyAsStorageStart() or CyAsUsbStart() functions as the storage and
- USB modules are reference counted.
-
- Note
- At the current time, this error is returned by module internal to the API but
- not returned by any of the API functions.
-*/
-#define CY_AS_ERROR_NESTED_SLEEP (29)
-
-/* Summary
- This error is returned when an operation is attempted on an endpoint that has
- been disabled.
-
- Description
- This error is returned when an operation is attempted on an endpoint that has
- been disabled.
-
- See Also
- * CyAsUsbReadData
- * CyAsUsbWriteData
- * CyAsUsbReadDataAsync
- * CyAsUsbWriteDataAsync
-*/
-#define CY_AS_ERROR_ENDPOINT_DISABLED (30)
-
-/* Summary
- This error is returned when a call is made to an API function when
- the device is in standby.
-
- Description
- When the West Bridge device is in standby, the only two API functions that
- can be called are CyAsMiscInStandby() and CyAsMiscLeaveStandby().
- Calling any other API function will result in this error.
-
- See Also
-*/
-#define CY_AS_ERROR_IN_STANDBY (31)
-
-/* Summary
- This error is returned when an API call is made with an invalid handle value.
-
- Description
- This error is returned when an API call is made with an invalid handle value.
-
- See Also
-*/
-#define CY_AS_ERROR_INVALID_HANDLE (32)
-
-/* Summary
- This error is returned when an invalid response is returned from
- the West Bridge device.
-
- Description
- Many of the API calls result in requests made to the West Bridge
- device. This error occurs when the response from West Bridge is
- invalid and generally indicates that the West Bridge device
- should be reset.
-
- See Also
-*/
-#define CY_AS_ERROR_INVALID_RESPONSE (33)
-
-/* Summary
- This error is returned from the callback function for any asynchronous
- read or write request that is canceled.
-
- Description
- When asynchronous requests are canceled, this error is passed to the
- callback function associated with the request to indicate that the
- request has been canceled
-
- See Also
- * CyAsStorageReadAsync
- * CyAsStorageWriteAsync
- * CyAsUsbReadDataAsync
- * CyAsUsbWriteDataAsync
- * CyAsStorageCancelAsync
- * CyAsUsbCancelAsync
-*/
-#define CY_AS_ERROR_CANCELED (34)
-
-/* Summary
- This error is returned when the call to create sleep channel fails
- in the HAL layer.
-
- Description
- This error is returned when the call to create sleep channel fails
- in the HAL layer.
-
- See Also
- * CyAsMiscConfigureDevice
-*/
-#define CY_AS_ERROR_CREATE_SLEEP_CHANNEL_FAILED (35)
-
-/* Summary
- This error is returned when the call to CyAsMiscLeaveStandby
- is made and the device is not in standby.
-
- Description
- This error is returned when the call to CyAsMiscLeaveStandby
- is made and the device is not in standby.
-
- See Also
-*/
-#define CY_AS_ERROR_NOT_IN_STANDBY (36)
-
-/* Summary
- This error is returned when the call to destroy sleep channel fails
- in the HAL layer.
-
- Description
- This error is returned when the call to destroy sleep channel fails
- in the HAL layer.
-
- See Also
- * CyAsMiscDestroyDevice
-*/
-#define CY_AS_ERROR_DESTROY_SLEEP_CHANNEL_FAILED (37)
-
-/* Summary
- This error is returned when an invalid resource is specified to a call
- to CyAsMiscAcquireResource() or CyAsMiscReleaseResource()
-
- Description
- This error is returned when an invalid resource is specified to a call
- to CyAsMiscAcquireResource() or CyAsMiscReleaseResource()
-
- See Also
- * CyAsMiscAcquireResource
- * CyAsMiscReleaseResource
-*/
-#define CY_AS_ERROR_INVALID_RESOURCE (38)
-
-/* Summary
- This error occurs when an operation is requested on an endpoint that has
- a currently pending async operation.
-
- Description
- There can only be a single asynchronous pending operation on a given
- endpoint and while the operation is pending on other operation can occur
- on the endpoint. In addition, the device cannot enter standby while
- any asynchronous operations are pending.
-
- See Also
- * CyAsStorageReadAsync
- * CyAsStorageWriteAsync
- * CyAsUsbReadDataAsync
- * CyAsUsbWriteDataAsync
- * CyAsStorageRead
- * CyAsStorageWrite
- * CyAsUsbReadData
- * CyAsUsbWriteData
- * CyAsMiscEnterStandby
-*/
-#define CY_AS_ERROR_ASYNC_PENDING (39)
-
-/* Summary
- This error is returned when a call to CyAsStorageCancelAsync() or
- CyAsUsbCancelAsync() is made when no asynchronous request is pending.
-
- Description
- This error is returned when a call to CyAsStorageCancelAsync() or
- CyAsUsbCancelAsync() is made when no asynchronous request is pending.
-
- See Also
- * CyAsStorageCancelAsync
- * CyAsUsbCancelAsync
-*/
-#define CY_AS_ERROR_ASYNC_NOT_PENDING (40)
-
-/* Summary
- This error is returned when a request is made to put the West Bridge device
- into standby mode while the USB stack is still active.
-
- Description
- This error is returned when a request is made to put the West Bridge device
- into standby mode while the USB stack is still active. You must call the
- function CyAsUsbStop() in order to shut down the USB stack in order to go
- into the standby mode.
-
- See Also
- * CyAsMiscEnterStandby
-*/
-#define CY_AS_ERROR_USB_RUNNING (41)
-
-/* Summary
- A request for in the wrong direction was issued on an endpoint.
-
- Description
- This error is returned when a write is attempted on an OUT endpoint or
- a read is attempted on an IN endpoint.
-
- See Also
- * CyAsUsbReadData
- * CyAsUsbWriteData
- * CyAsUsbReadDataAsync
- * CyAsUsbWriteDataAsync
-*/
-#define CY_AS_ERROR_USB_BAD_DIRECTION (42)
-
-/* Summary
- An invalid request was received
-
- Description
- This error is isused if an invalid request is issued.
-*/
-#define CY_AS_ERROR_INVALID_REQUEST (43)
-
-/* Summary
- An ACK request was requested while no setup packet was pending.
-
- Description
- This error is issued if CyAsUsbAckSetupPacket() is called when no
- setup packet is pending.
-*/
-#define CY_AS_ERROR_NO_SETUP_PACKET_PENDING (44)
-
-/* Summary
- A call was made to a API function that cannot be called from a callback.
-
- Description
- Only asynchronous functions can be called from within West Bridge callbacks.
- This error results when an invalid function is called from a callback.
-*/
-#define CY_AS_ERROR_INVALID_IN_CALLBACK (45)
-
-/* Summary
- A call was made to CyAsUsbSetEndPointConfig() before
- CyAsUsbSetPhysicalConfiguration() was called.
-
- Description
- When logical endpoints are configured, you must define the physical
- endpoint for the logical endpoint being configured. Therefore
- CyAsUsbSetPhysicalConfiguration() must be called to define the
- physical endpoints before calling CyAsUsbSetEndPointConfig().
-*/
-#define CY_AS_ERROR_ENDPOINT_CONFIG_NOT_SET (46)
-
-/* Summary
- The physical endpoint referenced is not valid in the current physical
- configuration
-
- Description
- When logical endpoints are configured, you must define the physical
- endpoint for the logical endpoint being configured. Given the
- current physical configuration, the physical endpoint referenced
- is not valid.
-*/
-#define CY_AS_ERROR_INVALID_PHYSICAL_ENDPOINT (47)
-
-/* Summary
- The data supplied to the CyAsMiscDownloadFirmware() call is not
- aligned on a WORD (16 bit) boundary.
-
- Description
- Many systems have problems with the transfer of data a word at a
- time when the data is not word aligned. For this reason, we
- require that the firmware image be aligned on a word boundary and
- be an even number of bytes. This error is returned if these
- conditions are not met.
-*/
-#define CY_AS_ERROR_ALIGNMENT_ERROR (48)
-
-/* Summary
- A call was made to destroy the West Bridge device, but the USB
- stack or the storage stack was will running.
-
- Description
- Before calling CyAsMiscDestroyDevice to destroy an West Bridge
- device created via a call to CyAsMiscCreateDevice, the USB and
- STORAGE stacks much be stopped via calls to CyAsUsbStop and
- CyAsStorageStop. This error indicates that one of these two
- stacks have not been stopped.
-*/
-#define CY_AS_ERROR_STILL_RUNNING (49)
-
-/* Summary
- A call was made to the API for a function that is not yet supported.
-
- Description
- There are calls that are not yet supported that may be called through
- the API. This is done to maintain compatibility in the future with
- the API. This error is returned if you are asking for a capability
- that does not yet exist.
-*/
-#define CY_AS_ERROR_NOT_YET_SUPPORTED (50)
-
-/* Summary
- A NULL callback was provided where a non-NULL callback was required
-
- Description
- When async IO function are called, a callback is required to indicate
- that the IO has completed. This callback must be non-NULL.
-*/
-#define CY_AS_ERROR_NULL_CALLBACK (51)
-
-/* Summary
- This error is returned when a request is made to put the West Bridge device
- into standby mode while the storage stack is still active.
-
- Description
- This error is returned when a request is made to put the West Bridge device
- into standby mode while the storage stack is still active. You must call the
- function CyAsStorageStop() in order to shut down the storage stack in order
- to go into the standby mode.
-
- See Also
- * CyAsMiscEnterStandby
-*/
-#define CY_AS_ERROR_STORAGE_RUNNING (52)
-
-/* Summary
- This error is returned when an operation is attempted that cannot be
- completed while the USB stack is connected to a USB host.
-
- Description
- This error is returned when an operation is attempted that cannot be
- completed while the USB stack is connected to a USB host. In order
- to successfully complete the desired operation, CyAsUsbDisconnect()
- must be called to disconnect from the host.
-*/
-#define CY_AS_ERROR_USB_CONNECTED (53)
-
-/* Summary
- This error is returned when a USB disconnect is attempted and the
- West Bridge device is not connected.
-
- Description
- This error is returned when a USB disconnect is attempted and the
- West Bridge device is not connected.
-*/
-#define CY_AS_ERROR_USB_NOT_CONNECTED (54)
-
-/* Summary
- This error is returned when an P2S storage operation attempted
- and data could not be read or written to the storage media.
-
- Description
- This error is returned when an P2S storage operation attempted
- and data could not be read or written to the storage media. If
- this error is recevied then a retry can be done.
-*/
-#define CY_AS_ERROR_MEDIA_ACCESS_FAILURE (55)
-
-/* Summary
- This error is returned when an P2S storage operation attempted
- and the media is write protected.
-
- Description
- This error is returned when an P2S storage operation attempted
- and the media is write protected.
-*/
-#define CY_AS_ERROR_MEDIA_WRITE_PROTECTED (56)
-
-/* Summary
- This error is returned when an attempt is made to cancel a request
- that has already been sent to the West Bridge.
-
- Description
- It is not possible to cancel an asynchronous storage read/write
- operation after the actual data transfer with the West Bridge
- has started. This error is returned if CyAsStorageCancelAsync
- is called to cancel such a request.
- */
-#define CY_AS_ERROR_OPERATION_IN_TRANSIT (57)
-
-/* Summary
- This error is returned when an invalid parameter is passed to
- one of the APIs.
-
- Description
- Some of the West Bridge APIs are applicable to only specific
- media types, devices etc. This error code is returned when a
- API is called with an invalid parameter type.
- */
-#define CY_AS_ERROR_INVALID_PARAMETER (58)
-
-/* Summary
- This error is returned if an API is not supported in the current setup.
-
- Description
- Some of the West Bridge APIs work only with specific device types
- or firmware images. This error is returned when such APIs are called
- when the current device or firmware does not support the invoked API
- function.
- */
-#define CY_AS_ERROR_NOT_SUPPORTED (59)
-
-/* Summary
- This error is returned when a call is made to one of the Storage or
- USB APIs while the device is in suspend mode.
-
- Description
- This error is returned when a call is made to one of the storage or
- USB APIs while the device is in suspend mode.
- */
-#define CY_AS_ERROR_IN_SUSPEND (60)
-
-/* Summary
- This error is returned when the call to CyAsMiscLeaveSuspend
- is made and the device is not in suspend mode.
-
- Description
- This error is returned when the call to CyAsMiscLeaveSuspend
- is made and the device is not in suspend mode.
- */
-#define CY_AS_ERROR_NOT_IN_SUSPEND (61)
-
-/* Summary
- This error is returned when a command that is disabled by USB is called.
-
- Description
- The remote wakeup capability should be exercised only if enabled by the
- USB host. This error is returned when the CyAsUsbSignalRemoteWakeup API
- is called when the feature has not been enabled by the USB host.
- */
-#define CY_AS_ERROR_FEATURE_NOT_ENABLED (62)
-
-/* Summary
- This error is returned when an Async storage read or write is called before a
- query device call is issued.
-
- Description
- In order for the SDK to properly set up a DMA the block size of a given media
- needs to be known. This is done by making a call to CyAsStorageQueryDevice.
- This call only needs to be made once per device. If this call is not issued
- before an Async read or write is issued this error code is returned.
- */
-#define CY_AS_ERROR_QUERY_DEVICE_NEEDED (63)
-
-/* Summary
- This error is returned when a call is made to USB or STORAGE Start or
- Stop before a prior Start or Stop has finished.
-
- Description
- The USB and STORAGE start and stop functions can only be called if a
- prior start or stop function call has fully completed. This means when
- an async EX call is made you must wait until the callback for that call
- has been completed before calling start or stop again.
- */
-#define CY_AS_ERROR_STARTSTOP_PENDING (64)
-
-/* Summary
- This error is returned when a request is made for a bus that does not exist
-
- Description
- This error is returned when a request is made that references a bus
- number that does not exist. This error is returned when the bus number
- is not present in the current system, or if the bus number given is not
- valid.
-
- See Also
- * CyAsMiscSetTraceLevel
- * CyAsStorageClaim
- * CyAsStorageRelease
- * CyAsStorageRead
- * CyAsStorageWrite
- * CyAsStorageReadAsync
- * CyAsStorageWriteAsync
-*/
-#define CY_AS_ERROR_NO_SUCH_BUS (65)
-
-/* Summary
- This error is returned when the bus corresponding to a media type cannot
- be resolved.
-
- Description
- In some S-Port configurations, the same media type may be supported on
- multiple buses. In this case, it is not possible to resolve the target
- address based on the media type. This error indicates that only
- bus-based addressing is supported in a particular run-time
- configuration.
-
- See Also
- * CyAsMediaType
- * CyAsBusNumber_t
- */
-#define CY_AS_ERROR_ADDRESS_RESOLUTION_ERROR (66)
-
-/* Summary
- This error is returned when an invalid command is passed to the
- CyAsStorageSDIOSync() function.
-
- Description
- This error indiactes an unknown Command type was passed to the SDIO
- command handler function.
- */
-
-#define CY_AS_ERROR_INVALID_COMMAND (67)
-
-
-/* Summary
- This error is returned when an invalid function /uninitialized
- function is passed to an SDIO function.
-
- Description
- This error indiactes an unknown/uninitialized function number was
- passed to a SDIO function.
- */
-#define CY_AS_ERROR_INVALID_FUNCTION (68)
-
-/* Summary
- This error is returned when an invalid block size is passed to
- CyAsSdioSetBlocksize().
-
- Description
- This error is returned when an invalid block size (greater than
- maximum block size supported) is passed to CyAsSdioSetBlocksize().
- */
-
-#define CY_AS_ERROR_INVALID_BLOCKSIZE (69)
-
-/* Summary
- This error is returned when an tuple requested is not found.
-
- Description
- This error is returned when an tuple requested is not found.
- */
-#define CY_AS_ERROR_TUPLE_NOT_FOUND (70)
-
-/* Summary
- This error is returned when an extended IO operation to an SDIO function is
- Aborted.
- Description
- This error is returned when an extended IO operation to an SDIO function is
- Aborted. */
-#define CY_AS_ERROR_IO_ABORTED (71)
-
-/* Summary
- This error is returned when an extended IO operation to an SDIO function is
- Suspended.
- Description
- This error is returned when an extended IO operation to an SDIO function is
- Suspended. */
-#define CY_AS_ERROR_IO_SUSPENDED (72)
-
-/* Summary
- This error is returned when IO is attempted to a Suspended SDIO function.
- Description
- This error is returned when IO is attempted to a Suspended SDIO function. */
-#define CY_AS_ERROR_FUNCTION_SUSPENDED (73)
-
-/* Summary
- This error is returned if an MTP function is called before MTPStart
- has completed.
- Description
- This error is returned if an MTP function is called before MTPStart
- has completed.
-*/
-#define CY_AS_ERROR_MTP_NOT_STARTED (74)
-
-/* Summary
- This error is returned by API functions that are not valid in MTP
- mode (CyAsStorageClaim for example)
- Description
- This error is returned by API functions that are not valid in MTP
- mode (CyAsStorageClaim for example)
-*/
-#define CY_AS_ERROR_NOT_VALID_IN_MTP (75)
-
-/* Summary
- This error is returned when an attempt is made to partition a
- storage device that is already partitioned.
-
- Description
- This error is returned when an attempt is made to partition a
- storage device that is already partitioned.
-*/
-#define CY_AS_ERROR_ALREADY_PARTITIONED (76)
-
-/* Summary
- This error is returned when a call is made to
- CyAsUsbSelectMSPartitions after CyAsUsbSetEnumConfig is called.
-
- Description
- This error is returned when a call is made to
- CyAsUsbSelectMSPartitions after CyAsUsbSetEnumConfig is called.
- */
-#define CY_AS_ERROR_INVALID_CALL_SEQUENCE (77)
-
-/* Summary
- This error is returned when a StorageWrite opperation is attempted
- during an ongoing MTP transfer.
- Description
- This error is returned when a StorageWrite opperation is attempted
- during an ongoing MTP transfer. A MTP transfer is initiated by a
- call to CyAsMTPInitSendObject or CyAsMTPInitGetObject and is not
- finished until the CyAsMTPSendObjectComplete or
- CyAsMTPGetObjectComplete event is generated.
-*/
-#define CY_AS_ERROR_NOT_VALID_DURING_MTP (78)
-
-/* Summary
- This error is returned when a StorageRead or StorageWrite is
- attempted while a UsbRead or UsbWrite on a Turbo endpoint (2 or 6) is
- pending, or visa versa.
- Description
- When there is a pending usb read or write on a turbo endpoint (2 or 6)
- a storage read or write call may not be performed. Similarly when there
- is a pending storage read or write a usb read or write may not be
- performed on a turbo endpoint (2 or 6).
-*/
-#define CY_AS_ERROR_STORAGE_EP_TURBO_EP_CONFLICT (79)
-
-/* Summary
- This error is returned when processor requests to reserve greater
- number of zones than available for proc booting via lna firmware.
-
- Description
- Astoria does not allocate any nand zones for the processor in this case.
-*/
-#define CY_AS_ERROR_EXCEEDED_NUM_ZONES_AVAIL (80)
-
-#endif /* _INCLUDED_CYASERR_H_ */
+++ /dev/null
-/* Cypress West Bridge API header file (cyashal.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASHAL_H_
-#define _INCLUDED_CYASHAL_H_
-
-#if !defined(__doxygen__)
-
-/* The possible HAL layers defined and implemented by Cypress */
-
-#ifdef __CY_ASTORIA_FPGA_HAL__
-#ifdef CY_HAL_DEFINED
-#error only one HAL layer can be defined
-#endif
-
-#define CY_HAL_DEFINED
-
-#include "cyashalfpga.h"
-#endif
-
-/***** SCM User space HAL ****/
-#ifdef __CY_ASTORIA_SCM_HAL__
-#ifdef CY_HAL_DEFINED
-#error only one HAL layer can be defined
-#endif
-
-#define CY_HAL_DEFINEDŚŚ
-
-#include "cyanhalscm.h"
-#endif
-/***** SCM User space HAL ****/
-
-/***** SCM Kernel HAL ****/
-#ifdef __CY_ASTORIA_SCM_KERNEL_HAL__
-#ifdef CY_HAL_DEFINED
-#error only one HAL layer can be defined
-#endif
-
-#define CY_HAL_DEFINEDÅš
-
-#include "cyanhalscm_kernel.h"
-#endif
-/***** SCM Kernel HAL ****/
-
-/***** OMAP5912 Kernel HAL ****/
-#ifdef __CY_ASTORIA_OMAP_5912_KERNEL_HAL__
- #ifdef CY_HAL_DEFINED
- #error only one HAL layer can be defined
- #endif
-
- #define CY_HAL_DEFINED
-
- #include "cyanhalomap_kernel.h"
-#endif
-/***** eof OMAP5912 Kernel HAL ****/
-
-
-
-/***** OMAP3430 Kernel HAL ****/
-#ifdef CONFIG_MACH_OMAP3_WESTBRIDGE_AST_PNAND_HAL
-
- #ifdef CY_HAL_DEFINED
- #error only one HAL layer can be defined
- #endif
-
- #define CY_HAL_DEFINED
-/* moved to staging location, eventual implementation
- * considered is here
- * #include mach/westbridge/westbridge-omap3-pnand-hal/cyashalomap_kernel.h>
-*/
- #include "../../../arch/arm/plat-omap/include/mach/westbridge/westbridge-omap3-pnand-hal/cyashalomap_kernel.h"
-
-#endif
-/*****************************/
-
-
-/******/
-#ifdef __CY_ASTORIA_CUSTOMER_HAL__
-#ifdef CY_HAL_DEFINED
-#error only one HAL layer can be defined
-#endif
-br
-#define CY_HAL_DEFINED
-#include "cyashal_customer.h"
-
-#endif
-
-#endif /* __doxygen__ */
-
-#endif /* _INCLUDED_CYASHAL_H_ */
+++ /dev/null
-/* Cypress West Bridge API header file (cyashalcb.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASHALCB_H_
-#define _INCLUDED_CYASHALCB_H_
-
-/* Summary
- This type defines a callback function type called when a
- DMA operation has completed.
-
- Description
-
- See Also
- * CyAsHalDmaRegisterCallback
- * CyAsHalDmaSetupWrite
- * CyAsHalDmaSetupRead
-*/
-typedef void (*cy_as_hal_dma_complete_callback)(
- cy_as_hal_device_tag tag,
- cy_as_end_point_number_t ep,
- uint32_t cnt,
- cy_as_return_status_t ret);
-
-typedef cy_as_hal_dma_complete_callback \
- cy_an_hal_dma_complete_callback;
-#endif
+++ /dev/null
-/* Cypress West Bridge API header file (cyashaldoc.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASHALDOC_H_
-#define _INCLUDED_CYASHALDOC_H_
-
-#include "cyashaldef.h"
-
-/*@@Hardware Abstraction Layer (HAL)
- Summary
- This software module is supplied by the user of the West Bridge
- API. This module contains the software that is specific to the
- hardware implementation or operating system of the client
- system.
-
- * Sleep Channels *
- A sleep channel is a operating system object that provides that
- capability for one thread or process to sleep while waiting on
- the completion of some hardware event. The hardware event is
- usually processed by a hardware interrupt and the interrupt
- handler then wakes the thread or process that is sleeping.
-
- A sleep channel provides the mechanism for this operation. A
- sleep channel is created and initialized during the API
- initialization. When the API needs to wait for the hardware,
- the API performs a SleepOn() operation on the sleep channel.
- When hardware event occurs, an interrupt handler processes the
- event and then performs a Wake() operation on the sleep channel
- to wake the sleeping process or thread.
-
- * DMA Model *
- When the West Bridge API needs to transfer USB or storage data
- to/from the West Bridge device, this is done using a "DMA"
- operation. In this context the term DMA is used loosely as the
- West Bridge API does not really care if the data is transferred
- using a burst read or write operation, or if the data is
- transferred using programmed I/O operations. When a "DMA"
- operation is needed, the West Bridge API calls either
- CyAsHalDmaSetupRead() or CyAsHalDmaSetupWrite() depending on the
- direction of the data flow. The West Bridge API expects the
- "DMA" operation requested in the call to be completed and the
- registered "DMA complete" callback to be called.
-
- The West Bridge API looks at several factors to determine the
- size of the "DMA" request to pass to the HAL layer. First the
- West Bridge API calls CyAsHalDmaMaxRequestSize() to determine
- the maximum amount of data the HAL layer can accept for a "DMA"
- operation on the requested endpoint. The West Bridge API will
- never exceed this value in a "DMA" request to the HAL layer.
- The West Bridge API also sends the maximum amount of data the
- West Bridge device can accept as part of the "DMA" request. If
- the amount of data in the "DMA" request to the HAL layer
- exceeds the amount of data the West Bridge device can accept,
- it is expected that the HAL layer has the ability to break the
- request into multiple operations.
-
- If the HAL implementation requires the API to handle the size
- of the "DMA" requests for one or more endpoints, the value
- CY_AS_DMA_MAX_SIZE_HW_SIZE can be returned from the
- CyAsHalDmaMaxRequestSize() call. In this case, the API assumes
- that the maximum size of each "DMA" request should be limited
- to the maximum that can be accepted by the endpoint in question.
-
- Notes
- See the <install>/api/hal/scm_kernel/cyashalscm_kernel.c file
- for an example of how the DMA request size can be managed by
- the HAL implementation.
-
- * Interrupt Handling *
- The HAL implementation is required to handle interrupts arriving
- from the West Bridge device, and call the appropriate handlers.
- If the interrupt arriving is one of PLLLOCKINT, PMINT, MBINT or
- MCUINT, the CyAsIntrServiceInterrupt API should be called to
- service the interrupt. If the interrupt arriving is DRQINT, the
- HAL should identify the endpoint corresponding to which the DRQ
- is being generated and perform the read/write transfer from the
- West Bridge. See the <install>/api/hal/scm_kernel/
- cyashalscm_kernel.c or <install>/api/hal/fpga/cyashalfpga.c
- reference HAL implementations for examples.
-
- The HAL implementation can choose to poll the West Bridge
- interrupt status register instead of using interrupts. In this
- case, the polling has to be performed from a different thread/
- task than the one running the APIs. This is required because
- there are API calls that block on the reception of data from the
- West Bridge, which is delivered only through the interrupt
- handlers.
-
- * Required Functions *
- This section defines the types and functions that must be
- supplied in order to provide a complete HAL layer for the
- West Bridge API.
-
- Types that must be supplied:
- * CyAsHalSleepChannel
-
- Hardware functions that must be supplied:
- * CyAsHalWriteRegister
- * CyAsHalReadRegister
- * CyAsHalDmaSetupWrite
- * CyAsHalDmaSetupRead
- * CyAsHalDmaCancelRequest
- * CyAsHalDmaRegisterCallback
- * CyAsHalDmaMaxRequestSize
- * CyAsHalSetWakeupPin
- * CyAsHalSyncDeviceClocks
- * CyAsHalInitDevRegisters
- * CyAsHalReadRegsBeforeStandby
- * CyAsHalRestoreRegsAfterStandby
-
- Operating system functions that must be supplied:
- * CyAsHalAlloc
- * CyAsHalFree
- * CyAsHalCBAlloc
- * CyAsHalCBFree
- * CyAsHalMemSet
- * CyAsHalCreateSleepChannel
- * CyAsHalDestroySleepChannel
- * CyAsHalSleepOn
- * CyAsHalWake
- * CyAsHalDisableInterrupts
- * CyAsHalEnableInterrupts
- * CyAsHalSleep150
- * CyAsHalSleep
- * CyAsHalAssert
- * CyAsHalPrintMessage
- * CyAsHalIsPolling
-*/
-
-/* Summary
- This is the type that represents a sleep channel
-
- Description
- A sleep channel is an operating system object that, when a
- thread of control waits on the sleep channel, the thread
- sleeps until another thread signals the sleep object. This
- object is generally used when a high level API is called
- and must wait for a response that is supplied in an interrupt
- handler. The thread calling the API is put into a sleep
- state and when the reply arrives via the interrupt handler,
- the interrupt handler wakes the sleeping thread to indicate
- that the expect reply is available.
-*/
-typedef struct cy_as_hal_sleep_channel {
- /* This structure is filled in with OS specific information
- to implementat a sleep channel */
- int m_channel;
-} cy_as_hal_sleep_channel;
-
-/* Summary
- This function is called to write a register value
-
- Description
- This function is called to write a specific register to a
- specific value. The tag identifies the device of interest.
- The address is relative to the base address of the West
- Bridge device.
-
- Returns
- Nothing
-
- See Also
- * CyAsHalDeviceTag
- * CyAsHalReadRegister
-*/
-EXTERN void
-cy_as_hal_write_register(
-/* The tag to ID a specific West Bridge device */
- cy_as_hal_device_tag tag,
- /* The address we are writing to */
- uint16_t addr,
- /* The value to write to the register */
- uint16_t value
- );
-
-/* Summary
- This function is called to read a register value
-
- Description
- This function is called to read the contents of a specific
- register. The tag identifies the device of interest. The
- address is relative to the base address of the West Bridge
- device.
-
- Returns
- Contents of the register
-
- See Also
- * CyAsHalDeviceTag
- * CyAsHalWriteRegister
-*/
-EXTERN uint16_t
-cy_as_hal_read_register(
- /* The tag to ID a specific West Bridge device */
- cy_as_hal_device_tag tag,
- /* The address we are writing to */
- uint16_t addr
- );
-
-/* Summary
- This function initiates a DMA write operation to write
- to West Bridge
-
- Description
- This function initiates a DMA write operation. The request
- size will not exceed the value the HAL layer returned via
- CyAsHalDmaMaxRequestSize(). This request size may exceed
- the size of what the West Bridge device will accept as on
- packet and the HAL layer may need to divide the request
- into multiple hardware DMA operations.
-
- Returns
- None
-
- See Also
- * CyAsHalDmaSetupRead
- * CyAsHalDmaMaxRequestSize
-*/
-EXTERN void
-cy_as_hal_dma_setup_write(
- /* The tag to ID a specific West Bridge device */
- cy_as_hal_device_tag tag,
- /* The endpoint we are writing to */
- cy_as_end_point_number_t ep,
- /* The data to write via DMA */
- void *buf_p,
- /* The size of the data at buf_p */
- uint32_t size,
- /* The maximum amount of data that the endpoint
- * can accept as one packet */
- uint16_t maxsize
- );
-
-/* Summary
- This function initiates a DMA read operation from West Bridge
-
- Description
- This function initiates a DMA read operation. The request
- size will not exceed the value the HAL layer returned via
- CyAsHalDmaMaxRequestSize(). This request size may exceed
- the size of what the Anitoch will accept as one packet and
- the HAL layer may need to divide the request into multiple
- hardware DMA operations.
-
- Returns
- None
-
- See Also
- * CyAsHalDmaSetupRead
- * CyAsHalDmaMaxRequestSize
-*/
-EXTERN void
-cy_as_hal_dma_setup_read(
- /* The tag to ID a specific West Bridge device */
- cy_as_hal_device_tag tag,
- /* The endpoint we are reading from */
- cy_as_end_point_number_t ep,
- /* The buffer to read data into */
- void *buf_p,
- /* The amount of data to read */
- uint32_t size,
- /* The maximum amount of data that the endpoint
- * can provide in one DMA operation */
- uint16_t maxsize
- );
-
-/* Summary
- This function cancels a pending DMA request
-
- Description
- This function cancels a pending DMA request that has been
- passed down to the hardware. The HAL layer can elect to
- physically cancel the request if possible, or just ignore
- the results of the request if it is not possible.
-
- Returns
- None
-*/
-EXTERN void
-cy_as_hal_dma_cancel_request(
- /* The tag to ID a specific West Bridge device */
- cy_as_hal_device_tag tag,
- /* The endpoint we are reading from */
- cy_as_end_point_number_t ep
- );
-
-/* Summary
- This function registers a callback function to be called when
- a DMA request is completed
-
- Description
- This function registers a callback that is called when a request
- issued via CyAsHalDmaSetupWrite() or CyAsHalDmaSetupRead() has
- completed.
-
- Returns
- None
-
- See Also
- * CyAsHalDmaSetupWrite
- * CyAsHalDmaSetupRead
-*/
-EXTERN void
-cy_as_hal_dma_register_callback(
- /* The tag to ID a specific West Bridge device */
- cy_as_hal_device_tag tag,
- /* The callback to call when a request has completed */
- cy_as_hal_dma_complete_callback cb
- );
-
-/* Summary
- This function returns the maximum size of a DMA request that can
- be handled by the HAL.
-
- Description
- When DMA requests are passed to the HAL layer for processing,
- the HAL layer may have a limit on the size of the request that
- can be handled. This function is called by the DMA manager for
- an endpoint when DMA is enabled to get the maximum size of data
- the HAL layer can handle. The DMA manager insures that a request
- is never sent to the HAL layer that exceeds the size returned by
- this function.
-
- Returns
- the maximum size of DMA request the HAL layer can handle
-*/
-EXTERN uint32_t
-cy_as_hal_dma_max_request_size(
- /* The tag to ID a specific West Bridge device */
- cy_as_hal_device_tag tag,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep
- );
-
-/* Summary
- This function sets the WAKEUP pin to a specific state on the
- West Bridge device.
-
- Description
- In order to enter the standby mode, the WAKEUP pin must be
- de-asserted. In order to resume from standby mode, the WAKEUP
- pin must be asserted. This function provides the mechanism to
- do this.
-
- Returns
- 1 if the pin was changed, 0 if the HAL layer does not support
- changing this pin
-*/
-EXTERN uint32_t
-cy_as_hal_set_wakeup_pin(
- /* The tag to ID a specific West Bridge device */
- cy_as_hal_device_tag tag,
- /* The desired state of the wakeup pin */
- cy_bool state
- );
-
-/* Summary
- Synchronise the West Bridge device clocks to re-establish device
- connectivity.
-
- Description
- When the Astoria bridge device is working in SPI mode, a long
- period of inactivity can cause a loss of serial synchronisation
- between the processor and Astoria. This function is called by
- the API when it detects such a condition, and is expected to take
- the action required to re-establish clock synchronisation between
- the devices.
-
- Returns
- CyTrue if the attempt to re-synchronise is successful,
- CyFalse if not.
- */
-EXTERN cy_bool
-cy_as_hal_sync_device_clocks(
- /* The tag to ID a specific West Bridge device */
- cy_as_hal_device_tag tag,
- );
-
-/* Summary
- Initialize West Bridge device registers that may have been
- modified while the device was in standby.
-
- Description
- The content of some West Bridge registers may be lost when
- the device is placed in standby mode. This function restores
- these register contents so that the device can continue to
- function normally after it wakes up from standby mode.
-
- This function is required to perform operations only when the
- API is being used with the Astoria device in one of the PNAND
- modes or in the PSPI mode. It can be a no-operation in all
- other cases.
-
- Returns
- None
- */
-EXTERN void
-cy_as_hal_init_dev_registers(
- /* The tag to ID a specific West Bridge device */
- cy_as_hal_device_tag tag,
- /* Indicates whether this is a wake-up from standby. */
- cy_bool is_standby_wakeup
- );
-
-/* Summary
- This function reads a set of P-port accessible device registers and
- stores their value for later use.
-
- Description
- The West Bridge Astoria device silicon has a known problem when
- operating in SPI mode on the P-port, where some of the device
- registers lose their value when the device goes in and out of
- standby mode. The suggested work-around is to reset the Astoria
- device as part of the wakeup procedure from standby.
-
- This requires that the values of some of the P-port accessible
- registers be restored to their pre-standby values after it has
- been reset. This HAL function can be used to read and store
- the values of these registers at the point where the device is
- being placed in standby mode.
-
- Returns
- None
-
- See Also
- * CyAsHalRestoreRegsAfterStandby
- */
-EXTERN void
-cy_as_hal_read_regs_before_standby(
- /* The tag to ID a specific West Bridge device */
- cy_as_hal_device_tag tag
- );
-
-/* Summary
- This function restores the old values to a set of P-port
- accessible device registers.
-
- Description
- This function is part of the work-around to a known West
- Bridge Astoria device error when operating in SPI mode on
- the P-port. This function is used to restore a set of
- P-port accessible registers to the values they had before
- the device was placed in standby mode.
-
- Returns
- None
-
- See Also
- * CyAsHalRestoreRegsAfterStandby
- */
-EXTERN void
-cy_as_hal_restore_regs_after_standby(
- /* The tag to ID a specific West Bridge device */
- cy_as_hal_device_tag tag
- );
-
-/*
- * The functions below this comment are part of the HAL layer,
- * as the HAL layer consists of the abstraction to both the
- * hardware platform and the operating system. However; the
- * functions below this comment all relate to the operating
- * environment and not specifically to the hardware platform
- * or specific device.
- */
-
-/* Summary
- This function allocates a block of memory
-
- Description
- This is the HAL layer equivalent of the malloc() function.
-
- Returns
- a pointer to a block of memory
-
- See Also
- * CyAsHalFree
-*/
-EXTERN void *
-cy_as_hal_alloc(
- /* The size of the memory block to allocate */
- uint32_t size
- );
-
-/* Summary
- This function frees a previously allocated block of memory
-
- Description
- This is the HAL layer equivalent of the free() function.
-
- Returns
- None
-
- See Also
- * CyAsHalAlloc
-*/
-EXTERN void
-cy_as_hal_free(
- /* Pointer to a memory block to free */
- void *ptr
- );
-
-/* Summary
- This function is a malloc equivalent that can be used from an
- interrupt context.
-
- Description
- This function is a malloc equivalent that will be called from the
- API in callbacks. This function is required to be able to provide
- memory in interrupt context.
-
- Notes
- For platforms where it is not possible to allocate memory in interrupt
- context, we provide a reference allocator that takes memory during
- initialization and implements malloc/free using this memory.
- See the <install>/api/hal/fpga/cyashalblkalloc.[ch] files for the
- implementation, and the <install>/api/hal/fpga/cyashalfpga.c file
- for an example of the use of this allocator.
-
- Returns
- A pointer to the allocated block of memory
-
- See Also
- * CyAsHalCBFree
- * CyAsHalAlloc
-*/
-EXTERN void *
-cy_as_hal_c_b_alloc(
- /* The size of the memory block to allocate */
- uint32_t size
- );
-
-/* Summary
- This function frees the memory allocated through the CyAsHalCBAlloc
- call.
-
- Description
- This function frees memory allocated through the CyAsHalCBAlloc
- call, and is also required to support calls from interrupt
- context.
-
- Returns
- None
-
- See Also
- * CyAsHalCBAlloc
- * CyAsHalFree
-*/
-EXTERN void
-cy_as_hal_c_b_free(
- /* Pointer to the memory block to be freed */
- void *ptr
- );
-
-/* Summary
- This function sets a block of memory to a specific value
-
- Description
- This function is the HAL layer equivalent of the memset() function.
-
- Returns
- None
-*/
-EXTERN void
-cy_as_mem_set(
- /* A pointer to a block of memory to set */
- void *ptr,
- /* The value to set the memory to */
- uint8_t value,
- /* The number of bytes to set */
- uint32_t cnt
- );
-
-/* Summary
- This function creates or initializes a sleep channel
-
- Description
- This function creates or initializes a sleep channel. The
- sleep channel defined using the HAL data structure
- CyAsHalSleepChannel.
-
- Returns
- CyTrue is the initialization was successful, and CyFalse otherwise
-
- See Also
- * CyAsHalSleepChannel
- * CyAsHalDestroySleepChannel
- * CyAsHalSleepOn
- * CyAsHalWake
-*/
-EXTERN cy_bool
-cy_as_hal_create_sleep_channel(
- /* Pointer to the sleep channel to create/initialize */
- cy_as_hal_sleep_channel *chan
- );
-
-/* Summary
- This function destroys an existing sleep channel
-
- Description
- This function destroys an existing sleep channel. The sleep channel
- is of type CyAsHalSleepChannel.
-
- Returns
- CyTrue if the channel was destroyed, and CyFalse otherwise
-
- See Also
- * CyAsHalSleepChannel
- * CyAsHalCreateSleepChannel
- * CyAsHalSleepOn
- * CyAsHalWake
-*/
-EXTERN cy_bool
-cy_as_hal_destroy_sleep_channel(
- /* The sleep channel to destroy */
- cy_as_hal_sleep_channel chan
- );
-
-/* Summary
- This function causes the calling process or thread to sleep until
- CyAsHalWake() is called
-
- Description
- This function causes the calling process or threadvto sleep.
- When CyAsHalWake() is called on the same sleep channel, this
- processes or thread is then wakened and allowed to run
-
- Returns
- CyTrue if the thread or process is asleep, and CyFalse otherwise
-
- See Also
- * CyAsHalSleepChannel
- * CyAsHalWake
-*/
-EXTERN cy_bool
-cy_as_hal_sleep_on(
- /* The sleep channel to sleep on */
- cy_as_hal_sleep_channel chan,
- /* The maximum time to sleep in milli-seconds */
- uint32_t ms
- );
-
-/* Summary
- This function casues the process or thread sleeping on the given
- sleep channel to wake
-
- Description
- This function causes the process or thread sleeping on the given
- sleep channel to wake. The channel
-
- Returns
- CyTrue if the thread or process is awake, and CyFalse otherwise
-
- See Also
- * CyAsHalSleepChannel
- * CyAsHalSleepOn
-*/
-EXTERN cy_bool
-cy_as_hal_wake(
- /* The sleep channel to wake */
- cy_as_hal_sleep_channel chan
- );
-
-/* Summary
- This function disables interrupts, insuring that short bursts
- of code can be run without danger of interrupt handlers running.
-
- Description
- There are cases within the API when lists must be manipulated by
- both the API and the associated interrupt handlers. In these
- cases, interrupts must be disabled to insure the integrity of the
- list during the modification. This function is used to disable
- interrupts during the short intervals where these lists are being
- changed.
-
- The HAL must have the ability to nest calls to
- CyAsHalDisableInterrupts and CyAsHalEnableInterrupts.
