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authorJeff Kirsher <jeffrey.t.kirsher@intel.com>2006-11-01 11:48:02 -0500
committerJeff Garzik <jeff@garzik.org>2006-12-02 00:12:00 -0500
commit2df7d59f287236a636fb2d7e05879e65c8c56492 (patch)
treebee33ba966c6a961799494dc655adb1b36e3d6b6 /drivers/net
parentfcfb1224250d7877b6a6c6a947986e08b2160fb6 (diff)
e1000: rename ICH8 flash macros
ICH8 will soon be followed by newer chipsets bearing the same acronym, thus we remove the '8' and make it independent of the version number in the platform name. Signed-off-by: Jeff Kirsher <jeffrey.t.kirsher@intel.com> Signed-off-by: Auke Kok <auke-jan.h.kok@intel.com>
Diffstat (limited to 'drivers/net')
-rw-r--r--drivers/net/e1000/e1000_hw.c119
-rw-r--r--drivers/net/e1000/e1000_hw.h73
-rw-r--r--drivers/net/e1000/e1000_osdep.h8
3 files changed, 98 insertions, 102 deletions
diff --git a/drivers/net/e1000/e1000_hw.c b/drivers/net/e1000/e1000_hw.c
index 0bb9dd82d633..3655d902b0bd 100644
--- a/drivers/net/e1000/e1000_hw.c
+++ b/drivers/net/e1000/e1000_hw.c
@@ -4555,7 +4555,7 @@ e1000_init_eeprom_params(struct e1000_hw *hw)
4555 case e1000_ich8lan: 4555 case e1000_ich8lan:
4556 { 4556 {
4557 int32_t i = 0; 4557 int32_t i = 0;
4558 uint32_t flash_size = E1000_READ_ICH8_REG(hw, ICH8_FLASH_GFPREG); 4558 uint32_t flash_size = E1000_READ_ICH_FLASH_REG(hw, ICH_FLASH_GFPREG);
4559 4559
4560 eeprom->type = e1000_eeprom_ich8; 4560 eeprom->type = e1000_eeprom_ich8;
4561 eeprom->use_eerd = FALSE; 4561 eeprom->use_eerd = FALSE;
@@ -4571,12 +4571,14 @@ e1000_init_eeprom_params(struct e1000_hw *hw)
4571 } 4571 }
4572 } 4572 }
4573 4573
4574 hw->flash_base_addr = (flash_size & ICH8_GFPREG_BASE_MASK) * 4574 hw->flash_base_addr = (flash_size & ICH_GFPREG_BASE_MASK) *
4575 ICH8_FLASH_SECTOR_SIZE; 4575 ICH_FLASH_SECTOR_SIZE;
4576
4577 hw->flash_bank_size = ((flash_size >> 16) & ICH_GFPREG_BASE_MASK) + 1;
4578 hw->flash_bank_size -= (flash_size & ICH_GFPREG_BASE_MASK);
4579
4580 hw->flash_bank_size *= ICH_FLASH_SECTOR_SIZE;
4576 4581
4577 hw->flash_bank_size = ((flash_size >> 16) & ICH8_GFPREG_BASE_MASK) + 1;
4578 hw->flash_bank_size -= (flash_size & ICH8_GFPREG_BASE_MASK);
4579 hw->flash_bank_size *= ICH8_FLASH_SECTOR_SIZE;
4580 hw->flash_bank_size /= 2 * sizeof(uint16_t); 4582 hw->flash_bank_size /= 2 * sizeof(uint16_t);
4581 4583
4582 break; 4584 break;
@@ -5626,8 +5628,8 @@ e1000_commit_shadow_ram(struct e1000_hw *hw)
5626 * signature is valid. We want to do this after the write 5628 * signature is valid. We want to do this after the write
5627 * has completed so that we don't mark the segment valid 5629 * has completed so that we don't mark the segment valid
5628 * while the write is still in progress */ 5630 * while the write is still in progress */
5629 if (i == E1000_ICH8_NVM_SIG_WORD) 5631 if (i == E1000_ICH_NVM_SIG_WORD)
5630 high_byte = E1000_ICH8_NVM_SIG_MASK | high_byte; 5632 high_byte = E1000_ICH_NVM_SIG_MASK | high_byte;
5631 5633
5632 error = e1000_verify_write_ich8_byte(hw, 5634 error = e1000_verify_write_ich8_byte(hw,
5633 (i << 1) + new_bank_offset + 1, high_byte); 5635 (i << 1) + new_bank_offset + 1, high_byte);
@@ -5649,18 +5651,18 @@ e1000_commit_shadow_ram(struct e1000_hw *hw)
5649 * erase as well since these bits are 11 to start with 5651 * erase as well since these bits are 11 to start with
