FreeCalypso > hg > tcs211-l1-reconst
changeset 266:35e8e0637eba
l1audio_sync.c: initial import from LoCosto source
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Mon, 13 Mar 2017 04:10:04 +0000 |
parents | a893a5e305c8 |
children | 8d577190e377 |
files | chipsetsw/layer1/audio_cfile/l1audio_sync.c |
diffstat | 1 files changed, 8085 insertions(+), 1 deletions(-) [+] |
line wrap: on
line diff
--- a/chipsetsw/layer1/audio_cfile/l1audio_sync.c Mon Mar 13 03:58:18 2017 +0000 +++ b/chipsetsw/layer1/audio_cfile/l1audio_sync.c Mon Mar 13 04:10:04 2017 +0000 @@ -1,1 +1,8085 @@ -/* dummy C source file */ +/************* Revision Controle System Header ************* + * GSM Layer 1 software + * L1AUDIO_SYNC.C + * + * Filename l1audio_sync.c + * Copyright 2003 (C) Texas Instruments + * + ************* Revision Controle System Header *************/ + +/************************************/ +/* Include files... */ +/************************************/ +#include "l1_macro.h" +#include "l1_confg.h" + +#if (AUDIO_TASK == 1) + + #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" + + #if (L1_GTT == 1) + #include "l1gtt_const.h" + #include "l1gtt_defty.h" + #endif + + #if (L1_MP3 == 1) + #include "l1mp3_const.h" + #include "l1mp3_defty.h" + #endif + + #if (L1_MIDI == 1) + #include "l1midi_const.h" + #include "l1midi_defty.h" + #endif + + #if (L1_AAC == 1) + #include "l1aac_const.h" + #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" + + #if (L1_STEREOPATH == 1) + #include "sys_dma.h" + #include "abb.h" + #if TESTMODE + #include "l1tm_msgty.h" + #endif + #include "l1audio_stereo.h" + #endif + + #include "mem.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" + + #if (L1_GTT == 1) + #include "l1gtt_const.h" + #include "l1gtt_defty.h" + #endif + + #if (L1_MP3 == 1) + #include "l1mp3_const.h" + #include "l1mp3_defty.h" + #endif + + #if (L1_MIDI == 1) + #include "l1midi_const.h" + #include "l1midi_defty.h" + #endif + + #if (L1_AAC == 1) + #include "l1aac_const.h" + #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 + + #if (L1_STEREOPATH == 1) + #include "sys_dma.h" + #include "abb.h" + #if TESTMODE + #include "l1tm_msgty.h" + #endif + #include "l1audio_stereo.h" + #endif + + #include "mem.h" + + #endif + + #include "l1audio_macro.h" + #include "l1_trace.h" + #if (CODE_VERSION != SIMULATION) + #include "bspTwl3029.h" + #include "bspTwl3029_I2c.h" + #include "bspTwl3029_Aud_Map.h" + #include "bspTwl3029_Int_Map.h" +#endif + /**************************************/ + /* Prototypes for L1 SYNCH manager */ + /**************************************/ + void l1s_audio_manager(void); + #if (KEYBEEP) + void l1s_keybeep_manager(void); + #endif + #if (TONE) + void l1s_tone_manager(void); + #endif + #if (L1_CPORT == 1) + void l1s_cport_manager(void); + #endif + #if (MELODY_E1) + void l1s_melody0_manager(void); + void l1s_melody1_manager(void); + #endif + #if (VOICE_MEMO) + void l1s_vm_play_manager (void); + void l1s_vm_record_manager(void); + void l1s_tone_ul_manager (void); + #endif + #if (L1_PCM_EXTRACTION) + void l1s_pcm_download_manager (void); + void l1s_pcm_upload_manager (void); + #endif + #if (L1_VOICE_MEMO_AMR) + void l1s_vm_amr_play_manager (void); + void l1s_vm_amr_record_manager(void); + #endif + #if (SPEECH_RECO) + void l1s_sr_enroll_manager (void); + void l1s_sr_update_manager (void); + void l1s_sr_reco_manager (void); + void l1s_sr_processing_manager(void); + void l1s_sr_speech_manager (void); + #endif + #if (L1_AEC == 1) + void l1s_aec_manager (void); + #endif + #if (L1_AEC == 2) + void l1s_aec_manager (void); + #endif + #if (FIR) + void l1s_fir_manager (void); + void l1s_fir_set_params (void); + + #endif + #if (AUDIO_MODE) + void l1s_audio_mode_manager (void); + #endif + #if (MELODY_E2) + void l1s_melody0_e2_manager(void); + void l1s_melody1_e2_manager(void); + #endif + #if (L1_MP3 == 1) + void l1s_mp3_manager(void); + #endif + #if (L1_MIDI == 1) + void l1s_midi_manager(void); + #endif + #if (L1_AAC == 1) + void l1s_aac_manager(void); + #endif + #if (L1_EXTERNAL_AUDIO_VOICE_ONOFF == 1) + void l1s_audio_onoff_manager(void); + #endif + #if (L1_EXT_MCU_AUDIO_VOICE_ONOFF == 1) + void l1s_audio_voice_onoff_manager(void); + #endif + #if (L1_STEREOPATH == 1) + void l1s_stereopath_drv_manager(void); + #endif + #if (L1_ANR == 1 || L1_ANR == 2) + void l1s_anr_manager(void); + #endif + #if (L1_IIR == 1 || L1_IIR == 2) + void l1s_iir_manager(void); + #endif + #if (L1_WCM == 1) + void l1s_wcm_manager(void); + #endif + #if (L1_AGC_UL == 1) + void l1s_agc_ul_manager(void); + #endif + #if (L1_AGC_DL == 1) + void l1s_agc_dl_manager(void); + #endif + #if (L1_DRC == 1) + void l1s_drc_manager(void); + #endif + #if (L1_LIMITER == 1) + void l1s_limiter_manager(void); + #endif + #if (L1_ES == 1) + void l1s_es_manager(void); + #endif + + void l1s_audio_it_manager(void); + /**************************************/ + /* External prototypes */ + /**************************************/ + extern UWORD8 copy_data_from_buffer (UWORD8 session_id, UWORD16 *buffer_size, UWORD16 **ptr_buf, UWORD16 data_size, API *ptr_dst); + extern UWORD8 copy_data_to_buffer (UWORD8 session_id, UWORD16 *buffer_size, UWORD16 **ptr_buf, UWORD16 data_size, API *ptr_src); + extern UWORD8 Cust_get_pointer (UWORD16 **ptr, UWORD16 *buffer_size, UWORD8 session_id); + #if (MELODY_E2) + extern UWORD16 audio_twentyms_to_TDMA_convertion (UWORD16 twentyms_value); + #endif + #if (MELODY_E2) || (L1_VOICE_MEMO_AMR) + extern UWORD8 copy_byte_data_from_buffer (UWORD8 session_id, UWORD16 *buffer_size, UWORD8 **ptr_buf, UWORD16 data_size, UWORD8 *ptr_dst); + extern UWORD8 copy_byte_data_to_buffer (UWORD8 session_id, UWORD16 *buffer_size, UWORD8 **ptr_buf, UWORD16 data_size, UWORD8 *ptr_src); + #endif + #if (L1_VOICE_MEMO_AMR) + extern UWORD8 copy_byte_data_le_from_buffer (UWORD8 session_id, UWORD16 *buffer_size, UWORD8 **ptr_buf, UWORD16 data_size, API *ptr_dst); + extern UWORD8 copy_byte_data_le_to_buffer (UWORD8 session_id, UWORD16 *buffer_size, UWORD8 **ptr_buf, UWORD16 data_size, API *ptr_src); + #endif + + #if (L1_LIMITER == 1) + void l1_audio_lim_update_mul_low_high (); + #endif + + #if (L1_AGC_UL == 1) + extern void l1_audio_agc_ul_copy_params(); + #endif + + #if (L1_AGC_DL == 1) + extern void l1_audio_agc_dl_copy_params(); + #endif + + #if (L1_IIR == 2) + extern void l1_audio_iir4x_copy_params(); + #endif + +#if (L1_DRC == 1) + extern void l1_audio_drc1x_copy_params(); + #endif + + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + static void l1s_audio_ul_onoff_manager(); + static void l1s_audio_dl_onoff_manager(); + + void l1_audio_abb_ul_on_callback(void); + void l1_audio_abb_ul_off_callback(void); + void l1_audio_abb_dl_on_callback(void); + void l1_audio_abb_dl_off_callback(void); + void l1_audio_abb_ul_off_dl_off_callback(void); + void l1_audio_abb_ul_off_dl_on_callback(void); + void l1_audio_abb_ul_on_dl_off_callback(void); + void l1_audio_abb_ul_on_dl_on_callback(void); + void l1_audio_ul_onoff_trace(); + void l1_audio_dl_onoff_trace(); +#if (CODE_VERSION != SIMULATION) + BspTwl3029_ReturnCode l1_outen_update(void); +#endif + +#if (CODE_VERSION == SIMULATION) + signed char l1_outen_update(void); +#endif +#endif // L1_AUDIO_MCU_ONOFF + +#if (CODE_VERSION == SIMULATION)&&(L1_AUDIO_MCU_ONOFF == 1) + +// Triton Audio ON/OFF Changes +void l1_audio_abb_ul_on_req ( void(*callback_fn)(void) ); +void l1_audio_abb_dl_on_req ( void(*callback_fn)(void) ); +void l1_audio_abb_ul_off_req ( void(*callback_fn)(void) ); +void l1_audio_abb_dl_off_req ( void(*callback_fn)(void) ); +void l1_audio_abb_ul_off_dl_off_req ( void(*callback_fn)(void) ); +void l1_audio_abb_ul_off_dl_on_req ( void(*callback_fn)(void) ); +void l1_audio_abb_ul_on_dl_off_req ( void(*callback_fn)(void) ); +void l1_audio_abb_ul_on_dl_on_req ( void(*callback_fn)(void) ); + + +#endif + +#if (ANLG_FAM == 11) +//sundi: add the abb_write_done variable for I2C write acknowledgement +//UWORD8 abb_write_done = 0; +#endif + + /*-------------------------------------------------------*/ + /* l1s_audio_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Global manager of the L1S audio task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_audio_manager(void) + { + BOOL l1_audio_it_com = FALSE; + + // Initialize the ITCOM for audio task + l1s.l1_audio_it_com = FALSE; + + #if (KEYBEEP) + // the keybeep task is activated? + if ((l1a_l1s_com.keybeep_task.command.start) || + (l1s.audio_state[L1S_KEYBEEP_STATE] != 0)) + { + l1s_keybeep_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (TONE) + // the tone task is activated? + if ((l1a_l1s_com.tone_task.command.start) || + (l1s.audio_state[L1S_TONE_STATE] != 0)) + { + l1s_tone_manager(); + l1_audio_it_com = TRUE; + } + #endif + + #if (MELODY_E1) + // the melody0 task is activated? + if ((l1a_l1s_com.melody0_task.command.start) || + (l1s.audio_state[L1S_MELODY0_STATE] != 0)) + { + l1s_melody0_manager(); + l1_audio_it_com = TRUE; + } + // the melody1 task is activated? + if ((l1a_l1s_com.melody1_task.command.start) || + (l1s.audio_state[L1S_MELODY1_STATE] != 0)) + { + l1s_melody1_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (VOICE_MEMO) + // the voicememo playing task is activated? + if ((l1a_l1s_com.voicememo_task.play.command.start) || + (l1s.audio_state[L1S_VM_PLAY_STATE] != 0)) + { + l1s_vm_play_manager(); + l1_audio_it_com = TRUE; + } + else // voicememo playing task and voice memo recoding task isn't compatible + { + // the voicememo recording task is activated? + if ((l1a_l1s_com.voicememo_task.record.command.start) || + (l1s.audio_state[L1S_VM_RECORD_STATE] != 0)) + { + l1s_vm_record_manager(); + l1_audio_it_com = TRUE; + } + // the voicememo tone uplink task is activated? + if ((l1a_l1s_com.voicememo_task.record.tone_ul.start) || + (l1s.audio_state[L1S_TONE_UL_STATE] != 0)) + { + l1s_tone_ul_manager(); + l1_audio_it_com = TRUE; + } + } + #endif + #if (L1_PCM_EXTRACTION) + // the PCM download task is activated? + if ((l1a_l1s_com.pcm_task.download.command.start) || + (l1s.audio_state[L1S_PCM_DOWNLOAD_STATE] != 0)) + { + l1s_pcm_download_manager(); + l1_audio_it_com = TRUE; + } + // the PCM upload task is activated? + if ((l1a_l1s_com.pcm_task.upload.command.start) || + (l1s.audio_state[L1S_PCM_UPLOAD_STATE] != 0)) + { + l1s_pcm_upload_manager(); + l1_audio_it_com = TRUE; + } + #endif /* L1_PCM_EXTRACTION */ + #if (L1_VOICE_MEMO_AMR) + // the voicememo playing task is activated? + if ((l1a_l1s_com.voicememo_amr_task.play.command.start) || + (l1s.audio_state[L1S_VM_AMR_PLAY_STATE] != 0)) + { + l1s_vm_amr_play_manager(); + l1_audio_it_com = TRUE; + } + else // voicememo playing task and voice memo recoding task isn't compatible + { + // the voicememo recording task is activated? + if ((l1a_l1s_com.voicememo_amr_task.record.command.start) || + (l1s.audio_state[L1S_VM_AMR_RECORD_STATE] != 0)) + { + l1s_vm_amr_record_manager(); + l1_audio_it_com = TRUE; + } + } + #endif + #if (SPEECH_RECO) + // the speech recognition enroll task is activated? + if ((l1a_l1s_com.speechreco_task.command.enroll_start) || + (l1s.audio_state[L1S_SR_ENROLL_STATE] != 0)) + { + l1s_sr_enroll_manager(); + l1_audio_it_com = TRUE; + } + else + // the speech recognition update task is activated? + if ((l1a_l1s_com.speechreco_task.command.update_start) || + (l1s.audio_state[L1S_SR_UPDATE_STATE] != 0)) + { + l1s_sr_update_manager(); + l1_audio_it_com = TRUE; + } + else + // the speech recognition reco task is activated? + if ((l1a_l1s_com.speechreco_task.command.reco_start) || + (l1s.audio_state[L1S_SR_RECO_STATE] != 0)) + { + l1s_sr_reco_manager(); + l1_audio_it_com = TRUE; + } + else + // the speech recognition processing task is activated? + if ((l1a_l1s_com.speechreco_task.command.processing_start) || + (l1s.audio_state[L1S_SR_PROCESSING_STATE] != 0)) + { + l1s_sr_processing_manager(); + l1_audio_it_com = TRUE; + } + // the speech recognition speech recording task is activated? + if ((l1a_l1s_com.speechreco_task.command.speech_start) || + (l1s.audio_state[L1S_SR_SPEECH_STATE] != 0)) + { + l1s_sr_speech_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (L1_AEC == 1) + // the AEC is activated? + if ((l1a_l1s_com.aec_task.command.start) || + (l1s.audio_state[L1S_AEC_STATE] != 0)) + { + l1s_aec_manager(); + // It's not necessary to enable the IT DSP because the + // AEC works with the dedicated speech therefor an IT DSP is + // already requested by the modem + } + #endif + #if (L1_AEC == 2) + // the AEC is activated? + if ((l1a_l1s_com.aec_task.command.start) || + (l1s.audio_state[L1S_AEC_STATE] != 0)) + { + l1s_aec_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (FIR) + // the FIR is activated? +if ((l1a_l1s_com.fir_task.command.start) || + (l1s.audio_state[L1S_FIR_STATE] !=0 )) + { + l1s_fir_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (AUDIO_MODE) + // the AUDIO MODE is activated? + if (l1a_l1s_com.audio_mode_task.command.start) + { + l1s_audio_mode_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (MELODY_E2) + // Handling counters + if (l1s.melody_e2.dsp_task == TRUE) + { + l1s.melody_e2.timebase++; + l1s.melody_e2.timebase_mod_60ms++; + if (l1s.melody_e2.timebase_mod_60ms == 13) + l1s.melody_e2.timebase_mod_60ms = 0; + } + else + { + l1s.melody_e2.timebase = 0; + l1s.melody_e2.timebase_mod_60ms = 0; + } + + // Update the oscillator active fields with DSP active oscillators + l1s.melody_e2.global_osc_active = l1s_dsp_com.dsp_ndb_ptr->d_melody_e2_osc_active; + l1s.melody_e2.global_osc_to_start = 0; + + // oscillator active fields can't be updated until dsp has acknowledged new notes + if (l1s_dsp_com.dsp_ndb_ptr->d_melody_e2_semaphore == 0) + { + l1s.melody0_e2.oscillator_active &= l1s.melody_e2.global_osc_active; + l1s.melody1_e2.oscillator_active &= l1s.melody_e2.global_osc_active; + } + + // Both states machines are inactive => Start or Stop DSP module + if ( (l1s.audio_state[L1S_MELODY0_E2_STATE] == 0) && + (l1s.audio_state[L1S_MELODY1_E2_STATE] == 0) ) + { + // Start command + DSP module not running => Start DSP module + if( ((l1a_l1s_com.melody0_e2_task.command.start) || + (l1a_l1s_com.melody1_e2_task.command.start)) && + (l1s.melody_e2.dsp_task == FALSE) ) + { + // Set the bit TONE to do the init only at the first start + // of the first melody (in case of 2 melodies) + // Select the melody E2 instead of E1 or tones + l1s_dsp_com.dsp_ndb_ptr->d_melody_selection = MELODY_E2_SELECTED; + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= (B_MELO | B_TONE); + l1s_dsp_com.dsp_ndb_ptr->d_melody_e2_deltatime = 0; + + // set delta_time as non valid + l1s.melody0_e2.delta_time = 0xFFFF; + l1s.melody1_e2.delta_time = 0xFFFF; + + // Set the flag to confirm that the DSP melody E2 task is started + l1s.melody_e2.dsp_task = TRUE; + } + // No command, DSP module running => Stop DSP module + else + if (l1s.melody_e2.dsp_task) + { + // The 2 melodies are stopped therefore the DSP must be + // stopped so the bit B_MELO must be reset. + l1s_dsp_com.dsp_ndb_ptr->d_melody_selection = MELODY_E2_SELECTED; + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= (B_MELO | B_TONE); + + // Reset the flag to know if the DSP melody E2 task runs + l1s.melody_e2.dsp_task = FALSE; + + l1_audio_it_com = TRUE; + } + } + + // the melody0 task is activated? + if ( (l1a_l1s_com.melody0_e2_task.command.start) || + (l1s.audio_state[L1S_MELODY0_E2_STATE] != 0) ) + { + l1s_melody0_e2_manager(); + l1_audio_it_com = TRUE; + } + // the melody0 task is activated? + if ( (l1a_l1s_com.melody1_e2_task.command.start) || + (l1s.audio_state[L1S_MELODY1_E2_STATE] != 0) ) + { + l1s_melody1_e2_manager(); + l1_audio_it_com = TRUE; + } + + // We updated some oscillators so we must set the semaphore + if (l1s.melody_e2.global_osc_to_start != 0x0000) + { + // Set the melody E2 semaphore + l1s_dsp_com.dsp_ndb_ptr->d_melody_e2_semaphore = 0x0001; + + // Update delta_time by min_delta_time(melo0, melo1) + l1s_dsp_com.dsp_ndb_ptr->d_melody_e2_deltatime = l1s.melody0_e2.delta_time; + if (l1s.melody1_e2.delta_time < l1s.melody0_e2.delta_time) + l1s_dsp_com.dsp_ndb_ptr->d_melody_e2_deltatime = l1s.melody1_e2.delta_time; + + l1s.melody0_e2.delta_time = 0xFFFF; + l1s.melody1_e2.delta_time = 0xFFFF; + } + #endif + + #if (L1_MP3 == 1) + if ((l1a_l1s_com.mp3_task.command.start) || + (l1s.audio_state[L1S_MP3_STATE] != 0)) + { + l1s_mp3_manager(); + l1_audio_it_com=TRUE; + } + #endif // L1_MP3 + + #if (L1_AAC == 1) + if ((l1a_l1s_com.aac_task.command.start) || + (l1s.audio_state[L1S_AAC_STATE] != 0)) + { + l1s_aac_manager(); + l1_audio_it_com=TRUE; + } + #endif // L1_AAC + #if (L1_CPORT == 1) + // the Cport task is activated? + if ((l1a_l1s_com.cport_task.command.start) || + (l1s.audio_state[L1S_CPORT_STATE] != 0)) + { + l1s_cport_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (L1_EXTERNAL_AUDIO_VOICE_ONOFF == 1) + // the audio on off task is activated? + if (l1a_l1s_com.audio_onoff_task.command.start || + (l1s.audio_state[L1S_AUDIO_ONOFF_STATE] != 0)) + { + l1s_audio_onoff_manager(); + l1_audio_it_com = TRUE; + } + #endif + + #if (L1_EXT_MCU_AUDIO_VOICE_ONOFF == 1) + // the audio on off task is activated? + if (l1a_l1s_com.audio_onoff_task.command.start || + (l1s.audio_state[L1S_AUDIO_ONOFF_STATE] != 0)) + { + l1s_audio_voice_onoff_manager(); + l1_audio_it_com = TRUE; + } + #endif + + #if (L1_STEREOPATH == 1) + // the Stereopath task is activated? + if ((l1a_l1s_com.stereopath_drv_task.command.start) || + (l1s.audio_state[L1S_STEREOPATH_DRV_STATE] != 0)) + { + l1s_stereopath_drv_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (L1_ANR == 1 || L1_ANR == 2) + // the ANR task is activated? + if (l1a_l1s_com.anr_task.command.update || + (l1s.audio_state[L1S_ANR_STATE] != 0)) + { + l1s_anr_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (L1_IIR == 1 || L1_IIR == 2) + // the IIR task is activated? + if (l1a_l1s_com.iir_task.command.update || + (l1s.audio_state[L1S_IIR_STATE] != 0)) + { + l1s_iir_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (L1_WCM == 1) + // the WCM task is activated? + if (l1a_l1s_com.wcm_task.command.update || + (l1s.audio_state[L1S_WCM_STATE] != 0)) + { + l1s_wcm_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (L1_DRC == 1) + // the DRC task is activated? + if (l1a_l1s_com.drc_task.command.update || + (l1s.audio_state[L1S_DRC_STATE] != 0)) + { + l1s_drc_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (L1_AGC_UL == 1) + // the AGC UL task is activated? + if (l1a_l1s_com.agc_ul_task.command.update || + (l1s.audio_state[L1S_AGC_UL_STATE] != 0)) + { + l1s_agc_ul_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (L1_AGC_DL == 1) + // the AGC DL task is activated? + if (l1a_l1s_com.agc_dl_task.command.update || + (l1s.audio_state[L1S_AGC_DL_STATE] != 0)) + { + l1s_agc_dl_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (L1_LIMITER == 