/*! * @function [static] cccitty_process_dl_gpd_list * @brief Traverse the input GPD list and insert the CCCI header on the first BD->data * * @param pDevice [IN] pointer to the CCCI_TTY device * @param first_gpd [IN] pointer to the first GPD in the GPD chain * @param last_gpd [IN] pointer to the last GPD in the GPD chain * * @return kal_uint32 return the gpd number in between first_gpd and last_gpd */ static kal_uint32 cccitty_process_dl_gpd_list(cccitty_dev_t* pDevice, qbm_gpd* first_gpd, qbm_gpd* last_gpd) { /*process_tx_gpd_list*/ qbm_gpd* current_gpd = NULL; kal_uint32 pkt_cnt = 0; kal_uint32 byte_cnt = 0; kal_uint32 ccci_h_size; CCCI_BUFF_T *p_ccci_head; kal_int32 addseqrtn; //ASSERT(first_gpd && last_gpd); EXT_ASSERT((first_gpd && last_gpd), pDevice->dev_id, (kal_uint32)first_gpd, (kal_uint32)last_gpd); current_gpd = first_gpd; ccci_h_size = sizeof(CCCI_BUFF_T); ASSERT(ccci_h_size > 0); do { //4 <1> append CCCI header CCCI_BUFF_T #ifdef __CCCI_N_USE_TGPD_EXT__ /*move data buffer pointer forward for ccci header, increase the gpd, bd length*/ CCCITTY_PUSH_QBM_DATAHEAD(current_gpd, ccci_h_size); p_ccci_head = (CCCI_BUFF_T *)CCCITTY_GET_QBM_DATAPTR(current_gpd); CCCI_STREAM_SET_LEN(p_ccci_head, CCCITTY_GET_QBM_DATALEN(current_gpd)); #else /* Store the DL CCCI header in the GPD extention part */ QBM_DES_SET_EXTLEN(current_gpd, ccci_h_size); p_ccci_head = (CCCI_BUFF_T *)QBM_DES_GET_EXT(current_gpd); CCCI_STREAM_SET_LEN(p_ccci_head, CCCITTY_GET_QBM_DATALEN(current_gpd)+ccci_h_size); #endif /*Construct the CCCI header*/ CCCI_SET_CH_NO(p_ccci_head, pDevice->ccci_ch.cccitty_ch_dl); /*Add CCCI sequence number*/ addseqrtn = ccci_debug_add_seq(p_ccci_head, CCCI_DEBUG_ASSERT_BIT); if(addseqrtn != CCCI_SUCCESS) { cccitty_trace(CCCI_TTY_ERR, CCCI_TTY_MOD_DL, CCCI_TTY_ADD_DL_SEQ_FAIL, addseqrtn, pDevice->ccci_ch.cccitty_ch_dl); } #if CCCITTY_DATA_TRACE_DUMP_ENABLE if(pDevice->ccci_ch.cccitty_ch_dl != CCCI_MD_LOG_RX){ cccitty_dump_data(CCCITTY_GET_QBM_DATAPTR(current_gpd), CCCITTY_DUMP_SIZE); } #endif QBM_CACHE_FLUSH(p_ccci_head, sizeof(CCCI_BUFF_T)); pkt_cnt++; byte_cnt += QBM_DES_GET_DATALEN(current_gpd); if ( current_gpd == last_gpd ) { break; } current_gpd = QBM_DES_GET_NEXT(current_gpd); } while ( current_gpd != NULL ); return pkt_cnt; }
void ccci_exception_info_passed_pre(void) { #if defined(__MODEM_CCCI_EXIST__)&& !defined(__MODEM_CARD__) CCCI_BUFF_T *buff; qbm_gpd *p_first_gpd, *p_last_gpd; kal_uint32 gpd_num; // ensure in the exception state if(INT_QueryExceptionStatus() == KAL_FALSE) return; //- Already init in ccci_exception_handshake //- ccci_init(CCCI_CONTROL_CHANNEL, ccci_except_ack); //- ccci_init(CCCI_CONTROL_CHANNEL_ACK, ccci_except_ack); buff = CCCIDEV_GET_QBM_DATAPTR(ccci_except_polling_gpd_tx); buff->data[0] = MD_EX_MAGIC; buff->data[1] = CCMSG_ID_EXCEPTION_REC_OK; buff->channel = CCCI_CONTROL_CHANNEL; buff->reserved = MD_EX_REC_OK_CHK_ID; ccci_debug_add_seq(buff, CCCI_DEBUG_ASSERT_BIT); // add ccci seq kal_mem_cpy((void*)(buff+1), ex_log_ptr, sizeof(EX_LOG_T)); QBM_DES_SET_DATALEN(ccci_except_polling_gpd_tx, sizeof(CCCI_BUFF_T) + sizeof(EX_LOG_T)); QBM_DES_SET_DATALEN(ccci_except_polling_gpd_tx->p_data_tbd, sizeof(CCCI_BUFF_T) + sizeof(EX_LOG_T)); qbm_cal_set_checksum((kal_uint8 *)ccci_except_polling_gpd_tx); qbm_cal_set_checksum((kal_uint8 *)ccci_except_polling_gpd_tx->p_data_tbd); QBM_CACHE_FLUSH(ccci_except_polling_gpd_tx, sizeof(qbm_gpd)); QBM_CACHE_FLUSH(ccci_except_polling_gpd_tx->p_data_tbd, sizeof(qbm_gpd)); QBM_CACHE_FLUSH(buff, sizeof(CCCI_BUFF_T) + sizeof(EX_LOG_T)); // TODO:Need to revise the API, shall use exception API (after channle reset flow is done) #ifdef SWITCH_TO_EXCEPTION_IO p_first_gpd = p_last_gpd = ccci_except_polling_gpd_tx; ccci_except_set_gpd(CCCI_CONTROL_CHANNEL, p_first_gpd, p_last_gpd); gpd_num = 0; do{ ccci_except_hif_st(CCCI_CONTROL_CHANNEL); ccci_except_poll_gpd(CCCI_CONTROL_CHANNEL, (void **)&p_first_gpd, (void **)&p_last_gpd, &gpd_num); }while(0 == gpd_num); ex_set_step_logging(EX_AUTO_STEP); //0x45 CCCIDEV_RST_CCCI_COMM_GPD_LIST(p_first_gpd, p_last_gpd); #else ccci_exception_info_write_result = ccci_polling_io(CCCI_CONTROL_CHANNEL, ccci_except_polling_gpd_tx, KAL_TRUE); CCCIDEV_RST_CCCI_COMM_GPD_LIST(ccci_except_polling_gpd_tx, ccci_except_polling_gpd_tx); #endif ccci_exception_state = CCCI_EXPT_INFO_PASS_PRE_ST; #ifdef WDT_ISR_TEST wdt_test(); #endif #endif }
/************************************************************************* * FUNCTION * void ccci_exception_handshake * * DESCRIPTION * This function . * * PARAMETERS * channel - logical channel * * * RETURNS * The address of the share memory of the input logical channel * *************************************************************************/ void ccci_exception_handshake(void){ #if defined(__MODEM_CCCI_EXIST__)&& !defined(__MODEM_CARD__) CCCI_BUFF_T *buff; kal_uint32 p_cache_aligned; kal_uint32 gpd_num; qbm_gpd *p_first_gpd, *p_last_gpd; //kal_uint32 rcv_size = 0; // ensure in the exception state if(INT_QueryExceptionStatus() == KAL_FALSE) return; //we block here for debuging //if(ccci_exception_state != CCCI_EXPT_CLEAR_CH_ST) while(1); //- Avoid to use kal_mem_cpy //- HW bug ccci_init(CCCI_CONTROL_CHANNEL, ccci_except_ack); ccci_init(CCCI_CONTROL_CHANNEL_ACK, ccci_except_ack); // exception only have single thread, need to do polling mode /* initialize polling mode GPD */ ASSERT(CCCI_EXCEPT_POLLING_MODE_BUF_SZ >= 2*CPU_CACHE_LINE_SIZE); /*make p_gpd aligned to CPU_CACHE_LINE_SIZE_MASK*/ p_cache_aligned = (kal_uint32)g_ccci_expect_polling_buf_tx; if(p_cache_aligned&CPU_CACHE_LINE_SIZE_MASK) { p_cache_aligned = ((kal_uint32)(g_ccci_expect_polling_buf_tx)&~CPU_CACHE_LINE_SIZE_MASK); p_cache_aligned += CPU_CACHE_LINE_SIZE; } // The reason + QBM_HEAD_SIZE is for ROME E1, cldma needs to record this buff whether is cacheable or non-cacheable ccci_except_polling_gpd_tx = (qbm_gpd *)(p_cache_aligned + QBM_HEAD_SIZE); CCCIDEV_RST_CCCI_COMM_GPD_LIST(ccci_except_polling_gpd_tx, ccci_except_polling_gpd_tx); //format Rx GPD p_cache_aligned = (kal_uint32)g_ccci_expect_polling_buf_rx; if(p_cache_aligned&CPU_CACHE_LINE_SIZE_MASK) { p_cache_aligned = ((kal_uint32)(g_ccci_expect_polling_buf_rx)&~CPU_CACHE_LINE_SIZE_MASK); p_cache_aligned += CPU_CACHE_LINE_SIZE; } // The reason + QBM_HEAD_SIZE is for ROME E1, cldma needs