From: Omar Ramirez Luna Date: Wed, 23 Jun 2010 13:01:56 +0000 (+0300) Subject: staging: ti dspbridge: add core driver sources X-Git-Url: https://git.karo-electronics.de/?a=commitdiff_plain;h=999e07d63289f7a401972cf390f569ffcd3d3a7b;p=linux-beck.git staging: ti dspbridge: add core driver sources Add TI's DSP Bridge core driver sources Signed-off-by: Omar Ramirez Luna Signed-off-by: Kanigeri, Hari Signed-off-by: Ameya Palande Signed-off-by: Guzman Lugo, Fernando Signed-off-by: Hebbar, Shivananda Signed-off-by: Ramos Falcon, Ernesto Signed-off-by: Felipe Contreras Signed-off-by: Anna, Suman Signed-off-by: Gupta, Ramesh Signed-off-by: Gomez Castellanos, Ivan Signed-off-by: Andy Shevchenko Signed-off-by: Armando Uribe De Leon Signed-off-by: Deepak Chitriki Signed-off-by: Menon, Nishanth Signed-off-by: Phil Carmody Signed-off-by: Ohad Ben-Cohen Signed-off-by: Greg Kroah-Hartman --- diff --git a/drivers/staging/tidspbridge/core/_cmm.h b/drivers/staging/tidspbridge/core/_cmm.h new file mode 100644 index 000000000000..7660bef6ebb3 --- /dev/null +++ b/drivers/staging/tidspbridge/core/_cmm.h @@ -0,0 +1,45 @@ +/* + * _cmm.h + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Private header file defining CMM manager objects and defines needed + * by IO manager to register shared memory regions when DSP base image + * is loaded(bridge_io_on_loaded). + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +#ifndef _CMM_ +#define _CMM_ + +/* + * These target side symbols define the beginning and ending addresses + * of the section of shared memory used for shared memory manager CMM. + * They are defined in the *cfg.cmd file by cdb code. + */ +#define SHM0_SHARED_BASE_SYM "_SHM0_BEG" +#define SHM0_SHARED_END_SYM "_SHM0_END" +#define SHM0_SHARED_RESERVED_BASE_SYM "_SHM0_RSVDSTRT" + +/* + * Shared Memory Region #0(SHMSEG0) is used in the following way: + * + * |(_SHM0_BEG) | (_SHM0_RSVDSTRT) | (_SHM0_END) + * V V V + * ------------------------------------------------------------ + * | DSP-side allocations | GPP-side allocations | + * ------------------------------------------------------------ + * + * + */ + +#endif /* _CMM_ */ diff --git a/drivers/staging/tidspbridge/core/_deh.h b/drivers/staging/tidspbridge/core/_deh.h new file mode 100644 index 000000000000..8da2212e4083 --- /dev/null +++ b/drivers/staging/tidspbridge/core/_deh.h @@ -0,0 +1,35 @@ +/* + * _deh.h + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Private header for DEH module. + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +#ifndef _DEH_ +#define _DEH_ + +#include +#include + +/* DEH Manager: only one created per board: */ +struct deh_mgr { + struct bridge_dev_context *hbridge_context; /* Bridge context. */ + struct ntfy_object *ntfy_obj; /* NTFY object */ + struct dsp_errorinfo err_info; /* DSP exception info. */ + + /* MMU Fault DPC */ + struct tasklet_struct dpc_tasklet; +}; + +#endif /* _DEH_ */ diff --git a/drivers/staging/tidspbridge/core/_msg_sm.h b/drivers/staging/tidspbridge/core/_msg_sm.h new file mode 100644 index 000000000000..556de5c025dd --- /dev/null +++ b/drivers/staging/tidspbridge/core/_msg_sm.h @@ -0,0 +1,142 @@ +/* + * _msg_sm.h + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Private header file defining msg_ctrl manager objects and defines needed + * by IO manager. + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +#ifndef _MSG_SM_ +#define _MSG_SM_ + +#include +#include + +/* + * These target side symbols define the beginning and ending addresses + * of the section of shared memory used for messages. They are + * defined in the *cfg.cmd file by cdb code. + */ +#define MSG_SHARED_BUFFER_BASE_SYM "_MSG_BEG" +#define MSG_SHARED_BUFFER_LIMIT_SYM "_MSG_END" + +#ifndef _CHNL_WORDSIZE +#define _CHNL_WORDSIZE 4 /* default _CHNL_WORDSIZE is 2 bytes/word */ +#endif + +/* + * ======== msg_ctrl ======== + * There is a control structure for messages to the DSP, and a control + * structure for messages from the DSP. The shared memory region for + * transferring messages is partitioned as follows: + * + * ---------------------------------------------------------- + * |Control | Messages from DSP | Control | Messages to DSP | + * ---------------------------------------------------------- + * + * msg_ctrl control structure for messages to the DSP is used in the following + * way: + * + * buf_empty - This flag is set to FALSE by the GPP after it has output + * messages for the DSP. The DSP host driver sets it to + * TRUE after it has copied the messages. + * post_swi - Set to 1 by the GPP after it has written the messages, + * set the size, and set buf_empty to FALSE. + * The DSP Host driver uses SWI_andn of the post_swi field + * when a host interrupt occurs. The host driver clears + * this after posting the SWI. + * size - Number of messages to be read by the DSP. + * + * For messages from the DSP: + * buf_empty - This flag is set to FALSE by the DSP after it has output + * messages for the GPP. The DPC on the GPP sets it to + * TRUE after it has copied the messages. + * post_swi - Set to 1 the DPC on the GPP after copying the messages. + * size - Number of messages to be read by the GPP. + */ +struct msg_ctrl { + u32 buf_empty; /* to/from DSP buffer is empty */ + u32 post_swi; /* Set to "1" to post msg_ctrl SWI */ + u32 size; /* Number of messages to/from the DSP */ + u32 resvd; +}; + +/* + * ======== msg_mgr ======== + * The msg_mgr maintains a list of all MSG_QUEUEs. Each NODE object can + * have msg_queue to hold all messages that come up from the corresponding + * node on the DSP. The msg_mgr also has a shared queue of messages + * ready to go to the DSP. + */ +struct msg_mgr { + /* The first field must match that in msgobj.h */ + + /* Function interface to Bridge driver */ + struct bridge_drv_interface *intf_fxns; + + struct io_mgr *hio_mgr; /* IO manager */ + struct lst_list *queue_list; /* List of MSG_QUEUEs */ + spinlock_t msg_mgr_lock; /* For critical sections */ + /* Signalled when MsgFrame is available */ + struct sync_object *sync_event; + struct lst_list *msg_free_list; /* Free MsgFrames ready to be filled */ + struct lst_list *msg_used_list; /* MsgFrames ready to go to DSP */ + u32 msgs_pending; /* # of queued messages to go to DSP */ + u32 max_msgs; /* Max # of msgs that fit in buffer */ + msg_onexit on_exit; /* called when RMS_EXIT is received */ +}; + +/* + * ======== msg_queue ======== + * Each NODE has a msg_queue for receiving messages from the + * corresponding node on the DSP. The msg_queue object maintains a list + * of messages that have been sent to the host, but not yet read (MSG_Get), + * and a list of free frames that can be filled when new messages arrive + * from the DSP. + * The msg_queue's hSynEvent gets posted when a message is ready. + */ +struct msg_queue { + struct list_head list_elem; + struct msg_mgr *hmsg_mgr; + u32 max_msgs; /* Node message depth */ + u32 msgq_id; /* Node environment pointer */ + struct lst_list *msg_free_list; /* Free MsgFrames ready to be filled */ + /* Filled MsgFramess waiting to be read */ + struct lst_list *msg_used_list; + void *arg; /* Handle passed to mgr on_exit callback */ + struct sync_object *sync_event; /* Signalled when message is ready */ + struct sync_object *sync_done; /* For synchronizing cleanup */ + struct sync_object *sync_done_ack; /* For synchronizing cleanup */ + struct ntfy_object *ntfy_obj; /* For notification of message ready */ + bool done; /* TRUE <==> deleting the object */ + u32 io_msg_pend; /* Number of pending MSG_get/put calls */ +}; + +/* + * ======== msg_dspmsg ======== + */ +struct msg_dspmsg { + struct dsp_msg msg; + u32 msgq_id; /* Identifies the node the message goes to */ +}; + +/* + * ======== msg_frame ======== + */ +struct msg_frame { + struct list_head list_elem; + struct msg_dspmsg msg_data; +}; + +#endif /* _MSG_SM_ */ diff --git a/drivers/staging/tidspbridge/core/_tiomap.h b/drivers/staging/tidspbridge/core/_tiomap.h new file mode 100644 index 000000000000..bf0164ed9aaf --- /dev/null +++ b/drivers/staging/tidspbridge/core/_tiomap.h @@ -0,0 +1,377 @@ +/* + * _tiomap.h + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Definitions and types private to this Bridge driver. + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +#ifndef _TIOMAP_ +#define _TIOMAP_ + +#include +#include +#include +#include +#include +#include +#include /* for bridge_ioctl_extproc defn */ +#include +#include + +struct map_l4_peripheral { + u32 phys_addr; + u32 dsp_virt_addr; +}; + +#define ARM_MAILBOX_START 0xfffcf000 +#define ARM_MAILBOX_LENGTH 0x800 + +/* New Registers in OMAP3.1 */ + +#define TESTBLOCK_ID_START 0xfffed400 +#define TESTBLOCK_ID_LENGTH 0xff + +/* ID Returned by OMAP1510 */ +#define TBC_ID_VALUE 0xB47002F + +#define SPACE_LENGTH 0x2000 +#define API_CLKM_DPLL_DMA 0xfffec000 +#define ARM_INTERRUPT_OFFSET 0xb00 + +#define BIOS24XX + +#define L4_PERIPHERAL_NULL 0x0 +#define DSPVA_PERIPHERAL_NULL 0x0 + +#define MAX_LOCK_TLB_ENTRIES 15 + +#define L4_PERIPHERAL_PRM 0x48306000 /*PRM L4 Peripheral */ +#define DSPVA_PERIPHERAL_PRM 0x1181e000 +#define L4_PERIPHERAL_SCM 0x48002000 /*SCM L4 Peripheral */ +#define DSPVA_PERIPHERAL_SCM 0x1181f000 +#define L4_PERIPHERAL_MMU 0x5D000000 /*MMU L4 Peripheral */ +#define DSPVA_PERIPHERAL_MMU 0x11820000 +#define L4_PERIPHERAL_CM 0x48004000 /* Core L4, Clock Management */ +#define DSPVA_PERIPHERAL_CM 0x1181c000 +#define L4_PERIPHERAL_PER 0x48005000 /* PER */ +#define DSPVA_PERIPHERAL_PER 0x1181d000 + +#define L4_PERIPHERAL_GPIO1 0x48310000 +#define DSPVA_PERIPHERAL_GPIO1 0x11809000 +#define L4_PERIPHERAL_GPIO2 0x49050000 +#define DSPVA_PERIPHERAL_GPIO2 0x1180a000 +#define L4_PERIPHERAL_GPIO3 0x49052000 +#define DSPVA_PERIPHERAL_GPIO3 0x1180b000 +#define L4_PERIPHERAL_GPIO4 0x49054000 +#define DSPVA_PERIPHERAL_GPIO4 0x1180c000 +#define L4_PERIPHERAL_GPIO5 0x49056000 +#define DSPVA_PERIPHERAL_GPIO5 0x1180d000 + +#define L4_PERIPHERAL_IVA2WDT 0x49030000 +#define DSPVA_PERIPHERAL_IVA2WDT 0x1180e000 + +#define L4_PERIPHERAL_DISPLAY 0x48050000 +#define DSPVA_PERIPHERAL_DISPLAY 0x1180f000 + +#define L4_PERIPHERAL_SSI 0x48058000 +#define DSPVA_PERIPHERAL_SSI 0x11804000 +#define L4_PERIPHERAL_GDD 0x48059000 +#define DSPVA_PERIPHERAL_GDD 0x11805000 +#define L4_PERIPHERAL_SS1 0x4805a000 +#define DSPVA_PERIPHERAL_SS1 0x11806000 +#define L4_PERIPHERAL_SS2 0x4805b000 +#define DSPVA_PERIPHERAL_SS2 0x11807000 + +#define L4_PERIPHERAL_CAMERA 0x480BC000 +#define DSPVA_PERIPHERAL_CAMERA 0x11819000 + +#define L4_PERIPHERAL_SDMA 0x48056000 +#define DSPVA_PERIPHERAL_SDMA 0x11810000 /* 0x1181d000 conflict w/ PER */ + +#define L4_PERIPHERAL_UART1 0x4806a000 +#define DSPVA_PERIPHERAL_UART1 0x11811000 +#define L4_PERIPHERAL_UART2 0x4806c000 +#define DSPVA_PERIPHERAL_UART2 0x11812000 +#define L4_PERIPHERAL_UART3 0x49020000 +#define DSPVA_PERIPHERAL_UART3 0x11813000 + +#define L4_PERIPHERAL_MCBSP1 0x48074000 +#define DSPVA_PERIPHERAL_MCBSP1 0x11814000 +#define L4_PERIPHERAL_MCBSP2 0x49022000 +#define DSPVA_PERIPHERAL_MCBSP2 0x11815000 +#define L4_PERIPHERAL_MCBSP3 0x49024000 +#define DSPVA_PERIPHERAL_MCBSP3 0x11816000 +#define L4_PERIPHERAL_MCBSP4 0x49026000 +#define DSPVA_PERIPHERAL_MCBSP4 0x11817000 +#define L4_PERIPHERAL_MCBSP5 0x48096000 +#define DSPVA_PERIPHERAL_MCBSP5 0x11818000 + +#define L4_PERIPHERAL_GPTIMER5 0x49038000 +#define DSPVA_PERIPHERAL_GPTIMER5 0x11800000 +#define L4_PERIPHERAL_GPTIMER6 0x4903a000 +#define DSPVA_PERIPHERAL_GPTIMER6 0x11801000 +#define L4_PERIPHERAL_GPTIMER7 0x4903c000 +#define DSPVA_PERIPHERAL_GPTIMER7 0x11802000 +#define L4_PERIPHERAL_GPTIMER8 0x4903e000 +#define DSPVA_PERIPHERAL_GPTIMER8 0x11803000 + +#define L4_PERIPHERAL_SPI1 0x48098000 +#define DSPVA_PERIPHERAL_SPI1 0x1181a000 +#define L4_PERIPHERAL_SPI2 0x4809a000 +#define DSPVA_PERIPHERAL_SPI2 0x1181b000 + +#define L4_PERIPHERAL_MBOX 0x48094000 +#define DSPVA_PERIPHERAL_MBOX 0x11808000 + +#define PM_GRPSEL_BASE 0x48307000 +#define DSPVA_GRPSEL_BASE 0x11821000 + +#define L4_PERIPHERAL_SIDETONE_MCBSP2 0x49028000 +#define DSPVA_PERIPHERAL_SIDETONE_MCBSP2 0x11824000 +#define L4_PERIPHERAL_SIDETONE_MCBSP3 0x4902a000 +#define DSPVA_PERIPHERAL_SIDETONE_MCBSP3 0x11825000 + +/* define a static array with L4 mappings */ +static const struct map_l4_peripheral l4_peripheral_table[] = { + {L4_PERIPHERAL_MBOX, DSPVA_PERIPHERAL_MBOX}, + {L4_PERIPHERAL_SCM, DSPVA_PERIPHERAL_SCM}, + {L4_PERIPHERAL_MMU, DSPVA_PERIPHERAL_MMU}, + {L4_PERIPHERAL_GPTIMER5, DSPVA_PERIPHERAL_GPTIMER5}, + {L4_PERIPHERAL_GPTIMER6, DSPVA_PERIPHERAL_GPTIMER6}, + {L4_PERIPHERAL_GPTIMER7, DSPVA_PERIPHERAL_GPTIMER7}, + {L4_PERIPHERAL_GPTIMER8, DSPVA_PERIPHERAL_GPTIMER8}, + {L4_PERIPHERAL_GPIO1, DSPVA_PERIPHERAL_GPIO1}, + {L4_PERIPHERAL_GPIO2, DSPVA_PERIPHERAL_GPIO2}, + {L4_PERIPHERAL_GPIO3, DSPVA_PERIPHERAL_GPIO3}, + {L4_PERIPHERAL_GPIO4, DSPVA_PERIPHERAL_GPIO4}, + {L4_PERIPHERAL_GPIO5, DSPVA_PERIPHERAL_GPIO5}, + {L4_PERIPHERAL_IVA2WDT, DSPVA_PERIPHERAL_IVA2WDT}, + {L4_PERIPHERAL_DISPLAY, DSPVA_PERIPHERAL_DISPLAY}, + {L4_PERIPHERAL_SSI, DSPVA_PERIPHERAL_SSI}, + {L4_PERIPHERAL_GDD, DSPVA_PERIPHERAL_GDD}, + {L4_PERIPHERAL_SS1, DSPVA_PERIPHERAL_SS1}, + {L4_PERIPHERAL_SS2, DSPVA_PERIPHERAL_SS2}, + {L4_PERIPHERAL_UART1, DSPVA_PERIPHERAL_UART1}, + {L4_PERIPHERAL_UART2, DSPVA_PERIPHERAL_UART2}, + {L4_PERIPHERAL_UART3, DSPVA_PERIPHERAL_UART3}, + {L4_PERIPHERAL_MCBSP1, DSPVA_PERIPHERAL_MCBSP1}, + {L4_PERIPHERAL_MCBSP2, DSPVA_PERIPHERAL_MCBSP2}, + {L4_PERIPHERAL_MCBSP3, DSPVA_PERIPHERAL_MCBSP3}, + {L4_PERIPHERAL_MCBSP4, DSPVA_PERIPHERAL_MCBSP4}, + {L4_PERIPHERAL_MCBSP5, DSPVA_PERIPHERAL_MCBSP5}, + {L4_PERIPHERAL_CAMERA, DSPVA_PERIPHERAL_CAMERA}, + {L4_PERIPHERAL_SPI1, DSPVA_PERIPHERAL_SPI1}, + {L4_PERIPHERAL_SPI2, DSPVA_PERIPHERAL_SPI2}, + {L4_PERIPHERAL_PRM, DSPVA_PERIPHERAL_PRM}, + {L4_PERIPHERAL_CM, DSPVA_PERIPHERAL_CM}, + {L4_PERIPHERAL_PER, DSPVA_PERIPHERAL_PER}, + {PM_GRPSEL_BASE, DSPVA_GRPSEL_BASE}, + {L4_PERIPHERAL_SIDETONE_MCBSP2, DSPVA_PERIPHERAL_SIDETONE_MCBSP2}, + {L4_PERIPHERAL_SIDETONE_MCBSP3, DSPVA_PERIPHERAL_SIDETONE_MCBSP3}, + {L4_PERIPHERAL_NULL, DSPVA_PERIPHERAL_NULL} +}; + +/* + * 15 10 0 + * --------------------------------- + * |0|0|1|0|0|0|c|c|c|i|i|i|i|i|i|i| + * --------------------------------- + * | (class) | (module specific) | + * + * where c -> Externel Clock Command: Clk & Autoidle Disable/Enable + * i -> External Clock ID Timers 5,6,7,8, McBSP1,2 and WDT3 + */ + +/* MBX_PM_CLK_IDMASK: DSP External clock id mask. */ +#define MBX_PM_CLK_IDMASK 0x7F + +/* MBX_PM_CLK_CMDSHIFT: DSP External clock command shift. */ +#define MBX_PM_CLK_CMDSHIFT 7 + +/* MBX_PM_CLK_CMDMASK: DSP External clock command mask. */ +#define MBX_PM_CLK_CMDMASK 7 + +/* MBX_PM_MAX_RESOURCES: CORE 1 Clock resources. */ +#define MBX_CORE1_RESOURCES 7 + +/* MBX_PM_MAX_RESOURCES: CORE 2 Clock Resources. */ +#define MBX_CORE2_RESOURCES 1 + +/* MBX_PM_MAX_RESOURCES: TOTAL Clock Reosurces. */ +#define MBX_PM_MAX_RESOURCES 11 + +/* Power Management Commands */ +#define BPWR_DISABLE_CLOCK 0 +#define BPWR_ENABLE_CLOCK 1 + +/* OMAP242x specific resources */ +enum bpwr_ext_clock_id { + BPWR_GP_TIMER5 = 0x10, + BPWR_GP_TIMER6, + BPWR_GP_TIMER7, + BPWR_GP_TIMER8, + BPWR_WD_TIMER3, + BPWR_MCBSP1, + BPWR_MCBSP2, + BPWR_MCBSP3, + BPWR_MCBSP4, + BPWR_MCBSP5, + BPWR_SSI = 0x20 +}; + +static const u32 bpwr_clkid[] = { + (u32) BPWR_GP_TIMER5, + (u32) BPWR_GP_TIMER6, + (u32) BPWR_GP_TIMER7, + (u32) BPWR_GP_TIMER8, + (u32) BPWR_WD_TIMER3, + (u32) BPWR_MCBSP1, + (u32) BPWR_MCBSP2, + (u32) BPWR_MCBSP3, + (u32) BPWR_MCBSP4, + (u32) BPWR_MCBSP5, + (u32) BPWR_SSI +}; + +struct bpwr_clk_t { + u32 clk_id; + enum dsp_clk_id clk; +}; + +static const struct bpwr_clk_t bpwr_clks[] = { + {(u32) BPWR_GP_TIMER5, DSP_CLK_GPT5}, + {(u32) BPWR_GP_TIMER6, DSP_CLK_GPT6}, + {(u32) BPWR_GP_TIMER7, DSP_CLK_GPT7}, + {(u32) BPWR_GP_TIMER8, DSP_CLK_GPT8}, + {(u32) BPWR_WD_TIMER3, DSP_CLK_WDT3}, + {(u32) BPWR_MCBSP1, DSP_CLK_MCBSP1}, + {(u32) BPWR_MCBSP2, DSP_CLK_MCBSP2}, + {(u32) BPWR_MCBSP3, DSP_CLK_MCBSP3}, + {(u32) BPWR_MCBSP4, DSP_CLK_MCBSP4}, + {(u32) BPWR_MCBSP5, DSP_CLK_MCBSP5}, + {(u32) BPWR_SSI, DSP_CLK_SSI} +}; + +/* Interrupt Register Offsets */ +#define INTH_IT_REG_OFFSET 0x00 /* Interrupt register offset */ +#define INTH_MASK_IT_REG_OFFSET 0x04 /* Mask Interrupt reg offset */ + +#define DSP_MAILBOX1_INT 10 +/* + * Bit definition of Interrupt Level Registers + */ + +/* Mail Box defines */ +#define MB_ARM2DSP1_REG_OFFSET 0x00 + +#define MB_ARM2DSP1B_REG_OFFSET 0x04 + +#define MB_DSP2ARM1B_REG_OFFSET 0x0C + +#define MB_ARM2DSP1_FLAG_REG_OFFSET 0x18 + +#define MB_ARM2DSP_FLAG 0x0001 + +#define MBOX_ARM2DSP HW_MBOX_ID0 +#define MBOX_DSP2ARM HW_MBOX_ID1 +#define MBOX_ARM HW_MBOX_U0_ARM +#define MBOX_DSP HW_MBOX_U1_DSP1 + +#define ENABLE true +#define DISABLE false + +#define HIGH_LEVEL true +#define LOW_LEVEL false + +/* Macro's */ +#define REG16(A) (*(reg_uword16 *)(A)) + +#define CLEAR_BIT(reg, mask) (reg &= ~mask) +#define SET_BIT(reg, mask) (reg |= mask) + +#define SET_GROUP_BITS16(reg, position, width, value) \ + do {\ + reg &= ~((0xFFFF >> (16 - (width))) << (position)) ; \ + reg |= ((value & (0xFFFF >> (16 - (width)))) << (position)); \ + } while (0); + +#define CLEAR_BIT_INDEX(reg, index) (reg &= ~(1 << (index))) + +/* This Bridge driver's device context: */ +struct bridge_dev_context { + struct dev_object *hdev_obj; /* Handle to Bridge device object. */ + u32 dw_dsp_base_addr; /* Arm's API to DSP virt base addr */ + /* + * DSP External memory prog address as seen virtually by the OS on + * the host side. + */ + u32 dw_dsp_ext_base_addr; /* See the comment above */ + u32 dw_api_reg_base; /* API mem map'd registers */ + void __iomem *dw_dsp_mmu_base; /* DSP MMU Mapped registers */ + u32 dw_api_clk_base; /* CLK Registers */ + u32 dw_dsp_clk_m2_base; /* DSP Clock Module m2 */ + u32 dw_public_rhea; /* Pub Rhea */ + u32 dw_int_addr; /* MB INTR reg */ + u32 dw_tc_endianism; /* TC Endianism register */ + u32 dw_test_base; /* DSP MMU Mapped registers */ + u32 dw_self_loop; /* Pointer to the selfloop */ + u32 dw_dsp_start_add; /* API Boot vector */ + u32 dw_internal_size; /* Internal memory size */ + + struct omap_mbox *mbox; /* Mail box handle */ + + struct cfg_hostres *resources; /* Host Resources */ + + /* + * Processor specific info is set when prog loaded and read from DCD. + * [See bridge_dev_ctrl()] PROC info contains DSP-MMU TLB entries. + */ + /* DMMU TLB entries */ + struct bridge_ioctl_extproc atlb_entry[BRDIOCTL_NUMOFMMUTLB]; + u32 dw_brd_state; /* Last known board state. */ + u32 ul_int_mask; /* int mask */ + u16 io_base; /* Board I/O base */ + u32 num_tlb_entries; /* DSP MMU TLB entry counter */ + u32 fixed_tlb_entries; /* Fixed DSPMMU TLB entry count */ + + /* TC Settings */ + bool tc_word_swap_on; /* Traffic Controller Word Swap */ + struct pg_table_attrs *pt_attrs; + u32 dsp_per_clks; +}; + +/* + * If dsp_debug is true, do not branch to the DSP entry + * point and wait for DSP to boot. + */ +extern s32 dsp_debug; + +/* + * ======== sm_interrupt_dsp ======== + * Purpose: + * Set interrupt value & send an interrupt to the DSP processor(s). + * This is typicaly used when mailbox interrupt mechanisms allow data + * to be associated with interrupt such as for OMAP's CMD/DATA regs. + * Parameters: + * dev_context: Handle to Bridge driver defined device info. + * mb_val: Value associated with interrupt(e.g. mailbox value). + * Returns: + * 0: Interrupt sent; + * else: Unable to send interrupt. + * Requires: + * Ensures: + */ +int sm_interrupt_dsp(struct bridge_dev_context *dev_context, u16 mb_val); + +#endif /* _TIOMAP_ */ diff --git a/drivers/staging/tidspbridge/core/_tiomap_pwr.h b/drivers/staging/tidspbridge/core/_tiomap_pwr.h new file mode 100644 index 000000000000..b9a345366a06 --- /dev/null +++ b/drivers/staging/tidspbridge/core/_tiomap_pwr.h @@ -0,0 +1,85 @@ +/* + * _tiomap_pwr.h + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Definitions and types for the DSP wake/sleep routines. + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +#ifndef _TIOMAP_PWR_ +#define _TIOMAP_PWR_ + +#ifdef CONFIG_PM +extern s32 dsp_test_sleepstate; +#endif + +extern struct mailbox_context mboxsetting; + +/* + * ======== wake_dsp ========= + * Wakes up the DSP from DeepSleep + */ +extern int wake_dsp(struct bridge_dev_context *dev_context, + IN void *pargs); + +/* + * ======== sleep_dsp ========= + * Places the DSP in DeepSleep. + */ +extern int sleep_dsp(struct bridge_dev_context *dev_context, + IN u32 dw_cmd, IN void *pargs); +/* + * ========interrupt_dsp======== + * Sends an interrupt to DSP unconditionally. + */ +extern void interrupt_dsp(struct bridge_dev_context *dev_context, + IN u16 mb_val); + +/* + * ======== wake_dsp ========= + * Wakes up the DSP from DeepSleep + */ +extern int dsp_peripheral_clk_ctrl(struct bridge_dev_context + *dev_context, IN void *pargs); +/* + * ======== handle_hibernation_from_dsp ======== + * Handle Hibernation requested from DSP + */ +int handle_hibernation_from_dsp(struct bridge_dev_context *dev_context); +/* + * ======== post_scale_dsp ======== + * Handle Post Scale notification to DSP + */ +int post_scale_dsp(struct bridge_dev_context *dev_context, + IN void *pargs); +/* + * ======== pre_scale_dsp ======== + * Handle Pre Scale notification to DSP + */ +int pre_scale_dsp(struct bridge_dev_context *dev_context, + IN void *pargs); +/* + * ======== handle_constraints_set ======== + * Handle constraints request from DSP + */ +int handle_constraints_set(struct bridge_dev_context *dev_context, + IN void *pargs); + +/* + * ======== dsp_clk_wakeup_event_ctrl ======== + * This function sets the group selction bits for while + * enabling/disabling. + */ +void dsp_clk_wakeup_event_ctrl(u32 ClkId, bool enable); + +#endif /* _TIOMAP_PWR_ */ diff --git a/drivers/staging/tidspbridge/core/chnl_sm.c b/drivers/staging/tidspbridge/core/chnl_sm.c new file mode 100644 index 000000000000..714b6f7e4b9d --- /dev/null +++ b/drivers/staging/tidspbridge/core/chnl_sm.c @@ -0,0 +1,1015 @@ +/* + * chnl_sm.c + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Implements upper edge functions for Bridge driver channel module. + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +/* + * The lower edge functions must be implemented by the Bridge driver + * writer, and are declared in chnl_sm.h. + * + * Care is taken in this code to prevent simulataneous access to channel + * queues from + * 1. Threads. + * 2. io_dpc(), scheduled from the io_isr() as an event. + * + * This is done primarily by: + * - Semaphores. + * - state flags in the channel object; and + * - ensuring the IO_Dispatch() routine, which is called from both + * CHNL_AddIOReq() and the DPC(if implemented), is not re-entered. + * + * Channel Invariant: + * There is an important invariant condition which must be maintained per + * channel outside of bridge_chnl_get_ioc() and IO_Dispatch(), violation of + * which may cause timeouts and/or failure offunction sync_wait_on_event. + * This invariant condition is: + * + * LST_Empty(pchnl->pio_completions) ==> pchnl->sync_event is reset + * and + * !LST_Empty(pchnl->pio_completions) ==> pchnl->sync_event is set. + */ + +/* ----------------------------------- OS */ +#include + +/* ----------------------------------- DSP/BIOS Bridge */ +#include +#include + +/* ----------------------------------- Trace & Debug */ +#include + +/* ----------------------------------- OS Adaptation Layer */ +#include +#include + +/* ----------------------------------- Bridge Driver */ +#include +#include +#include "_tiomap.h" + +/* ----------------------------------- Platform Manager */ +#include + +/* ----------------------------------- Others */ +#include + +/* ----------------------------------- Define for This */ +#define USERMODE_ADDR PAGE_OFFSET + +#define MAILBOX_IRQ INT_MAIL_MPU_IRQ + +/* ----------------------------------- Function Prototypes */ +static struct lst_list *create_chirp_list(u32 uChirps); + +static void free_chirp_list(struct lst_list *pList); + +static struct chnl_irp *make_new_chirp(void); + +static int search_free_channel(struct chnl_mgr *chnl_mgr_obj, + OUT u32 *pdwChnl); + +/* + * ======== bridge_chnl_add_io_req ======== + * Enqueue an I/O request for data transfer on a channel to the DSP. + * The direction (mode) is specified in the channel object. Note the DSP + * address is specified for channels opened in direct I/O mode. + */ +int bridge_chnl_add_io_req(struct chnl_object *chnl_obj, void *pHostBuf, + u32 byte_size, u32 buf_size, + OPTIONAL u32 dw_dsp_addr, u32 dw_arg) +{ + int status = 0; + struct chnl_object *pchnl = (struct chnl_object *)chnl_obj; + struct chnl_irp *chnl_packet_obj = NULL; + struct bridge_dev_context *dev_ctxt; + struct dev_object *dev_obj; + u8 dw_state; + bool is_eos; + struct chnl_mgr *chnl_mgr_obj = pchnl->chnl_mgr_obj; + u8 *host_sys_buf = NULL; + bool sched_dpc = false; + u16 mb_val = 0; + + is_eos = (byte_size == 0); + + /* Validate args */ + if (!pHostBuf || !pchnl) { + status = -EFAULT; + } else if (is_eos && CHNL_IS_INPUT(pchnl->chnl_mode)) { + status = -EPERM; + } else { + /* + * Check the channel state: only queue chirp if channel state + * allows it. + */ + dw_state = pchnl->dw_state; + if (dw_state != CHNL_STATEREADY) { + if (dw_state & CHNL_STATECANCEL) + status = -ECANCELED; + else if ((dw_state & CHNL_STATEEOS) && + CHNL_IS_OUTPUT(pchnl->chnl_mode)) + status = -EPIPE; + else + /* No other possible states left */ + DBC_ASSERT(0); + } + } + + dev_obj = dev_get_first(); + dev_get_bridge_context(dev_obj, &dev_ctxt); + if (!dev_ctxt) + status = -EFAULT; + + if (DSP_FAILED(status)) + goto func_end; + + if (pchnl->chnl_type == CHNL_PCPY && pchnl->chnl_id > 1 && pHostBuf) { + if (!(pHostBuf < (void *)USERMODE_ADDR)) { + host_sys_buf = pHostBuf; + goto func_cont; + } + /* if addr in user mode, then copy to kernel space */ + host_sys_buf = kmalloc(buf_size, GFP_KERNEL); + if (host_sys_buf == NULL) { + status = -ENOMEM; + goto func_end; + } + if (CHNL_IS_OUTPUT(pchnl->chnl_mode)) { + status = copy_from_user(host_sys_buf, pHostBuf, + buf_size); + if (status) { + kfree(host_sys_buf); + host_sys_buf = NULL; + status = -EFAULT; + goto func_end; + } + } + } +func_cont: + /* Mailbox IRQ is disabled to avoid race condition with DMA/ZCPY + * channels. DPCCS is held to avoid race conditions with PCPY channels. + * If DPC is scheduled in process context (iosm_schedule) and any + * non-mailbox interrupt occurs, that DPC will run and break CS. Hence + * we disable ALL DPCs. We will try to disable ONLY IO DPC later. */ + spin_lock_bh(&chnl_mgr_obj->chnl_mgr_lock); + omap_mbox_disable_irq(dev_ctxt->mbox, IRQ_RX); + if (pchnl->chnl_type == CHNL_PCPY) { + /* This is a processor-copy channel. */ + if (DSP_SUCCEEDED(status) && CHNL_IS_OUTPUT(pchnl->chnl_mode)) { + /* Check buffer size on output channels for fit. */ + if (byte_size > + io_buf_size(pchnl->chnl_mgr_obj->hio_mgr)) + status = -EINVAL; + + } + } + if (DSP_SUCCEEDED(status)) { + /* Get a free chirp: */ + chnl_packet_obj = + (struct chnl_irp *)lst_get_head(pchnl->free_packets_list); + if (chnl_packet_obj == NULL) + status = -EIO; + + } + if (DSP_SUCCEEDED(status)) { + /* Enqueue the chirp on the chnl's IORequest queue: */ + chnl_packet_obj->host_user_buf = chnl_packet_obj->host_sys_buf = + pHostBuf; + if (pchnl->chnl_type == CHNL_PCPY && pchnl->chnl_id > 1) + chnl_packet_obj->host_sys_buf = host_sys_buf; + + /* + * Note: for dma chans dw_dsp_addr contains dsp address + * of SM buffer. + */ + DBC_ASSERT(chnl_mgr_obj->word_size != 0); + /* DSP address */ + chnl_packet_obj->dsp_tx_addr = + dw_dsp_addr / chnl_mgr_obj->word_size; + chnl_packet_obj->byte_size = byte_size; + chnl_packet_obj->buf_size = buf_size; + /* Only valid for output channel */ + chnl_packet_obj->dw_arg = dw_arg; + chnl_packet_obj->status = (is_eos ? CHNL_IOCSTATEOS : + CHNL_IOCSTATCOMPLETE); + lst_put_tail(pchnl->pio_requests, + (struct list_head *)chnl_packet_obj); + pchnl->cio_reqs++; + DBC_ASSERT(pchnl->cio_reqs <= pchnl->chnl_packets); + /* + * If end of stream, update the channel state to prevent + * more IOR's. + */ + if (is_eos) + pchnl->dw_state |= CHNL_STATEEOS; + + /* Legacy DSM Processor-Copy */ + DBC_ASSERT(pchnl->chnl_type == CHNL_PCPY); + /* Request IO from the DSP */ + io_request_chnl(chnl_mgr_obj->hio_mgr, pchnl, + (CHNL_IS_INPUT(pchnl->chnl_mode) ? IO_INPUT : + IO_OUTPUT), &mb_val); + sched_dpc = true; + + } + omap_mbox_enable_irq(dev_ctxt->mbox, IRQ_RX); + spin_unlock_bh(&chnl_mgr_obj->chnl_mgr_lock); + if (mb_val != 0) + io_intr_dsp2(chnl_mgr_obj->hio_mgr, mb_val); + + /* Schedule a DPC, to do the actual data transfer */ + if (sched_dpc) + iosm_schedule(chnl_mgr_obj->hio_mgr); + +func_end: + return status; +} + +/* + * ======== bridge_chnl_cancel_io ======== + * Return all I/O requests to the client which have not yet been + * transferred. The channel's I/O completion object is + * signalled, and all the I/O requests are queued as IOC's, with the + * status field set to CHNL_IOCSTATCANCEL. + * This call is typically used in abort situations, and is a prelude to + * chnl_close(); + */ +int bridge_chnl_cancel_io(struct chnl_object *chnl_obj) +{ + int status = 0; + struct chnl_object *pchnl = (struct chnl_object *)chnl_obj; + u32 chnl_id = -1; + s8 chnl_mode; + struct chnl_irp *chnl_packet_obj; + struct chnl_mgr *chnl_mgr_obj = NULL; + + /* Check args: */ + if (pchnl && pchnl->chnl_mgr_obj) { + chnl_id = pchnl->chnl_id; + chnl_mode = pchnl->chnl_mode; + chnl_mgr_obj = pchnl->chnl_mgr_obj; + } else { + status = -EFAULT; + } + if (DSP_FAILED(status)) + goto func_end; + + /* Mark this channel as cancelled, to prevent further IORequests or + * IORequests or dispatching. */ + spin_lock_bh(&chnl_mgr_obj->chnl_mgr_lock); + pchnl->dw_state |= CHNL_STATECANCEL; + if (LST_IS_EMPTY(pchnl->pio_requests)) + goto func_cont; + + if (pchnl->chnl_type == CHNL_PCPY) { + /* Indicate we have no more buffers available for transfer: */ + if (CHNL_IS_INPUT(pchnl->chnl_mode)) { + io_cancel_chnl(chnl_mgr_obj->hio_mgr, chnl_id); + } else { + /* Record that we no longer have output buffers + * available: */ + chnl_mgr_obj->dw_output_mask &= ~(1 << chnl_id); + } + } + /* Move all IOR's to IOC queue: */ + while (!LST_IS_EMPTY(pchnl->pio_requests)) { + chnl_packet_obj = + (struct chnl_irp *)lst_get_head(pchnl->pio_requests); + if (chnl_packet_obj) { + chnl_packet_obj->byte_size = 0; + chnl_packet_obj->status |= CHNL_IOCSTATCANCEL; + lst_put_tail(pchnl->pio_completions, + (struct list_head *)chnl_packet_obj); + pchnl->cio_cs++; + pchnl->cio_reqs--; + DBC_ASSERT(pchnl->cio_reqs >= 0); + } + } +func_cont: + spin_unlock_bh(&chnl_mgr_obj->chnl_mgr_lock); +func_end: + return