//Jim
static u8 tempbuffer[1600];
-static unsigned long gCardIndex;
#define MAX_RCV_LOOP 100
-/****************************************************************
- * ft1000_control_complete
- ****************************************************************/
-static void ft1000_control_complete(struct urb *urb)
-{
- struct ft1000_device *ft1000dev = (struct ft1000_device *)urb->context;
-
- //DEBUG("FT1000_CONTROL_COMPLETE ENTERED\n");
- if (ft1000dev == NULL )
- {
- DEBUG("NULL ft1000dev, failure\n");
- return ;
- }
- else if ( ft1000dev->dev == NULL )
- {
- DEBUG("NULL ft1000dev->dev, failure\n");
- return ;
- }
-
- if(waitqueue_active(&ft1000dev->control_wait))
- {
- wake_up(&ft1000dev->control_wait);
- }
-
- //DEBUG("FT1000_CONTROL_COMPLETE RETURNED\n");
-}
-
//---------------------------------------------------------------------------
// Function: ft1000_control
//
// Notes:
//
//---------------------------------------------------------------------------
-u16 ft1000_write_register(struct ft1000_device *ft1000dev, USHORT value, u16 nRegIndx)
+u16 ft1000_write_register(struct ft1000_device *ft1000dev, u16 value, u16 nRegIndx)
{
u16 ret = STATUS_SUCCESS;
//
//---------------------------------------------------------------------------
-u16 ft1000_read_dpram32(struct ft1000_device *ft1000dev, USHORT indx, PUCHAR buffer, USHORT cnt)
+u16 ft1000_read_dpram32(struct ft1000_device *ft1000dev, u16 indx, u8 *buffer, u16 cnt)
{
u16 ret = STATUS_SUCCESS;
// Notes:
//
//---------------------------------------------------------------------------
-u16 ft1000_write_dpram32(struct ft1000_device *ft1000dev, USHORT indx, PUCHAR buffer, USHORT cnt)
+u16 ft1000_write_dpram32(struct ft1000_device *ft1000dev, u16 indx, u8 *buffer, u16 cnt)
{
u16 ret = STATUS_SUCCESS;
// Notes:
//
//---------------------------------------------------------------------------
-u16 ft1000_read_dpram16(struct ft1000_device *ft1000dev, USHORT indx, PUCHAR buffer, u8 highlow)
+u16 ft1000_read_dpram16(struct ft1000_device *ft1000dev, u16 indx, u8 *buffer, u8 highlow)
{
u16 ret = STATUS_SUCCESS;
// Notes:
//
//---------------------------------------------------------------------------
-u16 ft1000_write_dpram16(struct ft1000_device *ft1000dev, USHORT indx, USHORT value, u8 highlow)
+u16 ft1000_write_dpram16(struct ft1000_device *ft1000dev, u16 indx, u16 value, u8 highlow)
{
u16 ret = STATUS_SUCCESS;
// Notes:
//
//---------------------------------------------------------------------------
-u16 fix_ft1000_read_dpram32(struct ft1000_device *ft1000dev, USHORT indx, PUCHAR buffer)
+u16 fix_ft1000_read_dpram32(struct ft1000_device *ft1000dev, u16 indx, u8 *buffer)
{
- UCHAR buf[16];
- USHORT pos;
+ u8 buf[16];
+ u16 pos;
u16 ret = STATUS_SUCCESS;
//DEBUG("fix_ft1000_read_dpram32: indx: %d \n", indx);
// Notes:
//
//---------------------------------------------------------------------------
