static inline INT32 _stp_btm_notify_stp_retry_wq(MTKSTP_BTM_T *stp_btm){
P_OSAL_OP pOp;
INT32 bRet;
INT32 retval;
if(stp_btm == NULL)
{
return STP_BTM_OPERATION_FAIL;
}
else
{
pOp = _stp_btm_get_free_op(stp_btm);
if (!pOp)
{
STP_BTM_WARN_FUNC("get_free_lxop fail \n");
return -1;//break;
}
pOp->op.opId = STP_OPID_BTM_RETRY;
pOp->signal.timeoutValue= 0;
bRet = _stp_btm_put_act_op(stp_btm, pOp);
STP_BTM_DBG_FUNC("OPID(%d) type(%d) bRet(%d) \n\n",
pOp->op.opId,
pOp->op.au4OpData[0],
bRet);
retval = (0 == bRet) ? STP_BTM_OPERATION_FAIL : STP_BTM_OPERATION_SUCCESS;
}
return retval;
}
static INT32 _stp_btm_handler(MTKSTP_BTM_T *stp_btm, P_STP_BTM_OP pStpOp)
{
INT32 ret = -1;
if (NULL == pStpOp)
{
return -1;
}
switch(pStpOp->opId)
{
case STP_OPID_BTM_EXIT:
// TODO: clean all up?
ret = 0;
break;
/*tx timeout retry*/
case STP_OPID_BTM_RETRY:
stp_do_tx_timeout();
ret = 0;
break;
/*whole chip reset*/
case STP_OPID_BTM_RST:
STP_BTM_INFO_FUNC("whole chip reset start!\n");
STP_BTM_INFO_FUNC("....+\n");
if(stp_btm->wmt_notify)
{
stp_btm->wmt_notify(BTM_RST_OP);
ret = 0;
}
else
{
STP_BTM_ERR_FUNC("stp_btm->wmt_notify is NULL.");
ret = -1;
}
STP_BTM_INFO_FUNC("whole chip reset end!\n");
break;
case STP_OPID_BTM_DBG_DUMP:
/*Notify the wmt to get dump data*/
STP_BTM_DBG_FUNC("wmt dmp notification\n");
_stp_btm_put_dump_to_nl();
break;
default:
ret = -1;
break;
}
return ret;
}
INT32 stp_btm_set_current_op(MTKSTP_BTM_T *stp_btm, P_OSAL_OP pOp)
{
if (stp_btm) {
stp_btm->pCurOP = pOp;
STP_BTM_DBG_FUNC("pOp=0x%p\n", pOp);
return 0;
} else {
STP_BTM_ERR_FUNC("Invalid pointer\n");
return -1;
}
}
static inline INT32 _stp_btm_do_fw_assert_via_emi(MTKSTP_BTM_T *stp_btm){
#if 0
P_OSAL_OP pOp;
INT32 bRet;
INT32 retval;
if(stp_btm == NULL)
{
return STP_BTM_OPERATION_FAIL;
}
else
{
pOp = _stp_btm_get_free_op(stp_btm);
if (!pOp)
{
STP_BTM_WARN_FUNC("get_free_lxop fail \n");
return -1;//break;
}
pOp->op.opId = STP_OPID_BTM_FORCE_FW_ASSERT;
pOp->signal.timeoutValue= 0;
bRet = _stp_btm_put_act_op(stp_btm, pOp);
STP_BTM_DBG_FUNC("OPID(%d) type(%d) bRet(%d) \n\n",
pOp->op.opId,
pOp->op.au4OpData[0],
bRet);
retval = (0 == bRet) ? STP_BTM_OPERATION_FAIL : STP_BTM_OPERATION_SUCCESS;
}
return retval;
#endif
INT32 ret = -1;
ret = _stp_trigger_firmware_assert_via_emi();
#if 0
if(0 != _stp_get_dump_info(EXP_APMEM_CTRL_HOST_OUTBAND_ASSERT_W1))
{
STP_BTM_INFO_FUNC("EXP_APMEM_CTRL_HOST_OUTBAND_ASSERT_W1 has not clear,reset it\n");
_stp_set_dump_info(EXP_APMEM_CTRL_HOST_OUTBAND_ASSERT_W1, 0x0);
}
else
{
STP_BTM_INFO_FUNC("EXP_APMEM_CTRL_HOST_OUTBAND_ASSERT_W1 reset by fw side\n");
}
#endif
return ret;
}
static inline INT32 _stp_btm_dump_type(MTKSTP_BTM_T *stp_btm, ENUM_STP_BTM_OPID_T opid)
{
P_OSAL_OP pOp;
INT32 bRet;
INT32 retval;
pOp = _stp_btm_get_free_op(stp_btm);