1) + // the LIMITER task is activated? + if (l1a_l1s_com.limiter_task.command.update || + l1a_l1s_com.limiter_task.command.partial_update || + (l1s.audio_state[L1S_LIMITER_STATE] != 0)) + { + l1s_limiter_manager(); + l1_audio_it_com = TRUE; + } + #endif + #if (L1_ES == 1) + // the echo suppressor task is activated? + if (l1a_l1s_com.es_task.command.update || + (l1s.audio_state[L1S_ES_STATE] != 0)) + { + l1s_es_manager(); + l1_audio_it_com = TRUE; + } + #endif + + // the audio It task is activated? + if (l1a_l1s_com.audioIt_task.command.start) + { + l1s_audio_it_manager(); + l1_audio_it_com = TRUE; + } + + #if (L1_MIDI == 1) + if ((l1a_l1s_com.midi_task.command.start) || + (l1s.audio_state[L1S_MIDI_STATE] != 0)) + { + l1s_midi_manager(); + l1_audio_it_com=TRUE; + } + #endif // L1_MIDI + + // The audio IT shall be foprwarded to the DSP in case the L1S is forcing the audio + if (l1a_l1s_com.audio_forced_by_l1s == TRUE) + l1_audio_it_com = TRUE; + + l1s.l1_audio_it_com = l1_audio_it_com; + } + + +#if (L1_AUDIO_MCU_ONOFF == 1) + void l1s_audio_onoff_manager(void) + { + T_L1S_AUDIO_ONOFF_MANAGER *onoff_ctl = &(l1s.audio_on_off_ctl); + + //l1_audio_onoff_entry_sim_log(); +#if (AUDIO_DEBUG == 1) + trace_info.audio_debug_var.ul_state = l1s.audio_state[L1S_AUDIO_UL_ONOFF_STATE]; + trace_info.audio_debug_var.dl_state = l1s.audio_state[L1S_AUDIO_DL_ONOFF_STATE]; + trace_info.audio_debug_var.ul_onoff_counter = onoff_ctl->l1_audio_switch_on_ul_request; + trace_info.audio_debug_var.dl_onoff_counter = onoff_ctl->l1_audio_switch_on_dl_request; +#endif + + l1s_audio_ul_onoff_manager(); + l1s_audio_dl_onoff_manager(); + + // Call the driver depending on the actions + switch(onoff_ctl->l1_audio_ul_action) + { + case L1_AUDIO_NO_ACTION: + { + switch(onoff_ctl->l1_audio_dl_action) + { + case L1_AUDIO_NO_ACTION: + { + // UL No Action and DL No Action Do nothing + } + break; + case L1_AUDIO_TURN_ON: + { + // UL No Action and DL Turn on + l1_audio_abb_dl_on_req(l1_audio_abb_dl_on_callback); + } + break; + case L1_AUDIO_TURN_OFF: + { + // UL No Action and DL Turn off + l1_audio_abb_dl_off_req(l1_audio_abb_dl_off_callback); + } + break; + default: + { + // Invalid Action send error trace here + } + break; + } // end switch(l1_audio_dl_action) + } + break; + case L1_AUDIO_TURN_ON: + { + switch(onoff_ctl->l1_audio_dl_action) + { + case L1_AUDIO_NO_ACTION: + { + // UL Action ON and DL No Action + l1_audio_abb_ul_on_req(l1_audio_abb_ul_on_callback); + } + break; + case L1_AUDIO_TURN_ON: + { + // UL Action ON and DL Action ON + l1_audio_abb_ul_on_dl_on_req(l1_audio_abb_ul_on_dl_on_callback); + } + break; + case L1_AUDIO_TURN_OFF: + { + // UL Action ON and DL Action OFF + l1_audio_abb_ul_on_dl_off_req(l1_audio_abb_ul_on_dl_off_callback); + } + break; + default: + { + // Invalid Action Send error trace here + } + break; + } // end switch(l1_audio_dl_action) + + } + break; + case L1_AUDIO_TURN_OFF: + { + switch(onoff_ctl->l1_audio_dl_action) + { + case L1_AUDIO_NO_ACTION: + { + // UL Action OFF DL No Action + l1_audio_abb_ul_off_req(l1_audio_abb_ul_off_callback); + } + break; + case L1_AUDIO_TURN_ON: + { + // UL Action OFF DL Action ON + l1_audio_abb_ul_off_dl_on_req(l1_audio_abb_ul_off_dl_on_callback); + } + break; + case L1_AUDIO_TURN_OFF: + { + // UL Action OFF DL Action OFF + l1_audio_abb_ul_off_dl_off_req(l1_audio_abb_ul_off_dl_off_callback); + } + break; + default: + { + } + break; + } // end switch(l1_audio_dl_action) + + } + break; + default: + { + // Invalid Action send error trace here + } + break; + } // end switch(l1_audio_ul_action) + + } // end l1s_audio_triton_onoff_manager() + + static void l1s_audio_ul_onoff_manager() + { + + T_L1S_AUDIO_ONOFF_MANAGER *onoff_ctl = &(l1s.audio_on_off_ctl); + UWORD8 *state = &l1s.audio_state[L1S_AUDIO_UL_ONOFF_STATE]; + + onoff_ctl->l1_audio_ul_action = L1_AUDIO_NO_ACTION; + + + if(onoff_ctl->l1_audio_switch_on_ul_request >= 1) + { + // At least one module requires UL audio path to be on + switch(*state) + { + case L1_AUDIO_UL_OFF: + { + // UL audio path is OFF and needs to be started + onoff_ctl->l1_audio_ul_on2off_hold_time = + L1_AUDIO_ON2OFF_UL_HOLD_TIME; + onoff_ctl->l1_audio_ul_action = L1_AUDIO_TURN_ON; + *state = L1_AUDIO_UL_SWITCHON_STARTED; + onoff_ctl->l1_audio_ul_switched_on = FALSE; + onoff_ctl->l1_audio_ul_switched_off = TRUE; + } + break; + case L1_AUDIO_UL_SWITCHON_STARTED: + { + // UL audio path in the process of turning on + // Check if it is turned on, if so change state to UL on + if(onoff_ctl->l1_audio_ul_switched_on == TRUE) + { + onoff_ctl->l1_audio_ul_switched_off = FALSE; + *state = L1_AUDIO_UL_ON; + } + #if(CODE_VERSION == NOT_SIMULATION) + l1s.l1_audio_it_com = TRUE; + #endif + } + break; + case L1_AUDIO_UL_ON: + { + // UL audio path is on and some module wants it to be so + // Do nothing essentially except initialize the hold time + onoff_ctl->l1_audio_ul_on2off_hold_time = + L1_AUDIO_ON2OFF_UL_HOLD_TIME; + #if(CODE_VERSION == NOT_SIMULATION) + l1s.l1_audio_it_com = TRUE; + #endif + } + break; + case L1_AUDIO_UL_SWITCHOFF_STARTED: + { + // UL is being switched off and some module requests switch on! + // Since the driver is required to maintain the order of requests + // we perform the same actions as in the UL_OFF state + onoff_ctl->l1_audio_ul_on2off_hold_time = + L1_AUDIO_ON2OFF_UL_HOLD_TIME; + onoff_ctl->l1_audio_ul_action = L1_AUDIO_TURN_ON; + *state = L1_AUDIO_UL_SWITCHON_STARTED; + onoff_ctl->l1_audio_ul_switched_on = FALSE; + onoff_ctl->l1_audio_ul_switched_off = TRUE; + #if(CODE_VERSION == NOT_SIMULATION) + l1s.l1_audio_it_com = TRUE; + #endif + } + break; + default: + { + // Invalid state put error trace here + } + break; + } // end switch(l1_audio_ul_state) + + } // end if(l1_audio_switch_on_ul_req >= 1) + else + { + // No module requires UL Audio path to be on + switch(*state) + { + case L1_AUDIO_UL_OFF: + { + // UL audio path is off and all modules want it that way, do nothing + } + break; + case L1_AUDIO_UL_SWITCHON_STARTED: + { + // UL audio path being switched on. Modules want it turned off! + // Allow UL to be turned on, still if modules want it turned off + // we will wait for ON2OFF hold time and turn it off + if(onoff_ctl->l1_audio_ul_switched_on == TRUE) + { + onoff_ctl->l1_audio_ul_switched_off = FALSE; + *state = L1_AUDIO_UL_ON; + } + #if(CODE_VERSION == NOT_SIMULATION) + l1s.l1_audio_it_com = TRUE; + #endif + } + break; + case L1_AUDIO_UL_ON: + { + // UL audio path is on and all modules want turn off. We wait + // for the ON2OFF hold time and then actually turn it off + if(onoff_ctl->l1_audio_ul_on2off_hold_time == 0) + { + onoff_ctl->l1_audio_ul_action = L1_AUDIO_TURN_OFF; + *state = L1_AUDIO_UL_SWITCHOFF_STARTED; + onoff_ctl->l1_audio_ul_switched_off = FALSE; + onoff_ctl->l1_audio_ul_switched_on = TRUE; + } + else + onoff_ctl->l1_audio_ul_on2off_hold_time--; + #if(CODE_VERSION == NOT_SIMULATION) + l1s.l1_audio_it_com = TRUE; + #endif + } + break; + case L1_AUDIO_UL_SWITCHOFF_STARTED: + { + if(onoff_ctl->l1_audio_ul_switched_off == TRUE) + { + *state = L1_AUDIO_UL_OFF; + } + #if(CODE_VERSION == NOT_SIMULATION) + l1s.l1_audio_it_com = TRUE; + #endif + } + break; + default: + { + // Invalid state send error trace here + } + break; + } // end switch(l1_audio_ul_state) + + } // end if(l1_audio_switch_on_ul_req >= 1)else + +#if (CODE_VERSION == SIMULATION) + l1_audio_ul_onoff_simu_trace(); +#else + l1_audio_ul_onoff_trace(); +#endif + + } // end l1s_audio_ul_onoff_manager() + + static void l1s_audio_dl_onoff_manager() + { + + T_L1S_AUDIO_ONOFF_MANAGER *onoff_ctl = &(l1s.audio_on_off_ctl); + UWORD8 *state = &l1s.audio_state[L1S_AUDIO_DL_ONOFF_STATE]; + + onoff_ctl->l1_audio_dl_action = L1_AUDIO_NO_ACTION; + + + if(onoff_ctl->l1_audio_switch_on_dl_request >= 1) + { + // At least one module requires DL audio path to be on + switch(*state) + { + case L1_AUDIO_DL_OFF: + { + // DL audio path is OFF and needs to be started + onoff_ctl->l1_audio_dl_on2off_hold_time = + L1_AUDIO_ON2OFF_DL_HOLD_TIME; + onoff_ctl->l1_audio_dl_action = L1_AUDIO_TURN_ON; + *state = L1_AUDIO_DL_SWITCHON_STARTED; + onoff_ctl->l1_audio_dl_switched_on = FALSE; + onoff_ctl->l1_audio_dl_switched_off = TRUE; + } + break; + case L1_AUDIO_DL_SWITCHON_STARTED: + { + // DL audio path in the process of turning on + // Check if it is turned on, if so change state to DL on + if(onoff_ctl->l1_audio_dl_switched_on == TRUE) + { + onoff_ctl->l1_audio_dl_switched_off = FALSE; + *state = L1_AUDIO_DL_ON; + } + #if(CODE_VERSION == NOT_SIMULATION) + l1s.l1_audio_it_com = TRUE; + #endif + } + break; + case L1_AUDIO_DL_ON: + { + + /* OUTEN registers have been updated */ + if(l1a_l1s_com.outen_cfg_task.command_requested != l1a_l1s_com.outen_cfg_task.command_commited) + { + #if (CODE_VERSION != SIMULATION) + l1_outen_update(); + #endif + } + // DL audio path is on and some module wants it to be so + // Do nothing essentially except initialize the hold time + onoff_ctl->l1_audio_dl_on2off_hold_time = + L1_AUDIO_ON2OFF_DL_HOLD_TIME; + #if(CODE_VERSION == NOT_SIMULATION) + l1s.l1_audio_it_com = TRUE; + #endif + } + break; + case L1_AUDIO_DL_SWITCHOFF_STARTED: + { + // DL is being switched off and some module requests switch on! + // Since the driver is required to maintain the order of requests + // we perform the same actions as in the DL_OFF state + onoff_ctl->l1_audio_dl_on2off_hold_time = + L1_AUDIO_ON2OFF_DL_HOLD_TIME; + onoff_ctl->l1_audio_dl_action = L1_AUDIO_TURN_ON; + *state = L1_AUDIO_DL_SWITCHON_STARTED; + onoff_ctl->l1_audio_dl_switched_on = FALSE; + onoff_ctl->l1_audio_dl_switched_off = TRUE; + + #if(CODE_VERSION == NOT_SIMULATION) + l1s.l1_audio_it_com = TRUE; + #endif + } + break; + default: + { + // Invalid state put error trace here + } + break; + } // end switch(l1_audio_dl_state) + + } // end if(l1_audio_switch_on_dl_req >= 1) + else + { + // No module requires DL Audio path to be on + switch(*state) + { + case L1_AUDIO_DL_OFF: + { + // DL audio path is off and all modules want it that way, do nothing + } + break; + case L1_AUDIO_DL_SWITCHON_STARTED: + { + // DL audio path being switched on. Modules want it turned off! + // Allow DL to be turned on, still if modules want it turned off + // we will wait for ON2OFF hold time and turn it off + if(onoff_ctl->l1_audio_dl_switched_on == TRUE) + { + onoff_ctl->l1_audio_dl_switched_off = FALSE; + *state = L1_AUDIO_DL_ON; + } + #if(CODE_VERSION == NOT_SIMULATION) + l1s.l1_audio_it_com = TRUE; + #endif + } + break; + case L1_AUDIO_DL_ON: + { + // DL audio path is on and all modules want turn off. We wait + // for the ON2OFF hold time and then actually turn it off + if(onoff_ctl->l1_audio_dl_on2off_hold_time == 0) + { + onoff_ctl->l1_audio_dl_action = L1_AUDIO_TURN_OFF; + *state = L1_AUDIO_DL_SWITCHOFF_STARTED; + onoff_ctl->l1_audio_dl_switched_off = FALSE; + onoff_ctl->l1_audio_dl_switched_on = TRUE; + } + else + onoff_ctl->l1_audio_dl_on2off_hold_time--; + + #if(CODE_VERSION == NOT_SIMULATION) + l1s.l1_audio_it_com = TRUE; + #endif + } + break; + case L1_AUDIO_DL_SWITCHOFF_STARTED: + { + if(onoff_ctl->l1_audio_dl_switched_off == TRUE) + { + *state = L1_AUDIO_DL_OFF; + } + #if(CODE_VERSION == NOT_SIMULATION) + l1s.l1_audio_it_com = TRUE; + #endif + } + break; + default: + { + // Invalid state send error trace here + } + break; + } // end switch(l1_audio_dl_state) + + } // end if(l1_audio_switch_on_dl_req >= 1)else + +#if (CODE_VERSION == SIMULATION) + l1_audio_dl_onoff_simu_trace(); +#else + l1_audio_dl_onoff_trace(); +#endif + + + } // end l1s_audio_dl_onoff_manager() + +#if (CODE_VERSION == NOT_SIMULATION) +void l1_audio_ul_onoff_trace() +{ + static T_L1_AUDIO_UL_STATE prev_state = L1_INVALID; + UWORD8 *curr_state = &l1s.audio_state[L1S_AUDIO_UL_ONOFF_STATE]; + + if(*curr_state != prev_state) + { + prev_state =(T_L1_AUDIO_UL_STATE) *curr_state; + switch(prev_state) + { + case L1_AUDIO_UL_OFF: + { + //L1_trace_string("UL AUDIO OFF\r\n"); + l1_trace_ul_audio_onoff(L1_AUDIO_UL_OFF); + } + break; + case L1_AUDIO_UL_SWITCHON_STARTED: + { + l1_trace_ul_audio_onoff(L1_AUDIO_UL_SWITCHON_STARTED); + } + break; + case L1_AUDIO_UL_ON: + { + l1_trace_ul_audio_onoff(L1_AUDIO_UL_ON); + } + break; + case L1_AUDIO_UL_SWITCHOFF_STARTED: + { + l1_trace_ul_audio_onoff(L1_AUDIO_UL_SWITCHOFF_STARTED); + } + break; + + } // End switch(prev_state) + } // end if(l1s.ul_state == prev_state) + +} + +void l1_audio_dl_onoff_trace() +{ + static T_L1_AUDIO_DL_STATE prev_state = L1_DL_INVALID; + UWORD8 *curr_state = &l1s.audio_state[L1S_AUDIO_DL_ONOFF_STATE]; + + if(*curr_state != prev_state) + { + prev_state = (T_L1_AUDIO_DL_STATE) *curr_state; + switch(prev_state) + { + case L1_AUDIO_DL_OFF: + { + l1_trace_dl_audio_onoff(L1_AUDIO_DL_OFF); + } + break; + case L1_AUDIO_DL_SWITCHON_STARTED: + { + l1_trace_dl_audio_onoff(L1_AUDIO_DL_SWITCHON_STARTED); + } + break; + case L1_AUDIO_DL_ON: + { + l1_trace_dl_audio_onoff(L1_AUDIO_DL_ON); + } + break; + case L1_AUDIO_DL_SWITCHOFF_STARTED: + { + l1_trace_dl_audio_onoff(L1_AUDIO_DL_SWITCHOFF_STARTED); + } + break; + + } // End switch(prev_state) + } // end if(l1s.ul_state == prev_state) +} + +#endif // CODE_VERSION == NOT_SIMULATION + + void l1_audio_abb_ul_on_callback(void) + { + l1s.audio_on_off_ctl.l1_audio_ul_switched_on = TRUE; + } + void l1_audio_abb_ul_off_callback(void) + { + l1s.audio_on_off_ctl.l1_audio_ul_switched_off = TRUE; + } + void l1_audio_abb_dl_on_callback(void) + { + l1_outen_update(); + } + void l1_audio_abb_dl_off_callback(void) + { + l1s.audio_on_off_ctl.l1_audio_dl_switched_off = TRUE; + } + void l1_audio_abb_ul_off_dl_off_callback(void) + { + l1s.audio_on_off_ctl.l1_audio_ul_switched_off = TRUE; + l1s.audio_on_off_ctl.l1_audio_dl_switched_off = TRUE; + } + void l1_audio_abb_ul_off_dl_on_callback(void) + { + l1s.audio_on_off_ctl.l1_audio_ul_switched_off = TRUE; + l1_outen_update(); + } + void l1_audio_abb_ul_on_dl_off_callback(void) + { + l1s.audio_on_off_ctl.l1_audio_ul_switched_on = TRUE; + l1s.audio_on_off_ctl.l1_audio_dl_switched_off = TRUE; + } + void l1_audio_abb_ul_on_dl_on_callback(void) + { + l1s.audio_on_off_ctl.l1_audio_ul_switched_on = TRUE; + + l1_outen_update(); + } + + void l1_audio_abb_outen_cfg_callback(UWORD8 argument) + { + (void)(argument); + l1s.audio_on_off_ctl.l1_audio_dl_switched_on = TRUE; + } +#if (CODE_VERSION != SIMULATION) + +BspTwl3029_ReturnCode l1_outen_update(void) +{ + BspTwl3029_ReturnCode returnVal = BSP_TWL3029_RETURN_CODE_FAILURE; + UWORD16 count = 0; + UINT8 triton_classD = 0; + + /* callback function info pointer */ + BspTwl3029_I2C_Callback i2c_callback; + BspTwl3029_I2C_CallbackPtr callbackPtr= &i2c_callback; + + /* I2C array */ + Bsp_Twl3029_I2cTransReqArray i2cTransArray; + Bsp_Twl3029_I2cTransReqArrayPtr i2cTransArrayPtr= &i2cTransArray; + + /* twl3029 I2C reg info struct */ + BspTwl3029_I2C_RegisterInfo regInfo[11] ; + BspTwl3029_I2C_RegisterInfo* regInfoPtr = regInfo; + + BspTwl3029_I2C_RegData tmpAudioHFTest1RegData=0; + BspTwl3029_I2C_RegData tmpCtrl3RegData=0; + + + l1a_l1s_com.outen_cfg_task.command_requested = l1a_l1s_com.outen_cfg_task.command_commited; + + bspTwl3029_Audio_getClassD_mode(&triton_classD); + + returnVal = BspTwl3029_I2c_shadowRegRead(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_CTRL3_OFFSET, + &tmpCtrl3RegData); + returnVal = BspTwl3029_I2c_shadowRegRead(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_HFTEST1_OFFSET, + &tmpAudioHFTest1RegData); + + returnVal = BspTwl3029_I2c_regQueWrite(BSP_TWL3029_I2C_AUD,BSP_TWL_3029_MAP_AUDIO_OUTEN1_OFFSET, + l1a_l1s_com.outen_cfg_task.outen1, regInfoPtr++); + count++; + + returnVal = BspTwl3029_I2c_regQueWrite(BSP_TWL3029_I2C_AUD,BSP_TWL_3029_MAP_AUDIO_OUTEN2_OFFSET, + l1a_l1s_com.outen_cfg_task.outen2, regInfoPtr++); + count++; + + if(l1a_l1s_com.outen_cfg_task.classD == 0x01) // User wants to configure classD + { + if(triton_classD == 0x00) // User wants to switch on and Triton not configured for classD + { + + BspTwl3029_I2c_regQueWrite(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_CKG_TESTUNLOCK_OFFSET, + 0xb6, regInfoPtr++); + count++; + + + returnVal= BspTwl3029_I2c_regQueWrite(BSP_TWL3029_I2C_AUD,BSP_TWL_3029_MAP_AUDIO_OUTEN3_OFFSET, + l1a_l1s_com.outen_cfg_task.outen3, regInfoPtr++); + count++; + + tmpCtrl3RegData |= 0x80; // AUDIO_CTRL3_SPKDIGON + tmpAudioHFTest1RegData = 0x01; // AUDIO_HFTEST1_SPKALLZB + + BspTwl3029_I2c_regQueWrite(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_CTRL3_OFFSET, + tmpCtrl3RegData, regInfoPtr++); + count++; + + BspTwl3029_I2c_regQueWrite(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_HFTEST1_OFFSET, + tmpAudioHFTest1RegData, regInfoPtr++); + count++; + } + } + else if(l1a_l1s_com.outen_cfg_task.classD == 0x00) + { + if(triton_classD != 0x00) // User wants no to classD and Triton configured for classD + { + tmpCtrl3RegData &= 0x7F; // AUDIO_CTRL3_SPKDIGON + tmpAudioHFTest1RegData = 0x00; // AUDIO_HFTEST1_SPKALLZB + + BspTwl3029_I2c_regQueWrite(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_HFTEST1_OFFSET, + tmpAudioHFTest1RegData, regInfoPtr++); + count++; + + BspTwl3029_I2c_regQueWrite(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_CTRL3_OFFSET, + tmpCtrl3RegData, regInfoPtr++); + count++; + + returnVal= BspTwl3029_I2c_regQueWrite(BSP_TWL3029_I2C_AUD,BSP_TWL_3029_MAP_AUDIO_OUTEN3_OFFSET, + l1a_l1s_com.outen_cfg_task.outen3, regInfoPtr++); + count++; + + BspTwl3029_I2c_regQueWrite(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_CKG_TESTUNLOCK_OFFSET, + 0x00, regInfoPtr++); + count++; + + } + else // User no classD & Triton also no classD + { + returnVal= BspTwl3029_I2c_regQueWrite(BSP_TWL3029_I2C_AUD,BSP_TWL_3029_MAP_AUDIO_OUTEN3_OFFSET, + l1a_l1s_com.outen_cfg_task.outen3, regInfoPtr++); + count++; + returnVal = BspTwl3029_I2c_regQueWrite(BSP_TWL3029_I2C_AUD,BSP_TWL_3029_MAP_AUDIO_OUTEN2_OFFSET, + l1a_l1s_com.outen_cfg_task.outen2, regInfoPtr++); + count++; + returnVal= BspTwl3029_I2c_regQueWrite(BSP_TWL3029_I2C_AUD,BSP_TWL_3029_MAP_AUDIO_OUTEN3_OFFSET, + l1a_l1s_com.outen_cfg_task.outen3, regInfoPtr++); + count++; + } + } + + returnVal= BspTwl3029_I2c_regQueWrite(BSP_TWL3029_I2C_AUD,BSP_TWL_3029_MAP_AUDIO_POPMAN_OFFSET, + 0x00,regInfoPtr++); + count++; + callbackPtr->callbackFunc = l1_audio_abb_outen_cfg_callback; + callbackPtr->callbackVal = 0; + + if (returnVal != BSP_TWL3029_RETURN_CODE_FAILURE) + { + regInfoPtr = regInfo; + /* now request to I2C manager to write to Triton registers */ + + returnVal = BspTwl3029_I2c_regInfoSend(regInfo,count,callbackPtr, + (BspI2c_TransactionRequest*)i2cTransArrayPtr); + } + + return returnVal; + } /* end function l1s_outen_update */ + + +#endif +#if (CODE_VERSION == SIMULATION) + // This function is written to turn on the flag l1_audio_dl_switched_on during simulation +signed char l1_outen_update(void) + { + l1s.audio_on_off_ctl.l1_audio_dl_switched_on = TRUE; + } +#endif +#endif // L1_AUDIO_MCU_ONOFF + +// END Triton Audio ON/OFF Changes + + + #if (KEYBEEP) + /*-------------------------------------------------------*/ + /* l1s_keybeep_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Keybeep L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_keybeep_manager(void) + { + enum states + { + IDLE = 0, +#if (L1_AUDIO_MCU_ONOFF == 1) + WAIT_AUDIO_ON = 1, +#endif + WAIT_KEYBEEP_START = 2, + WAIT_KEYBEEP_STOP = 3 + }; + + UWORD8 *state = &l1s.audio_state[L1S_KEYBEEP_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + + case IDLE: + { + // Triton Audio ON/OFF Changes +#if(L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request++; + *state = WAIT_AUDIO_ON; +#else + // Start the DSP keybeep task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_KEYBEEP; + *state = WAIT_KEYBEEP_START; +#endif // L1_AUDIO_MCU_ONOFF + } + break; + +#if (L1_AUDIO_MCU_ONOFF == 1) + case WAIT_AUDIO_ON: + { + // Triton Audio ON/OFF Changes + if((l1s.audio_state[L1S_AUDIO_DL_ONOFF_STATE] == L1_AUDIO_DL_ON)) + { + // Start the DSP keybeep task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_KEYBEEP; + *state = WAIT_KEYBEEP_START; + } + } + break; +#endif // L1_AUDIO_MCU_ONOFF + + case WAIT_KEYBEEP_START: + { + // the DSP acknowledges the L1S start request. + if ((!