-u16 fix_ft1000_write_dpram32(struct ft1000_device *ft1000dev, USHORT indx, PUCHAR buffer)
+u16 fix_ft1000_write_dpram32(struct ft1000_device *ft1000dev, u16 indx, u8 *buffer)
{
- USHORT pos1;
- USHORT pos2;
- USHORT i;
- UCHAR buf[32];
- UCHAR resultbuffer[32];
- PUCHAR pdata;
+ u16 pos1;
+ u16 pos2;
+ u16 i;
+ u8 buf[32];
+ u8 resultbuffer[32];
+ u8 *pdata;
u16 ret = STATUS_SUCCESS;
//DEBUG("fix_ft1000_write_dpram32: Entered:\n");
return ret;
}
- ret = ft1000_read_dpram32(ft1000dev, pos1, (PUCHAR)&resultbuffer[0], 16);
+ ret = ft1000_read_dpram32(ft1000dev, pos1, (u8 *)&resultbuffer[0], 16);
if (ret == STATUS_SUCCESS)
{
buffer = pdata;
if (ret == STATUS_FAILURE)
{
- ret = ft1000_write_dpram32(ft1000dev, pos1, (PUCHAR)&tempbuffer[0], 16);
- ret = ft1000_read_dpram32(ft1000dev, pos1, (PUCHAR)&resultbuffer[0], 16);
+ ret = ft1000_write_dpram32(ft1000dev, pos1, (u8 *)&tempbuffer[0], 16);
+ ret = ft1000_read_dpram32(ft1000dev, pos1, (u8 *)&resultbuffer[0], 16);
if (ret == STATUS_SUCCESS)
{
buffer = pdata;
//
// Returns: None
//-----------------------------------------------------------------------
-static void card_reset_dsp (struct ft1000_device *ft1000dev, BOOLEAN value)
+static void card_reset_dsp (struct ft1000_device *ft1000dev, bool value)
{
u16 status = STATUS_SUCCESS;
- USHORT tempword;
+ u16 tempword;
status = ft1000_write_register (ft1000dev, HOST_INTF_BE, FT1000_REG_SUP_CTRL);
status = ft1000_read_register(ft1000dev, &tempword, FT1000_REG_SUP_CTRL);
int dsp_reload(struct ft1000_device *ft1000dev)
{
u16 status;
- USHORT tempword;
- ULONG templong;
+ u16 tempword;
+ u32 templong;
struct ft1000_info *pft1000info;
status = ft1000_write_register (ft1000dev, HOST_INTF_BE, FT1000_REG_SUP_CTRL);
// Let's check for FEFE
- status = ft1000_read_dpram32 (ft1000dev, FT1000_MAG_DPRAM_FEFE_INDX, (PUCHAR)&templong, 4);
+ status = ft1000_read_dpram32 (ft1000dev, FT1000_MAG_DPRAM_FEFE_INDX, (u8 *)&templong, 4);
DEBUG("templong (fefe) = 0x%8x\n", templong);
// call codeloader
// Initialize DSP heartbeat area to ho
ft1000_write_dpram16(ft1000dev, FT1000_MAG_HI_HO, ho_mag, FT1000_MAG_HI_HO_INDX);
- ft1000_read_dpram16(ft1000dev, FT1000_MAG_HI_HO, (PCHAR)&tempword, FT1000_MAG_HI_HO_INDX);
+ ft1000_read_dpram16(ft1000dev, FT1000_MAG_HI_HO, (u8 *)&tempword, FT1000_MAG_HI_HO_INDX);
DEBUG("ft1000_hw:ft1000_reset_card:hi_ho value = 0x%x\n", tempword);
int i, ret_val;
struct list_head *cur, *tmp;
char card_nr[2];
-
- gCardIndex=0; //mbelian
+ unsigned long gCardIndex = 0;
DEBUG("Enter init_ft1000_netdev...\n");
return -ENOMEM;
}
- pInfo = (struct ft1000_info *) netdev_priv(netdev);
+ pInfo = netdev_priv(netdev);
//DEBUG("init_ft1000_netdev: gFt1000Info=%x, netdev=%x, ft1000dev=%x\n", gFt1000Info, netdev, ft1000dev);
dev_alloc_name(netdev, netdev->name);
