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|
// SPDX-License-Identifier: GPL-2.0
/* Copyright(c) 2013 - 2018 Intel Corporation. */
#include "i40e_prototype.h"
/**
* i40e_init_nvm_ops - Initialize NVM function pointers
* @hw: pointer to the HW structure
*
* Setup the function pointers and the NVM info structure. Should be called
* once per NVM initialization, e.g. inside the i40e_init_shared_code().
* Please notice that the NVM term is used here (& in all methods covered
* in this file) as an equivalent of the FLASH part mapped into the SR.
* We are accessing FLASH always thru the Shadow RAM.
**/
i40e_status i40e_init_nvm(struct i40e_hw *hw)
{
struct i40e_nvm_info *nvm = &hw->nvm;
i40e_status ret_code = 0;
u32 fla, gens;
u8 sr_size;
/* The SR size is stored regardless of the nvm programming mode
* as the blank mode may be used in the factory line.
*/
gens = rd32(hw, I40E_GLNVM_GENS);
sr_size = ((gens & I40E_GLNVM_GENS_SR_SIZE_MASK) >>
I40E_GLNVM_GENS_SR_SIZE_SHIFT);
/* Switching to words (sr_size contains power of 2KB) */
nvm->sr_size = BIT(sr_size) * I40E_SR_WORDS_IN_1KB;
/* Check if we are in the normal or blank NVM programming mode */
fla = rd32(hw, I40E_GLNVM_FLA);
if (fla & I40E_GLNVM_FLA_LOCKED_MASK) { /* Normal programming mode */
/* Max NVM timeout */
nvm->timeout = I40E_MAX_NVM_TIMEOUT;
nvm->blank_nvm_mode = false;
} else { /* Blank programming mode */
nvm->blank_nvm_mode = true;
ret_code = I40E_ERR_NVM_BLANK_MODE;
i40e_debug(hw, I40E_DEBUG_NVM, "NVM init error: unsupported blank mode.\n");
}
return ret_code;
}
/**
* i40e_acquire_nvm - Generic request for acquiring the NVM ownership
* @hw: pointer to the HW structure
* @access: NVM access type (read or write)
*
* This function will request NVM ownership for reading
* via the proper Admin Command.
**/
i40e_status i40e_acquire_nvm(struct i40e_hw *hw,
enum i40e_aq_resource_access_type access)
{
i40e_status ret_code = 0;
u64 gtime, timeout;
u64 time_left = 0;
if (hw->nvm.blank_nvm_mode)
goto i40e_i40e_acquire_nvm_exit;
ret_code = i40e_aq_request_resource(hw, I40E_NVM_RESOURCE_ID, access,
0, &time_left, NULL);
/* Reading the Global Device Timer */
gtime = rd32(hw, I40E_GLVFGEN_TIMER);
/* Store the timeout */
hw->nvm.hw_semaphore_timeout = I40E_MS_TO_GTIME(time_left) + gtime;
if (ret_code)
i40e_debug(hw, I40E_DEBUG_NVM,
"NVM acquire type %d failed time_left=%llu ret=%d aq_err=%d\n",
access, time_left, ret_code, hw->aq.asq_last_status);
if (ret_code && time_left) {
/* Poll until the current NVM owner timeouts */
timeout = I40E_MS_TO_GTIME(I40E_MAX_NVM_TIMEOUT) + gtime;
while ((gtime < timeout) && time_left) {
usleep_range(10000, 20000);
gtime = rd32(hw, I40E_GLVFGEN_TIMER);
ret_code = i40e_aq_request_resource(hw,
I40E_NVM_RESOURCE_ID,
access, 0, &time_left,
NULL);
if (!ret_code) {
hw->nvm.hw_semaphore_timeout =
I40E_MS_TO_GTIME(time_left) + gtime;
break;
}
}
if (ret_code) {
hw->nvm.hw_semaphore_timeout = 0;
i40e_debug(hw, I40E_DEBUG_NVM,
"NVM acquire timed out, wait %llu ms before trying again. status=%d aq_err=%d\n",
time_left, ret_code, hw->aq.asq_last_status);
}
}
i40e_i40e_acquire_nvm_exit:
return ret_code;
}
/**
* i40e_release_nvm - Generic request for releasing the NVM ownership
* @hw: pointer to the HW structure
*
* This function will release NVM resource via the proper Admin Command.
**/
void i40e_release_nvm(struct i40e_hw *hw)
{
i40e_status ret_code = I40E_SUCCESS;
u32 total_delay = 0;
if (hw->nvm.blank_nvm_mode)
return;
ret_code = i40e_aq_release_resource(hw, I40E_NVM_RESOURCE_ID, 0, NULL);
/* there are some rare cases when trying to release the resource
* results in an admin Q timeout, so handle them correctly
*/
while ((ret_code == I40E_ERR_ADMIN_QUEUE_TIMEOUT) &&
(total_delay < hw->aq.asq_cmd_timeout)) {
usleep_range(1000, 2000);
ret_code = i40e_aq_release_resource(hw,
I40E_NVM_RESOURCE_ID,
0, NULL);
total_delay++;
}
}
/**
* i40e_poll_sr_srctl_done_bit - Polls the GLNVM_SRCTL done bit
* @hw: pointer to the HW structure
*
* Polls the SRCTL Shadow RAM register done bit.
**/
static i40e_status i40e_poll_sr_srctl_done_bit(struct i40e_hw *hw)
{
i40e_status ret_code = I40E_ERR_TIMEOUT;
u32 srctl, wait_cnt;
/* Poll the I40E_GLNVM_SRCTL until the done bit is set */
for (wait_cnt = 0; wait_cnt < I40E_SRRD_SRCTL_ATTEMPTS; wait_cnt++) {
srctl = rd32(hw, I40E_GLNVM_SRCTL);
if (srctl & I40E_GLNVM_SRCTL_DONE_MASK) {
ret_code = 0;
break;
}
udelay(5);
}
if (ret_code == I40E_ERR_TIMEOUT)
i40e_debug(hw, I40E_DEBUG_NVM, "Done bit in GLNVM_SRCTL not set");
return ret_code;
}
/**
* i40e_read_nvm_word_srctl - Reads Shadow RAM via SRCTL register
* @hw: pointer to the HW structure
* @offset: offset of the Shadow RAM word to read (0x000000 - 0x001FFF)
* @data: word read from the Shadow RAM
*
* Reads one 16 bit word from the Shadow RAM using the GLNVM_SRCTL register.
**/
static i40e_status i40e_read_nvm_word_srctl(struct i40e_hw *hw, u16 offset,
u16 *data)
{
i40e_status ret_code = I40E_ERR_TIMEOUT;
u32 sr_reg;
if (offset >= hw->nvm.sr_size) {
i40e_debug(hw, I40E_DEBUG_NVM,
"NVM read error: offset %d beyond Shadow RAM limit %d\n",
offset, hw->nvm.sr_size);
ret_code = I40E_ERR_PARAM;
goto read_nvm_exit;
}
/* Poll the done bit first */
ret_code = i40e_poll_sr_srctl_done_bit(hw);
if (!ret_code) {
/* Write the address and start reading */
sr_reg = ((u32)offset << I40E_GLNVM_SRCTL_ADDR_SHIFT) |
BIT(I40E_GLNVM_SRCTL_START_SHIFT);
wr32(hw, I40E_GLNVM_SRCTL, sr_reg);
/* Poll I40E_GLNVM_SRCTL until the done bit is set */
ret_code = i40e_poll_sr_srctl_done_bit(hw);
if (!ret_code) {
sr_reg = rd32(hw, I40E_GLNVM_SRDATA);
*data = (u16)((sr_reg &
I40E_GLNVM_SRDATA_RDDATA_MASK)
>> I40E_GLNVM_SRDATA_RDDATA_SHIFT);
}
}
if (ret_code)
i40e_debug(hw, I40E_DEBUG_NVM,
"NVM read error: Couldn't access Shadow RAM address: 0x%x\n",
offset);
read_nvm_exit:
return ret_code;
}
/**
* i40e_read_nvm_aq - Read Shadow RAM.