to record this buff whether is cacheable or non-cacheable ccci_except_polling_gpd_rx = (qbm_gpd *)(p_cache_aligned + QBM_HEAD_SIZE); CCCIDEV_RST_CCCI_COMM_GPD_LIST(ccci_except_polling_gpd_rx, ccci_except_polling_gpd_rx); //format Rx 2nd GPD p_cache_aligned = (kal_uint32)g_ccci_expect_polling_buf_rx2; if(p_cache_aligned&CPU_CACHE_LINE_SIZE_MASK) { p_cache_aligned = ((kal_uint32)(g_ccci_expect_polling_buf_rx2)&~CPU_CACHE_LINE_SIZE_MASK); p_cache_aligned += CPU_CACHE_LINE_SIZE; } // The reason + QBM_HEAD_SIZE is for ROME E1, cldma needs to record this buff whether is cacheable or non-cacheable ccci_except_polling_gpd_rx2 = (qbm_gpd *)(p_cache_aligned + QBM_HEAD_SIZE); CCCIDEV_RST_CCCI_COMM_GPD_LIST(ccci_except_polling_gpd_rx2, ccci_except_polling_gpd_rx2); //step 0. config rx gpd next pointer QBM_DES_SET_NEXT(ccci_except_polling_gpd_rx, ccci_except_polling_gpd_rx2); //step 1. send TX handshake pkt buff = CCCIDEV_GET_QBM_DATAPTR(ccci_except_polling_gpd_tx); buff->data[0] = MD_EX_MAGIC; buff->data[1] = CCMSG_ID_EXCEPTION_CHECK; buff->channel = CCCI_CONTROL_CHANNEL; buff->reserved = MD_EX_CHK_ID; ccci_debug_add_seq(buff, CCCI_DEBUG_ASSERT_BIT); // add ccci seq QBM_DES_SET_DATALEN(ccci_except_polling_gpd_tx, sizeof(CCCI_BUFF_T)); QBM_DES_SET_DATALEN(ccci_except_polling_gpd_tx->p_data_tbd, sizeof(CCCI_BUFF_T)); qbm_cal_set_checksum((kal_uint8 *)ccci_except_polling_gpd_tx); qbm_cal_set_checksum((kal_uint8 *)ccci_except_polling_gpd_tx->p_data_tbd); QBM_CACHE_FLUSH(ccci_except_polling_gpd_tx, sizeof(qbm_gpd)); QBM_CACHE_FLUSH(ccci_except_polling_gpd_tx->p_data_tbd, sizeof(qbm_gpd)); QBM_CACHE_FLUSH(buff, sizeof(CCCI_BUFF_T)); ex_set_step_logging(EX_AUTO_STEP); //0x41 //step 2. polling echoed rx handshake pkt (need two GPD, one for tail) // TODO:Need to revise the API, shall use exception API (after channle reset flow is done) #ifdef SWITCH_TO_EXCEPTION_IO p_first_gpd = p_last_gpd = ccci_except_polling_gpd_tx; ccci_except_set_gpd(CCCI_CONTROL_CHANNEL, p_first_gpd, p_last_gpd); gpd_num = 0; do{ ccci_except_hif_st(CCCI_CONTROL_CHANNEL); ccci_except_poll_gpd(CCCI_CONTROL_CHANNEL, (void **)&p_first_gpd, (void **)&p_last_gpd, &gpd_num); }while(0 == gpd_num); CCCIDEV_RST_CCCI_COMM_GPD_LIST(p_first_gpd, p_last_gpd); ex_set_step_logging(EX_AUTO_STEP); //0x42 p_first_gpd = ccci_except_polling_gpd_rx; p_last_gpd = ccci_except_polling_gpd_rx2; do{ ccci_except_set_gpd(CCCI_CONTROL_CHANNEL_ACK, p_first_gpd, p_last_gpd); gpd_num = 0; do{ ccci_except_hif_st(CCCI_CONTROL_CHANNEL_ACK); ccci_except_poll_gpd(CCCI_CONTROL_CHANNEL_ACK, (void **)&p_first_gpd, (void **)&p_last_gpd, &gpd_num); }while(0 == gpd_num); buff = CCCIDEV_GET_QBM_DATAPTR(ccci_except_polling_gpd_rx); //rcv_size = CCCIDEV_GET_QBM_DATALEN(ccci_except_polling_gpd_rx); // FIXME QBM_CACHE_INVALID(buff, sizeof(CCCI_BUFF_T)); ccci_debug_check_seq(buff); // check ccci seq if (buff->reserved == MD_EX_CHK_ID){ ex_set_step_logging(EX_AUTO_STEP); //0x43 ccci_exception_handshake_done = KAL_TRUE; CCCIDEV_RST_CCCI_COMM_GPD_LIST(p_first_gpd, p_last_gpd); ccci_except_set_gpd(CCCI_CONTROL_CHANNEL_ACK, p_first_gpd, p_last_gpd); //reload to CCCI_CONTROL_CHANNEL_ACK break; } else { //dump