- //for the first inserted card, decide the card index beginning number, in case there are existing network interfaces
- if ( gCardIndex == 0 )
- {
DEBUG("init_ft1000_netdev: network device name is %s\n", netdev->name);
if ( strncmp(netdev->name,"eth", 3) == 0) {
ret_val = -ENXIO;
goto err_net;
}
- }
- else
- {
- //not the first inserted card, increase card number by 1
- pInfo->CardNumber = gCardIndex;
- /*DEBUG("card number = %d\n", pInfo->CardNumber);*/ //mbelian
- }
memset(&pInfo->stats, 0, sizeof(struct net_device_stats) );
pInfo->mediastate = 0;
pInfo->fifo_cnt = 0;
pInfo->DeviceCreated = FALSE;
- pInfo->DeviceMajor = 0;
pInfo->CurrentInterruptEnableMask = ISR_DEFAULT_MASK;
pInfo->InterruptsEnabled = FALSE;
pInfo->CardReady = 0;
pInfo->fCondResetPend = 0;
pInfo->usbboot = 0;
pInfo->dspalive = 0;
- for (i=0;i<32 ;i++ )
- {
- pInfo->tempbuf[i] = 0;
- }
+ memset(&pInfo->tempbuf[0], 0, sizeof(pInfo->tempbuf));
INIT_LIST_HEAD(&pInfo->prov_list);
+ INIT_LIST_HEAD(&pInfo->nodes.list);
//mbelian
#ifdef HAVE_NET_DEVICE_OPS
netdev->netdev_ops = &ftnet_ops;
//Create character device, implemented by Jim
- ft1000_CreateDevice(ft1000dev);
+ ft1000_create_dev(ft1000dev);
DEBUG ("reg_ft1000_netdev returned\n");
//DEBUG("Return from ft1000_usb_transmit_complete\n");
}
-
-/****************************************************************
- * ft1000_control
- ****************************************************************/
-static int ft1000_read_fifo_reg(struct ft1000_device *ft1000dev,unsigned int pipe,
- u8 request,
- u8 requesttype,
- u16 value,
- u16 index,
- void *data,
- u16 size,
- int timeout)
-{
- u16 ret;
-
- DECLARE_WAITQUEUE(wait, current);
- struct urb *urb;
- struct usb_ctrlrequest *dr;
- int status;
-
- if (ft1000dev == NULL )
- {
- DEBUG("NULL ft1000dev, failure\n");
- return STATUS_FAILURE;
- }
- else if ( ft1000dev->dev == NULL )
- {
- DEBUG("NULL ft1000dev->dev, failure\n");
- return STATUS_FAILURE;
- }
-
- spin_lock(&ft1000dev->device_lock);
-
- if(in_interrupt())
- {
- spin_unlock(&ft1000dev->device_lock);
- return -EBUSY;
- }
-
- urb = usb_alloc_urb(0, GFP_KERNEL);
- dr = kmalloc(sizeof(struct usb_ctrlrequest), in_interrupt() ? GFP_ATOMIC : GFP_KERNEL);
-
- if(!urb || !dr)
- {
- kfree(dr);
- usb_free_urb(urb);
- spin_unlock(&ft1000dev->device_lock);
- return -ENOMEM;
- }
-
-
-
- dr->bRequestType = requesttype;
- dr->bRequest = request;
- dr->wValue = value;
- dr->wIndex = index;
- dr->wLength = size;
-
- usb_fill_control_urb(urb, ft1000dev->dev, pipe, (char*)dr, (void*)data, size, (void *)ft1000_control_complete, (void*)ft1000dev);
-
-
- init_waitqueue_head(&ft1000dev->control_wait);
-
- set_current_state(TASK_INTERRUPTIBLE);
-
- add_wait_queue(&ft1000dev->control_wait, &wait);
-
-
-
-
- status = usb_submit_urb(urb, GFP_KERNEL);
-
- if(status)
- {
- usb_free_urb(urb);
- kfree(dr);
- remove_wait_queue(&ft1000dev->control_wait, &wait);
