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All Rights Reserved.
*
*
* This file is part of Express Card USB Driver
*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/netdevice.h>
#include <linux/etherdevice.h>
#include <linux/usb.h>
#include "ft1000_usb.h"
#include <linux/types.h>
#define HARLEY_READ_REGISTER 0x0
#define HARLEY_WRITE_REGISTER 0x01
#define HARLEY_READ_DPRAM_32 0x02
#define HARLEY_READ_DPRAM_LOW 0x03
#define HARLEY_READ_DPRAM_HIGH 0x04
#define HARLEY_WRITE_DPRAM_32 0x05
#define HARLEY_WRITE_DPRAM_LOW 0x06
#define HARLEY_WRITE_DPRAM_HIGH 0x07
#define HARLEY_READ_OPERATION 0xc1
#define HARLEY_WRITE_OPERATION 0x41
#if 0
#define JDEBUG
#endif
static int ft1000_submit_rx_urb(struct ft1000_info *info);
static u8 tempbuffer[1600];
#define MAX_RCV_LOOP 100
/* send a control message via USB interface synchronously
* Parameters: ft1000_usb - device structure
* pipe - usb control message pipe
* request - control request
* requesttype - control message request type
* value - value to be written or 0
* index - register index
* data - data buffer to hold the read/write values
* size - data size
* timeout - control message time out value
*/
static int ft1000_control(struct ft1000_usb *ft1000dev, unsigned int pipe,
u8 request, u8 requesttype, u16 value, u16 index,
void *data, u16 size, int timeout)
{
int ret;
if ((ft1000dev == NULL) || (ft1000dev->dev == NULL)) {
DEBUG("ft1000dev or ft1000dev->dev == NULL, failure\n");
return -ENODEV;
}
ret = usb_control_msg(ft1000dev->dev, pipe, request, requesttype,
value, index, data, size, timeout);
if (ret > 0)
ret = 0;
return ret;
}
/* returns the value in a register */
int ft1000_read_register(struct ft1000_usb *ft1000dev, u16 *Data,
u16 nRegIndx)
{
int ret = 0;
ret = ft1000_control(ft1000dev,
usb_rcvctrlpipe(ft1000dev->dev, 0),
HARLEY_READ_REGISTER,
HARLEY_READ_OPERATION,
0,
nRegIndx,
Data,
2,
USB_CTRL_GET_TIMEOUT);
return ret;
}
/* writes the value in a register */
int ft1000_write_register(struct ft1000_usb *ft1000dev, u16 value,
u16 nRegIndx)
{
int ret = 0;
ret = ft1000_control(ft1000dev,
usb_sndctrlpipe(ft1000dev->dev, 0),
HARLEY_WRITE_REGISTER,
HARLEY_WRITE_OPERATION,
value,
nRegIndx,
NULL,
0,
USB_CTRL_SET_TIMEOUT);
return ret;
}
/* read a number of bytes from DPRAM */
int ft1000_read_dpram32(struct ft1000_usb *ft1000dev, u16 indx, u8 *buffer,
u16 cnt)
{
int ret = 0;
ret = ft1000_control(ft1000dev,
usb_rcvctrlpipe(ft1000dev->dev, 0),
HARLEY_READ_DPRAM_32,
HARLEY_READ_OPERATION,
0,
indx,
buffer,
cnt,
USB_CTRL_GET_TIMEOUT);
return ret;
}
/* writes into DPRAM a number of bytes */
int ft1000_write_dpram32(struct ft1000_usb *ft1000dev, u16 indx, u8 *buffer,
u16 cnt)
{
int ret = 0;
if (cnt % 4)
cnt += cnt - (cnt % 4);
ret = ft1000_control(ft1000dev,
usb_sndctrlpipe(ft1000dev->dev, 0),
HARLEY_WRITE_DPRAM_32,
HARLEY_WRITE_OPERATION,
0,
indx,
buffer,
cnt,
USB_CTRL_SET_TIMEOUT);
return ret;
}
/* read 16 bits from DPRAM */
int ft1000_read_dpram16(struct ft1000_usb *ft1000dev, u16 indx, u8 *buffer,
u8 highlow)
{
int ret = 0;
u8 request;
if (highlow == 0)
request = HARLEY_READ_DPRAM_LOW;
else
request = HARLEY_READ_DPRAM_HIGH;
ret = ft1000_control(ft1000dev,
usb_rcvctrlpipe(ft1000dev->dev, 0),
request,
HARLEY_READ_OPERATION,
0,
indx,
buffer,
2,
USB_CTRL_GET_TIMEOUT);
return ret;
}
/* write into DPRAM a number of bytes */
int ft1000_write_dpram16(struct ft1000_usb *ft1000dev, u16 indx, u16 value,
u8 highlow)
{
int ret = 0;
u8 request;
if (highlow == 0)
request = HARLEY_WRITE_DPRAM_LOW;
else
request = HARLEY_WRITE_DPRAM_HIGH;
ret = ft1000_control(ft1000dev,
usb_sndctrlpipe(ft1000dev->dev, 0),
request,
HARLEY_WRITE_OPERATION,
value,
indx,
NULL,
0,
USB_CTRL_SET_TIMEOUT);
return ret;
}
/* read DPRAM 4 words at a time */
int fix_ft1000_read_dpram32(struct ft1000_usb *ft1000dev, u16 indx,
u8 *buffer)
{
u8 buf[16];
u16 pos;
int ret = 0;
pos = (indx / 4) * 4;
ret = ft1000_read_dpram32(ft1000dev, pos, buf, 16);
if (ret == 0) {
pos = (indx % 4) * 4;
*buffer++ = buf[pos++];
*buffer++ = buf[pos++];
*buffer++ = buf[pos++];
*buffer++ = buf[pos++];
} else {
DEBUG("fix_ft1000_read_dpram32: DPRAM32 Read failed\n");
*buffer++ = 0;
*buffer++ = 0;
*buffer++ = 0;
*buffer++ = 0;
}
return ret;
}
/* Description: This function write to DPRAM 4 words at a time */
int fix_ft1000_write_dpram32(struct ft1000_usb *ft1000dev, u16 indx, u8 *buffer)
