FreeCalypso > hg > tcs211-l1-reconst
view chipsetsw/layer1/dyn_dwl_cfile/l1_dyn_dwl_async.c @ 49:a92e07daf86a
l1_async.c: deleted two unused static vars that were causing diffs in object
author | Mychaela Falconia <falcon@ivan.Harhan.ORG> |
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date | Sat, 05 Mar 2016 00:03:42 +0000 |
parents | d465d2510d28 |
children | a05803fbe089 |
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/************* Revision Controle System Header ************* * GSM Layer 1 software * L1_DYN_DWL_ASYNC.C * * Filename l1_dyn_dwl_async.c * Copyright 2004 (C) Texas Instruments * ************* Revision Controle System Header *************/ #include <stdio.h> #include <string.h> #include "nucleus.h" #include "l1_confg.h" #include "l1_types.h" #include "sys_types.h" #include "cust_os.h" #include "l1audio_signa.h" #include "l1audio_const.h" #include "l1audio_cust.h" #include "l1audio_defty.h" #include "l1_const.h" #include "l1tm_defty.h" #if (L1_GTT == 1) #include "l1gtt_const.h" #include "l1gtt_defty.h" #endif #if (L1_DYN_DSP_DWNLD==1) #include "l1_dyn_dwl_defty.h" #include "l1_dyn_dwl_msgty.h" #include "l1_dyn_dwl_const.h" #include "l1_dyn_dwl_signa.h" #include "l1_dyn_dwl_error.h" #include "l1_dyn_dwl_proto.h" #endif #if (L1_MP3 == 1) #include "l1mp3_defty.h" #endif //L1_MP3 #if (L1_MIDI == 1) #include "l1midi_defty.h" #endif #if (L1_AAC == 1) #include "l1aac_defty.h" #endif //L1_AAC #include "l1_defty.h" #include "l1_varex.h" #include "l1_trace.h" #include "sys_dma.h" #if (OP_RIV_AUDIO == 1) #include "rv/rv_general.h" #endif #if (L1_DYN_DSP_DWNLD == 1) #if(CODE_VERSION == SIMULATION) extern VOID trace_fct_simu_dyn_dwnld(CHAR *fct_name); #endif // CODE_VERSION == SIMULATION extern UWORD32 dyn_dwnld_address_vect[]; extern const UWORD8 *dyn_dwnld_copy_MCU_vect[]; extern UWORD16 dyn_dwnld_crc_vect[]; extern UWORD16 size_vect[]; /*---------------------------------------------------------------------------------------------------------*/ /* l1_patch_id2string */ /*---------------------------------------------------------------------------------------------------------*/ /* */ /* Parameters : patch identificator "patch_id", string vector "vector" which identifies the patch */ /* */ /* Return : Fills the string vector containing the patch id by reference */ /* */ /* */ /* Description : Links the patch ID number to its string value */ /* */ /* */ /*---------------------------------------------------------------------------------------------------------*/ #if 0 void l1_patch_id2string(UWORD16 patch_id, char* vect) { switch(patch_id) { #if ((CODE_VERSION == SIMULATION) || (((CHIPSET == 12) || (CHIPSET == 15)))) case MP3_PATCH: { vect[0] = 'M'; vect[1] = 'P'; vect[2] = '3'; vect[3] = '\0'; } break; #endif case MMS_PATCH: { vect[0] = 'M'; vect[1] = 'M'; vect[2] = 'S'; vect[3] = '\0'; } break; #if ((CODE_VERSION == SIMULATION) || (((CHIPSET == 12) || (CHIPSET == 15)))) case E2_PATCH: { vect[0] = 'E'; vect[1] = '2'; vect[2] = ' '; vect[3] = '\0'; } break; #endif case TTY_PATCH: { vect[0] = 'T'; vect[1] = 'T'; vect[2] = 'Y'; vect[3] = '\0'; } break; case SPEECH_ACOUSTIC_PATCH: { vect[0] = 'A'; vect[1] = 'N'; vect[2] = 'R'; vect[3] = '\0'; } break; #if ((CODE_VERSION == SIMULATION) || (CHIPSET == 12) || (CHIPSET == 15)) case AAC_PATCH: { vect[0] = 'A'; vect[1] = 'A'; vect[2] = 'C'; vect[3] = '\0'; } break; #endif #if ((CODE_VERSION == SIMULATION) || (CHIPSET == 12) || (CHIPSET == 15)) case PCM_EXTRACTION_PATCH: { vect[0] = 'P'; vect[1] = 'C'; vect[2] = 'M'; vect[3] = '\0'; } break; #endif } } #endif /*----------------------------------------------------------------------------------------*/ /* l1_dynamic_download_manager */ /*----------------------------------------------------------------------------------------*/ /* */ /* Parameters : Signal Code of the message, delay flag */ /* */ /* Return : True if the primitives triggers a dynamic download and sets all the */ /* parameters to perform a dynamic download, false otherwise */ /* */ /* Description : Implements the dynamic download manager algorithm */ /* */ /* */ /*----------------------------------------------------------------------------------------*/ BOOL l1_dynamic_download_manager(UWORD32 SignalCode, BOOL delay_flag) { UWORD16 temp_patch_array[MAX_NUM_OF_PATCH_IDS]; UWORD16 temp_num_patch; UWORD16 num_of_patch_id_to_dwnld; UWORD16 num_of_uninstall_elem; UWORD16 i; UWORD16 patch_id_uninstall_vect[MAX_NUM_OF_PATCH_IDS]; UWORD16 patch_id; UWORD16 temp_patch_id[MAX_NUM_OF_PATCH_IDS]= {0}; //omaps00090550 BOOL return_flag = FALSE; // Primitive is processed only if it triggers a dynamic download or there is a delay if(delay_flag == TRUE || l1_does_the_incoming_primitive_trigger_dynamic_dwnld(SignalCode, FALSE) == TRUE) { //---------------------------------------------------------------------- // Compute which patch ids (passed by reference) and the number of patches to install //---------------------------------------------------------------------- temp_num_patch= l1_lookup_primitive_patch_matrix(SignalCode,temp_patch_array); i=0; num_of_patch_id_to_dwnld = 0; //-------------------------------------------- // Check if there is any patch that still must be installed //-------------------------------------------- while(i < temp_num_patch) { if(l1_is_patch_already_installed(temp_patch_array[i]) == FALSE) { l1a.dyn_dwnld.next_patch_id[num_of_patch_id_to_dwnld++] = temp_patch_array[i]; } i++; } //-------------------------- // Manage patch incompatibilities //-------------------------- // if there's at least one patch that must be installed if(num_of_patch_id_to_dwnld!=0) { return_flag = TRUE; // Check if already installed patches are compatible or not and retrieve number of patches to uninstall and their ids if(l1_manage_patch_incompatibilty(num_of_patch_id_to_dwnld,&(num_of_uninstall_elem),patch_id_uninstall_vect)) { // Set L1A-API HISR variable: no elements to uninstall l1a_apihisr_com.dyn_dwnld.uninstall_parameters.num_of_elem=0; // Trace number of elements to uninstall #if ((TRACE_TYPE == 1) || (TRACE_TYPE == 4) || (TRACE_TYPE == 5)) if((trace_info.current_config->l1_dyn_trace) & (1<<L1_DYN_TRACE_DYN_DWNLD)) { char string[18]; sprintf(string,"No UNINSTALL: \r\n"); #if(CODE_VERSION == SIMULATION) trace_fct_simu_dyn_dwnld(string); #else rvt_send_trace_cpy((T_RVT_BUFFER)string,trace_info.l1_trace_user_id,strlen(string),RVT_ASCII_FORMAT); #endif // CODE_VERSION == SIMULATION } #endif // (TRACE_TYPE == 1) || (TRACE_TYPE == 4) } else { UWORD16 element,j,index_counter; // Set uninstall elements number and their address l1a_apihisr_com.dyn_dwnld.uninstall_parameters.num_of_elem=num_of_uninstall_elem; // Trace number of elements to uninstall #if ((TRACE_TYPE == 1) || (TRACE_TYPE == 4) || (TRACE_TYPE == 