- spin_unlock(&ft1000dev->device_lock);
- return status;
- }
-
- if(urb->status == -EINPROGRESS)
- {
- while(timeout && urb->status == -EINPROGRESS)
- {
- status = timeout = schedule_timeout(timeout);
- }
- }
- else
- {
- status = 1;
- }
-
- remove_wait_queue(&ft1000dev->control_wait, &wait);
-
- if(!status)
- {
- usb_unlink_urb(urb);
- printk("ft1000 timeout\n");
- status = -ETIMEDOUT;
- }
- else
- {
- status = urb->status;
-
- if(urb->status)
- {
- printk("ft1000 control message failed (urb addr: %p) with error number: %i\n", urb, (int)status);
-
- usb_clear_halt(ft1000dev->dev, usb_rcvctrlpipe(ft1000dev->dev, 0));
- usb_clear_halt(ft1000dev->dev, usb_sndctrlpipe(ft1000dev->dev, 0));
- usb_unlink_urb(urb);
- }
- }
-
-
-
- usb_free_urb(urb);
- kfree(dr);
- spin_unlock(&ft1000dev->device_lock);
- return ret;
-
-
-}
-
-//---------------------------------------------------------------------------
-// Function: ft1000_read_fifo_len
-//
-// Parameters: ft1000dev - device structure
-//
-//
-// Returns: none
-//
-// Description: read the fifo length register content
-//
-// Notes:
-//
-//---------------------------------------------------------------------------
-static inline u16 ft1000_read_fifo_len (struct net_device *dev)
-{
- u16 temp;
- u16 ret;
-
- struct ft1000_info *info = (struct ft1000_info *) netdev_priv(dev);
- struct ft1000_device *ft1000dev = info->pFt1000Dev;
-// DEBUG("ft1000_read_fifo_len: enter ft1000dev %x\n", ft1000dev); //aelias [-] reason: warning: format ???%x??? expects type ???unsigned int???, but argument 2 has type ???struct ft1000_device *???
- DEBUG("ft1000_read_fifo_len: enter ft1000dev %p\n", ft1000dev); //aelias [+] reason: up
-
- ret = STATUS_SUCCESS;
-
- ret = ft1000_read_fifo_reg(ft1000dev,
- usb_rcvctrlpipe(ft1000dev->dev,0),
- HARLEY_READ_REGISTER,
- HARLEY_READ_OPERATION,
- 0,
- FT1000_REG_MAG_UFSR,
- &temp,
- 2,
- LARGE_TIMEOUT);
-
- if (ret>0)
- ret = STATUS_SUCCESS;
- else
- ret = STATUS_FAILURE;
-
- DEBUG("ft1000_read_fifo_len: returned %d\n", temp);
-
- return (temp- 16);
-
-}
-
-
//---------------------------------------------------------------------------
//
// Function: ft1000_copy_down_pkt
struct ft1000_device *pFt1000Dev = pInfo->pFt1000Dev;
- int i, count, ret;
- USHORT *pTemp;
- USHORT checksum;
+ int count, ret;
u8 *t;
+ struct pseudo_hdr hdr;
if (!pInfo->CardReady)
{
DEBUG("ft1000_copy_down_pkt::Card Not Ready\n");
- return STATUS_FAILURE;
+ return -ENODEV;
}
{
DEBUG("Error:ft1000_copy_down_pkt:Message Size Overflow!\n");
DEBUG("size = %d\n", count);
- return STATUS_FAILURE;
+ return -EINVAL;
}
if ( count % 4)
count = count + (4- (count %4) );
- pTemp = (PUSHORT)&(pFt1000Dev->tx_buf[0]);
- *pTemp ++ = ntohs(count);
- *pTemp ++ = 0x1020;
- *pTemp ++ = 0x2010;
- *pTemp ++ = 0x9100;
- *pTemp ++ = 0;
- *pTemp ++ = 0;
- *pTemp ++ = 0;
