FreeCalypso > hg > fc-magnetite
view src/cs/services/etm/etm_task.c @ 19:88f40f4c829f
condat2 vs. condat3 includes selection logic
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Wed, 28 Sep 2016 01:37:28 +0000 |
parents | 945cf7f506b2 |
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/******************************************************************************** * Enhanced TestMode (ETM) * @file etm.c * * @author Kim T. Peteren (ktp@ti.com) * @version 0.1 * * * History: * * Date Modification * ------------------------------------ * 16/06/2003 Creation * 03/03/2004 Upadted regarding the ATP + minor ETM DB handling updates * 28/07/2004 Fixed ETM database issue * * (C) Copyright 2003 by Texas Instruments Incorporated, All Rights Reserved *********************************************************************************/ #include "etm/etm.h" #include "etm/etm_api.h" #include "etm/etm_messages_i.h" #include "etm/etm_trace.h" #include "etm/etm_env.h" #include "audio/audio_api.h" #include "rv/rv_general.h" #include "rvf/rvf_api.h" #include "rvt/rvt_gen.h" #include "rvf/rvf_target.h" #include "rv/rv_defined_swe.h" #include <string.h> #ifdef RVM_LCC_SWE #include "lcc/lcc_api.h" #include "lcc/lcc_cfg_i.h" #include "lcc/lcc.h" #include "lcc/lcc_env.h" #include "lcc/lcc_trace.h" #endif // Version of the ETM TASK moved to etm_version.h //const uint16 etm_task_revision = (1<<12) | (0x1); /****************************************************************************** * Globals *****************************************************************************/ #define ETM_DB_MAX 16 // Limited of registered SWEntities into ETM DB #define ETM_DB_NO_USE 0xFFFFFFFF // typedef struct { char swe_name[ETM_NAME_MAX_LEN]; int mid; int task_id; T_RVF_ADDR_ID addr_id; // Unique mailbox (ID) of the SWE which will //receive the message ETM_CALLBACK_FUNC rx_callback_func; } T_ETM_USER_DB; static T_ETM_USER_DB etm_user_db[ETM_DB_MAX]; static int etm_db_counter = 0; /****************************************************************************** * Prototypes *****************************************************************************/ extern T_ETM_ENV_CTRL_BLK *etm_env_ctrl_blk; #ifdef RVM_LCC_SWE extern T_PWR_CTRL_BLOCK *pwr_ctrl; #endif int etm_database_manager(T_RV_HDR *msg_p); int etm_forward_packet(int mid, T_RV_HDR *msg); void etm_error_packet_send(int mid, int error); void etm_receive(unsigned char *inbuf, unsigned short size); int etm_ffs_pkt_receive(uint8 *data, int size); extern int etm_at_atp_message(void *msg); #ifdef RVM_LCC_SWE extern int etm_pwr_ul(void *msg); extern int etm_pwr_dl(T_ETM_PKT *pkt, uint8 *buf, int insize); #endif /****************************************************************************** * Main Testmode Task Loop *****************************************************************************/ T_RV_RET etm_task(void) { extern int etm_core_init(void); extern int etm_audio_init(void); #ifdef RVM_LCC_SWE extern int etm_pwr_init(void); #endif T_RV_HDR *msg = NULL; T_ETM_PKT *pkt = NULL; UINT32 start_time = 0; UINT32 end_time = 0; UINT16 recv_event, i; int status = RV_OK, buf_size; /* Entity registration to ETM */ /* This should be in the individual SWE init. function*/ status = etm_core_init(); status = etm_audio_init(); #ifdef RVM_LCC_SWE status = etm_pwr_init(); #endif while (1) { recv_event = rvf_wait(0xffff,0); /* Wait (infinite) for all events. */ start_time = rvf_get_tick_count(); tr_etm(TgTrEtmLow,"ETM: _task: Time Waiting (%d) tick", start_time - end_time); tr_etm(TgTrEtmLow,"ETM: _task: Time Start(%d)", start_time); tr_etm(TgTrEtmLow,"ETM: _task: Got message passing to bit filter (0x%x)", recv_event); if (!