提交 f3564b2b 编写于 作者: D David S. Miller

Merge branch 'tg3'

Nithin Nayak says:

====================
For the 57766 devices with no NVRAM, there is not enough space for the complete
boot code with EEE support. On these devices, the tg3 driver has to download
a service patch firmware to the scratchpad for the boot code to execute. This
patchset adds support to do the above.

A major portion of this patchset is refactoring the existing firmware download
section to allow a cleaner merge of the 57766 download. The 57766 firmware
differs from previous firmware in that it's not written to a contiguous area in
memory. It consists of multiple fragments to be written to different locations.
The patchset makes an attempt to make the new firmware format to be an
extension of the existing format.
====================
Signed-off-by: NDavid S. Miller <davem@davemloft.net>
......@@ -212,6 +212,7 @@ static inline void _tg3_flag_clear(enum TG3_FLAGS flag, unsigned long *bits)
#define TG3_FW_UPDATE_FREQ_SEC (TG3_FW_UPDATE_TIMEOUT_SEC / 2)
#define FIRMWARE_TG3 "tigon/tg3.bin"
#define FIRMWARE_TG357766 "tigon/tg357766.bin"
#define FIRMWARE_TG3TSO "tigon/tg3_tso.bin"
#define FIRMWARE_TG3TSO5 "tigon/tg3_tso5.bin"
......@@ -3452,11 +3453,58 @@ static int tg3_nvram_write_block(struct tg3 *tp, u32 offset, u32 len, u8 *buf)
#define TX_CPU_SCRATCH_SIZE 0x04000
/* tp->lock is held. */
static int tg3_halt_cpu(struct tg3 *tp, u32 offset)
static int tg3_pause_cpu(struct tg3 *tp, u32 cpu_base)
{
int i;
const int iters = 10000;
BUG_ON(offset == TX_CPU_BASE && tg3_flag(tp, 5705_PLUS));
for (i = 0; i < iters; i++) {
tw32(cpu_base + CPU_STATE, 0xffffffff);
tw32(cpu_base + CPU_MODE, CPU_MODE_HALT);
if (tr32(cpu_base + CPU_MODE) & CPU_MODE_HALT)
break;
}
return (i == iters) ? -EBUSY : 0;
}
/* tp->lock is held. */
static int tg3_rxcpu_pause(struct tg3 *tp)
{
int rc = tg3_pause_cpu(tp, RX_CPU_BASE);
tw32(RX_CPU_BASE + CPU_STATE, 0xffffffff);
tw32_f(RX_CPU_BASE + CPU_MODE, CPU_MODE_HALT);
udelay(10);
return rc;
}
/* tp->lock is held. */
static int tg3_txcpu_pause(struct tg3 *tp)
{
return tg3_pause_cpu(tp, TX_CPU_BASE);
}
/* tp->lock is held. */
static void tg3_resume_cpu(struct tg3 *tp, u32 cpu_base)
{
tw32(cpu_base + CPU_STATE, 0xffffffff);
tw32_f(cpu_base + CPU_MODE, 0x00000000);
}
/* tp->lock is held. */
static void tg3_rxcpu_resume(struct tg3 *tp)
{
tg3_resume_cpu(tp, RX_CPU_BASE);
}
/* tp->lock is held. */
static int tg3_halt_cpu(struct tg3 *tp, u32 cpu_base)
{
int rc;
BUG_ON(cpu_base == TX_CPU_BASE && tg3_flag(tp, 5705_PLUS));
if (tg3_asic_rev(tp) == ASIC_REV_5906) {
u32 val = tr32(GRC_VCPU_EXT_CTRL);
......@@ -3464,17 +3512,8 @@ static int tg3_halt_cpu(struct tg3 *tp, u32 offset)
tw32(GRC_VCPU_EXT_CTRL, val | GRC_VCPU_EXT_CTRL_HALT_CPU);
return 0;
}
if (offset == RX_CPU_BASE) {
for (i = 0; i < 10000; i++) {
tw32(offset + CPU_STATE, 0xffffffff);
tw32(offset + CPU_MODE, CPU_MODE_HALT);
if (tr32(offset + CPU_MODE) & CPU_MODE_HALT)
