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Location: vmkdrivers/vmkdrivers/src_9/drivers/net/nx_nic/nx_nic_minidump.c
bd21c8aa7237
19.3 KiB
text/x-csrc
ESXi-6.0.0b
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* Copyright (C) 2003 - 2009 NetXen, Inc.
* Copyright (C) 2009 - QLogic Corporation.
* All rights reserved.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston,
* MA 02111-1307, USA.
*
* The full GNU General Public License is included in this distribution
* in the file called LICENSE.
*
*/
#include "unm_version.h"
#include "unm_nic.h"
/*
* Prototype Functions.
*/
static int nx_nic_md_cntrl(struct unm_adapter_s *adapter, ql_minidump_template_hdr_t
*template_hdr, ql_minidump_entry_crb_t *crbEntry);
static u32 nx_nic_md_rd_crb(struct unm_adapter_s *adapter, ql_minidump_entry_crb_t
*crbEntry, u32 *data_buff);
static int nx_nic_md_L1Cache(struct unm_adapter_s *adapter, ql_minidump_entry_cache_t
*cacheEntry, u32 *data_buff);
static int nx_nic_md_L2Cache(struct unm_adapter_s *adapter, ql_minidump_entry_cache_t
*cacheEntry, u32 *data_buff);
static int nx_nic_md_rdocm(struct unm_adapter_s *adapter, ql_minidump_entry_rdocm_t
*ocmEntry, u32 *data_buff);
static int nx_nic_md_rdmem(struct unm_adapter_s *adapter, ql_minidump_entry_rdmem_t
*memEntry, u64 *data_buff);
static int nx_nic_md_rdmn(struct unm_adapter_s *adapter, ql_minidump_entry_rdmem_t
*memEntry, u64 *data_buff);
static int nx_nic_md_rdrom(struct unm_adapter_s *adapter, ql_minidump_entry_rdrom_t
*romEntry, u64 *data_buff);
static u32 nx_nic_md_rdmux(struct unm_adapter_s *adapter, ql_minidump_entry_mux_t
*crbEntry, u32 *data_buff);
static u32 nx_nic_md_rdqueue(struct unm_adapter_s *adapter, ql_minidump_entry_queue_t
*queueEntry, u32 *data_buff);
static int nx_nic_md_entry_err_chk(ql_minidump_entry_t *entry, u32 esize);
/*
* Processing the acquired minidump template.
* template_buff ==> holds the template received from firmware
* dump_buff ==> buffer allocated for data capture
* buff_size ==> size of buffer allocated for data capture
* capture_mask ==> mask selected by driver to filter entries
*/
static int
nx_nic_parse_md_template(struct unm_adapter_s *adapter)
{
int num_of_entries, buff_level, e_cnt;
int end_cnt = 0;
int rv = 0, esize;
char *dbuff;
int sane_start = 0, sane_end = 0;
uint64_t cur_fn = (uint64_t)nx_nic_parse_md_template;
void *template_buff = adapter->mdump.md_capture_buff;
char *dump_buff = adapter->mdump.md_capture_buff + adapter->mdump.md_template_size;
int capture_mask = adapter->mdump.md_capture_mask;
ql_minidump_template_hdr_t *template_hdr;
ql_minidump_entry_t *entry;
NX_NIC_TRC_FN(adapter, cur_fn, 0);
if ((capture_mask & 0x3) != 0x3) {
dev_err(&adapter->pdev->dev, "Capture mask %02x below minimum needed "
"for valid firmware dump\n", capture_mask);
NX_NIC_TRC_FN(adapter, cur_fn, -EINVAL);
return -EINVAL;
}
template_hdr = (ql_minidump_template_hdr_t *) template_buff;
if (template_hdr->entry_type == TLHDR) {
sane_start = 1;
}
num_of_entries = template_hdr->num_of_entries;
entry = (ql_minidump_entry_t *) ((char *) template_buff +
template_hdr->first_entry_offset);
for (e_cnt = 0, buff_level = 0; e_cnt < num_of_entries; e_cnt++) {
/*
* If the capture_mask of the entry does not match capture mask,
* skip the entry after marking the driver_flags indicator.