5650 * and we need to change bit 14 to 0b */ 5652 * and we need to change bit 14 to 0b */
5651 e1000_read_ich8_byte(hw, 5653 e1000_read_ich8_byte(hw,
5652 E1000_ICH8_NVM_SIG_WORD * 2 + 1 + new_bank_offset, 5654 E1000_ICH_NVM_SIG_WORD * 2 + 1 + new_bank_offset,
5653 &high_byte); 5655 &high_byte);
5654 high_byte &= 0xBF; 5656 high_byte &= 0xBF;
5655 error = e1000_verify_write_ich8_byte(hw, 5657 error = e1000_verify_write_ich8_byte(hw,
5656 E1000_ICH8_NVM_SIG_WORD * 2 + 1 + new_bank_offset, high_byte); 5658 E1000_ICH_NVM_SIG_WORD * 2 + 1 + new_bank_offset, high_byte);
5657 /* And invalidate the previously valid segment by setting 5659 /* And invalidate the previously valid segment by setting
5658 * its signature word (0x13) high_byte to 0b. This can be 5660 * its signature word (0x13) high_byte to 0b. This can be
5659 * done without an erase because flash erase sets all bits 5661 * done without an erase because flash erase sets all bits
5660 * to 1's. We can write 1's to 0's without an erase */ 5662 * to 1's. We can write 1's to 0's without an erase */
5661 if (error == E1000_SUCCESS) { 5663 if (error == E1000_SUCCESS) {
5662 error = e1000_verify_write_ich8_byte(hw, 5664 error = e1000_verify_write_ich8_byte(hw,
5663 E1000_ICH8_NVM_SIG_WORD * 2 + 1 + old_bank_offset, 0); 5665 E1000_ICH_NVM_SIG_WORD * 2 + 1 + old_bank_offset, 0);
5664 } 5666 }
5665 5667
5666 /* Clear the now not used entry in the cache */ 5668 /* Clear the now not used entry in the cache */
@@ -8494,7 +8496,7 @@ e1000_ich8_cycle_init(struct e1000_hw *hw)
8494 8496
8495 DEBUGFUNC("e1000_ich8_cycle_init"); 8497 DEBUGFUNC("e1000_ich8_cycle_init");
8496 8498
8497 hsfsts.regval = E1000_READ_ICH8_REG16(hw, ICH8_FLASH_HSFSTS); 8499 hsfsts.regval = E1000_READ_ICH_FLASH_REG16(hw, ICH_FLASH_HSFSTS);
8498 8500
8499 /* May be check the Flash Des Valid bit in Hw status */ 8501 /* May be check the Flash Des Valid bit in Hw status */
8500 if (hsfsts.hsf_status.fldesvalid == 0) { 8502 if (hsfsts.hsf_status.fldesvalid == 0) {
@@ -8507,7 +8509,7 @@ e1000_ich8_cycle_init(struct e1000_hw *hw)
8507 hsfsts.hsf_status.flcerr = 1; 8509 hsfsts.hsf_status.flcerr = 1;
8508 hsfsts.hsf_status.dael = 1; 8510 hsfsts.hsf_status.dael = 1;
8509 8511
8510 E1000_WRITE_ICH8_REG16(hw, ICH8_FLASH_HSFSTS, hsfsts.regval); 8512 E1000_WRITE_ICH_FLASH_REG16(hw, ICH_FLASH_HSFSTS, hsfsts.regval);
8511 8513
8512 /* Either we should have a hardware SPI cycle in progress bit to check 8514 /* Either we should have a hardware SPI cycle in progress bit to check
8513 * against, in order to start a new cycle or FDONE bit should be changed 8515 * against, in order to start a new cycle or FDONE bit should be changed
@@ -8522,13 +8524,13 @@ e1000_ich8_cycle_init(struct e1000_hw *hw)
8522 /* There is no cycle running at present, so we can start a cycle */ 8524 /* There is no cycle running at present, so we can start a cycle */
8523 /* Begin by setting Flash Cycle Done. */ 8525 /* Begin by setting Flash Cycle Done. */
8524 hsfsts.hsf_status.flcdone = 1; 8526 hsfsts.hsf_status.flcdone = 1;
8525 E1000_WRITE_ICH8_REG16(hw, ICH8_FLASH_HSFSTS, hsfsts.regval); 8527 E1000_WRITE_ICH_FLASH_REG16(hw, ICH_FLASH_HSFSTS, hsfsts.regval);
8526 error = E1000_SUCCESS; 8528 error = E1000_SUCCESS;
8527 } else { 8529 } else {