break;
}
tw32(offset + CPU_STATE, 0xffffffff);
tw32_f(offset + CPU_MODE, CPU_MODE_HALT);
udelay(10);
if (cpu_base == RX_CPU_BASE) {
rc = tg3_rxcpu_pause(tp);
} else {
/*
* There is only an Rx CPU for the 5750 derivative in the
......@@ -3483,17 +3522,12 @@ static int tg3_halt_cpu(struct tg3 *tp, u32 offset)
if (tg3_flag(tp, IS_SSB_CORE))
return 0;
for (i = 0; i < 10000; i++) {
tw32(offset + CPU_STATE, 0xffffffff);
tw32(offset + CPU_MODE, CPU_MODE_HALT);
if (tr32(offset + CPU_MODE) & CPU_MODE_HALT)
break;
}
rc = tg3_txcpu_pause(tp);
}
if (i >= 10000) {
if (rc) {
netdev_err(tp->dev, "%s timed out, %s CPU\n",
__func__, offset == RX_CPU_BASE ? "RX" : "TX");
__func__, cpu_base == RX_CPU_BASE ? "RX" : "TX");
return -ENODEV;
}
......@@ -3503,19 +3537,41 @@ static int tg3_halt_cpu(struct tg3 *tp, u32 offset)
return 0;
}
struct fw_info {
unsigned int fw_base;
unsigned int fw_len;
const __be32 *fw_data;
};
static int tg3_fw_data_len(struct tg3 *tp,
const struct tg3_firmware_hdr *fw_hdr)
{
int fw_len;
/* Non fragmented firmware have one firmware header followed by a
* contiguous chunk of data to be written. The length field in that
* header is not the length of data to be written but the complete
* length of the bss. The data length is determined based on
* tp->fw->size minus headers.
*
* Fragmented firmware have a main header followed by multiple
* fragments. Each fragment is identical to non fragmented firmware
* with a firmware header followed by a contiguous chunk of data. In
* the main header, the length field is unused and set to 0xffffffff.
* In each fragment header the length is the entire size of that
* fragment i.e. fragment data + header length. Data length is
* therefore length field in the header minus TG3_FW_HDR_LEN.
*/
if (tp->fw_len == 0xffffffff)
fw_len = be32_to_cpu(fw_hdr->len);
else
fw_len = tp->fw->size;
return (fw_len - TG3_FW_HDR_LEN) / sizeof(u32);
}
/* tp->lock is held. */
static int tg3_load_firmware_cpu(struct tg3 *tp, u32 cpu_base,
u32 cpu_scratch_base, int cpu_scratch_size,
struct fw_info *info)
const struct tg3_firmware_hdr *fw_hdr)
{
int err, lock_err, i;
int err, i;
void (*write_op)(struct tg3 *, u32, u32);
int total_len = tp->fw->size;
if (cpu_base == TX_CPU_BASE && tg3_flag(tp, 5705_PLUS)) {
netdev_err(tp->dev,
......@@ -3524,30 +3580,49 @@ static int tg3_load_firmware_cpu(struct tg3 *tp, u32 cpu_base,
return -EINVAL;
}
if (tg3_flag(tp, 5705_PLUS))
if (tg3_flag(tp, 5705_PLUS) && tg3_asic_rev(tp) != ASIC_REV_57766)
write_op = tg3_write_mem;
else
write_op = tg3_write_indirect_reg32;
/* It is possible that bootcode is still loading at this point.
* Get the nvram lock first before halting the cpu.
*/
lock_err = tg3_nvram_lock(tp);
err = tg3_halt_cpu(tp, cpu_base);
if (!lock_err)
tg3_nvram_unlock(tp);
if (err)
goto out;
if (tg3_asic_rev(tp) != ASIC_REV_57766) {
/* It is possible that bootcode is still loading at this point.
* Get the nvram lock first before halting the cpu.