date ex_fire_extern_step_logging(0xFFFFFFFF); ex_fire_extern_step_logging(buff->data[0]); ex_fire_extern_step_logging(buff->data[1]); ex_fire_extern_step_logging(buff->channel); ex_fire_extern_step_logging(buff->reserved); ex_fire_extern_step_logging(0xFFFFFFFF); } CCCIDEV_RST_CCCI_COMM_GPD_LIST(p_first_gpd, p_last_gpd); }while(1); #else ccci_exception_check_write_result = ccci_polling_io(CCCI_CONTROL_CHANNEL, ccci_except_polling_gpd_tx, KAL_TRUE); CCCIDEV_RST_CCCI_COMM_GPD_LIST(ccci_except_polling_gpd_tx, ccci_except_polling_gpd_tx); while(CCCI_SUCCESS == (ccci_exception_handshake_done = ccci_polling_io(CCCI_CONTROL_CHANNEL_ACK, ccci_except_polling_gpd_tx, KAL_FALSE))){ buff = CCCIDEV_GET_QBM_DATAPTR(ccci_except_polling_gpd_tx); QBM_CACHE_INVALID(buff, sizeof(CCCI_BUFF_T)); ccci_debug_check_seq(buff); // check ccci seq if (buff->reserved == MD_EX_CHK_ID){ CCCIDEV_RST_CCCI_COMM_GPD_LIST(ccci_except_polling_gpd_tx, ccci_except_polling_gpd_tx); break; } CCCIDEV_RST_CCCI_COMM_GPD_LIST(ccci_except_polling_gpd_tx, ccci_except_polling_gpd_tx); } #endif ex_set_step_logging(EX_AUTO_STEP); //0x44 ccci_exception_state = CCCI_EXPT_HANDSHAKE_ST; #ifdef CCCI_EXCETION_PRE_TEST ccci_exception_info_passed_pre(); #endif #endif }
/************************************************************************* * FUNCTION * void ccci_boottrc_send_log * * DESCRIPTION * This function is exported API to write bootup trace log in shared buffer. * * PARAMETERS * index - bootup trace log key. * value - bootup trace log value. * * RETURNS * NA * *************************************************************************/ void ccci_boottrc_send_log(kal_uint32 index, kal_uint32 value) { #if defined(__MTK_TARGET__) #ifdef __boottrc_performance_measurement__ kal_uint32 ccci_boottrc_start_time =0; kal_uint32 ccci_boottrc_end_time =0; kal_uint32 ccci_boottrc_dur_time =0; ccci_boottrc_start_time = ccci_get_current_time(); #endif qbm_gpd *p_gpd; void *p_cache_aligned; CCCI_BUFF_T *ccci_buff; kal_bool hif_ret; p_cache_aligned = ccci_boottrc_gpd; if((kal_uint32)p_cache_aligned&CPU_CACHE_LINE_SIZE_MASK) { p_cache_aligned = (void *)((kal_uint32)(ccci_boottrc_gpd)&~CPU_CACHE_LINE_SIZE_MASK); p_cache_aligned += CPU_CACHE_LINE_SIZE; } p_gpd = (qbm_gpd *)p_cache_aligned; //kal_mem_set(ccci_hs_buff, 0, CCCI_POLLING_MODE_BUF_SZ); /* CCCI polling mode, QMU_BM is not ready yet*/ /* format ccci_hs_buff as GPD->BUFF format */ CCCI_INIT_RESET_DATALEN_EXTLEN((kal_uint32 *)p_gpd); CCCI_INIT_RESET_COMMON_DATA((kal_uint32 *)p_gpd); ccci_buff = QBM_DES_GET_DATAPTR(p_gpd); ccci_buff->data[0] = 0x43525442; // pattern : "BTRC" ccci_buff->data[1] = index; ccci_buff->channel = CCCI_CONTROL_CHANNEL; ccci_buff->reserved = value; ccci_debug_add_seq(ccci_buff, CCCI_DEBUG_ASSERT_BIT); // add ccci seq QBM_DES_SET_DATALEN(p_gpd, sizeof(CCCI_BUFF_T)); QBM_CACHE_FLUSH(ccci_buff, sizeof(CCCI_BUFF_T)); #if defined(__HIF_SDIO_SUPPORT__) hif_ret = hifsdio_simple_send_gpd(0, p_gpd, CCCI_HS_POLLING_TIMEOUT); #elif defined(__HIF_CLDMA_SUPPORT__) hif_ret = hifcldma_simple_send_gpd(0, p_gpd, CCCI_HS_POLLING_TIMEOUT); #elif defined(__CCIFCORE_SUPPORT__) hif_ret = ccifc_simple_send_gpd(0, p_gpd, CCCI_HS_POLLING_TIMEOUT); #endif if(!hif_ret){ EXT_ASSERT(KAL_FALSE, hif_ret,0,0); } #ifdef __boottrc_performance_measurement__ ccci_boottrc_end_time = ccci_get_current_time(); ccci_boottrc_dur_time = ccci_get_duration(ccci_boottrc_start_time,ccci_boottrc_end_time); ccci_boottrc_max_transmit_time = (ccci_boottrc_dur_time > ccci_boottrc_max_transmit_time)? ccci_boottrc_dur_time : ccci_boottrc_max_transmit_time; ccci_boottrc_min_transmit_time = (ccci_boottrc_dur_time < ccci_boottrc_min_transmit_time)? ccci_boottrc_dur_time : ccci_boottrc_min_transmit_time; ccci_boottrc_total_transmit_time += ccci_boottrc_dur_time; ccci_boottrc_transmit_count++; ccci_boottrc_avg_transmit_time = ccci_boottrc_total_transmit_time / ccci_boottrc_transmit_count; // write to share memory ccci_excep_dbg_logging_InHS2(CCCI_EXCEP_DBG_HS_BOOTTRC_WAIT_TIME, (void *)&ccci_boottrc_total_transmit_time); #endif #endif }
/************************************************************************* * FUNCTION * ccci_ipc_send_msg * * DESCRIPTION * This function is the internal api to send message * * PARAMETERS * ipc_task_id - * buffer_ptr - * msg_size - * wait_mode - * message_to_head - * * RETURNS * status - success/fail * *************************************************************************/ kal_bool ccci_ipc_send_msg(kal_uint32 ipc_task_id, void *buffer_ptr, kal_uint16 msg_size, kal_wait_mode wait_mode, kal_bool message_to_head) { kal_uint32 i, j ; kal_uint32 retrieved_events = 0, orig_local_addr = 0 , orig_peer_addr = 0, update_buff_addr=0; kal_int32 result = CCCI_SUCCESS; ipc_ilm_t *temp_ipc_ilm = (ipc_ilm_t *)buffer_ptr; ccci_io_request_t ior = {0}; CCCI_BUFF_T *p_ccci_buff; kal_uint32 len = 0; ccci_ipc_trace(CCCI_IPC_TRACE, CCCI_IPC_MOD_DATA, CCCI_SEND_MSG_FUNC_TRA); ccci_ipc_trace(CCCI_IPC_TRACE, CCCI_IPC_MOD_DATA, CCCI_SEND_MSG_TRA_ILM, temp_ipc_ilm, temp_ipc_ilm->src_mod_id, temp_ipc_ilm->dest_mod_id, temp_ipc_ilm->sap_id, temp_ipc_ilm->msg_id, temp_ipc_ilm->local_para_ptr, temp_ipc_ilm->peer_buff_ptr); /* get ext queue id from mapping table of task id - destnation*/ for (i = 0; i < MAX_CCCI_IPC_TASKS; i++) { if ( ccci_ipc_maptbl[i].task_id == ipc_task_id ) { break; } } /* get ext queue id from mapping table of task id - source*/ for (j = 0; j < MAX_CCCI_IPC_TASKS; j++) { if ( ccci_ipc_maptbl[j].task_id == temp_ipc_ilm->src_mod_id ) { break; } } /* check src mod id, if it's not defined in CCCI IPC, don't set used bit */ if(j >= MAX_CCCI_IPC_TASKS) { ccci_ipc_trace(CCCI_IPC_ERR, CCCI_IPC_MOD_DATA, CCCI_SEND_MSG_FUNC_TASKID_ERROR, ipc_task_id, temp_ipc_ilm->src_mod_id); return KAL_FALSE; } /* check if the extquque id can not be found */ if (i >= MAX_CCCI_IPC_TASKS) { ccci_ipc_trace(CCCI_IPC_ERR, CCCI_IPC_MOD_DATA, CCCI_SEND_MSG_FUNC_TASKID_ERROR, ipc_task_id, temp_ipc_ilm->src_mod_id); ((CCCI_IPC_ILM_T*)buffer_ptr)->used = 0; return KAL_FALSE; } /* check if the extquque id is to AP */ if ((ccci_ipc_maptbl[i].extq_id & AP_UINFY_ID_FLAG) == 0) { ccci_ipc_trace(CCCI_IPC_ERR, CCCI_IPC_MOD_DATA, CCCI_SEND_MSG_FUNC_DESTID_ERROR, ipc_task_id); ((CCCI_IPC_ILM_T*)buffer_ptr)->used = 0; return KAL_FALSE; } /* check if the ilm buffer is from