status; +} + +/* + * ======== bridge_chnl_close ======== + * Purpose: + * Ensures all pending I/O on this channel is cancelled, discards all + * queued I/O completion notifications, then frees the resources allocated + * for this channel, and makes the corresponding logical channel id + * available for subsequent use. + */ +int bridge_chnl_close(struct chnl_object *chnl_obj) +{ + int status; + struct chnl_object *pchnl = (struct chnl_object *)chnl_obj; + + /* Check args: */ + if (!pchnl) { + status = -EFAULT; + goto func_cont; + } + { + /* Cancel IO: this ensures no further IO requests or + * notifications. */ + status = bridge_chnl_cancel_io(chnl_obj); + } +func_cont: + if (DSP_SUCCEEDED(status)) { + /* Assert I/O on this channel is now cancelled: Protects + * from io_dpc. */ + DBC_ASSERT((pchnl->dw_state & CHNL_STATECANCEL)); + /* Invalidate channel object: Protects from + * CHNL_GetIOCompletion(). */ + /* Free the slot in the channel manager: */ + pchnl->chnl_mgr_obj->ap_channel[pchnl->chnl_id] = NULL; + spin_lock_bh(&pchnl->chnl_mgr_obj->chnl_mgr_lock); + pchnl->chnl_mgr_obj->open_channels -= 1; + spin_unlock_bh(&pchnl->chnl_mgr_obj->chnl_mgr_lock); + if (pchnl->ntfy_obj) { + ntfy_delete(pchnl->ntfy_obj); + kfree(pchnl->ntfy_obj); + pchnl->ntfy_obj = NULL; + } + /* Reset channel event: (NOTE: user_event freed in user + * context.). */ + if (pchnl->sync_event) { + sync_reset_event(pchnl->sync_event); + kfree(pchnl->sync_event); + pchnl->sync_event = NULL; + } + /* Free I/O request and I/O completion queues: */ + if (pchnl->pio_completions) { + free_chirp_list(pchnl->pio_completions); + pchnl->pio_completions = NULL; + pchnl->cio_cs = 0; + } + if (pchnl->pio_requests) { + free_chirp_list(pchnl->pio_requests); + pchnl->pio_requests = NULL; + pchnl->cio_reqs = 0; + } + if (pchnl->free_packets_list) { + free_chirp_list(pchnl->free_packets_list); + pchnl->free_packets_list = NULL; + } + /* Release channel object. */ + kfree(pchnl); + pchnl = NULL; + } + DBC_ENSURE(DSP_FAILED(status) || !pchnl); + return status; +} + +/* + * ======== bridge_chnl_create ======== + * Create a channel manager object, responsible for opening new channels + * and closing old ones for a given board. + */ +int bridge_chnl_create(OUT struct chnl_mgr **phChnlMgr, + struct dev_object *hdev_obj, + IN CONST struct chnl_mgrattrs *pMgrAttrs) +{ + int status = 0; + struct chnl_mgr *chnl_mgr_obj = NULL; + u8 max_channels; + + /* Check DBC requirements: */ + DBC_REQUIRE(phChnlMgr != NULL); + DBC_REQUIRE(pMgrAttrs != NULL); + DBC_REQUIRE(pMgrAttrs->max_channels > 0); + DBC_REQUIRE(pMgrAttrs->max_channels <= CHNL_MAXCHANNELS); + DBC_REQUIRE(pMgrAttrs->word_size != 0); + + /* Allocate channel manager object */ + chnl_mgr_obj = kzalloc(sizeof(struct chnl_mgr), GFP_KERNEL); + if (chnl_mgr_obj) { + /* + * The max_channels attr must equal the # of supported chnls for + * each transport(# chnls for PCPY = DDMA = ZCPY): i.e. + * pMgrAttrs->max_channels = CHNL_MAXCHANNELS = + * DDMA_MAXDDMACHNLS = DDMA_MAXZCPYCHNLS. + */ + DBC_ASSERT(pMgrAttrs->max_channels == CHNL_MAXCHANNELS); + max_channels = CHNL_MAXCHANNELS + CHNL_MAXCHANNELS * CHNL_PCPY; + /* Create array of channels */ + chnl_mgr_obj->ap_channel = kzalloc(sizeof(struct chnl_object *) + * max_channels, GFP_KERNEL); + if (chnl_mgr_obj->ap_channel) { + /* Initialize chnl_mgr object */ + chnl_mgr_obj->dw_type = CHNL_TYPESM; + chnl_mgr_obj->word_size = pMgrAttrs->word_size; + /* Total # chnls supported */ + chnl_mgr_obj->max_channels = max_channels; + chnl_mgr_obj->open_channels = 0; + chnl_mgr_obj->dw_output_mask = 0; + chnl_mgr_obj->dw_last_output = 0; + chnl_mgr_obj->hdev_obj = hdev_obj; + if (DSP_SUCCEEDED(status)) + spin_lock_init(&chnl_mgr_obj->chnl_mgr_lock); + } else { + status = -ENOMEM; + } + } else { + status = -ENOMEM; + } + + if (DSP_FAILED(status)) { + bridge_chnl_destroy(chnl_mgr_obj); + *phChnlMgr = NULL; + } else { + /* Return channel manager object to caller... */ + *phChnlMgr = chnl_mgr_obj; + } + return status; +} + +/* + * ======== bridge_chnl_destroy ======== + * Purpose: + * Close all open channels, and destroy the channel manager. + */ +int bridge_chnl_destroy(struct chnl_mgr *hchnl_mgr) +{ + int status = 0; + struct chnl_mgr *chnl_mgr_obj = hchnl_mgr; + u32 chnl_id; + + if (hchnl_mgr) { + /* Close all open channels: */ + for (chnl_id = 0; chnl_id < chnl_mgr_obj->max_channels; + chnl_id++) { + status = + bridge_chnl_close(chnl_mgr_obj->ap_channel + [chnl_id]); + if (DSP_FAILED(status)) + dev_dbg(bridge, "%s: Error status 0x%x\n", + __func__, status); + } + + /* Free channel manager object: */ + kfree(chnl_mgr_obj->ap_channel); + + /* Set hchnl_mgr to NULL in device object. */ + dev_set_chnl_mgr(chnl_mgr_obj->hdev_obj, NULL); + /* Free this Chnl Mgr object: */ + kfree(hchnl_mgr); + } else { + status = -EFAULT; + } + return status; +} + +/* + * ======== bridge_chnl_flush_io ======== + * purpose: + * Flushes all the outstanding data requests on a channel. + */ +int bridge_chnl_flush_io(struct chnl_object *chnl_obj, u32 dwTimeOut) +{ + int status = 0; + struct chnl_object *pchnl = (struct chnl_object *)chnl_obj; + s8 chnl_mode = -1; + struct chnl_mgr *chnl_mgr_obj; + struct chnl_ioc chnl_ioc_obj; + /* Check args: */ + if (pchnl) { + if ((dwTimeOut == CHNL_IOCNOWAIT) + && CHNL_IS_OUTPUT(pchnl->chnl_mode)) { + status = -EINVAL; + } else { + chnl_mode = pchnl->chnl_mode; + chnl_mgr_obj = pchnl->chnl_mgr_obj; + } + } else { + status = -EFAULT; + } + if (DSP_SUCCEEDED(status)) { + /* Note: Currently, if another thread continues to add IO + * requests to this channel, this function will continue to + * flush all such queued IO requests. */ + if (CHNL_IS_OUTPUT(chnl_mode) + && (pchnl->chnl_type == CHNL_PCPY)) { + /* Wait for IO completions, up to the specified + * timeout: */ + while (!LST_IS_EMPTY(pchnl->pio_requests) && + DSP_SUCCEEDED(status)) { + status = bridge_chnl_get_ioc(chnl_obj, + dwTimeOut, &chnl_ioc_obj); + if (DSP_FAILED(status)) + continue; + + if (chnl_ioc_obj.status & CHNL_IOCSTATTIMEOUT) + status = -ETIMEDOUT; + + } + } else { + status = bridge_chnl_cancel_io(chnl_obj); + /* Now, leave the channel in the ready state: */ + pchnl->dw_state &= ~CHNL_STATECANCEL; + } + } + DBC_ENSURE(DSP_FAILED(status) || LST_IS_EMPTY(pchnl->pio_requests)); + return status; +} + +/* + * ======== bridge_chnl_get_info ======== + * Purpose: + * Retrieve information related to a channel. + */ +int bridge_chnl_get_info(struct chnl_object *chnl_obj, + OUT struct chnl_info *pInfo) +{ + int status = 0; + struct chnl_object *pchnl = (struct chnl_object *)chnl_obj; + if (pInfo != NULL) { + if (pchnl) { + /* Return the requested information: */ + pInfo->hchnl_mgr = pchnl->chnl_mgr_obj; + pInfo->event_obj = pchnl->user_event; + pInfo->cnhl_id = pchnl->chnl_id; + pInfo->dw_mode = pchnl->chnl_mode; + pInfo->bytes_tx = pchnl->bytes_moved; + pInfo->process = pchnl->process; + pInfo->sync_event = pchnl->sync_event; + pInfo->cio_cs = pchnl->cio_cs; + pInfo->cio_reqs = pchnl->cio_reqs; + pInfo->dw_state = pchnl->dw_state; + } else { + status = -EFAULT; + } + } else { + status = -EFAULT; + } + return status; +} + +/* + * ======== bridge_chnl_get_ioc ======== + * Optionally wait for I/O completion on a channel. Dequeue an I/O + * completion record, which contains information about the completed + * I/O request. + * Note: Ensures Channel Invariant (see notes above). + */ +int bridge_chnl_get_ioc(struct chnl_object *chnl_obj, u32 dwTimeOut, + OUT struct chnl_ioc *pIOC) +{ + int status = 0; + struct chnl_object *pchnl = (struct chnl_object *)chnl_obj; + struct chnl_irp *chnl_packet_obj; + int stat_sync; + bool dequeue_ioc = true; + struct chnl_ioc ioc = { NULL, 0, 0, 0, 0 }; + u8 *host_sys_buf = NULL; + struct bridge_dev_context *dev_ctxt; + struct dev_object *dev_obj; + + /* Check args: */ + if (!pIOC || !pchnl) { + status = -EFAULT; + } else if (dwTimeOut == CHNL_IOCNOWAIT) { + if (LST_IS_EMPTY(pchnl->pio_completions)) + status = -EREMOTEIO; + + } + + dev_obj = dev_get_first(); + dev_get_bridge_context(dev_obj, &dev_ctxt); + if (!dev_ctxt) + status = -EFAULT; + + if (DSP_FAILED(status)) + goto func_end; + + ioc.status = CHNL_IOCSTATCOMPLETE; + if (dwTimeOut != + CHNL_IOCNOWAIT && LST_IS_EMPTY(pchnl->pio_completions)) { + if (dwTimeOut == CHNL_IOCINFINITE) + dwTimeOut = SYNC_INFINITE; + + stat_sync = sync_wait_on_event(pchnl->sync_event, dwTimeOut); + if (stat_sync == -ETIME) { + /* No response from DSP */ + ioc.status |= CHNL_IOCSTATTIMEOUT; + dequeue_ioc = false; + } else if (stat_sync == -EPERM) { + /* This can occur when the user mode thread is + * aborted (^C), or when _VWIN32_WaitSingleObject() + * fails due to unkown causes. */ + /* Even though Wait failed, there may be something in + * the Q: */ + if (LST_IS_EMPTY(pchnl->pio_completions)) { + ioc.status |= CHNL_IOCSTATCANCEL; + dequeue_ioc = false; + } + } + } + /* See comment in AddIOReq */ + spin_lock_bh(&pchnl->chnl_mgr_obj->chnl_mgr_lock); + omap_mbox_disable_irq(dev_ctxt->mbox, IRQ_RX); + if (dequeue_ioc) { + /* Dequeue IOC and set pIOC; */ + DBC_ASSERT(!LST_IS_EMPTY(pchnl->pio_completions)); + chnl_packet_obj = + (struct chnl_irp *)lst_get_head(pchnl->pio_completions); + /* Update pIOC from channel state and chirp: */ + if (chnl_packet_obj) { + pchnl->cio_cs--; + /* If this is a zero-copy channel, then set IOC's pbuf + * to the DSP's address. This DSP address will get + * translated to user's virtual addr later. */ + { + host_sys_buf = chnl_packet_obj->host_sys_buf; + ioc.pbuf = chnl_packet_obj->host_user_buf; + } + ioc.byte_size = chnl_packet_obj->byte_size; + ioc.buf_size = chnl_packet_obj->buf_size; + ioc.dw_arg = chnl_packet_obj->dw_arg; + ioc.status |= chnl_packet_obj->status; + /* Place the used chirp on the free list: */ + lst_put_tail(pchnl->free_packets_list, + (struct list_head *)chnl_packet_obj); + } else { + ioc.pbuf = NULL; + ioc.byte_size = 0; + } + } else { + ioc.pbuf = NULL; + ioc.byte_size = 0; + ioc.dw_arg = 0; + ioc.buf_size = 0; + } + /* Ensure invariant: If any IOC's are queued for this channel... */ + if (!LST_IS_EMPTY(pchnl->pio_completions)) { + /* Since DSPStream_Reclaim() does not take a timeout + * parameter, we pass the stream's timeout value to + * bridge_chnl_get_ioc. We cannot determine whether or not + * we have waited in User mode. Since the stream's timeout + * value may be non-zero, we still have to set the event. + * Therefore, this optimization is taken out. + * + * if (dwTimeOut == CHNL_IOCNOWAIT) { + * ... ensure event is set.. + * sync_set_event(pchnl->sync_event); + * } */ + sync_set_event(pchnl->sync_event); + } else { + /* else, if list is empty, ensure event is reset. */ + sync_reset_event(pchnl->sync_event); + } + omap_mbox_enable_irq(dev_ctxt->mbox, IRQ_RX); + spin_unlock_bh(&pchnl->chnl_mgr_obj->chnl_mgr_lock); + if (dequeue_ioc + && (pchnl->chnl_type == CHNL_PCPY && pchnl->chnl_id > 1)) { + if (!(ioc.pbuf < (void *)USERMODE_ADDR)) + goto func_cont; + + /* If the addr is in user mode, then copy it */ + if (!host_sys_buf || !ioc.pbuf) { + status = -EFAULT; + goto func_cont; + } + if (!CHNL_IS_INPUT(pchnl->chnl_mode)) + goto func_cont1; + + /*host_user_buf */ + status = copy_to_user(ioc.pbuf, host_sys_buf, ioc.byte_size); + if (status) { + if (current->flags & PF_EXITING) + status = 0; + } + if (status) + status = -EFAULT; +func_cont1: + kfree(host_sys_buf); + } +func_cont: + /* Update User's IOC block: */ + *pIOC = ioc; +func_end: + return status; +} + +/* + * ======== bridge_chnl_get_mgr_info ======== + * Retrieve information related to the channel manager. + */ +int bridge_chnl_get_mgr_info(struct chnl_mgr *hchnl_mgr, u32 uChnlID, + OUT struct chnl_mgrinfo *pMgrInfo) +{ + int status = 0; + struct chnl_mgr *chnl_mgr_obj = (struct chnl_mgr *)hchnl_mgr; + + if (pMgrInfo != NULL) { + if (uChnlID <= CHNL_MAXCHANNELS) { + if (hchnl_mgr) { + /* Return the requested information: */ + pMgrInfo->chnl_obj = + chnl_mgr_obj->ap_channel[uChnlID]; + pMgrInfo->open_channels = + chnl_mgr_obj->open_channels; + pMgrInfo->dw_type = chnl_mgr_obj->dw_type; + /* total # of chnls */ + pMgrInfo->max_channels = + chnl_mgr_obj->max_channels; + } else { + status = -EFAULT; + } + } else { + status = -ECHRNG; + } + } else { + status = -EFAULT; + } + + return status; +} + +/* + * ======== bridge_chnl_idle ======== + * Idles a particular channel. + */ +int bridge_chnl_idle(struct chnl_object *chnl_obj, u32 dwTimeOut, + bool fFlush) +{ + s8 chnl_mode; + struct chnl_mgr *chnl_mgr_obj; + int status = 0; + + DBC_REQUIRE(chnl_obj); + + chnl_mode = chnl_obj->chnl_mode; + chnl_mgr_obj = chnl_obj->chnl_mgr_obj; + + if (CHNL_IS_OUTPUT(chnl_mode) && !fFlush) { + /* Wait for IO completions, up to the specified timeout: */ + status = bridge_chnl_flush_io(chnl_obj, dwTimeOut); + } else { + status = bridge_chnl_cancel_io(chnl_obj); + + /* Reset the byte count and put channel back in ready state. */ + chnl_obj->bytes_moved = 0; + chnl_obj->dw_state &= ~CHNL_STATECANCEL; + } + + return status; +} + +/* + * ======== bridge_chnl_open ======== + * Open a new half-duplex channel to the DSP board. + */ +int bridge_chnl_open(OUT struct chnl_object **phChnl, + struct chnl_mgr *hchnl_mgr, s8 chnl_mode, + u32 uChnlId, CONST IN struct chnl_attr *pattrs) +{ + int status = 0; + struct chnl_mgr *chnl_mgr_obj = hchnl_mgr; + struct chnl_object *pchnl = NULL; + struct sync_object *sync_event = NULL; + /* Ensure DBC requirements: */ + DBC_REQUIRE(phChnl != NULL); + DBC_REQUIRE(pattrs != NULL); + DBC_REQUIRE(hchnl_mgr != NULL); + *phChnl = NULL; + /* Validate Args: */ + if (pattrs->uio_reqs == 0) { + status = -EINVAL; + } else { + if (!hchnl_mgr) { + status = -EFAULT; + } else { + if (uChnlId != CHNL_PICKFREE) { + if (uChnlId >= chnl_mgr_obj->max_channels) + status = -ECHRNG; + else if (chnl_mgr_obj->ap_channel[uChnlId] != + NULL) + status = -EALREADY; + } else { + /* Check for free channel */ + status = + search_free_channel(chnl_mgr_obj, &uChnlId); + } + } + } + if (DSP_FAILED(status)) + goto func_end; + + DBC_ASSERT(uChnlId < chnl_mgr_obj->max_channels); + /* Create channel object: */ + pchnl = kzalloc(sizeof(struct chnl_object), GFP_KERNEL); + if (!pchnl) { + status = -ENOMEM; + goto func_end; + } + /* Protect queues from io_dpc: */ + pchnl->dw_state = CHNL_STATECANCEL; + /* Allocate initial IOR and IOC queues: */ + pchnl->free_packets_list = create_chirp_list(pattrs->uio_reqs); + pchnl->pio_requests = create_chirp_list(0); + pchnl->pio_completions = create_chirp_list(0); + pchnl->chnl_packets = pattrs->uio_reqs; + pchnl->cio_cs = 0; + pchnl->cio_reqs = 0; + sync_event = kzalloc(sizeof(struct sync_object), GFP_KERNEL); + if (sync_event) + sync_init_event(sync_event); + else + status = -ENOMEM; + + if (DSP_SUCCEEDED(status)) { + pchnl->ntfy_obj = kmalloc(sizeof(struct ntfy_object), + GFP_KERNEL); + if (pchnl->ntfy_obj) + ntfy_init(pchnl->ntfy_obj); + else + status = -ENOMEM; + } + + if (DSP_SUCCEEDED(status)) { + if (pchnl->pio_completions && pchnl->pio_requests && + pchnl->free_packets_list) { + /* Initialize CHNL object fields: */ + pchnl->chnl_mgr_obj = chnl_mgr_obj; + pchnl->chnl_id = uChnlId; + pchnl->chnl_mode = chnl_mode; + pchnl->user_event = sync_event; + pchnl->sync_event = sync_event; + /* Get the process handle */ + pchnl->process = current->tgid; + pchnl->pcb_arg = 0; + pchnl->bytes_moved = 0; + /* Default to proc-copy */ + pchnl->chnl_type = CHNL_PCPY; + } else { + status = -ENOMEM; + } + } + + if (DSP_FAILED(status)) { + /* Free memory */ + if (pchnl->pio_completions) { + free_chirp_list(pchnl->pio_completions); + pchnl->pio_completions = NULL; + pchnl->cio_cs = 0; + } + if (pchnl->pio_requests) { + free_chirp_list(pchnl->pio_requests); + pchnl->pio_requests = NULL; + } + if (pchnl->free_packets_list) { + free_chirp_list(pchnl->free_packets_list); + pchnl->free_packets_list = NULL; + } + kfree(sync_event); + sync_event = NULL; + + if (pchnl->ntfy_obj) { + ntfy_delete(pchnl->ntfy_obj); + kfree(pchnl->ntfy_obj); + pchnl->ntfy_obj = NULL; + } + kfree(pchnl); + } else { + /* Insert channel object in channel manager: */ + chnl_mgr_obj->ap_channel[pchnl->chnl_id] = pchnl; + spin_lock_bh(&chnl_mgr_obj->chnl_mgr_lock); + chnl_mgr_obj->open_channels++; + spin_unlock_bh(&chnl_mgr_obj->chnl_mgr_lock); + /* Return result... */ + pchnl->dw_state = CHNL_STATEREADY; + *phChnl = pchnl; + } +func_end: + DBC_ENSURE((DSP_SUCCEEDED(status) && pchnl) || (*phChnl == NULL)); + return status; +} + +/* + * ======== bridge_chnl_register_notify ======== + * Registers for events on a particular channel. + */ +int bridge_chnl_register_notify(struct chnl_object *chnl_obj, + u32 event_mask, u32 notify_type, + struct dsp_notification *hnotification) +{ + int status = 0; + + DBC_ASSERT(!(event_mask & ~(DSP_STREAMDONE | DSP_STREAMIOCOMPLETION))); + + if (event_mask) + status = ntfy_register(chnl_obj->ntfy_obj, hnotification, + event_mask, notify_type); + else + status = ntfy_unregister(chnl_obj->ntfy_obj, hnotification); + + return status; +} + +/* + * ======== create_chirp_list ======== + * Purpose: + * Initialize a queue of channel I/O Request/Completion packets. + * Parameters: + * uChirps: Number of Chirps to allocate. + * Returns: + * Pointer to queue of IRPs, or NULL. + * Requires: + * Ensures: + */ +static struct lst_list *create_chirp_list(u32 uChirps) +{ + struct lst_list *chirp_list; + struct chnl_irp *chnl_packet_obj; + u32 i; + + chirp_list = kzalloc(sizeof(struct lst_list), GFP_KERNEL); + + if (chirp_list) { + INIT_LIST_HEAD(&chirp_list->head); + /* Make N chirps and place on queue. */ + for (i = 0; (i < uChirps) + && ((chnl_packet_obj = make_new_chirp()) != NULL); i++) { + lst_put_tail(chirp_list, + (struct list_head *)chnl_packet_obj); + } + + /* If we couldn't allocate all chirps, free those allocated: */ + if (i != uChirps) { + free_chirp_list(chirp_list); + chirp_list = NULL; + } + } + + return chirp_list; +} + +/* + * ======== free_chirp_list ======== + * Purpose: + * Free the queue of Chirps. + */ +static void free_chirp_list(struct lst_list *chirp_list) +{ + DBC_REQUIRE(chirp_list != NULL); + + while (!LST_IS_EMPTY(chirp_list)) + kfree(lst_get_head(chirp_list)); + + kfree(chirp_list); +} + +/* + * ======== make_new_chirp ======== + * Allocate the memory for a new channel IRP. + */ +static struct chnl_irp *make_new_chirp(void) +{ + struct chnl_irp *chnl_packet_obj; + + chnl_packet_obj = kzalloc(sizeof(struct chnl_irp), GFP_KERNEL); + if (chnl_packet_obj != NULL) { + /* lst_init_elem only resets the list's member values. */ + lst_init_elem(&chnl_packet_obj->link); + } + + return chnl_packet_obj; +} + +/* + * ======== search_free_channel ======== + * Search for a free channel slot in the array of channel pointers. + */ +static int search_free_channel(struct chnl_mgr *chnl_mgr_obj, + OUT u32 *pdwChnl) +{ + int status = -ENOSR; + u32 i; + + DBC_REQUIRE(chnl_mgr_obj); + + for (i = 0; i < chnl_mgr_obj->max_channels; i++) { + if (chnl_mgr_obj->ap_channel[i] == NULL) { + status = 0; + *pdwChnl = i; + break; + } + } + + return status; +} diff --git a/drivers/staging/tidspbridge/core/dsp-clock.c b/drivers/staging/tidspbridge/core/dsp-clock.c new file mode 100644 index 000000000000..abaa5950fb95 --- /dev/null +++ b/drivers/staging/tidspbridge/core/dsp-clock.c @@ -0,0 +1,421 @@ +/* + * clk.c + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Clock and Timer services. + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +/* ----------------------------------- Host OS */ +#include +#include +#include + +/* ----------------------------------- DSP/BIOS Bridge */ +#include +#include +#include +#include +#include +#include "_tiomap.h" + +/* ----------------------------------- Trace & Debug */ +#include + +/* ----------------------------------- This */ +#include + +/* ----------------------------------- Defines, Data Structures, Typedefs */ + +#define OMAP_SSI_OFFSET 0x58000 +#define OMAP_SSI_SIZE 0x1000 +#define OMAP_SSI_SYSCONFIG_OFFSET 0x10 + +#define SSI_AUTOIDLE (1 << 0) +#define SSI_SIDLE_SMARTIDLE (2 << 3) +#define SSI_MIDLE_NOIDLE (1 << 12) + +/* Clk types requested by the dsp */ +#define IVA2_CLK 0 +#define GPT_CLK 1 +#define WDT_CLK 2 +#define MCBSP_CLK 3 +#define SSI_CLK 4 + +/* Bridge GPT id (1 - 4), DM Timer id (5 - 8) */ +#define DMT_ID(id) ((id) + 4) + +/* Bridge MCBSP id (6 - 10), OMAP Mcbsp id (0 - 4) */ +#define MCBSP_ID(id) ((id) - 6) + +static struct omap_dm_timer *timer[4]; + +struct clk *iva2_clk; + +struct dsp_ssi { + struct clk *sst_fck; + struct clk *ssr_fck; + struct clk *ick; +}; + +static struct dsp_ssi ssi; + +static u32 dsp_clocks; + +static inline u32 is_dsp_clk_active(u32 clk, u8 id) +{ + return clk & (1 << id); +} + +static inline void set_dsp_clk_active(u32 *clk, u8 id) +{ + *clk |= (1 << id); +} + +static inline void set_dsp_clk_inactive(u32 *clk, u8 id) +{ + *clk &= ~(1 << id); +} + +static s8 get_clk_type(u8 id) +{ + s8 type; + + if (id == DSP_CLK_IVA2) + type = IVA2_CLK; + else if (id <= DSP_CLK_GPT8) + type = GPT_CLK; + else if (id == DSP_CLK_WDT3) + type = WDT_CLK; + else if (id <= DSP_CLK_MCBSP5) + type = MCBSP_CLK; + else if (id == DSP_CLK_SSI) + type = SSI_CLK; + else + type = -1; + + return type; +} + +/* + * ======== dsp_clk_exit ======== + * Purpose: + * Cleanup CLK module. + */ +void dsp_clk_exit(void) +{ + dsp_clock_disable_all(dsp_clocks); + + clk_put(iva2_clk); + clk_put(ssi.sst_fck); + clk_put(ssi.ssr_fck); + clk_put(ssi.ick); +} + +/* + * ======== dsp_clk_init ======== + * Purpose: + * Initialize CLK module. + */ +void dsp_clk_init(void) +{ + static struct platform_device dspbridge_device; + + dspbridge_device.dev.bus = &platform_bus_type; + + iva2_clk = clk_get(&dspbridge_device.dev, "iva2_ck"); + if (IS_ERR(iva2_clk)) + dev_err(bridge, "failed to get iva2 clock %p\n", iva2_clk); + + ssi.sst_fck = clk_get(&dspbridge_device.dev, "ssi_sst_fck"); + ssi.ssr_fck = clk_get(&dspbridge_device.dev, "ssi_ssr_fck"); + ssi.ick = clk_get(&dspbridge_device.dev, "ssi_ick"); + + if (IS_ERR(ssi.sst_fck) || IS_ERR(ssi.ssr_fck) || IS_ERR(ssi.ick)) + dev_err(bridge, "failed to get ssi: sst %p, ssr %p, ick %p\n", + ssi.sst_fck, ssi.ssr_fck, ssi.ick); +} + +#ifdef CONFIG_OMAP_MCBSP +static void mcbsp_clk_prepare(bool flag, u8 id) +{ + struct cfg_hostres *resources; + struct dev_object *hdev_object = NULL; + struct bridge_dev_context *bridge_context = NULL; + u32 val; + + hdev_object = (struct dev_object *)drv_get_first_dev_object(); + if (!hdev_object) + return; + + dev_get_bridge_context(hdev_object, &bridge_context); + if (!bridge_context) + return; + + resources = bridge_context->resources; + if (!resources) + return; + + if (flag) { + if (id == DSP_CLK_MCBSP1) { + /* set MCBSP1_CLKS, on McBSP1 ON */ + val = __raw_readl(resources->dw_sys_ctrl_base + 0x274); + val |= 1 << 2; + __raw_writel(val, resources->dw_sys_ctrl_base + 0x274); + } else if (id == DSP_CLK_MCBSP2) { + /* set MCBSP2_CLKS, on McBSP2 ON */ + val = __raw_readl(resources->dw_sys_ctrl_base + 0x274); + val |= 1 << 6; + __raw_writel(val, resources->dw_sys_ctrl_base + 0x274); + } + } else { + if (id == DSP_CLK_MCBSP1) { + /* clear MCBSP1_CLKS, on McBSP1 OFF */ + val = __raw_readl(resources->dw_sys_ctrl_base + 0x274); + val &= ~(1 << 2); + __raw_writel(val, resources->dw_sys_ctrl_base + 0x274); + } else if (id == DSP_CLK_MCBSP2) { + /* clear MCBSP2_CLKS, on McBSP2 OFF */ + val = __raw_readl(resources->dw_sys_ctrl_base + 0x274); + val &= ~(1 << 6); + __raw_writel(val, resources->dw_sys_ctrl_base + 0x274); + } + } +} +#endif + +/** + * dsp_gpt_wait_overflow - set gpt overflow and wait for fixed timeout + * @clk_id: GP Timer clock id. + * @load: Overflow value. + * + * Sets an overflow interrupt for the desired GPT waiting for a timeout + * of 5 msecs for the interrupt to occur. + */ +void dsp_gpt_wait_overflow(short int clk_id, unsigned int load) +{ + struct omap_dm_timer *gpt = timer[clk_id - 1]; + unsigned long timeout; + + if (!gpt) + return; + + /* Enable overflow interrupt */ + omap_dm_timer_set_int_enable(gpt, OMAP_TIMER_INT_OVERFLOW); + + /* + * Set counter value to overflow counter after + * one tick and start timer. + */ + omap_dm_timer_set_load_start(gpt, 0, load); + + /* Wait 80us for timer to overflow */ + udelay(80); + + timeout = msecs_to_jiffies(5); + /* Check interrupt status and wait for interrupt */ + while (!(omap_dm_timer_read_status(gpt) & OMAP_TIMER_INT_OVERFLOW)) { + if (time_is_after_jiffies(timeout)) { + pr_err("%s: GPTimer interrupt failed\n", __func__); + break; + } + } +} + +/* + * ======== dsp_clk_enable ======== + * Purpose: + * Enable Clock . + * + */ +int dsp_clk_enable(IN enum dsp_clk_id clk_id) +{ + int status = 0; + + if (is_dsp_clk_active(dsp_clocks, clk_id)) { + dev_err(bridge, "WARN: clock id %d already enabled\n", clk_id); + goto out; + } + + switch (get_clk_type(clk_id)) { + case IVA2_CLK: + clk_enable(iva2_clk); + break; + case GPT_CLK: + timer[clk_id - 1] = + omap_dm_timer_request_specific(DMT_ID(clk_id)); + break; +#ifdef CONFIG_OMAP_MCBSP + case MCBSP_CLK: + mcbsp_clk_prepare(true, clk_id); + omap_mcbsp_set_io_type(MCBSP_ID(clk_id), OMAP_MCBSP_POLL_IO); + omap_mcbsp_request(MCBSP_ID(clk_id)); + break; +#endif + case WDT_CLK: + dev_err(bridge, "ERROR: DSP requested to enable WDT3 clk\n"); + break; + case SSI_CLK: + clk_enable(ssi.sst_fck); + clk_enable(ssi.ssr_fck); + clk_enable(ssi.ick); + + /* + * The SSI module need to configured not to have the Forced + * idle for master interface. If it is set to forced idle, + * the SSI module is transitioning to standby thereby causing + * the client in the DSP hang waiting for the SSI module to + * be active after enabling the clocks + */ + ssi_clk_prepare(true); + break; + default: + dev_err(bridge, "Invalid clock id for enable\n"); + status = -EPERM; + } + + if (DSP_SUCCEEDED(status)) + set_dsp_clk_active(&dsp_clocks, clk_id); + +out: + return status; +} + +/** + * dsp_clock_enable_all - Enable clocks used by the DSP + * @dev_context Driver's device context strucure + * + * This function enables all the peripheral clocks that were requested by DSP. + */ +u32 dsp_clock_enable_all(u32 dsp_per_clocks) +{ + u32 clk_id; + u32 status = -EPERM; + + for (clk_id = 0; clk_id < DSP_CLK_NOT_DEFINED; clk_id++) { + if (is_dsp_clk_active(dsp_per_clocks, clk_id)) + status = dsp_clk_enable(clk_id); + } + + return status; +} + +/* + * ======== dsp_clk_disable ======== + * Purpose: + * Disable the clock. + * + */ +int dsp_clk_disable(IN enum dsp_clk_id clk_id) +{ + int status = 0; + + if (!is_dsp_clk_active(dsp_clocks, clk_id)) { + dev_err(bridge, "ERR: clock id %d already disabled\n", clk_id); + goto out; + } + + switch (get_clk_type(clk_id)) { + case IVA2_CLK: + clk_disable(iva2_clk); + break; + case GPT_CLK: + omap_dm_timer_free(timer[clk_id - 1]); + break; +#ifdef CONFIG_OMAP_MCBSP + case MCBSP_CLK: + mcbsp_clk_prepare(false, clk_id); + omap_mcbsp_free(MCBSP_ID(clk_id)); + break; +#endif + case WDT_CLK: + dev_err(bridge, "ERROR: DSP requested to disable WDT3 clk\n"); + break; + case SSI_CLK: + ssi_clk_prepare(false); + ssi_clk_prepare(false); + clk_disable(ssi.sst_fck); + clk_disable(ssi.ssr_fck); + clk_disable(ssi.ick); + break; + default: + dev_err(bridge, "Invalid clock id for disable\n"); + status = -EPERM; + } + + if (DSP_SUCCEEDED(status)) + set_dsp_clk_inactive(&dsp_clocks, clk_id); + +out: + return status; +} + +/** + * dsp_clock_disable_all - Disable all active clocks + * @dev_context Driver's device context structure + * + * This function disables all the peripheral clocks that were enabled by DSP. + * It is meant to be called only when DSP is entering hibernation or when DSP + * is in error state. + */ +u32 dsp_clock_disable_all(u32 dsp_per_clocks) +{ + u32 clk_id; + u32 status = -EPERM; + + for (clk_id = 0; clk_id < DSP_CLK_NOT_DEFINED; clk_id++) { + if (is_dsp_clk_active(dsp_per_clocks, clk_id)) + status = dsp_clk_disable(clk_id); + } + + return status; +} + +u32 dsp_clk_get_iva2_rate(void) +{ + u32 clk_speed_khz; + + clk_speed_khz = clk_get_rate(iva2_clk); + clk_speed_khz /= 1000; + dev_dbg(bridge, "%s: clk speed Khz = %d\n", __func__, clk_speed_khz); + + return clk_speed_khz; +} + +void ssi_clk_prepare(bool FLAG) +{ + void __iomem *ssi_base; + unsigned int value; + + ssi_base = ioremap(L4_34XX_BASE + OMAP_SSI_OFFSET, OMAP_SSI_SIZE); + if (!ssi_base) { + pr_err("%s: error, SSI not configured\n", __func__); + return; + } + + if (FLAG) { + /* Set Autoidle, SIDLEMode to smart idle, and MIDLEmode to + * no idle + */ + value = SSI_AUTOIDLE | SSI_SIDLE_SMARTIDLE | SSI_MIDLE_NOIDLE; + } else { + /* Set Autoidle, SIDLEMode to forced idle, and MIDLEmode to + * forced idle + */ + value = SSI_AUTOIDLE; + } + + __raw_writel(value, ssi_base + OMAP_SSI_SYSCONFIG_OFFSET); + iounmap(ssi_base); +} + diff --git a/drivers/staging/tidspbridge/core/io_sm.c b/drivers/staging/tidspbridge/core/io_sm.c new file mode 100644 index 000000000000..7fb840da627a --- /dev/null +++ b/drivers/staging/tidspbridge/core/io_sm.c @@ -0,0 +1,2410 @@ +/* + * io_sm.c + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * IO dispatcher for a shared memory channel driver. + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +/* + * Channel Invariant: + * There is an important invariant condition which must be maintained per + * channel outside of bridge_chnl_get_ioc() and IO_Dispatch(), violation of + * which may cause timeouts and/or failure of the sync_wait_on_event + * function. + */ + +/* Host OS */ +#include +#include + +/* ----------------------------------- DSP/BIOS Bridge */ +#include +#include + +/* Trace & Debug */ +#include + +/* Services Layer */ +#include +#include +#include + +/* Hardware Abstraction Layer */ +#include +#include + +/* Bridge Driver */ +#include +#include +#include +#include +#include <_tiomap.h> +#include +#include <_tiomap_pwr.h> + +/* Platform Manager */ +#include +#include +#include + +/* Others */ +#include +#include +#include +#include "_cmm.h" +#include "module_list.h" + +/* This */ +#include +#include "_msg_sm.h" + +/* Defines, Data Structures, Typedefs */ +#define OUTPUTNOTREADY 0xffff +#define NOTENABLED 0xffff /* Channel(s) not enabled */ + +#define EXTEND "_EXT_END" + +#define SWAP_WORD(x) (x) +#define UL_PAGE_ALIGN_SIZE 0x10000 /* Page Align Size */ + +#define MAX_PM_REQS 32 + +#define MMU_FAULT_HEAD1 0xa5a5a5a5 +#define MMU_FAULT_HEAD2 0x96969696 +#define POLL_MAX 1000 +#define MAX_MMU_DBGBUFF 10240 + +/* IO Manager: only one created per board */ +struct io_mgr { + /* These four fields must be the first fields in a io_mgr_ struct */ + /* Bridge device context */ + struct bridge_dev_context *hbridge_context; + /* Function interface to Bridge driver */ + struct bridge_drv_interface *intf_fxns; + struct dev_object *hdev_obj; /* Device this board represents */ + + /* These fields initialized in bridge_io_create() */ + struct chnl_mgr *hchnl_mgr; + struct shm *shared_mem; /* Shared Memory control */ + u8 *input; /* Address of input channel */ + u8 *output; /* Address of output channel */ + struct msg_mgr *hmsg_mgr; /* Message manager */ + /* Msg control for from DSP messages */ + struct msg_ctrl *msg_input_ctrl; + /* Msg control for to DSP messages */ + struct msg_ctrl *msg_output_ctrl; + u8 *msg_input; /* Address of input messages */ + u8 *msg_output; /* Address of output messages */ + u32 usm_buf_size; /* Size of a shared memory I/O channel */ + bool shared_irq; /* Is this IRQ shared? */ + u32 word_size; /* Size in bytes of DSP word */ + u16 intr_val; /* Interrupt value */ + /* Private extnd proc info; mmu setup */ + struct mgr_processorextinfo ext_proc_info; + struct cmm_object *hcmm_mgr; /* Shared Mem Mngr */ + struct work_struct io_workq; /* workqueue */ +#ifndef DSP_TRACEBUF_DISABLED + u32 ul_trace_buffer_begin; /* Trace message start address */ + u32 ul_trace_buffer_end; /* Trace message end address */ + u32 ul_trace_buffer_current; /* Trace message current address */ + u32 ul_gpp_read_pointer; /* GPP Read pointer to Trace buffer */ + u8 *pmsg; + u32 ul_gpp_va; + u32 ul_dsp_va; +#endif + /* IO Dpc */ + u32 dpc_req; /* Number of requested DPC's. */ + u32 dpc_sched; /* Number of executed DPC's. */ + struct tasklet_struct dpc_tasklet; + spinlock_t dpc_lock; + +}; + +/* Function Prototypes */ +static void io_dispatch_chnl(IN struct io_mgr *pio_mgr, + IN OUT struct chnl_object *pchnl, u8 iMode); +static void io_dispatch_msg(IN struct io_mgr *pio_mgr, + struct msg_mgr *hmsg_mgr); +static void io_dispatch_pm(struct io_mgr *pio_mgr); +static void notify_chnl_complete(struct chnl_object *pchnl, + struct chnl_irp *chnl_packet_obj); +static void input_chnl(struct io_mgr *pio_mgr, struct chnl_object *pchnl, + u8 iMode); +static void output_chnl(struct io_mgr *pio_mgr, struct chnl_object *pchnl, + u8 iMode); +static void input_msg(struct io_mgr *pio_mgr, struct msg_mgr *hmsg_mgr); +static void output_msg(struct io_mgr *pio_mgr, struct msg_mgr *hmsg_mgr); +static u32 find_ready_output(struct chnl_mgr *chnl_mgr_obj, + struct chnl_object *pchnl, u32 dwMask); +static u32 read_data(struct bridge_dev_context *hDevContext, void *dest, + void *pSrc, u32 usize); +static u32 write_data(struct bridge_dev_context *hDevContext, void *dest, + void *pSrc, u32 usize); + +/* Bus Addr (cached kernel) */ +static int register_shm_segs(struct io_mgr *hio_mgr, + struct cod_manager *cod_man, + u32 dw_gpp_base_pa); + +/* + * ======== bridge_io_create ======== + * Create an IO manager object. + */ +int bridge_io_create(OUT struct io_mgr **phIOMgr, + struct dev_object *hdev_obj, + IN CONST struct io_attrs *pMgrAttrs) +{ + int status = 0; + struct io_mgr *pio_mgr = NULL; + struct shm *shared_mem = NULL; + struct bridge_dev_context *hbridge_context = NULL; + struct cfg_devnode *dev_node_obj; + struct chnl_mgr *hchnl_mgr; + u8 dev_type; + + /* Check requirements */ + if (!phIOMgr || !pMgrAttrs || pMgrAttrs->word_size == 0) { + status = -EFAULT; + goto func_end; + } + dev_get_chnl_mgr(hdev_obj, &hchnl_mgr); + if (!hchnl_mgr || hchnl_mgr->hio_mgr) { + status = -EFAULT; + goto func_end; + } + /* + * Message manager will be created when a file is loaded, since + * size of message buffer in shared memory is configurable in + * the base image. + */ + dev_get_bridge_context(hdev_obj, &hbridge_context); + if (!hbridge_context) { + status = -EFAULT; + goto func_end; + } + dev_get_dev_type(hdev_obj, &dev_type); + /* + * DSP shared memory area will get set properly when + * a program is loaded. They are unknown until a COFF file is + * loaded. I chose the value -1 because it was less likely to be + * a valid address than 0. + */ + shared_mem = (struct shm *)-1; + + /* Allocate IO manager object */ + pio_mgr = kzalloc(sizeof(struct io_mgr), GFP_KERNEL); + if (pio_mgr == NULL) { + status = -ENOMEM; + goto func_end; + } + + /* Initialize chnl_mgr object */ +#ifndef DSP_TRACEBUF_DISABLED + pio_mgr->pmsg = NULL; +#endif + pio_mgr->hchnl_mgr = hchnl_mgr; + pio_mgr->word_size = pMgrAttrs->word_size; + pio_mgr->shared_mem = shared_mem; + + if (dev_type == DSP_UNIT) { + /* Create an IO DPC */ + tasklet_init(&pio_mgr->dpc_tasklet, io_dpc, (u32) pio_mgr); + + /* Initialize DPC counters */ + pio_mgr->dpc_req = 0; + pio_mgr->dpc_sched = 0; + + spin_lock_init(&pio_mgr->dpc_lock); + + if (DSP_SUCCEEDED(status)) + status = dev_get_dev_node(hdev_obj, &dev_node_obj); + } + + if (DSP_SUCCEEDED(status)) { + pio_mgr->hbridge_context = hbridge_context; + pio_mgr->shared_irq = pMgrAttrs->irq_shared; + if (dsp_wdt_init()) + status = -EPERM; + } else { + status = -EIO; + } +func_end: + if (DSP_FAILED(status)) { + /* Cleanup */ + bridge_io_destroy(pio_mgr); + if (phIOMgr) + *phIOMgr = NULL; + } else { + /* Return IO manager object to caller... */ + hchnl_mgr->hio_mgr = pio_mgr; + *phIOMgr = pio_mgr; + } + return status; +} + +/* + * ======== bridge_io_destroy ======== + * Purpose: + * Disable interrupts, destroy the IO manager. + */ +int bridge_io_destroy(struct io_mgr *hio_mgr) +{ + int status = 0; + if (hio_mgr) { + /* Free IO DPC object */ + tasklet_kill(&hio_mgr->dpc_tasklet); + +#ifndef DSP_TRACEBUF_DISABLED + kfree(hio_mgr->pmsg); +#endif + dsp_wdt_exit(); + /* Free this IO manager object */ + kfree(hio_mgr); + } else { + status = -EFAULT; + } + + return status; +} + +/* + * ======== bridge_io_on_loaded ======== + * Purpose: + * Called when a new program is loaded to get shared memory buffer + * parameters from COFF file. ulSharedBufferBase and ulSharedBufferLimit + * are in DSP address units. + */ +int bridge_io_on_loaded(struct io_mgr *hio_mgr) +{ + struct cod_manager *cod_man; + struct chnl_mgr *hchnl_mgr; + struct msg_mgr *hmsg_mgr; + u32 ul_shm_base; + u32 ul_shm_base_offset; + u32 ul_shm_limit; + u32 ul_shm_length = -1; + u32 ul_mem_length = -1; + u32 ul_msg_base; + u32 ul_msg_limit; + u32 ul_msg_length = -1; + u32 ul_ext_end; + u32 ul_gpp_pa = 0; + u32 ul_gpp_va = 0; + u32 ul_dsp_va = 0; + u32 ul_seg_size = 0; + u32 ul_pad_size = 0; + u32 i; + int status = 0; + u8 num_procs = 0; + s32 ndx = 0; + /* DSP MMU setup table */ + struct bridge_ioctl_extproc ae_proc[BRDIOCTL_NUMOFMMUTLB]; + struct cfg_hostres *host_res; + struct bridge_dev_context *pbridge_context; + u32 map_attrs; + u32 shm0_end; + u32 ul_dyn_ext_base; + u32 ul_seg1_size = 0; + u32 pa_curr = 0; + u32 va_curr = 0; + u32 gpp_va_curr = 0; + u32 num_bytes = 0; + u32 all_bits = 0; + u32 page_size[] = { HW_PAGE_SIZE16MB, HW_PAGE_SIZE1MB, + HW_PAGE_SIZE64KB, HW_PAGE_SIZE4KB + }; + + status = dev_get_bridge_context(hio_mgr->hdev_obj, &pbridge_context); + if (!pbridge_context) { + status = -EFAULT; + goto func_end; + } + + host_res = pbridge_context->resources; + if (!host_res) { + status = -EFAULT; + goto func_end; + } + status = dev_get_cod_mgr(hio_mgr->hdev_obj, &cod_man); + if (!cod_man) { + status = -EFAULT; + goto func_end; + } + hchnl_mgr = hio_mgr->hchnl_mgr; + /* The message manager is destroyed when the board is stopped. */ + dev_get_msg_mgr(hio_mgr->hdev_obj, &hio_mgr->hmsg_mgr); + hmsg_mgr = hio_mgr->hmsg_mgr; + if (!hchnl_mgr || !hmsg_mgr) { + status = -EFAULT; + goto func_end; + } + if (hio_mgr->shared_mem) + hio_mgr->shared_mem = NULL; + + /* Get start and length of channel part of shared memory */ + status = cod_get_sym_value(cod_man, CHNL_SHARED_BUFFER_BASE_SYM, + &ul_shm_base); + if (DSP_FAILED(status)) { + status = -EFAULT; + goto func_end; + } + status = cod_get_sym_value(cod_man, CHNL_SHARED_BUFFER_LIMIT_SYM, + &ul_shm_limit); + if (DSP_FAILED(status)) { + status = -EFAULT; + goto func_end; + } + if (ul_shm_limit <= ul_shm_base) { + status = -EINVAL; + goto func_end; + } + /* Get total length in bytes */ + ul_shm_length = (ul_shm_limit - ul_shm_base + 1) * hio_mgr->word_size; + /* Calculate size of a PROCCOPY shared memory region */ + dev_dbg(bridge, "%s: (proc)proccopy shmmem size: 0x%x bytes\n", + __func__, (ul_shm_length - sizeof(struct shm))); + + if (DSP_SUCCEEDED(status)) { + /* Get start and length of message part of shared memory */ + status = cod_get_sym_value(cod_man, MSG_SHARED_BUFFER_BASE_SYM, + &ul_msg_base); + } + if (DSP_SUCCEEDED(status)) { + status = cod_get_sym_value(cod_man, MSG_SHARED_BUFFER_LIMIT_SYM, + &ul_msg_limit); + if (DSP_SUCCEEDED(status)) { + if (ul_msg_limit <= ul_msg_base) { + status = -EINVAL; + } else { + /* + * Length (bytes) of messaging part of shared + * memory. + */ + ul_msg_length = + (ul_msg_limit - ul_msg_base + + 1) * hio_mgr->word_size; + /* + * Total length (bytes) of shared memory: + * chnl + msg. + */ + ul_mem_length = ul_shm_length + ul_msg_length; + } + } else { + status = -EFAULT; + } + } else { + status = -EFAULT; + } + if (DSP_SUCCEEDED(status)) { +#ifndef DSP_TRACEBUF_DISABLED + status = + cod_get_sym_value(cod_man, DSP_TRACESEC_END, &shm0_end); +#else + status = cod_get_sym_value(cod_man, SHM0_SHARED_END_SYM, + &shm0_end); +#endif + if (DSP_FAILED(status)) + status = -EFAULT; + } + if (DSP_SUCCEEDED(status)) { + status = + cod_get_sym_value(cod_man, DYNEXTBASE, &ul_dyn_ext_base); + if (DSP_FAILED(status)) + status = -EFAULT; + } + if (DSP_SUCCEEDED(status)) { + status = cod_get_sym_value(cod_man, EXTEND, &ul_ext_end); + if (DSP_FAILED(status)) + status = -EFAULT; + } + if (DSP_SUCCEEDED(status)) { + /* Get memory reserved in host resources */ + (void)mgr_enum_processor_info(0, (struct dsp_processorinfo *) + &hio_mgr->ext_proc_info, + sizeof(struct + mgr_processorextinfo), + &num_procs); + + /* The first MMU TLB entry(TLB_0) in DCD is ShmBase. */ + ndx = 0; + ul_gpp_pa = host_res->dw_mem_phys[1]; + ul_gpp_va = host_res->dw_mem_base[1]; + /* This is the virtual uncached ioremapped address!!! */ + /* Why can't we directly take the DSPVA from the symbols? */ + ul_dsp_va = hio_mgr->ext_proc_info.ty_tlb[0].ul_dsp_virt; + ul_seg_size = (shm0_end - ul_dsp_va) * hio_mgr->word_size; + ul_seg1_size = + (ul_ext_end - ul_dyn_ext_base) * hio_mgr->word_size; + /* 4K align */ + ul_seg1_size = (ul_seg1_size + 0xFFF) & (~0xFFFUL); + /* 64K align */ + ul_seg_size = (ul_seg_size + 0xFFFF) & (~0xFFFFUL); + ul_pad_size = UL_PAGE_ALIGN_SIZE - ((ul_gpp_pa + ul_seg1_size) % + UL_PAGE_ALIGN_SIZE); + if (ul_pad_size == UL_PAGE_ALIGN_SIZE) + ul_pad_size = 0x0; + + dev_dbg(bridge, "%s: ul_gpp_pa %x, ul_gpp_va %x, ul_dsp_va %x, " + "shm0_end %x, ul_dyn_ext_base %x, ul_ext_end %x, " + "ul_seg_size %x ul_seg1_size %x \n", __func__, + ul_gpp_pa, ul_gpp_va, ul_dsp_va, shm0_end, + ul_dyn_ext_base, ul_ext_end, ul_seg_size, ul_seg1_size); + + if ((ul_seg_size + ul_seg1_size + ul_pad_size) > + host_res->dw_mem_length[1]) { + pr_err("%s: shm Error, reserved 0x%x required 0x%x\n", + __func__, host_res->dw_mem_length[1], + ul_seg_size + ul_seg1_size + ul_pad_size); + status = -ENOMEM; + } + } + if (DSP_FAILED(status)) + goto func_end; + + pa_curr = ul_gpp_pa; + va_curr = ul_dyn_ext_base * hio_mgr->word_size; + gpp_va_curr = ul_gpp_va; + num_bytes = ul_seg1_size; + + /* + * Try to fit into TLB entries. If not possible, push them to page + * tables. It is quite possible that if sections are not on + * bigger page boundary, we may end up making several small pages. + * So, push them onto page tables, if that is the case. + */ + map_attrs = 0x00000000; + map_attrs = DSP_MAPLITTLEENDIAN; + map_attrs |= DSP_MAPPHYSICALADDR; + map_attrs |= DSP_MAPELEMSIZE32; + map_attrs |= DSP_MAPDONOTLOCK; + + while (num_bytes) { + /* + * To find the max. page size with which both PA & VA are + * aligned. + */ + all_bits = pa_curr | va_curr; + dev_dbg(bridge, "all_bits %x, pa_curr %x, va_curr %x, " + "num_bytes %x\n", all_bits, pa_curr, va_curr, + num_bytes); + for (i = 0; i < 4; i++) { + if ((num_bytes >= page_size[i]) && ((all_bits & + (page_size[i] - + 1)) == 0)) { + status = + hio_mgr->intf_fxns-> + pfn_brd_mem_map(hio_mgr->hbridge_context, + pa_curr, va_curr, + page_size[i], map_attrs, + NULL); + if (DSP_FAILED(status)) + goto func_end; + pa_curr += page_size[i]; + va_curr += page_size[i]; + gpp_va_curr += page_size[i]; + num_bytes -= page_size[i]; + /* + * Don't try smaller sizes. Hopefully we have + * reached an address aligned to a bigger page + * size. + */ + break; + } + } + } + pa_curr += ul_pad_size; + va_curr += ul_pad_size; + gpp_va_curr += ul_pad_size; + + /* Configure the TLB entries for the next cacheable segment */ + num_bytes = ul_seg_size; + va_curr = ul_dsp_va * hio_mgr->word_size; + while (num_bytes) { + /* + * To find the max. page size with which both PA & VA are + * aligned. + */ + all_bits = pa_curr | va_curr; + dev_dbg(bridge, "all_bits for Seg1 %x, pa_curr %x, " + "va_curr %x, num_bytes %x\n", all_bits, pa_curr, + va_curr, num_bytes); + for (i = 0; i < 4; i++) { + if (!(num_bytes >= page_size[i]) || + !((all_bits & (page_size[i] - 1)) == 0)) + continue; + if (ndx < MAX_LOCK_TLB_ENTRIES) { + /* + * This is the physical address written to + * DSP MMU. + */ + ae_proc[ndx].ul_gpp_pa = pa_curr; + /* + * This is the virtual uncached ioremapped + * address!!! + */ + ae_proc[ndx].ul_gpp_va = gpp_va_curr; + ae_proc[ndx].ul_dsp_va = + va_curr / hio_mgr->word_size; + ae_proc[ndx].ul_size = page_size[i]; + ae_proc[ndx].endianism = HW_LITTLE_ENDIAN; + ae_proc[ndx].elem_size = HW_ELEM_SIZE16BIT; + ae_proc[ndx].mixed_mode = HW_MMU_CPUES; + dev_dbg(bridge, "shm MMU TLB entry PA %x" + " VA %x DSP_VA %x Size %x\n", + ae_proc[ndx].ul_gpp_pa, + ae_proc[ndx].ul_gpp_va, + ae_proc[ndx].ul_dsp_va * + hio_mgr->word_size, page_size[i]); + ndx++; + } else { + status = + hio_mgr->intf_fxns-> + pfn_brd_mem_map(hio_mgr->hbridge_context, + pa_curr, va_curr, + page_size[i], map_attrs, + NULL); + dev_dbg(bridge, + "shm MMU PTE entry PA %x" + " VA %x DSP_VA %x Size %x\n", + ae_proc[ndx].ul_gpp_pa, + ae_proc[ndx].ul_gpp_va, + ae_proc[ndx].ul_dsp_va * + hio_mgr->word_size, page_size[i]); + if (DSP_FAILED(status)) + goto func_end; + } + pa_curr += page_size[i]; + va_curr += page_size[i]; + gpp_va_curr += page_size[i]; + num_bytes -= page_size[i]; + /* + * Don't try smaller sizes. Hopefully we have reached + * an address aligned to a bigger page size. + */ + break; + } + } + + /* + * Copy remaining entries from CDB. All entries are 1 MB and + * should not conflict with shm entries on MPU or DSP side. + */ + for (i = 3; i < 7 && ndx < BRDIOCTL_NUMOFMMUTLB; i++) { + if (hio_mgr->ext_proc_info.ty_tlb[i].ul_gpp_phys == 0) + continue; + + if ((hio_mgr->ext_proc_info.ty_tlb[i].ul_gpp_phys > + ul_gpp_pa - 0x100000 + && hio_mgr->ext_proc_info.ty_tlb[i].ul_gpp_phys <= + ul_gpp_pa + ul_seg_size) + || (hio_mgr->ext_proc_info.ty_tlb[i].ul_dsp_virt > + ul_dsp_va - 0x100000 / hio_mgr->word_size + && hio_mgr->ext_proc_info.ty_tlb[i].ul_dsp_virt <= + ul_dsp_va + ul_seg_size / hio_mgr->word_size)) { + dev_dbg(bridge, + "CDB MMU entry %d conflicts with " + "shm.\n\tCDB: GppPa %x, DspVa %x.\n\tSHM: " + "GppPa %x, DspVa %x, Bytes %x.\n", i, + hio_mgr->ext_proc_info.ty_tlb[i].ul_gpp_phys, + hio_mgr->ext_proc_info.ty_tlb[i].ul_dsp_virt, + ul_gpp_pa, ul_dsp_va, ul_seg_size); + status = -EPERM; + } else { + if (ndx < MAX_LOCK_TLB_ENTRIES) { + ae_proc[ndx].ul_dsp_va = + hio_mgr->ext_proc_info.ty_tlb[i]. + ul_dsp_virt; + ae_proc[ndx].ul_gpp_pa = + hio_mgr->ext_proc_info.ty_tlb[i]. + ul_gpp_phys; + ae_proc[ndx].ul_gpp_va = 0; + /* 1 MB */ + ae_proc[ndx].ul_size = 0x100000; + dev_dbg(bridge, "shm MMU entry PA %x " + "DSP_VA 0x%x\n", ae_proc[ndx].ul_gpp_pa, + ae_proc[ndx].ul_dsp_va); + ndx++; + } else { + status = hio_mgr->intf_fxns->pfn_brd_mem_map + (hio_mgr->hbridge_context, + hio_mgr->ext_proc_info.ty_tlb[i]. + ul_gpp_phys, + hio_mgr->ext_proc_info.ty_tlb[i]. + ul_dsp_virt, 0x100000, map_attrs, + NULL); + } + } + if (DSP_FAILED(status)) + goto func_end; + } + + map_attrs = 0x00000000; + map_attrs = DSP_MAPLITTLEENDIAN; + map_attrs |= DSP_MAPPHYSICALADDR; + map_attrs |= DSP_MAPELEMSIZE32; + map_attrs |= DSP_MAPDONOTLOCK; + + /* Map the L4 peripherals */ + i = 0; + while (l4_peripheral_table[i].phys_addr) { + status = hio_mgr->intf_fxns->pfn_brd_mem_map + (hio_mgr->hbridge_context, l4_peripheral_table[i].phys_addr, + l4_peripheral_table[i].dsp_virt_addr, HW_PAGE_SIZE4KB, + map_attrs, NULL); + if (DSP_FAILED(status)) + goto func_end; + i++; + } + + for (i = ndx; i < BRDIOCTL_NUMOFMMUTLB; i++) { + ae_proc[i].ul_dsp_va = 0; + ae_proc[i].ul_gpp_pa = 0; + ae_proc[i].ul_gpp_va = 0; + ae_proc[i].ul_size = 0; + } + /* + * Set the shm physical address entry (grayed out in CDB file) + * to the virtual uncached ioremapped address of shm reserved + * on MPU. + */ + hio_mgr->ext_proc_info.ty_tlb[0].ul_gpp_phys = + (ul_gpp_va + ul_seg1_size + ul_pad_size); + + /* + * Need shm Phys addr. IO supports only one DSP for now: + * num_procs = 1. + */ + if (!hio_mgr->ext_proc_info.ty_tlb[0].ul_gpp_phys || num_procs != 1) { + status = -EFAULT; + goto func_end; + } else { + if (ae_proc[0].ul_dsp_va > ul_shm_base) { + status = -EPERM; + goto func_end; + } + /* ul_shm_base may not be at ul_dsp_va address */ + ul_shm_base_offset = (ul_shm_base - ae_proc[0].ul_dsp_va) * + hio_mgr->word_size; + /* + * bridge_dev_ctrl() will set dev context dsp-mmu info. In + * bridge_brd_start() the MMU will be re-programed with MMU + * DSPVa-GPPPa pair info while DSP is in a known + * (reset) state. + */ + + status = + hio_mgr->intf_fxns->pfn_dev_cntrl(hio_mgr->hbridge_context, + BRDIOCTL_SETMMUCONFIG, + ae_proc); + if (DSP_FAILED(status)) + goto func_end; + ul_shm_base = hio_mgr->ext_proc_info.ty_tlb[0].ul_gpp_phys; + ul_shm_base += ul_shm_base_offset; + ul_shm_base = (u32) MEM_LINEAR_ADDRESS((void *)ul_shm_base, + ul_mem_length); + if (ul_shm_base == 0) { + status = -EFAULT; + goto func_end; + } + /* Register SM */ + status = + register_shm_segs(hio_mgr, cod_man, ae_proc[0].ul_gpp_pa); + } + + hio_mgr->shared_mem = (struct shm *)ul_shm_base; + hio_mgr->input = (u8 *) hio_mgr->shared_mem + sizeof(struct shm); + hio_mgr->output = hio_mgr->input + (ul_shm_length - + sizeof(struct shm)) / 2; + hio_mgr->usm_buf_size = hio_mgr->output - hio_mgr->input; + + /* Set up Shared memory addresses for messaging. */ + hio_mgr->msg_input_ctrl = (struct msg_ctrl *)((u8 *) hio_mgr->shared_mem + + ul_shm_length); + hio_mgr->msg_input = + (u8 *) hio_mgr->msg_input_ctrl + sizeof(struct msg_ctrl); + hio_mgr->msg_output_ctrl = + (struct msg_ctrl *)((u8 *) hio_mgr->msg_input_ctrl + + ul_msg_length / 2); + hio_mgr->msg_output = + (u8 *) hio_mgr->msg_output_ctrl + sizeof(struct msg_ctrl); + hmsg_mgr->max_msgs = + ((u8 *) hio_mgr->msg_output_ctrl - hio_mgr->msg_input) + / sizeof(struct msg_dspmsg); + dev_dbg(bridge, "IO MGR shm details: shared_mem %p, input %p, " + "output %p, msg_input_ctrl %p, msg_input %p, " + "msg_output_ctrl %p, msg_output %p\n", + (u8 *) hio_mgr->shared_mem, hio_mgr->input, + hio_mgr->output, (u8 *) hio_mgr->msg_input_ctrl, + hio_mgr->msg_input, (u8 *) hio_mgr->msg_output_ctrl, + hio_mgr->msg_output); + dev_dbg(bridge, "(proc) Mas msgs in shared memory: 0x%x\n", + hmsg_mgr->max_msgs); + memset((void *)hio_mgr->shared_mem, 0, sizeof(struct shm)); + +#ifndef DSP_TRACEBUF_DISABLED + /* Get the start address of trace buffer */ + status = cod_get_sym_value(cod_man, SYS_PUTCBEG, + &hio_mgr->ul_trace_buffer_begin); + if (DSP_FAILED(status)) { + status = -EFAULT; + goto func_end; + } + + hio_mgr->ul_gpp_read_pointer = hio_mgr->ul_trace_buffer_begin = + (ul_gpp_va + ul_seg1_size + ul_pad_size) + + (hio_mgr->ul_trace_buffer_begin - ul_dsp_va); + /* Get the end address of trace buffer */ + status = cod_get_sym_value(cod_man, SYS_PUTCEND, + &hio_mgr->ul_trace_buffer_end); + if (DSP_FAILED(status)) { + status = -EFAULT; + goto func_end; + } + hio_mgr->ul_trace_buffer_end = + (ul_gpp_va + ul_seg1_size + ul_pad_size) + + (hio_mgr->ul_trace_buffer_end - ul_dsp_va); + /* Get the current address of DSP write pointer */ + status = cod_get_sym_value(cod_man, BRIDGE_SYS_PUTC_CURRENT, + &hio_mgr->ul_trace_buffer_current); + if (DSP_FAILED(status)) { + status = -EFAULT; + goto func_end; + } + hio_mgr->ul_trace_buffer_current = + (ul_gpp_va + ul_seg1_size + ul_pad_size) + + (hio_mgr->ul_trace_buffer_current - ul_dsp_va); + /* Calculate the size of trace buffer */ + kfree(hio_mgr->pmsg); + hio_mgr->pmsg = kmalloc(((hio_mgr->ul_trace_buffer_end - + hio_mgr->ul_trace_buffer_begin) * + hio_mgr->word_size) + 2, GFP_KERNEL); + if (!hio_mgr->pmsg) + status = -ENOMEM; + + hio_mgr->ul_dsp_va = ul_dsp_va; + hio_mgr->ul_gpp_va = (ul_gpp_va + ul_seg1_size + ul_pad_size); + +#endif +func_end: + return status; +} + +/* + * ======== io_buf_size ======== + * Size of shared memory I/O channel. + */ +u32 io_buf_size(struct io_mgr *hio_mgr) +{ + if (hio_mgr) + return hio_mgr->usm_buf_size; + else + return 0; +} + +/* + * ======== io_cancel_chnl ======== + * Cancel IO on a given PCPY channel. + */ +void io_cancel_chnl(struct io_mgr *hio_mgr, u32 ulChnl) +{ + struct io_mgr *pio_mgr = (struct io_mgr *)hio_mgr; + struct shm *sm; + + if (!hio_mgr) + goto func_end; + sm = hio_mgr->shared_mem; + + /* Inform DSP that we have no more buffers on this channel */ + IO_AND_VALUE(pio_mgr->hbridge_context, struct shm, sm, host_free_mask, + (~(1 << ulChnl))); + + sm_interrupt_dsp(pio_mgr->hbridge_context, MBX_PCPY_CLASS); +func_end: + return; +} + +/* + * ======== io_dispatch_chnl ======== + * Proc-copy chanl dispatch. + */ +static void io_dispatch_chnl(IN struct io_mgr *pio_mgr, + IN OUT struct chnl_object *pchnl, u8 iMode) +{ + if (!pio_mgr) + goto func_end; + + /* See if there is any data available for transfer */ + if (iMode != IO_SERVICE) + goto func_end; + + /* Any channel will do for this mode */ + input_chnl(pio_mgr, pchnl, iMode); + output_chnl(pio_mgr, pchnl, iMode); +func_end: + return; +} + +/* + * ======== io_dispatch_msg ======== + * Performs I/O dispatch on message queues. + */ +static void io_dispatch_msg(IN struct io_mgr *pio_mgr, struct msg_mgr *hmsg_mgr) +{ + if (!pio_mgr) + goto func_end; + + /* We are performing both input and output processing. */ + input_msg(pio_mgr, hmsg_mgr); + output_msg(pio_mgr, hmsg_mgr); +func_end: + return; +} + +/* + * ======== io_dispatch_pm ======== + * Performs I/O dispatch on PM related messages from DSP + */ +static void io_dispatch_pm(struct io_mgr *pio_mgr) +{ + int status; + u32 parg[2]; + + /* Perform Power message processing here */ + parg[0] = pio_mgr->intr_val; + + /* Send the command to the Bridge clk/pwr manager to handle */ + if (parg[0] == MBX_PM_HIBERNATE_EN) { + dev_dbg(bridge, "PM: Hibernate command\n"); + status = pio_mgr->intf_fxns-> + pfn_dev_cntrl(pio_mgr->hbridge_context, + BRDIOCTL_PWR_HIBERNATE, parg); + if (DSP_FAILED(status)) + pr_err("%s: hibernate cmd failed 0x%x\n", + __func__, status); + } else if (parg[0] == MBX_PM_OPP_REQ) { + parg[1] = pio_mgr->shared_mem->opp_request.rqst_opp_pt; + dev_dbg(bridge, "PM: Requested OPP = 0x%x\n", parg[1]); + status = pio_mgr->intf_fxns-> + pfn_dev_cntrl(pio_mgr->hbridge_context, + BRDIOCTL_CONSTRAINT_REQUEST, parg); + if (DSP_FAILED(status)) + dev_dbg(bridge, "PM: Failed to set constraint " + "= 0x%x \n", parg[1]); + } else { + dev_dbg(bridge, "PM: clk control value of msg = 0x%x\n", + parg[0]); + status = pio_mgr->intf_fxns-> + pfn_dev_cntrl(pio_mgr->hbridge_context, + BRDIOCTL_CLK_CTRL, parg); + if (DSP_FAILED(status)) + dev_dbg(bridge, "PM: Failed to ctrl the DSP clk" + "= 0x%x\n", *parg); + } +} + +/* + * ======== io_dpc ======== + * Deferred procedure call for shared memory channel driver ISR. Carries + * out the dispatch of I/O as a non-preemptible event.It can only be + * pre-empted by an ISR. + */ +void io_dpc(IN OUT unsigned long pRefData) +{ + struct io_mgr *pio_mgr = (struct io_mgr *)pRefData; + struct chnl_mgr *chnl_mgr_obj; + struct msg_mgr *msg_mgr_obj; + struct deh_mgr *hdeh_mgr; + u32 requested; + u32 serviced; + + if (!pio_mgr) + goto func_end; + chnl_mgr_obj = pio_mgr->hchnl_mgr; + dev_get_msg_mgr(pio_mgr->hdev_obj, &msg_mgr_obj); + dev_get_deh_mgr(pio_mgr->hdev_obj, &hdeh_mgr); + if (!chnl_mgr_obj) + goto func_end; + + requested = pio_mgr->dpc_req; + serviced = pio_mgr->dpc_sched; + + if (serviced == requested) + goto func_end; + + /* Process pending DPC's */ + do { + /* Check value of interrupt reg to ensure it's a valid error */ + if ((pio_mgr->intr_val > DEH_BASE) && + (pio_mgr->intr_val < DEH_LIMIT)) { + /* Notify DSP/BIOS exception */ + if (hdeh_mgr) { +#ifndef DSP_TRACE_BUF_DISABLED + print_dsp_debug_trace(pio_mgr); +#endif + bridge_deh_notify(hdeh_mgr, DSP_SYSERROR, + pio_mgr->intr_val); + } + } + io_dispatch_chnl(pio_mgr, NULL, IO_SERVICE); +#ifdef CHNL_MESSAGES + if (msg_mgr_obj) + io_dispatch_msg(pio_mgr, msg_mgr_obj); +#endif +#ifndef DSP_TRACEBUF_DISABLED + if (pio_mgr->intr_val & MBX_DBG_SYSPRINTF) { + /* Notify DSP Trace message */ + print_dsp_debug_trace(pio_mgr); + } +#endif + serviced++; + } while (serviced != requested); + pio_mgr->dpc_sched = requested; +func_end: + return; +} + +/* + * ======== io_mbox_msg ======== + * Main interrupt handler for the shared memory IO manager. + * Calls the Bridge's CHNL_ISR to determine if this interrupt is ours, then + * schedules a DPC to dispatch I/O. + */ +void io_mbox_msg(u32 msg) +{ + struct io_mgr *pio_mgr; + struct dev_object *dev_obj; + unsigned long flags; + + dev_obj = dev_get_first(); + dev_get_io_mgr(dev_obj, &pio_mgr); + + if (!pio_mgr) + return; + + pio_mgr->intr_val = (u16)msg; + if (pio_mgr->intr_val & MBX_PM_CLASS) + io_dispatch_pm(pio_mgr); + + if (pio_mgr->intr_val == MBX_DEH_RESET) { + pio_mgr->intr_val = 0; + } else { + spin_lock_irqsave(&pio_mgr->dpc_lock, flags); + pio_mgr->dpc_req++; + spin_unlock_irqrestore(&pio_mgr->dpc_lock, flags); + tasklet_schedule(&pio_mgr->dpc_tasklet); + } + return; +} + +/* + * ======== io_request_chnl ======== + * Purpose: + * Request chanenel I/O from the DSP. Sets flags in shared memory, then + * interrupts the DSP. + */ +void io_request_chnl(struct io_mgr *pio_mgr, struct chnl_object *pchnl, + u8 iMode, OUT u16 *pwMbVal) +{ + struct chnl_mgr *chnl_mgr_obj; + struct shm *sm; + + if (!pchnl || !pwMbVal) + goto func_end; + chnl_mgr_obj = pio_mgr->hchnl_mgr; + sm = pio_mgr->shared_mem; + if (iMode == IO_INPUT) { + /* + * Assertion fires if CHNL_AddIOReq() called on a stream + * which was cancelled, or attached to a dead board. + */ + DBC_ASSERT((pchnl->dw_state == CHNL_STATEREADY) || + (pchnl->dw_state == CHNL_STATEEOS)); + /* Indicate to the DSP we have a buffer available for input */ + IO_OR_VALUE(pio_mgr->hbridge_context, struct shm, sm, + host_free_mask, (1 << pchnl->chnl_id)); + *pwMbVal = MBX_PCPY_CLASS; + } else if (iMode == IO_OUTPUT) { + /* + * This assertion fails if CHNL_AddIOReq() was called on a + * stream which was cancelled, or attached to a dead board. + */ + DBC_ASSERT((pchnl->dw_state & ~CHNL_STATEEOS) == + CHNL_STATEREADY); + /* + * Record the fact that we have a buffer available for + * output. + */ + chnl_mgr_obj->dw_output_mask |= (1 << pchnl->chnl_id); + } else { + DBC_ASSERT(iMode); /* Shouldn't get here. */ + } +func_end: + return; +} + +/* + * ======== iosm_schedule ======== + * Schedule DPC for IO. + */ +void iosm_schedule(struct io_mgr *pio_mgr) +{ + unsigned long flags; + + if (!pio_mgr) + return; + + /* Increment count of DPC's pending. */ + spin_lock_irqsave(&pio_mgr->dpc_lock, flags); + pio_mgr->dpc_req++; + spin_unlock_irqrestore(&pio_mgr->dpc_lock, flags); + + /* Schedule DPC */ + tasklet_schedule(&pio_mgr->dpc_tasklet); +} + +/* + * ======== find_ready_output ======== + * Search for a host output channel which is ready to send. If this is + * called as a result of servicing the DPC, then implement a round + * robin search; otherwise, this was called by a client thread (via + * IO_Dispatch()), so just start searching from the current channel id. + */ +static u32 find_ready_output(struct chnl_mgr *chnl_mgr_obj, + struct chnl_object *pchnl, u32 dwMask) +{ + u32 ret = OUTPUTNOTREADY; + u32 id, start_id; + u32 shift; + + id = (pchnl != + NULL ? pchnl->chnl_id : (chnl_mgr_obj->dw_last_output + 1)); + id = ((id == CHNL_MAXCHANNELS) ? 0 : id); + if (id >= CHNL_MAXCHANNELS) + goto func_end; + if (dwMask) { + shift = (1 << id); + start_id = id; + do { + if (dwMask & shift) { + ret = id; + if (pchnl == NULL) + chnl_mgr_obj->dw_last_output = id; + break; + } + id = id + 1; + id = ((id == CHNL_MAXCHANNELS) ? 