(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init & B_KEYBEEP)) && + (l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_KEYBEEP)) + { + // Send the start confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_KEYBEEP_START_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = WAIT_KEYBEEP_STOP; + } + } + break; + + case WAIT_KEYBEEP_STOP: + { + // the DSP is stopped + if (!(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_KEYBEEP)) + { + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request--; +#endif + + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_KEYBEEP_STOP_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + else + // the MMI requests to stop the current keybeep + if (l1a_l1s_com.keybeep_task.command.stop) + { + // Stop the DSP keybeep task + l1s_dsp_com.dsp_ndb_ptr->d_dur_kb = 0; + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_KEYBEEP; + + // Disable the stop command + l1a_l1s_com.keybeep_task.command.stop = FALSE; + } + } + break; + } // switch + } + #endif // KEYBEEP + #if (TONE) + /*-------------------------------------------------------*/ + /* l1s_tone_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Tone L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_tone_manager(void) + { + enum states + { + IDLE = 0, +// Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF== 1) + WAIT_AUDIO_ON = 1, +#endif + WAIT_TONE_START = 2, + WAIT_TONE_STOP = 3 + }; + + UWORD8 *state = &l1s.audio_state[L1S_TONE_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request++; + *state = WAIT_AUDIO_ON; +#else + // Start the DSP tone task + #if ((DSP == 33) || (DSP == 34) || (DSP == 35) || (DSP == 36) || (DSP == 37) || (DSP == 38) || (DSP == 39)) + // Linked to E2 melody + // In case of WCP, there is a WCP variable at this address + l1s_dsp_com.dsp_ndb_ptr->d_melody_selection = NO_MELODY_SELECTED; + #endif + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init &= ~(B_MELO); + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_TONE; + + *state = WAIT_TONE_START; +#endif // L1_AUDIO_MCU_ONOFF + } + break; + +#if (L1_AUDIO_MCU_ONOFF == 1) + case WAIT_AUDIO_ON: + { + + // Triton Audio ON/OFF Changes + if((l1s.audio_state[L1S_AUDIO_DL_ONOFF_STATE] == L1_AUDIO_DL_ON)) + { + // Start the DSP tone task + #if ((DSP == 33) || (DSP == 34) || (DSP == 35) || (DSP == 36) || (DSP == 37) || (DSP == 38) || (DSP == 39)) + // Linked to E2 melody + // In case of WCP, there is a WCP variable at this address + l1s_dsp_com.dsp_ndb_ptr->d_melody_selection = NO_MELODY_SELECTED; + #endif + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init &= ~(B_MELO); + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_TONE; + + *state = WAIT_TONE_START; + } + } + break; +#endif // L1_AUDIO_MCU_ONOFF + + case WAIT_TONE_START: + { + // the DSP acknowledges the L1S start request. + if ((!(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init & B_TONE)) && + (l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_TONE)) + { + // Send the start confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_TONE_START_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = WAIT_TONE_STOP; + } + } + break; + + case WAIT_TONE_STOP: + { + // the DSP is stopped + if (!(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_TONE)) + { + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request--; +#endif // L1_AUDIO_MCU_ONOFF + + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_TONE_STOP_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + else + // the MMI requests to stop the current tone + if (l1a_l1s_com.tone_task.command.stop) + { + // Stop the DSP tone task + l1s_dsp_com.dsp_ndb_ptr->d_pe_rep = 0; + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_TONE; + + // Disable the stop command + l1a_l1s_com.tone_task.command.stop = FALSE; + } + } + break; + } // switch + } + #endif // TONE + #if (MELODY_E1) + /*-------------------------------------------------------*/ + /* l1s_melody0_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Melody 0 L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_melody0_manager(void) + { + enum states + { + M0_INACTIVE = 0, +#if (L1_AUDIO_MCU_ONOFF == 1) + M0_WAIT_AUDIO_START = 1, +#endif + M0_WAIT_DSP_START = 2, + M0_WAIT_COUNTER_EQUAL_0 = 3, + M0_WAIT_DESCRIPTION_START = 4, + M0_WAIT_END_MELO = 5 + }; + + UWORD8 *state = &l1s.audio_state[L1S_MELODY0_STATE]; + xSignalHeaderRec *conf_msg; + UWORD8 i, load_size; + UWORD16 melo_header[2], trash[4]; + API *osc_used; + + switch(*state) + { + case M0_INACTIVE: + { + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request++; + *state = M0_WAIT_AUDIO_START; +#else + // Initialize the oscilators used: + for (i=0; i<SC_NUMBER_OSCILLATOR; i++) + { + if (l1a_l1s_com.melody0_task.parameters.oscillator_used_bitmap & (0x1<<i)) + *(l1s.melody0.oscillator[i]) = SC_END_OSCILLATOR_MASK; + } + // Initialize the pointer to the buffer, the buffer size + l1s.melody0.ptr_buf = l1a_l1s_com.melody0_task.parameters.ptr_buf; + l1s.melody0.buffer_size = l1a_l1s_com.melody0_task.parameters.buffer_size; + + // Download the header of the first description of the melody + l1s.melody0.error_id = copy_data_from_buffer (l1a_l1s_com.melody0_task.parameters.session_id, + &l1s.melody0.buffer_size, + (UWORD16 **)&l1s.melody0.ptr_buf, + 1, + &l1s.melody0.melody_header); + + // Initialize the counter with the first offset time: + l1s.melody0.counter = ( ( Field(l1s.melody0.melody_header, SC_MELO_TIME_OFFSET_MASK, SC_MELO_TIME_OFFSET_SHIFT) ) * SC_MELO_DOWNLOAD_TIME_UNIT ) - 1; + + // Enable the oscillator used + l1s_dsp_com.dsp_ndb_ptr->d_melo_osc_used |= l1a_l1s_com.melody0_task.parameters.oscillator_used_bitmap; + + // Start the DSP melody task + #if ((DSP==33) || (DSP == 34) || (DSP==35) || (DSP==36) || (DSP == 37) || (DSP == 38) || (DSP == 39)) + // Linked to E2 melody + // In case of WCP, there is a WCP variable at this address + l1s_dsp_com.dsp_ndb_ptr->d_melody_selection = MELODY_E1_SELECTED; + #endif + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= (B_TONE | B_MELO); + + *state = M0_WAIT_DSP_START; +#endif // L1_AUDIO_MCU_ONOFF + } + break; +#if (L1_AUDIO_MCU_ONOFF == 1) + case M0_WAIT_AUDIO_START: + { + // Triton Audio ON/OFF Changes + if((l1s.audio_state[L1S_AUDIO_DL_ONOFF_STATE] == L1_AUDIO_DL_ON)) + { + // Initialize the oscilators used: + for (i=0; i<SC_NUMBER_OSCILLATOR; i++) + { + if (l1a_l1s_com.melody0_task.parameters.oscillator_used_bitmap & (0x1<<i)) + *(l1s.melody0.oscillator[i]) = SC_END_OSCILLATOR_MASK; + } + // Initialize the pointer to the buffer, the buffer size + l1s.melody0.ptr_buf = l1a_l1s_com.melody0_task.parameters.ptr_buf; + l1s.melody0.buffer_size = l1a_l1s_com.melody0_task.parameters.buffer_size; + + // Download the header of the first description of the melody + l1s.melody0.error_id = copy_data_from_buffer (l1a_l1s_com.melody0_task.parameters.session_id, + &l1s.melody0.buffer_size, + (UWORD16 **)&l1s.melody0.ptr_buf, + 1, + &l1s.melody0.melody_header); + + // Initialize the counter with the first offset time: + l1s.melody0.counter = ( ( Field(l1s.melody0.melody_header, SC_MELO_TIME_OFFSET_MASK, SC_MELO_TIME_OFFSET_SHIFT) ) * SC_MELO_DOWNLOAD_TIME_UNIT ) - 1; + + // Enable the oscillator used + l1s_dsp_com.dsp_ndb_ptr->d_melo_osc_used |= l1a_l1s_com.melody0_task.parameters.oscillator_used_bitmap; + + // Start the DSP melody task + #if ((DSP==33) || (DSP == 34) || (DSP==35) || (DSP==36) || (DSP == 37) || (DSP == 38) || (DSP == 39)) + // Linked to E2 melody + // In case of WCP, there is a WCP variable at this address + l1s_dsp_com.dsp_ndb_ptr->d_melody_selection = MELODY_E1_SELECTED; + #endif + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= (B_TONE | B_MELO); + + *state = M0_WAIT_DSP_START; + } + } + break; +#endif // L1_AUDIO_MCU_ONOFF + + case M0_WAIT_DSP_START: + { + // The DSP is started + if ( !(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init & B_TONE) ) + { + // Send the start confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_MELODY0_START_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = M0_WAIT_COUNTER_EQUAL_0; + } + } + break; + + case M0_WAIT_COUNTER_EQUAL_0: + { + // The MMI resquests to stop the current melody 0. + if (l1a_l1s_com.melody0_task.command.stop) + { + // Initialize the oscilators used: + for (i=0; i<SC_NUMBER_OSCILLATOR; i++) + { + if (l1a_l1s_com.melody0_task.parameters.oscillator_used_bitmap & (0x1<<i)) + *(l1s.melody0.oscillator[i]) = SC_END_OSCILLATOR_MASK; + } + + // Disable the loopback + l1a_l1s_com.melody0_task.parameters.loopback = FALSE; + + // Disable the stop command + l1a_l1s_com.melody0_task.command.stop = FALSE; + + *state = M0_WAIT_END_MELO; + } + else + { + // Decrease the download coundter + l1s.melody0.counter--; + + // The description must be downloaded. + if (l1s.melody0.counter == 0) + { + // Set the oscillator used in the following description + l1s.melody0.oscillator_used_in_desc = Field(l1s.melody0.melody_header, SC_MELO_OSCILLATOR_USED_MASK, SC_MELO_OSCILLATOR_USED_SHIFT); + l1s.melody0.oscillator_started = 0; + + // Download the new description + for (i=0; i<SC_NUMBER_OSCILLATOR; i++) + { + if (Field(l1s.melody0.oscillator_used_in_desc, (0x01<<i), i)) + { + // This oscillator description must be used. + if (l1a_l1s_com.melody0_task.parameters.melody_to_oscillator[i] != SC_NUMBER_OSCILLATOR) + { + osc_used = l1s.melody0.oscillator[l1a_l1s_com.melody0_task.parameters.melody_to_oscillator[i]]; + l1s.melody0.oscillator_started |= (0x01<<(l1a_l1s_com.melody0_task.parameters.melody_to_oscillator[i])); + } + else + // The oscillator description isn't used and put to the "trash" + { + osc_used = trash; + } + + // Download the two first words of the oscillator description + l1s.melody0.error_id = copy_data_from_buffer (l1a_l1s_com.melody0_task.parameters.session_id, + &l1s.melody0.buffer_size, + (UWORD16 **)&l1s.melody0.ptr_buf, + 2, + osc_used); + + load_size = 0; + if (Field(*(osc_used+1), SC_MELO_LOAD1_MASK, SC_MELO_LOAD1_SHIFT)) + load_size++; + if (Field(*(osc_used+1), SC_MELO_LOAD2_MASK, SC_MELO_LOAD2_SHIFT)) + load_size++; + + // Download the next word(s) of the oscillator description + l1s.melody0.error_id = copy_data_from_buffer (l1a_l1s_com.melody0_task.parameters.session_id, + &l1s.melody0.buffer_size, + (UWORD16 **)&l1s.melody0.ptr_buf, + load_size, + osc_used+2); + + // Enable this new description + *osc_used |= 1; + } + } + + *state = M0_WAIT_DESCRIPTION_START; + } + } + } + break; + + case M0_WAIT_DESCRIPTION_START: + { + + // The new description is started or no oscillator of the description was allocated. + if ((l1s.melody0.oscillator_started & l1s_dsp_com.dsp_ndb_ptr->d_melo_osc_active) || + (l1s.melody0.oscillator_started == 0) ) + { + // Download the header of the next description of the melody + l1s.melody0.error_id = copy_data_from_buffer (l1a_l1s_com.melody0_task.parameters.session_id, + &l1s.melody0.buffer_size, + (UWORD16 **)&l1s.melody0.ptr_buf, + 1, + &l1s.melody0.melody_header); + + // Is it the end of the melody? + if (l1s.melody0.melody_header == 0x0000) + { + *state = M0_WAIT_END_MELO; + // Header is wrong - L1 needs a forcible stop here +#if (CODE_VERSION == SIMULATION) + // l1a_l1s_com.melody1_task.command.stop = TRUE; +#else + l1a_l1s_com.melody1_task.command.stop = TRUE; +#endif + } + else + { + // Initialize the counter with the next offset time: + l1s.melody0.counter = ( ( Field(l1s.melody0.melody_header, SC_MELO_TIME_OFFSET_MASK, SC_MELO_TIME_OFFSET_SHIFT) ) * SC_MELO_DOWNLOAD_TIME_UNIT ) - 1; + + *state = M0_WAIT_COUNTER_EQUAL_0; + } + } + } + break; + + case M0_WAIT_END_MELO: + { + if (l1a_l1s_com.melody0_task.command.stop) + { + // Initialize the oscillators used: + for (i=0; i<SC_NUMBER_OSCILLATOR; i++) + { + if (l1a_l1s_com.melody0_task.parameters.oscillator_used_bitmap & (0x1<<i)) + *(l1s.melody0.oscillator[i]) = SC_END_OSCILLATOR_MASK; + } + + // Disable the loopback + l1a_l1s_com.melody0_task.parameters.loopback = FALSE; + + // Disable the stop command + l1a_l1s_com.melody0_task.command.stop = FALSE; + + *state = M0_WAIT_END_MELO; + } + else + // All oscillators used are stopped. + if (!( l1a_l1s_com.melody0_task.parameters.oscillator_used_bitmap & l1s_dsp_com.dsp_ndb_ptr->d_melo_osc_active)) + { + // The melody is in loopback mode? + if (l1a_l1s_com.melody0_task.parameters.loopback) + { + // Reset the buffer description + #if (OP_RIV_AUDIO == 0) + l1s.melody0.ptr_buf = NULL; + #endif + l1s.melody0.buffer_size = 0; + l1s.melody0.error_id = Cust_get_pointer((UWORD16 **)&l1s.melody0.ptr_buf, + &l1s.melody0.buffer_size, + l1a_l1s_com.melody0_task.parameters.session_id); + + // Download the 2 first words of the melody + l1s.melody0.error_id = copy_data_from_buffer (l1a_l1s_com.melody0_task.parameters.session_id, + &l1s.melody0.buffer_size, + (UWORD16 **)&l1s.melody0.ptr_buf, + 2, + (UWORD16 *)&melo_header); + + // Save the header of the first melody score description + l1s.melody0.melody_header = melo_header[1]; + + // Initialize the counter with the first offset time: + l1s.melody0.counter = ( ( Field(l1s.melody0.melody_header, SC_MELO_TIME_OFFSET_MASK, SC_MELO_TIME_OFFSET_SHIFT) ) * SC_MELO_DOWNLOAD_TIME_UNIT ) - 1; + + *state = M0_WAIT_COUNTER_EQUAL_0; + } + else + { + // Disable the oscillator dedicated to this melody + l1s_dsp_com.dsp_ndb_ptr->d_melo_osc_used &= ~(l1a_l1s_com.melody0_task.parameters.oscillator_used_bitmap); + + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request--; +#endif + + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_MELODY0_STOP_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = M0_INACTIVE; + } + } + } + break; + } // switch + } + + /*-------------------------------------------------------*/ + /* l1s_melody1_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Melody 1 L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_melody1_manager(void) + { + enum states + { + M1_INACTIVE = 0, +#if (L1_AUDIO_MCU_ONOFF == 1) + M1_WAIT_AUDIO_START = 1, +#endif + M1_WAIT_DSP_START = 2, + M1_WAIT_COUNTER_EQUAL_0 = 3, + M1_WAIT_DESCRIPTION_START = 4, + M1_WAIT_END_MELO = 5 + }; + + UWORD8 *state = &l1s.audio_state[L1S_MELODY1_STATE]; + xSignalHeaderRec *conf_msg; + UWORD8 i, load_size; + UWORD16 melo_header[2], trash[4]; + API *osc_used; + + switch(*state) + { + case M1_INACTIVE: + { +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request++; + *state = M1_WAIT_AUDIO_START; +#else + // Initialize the oscilators used: + for (i=0; i<SC_NUMBER_OSCILLATOR; i++) + { + if (l1a_l1s_com.melody1_task.parameters.oscillator_used_bitmap & (0x1<<i)) + *(l1s.melody1.oscillator[i]) = SC_END_OSCILLATOR_MASK; + } + // Initialize the pointer to the buffer, the buffer size + l1s.melody1.ptr_buf = l1a_l1s_com.melody1_task.parameters.ptr_buf; + l1s.melody1.buffer_size = l1a_l1s_com.melody1_task.parameters.buffer_size; + + // Download the header of the first description of the melody + l1s.melody1.error_id = copy_data_from_buffer (l1a_l1s_com.melody1_task.parameters.session_id, + &l1s.melody1.buffer_size, + (UWORD16 **)&l1s.melody1.ptr_buf, + 1, + &l1s.melody1.melody_header); + + // Initialize the counter with the first offset time: + l1s.melody1.counter = ( ( Field(l1s.melody1.melody_header, SC_MELO_TIME_OFFSET_MASK, SC_MELO_TIME_OFFSET_SHIFT) ) * SC_MELO_DOWNLOAD_TIME_UNIT ) - 1; + + // Enable the oscillator used + l1s_dsp_com.dsp_ndb_ptr->d_melo_osc_used |= l1a_l1s_com.melody1_task.parameters.oscillator_used_bitmap; + + // Start the DSP melody task + #if ((DSP==33) || (DSP == 34) || (DSP==35) || (DSP==36) || (DSP == 37) || (DSP == 38) || (DSP == 39)) + // Linked to E2 melody + // In case of WCP, there is a WCP variable at this address + l1s_dsp_com.dsp_ndb_ptr->d_melody_selection = MELODY_E1_SELECTED; + #endif + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= (B_TONE | B_MELO); + + *state = M1_WAIT_DSP_START; +#endif + } + break; +#if (L1_AUDIO_MCU_ONOFF == 1) + case M1_WAIT_AUDIO_START: + { + if((l1s.audio_state[L1S_AUDIO_DL_ONOFF_STATE] == L1_AUDIO_DL_ON)) + { + // Initialize the oscilators used: + for (i=0; i<SC_NUMBER_OSCILLATOR; i++) + { + if (l1a_l1s_com.melody1_task.parameters.oscillator_used_bitmap & (0x1<<i)) + *(l1s.melody1.oscillator[i]) = SC_END_OSCILLATOR_MASK; + } + // Initialize the pointer to the buffer, the buffer size + l1s.melody1.ptr_buf = l1a_l1s_com.melody1_task.parameters.ptr_buf; + l1s.melody1.buffer_size = l1a_l1s_com.melody1_task.parameters.buffer_size; + + // Download the header of the first description of the melody + l1s.melody1.error_id = copy_data_from_buffer (l1a_l1s_com.melody1_task.parameters.session_id, + &l1s.melody1.buffer_size, + (UWORD16 **)&l1s.melody1.ptr_buf, + 1, + &l1s.melody1.melody_header); + + // Initialize the counter with the first offset time: + l1s.melody1.counter = ( ( Field(l1s.melody1.melody_header, SC_MELO_TIME_OFFSET_MASK, SC_MELO_TIME_OFFSET_SHIFT) ) * SC_MELO_DOWNLOAD_TIME_UNIT ) - 1; + + // Enable the oscillator used + l1s_dsp_com.dsp_ndb_ptr->d_melo_osc_used |= l1a_l1s_com.melody1_task.parameters.oscillator_used_bitmap; + + // Start the DSP melody task + #if ((DSP==33) || (DSP == 34) || (DSP==35) || (DSP==36) || (DSP == 37) || (DSP == 38) || (DSP == 39)) + // Linked to E2 melody + // In case of WCP, there is a WCP variable at this address + l1s_dsp_com.dsp_ndb_ptr->d_melody_selection = MELODY_E1_SELECTED; + #endif + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= (B_TONE | B_MELO); + + *state = M1_WAIT_DSP_START; + } + } + break; +#endif // L1_AUDIO_MCU_ONOFF + + case M1_WAIT_DSP_START: + { + // The DSP is started + if ( !