-
- Returns
- Any interrupt related state value which will be passed back into
- the subsequent CyAsHalEnableInterrupts call.
-
- See Also
- * CyAsHalEnableInterrupts
-*/
-EXTERN uint32_t
-cy_as_hal_disable_interrupts();
-
-/* Summary
- This function re-enables interrupts after a critical section of
- code in the API has been completed.
-
- Description
- There are cases within the API when lists must be manipulated by
- both the API and the associated interrupt handlers. In these
- cases, interrupts must be disabled to insure the integrity of the
- list during the modification. This function is used to enable
- interrupts after the short intervals where these lists are being
- changed.
-
- See Also
- * CyAsHalDisableInterrupts
-*/
-EXTERN void
-cy_as_hal_enable_interrupts(
- /* Value returned by the previous CyAsHalDisableInterrupts call. */
- uint32_t value
- );
-
-/* Summary
- This function sleeps for 150 ns.
-
- Description
- This function sleeps for 150 ns before allowing the calling function
- to continue. This function is used for a specific purpose and the
- sleep required is at least 150 ns.
-*/
-EXTERN void
-cy_as_hal_sleep150(
- );
-
-/* Summary
- This function sleeps for the given number of milliseconds
-
- Description
- This function sleeps for at least the given number of milliseonds
-*/
-EXTERN void
-cy_as_hal_sleep(
- uint32_t ms
- );
-
-/* Summary
- This function asserts when the condition evaluates to zero
-
- Description
- Within the API there are conditions which are checked to insure
- the integrity of the code. These conditions are checked only
- within a DEBUG build. This function is used to check the condition
- and if the result evaluates to zero, it should be considered a
- fatal error that should be reported to Cypress.
-*/
-EXTERN void
-cy_as_hal_assert(
- /* The condition to evaluate */
- cy_bool cond
- );
-
-/* Summary
- This function prints a message from the API to a human readable device
-
- Description
- There are places within the West Bridge API where printing a message
- is useful to the debug process. This function provides the mechanism
- to print a message.
-
- Returns
- NONE
-*/
-EXTERN void
-cy_as_hal_print_message(
- /* The message to print */
- const char *fmt_p,
- ... /* Variable arguments */
- );
-
-/* Summary
- This function reports whether the HAL implementation uses
- polling to service data coming from the West Bridge.
-
- Description
- This function reports whether the HAL implementation uses
- polling to service data coming from the West Bridge.
-
- Returns
- CyTrue if the HAL polls the West Bridge Interrupt Status registers
- to complete operations, CyFalse if the HAL is interrupt driven.
- */
-EXTERN cy_bool
-cy_as_hal_is_polling(
- void);
-
-#endif
+++ /dev/null
-/* Cypress West Bridge API header file (cyasintr.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASINTR_H_
-#define _INCLUDED_CYASINTR_H_
-
-#include "cyasdevice.h"
-
-#include "cyas_cplus_start.h"
-
-/* Summary
- Initialize the interrupt manager module
-
- Description
- This function is called to initialize the interrupt module.
- This module enables interrupts as well as servies West Bridge
- related interrupts by determining the source of the interrupt
- and calling the appropriate handler function.
-
- Notes
- If the dmaintr parameter is TRUE, the initialization code
- initializes the interrupt mask to have the DMA related interrupt
- enabled via the general purpose interrupt. However, the interrupt
- service function assumes that the DMA interrupt is handled by the
- HAL layer before the interrupt module handler function is called.
-
- Returns
- * CY_AS_ERROR_SUCCESS - the interrupt module was initialized
- * correctly
- * CY_AS_ERROR_ALREADY_RUNNING - the interrupt module was already
- * started
-
- See Also
- * CyAsIntrStop
- * CyAsServiceInterrupt
-*/
-cy_as_return_status_t
-cy_as_intr_start(
- /* Device being initialized */
- cy_as_device *dev_p,
- /* If true, enable the DMA interrupt through the INT signal */
- cy_bool dmaintr
- );
-
-/* Summary
- Stop the interrupt manager module
-
- Description
- This function stops the interrupt module and masks all interrupts
- from the West Bridge device.
-
- Returns
- * CY_AS_ERROR_SUCCESS - the interrupt module was stopped
- * successfully
- * CY_AS_ERROR_NOT_RUNNING - the interrupt module was not
- * running
-
- See Also
- * CyAsIntrStart
- * CyAsServiceInterrupt
-*/
-cy_as_return_status_t
-cy_as_intr_stop(
- /* Device bein stopped */
- cy_as_device *dev_p
- );
-
-
-/* Summary
- The interrupt service routine for West Bridge
-
- Description
- When an interrupt is detected, this function is called to
- service the West Bridge interrupt. It is safe and efficient
- for this function to be called when no West Bridge interrupt
- has occurred. This function will determine it is not an West
- Bridge interrupt quickly and return.
-*/
-void cy_as_intr_service_interrupt(
- /* The USER supplied tag for this device */
- cy_as_hal_device_tag tag
- );
-
-#include "cyas_cplus_end.h"
-
-#endif /* _INCLUDED_CYASINTR_H_ */
+++ /dev/null
-/* Cypress West Bridge API header file (cyaslep2pep.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASLEP2PEP_H_
-#define _INCLUDED_CYASLEP2PEP_H_
-
-#include "cyasdevice.h"
-
-extern cy_as_return_status_t
-cy_as_usb_map_logical2_physical(cy_as_device *dev_p);
-
-extern cy_as_return_status_t
-cy_as_usb_setup_dma(cy_as_device *dev_p);
-
-extern cy_as_return_status_t
-cy_as_usb_set_dma_sizes(cy_as_device *dev_p);
-
-#endif
+++ /dev/null
-/* Cypress West Bridge API header file (cyaslowlevel.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASLOWLEVEL_H_
-#define _INCLUDED_CYASLOWLEVEL_H_
-
-/*@@Low Level Communications
-
- Summary
- The low level communications module is responsible for
- communications between the West Bridge device and the P
- port processor. Communications is organized as a series
- of requests and subsequent responses. For each request
- there is a one and only one response. Requests may go
- from the West Bridge device to the P port processor, or
- from the P Port processor to the West Bridge device.
-
- Description
- Requests are issued across what is called a context. A
- context is a single channel of communications from one
- processor to another processor. There can be only a single
- request outstanding on a context at a given time. Contexts
- are used to identify subsystems that can only process a
- single request at a time, but are independent of other
- contexts in the system. For instance, there is a context
- for communicating storage commands from the P port processor
- to the West Bridge device. There is also a context for
- communicating USB commands from the P port processor to the
- West Bridge device.
-
- Requests and responses are identical with the exception of
- the type bit in the request/response header. If the type
- bit is one, the packet is a request. If this bit is zero,
- the packet is a response. Also encoded within the header of
- the request/response is the code. The code is a command
- code for a request, or a response code for a response. For
- a request, the code is a function of the context. The code
- 0 has one meaning for the storage context and a different
- meaning for the USB context. The code is treated differently
- in the response. If the code in the response is less than 16,
- then the meaning of the response is global across all
- contexts. If the response is greater than or equal to 16,
- then the response is specific to the associated context.
-
- Requests and responses are transferred between processors
- through the mailbox registers. It may take one or more cycles
- to transmit a complete request or response. The context is
- encoded into each cycle of the transfer to insure the
- receiving processor can route the data to the appropriate
- context for processing. In this way, the traffic from multiple
- contexts can be multiplexed into a single data stream through
- the mailbox registers by the sending processor, and
- demultiplexed from the mailbox registers by the receiving
- processor.
-
- * Firmware Assumptions *
- The firmware assumes that mailbox contents will be consumed
- immediately. Therefore for multi-cycle packets, the data is
- sent in a tight polling loop from the firmware. This implies
- that the data must be read from the mailbox register on the P
- port side and processed immediately or performance of the
- firmware will suffer. In order to insure this is the case,
- the data from the mailboxes is read and stored immediately
- in a per context buffer. This occurs until the entire packet
- is received at which time the request packet is processed.
- Since the protocol is designed to allow for only one
- outstanding packet at a time, the firmware can never be in a
- position of waiting on the mailbox registers while the P port
- is processing a request. Only after the response to the
- previous request is sent will another request be sent.
-*/
-
-#include "cyashal.h"
-#include "cyasdevice.h"
-
-#include "cyas_cplus_start.h"
-
-/*
- * Constants
- */
-#define CY_AS_REQUEST_RESPONSE_CODE_MASK (0x00ff)
-#define CY_AS_REQUEST_RESPONSE_CONTEXT_MASK (0x0F00)
-#define CY_AS_REQUEST_RESPONSE_CONTEXT_SHIFT (8)
-#define CY_AS_REQUEST_RESPONSE_TYPE_MASK (0x4000)
-#define CY_AS_REQUEST_RESPONSE_LAST_MASK (0x8000)
-#define CY_AS_REQUEST_RESPONSE_CLEAR_STR_FLAG (0x1000)
-
-/*
- * These macros extract the data from a 16 bit value
- */
-#define cy_as_mbox_get_code(c) \
- ((uint8_t)((c) & CY_AS_REQUEST_RESPONSE_CODE_MASK))
-#define cy_as_mbox_get_context(c) \
- ((uint8_t)(((c) & CY_AS_REQUEST_RESPONSE_CONTEXT_MASK) \
- >> CY_AS_REQUEST_RESPONSE_CONTEXT_SHIFT))
-#define cy_as_mbox_is_last(c) \
- ((c) & CY_AS_REQUEST_RESPONSE_LAST_MASK)
-#define cy_as_mbox_is_request(c) \
- (((c) & CY_AS_REQUEST_RESPONSE_TYPE_MASK) != 0)
-#define cy_as_mbox_is_response(c) \
- (((c) & CY_AS_REQUEST_RESPONSE_TYPE_MASK) == 0)
-
-/*
- * These macros (not yet written) pack data into or extract data
- * from the m_box0 field of the request or response
- */
-#define cy_as_ll_request_response__set_code(req, code) \
- ((req)->box0 = \
- ((req)->box0 & ~CY_AS_REQUEST_RESPONSE_CODE_MASK) | \
- (code & CY_AS_REQUEST_RESPONSE_CODE_MASK))
-
-#define cy_as_ll_request_response__get_code(req) \
- cy_as_mbox_get_code((req)->box0)
-
-#define cy_as_ll_request_response__set_context(req, context) \
- ((req)->box0 |= ((context) << \
- CY_AS_REQUEST_RESPONSE_CONTEXT_SHIFT))
-
-#define cy_as_ll_request_response__set_clear_storage_flag(req) \
- ((req)->box0 |= CY_AS_REQUEST_RESPONSE_CLEAR_STR_FLAG)
-
-#define cy_as_ll_request_response__get_context(req) \
- cy_as_mbox_get_context((req)->box0)
-
-#define cy_as_ll_request_response__is_last(req) \
- cy_as_mbox_is_last((req)->box0)
-
-#define CY_an_ll_request_response___set_last(req) \
- ((req)->box0 |= CY_AS_REQUEST_RESPONSE_LAST_MASK)
-
-#define cy_as_ll_request_response__is_request(req) \
- cy_as_mbox_is_request((req)->box0)
-
-#define cy_as_ll_request_response__set_request(req) \
- ((req)->box0 |= CY_AS_REQUEST_RESPONSE_TYPE_MASK)
-
-#define cy_as_ll_request_response__set_response(req) \
- ((req)->box0 &= ~CY_AS_REQUEST_RESPONSE_TYPE_MASK)
-
-#define cy_as_ll_request_response__is_response(req) \
- cy_as_mbox_is_response((req)->box0)
-
-#define cy_as_ll_request_response__get_word(req, offset) \
- ((req)->data[(offset)])
-
-#define cy_as_ll_request_response__set_word(req, offset, \
- value) ((req)->data[(offset)] = value)
-
-typedef enum cy_as_remove_request_result_t {
- cy_as_remove_request_sucessful,
- cy_as_remove_request_in_transit,
- cy_as_remove_request_not_found
-} cy_as_remove_request_result_t;
-
-/* Summary
- Start the low level communications module
-
- Description
-*/
-cy_as_return_status_t
-cy_as_ll_start(
- cy_as_device *dev_p
- );
-
-cy_as_return_status_t
-cy_as_ll_stop(
- cy_as_device *dev_p
- );
-
-
-cy_as_ll_request_response *
-cy_as_ll_create_request(
- cy_as_device *dev_p,
- uint16_t code,
- uint8_t context,
- /* Length of the request in 16 bit words */
- uint16_t length
- );
-
-void
-cy_as_ll_init_request(
- cy_as_ll_request_response *req_p,
- uint16_t code,
- uint16_t context,
- uint16_t length);
-
-void
-cy_as_ll_init_response(
- cy_as_ll_request_response *req_p,
- uint16_t length);
-
-void
-cy_as_ll_destroy_request(
- cy_as_device *dev_p,
- cy_as_ll_request_response *);
-
-cy_as_ll_request_response *
-cy_as_ll_create_response(
- cy_as_device *dev_p,
- /* Length of the request in 16 bit words */
- uint16_t length
- );
-
-cy_as_remove_request_result_t
-cy_as_ll_remove_request(
- cy_as_device *dev_p,
- cy_as_context *ctxt_p,
- cy_as_ll_request_response *req_p,
- cy_bool force
- );
-void
-cy_as_ll_remove_all_requests(cy_as_device *dev_p,
- cy_as_context *ctxt_p);
-
-void
-cy_as_ll_destroy_response(
- cy_as_device *dev_p,
- cy_as_ll_request_response *);
-
-cy_as_return_status_t
-cy_as_ll_send_request(
- /* The West Bridge device */
- cy_as_device *dev_p,
- /* The request to send */
- cy_as_ll_request_response *req,
- /* Storage for a reply, must be sure it is of sufficient size */
- cy_as_ll_request_response *resp,
- /* If true, this is a sync request */
- cy_bool sync,
- /* Callback to call when reply is received */
- cy_as_response_callback cb
-);
-
-cy_as_return_status_t
-cy_as_ll_send_request_wait_reply(
- /* The West Bridge device */
- cy_as_device *dev_p,
- /* The request to send */
- cy_as_ll_request_response *req,
- /* Storage for a reply, must be sure it is of sufficient size */
- cy_as_ll_request_response *resp
-);
-
-/* Summary
- This function registers a callback function to be called when a
- request arrives on a given context.
-
- Description
-
- Returns
- * CY_AS_ERROR_SUCCESS
-*/
-extern cy_as_return_status_t
-cy_as_ll_register_request_callback(
- cy_as_device *dev_p,
- uint8_t context,
- cy_as_response_callback cb
- );
-
-/* Summary
- This function packs a set of bytes given by the data_p pointer
- into a request, reply structure.
-*/
-extern void
-cy_as_ll_request_response__pack(
- /* The destintation request or response */
- cy_as_ll_request_response *req,
- /* The offset of where to pack the data */
- uint32_t offset,
- /* The length of the data to pack in bytes */
- uint32_t length,
- /* The data to pack */
- void *data_p
- );
-
-/* Summary
- This function unpacks a set of bytes from a request/reply
- structure into a segment of memory given by the data_p pointer.
-*/
-extern void
-cy_as_ll_request_response__unpack(
- /* The source of the data to unpack */
- cy_as_ll_request_response *req,
- /* The offset of the data to unpack */
- uint32_t offset,
- /* The length of the data to unpack in bytes */
- uint32_t length,
- /* The destination of the unpack operation */
- void *data_p
- );
-
-/* Summary
- This function sends a status response back to the West Bridge
- device in response to a previously send request
-*/
-extern cy_as_return_status_t
-cy_as_ll_send_status_response(
- /* The West Bridge device */
- cy_as_device *dev_p,
- /* The context to send the response on */
- uint8_t context,
- /* The success/failure code to send */
- uint16_t code,
- /* Flag to clear wait on storage context */
- uint8_t clear_storage);
-
-/* Summary
- This function sends a response back to the West Bridge device.
-
- Description
- This function sends a response back to the West Bridge device.
- The response is sent on the context given by the 'context'
- variable. The code for the response is given by the 'code'
- argument. The data for the response is given by the data and
- length arguments.
-*/
-extern cy_as_return_status_t
-cy_as_ll_send_data_response(
- /* The West Bridge device */
- cy_as_device *dev_p,
- /* The context to send the response on */
- uint8_t context,
- /* The response code to use */
- uint16_t code,
- /* The length of the data for the response */
- uint16_t length,
- /* The data for the response */
- void *data
-);
-
-/* Summary
- This function removes any requests of the given type
- from the given context.
-
- Description
- This function removes requests of a given type from the
- context given via the context number.
-*/
-extern cy_as_return_status_t
-cy_as_ll_remove_ep_data_requests(
- /* The West Bridge device */
- cy_as_device *dev_p,
- cy_as_end_point_number_t ep
- );
-
-#include "cyas_cplus_end.h"
-
-#endif /* _INCLUDED_CYASLOWLEVEL_H_ */
+++ /dev/null
-/* Cypress West Bridge API header file (cyasmedia.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASMEDIA_H_
-#define _INCLUDED_CYASMEDIA_H_
-
-#include "cyas_cplus_start.h"
-
-
-/* Summary
- Specifies a specific type of media supported by West Bridge
-
- Description
- The West Bridge device supports five specific types of media
- as storage/IO devices attached to it's S-Port. This type is
- used to indicate the type of media being referenced in any
- API call.
-*/
-typedef enum cy_as_media_type {
- /* Flash NAND memory (may be SLC or MLC) */
- cy_as_media_nand = 0x00,
- /* An SD flash memory device */
- cy_as_media_sd_flash = 0x01,
- /* An MMC flash memory device */
- cy_as_media_mmc_flash = 0x02,
- /* A CE-ATA disk drive */
- cy_as_media_ce_ata = 0x03,
- /* SDIO device. */
- cy_as_media_sdio = 0x04,
- cy_as_media_max_media_value = 0x05
-
-} cy_as_media_type;
-
-#include "cyas_cplus_end.h"
-
-#endif /* _INCLUDED_CYASMEDIA_H_ */
+++ /dev/null
-/* Cypress West Bridge API header file (cyasmisc.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASMISC_H_
-#define _INCLUDED_CYASMISC_H_
-
-#include "cyashal.h"
-#include "cyastypes.h"
-#include "cyasmedia.h"
-
-#include "cyas_cplus_start.h"
-
-#define CY_AS_LEAVE_STANDBY_DELAY_CLOCK (1)
-#define CY_AS_RESET_DELAY_CLOCK (1)
-
-#define CY_AS_LEAVE_STANDBY_DELAY_CRYSTAL (5)
-#define CY_AS_RESET_DELAY_CRYSTAL (5)
-
-/* The maximum number of buses supported */
-#define CY_AS_MAX_BUSES (2)
-
-/* The maximum number of storage devices supported per bus */
-#define CY_AS_MAX_STORAGE_DEVICES (1)
-
-#define CY_AS_FUNCTCBTYPE_DATA_MASK (0x60000000U)
-#define CY_AS_FUNCTCBTYPE_TYPE_MASK (0x1FFFFFFFU)
-
-#define cy_as_funct_c_b_type_get_type(t) \
- ((cy_as_funct_c_b_type)((t) & CY_AS_FUNCTCBTYPE_TYPE_MASK))
-#define cy_as_funct_c_b_type_contains_data(t) \
- (((cy_as_funct_c_b_type)((t) & \
- CY_AS_FUNCTCBTYPE_DATA_MASK)) == CY_FUNCT_CB_DATA)
-
-/**************************************
- * West Bridge Types
- **************************************/
-
-/* Summary
- Specifies a handle to an West Bridge device
-
- Description
- This type represents an opaque handle to an West Bridge device.
- This handle is created via the CyAsMiscCreateDevice() function
- and is used in all subsequent calls that communicate to the West
- Bridge device.
-
- See Also
- * CyAsMiscCreateDevice
- * CyAsMiscDestroyDevice
-*/
-typedef void *cy_as_device_handle;
-
-/* Summary
- This data type gives the mode for the DACK# signal
-*/
-typedef enum cy_as_device_dack_mode {
- cy_as_device_dack_ack, /* Operate in the ACK mode */
- cy_as_device_dack_eob /* Operate in the EOB mode */
-} cy_as_device_dack_mode;
-
-/* Summary
- This data structure gives the options for all hardware features.
-
- Description
- This structure contains the information required to initialize the
- West Bridge hardware. Any features of the device that can be
- configured by the caller are specified here.
-
- See Also
- * CyAsMiscConfigure
-*/
-typedef struct cy_as_device_config {
- /* If TRUE, the P port is running in SRAM mode. */
- cy_bool srammode;
- /* If TRUE, the P port is synchronous, otherwise async */
- cy_bool sync;
- /* If TRUE, DMA req will be delivered via the interrupt signal */
- cy_bool dmaintr;
- /* Mode for the DACK# signal */
- cy_as_device_dack_mode dackmode;
- /* If TRUE, the DRQ line is active high, otherwise active low */
- cy_bool drqpol;
- /* If TRUE, the DACK line is active high, otherwise active low */
- cy_bool dackpol;
- /* If TRUE, the clock is connected to a crystal, otherwise it is
- connected to a clock */
- cy_bool crystal;
-} cy_as_device_config;
-
-
-/* Summary
- Specifies a resource that can be owned by either the West Bridge
- device or by the processor.
-
- Description
- This enumerated type identifies a resource that can be owned
- either by the West Bridge device, or by the processor attached to
- the P port of the West Bridge device.
-
- See Also
- * CyAsMiscAcquireResource
- * CyAsMiscReleaseResource
-*/
-typedef enum cy_as_resource_type {
- cy_as_bus_u_s_b = 0, /* The USB D+ and D- pins */
- cy_as_bus_1 = 1, /* The SDIO bus */
- cy_as_bus_0 = 2 /* The NAND bus (not implemented) */
-} cy_as_resource_type;
-
-/* Summary
- Specifies the reset type for a software reset operation.
-
- Description
- When the West Bridge device is reset, there are two types of
- reset that arE possible. This type indicates the type of reset
- requested.
-
- Notes
- Both of these reset types are software based resets; and are
- distinct from a chip level HARD reset that is applied through
- the reset pin on the West Bridge.
-
- The CyAsResetSoft type resets only the on-chip micro-controller
- in the West Bridge. In this case, the previously loaded firmware
- will continue running. However, the Storage and USB stack
- operations will need to be restarted, as any state relating to
- these would have been lost.
-
- The CyAsResetHard type resets the entire West Bridge chip, and will
- need a fresh configuration and firmware download.
-
- See Also
- * <LINK CyAsMiscReset>
- */
-
-typedef enum cy_as_reset_type {
- /* Just resets the West Bridge micro-controller */
- cy_as_reset_soft,
- /* Resets entire device, firmware must be reloaded and
- the west bridge device must be re-initialized */
- cy_as_reset_hard
-} cy_as_reset_type;
-
-
-
-/* Summary
- This type specifies the polarity of the SD power pin.
-
- Description
- Sets the SD power pin ( port C, bit 6) to active low or
- active high.
-
-*/
-
-typedef enum cy_as_misc_signal_polarity {
- cy_as_misc_active_high,
- cy_as_misc_active_low
-
-} cy_as_misc_signal_polarity;
-
-
-
-/* Summary
- This type specifies the type of the data returned by a Function
- Callback.
-
- Description
- CY_FUNCT_CB_NODATA - This callback does not return any additional
- information in the data field.
- CY_FUNCT_CB_DATA - The data field is used, and the CyAsFunctCBType
- will also contain the type of this data.
-
- See Also
- CyAsFunctionCallback
-*/
-typedef enum cy_as_funct_c_b_type {
- CY_FUNCT_CB_INVALID = 0x0U,
- /* Data from a CyAsMiscGetFirmwareVersion call. */
- CY_FUNCT_CB_MISC_GETFIRMWAREVERSION,
- /* Data from a CyAsMiscHeartBeatControl call. */
- CY_FUNCT_CB_MISC_HEARTBEATCONTROL,
- /* Data from a CyAsMiscAcquireResource call. */
- CY_FUNCT_CB_MISC_ACQUIRERESOURCE,
- /* Data from a CyAsMiscReadMCURegister call. */
- CY_FUNCT_CB_MISC_READMCUREGISTER,
- /* Data from a CyAsMiscWriteMCURegister call. */
- CY_FUNCT_CB_MISC_WRITEMCUREGISTER,
- /* Data from a CyAsMiscSetTraceLevel call. */
- CY_FUNCT_CB_MISC_SETTRACELEVEL,
- /* Data from a CyAsMiscStorageChanged call. */
- CY_FUNCT_CB_MISC_STORAGECHANGED,
- /* Data from a CyAsMiscGetGpioValue call. */
- CY_FUNCT_CB_MISC_GETGPIOVALUE,
- /* Data from a CyAsMiscSetGpioValue call. */
- CY_FUNCT_CB_MISC_SETGPIOVALUE,
- /* Data from a CyAsMiscDownloadFirmware call. */
- CY_FUNCT_CB_MISC_DOWNLOADFIRMWARE,
- /* Data from a CyAsMiscEnterStandby call. */
- CY_FUNCT_CB_MISC_ENTERSTANDBY,
- /* Data from a CyAsMiscEnterSuspend call. */
- CY_FUNCT_CB_MISC_ENTERSUSPEND,
- /* Data from a CyAsMiscLeaveSuspend call. */
- CY_FUNCT_CB_MISC_LEAVESUSPEND,
- /* Data from a CyAsMiscReset call. */
- CY_FUNCT_CB_MISC_RESET,
- /* Data from a CyAsMiscSetLowSpeedSDFreq or
- * CyAsMiscSetHighSpeedSDFreq call. */
- CY_FUNCT_CB_MISC_SETSDFREQ,
- /* Data from a CyAsMiscSwitchPnandMode call */
- CY_FUNCT_CB_MISC_RESERVELNABOOTAREA,
- /* Data from a CyAsMiscSetSDPowerPolarity call */
- CY_FUNCT_CB_MISC_SETSDPOLARITY,
-
- /* Data from a CyAsStorageStart call. */
- CY_FUNCT_CB_STOR_START,
- /* Data from a CyAsStorageStop call. */
- CY_FUNCT_CB_STOR_STOP,
- /* Data from a CyAsStorageClaim call. */
- CY_FUNCT_CB_STOR_CLAIM,
- /* Data from a CyAsStorageRelease call. */
- CY_FUNCT_CB_STOR_RELEASE,
- /* Data from a CyAsStorageQueryMedia call. */
- CY_FUNCT_CB_STOR_QUERYMEDIA,
- /* Data from a CyAsStorageQueryBus call. */
- CY_FUNCT_CB_STOR_QUERYBUS,
- /* Data from a CyAsStorageQueryDevice call. */
- CY_FUNCT_CB_STOR_QUERYDEVICE,
- /* Data from a CyAsStorageQueryUnit call. */
- CY_FUNCT_CB_STOR_QUERYUNIT,
- /* Data from a CyAsStorageDeviceControl call. */
- CY_FUNCT_CB_STOR_DEVICECONTROL,
- /* Data from a CyAsStorageSDRegisterRead call. */
- CY_FUNCT_CB_STOR_SDREGISTERREAD,
- /* Data from a CyAsStorageCreatePartition call. */
- CY_FUNCT_CB_STOR_PARTITION,
- /* Data from a CyAsStorageGetTransferAmount call. */
- CY_FUNCT_CB_STOR_GETTRANSFERAMOUNT,
- /* Data from a CyAsStorageErase call. */
- CY_FUNCT_CB_STOR_ERASE,
- /* Data from a CyAsStorageCancelAsync call. */
- CY_FUNCT_CB_ABORT_P2S_XFER,
- /* Data from a CyAsUsbStart call. */
- CY_FUNCT_CB_USB_START,
- /* Data from a CyAsUsbStop call. */
- CY_FUNCT_CB_USB_STOP,
- /* Data from a CyAsUsbConnect call. */
- CY_FUNCT_CB_USB_CONNECT,
- /* Data from a CyAsUsbDisconnect call. */
- CY_FUNCT_CB_USB_DISCONNECT,
- /* Data from a CyAsUsbSetEnumConfig call. */
- CY_FUNCT_CB_USB_SETENUMCONFIG,
- /* Data from a CyAsUsbGetEnumConfig call. */
- CY_FUNCT_CB_USB_GETENUMCONFIG,
- /* Data from a CyAsUsbSetDescriptor call. */
- CY_FUNCT_CB_USB_SETDESCRIPTOR,
- /* Data from a CyAsUsbGetDescriptor call. */
- CY_FUNCT_CB_USB_GETDESCRIPTOR,
- /* Data from a CyAsUsbCommitConfig call. */
- CY_FUNCT_CB_USB_COMMITCONFIG,
- /* Data from a CyAsUsbGetNak call. */
- CY_FUNCT_CB_USB_GETNAK,
- /* Data from a CyAsUsbGetStall call. */
- CY_FUNCT_CB_USB_GETSTALL,
- /* Data from a CyAsUsbSignalRemoteWakeup call. */
- CY_FUNCT_CB_USB_SIGNALREMOTEWAKEUP,
- /* Data from a CyAnUsbClearDescriptors call. */
- CY_FUNCT_CB_USB_CLEARDESCRIPTORS,
- /* Data from a CyAnUsbSetMSReportThreshold call. */
- CY_FUNCT_CB_USB_SET_MSREPORT_THRESHOLD,
- /* Data from a CyAsMTPStart call. */
- CY_FUNCT_CB_MTP_START,
- /* Data from a CyAsMTPStop call. */
- CY_FUNCT_CB_MTP_STOP,
- /* Data from a CyAsMTPInitSendObject call. */
- CY_FUNCT_CB_MTP_INIT_SEND_OBJECT,
- /* Data from a CyAsMTPCancelSendObject call. */
- CY_FUNCT_CB_MTP_CANCEL_SEND_OBJECT,
- /* Data from a CyAsMTPInitGetObject call. */
- CY_FUNCT_CB_MTP_INIT_GET_OBJECT,
- /* Data from a CyAsMTPCancelGetObject call. */
- CY_FUNCT_CB_MTP_CANCEL_GET_OBJECT,
- /* Data from a CyAsMTPSendBlockTable call. */
- CY_FUNCT_CB_MTP_SEND_BLOCK_TABLE,
- /* Data from a CyAsMTPStopStorageOnly call. */
- CY_FUNCT_CB_MTP_STOP_STORAGE_ONLY,
- CY_FUNCT_CB_NODATA = 0x40000000U,
- CY_FUNCT_CB_DATA = 0x20000000U
-} cy_as_funct_c_b_type;
-
-/* Summary
- This type specifies the general West Bridge function callback.
-
- Description
- This callback is supplied as an argument to all asynchronous
- functions in the API. It iS called after the asynchronous function
- has completed.
-
- See Also
- CyAsFunctCBType
-*/
-typedef void (*cy_as_function_callback)(
- cy_as_device_handle handle,
- cy_as_return_status_t status,
- uint32_t client,
- cy_as_funct_c_b_type type,
- void *data);
-
-/* Summary
- This type specifies the general West Bridge event that has
- occurred.
-
- Description
- This type is used in the West Bridge misc callback function to
- indicate the type of callback.
-
- See Also
-*/
-typedef enum cy_as_misc_event_type {
- /* This event is sent when West Bridge has finished
- initialization and is ready to respond to API calls. */
- cy_as_event_misc_initialized = 0,
-
- /* This event is sent when West Bridge has left the
- standby state and is ready to respond to commands again. */
- cy_as_event_misc_awake,
-
- /* This event is sent periodically from the firmware
- to the processor. */
- cy_as_event_misc_heart_beat,
-
- /* This event is sent when the West Bridge has left the
- suspend mode and is ready to respond to commands
- again. */
- cy_as_event_misc_wakeup,
-
- /* This event is sent when the firmware image downloaded
- cannot run on the active west bridge device. */
- cy_as_event_misc_device_mismatch
-} cy_as_misc_event_type;
-
-/* Summary
- This type is the type of a callback function that is called when a
- West Bridge misc event occurs.
-
- Description
- At times West Bridge needs to inform the P port processor of events
- that have occurred. These events are asynchronous to the thread of
- control on the P port processor and as such are generally delivered
- via a callback function that is called as part of an interrupt
- handler. This type defines the type of function that must be provided
- as a callback function for West Bridge misc events.
-
- See Also
- * CyAsMiscEventType
-*/
-typedef void (*cy_as_misc_event_callback)(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* The event type being reported */
- cy_as_misc_event_type ev,
- /* The data assocaited with the event being reported */
- void *evdata
-);
-
-#ifndef __doxygen__
-/* Summary
- This enum provides info of various firmware trace levels.
-
- Description
-
- See Also
- * CyAsMiscSetTraceLevel
-*/
-enum {
- CYAS_FW_TRACE_LOG_NONE = 0, /* Log nothing. */
- CYAS_FW_TRACE_LOG_STATE, /* Log state information. */
- CYAS_FW_TRACE_LOG_CALLS, /* Log function calls. */
- CYAS_FW_TRACE_LOG_STACK_TRACE, /* Log function calls with args. */
- CYAS_FW_TRACE_MAX_LEVEL /* Max trace level sentinel. */
-};
-#endif
-
-/* Summary
- This enum lists the controllable GPIOs of the West Bridge device.
-
- Description
- The West Bridge device has GPIOs that can be used for user defined functions.
- This enumeration lists the GPIOs that are available on the device.
-
- Notes
- All of the GPIOs except UVALID can only be accessed when using West Bridge
- firmware images that support only SD/MMC/MMC+ storage devices. This
- functionality is not supported in firmware images that support NAND
- storage.
-
- See Also
- * CyAsMiscGetGpioValue
- * CyAsMiscSetGpioValue
- */
-typedef enum {
- cy_as_misc_gpio_0 = 0, /* GPIO[0] pin */
- cy_as_misc_gpio_1, /* GPIO[1] pin */
- cy_as_misc_gpio__nand_CE, /* NAND_CE pin, output only */
- cy_as_misc_gpio__nand_CE2, /* NAND_CE2 pin, output only */
- cy_as_misc_gpio__nand_WP, /* NAND_WP pin, output only */
- cy_as_misc_gpio__nand_CLE, /* NAND_CLE pin, output only */
- cy_as_misc_gpio__nand_ALE, /* NAND_ALE pin, output only */
- /* SD_POW pin, output only, do not drive low while storage is active */
- cy_as_misc_gpio_SD_POW,
- cy_as_misc_gpio_U_valid /* UVALID pin */
-} cy_as_misc_gpio;
-
-/* Summary
- This enum lists the set of clock frequencies that are supported for
- working with low speed SD media.
-
- Description
- West Bridge firmware uses a clock frequency less than the maximum
- possible rate for low speed SD media. This can be changed to a
- setting equal to the maximum frequency as desired by the user. This
- enumeration lists the different frequency settings that are
- supported.
-
- See Also
- * CyAsMiscSetLowSpeedSDFreq
- */
-typedef enum cy_as_low_speed_sd_freq {
- /* Approx. 21.82 MHz, default value */
- CY_AS_SD_DEFAULT_FREQ = 0,
- /* 24 MHz */
- CY_AS_SD_RATED_FREQ
-} cy_as_low_speed_sd_freq;
-
-/* Summary
- This enum lists the set of clock frequencies that are supported
- for working with high speed SD media.
-
- Description
- West Bridge firmware uses a 48 MHz clock by default to interface
- with high speed SD/MMC media. This can be changed to 24 MHz if
- so desired by the user. This enum lists the different frequencies
- that are supported.
-
- See Also
- * CyAsMiscSetHighSpeedSDFreq
- */
-typedef enum cy_as_high_speed_sd_freq {
- CY_AS_HS_SD_FREQ_48, /* 48 MHz, default value */
- CY_AS_HS_SD_FREQ_24 /* 24 MHz */
-} cy_as_high_speed_sd_freq;
-
-/* Summary
- Struct encapsulating all information returned by the
- CyAsMiscGetFirmwareVersion call.
-
- Description
- This struct encapsulates all return values from the asynchronous
- CyAsMiscGetFirmwareVersion call, so that a single data argument
- can be passed to the user provided callback function.
-
- See Also
- * CyAsMiscGetFirmwareVersion
- */
-typedef struct cy_as_get_firmware_version_data {
- /* Return value for major version number for the firmware */
- uint16_t major;
- /* Return value for minor version number for the firmware */
- uint16_t minor;
- /* Return value for build version number for the firmware */
- uint16_t build;
- /* Return value for media types supported in the current firmware */
- uint8_t media_type;
- /* Return value to indicate the release or debug mode of firmware */
- cy_bool is_debug_mode;
-} cy_as_get_firmware_version_data;
-
-
-/*****************************
- * West Bridge Functions
- *****************************/
-
-/* Summary
- This function creates a new West Bridge device and returns a
- handle to the device.
-
- Description
- This function initializes the API object that represents the West
- Bridge device and returns a handle to this device. This handle is
- required for all West Bridge related functions to identify the
- specific West Bridge device.
-
- * Valid In Asynchronous Callback: NO
-
- Returns
- * CY_AS_ERROR_SUCCESS
- * CY_AS_ERROR_OUT_OF_MEMORY
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_create_device(
- /* Return value for handle to created device */
- cy_as_device_handle *handle_p,
- /* The HAL specific tag for this device */
- cy_as_hal_device_tag tag
- );
-
-/* Summary
- This functions destroys a previously created West Bridge device.
-
- Description
- When an West Bridge device is created, an opaque handle is returned
- that represents the device. This function destroys that handle and
- frees all resources associated with the handle.
-
- * Valid In Asynchronous Callback: NO
-
- Returns
- * CY_AS_ERROR_SUCCESS
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_STILL_RUNNING - The USB or STORAGE stacks are still
- * running, they must be stopped before the device can be destroyed
- * CY_AS_ERROR_DESTROY_SLEEP_CHANNEL_FAILED - the HAL layer failed to
- * destroy a sleep channel
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_destroy_device(
- /* Handle to the device to destroy */
- cy_as_device_handle handle
- );
-
-/* Summary
- This function initializes the hardware for basic communication with
- West Bridge.
-
- Description
- This function initializes the hardware to establish basic
- communication with the West Bridge device. This is always the first
- function called to initialize communication with the West Bridge
- device.
-
- * Valid In Asynchronous Callback: NO
-
- Returns
- * CY_AS_ERROR_SUCCESS - the basic initialization was completed
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_IN_STANDBY
- * CY_AS_ERROR_ALREADY_RUNNING
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_NO_ANTIOCH - cannot find the West Bridge device
- * CY_AS_ERROR_CREATE_SLEEP_CHANNEL_FAILED -
- * the HAL layer falied to create a sleep channel
-
- See Also
- * CyAsDeviceConfig
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_configure_device(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* Configuration information */
- cy_as_device_config *config_p
- );
-
-/* Summary
- This function returns non-zero if West Bridge is in standby and
- zero otherwise.
-
- Description
- West Bridge supports a standby mode. This function is used to
- query West Bridge to determine if West Bridge is in a standby
- mode.
-
- * Valid In Asynchronous Callback: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS
- * CY_AS_ERROR_INVALID_HANDLE
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_in_standby(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* Return value for standby state */
- cy_bool *standby
- );
-
-/* Summary
- This function downloads the firmware to West Bridge device.
-
- Description
- This function downloads firmware from a given location and with a
- given size to the West Bridge device. After the firmware is
- downloaded the West Bridge device is moved out of configuration
- mode causing the firmware to be executed. It is an error to call
- this function when the device is not in configuration mode. The
- device is in configuration mode on power up and may be placed in
- configuration mode after power up with a hard reset.
-
- Notes
- The firmware must be on a word align boundary.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - the firmware was successfully downloaded
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device
- * was not configured
- * CY_AS_ERROR_NOT_IN_CONFIG_MODE
- * CY_AS_ERROR_INVALID_SIZE - the size of the firmware
- * exceeded 32768 bytes
- * CY_AS_ERROR_ALIGNMENT_ERROR
- * CY_AS_ERROR_IN_STANDBY - trying to download
- * while in standby mode
- * CY_AS_ERROR_TIMEOUT
-
- See Also
- * CyAsMiscReset
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_download_firmware(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* Pointer to the firmware to be downloaded */
- const void *fw_p,
- /* The size of the firmware in bytes */
- uint16_t size,
- /* Callback to call when the operation is complete. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-
-/* Summary
- This function returns the version number of the firmware running in
- the West Bridge device.
-
- Description
- This function queries the West Bridge device and retreives the
- firmware version number. If the firmware is not loaded an error is
- returned indicated no firmware has been loaded.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - the firmware version number was retreived
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been downloaded
- * to the device
- * CY_AS_ERROR_IN_STANDBY
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_TIMEOUT - there was a timeout waiting for a response
- * from the West Bridge firmware
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_get_firmware_version(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* Return values indicating the firmware version. */
- cy_as_get_firmware_version_data *data,
- /* Callback to call when the operation is complete. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-#if !defined(__doxygen__)
-
-/* Summary
- This function reads and returns the contents of an MCU accessible
- register on the West Bridge.
-
- Description
- This function requests the firmware to read and return the contents
- of an MCU accessible register through the mailboxes.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - the register content was retrieved.
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED
- * CY_AS_ERROR_NO_FIRMWARE
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_TIMEOUT - there was a timeout waiting for a response
- * from the West Bridge firmware
- * CY_AS_ERROR_INVALID_RESPONSE - the firmware build does not
- * support this command.
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_read_m_c_u_register(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* Address of the register to read */
- uint16_t address,
- /* Return value for the MCU register content */
- uint8_t *value,
- /* Callback to call when the operation is complete. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-/* Summary
- This function writes to an MCU accessible register on the West Bridge.
-
- Description
- This function requests the firmware to write a specified value to an
- MCU accessible register through the mailboxes.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Notes
- This function is only for internal use by the West Bridge API layer.
- Calling this function directly can cause device malfunction.