* @hw: pointer to the HW structure.
* @module_pointer: module pointer location in words from the NVM beginning
* @offset: offset in words from module start
* @words: number of words to write
* @data: buffer with words to write to the Shadow RAM
* @last_command: tells the AdminQ that this is the last command
*
* Writes a 16 bit words buffer to the Shadow RAM using the admin command.
**/
static i40e_status i40e_read_nvm_aq(struct i40e_hw *hw,
u8 module_pointer, u32 offset,
u16 words, void *data,
bool last_command)
{
i40e_status ret_code = I40E_ERR_NVM;
struct i40e_asq_cmd_details cmd_details;
memset(&cmd_details, 0, sizeof(cmd_details));
cmd_details.wb_desc = &hw->nvm_wb_desc;
/* Here we are checking the SR limit only for the flat memory model.
* We cannot do it for the module-based model, as we did not acquire
* the NVM resource yet (we cannot get the module pointer value).
* Firmware will check the module-based model.
*/
if ((offset + words) > hw->nvm.sr_size)
i40e_debug(hw, I40E_DEBUG_NVM,
"NVM write error: offset %d beyond Shadow RAM limit %d\n",
(offset + words), hw->nvm.sr_size);
else if (words > I40E_SR_SECTOR_SIZE_IN_WORDS)
/* We can write only up to 4KB (one sector), in one AQ write */
i40e_debug(hw, I40E_DEBUG_NVM,
"NVM write fail error: tried to write %d words, limit is %d.\n",
words, I40E_SR_SECTOR_SIZE_IN_WORDS);
else if (((offset + (words - 1)) / I40E_SR_SECTOR_SIZE_IN_WORDS)
!= (offset / I40E_SR_SECTOR_SIZE_IN_WORDS))
/* A single write cannot spread over two sectors */
i40e_debug(hw, I40E_DEBUG_NVM,
"NVM write error: cannot spread over two sectors in a single write offset=%d words=%d\n",
offset, words);
else
ret_code = i40e_aq_read_nvm(hw, module_pointer,
2 * offset, /*bytes*/
2 * words, /*bytes*/
data, last_command, &cmd_details);
return ret_code;
}
/**
* i40e_read_nvm_word_aq - Reads Shadow RAM via AQ
* @hw: pointer to the HW structure
* @offset: offset of the Shadow RAM word to read (0x000000 - 0x001FFF)
* @data: word read from the Shadow RAM
*
* Reads one 16 bit word from the Shadow RAM using the AdminQ
**/
static i40e_status i40e_read_nvm_word_aq(struct i40e_hw *hw, u16 offset,
u16 *data)
{
i40e_status ret_code = I40E_ERR_TIMEOUT;
ret_code = i40e_read_nvm_aq(hw, 0x0, offset, 1, data, true);
*data = le16_to_cpu(*(__le16 *)data);
return ret_code;
}
/**
* __i40e_read_nvm_word - Reads nvm word, assumes caller does the locking
* @hw: pointer to the HW structure
* @offset: offset of the Shadow RAM word to read (0x000000 - 0x001FFF)
* @data: word read from the Shadow RAM
*
* Reads one 16 bit word from the Shadow RAM.
*
* Do not use this function except in cases where the nvm lock is already
* taken via i40e_acquire_nvm().
**/
static i40e_status __i40e_read_nvm_word(struct i40e_hw *hw,
u16 offset, u16 *data)
{
if (hw->flags & I40E_HW_FLAG_AQ_SRCTL_ACCESS_ENABLE)
return i40e_read_nvm_word_aq(hw, offset, data);
return i40e_read_nvm_word_srctl(hw, offset, data);
}
/**
* i40e_read_nvm_word - Reads nvm word and acquire lock if necessary
* @hw: pointer to the HW structure
* @offset: offset of the Shadow RAM word to read (0x000000 - 0x001FFF)
* @data: word read from the Shadow RAM
*
* Reads one 16 bit word from the Shadow RAM.
**/
i40e_status i40e_read_nvm_word(struct i40e_hw *hw, u16 offset,
u16 *data)
{
i40e_status ret_code = 0;
if (hw->flags & I40E_HW_FLAG_NVM_READ_REQUIRES_LOCK)
ret_code = i40e_acquire_nvm(hw, I40E_RESOURCE_READ);
if (ret_code)
return ret_code;
ret_code = __i40e_read_nvm_word(hw, offset, data);
if (hw->flags & I40E_HW_FLAG_NVM_READ_REQUIRES_LOCK)
i40e_release_nvm(hw);
return ret_code;
}
/**
* i40e_read_nvm_module_data - Reads NVM Buffer to specified memory location
* @hw: pointer to the HW structure
* @module_ptr: Pointer to module in words with respect to NVM beginning
* @offset: offset in words from module start
* @words_data_size: Words to read from NVM
* @data_ptr: Pointer to memory location where resulting buffer will be stored
**/
i40e_status i40e_read_nvm_module_data(struct i40e_hw *hw,
u8 module_ptr, u16 offset,
u16 words_data_size,
u16 *data_ptr)
{
i40e_status status;
u16 ptr_value = 0;
u32 flat_offset;
if (module_ptr != 0) {
status = i40e_read_nvm_word(hw, module_ptr, &ptr_value);
if (status) {
i40e_debug(hw, I40E_DEBUG_ALL,
"Reading nvm word failed.Error code: %d.\n",
status);
return I40E_ERR_NVM;
}
}
#define I40E_NVM_INVALID_PTR_VAL 0x7FFF
#define I40E_NVM_INVALID_VAL 0xFFFF
/* Pointer not initialized */
if (ptr_value == I40E_NVM_INVALID_PTR_VAL ||
ptr_value == I40E_NVM_INVALID_VAL)
return I40E_ERR_BAD_PTR;
/* Check whether the module is in SR mapped area or outside */
if (ptr_value & I40E_PTR_TYPE) {
/* Pointer points outside of the Shared RAM mapped area */
ptr_value &= ~I40E_PTR_TYPE;
/* PtrValue in 4kB units, need to convert to words */
ptr_value /= 2;
flat_offset = ((u32)ptr_value * 0x1000) + (u32)offset;
status = i40e_acquire_nvm(hw, I40E_RESOURCE_READ);
if (!status) {
status = i40e_aq_read_nvm(hw, 0, 2 * flat_offset,
2 * words_data_size,
data_ptr, true, NULL);
i40e_release_nvm(hw);
if (status) {
i40e_debug(hw, I40E_DEBUG_ALL,
"Reading nvm aq failed.Error code: %d.\n",
status);
return I40E_ERR_NVM;
}
} else {
return I40E_ERR_NVM;
}
} else {
/* Read from the Shadow RAM */
status = i40e_read_nvm_buffer(hw, ptr_value + offset,
&words_data_size, data_ptr);
if (status) {
i40e_debug(hw, I40E_DEBUG_ALL,
"Reading nvm buffer failed.Error code: %d.\n",
status);
}
}
return status;
}
/**
* i40e_read_nvm_buffer_srctl - Reads Shadow RAM buffer via SRCTL register
* @hw: pointer to the HW structure
* @offset: offset of the Shadow RAM word to read (0x000000 - 0x001FFF).