{
u16 pos1;
u16 pos2;
u16 i;
u8 buf[32];
u8 resultbuffer[32];
u8 *pdata;
int ret = 0;
pos1 = (indx / 4) * 4;
pdata = buffer;
ret = ft1000_read_dpram32(ft1000dev, pos1, buf, 16);
if (ret == 0) {
pos2 = (indx % 4)*4;
buf[pos2++] = *buffer++;
buf[pos2++] = *buffer++;
buf[pos2++] = *buffer++;
buf[pos2++] = *buffer++;
ret = ft1000_write_dpram32(ft1000dev, pos1, buf, 16);
} else {
DEBUG("fix_ft1000_write_dpram32: DPRAM32 Read failed\n");
return ret;
}
ret = ft1000_read_dpram32(ft1000dev, pos1, (u8 *)&resultbuffer[0], 16);
if (ret == 0) {
buffer = pdata;
for (i = 0; i < 16; i++) {
if (buf[i] != resultbuffer[i])
ret = -1;
}
}
if (ret == -1) {
ret = ft1000_write_dpram32(ft1000dev, pos1,
(u8 *)&tempbuffer[0], 16);
ret = ft1000_read_dpram32(ft1000dev, pos1,
(u8 *)&resultbuffer[0], 16);
if (ret == 0) {
buffer = pdata;
for (i = 0; i < 16; i++) {
if (tempbuffer[i] != resultbuffer[i]) {
ret = -1;
DEBUG("%s Failed to write\n",
__func__);
}
}
}
}
return ret;
}
/* reset or activate the DSP */
static void card_reset_dsp(struct ft1000_usb *ft1000dev, bool value)
{
int status = 0;
u16 tempword;
status = ft1000_write_register(ft1000dev, HOST_INTF_BE,
FT1000_REG_SUP_CTRL);
status = ft1000_read_register(ft1000dev, &tempword,
FT1000_REG_SUP_CTRL);
if (value) {
DEBUG("Reset DSP\n");
status = ft1000_read_register(ft1000dev, &tempword,
FT1000_REG_RESET);
tempword |= DSP_RESET_BIT;
status = ft1000_write_register(ft1000dev, tempword,
FT1000_REG_RESET);
} else {
DEBUG("Activate DSP\n");
status = ft1000_read_register(ft1000dev, &tempword,
FT1000_REG_RESET);
tempword |= DSP_ENCRYPTED;
tempword &= ~DSP_UNENCRYPTED;
status = ft1000_write_register(ft1000dev, tempword,
FT1000_REG_RESET);
status = ft1000_read_register(ft1000dev, &tempword,
FT1000_REG_RESET);
tempword &= ~EFUSE_MEM_DISABLE;
tempword &= ~DSP_RESET_BIT;
status = ft1000_write_register(ft1000dev, tempword,
FT1000_REG_RESET);
status = ft1000_read_register(ft1000dev, &tempword,
FT1000_REG_RESET);
}
}
/* send a command to ASIC
* Parameters: ft1000_usb - device structure
* ptempbuffer - command buffer
* size - command buffer size
*/
void card_send_command(struct ft1000_usb *ft1000dev, void *ptempbuffer,
int size)
{
unsigned short temp;
unsigned char *commandbuf;
DEBUG("card_send_command: enter card_send_command... size=%d\n", size);
commandbuf = kmalloc(size + 2, GFP_KERNEL);
memcpy((void *)commandbuf + 2, (void *)ptempbuffer, size);
ft1000_read_register(ft1000dev, &temp, FT1000_REG_DOORBELL);
if (temp & 0x0100)
usleep_range(900, 1100);
/* check for odd word */
size = size + 2;
/* Must force to be 32 bit aligned */
if (size % 4)
size += 4 - (size % 4);
ft1000_write_dpram32(ft1000dev, 0, commandbuf, size);
usleep_range(900, 1100);
ft1000_write_register(ft1000dev, FT1000_DB_DPRAM_TX,
FT1000_REG_DOORBELL);
usleep_range(900, 1100);
ft1000_read_register(ft1000dev, &temp, FT1000_REG_DOORBELL);
#if 0
if ((temp & 0x0100) == 0)
DEBUG("card_send_command: Message sent\n");
#endif
}
/* load or reload the DSP */
int dsp_reload(struct ft1000_usb *ft1000dev)
{
int status;
u16 tempword;
u32 templong;
struct ft1000_info *pft1000info;
pft1000info = netdev_priv(ft1000dev->net);
pft1000info->CardReady = 0;
/* Program Interrupt Mask register */
status = ft1000_write_register(ft1000dev, 0xffff, FT1000_REG_SUP_IMASK);
status = ft1000_read_register(ft1000dev, &tempword, FT1000_REG_RESET);
tempword |= ASIC_RESET_BIT;
status = ft1000_write_register(ft1000dev, tempword, FT1000_REG_RESET);
msleep(1000);
status = ft1000_read_register(ft1000dev, &tempword, FT1000_REG_RESET);
DEBUG("Reset Register = 0x%x\n", tempword);
/* Toggle DSP reset */
card_reset_dsp(ft1000dev, 1);
msleep(1000);
card_reset_dsp(ft1000dev, 0);
msleep(1000);
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,
(u8 *) &templong, 4);
DEBUG("templong (fefe) = 0x%8x\n", templong);
/* call codeloader */
status = scram_dnldr(ft1000dev, pFileStart, FileLength);
if (status != 0)
return -EIO;
msleep(1000);
DEBUG("dsp_reload returned\n");
return 0;
}
/* call the Card Service function to reset the ASIC. */
static void ft1000_reset_asic(struct net_device *dev)
{
struct ft1000_info *info = netdev_priv(dev);
struct ft1000_usb *ft1000dev = info->priv;
u16 tempword;
DEBUG("ft1000_hw:ft1000_reset_asic called\n");
/* Let's use the register provided by the Magnemite ASIC to reset the
* ASIC and DSP.