0 : id); + shift = (1 << id); + } while (id != start_id); + } +func_end: + return ret; +} + +/* + * ======== input_chnl ======== + * Dispatch a buffer on an input channel. + */ +static void input_chnl(struct io_mgr *pio_mgr, struct chnl_object *pchnl, + u8 iMode) +{ + struct chnl_mgr *chnl_mgr_obj; + struct shm *sm; + u32 chnl_id; + u32 bytes; + struct chnl_irp *chnl_packet_obj = NULL; + u32 dw_arg; + bool clear_chnl = false; + bool notify_client = false; + + sm = pio_mgr->shared_mem; + chnl_mgr_obj = pio_mgr->hchnl_mgr; + + /* Attempt to perform input */ + if (!IO_GET_VALUE(pio_mgr->hbridge_context, struct shm, sm, input_full)) + goto func_end; + + bytes = + IO_GET_VALUE(pio_mgr->hbridge_context, struct shm, sm, + input_size) * chnl_mgr_obj->word_size; + chnl_id = IO_GET_VALUE(pio_mgr->hbridge_context, struct shm, + sm, input_id); + dw_arg = IO_GET_LONG(pio_mgr->hbridge_context, struct shm, sm, arg); + if (chnl_id >= CHNL_MAXCHANNELS) { + /* Shouldn't be here: would indicate corrupted shm. */ + DBC_ASSERT(chnl_id); + goto func_end; + } + pchnl = chnl_mgr_obj->ap_channel[chnl_id]; + if ((pchnl != NULL) && CHNL_IS_INPUT(pchnl->chnl_mode)) { + if ((pchnl->dw_state & ~CHNL_STATEEOS) == CHNL_STATEREADY) { + if (!pchnl->pio_requests) + goto func_end; + /* Get the I/O request, and attempt a transfer */ + chnl_packet_obj = (struct chnl_irp *) + lst_get_head(pchnl->pio_requests); + if (chnl_packet_obj) { + pchnl->cio_reqs--; + if (pchnl->cio_reqs < 0) + goto func_end; + /* + * Ensure we don't overflow the client's + * buffer. + */ + bytes = min(bytes, chnl_packet_obj->byte_size); + /* Transfer buffer from DSP side */ + bytes = read_data(pio_mgr->hbridge_context, + chnl_packet_obj->host_sys_buf, + pio_mgr->input, bytes); + pchnl->bytes_moved += bytes; + chnl_packet_obj->byte_size = bytes; + chnl_packet_obj->dw_arg = dw_arg; + chnl_packet_obj->status = CHNL_IOCSTATCOMPLETE; + + if (bytes == 0) { + /* + * This assertion fails if the DSP + * sends EOS more than once on this + * channel. + */ + if (pchnl->dw_state & CHNL_STATEEOS) + goto func_end; + /* + * Zero bytes indicates EOS. Update + * IOC status for this chirp, and also + * the channel state. + */ + chnl_packet_obj->status |= + CHNL_IOCSTATEOS; + pchnl->dw_state |= CHNL_STATEEOS; + /* + * Notify that end of stream has + * occurred. + */ + ntfy_notify(pchnl->ntfy_obj, + DSP_STREAMDONE); + } + /* Tell DSP if no more I/O buffers available */ + if (!pchnl->pio_requests) + goto func_end; + if (LST_IS_EMPTY(pchnl->pio_requests)) { + IO_AND_VALUE(pio_mgr->hbridge_context, + struct shm, sm, + host_free_mask, + ~(1 << pchnl->chnl_id)); + } + clear_chnl = true; + notify_client = true; + } else { + /* + * Input full for this channel, but we have no + * buffers available. The channel must be + * "idling". Clear out the physical input + * channel. + */ + clear_chnl = true; + } + } else { + /* Input channel cancelled: clear input channel */ + clear_chnl = true; + } + } else { + /* DPC fired after host closed channel: clear input channel */ + clear_chnl = true; + } + if (clear_chnl) { + /* Indicate to the DSP we have read the input */ + IO_SET_VALUE(pio_mgr->hbridge_context, struct shm, sm, + input_full, 0); + sm_interrupt_dsp(pio_mgr->hbridge_context, MBX_PCPY_CLASS); + } + if (notify_client) { + /* Notify client with IO completion record */ + notify_chnl_complete(pchnl, chnl_packet_obj); + } +func_end: + return; +} + +/* + * ======== input_msg ======== + * Copies messages from shared memory to the message queues. + */ +static void input_msg(struct io_mgr *pio_mgr, struct msg_mgr *hmsg_mgr) +{ + u32 num_msgs; + u32 i; + u8 *msg_input; + struct msg_queue *msg_queue_obj; + struct msg_frame *pmsg; + struct msg_dspmsg msg; + struct msg_ctrl *msg_ctr_obj; + u32 input_empty; + u32 addr; + + msg_ctr_obj = pio_mgr->msg_input_ctrl; + /* Get the number of input messages to be read */ + input_empty = + IO_GET_VALUE(pio_mgr->hbridge_context, struct msg_ctrl, msg_ctr_obj, + buf_empty); + num_msgs = + IO_GET_VALUE(pio_mgr->hbridge_context, struct msg_ctrl, msg_ctr_obj, + size); + if (input_empty) + goto func_end; + + msg_input = pio_mgr->msg_input; + for (i = 0; i < num_msgs; i++) { + /* Read the next message */ + addr = (u32) &(((struct msg_dspmsg *)msg_input)->msg.dw_cmd); + msg.msg.dw_cmd = + read_ext32_bit_dsp_data(pio_mgr->hbridge_context, addr); + addr = (u32) &(((struct msg_dspmsg *)msg_input)->msg.dw_arg1); + msg.msg.dw_arg1 = + read_ext32_bit_dsp_data(pio_mgr->hbridge_context, addr); + addr = (u32) &(((struct msg_dspmsg *)msg_input)->msg.dw_arg2); + msg.msg.dw_arg2 = + read_ext32_bit_dsp_data(pio_mgr->hbridge_context, addr); + addr = (u32) &(((struct msg_dspmsg *)msg_input)->msgq_id); + msg.msgq_id = + read_ext32_bit_dsp_data(pio_mgr->hbridge_context, addr); + msg_input += sizeof(struct msg_dspmsg); + if (!hmsg_mgr->queue_list) + goto func_end; + + /* Determine which queue to put the message in */ + msg_queue_obj = + (struct msg_queue *)lst_first(hmsg_mgr->queue_list); + dev_dbg(bridge, "input msg: dw_cmd=0x%x dw_arg1=0x%x " + "dw_arg2=0x%x msgq_id=0x%x \n", msg.msg.dw_cmd, + msg.msg.dw_arg1, msg.msg.dw_arg2, msg.msgq_id); + /* + * Interrupt may occur before shared memory and message + * input locations have been set up. If all nodes were + * cleaned up, hmsg_mgr->max_msgs should be 0. + */ + while (msg_queue_obj != NULL) { + if (msg.msgq_id == msg_queue_obj->msgq_id) { + /* Found it */ + if (msg.msg.dw_cmd == RMS_EXITACK) { + /* + * Call the node exit notification. + * The exit message does not get + * queued. + */ + (*hmsg_mgr->on_exit) ((void *) + msg_queue_obj->arg, + msg.msg.dw_arg1); + } else { + /* + * Not an exit acknowledgement, queue + * the message. + */ + if (!msg_queue_obj->msg_free_list) + goto func_end; + pmsg = (struct msg_frame *)lst_get_head + (msg_queue_obj->msg_free_list); + if (msg_queue_obj->msg_used_list + && pmsg) { + pmsg->msg_data = msg; + lst_put_tail + (msg_queue_obj->msg_used_list, + (struct list_head *)pmsg); + ntfy_notify + (msg_queue_obj->ntfy_obj, + DSP_NODEMESSAGEREADY); + sync_set_event + (msg_queue_obj->sync_event); + } else { + /* + * No free frame to copy the + * message into. + */ + pr_err("%s: no free msg frames," + " discarding msg\n", + __func__); + } + } + break; + } + + if (!hmsg_mgr->queue_list || !msg_queue_obj) + goto func_end; + msg_queue_obj = + (struct msg_queue *)lst_next(hmsg_mgr->queue_list, + (struct list_head *) + msg_queue_obj); + } + } + /* Set the post SWI flag */ + if (num_msgs > 0) { + /* Tell the DSP we've read the messages */ + IO_SET_VALUE(pio_mgr->hbridge_context, struct msg_ctrl, + msg_ctr_obj, buf_empty, true); + IO_SET_VALUE(pio_mgr->hbridge_context, struct msg_ctrl, + msg_ctr_obj, post_swi, true); + sm_interrupt_dsp(pio_mgr->hbridge_context, MBX_PCPY_CLASS); + } +func_end: + return; +} + +/* + * ======== notify_chnl_complete ======== + * Purpose: + * Signal the channel event, notifying the client that I/O has completed. + */ +static void notify_chnl_complete(struct chnl_object *pchnl, + struct chnl_irp *chnl_packet_obj) +{ + bool signal_event; + + if (!pchnl || !pchnl->sync_event || + !pchnl->pio_completions || !chnl_packet_obj) + goto func_end; + + /* + * Note: we signal the channel event only if the queue of IO + * completions is empty. If it is not empty, the event is sure to be + * signalled by the only IO completion list consumer: + * bridge_chnl_get_ioc(). + */ + signal_event = LST_IS_EMPTY(pchnl->pio_completions); + /* Enqueue the IO completion info for the client */ + lst_put_tail(pchnl->pio_completions, + (struct list_head *)chnl_packet_obj); + pchnl->cio_cs++; + + if (pchnl->cio_cs > pchnl->chnl_packets) + goto func_end; + /* Signal the channel event (if not already set) that IO is complete */ + if (signal_event) + sync_set_event(pchnl->sync_event); + + /* Notify that IO is complete */ + ntfy_notify(pchnl->ntfy_obj, DSP_STREAMIOCOMPLETION); +func_end: + return; +} + +/* + * ======== output_chnl ======== + * Purpose: + * Dispatch a buffer on an output channel. + */ +static void output_chnl(struct io_mgr *pio_mgr, struct chnl_object *pchnl, + u8 iMode) +{ + struct chnl_mgr *chnl_mgr_obj; + struct shm *sm; + u32 chnl_id; + struct chnl_irp *chnl_packet_obj; + u32 dw_dsp_f_mask; + + chnl_mgr_obj = pio_mgr->hchnl_mgr; + sm = pio_mgr->shared_mem; + /* Attempt to perform output */ + if (IO_GET_VALUE(pio_mgr->hbridge_context, struct shm, sm, output_full)) + goto func_end; + + if (pchnl && !((pchnl->dw_state & ~CHNL_STATEEOS) == CHNL_STATEREADY)) + goto func_end; + + /* Look to see if both a PC and DSP output channel are ready */ + dw_dsp_f_mask = IO_GET_VALUE(pio_mgr->hbridge_context, struct shm, sm, + dsp_free_mask); + chnl_id = + find_ready_output(chnl_mgr_obj, pchnl, + (chnl_mgr_obj->dw_output_mask & dw_dsp_f_mask)); + if (chnl_id == OUTPUTNOTREADY) + goto func_end; + + pchnl = chnl_mgr_obj->ap_channel[chnl_id]; + if (!pchnl || !pchnl->pio_requests) { + /* Shouldn't get here */ + goto func_end; + } + /* Get the I/O request, and attempt a transfer */ + chnl_packet_obj = (struct chnl_irp *)lst_get_head(pchnl->pio_requests); + if (!chnl_packet_obj) + goto func_end; + + pchnl->cio_reqs--; + if (pchnl->cio_reqs < 0 || !pchnl->pio_requests) + goto func_end; + + /* Record fact that no more I/O buffers available */ + if (LST_IS_EMPTY(pchnl->pio_requests)) + chnl_mgr_obj->dw_output_mask &= ~(1 << chnl_id); + + /* Transfer buffer to DSP side */ + chnl_packet_obj->byte_size = + write_data(pio_mgr->hbridge_context, pio_mgr->output, + chnl_packet_obj->host_sys_buf, min(pio_mgr->usm_buf_size, + chnl_packet_obj->byte_size)); + pchnl->bytes_moved += chnl_packet_obj->byte_size; + /* Write all 32 bits of arg */ + IO_SET_LONG(pio_mgr->hbridge_context, struct shm, sm, arg, + chnl_packet_obj->dw_arg); +#if _CHNL_WORDSIZE == 2 + IO_SET_VALUE(pio_mgr->hbridge_context, struct shm, sm, output_id, + (u16) chnl_id); + IO_SET_VALUE(pio_mgr->hbridge_context, struct shm, sm, output_size, + (u16) (chnl_packet_obj->byte_size + + (chnl_mgr_obj->word_size - + 1)) / (u16) chnl_mgr_obj->word_size); +#else + IO_SET_VALUE(pio_mgr->hbridge_context, struct shm, sm, output_id, + chnl_id); + IO_SET_VALUE(pio_mgr->hbridge_context, struct shm, sm, output_size, + (chnl_packet_obj->byte_size + + (chnl_mgr_obj->word_size - 1)) / chnl_mgr_obj->word_size); +#endif + IO_SET_VALUE(pio_mgr->hbridge_context, struct shm, sm, output_full, 1); + /* Indicate to the DSP we have written the output */ + sm_interrupt_dsp(pio_mgr->hbridge_context, MBX_PCPY_CLASS); + /* Notify client with IO completion record (keep EOS) */ + chnl_packet_obj->status &= CHNL_IOCSTATEOS; + notify_chnl_complete(pchnl, chnl_packet_obj); + /* Notify if stream is done. */ + if (chnl_packet_obj->status & CHNL_IOCSTATEOS) + ntfy_notify(pchnl->ntfy_obj, DSP_STREAMDONE); + +func_end: + return; +} + +/* + * ======== output_msg ======== + * Copies messages from the message queues to the shared memory. + */ +static void output_msg(struct io_mgr *pio_mgr, struct msg_mgr *hmsg_mgr) +{ + u32 num_msgs = 0; + u32 i; + u8 *msg_output; + struct msg_frame *pmsg; + struct msg_ctrl *msg_ctr_obj; + u32 output_empty; + u32 val; + u32 addr; + + msg_ctr_obj = pio_mgr->msg_output_ctrl; + + /* Check if output has been cleared */ + output_empty = + IO_GET_VALUE(pio_mgr->hbridge_context, struct msg_ctrl, msg_ctr_obj, + buf_empty); + if (output_empty) { + num_msgs = (hmsg_mgr->msgs_pending > hmsg_mgr->max_msgs) ? + hmsg_mgr->max_msgs : hmsg_mgr->msgs_pending; + msg_output = pio_mgr->msg_output; + /* Copy num_msgs messages into shared memory */ + for (i = 0; i < num_msgs; i++) { + if (!hmsg_mgr->msg_used_list) { + pmsg = NULL; + goto func_end; + } else { + pmsg = (struct msg_frame *) + lst_get_head(hmsg_mgr->msg_used_list); + } + if (pmsg != NULL) { + val = (pmsg->msg_data).msgq_id; + addr = (u32) &(((struct msg_dspmsg *) + msg_output)->msgq_id); + write_ext32_bit_dsp_data( + pio_mgr->hbridge_context, addr, val); + val = (pmsg->msg_data).msg.dw_cmd; + addr = (u32) &((((struct msg_dspmsg *) + msg_output)->msg).dw_cmd); + write_ext32_bit_dsp_data( + pio_mgr->hbridge_context, addr, val); + val = (pmsg->msg_data).msg.dw_arg1; + addr = (u32) &((((struct msg_dspmsg *) + msg_output)->msg).dw_arg1); + write_ext32_bit_dsp_data( + pio_mgr->hbridge_context, addr, val); + val = (pmsg->msg_data).msg.dw_arg2; + addr = (u32) &((((struct msg_dspmsg *) + msg_output)->msg).dw_arg2); + write_ext32_bit_dsp_data( + pio_mgr->hbridge_context, addr, val); + msg_output += sizeof(struct msg_dspmsg); + if (!hmsg_mgr->msg_free_list) + goto func_end; + lst_put_tail(hmsg_mgr->msg_free_list, + (struct list_head *)pmsg); + sync_set_event(hmsg_mgr->sync_event); + } + } + + if (num_msgs > 0) { + hmsg_mgr->msgs_pending -= num_msgs; +#if _CHNL_WORDSIZE == 2 + IO_SET_VALUE(pio_mgr->hbridge_context, struct msg_ctrl, + msg_ctr_obj, size, (u16) num_msgs); +#else + IO_SET_VALUE(pio_mgr->hbridge_context, struct msg_ctrl, + msg_ctr_obj, size, num_msgs); +#endif + IO_SET_VALUE(pio_mgr->hbridge_context, struct msg_ctrl, + msg_ctr_obj, buf_empty, false); + /* Set the post SWI flag */ + IO_SET_VALUE(pio_mgr->hbridge_context, struct msg_ctrl, + msg_ctr_obj, post_swi, true); + /* Tell the DSP we have written the output. */ + sm_interrupt_dsp(pio_mgr->hbridge_context, + MBX_PCPY_CLASS); + } + } +func_end: + return; +} + +/* + * ======== register_shm_segs ======== + * purpose: + * Registers GPP SM segment with CMM. + */ +static int register_shm_segs(struct io_mgr *hio_mgr, + struct cod_manager *cod_man, + u32 dw_gpp_base_pa) +{ + int status = 0; + u32 ul_shm0_base = 0; + u32 shm0_end = 0; + u32 ul_shm0_rsrvd_start = 0; + u32 ul_rsrvd_size = 0; + u32 ul_gpp_phys; + u32 ul_dsp_virt; + u32 ul_shm_seg_id0 = 0; + u32 dw_offset, dw_gpp_base_va, ul_dsp_size; + + /* + * Read address and size info for first SM region. + * Get start of 1st SM Heap region. + */ + status = + cod_get_sym_value(cod_man, SHM0_SHARED_BASE_SYM, &ul_shm0_base); + if (ul_shm0_base == 0) { + status = -EPERM; + goto func_end; + } + /* Get end of 1st SM Heap region */ + if (DSP_SUCCEEDED(status)) { + /* Get start and length of message part of shared memory */ + status = cod_get_sym_value(cod_man, SHM0_SHARED_END_SYM, + &shm0_end); + if (shm0_end == 0) { + status = -EPERM; + goto func_end; + } + } + /* Start of Gpp reserved region */ + if (DSP_SUCCEEDED(status)) { + /* Get start and length of message part of shared memory */ + status = + cod_get_sym_value(cod_man, SHM0_SHARED_RESERVED_BASE_SYM, + &ul_shm0_rsrvd_start); + if (ul_shm0_rsrvd_start == 0) { + status = -EPERM; + goto func_end; + } + } + /* Register with CMM */ + if (DSP_SUCCEEDED(status)) { + status = dev_get_cmm_mgr(hio_mgr->hdev_obj, &hio_mgr->hcmm_mgr); + if (DSP_SUCCEEDED(status)) { + status = cmm_un_register_gppsm_seg(hio_mgr->hcmm_mgr, + CMM_ALLSEGMENTS); + } + } + /* Register new SM region(s) */ + if (DSP_SUCCEEDED(status) && (shm0_end - ul_shm0_base) > 0) { + /* Calc size (bytes) of SM the GPP can alloc from */ + ul_rsrvd_size = + (shm0_end - ul_shm0_rsrvd_start + 1) * hio_mgr->word_size; + if (ul_rsrvd_size <= 0) { + status = -EPERM; + goto func_end; + } + /* Calc size of SM DSP can alloc from */ + ul_dsp_size = + (ul_shm0_rsrvd_start - ul_shm0_base) * hio_mgr->word_size; + if (ul_dsp_size <= 0) { + status = -EPERM; + goto func_end; + } + /* First TLB entry reserved for Bridge SM use. */ + ul_gpp_phys = hio_mgr->ext_proc_info.ty_tlb[0].ul_gpp_phys; + /* Get size in bytes */ + ul_dsp_virt = + hio_mgr->ext_proc_info.ty_tlb[0].ul_dsp_virt * + hio_mgr->word_size; + /* + * Calc byte offset used to convert GPP phys <-> DSP byte + * address. + */ + if (dw_gpp_base_pa > ul_dsp_virt) + dw_offset = dw_gpp_base_pa - ul_dsp_virt; + else + dw_offset = ul_dsp_virt - dw_gpp_base_pa; + + if (ul_shm0_rsrvd_start * hio_mgr->word_size < ul_dsp_virt) { + status = -EPERM; + goto func_end; + } + /* + * Calc Gpp phys base of SM region. + * This is actually uncached kernel virtual address. + */ + dw_gpp_base_va = + ul_gpp_phys + ul_shm0_rsrvd_start * hio_mgr->word_size - + ul_dsp_virt; + /* + * Calc Gpp phys base of SM region. + * This is the physical address. + */ + dw_gpp_base_pa = + dw_gpp_base_pa + ul_shm0_rsrvd_start * hio_mgr->word_size - + ul_dsp_virt; + /* Register SM Segment 0. */ + status = + cmm_register_gppsm_seg(hio_mgr->hcmm_mgr, dw_gpp_base_pa, + ul_rsrvd_size, dw_offset, + (dw_gpp_base_pa > + ul_dsp_virt) ? CMM_ADDTODSPPA : + CMM_SUBFROMDSPPA, + (u32) (ul_shm0_base * + hio_mgr->word_size), + ul_dsp_size, &ul_shm_seg_id0, + dw_gpp_base_va); + /* First SM region is seg_id = 1 */ + if (ul_shm_seg_id0 != 1) + status = -EPERM; + } +func_end: + return status; +} + +/* + * ======== read_data ======== + * Copies buffers from the shared memory to the host buffer. + */ +static u32 read_data(struct bridge_dev_context *hDevContext, void *dest, + void *pSrc, u32 usize) +{ + memcpy(dest, pSrc, usize); + return usize; +} + +/* + * ======== write_data ======== + * Copies buffers from the host side buffer to the shared memory. + */ +static u32 write_data(struct bridge_dev_context *hDevContext, void *dest, + void *pSrc, u32 usize) +{ + memcpy(dest, pSrc, usize); + return usize; +} + +/* ZCPY IO routines. */ +void io_intr_dsp2(IN struct io_mgr *pio_mgr, IN u16 mb_val) +{ + sm_interrupt_dsp(pio_mgr->hbridge_context, mb_val); +} + +/* + * ======== IO_SHMcontrol ======== + * Sets the requested shm setting. + */ +int io_sh_msetting(struct io_mgr *hio_mgr, u8 desc, void *pargs) +{ +#ifdef CONFIG_BRIDGE_DVFS + u32 i; + struct dspbridge_platform_data *pdata = + omap_dspbridge_dev->dev.platform_data; + + switch (desc) { + case SHM_CURROPP: + /* Update the shared memory with requested OPP information */ + if (pargs != NULL) + hio_mgr->shared_mem->opp_table_struct.curr_opp_pt = + *(u32 *) pargs; + else + return -EPERM; + break; + case SHM_OPPINFO: + /* + * Update the shared memory with the voltage, frequency, + * min and max frequency values for an OPP. + */ + for (i = 0; i <= dsp_max_opps; i++) { + hio_mgr->shared_mem->opp_table_struct.opp_point[i]. + voltage = vdd1_dsp_freq[i][0]; + dev_dbg(bridge, "OPP-shm: voltage: %d\n", + vdd1_dsp_freq[i][0]); + hio_mgr->shared_mem->opp_table_struct. + opp_point[i].frequency = vdd1_dsp_freq[i][1]; + dev_dbg(bridge, "OPP-shm: frequency: %d\n", + vdd1_dsp_freq[i][1]); + hio_mgr->shared_mem->opp_table_struct.opp_point[i]. + min_freq = vdd1_dsp_freq[i][2]; + dev_dbg(bridge, "OPP-shm: min freq: %d\n", + vdd1_dsp_freq[i][2]); + hio_mgr->shared_mem->opp_table_struct.opp_point[i]. + max_freq = vdd1_dsp_freq[i][3]; + dev_dbg(bridge, "OPP-shm: max freq: %d\n", + vdd1_dsp_freq[i][3]); + } + hio_mgr->shared_mem->opp_table_struct.num_opp_pts = + dsp_max_opps; + dev_dbg(bridge, "OPP-shm: max OPP number: %d\n", dsp_max_opps); + /* Update the current OPP number */ + if (pdata->dsp_get_opp) + i = (*pdata->dsp_get_opp) (); + hio_mgr->shared_mem->opp_table_struct.curr_opp_pt = i; + dev_dbg(bridge, "OPP-shm: value programmed = %d\n", i); + break; + case SHM_GETOPP: + /* Get the OPP that DSP has requested */ + *(u32 *) pargs = hio_mgr->shared_mem->opp_request.rqst_opp_pt; + break; + default: + break; + } +#endif + return 0; +} + +/* + * ======== bridge_io_get_proc_load ======== + * Gets the Processor's Load information + */ +int bridge_io_get_proc_load(IN struct io_mgr *hio_mgr, + OUT struct dsp_procloadstat *pProcStat) +{ + pProcStat->curr_load = hio_mgr->shared_mem->load_mon_info.curr_dsp_load; + pProcStat->predicted_load = + hio_mgr->shared_mem->load_mon_info.pred_dsp_load; + pProcStat->curr_dsp_freq = + hio_mgr->shared_mem->load_mon_info.curr_dsp_freq; + pProcStat->predicted_freq = + hio_mgr->shared_mem->load_mon_info.pred_dsp_freq; + + dev_dbg(bridge, "Curr Load = %d, Pred Load = %d, Curr Freq = %d, " + "Pred Freq = %d\n", pProcStat->curr_load, + pProcStat->predicted_load, pProcStat->curr_dsp_freq, + pProcStat->predicted_freq); + return 0; +} + +#ifndef DSP_TRACEBUF_DISABLED +void print_dsp_debug_trace(struct io_mgr *hio_mgr) +{ + u32 ul_new_message_length = 0, ul_gpp_cur_pointer; + + while (true) { + /* Get the DSP current pointer */ + ul_gpp_cur_pointer = + *(u32 *) (hio_mgr->ul_trace_buffer_current); + ul_gpp_cur_pointer = + hio_mgr->ul_gpp_va + (ul_gpp_cur_pointer - + hio_mgr->ul_dsp_va); + + /* No new debug messages available yet */ + if (ul_gpp_cur_pointer == hio_mgr->ul_gpp_read_pointer) { + break; + } else if (ul_gpp_cur_pointer > hio_mgr->ul_gpp_read_pointer) { + /* Continuous data */ + ul_new_message_length = + ul_gpp_cur_pointer - hio_mgr->ul_gpp_read_pointer; + + memcpy(hio_mgr->pmsg, + (char *)hio_mgr->ul_gpp_read_pointer, + ul_new_message_length); + hio_mgr->pmsg[ul_new_message_length] = '\0'; + /* + * Advance the GPP trace pointer to DSP current + * pointer. + */ + hio_mgr->ul_gpp_read_pointer += ul_new_message_length; + /* Print the trace messages */ + pr_info("DSPTrace: %s\n", hio_mgr->pmsg); + } else if (ul_gpp_cur_pointer < hio_mgr->ul_gpp_read_pointer) { + /* Handle trace buffer wraparound */ + memcpy(hio_mgr->pmsg, + (char *)hio_mgr->ul_gpp_read_pointer, + hio_mgr->ul_trace_buffer_end - + hio_mgr->ul_gpp_read_pointer); + ul_new_message_length = + ul_gpp_cur_pointer - hio_mgr->ul_trace_buffer_begin; + memcpy(&hio_mgr->pmsg[hio_mgr->ul_trace_buffer_end - + hio_mgr->ul_gpp_read_pointer], + (char *)hio_mgr->ul_trace_buffer_begin, + ul_new_message_length); + hio_mgr->pmsg[hio_mgr->ul_trace_buffer_end - + hio_mgr->ul_gpp_read_pointer + + ul_new_message_length] = '\0'; + /* + * Advance the GPP trace pointer to DSP current + * pointer. + */ + hio_mgr->ul_gpp_read_pointer = + hio_mgr->ul_trace_buffer_begin + + ul_new_message_length; + /* Print the trace messages */ + pr_info("DSPTrace: %s\n", hio_mgr->pmsg); + } + } +} +#endif + +/* + * ======== print_dsp_trace_buffer ======== + * Prints the trace buffer returned from the DSP (if DBG_Trace is enabled). + * Parameters: + * hdeh_mgr: Handle to DEH manager object + * number of extra carriage returns to generate. + * Returns: + * 0: Success. + * -ENOMEM: Unable to allocate memory. + * Requires: + * hdeh_mgr muse be valid. Checked in bridge_deh_notify. + */ +int print_dsp_trace_buffer(struct bridge_dev_context *hbridge_context) +{ + int status = 0; + struct cod_manager *cod_mgr; + u32 ul_trace_end; + u32 ul_trace_begin; + u32 trace_cur_pos; + u32 ul_num_bytes = 0; + u32 ul_num_words = 0; + u32 ul_word_size = 2; + char *psz_buf; + char *str_beg; + char *trace_end; + char *buf_end; + char *new_line; + + struct bridge_dev_context *pbridge_context = hbridge_context; + struct bridge_drv_interface *intf_fxns; + struct dev_object *dev_obj = (struct dev_object *) + pbridge_context->hdev_obj; + + status = dev_get_cod_mgr(dev_obj, &cod_mgr); + + if (cod_mgr) { + /* Look for SYS_PUTCBEG/SYS_PUTCEND */ + status = + cod_get_sym_value(cod_mgr, COD_TRACEBEG, &ul_trace_begin); + } else { + status = -EFAULT; + } + if (DSP_SUCCEEDED(status)) + status = + cod_get_sym_value(cod_mgr, COD_TRACEEND, &ul_trace_end); + + if (DSP_SUCCEEDED(status)) + /* trace_cur_pos will hold the address of a DSP pointer */ + status = cod_get_sym_value(cod_mgr, COD_TRACECURPOS, + &trace_cur_pos); + + if (DSP_FAILED(status)) + goto func_end; + + ul_num_bytes = (ul_trace_end - ul_trace_begin); + + ul_num_words = ul_num_bytes * ul_word_size; + status = dev_get_intf_fxns(dev_obj, &intf_fxns); + + if (DSP_FAILED(status)) + goto func_end; + + psz_buf = kzalloc(ul_num_bytes + 2, GFP_ATOMIC); + if (psz_buf != NULL) { + /* Read trace buffer data */ + status = (*intf_fxns->pfn_brd_read)(pbridge_context, + (u8 *)psz_buf, (u32)ul_trace_begin, + ul_num_bytes, 0); + + if (DSP_FAILED(status)) + goto func_end; + + /* Pack and do newline conversion */ + pr_debug("PrintDspTraceBuffer: " + "before pack and unpack.\n"); + pr_debug("%s: DSP Trace Buffer Begin:\n" + "=======================\n%s\n", + __func__, psz_buf); + + /* Read the value at the DSP address in trace_cur_pos. */ + status = (*intf_fxns->pfn_brd_read)(pbridge_context, + (u8 *)&trace_cur_pos, (u32)trace_cur_pos, + 4, 0); + if (DSP_FAILED(status)) + goto func_end; + /* Pack and do newline conversion */ + pr_info("DSP Trace Buffer Begin:\n" + "=======================\n%s\n", + psz_buf); + + + /* convert to offset */ + trace_cur_pos = trace_cur_pos - ul_trace_begin; + + if (ul_num_bytes) { + /* + * The buffer is not full, find the end of the + * data -- buf_end will be >= pszBuf after + * while. + */ + buf_end = &psz_buf[ul_num_bytes+1]; + /* DSP print position */ + trace_end = &psz_buf[trace_cur_pos]; + + /* + * Search buffer for a new_line and replace it + * with '\0', then print as string. + * Continue until end of buffer is reached. + */ + str_beg = trace_end; + ul_num_bytes = buf_end - str_beg; + + while (str_beg < buf_end) { + new_line = strnchr(str_beg, ul_num_bytes, + '\n'); + if (new_line && new_line < buf_end) { + *new_line = 0; + pr_debug("%s\n", str_beg); + str_beg = ++new_line; + ul_num_bytes = buf_end - str_beg; + } else { + /* + * Assume buffer empty if it contains + * a zero + */ + if (*str_beg != '\0') { + str_beg[ul_num_bytes] = 0; + pr_debug("%s\n", str_beg); + } + str_beg = buf_end; + ul_num_bytes = 0; + } + } + /* + * Search buffer for a nNewLine and replace it + * with '\0', then print as string. + * Continue until buffer is exhausted. + */ + str_beg = psz_buf; + ul_num_bytes = trace_end - str_beg; + + while (str_beg < trace_end) { + new_line = strnchr(str_beg, ul_num_bytes, '\n'); + if (new_line != NULL && new_line < trace_end) { + *new_line = 0; + pr_debug("%s\n", str_beg); + str_beg = ++new_line; + ul_num_bytes = trace_end - str_beg; + } else { + /* + * Assume buffer empty if it contains + * a zero + */ + if (*str_beg != '\0') { + str_beg[ul_num_bytes] = 0; + pr_debug("%s\n", str_beg); + } + str_beg = trace_end; + ul_num_bytes = 0; + } + } + } + pr_info("\n=======================\n" + "DSP Trace Buffer End:\n"); + kfree(psz_buf); + } else { + status = -ENOMEM; + } +func_end: + if (DSP_FAILED(status)) + dev_dbg(bridge, "%s Failed, status 0x%x\n", __func__, status); + return status; +} + +void io_sm_init(void) +{ + /* Do nothing */ +} +/** + * dump_dsp_stack() - This function dumps the data on the DSP stack. + * @bridge_context: Bridge driver's device context pointer. + * + */ +int dump_dsp_stack(struct bridge_dev_context *bridge_context) +{ + int status = 0; + struct cod_manager *code_mgr; + struct node_mgr *node_mgr; + u32 trace_begin; + char name[256]; + struct { + u32 head[2]; + u32 size; + } mmu_fault_dbg_info; + u32 *buffer; + u32 *buffer_beg; + u32 *buffer_end; + u32 exc_type; + u32 dyn_ext_base; + u32 i; + u32 offset_output; + u32 total_size; + u32 poll_cnt; + const char *dsp_regs[] = {"EFR", "IERR", "ITSR", "NTSR", + "IRP", "NRP", "AMR", "SSR", + "ILC", "RILC", "IER", "CSR"}; + const char *exec_ctxt[] = {"Task", "SWI", "HWI", "Unknown"}; + struct bridge_drv_interface *intf_fxns; + struct dev_object *dev_object = bridge_context->hdev_obj; + + status = dev_get_cod_mgr(dev_object, &code_mgr); + if (!code_mgr) { + pr_debug("%s: Failed on dev_get_cod_mgr.\n", __func__); + status = -EFAULT; + } + + if (DSP_SUCCEEDED(status)) { + status = dev_get_node_manager(dev_object, &node_mgr); + if (!node_mgr) { + pr_debug("%s: Failed on dev_get_node_manager.\n", + __func__); + status = -EFAULT; + } + } + + if (DSP_SUCCEEDED(status)) { + /* Look for SYS_PUTCBEG/SYS_PUTCEND: */ + status = + cod_get_sym_value(code_mgr, COD_TRACEBEG, &trace_begin); + pr_debug("%s: trace_begin Value 0x%x\n", + __func__, trace_begin); + if (DSP_FAILED(status)) + pr_debug("%s: Failed on cod_get_sym_value.\n", + __func__); + } + if (DSP_SUCCEEDED(status)) + status = dev_get_intf_fxns(dev_object, &intf_fxns); + /* + * Check for the "magic number" in the trace buffer. If it has + * yet to appear then poll the trace buffer to wait for it. Its + * appearance signals that the DSP has finished dumping its state. + */ + mmu_fault_dbg_info.head[0] = 0; + mmu_fault_dbg_info.head[1] = 0; + if (DSP_SUCCEEDED(status)) { + poll_cnt = 0; + while ((mmu_fault_dbg_info.head[0] != MMU_FAULT_HEAD1 || + mmu_fault_dbg_info.head[1] != MMU_FAULT_HEAD2) && + poll_cnt < POLL_MAX) { + + /* Read DSP dump size from the DSP trace buffer... */ + status = (*intf_fxns->pfn_brd_read)(bridge_context, + (u8 *)&mmu_fault_dbg_info, (u32)trace_begin, + sizeof(mmu_fault_dbg_info), 0); + + if (DSP_FAILED(status)) + break; + + poll_cnt++; + } + + if (mmu_fault_dbg_info.head[0] != MMU_FAULT_HEAD1 && + mmu_fault_dbg_info.head[1] != MMU_FAULT_HEAD2) { + status = -ETIME; + pr_err("%s:No DSP MMU-Fault information available.\n", + __func__); + } + } + + if (DSP_SUCCEEDED(status)) { + total_size = mmu_fault_dbg_info.size; + /* Limit the size in case DSP went crazy */ + if (total_size > MAX_MMU_DBGBUFF) + total_size = MAX_MMU_DBGBUFF; + + buffer = kzalloc(total_size, GFP_ATOMIC); + if (!buffer) { + status = -ENOMEM; + pr_debug("%s: Failed to " + "allocate stack dump buffer.\n", __func__); + goto func_end; + } + + buffer_beg = buffer; + buffer_end = buffer + total_size / 4; + + /* Read bytes from the DSP trace buffer... */ + status = (*intf_fxns->pfn_brd_read)(bridge_context, + (u8 *)buffer, (u32)trace_begin, + total_size, 0); + if (DSP_FAILED(status)) { + pr_debug("%s: Failed to Read Trace Buffer.\n", + __func__); + goto func_end; + } + + pr_err("\nAproximate Crash Position:\n" + "--------------------------\n"); + + exc_type = buffer[3]; + if (!exc_type) + i = buffer[79]; /* IRP */ + else + i = buffer[80]; /* NRP */ + + status = + cod_get_sym_value(code_mgr, DYNEXTBASE, &dyn_ext_base); + if (DSP_FAILED(status)) { + status = -EFAULT; + goto func_end; + } + + if ((i > dyn_ext_base) && (node_find_addr(node_mgr, i, + 0x1000, &offset_output, name) == 0)) + pr_err("0x%-8x [\"%s\" + 0x%x]\n", i, name, + i - offset_output); + else + pr_err("0x%-8x [Unable to match to a symbol.]\n", i); + + buffer += 4; + + pr_err("\nExecution Info:\n" + "---------------\n"); + + if (*buffer < ARRAY_SIZE(exec_ctxt)) { + pr_err("Execution context \t%s\n", + exec_ctxt[*buffer++]); + } else { + pr_err("Execution context corrupt\n"); + kfree(buffer_beg); + return -EFAULT; + } + pr_err("Task Handle\t\t0x%x\n", *buffer++); + pr_err("Stack Pointer\t\t0x%x\n", *buffer++); + pr_err("Stack Top\t\t0x%x\n", *buffer++); + pr_err("Stack Bottom\t\t0x%x\n", *buffer++); + pr_err("Stack Size\t\t0x%x\n", *buffer++); + pr_err("Stack Size In Use\t0x%x\n", *buffer++); + + pr_err("\nCPU Registers\n" + "---------------\n"); + + for (i = 0; i < 32; i++) { + if (i == 4 || i == 6 || i == 8) + pr_err("A%d 0x%-8x [Function Argument %d]\n", + i, *buffer++, i-3); + else if (i == 15) + pr_err("A15 0x%-8x [Frame Pointer]\n", + *buffer++); + else + pr_err("A%d 0x%x\n", i, *buffer++); + } + + pr_err("\nB0 0x%x\n", *buffer++); + pr_err("B1 0x%x\n", *buffer++); + pr_err("B2 0x%x\n", *buffer++); + + if ((*buffer > dyn_ext_base) && (node_find_addr(node_mgr, + *buffer, 0x1000, &offset_output, name) == 0)) + + pr_err("B3 0x%-8x [Function Return Pointer:" + " \"%s\" + 0x%x]\n", *buffer, name, + *buffer - offset_output); + else + pr_err("B3 0x%-8x [Function Return Pointer:" + "Unable to match to a symbol.]\n", *buffer); + + buffer++; + + for (i = 4; i < 32; i++) { + if (i == 4 || i == 6 || i == 8) + pr_err("B%d 0x%-8x [Function Argument %d]\n", + i, *buffer++, i-2); + else if (i == 14) + pr_err("B14 0x%-8x [Data Page Pointer]\n", + *buffer++); + else + pr_err("B%d 0x%x\n", i, *buffer++); + } + + pr_err("\n"); + + for (i = 0; i < ARRAY_SIZE(dsp_regs); i++) + pr_err("%s 0x%x\n", dsp_regs[i], *buffer++); + + pr_err("\nStack:\n" + "------\n"); + + for (i = 0; buffer < buffer_end; i++, buffer++) { + if ((*buffer > dyn_ext_base) && ( + node_find_addr(node_mgr, *buffer , 0x600, + &offset_output, name) == 0)) + pr_err("[%d] 0x%-8x [\"%s\" + 0x%x]\n", + i, *buffer, name, + *buffer - offset_output); + else + pr_err("[%d] 0x%x\n", i, *buffer); + } + kfree(buffer_beg); + } +func_end: + return status; +} + +/** + * dump_dl_modules() - This functions dumps the _DLModules loaded in DSP side + * @bridge_context: Bridge driver's device context pointer. + * + */ +void dump_dl_modules(struct bridge_dev_context *bridge_context) +{ + struct cod_manager *code_mgr; + struct bridge_drv_interface *intf_fxns; + struct bridge_dev_context *bridge_ctxt = bridge_context; + struct dev_object *dev_object = bridge_ctxt->hdev_obj; + struct modules_header modules_hdr; + struct dll_module *module_struct = NULL; + u32 module_dsp_addr; + u32 module_size; + u32 module_struct_size = 0; + u32 sect_ndx; + char *sect_str ; + int status = 0; + + status = dev_get_intf_fxns(dev_object, &intf_fxns); + if (DSP_FAILED(status)) { + pr_debug("%s: Failed on dev_get_intf_fxns.\n", __func__); + goto func_end; + } + + status = dev_get_cod_mgr(dev_object, &code_mgr); + if (!code_mgr) { + pr_debug("%s: Failed on dev_get_cod_mgr.\n", __func__); + status = -EFAULT; + goto func_end; + } + + /* Lookup the address of the modules_header structure */ + status = cod_get_sym_value(code_mgr, "_DLModules", &module_dsp_addr); + if (DSP_FAILED(status)) { + pr_debug("%s: Failed on cod_get_sym_value for _DLModules.