*/
int lock_err = tg3_nvram_lock(tp);
err = tg3_halt_cpu(tp, cpu_base);
if (!lock_err)
tg3_nvram_unlock(tp);
if (err)
goto out;
for (i = 0; i < cpu_scratch_size; i += sizeof(u32))
write_op(tp, cpu_scratch_base + i, 0);
tw32(cpu_base + CPU_STATE, 0xffffffff);
tw32(cpu_base + CPU_MODE, tr32(cpu_base+CPU_MODE)|CPU_MODE_HALT);
for (i = 0; i < (info->fw_len / sizeof(u32)); i++)
write_op(tp, (cpu_scratch_base +
(info->fw_base & 0xffff) +
(i * sizeof(u32))),
be32_to_cpu(info->fw_data[i]));
for (i = 0; i < cpu_scratch_size; i += sizeof(u32))
write_op(tp, cpu_scratch_base + i, 0);
tw32(cpu_base + CPU_STATE, 0xffffffff);
tw32(cpu_base + CPU_MODE,
tr32(cpu_base + CPU_MODE) | CPU_MODE_HALT);
} else {
/* Subtract additional main header for fragmented firmware and
* advance to the first fragment
*/
total_len -= TG3_FW_HDR_LEN;
fw_hdr++;
}
do {
u32 *fw_data = (u32 *)(fw_hdr + 1);
for (i = 0; i < tg3_fw_data_len(tp, fw_hdr); i++)
write_op(tp, cpu_scratch_base +
(be32_to_cpu(fw_hdr->base_addr) & 0xffff) +
(i * sizeof(u32)),
be32_to_cpu(fw_data[i]));
total_len -= be32_to_cpu(fw_hdr->len);
/* Advance to next fragment */
fw_hdr = (struct tg3_firmware_hdr *)
((void *)fw_hdr + be32_to_cpu(fw_hdr->len));
} while (total_len > 0);
err = 0;
......@@ -3555,14 +3630,34 @@ static int tg3_load_firmware_cpu(struct tg3 *tp, u32 cpu_base,
return err;
}
/* tp->lock is held. */
static int tg3_pause_cpu_and_set_pc(struct tg3 *tp, u32 cpu_base, u32 pc)
{
int i;
const int iters = 5;
tw32(cpu_base + CPU_STATE, 0xffffffff);
tw32_f(cpu_base + CPU_PC, pc);
for (i = 0; i < iters; i++) {
if (tr32(cpu_base + CPU_PC) == pc)
break;
tw32(cpu_base + CPU_STATE, 0xffffffff);
tw32(cpu_base + CPU_MODE, CPU_MODE_HALT);
tw32_f(cpu_base + CPU_PC, pc);
udelay(1000);
}
return (i == iters) ? -EBUSY : 0;
}
/* tp->lock is held. */
static int tg3_load_5701_a0_firmware_fix(struct tg3 *tp)
{
struct fw_info info;
const __be32 *fw_data;
int err, i;
const struct tg3_firmware_hdr *fw_hdr;
int err;
fw_data = (void *)tp->fw->data;
fw_hdr = (struct tg3_firmware_hdr *)tp->fw->data;
/* Firmware blob starts with version numbers, followed by
start address and length. We are setting complete length.
......@@ -3570,60 +3665,117 @@ static int tg3_load_5701_a0_firmware_fix(struct tg3 *tp)
Remainder is the blob to be loaded contiguously
from start address. */
info.fw_base = be32_to_cpu(fw_data[1]);
info.fw_len = tp->fw->size - 12;
info.fw_data = &fw_data[3];
err = tg3_load_firmware_cpu(tp, RX_CPU_BASE,
RX_CPU_SCRATCH_BASE, RX_CPU_SCRATCH_SIZE,
&info);
fw_hdr);
if (err)
return err;
err = tg3_load_firmware_cpu(tp, TX_CPU_BASE,
TX_CPU_SCRATCH_BASE, TX_CPU_SCRATCH_SIZE,
&info);
fw_hdr);
if (err)
return err;
/* Now startup only the RX cpu. */
tw32(RX_CPU_BASE + CPU_STATE, 0xffffffff);
tw32_f(RX_CPU_BASE + CPU_PC, info.fw_base);
for (i = 0; i < 5; i++) {
if (tr32(RX_CPU_BASE + CPU_PC) == info.fw_base)
break;
tw32(RX_CPU_BASE + CPU_STATE, 0xffffffff);
tw32(RX_CPU_BASE + CPU_MODE, CPU_MODE_HALT);
tw32_f(RX_CPU_BASE + CPU_PC, info.fw_base);
udelay(1000);
}
if (i >= 5) {
err = tg3_pause_cpu_and_set_pc(tp, RX_CPU_BASE,
be32_to_cpu(fw_hdr->base_addr));
if (err) {
netdev_err(tp->dev, "%s fails to set RX CPU PC, is %08x "
"should be %08x\n", __func__,
tr32(RX_CPU_BASE + CPU_PC), info.fw_base);
tr32(RX_CPU_BASE + CPU_PC),
be32_to_cpu(fw_hdr->base_addr));
return -ENODEV;
}
tw32(RX_CPU_BASE + CPU_STATE, 0xffffffff);
tw32_f(RX_CPU_BASE + CPU_MODE, 0x00000000);
tg3_rxcpu_resume(tp);
return 0;
}
static int tg3_validate_rxcpu_state(struct tg3 *tp)
{
const int iters = 1000;
int i;
u32 val;
/* Wait for boot code to complete initialization and enter service
* loop. It is then safe to download service patches
*/
for (i = 0; i < iters; i++) {
if (tr32(RX_CPU_HWBKPT) == TG3_SBROM_IN_SERVICE_LOOP)
break;
udelay(10);
}
if (i == iters) {
netdev_err(tp->dev, "Boot code not ready for service patches\n");
return -EBUSY;
}
val = tg3_read_indirect_reg32(tp, TG3_57766_FW_HANDSHAKE);
if (val & 0xff) {
netdev_warn(tp->dev,
"Other patches exist. Not downloading EEE patch\n");
return -EEXIST;
}
return 0;
}
/* tp->lock is held. */
static void tg3_load_57766_firmware(struct tg3 *tp)
{
struct tg3_firmware_hdr *fw_hdr;
if (!tg3_flag(tp, NO_NVRAM))
return;
if (tg3_validate_rxcpu_state(tp))
return;
if (!tp->fw)
return;
/* This firmware blob has a different format than older firmware
* releases as given below. The main difference is we have fragmented
* data to be written to non-contiguous locations.