* @words: (in) number of words to read; (out) number of words actually read
* @data: words read from the Shadow RAM
*
* Reads 16 bit words (data buffer) from the SR using the i40e_read_nvm_srrd()
* method. The buffer read is preceded by the NVM ownership take
* and followed by the release.
**/
static i40e_status i40e_read_nvm_buffer_srctl(struct i40e_hw *hw, u16 offset,
u16 *words, u16 *data)
{
i40e_status ret_code = 0;
u16 index, word;
/* Loop thru the selected region */
for (word = 0; word < *words; word++) {
index = offset + word;
ret_code = i40e_read_nvm_word_srctl(hw, index, &data[word]);
if (ret_code)
break;
}
/* Update the number of words read from the Shadow RAM */
*words = word;
return ret_code;
}
/**
* i40e_read_nvm_buffer_aq - Reads Shadow RAM buffer via AQ
* @hw: pointer to the HW structure
* @offset: offset of the Shadow RAM word to read (0x000000 - 0x001FFF).
* @words: (in) number of words to read; (out) number of words actually read
* @data: words read from the Shadow RAM
*
* Reads 16 bit words (data buffer) from the SR using the i40e_read_nvm_aq()
* method. The buffer read is preceded by the NVM ownership take
* and followed by the release.
**/
static i40e_status i40e_read_nvm_buffer_aq(struct i40e_hw *hw, u16 offset,
u16 *words, u16 *data)
{
i40e_status ret_code;
u16 read_size;
bool last_cmd = false;
u16 words_read = 0;
u16 i = 0;
do {
/* Calculate number of bytes we should read in this step.
* FVL AQ do not allow to read more than one page at a time or
* to cross page boundaries.
*/
if (offset % I40E_SR_SECTOR_SIZE_IN_WORDS)
read_size = min(*words,
(u16)(I40E_SR_SECTOR_SIZE_IN_WORDS -
(offset % I40E_SR_SECTOR_SIZE_IN_WORDS)));
else
read_size = min((*words - words_read),
I40E_SR_SECTOR_SIZE_IN_WORDS);
/* Check if this is last command, if so set proper flag */
if ((words_read + read_size) >= *words)
last_cmd = true;
ret_code = i40e_read_nvm_aq(hw, 0x0, offset, read_size,
data + words_read, last_cmd);
if (ret_code)
goto read_nvm_buffer_aq_exit;
/* Increment counter for words already read and move offset to
* new read location
*/
words_read += read_size;
offset += read_size;
} while (words_read < *words);
for (i = 0; i < *words; i++)
data[i] = le16_to_cpu(((__le16 *)data)[i]);
read_nvm_buffer_aq_exit:
*words = words_read;
return ret_code;
}
/**
* __i40e_read_nvm_buffer - Reads nvm buffer, caller must acquire lock
* @hw: pointer to the HW structure
* @offset: offset of the Shadow RAM word to read (0x000000 - 0x001FFF).
* @words: (in) number of words to read; (out) number of words actually read
* @data: words read from the Shadow RAM
*
* Reads 16 bit words (data buffer) from the SR using the i40e_read_nvm_srrd()
* method.
**/
static i40e_status __i40e_read_nvm_buffer(struct i40e_hw *hw,
u16 offset, u16 *words,
u16 *data)
{
if (hw->flags & I40E_HW_FLAG_AQ_SRCTL_ACCESS_ENABLE)
return i40e_read_nvm_buffer_aq(hw, offset, words, data);
return i40e_read_nvm_buffer_srctl(hw, offset, words, data);
}
/**
* i40e_read_nvm_buffer - Reads Shadow RAM buffer and acquire lock if necessary
* @hw: pointer to the HW structure
* @offset: offset of the Shadow RAM word to read (0x000000 - 0x001FFF).
* @words: (in) number of words to read; (out) number of words actually read
* @data: words read from the Shadow RAM
*
* Reads 16 bit words (data buffer) from the SR using the i40e_read_nvm_srrd()
* method. The buffer read is preceded by the NVM ownership take
* and followed by the release.
**/
i40e_status i40e_read_nvm_buffer(struct i40e_hw *hw, u16 offset,
u16 *words, u16 *data)
{
i40e_status ret_code = 0;
if (hw->flags & I40E_HW_FLAG_AQ_SRCTL_ACCESS_ENABLE) {
ret_code = i40e_acquire_nvm(hw, I40E_RESOURCE_READ);
if (!ret_code) {
ret_code = i40e_read_nvm_buffer_aq(hw, offset, words,
data);
i40e_release_nvm(hw);
}
} else {
ret_code = i40e_read_nvm_buffer_srctl(hw, offset, words, data);
}
return ret_code;
}
/**
* i40e_write_nvm_aq - Writes Shadow RAM.
* @hw: pointer to the HW structure.
* @module_pointer: module pointer location in words from the NVM beginning
* @offset: offset in words from module start
* @words: number of words to write
* @data: buffer with words to write to the Shadow RAM
* @last_command: tells the AdminQ that this is the last command
*
* Writes a 16 bit words buffer to the Shadow RAM using the admin command.
**/
static i40e_status i40e_write_nvm_aq(struct i40e_hw *hw, u8 module_pointer,
u32 offset, u16 words, void *data,
bool last_command)
{
i40e_status ret_code = I40E_ERR_NVM;
struct i40e_asq_cmd_details cmd_details;
memset(&cmd_details, 0, sizeof(cmd_details));
cmd_details.wb_desc = &hw->nvm_wb_desc;
/* Here we are checking the SR limit only for the flat memory model.
* We cannot do it for the module-based model, as we did not acquire
* the NVM resource yet (we cannot get the module pointer value).
* Firmware will check the module-based model.
*/
if ((offset + words) > hw->nvm.sr_size)
i40e_debug(hw, I40E_DEBUG_NVM,
"NVM write error: offset %d beyond Shadow RAM limit %d\n",
(offset + words), hw->nvm.sr_size);
else if (words > I40E_SR_SECTOR_SIZE_IN_WORDS)
/* We can write only up to 4KB (one sector), in one AQ write */
i40e_debug(hw, I40E_DEBUG_NVM,
"NVM write fail error: tried to write %d words, limit is %d.\n",
words, I40E_SR_SECTOR_SIZE_IN_WORDS);
else if (((offset + (words - 1)) / I40E_SR_SECTOR_SIZE_IN_WORDS)
!= (offset / I40E_SR_SECTOR_SIZE_IN_WORDS))
/* A single write cannot spread over two sectors */
i40e_debug(hw, I40E_DEBUG_NVM,
"NVM write error: cannot spread over two sectors in a single write offset=%d words=%d\n",
offset, words);
else
ret_code = i40e_aq_update_nvm(hw, module_pointer,
2 * offset, /*bytes*/
2 * words, /*bytes*/
data, last_command, 0,
&cmd_details);
return ret_code;
}
/**
* i40e_calc_nvm_checksum - Calculates and returns the checksum
* @hw: pointer to hardware structure
* @checksum: pointer to the checksum
*
* This function calculates SW Checksum that covers the whole 64kB shadow RAM
* except the VPD and PCIe ALT Auto-load modules. The structure and size of VPD
* is customer specific and unknown. Therefore, this function skips all maximum
* possible size of VPD (1kB).