- pTemp = (PUSHORT)&(pFt1000Dev->tx_buf[0]);
- checksum = *pTemp ++;
- for (i=1; i<7; i++)
- {
- checksum ^= *pTemp ++;
- }
- *pTemp++ = checksum;
+ memset(&hdr, 0, sizeof(struct pseudo_hdr));
+
+ hdr.length = ntohs(count);
+ hdr.source = 0x10;
+ hdr.destination = 0x20;
+ hdr.portdest = 0x20;
+ hdr.portsrc = 0x10;
+ hdr.sh_str_id = 0x91;
+ hdr.control = 0x00;
+
+ hdr.checksum = hdr.length ^ hdr.source ^ hdr.destination ^
+ hdr.portdest ^ hdr.portsrc ^ hdr.sh_str_id ^
+ hdr.control;
+
+ memcpy(&pFt1000Dev->tx_buf[0], &hdr, sizeof(hdr));
memcpy(&(pFt1000Dev->tx_buf[sizeof(struct pseudo_hdr)]), packet, len);
netif_stop_queue(netdev);
}*/
- ret = usb_submit_urb(pFt1000Dev->tx_urb, GFP_ATOMIC);
- if(ret)
- {
+ ret = usb_submit_urb(pFt1000Dev->tx_urb, GFP_ATOMIC);
+ if (ret) {
DEBUG("ft1000 failed tx_urb %d\n", ret);
-
- return STATUS_FAILURE;
-
- }
- else
- {
- //DEBUG("ft1000 sucess tx_urb %d\n", ret);
-
- pInfo->stats.tx_packets++;
- pInfo->stats.tx_bytes += (len+14);
- }
+ return ret;
+ } else {
+ pInfo->stats.tx_packets++;
+ pInfo->stats.tx_bytes += (len+14);
+ }
//DEBUG("ft1000_copy_down_pkt() exit\n");
- return STATUS_SUCCESS;
+ return 0;
}
//---------------------------------------------------------------------------
if ( skb == NULL )
{
DEBUG ("ft1000_hw: ft1000_start_xmit:skb == NULL!!!\n" );
- return STATUS_FAILURE;
+ return NETDEV_TX_OK;
}
if ( pFt1000Dev->status & FT1000_STATUS_CLOSING)
{
DEBUG("network driver is closed, return\n");
- dev_kfree_skb(skb);
- return STATUS_SUCCESS;
+ goto err;
}
//DEBUG("ft1000_start_xmit 1:length of packet = %d\n", skb->len);
{
/* Drop packet is mediastate is down */
DEBUG("ft1000_hw:ft1000_start_xmit:mediastate is down\n");
- dev_kfree_skb(skb);
- return STATUS_SUCCESS;
+ goto err;
}
if ( (skb->len < ENET_HEADER_SIZE) || (skb->len > ENET_MAX_SIZE) )
{
/* Drop packet which has invalid size */
DEBUG("ft1000_hw:ft1000_start_xmit:invalid ethernet length\n");
- dev_kfree_skb(skb);
- return STATUS_SUCCESS;
+ goto err;
}
//mbelian
- if(ft1000_copy_down_pkt (dev, (pdata+ENET_HEADER_SIZE-2), skb->len - ENET_HEADER_SIZE + 2) == STATUS_FAILURE)
- {
- dev_kfree_skb(skb);
- return STATUS_SUCCESS;
- }
+ ft1000_copy_down_pkt(dev, (pdata+ENET_HEADER_SIZE-2),
+ skb->len - ENET_HEADER_SIZE + 2);
- dev_kfree_skb(skb);
+err:
+ dev_kfree_skb(skb);
//DEBUG(" ft1000_start_xmit() exit\n");
- return 0;
+ return NETDEV_TX_OK;
}
//---------------------------------------------------------------------------
//DEBUG("ft1000_copy_up_pkt: transfer_buffer_length=%d, actual_buffer_len=%d\n",
// urb->transfer_buffer_length, urb->actual_length);
- chksum = (PUSHORT)ft1000dev->rx_buf;
+ chksum = (u16 *)ft1000dev->rx_buf;
tempword = *chksum++;
for (i=1; i<7; i++)
{
DEBUG("network driver is closed, return\n");
//usb_kill_urb(pFt1000Dev->rx_urb); //mbelian
- return STATUS_SUCCESS;
+ return -ENODEV;
}