(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init & B_TONE) ) + { + // Send the start confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_MELODY1_START_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = M1_WAIT_COUNTER_EQUAL_0; + } + } + break; + + case M1_WAIT_COUNTER_EQUAL_0: + { + // The MMI resquests to stop the current melody 1. + if (l1a_l1s_com.melody1_task.command.stop) + { + // Initialize the oscilators used: + for (i=0; i<SC_NUMBER_OSCILLATOR; i++) + { + if (l1a_l1s_com.melody1_task.parameters.oscillator_used_bitmap & (0x1<<i)) + *(l1s.melody1.oscillator[i]) = SC_END_OSCILLATOR_MASK; + } + + // Disable the loopback + l1a_l1s_com.melody1_task.parameters.loopback = FALSE; + + // Disable the stop command + l1a_l1s_com.melody1_task.command.stop = FALSE; + + *state = M1_WAIT_END_MELO; + } + else + { + // Decrease the download coundter + l1s.melody1.counter--; + + // The description must be downloaded. + if (l1s.melody1.counter == 0) + { + // Set the oscillator used in the following description + l1s.melody1.oscillator_used_in_desc = Field(l1s.melody1.melody_header, SC_MELO_OSCILLATOR_USED_MASK, SC_MELO_OSCILLATOR_USED_SHIFT); + l1s.melody1.oscillator_started = 0; + + // Download the new description + for (i=0; i<SC_NUMBER_OSCILLATOR; i++) + { + if (Field(l1s.melody1.oscillator_used_in_desc, (0x01<<i), i)) + { + // This oscillator description must be used. + if (l1a_l1s_com.melody1_task.parameters.melody_to_oscillator[i] != SC_NUMBER_OSCILLATOR) + { + osc_used = l1s.melody1.oscillator[l1a_l1s_com.melody1_task.parameters.melody_to_oscillator[i]]; + l1s.melody1.oscillator_started |= (0x01<<(l1a_l1s_com.melody1_task.parameters.melody_to_oscillator[i])); + } + else + // The oscillator description isn't used and put to the "trash" + { + osc_used = trash; + } + + // Download the two first words of the oscillator description + l1s.melody1.error_id = copy_data_from_buffer (l1a_l1s_com.melody1_task.parameters.session_id, + &l1s.melody1.buffer_size, + (UWORD16 **)&l1s.melody1.ptr_buf, + 2, + osc_used); + + load_size = 0; + if (Field(*(osc_used+1), SC_MELO_LOAD1_MASK, SC_MELO_LOAD1_SHIFT)) + load_size++; + if (Field(*(osc_used+1), SC_MELO_LOAD2_MASK, SC_MELO_LOAD2_SHIFT)) + load_size++; + + // Download the next word(s) of the oscillator description + l1s.melody1.error_id = copy_data_from_buffer (l1a_l1s_com.melody1_task.parameters.session_id, + &l1s.melody1.buffer_size, + (UWORD16 **)&l1s.melody1.ptr_buf, + load_size, + osc_used+2); + + // Enable this new description + *osc_used |= 1; + } + } + + *state = M1_WAIT_DESCRIPTION_START; + } + } + } + break; + + case M1_WAIT_DESCRIPTION_START: + { + // The new description is started or no oscillator of the description was allocated. + if ((l1s.melody1.oscillator_started & l1s_dsp_com.dsp_ndb_ptr->d_melo_osc_active) || + (l1s.melody1.oscillator_started == 0) ) + { + // Download the header of the next description of the melody + l1s.melody1.error_id = copy_data_from_buffer (l1a_l1s_com.melody1_task.parameters.session_id, + &l1s.melody1.buffer_size, + (UWORD16 **)&l1s.melody1.ptr_buf, + 1, + &l1s.melody1.melody_header); + + // Is it the end of the melody? + if (l1s.melody1.melody_header == 0x0000) + { + *state = M1_WAIT_END_MELO; + /* Header is wrong - L1 needs a forcible stop here */ +#if (CODE_VERSION == SIMULATION) + // l1a_l1s_com.melody1_task.command.stop = TRUE; +#else + l1a_l1s_com.melody1_task.command.stop = TRUE; +#endif + + } + else + { + // Initialize the counter with the next offset time: + l1s.melody1.counter = ( ( Field(l1s.melody1.melody_header, SC_MELO_TIME_OFFSET_MASK, SC_MELO_TIME_OFFSET_SHIFT) ) * SC_MELO_DOWNLOAD_TIME_UNIT ) - 1; + + *state = M1_WAIT_COUNTER_EQUAL_0; + } + } + } + break; + + case M1_WAIT_END_MELO: + { + if (l1a_l1s_com.melody1_task.command.stop) + { + // Initialize the oscillators used: + for (i=0; i<SC_NUMBER_OSCILLATOR; i++) + { + if (l1a_l1s_com.melody1_task.parameters.oscillator_used_bitmap & (0x1<<i)) + *(l1s.melody1.oscillator[i]) = SC_END_OSCILLATOR_MASK; + } + + // Disable the loopback + l1a_l1s_com.melody1_task.parameters.loopback = FALSE; + + // Disable the stop command + l1a_l1s_com.melody1_task.command.stop = FALSE; + + *state = M1_WAIT_END_MELO; + } + else + // All oscillators used are stopped. + if (!( l1a_l1s_com.melody1_task.parameters.oscillator_used_bitmap & l1s_dsp_com.dsp_ndb_ptr->d_melo_osc_active)) + { + // The melody is in loopback mode? + if (l1a_l1s_com.melody1_task.parameters.loopback) + { + // Reset the pointer to the buffer + #if (OP_RIV_AUDIO == 0) + l1s.melody1.ptr_buf = NULL; + #endif + l1s.melody1.buffer_size = 0; + l1s.melody1.error_id = Cust_get_pointer((UWORD16 **)&l1s.melody1.ptr_buf, + &l1s.melody1.buffer_size, + l1a_l1s_com.melody1_task.parameters.session_id); + + // Download the 2 first words of the first description of the melody + l1s.melody1.error_id = copy_data_from_buffer (l1a_l1s_com.melody1_task.parameters.session_id, + &l1s.melody1.buffer_size, + (UWORD16 **)&l1s.melody1.ptr_buf, + 2, + (UWORD16 *)&melo_header); + + // Save the header of the first melody score description + l1s.melody1.melody_header = melo_header[1]; + + // Initialize the counter with the first offset time: + l1s.melody1.counter = ( ( Field(l1s.melody1.melody_header, SC_MELO_TIME_OFFSET_MASK, SC_MELO_TIME_OFFSET_SHIFT) ) * SC_MELO_DOWNLOAD_TIME_UNIT ) - 1; + + *state = M1_WAIT_COUNTER_EQUAL_0; + } + else + { + // Disable the oscillator dedicated to this melody + l1s_dsp_com.dsp_ndb_ptr->d_melo_osc_used &= ~(l1a_l1s_com.melody1_task.parameters.oscillator_used_bitmap); +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request--; +#endif + + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_MELODY1_STOP_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = M1_INACTIVE; + } + } + } + break; + } // switch + } + #endif // MELODY_E1 + #if (VOICE_MEMO) + /*-------------------------------------------------------*/ + /* l1s_vm_play_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Voice memo playing L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_vm_play_manager(void) + { + enum states + { + IDLE = 0, +#if (L1_AUDIO_MCU_ONOFF == 1) + WAIT_AUDIO_ON = 1, +#endif + WAIT_DSP_START = 2, + WAIT_DSP_REQUEST = 3, + WAIT_DSP_STOP = 4 + }; + + UWORD8 *state = &l1s.audio_state[L1S_VM_PLAY_STATE]; + xSignalHeaderRec *conf_msg; + UWORD16 sample_header; + + switch(*state) + { + case IDLE: + { +#if (L1_AUDIO_MCU_ONOFF == 1) + // Triton Audio ON/OFF Changes + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request++; + *state = WAIT_AUDIO_ON; +#else + // Initialize the buffer parameters + l1s.voicememo.play.ptr_buf = NULL; + l1s.voicememo.play.buffer_size = 0; + l1s.voicememo.play.error_id = Cust_get_pointer((UWORD16 **)&l1s.voicememo.play.ptr_buf, + &l1s.voicememo.play.buffer_size, + l1a_l1s_com.voicememo_task.play.parameters.session_id); + + // Start the voice memo playing DSP task + #if ((DSP == 34) || (DSP == 35) || (DSP == 36) || (DSP == 37) || (DSP == 38) || (DSP == 39)) + // use TCH/FS vocoder + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode &= ~(B_VM_VOCODER_SELECT); + #endif + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_PLAY_START; + + // Determine which a_du buffer is currently used + l1s.voicememo.play.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_1; + if (l1a_l1s_com.dedic_set.aset != NULL) + { + if ( (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->channel_type == TCH_H) && + (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->subchannel == 1) ) + l1s.voicememo.play.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_0; + } + + // Download the header of the new speech sample + l1s.voicememo.play.error_id = copy_data_from_buffer (l1a_l1s_com.voicememo_task.play.parameters.session_id, + &l1s.voicememo.play.buffer_size, + (UWORD16 **)&l1s.voicememo.play.ptr_buf, + 1, + &sample_header); + + // Download the data to the a_du_x buffer if the sample isn't a noise sample. + if (sample_header & B_VM_SPEECH) + { + l1s.voicememo.play.error_id = copy_data_from_buffer (l1a_l1s_com.voicememo_task.play.parameters.session_id, + &l1s.voicememo.play.buffer_size, + (UWORD16 **)&l1s.voicememo.play.ptr_buf, + SC_VM_SPEECH_SAMPLE-1, + l1s.voicememo.play.a_du_x+1); + } + // Send the header to the DSP + *l1s.voicememo.play.a_du_x = sample_header; + + *state = WAIT_DSP_START; +#endif // L1_AUDIO_MCU_ONOFF + } + break; +#if (L1_AUDIO_MCU_ONOFF == 1) + case WAIT_AUDIO_ON: + { + // Triton Audio ON/OFF Changes + if((l1s.audio_state[L1S_AUDIO_DL_ONOFF_STATE] == L1_AUDIO_DL_ON)) + { + // Initialize the buffer parameters + l1s.voicememo.play.ptr_buf = NULL; + l1s.voicememo.play.buffer_size = 0; + l1s.voicememo.play.error_id = Cust_get_pointer((UWORD16 **)&l1s.voicememo.play.ptr_buf, + &l1s.voicememo.play.buffer_size, + l1a_l1s_com.voicememo_task.play.parameters.session_id); + + // Start the voice memo playing DSP task + #if (DSP == 34) || (DSP == 35) || (DSP == 36) || (DSP == 37) || (DSP == 38) || (DSP == 39) + // use TCH/FS vocoder + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode &= ~(B_VM_VOCODER_SELECT); + #endif + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_PLAY_START; + + // Determine which a_du buffer is currently used + l1s.voicememo.play.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_1; + if (l1a_l1s_com.dedic_set.aset != NULL) + { + if ( (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->channel_type == TCH_H) && + (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->subchannel == 1) ) + l1s.voicememo.play.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_0; + } + + // Download the header of the new speech sample + l1s.voicememo.play.error_id = copy_data_from_buffer (l1a_l1s_com.voicememo_task.play.parameters.session_id, + &l1s.voicememo.play.buffer_size, + (UWORD16 **)&l1s.voicememo.play.ptr_buf, + 1, + &sample_header); + + // Download the data to the a_du_x buffer if the sample isn't a noise sample. + if (sample_header & B_VM_SPEECH) + { + l1s.voicememo.play.error_id = copy_data_from_buffer (l1a_l1s_com.voicememo_task.play.parameters.session_id, + &l1s.voicememo.play.buffer_size, + (UWORD16 **)&l1s.voicememo.play.ptr_buf, + SC_VM_SPEECH_SAMPLE-1, + l1s.voicememo.play.a_du_x+1); + } + // Send the header to the DSP + *l1s.voicememo.play.a_du_x = sample_header; + + *state = WAIT_DSP_START; + } + } + break; +#endif // L1_AUDIO_MCU_ONOFF + + case WAIT_DSP_START: + { + // The DSP task is started + if (l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_VM_PLAY_ON_GOING) + { + // Send the start confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_VM_PLAY_START_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = WAIT_DSP_REQUEST; + } + } + break; + + case WAIT_DSP_REQUEST: + { + // The MMI requests to stop the voice memorization playing task + if (l1a_l1s_com.voicememo_task.play.command.stop) + { + // Stop the DSP voice memorization playing task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_PLAY_STOP; + + *state = WAIT_DSP_STOP; + } + else + // The DSP needs a new block + { + // Determine which a_du buffer is currently used + l1s.voicememo.play.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_1; + if (l1a_l1s_com.dedic_set.aset != NULL) + { + if ( (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->channel_type == TCH_H) && + (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->subchannel == 1) ) + l1s.voicememo.play.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_0; + } + + if (!(*(l1s.voicememo.play.a_du_x) & B_BLOCK_READY)) + { + // Download the header of the new speech sample + l1s.voicememo.play.error_id = copy_data_from_buffer (l1a_l1s_com.voicememo_task.play.parameters.session_id, + &l1s.voicememo.play.buffer_size, + (UWORD16 **)&l1s.voicememo.play.ptr_buf, + 1, + &sample_header); + + // Is it the end of the voice memo data buffer? + if ( sample_header == SC_VM_END_MASK ) + { + // Stop the DSP voice memorization playing task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_PLAY_STOP; + + *state = WAIT_DSP_STOP; + } + else + { + // Download the data to the a_du_x buffer if the sample isn't a noise sample. + if (sample_header & B_VM_SPEECH) + { + l1s.voicememo.play.error_id = copy_data_from_buffer (l1a_l1s_com.voicememo_task.play.parameters.session_id, + &l1s.voicememo.play.buffer_size, + (UWORD16 **)&l1s.voicememo.play.ptr_buf, + SC_VM_SPEECH_SAMPLE-1, + l1s.voicememo.play.a_du_x+1); + } + // Send the header to the DSP + *l1s.voicememo.play.a_du_x = sample_header; + } + } + } + } + break; + + case WAIT_DSP_STOP: + { + // The DSP voice memorization playing task is stopped + if (!(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_VM_PLAY_ON_GOING)) + { + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request--; +#endif // L1_AUDIO_MCU_ONOFF + + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_VM_PLAY_STOP_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + + /*-------------------------------------------------------*/ + /* l1s_vm_record_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Voice memo recoding L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_vm_record_manager(void) + { + enum states + { + IDLE = 0, +#if (L1_AUDIO_MCU_ONOFF == 1) + WAIT_AUDIO_ON = 1, +#endif // L1_AUDIO_MCU_ONOFF + WAIT_DSP_START = 2, + WAIT_DSP_SAMPLE = 3, + WAIT_DSP_STOP = 4 + }; + + UWORD8 *state = &l1s.audio_state[L1S_VM_RECORD_STATE]; + xSignalHeaderRec *conf_msg; + UWORD8 size; + UWORD16 data; + + switch(*state) + { + case IDLE: + { + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_ul_request++; + *state = WAIT_AUDIO_ON; +#else + // Initialize the buffer parameters + l1s.voicememo.record.ptr_buf = NULL; + l1s.voicememo.record.buffer_size = 0; + l1s.voicememo.record.error_id = Cust_get_pointer((UWORD16 **)&l1s.voicememo.record.ptr_buf, + &l1s.voicememo.record.buffer_size, + l1a_l1s_com.voicememo_task.record.parameters.session_id); + + // Initialize the size of the Voice memo to record + l1s.voicememo.record.recorded_size = 0; + + // Initialize the DTX mode + if (l1a_l1s_com.voicememo_task.record.parameters.dtx) + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode |= B_VOICE_MEMO_DTX; + else + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode &= ~(B_VOICE_MEMO_DTX); + + #if ((DSP == 34) || (DSP == 35) || (DSP == 36) || (DSP == 37) || (DSP == 38) || (DSP == 39)) + // use TCH/FS vocoder + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode &= ~(B_VM_VOCODER_SELECT); + #endif + + // Start the voice memo recording DSP task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_RECORD_START; + + *state = WAIT_DSP_START; + +#endif // L1_AUDIO_MCU_ONOFF + } + break; + +#if (L1_AUDIO_MCU_ONOFF == 1) + case WAIT_AUDIO_ON: + { + // Triton Audio ON/OFF Changes + if((l1s.audio_state[L1S_AUDIO_UL_ONOFF_STATE] == L1_AUDIO_UL_ON)) + { + // Initialize the buffer parameters + l1s.voicememo.record.ptr_buf = NULL; + l1s.voicememo.record.buffer_size = 0; + l1s.voicememo.record.error_id = Cust_get_pointer((UWORD16 **)&l1s.voicememo.record.ptr_buf, + &l1s.voicememo.record.buffer_size, + l1a_l1s_com.voicememo_task.record.parameters.session_id); + + // Initialize the size of the Voice memo to record + l1s.voicememo.record.recorded_size = 0; + + // Initialize the DTX mode + if (l1a_l1s_com.voicememo_task.record.parameters.dtx) + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode |= B_VOICE_MEMO_DTX; + else + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode &= ~(B_VOICE_MEMO_DTX); + + #if (DSP == 34) || (DSP == 35) || (DSP == 36) || (DSP == 37) || (DSP == 38) || (DSP == 39) + // use TCH/FS vocoder + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode &= ~(B_VM_VOCODER_SELECT); + #endif + + // Start the voice memo recording DSP task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_RECORD_START; + + *state = WAIT_DSP_START; + } + } + break; +#endif // L1_AUDIO_MCU_ONOFF + + case WAIT_DSP_START: + { + // The DSP task is started + if (l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_VM_RECORD_ON_GOING) + { + // Send the start confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_VM_RECORD_START_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = WAIT_DSP_SAMPLE; + } + } + break; + + case WAIT_DSP_SAMPLE: + { + // The MMI requests to stop the voice memorization recording task + if (l1a_l1s_com.voicememo_task.record.command.stop) + { + // Write the end mask at the end of the voice data RAM buffer + data = SC_VM_END_MASK; + l1s.voicememo.record.error_id = copy_data_to_buffer (l1a_l1s_com.voicememo_task.record.parameters.session_id, + &l1s.voicememo.record.buffer_size, + (UWORD16 **)&l1s.voicememo.record.ptr_buf, + 1, + &data); + + // Increase the recorded size + l1s.voicememo.record.recorded_size++; + + // Stop the DSP voice memorization playing task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_RECORD_STOP; + + // Clear the a_du_x header: + *(l1s.voicememo.record.a_du_x) = 0; + + *state = WAIT_DSP_STOP; + } + else + // The DSP needs a new block + { + // Determine which a_du buffer is currently used + l1s.voicememo.record.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_1; + if (l1a_l1s_com.dedic_set.aset != NULL) + { + if ( (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->channel_type == TCH_H) && + (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->subchannel == 1) ) + l1s.voicememo.record.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_0; + } + + // The DSP sends a new block? + if ( (*(l1s.voicememo.record.a_du_x)) & B_BLOCK_READY ) + { + // Check if the block contains a sample of noise or speech + if ( (*(l1s.voicememo.record.a_du_x)) & B_VM_SPEECH ) + size = SC_VM_SPEECH_SAMPLE; + else + size = SC_VM_NOISE_SAMPLE; + + // The maximum allocated size is reached? + if ( (l1s.voicememo.record.recorded_size+size+1) <= l1a_l1s_com.voicememo_task.record.parameters.maximum_size) + { + // Download the data to the a_du_x buffer. + l1s.voicememo.record.error_id = copy_data_to_buffer (l1a_l1s_com.voicememo_task.record.parameters.session_id, + &l1s.voicememo.record.buffer_size, + (UWORD16 **)&l1s.voicememo.record.ptr_buf, + size, + l1s.voicememo.record.a_du_x); + + // Increase the recorded size + l1s.voicememo.record.recorded_size += size; + + // Clear the a_du_x header: + *(l1s.voicememo.record.a_du_x) = 0; + } + else + { + // Write the end mask at the end of the voice data RAM buffer + data = SC_VM_END_MASK; + l1s.voicememo.record.error_id = copy_data_to_buffer (l1a_l1s_com.voicememo_task.record.parameters.session_id, + &l1s.voicememo.record.buffer_size, + (UWORD16 **)&l1s.voicememo.record.ptr_buf, + 1, + &data); + + // Increase the recorded size + l1s.voicememo.record.recorded_size++; + + // Stop the DSP voice memorization playing task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_RECORD_STOP; + + // Clear the a_du_x header: + *(l1s.voicememo.record.a_du_x) = 0; + + *state = WAIT_DSP_STOP; + } + } + } + } + break; + + case WAIT_DSP_STOP: + { + // The DSP voice memorization playing task is stopped + if (!