**/
static i40e_status i40e_calc_nvm_checksum(struct i40e_hw *hw,
u16 *checksum)
{
i40e_status ret_code;
struct i40e_virt_mem vmem;
u16 pcie_alt_module = 0;
u16 checksum_local = 0;
u16 vpd_module = 0;
u16 *data;
u16 i = 0;
ret_code = i40e_allocate_virt_mem(hw, &vmem,
I40E_SR_SECTOR_SIZE_IN_WORDS * sizeof(u16));
if (ret_code)
goto i40e_calc_nvm_checksum_exit;
data = (u16 *)vmem.va;
/* read pointer to VPD area */
ret_code = __i40e_read_nvm_word(hw, I40E_SR_VPD_PTR, &vpd_module);
if (ret_code) {
ret_code = I40E_ERR_NVM_CHECKSUM;
goto i40e_calc_nvm_checksum_exit;
}
/* read pointer to PCIe Alt Auto-load module */
ret_code = __i40e_read_nvm_word(hw, I40E_SR_PCIE_ALT_AUTO_LOAD_PTR,
&pcie_alt_module);
if (ret_code) {
ret_code = I40E_ERR_NVM_CHECKSUM;
goto i40e_calc_nvm_checksum_exit;
}
/* Calculate SW checksum that covers the whole 64kB shadow RAM
* except the VPD and PCIe ALT Auto-load modules
*/
for (i = 0; i < hw->nvm.sr_size; i++) {
/* Read SR page */
if ((i % I40E_SR_SECTOR_SIZE_IN_WORDS) == 0) {
u16 words = I40E_SR_SECTOR_SIZE_IN_WORDS;
ret_code = __i40e_read_nvm_buffer(hw, i, &words, data);
if (ret_code) {
ret_code = I40E_ERR_NVM_CHECKSUM;
goto i40e_calc_nvm_checksum_exit;
}
}
/* Skip Checksum word */
if (i == I40E_SR_SW_CHECKSUM_WORD)
continue;
/* Skip VPD module (convert byte size to word count) */
if ((i >= (u32)vpd_module) &&
(i < ((u32)vpd_module +
(I40E_SR_VPD_MODULE_MAX_SIZE / 2)))) {
continue;
}
/* Skip PCIe ALT module (convert byte size to word count) */
if ((i >= (u32)pcie_alt_module) &&
(i < ((u32)pcie_alt_module +
(I40E_SR_PCIE_ALT_MODULE_MAX_SIZE / 2)))) {
continue;
}
checksum_local += data[i % I40E_SR_SECTOR_SIZE_IN_WORDS];
}
*checksum = (u16)I40E_SR_SW_CHECKSUM_BASE - checksum_local;
i40e_calc_nvm_checksum_exit:
i40e_free_virt_mem(hw, &vmem);
return ret_code;
}
/**
* i40e_update_nvm_checksum - Updates the NVM checksum
* @hw: pointer to hardware structure
*
* NVM ownership must be acquired before calling this function and released
* on ARQ completion event reception by caller.
* This function will commit SR to NVM.
**/
i40e_status i40e_update_nvm_checksum(struct i40e_hw *hw)
{
i40e_status ret_code;
u16 checksum;
__le16 le_sum;
ret_code = i40e_calc_nvm_checksum(hw, &checksum);
le_sum = cpu_to_le16(checksum);
if (!ret_code)
ret_code = i40e_write_nvm_aq(hw, 0x00, I40E_SR_SW_CHECKSUM_WORD,
1, &le_sum, true);
return ret_code;
}
/**
* i40e_validate_nvm_checksum - Validate EEPROM checksum
* @hw: pointer to hardware structure
* @checksum: calculated checksum
*
* Performs checksum calculation and validates the NVM SW checksum. If the
* caller does not need checksum, the value can be NULL.
**/
i40e_status i40e_validate_nvm_checksum(struct i40e_hw *hw,
u16 *checksum)
{
i40e_status ret_code = 0;
u16 checksum_sr = 0;
u16 checksum_local = 0;
/* We must acquire the NVM lock in order to correctly synchronize the
* NVM accesses across multiple PFs. Without doing so it is possible
* for one of the PFs to read invalid data potentially indicating that
* the checksum is invalid.
*/
ret_code = i40e_acquire_nvm(hw, I40E_RESOURCE_READ);
if (ret_code)
return ret_code;
ret_code = i40e_calc_nvm_checksum(hw, &checksum_local);
__i40e_read_nvm_word(hw, I40E_SR_SW_CHECKSUM_WORD, &checksum_sr);
i40e_release_nvm(hw);
if (ret_code)
return ret_code;
/* Verify read checksum from EEPROM is the same as
* calculated checksum
*/
if (checksum_local != checksum_sr)
ret_code = I40E_ERR_NVM_CHECKSUM;
/* If the user cares, return the calculated checksum */
if (checksum)
*checksum = checksum_local;
return ret_code;
}
static i40e_status i40e_nvmupd_state_init(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno);
static i40e_status i40e_nvmupd_state_reading(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno);
static i40e_status i40e_nvmupd_state_writing(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *errno);
static enum i40e_nvmupd_cmd i40e_nvmupd_validate_command(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
int *perrno);
static i40e_status i40e_nvmupd_nvm_erase(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
int *perrno);
static i40e_status i40e_nvmupd_nvm_write(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno);
static i40e_status i40e_nvmupd_nvm_read(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno);
static i40e_status i40e_nvmupd_exec_aq(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno);
static i40e_status i40e_nvmupd_get_aq_result(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno);
static i40e_status i40e_nvmupd_get_aq_event(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno);
static inline u8 i40e_nvmupd_get_module(u32 val)
{
return (u8)(val & I40E_NVM_MOD_PNT_MASK);
}
static inline u8 i40e_nvmupd_get_transaction(u32 val)
{
return (u8)((val & I40E_NVM_TRANS_MASK) >> I40E_NVM_TRANS_SHIFT);
}
static inline u8 i40e_nvmupd_get_preservation_flags(u32 val)
{
return (u8)((val & I40E_NVM_PRESERVATION_FLAGS_MASK) >>
I40E_NVM_PRESERVATION_FLAGS_SHIFT);
}
static const char * const i40e_nvm_update_state_str[] = {
"I40E_NVMUPD_INVALID",
"I40E_NVMUPD_READ_CON",
"I40E_NVMUPD_READ_SNT",
"I40E_NVMUPD_READ_LCB",
"I40E_NVMUPD_READ_SA",
"I40E_NVMUPD_WRITE_ERA",
"I40E_NVMUPD_WRITE_CON",
"I40E_NVMUPD_WRITE_SNT",
"I40E_NVMUPD_WRITE_LCB",
"I40E_NVMUPD_WRITE_SA",
"I40E_NVMUPD_CSUM_CON",
"I40E_NVMUPD_CSUM_SA",
"I40E_NVMUPD_CSUM_LCB",
"I40E_NVMUPD_STATUS",
"I40E_NVMUPD_EXEC_AQ",
"I40E_NVMUPD_GET_AQ_RESULT",
"I40E_NVMUPD_GET_AQ_EVENT",
};
/**