-
- Returns
- * CY_AS_ERROR_SUCCESS - the register content was updated.
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED
- * CY_AS_ERROR_NO_FIRMWARE
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_TIMEOUT - there was a timeout waiting for a response
- * from the West Bridge firmware
- * CY_AS_ERROR_INVALID_RESPONSE - the firmware build does not support
- * this command.
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_write_m_c_u_register(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* Address of the register to write */
- uint16_t address,
- /* Mask to be applied on the register contents. */
- uint8_t mask,
- /* Data to be ORed with the register contents. */
- uint8_t value,
- /* Callback to call when the operation is complete. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-#endif
-
-/* Summary
- This function will reset the West Bridge device and software API.
-
- Description
- This function will reset the West Bridge device and software API.
- The reset operation can be a hard reset or a soft reset. A hard
- reset will reset all aspects of the West Bridge device. The device
- will enter the configuration state and the firmware will have to be
- reloaded. The device will also have to be re-initialized. A soft
- reset just resets the West Bridge micro-controller.
-
- * Valid In Asynchronous Callback: NO
-
- Notes
- When a hard reset is issued, the firmware that may have been
- previously loaded will be lost and any configuration information set
- via CyAsMiscConfigureDevice() will be lost. This will be reflected
- in the API maintained state of the device. In order to re-establish
- communications with the West Bridge device, CyAsMiscConfigureDevice()
- and CyAsMiscDownloadFirmware() must be called again.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - the device has been reset
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED
- * CY_AS_ERROR_NO_FIRMWARE
- * CY_AS_ERROR_NOT_YET_SUPPORTED - current soft reset is not supported
- * CY_AS_ERROR_ASYNC_PENDING - Reset is unable to flush pending async
- * reads/writes in polling mode.
-
-
- See Also
- * CyAsMiscReset
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_reset(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* The type of reset to perform */
- cy_as_reset_type type,
- /* If true, flush all pending writes to mass storage
- before performing the reset. */
- cy_bool flush,
- /* Callback to call when the operation is complete. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-/* Summary
- This function acquires a given resource.
-
- Description
- There are resources in the system that are shared between the
- West Bridge device and the processor attached to the P port of
- the West Bridge device. This API provides a mechanism for the
- P port processor to acquire ownership of a resource.
-
- Notes
- The ownership of the resources controlled by CyAsMiscAcquireResource()
- and CyAsMiscReleaseResource() defaults to a known state at hardware
- reset. After the firmware is loaded and begins execution the state of
- these resources may change. At any point if the P Port processor needs
- to acquire a resource it should do so explicitly to be sure of
- ownership.
-
- Returns
- * CY_AS_ERROR_SUCCESS - the p port successfully acquired the
- * resource of interest
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED
- * CY_AS_ERROR_NO_FIRMWARE
- * CY_AS_ERROR_INVALID_RESOURCE
- * CY_AS_ERROR_RESOURCE_ALREADY_OWNED - the p port already
- * owns this resource
- * CY_AS_ERROR_NOT_ACQUIRED - the resource cannot be acquired
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_TIMEOUT - there was a timeout waiting for a
- * response from the West Bridge firmware
-
- See Also
- * CyAsResourceType
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_acquire_resource(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* The resource to acquire */
- cy_as_resource_type *resource,
- /* If true, force West Bridge to release the resource */
- cy_bool force,
- /* Callback to call when the operation is complete. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-/* Summary
- This function releases a given resource.
-
- Description
- There are resources in the system that are shared between the
- West Bridge device and the processor attached to the P port of
- the West Bridge device. This API provides a mechanism for the
- P port processor to release a resource that has previously been
- acquired via the CyAsMiscAcquireResource() call.
-
- * Valid In Asynchronous Callback: NO
-
- Returns
- * CY_AS_ERROR_SUCCESS - the p port successfully released
- * the resource of interest
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED
- * CY_AS_ERROR_NO_FIRMWARE
- * CY_AS_ERROR_INVALID_RESOURCE
- * CY_AS_ERROR_RESOURCE_NOT_OWNED - the p port does not own the
- * resource of interest
-
- See Also
- * CyAsResourceType
- * CyAsMiscAcquireResource
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_release_resource(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* The resource to release */
- cy_as_resource_type resource
- );
-
-#ifndef __doxygen__
-/* Summary
- This function sets the trace level for the West Bridge firmware.
-
- Description
- The West Bridge firmware has the ability to store information
- about the state and execution path of the firmware on a mass storage
- device attached to the West Bridge device. This function configures
- the specific mass storage device to be used and the type of information
- to be stored. This state information is used for debugging purposes
- and must be interpreted by a Cypress provided tool.
-
- *Trace Level*
- The trace level indicates the amount of information to output.
- * 0 = no trace information is output
- * 1 = state information is output
- * 2 = function call information is output
- * 3 = function call, arguments, and return value information is output
-
- * Valid In Asynchronous Callback: NO
-
- Notes
- The media device and unit specified in this call will be overwritten
- and any data currently stored on this device and unit will be lost.
-
- * NOT IMPLEMENTED YET
-
- Returns
- * CY_AS_ERROR_SUCCESS - the trace configuration has been
- * successfully changed
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified does not exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified media/device
- * pair does not exist
- * CY_AS_ERROR_NO_SUCH_UNIT - the unit specified does not exist
- * CY_AS_ERROR_INVALID_TRACE_LEVEL - the trace level requested
- * does not exist
- * CY_AS_ERROR_TIMEOUT - there was a timeout waiting for a
- * response from the West Bridge firmware
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_set_trace_level(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* The trace level */
- uint8_t level,
- /* The bus for the output */
- cy_as_bus_number_t bus,
- /* The device for the output */
- uint32_t device,
- /* The unit for the output */
- uint32_t unit,
- /* Callback to call when the operation is complete. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-#endif
-
-/* Summary
- This function places West Bridge into the low power standby mode.
-
- Description
- This function places West Bridge into a low power (sleep) mode, and
- cannot be called while the USB stack is active. This function first
- instructs the West Bridge firmware that the device is about to be
- placed into sleep mode. This allows West Bridge to complete any pending
- storage operations. After the West Bridge device has responded that
- pending operations are complete, the device is placed in standby mode.
-
- There are two methods of placing the device in standby mode. If the
- WAKEUP pin of the West Bridge is connected to a GPIO on the processor,
- the pin is de-asserted (via the HAL layer) and West Bridge enters into
- a sleep mode. If the WAKEUP pin is not accessible, the processor can
- write into the power management control/status register on the West
- Bridge to put the device into sleep mode.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - the function completed and West Bridge
- * is in sleep mode
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_ALREADY_STANDBY - the West Bridge device is already
- * in sleep mode
- * CY_AS_ERROR_TIMEOUT - there was a timeout waiting for a response
- * from the West Bridge firmware
- * CY_AS_ERROR_NOT_SUPPORTED - the HAL layer does not support changing
- * the WAKEUP pin
- * CY_AS_ERROR_USB_RUNNING - The USB stack is still running when the
- * EnterStandby call is made
- * CY_AS_ERROR_ASYNC_PENDING
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
- * CY_AS_ERROR_SETTING_WAKEUP_PIN
- * CY_AS_ERROR_ASYNC_PENDING - In polling mode EnterStandby can not
- * be called until all pending storage read/write requests have
- * finished.
-
- See Also
- * CyAsMiscLeaveStandby
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_enter_standby_e_x_u(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* If true, use the wakeup pin, otherwise use the register */
- cy_bool pin,
- /* Set true to enable specific usages of the
- UVALID signal, please refer to AN xx or ERRATA xx */
- cy_bool uvalid_special,
- /* Callback to call when the operation is complete. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-/* Summary
- This function is provided for backwards compatibility.
-
- Description
- Calling this function is the same as calling CyAsMiscEnterStandbyEx
- with True for the lowpower parameter.
-
- See Also
- * CyAsMiscEnterStandbyEx
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_enter_standby(cy_as_device_handle handle,
- cy_bool pin,
- cy_as_function_callback cb,
- uint32_t client
- );
-
-/* Summary
- This function brings West Bridge out of sleep mode.
-
- Description
- This function asserts the WAKEUP pin (via the HAL layer). This
- brings the West Bridge out of the sleep state and allows the
- West Bridge firmware to process the event causing the wakeup.
- When all processing associated with the wakeup is complete, a
- callback function is called to tell the P port software that
- the firmware processing associated with wakeup is complete.
-
- * Valid In Asynchronous Callback: NO
-
- Returns:
- * CY_AS_ERROR_SUCCESS - the function completed and West Bridge
- * is in sleep mode
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_SETTING_WAKEUP_PIN
- * CY_AS_ERROR_NOT_IN_STANDBY - the West Bridge device is not in
- * the sleep state
- * CY_AS_ERROR_TIMEOUT - there was a timeout waiting for a
- * response from the West Bridge firmware
- * CY_AS_ERROR_NOT_SUPPORTED - the HAL layer does not support
- * changing the WAKEUP pin
-
- See Also
- * CyAsMiscEnterStandby
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_leave_standby(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* The resource causing the wakeup */
- cy_as_resource_type resource
- );
-
-/* Summary
- This function registers a callback function to be called when an
- asynchronous West Bridge MISC event occurs.
-
- Description
- When asynchronous misc events occur, a callback function can be
- called to alert the calling program. This functions allows the
- calling program to register a callback.
-
- * Valid In Asynchronous Callback: NO
-
- Returns:
- * CY_AS_ERROR_SUCCESS
- * CY_AS_ERROR_INVALID_HANDLE
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_register_callback(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The function to call */
- cy_as_misc_event_callback callback
- );
-
-/* Summary
- This function sets the logging level for log messages.
-
- Description
- The API can print messages via the CyAsHalPrintMessage capability.
- This function sets the level of detail seen when printing messages
- from the API.
-
- * Valid In Asynchronous Callback:NO
-*/
-EXTERN void
-cy_as_misc_set_log_level(
- /* Level to set, 0 is fewer messages, 255 is all */
- uint8_t level
- );
-
-
-/* Summary
- This function tells West Bridge that SD or MMC media has been
- inserted or removed.
-
- Description
- In some hardware configurations, SD or MMC media detection is
- handled outside of the West Bridge device. This function is called
- when a change is detected to inform the West Bridge firmware to check
- for storage media changes.
-
- * Valid In Asynchronous Callback: NO
-
- Returns:
- * CY_AS_ERROR_SUCCESS
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED
- * CY_AS_ERROR_NO_FIRMWARE
- * CY_AS_ERROR_IN_STANDBY
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
-
- See Also
- * CyAsMiscStorageChanged
-
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_storage_changed(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* Callback to call when the operation is complete. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-/* Summary
- This function instructs the West Bridge firmware to start/stop
- sending periodic heartbeat messages to the processor.
-
- Description
- The West Bridge firmware can send heartbeat messages through the
- mailbox register once every 500 ms. This message can be an overhead
- as it causes regular Mailbox interrupts to happen, and is turned
- off by default. The message can be used to test and verify that the
- West Bridge firmware is alive. This API can be used to enable or
- disable the heartbeat message.
-
- * Valid In Asynchronous Callback: NO
-
- Returns
- * CY_AS_ERROR_SUCCESS - the function completed successfully
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED
- * CY_AS_ERROR_NO_FIRMWARE
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured yet
- * CY_AS_ERROR_NO_FIRMWARE - firmware has not been downloaded to
- * the West Bridge device
-
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_heart_beat_control(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* Message enable/disable selection */
- cy_bool enable,
- /* Callback to call when the operation is complete. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-/* Summary
- This function gets the current state of a GPIO pin on the
- West Bridge device.
-
- Description
- The West Bridge device has GPIO pins that can be used for user
- defined functions. This function gets the current state of the
- specified GPIO pin. Calling this function will configure the
- corresponding pin as an input.
-
- * Valid In Asynchronous Callback: NO
-
- Notes
- Only GPIO[0], GPIO[1] and UVALID pins can be used as GP inputs.
- Of these pins, only the UVALID pin is supported by firmware images
- that include NAND storage support.
-
- Returns
- * CY_AS_ERROR_SUCCESS - the function completed successfully
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured yet
- * CY_AS_ERROR_NO_FIRMWARE - firmware has not been downloaded
- * to the West Bridge device
- * CY_AS_ERROR_BAD_INDEX - an invalid GPIO was specified
- * CY_AS_ERROR_NOT_SUPPORTED - this feature is not supported
- * by the firmware
-
- See Also
- * CyAsMiscGpio
- * CyAsMiscSetGpioValue
- */
-EXTERN cy_as_return_status_t
-cy_as_misc_get_gpio_value(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* Id of the GPIO pin to query */
- cy_as_misc_gpio pin,
- /* Current value of the GPIO pin */
- uint8_t *value,
- /* Callback to call when the operation is complete. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-/* Summary
- This function updates the state of a GPIO pin on the West
- Bridge device.
-
- Description
- The West Bridge device has GPIO pins that can be used for
- user defined functions. This function updates the output
- value driven on a specified GPIO pin. Calling this function
- will configure the corresponding pin as an output.
-
- * Valid In Asynchronous Callback: NO
-
- Notes
- All of the pins listed under CyAsMiscGpio can be used as GP
- outputs. This feature is note supported by firmware images
- that include NAND storage device support.
-
- Returns
- * CY_AS_ERROR_SUCCESS - the function completed successfully
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured yet
- * CY_AS_ERROR_NO_FIRMWARE - firmware has not been downloaded
- * to the West Bridge device
- * CY_AS_ERROR_BAD_INDEX - an invalid GPIO was specified
- * CY_AS_ERROR_NOT_SUPPORTED - this feature is not supported
- * by firmware.
-
- See Also
- * CyAsMiscGpio
- * CyAsMiscGetGpioValue
- */
-EXTERN cy_as_return_status_t
-cy_as_misc_set_gpio_value(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* Id of the GPIO pin to set */
- cy_as_misc_gpio pin,
- /* Value to be set on the GPIO pin */
- uint8_t value,
- /* Callback to call when the operation is complete. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-/* Summary
- Set the West Bridge device in the low power suspend mode.
-
- Description
- The West Bridge device has a low power suspend mode where the USB
- core and the internal microcontroller are powered down. This
- function sets the West Bridge device into this low power mode.
- This mode can only be entered when there is no active USB
- connection; i.e., when USB has not been connected or is suspended;
- and there are no pending USB or storage asynchronous calls. The
- device will exit the suspend mode and resume handling USB and
- processor requests when any activity is detected on the CE#, D+/D-
- or GPIO[0] lines.
-
- * Valid In Asynchronous Callback: NO
-
- Notes
- The GPIO[0] pin needs to be configured as an input for the gpio
- wakeup to work. This flag should not be enabled if the pin is
- being used as a GP output.
-
- Returns
- * CY_AS_ERROR_SUCCESS - the device was placed in suspend mode.
- * CY_AS_ERROR_INVALID_HANDLE - the West Bridge handle passed
- * in is invalid.
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * yet been configured.
- * CY_AS_ERROR_NO_FIRMWARE - no firmware has been downloaded
- * to the device.
- * CY_AS_ERROR_IN_STANDBY - the device is already in sleep mode.
- * CY_AS_ERROR_USB_CONNECTED - the USB connection is active.
- * CY_AS_ERROR_ASYNC_PENDING - asynchronous storage/USB calls
- * are pending.
- * CY_AS_ERROR_OUT_OF_MEMORY - failed to allocate memory for
- * the operation.
- * CY_AS_ERROR_INVALID_RESPONSE - command not recognised by
- * firmware.
-
- See Also
- * CyAsMiscLeaveSuspend
- */
-EXTERN cy_as_return_status_t
-cy_as_misc_enter_suspend(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* Control the USB wakeup source */
- cy_bool usb_wakeup_en,
- /* Control the GPIO[0] wakeup source */
- cy_bool gpio_wakeup_en,
- /* Callback to call when suspend mode entry is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-/* Summary
- Wake up the West Bridge device from suspend mode.
-
- Description
- This call wakes up the West Bridge device from suspend mode,
- and makes it ready for accepting other commands from the API.
- A CyAsEventMiscWakeup event will be delivered to the callback
- registered with CyAsMiscRegisterCallback to indicate that the
- wake up is complete.
-
- The CyAsEventMiscWakeup event will also be delivered if the
- wakeup happens due to USB or GPIO activity.
-
- * Valid In Asynchronous Callback: NO
-
- Returns
- * CY_AS_ERROR_SUCCESS - the device was woken up from
- * suspend mode.
- * CY_AS_ERROR_INVALID_HANDLE - invalid device handle
- * passed in.
- * CY_AS_ERROR_NOT_CONFIGURED - West Bridge device has
- * not been configured.
- * CY_AS_ERROR_NO_FIRMWARE - firmware has not been
- * downloaded to the device.
- * CY_AS_ERROR_NOT_IN_SUSPEND - the device is not in
- * suspend mode.
- * CY_AS_ERROR_OUT_OF_MEMORY - failed to allocate memory
- * for the operation.
- * CY_AS_ERROR_TIMEOUT - failed to wake up the device.
-
- See Also
- * CyAsMiscEnterSuspend
- */
-EXTERN cy_as_return_status_t
-cy_as_misc_leave_suspend(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* Callback to call when device has resumed operation. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-/* Summary
- Reserve first numzones zones of nand device for storing
- processor boot image. LNA firmware works on the first
- numzones zones of nand to enable the processor to boot.
-
- Description
- This function reserves first numzones zones of nand device
- for storing processor boot image. This fonction MUST be
- completed before starting the storage stack for the setting
- to be taken into account.
-
- * Valid In Asynchronous Callback: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS- zones are reserved.
-
-*/
-EXTERN cy_as_return_status_t
-cy_as_misc_reserve_l_n_a_boot_area(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* number of nand zones to reserve */
- uint8_t numzones,
- /* Callback to call when device has resumed operation. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-/* Summary
- Select the clock frequency to be used when talking to low
- speed (non-high speed) SD media.
-
- Description
- West Bridge firmware uses a clock frequency less than the
- maximum possible rate for low speed SD media. This function
- selects the frequency setting from between the default speed
- and the maximum speed. This fonction MUST be completed before
- starting the storage stack for the setting to be taken into
- account.
-
- * Valid in Asynchronous Callback: Yes (if cb is non-zero)
- * Nestable: Yes
-
- Returns
- * CY_AS_ERROR_SUCCESS - the operation completed successfully.
- * CY_AS_ERROR_INVALID_HANDLE - invalid device handle passed in.
- * CY_AS_ERROR_NOT_CONFIGURED - West Bridge device has not been
- * configured.
- * CY_AS_ERROR_NO_FIRMWARE - firmware has not been downloaded
- * to the device.
- * CY_AS_ERROR_OUT_OF_MEMORY - failed to allocate memory for
- * the operation.
- * CY_AS_ERROR_IN_SUSPEND - West Bridge is in low power suspend
- * mode.
- * CY_AS_ERROR_INVALID_PARAMETER - invalid frequency setting
- * desired.
- * CY_AS_ERROR_TIMEOUT - West Bridge device did not respond to
- * the operation.
- * CY_AS_ERROR_INVALID_RESPONSE - active firmware does not support
- * the operation.
-
- See Also
- * CyAsLowSpeedSDFreq
- */
-EXTERN cy_as_return_status_t
-cy_as_misc_set_low_speed_sd_freq(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* Frequency setting desired for low speed SD cards */
- cy_as_low_speed_sd_freq setting,
- /* Callback to call on completion */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-/* Summary
- Select the clock frequency to be used when talking to high speed
- SD/MMC media.
-
- Description
- West Bridge firmware uses a 48 MHz clock to interface with high
- speed SD/MMC media. This clock rate can be restricted to 24 MHz
- if desired. This function selects the frequency setting to be
- used. This fonction MUST be completed before starting the storage
- stack for the setting to be taken into account.
-
- * Valid in Asynchronous Callback: Yes (if cb is non-zero)
- * Nestable: Yes
-
- Returns
- * CY_AS_ERROR_SUCCESS - the operation completed successfully.
- * CY_AS_ERROR_INVALID_HANDLE - invalid device handle passed in.
- * CY_AS_ERROR_NOT_CONFIGURED - West Bridge device has not been
- * configured.
- * CY_AS_ERROR_NO_FIRMWARE - firmware has not been downloaded to
- * the device.
- * CY_AS_ERROR_OUT_OF_MEMORY - failed to allocate memory for the
- * operation.
- * CY_AS_ERROR_IN_SUSPEND - West Bridge is in low power suspend mode.
- * CY_AS_ERROR_INVALID_PARAMETER - invalid frequency setting desired.
- * CY_AS_ERROR_TIMEOUT - West Bridge device did not respond to the
- * operation.
- * CY_AS_ERROR_INVALID_RESPONSE - active firmware does not support
- * the operation.
-
- See Also
- * CyAsLowSpeedSDFreq
- */
-EXTERN cy_as_return_status_t
-cy_as_misc_set_high_speed_sd_freq(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* Frequency setting desired for high speed SD cards */
- cy_as_high_speed_sd_freq setting,
- /* Callback to call on completion */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-/* Summary
- Select the polarity of the SD_POW output driven by West Bridge.
-
- Description
- The SD_POW signal driven by West Bridge can be used to control
- the supply of Vcc to the SD/MMC media connected to the device.
- This signal is driven as an active high signal by default. This
- function can be used to change the polarity of this signal if
- required. This fonction MUST be completed before starting the
- storage stack for the setting to be taken into account.
-
- * Valid in Asynchronous Callback: Yes (if cb is non-zero)
- * Nestable: Yes
-
- Returns
- * CY_AS_ERROR_SUCCESS - the operation completed successfully.
- * CY_AS_ERROR_INVALID_HANDLE - invalid device handle passed in.
- * CY_AS_ERROR_NOT_CONFIGURED - West Bridge device has not been
- * configured.
- * CY_AS_ERROR_NO_FIRMWARE - firmware has not been downloaded
- * to the device.
- * CY_AS_ERROR_OUT_OF_MEMORY - failed to allocate memory for
- * the operation.
- * CY_AS_ERROR_IN_SUSPEND - West Bridge is in low power
- * suspend mode.
- * CY_AS_ERROR_INVALID_PARAMETER - invalid frequency setting
- * desired.
- * CY_AS_ERROR_TIMEOUT - West Bridge device did not respond to
- * the operation.
- * CY_AS_ERROR_INVALID_RESPONSE - active firmware does not
- * support the operation.
-
- See Also
- * CyAsMiscSignalPolarity
- */
-EXTERN cy_as_return_status_t
-cy_as_misc_set_sd_power_polarity(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* Desired polarity setting to the SD_POW signal. */
- cy_as_misc_signal_polarity polarity,
- /* Callback to call on completion. */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback. */
- uint32_t client
- );
-
-/* For supporting deprecated functions */
-#include "cyasmisc_dep.h"
-
-#include "cyas_cplus_end.h"
-
-#endif /* _INCLUDED_CYASMISC_H_ */
+++ /dev/null
-/* Cypress West Bridge API header file (cyasmisc_dep.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-/* This header will contain Antioch specific declaration
- * of the APIs that are deprecated in Astoria SDK. This is
- * for maintaining backward compatibility with prior releases
- * of the Antioch SDK.
- */
-#ifndef __INCLUDED_CYASMISC_DEP_H__
-#define __INCLUDED_CYASMISC_DEP_H__
-
-#ifndef __doxygen__
-
-EXTERN cy_as_return_status_t
-cy_as_misc_acquire_resource_dep(cy_as_device_handle handle,
- cy_as_resource_type resource,
- cy_bool force);
-EXTERN cy_as_return_status_t
-cy_as_misc_get_firmware_version_dep(cy_as_device_handle handle,
- uint16_t *major,
- uint16_t *minor,
- uint16_t *build,
- uint8_t *media_type,
- cy_bool *is_debug_mode);
-EXTERN cy_as_return_status_t
-cy_as_misc_set_trace_level_dep(cy_as_device_handle handle,
- uint8_t level,
- cy_as_media_type media,
- uint32_t device,
- uint32_t unit,
- cy_as_function_callback cb,
- uint32_t client);
-#endif /*__doxygen*/
-
-#endif /*__INCLUDED_CYANSTORAGE_DEP_H__*/
+++ /dev/null
-/* Cypress West Bridge API header file (cyasmtp.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASMTP_H_
-#define _INCLUDED_CYASMTP_H_
-
-#include "cyasmisc.h"
-
-#include "cyas_cplus_start.h"
-
-/*@@Media Transfer Protocol (MTP) Overview
- Summary
- The MTP API has been designed to allow MTP enabled West Bridge
- devices to implement the MTP protocol while maintaining high
- performance. West Bridge has the capability to enter into a
- Turbo mode during a MTP SendObject or GetObject operation
- enabling it to directly stream the data into or out of the
- attached SD card with minimal involvement from the Processor.
-
- Description
- The MTP API is designed to act as a pass through implementation
- of the MTP protocol for all operations. Each MTP transaction
- received from the Host is passed through West Bridge and along
- to the Processor. The Processor can then respond to the
- transaction and pass data and/or responses back to the Host
- through West Bridge.
-
- The MTP API also allows for a high speed handling of MTP
- SendObject and GetObject operations, referred to as Turbo MTP.
- During a Turbo MTP operation West Bridge is responsible for
- reading or writing the data for the MTP operation directly from
- or to the SD card with minimal interaction from the Processor.
- The is done by having the Processor transfer a Block Table
- to West Bridge which contains the locations on the SD card that
- need to be read or written. During the handling of a Turbo
- Operation the Processor will then only periodically need to
- send a new Block Table to West Bridge when the first is used up.
- See the CyAsMTPInitSendObject and CyAsMTPInitGetObject functions
- for more details.
-
- In order to enable the MTP API you must first have a MTP enabled
- West Bridge loaded with MTP firmware. You then must start the USB
- and Storage APIs before starting the MTP API. See CyAsMTPStart
- for more details.
-*/
-
-/*@@Endpoints
- Summary
- When using MTP firmware endpoints 2 and 6 are dedicated
- to bulk MTP traffic and endpoint 1 is available for MTP
- events.
-
- Description
- When using a MTP enabled West Brdige device endpoints 2 and
- 6 are made available for use to implement the MTP protocol.
- These endpoints have a few special restrictions noted below
- but otherwise the existing USB APIs can be used normally with
- these endpoints.
-
- 1. CyAsUsbSetNak, CyAsUsbClearNak, and CyAsUsbGetNak are
- disabled for these endpoints
- 2. During a turbo operation CyAsUsbSetStall, CyAsUsbClearStall,
- and CyAsUsbGetStall are disabled.
-
-*/
-
-
-/* Summary
- This constants defines the maximum number of
- entries in the Block Table used to describe
- the locations for Send/GetObject operations.
-
- See Also
- * CyAsMtpSendObject
- * CyAsMtpGetObject
-*/
-#define CY_AS_MAX_BLOCK_TABLE_ENTRIES 64
-
-/* Summary
- Endpoint to be used for MTP reads from the USB host.
- */
-#define CY_AS_MTP_READ_ENDPOINT (2)
-
-/* Summary
- Endpoint to be used fro MTP writes to the USB host.
- */
-#define CY_AS_MTP_WRITE_ENDPOINT (6)
-
-/******************************************
- * MTP Types
- ******************************************/
-
-/* Summary
- The BlockTable used for turbo operations.
-
- Description
- This struct is used to specify the blocks
- to be used for both read/write and send/getObject
- operations.
-
- The start block is a starting Logical Block Address
- and num block is the number of blocks in that contiguous
- region.
-
- start_blocks[i]->[-------] <- start_blocks[i] + num_blocks[i]
-
- If you need fewer than CY_AS_MAX_BLOCK_TABLE_ENTRIES
- the remainder should be left empty. Empty is defined
- as num_blocks equal to 0.
-
- See Also
- * CyAsMTPInitSendObject
- * CyAsMTPInitGetObject
-
-*/
-typedef struct cy_as_mtp_block_table {
- uint32_t start_blocks[CY_AS_MAX_BLOCK_TABLE_ENTRIES];
- uint16_t num_blocks[CY_AS_MAX_BLOCK_TABLE_ENTRIES];
-} cy_as_mtp_block_table;
-
-/* Summary
- This type specifies the type of MTP event that has occurred.
-
- Description
- MTP events are used to communicate that West Bridge has
- either finished the handling of the given operation, or
- that it requires additional data to complete the operation.
-
- In no case does West Bridge send any MTP protocol responses,
- this always remain the responsibility of the client.
-
- See Also
- * CyAsMTPInitSendObject
- * CyAsMTPInitGetObject
- * CyAsMTPSendBlockTable
-
-*/
-typedef enum cy_as_mtp_event {
- /* This event is sent when West Bridge
- has finished writing the data from a
- send_object. west bridge will -not- send
- the MTP response. */
- cy_as_mtp_send_object_complete,
-
- /* This event is sent when West Bridge
- has finished sending the data for a
- get_object operation. west bridge will
- -not- send the MTP response. */
- cy_as_mtp_get_object_complete,
-
- /* This event is called when West Bridge
- needs a new block_table. this is only a
- notification, to transfer a block_table
- to west bridge the cy_as_mtp_send_block_table
- use the function. while west bridge is waiting
- for a block_table during a send_object it
- may need to NAK the endpoint. it is important
- that the cy_as_mtp_send_block_table call is made
- in a timely manner as eventually a delay
- will result in an USB reset. this event has
- no data */
- cy_as_mtp_block_table_needed
-} cy_as_mtp_event;
-
-/* Summary
- Data for the CyAsMTPSendObjectComplete event.
-
- Description
- Notification that a SendObject operation has been
- completed. The status of the operation is given
- (to distinguish between a cancelled and a success
- for example) as well as the block count. The blocks
- are used in order based on the current block table.
- If more than one block table was used for a given
- SendObject the count will include the total number
- of blocks written.
-
- This callback will be made only once per SendObject
- operation and it will only be called after all of
- the data has been committed to the SD card.
-
- See Also
- * CyAsMTPEvent
-
- */
-typedef struct cy_as_mtp_send_object_complete_data {
- cy_as_return_status_t status;
- uint32_t byte_count;
- uint32_t transaction_id;
-} cy_as_mtp_send_object_complete_data;
-
-/* Summary
- Data for the CyAsMTPGetObjectComplete event.
-
- Description
- Notification that a GetObject has finished. This
- event allows the P side to know when to send the MTP
- response for the GetObject operation.
-
- See Also
- * CyAsMTPEvent
-
-*/
-typedef struct cy_as_mtp_get_object_complete_data {
- cy_as_return_status_t status;
- uint32_t byte_count;
-} cy_as_mtp_get_object_complete_data;
-
-/* Summary
- MTP Event callback.
-
- Description
- Callback used to communicate that a SendObject
- operation has finished.
-
- See Also
- * CyAsMTPEvent
-*/
-typedef void (*cy_as_mtp_event_callback)(
- cy_as_device_handle handle,
- cy_as_mtp_event evtype,
- void *evdata
- );
-
-/* Summary
- This is the callback function called after asynchronous API
- functions have completed.
-
- Description
- When calling API functions from callback routines (interrupt
- handlers usually) the async version of these functions must
- be used. This callback is called when an asynchronous API
- function has completed.
-*/
-typedef void (*cy_as_mtp_function_callback)(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* The error status of the operation */
- cy_as_return_status_t status,
- /* A client supplied 32 bit tag */
- uint32_t client
-);
-
-/**************************************
- * MTP Functions
- **************************************/
-
-/* Summary
- This function starts the MTP stack.
-
- Description
- Initializes West Bridge for MTP activity and registers the MTP
- event callback.
-
- Before calling CyAsMTPStart, CyAsUsbStart and CyAsStorageStart must be
- called (in either order).
-
- MTPStart must be called before the device is enumerated. Please
- see the documentation for CyAsUsbSetEnumConfig and CyAsUsbEnumControl
- for details on enumerating a device for MTP.
-
- Calling MTPStart will not affect any ongoing P<->S traffic.
-
- This requires a MTP firmware image to be loaded on West Bridge.
-
- Returns
- * CY_AS_ERROR_SUCCESS
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED
- * CY_AS_ERROR_NO_FIRMWARE
- * CY_AS_ERROR_IN_SUSPEND
- * CY_AS_ERROR_INVALID_IN_CALLBACK
- * CY_AS_ERROR_STARTSTOP_PENDING
- * CY_AS_ERROR_NOT_RUNNING - CyAsUsbStart or CyAsStorageStart
- * have not been called
- * CY_AS_ERROR_NOT_SUPPORTED - West Bridge is not running
- * firmware with MTP support
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
-
-
- See Also
- * CyAsMTPStop
- * CyAsUsbStart
- * CyAsStorageStart
- * CyAsUsbSetEnumConfig
- * CyAsUsbEnumControl
-*/
-cy_as_return_status_t
-cy_as_mtp_start(
- cy_as_device_handle handle,
- cy_as_mtp_event_callback event_c_b,
- cy_as_function_callback cb,
- uint32_t client
- );
-
-
-/* Summary
- This function stops the MTP stack.
-
- Description
- Stops all MTP activity. Any ongoing transfers are
- canceled.
-
- This will not cause a UsbDisconnect but all
- MTP activity (both pass through and turbo) will
- stop.
-
- Returns
- * CY_AS_ERROR_SUCCESS
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED
- * CY_AS_ERROR_NO_FIRMWARE
- * CY_AS_ERROR_NOT_RUNNING
- * CY_AS_ERROR_IN_SUSPEND
- * CY_AS_ERROR_INVALID_IN_CALLBACK
- * CY_AS_ERROR_STARTSTOP_PENDING
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
-
-
- See Also
- * CyAsMTPStart
-*/
-cy_as_return_status_t
-cy_as_mtp_stop(
- cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client
- );
-
-/* Summary
- This function sets up a Turbo SendObject operation.
-
- Description
- Calling this function will setup West Bridge to
- enable Tubo handling of the next SendObject
- operation received. This will pass down the initial
- block table to the firmware and setup a direct u->s
- write for the SendObject operation.
-
- If this function is not called before a SendObject
- operation is seen the SendObject operation and data
- will be passed along to the P port like any other MTP
- command. It would then be the responsibility of the
- client to perform a normal StorageWrite call to
- store the data on the SD card. N.B. This will be
- very slow compared with the Turbo handling.
-
- The completion of this function only signals that
- West Bridge has been set up to receive the next SendObject
- operation. When the SendObject operation has been fully
- handled and the data written to the SD card a separate
- event will be triggered.
-
- Returns
- * CY_AS_ERROR_SUCCESS
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED
- * CY_AS_ERROR_NO_FIRMWARE
- * CY_AS_ERROR_IN_SUSPEND
- * CY_AS_ERROR_NOT_RUNNING
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_ASYNC_PENDING
- * CY_AS_ERROR_INVALID_RESPONSE
- * CY_AS_ERROR_NOT_SUPPORTED - West Bridge is not running
- * firmware with MTP support
-
- See Also
- * CyAsMTPCancelSendObject
- * CyAsMTPInitGetObject
- * CyAsMTPEvent
- * CyAsMTPSendBlockTable
-*/
-cy_as_return_status_t
-cy_as_mtp_init_send_object(
- cy_as_device_handle handle,
- cy_as_mtp_block_table *blk_table,
- uint32_t num_bytes,
- cy_as_function_callback cb,
- uint32_t client
- );
-
-/* Summary
- This function cancels an ongoing MTP operation.
-
- Description
- Causes West Bridge to cancel an ongoing SendObject
- operation. Note this is only a cancel to West Bridge,
- the MTP operation still needs to be canceled by
- sending a response.
-
- West Bridge will automatically set a Stall on the endpoint
- when the cancel is received.
-
- This function is only valid after CyAsMTPInitSendObject
- has been called, but before the CyAsMTPSendObjectComplete
- event has been sent.
-
- Returns
- * CY_AS_ERROR_SUCCESS
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_RUNNING
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
- * CY_AS_ERROR_NOT_SUPPORTED - West Bridge is not running
- * firmware with MTP support
- * CY_AS_ERROR_NO_OPERATION_PENDING
-
- See Also
- * CyAsMTPInitSendObject
-*/
-cy_as_return_status_t
-cy_as_mtp_cancel_send_object(
- cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client
- );
-
-/* Summary
- This function sets up a turbo GetObject operation.
-
- Description
- Called by the P in response to a GetObject
- operation. This provides West Bridge with the block
- addresses for the Object data that needs to be
- transferred.
-
- It is the responsibility of the Processor to send the MTP
- operation before calling CyAsMTPInitGetObject. West Bridge
- will then send the data phase of the transaction,
- automatically creating the required container for Data.
- Once all of the Data has been transferred a callback will
- be issued to inform the Processor that the Data phase has
- completed allowing it to send the required MTP response.
-
- If an entire Block Table is used then after the
- last block is transferred the CyAsMTPBtCallback
- will be called to allow an additional Block Table(s)
- to be specified.
-
- Returns
- * CY_AS_ERROR_SUCCESS
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED
- * CY_AS_ERROR_NO_FIRMWARE
- * CY_AS_ERROR_NOT_RUNNING
- * CY_AS_ERROR_IN_SUSPEND
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_ASYNC_PENDING
- * CY_AS_ERROR_INVALID_RESPONSE
- * CY_AS_ERROR_NOT_SUPPORTED - West Bridge is not running
- * firmware with MTP support
-
- See Also
- * CyAsMTPInitSendObject
- * CyAsMTPCancelGetObject
- * CyAsMTPEvent
- * CyAsMTPSendBlockTable
-*/
-cy_as_return_status_t
-cy_as_mtp_init_get_object(
- cy_as_device_handle handle,
- cy_as_mtp_block_table *table_p,
- uint32_t num_bytes,
- uint32_t transaction_id,
- cy_as_function_callback cb,
- uint32_t client
- );
-
-/* Summary
- This function cancels an ongoing turbo GetObject
- operation.
-
- Description
- Causes West Bridge to cancel an ongoing GetObject
- operation. Note this is only a cancel to West Bridge,
- the MTP operation still needs to be canceled by
- sending a response.
-
- This function is only valid after CyAsMTPGetSendObject
- has been called, but before the CyAsMTPGetObjectComplete
- event has been sent.
-
- Returns
- * CY_AS_ERROR_SUCCESS
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_RUNNING
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
- * CY_AS_ERROR_NOT_SUPPORTED - West Bridge is not running
- * firmware with MTP support
- * CY_AS_ERROR_NO_OPERATION_PENDING
-
- See Also
- * CyAsMTPInitGetObject
-*/
-cy_as_return_status_t
-cy_as_mtp_cancel_get_object(
- cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client
- );
-
-/* Summary
- This function is used to transfer a BlockTable as part of
- an ongoing MTP operation.
-
- Description
- This function is called in response to the
- CyAsMTPBlockTableNeeded event. This allows the client to
- pass in a BlockTable structure to West Bridge.
-
- The memory associated with the table will be copied and
- can be safely disposed of when the function returns if
- called synchronously, or when the callback is made if
- called asynchronously.
-
- This function is used for both SendObject and GetObject
- as both can generate the CyAsMTPBlockTableNeeded event.
-
- Returns
- * CY_AS_ERROR_SUCCESS
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_NOT_CONFIGURED
- * CY_AS_ERROR_NO_FIRMWARE
- * CY_AS_ERROR_NOT_RUNNING
- * CY_AS_ERROR_IN_SUSPEND
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_ASYNC_PENDING
- * CY_AS_ERROR_INVALID_RESPONSE
- * CY_AS_ERROR_NOT_SUPPORTED - West Bridge is not running
- * firmware with MTP support
-
- See Also
- * CyAsMTPInitSendObject
- * CyAsMTPInitGetObject
-*/
-cy_as_return_status_t
-cy_as_mtp_send_block_table(
- cy_as_device_handle handle,
- cy_as_mtp_block_table *table,
- cy_as_function_callback cb,
- uint32_t client
- );
-
-/* Summary
- This function is used to mark the start of a storage
- read/write burst from the P port processor.
-
- Description
- This function is used to mark the start of a storage
- read/write burst from the processor. All USB host access
- into the mass storage / MTP endpoints will be blocked
- while the read/write burst is ongoing, and will be allowed
- to resume only after CyAsMTPStorageOnlyStop is called.
- The burst mode is used to reduce the firmware overhead
- due to configuring the internal data paths repeatedly,
- and can help improve performance when a sequence of
- read/writes is performed in a burst.
-
- This function will not generate a special mailbox request,
- it will only set a flag on the next Storage Read/Write
- operation. Until such a call is made West Bridge will
- continue to accept incoming packets from the Host.
-
- * Valid in Asynchronous Callback: YES
-
- Returns
- * CY_AS_ERROR_INVALID_HANDLE - Invalid West Bridge device
- * handle was passed in.
- * CY_AS_ERROR_NOT_CONFIGURED - West Bridge device has not
- * been configured.
- * CY_AS_ERROR_NO_FIRMWARE - Firmware is not active on West
- * Bridge device.
- * CY_AS_ERROR_NOT_RUNNING - Storage stack is not running.
- * CY_AS_ERROR_SUCCESS - Burst mode has been started.
-
- See Also
- * CyAsStorageReadWriteBurstStop
- */
-cy_as_return_status_t
-cy_as_mtp_storage_only_start(
- /* Handle to the West Bridge device. */
- cy_as_device_handle handle
- );
-
-/* Summary
- This function is used to mark the end of a storage read/write
- burst from the P port processor.
-
- Description
- This function is used to mark the end of a storage read/write
- burst from the processor. At this point, USB access to the
- mass storage / MTP endpoints on the West Bridge device will be
- re-enabled.
-
- * Valid in Asynchronous Callback: NO
-
- Returns
- * CY_AS_ERROR_INVALID_HANDLE - Invalid West Bridge device handle
- * was passed in.
- * CY_AS_ERROR_NOT_CONFIGURED - West Bridge device has not been
- * configured.