if (!pOp) {
STP_BTM_WARN_FUNC("get_free_lxop fail\n");
return -1; /* break; */
}
pOp->op.opId = opid;
pOp->signal.timeoutValue = 0;
bRet = _stp_btm_put_act_op(stp_btm, pOp);
STP_BTM_DBG_FUNC("OPID(%d) type(%zd) bRet(%d)\n\n", pOp->op.opId, pOp->op.au4OpData[0], bRet);
retval = (0 == bRet) ? STP_BTM_OPERATION_FAIL : STP_BTM_OPERATION_SUCCESS;
return retval;
}
static P_OSAL_OP _stp_btm_get_op(MTKSTP_BTM_T *stp_btm, P_OSAL_OP_Q pOpQ)
{
P_OSAL_OP pOp;
/* INT32 ret = 0; */
if (!pOpQ) {
STP_BTM_WARN_FUNC("!pOpQ\n");
return NULL;
}
osal_lock_unsleepable_lock(&(stp_btm->wq_spinlock));
/* acquire lock success */
RB_GET(pOpQ, pOp);
osal_unlock_unsleepable_lock(&(stp_btm->wq_spinlock));
if (!pOp) {
STP_BTM_DBG_FUNC("RB_GET fail\n");
}
return pOp;
}
static inline INT32 _stp_notify_btm_handle_wmt_lte_coex(MTKSTP_BTM_T *stp_btm)
{
P_OSAL_OP pOp;
INT32 bRet;
INT32 retval;
if (stp_btm == NULL) {
return STP_BTM_OPERATION_FAIL;
} else {
pOp = _stp_btm_get_free_op(stp_btm);
if (!pOp) {
/* STP_BTM_WARN_FUNC("get_free_lxop fail\n"); */
return -1; /* break; */
}
pOp->op.opId = STP_OPID_BTM_WMT_LTE_COEX;
pOp->signal.timeoutValue = 0;
bRet = _stp_btm_put_act_op(stp_btm, pOp);
STP_BTM_DBG_FUNC("OPID(%d) type(%zd) bRet(%d)\n\n", pOp->op.opId, pOp->op.au4OpData[0], bRet);
retval = (0 == bRet) ? STP_BTM_OPERATION_FAIL : STP_BTM_OPERATION_SUCCESS;
}
return retval;
}
static inline INT32 _stp_btm_do_fw_assert_via_emi(MTKSTP_BTM_T *stp_btm){
#if 0
P_OSAL_OP pOp;
INT32 bRet;
INT32 retval;
if(stp_btm == NULL)
{
return STP_BTM_OPERATION_FAIL;
}
else
{
pOp = _stp_btm_get_free_op(stp_btm);
if (!pOp)
{
STP_BTM_WARN_FUNC("get_free_lxop fail \n");
return -1;//break;
}
pOp->op.opId = STP_OPID_BTM_FORCE_FW_ASSERT;
pOp->signal.timeoutValue= 0;
bRet = _stp_btm_put_act_op(stp_btm, pOp);
STP_BTM_DBG_FUNC("OPID(%d) type(%d) bRet(%d) \n\n",
pOp->op.opId,
pOp->op.au4OpData[0],
bRet);
retval = (0 == bRet) ? STP_BTM_OPERATION_FAIL : STP_BTM_OPERATION_SUCCESS;
}
return retval;
#endif
INT32 ret = -1;
ret = _stp_trigger_firmware_assert_via_emi();
return ret;
}
static INT32 stp_btm_dump_send_retry_handler(PINT8 tmp, INT32 len)
{
if (NULL == tmp)
return -1;
INT32 rc = 0, nl_retry = 0;
rc = stp_dbg_nl_send(tmp, 2, len+5);
while (rc) {
nl_retry++;
if (rc == 32) {
STP_BTM_ERR_FUNC("**dump send timeout : %d**\n", rc);
return 1;
}
if (nl_retry > 1000) {
STP_BTM_ERR_FUNC("**dump send fails, and retry more than 1000: %d.**\n", rc);
return 2;
}
STP_BTM_WARN_FUNC("**dump send fails, and retry again.**\n");
osal_sleep_ms(3);
rc = stp_dbg_nl_send(tmp, 2, len+5);
if (!rc)
STP_BTM_DBG_FUNC("****retry again ok!**\n");
}
return rc;
}
static INT32 _stp_btm_proc (void *pvData)
{
MTKSTP_BTM_T *stp_btm = (MTKSTP_BTM_T *)pvData;
P_OSAL_OP pOp;
INT32 id;
INT32 result;