usb_fill_bulk_urb(pFt1000Dev->rx_urb,
if((result = usb_submit_urb(pFt1000Dev->rx_urb, GFP_ATOMIC)))
{
printk("ft1000_submit_rx_urb: submitting rx_urb %d failed\n", result);
- return STATUS_FAILURE;
+ return result;
}
//DEBUG("ft1000_submit_rx_urb exit: result=%d\n", result);
- return STATUS_SUCCESS;
+ return 0;
}
//---------------------------------------------------------------------------
//---------------------------------------------------------------------------
static int ft1000_open (struct net_device *dev)
{
- struct ft1000_info *pInfo = (struct ft1000_info *)netdev_priv(dev);
+ struct ft1000_info *pInfo = netdev_priv(dev);
struct timeval tv; //mbelian
+ int ret;
DEBUG("ft1000_open is called for card %d\n", pInfo->CardNumber);
//DEBUG("ft1000_open: dev->addr=%x, dev->addr_len=%d\n", dev->addr, dev->addr_len);
netif_carrier_on(dev); //mbelian
- ft1000_submit_rx_urb(pInfo);
- return 0;
+ ret = ft1000_submit_rx_urb(pInfo);
+
+ return ret;
}
//---------------------------------------------------------------------------
//---------------------------------------------------------------------------
int ft1000_close(struct net_device *net)
{
- struct ft1000_info *pInfo = (struct ft1000_info *) netdev_priv(net);
+ struct ft1000_info *pInfo = netdev_priv(net);
struct ft1000_device *ft1000dev = pInfo->pFt1000Dev;
//DEBUG ("ft1000_close: netdev->refcnt=%d\n", net->refcnt);
static struct net_device_stats *ft1000_netdev_stats(struct net_device *dev)
{
- struct ft1000_info *info = (struct ft1000_info *) netdev_priv(dev);
+ struct ft1000_info *info = netdev_priv(dev);
return &(info->stats); //mbelian
}
static int ft1000_chkcard (struct ft1000_device *dev) {
u16 tempword;
u16 status;
- struct ft1000_info *info = (struct ft1000_info *) netdev_priv(dev->net);
+ struct ft1000_info *info = netdev_priv(dev->net);
if (info->fCondResetPend)
{
// = 1 (successful)
//
//---------------------------------------------------------------------------
-static BOOLEAN ft1000_receive_cmd (struct ft1000_device *dev, u16 *pbuffer, int maxsz, u16 *pnxtph) {
+static bool ft1000_receive_cmd (struct ft1000_device *dev, u16 *pbuffer, int maxsz, u16 *pnxtph) {
u16 size, ret;
u16 *ppseudohdr;
int i;
u16 tempword;
- ret = ft1000_read_dpram16(dev, FT1000_MAG_PH_LEN, (PUCHAR)&size, FT1000_MAG_PH_LEN_INDX);
+ ret = ft1000_read_dpram16(dev, FT1000_MAG_PH_LEN, (u8 *)&size, FT1000_MAG_PH_LEN_INDX);
size = ntohs(size) + PSEUDOSZ;
if (size > maxsz) {
DEBUG("FT1000:ft1000_receive_cmd:Invalid command length = %d\n", size);
static int ft1000_dsp_prov(void *arg)
{
struct ft1000_device *dev = (struct ft1000_device *)arg;
- struct ft1000_info *info = (struct ft1000_info *) netdev_priv(dev->net);
+ struct ft1000_info *info = netdev_priv(dev->net);
u16 tempword;
u16 len;
u16 i=0;
struct prov_record *ptr;
struct pseudo_hdr *ppseudo_hdr;
- PUSHORT pmsg;
+ u16 *pmsg;