- * CY_AS_ERROR_NO_FIRMWARE - Firmware is not active on West Bridge
- * device.
- * CY_AS_ERROR_NOT_RUNNING - Storage stack is not running.
- * CY_AS_ERROR_INVALID_IN_CALLBACK - This API cannot be called
- * from a callback.
- * CY_AS_ERROR_OUT_OF_MEMORY - Failed to allocate memory to
- * process the request.
- * CY_AS_ERROR_TIMEOUT - Failed to send request to firmware.
- * CY_AS_ERROR_SUCCESS - Burst mode has been stopped.
-
- See Also
- * CyAsStorageReadWriteBurstStart
- */
-cy_as_return_status_t
-cy_as_mtp_storage_only_stop(
- /* Handle to the West Bridge device. */
- cy_as_device_handle handle,
- cy_as_function_callback cb,
- uint32_t client
- );
-
-#include "cyas_cplus_end.h"
-
-#endif
+++ /dev/null
-/* Cypress West Bridge API header file (cyasprotocol.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASPROTOCOL_H_
-#define _INCLUDED_CYASPROTOCOL_H_
-
-/*
- * Constants defining the per context buffer sizes
- */
-#ifndef __doxygen__
-#define CY_CTX_GEN_MAX_DATA_SIZE (8)
-#define CY_CTX_RES_MAX_DATA_SIZE (8)
-#define CY_CTX_STR_MAX_DATA_SIZE (64)
-#define CY_CTX_USB_MAX_DATA_SIZE (130 + 23)
-#define CY_CTX_TUR_MAX_DATA_SIZE (12)
-#endif
-
-/* Summary
- This response indicates a command has been processed
- and returned a status.
-
- Direction
- West Bridge -> P Port Processor
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = all
- * Response Code = 0
-
- D0
- * 0 = success (CY_AS_ERROR_SUCCESS)
- * non-zero = error code
-
- Description
- This response indicates that a request was processed
- and no data was generated as a result of the request
- beyond a single 16 bit status value. This response
- contains the 16 bit data value.
- */
-#define CY_RESP_SUCCESS_FAILURE (0)
-
-/* Summary
- This response indicates an invalid request was sent
-
- Direction
- West Bridge -> P Port Processor
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = all
- * Response Code = 1
-
- D0
- * Mailbox contents for invalid request
-
- Description
- This response is returned when a request is sent
- that contains an invalid
- context or request code.
-*/
-#define CY_RESP_INVALID_REQUEST (1)
-
-/* Summary
- This response indicates a request of invalid length was sent
-
- Direction
- West Bridge -> P Port Processor
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = all
- * Response Code = 2
-
- D0
- * Mailbox contenxt for invalid request
- * Length for invalid request
-
- Description
- The software API and firmware sends requests across the
- P Port to West Bridge interface on different contexts.
- Each contexts has a maximum size of the request packet
- that can be received. The size of a request can be
- determined during the first cycle of a request transfer.
- If the request is larger than can be handled by the
- receiving context this response is returned. Note that
- the complete request is received before this response is
- sent, but that the request is dropped after this response
- is sent.
-*/
-#define CY_RESP_INVALID_LENGTH (2)
-
-
-/* Summary
- This response indicates a request was made to an
- invalid storage address.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = all
- * Response Code = 0
-
- D0
- Bits 15 - 12 : Media Type
- * 0 = NAND
- * 1 = SD Flash
- * 2 = MMC Flash
- * 3 = CE-ATA
-
- Bits 11 - 8 : Zero based device index
-
- Bits 7 - 0 : Zero based unit index
-
- D1
- Upper 16 bits of block address
-
- D2
- Lower 16 bits of block address
-
- D3
- Portion of address that is invalid
- * 0 = Media Type
- * 1 = Device Index
- * 2 = Unit Index
- * 3 = Block Address
-
- Description
- This response indicates a request to an invalid storage media
- address
- */
-#define CY_RESP_NO_SUCH_ADDRESS (3)
-
-
-/******************************************************/
-
-/*@@General requests
- Summary
- The general requests include:
- * CY_RQT_GET_FIRMWARE_VERSION
- * CY_RQT_SET_TRACE_LEVEL
- * CY_RQT_INITIALIZATION_COMPLETE
- * CY_RQT_READ_MCU_REGISTER
- * CY_RQT_WRITE_MCU_REGISTER
- * CY_RQT_STORAGE_MEDIA_CHANGED
- * CY_RQT_CONTROL_ANTIOCH_HEARTBEAT
- * CY_RQT_PREPARE_FOR_STANDBY
- * CY_RQT_ENTER_SUSPEND_MODE
- * CY_RQT_OUT_OF_SUSPEND
- * CY_RQT_GET_GPIO_STATE
- * CY_RQT_SET_GPIO_STATE
- * CY_RQT_SET_SD_CLOCK_FREQ
- * CY_RQT_WB_DEVICE_MISMATCH
- * CY_RQT_BOOTLOAD_NO_FIRMWARE
- * CY_RQT_RESERVE_LNA_BOOT_AREA
- * CY_RQT_ABORT_P2S_XFER
- */
-
-#ifndef __doxygen__
-#define CY_RQT_GENERAL_RQT_CONTEXT (0)
-#endif
-
-/* Summary
- This command returns the firmware version number,
- media types supported and debug/release mode information.
-
- Direction
- P Port Processor-> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 0
- * Request Code = 0
-
- Description
- The response contains the 16-bit major version, the
- 16-bit minor version, the 16 bit build number, media
- types supported and release/debug mode information.
-
- Responses
- * CY_RESP_FIRMWARE_VERSION
- */
-#define CY_RQT_GET_FIRMWARE_VERSION (0)
-
-
-/* Summary
- This command changes the trace level and trace information
- destination within the West Bridge firmware.
-
- Direction
- P Port Processor-> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 0
- * Request Code = 1
-
- D0
- Trace Level
- * 0 = no trace information
- * 1 = state information
- * 2 = function call
- * 3 = function call with args/return value
-
- D1
- Bits 12 - 15 : MediaType
- * 0 = NAND
- * 1 = SDIO Flash
- * 2 = MMC Flash
- * 3 = CE-ATA
-
- Bits 8 - 11 : Zero based device index
-
- Bits 0 - 7 : Zero based unit index
-
- Description
- The West Bridge firmware contains debugging facilities that can
- be used to trace the execution of the firmware. This request
- sets the level of tracing information that is stored and the
- location where it is stored.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_NO_SUCH_ADDRESS
- */
-#define CY_RQT_SET_TRACE_LEVEL (1)
-
-/* Summary
- This command indicates that the firmware is up and ready
- for communications with the P port processor.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 2
-
- Mailbox0
- * Context = 0
- * Request Code = 3
-
- D0
- Major Version
-
- D1
- Minor Version
-
- D2
- Build Number
-
- D3
- Bits 15-8: Media types supported on Bus 1.
- Bits 7-0: Media types supported on Bus 0.
- Bits 8, 0: NAND support.
- * 0: NAND is not supported.
- * 1: NAND is supported.
- Bits 9, 1: SD memory card support.
- * 0: SD memory card is not supported.
- * 1: SD memory card is supported.
- Bits 10, 2: MMC card support.
- * 0: MMC card is not supported.
- * 1: MMC card is supported.
- Bits 11, 3: CEATA drive support
- * 0: CEATA drive is not supported.
- * 1: CEATA drive is supported.
- Bits 12, 4: SD IO card support.
- * 0: SD IO card is not supported.
- * 1: SD IO card is supported.
-
- D4
- Bits 15 - 8 : MTP information
- * 0 : MTP not supported in firmware
- * 1 : MTP supported in firmware
- Bits 7 - 0 : Debug/Release mode information.
- * 0 : Release mode
- * 1 : Debug mode
-
- Description
- When the West Bridge firmware is loaded it being by performing
- initialization. Initialization must be complete before West
- Bridge is ready to accept requests from the P port processor.
- This request is sent from West Bridge to the P port processor
- to indicate that initialization is complete.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-*/
-#define CY_RQT_INITIALIZATION_COMPLETE (3)
-
-/* Summary
- This command requests the firmware to read and return the contents
- of a MCU accessible
- register.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 0
- * Request code = 4
-
- D0
- Address of register to read
-
- Description
- This debug command allows the processor to read the contents of
- a MCU accessible register.
-
- Responses
- * CY_RESP_MCU_REGISTER_DATA
- */
-#define CY_RQT_READ_MCU_REGISTER (4)
-
-/* Summary
- This command requests the firmware to write to an MCU
- accessible register.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 0
- * Request code = 5
-
- D0
- Address of register to be written
-
- D1
- Bits 15 - 8 : Mask to be applied to existing data.
- Bits 7 - 0 : Data to be ORed with masked data.
-
- Description
- This debug command allows the processor to write to an MCU
- accessible register.
- Note: This has to be used with caution, and is supported by
- the firmware only in special debug builds.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- */
-#define CY_RQT_WRITE_MCU_REGISTER (5)
-
-/* Summary
- This command tells the West Bridge firmware that a change in
- storage media has been detected.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 0
- * Request code = 6
-
- Description
- If the insertion or removal of SD or MMC cards is detected by
- hardware external to West Bridge, this command is used to tell
- the West Bridge firmware to re-initialize the storage controlled
- by the device.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
-*/
-#define CY_RQT_STORAGE_MEDIA_CHANGED (6)
-
-/* Summary
- This command enables/disables the periodic heartbeat message
- from the West Bridge firmware to the processor.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 0
- * Request code = 7
-
- Description
- This command enables/disables the periodic heartbeat message
- from the West Bridge firmware to the processor. The heartbeat
- message is left enabled by default, and can lead to a loss
- in performance on the P port interface.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- */
-#define CY_RQT_CONTROL_ANTIOCH_HEARTBEAT (7)
-
-/* Summary
- This command requests the West Bridge firmware to prepare for
- the device going into standby
- mode.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 0
- * Request code = 8
-
- Description
- This command is sent by the processor to the West Bridge as
- preparation for going into standby mode. The request allows the
- firmware to complete any pending/cached storage operations before
- going into the low power state.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- */
-#define CY_RQT_PREPARE_FOR_STANDBY (8)
-
-/* Summary
- Requests the firmware to go into suspend mode.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 0
- * Request code = 9
-
- D0
- Bits 7-0: Wakeup control information.
-
- Description
- This command is sent by the processor to the West Bridge to
- request the device to be placed in suspend mode. The firmware
- will complete any pending/cached storage operations before
- going into the low power state.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- */
-#define CY_RQT_ENTER_SUSPEND_MODE (9)
-
-/* Summary
- Indicates that the device has left suspend mode.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 0
- * Request code = 10
-
- Description
- This message is sent by the West Bridge to the Processor
- to indicate that the device has woken up from suspend mode,
- and is ready to accept new requests.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- */
-#define CY_RQT_OUT_OF_SUSPEND (10)
-
-/* Summary
- Request to get the current state of an West Bridge GPIO pin.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 0
- * Request code = 11
-
- D0
- Bits 15 - 8 : GPIO pin identifier
-
- Responses
- * CY_RESP_GPIO_STATE
-
- Description
- Request from the processor to get the current state of
- an West Bridge GPIO pin.
- */
-#define CY_RQT_GET_GPIO_STATE (11)
-
-/* Summary
- Request to update the output value on an West Bridge
- GPIO pin.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 0
- * Request code = 12
-
- D0
- Bits 15 - 8 : GPIO pin identifier
- Bit 0 : Desired output state
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
-
- Description
- Request from the processor to update the output value on
- an West Bridge GPIO pin.
- */
-#define CY_RQT_SET_GPIO_STATE (12)
-
-/* Summary
- Set the clock frequency on the SD interface of the West
- Bridge device.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 0
- * Request code = 13
-
- D0
- Bit 8: Type of SD/MMC media
- 0 = low speed media
- 1 = high speed media
- Bit 0: Clock frequency selection
- 0 = Default frequency
- 1 = Alternate frequency (24 MHz in both cases)
-
- Description
- This request is sent by the processor to set the operating clock
- frequency used on the SD interface of the device.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- */
-#define CY_RQT_SET_SD_CLOCK_FREQ (13)
-
-/* Summary
- Indicates the firmware downloaded to West Bridge cannot
- run on the active device.
-
- Direction
- West Bridge -> P Port processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 0
- * Request code = 14
-
- Description
- Some versions of West Bridge firmware can only run on specific
- types/versions of the West Bridge device. This error is
- returned when a firmware image is downloaded onto a device that
- does not support it.
-
- Responses
- * None
- */
-#define CY_RQT_WB_DEVICE_MISMATCH (14)
-
-/* Summary
- This command is indicates that no firmware was found in the
- storage media.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 0
- * Request code = 15
-
- Description
- The command is received only in case of silicon with bootloader
- ROM. The device sends the request if there is no firmware image
- found in the storage media or the image is corrupted. The
- device is waiting for P port to download a valid firmware image.
-
- Responses
- * None
- */
-#define CY_RQT_BOOTLOAD_NO_FIRMWARE (15)
-
-/* Summary
- This command reserves first numzones zones of nand device for
- storing processor boot image.
-
- Direction
- P Port Processor-> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 0
- * Request Code = 16
-
- D0
- Bits 7-0: numzones
-
- Description
- The first numzones zones in nand device will be used for storing
- proc boot image. LNA firmware in Astoria will work on this nand
- area and boots the processor which will then use the remaining
- nand for usual purposes.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- */
-#define CY_RQT_RESERVE_LNA_BOOT_AREA (16)
-
-/* Summary
- This command cancels the processing of a P2S operation in
- firmware.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 0
- * Request Code = 17
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
-*/
-#define CY_RQT_ABORT_P2S_XFER (17)
-
-/*
- * Used for debugging, ignore for normal operations
- */
-#ifndef __doxygen__
-#define CY_RQT_DEBUG_MESSAGE (127)
-#endif
-
-/******************************************************/
-
-/*@@General responses
- Summary
- The general responses include:
- * CY_RESP_FIRMWARE_VERSION
- * CY_RESP_MCU_REGISTER_DATA
- * CY_RESP_GPIO_STATE
- */
-
-
-/* Summary
- This response indicates success and contains the firmware
- version number, media types supported by the firmware and
- release/debug mode information.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 2
-
- MailBox0
- * Context = 0
- * Response Code = 16
-
- D0
- Major Version
-
- D1
- Minor Version
-
- D2
- Build Number
-
- D3
- Bits 15-8: Media types supported on Bus 1.
- Bits 7-0: Media types supported on Bus 0.
- Bits 8, 0: NAND support.
- * 0: NAND is not supported.
- * 1: NAND is supported.
- Bits 9, 1: SD memory card support.
- * 0: SD memory card is not supported.
- * 1: SD memory card is supported.
- Bits 10, 2: MMC card support.
- * 0: MMC card is not supported.
- * 1: MMC card is supported.
- Bits 11, 3: CEATA drive support
- * 0: CEATA drive is not supported.
- * 1: CEATA drive is supported.
- Bits 12, 4: SD IO card support.
- * 0: SD IO card is not supported.
- * 1: SD IO card is supported.
-
- D4
- Bits 15 - 8 : MTP information
- * 0 : MTP not supported in firmware
- * 1 : MTP supported in firmware
- Bits 7 - 0 : Debug/Release mode information.
- * 0 : Release mode
- * 1 : Debug mode
-
- Description
- This response is sent to return the firmware version
- number to the requestor.
- */
-#define CY_RESP_FIRMWARE_VERSION (16)
-
-/* Summary
- This response returns the contents of a MCU accessible
- register to the processor.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 0
- * Response code = 17
-
- D0
- Bits 7 - 0 : MCU register contents
-
- Description
- This response is sent by the firmware in response to the
- CY_RQT_READ_MCU_REGISTER
- command.
- */
-#define CY_RESP_MCU_REGISTER_DATA (17)
-
-/* Summary
- Reports the current state of an West Bridge GPIO pin.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 0
- * Request code = 18
-
- D0
- Bit 0: Current state of the GP input pin
-
- Description
- This response is sent by the West Bridge to report the
- current state observed on a general purpose input pin.
- */
-#define CY_RESP_GPIO_STATE (18)
-
-
-/* Summary
- This command notifies West Bridge the polarity of the
- SD power pin
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 0
- * Request Code = 19
- D0: CyAnMiscActivehigh / CyAnMiscActivelow
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-
- */
-
-#define CY_RQT_SDPOLARITY (19)
-
-/******************************/
-
-/*@@Resource requests
- Summary
-
- The resource requests include:
- * CY_RQT_ACQUIRE_RESOURCE
- * CY_RQT_RELEASE_RESOURCE
- */
-
-
-
-
-
-#ifndef __doxygen__
-#define CY_RQT_RESOURCE_RQT_CONTEXT (1)
-#endif
-
-
-/* Summary
- This command is a request from the P port processor
- for ownership of a resource.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 1
- * Request Code = 0
-
- D0
- Resource
- * 0 = USB
- * 1 = SDIO/MMC
- * 2 = NAND
-
- D1
- Force Flag
- * 0 = Normal
- * 1 = Force
-
- Description
- The resource may be the USB pins, the SDIO/MMC bus,
- or the NAND bus.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_ERR_NOT_RELEASED
- * CY_RESP_SUCCESS_FAILURE:CY_ERR_BAD_RESOURCE
- */
-#define CY_RQT_ACQUIRE_RESOURCE (0)
-
-
-/* Summary
- This command is a request from the P port processor
- to release ownership of a resource.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 1
- * Request Code = 1
-
- D0
- Resource
- * 0 = USB
- * 1 = SDIO/MMC
- * 2 = NAND
-
- Description
- The resource may be the USB pins, the SDIO/MMC bus, or
- the NAND bus.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_ERR_NOT_OWNER
- */
-#define CY_RQT_RELEASE_RESOURCE (1)
-
-
-/****************************/
-
-/*@@Storage requests
- Summary
- The storage commands include:
- * CY_RQT_START_STORAGE
- * CY_RQT_STOP_STORAGE
- * CY_RQT_CLAIM_STORAGE
- * CY_RQT_RELEASE_STORAGE
- * CY_RQT_QUERY_MEDIA
- * CY_RQT_QUERY_DEVICE
- * CY_RQT_QUERY_UNIT
- * CY_RQT_READ_BLOCK
- * CY_RQT_WRITE_BLOCK
- * CY_RQT_MEDIA_CHANGED
- * CY_RQT_ANTIOCH_CLAIM
- * CY_RQT_ANTIOCH_RELEASE
- * CY_RQT_SD_INTERFACE_CONTROL
- * CY_RQT_SD_REGISTER_READ
- * CY_RQT_CHECK_CARD_LOCK
- * CY_RQT_QUERY_BUS
- * CY_RQT_PARTITION_STORAGE
- * CY_RQT_PARTITION_ERASE
- * CY_RQT_GET_TRANSFER_AMOUNT
- * CY_RQT_ERASE
- * CY_RQT_SDIO_READ_DIRECT
- * CY_RQT_SDIO_WRITE_DIRECT
- * CY_RQT_SDIO_READ_EXTENDED
- * CY_RQT_SDIO_WRITE_EXTENDED
- * CY_RQT_SDIO_INIT_FUNCTION
- * CY_RQT_SDIO_QUERY_CARD
- * CY_RQT_SDIO_GET_TUPLE
- * CY_RQT_SDIO_ABORT_IO
- * CY_RQT_SDIO_INTR
- * CY_RQT_SDIO_SUSPEND
- * CY_RQT_SDIO_RESUME
- * CY_RQT_SDIO_RESET_DEV
- * CY_RQT_P2S_DMA_START
- */
-#ifndef __doxygen__
-#define CY_RQT_STORAGE_RQT_CONTEXT (2)
-#endif
-
-/* Summary
- This command requests initialization of the storage stack.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 0
-
- Description
- This command is required before any other storage related command
- can be send to the West Bridge firmware.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_ERR_ALREADY_RUNNING
- */
-#define CY_RQT_START_STORAGE (0)
-
-
-/* Summary
- This command requests shutdown of the storage stack.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 1
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_ERR_NOT_RUNNING
- */
-#define CY_RQT_STOP_STORAGE (1)
-
-
-/* Summary
- This command requests ownership of the given media
- type by the P port processor.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 2
-
- D0
- Bits 12 - 15 : Bus Index
- Bits 8 - 11 : Zero based device index
-
- Responses
- * CY_RESP_MEDIA_CLAIMED_RELEASED
- * CY_RESP_NO_SUCH_ADDRESS
- */
-#define CY_RQT_CLAIM_STORAGE (2)
-
-
-/* Summary
- This command releases ownership of a given media type
- by the P port processor.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 3
-
- D0
- Bits 12 - 15 : Bus Index
- Bits 8 - 11 : Zero based device index
-
- Responses
- * CY_RESP_MEDIA_CLAIMED_RELEASED
- * CY_RESP_NO_SUCH_ADDRESS
- */
-#define CY_RQT_RELEASE_STORAGE (3)
-
-
-/* Summary
- This command returns the total number of logical devices
- of the given type of media.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 4
-
- D0
- Bits 12 - 15 : MediaType
- * 0 = NAND
- * 1 = SDIO Flash
- * 2 = MMC Flash
- * 3 = CE-ATA
-
- Bits 8 - 11 : Not Used
-
- Bits 0 - 7 : Not Used
-
- Responses
- * CY_RESP_MEDIA_DESCRIPTOR
- * CY_RESP_NO_SUCH_ADDRESS
- */
-#define CY_RQT_QUERY_MEDIA (4)
-
-
-/* Summary
- This command queries a given device to determine
- information about the number of logical units on
- the given device.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 5
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Not Used
-
- Responses
- * CY_RESP_DEVICE_DESCRIPTOR
- * CY_RESP_SUCCESS_FAILURE:CY_ERR_INVALID_PARTITION_TABLE
- * CY_RESP_NO_SUCH_ADDRESS
- */
-#define CY_RQT_QUERY_DEVICE (5)
-
-
-/* Summary
- This command queries a given device to determine
- information about the size and location of a logical unit
- located on a physical device.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 6
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based unit index
-
- Responses
- * CY_RESP_UNIT_DESCRIPTOR
- * CY_RESP_SUCCESS_FAILURE:CY_ERR_INVALID_PARTITION_TABLE
- * CY_RESP_NO_SUCH_ADDRESS
- */
-#define CY_RQT_QUERY_UNIT (6)
-
-
-/* Summary
- This command initiates the read of a specific block
- from the given media,
- device and unit.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 2
-
- MailBox0
- * Context = 2
- * Request Code = 7
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based unit index
-
- D1
- Upper 16 bits of block address
-
- D2
- Lower 16 bits of block address
-
- D3
- BIT 8 - 15 : Upper 8 bits of Number of blocks
-
- BIT 0 - 7 : Reserved
-
- * D4 *
- BITS 8 - 15 : Lower 8 bits of Number of blocks
- BITS 1 - 7 : Not Used
- BIT 0 : Indicates whether this command is a
- part of a P2S only burst.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_ANTIOCH_DEFERRED_ERROR
- */
-#define CY_RQT_READ_BLOCK (7)
-
-
-/* Summary
- This command initiates the write of a specific block
- from the given media, device and unit.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 2
-
- MailBox0
- * Context = 2
- * Request Code = 8
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based unit index
-
- D1
- Upper 16 bits of block address
-
- D2
- Lower 16 bits of block address
-
- D3
- BIT 8 - 15 : Upper 8 bits of Number of blocks
-
- BIT 0 - 7 : Reserved
-
- * D4 *
- BITS 8 - 15 : Lower 8 bits of Number of blocks
- BITS 1 - 7 : Not Used
- BIT 0 : Indicates whether this command is a
- part of a P2S only burst.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_ANTIOCH_DEFERRED_ERROR
- */
-#define CY_RQT_WRITE_BLOCK (8)
-
-/* Summary
- This request is sent when the West Bridge device detects
- a change in the status of the media.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 2
- * Request Code = 9
-
- D0
- Bits 12 - 15 : Bus index
- Bits 0 - 7 : Media type
-
- D1
- Bit 0 : Action
- * 0 = Inserted
- * 1 = Removed
-
- Description
- When the media manager detects the insertion or removal
- of a media from the West Bridge port, this request is sent
- from the West Bridge device to the P Port processor to
- inform the processor of the change in status of the media.
- This request is sent for both an insert operation and a
- removal operation.
-
- Responses
- * CY_RESPO_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-*/
-#define CY_RQT_MEDIA_CHANGED (9)
-
-/* Summary
- This request is sent when the USB module wishes to claim
- storage media.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 2
- * Request Code = 10
-
- D0
- Bit 0:
- * 0 = do not release NAND
- * 1 = release NAND
-
- Bit 1:
- * 0 = do not release SD Flash
- * 1 = release SD Flash
-
- Bit 2:
- * 0 = do not release MMC flash
- * 1 = release MMC flash
-
- Bit 3:
- * 0 = do not release CE-ATA storage
- * 1 = release CE-ATA storage
-
- Bit 8:
- * 0 = do not release storage on bus 0
- * 1 = release storage on bus 0
-
- Bit 9:
- * 0 = do not release storage on bus 1
- * 1 = release storage on bus 1
-
- Description
- When the USB cable is attached to the West Bridge device,
- West Bridge will enumerate the storage devices per the USB
- initialization of West Bridge. In order for West Bridge to
- respond to requests received via USB for the mass storage
- devices, the USB module must claim the storeage. This
- request is a request to the P port processor to release the
- storage medium. The medium will not be visible on the USB
- host, until it has been released by the processor.
-*/
-#define CY_RQT_ANTIOCH_CLAIM (10)
-
-/* Summary
- This request is sent when the P port has asked West Bridge to
- release storage media, and the West Bridge device has
- completed this.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 2
- * Request Code = 11
-
- D0
- Bit 0:
- * 0 = No change in ownership of NAND storage
- * 1 = NAND ownership has been given to processor
-
- Bit 1:
- * 0 = No change in ownership of SD storage
- * 1 = SD ownership has been given to processor
-
- Bit 2:
- * 0 = No change in ownership of MMC storage
- * 1 = MMC ownership has been given to processor
-
- Bit 3:
- * 0 = No change in ownership of CE-ATA storage
- * 1 = CE-ATA ownership has been given to processor
-
- Bit 4:
- * 0 = No change in ownership of SD IO device
- * 1 = SD IO device ownership has been given to processor
-
- Bit 8:
- * 0 = No change in ownership of storage on bus 0
- * 1 = Bus 0 ownership has been given to processor
-
- Bit 9:
- * 0 = No change in ownership of storage on bus 1
- * 1 = Bus 1 ownership has been given to processor
-
- Description
- When the P port asks for control of a particular media, West
- Bridge may be able to release the media immediately. West
- Bridge may also need to complete the flush of buffers before
- releasing the media. In the later case, West Bridge will
- indicated a release is not possible immediately and West Bridge
- will send this request to the P port when the release has been
- completed.
-*/
-#define CY_RQT_ANTIOCH_RELEASE (11)
-
-/* Summary
- This request is sent by the Processor to enable/disable the
- handling of SD card detection and SD card write protection
- by the firmware.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 2
- * Request code = 12
-
- D0
- Bit 8: Enable/disable handling of card detection.
- Bit 1: SDAT_3 = 0, GIPO_0 = 1
- Bit 0: Enable/disable handling of write protection.
-
- Description
- This request is sent by the Processor to enable/disable
- the handling of SD card detection and SD card write
- protection by the firmware.
- */
-#define CY_RQT_SD_INTERFACE_CONTROL (12)
-
-/* Summary
- Request from the processor to read a register on the SD
- card, and return the contents.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 2
- * Request code = 13
-
- D0
- Bits 12 - 15 : MediaType
- * 0 = Reserved
- * 1 = SDIO Flash
- * 2 = MMC Flash
- * 3 = Reserved
-
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Type of register to read
-
- Description
- This request is sent by the processor to instruct the
- West Bridge to read a register on the SD/MMC card, and
- send the contents back through the CY_RESP_SD_REGISTER_DATA
- response.
- */
-#define CY_RQT_SD_REGISTER_READ (13)
-
-/* Summary
- Check if the SD/MMC card connected to West Bridge is
- password locked.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 2
- * Request code = 14
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
-
- Description
- This request is sent by the processor to check if the
- SD/MMC connected to the West Bridge is locked with a
- password.
- */
-#define CY_RQT_CHECK_CARD_LOCK (14)
-
-/* Summary
- This command returns the total number of logical devices on the
- given bus
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 15
-
- D0
- Bits 12 - 15 : Bus Number
-
- Bits 0 - 11: Not Used
-
- Responses
- * CY_RESP_BUS_DESCRIPTOR
- * CY_RESP_NO_SUCH_BUS
- */
-#define CY_RQT_QUERY_BUS (15)
-
-/* Summary
- Divide a storage device into two partitions.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request code = 16
-
- D0
- Bits 12 - 15 : Bus number
- Bits 8 - 11 : Device number
- Bits 0 - 7 : Not used
-
- D1
- Size of partition 0 (MS word)
-
- D2
- Size of partition 0 (LS word)
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- */
-#define CY_RQT_PARTITION_STORAGE (16)
-
-/* Summary
- Remove the partition table and unify all partitions on
- a storage device.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request code = 17
-
- D0
- Bits 12 - 15 : Bus number
- Bits 8 - 11 : Device number
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- */
-#define CY_RQT_PARTITION_ERASE (17)
-
-/* Summary
- Requests the current transfer amount.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request code = 18
-
- D0
- Bits 12 - 15 : Bus number
- Bits 8 - 11 : Device number
-
- Responses
- * CY_RESP_TRANSFER_COUNT
- */
-#define CY_RQT_GET_TRANSFER_AMOUNT (18)
-
-/* Summary
- Erases.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 2
-
- MailBox0
- * Context = 2
- * Request code = 19
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based unit index
-
- D1
- Upper 16 bits of erase unit
-
- D2
- Lower 16 bits of erase unit
-
- D3
- BIT 8 - 15 : Upper 8 bits of Number of erase units
- BIT 0 - 7 : Reserved
-
- * D4 *
- BIT 8 - 15 : Lower 8 bits of Number of erase units
- BIT 0 - 7 : Not Used
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- */
-#define CY_RQT_ERASE (19)
-
-/* Summary
- This command reads 1 byte from an SDIO card.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 23
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based function number
-
- D1
- Bits 8 - 15 : 0
- Bit 7 : 0 to indicate a read
- Bits 4 - 6 : Function number
- Bit 3 : 0
- Bit 2 : 1 if SDIO interrupt needs to be re-enabled.
- Bits 0 - 1 : Two Most significant bits of Read address
-
- D2
- Bits 1 - 15 : 15 Least significant bits of Read address
- Bit 0 : 0
-
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- * CY_RESP_SDIO_DIRECT
-*/
-#define CY_RQT_SDIO_READ_DIRECT (23)
-
-/* Summary
- This command writes 1 byte to an SDIO card.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 24
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based function number
-
- D1
- Bits 8 - 15 : Data to write
- Bit 7 : 1 to indicate a write
- Bits 4 - 6 : Function number
- Bit 3 : 1 if Read after write is enabled
- Bit 2 : 1 if SDIO interrupt needs to be re-enabled.
- Bits 0 - 1 : Two Most significant bits of write address
-
- D2
- Bits 1 - 15 : 15 Least significant bits of write address
- Bit 0 : 0
-
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SDIO_DIRECT
-*/
-#define CY_RQT_SDIO_WRITE_DIRECT (24)
-
-/* Summary
- This command reads performs a multi block/byte read from
- an SDIO card.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 25
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based function number
-
- D1
- Bit 15 : 0 to indicate a read
- Bit 12 - 14 : Function Number
- Bit 11 : Block Mode
- Bit 10 : OpCode
- Bits 0 - 9 : 10 Most significant bits of Read address
-
- D2
- Bits 9 - 15 : 7 Least significant bits of address
- Bits 0 - 8 : Block/Byte Count
-
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SDIO_EXT
-*/
-#define CY_RQT_SDIO_READ_EXTENDED (25)
-
-/* Summary
- This command reads performs a multi block/byte write
- to an SDIO card.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 26
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based function number
-
- D1
- Bit 15 : 1 to indicate a write
- Bit 12 - 14 : Function Number
- Bit 11 : Block Mode
- Bit 10 : OpCode
- Bits 0 - 9 : 10 Most significant bits of Read address
-
- D2
- Bits 9 - 15 : 7 Least significant bits of address
- Bits 0 - 8 : Block/Byte Count
-
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SDIO_EXT
-*/
-#define CY_RQT_SDIO_WRITE_EXTENDED (26)
-
-/* Summary
- This command initialises an IO function on the SDIO card.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 27
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based function number
-
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-*/
-#define CY_RQT_SDIO_INIT_FUNCTION (27)
-
-/* Summary
- This command gets properties of the SDIO card.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 28
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_QUERY_CARD
-*/
-#define CY_RQT_SDIO_QUERY_CARD (28)
-
-/* Summary
- This command reads a tuple from the CIS of an SDIO card.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 29
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based function number
-
- D1
- Bits 8 - 15 : Tuple ID to read
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SDIO_GET_TUPLE
-*/
-#define CY_RQT_SDIO_GET_TUPLE (29)
-
-/* Summary
- This command Aborts an IO operation.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 30
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based function number
-
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-*/
-#define CY_RQT_SDIO_ABORT_IO (30)
-
-/* Summary
- SDIO Interrupt request sent to the processor from the West Bridge device.
-
- Direction
- West Bridge ->P Port Processor
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 31
-
- D0
- Bits 0 - 7 : Bus Index
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-*/
-#define CY_RQT_SDIO_INTR (31)
-
-/* Summary
- This command Suspends an IO operation.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 32
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based function number
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-*/
-#define CY_RQT_SDIO_SUSPEND (32)
-
-/* Summary
- This command resumes a suspended operation.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 33
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based function number
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SDIO_RESUME
-*/
-#define CY_RQT_SDIO_RESUME (33)
-
-/* Summary
- This command resets an SDIO device.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request Code = 34
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : 0
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-*/
-#define CY_RQT_SDIO_RESET_DEV (34)
-
-/* Summary
- This command asks the API to start the DMA transfer
- for a P2S operation.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Request code = 35
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-*/
-#define CY_RQT_P2S_DMA_START (35)
-
-/******************************************************/
-
-/*@@Storage responses
- Summary
- The storage responses include:
- * CY_RESP_MEDIA_CLAIMED_RELEASED
- * CY_RESP_MEDIA_DESCRIPTOR
- * CY_RESP_DEVICE_DESCRIPTOR
- * CY_RESP_UNIT_DESCRIPTOR
- * CY_RESP_ANTIOCH_DEFERRED_ERROR
- * CY_RESP_SD_REGISTER_DATA
- * CY_RESP_SD_LOCK_STATUS
- * CY_RESP_BUS_DESCRIPTOR
- * CY_RESP_TRANSFER_COUNT
- * CY_RESP_SDIO_EXT
- * CY_RESP_SDIO_INIT_FUNCTION
- * CY_RESP_SDIO_QUERY_CARD
- * CY_RESP_SDIO_GET_TUPLE
- * CY_RESP_SDIO_DIRECT
- * CY_RESP_SDIO_INVALID_FUNCTION
- * CY_RESP_SDIO_RESUME
- */
-
-/* Summary
- Based on the request sent, the state of a given media was
- changed as indicated by this response.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Response Code = 16
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
-
- D1
- State of Media
- * 0 = released
- * 1 = claimed
- */
-#define CY_RESP_MEDIA_CLAIMED_RELEASED (16)
-
-
-/* Summary
- This response gives the number of physical devices
- associated with a given media type.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Response Code = 17
-
- D0
- Media Type
- Bits 12 - 15
- * 0 = NAND
- * 1 = SDIO Flash
- * 2 = MMC Flash
- * 3 = CE-ATA
-
- D1
- Number of devices
- */
-#define CY_RESP_MEDIA_DESCRIPTOR (17)
-
-
-/* Summary
- This response gives description of a physical device.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 2
-
- MailBox0
- * Context = 2
- * Response Code = 18
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Type of media present on bus
-
- D1
- Block Size in bytes
-
- D2
- Bit 15 : Is device removable
- Bit 9 : Is device password locked
- Bit 8 : Is device writeable
- Bits 0 - 7 : Number Of Units
-
- D3
- ERASE_UNIT_SIZE high 16 bits
-
- D4
- ERASE_UNIT_SIZE low 16 bits
-
- */
-#define CY_RESP_DEVICE_DESCRIPTOR (18)
-
-
-/* Summary
- This response gives description of a unit on a
- physical device.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 6
-
- MailBox0
- * Context = 2
- * Response Code = 19
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based unit index
-
- D1
- Bits 0 - 7 : Media type
- * 1 = NAND
- * 2 = SD FLASH
- * 4 = MMC FLASH
- * 8 = CEATA
- * 16 = SD IO
-
- D2
- Block Size in bytes
-
- D3
- Start Block Low 16 bits
-
- D4
- Start Block High 16 bits
-
- D5
- Unit Size Low 16 bits
-
- D6
- Unit Size High 16 bits
- */
-#define CY_RESP_UNIT_DESCRIPTOR (19)
-
-
-/* Summary
- This response is sent as error status for P2S
- Storage operation.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 2
-
- Mailbox0
- * Context = 2
- * Request Code = 20
-
- D0
- Bit 8 : Type of operation (Read / Write)
- Bits 7 - 0 : Error code
-
- D1
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Zero based unit index
-
- *D2 - D3*
- Address where the error occurred.
-
- D4
- Length of the operation in blocks.
-
- Description
- This error is returned by the West Bridge to the
- processor if a storage operation fails due to a
- medium error.
-*/
-#define CY_RESP_ANTIOCH_DEFERRED_ERROR (20)
-
-/* Summary
- Contents of a register on the SD/MMC card connected to
- West Bridge.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- Variable
-
- Mailbox0
- * Context = 2
- * Request code = 21
-
- D0
- Length of data in bytes
-
- D1 - Dn
- The register contents
-
- Description
- This is the response to a CY_RQT_SD_REGISTER_READ
- request.
-*/
-#define CY_RESP_SD_REGISTER_DATA (21)
-
-/* Summary
- Status of whether the SD card is password locked.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 2
- * Request code = 22
-
- D0
- Bit 0 : The card's lock status
-
- Description
- Status of whether the SD card is password locked.
-*/
-#define CY_RESP_SD_LOCK_STATUS (22)
-
-
-/* Summary
- This response gives the types of physical devices
- attached to a given bus.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 2
- * Response Code = 23
-
- D0
- Bus Number
- Bits 12 - 15
-
- D1
- Media present on addressed bus
- */
-#define CY_RESP_BUS_DESCRIPTOR (23)
-
-/* Summary
- Amount of data read/written through the USB mass
- storage/MTP device.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 2
-
- MailBox0
- * Context = 2
- * Request code = 24
-
- D0
- MS 16 bits of number of sectors written
-
- D1
- LS 16 bits of number of sectors written
-
- D2
- MS 16 bits of number of sectors read
-
- D3
- LS 16 bits of number of sectors read
-
- Description
- This is the response to the CY_RQT_GET_TRANSFER_AMOUNT
- request, and represents the number of sectors of data
- that has been written to or read from the storage device
- through the USB Mass storage or MTP interface.
- */
-#define CY_RESP_TRANSFER_COUNT (24)
-
-/* Summary
- Status of SDIO Extended read/write operation.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 2
- * Request code = 34
-
- D0
- Bit 8 : 1 if Read response, 0 if write response
- Bits 0-7: Error Status
-
- Description
- Status of SDIO Extended read write operation.
-*/
-
-#define CY_RESP_SDIO_EXT (34)
-
-/* Summary
- Status of SDIO operation to Initialize a function
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 2
-
- Mailbox0
- * Context = 2
- * Request code = 35
-
-
- D0
- Bits 8-15 : Function Interface Code
- Bits 0-7: Extended Function Interface Code
-
- D1
- Bits 0-15 : Function Block Size
-
- D2
- Bits 0-15 : Most significant Word of Function PSN
-
- D3
- Bits 0-15 : Least significant Word of Function PSN
-
- D4
- Bit 15 : CSA Enabled Status
- Bit 14 : CSA Support Status
- Bit 9 : CSA No Format Status
- Bit 8 : CSA Write Protect Status
- Bit 0 : Function Wake Up Support status
-
- Description
- Status of SDIO Function Initialization operation.
-*/
-#define CY_RESP_SDIO_INIT_FUNCTION (35)
-
-/* Summary
- Status of SDIO operation to query the Card
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 2
-
- Mailbox0
- * Context = 2
- * Request code = 36
-
-
- D0
- Bits 8-15 : Number of IO functions present
- Bit 0: 1 if memory is present
-
- D1
- Bits 0-15 : Card Manufacturer ID
-
- D2
- Bits 0-15 : Card Manufacturer Additional Information
-
- D3
- Bits 0-15 : Function 0 Block Size
-
- D4
- Bits 8-15 :SDIO Card Capability register
- Bits 0-7: SDIO Version
-
-
- Description
- Status of SDIO Card Query operation.
- */
-#define CY_RESP_SDIO_QUERY_CARD (36)
-/* Summary
- Status of SDIO CIS read operation
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 2
- * Request code = 37
-
- D0
- Bit 8 : 1
- Bits 0-7: Error Status
-
- D1
- Bits 0 - 7 : Size of data read.
-
- Description
- Status of SDIO Get Tuple Read operation.
- */
-#define CY_RESP_SDIO_GET_TUPLE (37)
-
-/* Summary
- Status of SDIO Direct read/write operation.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 2
- * Request code = 38
-
- D0
- Bit 8 : Error Status
- Bits 0-7: Data Read(If any)
-
- Description
- Status of SDIO Direct read write operation.
-
-*/
-#define CY_RESP_SDIO_DIRECT (38)
-
-/* Summary
- Indicates an un-initialized function has been used for IO
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 2
- * Request code = 39
-
- Description
- Indicates an IO request on an uninitialized function.