*/
if (!(entry->hdr.entry_capture_mask & capture_mask)) {
entry->hdr.driver_flags |= QL_DBG_SKIPPED_FLAG;
entry = (ql_minidump_entry_t *) ((char *) entry + entry->hdr.entry_size);
continue;
}
/*
* Decode the entry type and process it accordingly.
*/
switch (entry->hdr.entry_type) {
case RDNOP:
entry->hdr.driver_flags |= QL_DBG_SKIPPED_FLAG;
break;
case RDEND:
entry->hdr.driver_flags |= QL_DBG_SKIPPED_FLAG;
if (!sane_end) {
end_cnt = e_cnt;
}
sane_end += 1;
break;
case CNTRL:
if ((rv = nx_nic_md_cntrl(adapter, template_hdr, (void *) entry))) {
entry->hdr.driver_flags |= QL_DBG_SKIPPED_FLAG;
}
break;
case RDCRB:
dbuff = dump_buff + buff_level;
esize = nx_nic_md_rd_crb(adapter, (void *) entry, (void *) dbuff);
if ((rv = nx_nic_md_entry_err_chk(entry, esize)) < 0) {
break;
}
buff_level += esize;
break;
case RDMEM:
dbuff = dump_buff + buff_level;
esize = nx_nic_md_rdmem(adapter, (void *) entry, (void *) dbuff);
if ((rv = nx_nic_md_entry_err_chk(entry, esize)) < 0) {
break;
}
buff_level += esize;
break;
case RDMN:
dbuff = dump_buff + buff_level;
esize = nx_nic_md_rdmn(adapter, (void *) entry, (void *) dbuff);
if ((rv = nx_nic_md_entry_err_chk(entry, esize)) < 0) {
break;
}
buff_level += esize;
break;
case BOARD:
case RDROM:
dbuff = dump_buff + buff_level;
esize = nx_nic_md_rdrom(adapter, (void *) entry, (void *) dbuff);
if ((rv = nx_nic_md_entry_err_chk(entry, esize)) < 0) {
break;
}
buff_level += esize;
break;
case L2ITG:
case L2DTG:
case L2DAT:
case L2INS:
dbuff = dump_buff + buff_level;
esize = nx_nic_md_L2Cache(adapter, (void *) entry, (void *) dbuff);
if ((rv = nx_nic_md_entry_err_chk(entry, esize)) < 0) {
break;
}
buff_level += esize;
break;
case L1DAT:
case L1INS:
dbuff = dump_buff + buff_level;
esize = nx_nic_md_L1Cache(adapter, (void *) entry, (void *) dbuff);
if ((rv = nx_nic_md_entry_err_chk(entry, esize)) < 0) {
break;
}
buff_level += esize;
break;
case RDOCM:
dbuff = dump_buff + buff_level;
esize = nx_nic_md_rdocm(adapter, (void *) entry, (void *) dbuff);
if ((rv = nx_nic_md_entry_err_chk(entry, esize)) < 0) {
break;
}
buff_level += esize;
break;
case RDMUX:
dbuff = dump_buff + buff_level;
esize = nx_nic_md_rdmux(adapter, (void *) entry, (void *) dbuff);
if ((rv = nx_nic_md_entry_err_chk(entry, esize)) < 0) {
break;
}
buff_level += esize;
break;
case QUEUE:
dbuff = dump_buff + buff_level;
esize = nx_nic_md_rdqueue(adapter, (void *) entry, (void *) dbuff);
if ((rv = nx_nic_md_entry_err_chk(entry, esize)) < 0) {
break;
}
buff_level += esize;
break;
default:
entry->hdr.driver_flags |= QL_DBG_SKIPPED_FLAG;
break;
}
/* Next entry in the template */
entry = (ql_minidump_entry_t *) ((char *) entry + entry->hdr.entry_size);
}
if (!sane_start || sane_end > 1) {
dev_err(&adapter->pdev->dev, "Firmware minidump template configuration error.\n");
}
NX_NIC_TRC_FN(adapter, cur_fn, 0);
return 0;
}
/*
* Read CRB operation.