\n", + __func__); + goto func_end; + } + + pr_debug("%s: _DLModules at 0x%x\n", __func__, module_dsp_addr); + + /* Copy the modules_header structure from DSP memory. */ + status = (*intf_fxns->pfn_brd_read)(bridge_context, (u8 *) &modules_hdr, + (u32) module_dsp_addr, sizeof(modules_hdr), 0); + + if (DSP_FAILED(status)) { + pr_debug("%s: Failed failed to read modules header.\n", + __func__); + goto func_end; + } + + module_dsp_addr = modules_hdr.first_module; + module_size = modules_hdr.first_module_size; + + pr_debug("%s: dll_module_header 0x%x %d\n", __func__, module_dsp_addr, + module_size); + + pr_err("\nDynamically Loaded Modules:\n" + "---------------------------\n"); + + /* For each dll_module structure in the list... */ + while (module_size) { + /* + * Allocate/re-allocate memory to hold the dll_module + * structure. The memory is re-allocated only if the existing + * allocation is too small. + */ + if (module_size > module_struct_size) { + kfree(module_struct); + module_struct = kzalloc(module_size+128, GFP_ATOMIC); + module_struct_size = module_size+128; + pr_debug("%s: allocated module struct %p %d\n", + __func__, module_struct, module_struct_size); + if (!module_struct) + goto func_end; + } + /* Copy the dll_module structure from DSP memory */ + status = (*intf_fxns->pfn_brd_read)(bridge_context, + (u8 *)module_struct, module_dsp_addr, module_size, 0); + + if (DSP_FAILED(status)) { + pr_debug( + "%s: Failed to read dll_module stuct for 0x%x.\n", + __func__, module_dsp_addr); + break; + } + + /* Update info regarding the _next_ module in the list. */ + module_dsp_addr = module_struct->next_module; + module_size = module_struct->next_module_size; + + pr_debug("%s: next module 0x%x %d, this module num sects %d\n", + __func__, module_dsp_addr, module_size, + module_struct->num_sects); + + /* + * The section name strings start immedialty following + * the array of dll_sect structures. + */ + sect_str = (char *) &module_struct-> + sects[module_struct->num_sects]; + pr_err("%s\n", sect_str); + + /* + * Advance to the first section name string. + * Each string follows the one before. + */ + sect_str += strlen(sect_str) + 1; + + /* Access each dll_sect structure and its name string. */ + for (sect_ndx = 0; + sect_ndx < module_struct->num_sects; sect_ndx++) { + pr_err(" Section: 0x%x ", + module_struct->sects[sect_ndx].sect_load_adr); + + if (((u32) sect_str - (u32) module_struct) < + module_struct_size) { + pr_err("%s\n", sect_str); + /* Each string follows the one before. */ + sect_str += strlen(sect_str)+1; + } else { + pr_err("\n"); + pr_debug("%s: section name sting address " + "is invalid %p\n", __func__, sect_str); + } + } + } +func_end: + kfree(module_struct); +} + diff --git a/drivers/staging/tidspbridge/core/mmu_fault.c b/drivers/staging/tidspbridge/core/mmu_fault.c new file mode 100644 index 000000000000..5c0124f70732 --- /dev/null +++ b/drivers/staging/tidspbridge/core/mmu_fault.c @@ -0,0 +1,139 @@ +/* + * mmu_fault.c + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Implements DSP MMU fault handling functions. + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +/* ----------------------------------- DSP/BIOS Bridge */ +#include +#include + +/* ----------------------------------- Trace & Debug */ +#include +#include + +/* ----------------------------------- OS Adaptation Layer */ +#include + +/* ----------------------------------- Link Driver */ +#include + +/* ------------------------------------ Hardware Abstraction Layer */ +#include +#include + +/* ----------------------------------- This */ +#include "_deh.h" +#include +#include "_tiomap.h" +#include "mmu_fault.h" + +static u32 dmmu_event_mask; +u32 fault_addr; + +static bool mmu_check_if_fault(struct bridge_dev_context *dev_context); + +/* + * ======== mmu_fault_dpc ======== + * Deferred procedure call to handle DSP MMU fault. + */ +void mmu_fault_dpc(IN unsigned long pRefData) +{ + struct deh_mgr *hdeh_mgr = (struct deh_mgr *)pRefData; + + if (hdeh_mgr) + bridge_deh_notify(hdeh_mgr, DSP_MMUFAULT, 0L); + +} + +/* + * ======== mmu_fault_isr ======== + * ISR to be triggered by a DSP MMU fault interrupt. + */ +irqreturn_t mmu_fault_isr(int irq, IN void *pRefData) +{ + struct deh_mgr *deh_mgr_obj = (struct deh_mgr *)pRefData; + struct bridge_dev_context *dev_context; + struct cfg_hostres *resources; + + DBC_REQUIRE(irq == INT_DSP_MMU_IRQ); + DBC_REQUIRE(deh_mgr_obj); + + if (deh_mgr_obj) { + + dev_context = + (struct bridge_dev_context *)deh_mgr_obj->hbridge_context; + + resources = dev_context->resources; + + if (!resources) { + dev_dbg(bridge, "%s: Failed to get Host Resources\n", + __func__); + return IRQ_HANDLED; + } + if (mmu_check_if_fault(dev_context)) { + printk(KERN_INFO "***** DSPMMU FAULT ***** IRQStatus " + "0x%x\n", dmmu_event_mask); + printk(KERN_INFO "***** DSPMMU FAULT ***** fault_addr " + "0x%x\n", fault_addr); + /* + * Schedule a DPC directly. In the future, it may be + * necessary to check if DSP MMU fault is intended for + * Bridge. + */ + tasklet_schedule(&deh_mgr_obj->dpc_tasklet); + + /* Reset err_info structure before use. */ + deh_mgr_obj->err_info.dw_err_mask = DSP_MMUFAULT; + deh_mgr_obj->err_info.dw_val1 = fault_addr >> 16; + deh_mgr_obj->err_info.dw_val2 = fault_addr & 0xFFFF; + deh_mgr_obj->err_info.dw_val3 = 0L; + /* Disable the MMU events, else once we clear it will + * start to raise INTs again */ + hw_mmu_event_disable(resources->dw_dmmu_base, + HW_MMU_TRANSLATION_FAULT); + } else { + hw_mmu_event_disable(resources->dw_dmmu_base, + HW_MMU_ALL_INTERRUPTS); + } + } + return IRQ_HANDLED; +} + +/* + * ======== mmu_check_if_fault ======== + * Check to see if MMU Fault is valid TLB miss from DSP + * Note: This function is called from an ISR + */ +static bool mmu_check_if_fault(struct bridge_dev_context *dev_context) +{ + + bool ret = false; + hw_status hw_status_obj; + struct cfg_hostres *resources = dev_context->resources; + + if (!resources) { + dev_dbg(bridge, "%s: Failed to get Host Resources in\n", + __func__); + return ret; + } + hw_status_obj = + hw_mmu_event_status(resources->dw_dmmu_base, &dmmu_event_mask); + if (dmmu_event_mask == HW_MMU_TRANSLATION_FAULT) { + hw_mmu_fault_addr_read(resources->dw_dmmu_base, &fault_addr); + ret = true; + } + return ret; +} diff --git a/drivers/staging/tidspbridge/core/mmu_fault.h b/drivers/staging/tidspbridge/core/mmu_fault.h new file mode 100644 index 000000000000..74db4893a822 --- /dev/null +++ b/drivers/staging/tidspbridge/core/mmu_fault.h @@ -0,0 +1,36 @@ +/* + * mmu_fault.h + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Defines DSP MMU fault handling functions. + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +#ifndef MMU_FAULT_ +#define MMU_FAULT_ + +extern u32 fault_addr; + +/* + * ======== mmu_fault_dpc ======== + * Deferred procedure call to handle DSP MMU fault. + */ +void mmu_fault_dpc(IN unsigned long pRefData); + +/* + * ======== mmu_fault_isr ======== + * ISR to be triggered by a DSP MMU fault interrupt. + */ +irqreturn_t mmu_fault_isr(int irq, IN void *pRefData); + +#endif /* MMU_FAULT_ */ diff --git a/drivers/staging/tidspbridge/core/msg_sm.c b/drivers/staging/tidspbridge/core/msg_sm.c new file mode 100644 index 000000000000..7c6d6cc83604 --- /dev/null +++ b/drivers/staging/tidspbridge/core/msg_sm.c @@ -0,0 +1,673 @@ +/* + * msg_sm.c + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Implements upper edge functions for Bridge message module. + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +/* ----------------------------------- DSP/BIOS Bridge */ +#include +#include + +/* ----------------------------------- Trace & Debug */ +#include + +/* ----------------------------------- OS Adaptation Layer */ +#include +#include + +/* ----------------------------------- Platform Manager */ +#include + +/* ----------------------------------- Others */ +#include + +/* ----------------------------------- This */ +#include <_msg_sm.h> +#include + +/* ----------------------------------- Function Prototypes */ +static int add_new_msg(struct lst_list *msgList); +static void delete_msg_mgr(struct msg_mgr *hmsg_mgr); +static void delete_msg_queue(struct msg_queue *msg_queue_obj, u32 uNumToDSP); +static void free_msg_list(struct lst_list *msgList); + +/* + * ======== bridge_msg_create ======== + * Create an object to manage message queues. Only one of these objects + * can exist per device object. + */ +int bridge_msg_create(OUT struct msg_mgr **phMsgMgr, + struct dev_object *hdev_obj, + msg_onexit msgCallback) +{ + struct msg_mgr *msg_mgr_obj; + struct io_mgr *hio_mgr; + int status = 0; + + if (!phMsgMgr || !msgCallback || !hdev_obj) { + status = -EFAULT; + goto func_end; + } + dev_get_io_mgr(hdev_obj, &hio_mgr); + if (!hio_mgr) { + status = -EFAULT; + goto func_end; + } + *phMsgMgr = NULL; + /* Allocate msg_ctrl manager object */ + msg_mgr_obj = kzalloc(sizeof(struct msg_mgr), GFP_KERNEL); + + if (msg_mgr_obj) { + msg_mgr_obj->on_exit = msgCallback; + msg_mgr_obj->hio_mgr = hio_mgr; + /* List of MSG_QUEUEs */ + msg_mgr_obj->queue_list = kzalloc(sizeof(struct lst_list), + GFP_KERNEL); + /* Queues of message frames for messages to the DSP. Message + * frames will only be added to the free queue when a + * msg_queue object is created. */ + msg_mgr_obj->msg_free_list = kzalloc(sizeof(struct lst_list), + GFP_KERNEL); + msg_mgr_obj->msg_used_list = kzalloc(sizeof(struct lst_list), + GFP_KERNEL); + if (msg_mgr_obj->queue_list == NULL || + msg_mgr_obj->msg_free_list == NULL || + msg_mgr_obj->msg_used_list == NULL) { + status = -ENOMEM; + } else { + INIT_LIST_HEAD(&msg_mgr_obj->queue_list->head); + INIT_LIST_HEAD(&msg_mgr_obj->msg_free_list->head); + INIT_LIST_HEAD(&msg_mgr_obj->msg_used_list->head); + spin_lock_init(&msg_mgr_obj->msg_mgr_lock); + } + + /* Create an event to be used by bridge_msg_put() in waiting + * for an available free frame from the message manager. */ + msg_mgr_obj->sync_event = + kzalloc(sizeof(struct sync_object), GFP_KERNEL); + if (!msg_mgr_obj->sync_event) + status = -ENOMEM; + else + sync_init_event(msg_mgr_obj->sync_event); + + if (DSP_SUCCEEDED(status)) + *phMsgMgr = msg_mgr_obj; + else + delete_msg_mgr(msg_mgr_obj); + + } else { + status = -ENOMEM; + } +func_end: + return status; +} + +/* + * ======== bridge_msg_create_queue ======== + * Create a msg_queue for sending/receiving messages to/from a node + * on the DSP. + */ +int bridge_msg_create_queue(struct msg_mgr *hmsg_mgr, + OUT struct msg_queue **phMsgQueue, + u32 msgq_id, u32 max_msgs, void *arg) +{ + u32 i; + u32 num_allocated = 0; + struct msg_queue *msg_q; + int status = 0; + + if (!hmsg_mgr || phMsgQueue == NULL || !hmsg_mgr->msg_free_list) { + status = -EFAULT; + goto func_end; + } + + *phMsgQueue = NULL; + /* Allocate msg_queue object */ + msg_q = kzalloc(sizeof(struct msg_queue), GFP_KERNEL); + if (!msg_q) { + status = -ENOMEM; + goto func_end; + } + lst_init_elem((struct list_head *)msg_q); + msg_q->max_msgs = max_msgs; + msg_q->hmsg_mgr = hmsg_mgr; + msg_q->arg = arg; /* Node handle */ + msg_q->msgq_id = msgq_id; /* Node env (not valid yet) */ + /* Queues of Message frames for messages from the DSP */ + msg_q->msg_free_list = kzalloc(sizeof(struct lst_list), GFP_KERNEL); + msg_q->msg_used_list = kzalloc(sizeof(struct lst_list), GFP_KERNEL); + if (msg_q->msg_free_list == NULL || msg_q->msg_used_list == NULL) + status = -ENOMEM; + else { + INIT_LIST_HEAD(&msg_q->msg_free_list->head); + INIT_LIST_HEAD(&msg_q->msg_used_list->head); + } + + /* Create event that will be signalled when a message from + * the DSP is available. */ + if (DSP_SUCCEEDED(status)) { + msg_q->sync_event = kzalloc(sizeof(struct sync_object), + GFP_KERNEL); + if (msg_q->sync_event) + sync_init_event(msg_q->sync_event); + else + status = -ENOMEM; + } + + /* Create a notification list for message ready notification. */ + if (DSP_SUCCEEDED(status)) { + msg_q->ntfy_obj = kmalloc(sizeof(struct ntfy_object), + GFP_KERNEL); + if (msg_q->ntfy_obj) + ntfy_init(msg_q->ntfy_obj); + else + status = -ENOMEM; + } + + /* Create events that will be used to synchronize cleanup + * when the object is deleted. sync_done will be set to + * unblock threads in MSG_Put() or MSG_Get(). sync_done_ack + * will be set by the unblocked thread to signal that it + * is unblocked and will no longer reference the object. */ + if (DSP_SUCCEEDED(status)) { + msg_q->sync_done = kzalloc(sizeof(struct sync_object), + GFP_KERNEL); + if (msg_q->sync_done) + sync_init_event(msg_q->sync_done); + else + status = -ENOMEM; + } + + if (DSP_SUCCEEDED(status)) { + msg_q->sync_done_ack = kzalloc(sizeof(struct sync_object), + GFP_KERNEL); + if (msg_q->sync_done_ack) + sync_init_event(msg_q->sync_done_ack); + else + status = -ENOMEM; + } + + if (DSP_SUCCEEDED(status)) { + /* Enter critical section */ + spin_lock_bh(&hmsg_mgr->msg_mgr_lock); + /* Initialize message frames and put in appropriate queues */ + for (i = 0; i < max_msgs && DSP_SUCCEEDED(status); i++) { + status = add_new_msg(hmsg_mgr->msg_free_list); + if (DSP_SUCCEEDED(status)) { + num_allocated++; + status = add_new_msg(msg_q->msg_free_list); + } + } + if (DSP_FAILED(status)) { + /* Stay inside CS to prevent others from taking any + * of the newly allocated message frames. */ + delete_msg_queue(msg_q, num_allocated); + } else { + lst_put_tail(hmsg_mgr->queue_list, + (struct list_head *)msg_q); + *phMsgQueue = msg_q; + /* Signal that free frames are now available */ + if (!LST_IS_EMPTY(hmsg_mgr->msg_free_list)) + sync_set_event(hmsg_mgr->sync_event); + + } + /* Exit critical section */ + spin_unlock_bh(&hmsg_mgr->msg_mgr_lock); + } else { + delete_msg_queue(msg_q, 0); + } +func_end: + return status; +} + +/* + * ======== bridge_msg_delete ======== + * Delete a msg_ctrl manager allocated in bridge_msg_create(). + */ +void bridge_msg_delete(struct msg_mgr *hmsg_mgr) +{ + if (hmsg_mgr) + delete_msg_mgr(hmsg_mgr); +} + +/* + * ======== bridge_msg_delete_queue ======== + * Delete a msg_ctrl queue allocated in bridge_msg_create_queue. + */ +void bridge_msg_delete_queue(struct msg_queue *msg_queue_obj) +{ + struct msg_mgr *hmsg_mgr; + u32 io_msg_pend; + + if (!msg_queue_obj || !msg_queue_obj->hmsg_mgr) + goto func_end; + + hmsg_mgr = msg_queue_obj->hmsg_mgr; + msg_queue_obj->done = true; + /* Unblock all threads blocked in MSG_Get() or MSG_Put(). */ + io_msg_pend = msg_queue_obj->io_msg_pend; + while (io_msg_pend) { + /* Unblock thread */ + sync_set_event(msg_queue_obj->sync_done); + /* Wait for acknowledgement */ + sync_wait_on_event(msg_queue_obj->sync_done_ack, SYNC_INFINITE); + io_msg_pend = msg_queue_obj->io_msg_pend; + } + /* Remove message queue from hmsg_mgr->queue_list */ + spin_lock_bh(&hmsg_mgr->msg_mgr_lock); + lst_remove_elem(hmsg_mgr->queue_list, + (struct list_head *)msg_queue_obj); + /* Free the message queue object */ + delete_msg_queue(msg_queue_obj, msg_queue_obj->max_msgs); + if (!hmsg_mgr->msg_free_list) + goto func_cont; + if (LST_IS_EMPTY(hmsg_mgr->msg_free_list)) + sync_reset_event(hmsg_mgr->sync_event); +func_cont: + spin_unlock_bh(&hmsg_mgr->msg_mgr_lock); +func_end: + return; +} + +/* + * ======== bridge_msg_get ======== + * Get a message from a msg_ctrl queue. + */ +int bridge_msg_get(struct msg_queue *msg_queue_obj, + struct dsp_msg *pmsg, u32 utimeout) +{ + struct msg_frame *msg_frame_obj; + struct msg_mgr *hmsg_mgr; + bool got_msg = false; + struct sync_object *syncs[2]; + u32 index; + int status = 0; + + if (!msg_queue_obj || pmsg == NULL) { + status = -ENOMEM; + goto func_end; + } + + hmsg_mgr = msg_queue_obj->hmsg_mgr; + if (!msg_queue_obj->msg_used_list) { + status = -EFAULT; + goto func_end; + } + + /* Enter critical section */ + spin_lock_bh(&hmsg_mgr->msg_mgr_lock); + /* If a message is already there, get it */ + if (!LST_IS_EMPTY(msg_queue_obj->msg_used_list)) { + msg_frame_obj = (struct msg_frame *) + lst_get_head(msg_queue_obj->msg_used_list); + if (msg_frame_obj != NULL) { + *pmsg = msg_frame_obj->msg_data.msg; + lst_put_tail(msg_queue_obj->msg_free_list, + (struct list_head *)msg_frame_obj); + if (LST_IS_EMPTY(msg_queue_obj->msg_used_list)) + sync_reset_event(msg_queue_obj->sync_event); + + got_msg = true; + } + } else { + if (msg_queue_obj->done) + status = -EPERM; + else + msg_queue_obj->io_msg_pend++; + + } + /* Exit critical section */ + spin_unlock_bh(&hmsg_mgr->msg_mgr_lock); + if (DSP_SUCCEEDED(status) && !got_msg) { + /* Wait til message is available, timeout, or done. We don't + * have to schedule the DPC, since the DSP will send messages + * when they are available. */ + syncs[0] = msg_queue_obj->sync_event; + syncs[1] = msg_queue_obj->sync_done; + status = sync_wait_on_multiple_events(syncs, 2, utimeout, + &index); + /* Enter critical section */ + spin_lock_bh(&hmsg_mgr->msg_mgr_lock); + if (msg_queue_obj->done) { + msg_queue_obj->io_msg_pend--; + /* Exit critical section */ + spin_unlock_bh(&hmsg_mgr->msg_mgr_lock); + /* Signal that we're not going to access msg_queue_obj + * anymore, so it can be deleted. */ + (void)sync_set_event(msg_queue_obj->sync_done_ack); + status = -EPERM; + } else { + if (DSP_SUCCEEDED(status)) { + DBC_ASSERT(!LST_IS_EMPTY + (msg_queue_obj->msg_used_list)); + /* Get msg from used list */ + msg_frame_obj = (struct msg_frame *) + lst_get_head(msg_queue_obj->msg_used_list); + /* Copy message into pmsg and put frame on the + * free list */ + if (msg_frame_obj != NULL) { + *pmsg = msg_frame_obj->msg_data.msg; + lst_put_tail + (msg_queue_obj->msg_free_list, + (struct list_head *) + msg_frame_obj); + } + } + msg_queue_obj->io_msg_pend--; + /* Reset the event if there are still queued messages */ + if (!LST_IS_EMPTY(msg_queue_obj->msg_used_list)) + sync_set_event(msg_queue_obj->sync_event); + + /* Exit critical section */ + spin_unlock_bh(&hmsg_mgr->msg_mgr_lock); + } + } +func_end: + return status; +} + +/* + * ======== bridge_msg_put ======== + * Put a message onto a msg_ctrl queue. + */ +int bridge_msg_put(struct msg_queue *msg_queue_obj, + IN CONST struct dsp_msg *pmsg, u32 utimeout) +{ + struct msg_frame *msg_frame_obj; + struct msg_mgr *hmsg_mgr; + bool put_msg = false; + struct sync_object *syncs[2]; + u32 index; + int status = 0; + + if (!msg_queue_obj || !pmsg || !msg_queue_obj->hmsg_mgr) { + status = -ENOMEM; + goto func_end; + } + hmsg_mgr = msg_queue_obj->hmsg_mgr; + if (!hmsg_mgr->msg_free_list) { + status = -EFAULT; + goto func_end; + } + + spin_lock_bh(&hmsg_mgr->msg_mgr_lock); + + /* If a message frame is available, use it */ + if (!LST_IS_EMPTY(hmsg_mgr->msg_free_list)) { + msg_frame_obj = + (struct msg_frame *)lst_get_head(hmsg_mgr->msg_free_list); + if (msg_frame_obj != NULL) { + msg_frame_obj->msg_data.msg = *pmsg; + msg_frame_obj->msg_data.msgq_id = + msg_queue_obj->msgq_id; + lst_put_tail(hmsg_mgr->msg_used_list, + (struct list_head *)msg_frame_obj); + hmsg_mgr->msgs_pending++; + put_msg = true; + } + if (LST_IS_EMPTY(hmsg_mgr->msg_free_list)) + sync_reset_event(hmsg_mgr->sync_event); + + /* Release critical section before scheduling DPC */ + spin_unlock_bh(&hmsg_mgr->msg_mgr_lock); + /* Schedule a DPC, to do the actual data transfer: */ + iosm_schedule(hmsg_mgr->hio_mgr); + } else { + if (msg_queue_obj->done) + status = -EPERM; + else + msg_queue_obj->io_msg_pend++; + + spin_unlock_bh(&hmsg_mgr->msg_mgr_lock); + } + if (DSP_SUCCEEDED(status) && !put_msg) { + /* Wait til a free message frame is available, timeout, + * or done */ + syncs[0] = hmsg_mgr->sync_event; + syncs[1] = msg_queue_obj->sync_done; + status = sync_wait_on_multiple_events(syncs, 2, utimeout, + &index); + if (DSP_FAILED(status)) + goto func_end; + /* Enter critical section */ + spin_lock_bh(&hmsg_mgr->msg_mgr_lock); + if (msg_queue_obj->done) { + msg_queue_obj->io_msg_pend--; + /* Exit critical section */ + spin_unlock_bh(&hmsg_mgr->msg_mgr_lock); + /* Signal that we're not going to access msg_queue_obj + * anymore, so it can be deleted. */ + (void)sync_set_event(msg_queue_obj->sync_done_ack); + status = -EPERM; + } else { + if (LST_IS_EMPTY(hmsg_mgr->msg_free_list)) { + status = -EFAULT; + goto func_cont; + } + /* Get msg from free list */ + msg_frame_obj = (struct msg_frame *) + lst_get_head(hmsg_mgr->msg_free_list); + /* + * Copy message into pmsg and put frame on the + * used list. + */ + if (msg_frame_obj) { + msg_frame_obj->msg_data.msg = *pmsg; + msg_frame_obj->msg_data.msgq_id = + msg_queue_obj->msgq_id; + lst_put_tail(hmsg_mgr->msg_used_list, + (struct list_head *)msg_frame_obj); + hmsg_mgr->msgs_pending++; + /* + * Schedule a DPC, to do the actual + * data transfer. + */ + iosm_schedule(hmsg_mgr->hio_mgr); + } + + msg_queue_obj->io_msg_pend--; + /* Reset event if there are still frames available */ + if (!LST_IS_EMPTY(hmsg_mgr->msg_free_list)) + sync_set_event(hmsg_mgr->sync_event); +func_cont: + /* Exit critical section */ + spin_unlock_bh(&hmsg_mgr->msg_mgr_lock); + } + } +func_end: + return status; +} + +/* + * ======== bridge_msg_register_notify ======== + */ +int bridge_msg_register_notify(struct msg_queue *msg_queue_obj, + u32 event_mask, u32 notify_type, + struct dsp_notification *hnotification) +{ + int status = 0; + + if (!msg_queue_obj || !hnotification) { + status = -ENOMEM; + goto func_end; + } + + if (!(event_mask == DSP_NODEMESSAGEREADY || event_mask == 0)) { + status = -EPERM; + goto func_end; + } + + if (notify_type != DSP_SIGNALEVENT) { + status = -EBADR; + goto func_end; + } + + if (event_mask) + status = ntfy_register(msg_queue_obj->ntfy_obj, hnotification, + event_mask, notify_type); + else + status = ntfy_unregister(msg_queue_obj->ntfy_obj, + hnotification); + + if (status == -EINVAL) { + /* Not registered. Ok, since we couldn't have known. Node + * notifications are split between node state change handled + * by NODE, and message ready handled by msg_ctrl. */ + status = 0; + } +func_end: + return status; +} + +/* + * ======== bridge_msg_set_queue_id ======== + */ +void bridge_msg_set_queue_id(struct msg_queue *msg_queue_obj, u32 msgq_id) +{ + /* + * A message queue must be created when a node is allocated, + * so that node_register_notify() can be called before the node + * is created. Since we don't know the node environment until the + * node is created, we need this function to set msg_queue_obj->msgq_id + * to the node environment, after the node is created. + */ + if (msg_queue_obj) + msg_queue_obj->msgq_id = msgq_id; +} + +/* + * ======== add_new_msg ======== + * Must be called in message manager critical section. + */ +static int add_new_msg(struct lst_list *msgList) +{ + struct msg_frame *pmsg; + int status = 0; + + pmsg = kzalloc(sizeof(struct msg_frame), GFP_ATOMIC); + if (pmsg != NULL) { + lst_init_elem((struct list_head *)pmsg); + lst_put_tail(msgList, (struct list_head *)pmsg); + } else { + status = -ENOMEM; + } + + return status; +} + +/* + * ======== delete_msg_mgr ======== + */ +static void delete_msg_mgr(struct msg_mgr *hmsg_mgr) +{ + if (!hmsg_mgr) + goto func_end; + + if (hmsg_mgr->queue_list) { + if (LST_IS_EMPTY(hmsg_mgr->queue_list)) { + kfree(hmsg_mgr->queue_list); + hmsg_mgr->queue_list = NULL; + } + } + + if (hmsg_mgr->msg_free_list) { + free_msg_list(hmsg_mgr->msg_free_list); + hmsg_mgr->msg_free_list = NULL; + } + + if (hmsg_mgr->msg_used_list) { + free_msg_list(hmsg_mgr->msg_used_list); + hmsg_mgr->msg_used_list = NULL; + } + + kfree(hmsg_mgr->sync_event); + + kfree(hmsg_mgr); +func_end: + return; +} + +/* + * ======== delete_msg_queue ======== + */ +static void delete_msg_queue(struct msg_queue *msg_queue_obj, u32 uNumToDSP) +{ + struct msg_mgr *hmsg_mgr; + struct msg_frame *pmsg; + u32 i; + + if (!msg_queue_obj || + !msg_queue_obj->hmsg_mgr || !msg_queue_obj->hmsg_mgr->msg_free_list) + goto func_end; + + hmsg_mgr = msg_queue_obj->hmsg_mgr; + + /* Pull off uNumToDSP message frames from Msg manager and free */ + for (i = 0; i < uNumToDSP; i++) { + + if (!LST_IS_EMPTY(hmsg_mgr->msg_free_list)) { + pmsg = (struct msg_frame *) + lst_get_head(hmsg_mgr->msg_free_list); + kfree(pmsg); + } else { + /* Cannot free all of the message frames */ + break; + } + } + + if (msg_queue_obj->msg_free_list) { + free_msg_list(msg_queue_obj->msg_free_list); + msg_queue_obj->msg_free_list = NULL; + } + + if (msg_queue_obj->msg_used_list) { + free_msg_list(msg_queue_obj->msg_used_list); + msg_queue_obj->msg_used_list = NULL; + } + + if (msg_queue_obj->ntfy_obj) { + ntfy_delete(msg_queue_obj->ntfy_obj); + kfree(msg_queue_obj->ntfy_obj); + } + + kfree(msg_queue_obj->sync_event); + kfree(msg_queue_obj->sync_done); + kfree(msg_queue_obj->sync_done_ack); + + kfree(msg_queue_obj); +func_end: + return; + +} + +/* + * ======== free_msg_list ======== + */ +static void free_msg_list(struct lst_list *msgList) +{ + struct msg_frame *pmsg; + + if (!msgList) + goto func_end; + + while ((pmsg = (struct msg_frame *)lst_get_head(msgList)) != NULL) + kfree(pmsg); + + DBC_ASSERT(LST_IS_EMPTY(msgList)); + + kfree(msgList); +func_end: + return; +} diff --git a/drivers/staging/tidspbridge/core/tiomap3430.c b/drivers/staging/tidspbridge/core/tiomap3430.c new file mode 100644 index 000000000000..ee9205bb567f --- /dev/null +++ b/drivers/staging/tidspbridge/core/tiomap3430.c @@ -0,0 +1,1887 @@ +/* + * tiomap.c + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Processor Manager Driver for TI OMAP3430 EVM. + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +/* ----------------------------------- Host OS */ +#include +#include +#include +#include + +/* ----------------------------------- DSP/BIOS Bridge */ +#include +#include + +/* ----------------------------------- Trace & Debug */ +#include + +/* ----------------------------------- OS Adaptation Layer */ +#include +#include +#include + +/* ------------------------------------ Hardware Abstraction Layer */ +#include +#include + +/* ----------------------------------- Link Driver */ +#include +#include +#include +#include +#include +#include +#include + +/* ----------------------------------- Platform Manager */ +#include +#include +#include +#include + +/* ----------------------------------- Local */ +#include "_tiomap.h" +#include "_tiomap_pwr.h" +#include "tiomap_io.h" + +/* Offset in shared mem to write to in order to synchronize start with DSP */ +#define SHMSYNCOFFSET 4 /* GPP byte offset */ + +#define BUFFERSIZE 1024 + +#define TIHELEN_ACKTIMEOUT 10000 + +#define MMU_SECTION_ADDR_MASK 0xFFF00000 +#define MMU_SSECTION_ADDR_MASK 0xFF000000 +#define MMU_LARGE_PAGE_MASK 0xFFFF0000 +#define MMU_SMALL_PAGE_MASK 0xFFFFF000 +#define OMAP3_IVA2_BOOTADDR_MASK 0xFFFFFC00 +#define PAGES_II_LVL_TABLE 512 +#define PHYS_TO_PAGE(phys) pfn_to_page((phys) >> PAGE_SHIFT) + +#define MMU_GFLUSH 0x60 + +/* Forward Declarations: */ +static int bridge_brd_monitor(struct bridge_dev_context *dev_context); +static int bridge_brd_read(struct bridge_dev_context *dev_context, + OUT u8 *pbHostBuf, + u32 dwDSPAddr, u32 ul_num_bytes, + u32 ulMemType); +static int bridge_brd_start(struct bridge_dev_context *dev_context, + u32 dwDSPAddr); +static int bridge_brd_status(struct bridge_dev_context *dev_context, + int *pdwState); +static int bridge_brd_stop(struct bridge_dev_context *dev_context); +static int bridge_brd_write(struct bridge_dev_context *dev_context, + IN u8 *pbHostBuf, + u32 dwDSPAddr, u32 ul_num_bytes, + u32 ulMemType); +static int bridge_brd_set_state(struct bridge_dev_context *hDevContext, + u32 ulBrdState); +static int bridge_brd_mem_copy(struct bridge_dev_context *hDevContext, + u32 ulDspDestAddr, u32 ulDspSrcAddr, + u32 ul_num_bytes, u32 ulMemType); +static int bridge_brd_mem_write(struct bridge_dev_context *dev_context, + IN u8 *pbHostBuf, u32 dwDSPAddr, + u32 ul_num_bytes, u32 ulMemType); +static int bridge_brd_mem_map(struct bridge_dev_context *hDevContext, + u32 ul_mpu_addr, u32 ulVirtAddr, + u32 ul_num_bytes, u32 ul_map_attr, + struct page **mapped_pages); +static int bridge_brd_mem_un_map(struct bridge_dev_context *hDevContext, + u32 ulVirtAddr, u32 ul_num_bytes); +static int bridge_dev_create(OUT struct bridge_dev_context + **ppDevContext, + struct dev_object *hdev_obj, + IN struct cfg_hostres *pConfig); +static int bridge_dev_ctrl(struct bridge_dev_context *dev_context, + u32 dw_cmd, IN OUT void *pargs); +static int bridge_dev_destroy(struct bridge_dev_context *dev_context); +static u32 user_va2_pa(struct mm_struct *mm, u32 address); +static int pte_update(struct bridge_dev_context *hDevContext, u32 pa, + u32 va, u32 size, + struct hw_mmu_map_attrs_t *map_attrs); +static int pte_set(struct pg_table_attrs *pt, u32 pa, u32 va, + u32 size, struct hw_mmu_map_attrs_t *attrs); +static int mem_map_vmalloc(struct bridge_dev_context *hDevContext, + u32 ul_mpu_addr, u32 ulVirtAddr, + u32 ul_num_bytes, + struct hw_mmu_map_attrs_t *hw_attrs); + +bool wait_for_start(struct bridge_dev_context *dev_context, u32 dw_sync_addr); + +/* ----------------------------------- Globals */ + +/* Attributes of L2 page tables for DSP MMU */ +struct page_info { + u32 num_entries; /* Number of valid PTEs in the L2 PT */ +}; + +/* Attributes used to manage the DSP MMU page tables */ +struct pg_table_attrs { + spinlock_t pg_lock; /* Critical section object handle */ + + u32 l1_base_pa; /* Physical address of the L1 PT */ + u32 l1_base_va; /* Virtual address of the L1 PT */ + u32 l1_size; /* Size of the L1 PT */ + u32 l1_tbl_alloc_pa; + /* Physical address of Allocated mem for L1 table. May not be aligned */ + u32 l1_tbl_alloc_va; + /* Virtual address of Allocated mem for L1 table. May not be aligned */ + u32 l1_tbl_alloc_sz; + /* Size of consistent memory allocated for L1 table. + * May not be aligned */ + + u32 l2_base_pa; /* Physical address of the L2 PT */ + u32 l2_base_va; /* Virtual address of the L2 PT */ + u32 l2_size; /* Size of the L2 PT */ + u32 l2_tbl_alloc_pa; + /* Physical address of Allocated mem for L2 table. May not be aligned */ + u32 l2_tbl_alloc_va; + /* Virtual address of Allocated mem for L2 table. May not be aligned */ + u32 l2_tbl_alloc_sz; + /* Size of consistent memory allocated for L2 table. + * May not be aligned */ + + u32 l2_num_pages; /* Number of allocated L2 PT */ + /* Array [l2_num_pages] of L2 PT info structs */ + struct page_info *pg_info; +}; + +/* + * This Bridge driver's function interface table. + */ +static struct bridge_drv_interface drv_interface_fxns = { + /* Bridge API ver. for which this bridge driver is built. */ + BRD_API_MAJOR_VERSION, + BRD_API_MINOR_VERSION, + bridge_dev_create, + bridge_dev_destroy, + bridge_dev_ctrl, + bridge_brd_monitor, + bridge_brd_start, + bridge_brd_stop, + bridge_brd_status, + bridge_brd_read, + bridge_brd_write, + bridge_brd_set_state, + bridge_brd_mem_copy, + bridge_brd_mem_write, + bridge_brd_mem_map, + bridge_brd_mem_un_map, + /* The following CHNL functions are provided by chnl_io.lib: */ + bridge_chnl_create, + bridge_chnl_destroy, + bridge_chnl_open, + bridge_chnl_close, + bridge_chnl_add_io_req, + bridge_chnl_get_ioc, + bridge_chnl_cancel_io, + bridge_chnl_flush_io, + bridge_chnl_get_info, + bridge_chnl_get_mgr_info, + bridge_chnl_idle, + bridge_chnl_register_notify, + /* The following DEH functions are provided by tihelen_ue_deh.c */ + bridge_deh_create, + bridge_deh_destroy, + bridge_deh_notify, + bridge_deh_register_notify, + bridge_deh_get_info, + /* The following IO functions are provided by chnl_io.lib: */ + bridge_io_create, + bridge_io_destroy, + bridge_io_on_loaded, + bridge_io_get_proc_load, + /* The following msg_ctrl functions are provided by chnl_io.lib: */ + bridge_msg_create, + bridge_msg_create_queue, + bridge_msg_delete, + bridge_msg_delete_queue, + bridge_msg_get, + bridge_msg_put, + bridge_msg_register_notify, + bridge_msg_set_queue_id, +}; + +static inline void tlb_flush_all(const void __iomem *base) +{ + __raw_writeb(__raw_readb(base + MMU_GFLUSH) | 1, base + MMU_GFLUSH); +} + +static inline void flush_all(struct bridge_dev_context *dev_context) +{ + if (dev_context->dw_brd_state == BRD_DSP_HIBERNATION || + dev_context->dw_brd_state == BRD_HIBERNATION) + wake_dsp(dev_context, NULL); + + tlb_flush_all(dev_context->dw_dsp_mmu_base); +} + +static void bad_page_dump(u32 pa, struct page *pg) +{ + pr_emerg("DSPBRIDGE: MAP function: COUNT 0 FOR PA 0x%x\n", pa); + pr_emerg("Bad page state in process '%s'\n" + "page:%p flags:0x%0*lx mapping:%p mapcount:%d count:%d\n" + "Backtrace:\n", + current->comm, pg, (int)(2 * sizeof(unsigned long)), + (unsigned long)pg->flags, pg->mapping, + page_mapcount(pg), page_count(pg)); + dump_stack(); +} + +/* + * ======== bridge_drv_entry ======== + * purpose: + * Bridge Driver entry point. + */ +void bridge_drv_entry(OUT struct bridge_drv_interface **ppDrvInterface, + IN CONST char *driver_file_name) +{ + + DBC_REQUIRE(driver_file_name != NULL); + + io_sm_init(); /* Initialization of io_sm module */ + + if (strcmp(driver_file_name, "UMA") == 0) + *ppDrvInterface = &drv_interface_fxns; + else + dev_dbg(bridge, "%s Unknown Bridge file name", __func__); + +} + +/* + * ======== bridge_brd_monitor ======== + * purpose: + * This bridge_brd_monitor puts DSP into a Loadable state. + * i.e Application can load and start the device. + * + * Preconditions: + * Device in 'OFF' state. + */ +static int bridge_brd_monitor(struct bridge_dev_context *hDevContext) +{ + int status = 0; + struct bridge_dev_context *dev_context = hDevContext; + u32 temp; + struct dspbridge_platform_data *pdata = + omap_dspbridge_dev->dev.platform_data; + + temp = (*pdata->dsp_prm_read)(OMAP3430_IVA2_MOD, OMAP2_PM_PWSTST) & + OMAP_POWERSTATEST_MASK; + if (!