-*/
-#define CY_RESP_SDIO_INVALID_FUNCTION (39)
-
-/* Summary
- Response to a Resume request
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 2
- * Request code = 40
-
- D0
- Bits 8-15 : Error Status
- Bit 0: 1 if data is available. 0 otherwise.
-
- Description
- Response to a Resume request. Indicates if data is
- available after resum or not.
-*/
-#define CY_RESP_SDIO_RESUME (40)
-
-/******************************************************/
-
-/*@@USB requests
- Summary
- The USB requests include:
- * CY_RQT_START_USB
- * CY_RQT_STOP_USB
- * CY_RQT_SET_CONNECT_STATE
- * CY_RQT_GET_CONNECT_STATE
- * CY_RQT_SET_USB_CONFIG
- * CY_RQT_GET_USB_CONFIG
- * CY_RQT_STALL_ENDPOINT
- * CY_RQT_GET_STALL
- * CY_RQT_SET_DESCRIPTOR
- * CY_RQT_GET_DESCRIPTOR
- * CY_RQT_SET_USB_CONFIG_REGISTERS
- * CY_RQT_USB_EVENT
- * CY_RQT_USB_EP_DATA
- * CY_RQT_ENDPOINT_SET_NAK
- * CY_RQT_GET_ENDPOINT_NAK
- * CY_RQT_ACK_SETUP_PACKET
- * CY_RQT_SCSI_INQUIRY_COMMAND
- * CY_RQT_SCSI_START_STOP_COMMAND
- * CY_RQT_SCSI_UNKNOWN_COMMAND
- * CY_RQT_USB_REMOTE_WAKEUP
- * CY_RQT_CLEAR_DESCRIPTORS
- * CY_RQT_USB_STORAGE_MONITOR
- * CY_RQT_USB_ACTIVITY_UPDATE
- * CY_RQT_MS_PARTITION_SELECT
- */
-#ifndef __doxygen__
-#define CY_RQT_USB_RQT_CONTEXT (3)
-#endif
-
-/* Summary
- This command requests initialization of the USB stack.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Request Code = 0
-
- Description
- This command is required before any other USB related command can be
- sent to the West Bridge firmware.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_ALREADY_RUNNING
- */
-#define CY_RQT_START_USB (0)
-
-
-/* Summary
- This command requests shutdown of the USB stack.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Request Code = 1
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_NOT_RUNNING
- */
-#define CY_RQT_STOP_USB (1)
-
-
-/* Summary
- This command requests that the USB pins be connected
- or disconnected to/from the West Bridge device.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Request Code = 2
-
- D0
- Desired Connect State
- * 0 = DISCONNECTED
- * 1 = CONNECTED
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_NOT_RUNNING
- */
-#define CY_RQT_SET_CONNECT_STATE (2)
-
-
-/* Summary
- This command requests the connection state of the
- West Bridge USB pins.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Request Code = 3
-
- Responses
- * CY_RESP_CONNECT_STATE
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_NOT_RUNNING
- */
-#define CY_RQT_GET_CONNECT_STATE (3)
-
-
-/* Summary
- This request configures the USB subsystem.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 2
-
- MailBox0
- * Context = 3
- * Request Code = 4
-
- D0
- Bits 8 - 15: Media to enumerate (bit mask)
- Bits 0 - 7: Enumerate Mass Storage (bit mask)
- * 1 = Enumerate device on bus 0
- * 2 = Enumerate device on bus 1
-
- D1
- Enumeration Methodology
- * 1 = West Bridge enumeration
- * 0 = P Port enumeration
-
- D2
- Mass storage interface number - Interface number to
- be used for the mass storage interface
-
- D3
- Mass storage callbacks
- * 1 = relay to P port
- * 0 = completely handle in firmware
-
- Description
- This indicates how enumeration should be handled.
- Enumeration can be handled by the West Bridge device
- or by the P port processor.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_ERR_INVALID_MASK
- * CY_RESP_SUCCESS_FAILURE:CY_ERR_INVALID_STORAGE_MEDIA
- */
-#define CY_RQT_SET_USB_CONFIG (4)
-
-
-/* Summary
- This request retrieves the current USB configuration from
- the West Bridge device.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Request Code = 5
-
- Responses
- * CY_RESP_USB_CONFIG
- */
-#define CY_RQT_GET_USB_CONFIG (5)
-
-
-/* Summary
- This request stalls the given endpoint.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Request Code = 6
-
- D0
- Endpoint Number
-
- D1
- * 1 = Stall Endpoint
- * 0 = Clear Stall
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_INVALID_ENDPOINT
- */
-#define CY_RQT_STALL_ENDPOINT (6)
-
-
-/* Summary
- This request retrieves the stall status of the
- requested endpoint.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Request Code = 7
-
- D0
- Endpoint number
-
- Responses
- * CY_RESP_ENDPOINT_STALL
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_INVALID_ENDPOINT
- */
-#define CY_RQT_GET_STALL (7)
-
-
-/* Summary
- This command sets the contents of a descriptor.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Request Code = 8
-
- D0
- Bit 15 - Bit 8
- Descriptor Index
-
- Bit 7 - Bit 0
- Descriptor Type
- * Device = 1
- * Device Qualifier = 2
- * Full Speed Configuration = 3
- * High Speed Configuration = 4
-
- * D1 - DN *
- Actual data for the descriptor
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_ERR_BAD_TYPE
- * CY_RESP_SUCCESS_FAILURE:CY_ERR_BAD_INDEX
- * CY_RESP_SUCCESS_FAILURE:CY_ERR_BAD_LENGTH
- */
-#define CY_RQT_SET_DESCRIPTOR (8)
-
-/* Summary
- This command gets the contents of a descriptor.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Request Code = 9
-
- D0
- Bit 15 - Bit 8
- Descriptor Index
-
- Bit 7 - Bit 0
- Descriptor Type
- * Device = 1
- * Device Qualifier = 2
- * Full Speed Configuration = 3
- * High Speed Configuration = 4
-
- Responses
- * CY_RESP_USB_DESCRIPTOR
- * CY_RESP_SUCCESS_FAILURE:CY_ERR_BAD_TYPE
- * CY_RESP_SUCCESS_FAILURE:CY_ERR_BAD_INDEX
- */
-#define CY_RQT_GET_DESCRIPTOR (9)
-
-/* Summary
- This request is sent from the P port processor to the
- West Bridge device to physically configure the endpoints
- in the device.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 3
-
- MailBox0
- * Context = 3
- * Request Code = 10
-
- D0
- Bit 15 - Bit 8
- EP1OUTCFG register value
- Bit 7 - Bit 0
- EP1INCFG register value
-
- * D1 - D2 *
- PEPxCFS register values where x = 3, 5, 7, 9
-
- * D3 - D7 *
- LEPxCFG register values where x = 3, 5, 7, 9, 10,
- 11, 12, 13, 14, 15
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-*/
-#define CY_RQT_SET_USB_CONFIG_REGISTERS (10)
-
-/* Summary
- This request is sent to the P port processor when a
- USB event occurs and needs to be relayed to the
- P port.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 3
- * Request Code = 11
-
- D0
- Event Type
- * 0 = Reserved
- * 1 = Reserved
- * 2 = USB Suspend
- * 3 = USB Resume
- * 4 = USB Reset
- * 5 = USB Set Configuration
- * 6 = USB Speed change
-
- D1
- If EventTYpe is USB Speed change
- * 0 = Full Speed
- * 1 = High Speed
-
- If EventType is USB Set Configuration
- * The number of the configuration to use
- * (may be zero to unconfigure)
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-*/
-#define CY_RQT_USB_EVENT (11)
-
-/* Summary
- This request is sent in both directions to transfer
- endpoint data for endpoints 0 and 1.
-
- Direction
- West Bridge -> P Port Processor
- P Port Processor -> West Bridge
-
- Length (in transfers)
- Variable
-
- Mailbox0
- * Context = 3
- * Request Code = 12
-
- D0
- Bit 15 - 14 Data Type
- * 0 = Setup (payload should be the 8 byte setup packet)
- * 1 = Data
- * 2 = Status (payload should be empty)
-
- Bit 13 Endpoint Number (only 0 and 1 supported)
- Bit 12 First Packet (only supported for Host ->
- West Bridge traffic)
- Bit 11 Last Packet (only supported for Host ->
- West Bridge traffic)
-
- Bit 9 - 0 Data Length (real max data length is 64 bytes
- for EP0 and EP1)
-
- *D1-Dn*
- Endpoint data
-*/
-#define CY_RQT_USB_EP_DATA (12)
-
-
-/* Summary
- This request sets the NAK bit on an endpoint.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Request Code = 13
-
- D0
- Endpoint Number
-
- D1
- * 1 = NAK Endpoint
- * 0 = Clear NAK
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_INVALID_ENDPOINT
- */
-#define CY_RQT_ENDPOINT_SET_NAK (13)
-
-
-/* Summary
- This request retrieves the NAK config status of the
- requested endpoint.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Request Code = 14
-
- D0
- Endpoint number
-
- Responses
- * CY_RESP_ENDPOINT_NAK
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_INVALID_ENDPOINT
- */
-#define CY_RQT_GET_ENDPOINT_NAK (14)
-
-/* Summary
- This request acknowledges a setup packet that does not
- require any data transfer.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox
- * Context = 3
- * Request Code = 15
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-*/
-#define CY_RQT_ACK_SETUP_PACKET (15)
-
-/* Summary
- This request is sent when the USB storage driver within
- West Bridge receives an Inquiry request.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- x - variable
-
- Mailbox0
- * Context = 3
- * Request Code = 16
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Media type being addressed
-
- D1
- Bits 8 : EVPD bit from request
- Bits 0 - 7 : Codepage from the inquiry request
-
- D2
- Length of the inquiry response in bytes
-
- * D3 - Dn *
- The inquiry response
-
- Description
- When the West Bridge firmware receives an SCSI Inquiry
- request from the USB host, the response to this mass
- storage command is created by West Bridge and forwarded to
- the P port processor. The P port processor may change
- this response before it is returned to the USB host. This
- request is the method by which this may happen.
-*/
-#define CY_RQT_SCSI_INQUIRY_COMMAND (16)
-
-/* Summary
- This request is sent when the USB storage driver within
- West Bridge receives a Start/Stop request.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 3
- * Request Code = 17
-
- D0
- Bits 12 - 15 : Bus index
- Bits 8 - 11 : Zero based device index
- Bits 0 - 7 : Media type being addressed
-
- D1
- Bit 1
- * LoEj Bit (See SCSI-3 specification)
-
- Bit 0
- * Start Bit (See SCSI-3 specification)
-
- Description
- When the West Bridge firmware received a SCSI Start/Stop
- request from the USB host, this request is relayed to the
- P port processor. This request is used to relay the command.
- The USB firmware will not response to the USB command until
- the response to this request is recevied by the firmware.
-*/
-#define CY_RQT_SCSI_START_STOP_COMMAND (17)
-
-/* Summary
- This request is sent when the USB storage driver
- receives an unknown CBW on mass storage.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 4
-
- Mailbox0
- * Context = 3
- * Request Code = 18
-
- D0
- Bits 12 - 15 : MediaType
- * 0 = NAND
- * 1 = SDIO Flash
- * 2 = MMC Flash
- * 3 = CE-ATA
-
- D1
- The length of the request in bytes
-
- D2 - Dn
- CBW command block from the SCSI host controller.
-
- Description
- When the firmware recevies a SCSI request that is not
- understood, this request is relayed to the
- P port processor.
-*/
-#define CY_RQT_SCSI_UNKNOWN_COMMAND (18)
-
-/* Summary
- Request the West Bridge to signal remote wakeup
- to the USB host.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 3
- * Request code = 19
-
- Description
- Request from the processor to West Bridge, to signal
- remote wakeup to the USB host.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- */
-#define CY_RQT_USB_REMOTE_WAKEUP (19)
-
-/* Summary
- Request the West Bridge to clear all descriptors tha
- were set previously
- using the Set Descriptor calls.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 3
- * Request code = 20
-
- Description
- Request from the processor to West Bridge, to clear
- all descriptor information that was previously stored
- on the West Bridge using CyAnUsbSetDescriptor calls.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- */
-#define CY_RQT_CLEAR_DESCRIPTORS (20)
-
-/* Summary
- Request the West Bridge to monitor USB to storage activity
- and send periodic updates.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 2
-
- Mailbox0
- * Context = 3
- * Request code = 21
-
- D0
- Upper 16 bits of write threshold
-
- D1
- Lower 16 bits of write threshold
-
- D2
- Upper 16 bits of read threshold
-
- D3
- Lower 16 bits of read threshold
-
- Description
- Request from the processor to West Bridge, to start
- monitoring the level of read/write activity on the
- USB mass storage drive and to set the threshold
- level at which progress reports are sent.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- */
-#define CY_RQT_USB_STORAGE_MONITOR (21)
-
-/* Summary
- Event from the West Bridge showing that U2S activity
- since the last event has crossed the threshold.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 2
-
- Mailbox0
- * Context = 3
- * Request code = 22
-
- D0
- Upper 16 bits of sectors written since last event.
-
- D1
- Lower 16 bits of sectors written since last event.
-
- D2
- Upper 16 bits of sectors read since last event.
-
- D3
- Lower 16 bits of sectors read since last event.
-
- Description
- Event notification from the West Bridge indicating
- that the number of read/writes on the USB mass
- storage device have crossed a pre-defined threshold
- level.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- */
-#define CY_RQT_USB_ACTIVITY_UPDATE (22)
-
-/* Summary
- Request to select the partitions to be enumerated on a
- storage device with partitions.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 3
- * Request code = 23
-
- D0
- Bits 8-15 : Bus index
- Bits 0- 7 : Device index
-
- D1
- Bits 8-15 : Control whether to enumerate partition 1.
- Bits 0- 7 : Control whether to enumerate partition 0.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE
- */
-#define CY_RQT_MS_PARTITION_SELECT (23)
-
-/************/
-
-/*@@USB responses
- Summary
- The USB responses include:
- * CY_RESP_USB_CONFIG
- * CY_RESP_ENDPOINT_CONFIG
- * CY_RESP_ENDPOINT_STALL
- * CY_RESP_CONNECT_STATE
- * CY_RESP_USB_DESCRIPTOR
- * CY_RESP_USB_INVALID_EVENT
- * CY_RESP_ENDPOINT_NAK
- * CY_RESP_INQUIRY_DATA
- * CY_RESP_UNKNOWN_SCSI_COMMAND
- */
-
-/* Summary
- This response contains the enumeration configuration
- information for the USB module.
-
- Direction
- 8051->P
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Response Code = 32
-
- D0
- Bits 8 - 15: Media to enumerate (bit mask)
- Bits 0 - 7: Buses to enumerate (bit mask)
- * 1 = Bus 0
- * 2 = Bus 1
-
- D1
- Enumeration Methodology
- * 0 = West Bridge enumeration
- * 1 = P Port enumeration
-
- D2
- Bits 7 - 0 : Interface Count - the number of interfaces
- Bits 15 - 8 : Mass storage callbacks
-
- */
-#define CY_RESP_USB_CONFIG (32)
-
-
-/* Summary
- This response contains the configuration information
- for the specified endpoint.
-
- Direction
- 8051->P
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Response Code = 33
-
- D0
- Bits 15 - 12 : Endpoint Number (0 - 15)
-
- Bits 11 - 10 : Endpoint Type
- * 0 = Control
- * 1 = Bulk
- * 2 = Interrupt
- * 3 = Isochronous
-
- Bits 9 : Endpoint Size
- * 0 = 512
- * 1 = 1024
-
- Bits 8 - 7 : Buffering
- * 0 = Double
- * 1 = Triple
- * 2 = Quad
-
- Bits 6 : Bit Direction
- * 0 = Input
- * 1 = Output
- */
-#define CY_RESP_ENDPOINT_CONFIG (33)
-
-
-/* Summary
- This response contains the stall status for
- the specified endpoint.
-
- Direction
- 8051->P
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Response Code = 34
-
- D0
- Stall status
- * 0 = Active
- * 1 = Stalled
- */
-#define CY_RESP_ENDPOINT_STALL (34)
-
-
-/* Summary
- This response contains the connected/disconnected
- state of the West Bridge USB pins.
-
- Direction
- 8051->P
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 3
- * Response Code = 35
-
- D0
- Connect state
- * 0 = Disconnected
- * 1 = Connected
- */
-#define CY_RESP_CONNECT_STATE (35)
-
-/* Summary
- This response contains the information
- about the USB configuration
-
- Direction
- West Bridge -> P Port Processor
-
- Length
- x bytes
-
- Mailbox0
- * Context = 3
- * Response Code = 36
-
- D0
- Length in bytes of the descriptor
-
- * D1 - DN *
- Descriptor contents
-*/
-#define CY_RESP_USB_DESCRIPTOR (36)
-
-/* Summary
- This response is sent in response to a bad USB event code
-
- Direction
- P Port Processor -> West Bridge
-
- Length
- 1 word (2 bytes)
-
- Mailbox0
- * Context = 3
- * Response Code = 37
-
- D0
- The invalid event code in the request
-*/
-#define CY_RESP_USB_INVALID_EVENT (37)
-
-/* Summary
- This response contains the current NAK status of
- a USB endpoint.
-
- Direction
- West Bridge -> P port processor
-
- Length
- 1 transfer
-
- Mailbox0
- * Context = 3
- * Response Code = 38
-
- D0
- The NAK status of the endpoint
- 1 : NAK bit set
- 0 : NAK bit clear
-*/
-#define CY_RESP_ENDPOINT_NAK (38)
-
-/* Summary
- This response gives the contents of the inquiry
- data back to West Bridge to returns to the USB host.
-
- Direction
- West Bridge -> P Port Processor
-
- Length
- Variable
-
- MailBox0
- * Context = 3
- * Response Code = 39
-
- D0
- Length of the inquiry response
-
- *D1 - Dn*
- Inquiry data
-*/
-#define CY_RESP_INQUIRY_DATA (39)
-
-/* Summary
- This response gives the status of an unknown SCSI command.
- This also gives three bytes of sense information.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 3
- * Response Code = 40
-
- D0
- The length of the reply in bytes
-
- D1
- * Status of the command
- * Sense Key
-
- D2
- * Additional Sense Code (ASC)
- * Additional Sense Code Qualifier (ASCQ)
-*/
-#define CY_RESP_UNKNOWN_SCSI_COMMAND (40)
-/*******************************************************/
-
-/*@@Turbo requests
- Summary
- The Turbo requests include:
- * CY_RQT_START_MTP
- * CY_RQT_STOP_MTP
- * CY_RQT_INIT_SEND_OBJECT
- * CY_RQT_CANCEL_SEND_OBJECT
- * CY_RQT_INIT_GET_OBJECT
- * CY_RQT_CANCEL_GET_OBJECT
- * CY_RQT_SEND_BLOCK_TABLE
- * CY_RQT_MTP_EVENT
- * CY_RQT_TURBO_CMD_FROM_HOST
- * CY_RQT_TURBO_SEND_RESP_DATA_TO_HOST
- * CY_RQT_TURBO_SWITCH_ENDPOINT
- * CY_RQT_TURBO_START_WRITE_DMA
- * CY_RQT_ENABLE_USB_PATH
- * CY_RQT_CANCEL_ASYNC_TRANSFER
- */
-#ifndef __doxygen__
-#define CY_RQT_TUR_RQT_CONTEXT (4)
-#endif
-
-/* Summary
- This command requests initialization of the MTP stack.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 4
- * Request Code = 0
-
- Description
- This command is required before any other MTP related
- command can be sent to the West Bridge firmware.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_ALREADY_RUNNING
- */
-#define CY_RQT_START_MTP (0)
-
-/* Summary
- This command requests shutdown of the MTP stack.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 4
- * Request Code = 1
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_NOT_RUNNING
- */
-#define CY_RQT_STOP_MTP (1)
-
-/* Summary
- This command sets up an MTP SendObject operation.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 4
- * Request Code = 2
-
- D0
- Total bytes for send object Low 16 bits
-
- D1
- Total bytes for send object High 16 bits
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_NOT_RUNNING
- */
-#define CY_RQT_INIT_SEND_OBJECT (2)
-
-/* Summary
- This command cancels West Bridges handling of
- an ongoing MTP SendObject operation. This
- does NOT send an MTP response.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 4
- * Request Code = 3
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_NOT_RUNNING
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_NO_OPERATION_PENDING
- */
-#define CY_RQT_CANCEL_SEND_OBJECT (3)
-
-/* Summary
- This command sets up an MTP GetObject operation.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 2
-
- MailBox0
- * Context = 4
- * Request Code = 4
-
- D0
- Total bytes for get object Low 16 bits
-
- D1
- Total bytes for get object High 16 bits
-
- D2
- Transaction Id for get object Low 16 bits
-
- D3
- Transaction Id for get object High 16 bits
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_NOT_RUNNING
- */
-#define CY_RQT_INIT_GET_OBJECT (4)
-
-/* Summary
- This command notifies West Bridge of a new
- BlockTable transfer.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 4
- * Request Code = 5
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_NOT_RUNNING
- */
-#define CY_RQT_SEND_BLOCK_TABLE (5)
-
-/* Summary
- This request is sent to the P port processor when a MTP event occurs
- and needs to be relayed to the P port.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 2
-
- Mailbox0
- * Context = 4
- * Request Code = 6
-
- D0
- Bits 15 - 8 : Return Status for GetObject/SendObject
- Bits 7 - 0 : Event Type
- * 0 = MTP SendObject Complete
- * 1 = MTP GetObject Complete
- * 2 = BlockTable Needed
-
- D1
- Lower 16 bits of the length of the data that got transferred
- in the Turbo Endpoint.(Applicable to "MTP SendObject Complete"
- and "MTP GetObject Complete" events)
-
- D2
- Upper 16 bits of the length of the data that got transferred
- in the Turbo Endpoint. (Applicable to "MTP SendObject Complete"
- and "MTP GetObject Complete" events)
-
- D3
- Lower 16 bits of the Transaction Id of the MTP_SEND_OBJECT
- command. (Applicable to "MTP SendObject Complete" event)
-
- D4
- Upper 16 bits of the Transaction Id of the MTP_SEND_OBJECT
- command. (Applicable to "MTP SendObject Complete" event)
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-*/
-#define CY_RQT_MTP_EVENT (6)
-
-/* Summary
- This request is sent to the P port processor when a command
- is received from Host in a Turbo Endpoint. Upon receiving
- this event, P port should read the data from the endpoint as
- soon as possible.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 4
- * Request Code = 7
-
- D0
- This contains the EP number. (This will be always two now).
-
- D1
- Length of the data available in the Turbo Endpoint.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-*/
-#define CY_RQT_TURBO_CMD_FROM_HOST (7)
-
-/* Summary
- This request is sent to the West Bridge when the P port
- needs to send data to the Host in a Turbo Endpoint.
- Upon receiving this event, Firmware will make the end point
- available for the P port. If the length is zero, then
- firmware will send a zero length packet.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 2
-
- Mailbox0
- * Context = 4
- * Request Code = 8
-
- D0
- This contains the EP number. (This will be always six now).
-
- D1
- Lower 16 bits of the length of the data that needs to be
- sent in the Turbo Endpoint.
-
- D2
- Upper 16 bits of the length of the data that needs to be
- sent in the Turbo Endpoint.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
-*/
-#define CY_RQT_TURBO_SEND_RESP_DATA_TO_HOST (8)
-
-/* Summary
- This command cancels West Bridges handling of
- an ongoing MTP GetObject operation. This
- does NOT send an MTP response.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 4
- * Request Code = 9
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_NOT_RUNNING
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_NO_OPERATION_PENDING
- */
-#define CY_RQT_CANCEL_GET_OBJECT (9)
-
-/* Summary
- This command switches a Turbo endpoint
- from the U port to the P port. If no data
- is in the endpoint the endpoint is
- primed to switch as soon as data is placed
- in the endpoint. The endpoint will continue
- to switch until all data has been transferd.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 2
-
- MailBox0
- * Context = 4
- * Request Code = 10
-
- D0
- Whether the read is a packet read.
-
- D1
- Lower 16 bits of the length of the data to switch
- the Turbo Endpoint for.
-
- D2
- Upper 16 bits of the length of the data to switch
- the Turbo Endpoint for.
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- * CY_RESP_SUCCESS_FAILURE:CY_RESP_NOT_RUNNING
- */
-#define CY_RQT_TURBO_SWITCH_ENDPOINT (10)
-
-/* Summary
- This command requests the API to start the DMA
- transfer of a packet of MTP data to the Antioch.
-
- Direction
- West Bridge -> P Port Processor
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 4
- * Request Code = 11
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- */
-#define CY_RQT_TURBO_START_WRITE_DMA (11)
-
-/* Summary
- This command requests the firmware to switch the
- internal data paths to enable USB access to the
- Mass storage / MTP endpoints.
-
- Direction
- P Port Processor -> West Bridge
-
- Length (in transfers)
- 1
-
- MailBox0
- * Context = 4
- * Request code = 12
-
- Responses
- * CY_RESP_SUCCESS_FAILURE:CY_AS_ERROR_SUCCESS
- */
-#define CY_RQT_ENABLE_USB_PATH (12)
-
-/* Summary
- Request to cancel an asynchronous MTP write from
- the processor side.
-
- Direction
- P Port processor -> West Bridge
-
- Length (in transfers)
- 1
-
- Mailbox0
- * Context = 4
- * Request code = 13
-
- D0
- * EP number
-
- Description
- This is a request to the firmware to update internal
- state so that a pending write on the MTP endpoint
- can be cancelled.
- */
-#define CY_RQT_CANCEL_ASYNC_TRANSFER (13)
-
-/******************************************************/
-
-/*@@Turbo responses
- Summary
- The Turbo responses include:
- * CY_RESP_MTP_INVALID_EVENT
- */
-
-/* Summary
- This response is sent in response to a bad MTP event code
-
- Direction
- P Port Processor -> West Bridge
-
- Length
- 1 word (2 bytes)
-
- Mailbox0
- * Context = 4
- * Response Code = 16
-
- D0
- The invalid event code in the request
-*/
-#define CY_RESP_MTP_INVALID_EVENT (16)
-
-#ifndef __doxygen__
-#define CY_RQT_CONTEXT_COUNT (5)
-#endif
-
-#endif /* _INCLUDED_CYASPROTOCOL_H_ */
-
+++ /dev/null
-/* Cypress West Bridge API header file (cyasregs.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASREG_H_
-#define _INCLUDED_CYASREG_H_
-
-#if !defined(__doxygen__)
-
-#define CY_AS_MEM_CM_WB_CFG_ID (0x80)
-#define CY_AS_MEM_CM_WB_CFG_ID_VER_MASK (0x000F)
-#define CY_AS_MEM_CM_WB_CFG_ID_HDID_MASK (0xFFF0)
-#define CY_AS_MEM_CM_WB_CFG_ID_HDID_ANTIOCH_VALUE (0xA100)
-#define CY_AS_MEM_CM_WB_CFG_ID_HDID_ASTORIA_FPGA_VALUE (0x6800)
-#define CY_AS_MEM_CM_WB_CFG_ID_HDID_ASTORIA_VALUE (0xA200)
-
-
-#define CY_AS_MEM_RST_CTRL_REG (0x81)
-#define CY_AS_MEM_RST_CTRL_REG_HARD (0x0003)
-#define CY_AS_MEM_RST_CTRL_REG_SOFT (0x0001)
-#define CY_AS_MEM_RST_RSTCMPT (0x0004)
-
-#define CY_AS_MEM_P0_ENDIAN (0x82)
-#define CY_AS_LITTLE_ENDIAN (0x0000)
-#define CY_AS_BIG_ENDIAN (0x0101)
-
-#define CY_AS_MEM_P0_VM_SET (0x83)
-#define CY_AS_MEM_P0_VM_SET_VMTYPE_MASK (0x0007)
-#define CY_AS_MEM_P0_VM_SET_VMTYPE_RAM (0x0005)
-#define CY_AS_MEM_P0_VM_SET_VMTYPE_SRAM (0x0007)
-#define CY_AS_MEM_P0_VM_SET_VMTYPE_VMWIDTH (0x0008)
-#define CY_AS_MEM_P0_VM_SET_VMTYPE_FLOWCTRL (0x0010)
-#define CY_AS_MEM_P0_VM_SET_IFMODE (0x0020)
-#define CY_AS_MEM_P0_VM_SET_CFGMODE (0x0040)
-#define CY_AS_MEM_P0_VM_SET_DACKEOB (0x0080)
-#define CY_AS_MEM_P0_VM_SET_OVERRIDE (0x0100)
-#define CY_AS_MEM_P0_VM_SET_INTOVERD (0x0200)
-#define CY_AS_MEM_P0_VM_SET_DRQOVERD (0x0400)
-#define CY_AS_MEM_P0_VM_SET_DRQPOL (0x0800)
-#define CY_AS_MEM_P0_VM_SET_DACKPOL (0x1000)
-
-
-#define CY_AS_MEM_P0_NV_SET (0x84)
-#define CY_AS_MEM_P0_NV_SET_WPSWEN (0x0001)
-#define CY_AS_MEM_P0_NV_SET_WPPOLAR (0x0002)
-
-#define CY_AS_MEM_PMU_UPDATE (0x85)
-#define CY_AS_MEM_PMU_UPDATE_UVALID (0x0001)
-#define CY_AS_MEM_PMU_UPDATE_USBUPDATE (0x0002)
-#define CY_AS_MEM_PMU_UPDATE_SDIOUPDATE (0x0004)
-
-#define CY_AS_MEM_P0_INTR_REG (0x90)
-#define CY_AS_MEM_P0_INTR_REG_MCUINT (0x0020)
-#define CY_AS_MEM_P0_INTR_REG_DRQINT (0x0800)
-#define CY_AS_MEM_P0_INTR_REG_MBINT (0x1000)
-#define CY_AS_MEM_P0_INTR_REG_PMINT (0x2000)
-#define CY_AS_MEM_P0_INTR_REG_PLLLOCKINT (0x4000)
-
-#define CY_AS_MEM_P0_INT_MASK_REG (0x91)
-#define CY_AS_MEM_P0_INT_MASK_REG_MMCUINT (0x0020)
-#define CY_AS_MEM_P0_INT_MASK_REG_MDRQINT (0x0800)
-#define CY_AS_MEM_P0_INT_MASK_REG_MMBINT (0x1000)
-#define CY_AS_MEM_P0_INT_MASK_REG_MPMINT (0x2000)
-#define CY_AS_MEM_P0_INT_MASK_REG_MPLLLOCKINT (0x4000)
-
-#define CY_AS_MEM_MCU_MB_STAT (0x92)
-#define CY_AS_MEM_P0_MCU_MBNOTRD (0x0001)
-
-#define CY_AS_MEM_P0_MCU_STAT (0x94)
-#define CY_AS_MEM_P0_MCU_STAT_CARDINS (0x0001)
-#define CY_AS_MEM_P0_MCU_STAT_CARDREM (0x0002)
-
-#define CY_AS_MEM_PWR_MAGT_STAT (0x95)
-#define CY_AS_MEM_PWR_MAGT_STAT_WAKEUP (0x0001)
-
-#define CY_AS_MEM_P0_RSE_ALLOCATE (0x98)
-#define CY_AS_MEM_P0_RSE_ALLOCATE_SDIOAVI (0x0001)
-#define CY_AS_MEM_P0_RSE_ALLOCATE_SDIOALLO (0x0002)
-#define CY_AS_MEM_P0_RSE_ALLOCATE_NANDAVI (0x0004)
-#define CY_AS_MEM_P0_RSE_ALLOCATE_NANDALLO (0x0008)
-#define CY_AS_MEM_P0_RSE_ALLOCATE_USBAVI (0x0010)
-#define CY_AS_MEM_P0_RSE_ALLOCATE_USBALLO (0x0020)
-
-#define CY_AS_MEM_P0_RSE_MASK (0x9A)
-#define CY_AS_MEM_P0_RSE_MASK_MSDIOBUS_RW (0x0003)
-#define CY_AS_MEM_P0_RSE_MASK_MNANDBUS_RW (0x00C0)
-#define CY_AS_MEM_P0_RSE_MASK_MUSBBUS_RW (0x0030)
-
-#define CY_AS_MEM_P0_DRQ (0xA0)
-#define CY_AS_MEM_P0_DRQ_EP2DRQ (0x0004)
-#define CY_AS_MEM_P0_DRQ_EP3DRQ (0x0008)
-#define CY_AS_MEM_P0_DRQ_EP4DRQ (0x0010)
-#define CY_AS_MEM_P0_DRQ_EP5DRQ (0x0020)
-#define CY_AS_MEM_P0_DRQ_EP6DRQ (0x0040)
-#define CY_AS_MEM_P0_DRQ_EP7DRQ (0x0080)
-#define CY_AS_MEM_P0_DRQ_EP8DRQ (0x0100)
-#define CY_AS_MEM_P0_DRQ_EP9DRQ (0x0200)
-#define CY_AS_MEM_P0_DRQ_EP10DRQ (0x0400)
-#define CY_AS_MEM_P0_DRQ_EP11DRQ (0x0800)
-#define CY_AS_MEM_P0_DRQ_EP12DRQ (0x1000)
-#define CY_AS_MEM_P0_DRQ_EP13DRQ (0x2000)
-#define CY_AS_MEM_P0_DRQ_EP14DRQ (0x4000)
-#define CY_AS_MEM_P0_DRQ_EP15DRQ (0x8000)
-
-#define CY_AS_MEM_P0_DRQ_MASK (0xA1)
-#define CY_AS_MEM_P0_DRQ_MASK_MEP2DRQ (0x0004)
-#define CY_AS_MEM_P0_DRQ_MASK_MEP3DRQ (0x0008)
-#define CY_AS_MEM_P0_DRQ_MASK_MEP4DRQ (0x0010)
-#define CY_AS_MEM_P0_DRQ_MASK_MEP5DRQ (0x0020)
-#define CY_AS_MEM_P0_DRQ_MASK_MEP6DRQ (0x0040)
-#define CY_AS_MEM_P0_DRQ_MASK_MEP7DRQ (0x0080)
-#define CY_AS_MEM_P0_DRQ_MASK_MEP8DRQ (0x0100)
-#define CY_AS_MEM_P0_DRQ_MASK_MEP9DRQ (0x0200)
-#define CY_AS_MEM_P0_DRQ_MASK_MEP10DRQ (0x0400)
-#define CY_AS_MEM_P0_DRQ_MASK_MEP11DRQ (0x0800)
-#define CY_AS_MEM_P0_DRQ_MASK_MEP12DRQ (0x1000)
-#define CY_AS_MEM_P0_DRQ_MASK_MEP13DRQ (0x2000)
-#define CY_AS_MEM_P0_DRQ_MASK_MEP14DRQ (0x4000)
-#define CY_AS_MEM_P0_DRQ_MASK_MEP15DRQ (0x8000)
-
-#define CY_AS_MEM_P0_EP2_DMA_REG (0xA2)
-#define CY_AS_MEM_P0_E_pn_DMA_REG_COUNT_MASK (0x7FF)
-#define CY_AS_MEM_P0_E_pn_DMA_REG_DMAVAL (1 << 12)
-#define CY_AS_MEM_P0_EP3_DMA_REG (0xA3)
-#define CY_AS_MEM_P0_EP4_DMA_REG (0xA4)
-#define CY_AS_MEM_P0_EP5_DMA_REG (0xA5)
-#define CY_AS_MEM_P0_EP6_DMA_REG (0xA6)
-#define CY_AS_MEM_P0_EP7_DMA_REG (0xA7)
-#define CY_AS_MEM_P0_EP8_DMA_REG (0xA8)
-#define CY_AS_MEM_P0_EP9_DMA_REG (0xA9)
-#define CY_AS_MEM_P0_EP10_DMA_REG (0xAA)
-#define CY_AS_MEM_P0_EP11_DMA_REG (0xAB)
-#define CY_AS_MEM_P0_EP12_DMA_REG (0xAC)
-#define CY_AS_MEM_P0_EP13_DMA_REG (0xAD)
-#define CY_AS_MEM_P0_EP14_DMA_REG (0xAE)
-#define CY_AS_MEM_P0_EP15_DMA_REG (0xAF)
-
-#define CY_AS_MEM_IROS_SLB_DATARET (0xC0)
-
-#define CY_AS_MEM_IROS_IO_CFG (0xC1)
-#define CY_AS_MEM_IROS_IO_CFG_GPIODRVST_MASK (0x0003)
-#define CY_AS_MEM_IROS_IO_CFG_GPIOSLEW_MASK (0x0004)
-#define CY_AS_MEM_IROS_IO_CFG_PPIODRVST_MASK (0x0018)
-#define CY_AS_MEM_IROS_IO_CFG_PPIOSLEW_MASK (0x0020)
-#define CY_AS_MEM_IROS_IO_CFG_SSIODRVST_MASK (0x0300)
-#define CY_AS_MEM_IROS_IO_CFG_SSIOSLEW_MASK (0x0400)
-#define CY_AS_MEM_IROS_IO_CFG_SNIODRVST_MASK (0x1800)
-#define CY_AS_MEM_IROS_IO_CFG_SNIOSLEW_MASK (0x2000)
-
-#define CY_AS_MEM_IROS_PLL_CFG (0xC2)
-
-#define CY_AS_MEM_IROS_PXB_DATARET (0xC3)
-
-#define CY_AS_MEM_PLL_LOCK_LOSS_STAT (0xC4)
-#define CY_AS_MEM_PLL_LOCK_LOSS_STAT_PLLSTAT (0x0800)
-
-#define CY_AS_MEM_IROS_SLEEP_CFG (0xC5)
-
-#define CY_AS_MEM_PNAND_CFG (0xDA)
-#define CY_AS_MEM_PNAND_CFG_IOWIDTH_MASK (0x0001)
-#define CY_AS_MEM_PNAND_CFG_IOWIDTH_8BIT (0x0000)
-#define CY_AS_MEM_PNAND_CFG_IOWIDTH_16BIT (0x0001)
-#define CY_AS_MEM_PNAND_CFG_BLKTYPE_MASK (0x0002)
-#define CY_AS_MEM_PNAND_CFG_BLKTYPE_SMALL (0x0002)
-#define CY_AS_MEM_PNAND_CFG_BLKTYPE_LARGE (0x0000)
-#define CY_AS_MEM_PNAND_CFG_EPABYTE_POS (4)
-#define CY_AS_MEM_PNAND_CFG_EPABYTE_MASK (0x0030)
-#define CY_AS_MEM_PNAND_CFG_EPABIT_POS (6)
-#define CY_AS_MEM_PNAND_CFG_EPABIT_MASK (0x00C0)
-#define CY_AS_MEM_PNAND_CFG_LNAEN_MASK (0x0100)
-
-#define CY_AS_MEM_P0_MAILBOX0 (0xF0)
-#define CY_AS_MEM_P0_MAILBOX1 (0xF1)
-#define CY_AS_MEM_P0_MAILBOX2 (0xF2)
-#define CY_AS_MEM_P0_MAILBOX3 (0xF3)
-
-#define CY_AS_MEM_MCU_MAILBOX0 (0xF8)
-#define CY_AS_MEM_MCU_MAILBOX1 (0xF9)
-#define CY_AS_MEM_MCU_MAILBOX2 (0xFA)
-#define CY_AS_MEM_MCU_MAILBOX3 (0xFB)
-
-#endif /* !defined(__doxygen__) */
-
-#endif /* _INCLUDED_CYASREG_H_ */
+++ /dev/null
-/* Cypress West Bridge API header file (cyasstorage.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASSTORAGE_H_
-#define _INCLUDED_CYASSTORAGE_H_
-
-#include "cyasmedia.h"
-#include "cyasmisc.h"
-#include "cyas_cplus_start.h"
-
-
-/*@@Storage APIs
- Summary
- This section documents the storage APIs supported by the
- West Bridge API.
-
- Description
- The storage API is based on some specific concepts which
- are referenced here.
- * <LINK Storage API Overview>
- * Addressing
- * Ownership
- * <LINK Asynchronous Versus Synchronous Operation>
-*/
-
-/*@@Storage API Overview
- Summary
- Storage devices are identified by media type. Each media
- type is considered a single logical device.
-
- Description
- Each media type has a consistent block size and consists
- of a set of logical blocks numbered from 0 to N - 1 where
- N is the size of the
- media type in blocks. The mass storage APIs defined below
- provide the
- capability to query for devices that are present, and
- read/write data to/from
- these devices.
-*/
-
-/*@@Addressing
- Summary
- Blocks within a storage device are address by a hierarchal
- block address. This
- address consists of the bus number, physical device,
- logical unit, and finally
- block address.
-
- Description
- While currently only a single device of each media type
- is supported, the address
- space reserves space in the future for multiple devices
- of each type. Therefore
- the second element of the address is the specific device
- being addressed within
- a given device type. For this release of the software,
- this value will always be
- zero to address the first device.
-
- The third element of the address is the logical unit.
- A device being managed
- by West Bridge can be partitioned into multiple logical
- units. This partition
- information is stored on each device itself. Currently,
- one of the storage devices
- managed by West Bridge can be partitioned into two
- logical units.
-
- Finally a logical block address is given within the
- logical unit to address an
- individual block.
-*/
-
-/*@@Ownership
- Summary
- While West Bridge supports concurrent block level
- operations from both the USB port and
- the processor port, this is not desirable in most
- situations as the file system
- contained on the storage media cannot be accessed
- concurrently. To insure access
- by only one of USB and the processor, the West Bridge
- API provides for ownership of storage
- devices based on media type.
-
- Description
- The processor requests ownership of a given media type
- by calling CyAsStorageClaim().
- The firmware in West Bridge releases control of the
- media and signals the processor through
- the event callback registered with
- CyAsStorageRegisterCallback(). The specific event is
- the CyAsStorageProcessor. The processor can later
- release the media via a call to
- CyAsStorageRelease(). This call is immediate and
- no callback is required.
