/*
* Copyright (C) 2017 Chelsio Communications. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope 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.
*
* The full GNU General Public License is included in this distribution in
* the file called "COPYING".
*
*/
#include "t4_regs.h"
#include "cxgb4.h"
#include "cudbg_if.h"
#include "cudbg_lib_common.h"
#include "cudbg_lib.h"
#include "cudbg_entity.h"
static void cudbg_write_and_release_buff(struct cudbg_buffer *pin_buff,
struct cudbg_buffer *dbg_buff)
{
cudbg_update_buff(pin_buff, dbg_buff);
cudbg_put_buff(pin_buff, dbg_buff);
}
static int is_fw_attached(struct cudbg_init *pdbg_init)
{
struct adapter *padap = pdbg_init->adap;
if (!(padap->flags & FW_OK) || padap->use_bd)
return 0;
return 1;
}
/* This function will add additional padding bytes into debug_buffer to make it
* 4 byte aligned.
*/
void cudbg_align_debug_buffer(struct cudbg_buffer *dbg_buff,
struct cudbg_entity_hdr *entity_hdr)
{
u8 zero_buf[4] = {0};
u8 padding, remain;
remain = (dbg_buff->offset - entity_hdr->start_offset) % 4;
padding = 4 - remain;
if (remain) {
memcpy(((u8 *)dbg_buff->data) + dbg_buff->offset, &zero_buf,
padding);
dbg_buff->offset += padding;
entity_hdr->num_pad = padding;
}
entity_hdr->size = dbg_buff->offset - entity_hdr->start_offset;
}
struct cudbg_entity_hdr *cudbg_get_entity_hdr(void *outbuf, int i)
{
struct cudbg_hdr *cudbg_hdr = (struct cudbg_hdr *)outbuf;
return (struct cudbg_entity_hdr *)
((char *)outbuf + cudbg_hdr->hdr_len +
(sizeof(struct cudbg_entity_hdr) * (i - 1)));
}
int cudbg_collect_reg_dump(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
u32 buf_size = 0;
int rc = 0;
if (is_t4(padap->params.chip))
buf_size = T4_REGMAP_SIZE;
else if (is_t5(padap->params.chip) || is_t6(padap->params.chip))
buf_size = T5_REGMAP_SIZE;
rc = cudbg_get_buff(dbg_buff, buf_size, &temp_buff);
if (rc)
return rc;
t4_get_regs(padap, (void *)temp_buff.data, temp_buff.size);
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_fw_devlog(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
struct devlog_params *dparams;
int rc = 0;
rc = t4_init_devlog_params(padap);
if (rc < 0) {
cudbg_err->sys_err = rc;
return rc;
}
dparams = &padap->params.devlog;
rc = cudbg_get_buff(dbg_buff, dparams->size, &temp_buff);
if (rc)
return rc;
/* Collect FW devlog */
if (dparams->start != 0) {
spin_lock(&padap->win0_lock);
rc = t4_memory_rw(padap, padap->params.drv_memwin,
dparams->memtype, dparams->start,
dparams->size,
(__be32 *)(char *)temp_buff.data,
1);
spin_unlock(&padap->win0_lock);
if (rc) {
cudbg_err->sys_err = rc;
cudbg_put_buff(&temp_buff, dbg_buff);
return rc;
}
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_cim_la(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
int size, rc;
u32 cfg = 0;
if (is_t6(padap->params.chip)) {
size = padap->params.cim_la_size / 10 + 1;
size *= 11 * sizeof(u32);
} else {
size = padap->params.cim_la_size / 8;
size *= 8 * sizeof(u32);
}
size += sizeof(cfg);
rc = cudbg_get_buff(dbg_buff, size, &temp_buff);
if (rc)
return rc;
rc = t4_cim_read(padap, UP_UP_DBG_LA_CFG_A, 1, &cfg);
if (rc) {
cudbg_err->sys_err = rc;
cudbg_put_buff(&temp_buff, dbg_buff);
return rc;
}
memcpy((char *)temp_buff.data, &cfg, sizeof(cfg));
rc = t4_cim_read_la(padap,
(u32 *)((char *)temp_buff.data + sizeof(cfg)),
NULL);
if (rc < 0) {
cudbg_err->sys_err = rc;
cudbg_put_buff(&temp_buff, dbg_buff);
return rc;
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_cim_ma_la(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
int size, rc;
size = 2 * CIM_MALA_SIZE * 5 * sizeof(u32);
rc = cudbg_get_buff(dbg_buff, size, &temp_buff);
if (rc)
return rc;
t4_cim_read_ma_la(padap,
(u32 *)temp_buff.data,
(u32 *)((char *)temp_buff.data +
5 * CIM_MALA_SIZE));
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_cim_qcfg(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
struct cudbg_cim_qcfg *cim_qcfg_data;
int rc;
rc = cudbg_get_buff(dbg_buff, sizeof(struct cudbg_cim_qcfg),
&temp_buff);
if (rc)
return rc;
cim_qcfg_data = (struct cudbg_cim_qcfg *)temp_buff.data;