5)) if((trace_info.current_config->l1_dyn_trace) & (1<<L1_DYN_TRACE_DYN_DWNLD)) { char str[20]; sprintf(str,"UNINST_NUM: %d |\r\n", l1a_apihisr_com.dyn_dwnld.uninstall_parameters.num_of_elem); #if(CODE_VERSION == SIMULATION) trace_fct_simu_dyn_dwnld(str); #else rvt_send_trace_cpy((T_RVT_BUFFER)str,trace_info.l1_trace_user_id,strlen(str),RVT_ASCII_FORMAT); #endif // CODE_VERSION == SIMULATION } #endif // (TRACE_TYPE == 1) || (TRACE_TYPE == 4) // For all patches to uninstall... for(i=0;i<num_of_uninstall_elem;i++) { element=patch_id_uninstall_vect[i]; // Trace IDs of elements to uninstall #if ((TRACE_TYPE == 1) || (TRACE_TYPE == 4) || (TRACE_TYPE == 5)) if((trace_info.current_config->l1_dyn_trace) & (1<<L1_DYN_TRACE_DYN_DWNLD)) { char str[16]; sprintf(str,"UNINST_ID: %d \r\n", element); #if(CODE_VERSION == SIMULATION) trace_fct_simu_dyn_dwnld(str); #else rvt_send_trace_cpy((T_RVT_BUFFER)str,trace_info.l1_trace_user_id,strlen(str),RVT_ASCII_FORMAT); #endif // CODE_VERSION == SIMULATION } #endif // (TRACE_TYPE == 1) || (TRACE_TYPE == 4) // Set uninstall function address l1a_apihisr_com.dyn_dwnld.uninstall_parameters.address[i]=dyn_dwnld_address_vect[element]; } index_counter = 0; for(i=0; i<l1a.dyn_dwnld.num_patches_installed;i++) { for(j=0;j<num_of_uninstall_elem;j++) { if(l1a.dyn_dwnld.patch_id[i] == patch_id_uninstall_vect[j]) { l1a.dyn_dwnld.patch_id[i] = 0xFFFF; //omaps00090550 ; break; } } if(j == num_of_uninstall_elem) { temp_patch_id[index_counter++]=l1a.dyn_dwnld.patch_id[i]; } } // Reset global variables used by dynamic download l1a.dyn_dwnld.num_patches_installed-=num_of_uninstall_elem; for(i=0;i<l1a.dyn_dwnld.num_patches_installed;i++) l1a.dyn_dwnld.patch_id[i] = temp_patch_id[i]; } //----------------------------------------- // Update L1A-L1APIHISR communication structure //----------------------------------------- l1a_apihisr_com.dyn_dwnld.copy_parameters.num_of_elem=num_of_patch_id_to_dwnld; l1a.dyn_dwnld.num_of_elem_to_copy = num_of_patch_id_to_dwnld; // Trace number of elements to download #if ((TRACE_TYPE == 1) || (TRACE_TYPE == 4) || (TRACE_TYPE == 5)) if((trace_info.current_config->l1_dyn_trace) & (1<<L1_DYN_TRACE_DYN_DWNLD)) { char str[18]; sprintf(str,"DWNLD_NUM: %d \r\n", num_of_patch_id_to_dwnld); #if(CODE_VERSION == SIMULATION) trace_fct_simu_dyn_dwnld(str); #else rvt_send_trace_cpy((T_RVT_BUFFER)str,trace_info.l1_trace_user_id,strlen(str),RVT_ASCII_FORMAT); #endif // CODE_VERSION == SIMULATION } #endif // (TRACE_TYPE == 1) || (TRACE_TYPE == 4) // For all patches that must be downloaded... for (i=0;i<num_of_patch_id_to_dwnld;i++) { patch_id=l1a.dyn_dwnld.next_patch_id[i]; #if ((TRACE_TYPE == 1) || (TRACE_TYPE == 4) || (TRACE_TYPE == 5)) if((trace_info.current_config->l1_dyn_trace) & (1<<L1_DYN_TRACE_DYN_DWNLD)) { char str[22]; sprintf(str,"DWNLD_ID: %d \r\n", patch_id); #if(CODE_VERSION == SIMULATION) trace_fct_simu_dyn_dwnld(str); #else rvt_send_trace_cpy((T_RVT_BUFFER)str,trace_info.l1_trace_user_id,strlen(str),RVT_ASCII_FORMAT); #endif // CODE_VERSION == SIMULATION } #endif // (TRACE_TYPE == 1) || (TRACE_TYPE == 4) // Set patch IDs addresses: copy source address and install address l1a_apihisr_com.dyn_dwnld.copy_parameters.start_MCU_copy_address[i] = (UWORD32) dyn_dwnld_copy_MCU_vect[patch_id]; l1a_apihisr_com.dyn_dwnld.copy_parameters.address_to_install[i] = dyn_dwnld_address_vect[patch_id]; l1a_apihisr_com.dyn_dwnld.copy_parameters.crc[i] = dyn_dwnld_crc_vect[patch_id]; l1a_apihisr_com.dyn_dwnld.copy_parameters.size_array[i] = size_vect[patch_id]; } //----------------------------------------- // Set