*
* In the beginning we have a firmware header identical to other
* firmware which consists of version, base addr and length. The length
* here is unused and set to 0xffffffff.
*
* This is followed by a series of firmware fragments which are
* individually identical to previous firmware. i.e. they have the
* firmware header and followed by data for that fragment. The version
* field of the individual fragment header is unused.
*/
fw_hdr = (struct tg3_firmware_hdr *)tp->fw->data;
if (be32_to_cpu(fw_hdr->base_addr) != TG3_57766_FW_BASE_ADDR)
return;
if (tg3_rxcpu_pause(tp))
return;
/* tg3_load_firmware_cpu() will always succeed for the 57766 */
tg3_load_firmware_cpu(tp, 0, TG3_57766_FW_BASE_ADDR, 0, fw_hdr);
tg3_rxcpu_resume(tp);
}
/* tp->lock is held. */
static int tg3_load_tso_firmware(struct tg3 *tp)
{
struct fw_info info;
const __be32 *fw_data;
const struct tg3_firmware_hdr *fw_hdr;
unsigned long cpu_base, cpu_scratch_base, cpu_scratch_size;
int err, i;
int err;
if (tg3_flag(tp, HW_TSO_1) ||
tg3_flag(tp, HW_TSO_2) ||
tg3_flag(tp, HW_TSO_3))
if (!tg3_flag(tp, FW_TSO))
return 0;
fw_data = (void *)tp->fw->data;
fw_hdr = (struct tg3_firmware_hdr *)tp->fw->data;
/* Firmware blob starts with version numbers, followed by
start address and length. We are setting complete length.
......@@ -3631,10 +3783,7 @@ static int tg3_load_tso_firmware(struct tg3 *tp)
Remainder is the blob to be loaded contiguously
from start address. */
info.fw_base = be32_to_cpu(fw_data[1]);
cpu_scratch_size = tp->fw_len;
info.fw_len = tp->fw->size - 12;
info.fw_data = &fw_data[3];
if (tg3_asic_rev(tp) == ASIC_REV_5705) {
cpu_base = RX_CPU_BASE;
......@@ -3647,30 +3796,22 @@ static int tg3_load_tso_firmware(struct tg3 *tp)
err = tg3_load_firmware_cpu(tp, cpu_base,
cpu_scratch_base, cpu_scratch_size,
&info);
fw_hdr);
if (err)
return err;
/* Now startup the cpu. */
tw32(cpu_base + CPU_STATE, 0xffffffff);
tw32_f(cpu_base + CPU_PC, info.fw_base);
for (i = 0; i < 5; i++) {
if (tr32(cpu_base + CPU_PC) == info.fw_base)
break;
tw32(cpu_base + CPU_STATE, 0xffffffff);
tw32(cpu_base + CPU_MODE, CPU_MODE_HALT);
tw32_f(cpu_base + CPU_PC, info.fw_base);
udelay(1000);
}
if (i >= 5) {
err = tg3_pause_cpu_and_set_pc(tp, cpu_base,
be32_to_cpu(fw_hdr->base_addr));
if (err) {
netdev_err(tp->dev,
"%s fails to set CPU PC, is %08x should be %08x\n",
__func__, tr32(cpu_base + CPU_PC), info.fw_base);
__func__, tr32(cpu_base + CPU_PC),
be32_to_cpu(fw_hdr->base_addr));
return -ENODEV;
}
tw32(cpu_base + CPU_STATE, 0xffffffff);
tw32_f(cpu_base + CPU_MODE, 0x00000000);
tg3_resume_cpu(tp, cpu_base);
return 0;
}
......@@ -9777,6 +9918,13 @@ static int tg3_reset_hw(struct tg3 *tp, int reset_phy)
return err;
}
if (tg3_asic_rev(tp) == ASIC_REV_57766) {