cim_qcfg_data->chip = padap->params.chip;
rc = t4_cim_read(padap, UP_IBQ_0_RDADDR_A,
ARRAY_SIZE(cim_qcfg_data->stat), cim_qcfg_data->stat);
if (rc) {
cudbg_err->sys_err = rc;
cudbg_put_buff(&temp_buff, dbg_buff);
return rc;
}
rc = t4_cim_read(padap, UP_OBQ_0_REALADDR_A,
ARRAY_SIZE(cim_qcfg_data->obq_wr),
cim_qcfg_data->obq_wr);
if (rc) {
cudbg_err->sys_err = rc;
cudbg_put_buff(&temp_buff, dbg_buff);
return rc;
}
t4_read_cimq_cfg(padap, cim_qcfg_data->base, cim_qcfg_data->size,
cim_qcfg_data->thres);
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
static int cudbg_read_cim_ibq(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err, int qid)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
int no_of_read_words, rc = 0;
u32 qsize;
/* collect CIM IBQ */
qsize = CIM_IBQ_SIZE * 4 * sizeof(u32);
rc = cudbg_get_buff(dbg_buff, qsize, &temp_buff);
if (rc)
return rc;
/* t4_read_cim_ibq will return no. of read words or error */
no_of_read_words = t4_read_cim_ibq(padap, qid,
(u32 *)temp_buff.data, qsize);
/* no_of_read_words is less than or equal to 0 means error */
if (no_of_read_words <= 0) {
if (!no_of_read_words)
rc = CUDBG_SYSTEM_ERROR;
else
rc = no_of_read_words;
cudbg_err->sys_err = rc;
cudbg_put_buff(&temp_buff, dbg_buff);
return rc;
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_cim_ibq_tp0(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_read_cim_ibq(pdbg_init, dbg_buff, cudbg_err, 0);
}
int cudbg_collect_cim_ibq_tp1(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_read_cim_ibq(pdbg_init, dbg_buff, cudbg_err, 1);
}
int cudbg_collect_cim_ibq_ulp(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_read_cim_ibq(pdbg_init, dbg_buff, cudbg_err, 2);
}
int cudbg_collect_cim_ibq_sge0(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_read_cim_ibq(pdbg_init, dbg_buff, cudbg_err, 3);
}
int cudbg_collect_cim_ibq_sge1(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_read_cim_ibq(pdbg_init, dbg_buff, cudbg_err, 4);
}
int cudbg_collect_cim_ibq_ncsi(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_read_cim_ibq(pdbg_init, dbg_buff, cudbg_err, 5);
}
u32 cudbg_cim_obq_size(struct adapter *padap, int qid)
{
u32 value;
t4_write_reg(padap, CIM_QUEUE_CONFIG_REF_A, OBQSELECT_F |
QUENUMSELECT_V(qid));
value = t4_read_reg(padap, CIM_QUEUE_CONFIG_CTRL_A);
value = CIMQSIZE_G(value) * 64; /* size in number of words */
return value * sizeof(u32);
}
static int cudbg_read_cim_obq(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err, int qid)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
int no_of_read_words, rc = 0;
u32 qsize;
/* collect CIM OBQ */
qsize = cudbg_cim_obq_size(padap, qid);
rc = cudbg_get_buff(dbg_buff, qsize, &temp_buff);
if (rc)
return rc;
/* t4_read_cim_obq will return no. of read words or error */
no_of_read_words = t4_read_cim_obq(padap, qid,
(u32 *)temp_buff.data, qsize);
/* no_of_read_words is less than or equal to 0 means error */
if (no_of_read_words <= 0) {
if (!no_of_read_words)
rc = CUDBG_SYSTEM_ERROR;
else
rc = no_of_read_words;
cudbg_err->sys_err = rc;
cudbg_put_buff(&temp_buff, dbg_buff);
return rc;
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_cim_obq_ulp0(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_read_cim_obq(pdbg_init, dbg_buff, cudbg_err, 0);
}
int cudbg_collect_cim_obq_ulp1(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_read_cim_obq(pdbg_init, dbg_buff, cudbg_err, 1);
}
int cudbg_collect_cim_obq_ulp2(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_read_cim_obq(pdbg_init, dbg_buff, cudbg_err, 2);
}
int cudbg_collect_cim_obq_ulp3(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_read_cim_obq(pdbg_init, dbg_buff, cudbg_err, 3);
}
int cudbg_collect_cim_obq_sge(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_read_cim_obq(pdbg_init, dbg_buff, cudbg_err, 4);
}
int cudbg_collect_cim_obq_ncsi(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_read_cim_obq(pdbg_init, dbg_buff, cudbg_err, 5);
}
int cudbg_collect_obq_sge_rx_q0(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_read_cim_obq(pdbg_init, dbg_buff, cudbg_err, 6);
}