8528 /* otherwise poll for sometime so the current cycle has a chance 8530 /* otherwise poll for sometime so the current cycle has a chance
8529 * to end before giving up. */ 8531 * to end before giving up. */
8530 for (i = 0; i < ICH8_FLASH_COMMAND_TIMEOUT; i++) { 8532 for (i = 0; i < ICH_FLASH_COMMAND_TIMEOUT; i++) {
8531 hsfsts.regval = E1000_READ_ICH8_REG16(hw, ICH8_FLASH_HSFSTS); 8533 hsfsts.regval = E1000_READ_ICH_FLASH_REG16(hw, ICH_FLASH_HSFSTS);
8532 if (hsfsts.hsf_status.flcinprog == 0) { 8534 if (hsfsts.hsf_status.flcinprog == 0) {
8533 error = E1000_SUCCESS; 8535 error = E1000_SUCCESS;
8534 break; 8536 break;
@@ -8539,7 +8541,7 @@ e1000_ich8_cycle_init(struct e1000_hw *hw)
8539 /* Successful in waiting for previous cycle to timeout, 8541 /* Successful in waiting for previous cycle to timeout,
8540 * now set the Flash Cycle Done. */ 8542 * now set the Flash Cycle Done. */
8541 hsfsts.hsf_status.flcdone = 1; 8543 hsfsts.hsf_status.flcdone = 1;
8542 E1000_WRITE_ICH8_REG16(hw, ICH8_FLASH_HSFSTS, hsfsts.regval); 8544 E1000_WRITE_ICH_FLASH_REG16(hw, ICH_FLASH_HSFSTS, hsfsts.regval);
8543 } else { 8545 } else {
8544 DEBUGOUT("Flash controller busy, cannot get access"); 8546 DEBUGOUT("Flash controller busy, cannot get access");
8545 } 8547 }
@@ -8561,13 +8563,13 @@ e1000_ich8_flash_cycle(struct e1000_hw *hw, uint32_t timeout)
8561 uint32_t i = 0; 8563 uint32_t i = 0;
8562 8564
8563 /* Start a cycle by writing 1 in Flash Cycle Go in Hw Flash Control */ 8565 /* Start a cycle by writing 1 in Flash Cycle Go in Hw Flash Control */
8564 hsflctl.regval = E1000_READ_ICH8_REG16(hw, ICH8_FLASH_HSFCTL); 8566 hsflctl.regval = E1000_READ_ICH_FLASH_REG16(hw, ICH_FLASH_HSFCTL);
8565 hsflctl.hsf_ctrl.flcgo = 1; 8567 hsflctl.hsf_ctrl.flcgo = 1;
8566 E1000_WRITE_ICH8_REG16(hw, ICH8_FLASH_HSFCTL, hsflctl.regval); 8568 E1000_WRITE_ICH_FLASH_REG16(hw, ICH_FLASH_HSFCTL, hsflctl.regval);
8567 8569
8568 /* wait till FDONE bit is set to 1 */ 8570 /* wait till FDONE bit is set to 1 */
8569 do { 8571 do {
8570 hsfsts.regval = E1000_READ_ICH8_REG16(hw, ICH8_FLASH_HSFSTS); 8572 hsfsts.regval = E1000_READ_ICH_FLASH_REG16(hw, ICH_FLASH_HSFSTS);
8571 if (hsfsts.hsf_status.flcdone == 1) 8573 if (hsfsts.hsf_status.flcdone == 1)
8572 break; 8574 break;
8573 udelay(1); 8575 udelay(1);
@@ -8601,10 +8603,10 @@ e1000_read_ich8_data(struct e1000_hw *hw, uint32_t index,
8601 DEBUGFUNC("e1000_read_ich8_data"); 8603 DEBUGFUNC("e1000_read_ich8_data");
8602 8604
8603 if (size < 1 || size > 2 || data == 0x0 || 8605 if (size < 1 || size > 2 || data == 0x0 ||
8604 index > ICH8_FLASH_LINEAR_ADDR_MASK) 8606 index > ICH_FLASH_LINEAR_ADDR_MASK)
8605 return error; 8607 return error;
8606 8608
8607 flash_linear_address = (ICH8_FLASH_LINEAR_ADDR_MASK & index) + 8609 flash_linear_address = (ICH_FLASH_LINEAR_ADDR_MASK & index) +
8608 hw->flash_base_addr; 8610 hw->flash_base_addr;
8609 8611
8610 do { 8612 do {
@@ -8614,25 +8616,25 @@ e1000_read_ich8_data(struct e1000_hw *hw, uint32_t index,
8614 if (error != E1000_SUCCESS) 8616 if (error != E1000_SUCCESS)
8615 break; 8617 break;
8616 8618
8617 hsflctl.regval = E1000_READ_ICH8_REG16(hw, ICH8_FLASH_HSFCTL); 8619 hsflctl.regval = E1000_READ_ICH_FLASH_REG16(hw, ICH_FLASH_HSFCTL);
8618 /* 0b/1b corresponds to 1 or 2 byte size, respectively. */ 8620 /* 0b/1b corresponds to 1 or 2 byte size, respectively. */