if (!stp_btm)
{
STP_BTM_WARN_FUNC("!stp_btm \n");
return -1;
}
for (;;)
{
pOp = NULL;
osal_wait_for_event(&stp_btm->STPd_event,
_stp_btm_wait_for_msg,
(void *)stp_btm
);
if (osal_thread_should_stop(&stp_btm->BTMd))
{
STP_BTM_INFO_FUNC("should stop now... \n");
// TODO: clean up active opQ
break;
}
/* get Op from activeQ */
pOp = _stp_btm_get_op(stp_btm, &stp_btm->rActiveOpQ);
if (!pOp)
{
STP_BTM_WARN_FUNC("get_lxop activeQ fail\n");
continue;
}
id = osal_op_get_id(pOp);
STP_BTM_DBG_FUNC("======> lxop_get_opid = %d, %s, remaining count = *%d*\n",
id, (id >= 4)?("???"):(g_btm_op_name[id]), RB_COUNT(&stp_btm->rActiveOpQ));
if (id >= STP_OPID_BTM_NUM)
{
STP_BTM_WARN_FUNC("abnormal opid id: 0x%x \n", id);
result = -1;
goto handler_done;
}
result = _stp_btm_handler(stp_btm, &pOp->op);
handler_done:
if (result)
{
STP_BTM_WARN_FUNC("opid id(0x%x)(%s) error(%d)\n", id, (id >= 4)?("???"):(g_btm_op_name[id]), result);
}
if (osal_op_is_wait_for_signal(pOp))
{
osal_op_raise_signal(pOp, result);
}
else
{
/* put Op back to freeQ */
_stp_btm_put_op(stp_btm, &stp_btm->rFreeOpQ, pOp);
}
if (STP_OPID_BTM_EXIT == id)
{
break;
}
}
STP_BTM_INFO_FUNC("exits \n");
return 0;
};
INT32 _stp_btm_put_act_op (
MTKSTP_BTM_T *stp_btm,
P_OSAL_OP pOp
)
{
INT32 bRet = 0;
INT32 bCleanup = 0;
long wait_ret = -1;
P_OSAL_SIGNAL pSignal = NULL;
do {
if (!stp_btm || !pOp)
{
break;
}
pSignal = &pOp->signal;
if (pSignal->timeoutValue)
{
pOp->result = -9;
osal_signal_init(&pOp->signal);
}
/* put to active Q */
bRet = _stp_btm_put_op(stp_btm, &stp_btm->rActiveOpQ, pOp);
if(0 == bRet)
{
STP_BTM_WARN_FUNC("put active queue fail\n");
bCleanup = 1;//MTK_WCN_BOOL_TRUE;
break;
}
/* wake up wmtd */
osal_trigger_event(&stp_btm->STPd_event);
if (pSignal->timeoutValue == 0)
{
bRet = 1;//MTK_WCN_BOOL_TRUE;
/* clean it in wmtd */
break;
}
/* wait result, clean it here */
bCleanup = 1;//MTK_WCN_BOOL_TRUE;
/* check result */
wait_ret = osal_wait_for_signal_timeout(&pOp->signal);
STP_BTM_DBG_FUNC("wait completion:%ld\n", wait_ret);
if (!wait_ret)
{
STP_BTM_ERR_FUNC("wait completion timeout \n");
// TODO: how to handle it? retry?
}
else
{
if (pOp->result)
{
STP_BTM_WARN_FUNC("op(%d) result:%d\n", pOp->op.opId, pOp->result);
}
bRet = (pOp->result) ? 0 : 1;
}
} while(0);
if (bCleanup) {
/* put Op back to freeQ */
_stp_btm_put_op(stp_btm, &stp_btm->rFreeOpQ, pOp);
}
return bRet;
}
static INT32 _stp_btm_handler(MTKSTP_BTM_T *stp_btm, P_STP_BTM_OP pStpOp)
{
INT32 ret = -1;
INT32 dump_sink = 1; //core dump target, 0: aee; 1: netlink
static UINT32 counter = 0;
UINT32 full_dump_left = STP_FULL_DUMP_TIME;
UINT32 page_counter = 0;
ENUM_STP_FW_ISSUE_TYPE issue_type;
if (NULL == pStpOp)
{
return -1;
}
switch(pStpOp->opId)
{
case STP_OPID_BTM_EXIT:
// TODO: clean all up?
