FreeCalypso > hg > fc-magnetite
diff src/cs/riviera/rvm/rvm_swe_db.c @ 0:945cf7f506b2
src/cs: chipsetsw import from tcs211-fcmodem
binary blobs and LCD demo files have been excluded,
all line endings are LF only
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sun, 25 Sep 2016 22:50:11 +0000 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/cs/riviera/rvm/rvm_swe_db.c Sun Sep 25 22:50:11 2016 +0000 @@ -0,0 +1,747 @@ +/** + * + * @file rvm_swe_db.c + * + * This file contains the functions related to the SW Entities + * database management. + * + * @author David Lamy-Charrier (d-lamy@ti.com) + * @version 0.2 + * + */ + +/* + * Revision History: + * + * 01/19/2000 David Lamy-Charrier Create. + * 10/22/2001 David Lamy-Charrier Update for new Riviera 1.6. + * + * (C) Copyright 2001 by Texas Instruments Incorporated, All Rights Reserved + */ + +#include "rvf/rvf_env.h" + +#include "rvm/rvm_gen.h" +#include "rvm/rvm_api.h" +#include "rvm/rvm_i.h" +#include "rvm/rvm_use_id_list.h" + +#include <string.h> + +extern T_RVM_CONST_SWE_INFO RVM_SWE_GET_INFO_ARRAY[]; + +extern const T_RVM_USE_ID * RVM_TYPE2_SWE_GROUPS[]; + + +/* id of the main rvm memory bank */ +T_RVF_MB_ID rvm_mem_bank=RVF_INVALID_MB_ID; +T_RVF_MB_ID rvm_sys_mem_bank=RVF_INVALID_MB_ID; +T_RVF_MB_ID rvm_timer_mem_bank=RVF_INVALID_MB_ID; +T_RVF_MB_ID rvm_tm_notify_mem_bank=RVF_INVALID_MB_ID; +T_RVF_MB_ID rvm_stack_mem_bank=RVF_INVALID_MB_ID; + + +/* database of all SW Entities, their name, their get_info function and their links */ +T_RVM_KNOWN_SWE * rvm_swe_array; + +T_RVM_GROUP_INFO * rvm_group_array; + +/* +** Used task id array +** This array allows the RVM to allocate dynamically task ids to SWEs +** The task ids are allocated during creation. +*/ +/*BOOLEAN rvm_allocated_task_id [MAX_RVF_TASKS]; */ + +/* +** Number of SW Entities known on the system +*/ +UINT8 rvm_swe_number = 0; + + +/******************************************************************************* +** Function rvm_init_swe_db +** +** Description Internal function called once at the beginning which +** initializes the SWE database from information gathered +** in a const array (defined in rvm_swe.c). +** +*******************************************************************************/ +T_RVM_RETURN rvm_init_swe_db () +{ + UINT8 swe_cpt=0, i=0, j=0, group_cpt = 0; + T_RVM_INFO_SWE swe_info; + char rvm_trace_name[RVM_NAME_MAX_LEN+20] = "SWE Name: "; + + /* Initialize the allocated task id array */ +/* for (i=0; i<MAX_RVF_TASKS; i++) + { + rvm_allocated_task_id[i] = FALSE; + } +*/ + /* None task ID allocated at startup except: + * - RVM_TASK_ID, + * - RVTEST_MENU_TASK_ID, + * - DUMMY_TASK_ID. + * + * Refer to rv_general.h. + * + * TO DO: Remove the last two IDs as soon as managed as SWEs. */ +/* rvm_allocated_task_id[RVM_TASK_ID] = TRUE; + + if ( RVTEST_MENU_TASK_ID < MAX_RVF_TASKS) + { rvm_allocated_task_id[RVTEST_MENU_TASK_ID] = TRUE; + } + + if ( IDLE_TASK_ID < MAX_RVF_TASKS) + { rvm_allocated_task_id[IDLE_TASK_ID] = TRUE; + } +*/ + + /* Get the number of known SWEs */ + while ( ( RVM_SWE_GET_INFO_ARRAY[swe_cpt].get_info_func) != NULL) + { + swe_cpt++; + } + rvm_swe_number = swe_cpt; + RVM_TRACE_DEBUG_HIGH_PARAM("RVM: number of registered SWE in the system: ", rvm_swe_number); + + /* Get memory for the SWEs array */ + if ( rvf_get_buf( rvm_mem_bank, (swe_cpt+1)*sizeof(T_RVM_KNOWN_SWE), (T_RVF_BUFFER**)&rvm_swe_array ) == RVF_RED ) + { + RVM_TRACE_WARNING("RVM_init_swe_db: not enough memory in the RVM main memory bank for init of array"); + return RVM_MEMORY_ERR; + } + memset(rvm_swe_array, 0, (swe_cpt+1)*sizeof(T_RVM_KNOWN_SWE)); + + /* call all get_info functions to gather information about the SWEs */ + for (i=0; i<swe_cpt; i++) + { + /* Call get info fct */ + (RVM_SWE_GET_INFO_ARRAY[i].get_info_func)(&swe_info); + + /* Init global structure */ + rvm_swe_array[i].swe_get_info = RVM_SWE_GET_INFO_ARRAY[i].get_info_func; + rvm_swe_array[i].swe_use_id = RVM_SWE_GET_INFO_ARRAY[i].use_id; + rvm_swe_array[i].swe_addr_id = RVF_INVALID_ADDR_ID; + rvm_swe_array[i].group_index = RVM_OWN_GROUP; + rvm_swe_array[i].swe_type = swe_info.swe_type; + + switch(swe_info.swe_type) + { + case(RVM_SWE_TYPE_1): + { strcpy (rvm_swe_array[i].swe_name, swe_info.type_info.type1.swe_name); + rvm_swe_array[i].swe_return_path.callback_func = swe_info.type_info.type1.return_path.callback_func; + rvm_swe_array[i].swe_use_id = swe_info.type_info.type1.swe_use_id; + rvm_swe_array[i].swe_stack_size = 0; + rvm_swe_array[i].swe_priority = 0; + break; + } + + case(RVM_SWE_TYPE_2): + { strcpy (rvm_swe_array[i].swe_name, swe_info.type_info.type2.swe_name); + rvm_swe_array[i].swe_return_path.callback_func = swe_info.type_info.type2.return_path.callback_func; + rvm_swe_array[i].swe_use_id = swe_info.type_info.type2.swe_use_id; + rvm_swe_array[i].swe_stack_size = swe_info.type_info.type2.stack_size; + rvm_swe_array[i].swe_priority = swe_info.type_info.type2.priority; + break; + } + + case(RVM_SWE_TYPE_3): + { strcpy (rvm_swe_array[i].swe_name, swe_info.type_info.type3.swe_name); + rvm_swe_array[i].swe_return_path.callback_func = swe_info.type_info.type3.return_path.callback_func; + rvm_swe_array[i].swe_use_id = swe_info.type_info.type3.swe_use_id; + rvm_swe_array[i].swe_stack_size = swe_info.type_info.type3.stack_size; + rvm_swe_array[i].swe_priority = swe_info.type_info.type3.priority; + break; + } + + case(RVM_SWE_TYPE_4): + { strcpy (rvm_swe_array[i].swe_name, swe_info.type_info.type4.swe_name); + rvm_swe_array[i].swe_return_path.callback_func = swe_info.type_info.type4.return_path.callback_func; + rvm_swe_array[i].swe_use_id = swe_info.type_info.type4.swe_use_id; + rvm_swe_array[i].swe_stack_size = swe_info.type_info.type4.stack_size; + rvm_swe_array[i].swe_priority = swe_info.type_info.type4.priority; + break; + } + } + + + rvm_swe_array[i].swe_state = SWE_NOT_STARTED; + rvm_swe_array[i].stack_ptr = NULL; + rvm_swe_array[i].nb_using_appli = 0; + + for (j=0; j<RVM_MAX_SWE_USING; j++) + { + rvm_swe_array[i].using_appli[j] = RVM_INVALID_SWE_INDEX; + } + + rvm_swe_array[i].swe_return_path.addr_id = RVF_INVALID_ADDR_ID; + + rvm_swe_array[i].mmi_return_path.callback_func = NULL; + rvm_swe_array[i].mmi_return_path.addr_id = RVF_INVALID_ADDR_ID; + } + + RVM_TRACE_DEBUG_HIGH("RVM init: Known SWE database built"); + + /* display the list of known SWEs with their name, use_id and index in the array. */ + for (i=0; i<swe_cpt; i++) + { + strcpy(rvm_trace_name + 10, rvm_swe_array[i].swe_name); + rvf_send_trace(rvm_trace_name , (UINT8)strlen(rvm_trace_name), NULL_PARAM, RV_TRACE_LEVEL_DEBUG_LOW, RVM_USE_ID ); + RVM_TRACE_DEBUG_LOW_PARAM("SWE number:", i); + RVM_TRACE_DEBUG_LOW_PARAM("SWE use_id:", rvm_swe_array[i].swe_use_id); + } + + /* initialize SWEs group array */ + + /* Get the number of groups + group_cpt = 0; + while ( (RVM_TYPE2_SWE_GROUPS[group_cpt]) != NULL) + { + i++; + } + + // Get memory for the groups array + if ( rvf_get_buf( rvm_mem_bank, (group_cpt+1)*sizeof(T_RVM_GROUP_INFO), (T_RVF_BUFFER**)&rvm_group_array ) == RVF_RED ) + { + RVM_TRACE_WARNING("RVM_build_swe_list: not enough memory in the RVM main memory bank for init of group array"); + return RVM_MEMORY_ERR; + } + memset(rvm_group_array, 0, (group_cpt+1)*sizeof(T_RVM_GROUP_INFO)); + + // update the group_index of each type 2 SWE. + for( i = 0; i < group_cpt; i++) + { rvm_group_array[i].host_state = SWE_NOT_STARTED; + rvm_group_array[i].task_id = RVF_INVALID_TASK; + rvm_group_array[i].task_priority= 255; + + if( RVM_TYPE2_SWE_GROUPS[i] != NULL) + { UINT8 index; + j = 0; + while( RVM_TYPE2_SWE_GROUPS[i][j] != RVM_INVALID_USE_ID) + { if( rvm_get_swe_index( &index, RVM_TYPE2_SWE_GROUPS[i][j]) == RVM_OK) + { // store the host group in the SWE + rvm_swe_array[index].group_index = i; + + // computes the highest stack size + if( rvm_swe_array[index].swe_stack_size > rvm_group_array[i].stack_size) + { rvm_group_array[i].stack_size = rvm_swe_array[index].swe_stack_size; + } + + // computes the smallest priority + if( rvm_swe_array[index].swe_priority < rvm_group_array[i].task_priority) + { rvm_group_array[i].task_priority = rvm_swe_array[index].swe_priority; + } + } + j++; + } + } + } + */ + return RVM_OK; +} + + +/******************************************************************************* +** Function rvm_get_swe_index +** +** Description Internal function which returns the index of the swe in the +** database of known SWEs. +** Returns RVM_OK if it exists, else RVM_INVALID_PARAMETER. +*******************************************************************************/ +T_RVM_RETURN rvm_get_swe_index( UINT8 * index, T_RVM_USE_ID swe_use_id) +{ for ( (*index) = 0; ( (*index) < rvm_swe_number) && (swe_use_id != rvm_swe_array[*index].swe_use_id) ; (*index)++); + if ( *index == rvm_swe_number ) /* swe use id not found */ + { + *index = RVM_INVALID_SWE_INDEX; + return RVM_INVALID_PARAMETER; + } + return RVM_OK; +} + + +/******************************************************************************* +** Function rvm_check_application +** +** Description Internal function which checks if a SWE can be started +** or stopped, depending on appli_action parameter. +** If it is the case, it returns the application number. +*******************************************************************************/ +T_RVM_RETURN rvm_check_application (T_RVM_USE_ID swe_use_id, UINT8* num_swe, T_RVM_APPLI_ACTION appli_action) +{ + /* check if the SWE use_id exists */ + if (rvm_get_swe_index(num_swe, swe_use_id) != RVM_OK) + { + return RVM_INVALID_PARAMETER; + } + + /* check if the get_info function is known */ + if (rvm_swe_array[*num_swe].swe_get_info == NULL ) + { + *num_swe = 0; + return RVM_NOT_READY; + } + + /* check if the appli can be started or stopped */ +/* if ((appli_action == RVM_START_APPLI) && ( rvm_swe_array[*num_swe].swe_state != SWE_NOT_STARTED)) + { + *num_swe = 0; + return RVM_NOT_READY; + } +*/ + /* If more than 1 SWE is using the application, we cannot stop it */ +/* if (appli_action == RVM_STOP_APPLI) + { + if ( (rvm_swe_array[*num_swe].swe_state != SWE_RUNNING) || \ + (rvm_swe_array[*num_swe].nb_using_appli != 1) || \ + (rvm_swe_array[rvm_swe_array[*num_swe].using_appli[0]].swe_use_id != rvm_swe_array[*num_swe].swe_use_id) ) + { + *num_swe = 0; + return RVM_NOT_READY; + } + }*/ + + return RVM_OK; +} + + +/******************************************************************************* +** Function rvm_unlock_swe +** +** Description Internal function that sets back SWE state to NOT_STARTED +** in case an error occurs or the stop process is finished +*******************************************************************************/ +T_RVM_RETURN rvm_unlock_swe ( T_RVM_PROCESSING_SWE * appli) +{ + T_RVM_PROCESSING_SWE * cur_elem = appli; + + while (cur_elem) + { + UINT8 swe_index = cur_elem->swe_id; + + if (rvm_swe_array[swe_index].swe_state != SWE_RUNNING) + { + cur_elem = cur_elem->next_swe; + continue; + } + + rvm_swe_array[swe_index].swe_state = SWE_NOT_STARTED; + + cur_elem = cur_elem->next_swe; + } + + return RVM_OK; +} + + +/******************************************************************************* +** +** Function rvm_build_swe_list +** +** Description Build the list of SWEs required to launch the specified SWE. +** +** Parameters: T_RVM_PROCESSING_SWE ** list: list of required SWE. +** UINT8 swe_num: index of the SWE to start in the array of known SWEs. +** +** Returns T_RVM_RETURN +** +*******************************************************************************/ +T_RVM_RETURN rvm_build_swe_list(T_RVM_PROCESSING_SWE ** list, UINT8 swe_num, UINT8 mode) +{ + T_RVM_PROCESSING_SWE * cur_elem = *list; + T_RVM_USE_ID loc_linked_swe_id[RVM_MAX_NB_LINKED_SWE]; + UINT8* rvm_swe_to_call; + UINT8 rvm_current_swe_to_call = 0, rvm_last_swe_to_call = 1; + UINT8 swe_cpt; + UINT8 mb_cpt; + UINT8 nb_linked_swe = 0; + volatile T_RVM_RETURN rvm_ret_value = RVM_OK; + UINT8 isRunning=0; + + /* allocate a matrix to store temporarily the dependencies between SWEs */ + if (rvf_get_buf( rvm_mem_bank, rvm_swe_number*rvm_swe_number, (void**)&rvm_swe_to_call) == RVF_RED) + { + rvf_send_trace("RVM_build_swe_list: not enough memory in the RVM memory bank for build_swe_list process", 87, NULL_PARAM, RV_TRACE_LEVEL_WARNING, RVM_USE_ID ); + return RVM_MEMORY_ERR; + } + + rvm_swe_to_call[rvm_current_swe_to_call] = swe_num; + + do + /* While some get_info functions has to be called. */ + { + T_RVM_INFO_SWE swe_info; + UINT8 swe_num_i = rvm_swe_to_call[rvm_current_swe_to_call]; + + /* Check if SWE is running or not */ + if (rvm_swe_array[swe_num_i].swe_state == SWE_RUNNING && mode==0) { + rvf_send_trace("RVM_build_swe_list: SWE already running, nb: ", 45, swe_num_i, RV_TRACE_LEVEL_DEBUG_HIGH, RVM_USE_ID ); + rvm_current_swe_to_call++; + continue; + } + + if ( rvm_swe_array[swe_num_i].swe_state == SWE_STOPPING && mode==0) { + rvf_send_trace("RVM_build_swe_list: SWE stopped awaiting kill, nb: ", 45, swe_num_i, RV_TRACE_LEVEL_DEBUG_HIGH, RVM_USE_ID ); + rvm_current_swe_to_call++; + continue; + } + + + + /* Check if SWE is already queued or not. */ + cur_elem = *list; + while ( (cur_elem != NULL) && ( rvm_swe_array[cur_elem->swe_id].swe_use_id != rvm_swe_array[swe_num_i].swe_use_id) ) + { + cur_elem = cur_elem->next_swe; + } + + if (cur_elem != NULL) + /* SWE was found => - update SWE variables and pointers + - go to next step of the loop. */ + { + rvm_current_swe_to_call++; + continue; + } + + + /* cur_elem = NULL => SWE was not found => create its entry in the list. */ + + /* create it and call its get_info function */ + if ( rvf_get_buf( rvm_mem_bank, sizeof(T_RVM_PROCESSING_SWE), (void**)&cur_elem ) == RVF_RED ) + { + rvf_send_trace("RVM_build_swe_list: not enough memory in the RVM main memory bank for the SWE entry", 83, NULL_PARAM, RV_TRACE_LEVEL_WARNING, RVM_USE_ID ); + rvm_ret_value = RVM_MEMORY_ERR; + break; + } + + /* + ** initialize the new entry + */ + memset(cur_elem, 0, sizeof(T_RVM_PROCESSING_SWE) ); + + /* + ** Set the SWE id: index in known SWE array + */ + cur_elem->swe_id = swe_num_i; + + /* call its get_info() function */ + if ( rvm_swe_array[swe_num_i].swe_get_info(&swe_info) != RVM_OK ) + { + /* Here an error occured in its get_info function. + free memory allocated for this entry and return an error. */ + rvf_free_buf( cur_elem ); + rvf_send_trace("RVM_build_swe_list: get_info function returns an error", 54, NULL_PARAM, RV_TRACE_LEVEL_WARNING, RVM_USE_ID ); + rvm_ret_value = RVM_INTERNAL_ERR; + break; + } + + cur_elem->swe_type = swe_info.swe_type; + cur_elem->rvm_functions.core = rvm_generic_swe_core; + + switch( swe_info.swe_type) + { + case ( RVM_SWE_TYPE_1): + { cur_elem->rvm_functions.set_info = swe_info.type_info.type1.set_info; + cur_elem->rvm_functions.init = swe_info.type_info.type1.init; + cur_elem->rvm_functions.start = swe_info.type_info.type1.start; + cur_elem->rvm_functions.stop1 = swe_info.type_info.type1.stop; + cur_elem->rvm_functions.kill = swe_info.type_info.type1.kill; + + nb_linked_swe = swe_info.type_info.type1.nb_linked_swe; + for( mb_cpt = 0; mb_cpt < nb_linked_swe; mb_cpt++ ) + { loc_linked_swe_id[mb_cpt] = swe_info.type_info.type1.linked_swe_id[mb_cpt]; + } + + /* memory bank information */ + cur_elem->nb_requested_mb = swe_info.type_info.type1.nb_mem_bank; + + for( mb_cpt = 0; mb_cpt < cur_elem->nb_requested_mb; mb_cpt++ ) + { + memcpy (cur_elem->swe_mem_bank[mb_cpt].mb_name, \ + swe_info.type_info.type1.mem_bank[mb_cpt].bank_name, \ + RVF_MAX_MB_LEN); + cur_elem->swe_mem_bank[mb_cpt].mb_initial_param.size \ + = swe_info.type_info.type1.mem_bank[mb_cpt].initial_params.size; + cur_elem->swe_mem_bank[mb_cpt].mb_initial_param.watermark \ + = swe_info.type_info.type1.mem_bank[mb_cpt].initial_params.watermark; + } + + break; + } + case ( RVM_SWE_TYPE_2): + { cur_elem->rvm_functions.set_info = swe_info.type_info.type2.set_info; + cur_elem->rvm_functions.init = swe_info.type_info.type2.init; + cur_elem->rvm_functions.start = swe_info.type_info.type2.start; + cur_elem->rvm_functions.stop = swe_info.type_info.type2.stop; + cur_elem->rvm_functions.kill = swe_info.type_info.type2.kill; + cur_elem->rvm_functions.handle_message = swe_info.type_info.type2.handle_message; + cur_elem->rvm_functions.handle_timer = swe_info.type_info.type2.handle_timer; + + cur_elem->priority = swe_info.type_info.type2.priority; + cur_elem->stack_size = swe_info.type_info.type2.stack_size; + nb_linked_swe = swe_info.type_info.type2.nb_linked_swe; + for( mb_cpt = 0; mb_cpt < nb_linked_swe; mb_cpt++ ) + { loc_linked_swe_id[mb_cpt] = swe_info.type_info.type2.linked_swe_id[mb_cpt]; + } + + /* memory bank information */ + cur_elem->nb_requested_mb = swe_info.type_info.type2.nb_mem_bank; + + for( mb_cpt = 0; mb_cpt < cur_elem->nb_requested_mb; mb_cpt++ ) + { + memcpy (cur_elem->swe_mem_bank[mb_cpt].mb_name, \ + swe_info.type_info.type2.mem_bank[mb_cpt].bank_name, \ + RVF_MAX_MB_LEN); + cur_elem->swe_mem_bank[mb_cpt].mb_initial_param.size \ + = swe_info.type_info.type2.mem_bank[mb_cpt].initial_params.size; + cur_elem->swe_mem_bank[mb_cpt].mb_initial_param.watermark \ + = swe_info.type_info.type2.mem_bank[mb_cpt].initial_params.watermark; + } + + break; + } + case ( RVM_SWE_TYPE_3): + { cur_elem->rvm_functions.set_info = swe_info.type_info.type3.set_info; + cur_elem->rvm_functions.init = swe_info.type_info.type3.init; + cur_elem->rvm_functions.start = swe_info.type_info.type3.start; + cur_elem->rvm_functions.stop = swe_info.type_info.type3.stop; + cur_elem->rvm_functions.kill = swe_info.type_info.type3.kill; + cur_elem->rvm_functions.handle_message = swe_info.type_info.type3.handle_message; + cur_elem->rvm_functions.handle_timer = swe_info.type_info.type3.handle_timer; + + cur_elem->priority = swe_info.type_info.type3.priority; + cur_elem->stack_size = swe_info.type_info.type3.stack_size; + nb_linked_swe = swe_info.type_info.type3.nb_linked_swe; + for( mb_cpt = 0; mb_cpt < nb_linked_swe; mb_cpt++ ) + { loc_linked_swe_id[mb_cpt] = swe_info.type_info.type3.linked_swe_id[mb_cpt]; + } + + /* memory bank information */ + cur_elem->nb_requested_mb = swe_info.type_info.type3.nb_mem_bank; + + for( mb_cpt = 0; mb_cpt < cur_elem->nb_requested_mb; mb_cpt++ ) + { + memcpy (cur_elem->swe_mem_bank[mb_cpt].mb_name, \ + swe_info.type_info.type3.mem_bank[mb_cpt].bank_name, \ + RVF_MAX_MB_LEN); + cur_elem->swe_mem_bank[mb_cpt].mb_initial_param.size \ + = swe_info.type_info.type3.mem_bank[mb_cpt].initial_params.size; + cur_elem->swe_mem_bank[mb_cpt].mb_initial_param.watermark \ + = swe_info.type_info.type3.mem_bank[mb_cpt].initial_params.watermark; + } + + break; + } + case ( RVM_SWE_TYPE_4): + { cur_elem->rvm_functions.set_info = swe_info.type_info.type4.set_info; + cur_elem->rvm_functions.init = swe_info.type_info.type4.init; + cur_elem->rvm_functions.stop1 = swe_info.type_info.type4.stop; + cur_elem->rvm_functions.kill = swe_info.type_info.type4.kill; + cur_elem->rvm_functions.core = swe_info.type_info.type4.core; + + cur_elem->priority = swe_info.type_info.type4.priority; + cur_elem->stack_size = swe_info.type_info.type4.stack_size; + nb_linked_swe = swe_info.type_info.type4.nb_linked_swe; + for( mb_cpt = 0; mb_cpt < nb_linked_swe; mb_cpt++ ) + { loc_linked_swe_id[mb_cpt] = swe_info.type_info.type4.linked_swe_id[mb_cpt]; + } + + /* memory bank information */ + cur_elem->nb_requested_mb = swe_info.type_info.type4.nb_mem_bank; + + for( mb_cpt = 0; mb_cpt < cur_elem->nb_requested_mb; mb_cpt++ ) + { + memcpy (cur_elem->swe_mem_bank[mb_cpt].mb_name, \ + swe_info.type_info.type4.mem_bank[mb_cpt].bank_name, \ + RVF_MAX_MB_LEN); + cur_elem->swe_mem_bank[mb_cpt].mb_initial_param.size \ + = swe_info.type_info.type4.mem_bank[mb_cpt].initial_params.size; + cur_elem->swe_mem_bank[mb_cpt].mb_initial_param.watermark \ + = swe_info.type_info.type4.mem_bank[mb_cpt].initial_params.watermark; + } + + break; + } + } + + /* allocate a task id, if necessary. */ +/* if ( (swe_info.swe_type == RVM_SWE_TYPE_3) + ||(swe_info.swe_type == RVM_SWE_TYPE_4) + || ( (swe_info.swe_type == RVM_SWE_TYPE_2) && ( rvm_swe_array[swe_num_i].group_index == RVM_OWN_GROUP) ) + || ( (swe_info.swe_type == RVM_SWE_TYPE_2) && ( rvm_group_array[rvm_swe_array[swe_num_i].group_index].task_id == RVF_INVALID_TASK) ) ) + { + T_RVM_TASK_ID loc_task_id; + if(swe_info.swe_type==RVM_SWE_TYPE_2) loc_task_id = rvm_allocate_task_id(0); + else loc_task_id = rvm_allocate_task_id(1); + + if (loc_task_id == RVF_INVALID_TASK) + { + rvm_ret_value = RVM_INTERNAL_ERR; + break; + } + if ( (swe_info.swe_type == RVM_SWE_TYPE_3) + ||(swe_info.swe_type == RVM_SWE_TYPE_4) + || ( (swe_info.swe_type == RVM_SWE_TYPE_2) && ( rvm_swe_array[swe_num_i].group_index == RVM_OWN_GROUP) ) ) + { rvm_swe_array[swe_num_i].swe_addr_id = loc_task_id; + } + else + { if ( (swe_info.swe_type == RVM_SWE_TYPE_2) && ( rvm_group_array[rvm_swe_array[swe_num_i].group_index].task_id == RVF_INVALID_TASK) ) + { rvm_group_array[rvm_swe_array[swe_num_i].group_index].task_id = loc_task_id; + } + } + + } +*/ + /* Insert the element in the head of the list. */ + if (*list == NULL) /* the list is empty */ + { + /* This element is the first of the list */ + *list = cur_elem; + cur_elem->next_swe = NULL; + } + else + { cur_elem->next_swe = *list; + *list = cur_elem; + } + + /* Get the list of linked swe num, and put it in the array */ + if (nb_linked_swe != 0) { + for (swe_cpt = 0; swe_cpt < nb_linked_swe; swe_cpt++) { + if (rvm_get_swe_index(&(rvm_swe_to_call[rvm_last_swe_to_call + swe_cpt]), loc_linked_swe_id[swe_cpt] ) != RVM_OK) { + rvm_ret_value = RVM_INVALID_PARAMETER; + rvf_send_trace("rvm_swe_db: Task allocation error!",35, NULL_PARAM, RV_TRACE_LEVEL_WARNING, RVM_USE_ID ); + break; + } + } + if (rvm_ret_value != RVM_OK) break; + + rvm_last_swe_to_call += nb_linked_swe; + } + /* Once everything is done for current swe, increment rvm_current_swe_to_call */ + rvm_current_swe_to_call ++; + + } + while (rvm_current_swe_to_call != rvm_last_swe_to_call); + + + if (rvm_ret_value != RVM_OK) + /* Something went wrong => undo everything */ + { + rvm_delete_used_memory (*list); + } + + rvf_free_buf (rvm_swe_to_call); + return (rvm_ret_value); +} + + +/******************************************************************************* +** +** Function rvm_clean_env +** +** Description This function will clean the environment. +** Its main tasks are: +** - Update the using_appli pointer of the SWE array +** - Update states to NOT_STARTED +** - Release