*/
ft1000_write_register(ft1000dev, (DSP_RESET_BIT | ASIC_RESET_BIT),
FT1000_REG_RESET);
mdelay(1);
/* set watermark to -1 in order to not generate an interrupt */
ft1000_write_register(ft1000dev, 0xffff, FT1000_REG_MAG_WATERMARK);
/* clear interrupts */
ft1000_read_register(ft1000dev, &tempword, FT1000_REG_SUP_ISR);
DEBUG("ft1000_hw: interrupt status register = 0x%x\n", tempword);
ft1000_write_register(ft1000dev, tempword, FT1000_REG_SUP_ISR);
ft1000_read_register(ft1000dev, &tempword, FT1000_REG_SUP_ISR);
DEBUG("ft1000_hw: interrupt status register = 0x%x\n", tempword);
}
static int ft1000_reset_card(struct net_device *dev)
{
struct ft1000_info *info = netdev_priv(dev);
struct ft1000_usb *ft1000dev = info->priv;
u16 tempword;
struct prov_record *ptr;
DEBUG("ft1000_hw:ft1000_reset_card called.....\n");
ft1000dev->fCondResetPend = true;
info->CardReady = 0;
ft1000dev->fProvComplete = false;
/* Make sure we free any memory reserve for provisioning */
while (list_empty(&info->prov_list) == 0) {
DEBUG("ft1000_reset_card:deleting provisioning record\n");
ptr =
list_entry(info->prov_list.next, struct prov_record, list);
list_del(&ptr->list);
kfree(ptr->pprov_data);
kfree(ptr);
}
DEBUG("ft1000_hw:ft1000_reset_card: reset asic\n");
ft1000_reset_asic(dev);
DEBUG("ft1000_hw:ft1000_reset_card: call dsp_reload\n");
dsp_reload(ft1000dev);
DEBUG("dsp reload successful\n");
mdelay(10);
/* Initialize DSP heartbeat area */
ft1000_write_dpram16(ft1000dev, FT1000_MAG_HI_HO, ho_mag,
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);
info->CardReady = 1;
ft1000dev->fCondResetPend = false;
return TRUE;
}
/* callback function when a urb is transmitted */
static void ft1000_usb_transmit_complete(struct urb *urb)
{
struct ft1000_usb *ft1000dev = urb->context;
if (urb->status)
pr_err("%s: TX status %d\n", ft1000dev->net->name, urb->status);
netif_wake_queue(ft1000dev->net);
}
/* take an ethernet packet and convert it to a Flarion
* packet prior to sending it to the ASIC Downlink FIFO.
*/
static int ft1000_copy_down_pkt(struct net_device *netdev, u8 *packet, u16 len)
{
struct ft1000_info *pInfo = netdev_priv(netdev);
struct ft1000_usb *pFt1000Dev = pInfo->priv;
int count, ret;
u8 *t;
struct pseudo_hdr hdr;
if (!pInfo->CardReady) {
DEBUG("ft1000_copy_down_pkt::Card Not Ready\n");
return -ENODEV;
}
count = sizeof(struct pseudo_hdr) + len;
if (count > MAX_BUF_SIZE) {
DEBUG("Error:ft1000_copy_down_pkt:Message Size Overflow!\n");
DEBUG("size = %d\n", count);
return -EINVAL;
}
if (count % 4)
count = count + (4 - (count % 4));
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);
usb_fill_bulk_urb(pFt1000Dev->tx_urb,
pFt1000Dev->dev,
usb_sndbulkpipe(pFt1000Dev->dev,
pFt1000Dev->bulk_out_endpointAddr),
pFt1000Dev->tx_buf, count,
ft1000_usb_transmit_complete, (void *)pFt1000Dev);
t = (u8 *) pFt1000Dev->tx_urb->transfer_buffer;
ret = usb_submit_urb(pFt1000Dev->tx_urb, GFP_ATOMIC);
if (ret) {
DEBUG("ft1000 failed tx_urb %d\n", ret);
return ret;
} else {
pInfo->stats.tx_packets++;
pInfo->stats.tx_bytes += (len + 14);
}
return 0;
}
/* transmit an ethernet packet
* Parameters: skb - socket buffer to be sent
* dev - network device
*/
static int ft1000_start_xmit(struct sk_buff *skb, struct net_device *dev)
{
struct ft1000_info *pInfo = netdev_priv(dev);
struct ft1000_usb *pFt1000Dev = pInfo->priv;
u8 *pdata;
int maxlen, pipe;
if (skb == NULL) {
DEBUG("ft1000_hw: ft1000_start_xmit:skb == NULL!!!\n");
return NETDEV_TX_OK;
}
if (pFt1000Dev->status & FT1000_STATUS_CLOSING) {
DEBUG("network driver is closed, return\n");
goto err;
}
pipe =
usb_sndbulkpipe(pFt1000Dev->dev, pFt1000Dev->bulk_out_endpointAddr);
maxlen = usb_maxpacket(pFt1000Dev->dev, pipe, usb_pipeout(pipe));
pdata = (u8 *) skb->data;
if (pInfo->mediastate == 0) {
/* Drop packet is mediastate is down */
DEBUG("ft1000_hw:ft1000_start_xmit:mediastate is down\n");
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");
goto err;
}
ft1000_copy_down_pkt(dev, (pdata + ENET_HEADER_SIZE - 2),
skb->len - ENET_HEADER_SIZE + 2);
err:
dev_kfree_skb(skb);
return NETDEV_TX_OK;
}
/* open the network driver */
static int ft1000_open(struct net_device *dev)
{
struct ft1000_info *pInfo = netdev_priv(dev);
struct ft1000_usb *pFt1000Dev = pInfo->priv;
struct timeval tv;
DEBUG("ft1000_open is called for card %d\n", pFt1000Dev->CardNumber);
pInfo->stats.rx_bytes = 0;
pInfo->stats.tx_bytes = 0;
pInfo->stats.rx_packets = 0;
pInfo->stats.tx_packets = 0;
do_gettimeofday(&tv);
pInfo->ConTm = tv.tv_sec;