ret = 0;
break;
/*tx timeout retry*/
case STP_OPID_BTM_RETRY:
stp_do_tx_timeout();
ret = 0;
break;
/*whole chip reset*/
case STP_OPID_BTM_RST:
STP_BTM_INFO_FUNC("whole chip reset start!\n");
STP_BTM_INFO_FUNC("....+\n");
if(stp_btm->wmt_notify)
{
stp_btm->wmt_notify(BTM_RST_OP);
ret = 0;
}
else
{
STP_BTM_ERR_FUNC("stp_btm->wmt_notify is NULL.");
ret = -1;
}
STP_BTM_INFO_FUNC("whole chip reset end!\n");
break;
case STP_OPID_BTM_DBG_DUMP:
/*Notify the wmt to get dump data*/
STP_BTM_DBG_FUNC("wmt dmp notification\n");
dump_sink = ((stp_btm->wmt_notify(BTM_GET_AEE_SUPPORT_FLAG) == MTK_WCN_BOOL_TRUE) ? 0 : 1);
if (dump_sink == 0) {
_stp_btm_put_dump_to_aee();
} else if (dump_sink == 1) {
_stp_btm_put_dump_to_nl();
} else {
STP_BTM_ERR_FUNC("unknown sink %d\n", dump_sink);
}
break;
case STP_OPID_BTM_DUMP_TIMEOUT:
// Flush dump data, and reset compressor
STP_BTM_INFO_FUNC("Flush dump data\n");
wcn_core_dump_flush(0,MTK_WCN_BOOL_TRUE);
break;
case STP_OPID_BTM_POLL_CPUPCR:
do{
UINT32 times;
UINT32 sleep;
times = pStpOp->au4OpData[0];
sleep = pStpOp->au4OpData[1];
ret = stp_dbg_poll_cpupcr(times, sleep,0);
ret += stp_dbg_poll_dmaregs(times, sleep);
}while(0);
break;
case STP_OPID_BTM_PAGED_DUMP:
g_paged_dump_len = 0;
issue_type = STP_FW_ASSERT_ISSUE;
wmt_plat_set_host_dump_state(STP_HOST_DUMP_NOT_START);
page_counter = 0;
do{
UINT32 loop_cnt1 = 0;
UINT32 loop_cnt2 = 0;
ENUM_HOST_DUMP_STATE host_state;
ENUM_CHIP_DUMP_STATE chip_state;
UINT32 dump_phy_addr = 0;
UINT8 *dump_vir_addr = NULL;
UINT32 dump_len = 0;
UINT32 isEnd = 0;
P_CONSYS_EMI_ADDR_INFO p_emi_ctrl_state_info;
p_emi_ctrl_state_info = wmt_plat_get_emi_phy_add();
osal_assert(p_emi_ctrl_state_info);
host_state = (ENUM_HOST_DUMP_STATE)wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_host_sync_state);
if(STP_HOST_DUMP_NOT_START == host_state)
{
counter++;
STP_BTM_INFO_FUNC("counter(%d)\n",counter);
osal_sleep_ms(100);
}
else
{
counter = 0;
}
while(1)
{
chip_state = (ENUM_CHIP_DUMP_STATE)wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_chip_sync_state);
if(STP_CHIP_DUMP_PUT_DONE == chip_state){
STP_BTM_INFO_FUNC("chip put done\n");
break;
}
else
{
STP_BTM_INFO_FUNC("waiting chip put done\n");
STP_BTM_INFO_FUNC("chip_state: %d\n", chip_state);
loop_cnt1 ++;
osal_sleep_ms(5);
}
if(loop_cnt1 > 10)
goto paged_dump_end;
}
wmt_plat_set_host_dump_state(STP_HOST_DUMP_GET);
dump_phy_addr = wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_chip_sync_addr);
if(!dump_phy_addr)
{
STP_BTM_ERR_FUNC("get paged dump phy address fail\n");
ret = -1;
break;
}
dump_vir_addr = wmt_plat_get_emi_virt_add(dump_phy_addr - p_emi_ctrl_state_info->emi_phy_addr);
if(!dump_vir_addr)
{
STP_BTM_ERR_FUNC("get paged dump phy address fail\n");
ret = -2;
break;
}
dump_len = wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_chip_sync_len);
STP_BTM_INFO_FUNC("dump_phy_ddr(%08x),dump_vir_add(0x%p),dump_len(%d)\n",dump_phy_addr,dump_vir_addr,dump_len);
/*move dump info according to dump_addr & dump_len*/
#if 1
osal_memcpy(&g_paged_dump_buffer[0],dump_vir_addr,dump_len);
_stp_dump_emi_dump_buffer(&g_paged_dump_buffer[0],dump_len);
if(0 == page_counter)//do fw assert infor paser in first paged dump
{
if(1 == stp_dbg_get_host_trigger_assert())
{
issue_type = STP_HOST_TRIGGER_FW_ASSERT;
}
ret = stp_dbg_set_fw_info(&g_paged_dump_buffer[0],512,issue_type);