ipc_msgsvc_allocate_ilm or not */ if (buffer_ptr != &ccci_ipc_ilm_arr[j].ipc_ilm){ ccci_ipc_trace(CCCI_IPC_ERR, CCCI_IPC_MOD_DATA, CCCI_SEND_MSG_FUNC_ILM_ERROR); return KAL_FALSE; } len = sizeof(CCCI_BUFF_T) + sizeof(ipc_ilm_t); if (temp_ipc_ilm->local_para_ptr != NULL){ len+= temp_ipc_ilm->local_para_ptr->msg_len ; } if( temp_ipc_ilm->peer_buff_ptr != NULL){ len+= sizeof(peer_buff_struct) + temp_ipc_ilm->peer_buff_ptr->pdu_len + temp_ipc_ilm->peer_buff_ptr->free_header_space + temp_ipc_ilm->peer_buff_ptr->free_tail_space; } //assert if ilm size > CCCI_IPC_GPD size EXT_ASSERT(len < CCCI_IPC_GPD_SIZE, len, CCCI_IPC_GPD_SIZE, 0); /* Use critical section to protect ENTER */ CCCI_IPC_ENTER_CRITICAL_SECTION if (KAL_TRUE == kal_query_systemInit()){ // polling mode ior.first_gpd = ccci_ipc_ch.p_polling_gpd; ior.last_gpd = ccci_ipc_ch.p_polling_gpd; } else{ #ifdef __SDIOC_PULL_Q_ENH_DL__ ior.num_gpd = #endif qbmt_alloc_q_no_tail( CCCI_IPC_GPD_TYPE, /* type */ 1, /* buff_num */ (void **)(&ior.first_gpd), /* pp_head */ (void **)(&ior.last_gpd)); /* pp_tail */ if(ior.first_gpd == NULL){ ccci_ipc_trace(CCCI_IPC_ERR, CCCI_IPC_MOD_DATA, CCCI_SEND_MSG_FUNC_ALLOC_GPD_ERROR); return KAL_FALSE; } } //initialize GPD CCCI_Header content p_ccci_buff = CCCIDEV_GET_QBM_DATAPTR(ior.first_gpd); p_ccci_buff->data[1] = (kal_uint32)len; p_ccci_buff->channel = (kal_uint32)ccci_ipc_ch.send_channel; p_ccci_buff->reserved = (kal_uint32)ccci_ipc_maptbl[i].extq_id; ccci_debug_add_seq(p_ccci_buff, CCCI_DEBUG_ASSERT_BIT); // add ccci seq QBM_DES_SET_DATALEN(ior.first_gpd, p_ccci_buff->data[1]); QBM_DES_SET_DATALEN(ior.first_gpd->p_data_tbd, p_ccci_buff->data[1]); qbm_cal_set_checksum((kal_uint8 *)ior.first_gpd); qbm_cal_set_checksum((kal_uint8 *)ior.first_gpd->p_data_tbd); QBM_CACHE_FLUSH(ior.first_gpd, sizeof(qbm_gpd)); QBM_CACHE_FLUSH(ior.first_gpd->p_data_tbd, sizeof(qbm_gpd)); //copy ilm to GPD temp_ipc_ilm->src_mod_id = ccci_ipc_maptbl[j].extq_id; update_buff_addr = (kal_uint32)p_ccci_buff; update_buff_addr += sizeof(CCCI_BUFF_T); CCCI_KAL_MSG_TO_AP_MSG(temp_ipc_ilm->msg_id, temp_ipc_ilm->msg_id); kal_mem_cpy((kal_uint8 *)update_buff_addr ,(kal_uint8 *)temp_ipc_ilm, sizeof(ipc_ilm_t)); if (temp_ipc_ilm->local_para_ptr != NULL){ //copy loca_para_struct to GPD update_buff_addr += sizeof(ipc_ilm_t); //24 bytes orig_local_addr = update_buff_addr; kal_mem_cpy((kal_uint8 *)update_buff_addr,(kal_uint8 *)temp_ipc_ilm->local_para_ptr, temp_ipc_ilm->local_para_ptr->msg_len); } if( temp_ipc_ilm->peer_buff_ptr != NULL){ //copy peer buff_struct to GPD if (temp_ipc_ilm->local_para_ptr != NULL){ update_buff_addr += temp_ipc_ilm->local_para_ptr->msg_len;//should be 4 bytes alignment?? } else{ update_buff_addr += sizeof(ipc_ilm_t); //24 bytes } orig_peer_addr = update_buff_addr; kal_mem_cpy((kal_uint8 *)update_buff_addr,(kal_uint8 *)temp_ipc_ilm->peer_buff_ptr, sizeof(peer_buff_struct) + temp_ipc_ilm->peer_buff_ptr->pdu_len + temp_ipc_ilm->peer_buff_ptr->free_header_space + temp_ipc_ilm->peer_buff_ptr->free_tail_space); } free_local_para(temp_ipc_ilm->local_para_ptr); temp_ipc_ilm->local_para_ptr = (local_para_struct *)orig_local_addr;//assign not NULL