8619 hsflctl.hsf_ctrl.fldbcount = size - 1; 8621 hsflctl.hsf_ctrl.fldbcount = size - 1;
8620 hsflctl.hsf_ctrl.flcycle = ICH8_CYCLE_READ; 8622 hsflctl.hsf_ctrl.flcycle = ICH_CYCLE_READ;
8621 E1000_WRITE_ICH8_REG16(hw, ICH8_FLASH_HSFCTL, hsflctl.regval); 8623 E1000_WRITE_ICH_FLASH_REG16(hw, ICH_FLASH_HSFCTL, hsflctl.regval);
8622 8624
8623 /* Write the last 24 bits of index into Flash Linear address field in 8625 /* Write the last 24 bits of index into Flash Linear address field in
8624 * Flash Address */ 8626 * Flash Address */
8625 /* TODO: TBD maybe check the index against the size of flash */ 8627 /* TODO: TBD maybe check the index against the size of flash */
8626 8628
8627 E1000_WRITE_ICH8_REG(hw, ICH8_FLASH_FADDR, flash_linear_address); 8629 E1000_WRITE_ICH_FLASH_REG(hw, ICH_FLASH_FADDR, flash_linear_address);
8628 8630
8629 error = e1000_ich8_flash_cycle(hw, ICH8_FLASH_COMMAND_TIMEOUT); 8631 error = e1000_ich8_flash_cycle(hw, ICH_FLASH_COMMAND_TIMEOUT);
8630 8632
8631 /* Check if FCERR is set to 1, if set to 1, clear it and try the whole 8633 /* Check if FCERR is set to 1, if set to 1, clear it and try the whole
8632 * sequence a few more times, else read in (shift in) the Flash Data0, 8634 * sequence a few more times, else read in (shift in) the Flash Data0,
8633 * the order is least significant byte first msb to lsb */ 8635 * the order is least significant byte first msb to lsb */
8634 if (error == E1000_SUCCESS) { 8636 if (error == E1000_SUCCESS) {
8635 flash_data = E1000_READ_ICH8_REG(hw, ICH8_FLASH_FDATA0); 8637 flash_data = E1000_READ_ICH_FLASH_REG(hw, ICH_FLASH_FDATA0);
8636 if (size == 1) { 8638 if (size == 1) {
8637 *data = (uint8_t)(flash_data & 0x000000FF); 8639 *data = (uint8_t)(flash_data & 0x000000FF);
8638 } else if (size == 2) { 8640 } else if (size == 2) {
@@ -8642,9 +8644,9 @@ e1000_read_ich8_data(struct e1000_hw *hw, uint32_t index,
8642 } else { 8644 } else {
8643 /* If we've gotten here, then things are probably completely hosed, 8645 /* If we've gotten here, then things are probably completely hosed,
8644 * but if the error condition is detected, it won't hurt to give 8646 * but if the error condition is detected, it won't hurt to give
8645 * it another try...ICH8_FLASH_CYCLE_REPEAT_COUNT times. 8647 * it another try...ICH_FLASH_CYCLE_REPEAT_COUNT times.
8646 */ 8648 */
8647 hsfsts.regval = E1000_READ_ICH8_REG16(hw, ICH8_FLASH_HSFSTS); 8649 hsfsts.regval = E1000_READ_ICH_FLASH_REG16(hw, ICH_FLASH_HSFSTS);
8648 if (hsfsts.hsf_status.flcerr == 1) { 8650 if (hsfsts.hsf_status.flcerr == 1) {
8649 /* Repeat for some time before giving up. */ 8651 /* Repeat for some time before giving up. */
8650 continue; 8652 continue;
@@ -8653,7 +8655,7 @@ e1000_read_ich8_data(struct e1000_hw *hw, uint32_t index,
8653 break; 8655 break;
8654 } 8656 }
8655 } 8657 }
8656 } while (count++ < ICH8_FLASH_CYCLE_REPEAT_COUNT); 8658 } while (count++ < ICH_FLASH_CYCLE_REPEAT_COUNT);
8657 8659
8658 return error; 8660 return error;
8659} 8661}
@@ -8680,10 +8682,10 @@ e1000_write_ich8_data(struct e1000_hw *hw, uint32_t index, uint32_t size,
8680 DEBUGFUNC("e1000_write_ich8_data"); 8682 DEBUGFUNC("e1000_write_ich8_data");
8681 8683
8682 if (size < 1 || size > 2 || data > size * 0xff || 8684 if (size < 1 || size > 2 || data > size * 0xff ||
8683 index > ICH8_FLASH_LINEAR_ADDR_MASK) 8685 index > ICH_FLASH_LINEAR_ADDR_MASK)