/* Ignore any errors for the firmware download. If download
* fails, the device will operate with EEE disabled
*/
tg3_load_57766_firmware(tp);
}
if (tg3_flag(tp, TSO_CAPABLE)) {
err = tg3_load_tso_firmware(tp);
if (err)
......@@ -10566,7 +10714,7 @@ static int tg3_test_msi(struct tg3 *tp)
static int tg3_request_firmware(struct tg3 *tp)
{
const __be32 *fw_data;
const struct tg3_firmware_hdr *fw_hdr;
if (request_firmware(&tp->fw, tp->fw_needed, &tp->pdev->dev)) {
netdev_err(tp->dev, "Failed to load firmware \"%s\"\n",
......@@ -10574,15 +10722,15 @@ static int tg3_request_firmware(struct tg3 *tp)
return -ENOENT;
}
fw_data = (void *)tp->fw->data;
fw_hdr = (struct tg3_firmware_hdr *)tp->fw->data;
/* Firmware blob starts with version numbers, followed by
* start address and _full_ length including BSS sections
* (which must be longer than the actual data, of course
*/
tp->fw_len = be32_to_cpu(fw_data[2]); /* includes bss */
if (tp->fw_len < (tp->fw->size - 12)) {
tp->fw_len = be32_to_cpu(fw_hdr->len); /* includes bss */
if (tp->fw_len < (tp->fw->size - TG3_FW_HDR_LEN)) {
netdev_err(tp->dev, "bogus length %d in \"%s\"\n",
tp->fw_len, tp->fw_needed);
release_firmware(tp->fw);
......@@ -10881,7 +11029,15 @@ static int tg3_open(struct net_device *dev)
if (tp->fw_needed) {
err = tg3_request_firmware(tp);
if (tg3_chip_rev_id(tp) == CHIPREV_ID_5701_A0) {
if (tg3_asic_rev(tp) == ASIC_REV_57766) {
if (err) {
netdev_warn(tp->dev, "EEE capability disabled\n");
tp->phy_flags &= ~TG3_PHYFLG_EEE_CAP;
} else if (!(tp->phy_flags & TG3_PHYFLG_EEE_CAP)) {
netdev_warn(tp->dev, "EEE capability restored\n");
tp->phy_flags |= TG3_PHYFLG_EEE_CAP;
}
} else if (tg3_chip_rev_id(tp) == CHIPREV_ID_5701_A0) {
if (err)
return err;
} else if (err) {
......@@ -14511,6 +14667,7 @@ static int tg3_phy_probe(struct tg3 *tp)
if (!(tp->phy_flags & TG3_PHYFLG_ANY_SERDES) &&
(tg3_asic_rev(tp) == ASIC_REV_5719 ||
tg3_asic_rev(tp) == ASIC_REV_5720 ||
tg3_asic_rev(tp) == ASIC_REV_57766 ||
tg3_asic_rev(tp) == ASIC_REV_5762 ||
(tg3_asic_rev(tp) == ASIC_REV_5717 &&
tg3_chip_rev_id(tp) != CHIPREV_ID_5717_A0) ||
......@@ -15293,7 +15450,8 @@ static int tg3_get_invariants(struct tg3 *tp, const struct pci_device_id *ent)
} else if (tg3_asic_rev(tp) != ASIC_REV_5700 &&
tg3_asic_rev(tp) != ASIC_REV_5701 &&
tg3_chip_rev_id(tp) != CHIPREV_ID_5705_A0) {
tg3_flag_set(tp, TSO_BUG);
tg3_flag_set(tp, FW_TSO);
tg3_flag_set(tp, TSO_BUG);
if (tg3_asic_rev(tp) == ASIC_REV_5705)
tp->fw_needed = FIRMWARE_TG3TSO5;
else
......@@ -15304,7 +15462,7 @@ static int tg3_get_invariants(struct tg3 *tp, const struct pci_device_id *ent)
if (tg3_flag(tp, HW_TSO_1) ||
tg3_flag(tp, HW_TSO_2) ||
tg3_flag(tp, HW_TSO_3) ||
tp->fw_needed) {
tg3_flag(tp, FW_TSO)) {
/* For firmware TSO, assume ASF is disabled.