* i40e_nvmupd_command - Process an NVM update command
* @hw: pointer to hardware structure
* @cmd: pointer to nvm update command
* @bytes: pointer to the data buffer
* @perrno: pointer to return error code
*
* Dispatches command depending on what update state is current
**/
i40e_status i40e_nvmupd_command(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno)
{
i40e_status status;
enum i40e_nvmupd_cmd upd_cmd;
/* assume success */
*perrno = 0;
/* early check for status command and debug msgs */
upd_cmd = i40e_nvmupd_validate_command(hw, cmd, perrno);
i40e_debug(hw, I40E_DEBUG_NVM, "%s state %d nvm_release_on_hold %d opc 0x%04x cmd 0x%08x config 0x%08x offset 0x%08x data_size 0x%08x\n",
i40e_nvm_update_state_str[upd_cmd],
hw->nvmupd_state,
hw->nvm_release_on_done, hw->nvm_wait_opcode,
cmd->command, cmd->config, cmd->offset, cmd->data_size);
if (upd_cmd == I40E_NVMUPD_INVALID) {
*perrno = -EFAULT;
i40e_debug(hw, I40E_DEBUG_NVM,
"i40e_nvmupd_validate_command returns %d errno %d\n",
upd_cmd, *perrno);
}
/* a status request returns immediately rather than
* going into the state machine
*/
if (upd_cmd == I40E_NVMUPD_STATUS) {
if (!cmd->data_size) {
*perrno = -EFAULT;
return I40E_ERR_BUF_TOO_SHORT;
}
bytes[0] = hw->nvmupd_state;
if (cmd->data_size >= 4) {
bytes[1] = 0;
*((u16 *)&bytes[2]) = hw->nvm_wait_opcode;
}
/* Clear error status on read */
if (hw->nvmupd_state == I40E_NVMUPD_STATE_ERROR)
hw->nvmupd_state = I40E_NVMUPD_STATE_INIT;
return 0;
}
/* Clear status even it is not read and log */
if (hw->nvmupd_state == I40E_NVMUPD_STATE_ERROR) {
i40e_debug(hw, I40E_DEBUG_NVM,
"Clearing I40E_NVMUPD_STATE_ERROR state without reading\n");
hw->nvmupd_state = I40E_NVMUPD_STATE_INIT;
}
/* Acquire lock to prevent race condition where adminq_task
* can execute after i40e_nvmupd_nvm_read/write but before state
* variables (nvm_wait_opcode, nvm_release_on_done) are updated.
*
* During NVMUpdate, it is observed that lock could be held for
* ~5ms for most commands. However lock is held for ~60ms for
* NVMUPD_CSUM_LCB command.
*/
mutex_lock(&hw->aq.arq_mutex);
switch (hw->nvmupd_state) {
case I40E_NVMUPD_STATE_INIT:
status = i40e_nvmupd_state_init(hw, cmd, bytes, perrno);
break;
case I40E_NVMUPD_STATE_READING:
status = i40e_nvmupd_state_reading(hw, cmd, bytes, perrno);
break;
case I40E_NVMUPD_STATE_WRITING:
status = i40e_nvmupd_state_writing(hw, cmd, bytes, perrno);
break;
case I40E_NVMUPD_STATE_INIT_WAIT:
case I40E_NVMUPD_STATE_WRITE_WAIT:
/* if we need to stop waiting for an event, clear
* the wait info and return before doing anything else
*/
if (cmd->offset == 0xffff) {
i40e_nvmupd_clear_wait_state(hw);
status = 0;
break;
}
status = I40E_ERR_NOT_READY;
*perrno = -EBUSY;
break;
default:
/* invalid state, should never happen */
i40e_debug(hw, I40E_DEBUG_NVM,
"NVMUPD: no such state %d\n", hw->nvmupd_state);
status = I40E_NOT_SUPPORTED;
*perrno = -ESRCH;
break;
}
mutex_unlock(&hw->aq.arq_mutex);
return status;
}
/**
* i40e_nvmupd_state_init - Handle NVM update state Init
* @hw: pointer to hardware structure
* @cmd: pointer to nvm update command buffer
* @bytes: pointer to the data buffer
* @perrno: pointer to return error code
*
* Process legitimate commands of the Init state and conditionally set next
* state. Reject all other commands.
**/
static i40e_status i40e_nvmupd_state_init(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno)
{
i40e_status status = 0;
enum i40e_nvmupd_cmd upd_cmd;
upd_cmd = i40e_nvmupd_validate_command(hw, cmd, perrno);
switch (upd_cmd) {
case I40E_NVMUPD_READ_SA:
status = i40e_acquire_nvm(hw, I40E_RESOURCE_READ);
if (status) {
*perrno = i40e_aq_rc_to_posix(status,
hw->aq.asq_last_status);
} else {
status = i40e_nvmupd_nvm_read(hw, cmd, bytes, perrno);
i40e_release_nvm(hw);
}
break;
case I40E_NVMUPD_READ_SNT:
status = i40e_acquire_nvm(hw, I40E_RESOURCE_READ);
if (status) {
*perrno = i40e_aq_rc_to_posix(status,
hw->aq.asq_last_status);
} else {
status = i40e_nvmupd_nvm_read(hw, cmd, bytes, perrno);
if (status)
i40e_release_nvm(hw);
else
hw->nvmupd_state = I40E_NVMUPD_STATE_READING;
}
break;
case I40E_NVMUPD_WRITE_ERA:
status = i40e_acquire_nvm(hw, I40E_RESOURCE_WRITE);
if (status) {
*perrno = i40e_aq_rc_to_posix(status,
hw->aq.asq_last_status);
} else {
status = i40e_nvmupd_nvm_erase(hw, cmd, perrno);
if (status) {
i40e_release_nvm(hw);
} else {
hw->nvm_release_on_done = true;
hw->nvm_wait_opcode = i40e_aqc_opc_nvm_erase;
hw->nvmupd_state = I40E_NVMUPD_STATE_INIT_WAIT;
}
}
break;
case I40E_NVMUPD_WRITE_SA:
status = i40e_acquire_nvm(hw, I40E_RESOURCE_WRITE);
if (status) {
*perrno = i40e_aq_rc_to_posix(status,
hw->aq.asq_last_status);
} else {
status = i40e_nvmupd_nvm_write(hw, cmd, bytes, perrno);
if (status) {
i40e_release_nvm(hw);
} else {
hw->nvm_release_on_done = true;
hw->nvm_wait_opcode = i40e_aqc_opc_nvm_update;
hw->nvmupd_state = I40E_NVMUPD_STATE_INIT_WAIT;
}
}
break;
case I40E_NVMUPD_WRITE_SNT:
status = i40e_acquire_nvm(hw, I40E_RESOURCE_WRITE);
if (status) {
*perrno = i40e_aq_rc_to_posix(status,
hw->aq.asq_last_status);
} else {
status = i40e_nvmupd_nvm_write(hw, cmd, bytes, perrno);
if (status) {
i40e_release_nvm(hw);
} else {
hw->nvm_wait_opcode = i40e_aqc_opc_nvm_update;
hw->nvmupd_state = I40E_NVMUPD_STATE_WRITE_WAIT;
}
}
break;
case I40E_NVMUPD_CSUM_SA:
status = i40e_acquire_nvm(hw, I40E_RESOURCE_WRITE);
if (status) {
*perrno = i40e_aq_rc_to_posix(status,
hw->aq.asq_last_status);
} else {
status = i40e_update_nvm_checksum(hw);
if (status) {
*perrno = hw->aq.asq_last_status ?