if(ret)
{
STP_BTM_ERR_FUNC("set fw issue infor fail(%d),maybe fw warm reset...\n",ret);
stp_dbg_set_fw_info("Fw Warm reset",osal_strlen("Fw Warm reset"),STP_FW_WARM_RST_ISSUE);
}
}
if(dump_len <= 32*1024){
ret = stp_dbg_aee_send(&g_paged_dump_buffer[0],dump_len, 0);
if(ret == 0){
STP_BTM_INFO_FUNC("aee send ok!\n");
} else if (ret == 1) {
STP_BTM_INFO_FUNC("aee send fisish!\n");
} else {
STP_BTM_ERR_FUNC("aee send error!\n");
}
} else {
STP_BTM_ERR_FUNC("dump len is over than 32K(%d)\n",dump_len);
}
g_paged_dump_len += dump_len;
STP_BTM_INFO_FUNC("dump len update(%d)\n",g_paged_dump_len);
#endif
wmt_plat_update_host_sync_num();
wmt_plat_set_host_dump_state(STP_HOST_DUMP_GET_DONE);
STP_BTM_INFO_FUNC("host sync num(%d),chip sync num(%d)\n",
wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_host_sync_num),
wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_chip_sync_num));
page_counter++;
STP_BTM_INFO_FUNC("\n\n++ paged dump counter(%d) ++\n\n\n",page_counter);
while(1)
{
chip_state = (ENUM_CHIP_DUMP_STATE)wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_chip_sync_state);
if(STP_CHIP_DUMP_END == chip_state)
{
STP_BTM_INFO_FUNC("chip put end\n");
wmt_plat_set_host_dump_state(STP_HOST_DUMP_END);
break;
}
else
{
STP_BTM_INFO_FUNC("waiting chip put end\n");
loop_cnt2++;
osal_sleep_ms(10);
}
if(loop_cnt2 > 10)
goto paged_dump_end;
}
paged_dump_end:
wmt_plat_set_host_dump_state(STP_HOST_DUMP_NOT_START);
if(counter * 100 > STP_PAGED_DUMP_TIME_LIMIT)
{
isEnd = wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_chip_paded_dump_end);
if(isEnd)
{
STP_BTM_INFO_FUNC("paged dump end\n");
STP_BTM_INFO_FUNC("\n\n paged dump print ++ \n\n");
_stp_dump_emi_dump_buffer(&g_paged_dump_buffer[0],g_paged_dump_len);
STP_BTM_INFO_FUNC("\n\n paged dump print -- \n\n");
STP_BTM_INFO_FUNC("\n\n paged dump size = %d, paged dump page number = %d \n\n", g_paged_dump_len, page_counter);
counter = 0;
ret = 0;
break;
}
else
{
STP_BTM_ERR_FUNC("paged dump fail\n");
wmt_plat_set_host_dump_state(STP_HOST_DUMP_NOT_START);
stp_dbg_poll_cpupcr(5,5,0);
stp_dbg_poll_dmaregs(5, 1);
counter = 0;
ret = -1;
break;
}
}
}while(1);
break;
case STP_OPID_BTM_FULL_DUMP:
wmt_plat_set_host_dump_state(STP_HOST_DUMP_NOT_START);
do{
UINT32 loop_cnt1 = 0;
UINT32 loop_cnt2 = 0;
ENUM_CHIP_DUMP_STATE chip_state;
UINT32 dump_phy_addr = 0;
UINT8 *dump_vir_addr = NULL;
UINT32 dump_len = 0;
UINT32 isFail = 0;
P_CONSYS_EMI_ADDR_INFO p_emi_ctrl_state_info;
p_emi_ctrl_state_info = wmt_plat_get_emi_phy_add();
osal_assert(p_emi_ctrl_state_info);
while(1)
{
chip_state = (ENUM_CHIP_DUMP_STATE)wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_chip_sync_state);
if(STP_CHIP_DUMP_PUT_DONE == chip_state)
break;
else
{
loop_cnt1 ++;
osal_sleep_ms(10);
}
if(loop_cnt1 > 10)
{
isFail = 1;
goto full_dump_end;
}
}
wmt_plat_set_host_dump_state(STP_HOST_DUMP_GET);
dump_phy_addr = wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_chip_sync_addr);
if(!dump_phy_addr)
{
STP_BTM_ERR_FUNC("get phy dump address fail\n");
ret = -1;
break;
}
dump_vir_addr = wmt_plat_get_emi_virt_add(dump_phy_addr - p_emi_ctrl_state_info->emi_phy_addr);
if(!dump_vir_addr)
{
STP_BTM_ERR_FUNC("get vir dump address fail\n");
ret = -2;
break;
}
dump_len = wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_chip_sync_len);