*/
static u32
nx_nic_md_rd_crb(struct unm_adapter_s *adapter, ql_minidump_entry_crb_t
*crbEntry, u32 *data_buff)
{
int loop_cnt;
u32 op_count, addr, stride, value;
addr = crbEntry->addr;
op_count = crbEntry->op_count;
stride = crbEntry->addr_stride;
for (loop_cnt = 0; loop_cnt < op_count; loop_cnt++) {
value = unm_nic_hw_read_bar_reg_2M(adapter, addr);
*data_buff++ = addr;
*data_buff++ = value;
addr = addr + stride;
}
return (loop_cnt * (2 * sizeof(u32)));
}
/*
* Handling crb control entries.
*/
static int
nx_nic_md_cntrl(struct unm_adapter_s *adapter, ql_minidump_template_hdr_t
*template_hdr, ql_minidump_entry_crb_t *crbEntry)
{
int loop_cnt, i;
u32 op_count, stride;
volatile u32 opcode, read_value, addr;
int rv = 0, timeout_flag;
unsigned long timeout, timeout_jiffies;
addr = crbEntry->addr;
op_count = crbEntry->op_count;
stride = crbEntry->addr_stride;
for (loop_cnt = 0; loop_cnt < op_count; loop_cnt++) {
for (i = 0; i < sizeof(crbEntry->opcode) * 8; i++) {
opcode = (crbEntry->opcode & (0x1 << i));
if (opcode) {
switch (opcode) {
case QL_DBG_OPCODE_WR:
unm_nic_hw_write_bar_reg_2M(adapter, addr, crbEntry->value_1);
break;
case QL_DBG_OPCODE_RW:
read_value = unm_nic_hw_read_bar_reg_2M(adapter, addr);
unm_nic_hw_write_bar_reg_2M(adapter, addr, read_value);
break;
case QL_DBG_OPCODE_AND:
read_value = unm_nic_hw_read_bar_reg_2M(adapter, addr);
read_value &= crbEntry->value_2;
unm_nic_hw_write_bar_reg_2M(adapter, addr, read_value);
break;
case QL_DBG_OPCODE_OR:
read_value = unm_nic_hw_read_bar_reg_2M(adapter, addr);
read_value |= crbEntry->value_3;
unm_nic_hw_write_bar_reg_2M(adapter, addr, read_value);
break;
case QL_DBG_OPCODE_POLL:
timeout = crbEntry->poll_timeout;
read_value = unm_nic_hw_read_bar_reg_2M(adapter, addr);
timeout_jiffies = msecs_to_jiffies(timeout) + jiffies;
for (timeout_flag = 0; !timeout_flag
&& ((read_value & crbEntry->value_2) !=
crbEntry->value_1);) {
if (time_after(jiffies, timeout_jiffies)){
timeout_flag = 1;
}
read_value = unm_nic_hw_read_bar_reg_2M(adapter, addr);
}
if (timeout_flag) {
dev_err(&adapter->pdev->dev, "%s : Timeout in poll_crb control "
"operation.\n", __FUNCTION__);
return -1;
}
break;
case QL_DBG_OPCODE_RDSTATE:
/*
* Decide which address to use.
*/
if (crbEntry->state_index_a) {
addr = template_hdr->saved_state_array[crbEntry->state_index_a];
}
read_value = unm_nic_hw_read_bar_reg_2M(adapter, addr);
template_hdr->saved_state_array[crbEntry->state_index_v] = read_value;
break;
case QL_DBG_OPCODE_WRSTATE:
/*
* Decide which value to use.
*/
if (crbEntry->state_index_v) {
read_value = template_hdr->saved_state_array[crbEntry->state_index_v];
} else {
read_value = crbEntry->value_1;
}
/*
* Decide which address to use.