(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_VM_RECORD_ON_GOING)) + { + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_ul_request--; +#endif // L1_AUDIO_MCU_ONOFF + + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(sizeof(T_L1_VM_RECORD_CON)); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_VM_RECORD_STOP_CON; + //Fill the message + ((T_L1_VM_RECORD_CON *)(conf_msg->SigP))->recorded_size = l1s.voicememo.record.recorded_size; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + + /*-------------------------------------------------------*/ + /* l1s_tone_ul_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : tone uplink L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_tone_ul_manager(void) + { + enum states + { + IDLE = 0, +#if (L1_AUDIO_MCU_ONOFF == 1) + WAIT_AUDIO_ON = 1, +#endif + WAIT_DEDIC_SPEECH_MODE = 2, + WAIT_TONE_UL_START = 3, + WAIT_TONE_UL_STOP = 4 + }; + + UWORD8 *state = &l1s.audio_state[L1S_TONE_UL_STATE]; + + switch(*state) + { + case IDLE: + { +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request++; + *state = WAIT_AUDIO_ON; +#else + // Start the tone uplink task + if (l1a_l1s_com.voicememo_task.record.tone_ul.start) + { + // Set the tone uplink option: + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_TONE_UL; + } + + *state = WAIT_DEDIC_SPEECH_MODE; +#endif + } + break; + +#if (L1_AUDIO_MCU_ONOFF == 1) + case WAIT_AUDIO_ON: + { + if((l1s.audio_state[L1S_AUDIO_DL_ONOFF_STATE] == L1_AUDIO_DL_ON)) + { + // Start the tone uplink task + if (l1a_l1s_com.voicememo_task.record.tone_ul.start) + { + // Set the tone uplink option: + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_TONE_UL; + } + + *state = WAIT_DEDIC_SPEECH_MODE; + } + } + break; +#endif // (L1_AUDIO_MCU_ONOFF == 1) + + case WAIT_DEDIC_SPEECH_MODE: + { + // The voice memorization task is stopping: + if (!(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init & B_VM_TONE_UL)) + { + // Reset the start command + l1a_l1s_com.voicememo_task.record.tone_ul.start = FALSE; +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request--; +#endif // L1_AUDIO_MCU_ONOFF + *state = IDLE; + } + else + // Dedicated mode speech start? + if (l1a_l1s_com.dedic_set.aset != NULL) + { + #if (AMR == 1) + if ( (l1a_l1s_com.dedic_set.aset->achan_ptr->mode == TCH_HS_MODE) || + (l1a_l1s_com.dedic_set.aset->achan_ptr->mode == TCH_EFR_MODE) || + (l1a_l1s_com.dedic_set.aset->achan_ptr->mode == TCH_FS_MODE) || + (l1a_l1s_com.dedic_set.aset->achan_ptr->mode == TCH_AFS_MODE) || + (l1a_l1s_com.dedic_set.aset->achan_ptr->mode == TCH_AHS_MODE) ) + #else + if ( (l1a_l1s_com.dedic_set.aset->achan_ptr->mode == TCH_HS_MODE) || + (l1a_l1s_com.dedic_set.aset->achan_ptr->mode == TCH_EFR_MODE) || + (l1a_l1s_com.dedic_set.aset->achan_ptr->mode == TCH_FS_MODE) ) + #endif + { + + // Start the tone uplink DSP task + #if ((DSP==33) || (DSP == 34) || (DSP==35) || (DSP==36) || (DSP == 37) || (DSP == 38) || (DSP == 39)) + // Linked to E2 melody + // In case of WCP, there is a WCP variable at this address + l1s_dsp_com.dsp_ndb_ptr->d_melody_selection = NO_MELODY_SELECTED; + #endif + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init &= ~(B_MELO); + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_TONE; + + *state = WAIT_TONE_UL_START; + } + } + } + break; + + case WAIT_TONE_UL_START: + { + // the tone uplink task is started + if (l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_TONE) + { + *state = WAIT_TONE_UL_STOP; + } + } + break; + + case WAIT_TONE_UL_STOP: + { + // The voice memorization task is stopping: + if (!(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init & B_VM_TONE_UL)) + { + // Stop the tone uplink task: + l1s_dsp_com.dsp_ndb_ptr->d_pe_rep = 0; + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_TONE; +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request--; +#endif // L1_AUDIO_MCU_ONOFF + *state = IDLE; + } + else + // The tone uplink task is stopped + if (!(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_TONE)) + { +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request--; +#endif // L1_AUDIO_MCU_ONOFF + *state = IDLE; + } + } + break; + } // switch + } + + #endif // VOICE_MEMO + + #if (L1_PCM_EXTRACTION) + /*-------------------------------------------------------*/ + /* l1s_pcm_download_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : PCM download L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_pcm_download_manager(void) + { + enum states + { + IDLE = 0, +#if (L1_AUDIO_MCU_ONOFF == 1) + WAIT_AUDIO_ON = 1, +#endif + WAIT_DSP_START = 2, + WAIT_DSP_REQUEST = 3, + WAIT_DSP_STOP = 4 + }; + + UWORD8 *state = &l1s.audio_state[L1S_PCM_DOWNLOAD_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { +#if (L1_AUDIO_MCU_ONOFF == 1) + // Triton Audio ON/OFF Changes + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request++; + *state = WAIT_AUDIO_ON; +#else + // Initialize the buffer parameters + l1s.pcm.download.ptr_buf = NULL; + l1s.pcm.download.buffer_size = 0; + l1s.pcm.download.error_id = Cust_get_pointer((UWORD16 **)&l1s.pcm.download.ptr_buf, + &l1s.pcm.download.buffer_size, + l1a_l1s_com.pcm_task.download.parameters.session_id); + + // Download the PCM samples + l1s.pcm.download.error_id = copy_data_from_buffer (l1a_l1s_com.pcm_task.download.parameters.session_id, + &l1s.pcm.download.buffer_size, + (UWORD16 **)&l1s.pcm.download.ptr_buf, + SC_PCM_DOWNLOAD_SAMPLE, + l1s_dsp_com.dsp_ndb_ptr->a_pcm_api_download); + + // Increase the downloaded size of PCM samples + l1s.pcm.download.downloaded_size = SC_PCM_DOWNLOAD_SAMPLE; + + l1s_dsp_com.dsp_ndb_ptr->d_pcm_api_download |= (B_PCM_DOWNLOAD_READY); + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_PCM_DOWNLOAD_START; + + *state = WAIT_DSP_START; +#endif // L1_AUDIO_MCU_ONOFF + } + break; + +#if (L1_AUDIO_MCU_ONOFF == 1) + case WAIT_AUDIO_ON: + { + // Triton Audio ON/OFF Changes + if((l1s.audio_state[L1S_AUDIO_DL_ONOFF_STATE] == L1_AUDIO_DL_ON)) + { + // Initialize the buffer parameters + l1s.pcm.download.ptr_buf = NULL; + l1s.pcm.download.buffer_size = 0; + l1s.pcm.download.error_id = Cust_get_pointer((UWORD16 **)&l1s.pcm.download.ptr_buf, + &l1s.pcm.download.buffer_size, + l1a_l1s_com.pcm_task.download.parameters.session_id); + + // Download the PCM samples + l1s.pcm.download.error_id = copy_data_from_buffer (l1a_l1s_com.pcm_task.download.parameters.session_id, + &l1s.pcm.download.buffer_size, + (UWORD16 **)&l1s.pcm.download.ptr_buf, + SC_PCM_DOWNLOAD_SAMPLE, + l1s_dsp_com.dsp_ndb_ptr->a_pcm_api_download); + + // Increase the downloaded size of PCM samples + l1s.pcm.download.downloaded_size = SC_PCM_DOWNLOAD_SAMPLE; + + l1s_dsp_com.dsp_ndb_ptr->d_pcm_api_download |= (B_PCM_DOWNLOAD_READY); + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_PCM_DOWNLOAD_START; + + *state = WAIT_DSP_START; + } + } + break; +#endif // L1_AUDIO_MCU_ONOFF + + + case WAIT_DSP_START: + { + // The DSP task is started + if (l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_PCM_DOWNLOAD_ON_GOING) + { + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_PCM_DOWNLOAD_START_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = WAIT_DSP_REQUEST; + } + } + break; + + case WAIT_DSP_REQUEST: + { + if (l1a_l1s_com.pcm_task.download.command.stop) + { + // Stop the DSP PCM playing task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_PCM_DOWNLOAD_STOP; + l1s_dsp_com.dsp_ndb_ptr->d_pcm_api_download = 0; + *state = WAIT_DSP_STOP; + } + else + { + // B_PCM_DOWNLOAD_READY is reset if DSP is ready to get new sample + if (!(l1s_dsp_com.dsp_ndb_ptr->d_pcm_api_download & B_PCM_DOWNLOAD_READY)) + { + + if(l1s_dsp_com.dsp_ndb_ptr->d_pcm_api_error & B_PCM_DOWNLOAD_ERROR) + { + #if (TRACE_TYPE==1) || (TRACE_TYPE==4) + l1_trace_PCM_DSP_error(); + #endif + } /* end if DSP error check - underflow */ + + if ((l1s.pcm.download.downloaded_size + SC_PCM_DOWNLOAD_SAMPLE) <= + l1a_l1s_com.pcm_task.download.parameters.maximum_size) + { + + // Download the data to the a_pcm_api_download buffer + l1s.pcm.download.error_id = copy_data_from_buffer (l1a_l1s_com.pcm_task.download.parameters.session_id, + &l1s.pcm.download.buffer_size, + (UWORD16 **)&l1s.pcm.download.ptr_buf, + SC_PCM_DOWNLOAD_SAMPLE, + l1s_dsp_com.dsp_ndb_ptr->a_pcm_api_download); + // Increase the downloaded size + l1s.pcm.download.downloaded_size += SC_PCM_DOWNLOAD_SAMPLE; + + l1s_dsp_com.dsp_ndb_ptr->d_pcm_api_download |= (B_PCM_DOWNLOAD_READY); + } /* end if download speech sample*/ + else + { + // Stop the DSP PCM playing task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_PCM_DOWNLOAD_STOP; + l1s_dsp_com.dsp_ndb_ptr->d_pcm_api_download = 0; + *state = WAIT_DSP_STOP; + } /* end else - download buffer size reached */ + } /* end if DSP requested new block */ + } /* end else not download task stop command */ + } + break; + + case WAIT_DSP_STOP: + { + if (!(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_PCM_DOWNLOAD_ON_GOING)) + { + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request--; +#endif // L1_AUDIO_MCU_ONOFF + + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_PCM_DOWNLOAD_STOP_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + + /*-------------------------------------------------------*/ + /* l1s_pcm_upload_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : PCM uploading manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_pcm_upload_manager(void) + { + enum states + { + IDLE = 0, +#if (L1_AUDIO_MCU_ONOFF == 1) + WAIT_AUDIO_ON = 1, +#endif // L1_AUDIO_MCU_ONOFF + WAIT_DSP_START = 2, + WAIT_DSP_SAMPLE = 3, + WAIT_DSP_STOP = 4 + }; + + UWORD8 *state = &l1s.audio_state[L1S_PCM_UPLOAD_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_ul_request++; + *state = WAIT_AUDIO_ON; +#else + // Initialize the buffer parameters + l1s.pcm.upload.ptr_buf = NULL; + l1s.pcm.upload.buffer_size = 0; + l1s.pcm.upload.error_id = Cust_get_pointer((UWORD16 **)&l1s.pcm.upload.ptr_buf, + &l1s.pcm.upload.buffer_size, + l1a_l1s_com.pcm_task.upload.parameters.session_id); + + // Initialize the size of the PCM upload + l1s.pcm.upload.uploaded_size = 0; + + // Start the PCM recording DSP task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_PCM_UPLOAD_START; + + *state = WAIT_DSP_START; +#endif // L1_AUDIO_MCU_ONOFF + } + break; + +#if (L1_AUDIO_MCU_ONOFF == 1) + case WAIT_AUDIO_ON: + { + // Triton Audio ON/OFF Changes + if((l1s.audio_state[L1S_AUDIO_UL_ONOFF_STATE] == L1_AUDIO_UL_ON)) + { + // Initialize the buffer parameters + l1s.pcm.upload.ptr_buf = NULL; + l1s.pcm.upload.buffer_size = 0; + l1s.pcm.upload.error_id = Cust_get_pointer((UWORD16 **)&l1s.pcm.upload.ptr_buf, + &l1s.pcm.upload.buffer_size, + l1a_l1s_com.pcm_task.upload.parameters.session_id); + + // Initialize the size of the PCM upload + l1s.pcm.upload.uploaded_size = 0; + + // Start the PCM recording DSP task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_PCM_UPLOAD_START; + + *state = WAIT_DSP_START; + } + } + break; +#endif // L1_AUDIO_MCU_ONOFF + + + case WAIT_DSP_START: + { + // The DSP task is started + if (l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_PCM_UPLOAD_ON_GOING) + { + // Send the start confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_PCM_UPLOAD_START_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = WAIT_DSP_SAMPLE; + } + } + break; + + case WAIT_DSP_SAMPLE: + { + // The MMI requests to stop the PCM recording task + if (l1a_l1s_com.pcm_task.upload.command.stop) + { + // Stop the DSP PCM recording task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_PCM_UPLOAD_STOP; + l1s_dsp_com.dsp_ndb_ptr->d_pcm_api_upload = 0; + + *state = WAIT_DSP_STOP; + } + else + // The DSP needs a new block + { + + // The DSP sends a new block? + if (l1s_dsp_com.dsp_ndb_ptr->d_pcm_api_upload & B_PCM_UPLOAD_READY ) + { + + if(l1s_dsp_com.dsp_ndb_ptr->d_pcm_api_error & B_PCM_UPLOAD_ERROR) + { + #if (TRACE_TYPE==1) || (TRACE_TYPE==4) + l1_trace_PCM_DSP_error(); + #endif + } /* end if DSP error check - overflow */ + + if ((l1s.pcm.upload.uploaded_size + SC_PCM_UPLOAD_SAMPLE) <= l1a_l1s_com.pcm_task.upload.parameters.maximum_size) + { + // Download the data to the a_pcm_api_upload buffer. + + l1s.pcm.upload.error_id = copy_data_to_buffer (l1a_l1s_com.pcm_task.upload.parameters.session_id, + &l1s.pcm.upload.buffer_size, + (UWORD16 **)&l1s.pcm.upload.ptr_buf, + SC_PCM_UPLOAD_SAMPLE, + l1s_dsp_com.dsp_ndb_ptr->a_pcm_api_upload); + + // Increase the recorded size + l1s.pcm.upload.uploaded_size += SC_PCM_UPLOAD_SAMPLE; + + // Clear the d_pcm_api_upload header + l1s_dsp_com.dsp_ndb_ptr->d_pcm_api_upload &= (~B_PCM_UPLOAD_READY); + } + else + { + // Stop the DSP PCM recording task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_PCM_UPLOAD_STOP; + l1s_dsp_com.dsp_ndb_ptr->d_pcm_api_upload = 0; + + *state = WAIT_DSP_STOP; + } /* end else maximum uplaod size reached */ + } /* end if DSP sends a new block */ + } /* end else */ + } + break; + + case WAIT_DSP_STOP: + { + // The DSP PCM upload task is stopped + if (!(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_PCM_UPLOAD_ON_GOING)) + { + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_ul_request--; +#endif // L1_AUDIO_MCU_ONOFF + + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(sizeof(T_L1_PCM_UPLOAD_STOP_CON)); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_PCM_UPLOAD_STOP_CON; + //Fill the message + ((T_L1_PCM_UPLOAD_STOP_CON *)(conf_msg->SigP))->uploaded_size = l1s.pcm.upload.uploaded_size; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + + #endif /* L1_PCM_EXTRACTION */ + + #if (L1_VOICE_MEMO_AMR) + /*-------------------------------------------------------*/ + /* l1s_vm_amr_play_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Voice memo amr playing L1S manager task.*/ + /* */ + /*-------------------------------------------------------*/ + void l1s_vm_amr_play_manager(void) + { + BOOL l1_vm_amr_in_pause=FALSE; + enum states + { + IDLE = 0, +#if (L1_AUDIO_MCU_ONOFF == 1) + WAIT_AUDIO_ON = 1, +#endif + WAIT_DSP_START = 2, + WAIT_DSP_REQUEST = 3, + WAIT_DSP_STOP = 4 + }; + + UWORD8 *state = &l1s.audio_state[L1S_VM_AMR_PLAY_STATE]; + xSignalHeaderRec *conf_msg; + UWORD8 sample_header; + + switch(*state) + { + case IDLE: + { + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request++; + *state = WAIT_AUDIO_ON; +#else + // Initialize the buffer parameters + l1s.voicememo_amr.play.ptr_buf = NULL; + l1s.voicememo_amr.play.buffer_size = 0; + l1s.voicememo_amr.play.error_id = Cust_get_pointer((UWORD16 **)&l1s.voicememo_amr.play.ptr_buf, + &l1s.voicememo_amr.play.buffer_size, + l1a_l1s_com.voicememo_amr_task.play.parameters.session_id); + + // Convert the buffer size in bytes unit because VM AMR is defined in byte unit + l1s.voicememo_amr.play.buffer_size <<= 1; + + // Initialize previous sample parameters in order to create ONSET on first SAMPLE + l1s.voicememo_amr.play.previous_type = SC_VM_AMR_NO_DATA; + l1s.voicememo_amr.play.transition_header = 0; + + // Initialize a_du_x + // Determine which a_du buffer is currently used + l1s.voicememo_amr.play.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_1; + if (l1a_l1s_com.dedic_set.aset != NULL) + { + if ( (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->channel_type == TCH_H) && + (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->subchannel == 1) ) + l1s.voicememo_amr.play.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_0; + } + *(l1s.voicememo_amr.play.a_du_x) = 0; + + // Start the voice memo playing DSP task + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode |= B_VM_VOCODER_SELECT; + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_AMR_PLAY_START; + + *state = WAIT_DSP_START; +#endif // L1_AUDIO_MCU_ONOFF + } + +#if (L1_AUDIO_MCU_ONOFF == 1) + case WAIT_AUDIO_ON: + { + // Triton Audio ON/OFF Changes + if((l1s.audio_state[L1S_AUDIO_DL_ONOFF_STATE] == L1_AUDIO_DL_ON)) + { + // Initialize the buffer parameters + l1s.voicememo_amr.play.ptr_buf = NULL; + l1s.voicememo_amr.play.buffer_size = 0; + l1s.voicememo_amr.play.error_id = Cust_get_pointer((UWORD16 **)&l1s.voicememo_amr.play.ptr_buf, + &l1s.voicememo_amr.play.buffer_size, + l1a_l1s_com.voicememo_amr_task.play.parameters.session_id); + + // Convert the buffer size in bytes unit because VM AMR is defined in byte unit + l1s.voicememo_amr.play.buffer_size <<= 1; + + // Initialize previous sample parameters in order to create ONSET on first SAMPLE + l1s.voicememo_amr.play.previous_type = SC_VM_AMR_NO_DATA; + l1s.voicememo_amr.play.transition_header = 0; + + // Initialize a_du_x + // Determine which a_du buffer is currently used + l1s.voicememo_amr.play.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_1; + if (l1a_l1s_com.dedic_set.aset != NULL) + { + if ( (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->channel_type == TCH_H) && + (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->subchannel == 1) ) + l1s.voicememo_amr.play.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_0; + } + *(l1s.voicememo_amr.play.a_du_x) = 0; + + // Start the voice memo playing DSP task + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode |= B_VM_VOCODER_SELECT; + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_AMR_PLAY_START; + + *state = WAIT_DSP_START; + } + } + break; +#endif // L1_AUDIO_MCU_ONOFF + + case WAIT_DSP_START: + { + // The DSP task is started + if (l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_VM_AMR_PLAY_ON_GOING) + { + // Send the start confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_VM_AMR_PLAY_START_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = WAIT_DSP_REQUEST; + } + } + break; + + case WAIT_DSP_REQUEST: + { + // The MMI requests to stop the voice memorization playing task + if (l1a_l1s_com.voicememo_amr_task.play.command.stop) + { + // Stop the DSP voice memorization playing task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_AMR_PLAY_STOP; + + *state = WAIT_DSP_STOP; + } + else + // The DSP needs a new block ? + { + if (l1a_l1s_com.voicememo_amr_task.play.command.pause) + { + // Stop the DSP voice memorization playing task + *(l1s.voicememo_amr.play.a_du_x) =*(l1s.voicememo_amr.play.a_du_x) | B_BLOCK_READY; + l1_vm_amr_in_pause= TRUE; + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_VM_AMR_PAUSE_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + // *state =WAIT_DSP_REQUEST; + + } + if (l1a_l1s_com.voicememo_amr_task.play.command.resume) + { + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_VM_AMR_RESUME_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + } + // Determine which a_du buffer is currently used + l1s.voicememo_amr.play.