pInfo->ProgConStat = 0;
netif_start_queue(dev);
netif_carrier_on(dev);
return ft1000_submit_rx_urb(pInfo);
}
static struct net_device_stats *ft1000_netdev_stats(struct net_device *dev)
{
struct ft1000_info *info = netdev_priv(dev);
return &(info->stats);
}
static const struct net_device_ops ftnet_ops = {
.ndo_open = &ft1000_open,
.ndo_stop = &ft1000_close,
.ndo_start_xmit = &ft1000_start_xmit,
.ndo_get_stats = &ft1000_netdev_stats,
};
/* initialize the network device */
static int ft1000_reset(void *dev)
{
ft1000_reset_card(dev);
return 0;
}
int init_ft1000_netdev(struct ft1000_usb *ft1000dev)
{
struct net_device *netdev;
struct ft1000_info *pInfo = NULL;
struct dpram_blk *pdpram_blk;
int i, ret_val;
struct list_head *cur, *tmp;
char card_nr[2];
u8 gCardIndex = 0;
DEBUG("Enter init_ft1000_netdev...\n");
netdev = alloc_etherdev(sizeof(struct ft1000_info));
if (!netdev) {
DEBUG("init_ft1000_netdev: can not allocate network device\n");
return -ENOMEM;
}
pInfo = netdev_priv(netdev);
memset(pInfo, 0, sizeof(struct ft1000_info));
dev_alloc_name(netdev, netdev->name);
DEBUG("init_ft1000_netdev: network device name is %s\n", netdev->name);
if (strncmp(netdev->name, "eth", 3) == 0) {
card_nr[0] = netdev->name[3];
card_nr[1] = '\0';
ret_val = kstrtou8(card_nr, 10, &gCardIndex);
if (ret_val) {
netdev_err(ft1000dev->net, "Can't parse netdev\n");
goto err_net;
}
ft1000dev->CardNumber = gCardIndex;
DEBUG("card number = %d\n", ft1000dev->CardNumber);
} else {
netdev_err(ft1000dev->net, "ft1000: Invalid device name\n");
ret_val = -ENXIO;
goto err_net;
}
memset(&pInfo->stats, 0, sizeof(struct net_device_stats));
spin_lock_init(&pInfo->dpram_lock);
pInfo->priv = ft1000dev;
pInfo->DrvErrNum = 0;
pInfo->registered = 1;
pInfo->ft1000_reset = ft1000_reset;
pInfo->mediastate = 0;
pInfo->fifo_cnt = 0;
ft1000dev->DeviceCreated = FALSE;
pInfo->CardReady = 0;
pInfo->DSP_TIME[0] = 0;
pInfo->DSP_TIME[1] = 0;
pInfo->DSP_TIME[2] = 0;
pInfo->DSP_TIME[3] = 0;
ft1000dev->fAppMsgPend = false;
ft1000dev->fCondResetPend = false;
ft1000dev->usbboot = 0;
ft1000dev->dspalive = 0;
memset(&ft1000dev->tempbuf[0], 0, sizeof(ft1000dev->tempbuf));
INIT_LIST_HEAD(&pInfo->prov_list);
INIT_LIST_HEAD(&ft1000dev->nodes.list);
netdev->netdev_ops = &ftnet_ops;
ft1000dev->net = netdev;
DEBUG("Initialize free_buff_lock and freercvpool\n");
spin_lock_init(&free_buff_lock);
/* initialize a list of buffers to be use for queuing
* up receive command data
*/
INIT_LIST_HEAD(&freercvpool);
/* create list of free buffers */
for (i = 0; i < NUM_OF_FREE_BUFFERS; i++) {
/* Get memory for DPRAM_DATA link list */
pdpram_blk = kmalloc(sizeof(struct dpram_blk), GFP_KERNEL);
if (pdpram_blk == NULL) {
ret_val = -ENOMEM;
goto err_free;
}
/* Get a block of memory to store command data */
pdpram_blk->pbuffer = kmalloc(MAX_CMD_SQSIZE, GFP_KERNEL);
if (pdpram_blk->pbuffer == NULL) {
ret_val = -ENOMEM;
kfree(pdpram_blk);
goto err_free;
}
/* link provisioning data */
list_add_tail(&pdpram_blk->list, &freercvpool);
}
numofmsgbuf = NUM_OF_FREE_BUFFERS;
return 0;
err_free:
list_for_each_safe(cur, tmp, &freercvpool) {
pdpram_blk = list_entry(cur, struct dpram_blk, list);
list_del(&pdpram_blk->list);
kfree(pdpram_blk->pbuffer);
kfree(pdpram_blk);
}
err_net:
free_netdev(netdev);
return ret_val;
}
/* register the network driver */
int reg_ft1000_netdev(struct ft1000_usb *ft1000dev,
struct usb_interface *intf)
{
struct net_device *netdev;
struct ft1000_info *pInfo;
int rc;
netdev = ft1000dev->net;
pInfo = netdev_priv(ft1000dev->net);
DEBUG("Enter reg_ft1000_netdev...\n");
ft1000_read_register(ft1000dev, &pInfo->AsicID, FT1000_REG_ASIC_ID);
usb_set_intfdata(intf, pInfo);
SET_NETDEV_DEV(netdev, &intf->dev);
rc = register_netdev(netdev);
if (rc) {
DEBUG("reg_ft1000_netdev: could not register network device\n");
free_netdev(netdev);
return rc;
}
ft1000_create_dev(ft1000dev);
DEBUG("reg_ft1000_netdev returned\n");
pInfo->CardReady = 1;
return 0;
}
/* take a packet from the FIFO up link and
* convert it into an ethernet packet and deliver it to the IP stack
*/
static int ft1000_copy_up_pkt(struct urb *urb)
{
struct ft1000_info *info = urb->context;
struct ft1000_usb *ft1000dev = info->priv;
struct net_device *net = ft1000dev->net;
u16 tempword;
u16 len;
u16 lena;
struct sk_buff *skb;
u16 i;
u8 *pbuffer = NULL;
u8 *ptemp = NULL;
u16 *chksum;
if (ft1000dev->status & FT1000_STATUS_CLOSING) {
DEBUG("network driver is closed, return\n");
return 0;
}
/* Read length */
len = urb->transfer_buffer_length;