u16 status;
- USHORT TempShortBuf [256];
+ u16 TempShortBuf [256];
DEBUG("*** DspProv Entered\n");
len = htons(len);
len += PSEUDOSZ;
- pmsg = (PUSHORT)ptr->pprov_data;
+ pmsg = (u16 *)ptr->pprov_data;
ppseudo_hdr = (struct pseudo_hdr *)pmsg;
// Insert slow queue sequence number
ppseudo_hdr->seq_num = info->squeseqnum++;
TempShortBuf[1] = htons (len);
memcpy(&TempShortBuf[2], ppseudo_hdr, len);
- status = ft1000_write_dpram32 (dev, 0, (PUCHAR)&TempShortBuf[0], (unsigned short)(len+2));
+ status = ft1000_write_dpram32 (dev, 0, (u8 *)&TempShortBuf[0], (unsigned short)(len+2));
status = ft1000_write_register (dev, FT1000_DB_DPRAM_TX, FT1000_REG_DOORBELL);
list_del(&ptr->list);
static int ft1000_proc_drvmsg (struct ft1000_device *dev, u16 size) {
- struct ft1000_info *info = (struct ft1000_info *) netdev_priv(dev->net);
+ struct ft1000_info *info = netdev_priv(dev->net);
u16 msgtype;
u16 tempword;
struct media_msg *pmediamsg;
struct drv_msg *pdrvmsg;
u16 i;
struct pseudo_hdr *ppseudo_hdr;
- PUSHORT pmsg;
+ u16 *pmsg;
u16 status;
union {
u8 byte[2];
tempword = ntohs(pdrvmsg->length);
info->DSPInfoBlklen = tempword;
if (tempword < (MAX_DSP_SESS_REC-4) ) {
- pmsg = (PUSHORT)&pdrvmsg->data[0];
+ pmsg = (u16 *)&pdrvmsg->data[0];
for (i=0; i<((tempword+1)/2); i++) {
DEBUG("FT1000:drivermsg:dsp info data = 0x%x\n", *pmsg);
info->DSPInfoBlk[i+10] = *pmsg++;
// Put message into Slow Queue
// Form Pseudo header
- pmsg = (PUSHORT)info->DSPInfoBlk;
+ pmsg = (u16 *)info->DSPInfoBlk;
*pmsg++ = 0;
*pmsg++ = htons(info->DSPInfoBlklen+20+info->DSPInfoBlklen);
- ppseudo_hdr = (struct pseudo_hdr *)(PUSHORT)&info->DSPInfoBlk[2];
+ ppseudo_hdr = (struct pseudo_hdr *)(u16 *)&info->DSPInfoBlk[2];
ppseudo_hdr->length = htons(info->DSPInfoBlklen+4+info->DSPInfoBlklen);
ppseudo_hdr->source = 0x10;
ppseudo_hdr->destination = 0x20;
}
info->DSPInfoBlk[10] = 0x7200;
info->DSPInfoBlk[11] = htons(info->DSPInfoBlklen);
- status = ft1000_write_dpram32 (dev, 0, (PUCHAR)&info->DSPInfoBlk[0], (unsigned short)(info->DSPInfoBlklen+22));
+ status = ft1000_write_dpram32 (dev, 0, (u8 *)&info->DSPInfoBlk[0], (unsigned short)(info->DSPInfoBlklen+22));
status = ft1000_write_register (dev, FT1000_DB_DPRAM_TX, FT1000_REG_DOORBELL);
info->DrvMsgPend = 0;
if ( (tempword & FT1000_DB_DPRAM_TX) == 0) {
// Put message into Slow Queue
// Form Pseudo header
- pmsg = (PUSHORT)&tempbuffer[0];
+ pmsg = (u16 *)&tempbuffer[0];
ppseudo_hdr = (struct pseudo_hdr *)pmsg;
ppseudo_hdr->length = htons(0x0012);
ppseudo_hdr->source = 0x10;
for (i=1; i<7; i++) {
ppseudo_hdr->checksum ^= *pmsg++;
}
- pmsg = (PUSHORT)&tempbuffer[16];
+ pmsg = (u16 *)&tempbuffer[16];
*pmsg++ = htons(RSP_DRV_ERR_RPT_MSG);
*pmsg++ = htons(0x000e);
*pmsg++ = htons(info->DSP_TIME[0]);
*pmsg++ = convert.wrd;
*pmsg++ = htons(info->DrvErrNum);
- CardSendCommand (dev, (unsigned char*)&tempbuffer[0], (USHORT)(0x0012 + PSEUDOSZ));