i40e_aq_rc_to_posix(status,
hw->aq.asq_last_status) :
-EIO;
i40e_release_nvm(hw);
} else {
hw->nvm_release_on_done = true;
hw->nvm_wait_opcode = i40e_aqc_opc_nvm_update;
hw->nvmupd_state = I40E_NVMUPD_STATE_INIT_WAIT;
}
}
break;
case I40E_NVMUPD_EXEC_AQ:
status = i40e_nvmupd_exec_aq(hw, cmd, bytes, perrno);
break;
case I40E_NVMUPD_GET_AQ_RESULT:
status = i40e_nvmupd_get_aq_result(hw, cmd, bytes, perrno);
break;
case I40E_NVMUPD_GET_AQ_EVENT:
status = i40e_nvmupd_get_aq_event(hw, cmd, bytes, perrno);
break;
default:
i40e_debug(hw, I40E_DEBUG_NVM,
"NVMUPD: bad cmd %s in init state\n",
i40e_nvm_update_state_str[upd_cmd]);
status = I40E_ERR_NVM;
*perrno = -ESRCH;
break;
}
return status;
}
/**
* i40e_nvmupd_state_reading - Handle NVM update state Reading
* @hw: pointer to hardware structure
* @cmd: pointer to nvm update command buffer
* @bytes: pointer to the data buffer
* @perrno: pointer to return error code
*
* NVM ownership is already held. Process legitimate commands and set any
* change in state; reject all other commands.
**/
static i40e_status i40e_nvmupd_state_reading(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno)
{
i40e_status status = 0;
enum i40e_nvmupd_cmd upd_cmd;
upd_cmd = i40e_nvmupd_validate_command(hw, cmd, perrno);
switch (upd_cmd) {
case I40E_NVMUPD_READ_SA:
case I40E_NVMUPD_READ_CON:
status = i40e_nvmupd_nvm_read(hw, cmd, bytes, perrno);
break;
case I40E_NVMUPD_READ_LCB:
status = i40e_nvmupd_nvm_read(hw, cmd, bytes, perrno);
i40e_release_nvm(hw);
hw->nvmupd_state = I40E_NVMUPD_STATE_INIT;
break;
default:
i40e_debug(hw, I40E_DEBUG_NVM,
"NVMUPD: bad cmd %s in reading state.\n",
i40e_nvm_update_state_str[upd_cmd]);
status = I40E_NOT_SUPPORTED;
*perrno = -ESRCH;
break;
}
return status;
}
/**
* i40e_nvmupd_state_writing - Handle NVM update state Writing
* @hw: pointer to hardware structure
* @cmd: pointer to nvm update command buffer
* @bytes: pointer to the data buffer
* @perrno: pointer to return error code
*
* NVM ownership is already held. Process legitimate commands and set any
* change in state; reject all other commands
**/
static i40e_status i40e_nvmupd_state_writing(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno)
{
i40e_status status = 0;
enum i40e_nvmupd_cmd upd_cmd;
bool retry_attempt = false;
upd_cmd = i40e_nvmupd_validate_command(hw, cmd, perrno);
retry:
switch (upd_cmd) {
case I40E_NVMUPD_WRITE_CON:
status = i40e_nvmupd_nvm_write(hw, cmd, bytes, perrno);
if (!status) {
hw->nvm_wait_opcode = i40e_aqc_opc_nvm_update;
hw->nvmupd_state = I40E_NVMUPD_STATE_WRITE_WAIT;
}
break;
case I40E_NVMUPD_WRITE_LCB:
status = i40e_nvmupd_nvm_write(hw, cmd, bytes, perrno);
if (status) {
*perrno = hw->aq.asq_last_status ?
i40e_aq_rc_to_posix(status,
hw->aq.asq_last_status) :
-EIO;
hw->nvmupd_state = I40E_NVMUPD_STATE_INIT;
} else {
hw->nvm_release_on_done = true;
hw->nvm_wait_opcode = i40e_aqc_opc_nvm_update;
hw->nvmupd_state = I40E_NVMUPD_STATE_INIT_WAIT;
}
break;
case I40E_NVMUPD_CSUM_CON:
/* Assumes the caller has acquired the nvm */
status = i40e_update_nvm_checksum(hw);
if (status) {
*perrno = hw->aq.asq_last_status ?
i40e_aq_rc_to_posix(status,
hw->aq.asq_last_status) :
-EIO;
hw->nvmupd_state = I40E_NVMUPD_STATE_INIT;
} else {
hw->nvm_wait_opcode = i40e_aqc_opc_nvm_update;
hw->nvmupd_state = I40E_NVMUPD_STATE_WRITE_WAIT;
}
break;
case I40E_NVMUPD_CSUM_LCB:
/* Assumes the caller has acquired the nvm */
status = i40e_update_nvm_checksum(hw);
if (status) {
*perrno = hw->aq.asq_last_status ?
i40e_aq_rc_to_posix(status,
hw->aq.asq_last_status) :
-EIO;
hw->nvmupd_state = I40E_NVMUPD_STATE_INIT;
} else {
hw->nvm_release_on_done = true;
hw->nvm_wait_opcode = i40e_aqc_opc_nvm_update;
hw->nvmupd_state = I40E_NVMUPD_STATE_INIT_WAIT;
}
break;
default:
i40e_debug(hw, I40E_DEBUG_NVM,
"NVMUPD: bad cmd %s in writing state.\n",
i40e_nvm_update_state_str[upd_cmd]);
status = I40E_NOT_SUPPORTED;
*perrno = -ESRCH;
break;
}
/* In some circumstances, a multi-write transaction takes longer
* than the default 3 minute timeout on the write semaphore. If
* the write failed with an EBUSY status, this is likely the problem,
* so here we try to reacquire the semaphore then retry the write.
* We only do one retry, then give up.
