FreeCalypso > hg > tcs211-l1-reconst
view chipsetsw/layer1/audio_cfile/l1audio_back.c @ 349:ed3e588600c1 default tip
README update for the successful completion of the L1 reconstruction project
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Mon, 30 Oct 2017 18:03:24 +0000 |
parents | dab163da789a |
children |
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/************* Revision Controle System Header ************* * GSM Layer 1 software * L1AUDIO_SRBACK.C * * Filename l1audio_back.c * Copyright 2003 (C) Texas Instruments * ************* Revision Controle System Header *************/ /************************************/ /* Include files... */ /************************************/ #define L1_SRBACK_COM // switch to define the l1_srback_com variable #define L1_AUDIOBACK_MELODYE2 // switch to define the audio background variable #include "l1_macro.h" #include "l1_confg.h" #if (AUDIO_TASK == 1) && (L1_AUDIO_BACKGROUND_TASK) #include "l1_types.h" #include "sys_types.h" #if (CODE_VERSION == SIMULATION) && (AUDIO_SIMULATION) #include <stdlib.h> #include <string.h> #include "iq.h" // Debug / Init hardware ("eva3.lib") #include "l1_ver.h" #include "l1_const.h" #include "l1_signa.h" #if TESTMODE #include "l1tm_defty.h" #endif #include "l1audio_const.h" #include "l1audio_cust.h" #include "l1audio_signa.h" #include "l1audio_defty.h" #include "l1audio_msgty.h" #include "l1audio_varex.h" #if (L1_GTT == 1) #include "l1gtt_const.h" #include "l1gtt_defty.h" #endif //added form e-sample for AAC #if (L1_DYN_DSP_DWNLD == 1) #include "l1_dyn_dwl_const.h" #include "l1_dyn_dwl_defty.h" #endif #if (L1_MP3 == 1) #include "l1mp3_defty.h" #endif #if (L1_MIDI == 1) #include "l1midi_defty.h" #endif //added form e-sample for AAC #if (L1_AAC == 1) #include "l1aac_defty.h" #endif #include "l1_defty.h" #include "cust_os.h" #include "l1_msgty.h" #include "l1_varex.h" #include "l1_mftab.h" #include "l1_tabs.h" #include "l1_ctl.h" #include "l1_time.h" #include "l1_scen.h" #else // Layer1 and debug include files. #include <ctype.h> #include <math.h> #include "l1_ver.h" #include "l1_const.h" #include "l1_signa.h" #if TESTMODE #include "l1tm_defty.h" #endif #include "l1audio_const.h" #include "l1audio_cust.h" #include "l1audio_signa.h" #include "l1audio_defty.h" #include "l1audio_msgty.h" #include "l1audio_varex.h" #if (L1_GTT == 1) #include "l1gtt_const.h" #include "l1gtt_defty.h" #endif //added form e-sample for AAC #if (L1_DYN_DSP_DWNLD == 1) #include "l1_dyn_dwl_const.h" #include "l1_dyn_dwl_defty.h" #endif #if (L1_MP3 == 1) #include "l1mp3_defty.h" #endif #if (L1_MIDI == 1) #include "l1midi_defty.h" #endif //added form e-sample for AAC #if (L1_AAC == 1) #include "l1aac_defty.h" #endif #include "l1_defty.h" #include "cust_os.h" #include "l1_msgty.h" #include "tpudrv.h" // TPU drivers. ("eva3.lib") #include "l1_varex.h" #include "l1_proto.h" #include "l1_mftab.h" #include "l1_tabs.h" #include "mem.h" #include "armio.h" #include "timer.h" #include "timer1.h" #include "dma.h" #include "inth.h" #include "ulpd.h" #include "rhea_arm.h" #include "clkm.h" // Clockm ("eva3.lib") #include "l1_ctl.h" #include "l1_time.h" #if L2_L3_SIMUL #include "l1_scen.h" #endif #endif /****************************************/ /* Prototypes for audio background task */ /****************************************/ void l1_audio_background_task (UWORD32 argc, void *argv); #if (SPEECH_RECO) void srback_CTO_algorithm (API *RAM_address); void srback_save_model_temp (API *RAM_address_input, UWORD16 *RAM_address_output); #endif #if (MELODY_E2 && FIR) void audio_background_melody_e2_download_instrument_manager(xSignalHeaderRec *msg); #endif /**************************************/ /* External prototypes */ /**************************************/ #if (SPEECH_RECO) extern void Cust_srback_save_model (UWORD8 database, UWORD8 index, API *RAM_address); extern void Cust_srback_save_speech (UWORD8 database, UWORD8 index, UWORD16 *start_buffer, UWORD16 *stop_buffer, UWORD16 *start_speech, UWORD16 *stop_speech); extern void Cust_srback_load_model (UWORD8 database, UWORD8 index, API *RAM_address); #endif #if (MELODY_E2 && FIR) extern UWORD16 Cust_audio_melody_E2_load_instrument (UWORD8 customer_instrument_id, API *API_address, UWORD16 allowed_size); #endif #if (OP_RIV_AUDIO == 0) /*--------------------------------------------------------*/ /* l1_audio_background_task() */ /*--------------------------------------------------------*/ /* */ /* Description: */ /* ------------ */ /* This function is a state machine which handles the */ /* audio background feature. */ /* */ /* Starting messages: L1_SRBACK_SAVE_DATA_REQ */ /* L1_SRBACK_TEMP_SAVE_DATA_REQ */ /* L1_SRBACK_LOAD_MODEL_REQ */ /* L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ */ /* L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_REQ */ /* */ /* Result messages (input): none */ /* */ /* Result messages (output): L1_SRBACK_SAVE_DATA_CON */ /* L1_SRBACK_TEMP_SAVE_DATA_CON */ /* L1_SRBACK_LOAD_MODEL_CON */ /* L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON */ /* L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON */ /* */ /* Reset messages (input): none */ /* */ /* Stop message (input): non */ /* */ /* Stop message (output): L1_SRBACK_SAVE_DATA_CON */ /* L1_SRBACK_TEMP_SAVE_DATA_CON */ /* L1_SRBACK_LOAD_MODEL_CON */ /* L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON */ /* L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON */ /* */ /* Rem: to stop immeditly the speech reco feature a flag */ /* ---- is created: l1_srback_com.emergency_stop */ /* */ /*--------------------------------------------------------*/ void l1_audio_background_task(UWORD32 argc, void *argv) { xSignalHeaderRec *receive_msg, *confirm_msg; UWORD8 index; while(1) { // Wait until a message is receive receive_msg = os_receive_sig(SRBACK_QUEUE); #if (SPEECH_RECO) if (receive_msg->SignalCode == L1_SRBACK_SAVE_DATA_REQ) { if (l1_srback_com.emergency_stop == FALSE) { // Call the customer function to save the model Cust_srback_save_model( ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->database_id, ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->model_index, ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->model_RAM_address ); } if ( ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->speech ) { if (l1_srback_com.emergency_stop == FALSE) { // Call the customer function to save the speech from a circular buffer to the database Cust_srback_save_speech( ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->database_id, ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->model_index, ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->start_buffer, ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->stop_buffer, ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->start_address, ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->stop_address); } } // Send the stop confirmation message confirm_msg = os_alloc_sig(0); DEBUGMSG(status,NU_ALLOC_ERR) confirm_msg->SignalCode = L1_SRBACK_SAVE_DATA_CON; os_send_sig(confirm_msg, L1C1_QUEUE); DEBUGMSG(status,NU_SEND_QUEUE_ERR) } // L1_SRBACK_SAVE_DATA_REQ else if (receive_msg->SignalCode == L1_SRBACK_LOAD_MODEL_REQ) { if ( ( ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->CTO_enable ) == FALSE ) { if (l1_srback_com.emergency_stop == FALSE) { // Call the function to load a model Cust_srback_load_model( ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->database_id, ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->model_index, ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->model_RAM_address ); } } else { if (l1_srback_com.emergency_stop == FALSE) { // Calculate the good index index = ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->model_index>>1; // Call the function to load a model with the good index Cust_srback_load_model( ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->database_id, index, ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->model_RAM_address ); } // The CTO algorithm is used and the model index is odd if ( ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->model_index & 0x01 ) { if (l1_srback_com.emergency_stop == FALSE) { // Call the function to apply the CTO algorithm to the loaded model srback_CTO_algorithm( ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->model_RAM_address ); } } } // Send the stop confirmation message confirm_msg = os_alloc_sig(0); DEBUGMSG(status,NU_ALLOC_ERR) confirm_msg->SignalCode = L1_SRBACK_LOAD_MODEL_CON; os_send_sig(confirm_msg, L1C1_QUEUE); DEBUGMSG(status,NU_SEND_QUEUE_ERR) } // L1_SRBACK_LOAD_MODEL_REQ else if (receive_msg->SignalCode == L1_SRBACK_TEMP_SAVE_DATA_REQ) { if (l1_srback_com.emergency_stop == FALSE) { // Call the function to save the model in a temporary buffer srback_save_model_temp( ((T_L1_SRBACK_TEMP_SAVE_DATA_REQ *)(receive_msg->SigP))->model_RAM_address_input, ((T_L1_SRBACK_TEMP_SAVE_DATA_REQ *)(receive_msg->SigP))->model_RAM_address_output ); } // Send the stop confirmation message confirm_msg = os_alloc_sig(0); DEBUGMSG(status,NU_ALLOC_ERR) confirm_msg->SignalCode = L1_SRBACK_TEMP_SAVE_DATA_CON; os_send_sig(confirm_msg, L1C1_QUEUE); DEBUGMSG(status,NU_SEND_QUEUE_ERR) } // L1_SRBACK_TEMP_SAVE_DATA_REQ #endif // SPEECH_RECO #if (MELODY_E2 && FIR) if ( (receive_msg->SignalCode == L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ) || (receive_msg->SignalCode == L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_REQ) ) { audio_background_melody_e2_download_instrument_manager(receive_msg); } // L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ #endif // MELODY_E2 // Deallocate the received message os_free_sig(receive_msg); DEBUGMSG(status,NU_ALLOC_ERR) } // while(1) } #endif // OP_RIV_AUDIO #if (SPEECH_RECO) /*-------------------------------------------------------*/ /* srback_CTO_algorithm() */ /*-------------------------------------------------------*/ /* */ /* Parameters : RAM_address */ /* */ /* Return : none */ /* */ /* Description : apply the CTO algorithm to the model. */ /* */ /*-------------------------------------------------------*/ void srback_CTO_algorithm (API *RAM_address) { UWORD16 model_size, frame; UWORD8 frame_size; // This alogrithm changes the model: // |frame 0|frame 1|frame 2|frame 3|frame 4|frame 5|frame 6|frame 7|... // into a garbage model: // |0000000|frame 1|0000000|0000000|frame 4|0000000|0000000|frame 7|... // look the size of the model in model frame unit (16 words unit) model_size = *RAM_address++; frame = 0; while( (frame <= model_size) && (l1_srback_com.emergency_stop == FALSE) ) { if ((frame % 3) == 1) { // This frame is kept RAM_address += SC_SR_MODEL_FRAME_SIZE; } else { // This frame is set to 0 frame_size = SC_SR_MODEL_FRAME_SIZE; while ( (frame_size != 0) && (l1_srback_com.emergency_stop == FALSE) ) { *RAM_address++ = 0; frame_size--; } } frame++; } } /*-------------------------------------------------------*/ /* srback_CTO_algorithm() */ /*-------------------------------------------------------*/ /* */ /* Parameters : RAM_address_input */ /* RAM_address_output */ /* */ /* Return : none */ /* */ /* Description : apply the CTO algorithm to the model. */ /* */ /*-------------------------------------------------------*/ void srback_save_model_temp (API *RAM_address_input, UWORD16 *RAM_address_output) { UWORD16 model_size; UWORD8 frame_size; // look the size of the model in model frame unit (16 words unit) model_size = *RAM_address_input; // save the header of the model *RAM_address_output++ = *RAM_address_input++; while( (model_size != 0) && (l1_srback_com.emergency_stop == FALSE) ) { frame_size = SC_SR_MODEL_FRAME_SIZE; while ( (frame_size != 0) && (l1_srback_com.emergency_stop == FALSE) ) { *RAM_address_output++ = *RAM_address_input++; frame_size--; } model_size--; } } #endif // SPEECH_RECO #if (OP_RIV_AUDIO == 0) #if (MELODY_E2 && FIR) /*--------------------------------------------------------*/ /*audio_background_melody_e2_download_instrument_manager()*/ /*--------------------------------------------------------*/ /* */ /* Description: */ /* ------------ */ /* This function is used to load/unload the instrument of */ /* the melodies E2. */ /* */ /* Starting messages: */ /* L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ */ /* L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_REQ */ /* */ /* Result messages (input): none */ /* */ /* Result messages (output): */ /* L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON */ /* L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON */ /* */ /* Reset messages (input): none */ /* */ /* Stop message (input): none. */ /* */ /* Stop message (output): */ /* L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON */ /* L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON */ /* */ /* Rem: to stop immediatly the instrument download flags */ /* ---- is created: */ /* l1a_l1s_com.melody0_e2_task.parameters.emergency_stop */ /* l1a_l1s_com.melody1_e2_task.parameters.emergency_stop */ /* */ /*--------------------------------------------------------*/ void audio_background_melody_e2_download_instrument_manager(xSignalHeaderRec *msg) { xSignalHeaderRec *confirm_msg; UWORD8 instrument_number, max_number_of_instrument, instrument_id, id; UWORD16 size; UWORD32 address; if (msg->SignalCode == L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ) { // Load the instrument // Init the first address address = ( ((UWORD32)(l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_instrument_wave)) - SC_AUDIO_MCU_API_BEGIN_ADDRESS ); l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_instrument_ptr[0] = (API)( (address>>1) + SC_AUDIO_DSP_API_BEGIN_ADDRESS ); // Download the instrument max_number_of_instrument = ((T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ *)(msg->SigP))->number_of_instrument; for(instrument_number=0; instrument_number < max_number_of_instrument ; instrument_number++) { // No instrument was previously download if (audioback_melody_e2.number_of_user[instrument_number] == 