lena = urb->actual_length;
chksum = (u16 *) ft1000dev->rx_buf;
tempword = *chksum++;
for (i = 1; i < 7; i++)
tempword ^= *chksum++;
if (tempword != *chksum) {
info->stats.rx_errors++;
ft1000_submit_rx_urb(info);
return -1;
}
skb = dev_alloc_skb(len + 12 + 2);
if (skb == NULL) {
DEBUG("ft1000_copy_up_pkt: No Network buffers available\n");
info->stats.rx_errors++;
ft1000_submit_rx_urb(info);
return -1;
}
pbuffer = (u8 *) skb_put(skb, len + 12);
/* subtract the number of bytes read already */
ptemp = pbuffer;
/* fake MAC address */
*pbuffer++ = net->dev_addr[0];
*pbuffer++ = net->dev_addr[1];
*pbuffer++ = net->dev_addr[2];
*pbuffer++ = net->dev_addr[3];
*pbuffer++ = net->dev_addr[4];
*pbuffer++ = net->dev_addr[5];
*pbuffer++ = 0x00;
*pbuffer++ = 0x07;
*pbuffer++ = 0x35;
*pbuffer++ = 0xff;
*pbuffer++ = 0xff;
*pbuffer++ = 0xfe;
memcpy(pbuffer, ft1000dev->rx_buf + sizeof(struct pseudo_hdr),
len - sizeof(struct pseudo_hdr));
skb->dev = net;
skb->protocol = eth_type_trans(skb, net);
skb->ip_summed = CHECKSUM_UNNECESSARY;
netif_rx(skb);
info->stats.rx_packets++;
/* Add on 12 bytes for MAC address which was removed */
info->stats.rx_bytes += (lena + 12);
ft1000_submit_rx_urb(info);
return 0;
}
/* the receiving function of the network driver */
static int ft1000_submit_rx_urb(struct ft1000_info *info)
{
int result;
struct ft1000_usb *pFt1000Dev = info->priv;
if (pFt1000Dev->status & FT1000_STATUS_CLOSING) {
DEBUG("network driver is closed, return\n");
return -ENODEV;
}
usb_fill_bulk_urb(pFt1000Dev->rx_urb,
pFt1000Dev->dev,
usb_rcvbulkpipe(pFt1000Dev->dev,
pFt1000Dev->bulk_in_endpointAddr),
pFt1000Dev->rx_buf, MAX_BUF_SIZE,
(usb_complete_t) ft1000_copy_up_pkt, info);
result = usb_submit_urb(pFt1000Dev->rx_urb, GFP_ATOMIC);
if (result) {
pr_err("ft1000_submit_rx_urb: submitting rx_urb %d failed\n",
result);
return result;
}
return 0;
}
/* close the network driver */
int ft1000_close(struct net_device *net)
{
struct ft1000_info *pInfo = netdev_priv(net);
struct ft1000_usb *ft1000dev = pInfo->priv;
ft1000dev->status |= FT1000_STATUS_CLOSING;
DEBUG("ft1000_close: pInfo=%p, ft1000dev=%p\n", pInfo, ft1000dev);
netif_carrier_off(net);
netif_stop_queue(net);
ft1000dev->status &= ~FT1000_STATUS_CLOSING;
pInfo->ProgConStat = 0xff;
return 0;
}
/* check if the device is presently available on the system. */
static int ft1000_chkcard(struct ft1000_usb *dev)
{
u16 tempword;
int status;
if (dev->fCondResetPend) {
DEBUG("ft1000_hw:ft1000_chkcard:Card is being reset, return FALSE\n");
return TRUE;
}
/* Mask register is used to check for device presence since it is never
* set to zero.
*/
status = ft1000_read_register(dev, &tempword, FT1000_REG_SUP_IMASK);
if (tempword == 0) {
DEBUG("ft1000_hw:ft1000_chkcard: IMASK = 0 Card not detected\n");
return FALSE;
}
/* The system will return the value of 0xffff for the version register
* if the device is not present.
*/
status = ft1000_read_register(dev, &tempword, FT1000_REG_ASIC_ID);
if (tempword != 0x1b01) {
dev->status |= FT1000_STATUS_CLOSING;
DEBUG("ft1000_hw:ft1000_chkcard: Version = 0xffff Card not detected\n");
return FALSE;
}
return TRUE;
}
/* read a message from the dpram area.
* Input:
* dev - network device structure
* pbuffer - caller supply address to buffer
*/
static bool ft1000_receive_cmd(struct ft1000_usb *dev, u16 *pbuffer,
int maxsz)
{
u16 size;
int ret;
u16 *ppseudohdr;
int i;
u16 tempword;
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);
return FALSE;
} else {
ppseudohdr = (u16 *) pbuffer;
ft1000_write_register(dev, FT1000_DPRAM_MAG_RX_BASE,
FT1000_REG_DPRAM_ADDR);
ret =
ft1000_read_register(dev, pbuffer, FT1000_REG_MAG_DPDATAH);
pbuffer++;
ft1000_write_register(dev, FT1000_DPRAM_MAG_RX_BASE + 1,
FT1000_REG_DPRAM_ADDR);
for (i = 0; i <= (size >> 2); i++) {
ret =
ft1000_read_register(dev, pbuffer,
FT1000_REG_MAG_DPDATAL);
pbuffer++;
ret =
ft1000_read_register(dev, pbuffer,
FT1000_REG_MAG_DPDATAH);
pbuffer++;
}
/* copy odd aligned word */
ret =
ft1000_read_register(dev, pbuffer, FT1000_REG_MAG_DPDATAL);
pbuffer++;
ret =
ft1000_read_register(dev, pbuffer, FT1000_REG_MAG_DPDATAH);
pbuffer++;
if (size & 0x0001) {
/* copy odd byte from fifo */
ret =
ft1000_read_register(dev, &tempword,
FT1000_REG_DPRAM_DATA);
*pbuffer = ntohs(tempword);
}
/* Check if pseudo header checksum is good
* Calculate pseudo header checksum
*/
tempword = *ppseudohdr++;
for (i = 1; i < 7; i++)
tempword ^= *ppseudohdr++;
if ((tempword != *ppseudohdr))
return FALSE;
return TRUE;