(temp & 0x02)) { + /* IVA2 is not in ON state */ + /* Read and set PM_PWSTCTRL_IVA2 to ON */ + (*pdata->dsp_prm_rmw_bits)(OMAP_POWERSTATEST_MASK, + PWRDM_POWER_ON, OMAP3430_IVA2_MOD, OMAP2_PM_PWSTCTRL); + /* Set the SW supervised state transition */ + (*pdata->dsp_cm_write)(OMAP34XX_CLKSTCTRL_FORCE_WAKEUP, + OMAP3430_IVA2_MOD, OMAP2_CM_CLKSTCTRL); + + /* Wait until the state has moved to ON */ + while ((*pdata->dsp_prm_read)(OMAP3430_IVA2_MOD, OMAP2_PM_PWSTST) & + OMAP_INTRANSITION_MASK) + ; + /* Disable Automatic transition */ + (*pdata->dsp_cm_write)(OMAP34XX_CLKSTCTRL_DISABLE_AUTO, + OMAP3430_IVA2_MOD, OMAP2_CM_CLKSTCTRL); + } + (*pdata->dsp_prm_rmw_bits)(OMAP3430_RST2_IVA2_MASK, 0, + OMAP3430_IVA2_MOD, OMAP2_RM_RSTCTRL); + dsp_clk_enable(DSP_CLK_IVA2); + + if (DSP_SUCCEEDED(status)) { + /* set the device state to IDLE */ + dev_context->dw_brd_state = BRD_IDLE; + } + return status; +} + +/* + * ======== bridge_brd_read ======== + * purpose: + * Reads buffers for DSP memory. + */ +static int bridge_brd_read(struct bridge_dev_context *hDevContext, + OUT u8 *pbHostBuf, u32 dwDSPAddr, + u32 ul_num_bytes, u32 ulMemType) +{ + int status = 0; + struct bridge_dev_context *dev_context = hDevContext; + u32 offset; + u32 dsp_base_addr = hDevContext->dw_dsp_base_addr; + + if (dwDSPAddr < dev_context->dw_dsp_start_add) { + status = -EPERM; + return status; + } + /* change here to account for the 3 bands of the DSP internal memory */ + if ((dwDSPAddr - dev_context->dw_dsp_start_add) < + dev_context->dw_internal_size) { + offset = dwDSPAddr - dev_context->dw_dsp_start_add; + } else { + status = read_ext_dsp_data(dev_context, pbHostBuf, dwDSPAddr, + ul_num_bytes, ulMemType); + return status; + } + /* copy the data from DSP memory, */ + memcpy(pbHostBuf, (void *)(dsp_base_addr + offset), ul_num_bytes); + return status; +} + +/* + * ======== bridge_brd_set_state ======== + * purpose: + * This routine updates the Board status. + */ +static int bridge_brd_set_state(struct bridge_dev_context *hDevContext, + u32 ulBrdState) +{ + int status = 0; + struct bridge_dev_context *dev_context = hDevContext; + + dev_context->dw_brd_state = ulBrdState; + return status; +} + +/* + * ======== bridge_brd_start ======== + * purpose: + * Initializes DSP MMU and Starts DSP. + * + * Preconditions: + * a) DSP domain is 'ACTIVE'. + * b) DSP_RST1 is asserted. + * b) DSP_RST2 is released. + */ +static int bridge_brd_start(struct bridge_dev_context *hDevContext, + u32 dwDSPAddr) +{ + int status = 0; + struct bridge_dev_context *dev_context = hDevContext; + u32 dw_sync_addr = 0; + u32 ul_shm_base; /* Gpp Phys SM base addr(byte) */ + u32 ul_shm_base_virt; /* Dsp Virt SM base addr */ + u32 ul_tlb_base_virt; /* Base of MMU TLB entry */ + /* Offset of shm_base_virt from tlb_base_virt */ + u32 ul_shm_offset_virt; + s32 entry_ndx; + s32 itmp_entry_ndx = 0; /* DSP-MMU TLB entry base address */ + struct cfg_hostres *resources = NULL; + u32 temp; + u32 ul_dsp_clk_rate; + u32 ul_dsp_clk_addr; + u32 ul_bios_gp_timer; + u32 clk_cmd; + struct io_mgr *hio_mgr; + u32 ul_load_monitor_timer; + struct dspbridge_platform_data *pdata = + omap_dspbridge_dev->dev.platform_data; + + /* The device context contains all the mmu setup info from when the + * last dsp base image was loaded. The first entry is always + * SHMMEM base. */ + /* Get SHM_BEG - convert to byte address */ + (void)dev_get_symbol(dev_context->hdev_obj, SHMBASENAME, + &ul_shm_base_virt); + ul_shm_base_virt *= DSPWORDSIZE; + DBC_ASSERT(ul_shm_base_virt != 0); + /* DSP Virtual address */ + ul_tlb_base_virt = dev_context->atlb_entry[0].ul_dsp_va; + DBC_ASSERT(ul_tlb_base_virt <= ul_shm_base_virt); + ul_shm_offset_virt = + ul_shm_base_virt - (ul_tlb_base_virt * DSPWORDSIZE); + /* Kernel logical address */ + ul_shm_base = dev_context->atlb_entry[0].ul_gpp_va + ul_shm_offset_virt; + + DBC_ASSERT(ul_shm_base != 0); + /* 2nd wd is used as sync field */ + dw_sync_addr = ul_shm_base + SHMSYNCOFFSET; + /* Write a signature into the shm base + offset; this will + * get cleared when the DSP program starts. */ + if ((ul_shm_base_virt == 0) || (ul_shm_base == 0)) { + pr_err("%s: Illegal SM base\n", __func__); + status = -EPERM; + } else + *((volatile u32 *)dw_sync_addr) = 0xffffffff; + + if (DSP_SUCCEEDED(status)) { + resources = dev_context->resources; + if (!resources) + status = -EPERM; + + /* Assert RST1 i.e only the RST only for DSP megacell */ + if (DSP_SUCCEEDED(status)) { + (*pdata->dsp_prm_rmw_bits)(OMAP3430_RST1_IVA2_MASK, + OMAP3430_RST1_IVA2_MASK, OMAP3430_IVA2_MOD, + OMAP2_RM_RSTCTRL); + /* Mask address with 1K for compatibility */ + __raw_writel(dwDSPAddr & OMAP3_IVA2_BOOTADDR_MASK, + OMAP343X_CTRL_REGADDR( + OMAP343X_CONTROL_IVA2_BOOTADDR)); + /* + * Set bootmode to self loop if dsp_debug flag is true + */ + __raw_writel((dsp_debug) ? OMAP3_IVA2_BOOTMOD_IDLE : 0, + OMAP343X_CTRL_REGADDR( + OMAP343X_CONTROL_IVA2_BOOTMOD)); + } + } + if (DSP_SUCCEEDED(status)) { + /* Reset and Unreset the RST2, so that BOOTADDR is copied to + * IVA2 SYSC register */ + (*pdata->dsp_prm_rmw_bits)(OMAP3430_RST2_IVA2_MASK, + OMAP3430_RST2_IVA2_MASK, OMAP3430_IVA2_MOD, OMAP2_RM_RSTCTRL); + udelay(100); + (*pdata->dsp_prm_rmw_bits)(OMAP3430_RST2_IVA2_MASK, 0, + OMAP3430_IVA2_MOD, OMAP2_RM_RSTCTRL); + udelay(100); + + /* Disbale the DSP MMU */ + hw_mmu_disable(resources->dw_dmmu_base); + /* Disable TWL */ + hw_mmu_twl_disable(resources->dw_dmmu_base); + + /* Only make TLB entry if both addresses are non-zero */ + for (entry_ndx = 0; entry_ndx < BRDIOCTL_NUMOFMMUTLB; + entry_ndx++) { + struct bridge_ioctl_extproc *e = &dev_context->atlb_entry[entry_ndx]; + struct hw_mmu_map_attrs_t map_attrs = { + .endianism = e->endianism, + .element_size = e->elem_size, + .mixed_size = e->mixed_mode, + }; + + if (!e->ul_gpp_pa || !e->ul_dsp_va) + continue; + + dev_dbg(bridge, + "MMU %d, pa: 0x%x, va: 0x%x, size: 0x%x", + itmp_entry_ndx, + e->ul_gpp_pa, + e->ul_dsp_va, + e->ul_size); + + hw_mmu_tlb_add(dev_context->dw_dsp_mmu_base, + e->ul_gpp_pa, + e->ul_dsp_va, + e->ul_size, + itmp_entry_ndx, + &map_attrs, 1, 1); + + itmp_entry_ndx++; + } + } + + /* Lock the above TLB entries and get the BIOS and load monitor timer + * information */ + if (DSP_SUCCEEDED(status)) { + hw_mmu_num_locked_set(resources->dw_dmmu_base, itmp_entry_ndx); + hw_mmu_victim_num_set(resources->dw_dmmu_base, itmp_entry_ndx); + hw_mmu_ttb_set(resources->dw_dmmu_base, + dev_context->pt_attrs->l1_base_pa); + hw_mmu_twl_enable(resources->dw_dmmu_base); + /* Enable the SmartIdle and AutoIdle bit for MMU_SYSCONFIG */ + + temp = __raw_readl((resources->dw_dmmu_base) + 0x10); + temp = (temp & 0xFFFFFFEF) | 0x11; + __raw_writel(temp, (resources->dw_dmmu_base) + 0x10); + + /* Let the DSP MMU run */ + hw_mmu_enable(resources->dw_dmmu_base); + + /* Enable the BIOS clock */ + (void)dev_get_symbol(dev_context->hdev_obj, + BRIDGEINIT_BIOSGPTIMER, &ul_bios_gp_timer); + (void)dev_get_symbol(dev_context->hdev_obj, + BRIDGEINIT_LOADMON_GPTIMER, + &ul_load_monitor_timer); + } + + if (DSP_SUCCEEDED(status)) { + if (ul_load_monitor_timer != 0xFFFF) { + clk_cmd = (BPWR_ENABLE_CLOCK << MBX_PM_CLK_CMDSHIFT) | + ul_load_monitor_timer; + dsp_peripheral_clk_ctrl(dev_context, &clk_cmd); + } else { + dev_dbg(bridge, "Not able to get the symbol for Load " + "Monitor Timer\n"); + } + } + + if (DSP_SUCCEEDED(status)) { + if (ul_bios_gp_timer != 0xFFFF) { + clk_cmd = (BPWR_ENABLE_CLOCK << MBX_PM_CLK_CMDSHIFT) | + ul_bios_gp_timer; + dsp_peripheral_clk_ctrl(dev_context, &clk_cmd); + } else { + dev_dbg(bridge, + "Not able to get the symbol for BIOS Timer\n"); + } + } + + if (DSP_SUCCEEDED(status)) { + /* Set the DSP clock rate */ + (void)dev_get_symbol(dev_context->hdev_obj, + "_BRIDGEINIT_DSP_FREQ", &ul_dsp_clk_addr); + /*Set Autoidle Mode for IVA2 PLL */ + (*pdata->dsp_cm_write)(1 << OMAP3430_AUTO_IVA2_DPLL_SHIFT, + OMAP3430_IVA2_MOD, OMAP3430_CM_AUTOIDLE_PLL); + + if ((unsigned int *)ul_dsp_clk_addr != NULL) { + /* Get the clock rate */ + ul_dsp_clk_rate = dsp_clk_get_iva2_rate(); + dev_dbg(bridge, "%s: DSP clock rate (KHZ): 0x%x \n", + __func__, ul_dsp_clk_rate); + (void)bridge_brd_write(dev_context, + (u8 *) &ul_dsp_clk_rate, + ul_dsp_clk_addr, sizeof(u32), 0); + } + /* + * Enable Mailbox events and also drain any pending + * stale messages. + */ + dev_context->mbox = omap_mbox_get("dsp"); + if (IS_ERR(dev_context->mbox)) { + dev_context->mbox = NULL; + pr_err("%s: Failed to get dsp mailbox handle\n", + __func__); + status = -EPERM; + } + + } + if (DSP_SUCCEEDED(status)) { + dev_context->mbox->rxq->callback = (int (*)(void *))io_mbox_msg; + +/*PM_IVA2GRPSEL_PER = 0xC0;*/ + temp = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + 0xA8)); + temp = (temp & 0xFFFFFF30) | 0xC0; + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA8)) = + (u32) temp; + +/*PM_MPUGRPSEL_PER &= 0xFFFFFF3F; */ + temp = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + 0xA4)); + temp = (temp & 0xFFFFFF3F); + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA4)) = + (u32) temp; +/*CM_SLEEPDEP_PER |= 0x04; */ + temp = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_base) + 0x44)); + temp = (temp & 0xFFFFFFFB) | 0x04; + *((reg_uword32 *) ((u32) (resources->dw_per_base) + 0x44)) = + (u32) temp; + +/*CM_CLKSTCTRL_IVA2 = 0x00000003 -To Allow automatic transitions */ + (*pdata->dsp_cm_write)(OMAP34XX_CLKSTCTRL_ENABLE_AUTO, + OMAP3430_IVA2_MOD, OMAP2_CM_CLKSTCTRL); + + /* Let DSP go */ + dev_dbg(bridge, "%s Unreset\n", __func__); + /* Enable DSP MMU Interrupts */ + hw_mmu_event_enable(resources->dw_dmmu_base, + HW_MMU_ALL_INTERRUPTS); + /* release the RST1, DSP starts executing now .. */ + (*pdata->dsp_prm_rmw_bits)(OMAP3430_RST1_IVA2_MASK, 0, + OMAP3430_IVA2_MOD, OMAP2_RM_RSTCTRL); + + dev_dbg(bridge, "Waiting for Sync @ 0x%x\n", dw_sync_addr); + dev_dbg(bridge, "DSP c_int00 Address = 0x%x\n", dwDSPAddr); + if (dsp_debug) + while (*((volatile u16 *)dw_sync_addr)) + ;; + + /* Wait for DSP to clear word in shared memory */ + /* Read the Location */ + if (!wait_for_start(dev_context, dw_sync_addr)) + status = -ETIMEDOUT; + + /* Start wdt */ + dsp_wdt_sm_set((void *)ul_shm_base); + dsp_wdt_enable(true); + + status = dev_get_io_mgr(dev_context->hdev_obj, &hio_mgr); + if (hio_mgr) { + io_sh_msetting(hio_mgr, SHM_OPPINFO, NULL); + /* Write the synchronization bit to indicate the + * completion of OPP table update to DSP + */ + *((volatile u32 *)dw_sync_addr) = 0XCAFECAFE; + + /* update board state */ + dev_context->dw_brd_state = BRD_RUNNING; + /* (void)chnlsm_enable_interrupt(dev_context); */ + } else { + dev_context->dw_brd_state = BRD_UNKNOWN; + } + } + return status; +} + +/* + * ======== bridge_brd_stop ======== + * purpose: + * Puts DSP in self loop. + * + * Preconditions : + * a) None + */ +static int bridge_brd_stop(struct bridge_dev_context *hDevContext) +{ + int status = 0; + struct bridge_dev_context *dev_context = hDevContext; + struct pg_table_attrs *pt_attrs; + u32 dsp_pwr_state; + int clk_status; + struct dspbridge_platform_data *pdata = + omap_dspbridge_dev->dev.platform_data; + + if (dev_context->dw_brd_state == BRD_STOPPED) + return status; + + /* as per TRM, it is advised to first drive the IVA2 to 'Standby' mode, + * before turning off the clocks.. This is to ensure that there are no + * pending L3 or other transactons from IVA2 */ + dsp_pwr_state = (*pdata->dsp_prm_read)(OMAP3430_IVA2_MOD, OMAP2_PM_PWSTST) & + OMAP_POWERSTATEST_MASK; + if (dsp_pwr_state != PWRDM_POWER_OFF) { + sm_interrupt_dsp(dev_context, MBX_PM_DSPIDLE); + mdelay(10); + + clk_status = dsp_clk_disable(DSP_CLK_IVA2); + + /* IVA2 is not in OFF state */ + /* Set PM_PWSTCTRL_IVA2 to OFF */ + (*pdata->dsp_prm_rmw_bits)(OMAP_POWERSTATEST_MASK, + PWRDM_POWER_OFF, OMAP3430_IVA2_MOD, OMAP2_PM_PWSTCTRL); + /* Set the SW supervised state transition for Sleep */ + (*pdata->dsp_cm_write)(OMAP34XX_CLKSTCTRL_FORCE_SLEEP, + OMAP3430_IVA2_MOD, OMAP2_CM_CLKSTCTRL); + } else { + clk_status = dsp_clk_disable(DSP_CLK_IVA2); + } + udelay(10); + /* Release the Ext Base virtual Address as the next DSP Program + * may have a different load address */ + if (dev_context->dw_dsp_ext_base_addr) + dev_context->dw_dsp_ext_base_addr = 0; + + dev_context->dw_brd_state = BRD_STOPPED; /* update board state */ + + dsp_wdt_enable(false); + + /* This is a good place to clear the MMU page tables as well */ + if (dev_context->pt_attrs) { + pt_attrs = dev_context->pt_attrs; + memset((u8 *) pt_attrs->l1_base_va, 0x00, pt_attrs->l1_size); + memset((u8 *) pt_attrs->l2_base_va, 0x00, pt_attrs->l2_size); + memset((u8 *) pt_attrs->pg_info, 0x00, + (pt_attrs->l2_num_pages * sizeof(struct page_info))); + } + /* Disable the mailbox interrupts */ + if (dev_context->mbox) { + omap_mbox_disable_irq(dev_context->mbox, IRQ_RX); + omap_mbox_put(dev_context->mbox); + dev_context->mbox = NULL; + } + /* Reset IVA2 clocks*/ + (*pdata->dsp_prm_write)(OMAP3430_RST1_IVA2_MASK | OMAP3430_RST2_IVA2_MASK | + OMAP3430_RST3_IVA2_MASK, OMAP3430_IVA2_MOD, OMAP2_RM_RSTCTRL); + + return status; +} + +/* + * ======== bridge_brd_delete ======== + * purpose: + * Puts DSP in Low power mode + * + * Preconditions : + * a) None + */ +static int bridge_brd_delete(struct bridge_dev_context *hDevContext) +{ + int status = 0; + struct bridge_dev_context *dev_context = hDevContext; + struct pg_table_attrs *pt_attrs; + int clk_status; + struct dspbridge_platform_data *pdata = + omap_dspbridge_dev->dev.platform_data; + + if (dev_context->dw_brd_state == BRD_STOPPED) + return status; + + /* as per TRM, it is advised to first drive + * the IVA2 to 'Standby' mode, before turning off the clocks.. This is + * to ensure that there are no pending L3 or other transactons from + * IVA2 */ + status = sleep_dsp(dev_context, PWR_EMERGENCYDEEPSLEEP, NULL); + clk_status = dsp_clk_disable(DSP_CLK_IVA2); + + /* Release the Ext Base virtual Address as the next DSP Program + * may have a different load address */ + if (dev_context->dw_dsp_ext_base_addr) + dev_context->dw_dsp_ext_base_addr = 0; + + dev_context->dw_brd_state = BRD_STOPPED; /* update board state */ + + /* This is a good place to clear the MMU page tables as well */ + if (dev_context->pt_attrs) { + pt_attrs = dev_context->pt_attrs; + memset((u8 *) pt_attrs->l1_base_va, 0x00, pt_attrs->l1_size); + memset((u8 *) pt_attrs->l2_base_va, 0x00, pt_attrs->l2_size); + memset((u8 *) pt_attrs->pg_info, 0x00, + (pt_attrs->l2_num_pages * sizeof(struct page_info))); + } + /* Disable the mail box interrupts */ + if (dev_context->mbox) { + omap_mbox_disable_irq(dev_context->mbox, IRQ_RX); + omap_mbox_put(dev_context->mbox); + dev_context->mbox = NULL; + } + /* Reset IVA2 clocks*/ + (*pdata->dsp_prm_write)(OMAP3430_RST1_IVA2_MASK | OMAP3430_RST2_IVA2_MASK | + OMAP3430_RST3_IVA2_MASK, OMAP3430_IVA2_MOD, OMAP2_RM_RSTCTRL); + + return status; +} + +/* + * ======== bridge_brd_status ======== + * Returns the board status. + */ +static int bridge_brd_status(struct bridge_dev_context *hDevContext, + int *pdwState) +{ + struct bridge_dev_context *dev_context = hDevContext; + *pdwState = dev_context->dw_brd_state; + return 0; +} + +/* + * ======== bridge_brd_write ======== + * Copies the buffers to DSP internal or external memory. + */ +static int bridge_brd_write(struct bridge_dev_context *hDevContext, + IN u8 *pbHostBuf, u32 dwDSPAddr, + u32 ul_num_bytes, u32 ulMemType) +{ + int status = 0; + struct bridge_dev_context *dev_context = hDevContext; + + if (dwDSPAddr < dev_context->dw_dsp_start_add) { + status = -EPERM; + return status; + } + if ((dwDSPAddr - dev_context->dw_dsp_start_add) < + dev_context->dw_internal_size) { + status = write_dsp_data(hDevContext, pbHostBuf, dwDSPAddr, + ul_num_bytes, ulMemType); + } else { + status = write_ext_dsp_data(dev_context, pbHostBuf, dwDSPAddr, + ul_num_bytes, ulMemType, false); + } + + return status; +} + +/* + * ======== bridge_dev_create ======== + * Creates a driver object. Puts DSP in self loop. + */ +static int bridge_dev_create(OUT struct bridge_dev_context + **ppDevContext, + struct dev_object *hdev_obj, + IN struct cfg_hostres *pConfig) +{ + int status = 0; + struct bridge_dev_context *dev_context = NULL; + s32 entry_ndx; + struct cfg_hostres *resources = pConfig; + struct pg_table_attrs *pt_attrs; + u32 pg_tbl_pa; + u32 pg_tbl_va; + u32 align_size; + struct drv_data *drv_datap = dev_get_drvdata(bridge); + + /* Allocate and initialize a data structure to contain the bridge driver + * state, which becomes the context for later calls into this driver */ + dev_context = kzalloc(sizeof(struct bridge_dev_context), GFP_KERNEL); + if (!dev_context) { + status = -ENOMEM; + goto func_end; + } + + dev_context->dw_dsp_start_add = (u32) OMAP_GEM_BASE; + dev_context->dw_self_loop = (u32) NULL; + dev_context->dsp_per_clks = 0; + dev_context->dw_internal_size = OMAP_DSP_SIZE; + /* Clear dev context MMU table entries. + * These get set on bridge_io_on_loaded() call after program loaded. */ + for (entry_ndx = 0; entry_ndx < BRDIOCTL_NUMOFMMUTLB; entry_ndx++) { + dev_context->atlb_entry[entry_ndx].ul_gpp_pa = + dev_context->atlb_entry[entry_ndx].ul_dsp_va = 0; + } + dev_context->num_tlb_entries = 0; + dev_context->dw_dsp_base_addr = (u32) MEM_LINEAR_ADDRESS((void *) + (pConfig-> + dw_mem_base + [3]), + pConfig-> + dw_mem_length + [3]); + if (!dev_context->dw_dsp_base_addr) + status = -EPERM; + + pt_attrs = kzalloc(sizeof(struct pg_table_attrs), GFP_KERNEL); + if (pt_attrs != NULL) { + /* Assuming that we use only DSP's memory map + * until 0x4000:0000 , we would need only 1024 + * L1 enties i.e L1 size = 4K */ + pt_attrs->l1_size = 0x1000; + align_size = pt_attrs->l1_size; + /* Align sizes are expected to be power of 2 */ + /* we like to get aligned on L1 table size */ + pg_tbl_va = (u32) mem_alloc_phys_mem(pt_attrs->l1_size, + align_size, &pg_tbl_pa); + + /* Check if the PA is aligned for us */ + if ((pg_tbl_pa) & (align_size - 1)) { + /* PA not aligned to page table size , + * try with more allocation and align */ + mem_free_phys_mem((void *)pg_tbl_va, pg_tbl_pa, + pt_attrs->l1_size); + /* we like to get aligned on L1 table size */ + pg_tbl_va = + (u32) mem_alloc_phys_mem((pt_attrs->l1_size) * 2, + align_size, &pg_tbl_pa); + /* We should be able to get aligned table now */ + pt_attrs->l1_tbl_alloc_pa = pg_tbl_pa; + pt_attrs->l1_tbl_alloc_va = pg_tbl_va; + pt_attrs->l1_tbl_alloc_sz = pt_attrs->l1_size * 2; + /* Align the PA to the next 'align' boundary */ + pt_attrs->l1_base_pa = + ((pg_tbl_pa) + + (align_size - 1)) & (~(align_size - 1)); + pt_attrs->l1_base_va = + pg_tbl_va + (pt_attrs->l1_base_pa - pg_tbl_pa); + } else { + /* We got aligned PA, cool */ + pt_attrs->l1_tbl_alloc_pa = pg_tbl_pa; + pt_attrs->l1_tbl_alloc_va = pg_tbl_va; + pt_attrs->l1_tbl_alloc_sz = pt_attrs->l1_size; + pt_attrs->l1_base_pa = pg_tbl_pa; + pt_attrs->l1_base_va = pg_tbl_va; + } + if (pt_attrs->l1_base_va) + memset((u8 *) pt_attrs->l1_base_va, 0x00, + pt_attrs->l1_size); + + /* number of L2 page tables = DMM pool used + SHMMEM +EXTMEM + + * L4 pages */ + pt_attrs->l2_num_pages = ((DMMPOOLSIZE >> 20) + 6); + pt_attrs->l2_size = HW_MMU_COARSE_PAGE_SIZE * + pt_attrs->l2_num_pages; + align_size = 4; /* Make it u32 aligned */ + /* we like to get aligned on L1 table size */ + pg_tbl_va = (u32) mem_alloc_phys_mem(pt_attrs->l2_size, + align_size, &pg_tbl_pa); + pt_attrs->l2_tbl_alloc_pa = pg_tbl_pa; + pt_attrs->l2_tbl_alloc_va = pg_tbl_va; + pt_attrs->l2_tbl_alloc_sz = pt_attrs->l2_size; + pt_attrs->l2_base_pa = pg_tbl_pa; + pt_attrs->l2_base_va = pg_tbl_va; + + if (pt_attrs->l2_base_va) + memset((u8 *) pt_attrs->l2_base_va, 0x00, + pt_attrs->l2_size); + + pt_attrs->pg_info = kzalloc(pt_attrs->l2_num_pages * + sizeof(struct page_info), GFP_KERNEL); + dev_dbg(bridge, + "L1 pa %x, va %x, size %x\n L2 pa %x, va " + "%x, size %x\n", pt_attrs->l1_base_pa, + pt_attrs->l1_base_va, pt_attrs->l1_size, + pt_attrs->l2_base_pa, pt_attrs->l2_base_va, + pt_attrs->l2_size); + dev_dbg(bridge, "pt_attrs %p L2 NumPages %x pg_info %p\n", + pt_attrs, pt_attrs->l2_num_pages, pt_attrs->pg_info); + } + if ((pt_attrs != NULL) && (pt_attrs->l1_base_va != 0) && + (pt_attrs->l2_base_va != 0) && (pt_attrs->pg_info != NULL)) + dev_context->pt_attrs = pt_attrs; + else + status = -ENOMEM; + + if (DSP_SUCCEEDED(status)) { + spin_lock_init(&pt_attrs->pg_lock); + dev_context->tc_word_swap_on = drv_datap->tc_wordswapon; + + /* Set the Clock Divisor for the DSP module */ + udelay(5); + /* MMU address is obtained from the host + * resources struct */ + dev_context->dw_dsp_mmu_base = resources->dw_dmmu_base; + } + if (DSP_SUCCEEDED(status)) { + dev_context->hdev_obj = hdev_obj; + dev_context->ul_int_mask = 0; + /* Store current board state. */ + dev_context->dw_brd_state = BRD_STOPPED; + dev_context->resources = resources; + /* Return ptr to our device state to the DSP API for storage */ + *ppDevContext = dev_context; + } else { + if (pt_attrs != NULL) { + kfree(pt_attrs->pg_info); + + if (pt_attrs->l2_tbl_alloc_va) { + mem_free_phys_mem((void *) + pt_attrs->l2_tbl_alloc_va, + pt_attrs->l2_tbl_alloc_pa, + pt_attrs->l2_tbl_alloc_sz); + } + if (pt_attrs->l1_tbl_alloc_va) { + mem_free_phys_mem((void *) + pt_attrs->l1_tbl_alloc_va, + pt_attrs->l1_tbl_alloc_pa, + pt_attrs->l1_tbl_alloc_sz); + } + } + kfree(pt_attrs); + kfree(dev_context); + } +func_end: + return status; +} + +/* + * ======== bridge_dev_ctrl ======== + * Receives device specific commands. + */ +static int bridge_dev_ctrl(struct bridge_dev_context *dev_context, + u32 dw_cmd, IN OUT void *pargs) +{ + int status = 0; + struct bridge_ioctl_extproc *pa_ext_proc = + (struct bridge_ioctl_extproc *)pargs; + s32 ndx; + + switch (dw_cmd) { + case BRDIOCTL_CHNLREAD: + break; + case BRDIOCTL_CHNLWRITE: + break; + case BRDIOCTL_SETMMUCONFIG: + /* store away dsp-mmu setup values for later use */ + for (ndx = 0; ndx < BRDIOCTL_NUMOFMMUTLB; ndx++, pa_ext_proc++) + dev_context->atlb_entry[ndx] = *pa_ext_proc; + break; + case BRDIOCTL_DEEPSLEEP: + case BRDIOCTL_EMERGENCYSLEEP: + /* Currently only DSP Idle is supported Need to update for + * later releases */ + status = sleep_dsp(dev_context, PWR_DEEPSLEEP, pargs); + break; + case BRDIOCTL_WAKEUP: + status = wake_dsp(dev_context, pargs); + break; + case BRDIOCTL_CLK_CTRL: + status = 0; + /* Looking For Baseport Fix for Clocks */ + status = dsp_peripheral_clk_ctrl(dev_context, pargs); + break; + case BRDIOCTL_PWR_HIBERNATE: + status = handle_hibernation_from_dsp(dev_context); + break; + case BRDIOCTL_PRESCALE_NOTIFY: + status = pre_scale_dsp(dev_context, pargs); + break; + case BRDIOCTL_POSTSCALE_NOTIFY: + status = post_scale_dsp(dev_context, pargs); + break; + case BRDIOCTL_CONSTRAINT_REQUEST: + status = handle_constraints_set(dev_context, pargs); + break; + default: + status = -EPERM; + break; + } + return status; +} + +/* + * ======== bridge_dev_destroy ======== + * Destroys the driver object. + */ +static int bridge_dev_destroy(struct bridge_dev_context *hDevContext) +{ + struct pg_table_attrs *pt_attrs; + int status = 0; + struct bridge_dev_context *dev_context = (struct bridge_dev_context *) + hDevContext; + struct cfg_hostres *host_res; + u32 shm_size; + struct drv_data *drv_datap = dev_get_drvdata(bridge); + + /* It should never happen */ + if (!hDevContext) + return -EFAULT; + + /* first put the device to stop state */ + bridge_brd_delete(dev_context); + if (dev_context->pt_attrs) { + pt_attrs = dev_context->pt_attrs; + kfree(pt_attrs->pg_info); + + if (pt_attrs->l2_tbl_alloc_va) { + mem_free_phys_mem((void *)pt_attrs->l2_tbl_alloc_va, + pt_attrs->l2_tbl_alloc_pa, + pt_attrs->l2_tbl_alloc_sz); + } + if (pt_attrs->l1_tbl_alloc_va) { + mem_free_phys_mem((void *)pt_attrs->l1_tbl_alloc_va, + pt_attrs->l1_tbl_alloc_pa, + pt_attrs->l1_tbl_alloc_sz); + } + kfree(pt_attrs); + + } + + if (dev_context->resources) { + host_res = dev_context->resources; + shm_size = drv_datap->shm_size; + if (shm_size >= 0x10000) { + if ((host_res->dw_mem_base[1]) && + (host_res->dw_mem_phys[1])) { + mem_free_phys_mem((void *) + host_res->dw_mem_base + [1], + host_res->dw_mem_phys + [1], shm_size); + } + } else { + dev_dbg(bridge, "%s: Error getting shm size " + "from registry: %x. Not calling " + "mem_free_phys_mem\n", __func__, + status); + } + host_res->dw_mem_base[1] = 0; + host_res->dw_mem_phys[1] = 0; + + if (host_res->dw_mem_base[0]) + iounmap((void *)host_res->dw_mem_base[0]); + if (host_res->dw_mem_base[2]) + iounmap((void *)host_res->dw_mem_base[2]); + if (host_res->dw_mem_base[3]) + iounmap((void *)host_res->dw_mem_base[3]); + if (host_res->dw_mem_base[4]) + iounmap((void *)host_res->dw_mem_base[4]); + if (host_res->dw_dmmu_base) + iounmap(host_res->dw_dmmu_base); + if (host_res->dw_per_base) + iounmap(host_res->dw_per_base); + if (host_res->dw_per_pm_base) + iounmap((void *)host_res->dw_per_pm_base); + if (host_res->dw_core_pm_base) + iounmap((void *)host_res->dw_core_pm_base); + if (host_res->dw_sys_ctrl_base) + iounmap(host_res->dw_sys_ctrl_base); + + host_res->dw_mem_base[0] = (u32) NULL; + host_res->dw_mem_base[2] = (u32) NULL; + host_res->dw_mem_base[3] = (u32) NULL; + host_res->dw_mem_base[4] = (u32) NULL; + host_res->dw_dmmu_base = NULL; + host_res->dw_sys_ctrl_base = NULL; + + kfree(host_res); + } + + /* Free the driver's device context: */ + kfree(drv_datap->base_img); + kfree(drv_datap); + dev_set_drvdata(bridge, NULL); + kfree((void *)hDevContext); + return status; +} + +static int bridge_brd_mem_copy(struct bridge_dev_context *hDevContext, + u32 ulDspDestAddr, u32 ulDspSrcAddr, + u32 ul_num_bytes, u32 ulMemType) +{ + int status = 0; + u32 src_addr = ulDspSrcAddr; + u32 dest_addr = ulDspDestAddr; + u32 copy_bytes = 0; + u32 total_bytes = ul_num_bytes; + u8 host_buf[BUFFERSIZE]; + struct bridge_dev_context *dev_context = hDevContext; + while ((total_bytes > 0) && DSP_SUCCEEDED(status)) { + copy_bytes = + total_bytes > BUFFERSIZE ? BUFFERSIZE : total_bytes; + /* Read from External memory */ + status = read_ext_dsp_data(hDevContext, host_buf, src_addr, + copy_bytes, ulMemType); + if (DSP_SUCCEEDED(status)) { + if (dest_addr < (dev_context->dw_dsp_start_add + + dev_context->dw_internal_size)) { + /* Write to Internal memory */ + status = write_dsp_data(hDevContext, host_buf, + dest_addr, copy_bytes, + ulMemType); + } else { + /* Write to External memory */ + status = + write_ext_dsp_data(hDevContext, host_buf, + dest_addr, copy_bytes, + ulMemType, false); + } + } + total_bytes -= copy_bytes; + src_addr += copy_bytes; + dest_addr += copy_bytes; + } + return status; +} + +/* Mem Write does not halt the DSP to write unlike bridge_brd_write */ +static int bridge_brd_mem_write(struct bridge_dev_context *hDevContext, + IN u8 *pbHostBuf, u32 dwDSPAddr, + u32 ul_num_bytes, u32 ulMemType) +{ + int status = 0; + struct bridge_dev_context *dev_context = hDevContext; + u32 ul_remain_bytes = 0; + u32 ul_bytes = 0; + ul_remain_bytes = ul_num_bytes; + while (ul_remain_bytes > 0 && DSP_SUCCEEDED(status)) { + ul_bytes = + ul_remain_bytes > BUFFERSIZE ? BUFFERSIZE : ul_remain_bytes; + if (dwDSPAddr < (dev_context->dw_dsp_start_add + + dev_context->dw_internal_size)) { + status = + write_dsp_data(hDevContext, pbHostBuf, dwDSPAddr, + ul_bytes, ulMemType); + } else { + status = write_ext_dsp_data(hDevContext, pbHostBuf, + dwDSPAddr, ul_bytes, + ulMemType, true); + } + ul_remain_bytes -= ul_bytes; + dwDSPAddr += ul_bytes; + pbHostBuf = pbHostBuf + ul_bytes; + } + return status; +} + +/* + * ======== bridge_brd_mem_map ======== + * This function maps MPU buffer to the DSP address space. It performs + * linear to physical address translation if required. It translates each + * page since linear addresses can be physically non-contiguous + * All address & size arguments are assumed to be page aligned (in proc.c) + * + * TODO: Disable MMU while updating