0) { // load the insturment ID instrument_id = ((T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ *)(msg->SigP))->waves_table_id[instrument_number]; // Find if this instrument was already downloaded id = 0; while ( (id < SC_AUDIO_MELODY_E2_MAX_NUMBER_OF_INSTRUMENT) && ((instrument_id != audioback_melody_e2.instrument_id[id]) || (audioback_melody_e2.number_of_user[id] == 0)) ) { id++; } if (id < SC_AUDIO_MELODY_E2_MAX_NUMBER_OF_INSTRUMENT) { // This insturment was already downloaded // copy the address of this instrument l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_instrument_ptr[instrument_number] = l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_instrument_ptr[id]; // The size of this instrument is 0 audioback_melody_e2.instrument_size[instrument_number] = 0; } else { // Load the customer instrument size = Cust_audio_melody_E2_load_instrument ( ((T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ *)(msg->SigP))->waves_table_id[instrument_number], audioback_melody_e2.API_address, audioback_melody_e2.allowed_size); // Added to stop the L1 in case of download error if (size == 0) { // Send a message to stop the L1 /* send the stop command to the audio L1 */ /* allocate the buffer for the message to the L1 */ confirm_msg = os_alloc_sig(0); DEBUGMSG(status,NU_ALLOC_ERR) if (confirm_msg != NULL) { /* send the stop command to the audio L1 */ if ( ((T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ *)(confirm_msg->SigP))->melody_id == 0) { confirm_msg->SignalCode = MMI_MELODY0_E2_STOP_REQ; } else { confirm_msg->SignalCode = MMI_MELODY1_E2_STOP_REQ; } os_send_sig(confirm_msg, L1C1_QUEUE); DEBUGMSG(status,NU_SEND_QUEUE_ERR) } } // Save the size of this instrument audioback_melody_e2.instrument_size[instrument_number] = size; } // Update the Cust_audio_melody_E2_load_instrument argument audioback_melody_e2.API_address += audioback_melody_e2.instrument_size[instrument_number]; audioback_melody_e2.allowed_size -= audioback_melody_e2.instrument_size[instrument_number]; // Put the DSP address to the NDB API for the next instrument if (instrument_number < SC_AUDIO_MELODY_E2_MAX_NUMBER_OF_INSTRUMENT-1) { address = ( ((UWORD32)(audioback_melody_e2.API_address)) - SC_AUDIO_MCU_API_BEGIN_ADDRESS ); l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_instrument_ptr[instrument_number + 1] = (API)( (address>>1) + SC_AUDIO_DSP_API_BEGIN_ADDRESS ); } // Save the instrument ID audioback_melody_e2.instrument_id[instrument_number] = instrument_id; } // Increase the number of user of this instrument number audioback_melody_e2.number_of_user[instrument_number]++; } // Send the load confirmation message confirm_msg = os_alloc_sig(sizeof(T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON)); DEBUGMSG(status,NU_ALLOC_ERR) // Fill the parameter ((T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON *)(confirm_msg->SigP))->melody_id = ((T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ *)(msg->SigP))->melody_id; confirm_msg->SignalCode = L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON; os_send_sig(confirm_msg, L1C1_QUEUE); DEBUGMSG(status,NU_SEND_QUEUE_ERR) } else if (msg->SignalCode == L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_REQ) { // Unload the instrument max_number_of_instrument = ((T_L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_REQ *)(msg->SigP))->number_of_instrument; for(instrument_number = max_number_of_instrument; instrument_number > 0 ; instrument_number--) { // Decrease the number of user of this instrument number audioback_melody_e2.number_of_user[instrument_number-1]--; // Check if the instrument must be removed if (audioback_melody_e2.number_of_user[instrument_number-1] == 0) { // Increase the size and decrease the pointer to the API with the size // of the removed instrument // Update the Cust_audio_melody_E2_load_instrument argument audioback_melody_e2.API_address -= audioback_melody_e2.instrument_size[instrument_number-1]; audioback_melody_e2.allowed_size += audioback_melody_e2.instrument_size[instrument_number-1]; } } // Send the unload confirmation message confirm_msg = os_alloc_sig(sizeof(T_L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON)); DEBUGMSG(status,NU_ALLOC_ERR) // Fill the paramter ((T_L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON *)(confirm_msg->SigP))->melody_id = ((T_L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_REQ *)(msg->SigP))->melody_id; confirm_msg->SignalCode = L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON; os_send_sig(confirm_msg, L1C1_QUEUE); DEBUGMSG(status,NU_SEND_QUEUE_ERR) } } #endif // MELODY_E2 #endif // OP_RIV_AUDIO #endif // AUDIO_TASK == 1 && L1_AUDIO_BACKGROUND_TASK