}
}
static int ft1000_dsp_prov(void *arg)
{
struct ft1000_usb *dev = (struct ft1000_usb *)arg;
struct ft1000_info *info = netdev_priv(dev->net);
u16 tempword;
u16 len;
u16 i = 0;
struct prov_record *ptr;
struct pseudo_hdr *ppseudo_hdr;
u16 *pmsg;
int status;
u16 TempShortBuf[256];
DEBUG("*** DspProv Entered\n");
while (list_empty(&info->prov_list) == 0) {
DEBUG("DSP Provisioning List Entry\n");
/* Check if doorbell is available */
DEBUG("check if doorbell is cleared\n");
status =
ft1000_read_register(dev, &tempword, FT1000_REG_DOORBELL);
if (status) {
DEBUG("ft1000_dsp_prov::ft1000_read_register error\n");
break;
}
while (tempword & FT1000_DB_DPRAM_TX) {
mdelay(10);
i++;
if (i == 10) {
DEBUG("FT1000:ft1000_dsp_prov:message drop\n");
return -1;
}
ft1000_read_register(dev, &tempword,
FT1000_REG_DOORBELL);
}
if (!(tempword & FT1000_DB_DPRAM_TX)) {
DEBUG("*** Provision Data Sent to DSP\n");
/* Send provisioning data */
ptr =
list_entry(info->prov_list.next, struct prov_record,
list);
len = *(u16 *) ptr->pprov_data;
len = htons(len);
len += PSEUDOSZ;
pmsg = (u16 *) ptr->pprov_data;
ppseudo_hdr = (struct pseudo_hdr *)pmsg;
/* Insert slow queue sequence number */
ppseudo_hdr->seq_num = info->squeseqnum++;
ppseudo_hdr->portsrc = 0;
/* Calculate new checksum */
ppseudo_hdr->checksum = *pmsg++;
for (i = 1; i < 7; i++)
ppseudo_hdr->checksum ^= *pmsg++;
TempShortBuf[0] = 0;
TempShortBuf[1] = htons(len);
memcpy(&TempShortBuf[2], ppseudo_hdr, len);
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);
kfree(ptr->pprov_data);
kfree(ptr);
}
usleep_range(9000, 11000);
}
DEBUG("DSP Provisioning List Entry finished\n");
msleep(100);
dev->fProvComplete = true;
info->CardReady = 1;
return 0;
}
static int ft1000_proc_drvmsg(struct ft1000_usb *dev, u16 size)
{
struct ft1000_info *info = netdev_priv(dev->net);
u16 msgtype;
u16 tempword;
struct media_msg *pmediamsg;
struct dsp_init_msg *pdspinitmsg;
struct drv_msg *pdrvmsg;
u16 i;
struct pseudo_hdr *ppseudo_hdr;
u16 *pmsg;
int status;
union {
u8 byte[2];
u16 wrd;
} convert;
char *cmdbuffer = kmalloc(1600, GFP_KERNEL);
if (!cmdbuffer)
return -ENOMEM;
status = ft1000_read_dpram32(dev, 0x200, cmdbuffer, size);
#ifdef JDEBUG
DEBUG("ft1000_proc_drvmsg:cmdbuffer\n");
for (i = 0; i < size; i += 5) {
if ((i + 5) < size)
DEBUG("0x%x, 0x%x, 0x%x, 0x%x, 0x%x\n", cmdbuffer[i],
cmdbuffer[i + 1], cmdbuffer[i + 2],
cmdbuffer[i + 3], cmdbuffer[i + 4]);
else {
for (j = i; j < size; j++)
DEBUG("0x%x ", cmdbuffer[j]);
DEBUG("\n");
break;
}
}
#endif
pdrvmsg = (struct drv_msg *)&cmdbuffer[2];
msgtype = ntohs(pdrvmsg->type);
DEBUG("ft1000_proc_drvmsg:Command message type = 0x%x\n", msgtype);
switch (msgtype) {
case MEDIA_STATE:{
DEBUG("ft1000_proc_drvmsg:Command message type = MEDIA_STATE");
pmediamsg = (struct media_msg *)&cmdbuffer[0];
if (info->ProgConStat != 0xFF) {
if (pmediamsg->state) {
DEBUG("Media is up\n");
if (info->mediastate == 0) {
if (dev->NetDevRegDone)
netif_wake_queue(dev->net);
info->mediastate = 1;
}
} else {
DEBUG("Media is down\n");
if (info->mediastate == 1) {
info->mediastate = 0;
if (dev->NetDevRegDone)
info->ConTm = 0;
}
}
} else {
DEBUG("Media is down\n");
if (info->mediastate == 1) {
info->mediastate = 0;
info->ConTm = 0;
}
}
break;
}
case DSP_INIT_MSG:{
DEBUG("ft1000_proc_drvmsg:Command message type = DSP_INIT_MSG");
pdspinitmsg = (struct dsp_init_msg *)&cmdbuffer[2];
memcpy(info->DspVer, pdspinitmsg->DspVer, DSPVERSZ);
DEBUG("DSPVER = 0x%2x 0x%2x 0x%2x 0x%2x\n",
info->DspVer[0], info->DspVer[1], info->DspVer[2],
info->DspVer[3]);
memcpy(info->HwSerNum, pdspinitmsg->HwSerNum,
HWSERNUMSZ);
memcpy(info->Sku, pdspinitmsg->Sku, SKUSZ);
memcpy(info->eui64, pdspinitmsg->eui64, EUISZ);
DEBUG("EUI64=%2x.%2x.%2x.%2x.%2x.%2x.%2x.%2x\n",
info->eui64[0], info->eui64[1], info->eui64[2],
info->eui64[3], info->eui64[4], info->eui64[5],
info->eui64[6], info->eui64[7]);
dev->net->dev_addr[0] = info->eui64[0];
dev->net->dev_addr[1] = info->eui64[1];
dev->net->dev_addr[2] = info->eui64[2];
dev->net->dev_addr[3] = info->eui64[5];
dev->net->dev_addr[4] = info->eui64[6];
dev->net->dev_addr[5] = info->eui64[7];
if (ntohs(pdspinitmsg->length) ==
(sizeof(struct dsp_init_msg) - 20)) {
memcpy(info->ProductMode, pdspinitmsg->ProductMode,
MODESZ);
memcpy(info->RfCalVer, pdspinitmsg->RfCalVer, CALVERSZ);
memcpy(info->RfCalDate, pdspinitmsg->RfCalDate,
CALDATESZ);
DEBUG("RFCalVer = 0x%2x 0x%2x\n", info->RfCalVer[0],
info->RfCalVer[1]);
}
break;
}
case DSP_PROVISION:{