int cudbg_collect_obq_sge_rx_q1(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_read_cim_obq(pdbg_init, dbg_buff, cudbg_err, 7);
}
static int cudbg_read_fw_mem(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff, u8 mem_type,
unsigned long tot_len,
struct cudbg_error *cudbg_err)
{
unsigned long bytes, bytes_left, bytes_read = 0;
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
int rc = 0;
bytes_left = tot_len;
while (bytes_left > 0) {
bytes = min_t(unsigned long, bytes_left,
(unsigned long)CUDBG_CHUNK_SIZE);
rc = cudbg_get_buff(dbg_buff, bytes, &temp_buff);
if (rc)
return rc;
spin_lock(&padap->win0_lock);
rc = t4_memory_rw(padap, MEMWIN_NIC, mem_type,
bytes_read, bytes,
(__be32 *)temp_buff.data,
1);
spin_unlock(&padap->win0_lock);
if (rc) {
cudbg_err->sys_err = rc;
cudbg_put_buff(&temp_buff, dbg_buff);
return rc;
}
bytes_left -= bytes;
bytes_read += bytes;
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
}
return rc;
}
static void cudbg_collect_mem_info(struct cudbg_init *pdbg_init,
struct card_mem *mem_info)
{
struct adapter *padap = pdbg_init->adap;
u32 value;
value = t4_read_reg(padap, MA_EDRAM0_BAR_A);
value = EDRAM0_SIZE_G(value);
mem_info->size_edc0 = (u16)value;
value = t4_read_reg(padap, MA_EDRAM1_BAR_A);
value = EDRAM1_SIZE_G(value);
mem_info->size_edc1 = (u16)value;
value = t4_read_reg(padap, MA_TARGET_MEM_ENABLE_A);
if (value & EDRAM0_ENABLE_F)
mem_info->mem_flag |= (1 << EDC0_FLAG);
if (value & EDRAM1_ENABLE_F)
mem_info->mem_flag |= (1 << EDC1_FLAG);
}
static void cudbg_t4_fwcache(struct cudbg_init *pdbg_init,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
int rc;
if (is_fw_attached(pdbg_init)) {
/* Flush uP dcache before reading edcX/mcX */
rc = t4_fwcache(padap, FW_PARAM_DEV_FWCACHE_FLUSH);
if (rc)
cudbg_err->sys_warn = rc;
}
}
static int cudbg_collect_mem_region(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err,
u8 mem_type)
{
struct card_mem mem_info = {0};
unsigned long flag, size;
int rc;
cudbg_t4_fwcache(pdbg_init, cudbg_err);
cudbg_collect_mem_info(pdbg_init, &mem_info);
switch (mem_type) {
case MEM_EDC0:
flag = (1 << EDC0_FLAG);
size = cudbg_mbytes_to_bytes(mem_info.size_edc0);
break;
case MEM_EDC1:
flag = (1 << EDC1_FLAG);
size = cudbg_mbytes_to_bytes(mem_info.size_edc1);
break;
default:
rc = CUDBG_STATUS_ENTITY_NOT_FOUND;
goto err;
}
if (mem_info.mem_flag & flag) {
rc = cudbg_read_fw_mem(pdbg_init, dbg_buff, mem_type,
size, cudbg_err);
if (rc)
goto err;
} else {
rc = CUDBG_STATUS_ENTITY_NOT_FOUND;
goto err;
}
err:
return rc;
}
int cudbg_collect_edc0_meminfo(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_collect_mem_region(pdbg_init, dbg_buff, cudbg_err,
MEM_EDC0);
}
int cudbg_collect_edc1_meminfo(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
return cudbg_collect_mem_region(pdbg_init, dbg_buff, cudbg_err,
MEM_EDC1);
}
int cudbg_collect_rss(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
int rc;
rc = cudbg_get_buff(dbg_buff, RSS_NENTRIES * sizeof(u16), &temp_buff);
if (rc)
return rc;
rc = t4_read_rss(padap, (u16 *)temp_buff.data);
if (rc) {
cudbg_err->sys_err = rc;
cudbg_put_buff(&temp_buff, dbg_buff);
return rc;
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_rss_vf_config(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
struct cudbg_rss_vf_conf *vfconf;
int vf, rc, vf_count;
vf_count = padap->params.arch.vfcount;
rc = cudbg_get_buff(dbg_buff,
vf_count * sizeof(struct cudbg_rss_vf_conf),
&temp_buff);
if (rc)
return rc;
vfconf = (struct cudbg_rss_vf_conf *)temp_buff.data;
for (vf = 0; vf < vf_count; vf++)
t4_read_rss_vf_config(padap, vf, &vfconf[vf].rss_vf_vfl,
&vfconf[vf].rss_vf_vfh, true);
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_tp_indirect(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
struct ireg_buf *ch_tp_pio;
int i, rc, n = 0;
u32 size;
if (is_t5(padap->params.chip))
n = sizeof(t5_tp_pio_array) +
sizeof(t5_tp_tm_pio_array) +
sizeof(t5_tp_mib_index_array);
else
n = sizeof(t6_tp_pio_array) +
sizeof(t6_tp_tm_pio_array) +
sizeof(t6_tp_mib_index_array);
n = n / (IREG_NUM_ELEM * sizeof(u32));