*/
if (status && (hw->aq.asq_last_status == I40E_AQ_RC_EBUSY) &&
!retry_attempt) {
i40e_status old_status = status;
u32 old_asq_status = hw->aq.asq_last_status;
u32 gtime;
gtime = rd32(hw, I40E_GLVFGEN_TIMER);
if (gtime >= hw->nvm.hw_semaphore_timeout) {
i40e_debug(hw, I40E_DEBUG_ALL,
"NVMUPD: write semaphore expired (%d >= %lld), retrying\n",
gtime, hw->nvm.hw_semaphore_timeout);
i40e_release_nvm(hw);
status = i40e_acquire_nvm(hw, I40E_RESOURCE_WRITE);
if (status) {
i40e_debug(hw, I40E_DEBUG_ALL,
"NVMUPD: write semaphore reacquire failed aq_err = %d\n",
hw->aq.asq_last_status);
status = old_status;
hw->aq.asq_last_status = old_asq_status;
} else {
retry_attempt = true;
goto retry;
}
}
}
return status;
}
/**
* i40e_nvmupd_clear_wait_state - clear wait state on hw
* @hw: pointer to the hardware structure
**/
void i40e_nvmupd_clear_wait_state(struct i40e_hw *hw)
{
i40e_debug(hw, I40E_DEBUG_NVM,
"NVMUPD: clearing wait on opcode 0x%04x\n",
hw->nvm_wait_opcode);
if (hw->nvm_release_on_done) {
i40e_release_nvm(hw);
hw->nvm_release_on_done = false;
}
hw->nvm_wait_opcode = 0;
if (hw->aq.arq_last_status) {
hw->nvmupd_state = I40E_NVMUPD_STATE_ERROR;
return;
}
switch (hw->nvmupd_state) {
case I40E_NVMUPD_STATE_INIT_WAIT:
hw->nvmupd_state = I40E_NVMUPD_STATE_INIT;
break;
case I40E_NVMUPD_STATE_WRITE_WAIT:
hw->nvmupd_state = I40E_NVMUPD_STATE_WRITING;
break;
default:
break;
}
}
/**
* i40e_nvmupd_check_wait_event - handle NVM update operation events
* @hw: pointer to the hardware structure
* @opcode: the event that just happened
* @desc: AdminQ descriptor
**/
void i40e_nvmupd_check_wait_event(struct i40e_hw *hw, u16 opcode,
struct i40e_aq_desc *desc)
{
u32 aq_desc_len = sizeof(struct i40e_aq_desc);
if (opcode == hw->nvm_wait_opcode) {
memcpy(&hw->nvm_aq_event_desc, desc, aq_desc_len);
i40e_nvmupd_clear_wait_state(hw);
}
}
/**
* i40e_nvmupd_validate_command - Validate given command
* @hw: pointer to hardware structure
* @cmd: pointer to nvm update command buffer
* @perrno: pointer to return error code
*
* Return one of the valid command types or I40E_NVMUPD_INVALID
**/
static enum i40e_nvmupd_cmd i40e_nvmupd_validate_command(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
int *perrno)
{
enum i40e_nvmupd_cmd upd_cmd;
u8 module, transaction;
/* anything that doesn't match a recognized case is an error */
upd_cmd = I40E_NVMUPD_INVALID;
transaction = i40e_nvmupd_get_transaction(cmd->config);
module = i40e_nvmupd_get_module(cmd->config);
/* limits on data size */
if ((cmd->data_size < 1) ||
(cmd->data_size > I40E_NVMUPD_MAX_DATA)) {
i40e_debug(hw, I40E_DEBUG_NVM,
"i40e_nvmupd_validate_command data_size %d\n",
cmd->data_size);
*perrno = -EFAULT;
return I40E_NVMUPD_INVALID;
}
switch (cmd->command) {
case I40E_NVM_READ:
switch (transaction) {
case I40E_NVM_CON:
upd_cmd = I40E_NVMUPD_READ_CON;
break;
case I40E_NVM_SNT:
upd_cmd = I40E_NVMUPD_READ_SNT;
break;
case I40E_NVM_LCB:
upd_cmd = I40E_NVMUPD_READ_LCB;
break;
case I40E_NVM_SA:
upd_cmd = I40E_NVMUPD_READ_SA;
break;
case I40E_NVM_EXEC:
if (module == 0xf)
upd_cmd = I40E_NVMUPD_STATUS;
else if (module == 0)
upd_cmd = I40E_NVMUPD_GET_AQ_RESULT;
break;
case I40E_NVM_AQE:
upd_cmd = I40E_NVMUPD_GET_AQ_EVENT;
break;
}
break;
case I40E_NVM_WRITE:
switch (transaction) {
case I40E_NVM_CON:
upd_cmd = I40E_NVMUPD_WRITE_CON;
break;
case I40E_NVM_SNT:
upd_cmd = I40E_NVMUPD_WRITE_SNT;
break;
case I40E_NVM_LCB:
upd_cmd = I40E_NVMUPD_WRITE_LCB;
break;
case I40E_NVM_SA:
upd_cmd = I40E_NVMUPD_WRITE_SA;
break;
case I40E_NVM_ERA:
upd_cmd = I40E_NVMUPD_WRITE_ERA;
break;
case I40E_NVM_CSUM:
upd_cmd = I40E_NVMUPD_CSUM_CON;
break;
case (I40E_NVM_CSUM|I40E_NVM_SA):
upd_cmd = I40E_NVMUPD_CSUM_SA;
break;
case (I40E_NVM_CSUM|I40E_NVM_LCB):
upd_cmd = I40E_NVMUPD_CSUM_LCB;
break;
case I40E_NVM_EXEC:
if (module == 0)
upd_cmd = I40E_NVMUPD_EXEC_AQ;
break;
}
break;
}
return upd_cmd;
}
/**
* i40e_nvmupd_exec_aq - Run an AQ command
* @hw: pointer to hardware structure
* @cmd: pointer to nvm update command buffer
* @bytes: pointer to the data buffer
* @perrno: pointer to return error code
*
* cmd structure contains identifiers and data buffer
**/
static i40e_status i40e_nvmupd_exec_aq(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno)
{
struct i40e_asq_cmd_details cmd_details;
i40e_status status;
struct i40e_aq_desc *aq_desc;
u32 buff_size = 0;
u8 *buff = NULL;
u32 aq_desc_len;
u32 aq_data_len;
i40e_debug(hw, I40E_DEBUG_NVM, "NVMUPD: %s\n", __func__);
if (cmd->offset == 0xffff)
return 0;
memset(&cmd_details, 0, sizeof(cmd_details));
cmd_details.wb_desc = &hw->nvm_wb_desc;
aq_desc_len = sizeof(struct i40e_aq_desc);
memset(&hw->nvm_wb_desc, 0, aq_desc_len);
/* get the aq descriptor */
if (cmd->data_size < aq_desc_len) {
i40e_debug(hw, I40E_DEBUG_NVM,
"NVMUPD: not enough aq desc bytes for exec, size %d < %d\n",
cmd->data_size, aq_desc_len);
*perrno = -EINVAL;
return I40E_ERR_PARAM;
}
aq_desc = (struct i40e_aq_desc *)bytes;
/* if data buffer needed, make sure it's ready */
aq_data_len = cmd->data_size - aq_desc_len;
buff_size = max_t(u32, aq_data_len, le16_to_cpu(aq_desc->datalen));
if (buff_size) {
if (!hw->nvm_buff.va) {
status = i40e_allocate_virt_mem(hw, &hw->nvm_buff,
hw->aq.asq_buf_size);
if (status)
i40e_debug(hw, I40E_DEBUG_NVM,
"NVMUPD: i40e_allocate_virt_mem for exec buff failed, %d\n",
status);
}
if (hw->nvm_buff.va) {
buff = hw->nvm_buff.va;
memcpy(buff, &bytes[aq_desc_len], aq_data_len);
}
}
if (cmd->offset)
memset(&hw->nvm_aq_event_desc, 0, aq_desc_len);
/* and away we go! */
status = i40e_asq_send_command(hw, aq_desc, buff,
buff_size, &cmd_details);
if (status) {
i40e_debug(hw, I40E_DEBUG_NVM,
"i40e_nvmupd_exec_aq err %s aq_err %s\n",
i40e_stat_str(hw, status),
i40e_aq_str(hw, hw->aq.asq_last_status));
*perrno = i40e_aq_rc_to_posix(status, hw->aq.asq_last_status);
return status;
}
/* should we wait for a followup event? */
if (cmd->offset) {
hw->nvm_wait_opcode = cmd->offset;
hw->nvmupd_state = I40E_NVMUPD_STATE_INIT_WAIT;
}
return status;
}
/**
* i40e_nvmupd_get_aq_result - Get the results from the previous exec_aq
* @hw: pointer to hardware structure