*/
if (crbEntry->state_index_a) {
addr = template_hdr->saved_state_array[crbEntry->state_index_a];
}
unm_nic_hw_write_bar_reg_2M(adapter, addr, read_value);
break;
case QL_DBG_OPCODE_MDSTATE:
/* Read value from saved state using index */
read_value = template_hdr->saved_state_array[crbEntry->state_index_v];
read_value <<= crbEntry->shl; /* Shift left operation */
read_value >>= crbEntry->shr; /* Shift right operation */
if (crbEntry->value_2) { /* check if AND mask is provided */
read_value &= crbEntry->value_2; /* */
}
read_value |= crbEntry->value_3; /* OR operation */
read_value += crbEntry->value_1; /* increment operation */
/* Write value back to state area. */
template_hdr->saved_state_array[crbEntry->state_index_v] = read_value;
break;
default:
rv = 1;
break;
} //end switch-case(opcode)
}
} //end of opcode bit mask loop.
addr = addr + stride;
} //end of op_count loop.
return (rv);
}
/*
* Handle L2 Cache.
*/
static int
nx_nic_md_L2Cache(struct unm_adapter_s *adapter, ql_minidump_entry_cache_t
*cacheEntry, u32 *data_buff)
{
int i, k, timeout_flag = 0;
int loop_cnt;
u32 read_value;
u32 addr, read_addr, cntrl_addr, tag_reg_addr;
u32 tag_value, read_cnt;
volatile u8 cntl_value_w, cntl_value_r;
unsigned long timeout, timeout_jiffies;
loop_cnt = cacheEntry->op_count;
read_addr = cacheEntry->read_addr;
cntrl_addr = cacheEntry->control_addr;
cntl_value_w = (u32) cacheEntry->write_value;
tag_reg_addr = cacheEntry->tag_reg_addr;
tag_value = cacheEntry->init_tag_value;
read_cnt = cacheEntry->read_addr_cnt;
for (i = 0; i < loop_cnt; i++) {
unm_nic_hw_write_bar_reg_2M(adapter, tag_reg_addr, tag_value);
if (cntl_value_w) {
unm_nic_hw_write_bar_reg_2M(adapter, cntrl_addr, (u32)cntl_value_w);
}
if (cacheEntry->poll_mask) {
timeout = cacheEntry->poll_wait;
cntl_value_r = (u8) unm_nic_hw_read_bar_reg_2M(adapter, cntrl_addr);
timeout_jiffies = msecs_to_jiffies(timeout) + jiffies;
for (timeout_flag = 0; !timeout_flag &&
((cntl_value_r & cacheEntry->poll_mask) != 0);) {
if (time_after(jiffies, timeout_jiffies)) {
timeout_flag = 1;
}
cntl_value_r = (u8) unm_nic_hw_read_bar_reg_2M(adapter, cntrl_addr);
}
if (timeout_flag) {
dev_err(&adapter->pdev->dev, "Timeout in processing L2 Tag poll.\n");
return (-1);
}
}
addr = read_addr;
for (k = 0; k < read_cnt; k++) {
read_value = unm_nic_hw_read_bar_reg_2M(adapter, addr);
*data_buff++ = read_value;
addr += cacheEntry->read_addr_stride;
}
tag_value += cacheEntry->tag_value_stride;
}
return (read_cnt * loop_cnt * sizeof(read_value));
}
/*
* Handle L1 Cache.