size = sizeof(struct ireg_buf) * n;
rc = cudbg_get_buff(dbg_buff, size, &temp_buff);
if (rc)
return rc;
ch_tp_pio = (struct ireg_buf *)temp_buff.data;
/* TP_PIO */
if (is_t5(padap->params.chip))
n = sizeof(t5_tp_pio_array) / (IREG_NUM_ELEM * sizeof(u32));
else if (is_t6(padap->params.chip))
n = sizeof(t6_tp_pio_array) / (IREG_NUM_ELEM * sizeof(u32));
for (i = 0; i < n; i++) {
struct ireg_field *tp_pio = &ch_tp_pio->tp_pio;
u32 *buff = ch_tp_pio->outbuf;
if (is_t5(padap->params.chip)) {
tp_pio->ireg_addr = t5_tp_pio_array[i][0];
tp_pio->ireg_data = t5_tp_pio_array[i][1];
tp_pio->ireg_local_offset = t5_tp_pio_array[i][2];
tp_pio->ireg_offset_range = t5_tp_pio_array[i][3];
} else if (is_t6(padap->params.chip)) {
tp_pio->ireg_addr = t6_tp_pio_array[i][0];
tp_pio->ireg_data = t6_tp_pio_array[i][1];
tp_pio->ireg_local_offset = t6_tp_pio_array[i][2];
tp_pio->ireg_offset_range = t6_tp_pio_array[i][3];
}
t4_tp_pio_read(padap, buff, tp_pio->ireg_offset_range,
tp_pio->ireg_local_offset, true);
ch_tp_pio++;
}
/* TP_TM_PIO */
if (is_t5(padap->params.chip))
n = sizeof(t5_tp_tm_pio_array) / (IREG_NUM_ELEM * sizeof(u32));
else if (is_t6(padap->params.chip))
n = sizeof(t6_tp_tm_pio_array) / (IREG_NUM_ELEM * sizeof(u32));
for (i = 0; i < n; i++) {
struct ireg_field *tp_pio = &ch_tp_pio->tp_pio;
u32 *buff = ch_tp_pio->outbuf;
if (is_t5(padap->params.chip)) {
tp_pio->ireg_addr = t5_tp_tm_pio_array[i][0];
tp_pio->ireg_data = t5_tp_tm_pio_array[i][1];
tp_pio->ireg_local_offset = t5_tp_tm_pio_array[i][2];
tp_pio->ireg_offset_range = t5_tp_tm_pio_array[i][3];
} else if (is_t6(padap->params.chip)) {
tp_pio->ireg_addr = t6_tp_tm_pio_array[i][0];
tp_pio->ireg_data = t6_tp_tm_pio_array[i][1];
tp_pio->ireg_local_offset = t6_tp_tm_pio_array[i][2];
tp_pio->ireg_offset_range = t6_tp_tm_pio_array[i][3];
}
t4_tp_tm_pio_read(padap, buff, tp_pio->ireg_offset_range,
tp_pio->ireg_local_offset, true);
ch_tp_pio++;
}
/* TP_MIB_INDEX */
if (is_t5(padap->params.chip))
n = sizeof(t5_tp_mib_index_array) /
(IREG_NUM_ELEM * sizeof(u32));
else if (is_t6(padap->params.chip))
n = sizeof(t6_tp_mib_index_array) /
(IREG_NUM_ELEM * sizeof(u32));
for (i = 0; i < n ; i++) {
struct ireg_field *tp_pio = &ch_tp_pio->tp_pio;
u32 *buff = ch_tp_pio->outbuf;
if (is_t5(padap->params.chip)) {
tp_pio->ireg_addr = t5_tp_mib_index_array[i][0];
tp_pio->ireg_data = t5_tp_mib_index_array[i][1];
tp_pio->ireg_local_offset =
t5_tp_mib_index_array[i][2];
tp_pio->ireg_offset_range =
t5_tp_mib_index_array[i][3];
} else if (is_t6(padap->params.chip)) {
tp_pio->ireg_addr = t6_tp_mib_index_array[i][0];
tp_pio->ireg_data = t6_tp_mib_index_array[i][1];
tp_pio->ireg_local_offset =
t6_tp_mib_index_array[i][2];
tp_pio->ireg_offset_range =
t6_tp_mib_index_array[i][3];
}
t4_tp_mib_read(padap, buff, tp_pio->ireg_offset_range,
tp_pio->ireg_local_offset, true);
ch_tp_pio++;
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_sge_indirect(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
struct ireg_buf *ch_sge_dbg;
int i, rc;
rc = cudbg_get_buff(dbg_buff, sizeof(*ch_sge_dbg) * 2, &temp_buff);
if (rc)
return rc;
ch_sge_dbg = (struct ireg_buf *)temp_buff.data;
for (i = 0; i < 2; i++) {
struct ireg_field *sge_pio = &ch_sge_dbg->tp_pio;
u32 *buff = ch_sge_dbg->outbuf;
sge_pio->ireg_addr = t5_sge_dbg_index_array[i][0];
sge_pio->ireg_data = t5_sge_dbg_index_array[i][1];
sge_pio->ireg_local_offset = t5_sge_dbg_index_array[i][2];
sge_pio->ireg_offset_range = t5_sge_dbg_index_array[i][3];
t4_read_indirect(padap,
sge_pio->ireg_addr,
sge_pio->ireg_data,
buff,
sge_pio->ireg_offset_range,
sge_pio->ireg_local_offset);
ch_sge_dbg++;
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_ulprx_la(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
struct cudbg_ulprx_la *ulprx_la_buff;
int rc;
rc = cudbg_get_buff(dbg_buff, sizeof(struct cudbg_ulprx_la),
&temp_buff);
if (rc)
return rc;
ulprx_la_buff = (struct cudbg_ulprx_la *)temp_buff.data;
t4_ulprx_read_la(padap, (u32 *)ulprx_la_buff->data);
ulprx_la_buff->size = ULPRX_LA_SIZE;
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_tp_la(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