DEBUG("ft1000_proc_drvmsg:Command message type = DSP_PROVISION\n");
/* kick off dspprov routine to start provisioning
* Send provisioning data to DSP
*/
if (list_empty(&info->prov_list) == 0) {
dev->fProvComplete = false;
status = ft1000_dsp_prov(dev);
if (status != 0)
goto out;
} else {
dev->fProvComplete = true;
status = ft1000_write_register(dev, FT1000_DB_HB,
FT1000_REG_DOORBELL);
DEBUG("FT1000:drivermsg:No more DSP provisioning data in dsp image\n");
}
DEBUG("ft1000_proc_drvmsg:DSP PROVISION is done\n");
break;
}
case DSP_STORE_INFO:{
DEBUG("ft1000_proc_drvmsg:Command message type = DSP_STORE_INFO");
DEBUG("FT1000:drivermsg:Got DSP_STORE_INFO\n");
tempword = ntohs(pdrvmsg->length);
info->DSPInfoBlklen = tempword;
if (tempword < (MAX_DSP_SESS_REC - 4)) {
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++;
}
} else {
info->DSPInfoBlklen = 0;
}
break;
}
case DSP_GET_INFO:{
DEBUG("FT1000:drivermsg:Got DSP_GET_INFO\n");
/* copy dsp info block to dsp */
dev->DrvMsgPend = 1;
/* allow any outstanding ioctl to finish */
mdelay(10);
status = ft1000_read_register(dev, &tempword,
FT1000_REG_DOORBELL);
if (tempword & FT1000_DB_DPRAM_TX) {
mdelay(10);
status = ft1000_read_register(dev, &tempword,
FT1000_REG_DOORBELL);
if (tempword & FT1000_DB_DPRAM_TX) {
mdelay(10);
status = ft1000_read_register(dev, &tempword,
FT1000_REG_DOORBELL);
if (tempword & FT1000_DB_DPRAM_TX)
break;
}
}
/* Put message into Slow Queue Form Pseudo header */
pmsg = (u16 *) info->DSPInfoBlk;
*pmsg++ = 0;
*pmsg++ = htons(info->DSPInfoBlklen + 20 + info->DSPInfoBlklen);
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;
ppseudo_hdr->portdest = 0;
ppseudo_hdr->portsrc = 0;
ppseudo_hdr->sh_str_id = 0;
ppseudo_hdr->control = 0;
ppseudo_hdr->rsvd1 = 0;
ppseudo_hdr->rsvd2 = 0;
ppseudo_hdr->qos_class = 0;
/* Insert slow queue sequence number */
ppseudo_hdr->seq_num = info->squeseqnum++;
/* Insert application id */
ppseudo_hdr->portsrc = 0;
/* Calculate new checksum */
ppseudo_hdr->checksum = *pmsg++;
for (i = 1; i < 7; i++)
ppseudo_hdr->checksum ^= *pmsg++;
info->DSPInfoBlk[10] = 0x7200;
info->DSPInfoBlk[11] = htons(info->DSPInfoBlklen);
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);
dev->DrvMsgPend = 0;
break;
}
case GET_DRV_ERR_RPT_MSG:{
DEBUG("FT1000:drivermsg:Got GET_DRV_ERR_RPT_MSG\n");
/* copy driver error message to dsp */
dev->DrvMsgPend = 1;
/* allow any outstanding ioctl to finish */
mdelay(10);
status = ft1000_read_register(dev, &tempword,
FT1000_REG_DOORBELL);
if (tempword & FT1000_DB_DPRAM_TX) {
mdelay(10);
status = ft1000_read_register(dev, &tempword,
FT1000_REG_DOORBELL);
if (tempword & FT1000_DB_DPRAM_TX)
mdelay(10);
}
if ((tempword & FT1000_DB_DPRAM_TX) == 0) {
/* Put message into Slow Queue Form Pseudo header */
pmsg = (u16 *) &tempbuffer[0];
ppseudo_hdr = (struct pseudo_hdr *)pmsg;
ppseudo_hdr->length = htons(0x0012);
ppseudo_hdr->source = 0x10;
ppseudo_hdr->destination = 0x20;
ppseudo_hdr->portdest = 0;
ppseudo_hdr->portsrc = 0;
ppseudo_hdr->sh_str_id = 0;
ppseudo_hdr->control = 0;
ppseudo_hdr->rsvd1 = 0;
ppseudo_hdr->rsvd2 = 0;
ppseudo_hdr->qos_class = 0;
/* Insert slow queue sequence number */
ppseudo_hdr->seq_num = info->squeseqnum++;
/* Insert application id */
ppseudo_hdr->portsrc = 0;
/* Calculate new checksum */
ppseudo_hdr->checksum = *pmsg++;
for (i = 1; i < 7; i++)
ppseudo_hdr->checksum ^= *pmsg++;
pmsg = (u16 *) &tempbuffer[16];
*pmsg++ = htons(RSP_DRV_ERR_RPT_MSG);
*pmsg++ = htons(0x000e);
*pmsg++ = htons(info->DSP_TIME[0]);
*pmsg++ = htons(info->DSP_TIME[1]);
*pmsg++ = htons(info->DSP_TIME[2]);
*pmsg++ = htons(info->DSP_TIME[3]);
convert.byte[0] = info->DspVer[0];
convert.byte[1] = info->DspVer[1];
*pmsg++ = convert.wrd;
convert.byte[0] = info->DspVer[2];
convert.byte[1] = info->DspVer[3];
*pmsg++ = convert.wrd;
*pmsg++ = htons(info->DrvErrNum);
card_send_command(dev, (unsigned char *)&tempbuffer[0],
(u16)(0x0012 + PSEUDOSZ));
info->DrvErrNum = 0;
}
dev->DrvMsgPend = 0;
break;
}
default:
break;
}
status = 0;
out:
kfree(cmdbuffer);
DEBUG("return from ft1000_proc_drvmsg\n");
return status;
}
/* Check which application has registered for dsp broadcast messages */
static int dsp_broadcast_msg_id(struct ft1000_usb *dev)
{
struct dpram_blk *pdpram_blk;
unsigned long flags;
int i;
for (i = 0; i < MAX_NUM_APP; i++) {
if ((dev->app_info[i].DspBCMsgFlag)
&& (dev->app_info[i].fileobject)
&& (dev->app_info[i].NumOfMsg
< MAX_MSG_LIMIT)) {
pdpram_blk = ft1000_get_buffer(&freercvpool);
if (pdpram_blk == NULL) {