/*move dump info according to dump_addr & dump_len*/
wmt_plat_update_host_sync_num();
wmt_plat_set_host_dump_state(STP_HOST_DUMP_GET_DONE);
STP_BTM_INFO_FUNC("host sync num(%d),chip sync num(%d)\n",
wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_host_sync_num),
wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_chip_sync_num));
while(1)
{
chip_state = (ENUM_CHIP_DUMP_STATE)wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_chip_sync_state);
if(STP_CHIP_DUMP_END == chip_state)
{
wmt_plat_set_host_dump_state(STP_HOST_DUMP_END);
break;
}
else
{
loop_cnt2++;
osal_sleep_ms(10);
}
if(loop_cnt2 > 10)
{
isFail = 1;
goto full_dump_end;
}
}
wmt_plat_set_host_dump_state(STP_HOST_DUMP_NOT_START);
full_dump_end:
if(isFail)
{
STP_BTM_ERR_FUNC("full dump fail\n");
wmt_plat_set_host_dump_state(STP_HOST_DUMP_NOT_START);
ret = -1;
break;
}
}while(--full_dump_left > 0);
if(0 == full_dump_left)
{
STP_BTM_INFO_FUNC("full dump end\n");
ret = 0;
}
break;
case STP_OPID_BTM_PAGED_TRACE:
g_paged_trace_len = 0;
do{
UINT32 ctrl_val = 0;
UINT32 loop_cnt1 = 0;
UINT32 buffer_start = 0;
UINT32 buffer_idx = 0;
UINT8 *dump_vir_addr = NULL;
P_CONSYS_EMI_ADDR_INFO p_emi_ctrl_state_info;
p_emi_ctrl_state_info = wmt_plat_get_emi_phy_add();
osal_assert(p_emi_ctrl_state_info);
while(loop_cnt1 < 10)
{
ctrl_val = wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_state);
if(0x8 == ctrl_val)
break;
else
{
osal_sleep_ms(10);
loop_cnt1++;
}
}
if(loop_cnt1 >= 10)
{
STP_BTM_ERR_FUNC("polling CTRL STATE fail\n");
ret = -1;
break;
}
buffer_start = wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_chip_print_buff_start);
buffer_idx = wmt_plat_get_dump_info(p_emi_ctrl_state_info->p_emi_ctrl_state_offset->emi_apmem_ctrl_chip_print_buff_idx);
//buffer_len = buffer_idx - buffer_start;
g_paged_trace_len = buffer_idx;
STP_BTM_INFO_FUNC("paged trace buffer addr(%08x),buffer_len(%d)\n",buffer_start,buffer_idx);
dump_vir_addr = wmt_plat_get_emi_virt_add(buffer_start - p_emi_ctrl_state_info->emi_phy_addr);
if(!dump_vir_addr)
{
STP_BTM_ERR_FUNC("get vir dump address fail\n");
ret = -2;
break;
}
osal_memcpy(&g_paged_trace_buffer[0],dump_vir_addr,buffer_idx < STP_DBG_PAGED_TRACE_SIZE ? buffer_idx : STP_DBG_PAGED_TRACE_SIZE);
/*moving paged trace according to buffer_start & buffer_len*/
do {
int i = 0;
int dump_len = 0;
dump_len = buffer_idx < STP_DBG_PAGED_TRACE_SIZE ? buffer_idx : STP_DBG_PAGED_TRACE_SIZE;
printk("\n\n -- paged trace hex output --\n\n");
for(i = 0;i < dump_len; i++)
{
if(i%16 == 0){
printk("\n");
}
printk("%02x ",g_paged_trace_buffer[i]);
}
printk("\n\n -- paged trace ascii output --\n\n");
for(i = 0;i < dump_len; i++)
{
if(i%64 == 0)
printk("\n");
printk("%c",g_paged_trace_buffer[i]);
}
}while(0);
/*move parser fw assert infor to paged dump in the one paged dump*/
//ret = stp_dbg_set_fw_info(&g_paged_trace_buffer[0],g_paged_trace_len,issue_type);
ret = 0;
}while(0);
mtk_wcn_stp_ctx_restore();
break;
#if CFG_WMT_LTE_COEX_HANDLING
case STP_OPID_BTM_WMT_LTE_COEX:
ret = wmt_idc_msg_to_lte_handing();
break;
#endif
default:
ret = -1;
break;
}
return ret;
}
static INT32 _stp_btm_handler(MTKSTP_BTM_T *stp_btm, P_STP_BTM_OP pStpOp)
{
INT32 ret = -1;
INT32 dump_sink = 1; //core dump target, 0: aee; 1: netlink
if (NULL == pStpOp)
{
return -1;
}
switch(pStpOp->opId)
{
case STP_OPID_BTM_EXIT:
// TODO: clean all up?