struct cudbg_tp_la *tp_la_buff;
int size, rc;
size = sizeof(struct cudbg_tp_la) + TPLA_SIZE * sizeof(u64);
rc = cudbg_get_buff(dbg_buff, size, &temp_buff);
if (rc)
return rc;
tp_la_buff = (struct cudbg_tp_la *)temp_buff.data;
tp_la_buff->mode = DBGLAMODE_G(t4_read_reg(padap, TP_DBG_LA_CONFIG_A));
t4_tp_read_la(padap, (u64 *)tp_la_buff->data, NULL);
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_cim_pif_la(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct cudbg_cim_pif_la *cim_pif_la_buff;
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
int size, rc;
size = sizeof(struct cudbg_cim_pif_la) +
2 * CIM_PIFLA_SIZE * 6 * sizeof(u32);
rc = cudbg_get_buff(dbg_buff, size, &temp_buff);
if (rc)
return rc;
cim_pif_la_buff = (struct cudbg_cim_pif_la *)temp_buff.data;
cim_pif_la_buff->size = CIM_PIFLA_SIZE;
t4_cim_read_pif_la(padap, (u32 *)cim_pif_la_buff->data,
(u32 *)cim_pif_la_buff->data + 6 * CIM_PIFLA_SIZE,
NULL, NULL);
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_pcie_indirect(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
struct ireg_buf *ch_pcie;
int i, rc, n;
u32 size;
n = sizeof(t5_pcie_pdbg_array) / (IREG_NUM_ELEM * sizeof(u32));
size = sizeof(struct ireg_buf) * n * 2;
rc = cudbg_get_buff(dbg_buff, size, &temp_buff);
if (rc)
return rc;
ch_pcie = (struct ireg_buf *)temp_buff.data;
/* PCIE_PDBG */
for (i = 0; i < n; i++) {
struct ireg_field *pcie_pio = &ch_pcie->tp_pio;
u32 *buff = ch_pcie->outbuf;
pcie_pio->ireg_addr = t5_pcie_pdbg_array[i][0];
pcie_pio->ireg_data = t5_pcie_pdbg_array[i][1];
pcie_pio->ireg_local_offset = t5_pcie_pdbg_array[i][2];
pcie_pio->ireg_offset_range = t5_pcie_pdbg_array[i][3];
t4_read_indirect(padap,
pcie_pio->ireg_addr,
pcie_pio->ireg_data,
buff,
pcie_pio->ireg_offset_range,
pcie_pio->ireg_local_offset);
ch_pcie++;
}
/* PCIE_CDBG */
n = sizeof(t5_pcie_cdbg_array) / (IREG_NUM_ELEM * sizeof(u32));
for (i = 0; i < n; i++) {
struct ireg_field *pcie_pio = &ch_pcie->tp_pio;
u32 *buff = ch_pcie->outbuf;
pcie_pio->ireg_addr = t5_pcie_cdbg_array[i][0];
pcie_pio->ireg_data = t5_pcie_cdbg_array[i][1];
pcie_pio->ireg_local_offset = t5_pcie_cdbg_array[i][2];
pcie_pio->ireg_offset_range = t5_pcie_cdbg_array[i][3];
t4_read_indirect(padap,
pcie_pio->ireg_addr,
pcie_pio->ireg_data,
buff,
pcie_pio->ireg_offset_range,
pcie_pio->ireg_local_offset);
ch_pcie++;
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_pm_indirect(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
struct ireg_buf *ch_pm;
int i, rc, n;
u32 size;
n = sizeof(t5_pm_rx_array) / (IREG_NUM_ELEM * sizeof(u32));
size = sizeof(struct ireg_buf) * n * 2;
rc = cudbg_get_buff(dbg_buff, size, &temp_buff);
if (rc)
return rc;
ch_pm = (struct ireg_buf *)temp_buff.data;
/* PM_RX */
for (i = 0; i < n; i++) {
struct ireg_field *pm_pio = &ch_pm->tp_pio;
u32 *buff = ch_pm->outbuf;
pm_pio->ireg_addr = t5_pm_rx_array[i][0];
pm_pio->ireg_data = t5_pm_rx_array[i][1];
pm_pio->ireg_local_offset = t5_pm_rx_array[i][2];
pm_pio->ireg_offset_range = t5_pm_rx_array[i][3];
t4_read_indirect(padap,
pm_pio->ireg_addr,
pm_pio->ireg_data,
buff,
pm_pio->ireg_offset_range,
pm_pio->ireg_local_offset);
ch_pm++;
}
/* PM_TX */
n = sizeof(t5_pm_tx_array) / (IREG_NUM_ELEM * sizeof(u32));
for (i = 0; i < n; i++) {
struct ireg_field *pm_pio = &ch_pm->tp_pio;
u32 *buff = ch_pm->outbuf;
pm_pio->ireg_addr = t5_pm_tx_array[i][0];
pm_pio->ireg_data = t5_pm_tx_array[i][1];
pm_pio->ireg_local_offset = t5_pm_tx_array[i][2];
pm_pio->ireg_offset_range = t5_pm_tx_array[i][3];
t4_read_indirect(padap,
pm_pio->ireg_addr,
pm_pio->ireg_data,
buff,
pm_pio->ireg_offset_range,
pm_pio->ireg_local_offset);
ch_pm++;
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_tid(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_tid_info_region_rev1 *tid1;
struct cudbg_buffer temp_buff = { 0 };
struct cudbg_tid_info_region *tid;
u32 para[2], val[2];
int rc;
rc = cudbg_get_buff(dbg_buff, sizeof(struct cudbg_tid_info_region_rev1),
&temp_buff);
if (rc)
return rc;
tid1 = (struct cudbg_tid_info_region_rev1 *)temp_buff.data;