-
- If the processor has claimed storage and the USB port
- is connected, West Bridge will need to
- claim the storage to manage the mass storage device.
- West Bridge requests the storage through
- the event callback registered with
- CyAsStorageRegisterCallback(). The specific event is
- CyAsStorageAntioch and is named as such to reflect
- the USB view of storage. This callback
- is a request for the processor to release storage.
- The storage is not actually released
- until the processor calls CyAsStorageRelease().
-
- Note that the CyAsStorageAntioch is only sent when the
- USB storage device is enumerated and
- NOT at every USB operation. The ownership of a given
- storage media type is assumed to belong
- to the processor until the USB connection is established.
- At that point, the storage ownership
- is transferred to West Bridge. After the USB connection
- is broken, ownership can be transferred
- back to the processor.
-*/
-
-/*@@Asynchronous Versus Synchronous Operation
- Summary
- When read or write operations are performed to the
- storage devices, these operations may be
- synchronous or asynchronous. A synchronous operation
- is an operation where the read or write
- operation is requested and the function does not return
- until the operation is complete. This
- type of function is the easiest to use but does not
- provide for optimal usage of the P port processor time.
-
- Description
- An asynchronous operation is one where the function returns
- as soon as the request is started.
- The specific read and write request will complete at some
- time in the future and the P port
- processor will be notified via a callback function. While
- asynchronous functions provide for
- much better usage of the CPU, these function have more
- stringent requirements for use. First,
- any buffer use for data transfer must be valid from the
- function call to request the operation
- through when the callback function is called. This basically
- implies that stack based buffers
- are not acceptable for asynchronous calls. Second, error
- handling must be deferred until the
- callback function is called indicating any kind of error
- that may have occurred.
-*/
-
-/*@@Partitioning
- Summary
- West Bridge API and firmware support the creation of up to
- two logical partitions on one
- of the storage devices that are managed by West Bridge. The
- partitions are managed through
- the CyAsStorageCreatePPartition and CyAsStorageRemovePPartition
- APIs.
-
- Description
- The CyAsStorageCreatePPartition API is used to divide the total
- storage on a storage
- device into two logical units or partitions. Since the partition
- information is stored
- on the storage device in a custom format, partitions should
- only be created on fixed
- storage devices (i.e., no removable SD/MMC cards). Any data
- stored on the device
- before the creation of the partition, is liable to be lost when
- a partition is created.
-
- The CyAsStorageRemovePPartition API is used to remove the
- stored partition information,
- so that all of the device's capacity is treated as a single
- partition again.
-
- When a storage device with two partitions (units) is being
- enumerated as a mass storage
- device through the West Bridge, it is possible to select the
- partitions to be made
- visible to the USB host. This is done through the
- CyAsUsbSelectMSPartitions API.
-*/
-
-/*********************************
- * West Bridge Constants
- **********************************/
-
-/* Summary
- This constants indicates a raw device access to the read/write
- functions
-
- Description
- When performing reading and writing operations on the
- storage devices attached
- to West Bridge, there are cases where writes need to
- happen to raw devices, versus
- the units contained within a device. This is
- specifically required to manage
- the partitions within physical devices. This constant
- is used in calls to
- CyAsStorageRead(), CyAsStorageReadAsync(),
- CyAsStorageWrite() and
- CyAsStorageWriteAsync(), to indicate that the raw
- physical device is being
- accessed and not any specific unit on the device.
-
- See Also
- * CyAsStorageRead
- * CyAsStorageReadAsync
- * CyAsStorageWrite
- * CyAsStorageWriteAsync
-*/
-#define CY_AS_LUN_PHYSICAL_DEVICE (0xffffffff)
-
-/* Summary
- This constant represents the maximum DMA burst length
- supported on a storage endpoint
-
- Description
- West Bridge reserves separate endpoints for accessing
- storage media through the
- CyAsStorageRead() and CyAsStorageWrite() calls. The
- maximum size of these
- endpoints is always 512 bytes, regardless of status
- and speed of the USB
- connection.
-*/
-#define CY_AS_STORAGE_EP_SIZE (512)
-
-/********************************
- * West Bridge Types
- *******************************/
-
-/* Summary
- This type indicates the type of event in an event
- callback from West Bridge
-
- Description
- At times West Bridge needs to inform the P port
- processor of events that have
- occurred. These events are asynchronous to the
- thread of control on the P
- port processor and as such are generally delivered
- via a callback function that
- is called as part of an interrupt handler. This
- type indicates the resonse for
- the call to the callback function.
-
- See Also
- * CyAsStorageEventCallback
- * CyAsStorageRegisterCallback
-*/
-typedef enum cy_as_storage_event {
- /* This event occurs when the West Bridge device has
- detected a USB connect and has enumerated the
- storage controlled by west bridge to the USB port.
- this event is the signal that the processor
- needs to release the storage media. west bridge will
- not have control of the storage media until the
- processor calls cy_as_release_storage() to release
- the specific media. */
- cy_as_storage_antioch,
-
- /* This event occurs when the processor has requested
- ownership of a given media type and west bridge has
- released the media. this event is an indicator
- that the transfer of ownership is complete and the
- processor now owns the given media type. */
- cy_as_storage_processor,
-
- /* This event occurs when a removable media type has
- been removed. */
- cy_as_storage_removed,
-
- /* This event occurs when a removable media type has
- been inserted. */
- cy_as_storage_inserted,
-
- /* This event occurs when the West Bridge device
- * percieves an interrrupt from an SDIO card */
- cy_as_sdio_interrupt
-
-} cy_as_storage_event;
-
-/* Summary
- This type gives the type of the operation in a storage
- operation callback
-
- Description
- This type is used in the callback function for asynchronous
- operation. This type indicates whether it is a
- CyAsStorageRead() or CyAsStorageWrite() operation that
- has completed.
-
- See Also
- * <LINK Asynchronous Versus Synchronous Operation>
- * CyAsStorageRead
- * CyAsStorageWrite
-*/
-typedef enum cy_as_oper_type {
- /* A data read operation */
- cy_as_op_read,
- /* A data write operation */
- cy_as_op_write
-} cy_as_oper_type;
-
-/* Summary
- This data structure describes a specific type of media
-
- Description
- This data structure is the return value from the
- CyAsStorageQueryDevice function. This structure provides
- information about the specific storage device being queried.
-
- See Also
- * CyAsStorageQueryDevice
-*/
-typedef struct cy_as_device_desc {
- /* Type of device */
- cy_as_media_type type;
- /* Is the device removable */
- cy_bool removable;
- /* Is the device writeable */
- cy_bool writeable;
- /* Basic block size for device */
- uint16_t block_size;
- /* Number of LUNs on the device */
- uint32_t number_units;
- /* Is the device password locked */
- cy_bool locked;
- /* Size in bytes of an Erase Unit. Block erase operation
- is only supported for SD storage, and the erase_unit_size
- is invalid for all other kinds of storage. */
- uint32_t erase_unit_size;
-} cy_as_device_desc;
-
-/* Summary
- This data structure describes a specific unit on a
- specific type of media
-
- Description
- This data structure is the return value from the
- CyAsStorageQueryUnit function. This structure provides
- information about the specific unit.
-
- See Also
- * CyAsStorageQueryUnit
-*/
-typedef struct cy_as_unit_desc {
- /* Type of device */
- cy_as_media_type type;
- /* Basic block size for device */
- uint16_t block_size;
- /* Physical start block for LUN */
- uint32_t start_block;
- /* Number of blocks in the LUN */
- uint32_t unit_size;
-} cy_as_unit_desc;
-
-/* Summary
- This function type defines a callback to be called after an
- asynchronous operation
-
- Description
- This function type defines a callback function that is called
- at the completion of any asynchronous read or write operation.
-
- See Also
- * CyAsStorageReadAsync()
- * CyAsStorageWriteAsync()
-*/
-typedef void (*cy_as_storage_callback)(
- /* Handle to the device completing the storage operation */
- cy_as_device_handle handle,
- /* The bus completing the operation */
- cy_as_bus_number_t bus,
- /* The device completing the operation */
- uint32_t device,
- /* The unit completing the operation */
- uint32_t unit,
- /* The block number of the completed operation */
- uint32_t block_number,
- /* The type of operation */
- cy_as_oper_type op,
- /* The error status */
- cy_as_return_status_t status
- );
-
-/* Summary
- This function type defines a callback to be called in the
- event of a storage related event
-
- Description
- At times West Bridge needs to inform the P port processor
- of events that have
- occurred. These events are asynchronous to the thread of
- control on the P
- port processor and as such are generally delivered via a
- callback function that
- is called as part of an interrupt handler. This type
- defines the type of function
- that must be provided as a callback function.
-
- See Also
- * CyAsStorageEvent
- * CyAsStorageRegisterCallback
-*/
-typedef void (*cy_as_storage_event_callback)(
- /* Handle to the device sending the event notification */
- cy_as_device_handle handle,
- /* The bus where the event happened */
- cy_as_bus_number_t bus,
- /* The device where the event happened */
- uint32_t device,
- /* The event type */
- cy_as_storage_event evtype,
- /* Event related data */
- void *evdata
- );
-
-/* Summary
- This function type defines a callback to be called after
- an asynchronous sdio operation
-
- Description
- The Callback function is called at the completion of an
- asynchronous sdio read or write operation.
-
- See Also
- * CyAsSdioExtendedRead()
- * CyAsSdioExtendedWrite()
-*/
-typedef void (*cy_as_sdio_callback)(
- /* Handle to the device completing the storage operation */
- cy_as_device_handle handle,
- /* The bus completing the operation */
- cy_as_bus_number_t bus,
- /* The device completing the operation */
- uint32_t device,
- /* The function number of the completing the operation.
- if the status of the operation is either CY_AS_ERROR_IO_ABORTED
- or CY_AS_IO_SUSPENDED then the most significant word parameter will
- contain the number of blocks still pending. */
- uint32_t function,
- /* The base address of the completed operation */
- uint32_t address,
- /* The type of operation */
- cy_as_oper_type op,
- /* The status of the operation */
- cy_as_return_status_t status
- );
-
-/* Summary
- Enumeration of SD/MMC card registers that can be read
- through the API.
-
- Description
- Some of the registers on the SD/MMC card(s) attached to the
- West Bridge can be read through the API layers. This type
- enumerates the registers that can be read.
-
- See Also
- * CyAsStorageSDRegisterRead
- */
-typedef enum cy_as_sd_card_reg_type {
- cy_as_sd_reg_OCR = 0,
- cy_as_sd_reg_CID,
- cy_as_sd_reg_CSD
-} cy_as_sd_card_reg_type;
-
-/* Summary
- Struct encapsulating parameters and return values for a
- CyAsStorageQueryDevice call.
-
- Description
- This struct holds the input parameters and the return values
- for an asynchronous CyAsStorageQueryDevice call.
-
- See Also
- * CyAsStorageQueryDevice
- */
-typedef struct cy_as_storage_query_device_data {
- /* The bus with the device to query */
- cy_as_bus_number_t bus;
- /* The logical device number to query */
- uint32_t device;
- /* The return value for the device descriptor */
- cy_as_device_desc desc_p;
-} cy_as_storage_query_device_data;
-
-
-/* Summary
- Struct encapsulating parameters and return values
- for a CyAsStorageQueryUnit call.
-
- Description
- This struct holds the input parameters and the return
- values for an asynchronous CyAsStorageQueryUnit call.
-
- See Also
- * CyAsStorageQueryUnit
- */
-typedef struct cy_as_storage_query_unit_data {
- /* The bus with the device to query */
- cy_as_bus_number_t bus;
- /* The logical device number to query */
- uint32_t device;
- /* The unit to query on the device */
- uint32_t unit;
- /* The return value for the unit descriptor */
- cy_as_unit_desc desc_p;
-} cy_as_storage_query_unit_data;
-
-/* Summary
- Struct encapsulating the input parameter and return
- values for a CyAsStorageSDRegisterRead call.
-
- Description
- This struct holds the input parameter and return
- values for an asynchronous CyAsStorageSDRegisterRead
- call.
-
- See Also
- * CyAsStorageSDRegisterRead
- */
-typedef struct cy_as_storage_sd_reg_read_data {
- /* Pointer to the result buffer. */
- uint8_t *buf_p;
- /* Length of data to be copied in bytes. */
- uint8_t length;
-} cy_as_storage_sd_reg_read_data;
-
-/* Summary
- Controls which pins are used for card detection
-
- Description
- When a StorageDeviceControl call is made to enable or
- disable card detection this enum is passed in to
- control which pin is used for the detection.
-
- See Also
- * CyAsStorageDeviceControl
-*/
-typedef enum cy_as_storage_card_detect {
- cy_as_storage_detect_GPIO,
- cy_as_storage_detect_SDAT_3
-} cy_as_storage_card_detect;
-
-#ifndef __doxygen__
-#define cy_as_storage_detect_GPIO_0 cy_as_storage_detect_GPIO
-
-/* Length of OCR value in bytes. */
-#define CY_AS_SD_REG_OCR_LENGTH (4)
-/* Length of CID value in bytes. */
-#define CY_AS_SD_REG_CID_LENGTH (16)
-/* Length of CSD value in bytes. */
-#define CY_AS_SD_REG_CSD_LENGTH (16)
-/* Max. length of register response in words. */
-#define CY_AS_SD_REG_MAX_RESP_LENGTH (10)
-
-#endif
-
-/* Summary
- This data structure is the data passed via the evdata
- paramater on a usb event callback for the mass storage
- device progress event.
-
- Description
- This data structure reports the number of sectors that have
- been written and read on the USB mass storage device since
- the last event report. The corresponding event is only sent
- when either the number of writes, or the number of reads has
- crossed a pre-set threshold.
-
- See Also
- * CyAsUsbEventCallback
- * CyAsUsbRegisterCallback
-*/
-typedef struct cy_as_m_s_c_progress_data {
- /* Number of sectors written since the last event. */
- uint32_t wr_count;
- /* Number of sectors read since the last event. */
- uint32_t rd_count;
-} cy_as_m_s_c_progress_data;
-
-/* Summary
-Flag to set Direct Write operation to read back from the
-address written to.
-
-
- See Also
- *CyAsSdioDirectWrite()
-*/
-#define CY_SDIO_RAW (0x01)
-
-
-/* Summary
-Flag to set Extended Read and Write to perform IO
-using a FIFO i.e. read or write from the specified
-address only.
-
- See Also
- *CyAsSdioExtendedRead()
- *CyAsSdioExtendedWrite()
-*/
-#define CY_SDIO_OP_FIFO (0x00)
-
-/* Summary
-Flag to set Extended Read and Write to perform incremental
-IO using the address provided as the base address.
-
-
- See Also
- *CyAsSdioExtendedRead()
- *CyAsSdioExtendedWrite()
-*/
-#define CY_SDIO_OP_INCR (0x02)
-
-/* Summary
-Flag to set Extended Read and Write to Block Mode operation
-
- See Also
- *CyAsSdioExtendedRead()
- *CyAsSdioExtendedWrite()
-*/
-#define CY_SDIO_BLOCKMODE (0x04)
-
-/* Summary
-Flag to set Extended Read and Write to Byte Mode operation
-
- See Also
- *CyAsSdioExtendedRead()
- *CyAsSdioExtendedWrite()
-*/
-#define CY_SDIO_BYTEMODE (0x00)
-
-/* Summary
-Flag to force re/initialization of a function.
-
-Description
-If not set a call to CyAsSdioInitFunction()
-will not initialize a function that has been previously
-initialized.
- See Also
- *CyAsSdioInitFunction()
- */
-#define CY_SDIO_FORCE_INIT (0x40)
-
-/* Summary
-Flag to re-enable the SDIO interrupts.
-
-Description
-Used with a direct read or direct write
-after the Interrupt triggerred by SDIO has been serviced
-and cleared to reset the West Bridge Sdio Interrupt.
- See Also
- *CyAsSdioDirectRead()
- *CyAsSdioDirectWrite()
-*/
-
-#define CY_SDIO_REARM_INT (0x80)
-
-
-/* Summary
- Flag to check if 4 bit support is enabled on a
- low speed card
- See Also
- <link CyAsSDIOCard::card_capability>*/
-#define CY_SDIO_4BLS (0x80)
-
-/* Summary
- Flag to check if card is a low speed card
- See Also
- <link CyAsSDIOCard::card_capability> */
-#define CY_SDIO_LSC (0x40)
-
-/* Summary
- Flag to check if interrupt during multiblock data
- transfer is enabled
- See Also
- <link CyAsSDIOCard::card_capability>*/
-#define CY_SDIO_E4MI (0x20)
-
-/* Summary
- Flag to check if interrupt during multiblock data
- transfer is supported
- See Also
- <link CyAsSDIOCard::card_capability> */
-#define CY_SDIO_S4MI (0x10)
-
-/* Summary
- Flag to check if card supports function suspending.
- See Also
- <link CyAsSDIOCard::card_capability> */
-#define CY_SDIO_SBS (0x08)
-
-/* Summary
- Flag to check if card supports SDIO Read-Wait
- See Also
- <link CyAsSDIOCard::card_capability> */
-#define CY_SDIO_SRW (0x04)
-
-/* Summary
- Flag to check if card supports multi-block transfers
- See Also
- <link CyAsSDIOCard::card_capability> */
-#define CY_SDIO_SMB (0x02)
-
-/* Summary
- Flag to check if card supports Direct IO commands
- during execution of an Extended
- IO function
- See Also
- <link CyAsSDIOCard::card_capability>*/
-#define CY_SDIO_SDC (0x01)
-
-/* Summary
- Flag to check if function has a CSA area.
- See Also
- <link CyAsSDIOFunc::csa_bits> */
-#define CY_SDIO_CSA_SUP (0x40)
-
-/* Summary
- Flag to check if CSA access is enabled.
- See Also
- <link CyAsSDIOFunc::csa_bits> */
-#define CY_SDIO_CSA_EN (0x80)
-
-/* Summary
- Flag to check if CSA is Write protected.
- See Also
- <link CyAsSDIOFunc::csa_bits> */
-#define CY_SDIO_CSA_WP (0x01)
-
-/* Summary
- Flag to check if CSA formatting is prohibited.
- See Also
- <link CyAsSDIOFunc::csa_bits>*/
-#define CY_SDIO_CSA_NF (0x02)
-
-/* Summary
- Flag to check if the function allows wake-up from low
- power mode using some vendor specific method.
- See Also
- <link CyAsSDIOFunc::wakeup_support>*/
-#define CY_SDIO_FN_WUS (0x01)
-
-
-/* Summary
- This data structure stores SDIO function 0
- parameters for a SDIO card
-*/
-typedef struct cy_as_sdio_card {
- /* Number of functions present on the card. */
- uint8_t num_functions;
- /* Memory present(Combo card) or not */
- uint8_t memory_present;
- /* 16 bit manufacturer ID */
- uint16_t manufacturer__id;
- /* Additional vendor specific info */
- uint16_t manufacturer_info;
- /* Max Block size for function 0 */
- uint16_t maxblocksize;
- /* Block size used for function 0 */
- uint16_t blocksize;
- /* SDIO version supported by the card */
- uint8_t sdio_version;
- /* Card capability flags */
- uint8_t card_capability;
-} cy_as_sdio_card;
-
-/* Summary
- This data structure stores SDIO function 1-7 parameters
- for a SDIO card
-*/
-typedef struct cy_as_sdio_func {
- /* SDIO function code. 0 if non standard function */
- uint8_t function_code;
- /* Extended function type code for non-standard function */
- uint8_t extended_func_code;
- /* Max IO Blocksize supported by the function */
- uint16_t maxblocksize;
- /* IO Blocksize used by the function */
- uint16_t blocksize;
- /* 32 bit product serial number for the function */
- uint32_t card_psn;
- /* Code storage area variables */
- uint8_t csa_bits;
- /* Function wake-up support */
- uint8_t wakeup_support;
-} cy_as_sdio_func;
-
-/***********************************
- * West Bridge Functions
- ************************************/
-
-/* Summary
- This function starts the West Bridge storage module.
-
- Description
- This function initializes the West Bridge storage software
- stack and readies this module to service storage related
- requests. If the stack is already running, the reference
- count for the stack is incremented.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was passed in
- * CY_AS_ERROR_SUCCESS - the module started successfully
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
-
- See Also
- * CyAsStorageStop
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_start(
- /* Handle to the device */
- cy_as_device_handle handle,
- /* Callback to be called when the operation is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-/* Summary
- This function stops the West Bridge storage module.
-
- Description
- This function decrements the reference count for the
- storage stack and if this count is zero, the storage
- stack is shut down. The shutdown frees all resources
- associated with the storage stack.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Notes
- While all resources associated with the storage stack
- will be freed is a shutdown occurs,
- resources associated with underlying layers of the
- software will not be freed if they
- are shared by the USB stack and the USB stack is
- active. Specifically the DMA manager,
- the interrupt manager, and the West Bridge
- communications module are all shared by both the
- USB stack and the storage stack.
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge
- * device has not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not
- * been loaded into West Bridge
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_SUCCESS - this module was shut
- * down successfully
- * CY_AS_ERROR_TIMEOUT - a timeout occurred
- * communicating with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING
- * CY_AS_ERROR_ASYNC_PENDING
- * CY_AS_ERROR_OUT_OF_MEMORY
-
- See Also
- * CyAsStorageStart
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_stop(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* Callback to be called when the operation is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-/* Summary
- This function is used to register a callback function
- for the storage API.
-
- Description
- At times West Bridge needs to inform the P port processor
- of events that have occurred. These events are asynchronous
- to the thread of control on the P
- port processor and as such are generally delivered via a
- callback function that
- is called as part of an interrupt handler. This function
- registers the callback
- function that is called when an event occurs. Each call
- to this function
- replaces any old callback function with a new callback
- function supplied on
- the most recent call. This function can also be called
- with a callback function
- of NULL in order to remove any existing callback function
-
- * Valid In Asynchronous Callback:YES
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device
- * has not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has
- * not been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle
- * was passed in
- * CY_AS_ERROR_SUCCESS - the function was registered
- * successfully
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
-
- See Also
- * CyAsStorageEventCallback
- * CyAsStorageEvent
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_register_callback(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The callback function to call for async storage events */
- cy_as_storage_event_callback callback
- );
-
-/* Summary
- This function claims a given media type.
-
- Description
- This function communicates to West Bridge that the
- processor wants control of the
- given storage media type. Each media type can be
- claimed or released by the
- processor independently. As the processor is the
- master for the storage,
- West Bridge should release control of the requested
- media as soon as possible and
- signal the processor via the CyAsStorageProcessor event.
-
- * Valid In Asynchronous Callback: NO
-
- Notes
- This function just notifies West Bridge that the storage
- is desired. The storage
- has not actually been released by West Bridge until the
- registered callback function
- is called with the CyAsStorageProcessor event
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device
- * has not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_SUCCESS - this request was successfully
- * transmitted to the West Bridge device
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_MEDIA
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
- * CY_AS_ERROR_NOT_ACQUIRED
-
- See Also:
- * CyAsStorageClaim
- * CyAsStorageRelease
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_claim(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The bus to claim */
- cy_as_bus_number_t bus,
- /* The device to claim */
- uint32_t device,
- /* Callback to be called when the operation is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-/* Summary
- This function releases a given media type.
-
- Description
- This function communicates to West Bridge that the
- processor has released control of
- the given storage media type. Each media type can
- be claimed or released by the
- processor independently. As the processor is the
- master for the storage, West Bridge
- can now assume ownership of the media type. No callback
- or event is generated.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device
- * has not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle
- * was passed in
- * CY_AS_ERROR_SUCCESS - the media was successfully
- * released
- * CY_AS_ERROR_MEDIA_NOT_CLAIMED - the media was not
- * claimed by the P port
- * CY_AS_ERROR_TIMEOUT - a timeout occurred
- * communicating with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_MEDIA
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
-
- See Also
- * CyAsStorageClaim
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_release(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The bus to release */
- cy_as_bus_number_t bus,
- /* The device to release */
- uint32_t device,
- /* Callback to be called when the operation is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-/* Summary
- This function information about the number of devices present
- on a given bus
-
- Description
- This function retrieves information about how many devices on
- on the given
- West Bridge bus.
-
- * Valid In Asynchronous Callback: NO
-
- Notes
- While the current implementation of West Bridge only
- supports one of logical device of
- each media type, future versions WestBridge/Antioch may
- support multiple devices.
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device
- * has not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_SUCCESS - the media information was
- * returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred
- * communicating with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
-
- See Also
- * CyAsStorageQueryDevice
- * CyAsStorageQueryUnit
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_query_bus(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The bus to query */
- cy_as_bus_number_t bus,
- /* The return value containing the number of
- devices present for this media type */
- uint32_t *count,
- /* Callback to be called when the operation is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-/* Summary
- This function information about the number of devices
- present for a given media type
-
- Description
- This function retrieves information about how many
- devices of a given media type are attached to West Bridge.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Notes
- While the current implementation of West Bridge only
- supports one of logical device of each media type, future
- versions West Bridge may support multiple devices.
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device
- * has not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_SUCCESS - the media information was
- * returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred
- * communicating with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
-
- See Also
- * CyAsStorageQueryMedia
- * CyAsMediaType
- * CyAsStorageQueryDevice
- * CyAsStorageQueryUnit
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_query_media(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The type of media to query */
- cy_as_media_type type,
- /* The return value containing the number of
- devices present for this media type */
- uint32_t *count,
- /* Callback to be called when the operation is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-/* Summary
- This function returns information about a given device
- of a specific media type
-
- Description
- This function retrieves information about a device of a
- given type of media. The function is called with a given
- media type and device and a pointer to a media descriptor
- (CyAsDeviceDesc). This function fills in the data in the
- media descriptor to provide information about the
- attributes of the device of the given device.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Notes
- Currently this API only supports a single logical device
- of each media type. Therefore the only acceptable value
- for the parameter device is zero (0).
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_SUCCESS - the media information was
- * returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_NO_SUCH_MEDIA
- * CY_AS_ERROR_NO_SUCH_DEVICE
- * CY_AS_ERROR_INVALID_RESPONSE
-
- See Also
- * CyAsMediaType
- * CyAsStorageQueryMedia
- * CyAsStorageQueryUnit
- * CyAsDeviceDesc
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_query_device(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* Parameters and return value for the query call */
- cy_as_storage_query_device_data *data,
- /* Callback to be called when the operation is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-/* Summary
- This function returns information about a given unit on a
- specific device
-
- Description
- This function retrieves information about a device of a
- given logical unit. The function is called with a given
- media type, device address, unit address, and a pointer
- to a unit descriptor (CyAsUnitDesc). This function fills
- in the data in the unit descriptor to provide information
- about the attributes of the device of the given logical
- unit.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_SUCCESS - the media information was returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_NO_SUCH_DEVICE
- * CY_AS_ERROR_NO_SUCH_UNIT
- * CY_AS_ERROR_INVALID_RESPONSE
-
-
- See Also
- * CyAsMediaType
- * CyAsStorageQueryMedia
- * CyAsStorageQueryDevice
- * CyAsUnitDesc
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_query_unit(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* Parameters and return value for the query call */
- cy_as_storage_query_unit_data *data_p,
- /* Callback to be called when the operation is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-/* Summary
- This function enables/disables the handling of SD/MMC card
- detection and SD/MMC write protection in West Bridge Firmware.
-
- Description
- If the detection of SD/MMC card insertion or removal is being
- done by the Processor directly, the West Bridge firmware needs
- to be instructed to disable the card detect feature. Also, if
- the hardware design does not use the SD_WP GPIO of the West
- Bridge to handle SD card's write protect notch, the handling
- of write protection if firmware should be disabled. This API
- is used to enable/disable the card detect and write protect
- support in West Bridge firmware.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - the feature controls were
- * set successfully
- * CY_AS_ERROR_NO_SUCH_BUS - the specified bus is invalid
- * CY_AS_ERROR_NOT_SUPPORTED - function not supported on
- * the device in the specified bus
- * CY_AS_ERROR_IN_SUSPEND - the West Brdige device is in
- * suspended mode
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
-
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_device_control(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The bus to control */
- cy_as_bus_number_t bus,
- /* The device to control */
- uint32_t device,
- /* Enable/disable control for card detection */
- cy_bool card_detect_en,
- /* Enable/disable control for write protect handling */
- cy_bool write_prot_en,
- /* Control which pin is used for card detection */
- cy_as_storage_card_detect config_detect,
- /* Callback to be called when the operation is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-/* Summary
- This function reads one or more blocks of data from
- the storage system.
-
- Description
- This function synchronously reads one or more blocks
- of data from the given media
- type/device and places the data into the data buffer
- given. This function does not
- return until the data is read and placed into the buffer.
-
- * Valid In Asynchronous Callback: NO
-
- Notes
- If the Samsung CEATA drive is the target for a
- read/write operation, the maximum
- number of sectors that can be accessed through a
- single API call is limited to 2047.
- Longer accesses addressed to a Samsung CEATA drive
- can result in time-out errors.
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device
- * has not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle
- * was passed in
- * CY_AS_ERROR_SUCCESS - the media information was
- * returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred
- * communicating with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified
- * does not exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified
- * media/device pair does not exist
- * CY_AS_ERROR_NO_SUCH_UNIT - the unit specified
- * does not exist
- * CY_AS_ERROR_ASYNC_PENDING - an async operation
- * is pending
- * CY_AS_ERROR_MEDIA_ACCESS_FAILURE - there was
- * error in reading from the media
- * CY_AS_ERROR_MEDIA_WRITE_PROTECTED - the media is
- * write protected
- * CY_AS_ERROR_INVALID_PARAMETER - Reads/Writes greater
- * than 4095 logic blocks are not allowed
-
- See Also
- * CyAsStorageReadAsync
- * CyAsStorageWrite
- * CyAsStorageWriteAsync
- * CyAsStorageCancelAsync
- * <LINK Asynchronous Versus Synchronous Operation>
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_read(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The bus to access */
- cy_as_bus_number_t bus,
- /* The device to access */
- uint32_t device,
- /* The unit to access */
- uint32_t unit,
- /* The first block to access */
- uint32_t block,
- /* The buffer where data will be placed */
- void *data_p,
- /* The number of blocks to be read */
- uint16_t num_blocks
- );
-
-/* Summary
- This function asynchronously reads one or more blocks of data
- from the storage system.
-
- Description
- This function asynchronously reads one or more blocks of
- data from the given media
- type/device and places the data into the data buffer given.
- This function returns
- as soon as the request is transmitted to the West Bridge
- device but before the data is
- available. When the read is complete, the callback function
- is called to indicate the
- data has been placed into the data buffer. Note that the
- data buffer must remain
- valid from when the read is requested until the callback
- function is called.
-
- * Valid In Asynchronous Callback: YES
-
- Notes
- If the Samsung CEATA drive is the target for a read/write
- operation, the maximum
- number of sectors that can be accessed through a single API
- call is limited to 2047.
- Longer accesses addressed to a Samsung CEATA drive can
- result in time-out errors.
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device
- * has not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle
- * was passed in
- * CY_AS_ERROR_SUCCESS - the media information was
- * returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred
- * communicating with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_ASYNC_PENDING - an async operation
- * is pending
- * CY_AS_ERROR_MEDIA_ACCESS_FAILURE - there was error
- * in reading from the media
- * CY_AS_ERROR_MEDIA_WRITE_PROTECTED - the media is
- * write protected
- * CY_AS_ERROR_QUERY_DEVICE_NEEDED - Before an
- * asynchronous read can be issue a call to
- * CyAsStorageQueryDevice must be made
- * CY_AS_ERROR_INVALID_PARAMETER - Reads/Writes greater
- * than 4095 logic blocks are not allowed
-
- See Also
- * CyAsStorageRead
- * CyAsStorageWrite
- * CyAsStorageWriteAsync
- * CyAsStorageCancelAsync
- * CyAsStorageQueryDevice
- * <LINK Asynchronous Versus Synchronous Operation>
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_read_async(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The bus to access */
- cy_as_bus_number_t bus,
- /* The device to access */
- uint32_t device,
- /* The unit to access */
- uint32_t unit,
- /* The first block to access */
- uint32_t block,
- /* The buffer where data will be placed */
- void *data_p,
- /* The number of blocks to be read */
- uint16_t num_blocks,
- /* The function to call when the read is complete
- or an error occurs */
- cy_as_storage_callback callback
- );
-
-/* Summary
- This function writes one or more blocks of data
- to the storage system.
-
- Description
- This function synchronously writes one or more blocks of
- data to the given media/device.
- This function does not return until the data is written
- into the media.
-
- * Valid In Asynchronous Callback: NO
-
- Notes
- If the Samsung CEATA drive is the target for a read/write
- operation, the maximum
- number of sectors that can be accessed through a single
- API call is limited to 2047.
- Longer accesses addressed to a Samsung CEATA drive can
- result in time-out errors.
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device
- * has not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_SUCCESS - the media information was
- * returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred
- * communicating with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified does
- * not exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified
- * media/device pair does not exist
- * CY_AS_ERROR_NO_SUCH_UNIT - the unit specified
- * does not exist
- * CY_AS_ERROR_ASYNC_PENDING - an async operation
- * is pending
- * CY_AS_ERROR_MEDIA_ACCESS_FAILURE - there was error
- * in reading from the media
- * CY_AS_ERROR_MEDIA_WRITE_PROTECTED - the media is
- * write protected
- * CY_AS_ERROR_INVALID_PARAMETER - Reads/Writes greater
- * than 4095 logic blocks are not allowed
-
- See Also
- * CyAsStorageRead
- * CyAsStorageReadAsync
- * CyAsStorageWriteAsync
- * CyAsStorageCancelAsync
- * <LINK Asynchronous Versus Synchronous Operation>
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_write(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The bus to access */
- cy_as_bus_number_t bus,
- /* The device to access */
- uint32_t device,
- /* The unit to access */
- uint32_t unit,
- /* The first block to access */
- uint32_t block,
- /* The buffer containing the data to be written */
- void *data_p,
- /* The number of blocks to be written */
- uint16_t num_blocks
- );
-
-/* Summary
- This function asynchronously writes one or more blocks
- of data to the storage system
-
- Description
- This function asynchronously writes one or more blocks of
- data to the given media type/device.
- This function returns as soon as the request is transmitted
- to the West Bridge device
- but before the data is actually written. When the write is
- complete, the callback
- function is called to indicate the data has been physically
- written into the media.
-
- * Valid In Asynchronous Callback: YES
-
- Notes
- If the Samsung CEATA drive is the target for a read/write
- operation, the maximum
- number of sectors that can be accessed through a single API
- call is limited to 2047.
- Longer accesses addressed to a Samsung CEATA drive can
- result in time-out errors.
-
- Notes
- The data buffer must remain valid from when the write is
- requested until the callback function is called.
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device
- * has not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has
- * not been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was passed in
- * CY_AS_ERROR_SUCCESS - the media information was returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_ASYNC_PENDING - an async operation is
- * pending
- * CY_AS_ERROR_MEDIA_ACCESS_FAILURE - there was error in
- * reading from the media
- * CY_AS_ERROR_MEDIA_WRITE_PROTECTED - the media is write
- * protected
- * CY_AS_ERROR_QUERY_DEVICE_NEEDED - A query device call is
- * required before async writes are allowed
- * CY_AS_ERROR_INVALID_PARAMETER - Reads/Writes greater
- * than 4095 logic blocks are not allowed
-
- See Also
- * CyAsStorageRead
- * CyAsStorageWrite
- * CyAsStorageReadAsync
- * CyAsStorageCancelAsync
- * CyAsStorageQueryDevice
- * <LINK Asynchronous Versus Synchronous Operation>
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_write_async(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The bus to access */
- cy_as_bus_number_t bus,
- /* The device to access */
- uint32_t device,
- /* The unit to access */
- uint32_t unit,
- /* The first block to access */
- uint32_t block,
- /* The buffer where the data to be written is stored */
- void *data_p,
- /* The number of blocks to be written */
- uint16_t num_blocks,
- /* The function to call when the write is complete
- or an error occurs */
- cy_as_storage_callback callback
- );
-
-/* Summary
- This function aborts any outstanding asynchronous operation
-
- Description
- This function aborts any asynchronous block read or block
- write operation. As only a single asynchronous block read
- or write operation is possible at one time, this aborts
- the single operation in progress.
-
- * Valid In Asynchronous Callback: YES
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device
- * has not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was passed in
- * CY_AS_ERROR_SUCCESS - the media information was returned
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_OPERATION_PENDING - no asynchronous
- * operation is pending
-
- See Also
- * CyAsStorageRead
- * CyAsStorageReadAsync
- * CyAsStorageWrite
- * CyAsStorageWriteAsync
- * <LINK Asynchronous Versus Synchronous Operation>
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_cancel_async(
- /* Handle to the device with outstanding async request */
- cy_as_device_handle handle
- );
-
-/* Summary
- This function is used to read the content of SD registers
-
- Description
- This function is used to read the contents of CSD, CID and
- CSD registers of the SD Card.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - the read operation was successful
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was passed in
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not been
- * started
- * CY_AS_ERROR_IN_SUSPEND - The West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified media/device pair
- * does not exist
- * CY_AS_ERROR_INVALID_PARAMETER - The register type is invalid
- * or the media is not supported on the bus
- * CY_AS_ERROR_OUT_OF_MEMORY - failed to get memory to process
- * request
- * CY_AS_ERROR_INVALID_RESPONSE - communication failure with
- * West Bridge firmware
-
- See Also
- * CyAsStorageSDRegReadData
- */
-EXTERN cy_as_return_status_t
-cy_as_storage_sd_register_read(
- /* Handle to the West Bridge device. */
- cy_as_device_handle handle,
- /* The bus to query */
- cy_as_bus_number_t bus,
- /* The device to query */
- uint8_t device,
- /* The type of register to read. */
- cy_as_sd_card_reg_type reg_type,
- /* Output data buffer and length. */
- cy_as_storage_sd_reg_read_data *data_p,
- /* Callback function to call when done. */
- cy_as_function_callback cb,
- /* Call context to send to the cb function. */
- uint32_t client
- );
-
-/* Summary
- Creates a partition starting at the given block and using the
- remaining blocks on the card.
-
- Description
- Storage devices attached to West Bridge can be partitioned
- into two units.
- The visibility of these units through the mass storage
- interface can be
- individually controlled. This API is used to partition
- a device into two.
-
- * Valid in Asynchronous Callback: Yes (if cb supplied)
- * Nestable: Yes
-
- Returns
- * CY_AS_ERROR_SUCCESS - the partition was successfully created
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was passed in
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not been
- * started
- * CY_AS_ERROR_IN_SUSPEND - The West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_USB_RUNNING - Partition cannot be created while
- * USB stack is active
- * CY_AS_ERROR_OUT_OF_MEMORY - failed to get memory to
- * process request
- * CY_AS_ERROR_INVALID_REQUEST - feature not supported by
- * active device or firmware
- * CY_AS_ERROR_INVALID_RESPONSE - communication failure with
- * West Bridge firmware
- * CY_AS_ERROR_ALREADY_PARTITIONED - the storage device already
- * has been partitioned
- * CY_AS_ERROR_INVALID_BLOCK - Size specified for the partition
- * exceeds the actual device capacity
-
- See Also
- * <LINK Partitioning>
- * CyAsStorageRemovePPartition
- */
-EXTERN cy_as_return_status_t
-cy_as_storage_create_p_partition(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* Bus on which the device to be partitioned is connected */
- cy_as_bus_number_t bus,
- /* Device number to be partitioned */
- uint32_t device,
- /* Size of partition number 0 in blocks */
- uint32_t size,
- /* Callback in case of async call */
- cy_as_function_callback cb,
- /* Client context to pass to the callback */
- uint32_t client
- );
-
-/* Summary
- Removes the partition table on a storage device connected
- to the West Bridge.
-
- Description
- Storage devices attached to West Bridge can be partitioned
- into two units.This partition information is stored on the
- device and is non-volatile. This API is used to remove the
- stored partition information and make the entire device
- visible as a single partition (unit).
-
- * Valid in Asynchronous Callback: Yes (if cb supplied)
- * Nestable: Yes
-
- Returns
- * CY_AS_ERROR_SUCCESS - the partition was successfully
- * deleted
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_IN_SUSPEND - The West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_USB_RUNNING - Partition cannot be created
- * while USB stack is active
- * CY_AS_ERROR_OUT_OF_MEMORY - failed to get memory to
- * process request
- * CY_AS_ERROR_INVALID_REQUEST - operation not supported
- * by active device/firmware
- * CY_AS_ERROR_NO_SUCH_UNIT - the addressed device is
- * not partitioned
-
- See Also
- * <LINK Partitioning>
- * CyAsStorageCreatePPartition
- */
-EXTERN cy_as_return_status_t
-cy_as_storage_remove_p_partition(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* Bus on which device of interest is connected */
- cy_as_bus_number_t bus,
- /* Device number of interest */
- uint32_t device,
- /* Callback in case of async call */
- cy_as_function_callback cb,
- /* Client context to pass to the callback */
- uint32_t client
- );
-
-/* Summary
- Returns the amount of data read/written to the given
- device from the USB host.