ret = 0;
break;
/*tx timeout retry*/
case STP_OPID_BTM_RETRY:
stp_do_tx_timeout();
ret = 0;
break;
/*whole chip reset*/
case STP_OPID_BTM_RST:
STP_BTM_INFO_FUNC("whole chip reset start!\n");
STP_BTM_INFO_FUNC("....+\n");
if(stp_btm->wmt_notify)
{
stp_btm->wmt_notify(BTM_RST_OP);
ret = 0;
}
else
{
STP_BTM_ERR_FUNC("stp_btm->wmt_notify is NULL.");
ret = -1;
}
STP_BTM_INFO_FUNC("whole chip reset end!\n");
break;
case STP_OPID_BTM_DBG_DUMP:
/*Notify the wmt to get dump data*/
STP_BTM_DBG_FUNC("wmt dmp notification\n");
dump_sink = ((stp_btm->wmt_notify(BTM_GET_AEE_SUPPORT_FLAG) == MTK_WCN_BOOL_TRUE) ? 0 : 1);
if (dump_sink == 0) {
_stp_btm_put_dump_to_aee();
} else if (dump_sink == 1) {
_stp_btm_put_dump_to_nl();
} else {
STP_BTM_ERR_FUNC("unknown sink %d\n", dump_sink);
}
break;
case STP_OPID_BTM_DUMP_TIMEOUT:
// Flush dump data, and reset compressor
STP_BTM_INFO_FUNC("Flush dump data\n");
wcn_core_dump_flush(0);
break;
default:
ret = -1;
break;
}
return ret;
}
static INT32 _stp_btm_proc(PVOID pvData)
{
MTKSTP_BTM_T *stp_btm = (MTKSTP_BTM_T *) pvData;
P_OSAL_OP pOp;
INT32 id;
INT32 result;
if (!stp_btm) {
STP_BTM_WARN_FUNC("!stp_btm\n");
return -1;
}
for (;;) {
pOp = NULL;
osal_wait_for_event(&stp_btm->STPd_event, _stp_btm_wait_for_msg, (PVOID)stp_btm);
if (osal_thread_should_stop(&stp_btm->BTMd)) {
STP_BTM_INFO_FUNC("should stop now...\n");
/* TODO: clean up active opQ */
break;
}
#if 1
if (gDumplogflag) {
/* pr_warn("enter place1\n"); */
if (mtk_wcn_stp_is_uart_mand_mode() || mtk_wcn_stp_is_uart_fullset_mode())
dump_uart_history();
gDumplogflag = 0;
continue;
}
#endif
/* get Op from activeQ */
pOp = _stp_btm_get_op(stp_btm, &stp_btm->rActiveOpQ);
if (!pOp) {
STP_BTM_WARN_FUNC("get_lxop activeQ fail\n");
continue;
}
id = osal_op_get_id(pOp);
STP_BTM_DBG_FUNC("======> lxop_get_opid = %d, %s, remaining count = *%d*\n",
id, (id >= 4) ? ("???") : (g_btm_op_name[id]),
RB_COUNT(&stp_btm->rActiveOpQ));
if (id >= STP_OPID_BTM_NUM) {
STP_BTM_WARN_FUNC("abnormal opid id: 0x%x\n", id);
result = -1;
goto handler_done;
}
osal_lock_unsleepable_lock(&(stp_btm->wq_spinlock));
stp_btm_set_current_op(stp_btm, pOp);
osal_unlock_unsleepable_lock(&(stp_btm->wq_spinlock));
result = _stp_btm_handler(stp_btm, &pOp->op);
osal_lock_unsleepable_lock(&(stp_btm->wq_spinlock));
stp_btm_set_current_op(stp_btm, NULL);