DEBUG("Out of memory in free receive command pool\n");
dev->app_info[i].nRxMsgMiss++;
return -1;
}
if (ft1000_receive_cmd(dev, pdpram_blk->pbuffer,
MAX_CMD_SQSIZE)) {
/* Put message into the
* appropriate application block
*/
dev->app_info[i].nRxMsg++;
spin_lock_irqsave(&free_buff_lock, flags);
list_add_tail(&pdpram_blk->list,
&dev->app_info[i] .app_sqlist);
dev->app_info[i].NumOfMsg++;
spin_unlock_irqrestore(&free_buff_lock, flags);
wake_up_interruptible(&dev->app_info[i]
.wait_dpram_msg);
} else {
dev->app_info[i].nRxMsgMiss++;
ft1000_free_buffer(pdpram_blk, &freercvpool);
DEBUG("pdpram_blk::ft1000_get_buffer NULL\n");
return -1;
}
}
}
return 0;
}
static int handle_misc_portid(struct ft1000_usb *dev)
{
struct dpram_blk *pdpram_blk;
int i;
pdpram_blk = ft1000_get_buffer(&freercvpool);
if (pdpram_blk == NULL) {
DEBUG("Out of memory in free receive command pool\n");
return -1;
}
if (!ft1000_receive_cmd(dev, pdpram_blk->pbuffer, MAX_CMD_SQSIZE))
goto exit_failure;
/* Search for correct application block */
for (i = 0; i < MAX_NUM_APP; i++) {
if (dev->app_info[i].app_id == ((struct pseudo_hdr *)
pdpram_blk->pbuffer)->portdest)
break;
}
if (i == MAX_NUM_APP) {
DEBUG("FT1000:ft1000_parse_dpram_msg: No application matching id = %d\n", ((struct pseudo_hdr *)pdpram_blk->pbuffer)->portdest);
goto exit_failure;
} else if (dev->app_info[i].NumOfMsg > MAX_MSG_LIMIT) {
goto exit_failure;
} else {
dev->app_info[i].nRxMsg++;
/* Put message into the appropriate application block */
list_add_tail(&pdpram_blk->list, &dev->app_info[i].app_sqlist);
dev->app_info[i].NumOfMsg++;
}
return 0;
exit_failure:
ft1000_free_buffer(pdpram_blk, &freercvpool);
return -1;
}
int ft1000_poll(void *dev_id)
{
struct ft1000_usb *dev = (struct ft1000_usb *)dev_id;
struct ft1000_info *info = netdev_priv(dev->net);
u16 tempword;
int status;
u16 size;
int i;
u16 data;
u16 modulo;
u16 portid;
if (ft1000_chkcard(dev) == FALSE) {
DEBUG("ft1000_poll::ft1000_chkcard: failed\n");
return -1;
}
status = ft1000_read_register(dev, &tempword, FT1000_REG_DOORBELL);
if (!status) {
if (tempword & FT1000_DB_DPRAM_RX) {
status = ft1000_read_dpram16(dev,
0x200, (u8 *)&data, 0);
size = ntohs(data) + 16 + 2;
if (size % 4) {
modulo = 4 - (size % 4);
size = size + modulo;
}
status = ft1000_read_dpram16(dev, 0x201,
(u8 *)&portid, 1);
portid &= 0xff;
if (size < MAX_CMD_SQSIZE) {
switch (portid) {
case DRIVERID:
DEBUG("ft1000_poll: FT1000_REG_DOORBELL message type: FT1000_DB_DPRAM_RX : portid DRIVERID\n");
status = ft1000_proc_drvmsg(dev, size);
if (status != 0)
return status;
break;
case DSPBCMSGID:
status = dsp_broadcast_msg_id(dev);
break;
default:
status = handle_misc_portid(dev);
break;
}
} else
DEBUG("FT1000:dpc:Invalid total length for SlowQ = %d\n", size);
status = ft1000_write_register(dev,
FT1000_DB_DPRAM_RX,
FT1000_REG_DOORBELL);
} else if (tempword & FT1000_DSP_ASIC_RESET) {
/* Let's reset the ASIC from the Host side as well */
status = ft1000_write_register(dev, ASIC_RESET_BIT,
FT1000_REG_RESET);
status = ft1000_read_register(dev, &tempword,
FT1000_REG_RESET);
i = 0;
while (tempword & ASIC_RESET_BIT) {
status = ft1000_read_register(dev, &tempword,
FT1000_REG_RESET);
usleep_range(9000, 11000);
i++;
if (i == 100)
break;
}
if (i == 100) {
DEBUG("Unable to reset ASIC\n");
return 0;
}
usleep_range(9000, 11000);
/* Program WMARK register */
status = ft1000_write_register(dev, 0x600,
FT1000_REG_MAG_WATERMARK);
/* clear ASIC reset doorbell */
status = ft1000_write_register(dev,
FT1000_DSP_ASIC_RESET,
FT1000_REG_DOORBELL);
usleep_range(9000, 11000);
} else if (tempword & FT1000_ASIC_RESET_REQ) {
DEBUG("ft1000_poll: FT1000_REG_DOORBELL message type: FT1000_ASIC_RESET_REQ\n");
/* clear ASIC reset request from DSP */
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,
(u8 *)&info->DSPSess.Rec[0], 1024);
status = ft1000_write_register(dev, 0x600,
FT1000_REG_MAG_WATERMARK);
/* ring doorbell to tell DSP that
* ASIC is out of reset
* */
status = ft1000_write_register(dev,
FT1000_ASIC_RESET_DSP,
FT1000_REG_DOORBELL);
} else if (tempword & FT1000_DB_COND_RESET) {
DEBUG("ft1000_poll: FT1000_REG_DOORBELL message type: FT1000_DB_COND_RESET\n");
if (!dev->fAppMsgPend) {
/* Reset ASIC and DSP */
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");
info->ft1000_reset(dev->net);
} else {
dev->fProvComplete = false;
dev->fCondResetPend = true;
}
ft1000_write_register(dev, FT1000_DB_COND_RESET,
FT1000_REG_DOORBELL);
}
}
return 0;
}
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