*/
static int
nx_nic_md_L1Cache(struct unm_adapter_s *adapter, ql_minidump_entry_cache_t
*cacheEntry, u32 *data_buff)
{
int i, k, loop_cnt;
u32 read_value;
u32 addr, read_addr, cntrl_addr, tag_reg_addr;
u32 tag_value, read_cnt;
volatile u8 cntl_value_w;
loop_cnt = cacheEntry->op_count;
read_addr = cacheEntry->read_addr;
cntrl_addr = cacheEntry->control_addr;
cntl_value_w = (u32) cacheEntry->write_value;
tag_reg_addr = cacheEntry->tag_reg_addr;
tag_value = cacheEntry->init_tag_value;
read_cnt = cacheEntry->read_addr_cnt;
for (i = 0; i < loop_cnt; i++) {
unm_nic_hw_write_bar_reg_2M(adapter, tag_reg_addr, tag_value);
unm_nic_hw_write_bar_reg_2M(adapter, cntrl_addr, (u32) cntl_value_w);
addr = read_addr;
for (k = 0; k < read_cnt; k++) {
read_value = unm_nic_hw_read_bar_reg_2M(adapter, addr);
*data_buff++ = read_value;
addr += cacheEntry->read_addr_stride;
}
tag_value += cacheEntry->tag_value_stride;
}
return (read_cnt * loop_cnt * sizeof(read_value));
}
/*
* Reading OCM memory
*/
static int
nx_nic_md_rdocm(struct unm_adapter_s *adapter, ql_minidump_entry_rdocm_t
*ocmEntry, u32 *data_buff)
{
int i, loop_cnt;
u32 addr, value;
addr = ocmEntry->read_addr;
loop_cnt = ocmEntry->op_count;
for (i = 0; i < loop_cnt; i++) {
value = unm_nic_hw_read_bar_reg_2M(adapter, addr);
*data_buff++ = value;
addr += ocmEntry->read_addr_stride;
}
return (i * sizeof(u32));
}
/*
* Read memory
*/
static int
nx_nic_md_rdmem(struct unm_adapter_s *adapter, ql_minidump_entry_rdmem_t
*memEntry, u64 *data_buff)
{
u64 addr, value = 0;
int i = 0, loop_cnt;
addr = (u64) memEntry->read_addr;
loop_cnt = memEntry->read_data_size; /* This is size in bytes */
loop_cnt /= sizeof(value);
for (i = 0; i < loop_cnt; i++) {
if (unm_nic_pci_mem_read_md(adapter, addr, &value, sizeof(value), RDMEM)) {
goto out;
}
*data_buff++ = value;
addr += sizeof(value);
}
out:
return (i * sizeof(value));
}
/*
* Read MN
*/
static int
nx_nic_md_rdmn(struct unm_adapter_s *adapter, ql_minidump_entry_rdmem_t
*memEntry, u64 *data_buff)
{
u64 addr, value = 0;
int i = 0, loop_cnt;
addr = (u64) memEntry->read_addr;
loop_cnt = memEntry->read_data_size; /* This is size in bytes */
loop_cnt /= sizeof(value);
for (i = 0; i < loop_cnt; i++) {
if (unm_nic_pci_mem_read_md(adapter, addr, &value, sizeof(value), RDMN)) {
goto out;
}
*data_buff++ = value;
addr += sizeof(value);
}
out:
return (i * sizeof(value));
}
/*
* Read ROM
*/
static int
nx_nic_md_rdrom(struct unm_adapter_s *adapter, ql_minidump_entry_rdrom_t
*romEntry, u64 *data_buff)
{
int size = 0;
u32 addr;
addr = romEntry->read_addr;
size = romEntry->read_data_size; /* This is size in bytes */
if (nx_nic_rom_fast_read_words(adapter, addr, (u8*) data_buff, size)) {
return -EIO;
}
return (size);
}
/*
* Read MUX data
*/
static u32
nx_nic_md_rdmux(struct unm_adapter_s *adapter, ql_minidump_entry_mux_t
*muxEntry, u32 *data_buff)
{
int loop_cnt = 0;
u32 read_value, sel_value;
u32 read_addr, select_addr;
read_addr = muxEntry->read_addr;
sel_value = muxEntry->select_value;
select_addr = muxEntry->select_addr;
for (loop_cnt = 0; loop_cnt < muxEntry->op_count; loop_cnt++) {
unm_nic_hw_write_bar_reg_2M(adapter, select_addr, sel_value);
read_value = unm_nic_hw_read_bar_reg_2M(adapter, read_addr);
*data_buff++ = sel_value;
*data_buff++ = read_value;
sel_value += muxEntry->select_value_stride;
}
return (loop_cnt * (2 * sizeof(u32)));
}
/*
* Handling Queue State Reads.