osal_unlock_unsleepable_lock(&(stp_btm->wq_spinlock));
handler_done:
if (result) {
STP_BTM_WARN_FUNC("opid id(0x%x)(%s) error(%d)\n",
id, (id >= 4) ? ("???") : (g_btm_op_name[id]), result);
}
if (osal_op_is_wait_for_signal(pOp)) {
osal_op_raise_signal(pOp, result);
} else {
/* put Op back to freeQ */
_stp_btm_put_op(stp_btm, &stp_btm->rFreeOpQ, pOp);
}
if (STP_OPID_BTM_EXIT == id) {
break;
} else if (STP_OPID_BTM_RST == id) {
/* prevent multi reset case */
stp_btm_reset_btm_wq(stp_btm);
}
}
STP_BTM_INFO_FUNC("exits\n");
return 0;
};
static INT32 _stp_btm_put_op(MTKSTP_BTM_T *stp_btm, P_OSAL_OP_Q pOpQ, P_OSAL_OP pOp)
{
INT32 ret;
P_OSAL_OP pOp_latest;
P_OSAL_OP pOp_current;
INT32 flag_latest = 1;
INT32 flag_current = 1;
if (!pOpQ || !pOp) {
STP_BTM_WARN_FUNC("invalid input param: 0x%p, 0x%p\n", pOpQ, pOp);
return 0; /* ;MTK_WCN_BOOL_FALSE; */
}
ret = 0;
osal_lock_unsleepable_lock(&(stp_btm->wq_spinlock));
/* acquire lock success */
if (&stp_btm->rFreeOpQ == pOpQ) {
if (!RB_FULL(pOpQ))
RB_PUT(pOpQ, pOp);
else
ret = -1;
} else if (pOp->op.opId == STP_OPID_BTM_RST || pOp->op.opId == STP_OPID_BTM_DUMP_TIMEOUT) {
if (!RB_FULL(pOpQ)) {
RB_PUT(pOpQ, pOp);
STP_BTM_ERR_FUNC("RB_PUT: 0x%d\n", pOp->op.opId);
} else
ret = -1;
} else {
pOp_current = stp_btm_get_current_op(stp_btm);
if (pOp_current) {
if (pOp_current->op.opId == STP_OPID_BTM_RST ||
pOp_current->op.opId == STP_OPID_BTM_DUMP_TIMEOUT) {
STP_BTM_ERR_FUNC("current: 0x%d\n", pOp_current->op.opId);
flag_current = 0;
}
}
RB_GET_LATEST(pOpQ, pOp_latest);
if (pOp_latest) {
if (pOp_latest->op.opId == STP_OPID_BTM_RST ||
pOp_latest->op.opId == STP_OPID_BTM_DUMP_TIMEOUT) {
STP_BTM_ERR_FUNC("latest: 0x%d\n", pOp_latest->op.opId);
flag_latest = 0;
}
if (pOp_latest->op.opId == pOp->op.opId) {
flag_latest = 0;
STP_BTM_DBG_FUNC("With the latest a command repeat: latest 0x%d,current 0x%d\n",
pOp_latest->op.opId, pOp->op.opId);
}
}
if (flag_current && flag_latest) {
if (!RB_FULL(pOpQ)) {
RB_PUT(pOpQ, pOp);
STP_BTM_ERR_FUNC("RB_PUT: 0x%d\n", pOp->op.opId);
} else
ret = -1;
} else
ret = -1;
}
osal_unlock_unsleepable_lock(&(stp_btm->wq_spinlock));
if (ret) {
STP_BTM_DBG_FUNC("RB_FULL(0x%p) %d ,rFreeOpQ = %p, rActiveOpQ = %p\n",
pOpQ, RB_COUNT(pOpQ), &stp_btm->rFreeOpQ, &stp_btm->rActiveOpQ);
return 0;
} else {
/* STP_BTM_WARN_FUNC("RB_COUNT = %d\n",RB_COUNT(pOpQ)); */
return 1;
}
}