+ CardSendCommand (dev, (unsigned char*)&tempbuffer[0], (u16)(0x0012 + PSEUDOSZ));
info->DrvErrNum = 0;
}
info->DrvMsgPend = 0;
int ft1000_poll(void* dev_id) {
struct ft1000_device *dev = (struct ft1000_device *)dev_id;
- struct ft1000_info *info = (struct ft1000_info *) netdev_priv(dev->net);
+ struct ft1000_info *info = netdev_priv(dev->net);
u16 tempword;
u16 status;
u16 size;
int i;
- USHORT data;
- USHORT modulo;
- USHORT portid;
+ u16 data;
+ u16 modulo;
+ u16 portid;
u16 nxtph;
struct dpram_blk *pdpram_blk;
struct pseudo_hdr *ppseudo_hdr;
if (tempword & FT1000_DB_DPRAM_RX) {
//DEBUG("ft1000_poll: FT1000_REG_DOORBELL message type: FT1000_DB_DPRAM_RX\n");
- status = ft1000_read_dpram16(dev, 0x200, (PUCHAR)&data, 0);
+ status = ft1000_read_dpram16(dev, 0x200, (u8 *)&data, 0);
//DEBUG("ft1000_poll:FT1000_DB_DPRAM_RX:ft1000_read_dpram16:size = 0x%x\n", data);
size = ntohs(data) + 16 + 2; //wai
if (size % 4) {
modulo = 4 - (size % 4);
size = size + modulo;
}
- status = ft1000_read_dpram16(dev, 0x201, (PUCHAR)&portid, 1);
+ status = ft1000_read_dpram16(dev, 0x201, (u8 *)&portid, 1);
portid &= 0xff;
//DEBUG("ft1000_poll: FT1000_REG_DOORBELL message type: FT1000_DB_DPRAM_RX : portid 0x%x\n", portid);
status = ft1000_write_register (dev, FT1000_ASIC_RESET_REQ, FT1000_REG_DOORBELL);
status = ft1000_write_register (dev, HOST_INTF_BE, FT1000_REG_SUP_CTRL);
// copy dsp session record from Adapter block
- status = ft1000_write_dpram32 (dev, 0, (PUCHAR)&info->DSPSess.Rec[0], 1024);
+ status = ft1000_write_dpram32 (dev, 0, (u8 *)&info->DSPSess.Rec[0], 1024);
// Program WMARK register
status = ft1000_write_register (dev, 0x600, FT1000_REG_MAG_WATERMARK);
// ring doorbell to tell DSP that ASIC is out of reset
if (info->fAppMsgPend == 0) {
// Reset ASIC and DSP
- status = ft1000_read_dpram16(dev, FT1000_MAG_DSP_TIMER0, (PUCHAR)&(info->DSP_TIME[0]), FT1000_MAG_DSP_TIMER0_INDX);
- status = ft1000_read_dpram16(dev, FT1000_MAG_DSP_TIMER1, (PUCHAR)&(info->DSP_TIME[1]), FT1000_MAG_DSP_TIMER1_INDX);
- status = ft1000_read_dpram16(dev, FT1000_MAG_DSP_TIMER2, (PUCHAR)&(info->DSP_TIME[2]), FT1000_MAG_DSP_TIMER2_INDX);
- status = ft1000_read_dpram16(dev, FT1000_MAG_DSP_TIMER3, (PUCHAR)&(info->DSP_TIME[3]), FT1000_MAG_DSP_TIMER3_INDX);
+ status = ft1000_read_dpram16(dev, FT1000_MAG_DSP_TIMER0, (u8 *)&(info->DSP_TIME[0]), FT1000_MAG_DSP_TIMER0_INDX);
+ status = ft1000_read_dpram16(dev, FT1000_MAG_DSP_TIMER1, (u8 *)&(info->DSP_TIME[1]), FT1000_MAG_DSP_TIMER1_INDX);
+ status = ft1000_read_dpram16(dev, FT1000_MAG_DSP_TIMER2, (u8 *)&(info->DSP_TIME[2]), FT1000_MAG_DSP_TIMER2_INDX);
+ status = ft1000_read_dpram16(dev, FT1000_MAG_DSP_TIMER3, (u8 *)&(info->DSP_TIME[3]), FT1000_MAG_DSP_TIMER3_INDX);
info->CardReady = 0;
info->DrvErrNum = DSP_CONDRESET_INFO;
DEBUG("ft1000_hw:DSP conditional reset requested\n");