-
- Description
-
- * Valid in Asynchronous Callback: Yes (if cb supplied)
- * Nestable: Yes
-
- Returns
- * CY_AS_ERROR_SUCCESS - API call completed successfully
- * CY_AS_ERROR_INVALID_HANDLE - Invalid West Bridge device
- * handle
- * CY_AS_ERROR_NOT_CONFIGURED - West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - No firmware image has been
- * loaded on West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - Storage stack has not been
- * started
- * CY_AS_ERROR_NOT_SUPPORTED - This function is not
- * supported by active firmware version
- * CY_AS_ERROR_OUT_OF_MEMORY - Failed to get memory to
- * process the request
- * CY_AS_ERROR_TIMEOUT - West Bridge firmware did not
- * respond to request
- * CY_AS_ERROR_INVALID_RESPONSE - Unexpected reply from
- * West Bridge firmware
-
- See Also
- * CyAsUsbSetMSReportThreshold
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_get_transfer_amount(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* Bus on which device of interest is connected */
- cy_as_bus_number_t bus,
- /* Device number of interest */
- uint32_t device,
- /* Return value containing read/write sector counts. */
- cy_as_m_s_c_progress_data *data_p,
- /* Callback in case of async call */
- cy_as_function_callback cb,
- /* Client context to pass to the callback */
- uint32_t client
- );
-
-/* Summary
- Performs a Sector Erase on an attached SD Card
-
- Description
- This allows you to erase an attached SD card. The area to erase
- is specified in terms of a starting Erase Unit and a number of
- Erase Units. The size of each Erase Unit is defined in the
- DeviceDesc returned from a StorageQueryDevice call and it can
- differ between SD cards.
-
- A large erase can take a while to complete depending on the SD
- card. In such a case it is recommended that an async call is made.
-
- Returns
- * CY_AS_ERROR_SUCCESS - API call completed successfully
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not been
- * started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was passed in
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_ASYNC_PENDING - an async operation is pending
- * CY_AS_ERROR_MEDIA_ACCESS_FAILURE - there was error in
- * reading from the media
- * CY_AS_ERROR_MEDIA_WRITE_PROTECTED - the media is write protected
- * CY_AS_ERROR_QUERY_DEVICE_NEEDED - A query device call is
- * required before erase is allowed
- * CY_AS_ERROR_NO_SUCH_BUS
- * CY_AS_ERROR_NO_SUCH_DEVICE
- * CY_AS_ERROR_NOT_SUPPORTED - Erase is currently only supported
- * on SD and using SD only firmware
- * CY_AS_ERROR_OUT_OF_MEMORY
-
- See Also
- * CyAsStorageSDRegisterRead
-*/
-EXTERN cy_as_return_status_t
-cy_as_storage_erase(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* Bus on which device of interest is connected */
- cy_as_bus_number_t bus,
- /* Device number of interest */
- uint32_t device,
- /* Erase Unit to start the erase */
- uint32_t erase_unit,
- /* Number of Erase Units to erase */
- uint16_t num_erase_units,
- /* Callback in case of async call */
- cy_as_function_callback cb,
- /* Client context to pass to the callback */
- uint32_t client
- );
-
-/* Summary
- This function is used to read a Tuple from the SDIO CIS area.
-
- Description
- This function is used to read a Tuple from the SDIO CIS area.
- This function is to be used only for IO to an SDIO card as
- other media will not respond to the SDIO command set.
-
- * Valid in Asynchronous Callback: NO
- * Valid on Antioch device: NO
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_SUCCESS - the media information was returned
- * CY_AS_ERROR_IN_SUSPEND - the West Bridge device
- * is in suspend mode
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified does not
- * exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified media/device
- * pair does not exist
- * CY_AS_ERROR_ASYNC_PENDING - an async operation is pending
- * CY_AS_ERROR_INVALID_REQUEST - an invalid IO request
- * type was made
- * CY_AS_ERROR_OUT_OF_MEMORY - insufficient memory available
- * CY_AS_ERROR_INVALID_RESPONSE - an error message was
- * received from the firmware
- * CY_AS_ERROR_MEDIA_ACCESS_FAILURE - there was error in
- * reading from the media
- * CY_AS_ERROR_INVALID_FUNCTION - An IO attempt was made to
- * an invalid function
- * CY_AS_ERROR_INVALID_ENDPOINT - A DMA request was made to
- * an invalid endpoint
- * CY_AS_ERROR_ENDPOINT_DISABLED - A DMA request was made to
- * a disabled endpoint
-
-*/
-cy_as_return_status_t
-cy_as_sdio_get_c_i_s_info(
- /* Handle to the Westbridge device */
- cy_as_device_handle handle,
- /* Bus to use */
- cy_as_bus_number_t bus,
- /* Device number */
- uint32_t device,
- /* IO function Number */
- uint8_t n_function_no,
- /* Id of tuple to be fetched */
- uint16_t tuple_id,
- /* Buffer to hold tuple read from card.
- should be at least 256 bytes in size */
- uint8_t *data_p
- );
-
-
-/* Summary
- This function is used to read properties of the SDIO card.
-
- Description
- This function is used to read properties of the SDIO card
- into a CyAsSDIOCard structure.
- This function is to be used only for IO to an SDIO card as
- other media will not respond to the SDIO command set.
-
- * Valid in Asynchronous Callback: NO
- * Valid on Antioch device: NO
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not been
- * started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_SUCCESS - the card information was returned
- * CY_AS_ERROR_IN_SUSPEND - the West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified does not
- * exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified media/device
- * pair does not exist
- * CY_AS_ERROR_OUT_OF_MEMORY - insufficient memory available
- * CY_AS_ERROR_INVALID_RESPONSE - an error message was
- * received from the firmware
-
-*/
-cy_as_return_status_t
-cy_as_sdio_query_card(
- /* Handle to the Westbridge device */
- cy_as_device_handle handle,
- /* Bus to use */
- cy_as_bus_number_t bus,
- /* Device number */
- uint32_t device,
- /* Buffer to store card properties */
- cy_as_sdio_card *data_p
- );
-
-/* Summary
- This function is used to reset a SDIO card.
-
- Description
- This function is used to reset a SDIO card by writing to
- the reset bit in the CCCR and reinitializing the card. This
- function is to be used only for IO to an SDIO card as
- other media will not respond to the SDIO command set.
-
- * Valid in Asynchronous Callback: NO
- * Valid on Antioch device: NO
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_IN_SUSPEND - the West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_SUCCESS - the media information was returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified does not
- * exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified media/device
- * pair does not exist
- * CY_AS_ERROR_OUT_OF_MEMORY - insufficient memory available
- * CY_AS_ERROR_INVALID_RESPONSE - an error message was
- * received from the firmware
- */
-cy_as_return_status_t
-cy_as_sdio_reset_card(
- /* Handle to the Westbridge device */
- cy_as_device_handle handle,
- /* Bus to use */
- cy_as_bus_number_t bus,
- /* Device number */
- uint32_t device
- );
-
-/* Summary
- This function performs a Synchronous 1 byte read from the sdio
- device function.
-
- Description
- This function is used to perform a synchronous 1 byte read
- from an SDIO card function. This function is to be used only
- for IO to an SDIO card as other media will not respond to the
- SDIO command set.
-
- * Valid in Asynchronous Callback: NO
- * Valid on Antioch device: NO
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was passed
- * in
- * CY_AS_ERROR_IN_SUSPEND - the West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_SUCCESS - the media information was returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified does not exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified media/device pair
- * does not exist
- * CY_AS_ERROR_OUT_OF_MEMORY - insufficient memory available
- * CY_AS_ERROR_INVALID_RESPONSE - an error message was received
- * from the firmware
- * CY_AS_ERROR_MEDIA_ACCESS_FAILURE - there was error in reading
- * from the media
- * CY_AS_ERROR_INVALID_FUNCTION - An IO attempt was made to an
- * invalid function
- * CY_AS_ERROR_FUNCTION_SUSPENDED - The function to which read
- * was attempted is in suspend
-*/
-cy_as_return_status_t
-cy_as_sdio_direct_read(
- /* Handle to the Westbridge device */
- cy_as_device_handle handle,
- /* Bus to use */
- cy_as_bus_number_t bus,
- /* Device number */
- uint32_t device,
- /* IO function Number */
- uint8_t n_function_no,
- /* Address for IO */
- uint32_t address,
- /* Set to CY_SDIO_REARM_INT to reinitialize SDIO interrupt */
- uint8_t misc_buf,
- /* Buffer to hold byte read from card */
- uint8_t *data_p
- );
-
-/* Summary
- This function performs a Synchronous 1 byte write to the
- sdio device function.
-
- Description
- This function is used to perform a synchronous 1 byte write
- to an SDIO card function.
- This function is to be used only for IO to an SDIO card as
- other media will not respond to the SDIO command set.
-
- * Valid in Asynchronous Callback: NO
- * Valid on Antioch device: NO
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not been
- * started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_IN_SUSPEND - the West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_SUCCESS - the media information was returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified does not exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified media/device
- * pair does not exist
- * CY_AS_ERROR_OUT_OF_MEMORY - insufficient memory available
- * CY_AS_ERROR_INVALID_RESPONSE - an error message was received
- * from the firmware
- * CY_AS_ERROR_MEDIA_ACCESS_FAILURE - there was error in
- * reading from the media
- * CY_AS_ERROR_INVALID_FUNCTION - An IO attempt was made to
- * an invalid function
- * CY_AS_ERROR_FUNCTION_SUSPENDED - The function to which
- * write was attempted is in suspend
-*/
-cy_as_return_status_t
-cy_as_sdio_direct_write(
- /* Handle to the Westbridge device */
- cy_as_device_handle handle,
- /* Bus to use */
- cy_as_bus_number_t bus,
- /* Device number */
- uint32_t device,
- /* IO function Number */
- uint8_t n_function_no,
- /* Address for IO */
- uint32_t address,
- /* Set to CY_SDIO_REARM_INT to reinitialize SDIO interrupt,
- set to CY_SDIO_RAW for read after write */
- uint8_t misc_buf,
- /* Byte to write */
- uint16_t argument,
- /* Buffer to hold byte read from card in Read after write mode */
- uint8_t *data_p
- );
-
-/* Summary
- This function is used to set the blocksize of an SDIO function.
-
- Description
- This function is used to set the blocksize of an SDIO function.
- This function is to be used only for IO to an SDIO card as
- other media will not respond to the SDIO command set.
-
- * Valid in Asynchronous Callback: NO
- * Valid on Antioch device: NO
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_IN_SUSPEND - the West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_SUCCESS - the media information was
- * returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified does not
- * exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified media/device
- * pair does not exist
- * CY_AS_ERROR_OUT_OF_MEMORY - insufficient memory
- * available
- * CY_AS_ERROR_INVALID_RESPONSE - an error message was
- * received from the firmware
- * CY_AS_ERROR_MEDIA_ACCESS_FAILURE - there was error in
- * reading from the media
- * CY_AS_ERROR_INVALID_FUNCTION - An IO attempt was made
- * to an invalid function
- * CY_AS_ERROR_INVALID_BLOCKSIZE - An incorrect blocksize
- * was passed to the function.
- * CY_AS_ERROR_FUNCTION_SUSPENDED - The function to which
- * write was attempted is in suspend
-*/
-cy_as_return_status_t
-cy_as_sdio_set_blocksize(
- /* Handle to the Westbridge device */
- cy_as_device_handle handle,
- /* Bus to use */
- cy_as_bus_number_t bus,
- /* Device number */
- uint32_t device,
- /* IO function Number */
- uint8_t n_function_no,
- /* Block size to set. */
- uint16_t blocksize
- );
-
-/* Summary
- This function is used to read Multibyte/Block data from a
- IO function.
-
- Description
- This function is used to read Multibyte/Block data from a
- IO function. This function is to be used only for IO to an
- SDIO card as other media will not respond to the SDIO
- command set.
-
- * Valid in Asynchronous Callback: YES
- * Valid on Antioch device: NO
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_IN_SUSPEND - the West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_SUCCESS - the media information was returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified does not exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified media/device
- * pair does not exist
- * CY_AS_ERROR_ASYNC_PENDING - an async operation is pending
- * CY_AS_ERROR_OUT_OF_MEMORY - insufficient memory available
- * CY_AS_ERROR_INVALID_RESPONSE - an error message was received
- * from the firmware
- * CY_AS_ERROR_MEDIA_ACCESS_FAILURE - there was error in
- * reading from the media
- * CY_AS_ERROR_INVALID_FUNCTION - An IO attempt was made to
- * an invalid function
- * CY_AS_ERROR_INVALID_BLOCKSIZE - An incorrect blocksize or
- * block count was passed to the function.
- * CY_AS_ERROR_FUNCTION_SUSPENDED - The function to which
- * write was attempted is in suspend
- * CY_AS_ERROR_IO_ABORTED - The IO operation was aborted
- * CY_AS_ERROR_IO_SUSPENDED - The IO operation was suspended
- * CY_AS_ERROR_INVALID_REQUEST - An invalid request was
- * passed to the card.
-
-*/
-cy_as_return_status_t
-cy_as_sdio_extended_read(
- /* Handle to the Westbridge device */
- cy_as_device_handle handle,
- /* Bus to use */
- cy_as_bus_number_t bus,
- /* Device number */
- uint32_t device,
- /* IO function Number */
- uint8_t n_function_no,
- /* Base Address for IO */
- uint32_t address,
- /* Set to CY_SDIO_BLOCKMODE for block IO,
- CY_SDIO_BYTEMODE for multibyte IO,
- CY_SDIO_OP_FIFO to read multiple bytes from the
- same address, CY_SDIO_OP_INCR to read bytes from
- the incrementing addresses */
- uint8_t misc_buf,
- /* Block/Byte count to read */
- uint16_t argument,
- /* Buffer to hold data read from card */
- uint8_t *data_p,
- /* Callback in case of Asyncronous call. 0 if Synchronous */
- cy_as_sdio_callback callback
- );
-
-/* Summary
- This function is used to write Multibyte/Block data
- to a IO function.
-
- Description
- This function is used to write Multibyte/Block data
- to a IO function. This function is to be used only
- for IO to an SDIO card as other media will not respond
- to the SDIO command set.
-
- * Valid in Asynchronous Callback: YES
- * Valid on Antioch device: NO
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_IN_SUSPEND - the West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_SUCCESS - the media information was returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified does not
- * exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified media/device
- * pair does not exist
- * CY_AS_ERROR_ASYNC_PENDING - an async operation is pending
- * CY_AS_ERROR_OUT_OF_MEMORY - insufficient memory available
- * CY_AS_ERROR_INVALID_RESPONSE - an error message was
- * received from the firmware
- * CY_AS_ERROR_MEDIA_ACCESS_FAILURE - there was error in
- * reading from the media
- * CY_AS_ERROR_INVALID_FUNCTION - An IO attempt was made
- * to an invalid function
- * CY_AS_ERROR_INVALID_BLOCKSIZE - An incorrect blocksize or
- * block count was passed to the function.
- * CY_AS_ERROR_FUNCTION_SUSPENDED - The function to which
- * write was attempted is in suspend
- * CY_AS_ERROR_IO_ABORTED - The IO operation was aborted
- * CY_AS_ERROR_IO_SUSPENDED - The IO operation was suspended
- * CY_AS_ERROR_INVALID_REQUEST - An invalid request was
- * passed to the card.
-*/
-cy_as_return_status_t
-cy_as_sdio_extended_write(
- /* Handle to the Westbridge device */
- cy_as_device_handle handle,
- /* Bus to use */
- cy_as_bus_number_t bus,
- /* Device number */
- uint32_t device,
- /* IO function Number */
- uint8_t n_function_no,
- /* Base Address for IO */
- uint32_t address,
- /* Set to CY_SDIO_BLOCKMODE for block IO,
- CY_SDIO_BYTEMODE for multibyte IO,
- CY_SDIO_OP_FIFO to write multiple bytes to the same address,
- CY_SDIO_OP_INCR to write multiple bytes to incrementing
- addresses */
- uint8_t misc_buf,
- /* Block/Byte count to write
- in case of byte mode the count should not exceed the block size
- or 512, whichever is smaller.
- in case of block mode, maximum number of blocks is 511. */
- uint16_t argument,
- /* Buffer to hold data to be written to card. */
- uint8_t *data_p,
- /* Callback in case of Asyncronous call. 0 if Synchronous */
- cy_as_sdio_callback callback
- );
-
-/* Summary
- This function is used to initialize a SDIO card function.
-
- Description
- This function is used to initialize a SDIO card function
- (1 - 7). This function is to be used only for IO to an
- SDIO card as other media will not respond to the SDIO
- command set.
-
- * Valid in Asynchronous Callback: NO
- * Valid on Antioch device: NO
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not been
- * started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was passed
- * in
- * CY_AS_ERROR_IN_SUSPEND - the West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_SUCCESS - the media information was returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified does not exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified media/device
- * pair does not exist
- * CY_AS_ERROR_OUT_OF_MEMORY - insufficient memory available
- * CY_AS_ERROR_INVALID_RESPONSE - an error message was
- * received from the firmware
- * CY_AS_ERROR_MEDIA_ACCESS_FAILURE - there was error in
- * reading from the media
- * CY_AS_ERROR_INVALID_FUNCTION - An IO attempt was made
- * to an invalid function
-*/
-cy_as_return_status_t
-cy_as_sdio_init_function(
- /* Handle to the Westbridge device */
- cy_as_device_handle handle,
- /* Bus to use */
- cy_as_bus_number_t bus,
- /* Device number */
- uint32_t device,
- /* IO function Number */
- uint8_t n_function_no,
- /* Set to CY_SDIO_FORCE_INIT to reinitialize function */
- uint8_t misc_buf
- );
-
-/* Summary
- This function is used to get properties of a SDIO card function.
-
- Description
- This function is used to get properties of a SDIO card functio
- (1 - 7) into a CyAsSDIOFunc structure. This function is to be
- used only for IO to an SDIO card as other media will not respond
- to the SDIO command set.
-
- * Valid in Asynchronous Callback: NO
- * Valid on Antioch device: NO
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not been
- * started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was passed
- * in
- * CY_AS_ERROR_IN_SUSPEND - the West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_SUCCESS - the media information was returned
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the media specified does
- * not exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified media/device pair
- * does not exist
- * CY_AS_ERROR_INVALID_FUNCTION - An IO request was made to
- * an invalid function
-*/
-cy_as_return_status_t
-cy_as_sdio_query_function(
- /* Handle to the Westbridge device */
- cy_as_device_handle handle,
- /* Bus to use */
- cy_as_bus_number_t bus,
- /* Device number */
- uint32_t device,
- /* IO function Number */
- uint8_t n_function_no,
- /* Buffer to store function properties */
- cy_as_sdio_func *data_p
- );
-
-/* Summary
- This function is used to Abort the current IO function.
-
- Description
- This function is used to Abort the current IO function.
- This function is to be used only for IO to an SDIO card as
- other media will not respond to the SDIO command set.
-
- * Valid in Asynchronous Callback: NO
- * Valid on Antioch device: NO
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device
- * has not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_IN_SUSPEND - the West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_SUCCESS - the media information was
- * returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified does not
- * exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified
- * media/device pair does not exist
- * CY_AS_ERROR_OUT_OF_MEMORY - insufficient memory
- * available
- * CY_AS_ERROR_INVALID_FUNCTION - An IO attempt was made
- * to an invalid function
-*/
-cy_as_return_status_t
-cy_as_sdio_abort_function(
- /* Handle to the Westbridge device */
- cy_as_device_handle handle,
- /* Bus to use */
- cy_as_bus_number_t bus,
- /* Device number */
- uint32_t device,
- /* IO function Number */
- uint8_t n_function_no
- );
-
-/* Summary
- This function is used to Disable IO to an SDIO function.
-
- Description
- This function is used to Disable IO to an SDIO function.
- This function is to be used only for IO to an SDIO card as
- other media will not respond to the SDIO command set.
-
- * Valid in Asynchronous Callback: NO
- * Valid on Antioch device: NO
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device
- * has not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_IN_SUSPEND - the West Bridge device is
- * in suspend mode
- * CY_AS_ERROR_SUCCESS - the media information was
- * returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified does not
- * exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified media/device
- * pair does not exist
- * CY_AS_ERROR_INVALID_FUNCTION - An IO attempt was made
- * to an invalid function
-*/
-cy_as_return_status_t
-cy_as_sdio_de_init_function(
- /* Handle to the Westbridge device */
- cy_as_device_handle handle,
- /* Bus to use */
- cy_as_bus_number_t bus,
- /* Device number */
- uint32_t device,
- /* IO function Number */
- uint8_t n_function_no
- );
-
-/* Summary
- This function is used to Suspend the current IO function.
-
- Description
- This function is used to Suspend the current IO function.
- This function is to be used only for IO to an SDIO card as
- other media will not respond to the SDIO command set.
-
- * Valid in Asynchronous Callback: NO
- * Valid on Antioch device: NO
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has
- * not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_IN_SUSPEND - the West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_SUCCESS - the media information was returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified does not
- * exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified
- * media/device pair does not exist
- * CY_AS_ERROR_OUT_OF_MEMORY - insufficient memory
- * available
- * CY_AS_ERROR_INVALID_FUNCTION - An IO attempt was made
- * to an invalid function
-*/
-cy_as_return_status_t
-cy_as_sdio_suspend(
- /* Handle to the Westbridge device */
- cy_as_device_handle handle,
- /* Bus to use */
- cy_as_bus_number_t bus,
- /* Device number */
- uint32_t device,
- /* IO function Number */
- uint8_t n_function_no
- );
-
-/* Summary
- This function is used to resume a Suspended IO function.
-
- Description
- This function is used to resume a Suspended IO function.
- This function is to be used only for IO to an SDIO card as
- other media will not respond to the SDIO command set.
-
- * Valid in Asynchronous Callback: NO
- * Valid on Antioch device: NO
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device
- * has not been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been
- * loaded into West Bridge
- * CY_AS_ERROR_NOT_RUNNING - the storage stack has not
- * been started
- * CY_AS_ERROR_INVALID_HANDLE - an invalid handle was
- * passed in
- * CY_AS_ERROR_IN_SUSPEND - the West Bridge device is
- * in suspend mode
- * CY_AS_ERROR_SUCCESS - the media information was
- * returned
- * CY_AS_ERROR_TIMEOUT - a timeout occurred
- * communicating with the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the stack is not running
- * CY_AS_ERROR_NO_SUCH_BUS - the bus specified
- * does not exist
- * CY_AS_ERROR_NO_SUCH_DEVICE - the specified
- * media/device pair does not exist
- * CY_AS_ERROR_ASYNC_PENDING - an async operation
- * is pending
- * CY_AS_ERROR_OUT_OF_MEMORY - insufficient memory
- * available
- * CY_AS_ERROR_INVALID_RESPONSE - an error message was
- * received from the firmware
- * CY_AS_ERROR_MEDIA_ACCESS_FAILURE - there was error
- * in reading from the media
- * CY_AS_ERROR_INVALID_FUNCTION - An IO attempt was
- * made to an invalid function
- * CY_AS_ERROR_IO_ABORTED - The IO operation was
- * aborted
- * CY_AS_ERROR_IO_SUSPENDED - The IO operation was
- * suspended
- * CY_AS_ERROR_INVALID_REQUEST - An invalid request was
- * passed to the card.
-
-*/
-cy_as_return_status_t
-cy_as_sdio_resume(
- /* Handle to the Westbridge device */
- cy_as_device_handle handle,
- /* Bus to use */
- cy_as_bus_number_t bus,
- /* Device number */
- uint32_t device,
- /* IO function Number */
- uint8_t n_function_no,
- /* Operation to resume (Read or Write) */
- cy_as_oper_type op,
- /* Micellaneous buffer same as for Extended read and Write */
- uint8_t misc_buf,
- /* Number of pending blocks for IO. Should be less
- than or equal to the maximum defined for extended
- read and write */
- uint16_t pendingblockcount,
- /* Buffer to continue the Suspended IO operation */
- uint8_t *data_p
- );
-
-
-
-/* For supporting deprecated functions */
-#include "cyasstorage_dep.h"
-
-#include "cyas_cplus_end.h"
-
-#endif /* _INCLUDED_CYASSTORAGE_H_ */
+++ /dev/null
-/* Cypress West Bridge API header file (cyanstorage_dep.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-/* This header will contain Antioch specific declaration
- * of the APIs that are deprecated in Astoria SDK. This is
- * for maintaining backward compatibility
- */
-#ifndef __INCLUDED_CYANSTORAGE_DEP_H__
-#define __INCLUDED_CYANSTORAGE_DEP_H__
-
-#ifndef __doxygen__
-
-typedef void (*cy_as_storage_callback_dep)(
-/* Handle to the device completing the storage operation */
- cy_as_device_handle handle,
- /* The media type completing the operation */
- cy_as_media_type type,
- /* The device completing the operation */
- uint32_t device,
- /* The unit completing the operation */
- uint32_t unit,
- /* The block number of the completed operation */
- uint32_t block_number,
- /* The type of operation */
- cy_as_oper_type op,
- /* The error status */
- cy_as_return_status_t status
- );
-
-typedef void (*cy_as_storage_event_callback_dep)(
- /* Handle to the device sending the event notification */
- cy_as_device_handle handle,
- /* The media type */
- cy_as_media_type type,
- /* The event type */
- cy_as_storage_event evtype,
- /* Event related data */
- void *evdata
- );
-
-typedef struct cy_as_storage_query_device_data_dep {
- /* The type of media to query */
- cy_as_media_type type;
- /* The logical device number to query */
- uint32_t device;
- /* The return value for the device descriptor */
- cy_as_device_desc desc_p;
-} cy_as_storage_query_device_data_dep;
-
-typedef struct cy_as_storage_query_unit_data_dep {
- /* The type of media to query */
- cy_as_media_type type;
- /* The logical device number to query */
- uint32_t device;
- /* The unit to query on the device */
- uint32_t unit;
- /* The return value for the unit descriptor */
- cy_as_unit_desc desc_p;
-} cy_as_storage_query_unit_data_dep;
-
-
-/************ FUNCTIONS *********************/
-
-EXTERN cy_as_return_status_t
-cy_as_storage_register_callback_dep(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The callback function to call for async storage events */
- cy_as_storage_event_callback_dep callback
- );
-
-EXTERN cy_as_return_status_t
-cy_as_storage_claim_dep(cy_as_device_handle handle,
- cy_as_media_type type
- );
-
-EXTERN cy_as_return_status_t
-cy_as_storage_claim_dep_EX(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The type of media to claim */
- cy_as_media_type *type,
- /* Callback to be called when the operation is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-EXTERN cy_as_return_status_t
-cy_as_storage_release_dep(cy_as_device_handle handle,
- cy_as_media_type type
- );
-
-EXTERN cy_as_return_status_t
-cy_as_storage_release_dep_EX(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* Handle to the device of interest */
- cy_as_media_type *type,
- /* Callback to be called when the operation is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-EXTERN cy_as_return_status_t
-cy_as_storage_query_device_dep(
- cy_as_device_handle handle,
- cy_as_media_type media,
- uint32_t device,
- cy_as_device_desc *desc_p
- );
-
-EXTERN cy_as_return_status_t
-cy_as_storage_query_device_dep_EX(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* Parameters and return value for the query call */
- cy_as_storage_query_device_data_dep *data,
- /* Callback to be called when the operation is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-EXTERN cy_as_return_status_t
-cy_as_storage_query_unit_dep(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The type of media to query */
- cy_as_media_type type,
- /* The logical device number to query */
- uint32_t device,
- /* The unit to query on the device */
- uint32_t unit,
- /* The return value for the unit descriptor */
- cy_as_unit_desc *unit_p
- );
-
-EXTERN cy_as_return_status_t
-cy_as_storage_query_unit_dep_EX(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* Parameters and return value for the query call */
- cy_as_storage_query_unit_data_dep *data_p,
- /* Callback to be called when the operation is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-EXTERN cy_as_return_status_t
-cy_as_storage_device_control_dep(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* Enable/disable control for card detection */
- cy_bool card_detect_en,
- /* Enable/disable control for write protect handling */
- cy_bool write_prot_en,
- /* Callback to be called when the operation is complete */
- cy_as_function_callback cb,
- /* Client data to be passed to the callback */
- uint32_t client
- );
-
-
-EXTERN cy_as_return_status_t
-cy_as_storage_read_dep(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The type of media to access */
- cy_as_media_type type,
- /* The device to access */
- uint32_t device,
- /* The unit to access */
- uint32_t unit,
- /* The first block to access */
- uint32_t block,
- /* The buffer where data will be placed */
- void *data_p,
- /* The number of blocks to be read */
- uint16_t num_blocks
- );
-
-EXTERN cy_as_return_status_t
-cy_as_storage_read_async_dep(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The type of media to access */
- cy_as_media_type type,
- /* The device to access */
- uint32_t device,
- /* The unit to access */
- uint32_t unit,
- /* The first block to access */
- uint32_t block,
- /* The buffer where data will be placed */
- void *data_p,
- /* The number of blocks to be read */
- uint16_t num_blocks,
- /* The function to call when the read is complete
- or an error occurs */
- cy_as_storage_callback_dep callback
- );
-EXTERN cy_as_return_status_t
-cy_as_storage_write_dep(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The type of media to access */
- cy_as_media_type type,
- /* The device to access */
- uint32_t device,
- /* The unit to access */
- uint32_t unit,
- /* The first block to access */
- uint32_t block,
- /* The buffer containing the data to be written */
- void *data_p,
- /* The number of blocks to be written */
- uint16_t num_blocks
- );
-
-EXTERN cy_as_return_status_t
-cy_as_storage_write_async_dep(
- /* Handle to the device of interest */
- cy_as_device_handle handle,
- /* The type of media to access */
- cy_as_media_type type,
- /* The device to access */
- uint32_t device,
- /* The unit to access */
- uint32_t unit,
- /* The first block to access */
- uint32_t block,
- /* The buffer where the data to be written is stored */
- void *data_p,
- /* The number of blocks to be written */
- uint16_t num_blocks,
- /* The function to call when the write is complete
- or an error occurs */
- cy_as_storage_callback_dep callback
- );
-
-EXTERN cy_as_return_status_t
-cy_as_storage_sd_register_read_dep(
- cy_as_device_handle handle,
- cy_as_media_type type,
- uint8_t device,
- cy_as_sd_card_reg_type reg_type,
- uint8_t read_len,
- uint8_t *data_p
- );
-
-EXTERN cy_as_return_status_t
-cy_as_storage_sd_register_read_dep_EX(
- /* Handle to the West Bridge device. */
- cy_as_device_handle handle,
- /* The type of media to query */
- cy_as_media_type type,
- /* The device to query */
- uint8_t device,
- /* The type of register to read. */
- cy_as_sd_card_reg_type reg_type,
- /* Output data buffer and length. */
- cy_as_storage_sd_reg_read_data *data_p,
- /* Callback function to call when done. */
- cy_as_function_callback cb,
- /* Call context to send to the cb function. */
- uint32_t client
- );
-
-EXTERN cy_as_return_status_t
-cy_as_storage_create_p_partition_dep(
- cy_as_device_handle handle,
- cy_as_media_type media,
- uint32_t device,
- uint32_t size,
- cy_as_function_callback cb,
- uint32_t client);
-
-EXTERN cy_as_return_status_t
-cy_as_storage_remove_p_partition_dep(
- cy_as_device_handle handle,
- cy_as_media_type media,
- uint32_t device,
- cy_as_function_callback cb,
- uint32_t client);
-
-#endif /*__doxygen*/
-
-#endif /*__INCLUDED_CYANSTORAGE_DEP_H__*/
+++ /dev/null
-/* Cypress West Bridge API header file (cyastioch.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASTORIA_H_
-#define _INCLUDED_CYASTORIA_H_
-
-#if !defined(__doxygen__)
-
-#include "cyaserr.h"
-#include "cyasmisc.h"
-#include "cyasstorage.h"
-#include "cyasusb.h"
-#include "cyasmtp.h"
-
-#endif
-
-#endif
-
+++ /dev/null
-/* Cypress Astoria Sdk Version file (cyastsdkversion.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street, Fifth Floor
-## Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASTSDK_VERSION_H_
-#define _INCLUDED_CYASTSDK_VERSION_H_
-
-/* Astoria SDK version 1.2.1 */
-#define CYAS_MAJOR_VERSION (1)
-#define CYAS_MINOR_VERSION (2)
-#define CYAS_BUILD_NUMBER (197)
-
-#endif /*_INCLUDED_CYASTSDK_VERSION_H_*/
+++ /dev/null
-/* Cypress West Bridge API header file (cyastypes.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASTYPES_H_
-#define _INCLUDED_CYASTYPES_H_
-/* moved to staging location, eventual implementation
- * considered is here
-#include <mach/westbridge/cyashaldef.h>
-*/
- #include "../../../arch/arm/plat-omap/include/mach/westbridge/cyashaldef.h"
-
-/* Types that are not available on specific platforms.
- * These are used only in the reference HAL implementations and
- * are not required for using the API.
- */
-#ifdef __unix__
-typedef unsigned long DWORD;
-typedef void *LPVOID;
-#define WINAPI
-#define INFINITE (0xFFFFFFFF)
-#define ptr_to_uint(ptr) ((unsigned int)(ptr))
-#endif
-
-/* Basic types used by the entire API */
-
-/* Summary
- This type represents an endpoint number
-*/
-typedef uint8_t cy_as_end_point_number_t;
-
-/* Summary
- This type is used to return status information from
- an API call.
-*/
-typedef uint16_t cy_as_return_status_t;
-
-/* Summary
- This type represents a bus number
-*/
-typedef uint32_t cy_as_bus_number_t;
-
-/* Summary
- All APIs provided with this release are marked extern
- through this definition. This definition can be changed
- to meet the scope changes required in the user build
- environment.
-
- For example, this can be changed to __declspec(exportdll)
- to enable exporting the API from a DLL.
- */
-#define EXTERN extern
-
-#endif
+++ /dev/null
-/* Cypress West Bridge API header file (cyasusb.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-#ifndef _INCLUDED_CYASUSB_H_
-#define _INCLUDED_CYASUSB_H_
-
-#include "cyasmisc.h"
-
-#include "cyas_cplus_start.h"
-
-/*@@Enumeration Model
- Summary
- The USB enumeration process is the process of communicating
- to the USB host information
- about the capabilities of the connected device. This
- process is completed by servicing
- requests for various types of descriptors. In the software
- APIs described below, this
- process is controlled in one of two ways.
-
- Description
- There are advantages to either type of enumeration
- and this is why both models are supported.
- P Port processor based enumeraton gives the P port
- processor maximum control and flexibility
- for providing USB configuration information. However,
- this does require (near) real time data
- responses from the P port processor during the enumeration
- process. West Bridge based enumeration
- requires no real time information from the P port processor,
- ensuring the fastest possible
- enumeration times.
-
- * P Port Based Enumeration *
- The first method for handling USB enumeration is for the
- processor client to handle all
- endpoint zero requests for descriptors. This mode is
- configured by indicating to the API
- that the processor wants to handle all endpoint zero
- requests. This is done by setting
- bit 0 in the end_point_mask to a 1. The processor uses
- CyAsUsbReadDataAsync() to read the request and
- CyAsUsbWriteDataAsync() to write the response.
-
- * West Bridge Based Enumeration *
- The second method for handling USB enumeration is the
- configuration information method.
- Before enabling a connection from the West Bridge device
- to the USB connector, the P Port
- processor sends information about the USB configuration to
- West Bridge through the configuration
- APIs. This information is stored within the West Bridge
- device. When a USB cable is attached,
- the West Bridge device then handles all descriptor requests
- based on the stored information.
- Note that this method of enumeration only supports a single
- USB configuration.
-
- In either model of enumeration, the processor client is
- responsible for ensuring that
- the system meets USB Chapter 9 compliance requirements. This
- can be done by providing spec
- compliant descriptors, and handling any setup packets that
- are sent to the client
- appropriately.
-
- Mass storage class compliance will be ensured by the West
- Bridge firmware when the mass
- storage functionality is enabled.
-*/
-
-/*@@Endpoint Configuration
- Summary
- The West Bridge device has one 64-byte control endpoint, one
- 64-byte low bandwidth endpoint, four bulk
- endpoints dedicated for mass storage usage, and up to ten
- bulk/interrupt/isochronous
- endpoints that can be used for USB-to-Processor communication.
-
- Description
- The four storage endpoints (Endpoints 2, 4, 6 and 8) are
- reserved for accessing storage
- devices attached to West Bridge and are not available for use
- by the processor. These are
- used implicitly when using the storage API to read/write to
- the storage media.
-
- Endpoint 0 is the standard USB control pipe used for all
- enumeration activity. Though
- the endpoint buffer is not directly accessible from the
- processor, read/write activity
- can be performed on this endpoint through the API layers.
- This endpoint is always
- configured as a bi-directional control endpoint.
-
- Endpoint 1 is a 64-byte endpoint that can be used for low
- bandwidth bulk/interrupt
- activity. The physical buffer is not accessible from the
- processor, but can be read/written
- through the API. As the data coming to this endpoint is
- being handled through the
- software layers, there can be loss of data if a read call
- is not waiting when an OUT
- packet arrives.
-
- Endpoints 3, 5, 7, 9, 10, 11, 12, 13, 14 and 15 are ten
- configurable endpoints
- mapped to parts of a total 4 KB FIFO buffer space on the
- West Bridge device. This 4 KB
- physical buffer space is divided into up to four endpoints
- called PEP1, PEP2, PEP3 and PEP4
- in this software document. There are multiple configurations
- in which this buffer space
- can be used, and the size and number of buffers available to
- each physical endpoint
- vary between these configurations. See the West Bridge PDD
- for details on the buffer
- orientation corresponding to each configuration.
-
- * Note *
- PEPs 1, 2, 3 and 4 are called Physical EP 3, 5, 7 and 9 in the
- West Bridge PDD. The
- sequential number scheme is used in the software to disambiguate
- these from the logical
- endpoint numbers, and also for convenience of array indexing.
-*/
-
-#if !defined(__doxygen__)
-
-
-#endif
-
-/* Summary
- This constants defines the maximum size of a USB descriptor
- when referenced via the CyAsUsbSetDescriptor or
- CyAsUsbGetDescriptor functions.
-
- See Also
- * CyAsUsbSetDescriptor
- * CyAsUsbGetDescriptor
-*/
-#define CY_AS_MAX_USB_DESCRIPTOR_SIZE (128)
-
-/***************************************
- * West Bridge Types
- ***************************************/
-
-
-/* Summary
- This data structure is the data passed via the evdata paramater
- on a usb event callback for the inquiry request.
-
- Description
- When a SCSI inquiry request arrives via the USB connection and
- the P Port has asked
- to receive inquiry requests, this request is forwarded to the
- client via the USB
- callback. This callback is called twice, once before the
- inquiry data is forwarded
- to the host (CyAsEventUsbInquiryBefore) and once after the
- inquiry has been sent to the
- USB host (CyAsEventUsbInquiryAfter). The evdata parameter
- is a pointer to this data
- structure.
-
- *CyAsEventUsbInquiryBefore*
- If the client just wishes to see the inquiry request and
- associated data, then a simple
- return from the callback will forward the inquiry response
- to the USB host. If the
- client wishes to change the data returned to the USB host,
- the updated parameter must
- be set to CyTrue and the memory area address by the data
- parameter should be updated.
- The data pointer can be changed to point to a new memory
- area and the length field
- changed to change the amount of data returned from the
- inquiry request. Note that the
- data area pointed to by the data parameter must remain
- valid and the contents must
- remain consistent until after the CyAsEventUsbInquiryAfter
- event has occurred. THE LENGTH
- MUST BE LESS THAN 192 BYTES OR THE CUSTOM INQUIRY RESPONSE
- WILL NOT BE RETURNED. If the
- length is too long, the default inquiry response will be
- returned.
-
- *CyAsEventUsbInquiryAfter*
- If the client needs to free any data, this event signals that
- the data associated with the inquiry is no longer needed.
-
- See Also
- * CyAsUsbEventCallback
- * CyAsUsbRegisterCallback
-*/
-typedef struct cy_as_usb_inquiry_data {
- /* The bus for the event */
- cy_as_bus_number_t bus;
- /* The device the event */
- uint32_t device;
- /* The EVPD bit from the SCSI INQUIRY request */
- uint8_t evpd;
- /* The codepage in the inquiry request */
- uint8_t codepage;
- /* This bool must be set to CyTrue indicate that the inquiry
- data was changed */
- cy_bool updated;
- /* The length of the data */
- uint16_t length;
- /* The inquiry data */
- void *data;
-} cy_as_usb_inquiry_data;
-
-
-/* Summary
- This data structure is the data passed via the evdata
- parameter on a usb event
- callback for the unknown mass storage request.
-
- Description
- When a SCSI request is made that the mass storage
- firmware in West Bridge does not
- know how to process, this request is passed to the
- processor for handling via
- the usb callback. This data structure is used to
- pass the request and the
- associated response. The user may set the status
- to indicate the status of the
- request. The status value is the bCSWStatus value
- from the USB mass storage
- Command Status Wrapper (0 = command passed, 1 =
- command failed). If the status
- is set to command failed (1), the sense information
- should be set as well. For
- more information about sense information, see the
- USB mass storage specification
- as well as the SCSI specifications for block devices.
- By default the status is
- initialized to 1 (failure) with a sense information
- of 05h/20h/00h which
- indicates INVALID COMMAND.
-*/
-typedef struct cy_as_usb_unknown_command_data {
- /* The bus for the event */
- cy_as_bus_number_t bus;
- /* The device for the event */
- uint32_t device;
-
- uint16_t reqlen;
- /* The request */
- void *request;
-
- /* The returned status value for the command */
- uint8_t status;
- /* If status is failed, the sense key */
- uint8_t key;
- /* If status is failed, the additional sense code */
- uint8_t asc;
- /* If status if failed, the additional sense code qualifier */
- uint8_t ascq;
-} cy_as_usb_unknown_command_data;
-
-
-/* Summary
- This data structure is the data passed via the evdata
- paramater on a usb event callback for the start/stop request.