8684 return error; 8686 return error;
8685 8687
8686 flash_linear_address = (ICH8_FLASH_LINEAR_ADDR_MASK & index) + 8688 flash_linear_address = (ICH_FLASH_LINEAR_ADDR_MASK & index) +
8687 hw->flash_base_addr; 8689 hw->flash_base_addr;
8688 8690
8689 do { 8691 do {
@@ -8693,34 +8695,34 @@ e1000_write_ich8_data(struct e1000_hw *hw, uint32_t index, uint32_t size,
8693 if (error != E1000_SUCCESS) 8695 if (error != E1000_SUCCESS)
8694 break; 8696 break;
8695 8697
8696 hsflctl.regval = E1000_READ_ICH8_REG16(hw, ICH8_FLASH_HSFCTL); 8698 hsflctl.regval = E1000_READ_ICH_FLASH_REG16(hw, ICH_FLASH_HSFCTL);
8697 /* 0b/1b corresponds to 1 or 2 byte size, respectively. */ 8699 /* 0b/1b corresponds to 1 or 2 byte size, respectively. */
8698 hsflctl.hsf_ctrl.fldbcount = size -1; 8700 hsflctl.hsf_ctrl.fldbcount = size -1;
8699 hsflctl.hsf_ctrl.flcycle = ICH8_CYCLE_WRITE; 8701 hsflctl.hsf_ctrl.flcycle = ICH_CYCLE_WRITE;
8700 E1000_WRITE_ICH8_REG16(hw, ICH8_FLASH_HSFCTL, hsflctl.regval); 8702 E1000_WRITE_ICH_FLASH_REG16(hw, ICH_FLASH_HSFCTL, hsflctl.regval);
8701 8703
8702 /* Write the last 24 bits of index into Flash Linear address field in 8704 /* Write the last 24 bits of index into Flash Linear address field in
8703 * Flash Address */ 8705 * Flash Address */
8704 E1000_WRITE_ICH8_REG(hw, ICH8_FLASH_FADDR, flash_linear_address); 8706 E1000_WRITE_ICH_FLASH_REG(hw, ICH_FLASH_FADDR, flash_linear_address);
8705 8707
8706 if (size == 1) 8708 if (size == 1)
8707 flash_data = (uint32_t)data & 0x00FF; 8709 flash_data = (uint32_t)data & 0x00FF;
8708 else 8710 else
8709 flash_data = (uint32_t)data; 8711 flash_data = (uint32_t)data;
8710 8712
8711 E1000_WRITE_ICH8_REG(hw, ICH8_FLASH_FDATA0, flash_data); 8713 E1000_WRITE_ICH_FLASH_REG(hw, ICH_FLASH_FDATA0, flash_data);
8712 8714
8713 /* check if FCERR is set to 1 , if set to 1, clear it and try the whole 8715 /* check if FCERR is set to 1 , if set to 1, clear it and try the whole
8714 * sequence a few more times else done */ 8716 * sequence a few more times else done */
8715 error = e1000_ich8_flash_cycle(hw, ICH8_FLASH_COMMAND_TIMEOUT); 8717 error = e1000_ich8_flash_cycle(hw, ICH_FLASH_COMMAND_TIMEOUT);
8716 if (error == E1000_SUCCESS) { 8718 if (error == E1000_SUCCESS) {
8717 break; 8719 break;
8718 } else { 8720 } else {
8719 /* If we're here, then things are most likely completely hosed, 8721 /* If we're here, then things are most likely completely hosed,
8720 * but if the error condition is detected, it won't hurt to give 8722 * but if the error condition is detected, it won't hurt to give
8721 * it another try...ICH8_FLASH_CYCLE_REPEAT_COUNT times. 8723 * it another try...ICH_FLASH_CYCLE_REPEAT_COUNT times.
8722 */ 8724 */
8723 hsfsts.regval = E1000_READ_ICH8_REG16(hw, ICH8_FLASH_HSFSTS); 8725 hsfsts.regval = E1000_READ_ICH_FLASH_REG16(hw, ICH_FLASH_HSFSTS);
8724 if (hsfsts.hsf_status.flcerr == 1) { 8726 if (hsfsts.hsf_status.flcerr == 1) {
8725 /* Repeat for some time before giving up. */ 8727 /* Repeat for some time before giving up. */
8726 continue; 8728 continue;
@@ -8729,7 +8731,7 @@ e1000_write_ich8_data(struct e1000_hw *hw, uint32_t index, uint32_t size,
8729 break; 8731 break;
8730 } 8732 }
8731 } 8733 }
8732 } while (count++ < ICH8_FLASH_CYCLE_REPEAT_COUNT); 8734 } while (count++ < ICH_FLASH_CYCLE_REPEAT_COUNT);