(recv_event & RVF_TASK_MBOX_0_EVT_MASK)) continue; /* Read the message in the ETM mailbox */ if ((msg = rvf_read_mbox(ETM_MAILBOX)) == NULL) continue; tr_etm(TgTrEtmLow,"ETM: _task: msg_id(0x%x)", msg->msg_id); switch (msg->msg_id) { /* Entity registration request or unregistration */ case ETM_REGISTER_REQ: case ETM_UNREGISTER: status = etm_database_manager(msg); break; /* ETM packet received */ case ETM_DATA_FWR: if ((status = etm_forward_packet(((T_ETM_DATA_FWR *) msg)->mid, msg)) != ETM_OK) etm_error_packet_send(((T_ETM_DATA_FWR *) msg)->mid, status); break; /* TM3 packet received */ case ETM_TM3_DATA_FWR: if ((status = etm_forward_packet(ETM_TM3, msg)) != ETM_OK) etm_error_packet_send(ETM_TM3, status); break; default: tr_etm(TgTrEtmLow,"ETM: _task: msg_id '0x%x' NOT supported", msg->msg_id); } if (status != ETM_OK) { tr_etm(TgTrFatal,"ETM: _task: mid(0x%x) ERROR(%d)", ((T_ETM_DATA_FWR *) msg)->mid, status); etm_free(msg); // Free the message } end_time = rvf_get_tick_count(); tr_etm(TgTrEtmLow,"ETM: _task: Time End (%d)", end_time); tr_etm(TgTrEtmLow,"ETM: _task: Time Total (%d) tick", end_time - start_time); } return RV_OK; } void etm_error_packet_send(int mid, int error) { T_ETM_PKT *pkt; tr_etm(TgTrFatal,"ETM: _error_packet_send: Module(0x%x) ERROR(%d)", mid, error); if (error == ETM_NOMEM) { rvf_dump_mem(); } if ((pkt = (T_ETM_PKT *) etm_malloc(sizeof(T_ETM_PKT))) == NULL) { rvf_dump_mem(); return; } // Init. of return packet pkt->mid = mid; pkt->status = -error; pkt->size = 0; pkt->index = 0; etm_pkt_send(pkt); etm_free(pkt); // Free return packet } /* Forwarding of DATA to the SWE can either be done by message/primitive or callback */ int etm_forward_packet(int mid, T_RV_HDR* msg) { ETM_CALLBACK_FUNC rx_callback_func = NULL; int i, cid, status = ETM_OK; T_ETM_DATA_READY* message_p; T_RVF_ADDR_ID swe_addr_id = 0; // Search for supported MID in the table for (i = 0; etm_user_db[i].mid != TABLE_END; i++) { tr_etm(TgTrEtmLow,"ETM: _forward_packet: Lookup in db for mid(0x%x)", mid); if (etm_user_db[i].mid == mid) { rx_callback_func = etm_user_db[i].rx_callback_func; swe_addr_id = etm_user_db[i].addr_id; break; } } tr_etm(TgTrEtmLow,"ETM: _forward_packet: rx_callback_func(%d) swe_addr_id(%d)", *rx_callback_func, swe_addr_id); // Invoke the SWE mailbox if (swe_addr_id) { /* Allocate the memory for the message to send */ if ((message_p = (T_ETM_DATA_READY*) etm_malloc(sizeof(T_ETM_DATA_READY))) == NULL) return ETM_NOMEM; /* Fill the header of the message */ message_p->header.msg_id = ETM_DATA_READY; /* Fill the address source id */ message_p->header.src_addr_id = rvf_get_taskid(); message_p->header.dest_addr_id = etm_env_ctrl_blk->addr_id; message_p->header.callback_func = NULL; /* Fill the data in the message */ memcpy(((T_ETM_DATA_READY*) message_p)->data, ((T_ETM_DATA_FWR*) msg)->data, ((T_ETM_DATA_FWR*) msg)->size); /* Send the message to the entity */ if ((status = rvf_send_msg(swe_addr_id, message_p)) != RV_OK) { tr_etm(TgTrFatal,"ETM: _forward_packet: Failed to sent message - ERROR(%d)", status); return ETM_RV_FATAL; } etm_free(msg); // Free the message } // Invoke the SWE callback function else if (rx_callback_func) { tr_etm(TgTrEtmLow,"ETM: _forward_packet: to mid(0x%x)", mid); status = rx_callback_func (((T_ETM_DATA_FWR*) msg)->data, ((T_ETM_DATA_FWR*) msg)->size); rx_callback_func = NULL; if (status != ETM_OK) return status; etm_free(msg); // Free the message } else { return ETM_NOSYS; } return ETM_OK; } /****************************************************************************** * Get and Free buffer (Internal Functions) *****************************************************************************/ void *etm_malloc(int size) { /* Memory bank status (red, yellow, green) */ T_RVF_MB_STATUS mb_status; void *addr; mb_status = rvf_get_buf(etm_env_ctrl_blk->prim_id, size, &addr); /* The flag returned by rvf_get_buf is red, there is not enough * memory to allocate the buffer. */ if (mb_status == RVF_RED) { tr_etm(TgTrFatal, "ETM: _malloc: Error to get memory"); return NULL; } /* The flag is yellow, there will soon be not enough memory anymore. */ else if (mb_status == RVF_YELLOW) { tr_etm(TgTrFatal, "ETM: _malloc: Getting short on memory"); } tr_etm(TgTrEtmLow,"ETM: _malloc: size(%d) at addr(0x%x)", size, addr); return addr; } int etm_free(void *addr) { int status; tr_etm(TgTrEtmLow,"ETM: _free: addr(0x%x)", addr); if ((status = rvf_free_buf(addr)) != RV_OK) { tr_etm(TgTrFatal, "ETM: _free: ERROR(%d)", status); } return ETM_RV_FATAL; } /****************************************************************************** * ETM receive Functions API (Internal Functions) ******************************************************************************/ /* The input pointer buf point at a complete TM3 packet. */ int etm_tm3_data_forward(uint8 *buf, int size) { /* Type for a registration event. */ T_ETM_TM3_DATA_FWR *msg; tr_etm(TgTrEtmLow, "ETM: _tm3_data_forward: cid(0x%x) size(%d)", *buf, size); /* Allocate the memory for the message to send */ if ((msg = (T_ETM_TM3_DATA_FWR*) etm_malloc(sizeof(T_ETM_TM3_DATA_FWR))) == NULL) return ETM_NOMEM; /* Fill the message id */ msg->header.msg_id = ETM_TM3_DATA_FWR; /* Fill the address source id */ msg->header.src_addr_id = rvf_get_taskid(); msg->header.dest_addr_id = etm_env_ctrl_blk->addr_id; msg->header.callback_func = NULL; /* Fill the message parameters */ msg->size = size; msg->cid = *buf; memcpy(&msg->data, buf, size); // At this point, all the data have been parsed and copied into // the ETM primitive. Now we send the primitive to the ETM task. if (rvf_send_msg(etm_env_ctrl_blk->addr_id, msg) != RV_OK) { tr_etm(TgTrFatal, "ETM: _tm3_data_forward: FAILED"); return ETM_RV_FATAL; // msg is auto freed by rvf_send_msg() if error } return ETM_OK; } /* The input pointer buf point at payload of the TM packet, minus mid and cksum. */ int etm_data_forward(char mid, uint8 *inbuf, int size) { /* Type for a registration event. */ T_ETM_DATA_FWR *msg; tr_etm(TgTrEtmLow, "ETM: _data_forward: mid(0x%x) size(%d)", mid, size); /* Allocate the memory for the message to send */ if ((msg = (T_ETM_DATA_FWR*) etm_malloc(sizeof(T_ETM_DATA_FWR))) == NULL) return ETM_NOMEM; /* Fill the message id */ msg->header.msg_id = ETM_DATA_FWR; /* Fill the address source id */ msg->header.src_addr_id = rvf_get_taskid(); msg->header.dest_addr_id = etm_env_ctrl_blk->addr_id; msg->header.callback_func = NULL; /* Fill the message parameters */ msg->size = size; msg->mid = mid; memcpy(&msg->data, inbuf, size); // At this point, all the data have been parsed and copied into // the ETM primitive. Now we send the primitive to the ETM task. if (rvf_send_msg(etm_env_ctrl_blk->addr_id, msg) != RV_OK) { tr_etm(TgTrFatal, "ETM: _data_forward: FAILED"); return ETM_RV_FATAL; // msg is auto freed by rvf_send_msg() if error } return ETM_OK; } /* This function is registred in the RVT module as the TestMode receive function */ /* It's called every time a TestMode packet is received on the UART and the */ /* data is forwarded to the ETM Entity via a message/primitiv */ /* The function is a callback func. used by the RVT TASK -> UART RX. */ void etm_receive(uint8 *inbuf, unsigned short size) { int error = ETM_NOSYS, i, index; char mid; unsigned char cksum; T_ETM_PKT *pkt; tr_etm(TgTrEtmLow, "ETM: _receive: inbuf size(%d)", size); // Copy data payload size (size minus MID/CID byte and checksum byte) mid = *inbuf++; cksum = mid; for (i = 0; i < size - 1; i++) { cksum ^= inbuf[i]; } if (cksum != 0) { error = ETM_PACKET; goto ETM_RECEIVE_END; } // Check it's a TM3 packet if ((0x20 <= mid && mid < 0x27) || (0x30 <= mid && mid < 0x3A) || (0x40 <= mid && mid < 0x49) || (0x50 <= mid && mid < 0x57)) { // Forward complete TM3 packet error = etm_tm3_data_forward(--inbuf, size); } else { /* Controlling of receptor for regisration */ for (index=0; index < etm_db_counter; index++) { if (etm_user_db[index].mid == mid) { // Forward ETM packet without <mid> and <cksum>, -2 in size error = etm_data_forward(mid, inbuf, size - 2); break; } else if ((index == etm_db_counter) && (etm_user_db[index].mid != mid)) { tr_etm(TgTrFatal, "ETM: _receive: mid(0x%x) not supported", mid); } } } ETM_RECEIVE_END: /* Fill in Error status in ETM packet and send */ if (error) { if (error == ETM_NOMEM) { rvf_dump_mem(); return; } if ((pkt = (T_ETM_PKT *) etm_malloc(sizeof(T_ETM_PKT))) == NULL) return; pkt->size = 0; pkt->mid = mid; pkt->status = -error; etm_pkt_send(pkt); etm_free(pkt); // Free return Packet } } /****************************************************************************** * Registration manager Functions API (Internal function) ******************************************************************************/ int etm_database_add(T_ETM_REGISTER_REQ *msg_p, int index) { memcpy(etm_user_db[index].swe_name, msg_p->name, strlen(msg_p->name)); etm_user_db[index].mid = msg_p->mid; etm_user_db[index].task_id = msg_p->task_id; etm_user_db[index].addr_id = msg_p->addr_id; etm_user_db[index].rx_callback_func = msg_p->rx_callback_func; etm_user_db[index+1].mid = TABLE_END; return ETM_OK; } int etm_database_manager(T_RV_HDR *msg_p) { int index, mid, status; if (msg_p->msg_id == ETM_REGISTER_REQ) { mid = ((T_ETM_REGISTER_REQ *) msg_p)->mid; tr_etm(TgTrEtmLow,"ETM: _database_manager: _REGISTER_REQ reguest is received from (%s)", ((T_ETM_REGISTER_REQ *) msg_p)->name); /* Lookup in the ETM DB array */ for (index=0; index < ETM_DB_MAX; index++) { /* Use unregistrered space */ if ((etm_user_db[index].mid == ETM_DB_NO_USE) && (etm_user_db[index].addr_id == 0) && (etm_user_db[index].rx_callback_func == NULL)) { status = etm_database_add((T_ETM_REGISTER_REQ*) msg_p, index); etm_db_counter++; etm_free(msg_p); // Free Message return ETM_OK; } /* Reject double registration */ else if ((etm_user_db[index].mid == mid) && ((etm_user_db[index].addr_id != 0) || (etm_user_db[index].rx_callback_func != NULL))) { tr_etm(TgTrFatal,"ETM: _database_manager: The Module(0x%x) is registrered", mid); etm_free(msg_p); // Free Message return ETM_OK; } } /* Add the entity to the etm database */ if (etm_db_counter < ETM_DB_MAX) { status = etm_database_add((T_ETM_REGISTER_REQ*) msg_p, etm_db_counter); etm_db_counter++; etm_free(msg_p); // Free Message return ETM_OK; } etm_free(msg_p); // Free Message return ETM_DB_LIMIT; } if (msg_p->msg_id == ETM_UNREGISTER) { mid = ((T_ETM_UNREGISTER *) msg_p)->mid; tr_etm(TgTrEtmLow,"ETM: _database_manager: _UNREGISTER reguest is received from (%s)", ((T_ETM_REGISTER_REQ *) msg_p)->name); /* Lookup in the array, if the SWE is stocked then clean it*/ for (index=0; index < ETM_DB_MAX; index++) { if (etm_user_db[index].mid == mid) { etm_user_db[index].mid = ETM_DB_NO_USE; etm_user_db[index].addr_id = 0; etm_user_db[index].rx_callback_func = NULL; etm_db_counter--; etm_free(msg_p); // Free Message return ETM_OK; } } etm_free(msg_p); // Free Message return ETM_INVAL; } etm_free(msg_p); // Free Message return ETM_OK; }