ptr to indicate there have content free_peer_buff(temp_ipc_ilm->peer_buff_ptr); temp_ipc_ilm->peer_buff_ptr = (peer_buff_struct *)orig_peer_addr;//assign not NULL ptr to indicate there have content QBM_CACHE_FLUSH(p_ccci_buff, len); if (KAL_TRUE == kal_query_systemInit()){ // polling mode result = ccci_polling_io(ccci_ipc_ch.send_channel, ccci_ipc_ch.p_polling_gpd, KAL_TRUE); CCCIDEV_RST_CCCI_COMM_GPD_LIST(ccci_ipc_ch.p_polling_gpd,ccci_ipc_ch.p_polling_gpd); } else{ result = ccci_ipc_ch.ccci_write_gpd(ccci_ipc_ch.send_channel, &ior, NULL); if (KAL_INFINITE_WAIT == wait_mode && CCCI_SUCCESS == result){ /* Wait for feedabck by retrieve event */ kal_retrieve_eg_events(ccci_ipc_ch.event, 1 << i, KAL_AND_CONSUME, &retrieved_events, KAL_SUSPEND); } } /* Exit critical section */ CCCI_IPC_EXIT_CRITICAL_SECTION ((CCCI_IPC_ILM_T*)buffer_ptr)->used = 0; ccci_ipc_trace(CCCI_IPC_TRACE, CCCI_IPC_MOD_DATA, CCCI_SEND_MSG_TRA_CCCI, p_ccci_buff->data[0], p_ccci_buff->data[1], p_ccci_buff->channel, p_ccci_buff->reserved); ccci_ipc_trace(CCCI_IPC_TRACE, CCCI_IPC_MOD_DATA, CCCI_SEND_MSG_FUNC_PASS_TRA); /* Finish */ if (result == CCCI_SUCCESS){ return KAL_TRUE; } else{ return KAL_FALSE; } }
void ccci_ipc_receive_msg_cb(CCCI_CHANNEL_T channel, ccci_io_request_t* ior) { kal_uint32 i = 0; ipc_ilm_t *temp_ipc_ilm = NULL; void *local_param = NULL, *peer_buff = NULL; kal_uint32 len = 0; kal_uint32 gpd_num = 0; ccci_io_request_t *current_ior = ior; ccci_io_request_t *reload_ior = NULL; qbm_gpd *current_gpd; qbm_gpd *next_gpd; kal_bool is_process_cb = KAL_FALSE; ccci_ipc_trace(CCCI_IPC_TRACE, CCCI_IPC_MOD_DATA, CCCI_RECEIVE_MSG_FUNC_TRA); while(current_ior != NULL){ current_gpd = current_ior->first_gpd ; gpd_num = 0; while( current_gpd != NULL){ CCCI_BUFF_T *bufp = CCCIDEV_GET_QBM_DATAPTR(current_gpd); next_gpd = current_gpd->p_next; local_param = NULL; peer_buff = NULL; ccci_ipc_trace(CCCI_IPC_TRACE, CCCI_IPC_MOD_DATA, CCCI_RECEIVE_MSG_TRA_CCCI, bufp->data[0], bufp->data[1], bufp->channel, bufp->reserved); ccci_debug_check_seq(bufp); // check ccci seq /* get task id from mapping table of ext queue id */ for (i = 0; i < MAX_CCCI_IPC_TASKS; i++) { if ( ccci_ipc_maptbl[i].extq_id == bufp->reserved ) { break; } } /* check if the extquque id can not be found */ if (i >= MAX_CCCI_IPC_TASKS) { EXT_ASSERT(0, i, bufp->reserved, MAX_CCCI_IPC_TASKS); } /* check if the extquque id is to MD */ if ((ccci_ipc_maptbl[i].extq_id & AP_UINFY_ID_FLAG) != 0) { EXT_ASSERT(0, i, bufp->reserved, ccci_ipc_maptbl[i].extq_id); } temp_ipc_ilm = (ipc_ilm_t *)(bufp + 1); ccci_ipc_trace(CCCI_IPC_TRACE, CCCI_IPC_MOD_DATA, CCCI_RECEIVE_MSG_TRA_ILM, temp_ipc_ilm, temp_ipc_ilm->src_mod_id, temp_ipc_ilm->dest_mod_id, temp_ipc_ilm->sap_id, temp_ipc_ilm->msg_id, temp_ipc_ilm->local_para_ptr, temp_ipc_ilm->peer_buff_ptr); if(temp_ipc_ilm->local_para_ptr) { // copy local_para_struct temp_ipc_ilm->local_para_ptr = (local_para_struct *)((char*)temp_ipc_ilm + sizeof(ipc_ilm_t)); len += temp_ipc_ilm->local_para_ptr->msg_len; // need 4 bytes alignment or not?? //assert if ilm size > CCCI_IPC_GPD size EXT_ASSERT(len < CCCI_IPC_GPD_SIZE, len, CCCI_IPC_GPD_SIZE,0); local_param = construct_local_para(temp_ipc_ilm->local_para_ptr->msg_len, 1); kal_mem_cpy((kal_uint8 *)local_param, temp_ipc_ilm->local_para_ptr, temp_ipc_ilm->local_para_ptr->msg_len); ((local_para_struct *)local_param)->ref_count = 1 ; temp_ipc_ilm->local_para_ptr = local_param; } if (temp_ipc_ilm->peer_buff_ptr) { //copy peer_buff_struct if(temp_ipc_ilm->local_para_ptr) { temp_ipc_ilm->peer_buff_ptr = (peer_buff_struct *)((char*)temp_ipc_ilm->local_para_ptr + temp_ipc_ilm->local_para_ptr->msg_len); } else { temp_ipc_ilm->peer_buff_ptr = (peer_buff_struct *)((char*)temp_ipc_ilm + sizeof(ipc_ilm_t)); } len += sizeof(peer_buff_struct) + temp_ipc_ilm->peer_buff_ptr->pdu_len + temp_ipc_ilm->peer_buff_ptr->free_header_space + temp_ipc_ilm->peer_buff_ptr->free_tail_space; //assert if ilm size > CCCI_IPC_GPD size EXT_ASSERT(len < CCCI_IPC_GPD_SIZE, len, CCCI_IPC_GPD_SIZE, 0); peer_buff = construct_peer_buff(temp_ipc_ilm->peer_buff_ptr->pdu_len, \ temp_ipc_ilm->peer_buff_ptr->free_header_space, \ temp_ipc_ilm->peer_buff_ptr->free_tail_space, 1); kal_mem_cpy((kal_uint8 *)peer_buff, temp_ipc_ilm->peer_buff_ptr, sizeof(peer_buff_struct) + temp_ipc_ilm->peer_buff_ptr->pdu_len + temp_ipc_ilm->peer_buff_ptr->free_header_space + temp_ipc_ilm->peer_buff_ptr->free_tail_space); temp_ipc_ilm->peer_buff_ptr = peer_buff; } CCCI_AP_MSG_TO_KAL_MSG(temp_ipc_ilm->msg_id, temp_ipc_ilm->msg_id); if(ccci_ipc_ch.it_mode == CCCI_IPC_IT_DISABLE){ // if current is not IT mode, then need to send upper layer //4 <1> process ccci ipc cb function is_process_cb = ccci_ipc_process_cb_funp(temp_ipc_ilm); //4 <2> Determine send ilm to upper layer or destroy ilm if(!is_process_cb){ // no process cb, then send ilm to upper layer msg_send6 (MOD_CCCIIPC, ccci_ipc_maptbl[i].task_id, temp_ipc_ilm->sap_id, temp_ipc_ilm->msg_id, local_param, peer_buff); } } #ifdef CCCI_IT_MODE_CONTROL_CCCI_IPC if(ccci_ipc_ch.it_mode == CCCI_IPC_IT_LB){ CCCI_KAL_MSG_TO_AP_MSG(temp_ipc_ilm->msg_id, temp_ipc_ilm->msg_id); bufp->reserved |= (AP_UINFY_ID_FLAG | temp_ipc_ilm->src_mod_id ); // for Loopback to ccci ipc port 1 bufp->channel = ccci_ipc_ch.send_channel; // for Loopback ccci_debug_add_seq(bufp, CCCI_DEBUG_ASSERT_BIT); // add ccci seq } #endif QBM_CACHE_INVALID(temp_ipc_ilm,sizeof(temp_ipc_ilm)); // prevent cache co-herence problem gpd_num++; if (current_gpd == current_ior->last_gpd){ break; } else{ current_gpd = next_gpd; } }// process gpds reload_ior = current_ior; current_ior = current_ior->next_request; reload_ior->next_request = NULL; #ifdef __SDIOC_PULL_Q_ENH_DL__ reload_ior->num_gpd = gpd_num; #endif #ifdef __CCCI_IPC_UT__ qbmt_dest_q(reload_ior->first_gpd, reload_ior->last_gpd); #else #ifdef CCCI_IT_MODE_CONTROL_CCCI_IPC if(ccci_ipc_ch.it_mode == CCCI_IPC_IT_LB){ ccci_ipc_ch.ccci_write_gpd(ccci_ipc_ch.send_channel, reload_ior, NULL); ccci_ipc_ch.reload_rgpd_number -= gpd_num; ccci_ipc_reload_rgpds(); }else #endif { CCCIDEV_RST_CCCI_COMM_GPD_LIST(reload_ior->first_gpd, reload_ior->last_gpd); ccci_ipc_ch.ccci_write_gpd(ccci_ipc_ch.receive_channel, reload_ior, NULL); } #endif }//process iors ccci_ipc_trace(CCCI_IPC_TRACE, CCCI_IPC_MOD_DATA, CCCI_RECEIVE_MSG_FUNC_PASS_TRA); }