8733 8735
8734 return error; 8736 return error;
8735} 8737}
@@ -8848,7 +8850,7 @@ e1000_erase_ich8_4k_segment(struct e1000_hw *hw, uint32_t bank)
8848 int32_t j = 0; 8850 int32_t j = 0;
8849 int32_t error_flag = 0; 8851 int32_t error_flag = 0;
8850 8852
8851 hsfsts.regval = E1000_READ_ICH8_REG16(hw, ICH8_FLASH_HSFSTS); 8853 hsfsts.regval = E1000_READ_ICH_FLASH_REG16(hw, ICH_FLASH_HSFSTS);
8852 8854
8853 /* Determine HW Sector size: Read BERASE bits of Hw flash Status register */ 8855 /* Determine HW Sector size: Read BERASE bits of Hw flash Status register */
8854 /* 00: The Hw sector is 256 bytes, hence we need to erase 16 8856 /* 00: The Hw sector is 256 bytes, hence we need to erase 16
@@ -8861,19 +8863,14 @@ e1000_erase_ich8_4k_segment(struct e1000_hw *hw, uint32_t bank)
8861 * 11: The Hw sector size is 64K bytes */ 8863 * 11: The Hw sector size is 64K bytes */
8862 if (hsfsts.hsf_status.berasesz == 0x0) { 8864 if (hsfsts.hsf_status.berasesz == 0x0) {
8863 /* Hw sector size 256 */ 8865 /* Hw sector size 256 */
8864 sub_sector_size = ICH8_FLASH_SEG_SIZE_256; 8866 sub_sector_size = ICH_FLASH_SEG_SIZE_256;
8865 bank_size = ICH8_FLASH_SECTOR_SIZE; 8867 bank_size = ICH_FLASH_SECTOR_SIZE;
8866 iteration = ICH8_FLASH_SECTOR_SIZE / ICH8_FLASH_SEG_SIZE_256; 8868 iteration = ICH_FLASH_SECTOR_SIZE / ICH_FLASH_SEG_SIZE_256;
8867 } else if (hsfsts.hsf_status.berasesz == 0x1) { 8869 } else if (hsfsts.hsf_status.berasesz == 0x1) {
8868 bank_size = ICH8_FLASH_SEG_SIZE_4K; 8870 bank_size = ICH_FLASH_SEG_SIZE_4K;
8869 iteration = 1;
8870 } else if (hw->mac_type != e1000_ich8lan &&
8871 hsfsts.hsf_status.berasesz == 0x2) {
8872 /* 8K erase size invalid for ICH8 - added in for ICH9 */
8873 bank_size = ICH9_FLASH_SEG_SIZE_8K;
8874 iteration = 1; 8871 iteration = 1;
8875 } else if (hsfsts.hsf_status.berasesz == 0x3) { 8872 } else if (hsfsts.hsf_status.berasesz == 0x3) {
8876 bank_size = ICH8_FLASH_SEG_SIZE_64K; 8873 bank_size = ICH_FLASH_SEG_SIZE_64K;
8877 iteration = 1; 8874 iteration = 1;
8878 } else { 8875 } else {
8879 return error; 8876 return error;
@@ -8891,9 +8888,9 @@ e1000_erase_ich8_4k_segment(struct e1000_hw *hw, uint32_t bank)
8891 8888
8892 /* Write a value 11 (block Erase) in Flash Cycle field in Hw flash 8889 /* Write a value 11 (block Erase) in Flash Cycle field in Hw flash
8893 * Control */ 8890 * Control */
8894 hsflctl.regval = E1000_READ_ICH8_REG16(hw, ICH8_FLASH_HSFCTL); 8891 hsflctl.regval = E1000_READ_ICH_FLASH_REG16(hw, ICH_FLASH_HSFCTL);
8895 hsflctl.hsf_ctrl.flcycle = ICH8_CYCLE_ERASE; 8892 hsflctl.hsf_ctrl.flcycle = ICH_CYCLE_ERASE;
8896 E1000_WRITE_ICH8_REG16(hw, ICH8_FLASH_HSFCTL, hsflctl.regval); 8893 E1000_WRITE_ICH_FLASH_REG16(hw, ICH_FLASH_HSFCTL, hsflctl.regval);
8897 8894
8898 /* Write the last 24 bits of an index within the block into Flash 8895 /* Write the last 24 bits of an index within the block into Flash
8899 * Linear address field in Flash Address. This probably needs to 8896 * Linear address field in Flash Address. This probably needs to
@@ -8901,17 +8898,17 @@ e1000_erase_ich8_4k_segment(struct e1000_hw *hw, uint32_t bank)
8901 * the software bank size (4, 8 or 64 KBytes) */ 8898 * the software bank size (4, 8 or 64 KBytes) */
8902 flash_linear_address = bank * bank_size + j * sub_sector_size; 8899 flash_linear_address = bank * bank_size + j * sub_sector_size;