tid = &tid1->tid;
tid1->ver_hdr.signature = CUDBG_ENTITY_SIGNATURE;
tid1->ver_hdr.revision = CUDBG_TID_INFO_REV;
tid1->ver_hdr.size = sizeof(struct cudbg_tid_info_region_rev1) -
sizeof(struct cudbg_ver_hdr);
#define FW_PARAM_PFVF_A(param) \
(FW_PARAMS_MNEM_V(FW_PARAMS_MNEM_PFVF) | \
FW_PARAMS_PARAM_X_V(FW_PARAMS_PARAM_PFVF_##param) | \
FW_PARAMS_PARAM_Y_V(0) | \
FW_PARAMS_PARAM_Z_V(0))
para[0] = FW_PARAM_PFVF_A(ETHOFLD_START);
para[1] = FW_PARAM_PFVF_A(ETHOFLD_END);
rc = t4_query_params(padap, padap->mbox, padap->pf, 0, 2, para, val);
if (rc < 0) {
cudbg_err->sys_err = rc;
cudbg_put_buff(&temp_buff, dbg_buff);
return rc;
}
tid->uotid_base = val[0];
tid->nuotids = val[1] - val[0] + 1;
if (is_t5(padap->params.chip)) {
tid->sb = t4_read_reg(padap, LE_DB_SERVER_INDEX_A) / 4;
} else if (is_t6(padap->params.chip)) {
tid1->tid_start =
t4_read_reg(padap, LE_DB_ACTIVE_TABLE_START_INDEX_A);
tid->sb = t4_read_reg(padap, LE_DB_SRVR_START_INDEX_A);
para[0] = FW_PARAM_PFVF_A(HPFILTER_START);
para[1] = FW_PARAM_PFVF_A(HPFILTER_END);
rc = t4_query_params(padap, padap->mbox, padap->pf, 0, 2,
para, val);
if (rc < 0) {
cudbg_err->sys_err = rc;
cudbg_put_buff(&temp_buff, dbg_buff);
return rc;
}
tid->hpftid_base = val[0];
tid->nhpftids = val[1] - val[0] + 1;
}
tid->ntids = padap->tids.ntids;
tid->nstids = padap->tids.nstids;
tid->stid_base = padap->tids.stid_base;
tid->hash_base = padap->tids.hash_base;
tid->natids = padap->tids.natids;
tid->nftids = padap->tids.nftids;
tid->ftid_base = padap->tids.ftid_base;
tid->aftid_base = padap->tids.aftid_base;
tid->aftid_end = padap->tids.aftid_end;
tid->sftid_base = padap->tids.sftid_base;
tid->nsftids = padap->tids.nsftids;
tid->flags = padap->flags;
tid->le_db_conf = t4_read_reg(padap, LE_DB_CONFIG_A);
tid->ip_users = t4_read_reg(padap, LE_DB_ACT_CNT_IPV4_A);
tid->ipv6_users = t4_read_reg(padap, LE_DB_ACT_CNT_IPV6_A);
#undef FW_PARAM_PFVF_A
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
static inline void cudbg_tcamxy2valmask(u64 x, u64 y, u8 *addr, u64 *mask)
{
*mask = x | y;
y = (__force u64)cpu_to_be64(y);
memcpy(addr, (char *)&y + 2, ETH_ALEN);
}
static void cudbg_mps_rpl_backdoor(struct adapter *padap,
struct fw_ldst_mps_rplc *mps_rplc)
{
if (is_t5(padap->params.chip)) {
mps_rplc->rplc255_224 = htonl(t4_read_reg(padap,
MPS_VF_RPLCT_MAP3_A));
mps_rplc->rplc223_192 = htonl(t4_read_reg(padap,
MPS_VF_RPLCT_MAP2_A));
mps_rplc->rplc191_160 = htonl(t4_read_reg(padap,
MPS_VF_RPLCT_MAP1_A));
mps_rplc->rplc159_128 = htonl(t4_read_reg(padap,
MPS_VF_RPLCT_MAP0_A));
} else {
mps_rplc->rplc255_224 = htonl(t4_read_reg(padap,
MPS_VF_RPLCT_MAP7_A));
mps_rplc->rplc223_192 = htonl(t4_read_reg(padap,
MPS_VF_RPLCT_MAP6_A));
mps_rplc->rplc191_160 = htonl(t4_read_reg(padap,
MPS_VF_RPLCT_MAP5_A));
mps_rplc->rplc159_128 = htonl(t4_read_reg(padap,
MPS_VF_RPLCT_MAP4_A));
}
mps_rplc->rplc127_96 = htonl(t4_read_reg(padap, MPS_VF_RPLCT_MAP3_A));
mps_rplc->rplc95_64 = htonl(t4_read_reg(padap, MPS_VF_RPLCT_MAP2_A));
mps_rplc->rplc63_32 = htonl(t4_read_reg(padap, MPS_VF_RPLCT_MAP1_A));
mps_rplc->rplc31_0 = htonl(t4_read_reg(padap, MPS_VF_RPLCT_MAP0_A));
}
static int cudbg_collect_tcam_index(struct adapter *padap,
struct cudbg_mps_tcam *tcam, u32 idx)
{
u64 tcamy, tcamx, val;
u32 ctl, data2;
int rc = 0;
if (CHELSIO_CHIP_VERSION(padap->params.chip) >= CHELSIO_T6) {
/* CtlReqID - 1: use Host Driver Requester ID
* CtlCmdType - 0: Read, 1: Write
* CtlTcamSel - 0: TCAM0, 1: TCAM1
* CtlXYBitSel- 0: Y bit, 1: X bit
*/
/* Read tcamy */
ctl = CTLREQID_V(1) | CTLCMDTYPE_V(0) | CTLXYBITSEL_V(0);
if (idx < 256)
ctl |= CTLTCAMINDEX_V(idx) | CTLTCAMSEL_V(0);
else
ctl |= CTLTCAMINDEX_V(idx - 256) | CTLTCAMSEL_V(1);
t4_write_reg(padap, MPS_CLS_TCAM_DATA2_CTL_A, ctl);
val = t4_read_reg(padap, MPS_CLS_TCAM_RDATA1_REQ_ID1_A);
tcamy = DMACH_G(val) << 32;
tcamy |= t4_read_reg(padap, MPS_CLS_TCAM_RDATA0_REQ_ID1_A);
data2 = t4_read_reg(padap, MPS_CLS_TCAM_RDATA2_REQ_ID1_A);
tcam->lookup_type = DATALKPTYPE_G(data2);
/* 0 - Outer header, 1 - Inner header
* [71:48] bit locations are overloaded for
* outer vs. inner lookup types.