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_1; + if (l1a_l1s_com.dedic_set.aset != NULL) + { + if ( (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->channel_type == TCH_H) && + (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->subchannel == 1) ) + l1s.voicememo_amr.play.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_0; + } + + // B_BLOCK_READY is not set if DSP is ready to get new sample + if (!(*(l1s.voicememo_amr.play.a_du_x) & B_BLOCK_READY)) + { + // Issue: transition from not speech sample to speech sample requires creation of transition ONSET sample + storing temporarily speech header + // We use it on next DSP request => when previous sample was ONSET, header must be taken from transition_header + if (l1s.voicememo_amr.play.previous_type == SC_VM_AMR_ONSET) + { + // we use speech header temprarily stored in transition_header + sample_header = l1s.voicememo_amr.play.transition_header; + } + else + { + // Download the header of the new sample + l1s.voicememo_amr.play.error_id = copy_byte_data_from_buffer (l1a_l1s_com.voicememo_amr_task.play.parameters.session_id, + &l1s.voicememo_amr.play.buffer_size, + (UWORD8 **)&l1s.voicememo_amr.play.ptr_buf, + 1, + &sample_header); + } + + // Is it the end of the voice memo data buffer? + if ( sample_header == SC_VM_AMR_END_MASK ) + { + // Stop the DSP voice memorization playing task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_AMR_PLAY_STOP; + + *state = WAIT_DSP_STOP; + } + else + { + UWORD8 temp_header =0; //omaps00090550 + UWORD8 data_size =0; //omaps00090550 + + // Identify AMR sample RX_TX_TYPE + temp_header = sample_header & SC_RX_TX_TYPE_MASK; + switch(temp_header) + { + case SC_VM_AMR_RXTX_SPEECH_GOOD: + case SC_VM_AMR_RXTX_SPEECH_BAD: + { + // Check if previous sample is a non speech sample so we have to create ONSET sample + if ( (l1s.voicememo_amr.play.previous_type == SC_VM_AMR_NOISE)||(l1s.voicememo_amr.play.previous_type == SC_VM_AMR_NO_DATA) ) + { + l1s.voicememo_amr.play.previous_type = SC_VM_AMR_ONSET; + l1s.voicememo_amr.play.transition_header = sample_header; + sample_header = SC_VM_AMR_RXTX_ONSET; + data_size = SC_VM_AMR_ONSET_DATA_SIZE; + } + else + { + l1s.voicememo_amr.play.previous_type = SC_VM_AMR_SPEECH; + + // read channel type to know which vocoder is used (and size of data bits) + temp_header = sample_header & SC_CHAN_TYPE_MASK; + switch(temp_header) + { + case SC_VM_AMR_SPEECH_475: + data_size = SC_VM_AMR_SPEECH_475_DATA_SIZE; + break; + case SC_VM_AMR_SPEECH_515: + data_size = SC_VM_AMR_SPEECH_515_DATA_SIZE; + break; + case SC_VM_AMR_SPEECH_59: + data_size = SC_VM_AMR_SPEECH_59_DATA_SIZE; + break; + case SC_VM_AMR_SPEECH_67: + data_size = SC_VM_AMR_SPEECH_67_DATA_SIZE; + break; + case SC_VM_AMR_SPEECH_74: + data_size = SC_VM_AMR_SPEECH_74_DATA_SIZE; + break; + case SC_VM_AMR_SPEECH_795: + data_size = SC_VM_AMR_SPEECH_795_DATA_SIZE; + break; + case SC_VM_AMR_SPEECH_102: + data_size = SC_VM_AMR_SPEECH_102_DATA_SIZE; + break; + case SC_VM_AMR_SPEECH_122: + data_size = SC_VM_AMR_SPEECH_122_DATA_SIZE; + break; + } // switch(temp_header) + } + } + break; + case SC_VM_AMR_RXTX_SID_FIRST: + data_size = SC_VM_AMR_SID_FIRST_DATA_SIZE; + l1s.voicememo_amr.play.previous_type = SC_VM_AMR_NOISE; + break; + case SC_VM_AMR_RXTX_SID_UPDATE: + data_size = SC_VM_AMR_SID_UPDATE_DATA_SIZE; + l1s.voicememo_amr.play.previous_type = SC_VM_AMR_NOISE; + break; + case SC_VM_AMR_RXTX_SID_BAD: + data_size = SC_VM_AMR_SID_BAD_DATA_SIZE; + l1s.voicememo_amr.play.previous_type = SC_VM_AMR_NOISE; + break; + case SC_VM_AMR_RXTX_NO_DATA: + data_size = SC_VM_AMR_NO_DATA_DATA_SIZE; + l1s.voicememo_amr.play.previous_type = SC_VM_AMR_NO_DATA; + break; + default: + // trace error + break; + } + + // if data_size is 0 (SID_FIRST, NO_DATA and ONSET), nothing to copy + if (data_size > 0) + { + // go beyond the 2 DSP words after the header, which are not used in MMS (so a_du_x + 3 in words) + l1s.voicememo_amr.play.error_id = copy_byte_data_le_from_buffer (l1a_l1s_com.voicememo_amr_task.play.parameters.session_id, + &l1s.voicememo_amr.play.buffer_size, + (UWORD8 **)&l1s.voicememo_amr.play.ptr_buf, + data_size, + l1s.voicememo_amr.play.a_du_x + 3); + } + // Send the header to the DSP + *l1s.voicememo_amr.play.a_du_x = (sample_header | B_BLOCK_READY); + } + } + if(l1_vm_amr_in_pause==TRUE) + { + (*(l1s.voicememo_amr.play.a_du_x) = *(l1s.voicememo_amr.play.a_du_x) & ~B_BLOCK_READY); + l1_vm_amr_in_pause=FALSE; + } + } + } + break; + + case WAIT_DSP_STOP: + { + // The DSP voice memorization playing task is stopped + if (!(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_VM_AMR_PLAY_ON_GOING)) + { + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request--; +#endif // L1_AUDIO_MCU_ONOFF + + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_VM_AMR_PLAY_STOP_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + + /*-------------------------------------------------------*/ + /* l1s_vm_amr_record_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Voice memo amr recoding L1S manager task*/ + /* */ + /*-------------------------------------------------------*/ + void l1s_vm_amr_record_manager(void) + { + enum states + { + IDLE = 0, +#if (L1_AUDIO_MCU_ONOFF == 1) + WAIT_AUDIO_ON = 1, +#endif + WAIT_DSP_START = 2, + WAIT_DSP_SAMPLE = 3, + WAIT_DSP_STOP = 4 + }; + + UWORD8 *state = &l1s.audio_state[L1S_VM_AMR_RECORD_STATE]; + xSignalHeaderRec *conf_msg; + UWORD8 sample_header; + + switch(*state) + { + case IDLE: + { + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_ul_request++; + *state = WAIT_AUDIO_ON; +#else + // Initialize the buffer parameters + l1s.voicememo_amr.record.ptr_buf = NULL; + l1s.voicememo_amr.record.buffer_size = 0; + l1s.voicememo_amr.record.error_id = Cust_get_pointer((UWORD16 **)&l1s.voicememo_amr.record.ptr_buf, + &l1s.voicememo_amr.record.buffer_size, + l1a_l1s_com.voicememo_amr_task.record.parameters.session_id); + + // Convert the buffer size in bytes unit because VM AMR is defined in byte unit + l1s.voicememo_amr.record.buffer_size <<= 1; + + // Initialize the size of the Voice memo to record + l1s.voicememo_amr.record.recorded_size = 0; + + // Initialize the DTX mode + if (l1a_l1s_com.voicememo_amr_task.record.parameters.dtx) + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode |= B_VOICE_MEMO_DTX; + else + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode &= ~(B_VOICE_MEMO_DTX); + + // Select AMR vocoder and specified channel type + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode |= B_VM_VOCODER_SELECT; // AMR voice memo + l1s_dsp_com.dsp_ndb_ptr->d_amms_ul_voc &= ~(SC_CHAN_TYPE_MASK); + l1s_dsp_com.dsp_ndb_ptr->d_amms_ul_voc |= l1a_l1s_com.voicememo_amr_task.record.parameters.amr_vocoder; + + l1s.voicememo_amr.record.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_1; + if (l1a_l1s_com.dedic_set.aset != NULL) + { + if ( (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->channel_type == TCH_H) && + (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->subchannel == 1) ) + l1s.voicememo_amr.record.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_0; + } + *(l1s.voicememo_amr.record.a_du_x) = 0; + + // Start the voice memo recording DSP task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_AMR_RECORD_START; + + *state = WAIT_DSP_START; +#endif // L1_AUDIO_MCU_ONOFF + } + break; + +#if (L1_AUDIO_MCU_ONOFF == 1) + + case WAIT_AUDIO_ON: + { + // Triton Audio ON/OFF Changes + if((l1s.audio_state[L1S_AUDIO_UL_ONOFF_STATE] == L1_AUDIO_UL_ON)) + { + // Initialize the buffer parameters + l1s.voicememo_amr.record.ptr_buf = NULL; + l1s.voicememo_amr.record.buffer_size = 0; + l1s.voicememo_amr.record.error_id = Cust_get_pointer((UWORD16 **)&l1s.voicememo_amr.record.ptr_buf, + &l1s.voicememo_amr.record.buffer_size, + l1a_l1s_com.voicememo_amr_task.record.parameters.session_id); + + // Convert the buffer size in bytes unit because VM AMR is defined in byte unit + l1s.voicememo_amr.record.buffer_size <<= 1; + + // Initialize the size of the Voice memo to record + l1s.voicememo_amr.record.recorded_size = 0; + + // Initialize the DTX mode + if (l1a_l1s_com.voicememo_amr_task.record.parameters.dtx) + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode |= B_VOICE_MEMO_DTX; + else + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode &= ~(B_VOICE_MEMO_DTX); + + // Select AMR vocoder and specified channel type + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode |= B_VM_VOCODER_SELECT; // AMR voice memo + l1s_dsp_com.dsp_ndb_ptr->d_amms_ul_voc &= ~(SC_CHAN_TYPE_MASK); + l1s_dsp_com.dsp_ndb_ptr->d_amms_ul_voc |= l1a_l1s_com.voicememo_amr_task.record.parameters.amr_vocoder; + + l1s.voicememo_amr.record.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_1; + if (l1a_l1s_com.dedic_set.aset != NULL) + { + if ( (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->channel_type == TCH_H) && + (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->subchannel == 1) ) + l1s.voicememo_amr.record.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_0; + } + *(l1s.voicememo_amr.record.a_du_x) = 0; + + // Start the voice memo recording DSP task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_AMR_RECORD_START; + + *state = WAIT_DSP_START; + } + } + break; + +#endif // L1_AUDIO_MCU_ONOFF + + case WAIT_DSP_START: + { + // The DSP task is started + if (l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_VM_AMR_RECORD_ON_GOING) + { + // Send the start confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_VM_AMR_RECORD_START_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = WAIT_DSP_SAMPLE; + } + } // case WAIT_DSP_START: + break; + + case WAIT_DSP_SAMPLE: + { + // The MMI requests to stop the voice memorization recording task + if (l1a_l1s_com.voicememo_amr_task.record.command.stop) + { + // Write the end mask at the end of the voice data RAM buffer + sample_header = SC_VM_AMR_END_MASK; + l1s.voicememo_amr.record.error_id = copy_byte_data_to_buffer (l1a_l1s_com.voicememo_amr_task.record.parameters.session_id, + &l1s.voicememo_amr.record.buffer_size, + (UWORD8 **)&l1s.voicememo_amr.record.ptr_buf, + 1, + &sample_header); + + // Increase the recorded size + l1s.voicememo_amr.record.recorded_size++; + + // Stop the DSP voice memorization playing task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_AMR_RECORD_STOP; + + *state = WAIT_DSP_STOP; + } // if (l1a_l1s_com.voicememo_amr_task.record.command.stop) + else + // The DSP sends a new block ? + { + // Determine which a_du buffer is currently used + l1s.voicememo_amr.record.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_1; + if (l1a_l1s_com.dedic_set.aset != NULL) + { + if ( (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->channel_type == TCH_H) && + (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->subchannel == 1) ) + l1s.voicememo_amr.record.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_0; + } + + // The DSP sends a new block? + if ( (*(l1s.voicememo_amr.record.a_du_x)) & B_BLOCK_READY ) + { + UWORD8 sample_header, temp_header; + UWORD8 data_size=0 ;//omaps00090550; + + // get RX_TYPE to identify frame (SPEECH_GOOD, SID_FIRST, SID_UPDATE, NO_DATA) + sample_header = (*l1s.voicememo_amr.record.a_du_x & 0x00FF); + temp_header = sample_header & SC_RX_TX_TYPE_MASK; + + // Check if the block contains speech or SID or NO_DATA + switch(temp_header) + { + case SC_VM_AMR_RXTX_SPEECH_GOOD: + { + temp_header = sample_header & SC_CHAN_TYPE_MASK; + switch(temp_header) + { + case SC_VM_AMR_SPEECH_475: + data_size = SC_VM_AMR_SPEECH_475_DATA_SIZE; + break; + case SC_VM_AMR_SPEECH_515: + data_size = SC_VM_AMR_SPEECH_515_DATA_SIZE; + break; + case SC_VM_AMR_SPEECH_59: + data_size = SC_VM_AMR_SPEECH_59_DATA_SIZE; + break; + case SC_VM_AMR_SPEECH_67: + data_size = SC_VM_AMR_SPEECH_67_DATA_SIZE; + break; + case SC_VM_AMR_SPEECH_74: + data_size = SC_VM_AMR_SPEECH_74_DATA_SIZE; + break; + case SC_VM_AMR_SPEECH_795: + data_size = SC_VM_AMR_SPEECH_795_DATA_SIZE; + break; + case SC_VM_AMR_SPEECH_102: + data_size = SC_VM_AMR_SPEECH_102_DATA_SIZE; + break; + case SC_VM_AMR_SPEECH_122: + data_size = SC_VM_AMR_SPEECH_122_DATA_SIZE; + break; + } + } // case SC_VM_AMR_RXTX_SPEECH_GOOD: + break; + case SC_VM_AMR_RXTX_SID_FIRST: + data_size = SC_VM_AMR_SID_FIRST_DATA_SIZE; + break; + case SC_VM_AMR_RXTX_SID_UPDATE: + data_size = SC_VM_AMR_SID_UPDATE_DATA_SIZE; + break; + case SC_VM_AMR_RXTX_NO_DATA: + data_size = SC_VM_AMR_NO_DATA_DATA_SIZE; + break; + default: + // trace error + break; + } // switch(temp_header) + + // The maximum allocated size is reached? (need to be able to store header + data + end_mask) + if ( (l1s.voicememo_amr.record.recorded_size+data_size+SC_VM_AMR_HEADER_SIZE+SC_VM_AMR_END_MASK_SIZE) <= l1a_l1s_com.voicememo_amr_task.record.parameters.maximum_size) + { + // Download the header from the a_du_x buffer. + l1s.voicememo_amr.record.error_id = copy_byte_data_to_buffer (l1a_l1s_com.voicememo_amr_task.record.parameters.session_id, + &l1s.voicememo_amr.record.buffer_size, + (UWORD8 **)&l1s.voicememo_amr.record.ptr_buf, + 1, + &sample_header); + + if (data_size > 0) + { + l1s.voicememo_amr.record.error_id = copy_byte_data_le_to_buffer (l1a_l1s_com.voicememo_amr_task.record.parameters.session_id, + &l1s.voicememo_amr.record.buffer_size, + (UWORD8 **)&l1s.voicememo_amr.record.ptr_buf, + data_size, + l1s.voicememo_amr.record.a_du_x + 3); + } + + // Increase the recorded size (header + data_bits) + l1s.voicememo_amr.record.recorded_size += data_size + SC_VM_AMR_HEADER_SIZE; + + // Clear the a_du_x header: + *(l1s.voicememo_amr.record.a_du_x) = 0; + } + else + { + // Write the end mask at the end of the voice data RAM buffer + sample_header = SC_VM_AMR_END_MASK; + l1s.voicememo_amr.record.error_id = copy_byte_data_to_buffer (l1a_l1s_com.voicememo_amr_task.record.parameters.session_id, + &l1s.voicememo_amr.record.buffer_size, + (UWORD8 **)&l1s.voicememo_amr.record.ptr_buf, + 1, + &sample_header); + + // Increase the recorded size + l1s.voicememo_amr.record.recorded_size++; + + // Clear the a_du_x header: + *(l1s.voicememo_amr.record.a_du_x) = 0; + + // Stop the DSP voice memorization playing task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_AMR_RECORD_STOP; + + *state = WAIT_DSP_STOP; + } + } + } // else of if (l1a_l1s_com.voicememo_amr_task.record.command.stop) + } + break; + + case WAIT_DSP_STOP: + { + // The DSP voice memorization playing task is stopped + if (!(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_VM_AMR_RECORD_ON_GOING)) + { + // Triton Audio ON/OFF Changes +#if (L1_AUDIO_MCU_ONOFF == 1) + l1s.audio_on_off_ctl.l1_audio_switch_on_ul_request--; +#endif // L1_AUDIO_MCU_ONOFF + + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(sizeof(T_L1_VM_AMR_RECORD_CON)); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_VM_AMR_RECORD_STOP_CON; + //Fill the message + ((T_L1_VM_AMR_RECORD_CON *)(conf_msg->SigP))->recorded_size = l1s.voicememo_amr.record.recorded_size; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch(*state) + } + + #endif // L1_VOICE_MEMO_AMR + + #if (SPEECH_RECO) + /*-------------------------------------------------------*/ + /* l1s_sr_enroll_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : speech recognition enroll */ + /* L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_sr_enroll_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_START = 1, + WAIT_ACQUISITION_STATUS = 2, + WAIT_DSP_STOP = 3 + }; + + UWORD8 *state = &l1s.audio_state[L1S_SR_ENROLL_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + // Initialize the status register + l1s_dsp_com.dsp_ndb_ptr->d_sr_status = 0; + + // Disable the DSP bit exact test + l1s_dsp_com.dsp_ndb_ptr->d_sr_bit_exact_test &= 0xff80; + + // Initialize the watchdog timer with the time to acquire a word + l1s.speechreco.time_out = SC_SR_AQUISITION_TIME_OUT; + + // Start the DSP enroll task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_ENROLL; + + *state = WAIT_DSP_START; + } + break; + + case WAIT_DSP_START: + { + // The DSP enroll task is started + if (l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_SR_ENROLL_TASK) + { + // Send the start confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_SR_ENROLL_START_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = WAIT_ACQUISITION_STATUS; + } + } + break; + + case WAIT_ACQUISITION_STATUS: + { + // the allowed time isn't out + if (l1s.speechreco.time_out--) + { + // The DSP enroll task ran bad or the MMI stop the enroll task + if ( (l1s_dsp_com.dsp_ndb_ptr->d_sr_status & B_BAD_ACQUISITION) || + (l1a_l1s_com.speechreco_task.command.enroll_stop) ) + { + // Error: bad acquisition + l1s.speechreco.error = SC_BAD_ACQUISITION; + + // Stop the DSP enroll task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_STOP; + + *state = WAIT_DSP_STOP; + } + else + // The DSP enroll task ran good + if (l1s_dsp_com.dsp_ndb_ptr->d_sr_status & B_GOOD_ACQUISITION) + { + // No error + l1s.speechreco.error = SC_NO_ERROR; + + // Stop the DSP enroll task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_STOP; + + *state = WAIT_DSP_STOP; + } + } + else + { + // Error: time is out + l1s.speechreco.error = SC_TIME_OUT; + + // Stop the DSP enroll task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_STOP; + + *state = WAIT_DSP_STOP; + } + } + break; + + case WAIT_DSP_STOP: + { + // The DSP enroll task is stopped + if ( !