* We'll disable TSO later if we discover ASF
* is enabled in tg3_get_eeprom_hw_cfg().
......@@ -15319,6 +15477,9 @@ static int tg3_get_invariants(struct tg3 *tp, const struct pci_device_id *ent)
if (tg3_chip_rev_id(tp) == CHIPREV_ID_5701_A0)
tp->fw_needed = FIRMWARE_TG3;
if (tg3_asic_rev(tp) == ASIC_REV_57766)
tp->fw_needed = FIRMWARE_TG357766;
tp->irq_max = 1;
if (tg3_flag(tp, 5750_PLUS)) {
......@@ -15591,7 +15752,7 @@ static int tg3_get_invariants(struct tg3 *tp, const struct pci_device_id *ent)
*/
tg3_get_eeprom_hw_cfg(tp);
if (tp->fw_needed && tg3_flag(tp, ENABLE_ASF)) {
if (tg3_flag(tp, FW_TSO) && tg3_flag(tp, ENABLE_ASF)) {
tg3_flag_clear(tp, TSO_CAPABLE);
tg3_flag_clear(tp, TSO_BUG);
tp->fw_needed = NULL;
......@@ -15779,6 +15940,11 @@ static int tg3_get_invariants(struct tg3 *tp, const struct pci_device_id *ent)
udelay(50);
tg3_nvram_init(tp);
/* If the device has an NVRAM, no need to load patch firmware */
if (tg3_asic_rev(tp) == ASIC_REV_57766 &&
!tg3_flag(tp, NO_NVRAM))
tp->fw_needed = NULL;
grc_misc_cfg = tr32(GRC_MISC_CFG);
grc_misc_cfg &= GRC_MISC_CFG_BOARD_ID_MASK;
......
......@@ -2222,6 +2222,12 @@
#define NIC_SRAM_MBUF_POOL_BASE5705 0x00010000
#define NIC_SRAM_MBUF_POOL_SIZE5705 0x0000e000
#define TG3_SRAM_RXCPU_SCRATCH_BASE_57766 0x00030000
#define TG3_SRAM_RXCPU_SCRATCH_SIZE_57766 0x00010000
#define TG3_57766_FW_BASE_ADDR 0x00030000
#define TG3_57766_FW_HANDSHAKE 0x0003fccc
#define TG3_SBROM_IN_SERVICE_LOOP 0x51
#define TG3_SRAM_RX_STD_BDCACHE_SIZE_5700 128
#define TG3_SRAM_RX_STD_BDCACHE_SIZE_5755 64
#define TG3_SRAM_RX_STD_BDCACHE_SIZE_5906 32
......@@ -3009,17 +3015,18 @@ enum TG3_FLAGS {
TG3_FLAG_JUMBO_CAPABLE,
TG3_FLAG_CHIP_RESETTING,
TG3_FLAG_INIT_COMPLETE,
TG3_FLAG_TSO_BUG,
TG3_FLAG_MAX_RXPEND_64,
TG3_FLAG_TSO_CAPABLE,
TG3_FLAG_PCI_EXPRESS, /* BCM5785 + pci_is_pcie() */
TG3_FLAG_ASF_NEW_HANDSHAKE,
TG3_FLAG_HW_AUTONEG,
TG3_FLAG_IS_NIC,
TG3_FLAG_FLASH,
TG3_FLAG_FW_TSO,
TG3_FLAG_HW_TSO_1,
TG3_FLAG_HW_TSO_2,
TG3_FLAG_HW_TSO_3,
TG3_FLAG_TSO_CAPABLE,
TG3_FLAG_TSO_BUG,
TG3_FLAG_ICH_WORKAROUND,
TG3_FLAG_1SHOT_MSI,
TG3_FLAG_NO_FWARE_REPORTED,
......@@ -3064,6 +3071,13 @@ enum TG3_FLAGS {
TG3_FLAG_NUMBER_OF_FLAGS, /* Last entry in enum TG3_FLAGS */
};
struct tg3_firmware_hdr {
__be32 version; /* unused for fragments */
__be32 base_addr;
__be32 len;
};
#define TG3_FW_HDR_LEN (sizeof(struct tg3_firmware_hdr))
struct tg3 {
/* begin "general, frequently-used members" cacheline section */
......
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