semaphores to lock involved state machines //----------------------------------------- if(delay_flag == FALSE) // Tell other state machines that they have to stay in steady state waiting for dynamic download activity to be completed l1_set_semaphores_for_all_state_machines_involved(num_of_patch_id_to_dwnld,l1a.dyn_dwnld.next_patch_id); else // Update the already set semaphores if it is the case l1_update_semaphores_for_all_state_machines(num_of_patch_id_to_dwnld); } } return return_flag; } /*----------------------------------------------------------------------------------------*/ /* l1a_dyn_dwnld_set_process */ /*----------------------------------------------------------------------------------------*/ /* */ /* Parameters : Signal Code of the message, delay flag */ /* */ /* Return : True if the primitives triggers a dynamic download and sets all the */ /* parameters to perform a dynamic download, false otherwise */ /* */ /* Description : Implements the dynamic download manager algorithm */ /* */ /* */ /*----------------------------------------------------------------------------------------*/ void l1a_dyn_dwnld_set_process(void) { #if ((TRACE_TYPE == 1) || (TRACE_TYPE == 4)) // Disable trace DSP upon Dynamic Download activation l1_disable_DSP_trace(); #endif // Reset API variables l1_dyn_dwnld_reset_api(); // In case E2 is running, dynamic download must use a different area as E2 samples use trace DSP buffer // area which is used as well for dynamic download if ((l1a.dyn_dwnld.melody0_E2_flag_activated == TRUE) || (l1a.dyn_dwnld.melody1_E2_flag_activated == TRUE)) // Set download parameters: size and start download address of API area and number of patches to download { l1a_apihisr_com.dyn_dwnld.copy_parameters.start_of_dwnld_area= START_API_DWNLD_AREA_DURING_E2; l1a_apihisr_com.dyn_dwnld.copy_parameters.size_of_dwnld_area= SIZE_API_DWNLD_AREA_DURING_E2; } else { l1a_apihisr_com.dyn_dwnld.copy_parameters.start_of_dwnld_area=START_API_DWNLD_AREA; l1a_apihisr_com.dyn_dwnld.copy_parameters.size_of_dwnld_area=SIZE_API_DWNLD_AREA; } // Dynamic download HISR can be activated l1_apihisr.dyn_dwnld.running=TRUE; // Tell the L1S to start the DSP background task l1a_l1s_com.dyn_dwnld_task.start=TRUE; } /*-------------------------------------------------------*/ /* l1a_dyn_dsp_dwnld_process() */ /*-------------------------------------------------------*/ /* */ /* Description: */ /* ------------ */ /* This function is a state machine which handles the */ /* dynamic download feature. */ /* */ /* Starting messages: */ /* */ /* Result messages (input): */ /* */ /* */ /* Result messages (output): */ /* */ /* Reset messages (input): none */ /* */ /* Stop message (input): */ /* */ /* Stop message (output): */ /* */ /* Rem: */ /* ---- */ /* */ /*-------------------------------------------------------*/ void l1a_dyn_dsp_dwnld_process(xSignalHeaderRec *msg) { enum states { RESET=0, WAIT_INIT, WAIT_RESULT, WAIT_STOP }; UWORD8 *state =&l1a.dyn_dwnld.state; UWORD32 SignalCode=msg->SignalCode; UWORD16 i; UWORD16 delay_patch_array[MAX_NUM_OF_PATCH_IDS]; UWORD16 delay_num_patch; UWORD32 delay_primitive; while(1) { switch(*state) { // ********* // * RESET * // ********* case RESET: { // Reset intra L1 variables: L1A-L1S interface, L1A-API interface, global API HISR variables l1_dyn_dwnld_reset(); // Change state *state = WAIT_INIT; } break; // ****************** // * WAIT START REQ * // ****************** case WAIT_INIT: { // *----------------------------* // * Dynamic download manager * // *----------------------------* /* Run the dynamic download manager */ if (l1_dynamic_download_manager(SignalCode, FALSE) == TRUE) { /* Initialisation of dynamic download process */ l1a_dyn_dwnld_set_process(); // Change state *state=WAIT_RESULT; } return; } //omaps00090550 break; // *************** // * WAIT_RESULT * // *************** case WAIT_RESULT: { if (l1_does_the_incoming_primitive_trigger_dynamic_dwnld(SignalCode,TRUE) == TRUE) { if (l1_push_Primitive(SignalCode) == TRUE) { delay_num_patch = l1_lookup_primitive_patch_matrix(SignalCode,delay_patch_array); // Tell other state machines that they have to stay in steady state waiting for dynamic download activity to be completed l1_set_semaphores_for_all_state_machines_involved(delay_num_patch, delay_patch_array); } else { #if ((TRACE_TYPE == 1) || (TRACE_TYPE == 4) || (TRACE_TYPE == 5)) if((trace_info.current_config->l1_dyn_trace) & (1<<L1_DYN_TRACE_DYN_DWNLD)) { char str[16]; sprintf(str,"Fifo ovflw:\r\n"); #if(CODE_VERSION == SIMULATION) trace_fct_simu_dyn_dwnld(str); #else rvt_send_trace_cpy((T_RVT_BUFFER)str,trace_info.l1_trace_user_id,strlen(str),RVT_ASCII_FORMAT); #endif // CODE_VERSION == SIMULATION } #endif // (TRACE_TYPE == 1) || (TRACE_TYPE == 4) } } switch(SignalCode) { // *----------------------------------------------------------------------------------* // * CRC reported is not OK or an error has been reported; Restart patch from scratch * // *----------------------------------------------------------------------------------* case API_L1_CRC_NOT_OK: { #if ((TRACE_TYPE == 1) || (TRACE_TYPE == 4) || (TRACE_TYPE == 5)) // Trace if((trace_info.current_config->l1_dyn_trace) & (1<<L1_DYN_TRACE_DYN_DWNLD)) { char str[18]; sprintf(str,"CRC NOK: %4x \r\n",((T_API_L1_CRC_NOT_OK *)(msg->SigP))->patch_id); #if(CODE_VERSION == SIMULATION) trace_fct_simu_dyn_dwnld(str); #else rvt_send_trace_cpy((T_RVT_BUFFER)str,trace_info.l1_trace_user_id,strlen(str),RVT_ASCII_FORMAT); #endif // CODE_VERSION == SIMULATION } #endif // (TRACE_TYPE == 1) || (TRACE_TYPE == 4) // Set recovery flag to TRUE; l1a_l1s_com.recovery_flag = TRUE; *state = RESET; } break; case API_L1_DYN_DWNLD_STOP: { #if ((TRACE_TYPE == 1) || (TRACE_TYPE == 4) || (TRACE_TYPE == 5)) if((trace_info.current_config->l1_dyn_trace) & (1<<L1_DYN_TRACE_DYN_DWNLD)) { char str[15]; sprintf(str,"DSP Error \r\n"); #if(CODE_VERSION == SIMULATION) trace_fct_simu_dyn_dwnld(str); #else rvt_send_trace_cpy((T_RVT_BUFFER)str,trace_info.l1_trace_user_id,strlen(str),RVT_ASCII_FORMAT); #endif // CODE_VERSION == SIMULATION } #endif // (TRACE_TYPE == 1) || (TRACE_TYPE == 4) // Set recovery flag to TRUE; l1a_l1s_com.recovery_flag = TRUE; *state = RESET; } break; // *-------------------------------------------------------------* // * Dynamic download finished: all patches have been downloaded * // *-------------------------------------------------------------* case API_L1_CRC_OK: { #if ((TRACE_TYPE == 1) || (TRACE_TYPE == 4) || (TRACE_TYPE == 5)) // Trace if((trace_info.current_config->l1_dyn_trace) & (1<<L1_DYN_TRACE_DYN_DWNLD)) { char str[18]; sprintf(str,"CRC OK: %4x \r\n",((T_API_L1_CRC_NOT_OK *)(msg->SigP))->patch_id); #if(CODE_VERSION == SIMULATION) trace_fct_simu_dyn_dwnld(str); #else rvt_send_trace_cpy((T_RVT_BUFFER)str,trace_info.l1_trace_user_id,strlen(str),RVT_ASCII_FORMAT); #endif // CODE_VERSION == SIMULATION } #endif // (TRACE_TYPE == 1) || (TRACE_TYPE == 4) } break; case API_L1_DYN_DWNLD_FINISHED: { // Store currently installed patch for (i=0;i<l1a.dyn_dwnld.num_of_elem_to_copy;i++) { l1a.dyn_dwnld.patch_id[l1a.dyn_dwnld.num_patches_installed+i]=l1a.dyn_dwnld.next_patch_id[i]; } // Update the counter of the patch currently installed and reset sempahores l1a.dyn_dwnld.num_patches_installed+=l1a.dyn_dwnld.num_of_elem_to_copy; l1_reset_semaphores(); // Reset number of element to copy in the next phase l1a.dyn_dwnld.num_of_elem_to_copy = 0; // Reset next patch ID global variables for(i=0;i<MAX_NUM_OF_PATCH_IDS;i++) l1a.dyn_dwnld.next_patch_id[i] = 0xFFFF; //omaps00090550 ; #if ((TRACE_TYPE == 1) || (TRACE_TYPE == 4) || (TRACE_TYPE == 5)) // Trace if((trace_info.current_config->l1_dyn_trace) & (1<<L1_DYN_TRACE_DYN_DWNLD)) { char str[26]; sprintf(str,"Patch dwnld finished \r\n"); #if(CODE_VERSION == SIMULATION) trace_fct_simu_dyn_dwnld(str); #else rvt_send_trace_cpy((T_RVT_BUFFER)str,trace_info.l1_trace_user_id,strlen(str),RVT_ASCII_FORMAT); #endif // CODE_VERSION == SIMULATION } #endif // (TRACE_TYPE == 1) || (TRACE_TYPE == 4) // Check if there is any pending primitive waiting to be de-queued { UWORD32 remaining_primitive_flag=0; UWORD32 process_continue_flag=1; UWORD32 delay_primitive_processed_flag=0; remaining_primitive_flag = (l1_check_Fifo_Primitive()>0); while(remaining_primitive_flag && process_continue_flag) { l1_pop_Primitive(&(delay_primitive)); if (l1_dynamic_download_manager(delay_primitive, TRUE) == TRUE) { process_continue_flag=0; delay_primitive_processed_flag=1; // If yes set the restart command at apihisr level l1a_apihisr_com.dyn_dwnld.command.restart = TRUE; /********** WORKAROUND *************/ #if (OP_RIV_AUDIO == 1) { // WARNING: temporary until os_activate_hisr() is declared in L3 functions extern NU_HISR apiHISR; NU_Activate_HISR(&apiHISR); } #else os_activate_hisr(API_HISR); #endif // OP_RIV_AUDIO == 1 /********** WORKAROUND *************/ *state = WAIT_RESULT; } remaining_primitive_flag = (l1_check_Fifo_Primitive()>0); } // else stop the DSP background task as no other patch must be downloaded if(delay_primitive_processed_flag == 0) { #if ((TRACE_TYPE == 1) || (TRACE_TYPE == 4)) // Enable trace DSP upon Dynamic Download deactivation l1_enable_DSP_trace(); //Trace_dsp_dump(); #endif // omaps00090550 #14-D removal l1a_l1s_com.dyn_dwnld_task.stop=TRUE; *state = WAIT_STOP; } } } break; } // switch(SignalCode) return; } //omaps00090550 break; // case WAIT_RESULT case WAIT_STOP: { /* In case of a primitive which triggers a dynamic download arrives we must start over */ if (l1_does_the_incoming_primitive_trigger_dynamic_dwnld(SignalCode,TRUE) == TRUE) { /* Run the dynamic download manager */ if (l1_dynamic_download_manager(SignalCode, FALSE) == TRUE) { /* Initialisation of dynamic download process */ l1a_dyn_dwnld_set_process(); // Change state *state=WAIT_RESULT; } } else if (SignalCode == L1_DYN_DWNLD_STOP_CON) { // DYN DWNLD HISR must be deactivated l1_apihisr.dyn_dwnld.running=FALSE; // Change state *state=RESET; } return; } //omaps00090550 break; } } } #endif // L1_DYN_DSP_DWNLD