(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & (B_SR_ENROLL_TASK | B_VM_RECORD_ON_GOING)) ) + { + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(sizeof(T_L1_SR_ENROLL_STOP_CON)); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_SR_ENROLL_STOP_CON; + //Fill the message + ((T_L1_SR_ENROLL_STOP_CON *)(conf_msg->SigP))->error_id = l1s.speechreco.error; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + + /*-------------------------------------------------------*/ + /* l1s_sr_update_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : speech recognition update */ + /* L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_sr_update_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_START = 1, + WAIT_ACQUISITION_STATUS = 2, + WAIT_UPDATE_STATUS = 3, + WAIT_DSP_STOP = 4 + }; + + UWORD8 *state = &l1s.audio_state[L1S_SR_UPDATE_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + // Initialize the status register + l1s_dsp_com.dsp_ndb_ptr->d_sr_status = 0; + + // Disable the DSP bit exact test + l1s_dsp_com.dsp_ndb_ptr->d_sr_bit_exact_test &= 0xff80; + + // Initialize the watchdog timer with the time to acquire a word + l1s.speechreco.time_out = SC_SR_AQUISITION_TIME_OUT; + + // Start the DSP update task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_UPDATE; + + #if (W_A_DSP_SR_BGD) + // Management of DSP tasks in background + if (l1s_dsp_com.dsp_param_ptr->d_gsm_bgd_mgt & B_DSPBGD_UPD) + { + l1s_dsp_com.dsp_ndb_ptr->d_background_enable |= (1 << C_BGD_ALIGN); + } + #endif + + *state = WAIT_DSP_START; + } + break; + + case WAIT_DSP_START: + { + // The DSP update task is started + if (l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_SR_UPDATE_TASK) + { + // Send the start confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_SR_UPDATE_START_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = WAIT_ACQUISITION_STATUS; + } + } + break; + + case WAIT_ACQUISITION_STATUS: + { + // the allowed time isn't out + if (l1s.speechreco.time_out--) + { + // The DSP acquisition task ran bad or the MMI stop the update task + if ( (l1s_dsp_com.dsp_ndb_ptr->d_sr_status & B_BAD_ACQUISITION) || + (l1a_l1s_com.speechreco_task.command.update_stop) ) + { + // Error: bad acquisition + l1s.speechreco.error = SC_BAD_ACQUISITION; + + // Stop the DSP acquisition task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_STOP; + + *state = WAIT_DSP_STOP; + } + else + // The DSP enroll task ran good + if (l1s_dsp_com.dsp_ndb_ptr->d_sr_status & B_GOOD_ACQUISITION) + { + // Initialize the watchdog timer with the time to update a word + l1s.speechreco.time_out = SC_SR_UPDATE_TIME_OUT; + + *state = WAIT_UPDATE_STATUS; + } + } + else + { + // Error: time is out + l1s.speechreco.error = SC_TIME_OUT; + + // Stop the DSP acquisition task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_STOP; + + *state = WAIT_DSP_STOP; + } + } + break; + + + case WAIT_UPDATE_STATUS: + { + // the allowed time isn't out + if (l1s.speechreco.time_out--) + { + // The DSP update task ran bad or the MMI stop the update task + if ( (l1s_dsp_com.dsp_ndb_ptr->d_sr_status & B_BAD_UPDATE) || + (l1a_l1s_com.speechreco_task.command.update_stop) ) + { + // Error: bad update + l1s.speechreco.error = SC_BAD_UPDATE; + + // Stop the DSP update task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_STOP; + + *state = WAIT_DSP_STOP; + } + else + // The DSP update task ran good + if (l1s_dsp_com.dsp_ndb_ptr->d_sr_status & B_GOOD_UPDATE) + { + // No error: + l1s.speechreco.error = SC_NO_ERROR; + + // Stop the DSP update task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_STOP; + + *state = WAIT_DSP_STOP; + } + } + else + { + // Error: time is out + l1s.speechreco.error = SC_TIME_OUT; + + // Stop the DSP enroll task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_STOP; + + *state = WAIT_DSP_STOP; + } + } + break; + + case WAIT_DSP_STOP: + { + // The DSP enroll task is stopped + if ( !( l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & (B_SR_UPDATE_TASK | B_SR_ALIGNMENT_TASK | B_VM_RECORD_ON_GOING) ) ) + { + #if (W_A_DSP_SR_BGD) + // Management of DSP tasks in background + if (l1s_dsp_com.dsp_param_ptr->d_gsm_bgd_mgt & B_DSPBGD_UPD) + { + l1s_dsp_com.dsp_ndb_ptr->d_background_enable &= ~(1 << C_BGD_ALIGN); + } + #endif + + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(sizeof(T_L1_SR_UPDATE_STOP_CON)); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_SR_UPDATE_STOP_CON; + //Fill the message + ((T_L1_SR_UPDATE_STOP_CON *)(conf_msg->SigP))->error_id = l1s.speechreco.error; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + + /*-------------------------------------------------------*/ + /* l1s_sr_reco_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : speech recognition reco acquisition */ + /* L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_sr_reco_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_START = 1, + WAIT_ACQUISITION_STATUS = 2, + WAIT_DSP_STOP = 3 + }; + + UWORD8 *state = &l1s.audio_state[L1S_SR_RECO_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + // Initialize the status register + l1s_dsp_com.dsp_ndb_ptr->d_sr_status = 0; + + // Disable the DSP bit exact test + l1s_dsp_com.dsp_ndb_ptr->d_sr_bit_exact_test &= 0xff80; + + // Initialize the watchdog timer with the time to acquire a word + l1s.speechreco.time_out = SC_SR_AQUISITION_TIME_OUT; + + // Start the DSP acquisition reco task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_RECO; + + *state = WAIT_DSP_START; + } + break; + + case WAIT_DSP_START: + { + // The DSP reco task is started + if (l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_SR_RECO_TASK) + { + // Send the start confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_SR_RECO_START_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = WAIT_ACQUISITION_STATUS; + } + } + break; + + case WAIT_ACQUISITION_STATUS: + { + // the allowed time isn't out + if (l1s.speechreco.time_out--) + { + // The DSP acquisition reco task ran bad or the MMI stop the acquisition reco task + if ( (l1s_dsp_com.dsp_ndb_ptr->d_sr_status & B_BAD_ACQUISITION) || + (l1a_l1s_com.speechreco_task.command.reco_stop) ) + { + // Error: bad acquisition + l1s.speechreco.error = SC_BAD_ACQUISITION; + + // Stop the DSP acquisition reco task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_STOP; + + *state = WAIT_DSP_STOP; + } + else + // The DSP enroll task ran good + if (l1s_dsp_com.dsp_ndb_ptr->d_sr_status & B_GOOD_ACQUISITION) + { + // No error + l1s.speechreco.error = SC_NO_ERROR; + + // Stop the DSP acquisition reco task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_STOP; + + *state = WAIT_DSP_STOP; + } + } + else + { + // Error: time is out + l1s.speechreco.error = SC_TIME_OUT; + + // Stop the DSP acquisition reco task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_STOP; + + *state = WAIT_DSP_STOP; + } + } + break; + + case WAIT_DSP_STOP: + { + // The DSP enroll task is stopped + if ( !(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_SR_RECO_TASK) ) + { + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(sizeof(T_L1_SR_RECO_STOP_CON)); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_SR_RECO_STOP_CON; + //Fill the message + ((T_L1_SR_RECO_STOP_CON *)(conf_msg->SigP))->error_id = l1s.speechreco.error; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + + /*-------------------------------------------------------*/ + /* l1s_sr_processing_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : speech recognition reco processing */ + /* L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_sr_processing_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_PROCESSING_STOP = 1, + WAIT_DSP_RESULT = 2, + WAIT_DSP_STOP = 3 + }; + + UWORD8 *state = &l1s.audio_state[L1S_SR_PROCESSING_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + // Initialize the status register + l1s_dsp_com.dsp_ndb_ptr->d_sr_status = 0; + + // Disable the DSP bit exact test + l1s_dsp_com.dsp_ndb_ptr->d_sr_bit_exact_test &= 0xff80; + + // Initialize the OOV algorithm + l1s_dsp_com.dsp_ndb_ptr->d_sr_param &= 0x20; + l1s_dsp_com.dsp_ndb_ptr->d_sr_param |= SC_SR_OOV_SFT_THR; + + // Transmit ot the DSP the number of word to compare + l1s_dsp_com.dsp_ndb_ptr->d_sr_nb_words = l1a_l1s_com.speechreco_task.parameters.vocabulary_size; + + // Initialize the watchdog timer with the time to process a word + l1s.speechreco.time_out = SC_SR_PROCESSING_TIME_OUT; + + // Start the DSP processing task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_PROCESSING; + + #if (W_A_DSP_SR_BGD) + // Management of DSP tasks in background + if (l1s_dsp_com.dsp_param_ptr->d_gsm_bgd_mgt & B_DSPBGD_RECO) + { + l1s_dsp_com.dsp_ndb_ptr->d_background_enable |= (1 << C_BGD_RECOGN); + } + #endif + + // Reset the start command + l1a_l1s_com.speechreco_task.command.processing_start = FALSE; + + *state = WAIT_DSP_PROCESSING_STOP; + } + break; + + case WAIT_DSP_PROCESSING_STOP: + { + if (l1s.speechreco.time_out--) + { + // The MMI stops the processing task + if (l1a_l1s_com.speechreco_task.command.processing_stop) + { + // Error: bad acquisition + l1s.speechreco.error = SC_BAD_RECOGNITION; + + // Stop the DSP processing task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_STOP; + + *state = WAIT_DSP_STOP; + } + else + // The DSP processing task is stopped + if ( !(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_SR_PROCESSING_TASK) ) + { + // It was the last model + if (l1a_l1s_com.speechreco_task.parameters.index_counter == l1a_l1s_com.speechreco_task.parameters.vocabulary_size) + { + *state = WAIT_DSP_RESULT; + } + else + { + // Send the stop confirmation message with no error + // Allocate confirmation message... + conf_msg = os_alloc_sig(sizeof(T_L1_SR_PROCESSING_STOP_CON)); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_SR_PROCESSING_STOP_CON; + //Fill the message + ((T_L1_SR_PROCESSING_STOP_CON *)(conf_msg->SigP))->error_id = SC_NO_ERROR; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + } + else + // the allowed time is out + { + // Error: time is out + l1s.speechreco.error = SC_TIME_OUT; + + // Stop the DSP processing task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_SR_STOP; + + *state = WAIT_DSP_STOP; + } + } + break; + + case WAIT_DSP_RESULT: + { + + #if (W_A_DSP_SR_BGD) + // Management of DSP tasks in background + if (l1s_dsp_com.dsp_param_ptr->d_gsm_bgd_mgt & B_DSPBGD_RECO) + { + l1s_dsp_com.dsp_ndb_ptr->d_background_enable &= ~(1 << C_BGD_RECOGN); + } + #endif + + // The DSP recognition task was bad + if (l1s_dsp_com.dsp_ndb_ptr->d_sr_status & B_BAD_ACQUISITION) + { + // Send the stop indication message with an bad recognition error + // Allocate confirmation message... + conf_msg = os_alloc_sig(sizeof(T_L1_SR_RECO_STOP_IND)); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_SR_RECO_STOP_IND; + //Fill the message + ((T_L1_SR_RECO_STOP_IND *)(conf_msg->SigP))->error_id = SC_BAD_RECOGNITION; + + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + else + // The DSP recognition task was good: + { + // Send the stop indication message without any error + // Allocate confirmation message... + conf_msg = os_alloc_sig(sizeof(T_L1_SR_RECO_STOP_IND)); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_SR_RECO_STOP_IND; + //Fill the message + ((T_L1_SR_RECO_STOP_IND *)(conf_msg->SigP))->error_id = SC_NO_ERROR; + ((T_L1_SR_RECO_STOP_IND *)(conf_msg->SigP))->best_word_index = l1s_dsp_com.dsp_ndb_ptr->a_n_best_words[0]; + ((T_L1_SR_RECO_STOP_IND *)(conf_msg->SigP))->best_word_score = l1s_dsp_com.dsp_ndb_ptr->a_n_best_score[0] | (l1s_dsp_com.dsp_ndb_ptr->a_n_best_score[1] << 16); + ((T_L1_SR_RECO_STOP_IND *)(conf_msg->SigP))->second_best_word_index = l1s_dsp_com.dsp_ndb_ptr->a_n_best_words[1]; + ((T_L1_SR_RECO_STOP_IND *)(conf_msg->SigP))->second_best_word_score = l1s_dsp_com.dsp_ndb_ptr->a_n_best_score[2] | (l1s_dsp_com.dsp_ndb_ptr->a_n_best_score[3] << 16); + ((T_L1_SR_RECO_STOP_IND *)(conf_msg->SigP))->third_best_word_index = l1s_dsp_com.dsp_ndb_ptr->a_n_best_words[2]; + ((T_L1_SR_RECO_STOP_IND *)(conf_msg->SigP))->third_best_word_score = l1s_dsp_com.dsp_ndb_ptr->a_n_best_score[4] | (l1s_dsp_com.dsp_ndb_ptr->a_n_best_score[5] << 16); + ((T_L1_SR_RECO_STOP_IND *)(conf_msg->SigP))->fourth_best_word_index = l1s_dsp_com.dsp_ndb_ptr->a_n_best_words[3]; + ((T_L1_SR_RECO_STOP_IND *)(conf_msg->SigP))->fourth_best_word_score = l1s_dsp_com.dsp_ndb_ptr->a_n_best_score[6] | (l1s_dsp_com.dsp_ndb_ptr->a_n_best_score[7] << 16); + ((T_L1_SR_RECO_STOP_IND *)(conf_msg->SigP))->d_sr_db_level = l1s_dsp_com.dsp_ndb_ptr->d_sr_db_level; + ((T_L1_SR_RECO_STOP_IND *)(conf_msg->SigP))->d_sr_db_noise = l1s_dsp_com.dsp_ndb_ptr->d_sr_db_noise; + ((T_L1_SR_RECO_STOP_IND *)(conf_msg->SigP))->d_sr_model_size = l1s_dsp_com.dsp_ndb_ptr->d_sr_mod_size; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + + case WAIT_DSP_STOP: + { + // The DSP processing task is stopped + if ( !(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_SR_PROCESSING_TASK) ) + { + // Send the stop confirmation message with an error + // Allocate confirmation message... + conf_msg = os_alloc_sig(sizeof(T_L1_SR_PROCESSING_STOP_CON)); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_SR_PROCESSING_STOP_CON; + //Fill the message + ((T_L1_SR_PROCESSING_STOP_CON *)(conf_msg->SigP))->error_id = l1s.speechreco.error; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + + /*-------------------------------------------------------*/ + /* l1s_sr_speech_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : speech recognition speech recording */ + /* L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_sr_speech_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_START = 1, + WAIT_DSP_SAMPLE = 2, + WAIT_DSP_STOP = 3 + }; + + UWORD8 *state = &l1s.audio_state[L1S_SR_SPEECH_STATE]; + API *a_du_x; + UWORD8 i; + + switch(*state) + { + case IDLE: + { + // Initialize the current pointer + l1s.speechreco.speech_pointer = l1a_l1s_com.speechreco_task.parameters.speech_address; + l1s.speechreco.end_pointer = (UWORD16 *)(l1s.speechreco.speech_pointer + SC_SR_MMI_2_L1_SPEECH_SIZE); + + // Initialize the flag to know if it's the first pass in the circular buffer + l1s.speechreco.first_pass = TRUE; + + // Initialize the status register + l1s_dsp_com.dsp_ndb_ptr->d_sr_status = 0; + + // No DTX mode + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode &= ~(B_VOICE_MEMO_DTX); + #if ((DSP == 34) || (DSP == 35) || (DSP == 36) || (DSP == 37) || (DSP == 38) || (DSP == 39)) + // use TCH/FS vocoder + l1s_dsp_com.dsp_ndb_ptr->d_tch_mode &= ~(B_VM_VOCODER_SELECT); + #endif + + + // Start the voice memo recodgin DSP task: + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_RECORD_START; + + *state = WAIT_DSP_START; + } + break; + + case WAIT_DSP_START: + { + // The DSP is started + if (l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_VM_RECORD_ON_GOING) + { + *state = WAIT_DSP_SAMPLE; + } + } + break; + + case WAIT_DSP_SAMPLE: + { + // A beginning of word is detected + if ( ((l1s_dsp_com.dsp_ndb_ptr->d_sr_status & SC_SR_WORD_MASK) == SC_SR_WORD_BEGINNING) && + (l1s.speechreco.speech_old_status == SC_SR_WORD_SEARCHING) ) + { + // Calculate the address of the beginning of the word + l1a_l1s_com.speechreco_task.parameters.start_address = + l1s.speechreco.speech_pointer - ((SC_SR_SPEECH_WORD_BEGIN_VAD_LATENCY + SC_SR_SPEECH_WORD_BEGIN_MARGIN) * SC_SR_SPEECH_FRAME_SIZE); + if (l1a_l1s_com.speechreco_task.parameters.start_address < l1a_l1s_com.speechreco_task.parameters.speech_address) + { + if (l1s.speechreco.first_pass == FALSE) + { + l1a_l1s_com.speechreco_task.parameters.start_address = l1s.speechreco.end_pointer - + ( l1a_l1s_com.speechreco_task.parameters.speech_address - (l1s.speechreco.speech_pointer - ((SC_SR_SPEECH_WORD_BEGIN_VAD_LATENCY + SC_SR_SPEECH_WORD_BEGIN_MARGIN) * SC_SR_SPEECH_FRAME_SIZE)) ); + } + else + { + l1a_l1s_com.speechreco_task.parameters.start_address = l1a_l1s_com.speechreco_task.parameters.speech_address; + } + } + } + else + // A end of word is detected + if ( ((l1s_dsp_com.dsp_ndb_ptr->d_sr_status & SC_SR_WORD_MASK) == SC_SR_WORD_ENDING) && + (l1s.speechreco.speech_old_status == SC_SR_WORD_ON_GOING) ) + { + // Calculate the address of the end of the word + l1a_l1s_com.speechreco_task.parameters.stop_address = + l1s.speechreco.speech_pointer - ((SC_SR_SPEECH_WORD_END_VAD_LATENCY - SC_SR_SPEECH_WORD_END_MARGIN)* SC_SR_SPEECH_FRAME_SIZE); + if (l1a_l1s_com.speechreco_task.parameters.stop_address < l1a_l1s_com.speechreco_task.parameters.speech_address) + { + l1a_l1s_com.speechreco_task.parameters.stop_address = l1s.speechreco.end_pointer - + ( l1a_l1s_com.speechreco_task.parameters.speech_address - (l1s.speechreco.speech_pointer - ((SC_SR_SPEECH_WORD_END_VAD_LATENCY - SC_SR_SPEECH_WORD_END_MARGIN) * SC_SR_SPEECH_FRAME_SIZE)) ); + } + } + + // Save the current status + l1s.speechreco.speech_old_status = l1s_dsp_com.dsp_ndb_ptr->d_sr_status & SC_SR_WORD_MASK; + + // Determine which a_du buffer is currently used + l1s.speechreco.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_1; + if (l1a_l1s_com.dedic_set.aset != NULL) + { + if ( (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->channel_type == TCH_H) && + (l1a_l1s_com.dedic_set.aset->achan_ptr->desc_ptr->subchannel == 1) ) + l1s.speechreco.a_du_x = l1s_dsp_com.dsp_ndb_ptr->a_du_0; + } + + // The acquisition was good + if (l1s_dsp_com.dsp_ndb_ptr->d_sr_status & B_GOOD_ACQUISITION) + { + // Stop the voice memorization recording task + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_RECORD_STOP; + + *state = WAIT_DSP_STOP; + } + else + // The task must be stopped + if ( (l1s_dsp_com.dsp_ndb_ptr->d_sr_status & B_BAD_ACQUISITION) || + (l1a_l1s_com.speechreco_task.command.speech_stop) || + (l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init & B_SR_STOP) ) + { + // Stop the DSP voice memorization recording task: + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= B_VM_RECORD_STOP; + + *state = WAIT_DSP_STOP; + } + else + // The DSP sends a new block + if (l1s.speechreco.a_du_x[0] & B_BLOCK_READY) + { + // Is there enough place in the RAM buffer + if (l1s.speechreco.speech_pointer == l1s.speechreco.end_pointer) + { + // Rewind the current pointer + l1s.speechreco.speech_pointer = l1a_l1s_com.speechreco_task.parameters.speech_address; + + // It isn't the first pass + l1s.speechreco.first_pass = FALSE; + } + + // Download the speech sample from the a_du_x to the RAM buffer + a_du_x = l1s.speechreco.a_du_x; + for(i=0; i < SC_SR_SPEECH_FRAME_SIZE; i++) + { + *(l1s.speechreco.speech_pointer)++ = *a_du_x++; + } + + // Clear the a_du_x header + l1s.speechreco.a_du_x[0] = 0; + } + } + break; + + case WAIT_DSP_STOP: + { + // The DSP speech recoding task is stopped + if ( !