*/
if (tcam->lookup_type && tcam->lookup_type != DATALKPTYPE_M) {
/* Inner header VNI */
tcam->vniy = (data2 & DATAVIDH2_F) | DATAVIDH1_G(data2);
tcam->vniy = (tcam->vniy << 16) | VIDL_G(val);
tcam->dip_hit = data2 & DATADIPHIT_F;
} else {
tcam->vlan_vld = data2 & DATAVIDH2_F;
tcam->ivlan = VIDL_G(val);
}
tcam->port_num = DATAPORTNUM_G(data2);
/* Read tcamx. Change the control param */
ctl |= CTLXYBITSEL_V(1);
t4_write_reg(padap, MPS_CLS_TCAM_DATA2_CTL_A, ctl);
val = t4_read_reg(padap, MPS_CLS_TCAM_RDATA1_REQ_ID1_A);
tcamx = DMACH_G(val) << 32;
tcamx |= t4_read_reg(padap, MPS_CLS_TCAM_RDATA0_REQ_ID1_A);
data2 = t4_read_reg(padap, MPS_CLS_TCAM_RDATA2_REQ_ID1_A);
if (tcam->lookup_type && tcam->lookup_type != DATALKPTYPE_M) {
/* Inner header VNI mask */
tcam->vnix = (data2 & DATAVIDH2_F) | DATAVIDH1_G(data2);
tcam->vnix = (tcam->vnix << 16) | VIDL_G(val);
}
} else {
tcamy = t4_read_reg64(padap, MPS_CLS_TCAM_Y_L(idx));
tcamx = t4_read_reg64(padap, MPS_CLS_TCAM_X_L(idx));
}
/* If no entry, return */
if (tcamx & tcamy)
return rc;
tcam->cls_lo = t4_read_reg(padap, MPS_CLS_SRAM_L(idx));
tcam->cls_hi = t4_read_reg(padap, MPS_CLS_SRAM_H(idx));
if (is_t5(padap->params.chip))
tcam->repli = (tcam->cls_lo & REPLICATE_F);
else if (is_t6(padap->params.chip))
tcam->repli = (tcam->cls_lo & T6_REPLICATE_F);
if (tcam->repli) {
struct fw_ldst_cmd ldst_cmd;
struct fw_ldst_mps_rplc mps_rplc;
memset(&ldst_cmd, 0, sizeof(ldst_cmd));
ldst_cmd.op_to_addrspace =
htonl(FW_CMD_OP_V(FW_LDST_CMD) |
FW_CMD_REQUEST_F | FW_CMD_READ_F |
FW_LDST_CMD_ADDRSPACE_V(FW_LDST_ADDRSPC_MPS));
ldst_cmd.cycles_to_len16 = htonl(FW_LEN16(ldst_cmd));
ldst_cmd.u.mps.rplc.fid_idx =
htons(FW_LDST_CMD_FID_V(FW_LDST_MPS_RPLC) |
FW_LDST_CMD_IDX_V(idx));
rc = t4_wr_mbox(padap, padap->mbox, &ldst_cmd, sizeof(ldst_cmd),
&ldst_cmd);
if (rc)
cudbg_mps_rpl_backdoor(padap, &mps_rplc);
else
mps_rplc = ldst_cmd.u.mps.rplc;
tcam->rplc[0] = ntohl(mps_rplc.rplc31_0);
tcam->rplc[1] = ntohl(mps_rplc.rplc63_32);
tcam->rplc[2] = ntohl(mps_rplc.rplc95_64);
tcam->rplc[3] = ntohl(mps_rplc.rplc127_96);
if (padap->params.arch.mps_rplc_size > CUDBG_MAX_RPLC_SIZE) {
tcam->rplc[4] = ntohl(mps_rplc.rplc159_128);
tcam->rplc[5] = ntohl(mps_rplc.rplc191_160);
tcam->rplc[6] = ntohl(mps_rplc.rplc223_192);
tcam->rplc[7] = ntohl(mps_rplc.rplc255_224);
}
}
cudbg_tcamxy2valmask(tcamx, tcamy, tcam->addr, &tcam->mask);
tcam->idx = idx;
tcam->rplc_size = padap->params.arch.mps_rplc_size;
return rc;
}
int cudbg_collect_mps_tcam(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
u32 size = 0, i, n, total_size = 0;
struct cudbg_mps_tcam *tcam;
int rc;
n = padap->params.arch.mps_tcam_size;
size = sizeof(struct cudbg_mps_tcam) * n;
rc = cudbg_get_buff(dbg_buff, size, &temp_buff);
if (rc)
return rc;
tcam = (struct cudbg_mps_tcam *)temp_buff.data;
for (i = 0; i < n; i++) {
rc = cudbg_collect_tcam_index(padap, tcam, i);
if (rc) {
cudbg_err->sys_err = rc;
cudbg_put_buff(&temp_buff, dbg_buff);
return rc;
}
total_size += sizeof(struct cudbg_mps_tcam);
tcam++;
}
if (!total_size) {
rc = CUDBG_SYSTEM_ERROR;
cudbg_err->sys_err = rc;
cudbg_put_buff(&temp_buff, dbg_buff);
return rc;
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_ma_indirect(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
struct ireg_buf *ma_indr;
int i, rc, n;
u32 size, j;
if (CHELSIO_CHIP_VERSION(padap->params.chip) < CHELSIO_T6)
return CUDBG_STATUS_ENTITY_NOT_FOUND;
n = sizeof(t6_ma_ireg_array) / (IREG_NUM_ELEM * sizeof(u32));
size = sizeof(struct ireg_buf) * n * 2;
rc = cudbg_get_buff(dbg_buff, size, &temp_buff);
if (rc)
return rc;
ma_indr = (struct ireg_buf *)temp_buff.data;
for (i = 0; i < n; i++) {
struct ireg_field *ma_fli = &ma_indr->tp_pio;
u32 *buff = ma_indr->outbuf;
ma_fli->ireg_addr = t6_ma_ireg_array[i][0];
ma_fli->ireg_data = t6_ma_ireg_array[i][1];
ma_fli->ireg_local_offset = t6_ma_ireg_array[i][2];
ma_fli->ireg_offset_range = t6_ma_ireg_array[i][3];
t4_read_indirect(padap, ma_fli->ireg_addr, ma_fli->ireg_data,
buff, ma_fli->ireg_offset_range,
ma_fli->ireg_local_offset);
ma_indr++;
}
n = sizeof(t6_ma_ireg_array2) / (IREG_NUM_ELEM * sizeof(u32));
for (i = 0; i < n; i++) {
struct ireg_field *ma_fli = &ma_indr->tp_pio;
u32 *buff = ma_indr->outbuf;
ma_fli->ireg_addr = t6_ma_ireg_array2[i][0];