-
- Description
- When a SCSI start stop request arrives via the USB connection
- and the P Port has asked
-
- See Also
- * CyAsUsbEventCallback
- * CyAsUsbRegisterCallback
-*/
-typedef struct cy_as_usb_start_stop_data {
- /* The bus for the event */
- cy_as_bus_number_t bus;
- /* The device for the event */
- uint32_t device;
- /* CyTrue means start request, CyFalse means stop request */
- cy_bool start;
- /* CyTrue means LoEj bit set, otherwise false */
- cy_bool loej;
-} cy_as_usb_start_stop_data;
-
-/* Summary
- This data type is used to indicate which mass storage devices
- are enumerated.
-
- Description
-
- See Also
- * CyAsUsbEnumControl
- * CyAsUsbSetEnumConfig
-*/
-typedef enum cy_as_usb_mass_storage_enum {
- cy_as_usb_nand_enum = 0x01,
- cy_as_usb_sd_enum = 0x02,
- cy_as_usb_mmc_enum = 0x04,
- cy_as_usb_ce_ata_enum = 0x08
-} cy_as_usb_mass_storage_enum;
-
-/* Summary
- This data type specifies the type of descriptor to transfer
- to the West Bridge device
-
- Description
- During enumeration, if West Bridge is handling enumeration,
- the West Bridge device needs to USB descriptors
- to complete the enumeration. The function CyAsUsbSetDescriptor()
- is used to transfer the descriptors
- to the West Bridge device. This type is an argument to that
- function and specifies which descriptor
- is being transferred.
-
- See Also
- * CyAsUsbSetDescriptor
- * CyAsUsbGetDescriptor
-*/
-typedef enum cy_as_usb_desc_type {
- /* A device descriptor - See USB 2.0 specification Chapter 9 */
- cy_as_usb_desc_device = 1,
- /* A device descriptor qualifier -
- * See USB 2.0 specification Chapter 9 */
- cy_as_usb_desc_device_qual = 2,
- /* A configuration descriptor for FS operation -
- * See USB 2.0 specification Chapter 9 */
- cy_as_usb_desc_f_s_configuration = 3,
- /* A configuration descriptor for HS operation -
- * See USB 2.0 specification Chapter 9 */
- cy_as_usb_desc_h_s_configuration = 4,
- cy_as_usb_desc_string = 5
-} cy_as_usb_desc_type;
-
-/* Summary
- This type specifies the direction of an endpoint
-
- Description
- This type is used when configuring the endpoint hardware
- to specify the direction
- of the endpoint.
-
- See Also
- * CyAsUsbEndPointConfig
- * CyAsUsbSetEndPointConfig
- * CyAsUsbGetEndPointConfig
-*/
-typedef enum cy_as_usb_end_point_dir {
- /* The endpoint direction is IN (West Bridge -> USB Host) */
- cy_as_usb_in = 0,
- /* The endpoint direction is OUT (USB Host -> West Bridge) */
- cy_as_usb_out = 1,
- /* The endpoint direction is IN/OUT (valid only for EP 0 & 1) */
- cy_as_usb_in_out = 2
-} cy_as_usb_end_point_dir;
-
-/* Summary
- This type specifies the type of an endpoint
-
- Description
- This type is used when configuring the endpoint hardware
- to specify the type of endpoint.
-
- See Also
- * CyAsUsbEndPointConfig
- * CyAsUsbSetEndPointConfig
- * CyAsUsbGetEndPointConfig
-*/
-typedef enum cy_as_usb_end_point_type {
- cy_as_usb_control,
- cy_as_usb_iso,
- cy_as_usb_bulk,
- cy_as_usb_int
-} cy_as_usb_end_point_type;
-
-/* Summary
- This type is a structure used to indicate the top level
- configuration of the USB stack
-
- Description
- In order to configure the USB stack, the CyAsUsbSetEnumConfig()
- function is called to indicate
- how mass storage is to be handled, the specific number of
- interfaces to be supported if
- West Bridge is handling enumeration, and the end points of
- specifi interest. This structure
- contains this information.
-
- See Also
- * CyAsUsbSetConfig
- * CyAsUsbGetConfig
- * <LINK Enumeration Model>
-*/
-typedef struct cy_as_usb_enum_control {
- /* Designate which devices on which buses to enumerate */
- cy_bool devices_to_enumerate[CY_AS_MAX_BUSES]
- [CY_AS_MAX_STORAGE_DEVICES];
- /* If true, West Bridge will control enumeration. If this
- * is false the P port controls enumeration. if the P port
- * is controlling enumeration, traffic will be received via
- * endpoint zero. */
- cy_bool antioch_enumeration;
- /* This is the interface # to use for the mass storage
- * interface, if mass storage is enumerated. if mass
- * storage is not enumerated this value should be zero. */
- uint8_t mass_storage_interface;
- /* This is the interface # to use for the MTP interface,
- * if MTP is enumerated. if MTP is not enumerated
- * this value should be zero. */
- uint8_t mtp_interface;
- /* If true, Inquiry, START/STOP, and unknown mass storage
- * requests cause a callback to occur for handling by the
- * baseband processor. */
- cy_bool mass_storage_callbacks;
-} cy_as_usb_enum_control;
-
-
-/* Summary
- This structure is used to configure a single endpoint
-
- Description
- This data structure contains all of the information required
- to configure the West Bridge hardware
- associated with a given endpoint.
-
- See Also
- * CyAsUsbSetEndPointConfig
- * CyAsUsbGetEndPointConfig
-*/
-typedef struct cy_as_usb_end_point_config {
- /* If true, this endpoint is enabled */
- cy_bool enabled;
- /* The direction of this endpoint */
- cy_as_usb_end_point_dir dir;
- /* The type of endpoint */
- cy_as_usb_end_point_type type;
- /* The physical endpoint #, 1, 2, 3, 4 */
- cy_as_end_point_number_t physical;
- /* The size of the endpoint in bytes */
- uint16_t size;
-} cy_as_usb_end_point_config;
-
-/* Summary
- List of partition enumeration combinations that can
- be selected on a partitioned storage device.
-
- Description
- West Bridge firmware supports creating up to two
- partitions on mass storage devices connected to
- West Bridge. When there are two partitions on a device,
- the user can choose which of these partitions should be
- made visible to a USB host through the mass storage
- interface. This enumeration lists the various enumeration
- selections that can be made.
-
- See Also
- * CyAsStorageCreatePPartition
- * CyAsStorageRemovePPartition
- * CyAsUsbSelectMSPartitions
- */
-typedef enum cy_as_usb_m_s_type_t {
- /* Enumerate only partition 0 as CD (autorun) device */
- cy_as_usb_m_s_unit0 = 0,
- /* Enumerate only partition 1 as MS device (default setting) */
- cy_as_usb_m_s_unit1,
- /* Enumerate both units */
- cy_as_usb_m_s_both
-} cy_as_usb_m_s_type_t;
-
-/* Summary
- This type specifies the type of USB event that has occurred
-
- Description
- This type is used in the USB event callback function to
- indicate the type of USB event that has occurred. The callback
- function includes both this reasons for the callback and a data
- parameter associated with the reason. The data parameter is used
- in a reason specific way and is documented below with each reason.
-
- See Also
- * CyAsUsbIoCallback
-*/
-typedef enum cy_as_usb_event {
- /* This event is sent when West Bridge is put into the suspend
- state by the USB host. the data parameter is not used and
- will be zero. */
- cy_as_event_usb_suspend,
- /* This event is sent when West Bridge is taken out of the
- suspend state by the USB host. the data parameter is not
- used and will be zero. */
- cy_as_event_usb_resume,
- /* This event is sent when a USB reset request is received
- by the west bridge device. the data parameter is not used and
- will be zero. */
- cy_as_event_usb_reset,
- /* This event is sent when a USB set configuration request is made.
- the data parameter is a pointer to a uint16_t that contains the
- configuration number. the configuration number may be zero to
- indicate an unconfigure operation. */
- cy_as_event_usb_set_config,
- /* This event is sent when the USB connection changes speed. This is
- generally a transition from full speed to high speed. the parameter
- to this event is a pointer to uint16_t that gives the speed of the
- USB connection. zero indicates full speed, one indicates high speed */
- cy_as_event_usb_speed_change,
- /* This event is sent when a setup packet is received.
- * The data parameter is a pointer to the eight bytes of setup data. */
- cy_as_event_usb_setup_packet,
- /* This event is sent when a status packet is received. The data
- parameter is not used. */
- cy_as_event_usb_status_packet,
- /* This event is sent when mass storage receives an inquiry
- request and we have asked to see these requests. */
- cy_as_event_usb_inquiry_before,
- /* This event is sent when mass storage has finished processing an
- inquiry request and any data associated with the request is no longer
- required. */
- cy_as_event_usb_inquiry_after,
- /* This event is sent when mass storage receives a start/stop
- * request and we have asked to see these requests */
- cy_as_event_usb_start_stop,
- /* This event is sent when a Clear Feature request is received.
- * The data parameter is the endpoint number. */
- cy_as_event_usb_clear_feature,
- /* This event is sent when mass storage receives a request
- * that is not known and we have asked to see these requests */
- cy_as_event_usb_unknown_storage,
- /* This event is sent when the read/write activity on the USB mass
- storage has crossed a pre-set level */
- cy_as_event_usb_m_s_c_progress
-} cy_as_usb_event;
-
-/* Summary
- This type is the type of a callback function that is
- called when a USB event occurs
-
- Description
- At times West Bridge needs to inform the P port processor
- of events that have
- occurred. These events are asynchronous to the thread of
- control on the P
- port processor and as such are generally delivered via a
- callback function that
- is called as part of an interrupt handler. This type
- defines the type of function
- that must be provided as a callback function for USB events.
-
- See Also
- * CyAsUsbEvent
-*/
-typedef void (*cy_as_usb_event_callback)(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* The event type being reported */
- cy_as_usb_event ev,
- /* The data assocaited with the event being reported */
- void *evdata
-);
-
-
-/* Summary
- This type is the callback function called after an
- asynchronous USB read/write operation
-
- Description
- This function type defines a callback function that is
- called at the completion of any
- asynchronous read or write operation.
-
- See Also
- * CyAsUsbReadDataAsync
- * CyAsUsbWriteDataAsync
- * CY_AS_ERROR_CANCELED
-*/
-typedef void (*cy_as_usb_io_callback)(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* The endpoint that has completed an operation */
- cy_as_end_point_number_t ep,
- /* THe amount of data transferred to/from USB */
- uint32_t count,
- /* The data buffer for the operation */
- void *buffer,
- /* The error status of the operation */
- cy_as_return_status_t status
-);
-
-/* Summary
- This type is the callback function called after asynchronous
- API functions have completed.
-
- Description
- When calling API functions from callback routines (interrupt
- handlers usually) the async version of
- these functions must be used. This callback is called when an
- asynchronous API function has completed.
-*/
-typedef void (*cy_as_usb_function_callback)(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* The error status of the operation */
- cy_as_return_status_t status,
- /* A client supplied 32 bit tag */
- uint32_t client
-);
-
-
-/********************************************
- * West Bridge Functions
- ********************************************/
-
-/* Summary
- This function starts the USB stack
-
- Description
- This function initializes the West Bridge USB software
- stack if it has not yet been stared.
- This initializes any required data structures and powers
- up any USB specific portions of
- the West Bridge hardware. If the stack had already been
- started, the USB stack reference count
- is incremented.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Notes
- This function cannot be called from any type of West Bridge
- callback.
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_SUCCESS - the stack initialized and is ready
- * for use
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating
- * with the West Bridge device
-
- See Also
- * CyAsUsbStop
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_start(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-/* Summary
- This function stops the USB stack
-
- Description
- This function decrements the reference count for
- the USB stack and if this count
- is zero, the USB stack is shut down. The shutdown
- frees all resources associated
- with the USB stack.
-
- * Valid In Asynchronous Callback: NO
-
- Notes
- While all resources associated with the USB stack will
- be freed is a shutdown occurs,
- resources associated with underlying layers of the software
- will not be freed if they
- are shared by the storage stack and the storage stack is active.
- Specifically the DMA manager,
- the interrupt manager, and the West Bridge communications module
- are all shared by both the
- USB stack and the storage stack.
-
- Returns
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_SUCCESS - this module was shut down successfully
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
-
- See Also
- * CyAsUsbStart
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_stop(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-/* Summary
- This function registers a callback function to be called when an
- asynchronous USB event occurs
-
- Description
- When asynchronous USB events occur, a callback function can be
- called to alert the calling program. This
- functions allows the calling program to register a callback.
-
- * Valid In Asynchronous Callback: YES
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_register_callback(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The function to call */
- cy_as_usb_event_callback callback
- );
-
-
-/* Summary
- This function connects the West Bridge device D+ and D- signals
- physically to the USB host.
-
- Description
- The West Bridge device has the ability to programmatically
- disconnect the USB pins on the device
- from the USB host. This feature allows for re-enumeration of
- the West Bridge device as a different
- device when necessary. This function connects the D+ and D-
- signal physically to the USB host
- if they have been previously disconnected.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - this module was shut down successfully
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
-
- See Also
- * CyAsUsbDisconnect
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_connect(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-/* Summary
- This function disconnects the West Bridge device D+ and D-
- signals physically from the USB host.
-
- Description
- The West Bridge device has the ability to programmatically
- disconnect the USB pins on the device
- from the USB host. This feature allows for re-enumeration
- of the West Bridge device as a different
- device when necessary. This function disconnects the D+
- and D- signal physically from the USB host
- if they have been previously connected.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - this module was shut down successfully
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
-
- See Also
- * CyAsUsbConnect
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_disconnect(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-/* Summary
- This function configures the USB stack
-
- Description
- This function is used to configure the USB stack. It is
- used to indicate which endpoints are going to
- be used, and how to deal with the mass storage USB device
- within West Bridge.
-
- * Valid In Asynchronous Callback: Yes (if cb supplied)
-
- Returns
- * CY_AS_ERROR_SUCCESS - this module was shut down successfully
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
-
- See Also
- * CyAsUsbGetEnumConfig
- * CyAsUsbEnumControl
- */
-EXTERN cy_as_return_status_t
-cy_as_usb_set_enum_config(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The USB configuration information */
- cy_as_usb_enum_control *config_p,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-/* Summary
- This function retreives the current configuration of
- the USB stack
-
- Description
- This function sends a request to West Bridge to retrieve
- the current configuration
-
- * Valid In Asynchronous Callback: Yes (if cb supplied)
-
- Returns
- * CY_AS_ERROR_SUCCESS - this module was shut down successfully
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
-
- See Also
- * CyAsUsbSetConfig
- * CyAsUsbConfig
- */
-EXTERN cy_as_return_status_t
-cy_as_usb_get_enum_config(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The return value for USB congifuration information */
- cy_as_usb_enum_control *config_p,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-/* Summary
- This function sets the USB descriptor
-
- Description
- This function is used to set the various descriptors
- assocaited with the USB enumeration
- process. This function should only be called when the
- West Bridge enumeration model is selected.
- Descriptors set using this function can be cleared by
- stopping the USB stack, or by calling
- the CyAsUsbClearDescriptors function.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Notes
- These descriptors are described in the USB 2.0 specification,
- Chapter 9.
-
- Returns
- * CY_AS_ERROR_SUCCESS - this module was shut down successfully
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_INVALID_DESCRIPTOR - the descriptor passed is
- * not valid
- * CY_AS_ERROR_BAD_INDEX - a bad index was given for the type
- * of descriptor given
- * CY_AS_ERROR_BAD_ENUMERATION_MODE - this function cannot be
- * called if the P port processor doing enumeration
-
- See Also
- * CyAsUsbGetDescriptor
- * CyAsUsbClearDescriptors
- * <LINK Enumeration Model>
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_set_descriptor(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The type of descriptor */
- cy_as_usb_desc_type type,
- /* Only valid for string descriptors */
- uint8_t index,
- /* The descriptor to be transferred */
- void *desc_p,
- /* The length of the descriptor in bytes */
- uint16_t length,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-/* Summary
- This function clears all user descriptors stored
- on the West Bridge.
-
- Description
- This function is used to clear all descriptors that
- were previously
- stored on the West Bridge through CyAsUsbSetDescriptor
- calls, and go back
- to the default descriptor setup in the firmware. This
- function should
- only be called when the Antioch enumeration model is
- selected.
-
- * Valid In Asynchronous Callback: Yes (if cb supplied)
- * Nestable: Yes
-
- Returns
- * CY_AS_ERROR_SUCCESS - all descriptors cleared successfully
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_BAD_ENUMERATION_MODE - this function cannot be
- * called if the P port processor is doing enumeration
-
- See Also
- * CyAsUsbSetDescriptor
- * <LINK Enumeration Model>
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_clear_descriptors(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-/* Summary
- This structure contains the descriptor buffer to be
- filled by CyAsUsbGetDescriptor API.
-
- Description
- This data structure the buffer to hold the descriptor
- data, and an in/out parameter ti indicate the
- length of the buffer and descriptor data in bytes.
-
- See Also
- * CyAsUsbGetDescriptor
-*/
-typedef struct cy_as_get_descriptor_data {
- /* The buffer to hold the returned descriptor */
- void *desc_p;
- /* This is an input and output parameter.
- * Before the code this pointer points to a uint32_t
- * that contains the length of the buffer. after
- * the call, this value contains the amount of data
- * actually returned. */
- uint32_t length;
-
-} cy_as_get_descriptor_data;
-
-/* Summary
- This function retreives a given descriptor from the
- West Bridge device
-
- Description
- This function retreives a USB descriptor from the West
- Bridge device. This function should only be called when the
- West Bridge enumeration model is selected.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Notes
- These descriptors are described in the USB 2.0 specification,
- Chapter 9.
-
- Returns
- * CY_AS_ERROR_SUCCESS - this module was shut down successfully
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_BAD_INDEX - a bad index was given for the type of
- * descriptor given
- * CY_AS_ERROR_BAD_ENUMERATION_MODE - this function cannot be
- * called if the P port processor doing enumeration
-
- See Also
- * CyAsUsbSetDescriptor
- * <LINK Enumeration Model>
-*/
-
-EXTERN cy_as_return_status_t
-cy_as_usb_get_descriptor(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The type of descriptor */
- cy_as_usb_desc_type type,
- /* Index for string descriptor */
- uint8_t index,
- /* Parameters and return value for the get descriptor call */
- cy_as_get_descriptor_data *data,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-/* Summary
- This function sets the configuration of the physical
- endpoints into one of the twelve supported configuration
-
- Description
- USB endpoints are mapped onto one of four physical
- endpoints in the device. Therefore
- USB endpoints are known as logical endpoints and these
- logical endpoints are mapped to
- one of four physical endpoints. In support of these
- four physical endpoints there is
- four kilo-bytes of buffer spaces that can be used as
- buffers for these physical endpoints.
- This 4K of buffer space can be configured in one of
- twelve ways. This function sets the
- buffer configuration for the physical endpoints.
-
- * Config 1: PEP1 (2 * 512), PEP2 (2 * 512),
- * PEP3 (2 * 512), PEP4 (2 * 512)
- * Config 2: PEP1 (2 * 512), PEP2 (2 * 512),
- * PEP3 (4 * 512), PEP4 (N/A)
- * Config 3: PEP1 (2 * 512), PEP2 (2 * 512),
- * PEP3 (2 * 1024), PEP4(N/A)
- * Config 4: PEP1 (4 * 512), PEP2 (N/A),
- * PEP3 (2 * 512), PEP4 (2 * 512)
- * Config 5: PEP1 (4 * 512), PEP2 (N/A),
- * PEP3 (4 * 512), PEP4 (N/A)
- * Config 6: PEP1 (4 * 512), PEP2 (N/A),
- * PEP3 (2 * 1024), PEP4 (N/A)
- * Config 7: PEP1 (2 * 1024), PEP2 (N/A),
- * PEP3 (2 * 512), PEP4 (2 * 512)
- * Config 8: PEP1 (2 * 1024), PEP2 (N/A),
- * PEP3 (4 * 512), PEP4 (N/A)
- * Config 9: PEP1 (2 * 1024), PEP2 (N/A),
- * PEP3 (2 * 1024), PEP4 (N/A)
- * Config 10: PEP1 (3 * 512), PEP2 (N/A),
- * PEP3 (3 * 512), PEP4 (2 * 512)
- * Config 11: PEP1 (3 * 1024), PEP2 (N/A),
- * PEP3 (N/A), PEP4 (2 * 512)
- * Config 12: PEP1 (4 * 1024), PEP2 (N/A),
- * PEP3 (N/A), PEP4 (N/A)
-
- * Valid In Asynchronous Callback: NO
-
- Returns
- * CY_AS_ERROR_SUCCESS - this module was shut down successfully
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_INVALID_CONFIGURATION - the configuration given
- * is not between 1 and 12
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_set_physical_configuration(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The physical endpoint configuration number */
- uint8_t config
- );
-
-/* Summary
- This function sets the hardware configuration for a given endpoint
-
- Description
- This function sets the hardware configuration for a given endpoint.
- This is the method to set the direction of the endpoint, the type
- of endpoint, the size of the endpoint buffer, and the buffering
- style for the endpoint.
-
- * Valid In Asynchronous Callback: NO
-
- Notes
- Add documentation about endpoint configuration limitations
-
- Returns
- * CY_AS_ERROR_SUCCESS - this module was shut down successfully
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_INVALID_ENDPOINT - the endpoint parameter is invalid
- * CY_AS_ERROR_INVALID_CONFIGURATION - the endpoint configuration
- * given is not valid
- * CY_AS_ERROR_ENDPOINT_CONFIG_NOT_SET - the physical endpoint
- * configuration is not set
-
- See Also
- * CyAsUsbGetEndPointConfig
- * CyAsUsbEndPointConfig
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_set_end_point_config(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep,
- /* The configuration information for the endpoint */
- cy_as_usb_end_point_config *config_p
- );
-
-/* Summary
- This function retreives the hardware configuration for
- a given endpoint
-
- Description
- This function gets the hardware configuration for the given
- endpoint. This include information about the direction of
- the endpoint, the type of endpoint, the size of the endpoint
- buffer, and the buffering style for the endpoint.
-
- * Valid In Asynchronous Callback: NO
-
- Returns
- * CY_AS_ERROR_SUCCESS - this module was shut down successfully
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_INVALID_ENDPOINT - the endpoint parameter is
- * invalid
-
- See Also
- * CyAsUsbSetEndPointConfig
- * CyAsUsbEndPointConfig
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_get_end_point_config(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest*/
- cy_as_end_point_number_t ep,
- /* The return value containing the endpoint config
- * information */
- cy_as_usb_end_point_config *config_p
- );
-
-/* Summary
- This function commits the configuration information that
- has previously been set.
-
- Description
- The initialization process involves calling CyAsUsbSetEnumConfig()
- and CyAsUsbSetEndPointConfig(). These
- functions do not actually send the configuration information to
- the West Bridge device. Instead, these
- functions store away the configuration information and this
- CyAsUsbCommitConfig() actually finds the
- best hardware configuration based on the requested endpoint
- configuration and sends this optimal
- confiuration down to the West Bridge device.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - a configuration was found and sent
- * to West Bridge
- * CY_AS_ERROR_NOT_CONFIGURED - the West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - the firmware has not been loaded
- * into West Bridge
- * CY_AS_ERROR_INVALID_CONFIGURATION - the configuration requested
- * is not possible
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
-
- See Also
- * CyAsUsbSetEndPointConfig
- * CyAsUsbSetEnumConfig
-*/
-
-EXTERN cy_as_return_status_t
-cy_as_usb_commit_config(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-/* Summary
- This function reads data from a USB endpoint.
-
- Description
- This function reads data from an OUT. This function blocks
- until the read is complete.
- If this is a packet read, a single received USB packet will
- complete the read. If this
- is not a packet read, this function will block until all of
- the data requested has been
- recevied.
-
- * Valid In Asynchronous Callback: NO
-
- Returns
- * CY_AS_ERROR_SUCCESS - this module was shut down successfully
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_INVALID_ENDPOINT - the endpoint parameter is
- * invalid
-
- See Also
- * CyAsUsbReadDataAsync
- * CyAsUsbWriteData
- * CyAsUsbWriteDataAsync
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_read_data(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep,
- /* If CyTrue, this is a packet read */
- cy_bool pktread,
- /* The amount of data to read */
- uint32_t dsize,
- /* The amount of data read */
- uint32_t *dataread,
- /* The buffer to hold the data read */
- void *data
- );
-
-/* Summary
- This function reads data from a USB endpoint
-
- Description
- This function reads data from an OUT endpoint. This
- function will return immediately and the callback
- provided will be called when the read is complete.
- If this is a packet read, then the callback will be
- called on the next received packet. If this is not a
- packet read, the callback will be called when the
- requested data is received.
-
- * Valid In Asynchronous Callback: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - this module was shut down successfully
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_INVALID_ENDPOINT - the endpoint parameter is
- * invalid
-
- See Also
- * CyAsUsbReadData
- * CyAsUsbWriteData
- * CyAsUsbWriteDataAsync
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_read_data_async(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep,
- /* If CyTrue, this is a packet read */
- cy_bool pktread,
- /* The amount of data to read */
- uint32_t dsize,
- /* The buffer for storing the data */
- void *data,
- /* The callback function to call when the data is read */
- cy_as_usb_io_callback callback
- );
-
-/* Summary
- This function writes data to a USB endpoint
-
- Description
- This function writes data to an IN endpoint data buffer.
- Multiple USB packets may be sent until all data requeste
- has been sent. This function blocks until all of the data
- has been sent.
-
- * Valid In Asynchronous Callback: NO
-
- Notes
- Calling this function with a dsize of zero will result in
- a zero length packet transmitted to the USB host.
-
- Returns
- * CY_AS_ERROR_SUCCESS - this module was shut down successfully
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_INVALID_ENDPOINT - the endpoint parameter is
- * invalid
-
- See Also
- * CyAsUsbReadData
- * CyAsUsbReadDataAsync
- * CyAsUsbWriteDataAsync
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_write_data(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint to write data to */
- cy_as_end_point_number_t ep,
- /* The size of the data to write */
- uint32_t dsize,
- /* The data buffer */
- void *data
- );
-
-/* Summary
- This function writes data to a USB endpoint
-
- Description
- This function writes data to an IN endpoint data buffer.
- This function returns immediately and when the write
- completes, or if an error occurs, the callback function
- is called to indicate completion of the write operation.
-
- * Valid In Asynchronous Callback: YES
-
- Notes
- Calling this function with a dsize of zero will result
- in a zero length packet transmitted to the USB host.
-
- Returns
- * CY_AS_ERROR_SUCCESS - this module was shut down successfully
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_INVALID_ENDPOINT - the endpoint parameter is
- * invalid
-
- See Also
- * CyAsUsbReadData
- * CyAsUsbReadDataAsync
- * CyAsUsbWriteData
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_write_data_async(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint to write data to */
- cy_as_end_point_number_t ep,
- /* The size of the data */
- uint32_t dsize,
- /* The buffer containing the data */
- void *data,
- /* If true, send a short packet to terminate data */
- cy_bool spacket,
- /* The callback to call when the data is written */
- cy_as_usb_io_callback callback
- );
-
-/* Summary
- This function aborts an outstanding asynchronous
- operation on a given endpoint
-
- Description
- This function aborts any outstanding operation that is
- pending on the given endpoint.
-
- * Valid In Asynchronous Callback: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - this module was shut down
- * successfully
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not
- * running
- * CY_AS_ERROR_ASYNC_NOT_PENDING - no asynchronous USB
- * operation was pending
-
- See Also
- * CyAsUsbReadData
- * CyAsUsbReadDataAsync
- * CyAsUsbWriteData
- * CyAsUsbWriteDataAsync
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_cancel_async(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep
- );
-
-/* Summary
- This function sets a stall condition on a given endpoint
-
- Description
- This function sets a stall condition on the given endpoint.
- If the callback function is not zero, the function is
- executed asynchronously and the callback is called when
- the function is completed. If the callback function is
- zero, this function executes synchronously and will not
- return until the function has completed.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - the function succeeded
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_INVALID_ENDPOINT - the endpoint given was invalid,
- * or was not configured as an OUT endpoint
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_INVALID_IN_CALLBACK (only if no cb supplied)
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
-
- See Also
- * CyAsUsbGetStall
- * CyAsUsbClearStall
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_set_stall(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
-);
-
-/* Summary
- This function clears a stall condition on a given endpoint
-
- Description
- This function clears a stall condition on the given endpoint.
- If the callback function is not zero, the function is
- executed asynchronously and the callback is called when the
- function is completed. If the callback function is zero, this
- function executes synchronously and will not return until the
- function has completed.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - the function succeeded
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_INVALID_ENDPOINT - the endpoint given was invalid,
- * or was not configured as an OUT endpoint
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_INVALID_IN_CALLBACK (only if no cb supplied)
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
-
- See Also
- * CyAsUsbGetStall
- * CyAsUsbSetStall
-*/
-
-EXTERN cy_as_return_status_t
-cy_as_usb_clear_stall(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-
-/* Summary
- This function returns the stall status for a given endpoint
-
- Description
- This function returns the stall status for a given endpoint
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - the function succeeded
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_INVALID_ENDPOINT - the endpoint given was invalid,
- * or was not configured as an OUT endpoint
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_INVALID_IN_CALLBACK
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
-
- See Also
- * CyAsUsbGetStall
- * CyAsUsbSetStall
- * CyAsUsbClearStall
-*/
-
-EXTERN cy_as_return_status_t
-cy_as_usb_get_stall(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep,
- /* The return value for the stall state */
- cy_bool *stall_p,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-/* Summary
- This function sets a NAK condition on a given endpoint
-
- Description
- This function sets a NAK condition on the given endpoint.
- If the callback function is not zero, the function is
- executed asynchronously and the callback is called when
- the function is completed. If the callback function is
- zero, this function executes synchronously and will not
- return until the function has completed.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - the function succeeded
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_INVALID_ENDPOINT - the endpoint given was
- * invalid, or was not configured as an OUT endpoint
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_INVALID_IN_CALLBACK (only if no cb supplied)
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
-
- See Also
- * CyAsUsbGetNak
- * CyAsUsbClearNak
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_set_nak(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
-);
-
-/* Summary
- This function clears a NAK condition on a given endpoint
-
- Description
- This function clears a NAK condition on the given endpoint.
- If the callback function is not zero, the function is
- executed asynchronously and the callback is called when the
- function is completed. If the callback function is zero,
- this function executes synchronously and will not return
- until the function has completed.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - the function succeeded
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_INVALID_ENDPOINT - the endpoint given was invalid,
- * or was not configured as an OUT endpoint
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_INVALID_IN_CALLBACK (only if no cb supplied)
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
-
- See Also
- * CyAsUsbGetNak
- * CyAsUsbSetNak
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_clear_nak(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-/* Summary
- This function returns the NAK status for a given endpoint
-
- Description
- This function returns the NAK status for a given endpoint
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - the function succeeded
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_INVALID_ENDPOINT - the endpoint given was invalid,
- * or was not configured as an OUT endpoint
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_INVALID_IN_CALLBACK
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
-
- See Also
- * CyAsUsbSetNak
- * CyAsUsbClearNak
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_get_nak(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep,
- /* The return value for the stall state */
- cy_bool *nak_p,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
-);
-
-/* Summary
- This function triggers a USB remote wakeup from the Processor
- API
-
- Description
- When there is a Suspend condition on the USB bus, this function
- programmatically takes the USB bus out of thi suspend state.
-
- * Valid In Asynchronous Callback: YES (if cb supplied)
- * Nestable: YES
-
- Returns
- * CY_AS_ERROR_SUCCESS - the function succeeded
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_INVALID_HANDLE
- * CY_AS_ERROR_INVALID_IN_CALLBACK
- * CY_AS_ERROR_OUT_OF_MEMORY
- * CY_AS_ERROR_INVALID_RESPONSE
- * CY_AS_ERROR_NOT_IN_SUSPEND
-
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_signal_remote_wakeup(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-/* Summary
- This function sets the threshold levels for mass storage progress
- reports from the West Bridge.
-
- Description
- The West Bridge firmware can be configured to track the amount of
- read/write activity on the mass storage device, and send progress
- reports when the activity level has crossed a threshold level.
- This function sets the threshold levels for the progress reports.
- Set wr_sectors and rd_sectors to 0, if the progress reports are to
- be turned off.
-
- * Valid In Asynchronous Callback: Yes (if cb supplied)
- * Nestable: Yes
-
- Returns
- * CY_AS_ERROR_SUCCESS - the function succeeded
- * CY_AS_ERROR_NOT_RUNNING - the USB stack is not running
- * CY_AS_ERROR_TIMEOUT - a timeout occurred communicating with
- * the West Bridge device
- * CY_AS_ERROR_INVALID_HANDLE - Bad handle
- * CY_AS_ERROR_INVALID_IN_CALLBACK - Synchronous call made
- * while in callback
- * CY_AS_ERROR_OUT_OF_MEMORY - Failed allocating memory for
- * request processing
- * CY_AS_ERROR_NOT_SUPPORTED - Firmware version does not support
- * mass storage progress tracking
- * CY_AS_ERROR_INVALID_RESPONSE - Unexpected response from
- * Firmware
-
- See Also
- * CyAsUsbMSCProgressData
- * CyAsEventUsbMSCProgress
-*/
-EXTERN cy_as_return_status_t
-cy_as_usb_set_m_s_report_threshold(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* Number of sectors written before report is sent */
- uint32_t wr_sectors,
- /* Number of sectors read before report is sent */
- uint32_t rd_sectors,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-/* Summary
- Specify which of the partitions on a partitioned mass storage
- device should be made visible to USB.
-
- Description
- West Bridge firmware supports the creation of up to two
- partitions on mass storage devices connected to the West Bridge
- device. When there are two partitions on a device, the user can
- choose which of these partitions should be made visible to the
- USB host through the USB mass storage interface. This function
- allows the user to configure the partitions that should be
- enumerated. At least one partition should be selected through
- this API. If neither partition needs to be enumerated, use
- CyAsUsbSetEnumConfig to control this.
-
- * Valid in Asynchronous callback: Yes (if cb supplied)
- * Nestable: Yes
-
- Returns
- * CY_AS_ERROR_SUCCESS - operation completed successfully
- * CY_AS_ERROR_INVALID_HANDLE - invalid handle to the West
- * Bridge device
- * CY_AS_ERROR_NOT_CONFIGURED - West Bridge device has not
- * been configured
- * CY_AS_ERROR_NO_FIRMWARE - no firmware running on West
- * Bridge device
- * CY_AS_ERROR_NOT_RUNNING - USB stack has not been started
- * CY_AS_ERROR_IN_SUSPEND - West Bridge device is in
- * suspend mode
- * CY_AS_ERROR_INVALID_CALL_SEQUENCE - this API has to be
- * called before CyAsUsbSetEnumConfig
- * CY_AS_ERROR_OUT_OF_MEMORY - failed to get memory to
- * process the request
- * CY_AS_ERROR_NO_SUCH_UNIT - Storage device addressed has
- * not been partitioned
- * CY_AS_ERROR_NOT_SUPPORTED - operation is not supported by
- * active device/firmware.
-
- See Also
- * CyAsStorageCreatePPartition
- * CyAsStorageRemovePPartition
- * CyAsUsbMsType_t
- */
-EXTERN cy_as_return_status_t
-cy_as_usb_select_m_s_partitions(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* Bus index of the device being addressed */
- cy_as_bus_number_t bus,
- /* Device id of the device being addressed */
- uint32_t device,
- /* Selection of partitions to be enumerated */
- cy_as_usb_m_s_type_t type,
- /* The callback, if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-extern cy_as_media_type
-cy_as_storage_get_media_from_address(uint16_t v);
-
-extern cy_as_bus_number_t
-cy_as_storage_get_bus_from_address(uint16_t v);
-
-extern uint32_t
-cy_as_storage_get_device_from_address(uint16_t v);
-
-/* For supporting deprecated functions */
-#include "cyasusb_dep.h"
-
-#include "cyas_cplus_end.h"
-
-#endif /* _INCLUDED_CYASUSB_H_ */
+++ /dev/null
-/* Cypress West Bridge API header file (cyasusb_dep.h)
-## ===========================
-## Copyright (C) 2010 Cypress Semiconductor
-##
-## This program is free software; you can redistribute it and/or
-## modify it under the terms of the GNU General Public License
-## as published by the Free Software Foundation; either version 2
-## of the License, or (at your option) any later version.
-##
-## This program is distributed in the hope that it will be useful,
-## but WITHOUT ANY WARRANTY; without even the implied warranty of
-## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-## GNU General Public License for more details.
-##
-## You should have received a copy of the GNU General Public License
-## along with this program; if not, write to the Free Software
-## Foundation, Inc., 51 Franklin Street
-## Fifth Floor, Boston, MA 02110-1301, USA.
-## ===========================
-*/
-
-/*
- * This header will contain Antioch specific declaration
- * of the APIs that are deprecated in Astoria SDK. This is
- * for maintaining backward compatibility.
- */
-
-#ifndef __INCLUDED_CYASUSB_DEP_H__
-#define __INCLUDED_CYASUSB_DEP_H__
-
-#ifndef __doxygen__
-
-/*
- This data structure is the data passed via the evdata
- paramater on a usb event callback for the inquiry request.
-*/
-
-typedef struct cy_as_usb_inquiry_data_dep {
- /* The media for the event */
- cy_as_media_type media;
- /* The EVPD bit from the SCSI INQUIRY request */
- uint8_t evpd;
- /* The codepage in the inquiry request */
- uint8_t codepage;
- /* This bool must be set to CyTrue indicate
- * that the inquiry data was changed */
- cy_bool updated;
- /* The length of the data */
- uint16_t length;
- /* The inquiry data */
- void *data;
-} cy_as_usb_inquiry_data_dep;
-
-
-typedef struct cy_as_usb_unknown_command_data_dep {
- /* The media for the event */
- cy_as_media_type media;
- /* The length of the requst (should be 16 bytes) */
- uint16_t reqlen;
- /* The request */
- void *request;
- /* The returned status value for the command */
- uint8_t status;
- /* If status is failed, the sense key */
- uint8_t key;
- /* If status is failed, the additional sense code */
- uint8_t asc;
- /* If status if failed, the additional sense code qualifier */
- uint8_t ascq;
-} cy_as_usb_unknown_command_data_dep;
-
-
-typedef struct cy_as_usb_start_stop_data_dep {
- /* The media type for the event */
- cy_as_media_type media;
- /* CyTrue means start request, CyFalse means stop request */
- cy_bool start;
- /* CyTrue means LoEj bit set, otherwise false */
- cy_bool loej;
-} cy_as_usb_start_stop_data_dep;
-
-
-typedef struct cy_as_usb_enum_control_dep {
- /* The bits in this member determine which mass storage devices
- are enumerated. see cy_as_usb_mass_storage_enum for more details. */
- uint8_t enum_mass_storage;
- /* If true, West Bridge will control enumeration. If this is false the
- pport controls enumeration. if the P port is controlling
- enumeration, traffic will be received via endpoint zero. */
- cy_bool antioch_enumeration;
- /* This is the interface # to use for the mass storage interface,
- if mass storage is enumerated. if mass storage is not enumerated
- this value should be zero. */
- uint8_t mass_storage_interface;
- /* If true, Inquiry, START/STOP, and unknown mass storage
- requests cause a callback to occur for handling by the
- baseband processor. */
- cy_bool mass_storage_callbacks;
-} cy_as_usb_enum_control_dep;
-
-
-typedef void (*cy_as_usb_event_callback_dep)(
- /* Handle to the device to configure */
- cy_as_device_handle handle,
- /* The event type being reported */
- cy_as_usb_event ev,
- /* The data assocaited with the event being reported */
- void *evdata
-);
-
-
-
-/* Register Callback api */
-EXTERN cy_as_return_status_t
-cy_as_usb_register_callback_dep(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The function to call */
- cy_as_usb_event_callback_dep callback
- );
-
-
-extern cy_as_return_status_t
-cy_as_usb_set_enum_config_dep(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The USB configuration information */
- cy_as_usb_enum_control_dep *config_p,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-
-extern cy_as_return_status_t
-cy_as_usb_get_enum_config_dep(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The return value for USB congifuration information */
- cy_as_usb_enum_control_dep *config_p,
- /* The callback if async call */
- cy_as_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-extern cy_as_return_status_t
-cy_as_usb_get_descriptor_dep(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The type of descriptor */
- cy_as_usb_desc_type type,
- /* Index for string descriptor */
- uint8_t index,
- /* The buffer to hold the returned descriptor */
- void *desc_p,
- /* This is an input and output parameter. Before the code this pointer
- points to a uint32_t that contains the length of the buffer. after
- the call, this value contains the amount of data actually returned. */
- uint32_t *length_p
- );
-
-extern cy_as_return_status_t
-cy_as_usb_set_stall_dep(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep,
- /* The callback if async call */
- cy_as_usb_function_callback cb,
- /* Client supplied data */
- uint32_t client
-);
-
-EXTERN cy_as_return_status_t
-cy_as_usb_clear_stall_dep(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep,
- /* The callback if async call */
- cy_as_usb_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-EXTERN cy_as_return_status_t
-cy_as_usb_set_nak_dep(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep,
- /* The callback if async call */
- cy_as_usb_function_callback cb,
- /* Client supplied data */
- uint32_t client
-);
-
-EXTERN cy_as_return_status_t
-cy_as_usb_clear_nak_dep(
- /* Handle to the West Bridge device */
- cy_as_device_handle handle,
- /* The endpoint of interest */
- cy_as_end_point_number_t ep,
- /* The callback if async call */
- cy_as_usb_function_callback cb,
- /* Client supplied data */
- uint32_t client
- );
-
-EXTERN cy_as_return_status_t
-cy_as_usb_select_m_s_partitions_dep(
- cy_as_device_handle handle,
- cy_as_media_type media,
- uint32_t device,
- cy_as_usb_m_s_type_t type,
- cy_as_function_callback cb,
- uint32_t client
- );
-
-#endif /*__doxygen*/
-
-#endif /*__INCLUDED_CYANSTORAGE_DEP_H__*/