* @cmd: pointer to nvm update command buffer
* @bytes: pointer to the data buffer
* @perrno: pointer to return error code
*
* cmd structure contains identifiers and data buffer
**/
static i40e_status i40e_nvmupd_get_aq_result(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno)
{
u32 aq_total_len;
u32 aq_desc_len;
int remainder;
u8 *buff;
i40e_debug(hw, I40E_DEBUG_NVM, "NVMUPD: %s\n", __func__);
aq_desc_len = sizeof(struct i40e_aq_desc);
aq_total_len = aq_desc_len + le16_to_cpu(hw->nvm_wb_desc.datalen);
/* check offset range */
if (cmd->offset > aq_total_len) {
i40e_debug(hw, I40E_DEBUG_NVM, "%s: offset too big %d > %d\n",
__func__, cmd->offset, aq_total_len);
*perrno = -EINVAL;
return I40E_ERR_PARAM;
}
/* check copylength range */
if (cmd->data_size > (aq_total_len - cmd->offset)) {
int new_len = aq_total_len - cmd->offset;
i40e_debug(hw, I40E_DEBUG_NVM, "%s: copy length %d too big, trimming to %d\n",
__func__, cmd->data_size, new_len);
cmd->data_size = new_len;
}
remainder = cmd->data_size;
if (cmd->offset < aq_desc_len) {
u32 len = aq_desc_len - cmd->offset;
len = min(len, cmd->data_size);
i40e_debug(hw, I40E_DEBUG_NVM, "%s: aq_desc bytes %d to %d\n",
__func__, cmd->offset, cmd->offset + len);
buff = ((u8 *)&hw->nvm_wb_desc) + cmd->offset;
memcpy(bytes, buff, len);
bytes += len;
remainder -= len;
buff = hw->nvm_buff.va;
} else {
buff = hw->nvm_buff.va + (cmd->offset - aq_desc_len);
}
if (remainder > 0) {
int start_byte = buff - (u8 *)hw->nvm_buff.va;
i40e_debug(hw, I40E_DEBUG_NVM, "%s: databuf bytes %d to %d\n",
__func__, start_byte, start_byte + remainder);
memcpy(bytes, buff, remainder);
}
return 0;
}
/**
* i40e_nvmupd_get_aq_event - Get the Admin Queue event from previous exec_aq
* @hw: pointer to hardware structure
* @cmd: pointer to nvm update command buffer
* @bytes: pointer to the data buffer
* @perrno: pointer to return error code
*
* cmd structure contains identifiers and data buffer
**/
static i40e_status i40e_nvmupd_get_aq_event(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno)
{
u32 aq_total_len;
u32 aq_desc_len;
i40e_debug(hw, I40E_DEBUG_NVM, "NVMUPD: %s\n", __func__);
aq_desc_len = sizeof(struct i40e_aq_desc);
aq_total_len = aq_desc_len + le16_to_cpu(hw->nvm_aq_event_desc.datalen);
/* check copylength range */
if (cmd->data_size > aq_total_len) {
i40e_debug(hw, I40E_DEBUG_NVM,
"%s: copy length %d too big, trimming to %d\n",
__func__, cmd->data_size, aq_total_len);
cmd->data_size = aq_total_len;
}
memcpy(bytes, &hw->nvm_aq_event_desc, cmd->data_size);
return 0;
}
/**
* i40e_nvmupd_nvm_read - Read NVM
* @hw: pointer to hardware structure
* @cmd: pointer to nvm update command buffer
* @bytes: pointer to the data buffer
* @perrno: pointer to return error code
*
* cmd structure contains identifiers and data buffer
**/
static i40e_status i40e_nvmupd_nvm_read(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno)
{
struct i40e_asq_cmd_details cmd_details;
i40e_status status;
u8 module, transaction;
bool last;
transaction = i40e_nvmupd_get_transaction(cmd->config);
module = i40e_nvmupd_get_module(cmd->config);
last = (transaction == I40E_NVM_LCB) || (transaction == I40E_NVM_SA);
memset(&cmd_details, 0, sizeof(cmd_details));
cmd_details.wb_desc = &hw->nvm_wb_desc;
status = i40e_aq_read_nvm(hw, module, cmd->offset, (u16)cmd->data_size,
bytes, last, &cmd_details);
if (status) {
i40e_debug(hw, I40E_DEBUG_NVM,
"i40e_nvmupd_nvm_read mod 0x%x off 0x%x len 0x%x\n",
module, cmd->offset, cmd->data_size);
i40e_debug(hw, I40E_DEBUG_NVM,
"i40e_nvmupd_nvm_read status %d aq %d\n",
status, hw->aq.asq_last_status);
*perrno = i40e_aq_rc_to_posix(status, hw->aq.asq_last_status);
}
return status;
}
/**
* i40e_nvmupd_nvm_erase - Erase an NVM module
* @hw: pointer to hardware structure
* @cmd: pointer to nvm update command buffer
* @perrno: pointer to return error code
*
* module, offset, data_size and data are in cmd structure
**/
static i40e_status i40e_nvmupd_nvm_erase(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
int *perrno)
{
i40e_status status = 0;
struct i40e_asq_cmd_details cmd_details;
u8 module, transaction;
bool last;
transaction = i40e_nvmupd_get_transaction(cmd->config);
module = i40e_nvmupd_get_module(cmd->config);
last = (transaction & I40E_NVM_LCB);
memset(&cmd_details, 0, sizeof(cmd_details));
cmd_details.wb_desc = &hw->nvm_wb_desc;
status = i40e_aq_erase_nvm(hw, module, cmd->offset, (u16)cmd->data_size,
last, &cmd_details);
if (status) {
i40e_debug(hw, I40E_DEBUG_NVM,
"i40e_nvmupd_nvm_erase mod 0x%x off 0x%x len 0x%x\n",
module, cmd->offset, cmd->data_size);
i40e_debug(hw, I40E_DEBUG_NVM,
"i40e_nvmupd_nvm_erase status %d aq %d\n",
status, hw->aq.asq_last_status);
*perrno = i40e_aq_rc_to_posix(status, hw->aq.asq_last_status);
}
return status;
}
/**
* i40e_nvmupd_nvm_write - Write NVM
* @hw: pointer to hardware structure
* @cmd: pointer to nvm update command buffer
* @bytes: pointer to the data buffer
* @perrno: pointer to return error code
*
* module, offset, data_size and data are in cmd structure
**/
static i40e_status i40e_nvmupd_nvm_write(struct i40e_hw *hw,
struct i40e_nvm_access *cmd,
u8 *bytes, int *perrno)
{
i40e_status status = 0;
struct i40e_asq_cmd_details cmd_details;
u8 module, transaction;
u8 preservation_flags;
bool last;
transaction = i40e_nvmupd_get_transaction(cmd->config);
module = i40e_nvmupd_get_module(cmd->config);
last = (transaction & I40E_NVM_LCB);
preservation_flags = i40e_nvmupd_get_preservation_flags(cmd->config);
memset(&cmd_details, 0, sizeof(cmd_details));
cmd_details.wb_desc = &hw->nvm_wb_desc;
status = i40e_aq_update_nvm(hw, module, cmd->offset,
(u16)cmd->data_size, bytes, last,
preservation_flags, &cmd_details);
if (status) {
i40e_debug(hw, I40E_DEBUG_NVM,
"i40e_nvmupd_nvm_write mod 0x%x off 0x%x len 0x%x\n",
module, cmd->offset, cmd->data_size);
i40e_debug(hw, I40E_DEBUG_NVM,
"i40e_nvmupd_nvm_write status %d aq %d\n",
status, hw->aq.asq_last_status);
*perrno = i40e_aq_rc_to_posix(status, hw->aq.asq_last_status);
}
return status;
}
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