ma_fli->ireg_data = t6_ma_ireg_array2[i][1];
ma_fli->ireg_local_offset = t6_ma_ireg_array2[i][2];
for (j = 0; j < t6_ma_ireg_array2[i][3]; j++) {
t4_read_indirect(padap, ma_fli->ireg_addr,
ma_fli->ireg_data, buff, 1,
ma_fli->ireg_local_offset);
buff++;
ma_fli->ireg_local_offset += 0x20;
}
ma_indr++;
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_ulptx_la(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
struct cudbg_ulptx_la *ulptx_la_buff;
u32 i, j;
int rc;
rc = cudbg_get_buff(dbg_buff, sizeof(struct cudbg_ulptx_la),
&temp_buff);
if (rc)
return rc;
ulptx_la_buff = (struct cudbg_ulptx_la *)temp_buff.data;
for (i = 0; i < CUDBG_NUM_ULPTX; i++) {
ulptx_la_buff->rdptr[i] = t4_read_reg(padap,
ULP_TX_LA_RDPTR_0_A +
0x10 * i);
ulptx_la_buff->wrptr[i] = t4_read_reg(padap,
ULP_TX_LA_WRPTR_0_A +
0x10 * i);
ulptx_la_buff->rddata[i] = t4_read_reg(padap,
ULP_TX_LA_RDDATA_0_A +
0x10 * i);
for (j = 0; j < CUDBG_NUM_ULPTX_READ; j++)
ulptx_la_buff->rd_data[i][j] =
t4_read_reg(padap,
ULP_TX_LA_RDDATA_0_A + 0x10 * i);
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_up_cim_indirect(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
struct ireg_buf *up_cim;
int i, rc, n;
u32 size;
n = sizeof(t5_up_cim_reg_array) / (IREG_NUM_ELEM * sizeof(u32));
size = sizeof(struct ireg_buf) * n;
rc = cudbg_get_buff(dbg_buff, size, &temp_buff);
if (rc)
return rc;
up_cim = (struct ireg_buf *)temp_buff.data;
for (i = 0; i < n; i++) {
struct ireg_field *up_cim_reg = &up_cim->tp_pio;
u32 *buff = up_cim->outbuf;
if (is_t5(padap->params.chip)) {
up_cim_reg->ireg_addr = t5_up_cim_reg_array[i][0];
up_cim_reg->ireg_data = t5_up_cim_reg_array[i][1];
up_cim_reg->ireg_local_offset =
t5_up_cim_reg_array[i][2];
up_cim_reg->ireg_offset_range =
t5_up_cim_reg_array[i][3];
} else if (is_t6(padap->params.chip)) {
up_cim_reg->ireg_addr = t6_up_cim_reg_array[i][0];
up_cim_reg->ireg_data = t6_up_cim_reg_array[i][1];
up_cim_reg->ireg_local_offset =
t6_up_cim_reg_array[i][2];
up_cim_reg->ireg_offset_range =
t6_up_cim_reg_array[i][3];
}
rc = t4_cim_read(padap, up_cim_reg->ireg_local_offset,
up_cim_reg->ireg_offset_range, buff);
if (rc) {
cudbg_put_buff(&temp_buff, dbg_buff);
return rc;
}
up_cim++;
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_mbox_log(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_mbox_log *mboxlog = NULL;
struct cudbg_buffer temp_buff = { 0 };
struct mbox_cmd_log *log = NULL;
struct mbox_cmd *entry;
unsigned int entry_idx;
u16 mbox_cmds;
int i, k, rc;
u64 flit;
u32 size;
log = padap->mbox_log;
mbox_cmds = padap->mbox_log->size;
size = sizeof(struct cudbg_mbox_log) * mbox_cmds;
rc = cudbg_get_buff(dbg_buff, size, &temp_buff);
if (rc)
return rc;
mboxlog = (struct cudbg_mbox_log *)temp_buff.data;
for (k = 0; k < mbox_cmds; k++) {
entry_idx = log->cursor + k;
if (entry_idx >= log->size)
entry_idx -= log->size;
entry = mbox_cmd_log_entry(log, entry_idx);
/* skip over unused entries */
if (entry->timestamp == 0)
continue;
memcpy(&mboxlog->entry, entry, sizeof(struct mbox_cmd));
for (i = 0; i < MBOX_LEN / 8; i++) {
flit = entry->cmd[i];
mboxlog->hi[i] = (u32)(flit >> 32);
mboxlog->lo[i] = (u32)flit;
}
mboxlog++;
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
int cudbg_collect_hma_indirect(struct cudbg_init *pdbg_init,
struct cudbg_buffer *dbg_buff,
struct cudbg_error *cudbg_err)
{
struct adapter *padap = pdbg_init->adap;
struct cudbg_buffer temp_buff = { 0 };
struct ireg_buf *hma_indr;
int i, rc, n;
u32 size;
if (CHELSIO_CHIP_VERSION(padap->params.chip) < CHELSIO_T6)
return CUDBG_STATUS_ENTITY_NOT_FOUND;
n = sizeof(t6_hma_ireg_array) / (IREG_NUM_ELEM * sizeof(u32));
size = sizeof(struct ireg_buf) * n;
rc = cudbg_get_buff(dbg_buff, size, &temp_buff);
if (rc)
return rc;
hma_indr = (struct ireg_buf *)temp_buff.data;
for (i = 0; i < n; i++) {
struct ireg_field *hma_fli = &hma_indr->tp_pio;
u32 *buff = hma_indr->outbuf;
hma_fli->ireg_addr = t6_hma_ireg_array[i][0];
hma_fli->ireg_data = t6_hma_ireg_array[i][1];
hma_fli->ireg_local_offset = t6_hma_ireg_array[i][2];
hma_fli->ireg_offset_range = t6_hma_ireg_array[i][3];
t4_read_indirect(padap, hma_fli->ireg_addr, hma_fli->ireg_data,
buff, hma_fli->ireg_offset_range,
hma_fli->ireg_local_offset);
hma_indr++;
}
cudbg_write_and_release_buff(&temp_buff, dbg_buff);
return rc;
}