8903 flash_linear_address += hw->flash_base_addr; 8900 flash_linear_address += hw->flash_base_addr;
8904 flash_linear_address &= ICH8_FLASH_LINEAR_ADDR_MASK; 8901 flash_linear_address &= ICH_FLASH_LINEAR_ADDR_MASK;
8905 8902
8906 E1000_WRITE_ICH8_REG(hw, ICH8_FLASH_FADDR, flash_linear_address); 8903 E1000_WRITE_ICH_FLASH_REG(hw, ICH_FLASH_FADDR, flash_linear_address);
8907 8904
8908 error = e1000_ich8_flash_cycle(hw, ICH8_FLASH_ERASE_TIMEOUT); 8905 error = e1000_ich8_flash_cycle(hw, ICH_FLASH_ERASE_TIMEOUT);
8909 /* Check if FCERR is set to 1. If 1, clear it and try the whole 8906 /* Check if FCERR is set to 1. If 1, clear it and try the whole
8910 * sequence a few more times else Done */ 8907 * sequence a few more times else Done */
8911 if (error == E1000_SUCCESS) { 8908 if (error == E1000_SUCCESS) {
8912 break; 8909 break;
8913 } else { 8910 } else {
8914 hsfsts.regval = E1000_READ_ICH8_REG16(hw, ICH8_FLASH_HSFSTS); 8911 hsfsts.regval = E1000_READ_ICH_FLASH_REG16(hw, ICH_FLASH_HSFSTS);
8915 if (hsfsts.hsf_status.flcerr == 1) { 8912 if (hsfsts.hsf_status.flcerr == 1) {
8916 /* repeat for some time before giving up */ 8913 /* repeat for some time before giving up */
8917 continue; 8914 continue;
@@ -8920,7 +8917,7 @@ e1000_erase_ich8_4k_segment(struct e1000_hw *hw, uint32_t bank)
8920 break; 8917 break;
8921 } 8918 }
8922 } 8919 }
8923 } while ((count < ICH8_FLASH_CYCLE_REPEAT_COUNT) && !error_flag); 8920 } while ((count < ICH_FLASH_CYCLE_REPEAT_COUNT) && !error_flag);
8924 if (error_flag == 1) 8921 if (error_flag == 1)
8925 break; 8922 break;
8926 } 8923 }
diff --git a/drivers/net/e1000/e1000_hw.h b/drivers/net/e1000/e1000_hw.h
index 93c1e260ee6a..3321fb13bfa9 100644
--- a/drivers/net/e1000/e1000_hw.h
+++ b/drivers/net/e1000/e1000_hw.h
@@ -1583,8 +1583,8 @@ struct e1000_hw {
1583#define E1000_HICR_FW_RESET 0xC0 1583#define E1000_HICR_FW_RESET 0xC0
1584 1584
1585#define E1000_SHADOW_RAM_WORDS 2048 1585#define E1000_SHADOW_RAM_WORDS 2048
1586#define E1000_ICH8_NVM_SIG_WORD 0x13 1586#define E1000_ICH_NVM_SIG_WORD 0x13
1587#define E1000_ICH8_NVM_SIG_MASK 0xC0 1587#define E1000_ICH_NVM_SIG_MASK 0xC0
1588 1588
1589/* EEPROM Read */ 1589/* EEPROM Read */
1590#define E1000_EERD_START 0x00000001 /* Start Read */ 1590#define E1000_EERD_START 0x00000001 /* Start Read */
@@ -3263,41 +3263,40 @@ struct e1000_host_command_info {
3263#define IFE_PSCL_PROBE_LEDS_OFF 0x0006 /* Force LEDs 0 and 2 off */ 3263#define IFE_PSCL_PROBE_LEDS_OFF 0x0006 /* Force LEDs 0 and 2 off */
3264#define IFE_PSCL_PROBE_LEDS_ON 0x0007 /* Force LEDs 0 and 2 on */ 3264#define IFE_PSCL_PROBE_LEDS_ON 0x0007 /* Force LEDs 0 and 2 on */
3265 3265
3266#define ICH8_FLASH_COMMAND_TIMEOUT 5000 /* 5000 uSecs - adjusted */ 3266#define ICH_FLASH_COMMAND_TIMEOUT 5000 /* 5000 uSecs - adjusted */
3267#define ICH8_FLASH_ERASE_TIMEOUT 3000000 /* Up to 3 seconds - worst case */ 3267#define ICH_FLASH_ERASE_TIMEOUT 3000000 /* Up to 3 seconds - worst case */
3268#define ICH8_FLASH_CYCLE_REPEAT_COUNT 10 /* 10 cycles */ 3268#define ICH_FLASH_CYCLE_REPEAT_COUNT 10 /* 10 cycles */
3269#define ICH8_FLASH_SEG_SIZE_256 256 3269#define ICH_FLASH_SEG_SIZE_256 256
3270#define ICH8_FLASH_SEG_SIZE_4K 4096 3270#define ICH_FLASH_SEG_SIZE_4K 4096
3271#define ICH9_FLASH_SEG_SIZE_8K 8192 3271#define ICH_FLASH_SEG_SIZE_64K 65536