*/
static u32
nx_nic_md_rdqueue(struct unm_adapter_s *adapter, ql_minidump_entry_queue_t
*queueEntry, u32 *data_buff)
{
int loop_cnt, k;
u32 read_value;
u32 read_addr, read_stride, select_addr;
u32 queue_id, read_cnt;
read_cnt = queueEntry->read_addr_cnt;
read_stride = queueEntry->read_addr_stride;
select_addr = queueEntry->select_addr;
for (loop_cnt = 0, queue_id = 0; loop_cnt < queueEntry->op_count;
loop_cnt++) {
unm_nic_hw_write_bar_reg_2M(adapter, select_addr, queue_id);
read_addr = queueEntry->read_addr;
for (k = 0; k < read_cnt; k++) {
read_value = unm_nic_hw_read_bar_reg_2M(adapter, read_addr);
*data_buff++ = read_value;
read_addr += read_stride;
}
queue_id += queueEntry->queue_id_stride;
}
return (loop_cnt * (read_cnt * sizeof(read_value)));
}
/*
* We catch an error where driver does not read
* as much data as we expect from the entry.
*/
static int
nx_nic_md_entry_err_chk(ql_minidump_entry_t *entry, u32 esize)
{
if (esize < 0) {
entry->hdr.driver_flags |= QL_DBG_SKIPPED_FLAG;
return esize;
}
if (esize != entry->hdr.entry_capture_size) {
entry->hdr.entry_capture_size = esize;
entry->hdr.driver_flags |= QL_DBG_SIZE_ERR_FLAG;
}
return 0;
}
u32 nx_nic_check_template_checksum(struct unm_adapter_s *adapter)
{
u64 sum = 0 ;
u32 *buff = adapter->mdump.md_template;
int count = adapter->mdump.md_template_size/sizeof(uint32_t) ;
while(count-- > 0) {
sum += *buff++ ;
}
while(sum >> 32) {
sum = (sum & 0xFFFFFFFF) + (sum >> 32) ;
}
return (~sum) ;
}
u32 nx_nic_get_capture_size(struct unm_adapter_s *adapter)
{
ql_minidump_template_hdr_t *hdr;
int i, k, data_size = 0;
u32 capture_mask;
hdr = (ql_minidump_template_hdr_t *) adapter->mdump.md_template;
capture_mask = adapter->mdump.md_capture_mask;
for (i = 0x2, k = 1; (i & 0xFF); i <<= 1, k++) {
if (i & capture_mask) {
data_size += hdr->capture_size_array[k];
}
}
return data_size;
}
int nx_nic_collect_minidump(struct unm_adapter_s *adapter)
{
int ret = 0;
ql_minidump_template_hdr_t *hdr;
struct timespec val;
uint64_t cur_fn = (uint64_t)nx_nic_collect_minidump;
memcpy(adapter->mdump.md_capture_buff, adapter->mdump.md_template,
adapter->mdump.md_template_size);
if ((ret = nx_nic_parse_md_template(adapter))) {
NX_NIC_TRC_FN(adapter, cur_fn, ret);
return ret;
}
hdr = (ql_minidump_template_hdr_t *) adapter->mdump.md_capture_buff;
hdr->driver_capture_mask = adapter->mdump.md_capture_mask;
jiffies_to_timespec(jiffies, &val);
hdr->driver_timestamp = (u32) val.tv_sec;
hdr->driver_info_word2 = 0x00455358; /* ESX */
hdr->driver_info_word3 = 0x00342E2A; /* 4.* */
hdr->driver_info_word4 = NX_NIC_VERSION_CODE(_UNM_NIC_LINUX_MAJOR, _UNM_NIC_LINUX_MINOR,
_UNM_NIC_LINUX_MINOR);
NX_NIC_TRC_FN(adapter, cur_fn, ret);
return ret;
}
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