the page tables (but that'll stall DSP) + */ +static int bridge_brd_mem_map(struct bridge_dev_context *hDevContext, + u32 ul_mpu_addr, u32 ulVirtAddr, + u32 ul_num_bytes, u32 ul_map_attr, + struct page **mapped_pages) +{ + u32 attrs; + int status = 0; + struct bridge_dev_context *dev_context = hDevContext; + struct hw_mmu_map_attrs_t hw_attrs; + struct vm_area_struct *vma; + struct mm_struct *mm = current->mm; + u32 write = 0; + u32 num_usr_pgs = 0; + struct page *mapped_page, *pg; + s32 pg_num; + u32 va = ulVirtAddr; + struct task_struct *curr_task = current; + u32 pg_i = 0; + u32 mpu_addr, pa; + + dev_dbg(bridge, + "%s hDevCtxt %p, pa %x, va %x, size %x, ul_map_attr %x\n", + __func__, hDevContext, ul_mpu_addr, ulVirtAddr, ul_num_bytes, + ul_map_attr); + if (ul_num_bytes == 0) + return -EINVAL; + + if (ul_map_attr & DSP_MAP_DIR_MASK) { + attrs = ul_map_attr; + } else { + /* Assign default attributes */ + attrs = ul_map_attr | (DSP_MAPVIRTUALADDR | DSP_MAPELEMSIZE16); + } + /* Take mapping properties */ + if (attrs & DSP_MAPBIGENDIAN) + hw_attrs.endianism = HW_BIG_ENDIAN; + else + hw_attrs.endianism = HW_LITTLE_ENDIAN; + + hw_attrs.mixed_size = (enum hw_mmu_mixed_size_t) + ((attrs & DSP_MAPMIXEDELEMSIZE) >> 2); + /* Ignore element_size if mixed_size is enabled */ + if (hw_attrs.mixed_size == 0) { + if (attrs & DSP_MAPELEMSIZE8) { + /* Size is 8 bit */ + hw_attrs.element_size = HW_ELEM_SIZE8BIT; + } else if (attrs & DSP_MAPELEMSIZE16) { + /* Size is 16 bit */ + hw_attrs.element_size = HW_ELEM_SIZE16BIT; + } else if (attrs & DSP_MAPELEMSIZE32) { + /* Size is 32 bit */ + hw_attrs.element_size = HW_ELEM_SIZE32BIT; + } else if (attrs & DSP_MAPELEMSIZE64) { + /* Size is 64 bit */ + hw_attrs.element_size = HW_ELEM_SIZE64BIT; + } else { + /* + * Mixedsize isn't enabled, so size can't be + * zero here + */ + return -EINVAL; + } + } + if (attrs & DSP_MAPDONOTLOCK) + hw_attrs.donotlockmpupage = 1; + else + hw_attrs.donotlockmpupage = 0; + + if (attrs & DSP_MAPVMALLOCADDR) { + return mem_map_vmalloc(hDevContext, ul_mpu_addr, ulVirtAddr, + ul_num_bytes, &hw_attrs); + } + /* + * Do OS-specific user-va to pa translation. + * Combine physically contiguous regions to reduce TLBs. + * Pass the translated pa to pte_update. + */ + if ((attrs & DSP_MAPPHYSICALADDR)) { + status = pte_update(dev_context, ul_mpu_addr, ulVirtAddr, + ul_num_bytes, &hw_attrs); + goto func_cont; + } + + /* + * Important Note: ul_mpu_addr is mapped from user application process + * to current process - it must lie completely within the current + * virtual memory address space in order to be of use to us here! + */ + down_read(&mm->mmap_sem); + vma = find_vma(mm, ul_mpu_addr); + if (vma) + dev_dbg(bridge, + "VMAfor UserBuf: ul_mpu_addr=%x, ul_num_bytes=%x, " + "vm_start=%lx, vm_end=%lx, vm_flags=%lx\n", ul_mpu_addr, + ul_num_bytes, vma->vm_start, vma->vm_end, + vma->vm_flags); + + /* + * It is observed that under some circumstances, the user buffer is + * spread across several VMAs. So loop through and check if the entire + * user buffer is covered + */ + while ((vma) && (ul_mpu_addr + ul_num_bytes > vma->vm_end)) { + /* jump to the next VMA region */ + vma = find_vma(mm, vma->vm_end + 1); + dev_dbg(bridge, + "VMA for UserBuf ul_mpu_addr=%x ul_num_bytes=%x, " + "vm_start=%lx, vm_end=%lx, vm_flags=%lx\n", ul_mpu_addr, + ul_num_bytes, vma->vm_start, vma->vm_end, + vma->vm_flags); + } + if (!vma) { + pr_err("%s: Failed to get VMA region for 0x%x (%d)\n", + __func__, ul_mpu_addr, ul_num_bytes); + status = -EINVAL; + up_read(&mm->mmap_sem); + goto func_cont; + } + + if (vma->vm_flags & VM_IO) { + num_usr_pgs = ul_num_bytes / PG_SIZE4K; + mpu_addr = ul_mpu_addr; + + /* Get the physical addresses for user buffer */ + for (pg_i = 0; pg_i < num_usr_pgs; pg_i++) { + pa = user_va2_pa(mm, mpu_addr); + if (!pa) { + status = -EPERM; + pr_err("DSPBRIDGE: VM_IO mapping physical" + "address is invalid\n"); + break; + } + if (pfn_valid(__phys_to_pfn(pa))) { + pg = PHYS_TO_PAGE(pa); + get_page(pg); + if (page_count(pg) < 1) { + pr_err("Bad page in VM_IO buffer\n"); + bad_page_dump(pa, pg); + } + } + status = pte_set(dev_context->pt_attrs, pa, + va, HW_PAGE_SIZE4KB, &hw_attrs); + if (DSP_FAILED(status)) + break; + + va += HW_PAGE_SIZE4KB; + mpu_addr += HW_PAGE_SIZE4KB; + pa += HW_PAGE_SIZE4KB; + } + } else { + num_usr_pgs = ul_num_bytes / PG_SIZE4K; + if (vma->vm_flags & (VM_WRITE | VM_MAYWRITE)) + write = 1; + + for (pg_i = 0; pg_i < num_usr_pgs; pg_i++) { + pg_num = get_user_pages(curr_task, mm, ul_mpu_addr, 1, + write, 1, &mapped_page, NULL); + if (pg_num > 0) { + if (page_count(mapped_page) < 1) { + pr_err("Bad page count after doing" + "get_user_pages on" + "user buffer\n"); + bad_page_dump(page_to_phys(mapped_page), + mapped_page); + } + status = pte_set(dev_context->pt_attrs, + page_to_phys(mapped_page), va, + HW_PAGE_SIZE4KB, &hw_attrs); + if (DSP_FAILED(status)) + break; + + if (mapped_pages) + mapped_pages[pg_i] = mapped_page; + + va += HW_PAGE_SIZE4KB; + ul_mpu_addr += HW_PAGE_SIZE4KB; + } else { + pr_err("DSPBRIDGE: get_user_pages FAILED," + "MPU addr = 0x%x," + "vma->vm_flags = 0x%lx," + "get_user_pages Err" + "Value = %d, Buffer" + "size=0x%x\n", ul_mpu_addr, + vma->vm_flags, pg_num, ul_num_bytes); + status = -EPERM; + break; + } + } + } + up_read(&mm->mmap_sem); +func_cont: + if (DSP_SUCCEEDED(status)) { + status = 0; + } else { + /* + * Roll out the mapped pages incase it failed in middle of + * mapping + */ + if (pg_i) { + bridge_brd_mem_un_map(dev_context, ulVirtAddr, + (pg_i * PG_SIZE4K)); + } + status = -EPERM; + } + /* + * In any case, flush the TLB + * This is called from here instead from pte_update to avoid unnecessary + * repetition while mapping non-contiguous physical regions of a virtual + * region + */ + flush_all(dev_context); + dev_dbg(bridge, "%s status %x\n", __func__, status); + return status; +} + +/* + * ======== bridge_brd_mem_un_map ======== + * Invalidate the PTEs for the DSP VA block to be unmapped. + * + * PTEs of a mapped memory block are contiguous in any page table + * So, instead of looking up the PTE address for every 4K block, + * we clear consecutive PTEs until we unmap all the bytes + */ +static int bridge_brd_mem_un_map(struct bridge_dev_context *hDevContext, + u32 ulVirtAddr, u32 ul_num_bytes) +{ + u32 l1_base_va; + u32 l2_base_va; + u32 l2_base_pa; + u32 l2_page_num; + u32 pte_val; + u32 pte_size; + u32 pte_count; + u32 pte_addr_l1; + u32 pte_addr_l2 = 0; + u32 rem_bytes; + u32 rem_bytes_l2; + u32 va_curr; + struct page *pg = NULL; + int status = 0; + struct bridge_dev_context *dev_context = hDevContext; + struct pg_table_attrs *pt = dev_context->pt_attrs; + u32 temp; + u32 paddr; + u32 numof4k_pages = 0; + + va_curr = ulVirtAddr; + rem_bytes = ul_num_bytes; + rem_bytes_l2 = 0; + l1_base_va = pt->l1_base_va; + pte_addr_l1 = hw_mmu_pte_addr_l1(l1_base_va, va_curr); + dev_dbg(bridge, "%s hDevContext %p, va %x, NumBytes %x l1_base_va %x, " + "pte_addr_l1 %x\n", __func__, hDevContext, ulVirtAddr, + ul_num_bytes, l1_base_va, pte_addr_l1); + + while (rem_bytes && (DSP_SUCCEEDED(status))) { + u32 va_curr_orig = va_curr; + /* Find whether the L1 PTE points to a valid L2 PT */ + pte_addr_l1 = hw_mmu_pte_addr_l1(l1_base_va, va_curr); + pte_val = *(u32 *) pte_addr_l1; + pte_size = hw_mmu_pte_size_l1(pte_val); + + if (pte_size != HW_MMU_COARSE_PAGE_SIZE) + goto skip_coarse_page; + + /* + * Get the L2 PA from the L1 PTE, and find + * corresponding L2 VA + */ + l2_base_pa = hw_mmu_pte_coarse_l1(pte_val); + l2_base_va = l2_base_pa - pt->l2_base_pa + pt->l2_base_va; + l2_page_num = + (l2_base_pa - pt->l2_base_pa) / HW_MMU_COARSE_PAGE_SIZE; + /* + * Find the L2 PTE address from which we will start + * clearing, the number of PTEs to be cleared on this + * page, and the size of VA space that needs to be + * cleared on this L2 page + */ + pte_addr_l2 = hw_mmu_pte_addr_l2(l2_base_va, va_curr); + pte_count = pte_addr_l2 & (HW_MMU_COARSE_PAGE_SIZE - 1); + pte_count = (HW_MMU_COARSE_PAGE_SIZE - pte_count) / sizeof(u32); + if (rem_bytes < (pte_count * PG_SIZE4K)) + pte_count = rem_bytes / PG_SIZE4K; + rem_bytes_l2 = pte_count * PG_SIZE4K; + + /* + * Unmap the VA space on this L2 PT. A quicker way + * would be to clear pte_count entries starting from + * pte_addr_l2. However, below code checks that we don't + * clear invalid entries or less than 64KB for a 64KB + * entry. Similar checking is done for L1 PTEs too + * below + */ + while (rem_bytes_l2 && (DSP_SUCCEEDED(status))) { + pte_val = *(u32 *) pte_addr_l2; + pte_size = hw_mmu_pte_size_l2(pte_val); + /* va_curr aligned to pte_size? */ + if (pte_size == 0 || rem_bytes_l2 < pte_size || + va_curr & (pte_size - 1)) { + status = -EPERM; + break; + } + + /* Collect Physical addresses from VA */ + paddr = (pte_val & ~(pte_size - 1)); + if (pte_size == HW_PAGE_SIZE64KB) + numof4k_pages = 16; + else + numof4k_pages = 1; + temp = 0; + while (temp++ < numof4k_pages) { + if (!pfn_valid(__phys_to_pfn(paddr))) { + paddr += HW_PAGE_SIZE4KB; + continue; + } + pg = PHYS_TO_PAGE(paddr); + if (page_count(pg) < 1) { + pr_info("DSPBRIDGE: UNMAP function: " + "COUNT 0 FOR PA 0x%x, size = " + "0x%x\n", paddr, ul_num_bytes); + bad_page_dump(paddr, pg); + } else { + SetPageDirty(pg); + page_cache_release(pg); + } + paddr += HW_PAGE_SIZE4KB; + } + if (hw_mmu_pte_clear(pte_addr_l2, va_curr, pte_size) + == RET_FAIL) { + status = -EPERM; + goto EXIT_LOOP; + } + + status = 0; + rem_bytes_l2 -= pte_size; + va_curr += pte_size; + pte_addr_l2 += (pte_size >> 12) * sizeof(u32); + } + spin_lock(&pt->pg_lock); + if (rem_bytes_l2 == 0) { + pt->pg_info[l2_page_num].num_entries -= pte_count; + if (pt->pg_info[l2_page_num].num_entries == 0) { + /* + * Clear the L1 PTE pointing to the L2 PT + */ + if (hw_mmu_pte_clear(l1_base_va, va_curr_orig, + HW_MMU_COARSE_PAGE_SIZE) == + RET_OK) + status = 0; + else { + status = -EPERM; + spin_unlock(&pt->pg_lock); + goto EXIT_LOOP; + } + } + rem_bytes -= pte_count * PG_SIZE4K; + } else + status = -EPERM; + + spin_unlock(&pt->pg_lock); + continue; +skip_coarse_page: + /* va_curr aligned to pte_size? */ + /* pte_size = 1 MB or 16 MB */ + if (pte_size == 0 || rem_bytes < pte_size || + va_curr & (pte_size - 1)) { + status = -EPERM; + break; + } + + if (pte_size == HW_PAGE_SIZE1MB) + numof4k_pages = 256; + else + numof4k_pages = 4096; + temp = 0; + /* Collect Physical addresses from VA */ + paddr = (pte_val & ~(pte_size - 1)); + while (temp++ < numof4k_pages) { + if (pfn_valid(__phys_to_pfn(paddr))) { + pg = PHYS_TO_PAGE(paddr); + if (page_count(pg) < 1) { + pr_info("DSPBRIDGE: UNMAP function: " + "COUNT 0 FOR PA 0x%x, size = " + "0x%x\n", paddr, ul_num_bytes); + bad_page_dump(paddr, pg); + } else { + SetPageDirty(pg); + page_cache_release(pg); + } + } + paddr += HW_PAGE_SIZE4KB; + } + if (hw_mmu_pte_clear(l1_base_va, va_curr, pte_size) == RET_OK) { + status = 0; + rem_bytes -= pte_size; + va_curr += pte_size; + } else { + status = -EPERM; + goto EXIT_LOOP; + } + } + /* + * It is better to flush the TLB here, so that any stale old entries + * get flushed + */ +EXIT_LOOP: + flush_all(dev_context); + dev_dbg(bridge, + "%s: va_curr %x, pte_addr_l1 %x pte_addr_l2 %x rem_bytes %x," + " rem_bytes_l2 %x status %x\n", __func__, va_curr, pte_addr_l1, + pte_addr_l2, rem_bytes, rem_bytes_l2, status); + return status; +} + +/* + * ======== user_va2_pa ======== + * Purpose: + * This function walks through the page tables to convert a userland + * virtual address to physical address + */ +static u32 user_va2_pa(struct mm_struct *mm, u32 address) +{ + pgd_t *pgd; + pmd_t *pmd; + pte_t *ptep, pte; + + pgd = pgd_offset(mm, address); + if (!(pgd_none(*pgd) || pgd_bad(*pgd))) { + pmd = pmd_offset(pgd, address); + if (!(pmd_none(*pmd) || pmd_bad(*pmd))) { + ptep = pte_offset_map(pmd, address); + if (ptep) { + pte = *ptep; + if (pte_present(pte)) + return pte & PAGE_MASK; + } + } + } + + return 0; +} + +/* + * ======== pte_update ======== + * This function calculates the optimum page-aligned addresses and sizes + * Caller must pass page-aligned values + */ +static int pte_update(struct bridge_dev_context *hDevContext, u32 pa, + u32 va, u32 size, + struct hw_mmu_map_attrs_t *map_attrs) +{ + u32 i; + u32 all_bits; + u32 pa_curr = pa; + u32 va_curr = va; + u32 num_bytes = size; + struct bridge_dev_context *dev_context = hDevContext; + int status = 0; + u32 page_size[] = { HW_PAGE_SIZE16MB, HW_PAGE_SIZE1MB, + HW_PAGE_SIZE64KB, HW_PAGE_SIZE4KB + }; + + while (num_bytes && DSP_SUCCEEDED(status)) { + /* To find the max. page size with which both PA & VA are + * aligned */ + all_bits = pa_curr | va_curr; + + for (i = 0; i < 4; i++) { + if ((num_bytes >= page_size[i]) && ((all_bits & + (page_size[i] - + 1)) == 0)) { + status = + pte_set(dev_context->pt_attrs, pa_curr, + va_curr, page_size[i], map_attrs); + pa_curr += page_size[i]; + va_curr += page_size[i]; + num_bytes -= page_size[i]; + /* Don't try smaller sizes. Hopefully we have + * reached an address aligned to a bigger page + * size */ + break; + } + } + } + + return status; +} + +/* + * ======== pte_set ======== + * This function calculates PTE address (MPU virtual) to be updated + * It also manages the L2 page tables + */ +static int pte_set(struct pg_table_attrs *pt, u32 pa, u32 va, + u32 size, struct hw_mmu_map_attrs_t *attrs) +{ + u32 i; + u32 pte_val; + u32 pte_addr_l1; + u32 pte_size; + /* Base address of the PT that will be updated */ + u32 pg_tbl_va; + u32 l1_base_va; + /* Compiler warns that the next three variables might be used + * uninitialized in this function. Doesn't seem so. Working around, + * anyways. */ + u32 l2_base_va = 0; + u32 l2_base_pa = 0; + u32 l2_page_num = 0; + int status = 0; + + l1_base_va = pt->l1_base_va; + pg_tbl_va = l1_base_va; + if ((size == HW_PAGE_SIZE64KB) || (size == HW_PAGE_SIZE4KB)) { + /* Find whether the L1 PTE points to a valid L2 PT */ + pte_addr_l1 = hw_mmu_pte_addr_l1(l1_base_va, va); + if (pte_addr_l1 <= (pt->l1_base_va + pt->l1_size)) { + pte_val = *(u32 *) pte_addr_l1; + pte_size = hw_mmu_pte_size_l1(pte_val); + } else { + return -EPERM; + } + spin_lock(&pt->pg_lock); + if (pte_size == HW_MMU_COARSE_PAGE_SIZE) { + /* Get the L2 PA from the L1 PTE, and find + * corresponding L2 VA */ + l2_base_pa = hw_mmu_pte_coarse_l1(pte_val); + l2_base_va = + l2_base_pa - pt->l2_base_pa + pt->l2_base_va; + l2_page_num = + (l2_base_pa - + pt->l2_base_pa) / HW_MMU_COARSE_PAGE_SIZE; + } else if (pte_size == 0) { + /* L1 PTE is invalid. Allocate a L2 PT and + * point the L1 PTE to it */ + /* Find a free L2 PT. */ + for (i = 0; (i < pt->l2_num_pages) && + (pt->pg_info[i].num_entries != 0); i++) + ;; + if (i < pt->l2_num_pages) { + l2_page_num = i; + l2_base_pa = pt->l2_base_pa + (l2_page_num * + HW_MMU_COARSE_PAGE_SIZE); + l2_base_va = pt->l2_base_va + (l2_page_num * + HW_MMU_COARSE_PAGE_SIZE); + /* Endianness attributes are ignored for + * HW_MMU_COARSE_PAGE_SIZE */ + status = + hw_mmu_pte_set(l1_base_va, l2_base_pa, va, + HW_MMU_COARSE_PAGE_SIZE, + attrs); + } else { + status = -ENOMEM; + } + } else { + /* Found valid L1 PTE of another size. + * Should not overwrite it. */ + status = -EPERM; + } + if (DSP_SUCCEEDED(status)) { + pg_tbl_va = l2_base_va; + if (size == HW_PAGE_SIZE64KB) + pt->pg_info[l2_page_num].num_entries += 16; + else + pt->pg_info[l2_page_num].num_entries++; + dev_dbg(bridge, "PTE: L2 BaseVa %x, BasePa %x, PageNum " + "%x, num_entries %x\n", l2_base_va, + l2_base_pa, l2_page_num, + pt->pg_info[l2_page_num].num_entries); + } + spin_unlock(&pt->pg_lock); + } + if (DSP_SUCCEEDED(status)) { + dev_dbg(bridge, "PTE: pg_tbl_va %x, pa %x, va %x, size %x\n", + pg_tbl_va, pa, va, size); + dev_dbg(bridge, "PTE: endianism %x, element_size %x, " + "mixed_size %x\n", attrs->endianism, + attrs->element_size, attrs->mixed_size); + status = hw_mmu_pte_set(pg_tbl_va, pa, va, size, attrs); + } + + return status; +} + +/* Memory map kernel VA -- memory allocated with vmalloc */ +static int mem_map_vmalloc(struct bridge_dev_context *dev_context, + u32 ul_mpu_addr, u32 ulVirtAddr, + u32 ul_num_bytes, + struct hw_mmu_map_attrs_t *hw_attrs) +{ + int status = 0; + struct page *page[1]; + u32 i; + u32 pa_curr; + u32 pa_next; + u32 va_curr; + u32 size_curr; + u32 num_pages; + u32 pa; + u32 num_of4k_pages; + u32 temp = 0; + + /* + * Do Kernel va to pa translation. + * Combine physically contiguous regions to reduce TLBs. + * Pass the translated pa to pte_update. + */ + num_pages = ul_num_bytes / PAGE_SIZE; /* PAGE_SIZE = OS page size */ + i = 0; + va_curr = ul_mpu_addr; + page[0] = vmalloc_to_page((void *)va_curr); + pa_next = page_to_phys(page[0]); + while (DSP_SUCCEEDED(status) && (i < num_pages)) { + /* + * Reuse pa_next from the previous iteraion to avoid + * an extra va2pa call + */ + pa_curr = pa_next; + size_curr = PAGE_SIZE; + /* + * If the next page is physically contiguous, + * map it with the current one by increasing + * the size of the region to be mapped + */ + while (++i < num_pages) { + page[0] = + vmalloc_to_page((void *)(va_curr + size_curr)); + pa_next = page_to_phys(page[0]); + + if (pa_next == (pa_curr + size_curr)) + size_curr += PAGE_SIZE; + else + break; + + } + if (pa_next == 0) { + status = -ENOMEM; + break; + } + pa = pa_curr; + num_of4k_pages = size_curr / HW_PAGE_SIZE4KB; + while (temp++ < num_of4k_pages) { + get_page(PHYS_TO_PAGE(pa)); + pa += HW_PAGE_SIZE4KB; + } + status = pte_update(dev_context, pa_curr, ulVirtAddr + + (va_curr - ul_mpu_addr), size_curr, + hw_attrs); + va_curr += size_curr; + } + if (DSP_SUCCEEDED(status)) + status = 0; + else + status = -EPERM; + + /* + * In any case, flush the TLB + * This is called from here instead from pte_update to avoid unnecessary + * repetition while mapping non-contiguous physical regions of a virtual + * region + */ + flush_all(dev_context); + dev_dbg(bridge, "%s status %x\n", __func__, status); + return status; +} + +/* + * ======== wait_for_start ======== + * Wait for the singal from DSP that it has started, or time out. + */ +bool wait_for_start(struct bridge_dev_context *dev_context, u32 dw_sync_addr) +{ + u16 timeout = TIHELEN_ACKTIMEOUT; + + /* Wait for response from board */ + while (*((volatile u16 *)dw_sync_addr) && --timeout) + udelay(10); + + /* If timed out: return FALSE */ + if (!timeout) { + pr_err("%s: Timed out waiting DSP to Start\n", __func__); + return FALSE; + } + return TRUE; +} diff --git a/drivers/staging/tidspbridge/core/tiomap3430_pwr.c b/drivers/staging/tidspbridge/core/tiomap3430_pwr.c new file mode 100644 index 000000000000..00ebc0b1d510 --- /dev/null +++ b/drivers/staging/tidspbridge/core/tiomap3430_pwr.c @@ -0,0 +1,604 @@ +/* + * tiomap_pwr.c + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Implementation of DSP wake/sleep routines. + * + * Copyright (C) 2007-2008 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +/* ----------------------------------- DSP/BIOS Bridge */ +#include +#include +#include +#include + +/* ----------------------------------- Platform Manager */ +#include +#include +#include + +/* ------------------------------------ Hardware Abstraction Layer */ +#include +#include + +#include + +/* ----------------------------------- Bridge Driver */ +#include +#include + +/* ----------------------------------- specific to this file */ +#include "_tiomap.h" +#include "_tiomap_pwr.h" +#include +#include + +#define PWRSTST_TIMEOUT 200 + +/* + * ======== handle_constraints_set ======== + * Sets new DSP constraint + */ +int handle_constraints_set(struct bridge_dev_context *dev_context, + IN void *pargs) +{ +#ifdef CONFIG_BRIDGE_DVFS + u32 *constraint_val; + struct dspbridge_platform_data *pdata = + omap_dspbridge_dev->dev.platform_data; + + constraint_val = (u32 *) (pargs); + /* Read the target value requested by DSP */ + dev_dbg(bridge, "OPP: %s opp requested = 0x%x\n", __func__, + (u32) *(constraint_val + 1)); + + /* Set the new opp value */ + if (pdata->dsp_set_min_opp) + (*pdata->dsp_set_min_opp) ((u32) *(constraint_val + 1)); +#endif /* #ifdef CONFIG_BRIDGE_DVFS */ + return 0; +} + +/* + * ======== handle_hibernation_from_dsp ======== + * Handle Hibernation requested from DSP + */ +int handle_hibernation_from_dsp(struct bridge_dev_context *dev_context) +{ + int status = 0; +#ifdef CONFIG_PM + u16 timeout = PWRSTST_TIMEOUT / 10; + u32 pwr_state; +#ifdef CONFIG_BRIDGE_DVFS + u32 opplevel; + struct io_mgr *hio_mgr; +#endif + struct dspbridge_platform_data *pdata = + omap_dspbridge_dev->dev.platform_data; + + pwr_state = (*pdata->dsp_prm_read)(OMAP3430_IVA2_MOD, OMAP2_PM_PWSTST) & + OMAP_POWERSTATEST_MASK; + /* Wait for DSP to move into OFF state */ + while ((pwr_state != PWRDM_POWER_OFF) && --timeout) { + if (msleep_interruptible(10)) { + pr_err("Waiting for DSP OFF mode interrupted\n"); + return -EPERM; + } + pwr_state = (*pdata->dsp_prm_read)(OMAP3430_IVA2_MOD, + OMAP2_PM_PWSTST) & OMAP_POWERSTATEST_MASK; + } + if (timeout == 0) { + pr_err("%s: Timed out waiting for DSP off mode\n", __func__); + status = -ETIMEDOUT; + return status; + } else { + + /* Save mailbox settings */ + omap_mbox_save_ctx(dev_context->mbox); + + /* Turn off DSP Peripheral clocks and DSP Load monitor timer */ + status = dsp_clock_disable_all(dev_context->dsp_per_clks); + + /* Disable wdt on hibernation. */ + dsp_wdt_enable(false); + + if (DSP_SUCCEEDED(status)) { + /* Update the Bridger Driver state */ + dev_context->dw_brd_state = BRD_DSP_HIBERNATION; +#ifdef CONFIG_BRIDGE_DVFS + status = + dev_get_io_mgr(dev_context->hdev_obj, &hio_mgr); + if (!hio_mgr) { + status = DSP_EHANDLE; + return status; + } + io_sh_msetting(hio_mgr, SHM_GETOPP, &opplevel); + + /* + * Set the OPP to low level before moving to OFF + * mode + */ + if (pdata->dsp_set_min_opp) + (*pdata->dsp_set_min_opp) (VDD1_OPP1); + status = 0; +#endif /* CONFIG_BRIDGE_DVFS */ + } + } +#endif + return status; +} + +/* + * ======== sleep_dsp ======== + * Put DSP in low power consuming state. + */ +int sleep_dsp(struct bridge_dev_context *dev_context, IN u32 dw_cmd, + IN void *pargs) +{ + int status = 0; +#ifdef CONFIG_PM +#ifdef CONFIG_BRIDGE_NTFY_PWRERR + struct deh_mgr *hdeh_mgr; +#endif /* CONFIG_BRIDGE_NTFY_PWRERR */ + u16 timeout = PWRSTST_TIMEOUT / 10; + u32 pwr_state, target_pwr_state; + struct dspbridge_platform_data *pdata = + omap_dspbridge_dev->dev.platform_data; + + /* Check if sleep code is valid */ + if ((dw_cmd != PWR_DEEPSLEEP) && (dw_cmd != PWR_EMERGENCYDEEPSLEEP)) + return -EINVAL; + + switch (dev_context->dw_brd_state) { + case BRD_RUNNING: + omap_mbox_save_ctx(dev_context->mbox); + if (dsp_test_sleepstate == PWRDM_POWER_OFF) { + sm_interrupt_dsp(dev_context, MBX_PM_DSPHIBERNATE); + dev_dbg(bridge, "PM: %s - sent hibernate cmd to DSP\n", + __func__); + target_pwr_state = PWRDM_POWER_OFF; + } else { + sm_interrupt_dsp(dev_context, MBX_PM_DSPRETENTION); + target_pwr_state = PWRDM_POWER_RET; + } + break; + case BRD_RETENTION: + omap_mbox_save_ctx(dev_context->mbox); + if (dsp_test_sleepstate == PWRDM_POWER_OFF) { + sm_interrupt_dsp(dev_context, MBX_PM_DSPHIBERNATE); + target_pwr_state = PWRDM_POWER_OFF; + } else + return 0; + break; + case BRD_HIBERNATION: + case BRD_DSP_HIBERNATION: + /* Already in Hibernation, so just return */ + dev_dbg(bridge, "PM: %s - DSP already in hibernation\n", + __func__); + return 0; + case BRD_STOPPED: + dev_dbg(bridge, "PM: %s - Board in STOP state\n", __func__); + return 0; + default: + dev_dbg(bridge, "PM: %s - Bridge in Illegal state\n", __func__); + return -EPERM; + } + + /* Get the PRCM DSP power domain status */ + pwr_state = (*pdata->dsp_prm_read)(OMAP3430_IVA2_MOD, OMAP2_PM_PWSTST) & + OMAP_POWERSTATEST_MASK; + + /* Wait for DSP to move into target power state */ + while ((pwr_state != target_pwr_state) && --timeout) { + if (msleep_interruptible(10)) { + pr_err("Waiting for DSP to Suspend interrupted\n"); + return -EPERM; + } + pwr_state = (*pdata->dsp_prm_read)(OMAP3430_IVA2_MOD, + OMAP2_PM_PWSTST) & OMAP_POWERSTATEST_MASK; + } + + if (!timeout) { + pr_err("%s: Timed out waiting for DSP off mode, state %x\n", + __func__, pwr_state); +#ifdef CONFIG_BRIDGE_NTFY_PWRERR + dev_get_deh_mgr(dev_context->hdev_obj, &hdeh_mgr); + bridge_deh_notify(hdeh_mgr, DSP_PWRERROR, 0); +#endif /* CONFIG_BRIDGE_NTFY_PWRERR */ + return -ETIMEDOUT; + } else { + /* Update the Bridger Driver state */ + if (dsp_test_sleepstate == PWRDM_POWER_OFF) + dev_context->dw_brd_state = BRD_HIBERNATION; + else + dev_context->dw_brd_state = BRD_RETENTION; + + /* Disable wdt on hibernation. */ + dsp_wdt_enable(false); + + /* Turn off DSP Peripheral clocks */ + status = dsp_clock_disable_all(dev_context->dsp_per_clks); + if (DSP_FAILED(status)) + return status; +#ifdef CONFIG_BRIDGE_DVFS + else if (target_pwr_state == PWRDM_POWER_OFF) { + /* + * Set the OPP to low level before moving to OFF mode + */ + if (pdata->dsp_set_min_opp) + (*pdata->dsp_set_min_opp) (VDD1_OPP1); + } +#endif /* CONFIG_BRIDGE_DVFS */ + } +#endif /* CONFIG_PM */ + return status; +} + +/* + * ======== wake_dsp ======== + * Wake up DSP from sleep. + */ +int wake_dsp(struct bridge_dev_context *dev_context, IN void *pargs) +{ + int status = 0; +#ifdef CONFIG_PM + + /* Check the board state, if it is not 'SLEEP' then return */ + if (dev_context->dw_brd_state == BRD_RUNNING || + dev_context->dw_brd_state == BRD_STOPPED) { + /* The Device is in 'RET' or 'OFF' state and Bridge state is not + * 'SLEEP', this means state inconsistency, so return */ + return 0; + } + + /* Send a wakeup message to DSP */ + sm_interrupt_dsp(dev_context, MBX_PM_DSPWAKEUP); + + /* Set the device state to RUNNIG */ + dev_context->dw_brd_state = BRD_RUNNING; +#endif /* CONFIG_PM */ + return status; +} + +/* + * ======== dsp_peripheral_clk_ctrl ======== + * Enable/Disable the DSP peripheral clocks as needed.. + */ +int dsp_peripheral_clk_ctrl(struct bridge_dev_context *dev_context, + IN void *pargs) +{ + u32 ext_clk = 0; + u32 ext_clk_id = 0; + u32 ext_clk_cmd = 0; + u32 clk_id_index = MBX_PM_MAX_RESOURCES; + u32 tmp_index; + u32 dsp_per_clks_before; + int status = 0; + + dsp_per_clks_before = dev_context->dsp_per_clks; + + ext_clk = (u32) *((u32 *) pargs); + ext_clk_id = ext_clk & MBX_PM_CLK_IDMASK; + + /* process the power message -- TODO, keep it in a separate function */ + for (tmp_index = 0; tmp_index < MBX_PM_MAX_RESOURCES; tmp_index++) { + if (ext_clk_id == bpwr_clkid[tmp_index]) { + clk_id_index = tmp_index; + break; + } + } + /* TODO -- Assert may be a too hard restriction here.. May be we should + * just return with failure when the CLK ID does not match */ + /* DBC_ASSERT(clk_id_index < MBX_PM_MAX_RESOURCES); */ + if (clk_id_index == MBX_PM_MAX_RESOURCES) { + /* return with a more meaningfull error code */ + return -EPERM; + } + ext_clk_cmd = (ext_clk >> MBX_PM_CLK_CMDSHIFT) & MBX_PM_CLK_CMDMASK; + switch (ext_clk_cmd) { + case BPWR_DISABLE_CLOCK: + status = dsp_clk_disable(bpwr_clks[clk_id_index].clk); + dsp_clk_wakeup_event_ctrl(bpwr_clks[clk_id_index].clk_id, + false); + if (DSP_SUCCEEDED(status)) { + (dev_context->dsp_per_clks) &= + (~((u32) (1 << bpwr_clks[clk_id_index].clk))); + } + break; + case BPWR_ENABLE_CLOCK: + status = dsp_clk_enable(bpwr_clks[clk_id_index].clk); + dsp_clk_wakeup_event_ctrl(bpwr_clks[clk_id_index].clk_id, true); + if (DSP_SUCCEEDED(status)) + (dev_context->dsp_per_clks) |= + (1 << bpwr_clks[clk_id_index].clk); + break; + default: + dev_dbg(bridge, "%s: Unsupported CMD\n", __func__); + /* unsupported cmd */ + /* TODO -- provide support for AUTOIDLE Enable/Disable + * commands */ + } + return status; +} + +/* + * ========pre_scale_dsp======== + * Sends prescale notification to DSP + * + */ +int pre_scale_dsp(struct bridge_dev_context *dev_context, IN void *pargs) +{ +#ifdef CONFIG_BRIDGE_DVFS + u32 level; + u32 voltage_domain; + + voltage_domain = *((u32 *) pargs); + level = *((u32 *) pargs + 1); + + dev_dbg(bridge, "OPP: %s voltage_domain = %x, level = 0x%x\n", + __func__, voltage_domain, level); + if ((dev_context->dw_brd_state == BRD_HIBERNATION) || + (dev_context->dw_brd_state == BRD_RETENTION) || + (dev_context->dw_brd_state == BRD_DSP_HIBERNATION)) { + dev_dbg(bridge, "OPP: %s IVA in sleep. No message to DSP\n"); + return 0; + } else if ((dev_context->dw_brd_state == BRD_RUNNING)) { + /* Send a prenotificatio to DSP */ + dev_dbg(bridge, "OPP: %s sent notification to DSP\n", __func__); + sm_interrupt_dsp(dev_context, MBX_PM_SETPOINT_PRENOTIFY); + return 0; + } else { + return -EPERM; + } +#endif /* #ifdef CONFIG_BRIDGE_DVFS */ + return 0; +} + +/* + * ========post_scale_dsp======== + * Sends postscale notification to DSP + * + */ +int post_scale_dsp(struct bridge_dev_context *dev_context, + IN void *pargs) +{ + int status = 0; +#ifdef CONFIG_BRIDGE_DVFS + u32 level; + u32 voltage_domain; + struct io_mgr *hio_mgr; + + status = dev_get_io_mgr(dev_context->hdev_obj, &hio_mgr); + if (!hio_mgr) + return -EFAULT; + + voltage_domain = *((u32 *) pargs); + level = *((u32 *) pargs + 1); + dev_dbg(bridge, "OPP: %s voltage_domain = %x, level = 0x%x\n", + __func__, voltage_domain, level); + if ((dev_context->dw_brd_state == BRD_HIBERNATION) || + (dev_context->dw_brd_state == BRD_RETENTION) || + (dev_context->dw_brd_state == BRD_DSP_HIBERNATION)) { + /* Update the OPP value in shared memory */ + io_sh_msetting(hio_mgr, SHM_CURROPP, &level); + dev_dbg(bridge, "OPP: %s IVA in sleep. Wrote to shm\n", + __func__); + } else if ((dev_context->dw_brd_state == BRD_RUNNING)) { + /* Update the OPP value in shared memory */ + io_sh_msetting(hio_mgr, SHM_CURROPP, &level); + /* Send a post notification to DSP */ + sm_interrupt_dsp(dev_context, MBX_PM_SETPOINT_POSTNOTIFY); + dev_dbg(bridge, "OPP: %s wrote to shm. Sent post notification " + "to DSP\n", __func__); + } else { + status = -EPERM; + } +#endif /* #ifdef CONFIG_BRIDGE_DVFS */ + return status; +} + +void dsp_clk_wakeup_event_ctrl(u32 ClkId, bool enable) +{ + struct cfg_hostres *resources; + int status = 0; + u32 iva2_grpsel; + u32 mpu_grpsel; + struct dev_object *hdev_object = NULL; + struct bridge_dev_context *bridge_context = NULL; + + hdev_object = (struct dev_object *)drv_get_first_dev_object(); + if (!hdev_object) + return; + + status = dev_get_bridge_context(hdev_object, &bridge_context); + if (!bridge_context) + return; + + resources = bridge_context->resources; + if (!resources) + return; + + switch (ClkId) { + case BPWR_GP_TIMER5: + iva2_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + + 0xA8)); + mpu_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + + 0xA4)); + if (enable) { + iva2_grpsel |= OMAP3430_GRPSEL_GPT5_MASK; + mpu_grpsel &= ~OMAP3430_GRPSEL_GPT5_MASK; + } else { + mpu_grpsel |= OMAP3430_GRPSEL_GPT5_MASK; + iva2_grpsel &= ~OMAP3430_GRPSEL_GPT5_MASK; + } + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA8)) + = iva2_grpsel; + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA4)) + = mpu_grpsel; + break; + case BPWR_GP_TIMER6: + iva2_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + + 0xA8)); + mpu_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + + 0xA4)); + if (enable) { + iva2_grpsel |= OMAP3430_GRPSEL_GPT6_MASK; + mpu_grpsel &= ~OMAP3430_GRPSEL_GPT6_MASK; + } else { + mpu_grpsel |= OMAP3430_GRPSEL_GPT6_MASK; + iva2_grpsel &= ~OMAP3430_GRPSEL_GPT6_MASK; + } + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA8)) + = iva2_grpsel; + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA4)) + = mpu_grpsel; + break; + case BPWR_GP_TIMER7: + iva2_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + + 0xA8)); + mpu_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + + 0xA4)); + if (enable) { + iva2_grpsel |= OMAP3430_GRPSEL_GPT7_MASK; + mpu_grpsel &= ~OMAP3430_GRPSEL_GPT7_MASK; + } else { + mpu_grpsel |= OMAP3430_GRPSEL_GPT7_MASK; + iva2_grpsel &= ~OMAP3430_GRPSEL_GPT7_MASK; + } + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA8)) + = iva2_grpsel; + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA4)) + = mpu_grpsel; + break; + case BPWR_GP_TIMER8: + iva2_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + + 0xA8)); + mpu_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + + 0xA4)); + if (enable) { + iva2_grpsel |= OMAP3430_GRPSEL_GPT8_MASK; + mpu_grpsel &= ~OMAP3430_GRPSEL_GPT8_MASK; + } else { + mpu_grpsel |= OMAP3430_GRPSEL_GPT8_MASK; + iva2_grpsel &= ~OMAP3430_GRPSEL_GPT8_MASK; + } + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA8)) + = iva2_grpsel; + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA4)) + = mpu_grpsel; + break; + case BPWR_MCBSP1: + iva2_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_core_pm_base) + + 0xA8)); + mpu_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_core_pm_base) + + 0xA4)); + if (enable) { + iva2_grpsel |= OMAP3430_GRPSEL_MCBSP1_MASK; + mpu_grpsel &= ~OMAP3430_GRPSEL_MCBSP1_MASK; + } else { + mpu_grpsel |= OMAP3430_GRPSEL_MCBSP1_MASK; + iva2_grpsel &= ~OMAP3430_GRPSEL_MCBSP1_MASK; + } + *((reg_uword32 *) ((u32) (resources->dw_core_pm_base) + 0xA8)) + = iva2_grpsel; + *((reg_uword32 *) ((u32) (resources->dw_core_pm_base) + 0xA4)) + = mpu_grpsel; + break; + case BPWR_MCBSP2: + iva2_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + + 0xA8)); + mpu_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + + 0xA4)); + if (enable) { + iva2_grpsel |= OMAP3430_GRPSEL_MCBSP2_MASK; + mpu_grpsel &= ~OMAP3430_GRPSEL_MCBSP2_MASK; + } else { + mpu_grpsel |= OMAP3430_GRPSEL_MCBSP2_MASK; + iva2_grpsel &= ~OMAP3430_GRPSEL_MCBSP2_MASK; + } + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA8)) + = iva2_grpsel; + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA4)) + = mpu_grpsel; + break; + case BPWR_MCBSP3: + iva2_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + + 0xA8)); + mpu_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + + 0xA4)); + if (enable) { + iva2_grpsel |= OMAP3430_GRPSEL_MCBSP3_MASK; + mpu_grpsel &= ~OMAP3430_GRPSEL_MCBSP3_MASK; + } else { + mpu_grpsel |= OMAP3430_GRPSEL_MCBSP3_MASK; + iva2_grpsel &= ~OMAP3430_GRPSEL_MCBSP3_MASK; + } + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA8)) + = iva2_grpsel; + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA4)) + = mpu_grpsel; + break; + case BPWR_MCBSP4: + iva2_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + + 0xA8)); + mpu_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_per_pm_base) + + 0xA4)); + if (enable) { + iva2_grpsel |= OMAP3430_GRPSEL_MCBSP4_MASK; + mpu_grpsel &= ~OMAP3430_GRPSEL_MCBSP4_MASK; + } else { + mpu_grpsel |= OMAP3430_GRPSEL_MCBSP4_MASK; + iva2_grpsel &= ~OMAP3430_GRPSEL_MCBSP4_MASK; + } + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA8)) + = iva2_grpsel; + *((reg_uword32 *) ((u32) (resources->dw_per_pm_base) + 0xA4)) + = mpu_grpsel; + break; + case BPWR_MCBSP5: + iva2_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_core_pm_base) + + 0xA8)); + mpu_grpsel = (u32) *((reg_uword32 *) + ((u32) (resources->dw_core_pm_base) + + 0xA4)); + if (enable) { + iva2_grpsel |= OMAP3430_GRPSEL_MCBSP5_MASK; + mpu_grpsel &= ~OMAP3430_GRPSEL_MCBSP5_MASK; + } else { + mpu_grpsel |= OMAP3430_GRPSEL_MCBSP5_MASK; + iva2_grpsel &= ~OMAP3430_GRPSEL_MCBSP5_MASK; + } + *((reg_uword32 *) ((u32) (resources->dw_core_pm_base) + 0xA8)) + = iva2_grpsel; + *((reg_uword32 *) ((u32) (resources->dw_core_pm_base) + 0xA4)) + = mpu_grpsel; + break; + } +} diff --git a/drivers/staging/tidspbridge/core/tiomap_io.c b/drivers/staging/tidspbridge/core/tiomap_io.c new file mode 100644 index 000000000000..3b2ea7008447 --- /dev/null +++ b/drivers/staging/tidspbridge/core/tiomap_io.c @@ -0,0 +1,458 @@ +/* + * tiomap_io.c + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Implementation for the io read/write routines. + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +/* ----------------------------------- DSP/BIOS Bridge */ +#include + +/* ----------------------------------- Trace & Debug */ +#include + +/* ----------------------------------- Platform Manager */ +#include +#include + +/* ----------------------------------- OS Adaptation Layer */ +#include +#include + +/* ----------------------------------- specific to this file */ +#include "_tiomap.h" +#include "_tiomap_pwr.h" +#include "tiomap_io.h" + +static u32 ul_ext_base; +static u32 ul_ext_end; + +static u32 shm0_end; +static u32 ul_dyn_ext_base; +static u32 ul_trace_sec_beg; +static u32 ul_trace_sec_end; +static u32 ul_shm_base_virt; + +bool symbols_reloaded = true; + +/* + * ======== read_ext_dsp_data ======== + * Copies DSP external memory buffers to the host side buffers. + */ +int read_ext_dsp_data(struct bridge_dev_context *hDevContext, + OUT u8 *pbHostBuf, u32 dwDSPAddr, + u32 ul_num_bytes, u32 ulMemType) +{ + int status = 0; + struct bridge_dev_context *dev_context = hDevContext; + u32 offset; + u32 ul_tlb_base_virt = 0; + u32 ul_shm_offset_virt = 0; + u32 dw_ext_prog_virt_mem; + u32 dw_base_addr = dev_context->dw_dsp_ext_base_addr; + bool trace_read = false; + + if (!ul_shm_base_virt) { + status = dev_get_symbol(dev_context->hdev_obj, + SHMBASENAME, &ul_shm_base_virt); + } + DBC_ASSERT(ul_shm_base_virt != 0); + + /* Check if it is a read of Trace section */ + if (DSP_SUCCEEDED(status) && !ul_trace_sec_beg) { + status = dev_get_symbol(dev_context->hdev_obj, + DSP_TRACESEC_BEG, &ul_trace_sec_beg); + } + DBC_ASSERT(ul_trace_sec_beg != 0); + + if (DSP_SUCCEEDED(status) && !ul_trace_sec_end) { + status = dev_get_symbol(dev_context->hdev_obj, + DSP_TRACESEC_END, &ul_trace_sec_end); + } + DBC_ASSERT(ul_trace_sec_end != 0); + + if (DSP_SUCCEEDED(status)) { + if ((dwDSPAddr <= ul_trace_sec_end) && + (dwDSPAddr >= ul_trace_sec_beg)) + trace_read = true; + } + + /* If reading from TRACE, force remap/unmap */ + if (trace_read && dw_base_addr) { + dw_base_addr = 0; + dev_context->dw_dsp_ext_base_addr = 0; + } + + if (!dw_base_addr) { + /* Initialize ul_ext_base and ul_ext_end */ + ul_ext_base = 0; + ul_ext_end = 0; + + /* Get DYNEXT_BEG, EXT_BEG and EXT_END. */ + if (DSP_SUCCEEDED(status) && !ul_dyn_ext_base) { + status = dev_get_symbol(dev_context->hdev_obj, + DYNEXTBASE, &ul_dyn_ext_base); + } + DBC_ASSERT(ul_dyn_ext_base != 0); + + if (DSP_SUCCEEDED(status)) { + status = dev_get_symbol(dev_context->hdev_obj, + EXTBASE, &ul_ext_base); + } + DBC_ASSERT(ul_ext_base != 0); + + if (DSP_SUCCEEDED(status)) { + status = dev_get_symbol(dev_context->hdev_obj, + EXTEND, &ul_ext_end); + } + DBC_ASSERT(ul_ext_end != 0); + + /* Trace buffer is right after the shm SEG0, + * so set the base address to SHMBASE */ + if (trace_read) { + ul_ext_base = ul_shm_base_virt; + ul_ext_end = ul_trace_sec_end; + } + + DBC_ASSERT(ul_ext_end != 0); + DBC_ASSERT(ul_ext_end > ul_ext_base); + + if (ul_ext_end < ul_ext_base) + status = -EPERM; + + if (DSP_SUCCEEDED(status)) { + ul_tlb_base_virt = + dev_context->atlb_entry[0].ul_dsp_va * DSPWORDSIZE; + DBC_ASSERT(ul_tlb_base_virt <= ul_shm_base_virt); + dw_ext_prog_virt_mem = + dev_context->atlb_entry[0].ul_gpp_va; + + if (!trace_read) { + ul_shm_offset_virt = + ul_shm_base_virt - ul_tlb_base_virt; + ul_shm_offset_virt += + PG_ALIGN_HIGH(ul_ext_end - ul_dyn_ext_base + + 1, HW_PAGE_SIZE64KB); + dw_ext_prog_virt_mem -= ul_shm_offset_virt; + dw_ext_prog_virt_mem += + (ul_ext_base - ul_dyn_ext_base); + dev_context->dw_dsp_ext_base_addr = + dw_ext_prog_virt_mem; + + /* + * This dw_dsp_ext_base_addr will get cleared + * only when the board is stopped. + */ + if (!dev_context->dw_dsp_ext_base_addr) + status = -EPERM; + } + + dw_base_addr = dw_ext_prog_virt_mem; + } + } + + if (!dw_base_addr || !ul_ext_base || !ul_ext_end) + status = -EPERM; + + offset = dwDSPAddr - ul_ext_base; + + if (DSP_SUCCEEDED(status)) + memcpy(pbHostBuf, (u8 *) dw_base_addr + offset, ul_num_bytes); + + return status; +} + +/* + * ======== write_dsp_data ======== + * purpose: + * Copies buffers to the DSP internal/external memory. + */ +int write_dsp_data(struct bridge_dev_context *hDevContext, + IN u8 *pbHostBuf, u32 dwDSPAddr, u32 ul_num_bytes, + u32 ulMemType) +{ + u32 offset; + u32 dw_base_addr = hDevContext->dw_dsp_base_addr; + struct cfg_hostres *resources = hDevContext->resources; + int status = 0; + u32 base1, base2, base3; + base1 = OMAP_DSP_MEM1_SIZE; + base2 = OMAP_DSP_MEM2_BASE - OMAP_DSP_MEM1_BASE; + base3 = OMAP_DSP_MEM3_BASE - OMAP_DSP_MEM1_BASE; + + if (!resources) + return -EPERM; + + offset = dwDSPAddr - hDevContext->dw_dsp_start_add; + if (offset < base1) { + dw_base_addr = MEM_LINEAR_ADDRESS(resources->dw_mem_base[2], + resources->dw_mem_length[2]); + } else if (offset > base1 && offset < base2 + OMAP_DSP_MEM2_SIZE) { + dw_base_addr = MEM_LINEAR_ADDRESS(resources->dw_mem_base[3], + resources->dw_mem_length[3]); + offset = offset - base2; + } else if (offset >= base2 + OMAP_DSP_MEM2_SIZE && + offset < base3 + OMAP_DSP_MEM3_SIZE) { + dw_base_addr = MEM_LINEAR_ADDRESS(resources->dw_mem_base[4], + resources->dw_mem_length[4]); + offset = offset - base3; + } else { + return -EPERM; + } + if (ul_num_bytes) + memcpy((u8 *) (dw_base_addr + offset), pbHostBuf, ul_num_bytes); + else + *((u32 *) pbHostBuf) = dw_base_addr + offset; + + return status; +} + +/* + * ======== write_ext_dsp_data ======== + * purpose: + * Copies buffers to the external memory. + * + */ +int write_ext_dsp_data(struct bridge_dev_context *dev_context, + IN u8 *pbHostBuf, u32 dwDSPAddr, + u32 ul_num_bytes, u32 ulMemType, + bool bDynamicLoad) +{ + u32 dw_base_addr = dev_context->dw_dsp_ext_base_addr; + u32 dw_offset = 0; + u8 temp_byte1, temp_byte2; + u8 remain_byte[4]; + s32 i; + int ret = 0; + u32 dw_ext_prog_virt_mem; + u32 ul_tlb_base_virt = 0; + u32 ul_shm_offset_virt = 0; + struct cfg_hostres *host_res = dev_context->resources; + bool trace_load = false; + temp_byte1 = 0x0; + temp_byte2 = 0x0; + + if (symbols_reloaded) { + /* Check if it is a load to Trace section */ + ret = dev_get_symbol(dev_context->hdev_obj, + DSP_TRACESEC_BEG, &ul_trace_sec_beg); + if (DSP_SUCCEEDED(ret)) + ret = dev_get_symbol(dev_context->hdev_obj, + DSP_TRACESEC_END, + &ul_trace_sec_end); + } + if (DSP_SUCCEEDED(ret)) { + if ((dwDSPAddr <= ul_trace_sec_end) && + (dwDSPAddr >= ul_trace_sec_beg)) + trace_load = true; + } + + /* If dynamic, force remap/unmap */ + if ((bDynamicLoad || trace_load) && dw_base_addr) { + dw_base_addr = 0; + MEM_UNMAP_LINEAR_ADDRESS((void *) + dev_context->dw_dsp_ext_base_addr); + dev_context->dw_dsp_ext_base_addr = 0x0; + } + if (!dw_base_addr) { + if (symbols_reloaded) + /* Get SHM_BEG EXT_BEG and EXT_END. */ + ret = dev_get_symbol(dev_context->hdev_obj, + SHMBASENAME, &ul_shm_base_virt); + DBC_ASSERT(ul_shm_base_virt != 0); + if (bDynamicLoad) { + if (DSP_SUCCEEDED(ret)) { + if (symbols_reloaded) + ret = + dev_get_symbol + (dev_context->hdev_obj, DYNEXTBASE, + &ul_ext_base); + } + DBC_ASSERT(ul_ext_base != 0); + if (DSP_SUCCEEDED(ret)) { + /* DR OMAPS00013235 : DLModules array may be + * in EXTMEM. It is expected that DYNEXTMEM and + * EXTMEM are contiguous, so checking for the + * upper bound at EXTEND should be Ok. */ + if (symbols_reloaded) + ret = + dev_get_symbol + (dev_context->hdev_obj, EXTEND, + &ul_ext_end); + } + } else { + if (symbols_reloaded) { + if (DSP_SUCCEEDED(ret)) + ret = + dev_get_symbol + (dev_context->hdev_obj, EXTBASE, + &ul_ext_base); + DBC_ASSERT(ul_ext_base != 0); + if (DSP_SUCCEEDED(ret)) + ret = + dev_get_symbol + (dev_context->hdev_obj, EXTEND, + &ul_ext_end); + } + } + /* Trace buffer it right after the shm SEG0, so set the + * base address to SHMBASE */ + if (trace_load) + ul_ext_base = ul_shm_base_virt; + + DBC_ASSERT(ul_ext_end != 0); + DBC_ASSERT(ul_ext_end > ul_ext_base); + if (ul_ext_end < ul_ext_base) + ret = -EPERM; + + if (DSP_SUCCEEDED(ret)) { + ul_tlb_base_virt = + dev_context->atlb_entry[0].ul_dsp_va * DSPWORDSIZE; + DBC_ASSERT(ul_tlb_base_virt <= ul_shm_base_virt); + + if (symbols_reloaded) { + if (DSP_SUCCEEDED(ret)) { + ret = + dev_get_symbol + (dev_context->hdev_obj, + DSP_TRACESEC_END, &shm0_end); + } + if (DSP_SUCCEEDED(ret)) { + ret = + dev_get_symbol + (dev_context->hdev_obj, DYNEXTBASE, + &ul_dyn_ext_base); + } + } + ul_shm_offset_virt = + ul_shm_base_virt - ul_tlb_base_virt; + if (trace_load) { + dw_ext_prog_virt_mem = + dev_context->atlb_entry[0].ul_gpp_va; + } else { + dw_ext_prog_virt_mem = host_res->dw_mem_base[1]; + dw_ext_prog_virt_mem += + (ul_ext_base - ul_dyn_ext_base); + } + + dev_context->dw_dsp_ext_base_addr = + (u32) MEM_LINEAR_ADDRESS((void *) + dw_ext_prog_virt_mem, + ul_ext_end - ul_ext_base); + dw_base_addr += dev_context->dw_dsp_ext_base_addr; + /* This dw_dsp_ext_base_addr will get cleared only when + * the board is stopped. */ + if (!dev_context->dw_dsp_ext_base_addr) + ret = -EPERM; + } + } + if (!dw_base_addr || !ul_ext_base || !ul_ext_end) + ret = -EPERM; + + if (DSP_SUCCEEDED(ret)) { + for (i = 0; i < 4; i++) + remain_byte[i] = 0x0; + + dw_offset = dwDSPAddr - ul_ext_base; + /* Also make sure the dwDSPAddr is < ul_ext_end */ + if (dwDSPAddr > ul_ext_end || dw_offset > dwDSPAddr) + ret = -EPERM; + } + if (DSP_SUCCEEDED(ret)) { + if (ul_num_bytes) + memcpy((u8 *) dw_base_addr + dw_offset, pbHostBuf, + ul_num_bytes); + else + *((u32 *) pbHostBuf) = dw_base_addr + dw_offset; + } + /* Unmap here to force remap for other Ext loads */ + if ((bDynamicLoad || trace_load) && dev_context->dw_dsp_ext_base_addr) { + MEM_UNMAP_LINEAR_ADDRESS((void *) + dev_context->dw_dsp_ext_base_addr); + dev_context->dw_dsp_ext_base_addr = 0x0; + } + symbols_reloaded = false; + return ret; +} + +int sm_interrupt_dsp(struct bridge_dev_context *dev_context, u16 mb_val) +{ +#ifdef CONFIG_BRIDGE_DVFS + u32 opplevel = 0; +#endif + struct dspbridge_platform_data *pdata = + omap_dspbridge_dev->dev.platform_data; + struct cfg_hostres *resources = dev_context->resources; + int status = 0; + u32 temp; + + if (!dev_context->mbox) + return 0; + + if (!resources) + return -EPERM; + + if (dev_context->dw_brd_state == BRD_DSP_HIBERNATION || + dev_context->dw_brd_state == BRD_HIBERNATION) { +#ifdef CONFIG_BRIDGE_DVFS + if (pdata->dsp_get_opp) + opplevel = (*pdata->dsp_get_opp) (); + if (opplevel == VDD1_OPP1) { + if (pdata->dsp_set_min_opp) + (*pdata->dsp_set_min_opp) (VDD1_OPP2); + } +#endif + /* Restart the peripheral clocks */ + dsp_clock_enable_all(dev_context->dsp_per_clks); + dsp_wdt_enable(true); + + /* + * 2:0 AUTO_IVA2_DPLL - Enabling IVA2 DPLL auto control + * in CM_AUTOIDLE_PLL_IVA2 register + */ + (*pdata->dsp_cm_write)(1 << OMAP3430_AUTO_IVA2_DPLL_SHIFT, + OMAP3430_IVA2_MOD, OMAP3430_CM_AUTOIDLE_PLL); + + /* + * 7:4 IVA2_DPLL_FREQSEL - IVA2 internal frq set to + * 0.75 MHz - 1.0 MHz + * 2:0 EN_IVA2_DPLL - Enable IVA2 DPLL in lock mode + */ + (*pdata->dsp_cm_rmw_bits)(OMAP3430_IVA2_DPLL_FREQSEL_MASK | + OMAP3430_EN_IVA2_DPLL_MASK, + 0x3 << OMAP3430_IVA2_DPLL_FREQSEL_SHIFT | + 0x7 << OMAP3430_EN_IVA2_DPLL_SHIFT, + OMAP3430_IVA2_MOD, OMAP3430_CM_CLKEN_PLL); + + /* Restore mailbox settings */ + omap_mbox_restore_ctx(dev_context->mbox); + + /* Access MMU SYS CONFIG register to generate a short wakeup */ + temp = *(reg_uword32 *) (resources->dw_dmmu_base + 0x10); + + dev_context->dw_brd_state = BRD_RUNNING; + } else if (dev_context->dw_brd_state == BRD_RETENTION) { + /* Restart the peripheral clocks */ + dsp_clock_enable_all(dev_context->dsp_per_clks); + } + + status = omap_mbox_msg_send(dev_context->mbox, mb_val); + + if (status) { + pr_err("omap_mbox_msg_send Fail and status = %d\n", status); + status = -EPERM; + } + + return 0; +} diff --git a/drivers/staging/tidspbridge/core/tiomap_io.h b/drivers/staging/tidspbridge/core/tiomap_io.h new file mode 100644 index 000000000000..a176e5c54da5 --- /dev/null +++ b/drivers/staging/tidspbridge/core/tiomap_io.h @@ -0,0 +1,104 @@ +/* + * tiomap_io.h + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Definitions, types and function prototypes for the io (r/w external mem). + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +#ifndef _TIOMAP_IO_ +#define _TIOMAP_IO_ + +/* + * Symbol that defines beginning of shared memory. + * For OMAP (Helen) this is the DSP Virtual base address of SDRAM. + * This will be used to program DSP MMU to map DSP Virt to GPP phys. + * (see dspMmuTlbEntry()). + */ +#define SHMBASENAME "SHM_BEG" +#define EXTBASE "EXT_BEG" +#define EXTEND "_EXT_END" +#define DYNEXTBASE "_DYNEXT_BEG" +#define DYNEXTEND "_DYNEXT_END" +#define IVAEXTMEMBASE "_IVAEXTMEM_BEG" +#define IVAEXTMEMEND "_IVAEXTMEM_END" + +#define DSP_TRACESEC_BEG "_BRIDGE_TRACE_BEG" +#define DSP_TRACESEC_END "_BRIDGE_TRACE_END" + +#define SYS_PUTCBEG "_SYS_PUTCBEG" +#define SYS_PUTCEND "_SYS_PUTCEND" +#define BRIDGE_SYS_PUTC_CURRENT "_BRIDGE_SYS_PUTC_current" + +#define WORDSWAP_ENABLE 0x3 /* Enable word swap */ + +/* + * ======== read_ext_dsp_data ======== + * Reads it from DSP External memory. The external memory for the DSP + * is configured by the combination of DSP MMU and shm Memory manager in the CDB + */ +extern int read_ext_dsp_data(struct bridge_dev_context *dev_context, + OUT u8 *pbHostBuf, u32 dwDSPAddr, + u32 ul_num_bytes, u32 ulMemType); + +/* + * ======== write_dsp_data ======== + */ +extern int write_dsp_data(struct bridge_dev_context *dev_context, + OUT u8 *pbHostBuf, u32 dwDSPAddr, + u32 ul_num_bytes, u32 ulMemType); + +/* + * ======== write_ext_dsp_data ======== + * Writes to the DSP External memory for external program. + * The ext mem for progra is configured by the combination of DSP MMU and + * shm Memory manager in the CDB + */ +extern int write_ext_dsp_data(struct bridge_dev_context *dev_context, + IN u8 *pbHostBuf, u32 dwDSPAddr, + u32 ul_num_bytes, u32 ulMemType, + bool bDynamicLoad); + +/* + * ======== write_ext32_bit_dsp_data ======== + * Writes 32 bit data to the external memory + */ +extern inline void write_ext32_bit_dsp_data(IN const + struct bridge_dev_context *dev_context, + IN u32 dwDSPAddr, IN u32 val) +{ + *(u32 *) dwDSPAddr = ((dev_context->tc_word_swap_on) ? (((val << 16) & + 0xFFFF0000) | + ((val >> 16) & + 0x0000FFFF)) : + val); +} + +/* + * ======== read_ext32_bit_dsp_data ======== + * Reads 32 bit data from the external memory + */ +extern inline u32 read_ext32_bit_dsp_data(IN const struct bridge_dev_context + *dev_context, IN u32 dwDSPAddr) +{ + u32 ret; + ret = *(u32 *) dwDSPAddr; + + ret = ((dev_context->tc_word_swap_on) ? (((ret << 16) + & 0xFFFF0000) | ((ret >> 16) & + 0x0000FFFF)) + : ret); + return ret; +} + +#endif /* _TIOMAP_IO_ */ diff --git a/drivers/staging/tidspbridge/core/ue_deh.c b/drivers/staging/tidspbridge/core/ue_deh.c new file mode 100644 index 000000000000..64e936641182 --- /dev/null +++ b/drivers/staging/tidspbridge/core/ue_deh.c @@ -0,0 +1,303 @@ +/* + * ue_deh.c + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * Implements upper edge DSP exception handling (DEH) functions. + * + * Copyright (C) 2005-2006 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +/* ----------------------------------- Host OS */ +#include + +/* ----------------------------------- DSP/BIOS Bridge */ +#include +#include + +/* ----------------------------------- Trace & Debug */ +#include + +/* ----------------------------------- OS Adaptation Layer */ +#include +#include +#include +#include + +/* ----------------------------------- Link Driver */ +#include + +/* ----------------------------------- Platform Manager */ +#include +#include +#include + +/* ------------------------------------ Hardware Abstraction Layer */ +#include +#include + +/* ----------------------------------- This */ +#include "mmu_fault.h" +#include "_tiomap.h" +#include "_deh.h" +#include "_tiomap_pwr.h" +#include + + +static struct hw_mmu_map_attrs_t map_attrs = { HW_LITTLE_ENDIAN, + HW_ELEM_SIZE16BIT, + HW_MMU_CPUES +}; + +static void *dummy_va_addr; + +int bridge_deh_create(struct deh_mgr **ret_deh_mgr, + struct dev_object *hdev_obj) +{ + int status = 0; + struct deh_mgr *deh_mgr; + struct bridge_dev_context *hbridge_context = NULL; + + /* Message manager will be created when a file is loaded, since + * size of message buffer in shared memory is configurable in + * the base image. */ + /* Get Bridge context info. */ + dev_get_bridge_context(hdev_obj, &hbridge_context); + DBC_ASSERT(hbridge_context); + dummy_va_addr = NULL; + /* Allocate IO manager object: */ + deh_mgr = kzalloc(sizeof(struct deh_mgr), GFP_KERNEL); + if (!deh_mgr) { + status = -ENOMEM; + goto leave; + } + + /* Create an NTFY object to manage notifications */ + deh_mgr->ntfy_obj = kmalloc(sizeof(struct ntfy_object), GFP_KERNEL); + if (deh_mgr->ntfy_obj) { + ntfy_init(deh_mgr->ntfy_obj); + } else { + status = -ENOMEM; + goto err; + } + + /* Create a MMUfault DPC */ + tasklet_init(&deh_mgr->dpc_tasklet, mmu_fault_dpc, (u32) deh_mgr); + + /* Fill in context structure */ + deh_mgr->hbridge_context = hbridge_context; + deh_mgr->err_info.dw_err_mask = 0L; + deh_mgr->err_info.dw_val1 = 0L; + deh_mgr->err_info.dw_val2 = 0L; + deh_mgr->err_info.dw_val3 = 0L; + + /* Install ISR function for DSP MMU fault */ + if ((request_irq(INT_DSP_MMU_IRQ, mmu_fault_isr, 0, + "DspBridge\tiommu fault", + (void *)deh_mgr)) == 0) + status = 0; + else + status = -EPERM; + +err: + if (DSP_FAILED(status)) { + /* If create failed, cleanup */ + bridge_deh_destroy(deh_mgr); + deh_mgr = NULL; + } +leave: + *ret_deh_mgr = deh_mgr; + + return status; +} + +int bridge_deh_destroy(struct deh_mgr *deh_mgr) +{ + if (!deh_mgr) + return -EFAULT; + + /* Release dummy VA buffer */ + bridge_deh_release_dummy_mem(); + /* If notification object exists, delete it */ + if (deh_mgr->ntfy_obj) { + ntfy_delete(deh_mgr->ntfy_obj); + kfree(deh_mgr->ntfy_obj); + } + /* Disable DSP MMU fault */ + free_irq(INT_DSP_MMU_IRQ, deh_mgr); + + /* Free DPC object */ + tasklet_kill(&deh_mgr->dpc_tasklet); + + /* Deallocate the DEH manager object */ + kfree(deh_mgr); + + return 0; +} + +int bridge_deh_register_notify(struct deh_mgr *deh_mgr, u32 event_mask, + u32 notify_type, + struct dsp_notification *hnotification) +{ + int status = 0; + + if (!deh_mgr) + return -EFAULT; + + if (event_mask) + status = ntfy_register(deh_mgr->ntfy_obj, hnotification, + event_mask, notify_type); + else + status = ntfy_unregister(deh_mgr->ntfy_obj, hnotification); + + return status; +} + +void bridge_deh_notify(struct deh_mgr *deh_mgr, u32 ulEventMask, u32 dwErrInfo) +{ + struct bridge_dev_context *dev_context; + int status = 0; + u32 hw_mmu_max_tlb_count = 31; + struct cfg_hostres *resources; + hw_status hw_status_obj; + + if (!deh_mgr) + return; + + dev_info(bridge, "%s: device exception\n", __func__); + dev_context = (struct bridge_dev_context *)deh_mgr->hbridge_context; + resources = dev_context->resources; + + switch (ulEventMask) { + case DSP_SYSERROR: + /* reset err_info structure before use */ + deh_mgr->err_info.dw_err_mask = DSP_SYSERROR; + deh_mgr->err_info.dw_val1 = 0L; + deh_mgr->err_info.dw_val2 = 0L; + deh_mgr->err_info.dw_val3 = 0L; + deh_mgr->err_info.dw_val1 = dwErrInfo; + dev_err(bridge, "%s: %s, err_info = 0x%x\n", + __func__, "DSP_SYSERROR", dwErrInfo); + dump_dl_modules(dev_context); + dump_dsp_stack(dev_context); + break; + case DSP_MMUFAULT: + /* MMU fault routine should have set err info structure. */ + deh_mgr->err_info.dw_err_mask = DSP_MMUFAULT; + dev_err(bridge, "%s: %s, err_info = 0x%x\n", + __func__, "DSP_MMUFAULT", dwErrInfo); + dev_info(bridge, "%s: %s, high=0x%x, low=0x%x, " + "fault=0x%x\n", __func__, "DSP_MMUFAULT", + (unsigned int) deh_mgr->err_info.dw_val1, + (unsigned int) deh_mgr->err_info.dw_val2, + (unsigned int) fault_addr); + dummy_va_addr = (void*)__get_free_page(GFP_ATOMIC); + dev_context = (struct bridge_dev_context *) + deh_mgr->hbridge_context; + + print_dsp_trace_buffer(dev_context); + dump_dl_modules(dev_context); + + /* + * Reset the dynamic mmu index to fixed count if it exceeds + * 31. So that the dynmmuindex is always between the range of + * standard/fixed entries and 31. + */ + if (dev_context->num_tlb_entries > + hw_mmu_max_tlb_count) { + dev_context->num_tlb_entries = + dev_context->fixed_tlb_entries; + } + if (DSP_SUCCEEDED(status)) { + hw_status_obj = + hw_mmu_tlb_add(resources->dw_dmmu_base, + virt_to_phys(dummy_va_addr), fault_addr, + HW_PAGE_SIZE4KB, 1, + &map_attrs, HW_SET, HW_SET); + } + + dsp_clk_enable(DSP_CLK_GPT8); + + dsp_gpt_wait_overflow(DSP_CLK_GPT8, 0xfffffffe); + + /* Clear MMU interrupt */ + hw_mmu_event_ack(resources->dw_dmmu_base, + HW_MMU_TRANSLATION_FAULT); + dump_dsp_stack(deh_mgr->hbridge_context); + dsp_clk_disable(DSP_CLK_GPT8); + break; +#ifdef CONFIG_BRIDGE_NTFY_PWRERR + case DSP_PWRERROR: + /* reset err_info structure before use */ + deh_mgr->err_info.dw_err_mask = DSP_PWRERROR; + deh_mgr->err_info.dw_val1 = 0L; + deh_mgr->err_info.dw_val2 = 0L; + deh_mgr->err_info.dw_val3 = 0L; + deh_mgr->err_info.dw_val1 = dwErrInfo; + dev_err(bridge, "%s: %s, err_info = 0x%x\n", + __func__, "DSP_PWRERROR", dwErrInfo); + break; +#endif /* CONFIG_BRIDGE_NTFY_PWRERR */ + case DSP_WDTOVERFLOW: + deh_mgr->err_info.dw_err_mask = DSP_WDTOVERFLOW; + deh_mgr->err_info.dw_val1 = 0L; + deh_mgr->err_info.dw_val2 = 0L; + deh_mgr->err_info.dw_val3 = 0L; + dev_err(bridge, "%s: DSP_WDTOVERFLOW\n", __func__); + break; + default: + dev_dbg(bridge, "%s: Unknown Error, err_info = 0x%x\n", + __func__, dwErrInfo); + break; + } + + /* Filter subsequent notifications when an error occurs */ + if (dev_context->dw_brd_state != BRD_ERROR) { + ntfy_notify(deh_mgr->ntfy_obj, ulEventMask); +#ifdef CONFIG_BRIDGE_RECOVERY + bridge_recover_schedule(); +#endif + } + + /* Set the Board state as ERROR */ + dev_context->dw_brd_state = BRD_ERROR; + /* Disable all the clocks that were enabled by DSP */ + dsp_clock_disable_all(dev_context->dsp_per_clks); + /* + * Avoid the subsequent WDT if it happens once, + * also if fatal error occurs. + */ + dsp_wdt_enable(false); +} + +int bridge_deh_get_info(struct deh_mgr *deh_mgr, + struct dsp_errorinfo *pErrInfo) +{ + DBC_REQUIRE(deh_mgr); + DBC_REQUIRE(pErrInfo); + + if (!deh_mgr) + return -EFAULT; + + /* Copy DEH error info structure to PROC error info structure. */ + pErrInfo->dw_err_mask = deh_mgr->err_info.dw_err_mask; + pErrInfo->dw_val1 = deh_mgr->err_info.dw_val1; + pErrInfo->dw_val2 = deh_mgr->err_info.dw_val2; + pErrInfo->dw_val3 = deh_mgr->err_info.dw_val3; + + return 0; +} + +void bridge_deh_release_dummy_mem(void) +{ + free_page((unsigned long)dummy_va_addr); + dummy_va_addr = NULL; +} diff --git a/drivers/staging/tidspbridge/core/wdt.c b/drivers/staging/tidspbridge/core/wdt.c new file mode 100644 index 000000000000..5881fe040d79 --- /dev/null +++ b/drivers/staging/tidspbridge/core/wdt.c @@ -0,0 +1,150 @@ +/* + * wdt.c + * + * DSP-BIOS Bridge driver support functions for TI OMAP processors. + * + * IO dispatcher for a shared memory channel driver. + * + * Copyright (C) 2010 Texas Instruments, Inc. + * + * This package 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. + * + * THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED + * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. + */ + +#include +#include +#include +#include +#include +#include +#include + + +#ifdef CONFIG_BRIDGE_WDT3 + +#define OMAP34XX_WDT3_BASE (L4_PER_34XX_BASE + 0x30000) + +static struct dsp_wdt_setting dsp_wdt; + +void dsp_wdt_dpc(unsigned long data) +{ + struct deh_mgr *deh_mgr; + dev_get_deh_mgr(dev_get_first(), &deh_mgr); + if (deh_mgr) + bridge_deh_notify(deh_mgr, DSP_WDTOVERFLOW, 0); +} + +irqreturn_t dsp_wdt_isr(int irq, void *data) +{ + u32 value; + /* ack wdt3 interrupt */ + value = __raw_readl(dsp_wdt.reg_base + OMAP3_WDT3_ISR_OFFSET); + __raw_writel(value, dsp_wdt.reg_base + OMAP3_WDT3_ISR_OFFSET); + + tasklet_schedule(&dsp_wdt.wdt3_tasklet); + return IRQ_HANDLED; +} + +int dsp_wdt_init(void) +{ + int ret = 0; + + dsp_wdt.sm_wdt = NULL; + dsp_wdt.reg_base = OMAP2_L4_IO_ADDRESS(OMAP34XX_WDT3_BASE); + tasklet_init(&dsp_wdt.wdt3_tasklet, dsp_wdt_dpc, 0); + + dsp_wdt.fclk = clk_get(NULL, "wdt3_fck"); + + if (dsp_wdt.fclk) { + dsp_wdt.iclk = clk_get(NULL, "wdt3_ick"); + if (!dsp_wdt.iclk) { + clk_put(dsp_wdt.fclk); + dsp_wdt.fclk = NULL; + ret = -EFAULT; + } + } else + ret = -EFAULT; + + if (!ret) + ret = request_irq(INT_34XX_WDT3_IRQ, dsp_wdt_isr, 0, + "dsp_wdt", &dsp_wdt); + + /* Disable at this moment, it will be enabled when DSP starts */ + if (!ret) + disable_irq(INT_34XX_WDT3_IRQ); + + return ret; +} + +void dsp_wdt_sm_set(void *data) +{ + dsp_wdt.sm_wdt = data; + dsp_wdt.sm_wdt->wdt_overflow = CONFIG_WDT_TIMEOUT; +} + + +void dsp_wdt_exit(void) +{ + free_irq(INT_34XX_WDT3_IRQ, &dsp_wdt); + tasklet_kill(&dsp_wdt.wdt3_tasklet); + + if (dsp_wdt.fclk) + clk_put(dsp_wdt.fclk); + if (dsp_wdt.iclk) + clk_put(dsp_wdt.iclk); + + dsp_wdt.fclk = NULL; + dsp_wdt.iclk = NULL; + dsp_wdt.sm_wdt = NULL; + dsp_wdt.reg_base = NULL; +} + +void dsp_wdt_enable(bool enable) +{ + u32 tmp; + static bool wdt_enable; + + if (wdt_enable == enable || !dsp_wdt.fclk || !dsp_wdt.iclk) + return; + + wdt_enable = enable; + + if (enable) { + clk_enable(dsp_wdt.fclk); + clk_enable(dsp_wdt.iclk); + dsp_wdt.sm_wdt->wdt_setclocks = 1; + tmp = __raw_readl(dsp_wdt.reg_base + OMAP3_WDT3_ISR_OFFSET); + __raw_writel(tmp, dsp_wdt.reg_base + OMAP3_WDT3_ISR_OFFSET); + enable_irq(INT_34XX_WDT3_IRQ); + } else { + disable_irq(INT_34XX_WDT3_IRQ); + dsp_wdt.sm_wdt->wdt_setclocks = 0; + clk_disable(dsp_wdt.iclk); + clk_disable(dsp_wdt.fclk); + } +} + +#else +void dsp_wdt_enable(bool enable) +{ +} + +void dsp_wdt_sm_set(void *data) +{ +} + +int dsp_wdt_init(void) +{ + return 0; +} + +void dsp_wdt_exit(void) +{ +} +#endif +