3272#define ICH8_FLASH_SEG_SIZE_64K 65536 3272
3273 3273#define ICH_CYCLE_READ 0x0
3274#define ICH8_CYCLE_READ 0x0 3274#define ICH_CYCLE_RESERVED 0x1
3275#define ICH8_CYCLE_RESERVED 0x1 3275#define ICH_CYCLE_WRITE 0x2
3276#define ICH8_CYCLE_WRITE 0x2 3276#define ICH_CYCLE_ERASE 0x3
3277#define ICH8_CYCLE_ERASE 0x3 3277
3278 3278#define ICH_FLASH_GFPREG 0x0000
3279#define ICH8_FLASH_GFPREG 0x0000 3279#define ICH_FLASH_HSFSTS 0x0004
3280#define ICH8_FLASH_HSFSTS 0x0004 3280#define ICH_FLASH_HSFCTL 0x0006
3281#define ICH8_FLASH_HSFCTL 0x0006 3281#define ICH_FLASH_FADDR 0x0008
3282#define ICH8_FLASH_FADDR 0x0008 3282#define ICH_FLASH_FDATA0 0x0010
3283#define ICH8_FLASH_FDATA0 0x0010 3283#define ICH_FLASH_FRACC 0x0050
3284#define ICH8_FLASH_FRACC 0x0050 3284#define ICH_FLASH_FREG0 0x0054
3285#define ICH8_FLASH_FREG0 0x0054 3285#define ICH_FLASH_FREG1 0x0058
3286#define ICH8_FLASH_FREG1 0x0058 3286#define ICH_FLASH_FREG2 0x005C
3287#define ICH8_FLASH_FREG2 0x005C 3287#define ICH_FLASH_FREG3 0x0060
3288#define ICH8_FLASH_FREG3 0x0060 3288#define ICH_FLASH_FPR0 0x0074
3289#define ICH8_FLASH_FPR0 0x0074 3289#define ICH_FLASH_FPR1 0x0078
3290#define ICH8_FLASH_FPR1 0x0078 3290#define ICH_FLASH_SSFSTS 0x0090
3291#define ICH8_FLASH_SSFSTS 0x0090 3291#define ICH_FLASH_SSFCTL 0x0092
3292#define ICH8_FLASH_SSFCTL 0x0092 3292#define ICH_FLASH_PREOP 0x0094
3293#define ICH8_FLASH_PREOP 0x0094 3293#define ICH_FLASH_OPTYPE 0x0096
3294#define ICH8_FLASH_OPTYPE 0x0096 3294#define ICH_FLASH_OPMENU 0x0098
3295#define ICH8_FLASH_OPMENU 0x0098 3295
3296 3296#define ICH_FLASH_REG_MAPSIZE 0x00A0
3297#define ICH8_FLASH_REG_MAPSIZE 0x00A0 3297#define ICH_FLASH_SECTOR_SIZE 4096
3298#define ICH8_FLASH_SECTOR_SIZE 4096 3298#define ICH_GFPREG_BASE_MASK 0x1FFF
3299#define ICH8_GFPREG_BASE_MASK 0x1FFF 3299#define ICH_FLASH_LINEAR_ADDR_MASK 0x00FFFFFF
3300#define ICH8_FLASH_LINEAR_ADDR_MASK 0x00FFFFFF
3301 3300
3302/* ICH8 GbE Flash Hardware Sequencing Flash Status Register bit breakdown */ 3301/* ICH8 GbE Flash Hardware Sequencing Flash Status Register bit breakdown */
3303/* Offset 04h HSFSTS */ 3302/* Offset 04h HSFSTS */
diff --git a/drivers/net/e1000/e1000_osdep.h b/drivers/net/e1000/e1000_osdep.h
index 3b7eb7c20019..18afc0c25dac 100644
--- a/drivers/net/e1000/e1000_osdep.h
+++ b/drivers/net/e1000/e1000_osdep.h
@@ -107,16 +107,16 @@ typedef enum {
107 107
108#define E1000_WRITE_FLUSH(a) E1000_READ_REG(a, STATUS) 108#define E1000_WRITE_FLUSH(a) E1000_READ_REG(a, STATUS)
109 109
110#define E1000_WRITE_ICH8_REG(a, reg, value) ( \ 110#define E1000_WRITE_ICH_FLASH_REG(a, reg, value) ( \
111 writel((value), ((a)->flash_address + reg))) 111 writel((value), ((a)->flash_address + reg)))
112 112
113#define E1000_READ_ICH8_REG(a, reg) ( \ 113#define E1000_READ_ICH_FLASH_REG(a, reg) ( \
114 readl((a)->flash_address + reg)) 114 readl((a)->flash_address + reg))
115 115
116#define E1000_WRITE_ICH8_REG16(a, reg, value) ( \ 116#define E1000_WRITE_ICH_FLASH_REG16(a, reg, value) ( \
117 writew((value), ((a)->flash_address + reg))) 117 writew((value), ((a)->flash_address + reg)))
118 118
119#define E1000_READ_ICH8_REG16(a, reg) ( \ 119#define E1000_READ_ICH_FLASH_REG16(a, reg) ( \
120 readw((a)->flash_address + reg)) 120 readw((a)->flash_address + reg))
121 121
122#endif /* _E1000_OSDEP_H_ */ 122#endif /* _E1000_OSDEP_H_ */