local memory +** +** Parameters: T_RVM_PROCESSING_SWE * appli: list of required SWEs with their parameters. +** +** Returns T_RVM_OK if all allocation are successful, +** else T_RVM_INTERNAL_ERR (then some SWE are not killed.) +** +*******************************************************************************/ +T_RVM_RETURN rvm_clean_env( T_RVM_PROCESSING_SWE * appli) +{ + T_RVM_PROCESSING_SWE * cur_swe = appli; + UINT8 appli_nb1, appli_nb2; + volatile T_RVM_RETURN rvm_ret_value = RVM_OK; + + /* for each SWE in the list */ + while (cur_swe != NULL ) + { + UINT8 swe_index = cur_swe->swe_id; + + /* Update using_appli array */ + if (rvm_swe_array[swe_index].nb_using_appli > 1) + { + for (appli_nb1 = 0; appli_nb1 < (rvm_swe_array[swe_index].nb_using_appli - 1); appli_nb1++) + { + if (rvm_swe_array[swe_index].using_appli[appli_nb1] == appli->swe_id) + /* appli was found in the using_appli array -> remove it and shift down the others */ + { + for (appli_nb2 = appli_nb1; appli_nb2 < rvm_swe_array[swe_index].nb_using_appli; appli_nb2++) + { + rvm_swe_array[swe_index].using_appli[appli_nb2] = rvm_swe_array[swe_index].using_appli[appli_nb2 + 1]; + } + /* Once using_appli pointer has been eliminated, we can exit the loop */ + break; + } + + } + } + + /* Decrement nb of using applications */ + rvm_swe_array[swe_index].nb_using_appli--; + + /* Force to NULL last appli pointer */ + rvm_swe_array[swe_index].using_appli[rvm_swe_array[swe_index].nb_using_appli] = RVM_INVALID_SWE_INDEX; + + /* If last appli was deleted, put state back to init */ + if (rvm_swe_array[swe_index].nb_using_appli == 0) + { + rvm_swe_array[swe_index].swe_state = SWE_NOT_STARTED; + } + + /* Proceed to the next SWE */ + cur_swe = cur_swe->next_swe; + } + + /* Once Everything is back in stand-by, release used memory */ + rvm_delete_used_memory (appli); + + return rvm_ret_value; +} + + +/******************************************************************************* +** +** Function rvm_error +** +** Description Called by a SWE in case of unrecoverable error +** +** Parameters: T_RVM_NAME swe_name: +** T_RVM_RETURN error_cause: +** T_RVM_ERROR_TYPE error_type: +** T_RVM_STRING error_msg: +** +** Returns T_RVM_RETURN: RVM_OK if successful, else a negative value. +** +*******************************************************************************/ +T_RVM_RETURN rvm_error ( T_RVM_NAME swe_name, T_RVM_RETURN error_cause, + T_RVM_ERROR_TYPE error_type, T_RVM_STRING error_msg) +{ + char swe_name_string[40]; + UINT8 i=0; + + memcpy(swe_name_string,"RVM: coming from: ",18); + memcpy((void*)((char*)swe_name_string+18),swe_name,RVM_NAME_MAX_LEN); + + RVM_TRACE_WARNING("RVM: unrecoverable error indication"); + rvf_send_trace(swe_name_string, 18 + RVM_NAME_MAX_LEN, NULL_PARAM, RV_TRACE_LEVEL_WARNING, RVM_USE_ID ); + RVM_TRACE_WARNING_PARAM("RVM: Error Cause: ", error_cause); + RVM_TRACE_WARNING_PARAM("RVM: Error Type: ", error_type); + /* check the message to limit its length to RVM_ERROR_MSG_MAX_LENGTH characters. */ + while (error_msg[i]) + { + i++; + if (i>RVM_ERROR_MSG_MAX_LENGTH) + break; + } + + rvf_send_trace(error_msg, i, NULL_PARAM, RV_TRACE_LEVEL_WARNING, RVM_USE_ID ); + + return RVM_OK; +} +