(l1s_dsp_com.dsp_ndb_ptr->d_toneskb_status & B_VM_RECORD_ON_GOING) ) + { + *state = IDLE; + } + } + break; + } // switch + } + + #endif // SPEECH_RECO + #if (L1_AEC == 1) + /*-------------------------------------------------------*/ + /* l1s_aec_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : AEC L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_aec_manager(void) + { + enum states + { + IDLE = 0, + #if (L1_NEW_AEC) + WAIT_DSP_AVAILABLE = 1, + AEC_VISIBILITY = 2 + #else + WAIT_DSP_AVAILABLE = 1 + #endif + }; + + UWORD8 *state = &l1s.audio_state[L1S_AEC_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + // Set the d_aec_ctrl register + l1s.aec.aec_control = (l1a_l1s_com.aec_task.parameters.aec_control | B_AEC_ACK); + #if (L1_NEW_AEC) + l1s.aec.aec_visibility = (l1s.aec.aec_control & B_AEC_VISIBILITY) >> SC_AEC_VISIBILITY_SHIFT; + l1s.aec.cont_filter = l1a_l1s_com.aec_task.parameters.cont_filter; + l1s.aec.granularity_att = l1a_l1s_com.aec_task.parameters.granularity_att; + l1s.aec.coef_smooth = l1a_l1s_com.aec_task.parameters.coef_smooth; + l1s.aec.es_level_max = l1a_l1s_com.aec_task.parameters.es_level_max; + l1s.aec.fact_vad = l1a_l1s_com.aec_task.parameters.fact_vad; + l1s.aec.thrs_abs = l1a_l1s_com.aec_task.parameters.thrs_abs; + l1s.aec.fact_asd_fil = l1a_l1s_com.aec_task.parameters.fact_asd_fil; + l1s.aec.fact_asd_mut = l1a_l1s_com.aec_task.parameters.fact_asd_mut; + #endif + + // Reset the start command + l1a_l1s_com.aec_task.command.start = FALSE; + + // Send the AEC confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AEC_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = WAIT_DSP_AVAILABLE; + } + break; + + case WAIT_DSP_AVAILABLE: + { + // the new settings come from the MMI + if (l1a_l1s_com.aec_task.command.start) + { + // Set the d_aec_ctrl register + l1s.aec.aec_control = (l1a_l1s_com.aec_task.parameters.aec_control | B_AEC_ACK); + #if (L1_NEW_AEC) + l1s.aec.aec_visibility = (l1s.aec.aec_control & B_AEC_VISIBILITY) >> SC_AEC_VISIBILITY_SHIFT; + l1s.aec.cont_filter = l1a_l1s_com.aec_task.parameters.cont_filter; + l1s.aec.granularity_att = l1a_l1s_com.aec_task.parameters.granularity_att; + l1s.aec.coef_smooth = l1a_l1s_com.aec_task.parameters.coef_smooth; + l1s.aec.es_level_max = l1a_l1s_com.aec_task.parameters.es_level_max; + l1s.aec.fact_vad = l1a_l1s_com.aec_task.parameters.fact_vad; + l1s.aec.thrs_abs = l1a_l1s_com.aec_task.parameters.thrs_abs; + l1s.aec.fact_asd_fil = l1a_l1s_com.aec_task.parameters.fact_asd_fil; + l1s.aec.fact_asd_mut = l1a_l1s_com.aec_task.parameters.fact_asd_mut; + #endif + + // Reset the start command + l1a_l1s_com.aec_task.command.start = FALSE; + + // Send the AEC confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AEC_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + } + + // the new settings can be written to the DSP +#if(DSP == 38) || (DSP == 39) + if ( (l1s_dsp_com.dsp_ndb_ptr->d_aec_ul_ctrl & B_AEC_ACK) == FALSE ) +#else + if ( (l1s_dsp_com.dsp_ndb_ptr->d_aec_ctrl & B_AEC_ACK) == FALSE ) +#endif + { + +#if(DSP == 38) || (DSP == 39) + l1s_dsp_com.dsp_ndb_ptr->d_aec_ul_ctrl = l1s.aec.aec_control; +#else + l1s_dsp_com.dsp_ndb_ptr->d_aec_ctrl = l1s.aec.aec_control; +#endif + + #if (L1_NEW_AEC) + l1s_dsp_com.dsp_ndb_ptr->d_cont_filter = l1s.aec.cont_filter; + l1s_dsp_com.dsp_ndb_ptr->d_granularity_att = l1s.aec.granularity_att; + l1s_dsp_com.dsp_ndb_ptr->d_coef_smooth = l1s.aec.coef_smooth; + l1s_dsp_com.dsp_ndb_ptr->d_es_level_max = l1s.aec.es_level_max; + l1s_dsp_com.dsp_ndb_ptr->d_fact_vad = l1s.aec.fact_vad; + l1s_dsp_com.dsp_ndb_ptr->d_thrs_abs = l1s.aec.thrs_abs; + l1s_dsp_com.dsp_ndb_ptr->d_fact_asd_fil = l1s.aec.fact_asd_fil; + l1s_dsp_com.dsp_ndb_ptr->d_fact_asd_mut = l1s.aec.fact_asd_mut; + + // AEC visibility allows tracing some AEC internal output values + if (l1s.aec.aec_visibility) + *state = AEC_VISIBILITY; + else + *state = IDLE; + #else + *state = IDLE; + #endif + } + } + break; + + #if (L1_NEW_AEC) + case AEC_VISIBILITY: + { + // the new settings come from the MMI + if (l1a_l1s_com.aec_task.command.start) + { + // Set the d_aec_ctrl register + l1s.aec.aec_control = (l1a_l1s_com.aec_task.parameters.aec_control | B_AEC_ACK); + l1s.aec.aec_visibility = (l1s.aec.aec_control & B_AEC_VISIBILITY) >> SC_AEC_VISIBILITY_SHIFT; + l1s.aec.cont_filter = l1a_l1s_com.aec_task.parameters.cont_filter; + l1s.aec.granularity_att = l1a_l1s_com.aec_task.parameters.granularity_att; + l1s.aec.coef_smooth = l1a_l1s_com.aec_task.parameters.coef_smooth; + l1s.aec.es_level_max = l1a_l1s_com.aec_task.parameters.es_level_max; + l1s.aec.fact_vad = l1a_l1s_com.aec_task.parameters.fact_vad; + l1s.aec.thrs_abs = l1a_l1s_com.aec_task.parameters.thrs_abs; + l1s.aec.fact_asd_fil = l1a_l1s_com.aec_task.parameters.fact_asd_fil; + l1s.aec.fact_asd_mut = l1a_l1s_com.aec_task.parameters.fact_asd_mut; + + // Reset the start command + l1a_l1s_com.aec_task.command.start = FALSE; + + // Send the AEC confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AEC_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = WAIT_DSP_AVAILABLE; + } + + if ( (l1a_l1s_com.dedic_set.aset != NULL) && + ((l1a_l1s_com.dedic_set.aset->achan_ptr->mode == TCH_FS_MODE) || + (l1a_l1s_com.dedic_set.aset->achan_ptr->mode == TCH_HS_MODE) || + (l1a_l1s_com.dedic_set.aset->achan_ptr->mode == TCH_EFR_MODE)) ) + { + l1s.aec.visibility_interval--; + + if (l1s.aec.visibility_interval < 0) + { + conf_msg = os_alloc_sig(sizeof(T_L1_AEC_IND)); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AEC_IND; + + ((T_L1_AEC_IND *)(conf_msg->SigP))->es_level = l1s_dsp_com.dsp_ndb_ptr->d_es_level_api; + ((T_L1_AEC_IND *)(conf_msg->SigP))->far_end_pow = ( (l1s_dsp_com.dsp_ndb_ptr->d_far_end_pow_h << 16) + | (l1s_dsp_com.dsp_ndb_ptr->d_far_end_pow_l)); + ((T_L1_AEC_IND *)(conf_msg->SigP))->far_end_noise = ( (l1s_dsp_com.dsp_ndb_ptr->d_far_end_noise_h << 16) + | (l1s_dsp_com.dsp_ndb_ptr->d_far_end_noise_l)); + + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + // reset delay between 2 traces + l1s.aec.visibility_interval = SC_AEC_VISIBILITY_INTERVAL; + } + } + else + // It forces aec traces when entering dedicated mode + l1s.aec.visibility_interval = 1; + } + break; + #endif + } // switch + } + #endif // AEC + + #if(L1_AEC == 2) + + /*-------------------------------------------------------*/ + /* l1s_aec_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : AEC L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ +void l1s_aec_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_ACK = 1 + }; + + UWORD8 *state = &l1s.audio_state[L1S_AEC_STATE]; + xSignalHeaderRec *conf_msg; + UWORD16 current_state; + static T_AEC_ACTION l1s_aec_action = L1_AQI_AEC_STOPPED; + static UWORD16 l_aec_ctrl; + + + switch(*state) + { + case IDLE: + { + + current_state = l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & 0x0800; + + if((l1a_l1s_com.aec_task.aec_control == L1_AQI_AEC_START)||(l1a_l1s_com.aec_task.aec_control == L1_AQI_AEC_UPDATE)) + { + if(current_state ) + { + +#if(DSP == 38) || (DSP == 39) + l1s_dsp_com.dsp_ndb_ptr->d_aec_ul_ctrl = l1s_dsp_com.dsp_ndb_ptr->d_aec_ul_ctrl | 0x0004; +#else + l1s_dsp_com.dsp_ndb_ptr->d_aec_ctrl = l1s_dsp_com.dsp_ndb_ptr->d_aec_ctrl | 0x0004; +#endif + + l_aec_ctrl = 0x0004; + l1s_aec_action = L1_AQI_AEC_UPDATED; + } + else + { + + +#if(DSP == 38) || (DSP == 39) + l1s_dsp_com.dsp_ndb_ptr->d_aec_ul_ctrl = l1s_dsp_com.dsp_ndb_ptr->d_aec_ul_ctrl | 0x0001; +#else + l1s_dsp_com.dsp_ndb_ptr->d_aec_ctrl = l1s_dsp_com.dsp_ndb_ptr->d_aec_ctrl | 0x0001; +#endif + l_aec_ctrl = 0x0001; + l1s_aec_action = L1_AQI_AEC_STARTED; + } + + l1s_dsp_com.dsp_ndb_ptr->d_cont_filter = l1a_l1s_com.aec_task.parameters.cont_filter; + l1s_dsp_com.dsp_ndb_ptr->d_granularity_att = l1a_l1s_com.aec_task.parameters.granularity_att; + l1s_dsp_com.dsp_ndb_ptr->d_coef_smooth = l1a_l1s_com.aec_task.parameters.coef_smooth; + l1s_dsp_com.dsp_ndb_ptr->d_es_level_max = l1a_l1s_com.aec_task.parameters.es_level_max; + l1s_dsp_com.dsp_ndb_ptr->d_fact_vad = l1a_l1s_com.aec_task.parameters.fact_vad; + l1s_dsp_com.dsp_ndb_ptr->d_thrs_abs = l1a_l1s_com.aec_task.parameters.thrs_abs; + l1s_dsp_com.dsp_ndb_ptr->d_fact_asd_fil = l1a_l1s_com.aec_task.parameters.fact_asd_fil; + l1s_dsp_com.dsp_ndb_ptr->d_fact_asd_mut = l1a_l1s_com.aec_task.parameters.fact_asd_mut; + l1s_dsp_com.dsp_ndb_ptr->d_aec_mode = l1a_l1s_com.aec_task.parameters.aec_mode; + l1s_dsp_com.dsp_ndb_ptr->d_mu = l1a_l1s_com.aec_task.parameters.mu; + l1s_dsp_com.dsp_ndb_ptr->d_scale_input_ul = l1a_l1s_com.aec_task.parameters.scale_input_ul; + l1s_dsp_com.dsp_ndb_ptr->d_scale_input_dl = l1a_l1s_com.aec_task.parameters.scale_input_dl; + l1s_dsp_com.dsp_ndb_ptr->d_div_dmax = l1a_l1s_com.aec_task.parameters.div_dmax; + l1s_dsp_com.dsp_ndb_ptr->d_div_swap_good = l1a_l1s_com.aec_task.parameters.div_swap_good; + l1s_dsp_com.dsp_ndb_ptr->d_div_swap_bad = l1a_l1s_com.aec_task.parameters.div_swap_bad; + l1s_dsp_com.dsp_ndb_ptr->d_block_init = l1a_l1s_com.aec_task.parameters.block_init; + + + } + else if(l1a_l1s_com.aec_task.aec_control == L1_AQI_AEC_STOP) + { + if(current_state ) + { +#if(DSP == 38) || (DSP == 39) + l1s_dsp_com.dsp_ndb_ptr->d_aec_ul_ctrl = (l1s_dsp_com.dsp_ndb_ptr->d_aec_ul_ctrl) | 0x0002; +#else + l1s_dsp_com.dsp_ndb_ptr->d_aec_ctrl = (l1s_dsp_com.dsp_ndb_ptr->d_aec_ctrl) | 0x0002; +#endif + + l_aec_ctrl = 0x0002; + l1s_aec_action = L1_AQI_AEC_STOPPED; + } + else + { + l1a_l1s_com.aec_task.command.start = FALSE; + + // Send the AEC confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(sizeof(T_L1_AQI_AEC_CON)); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AQI_AEC_CON; + ((T_L1_AQI_AEC_CON*)(conf_msg->SigP))->aec_action = L1_AQI_AEC_NO_ACTION; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + return; + } + } + + *state = WAIT_DSP_ACK; + + + break; + } + + case WAIT_DSP_ACK: + { + +#if(DSP == 38) || (DSP == 39) + if(((l1s_dsp_com.dsp_ndb_ptr->d_aec_ul_ctrl) & (l_aec_ctrl)) == 0) +#else + if(((l1s_dsp_com.dsp_ndb_ptr->d_aec_ctrl) & (l_aec_ctrl)) == 0) +#endif + + { + l1a_l1s_com.aec_task.command.start = FALSE; + + // Send the AEC confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(sizeof(T_L1_AQI_AEC_CON)); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AQI_AEC_CON; + ((T_L1_AQI_AEC_CON*)(conf_msg->SigP))->aec_action = l1s_aec_action; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + + break; + } + }/* End of switch statement */ +} + + #endif + + #if (FIR) + /*-------------------------------------------------------*/ + /* l1s_fir_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : FIR L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_fir_manager(void) + { + + enum states + { + IDLE, + WAIT_AUDIO_ON, + FIR_LOOP_ON + }; + + UWORD8 *state = &l1s.audio_state[L1S_FIR_STATE]; + xSignalHeaderRec *conf_msg; + + + + switch (*state) + { + case IDLE: + { + if (l1a_l1s_com.fir_task.parameters.fir_loop == 0) + { + l1s_fir_set_params(); + // Send the FIR confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AUDIO_FIR_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + // Reset the start command + l1a_l1s_com.fir_task.command.start = FALSE; + } + else { + //enable UL and DL + l1s.audio_on_off_ctl.l1_audio_switch_on_ul_request++; + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request++; + *state = WAIT_AUDIO_ON; + } + } + break; + + case WAIT_AUDIO_ON: + { + if((l1s.audio_state[L1S_AUDIO_DL_ONOFF_STATE] == L1_AUDIO_DL_ON) && + (l1s.audio_state[L1S_AUDIO_UL_ONOFF_STATE] == L1_AUDIO_UL_ON)) + { + l1s_fir_set_params(); + // Send the FIR confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AUDIO_FIR_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + // Reset the start command + l1a_l1s_com.fir_task.command.start = FALSE; + //set the Loop on the DSP side + l1s_dsp_com.dsp_ndb_ptr->d_audio_init |= B_FIR_LOOP; + *state = FIR_LOOP_ON; + } + + } + break; + + case FIR_LOOP_ON: + { + if (l1a_l1s_com.fir_task.command.start == TRUE) + { + if (l1a_l1s_com.fir_task.parameters.fir_loop == 0) + { + //disable UL and DL + l1s.audio_on_off_ctl.l1_audio_switch_on_ul_request--; + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request--; + + l1s_dsp_com.dsp_ndb_ptr->d_audio_init &= ~(B_FIR_LOOP); + *state = IDLE; + } + + // Reset the start command + l1a_l1s_com.fir_task.command.start = FALSE; + //download parameters + l1s_fir_set_params(); + // Send the FIR confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AUDIO_FIR_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + } + } + break; + } // end switch + + } + + void l1s_fir_set_params(void) + { + + UWORD8 i; + + // Update the DL FIR? + if (l1a_l1s_com.fir_task.parameters.update_fir & DL_FIR) + { + // Download the DL FIR coefficients to the melody a_fir31_downlink + for (i=0; i<MAX_FIR_COEF; i++) + { + #if ((DSP == 33) || (DSP == 34) || (DSP == 35) || (DSP == 36) || (DSP == 37) || (DSP == 38) || (DSP == 39)) // For this DSP code the FIR coefficients are in API param memory + l1s_dsp_com.dsp_param_ptr->a_fir31_downlink[i] = *l1a_l1s_com.fir_task.parameters.fir_dl_coefficient; + #else + l1s_dsp_com.dsp_ndb_ptr->a_fir31_downlink[i] = *l1a_l1s_com.fir_task.parameters.fir_dl_coefficient; + #endif + l1a_l1s_com.fir_task.parameters.fir_dl_coefficient++; + } + } + + // Update the UL FIR? + if (l1a_l1s_com.fir_task.parameters.update_fir & UL_FIR) + { + if ((l1s_dsp_com.dsp_ndb_ptr->d_audio_status & B_FIR_LOOP) == 1) // loop mode --> do not invert coef + { + // Download the UL FIR coefficients to the melody a_fir31_uplink + for (i=0; i<MAX_FIR_COEF; i++) + { + #if (DSP == 33) || (DSP == 34) || (DSP == 35) // For this DSP code the FIR coefficients are in API param memory + l1s_dsp_com.dsp_param_ptr->a_fir31_uplink[i] = *l1a_l1s_com.fir_task.parameters.fir_ul_coefficient; + #elif ((DSP == 36) || (DSP == 37) || (DSP == 38) || (DSP == 39)) // CQ #28839 + l1s_dsp_com.dsp_param_ptr->a_fir31_uplink[MAX_FIR_COEF-i-1] = *l1a_l1s_com.fir_task.parameters.fir_ul_coefficient; + #else + l1s_dsp_com.dsp_ndb_ptr->a_fir31_uplink[i] = *l1a_l1s_com.fir_task.parameters.fir_ul_coefficient; + #endif + l1a_l1s_com.fir_task.parameters.fir_ul_coefficient++; + } + } + else // normal mode --> invert coeff + { + // Download the UL FIR coefficients to the melody a_fir31_uplink + for (i=0; i<MAX_FIR_COEF; i++) + { + // In UL, coefs are inversed + #if ((DSP == 33) || (DSP == 34) || (DSP == 35) || (DSP == 36) || (DSP == 37) || (DSP == 38) || (DSP == 39))// For this DSP code the FIR coefficients are in API param memory + l1s_dsp_com.dsp_param_ptr->a_fir31_uplink[MAX_FIR_COEF-i-1] = *l1a_l1s_com.fir_task.parameters.fir_ul_coefficient; + #else + l1s_dsp_com.dsp_ndb_ptr->a_fir31_uplink[MAX_FIR_COEF-i-1] = *l1a_l1s_com.fir_task.parameters.fir_ul_coefficient; + #endif + l1a_l1s_com.fir_task.parameters.fir_ul_coefficient++; + } + } + } + else // no UL update + { + if (((l1s_dsp_com.dsp_ndb_ptr->d_audio_status & B_FIR_LOOP) && (l1a_l1s_com.fir_task.parameters.fir_loop == FALSE)) + || ((!(l1s_dsp_com.dsp_ndb_ptr->d_audio_status & B_FIR_LOOP)) && (l1a_l1s_com.fir_task.parameters.fir_loop == TRUE))) // changing mode + { + // we are changing mode, normal to loop or loop to normal + // so we have to invert the coefficients in the API + UWORD16 temp_coeff; + + for (i=0; i<(MAX_FIR_COEF/2); i++) + { + #if ((DSP == 33) || (DSP == 34) || (DSP == 35) || (DSP == 36) || (DSP == 37) || (DSP == 38) || (DSP == 39)) // For this DSP code the FIR coefficients are in API param memory + temp_coeff = l1s_dsp_com.dsp_param_ptr->a_fir31_uplink[i]; + l1s_dsp_com.dsp_param_ptr->a_fir31_uplink[i] = l1s_dsp_com.dsp_param_ptr->a_fir31_uplink[MAX_FIR_COEF-i-1]; + l1s_dsp_com.dsp_param_ptr->a_fir31_uplink[MAX_FIR_COEF-i-1] = temp_coeff; + #else + temp_coeff = l1s_dsp_com.dsp_ndb_ptr->a_fir31_uplink[i]; + l1s_dsp_com.dsp_ndb_ptr->a_fir31_uplink[i] = l1s_dsp_com.dsp_ndb_ptr->a_fir31_uplink[MAX_FIR_COEF-i-1]; + l1s_dsp_com.dsp_ndb_ptr->a_fir31_uplink[MAX_FIR_COEF-i-1] = temp_coeff; + #endif + } + } + } + + + } + #endif // FIR + #if (AUDIO_MODE) + /*-------------------------------------------------------*/ + /* l1s_audio_mode_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Audio mode L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_audio_mode_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_CONFIRM = 1 + }; + + UWORD8 *state = &l1s.audio_state[L1S_AUDIO_MODE_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + + // Reset the d_audio_init + l1s_dsp_com.dsp_ndb_ptr->d_audio_init &= ~(B_GSM_ONLY | B_BT_HEADSET | B_BT_CORDLESS); + + // Set the new mode + l1s_dsp_com.dsp_ndb_ptr->d_audio_init + |= l1a_l1s_com.audio_mode_task.parameters.audio_mode; + + *state = WAIT_DSP_CONFIRM; + } + break; + + case WAIT_DSP_CONFIRM: + { + // the DSP acknowledges the new settings. + if ( l1s_dsp_com.dsp_ndb_ptr->d_audio_init == l1s_dsp_com.dsp_ndb_ptr->d_audio_status ) + { + // Send the Audio mode confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AUDIO_MODE_CON; + + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + // Reset the start command + l1a_l1s_com.audio_mode_task.command.start = FALSE; + + *state = IDLE; + } + } + break; + } // switch + } + #endif // AUDIO_MODE + #if (MELODY_E2) + /*-------------------------------------------------------*/ + /* l1s_melody0_e2_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Audio melody 0 format E2 L1S manager */ + /* task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_melody0_e2_manager(void) + { + enum states + { + M0_INACTIVE = 0, + M0_ALIGN_40MS_BOUNDARY = 1, + M0_WAIT_COUNTER_EQUAL_0 = 2, + M0_WAIT_END_MELODY = 3 + }; + + UWORD8 *state = &l1s.audio_state[L1S_MELODY0_E2_STATE]; + xSignalHeaderRec *conf_msg; + UWORD8 trash[SC_MELODY_E2_MAXIMUM_HEADER_SIZE+1], oscillator_number, extension_index; + UWORD16 oscillator_not_available; + + switch(*state) + { + case M0_INACTIVE: + { + // Reset the commands: + l1a_l1s_com.melody0_e2_task.command.start = FALSE; + + // Initialize the pointer and size to the new description + l1s.melody0_e2.ptr_buf = l1a_l1s_com.melody0_e2_task.parameters.ptr_buf; + l1s.melody0_e2.buffer_size = l1a_l1s_com.melody0_e2_task.parameters.buffer_size; + + *state = M0_ALIGN_40MS_BOUNDARY; + } + break; + + case M0_ALIGN_40MS_BOUNDARY: + { + // Initialize the counter to the first time + l1s.melody0_e2.error_id = copy_byte_data_from_buffer (l1a_l1s_com.melody0_e2_task.parameters.session_id, + &l1s.melody0_e2.buffer_size, + (UWORD8 **)&l1s.melody0_e2.ptr_buf, + 1, + (UWORD8 *)(&l1s.melody0_e2.counter)); + + // Save the extension flag + l1s.melody0_e2.extension_flag = Field(l1s.melody0_e2.counter, + SC_MELODY_E2_EXTENSION_FLAG_MASK, + SC_MELODY_E2_EXTENSION_FLAG_SHIFT); + + // Save delta-time in 20ms unit + l1s.melody0_e2.counter = Field(l1s.melody0_e2.counter, + SC_MELODY_E2_DELTA_TIME_MASK, + SC_MELODY_E2_DELTA_TIME_SHIFT); + l1s.melody0_e2.note_start_20ms = l1s.melody0_e2.counter; + + // Adjust note_start on 20ms boundary because global counter could be running for another melody or loopback + // Timebase can be computed as k*60ms + timebase_mod_60ms + l1s.melody0_e2.note_start_20ms += ((l1s.melody_e2.timebase - l1s.melody_e2.timebase_mod_60ms) / 13 * 3); + if (l1s.melody_e2.timebase_mod_60ms < 4) + { + l1s.melody0_e2.note_start_20ms += 1; + } + else if (l1s.melody_e2.timebase_mod_60ms < 8) + { + l1s.melody0_e2.note_start_20ms += 2; + } + else if (l1s.melody_e2.timebase_mod_60ms < 13) + { + l1s.melody0_e2.note_start_20ms += 3; + } + + // Align on 40ms boundary + if ( (l1s.melody0_e2.note_start_20ms & 1) == 1 ) + l1s.melody0_e2.note_start_20ms++; + + // Convert to TDMA + l1s.melody0_e2.counter = audio_twentyms_to_TDMA_convertion(l1s.melody0_e2.note_start_20ms); + + // Compute TDMA to wait (-1 to take into account this TDMA) + l1s.melody0_e2.counter = l1s.melody0_e2.counter - l1s.melody_e2.timebase - 1; + + // Wait to download the first description + *state = M0_WAIT_COUNTER_EQUAL_0; + } // M0_INIT + break; + + case M0_WAIT_COUNTER_EQUAL_0: + { + // Stop command + if (l1a_l1s_com.melody0_e2_task.command.stop) + { + // wait until all the ocillator are stopped + *state = M0_WAIT_END_MELODY; + } + else if (l1s.melody0_e2.counter > 0) + { + // Decrease the counter + l1s.melody0_e2.counter--; + } + else + { + // Wait until the semaphore is set to 0 by the DSP + if (!(l1s_dsp_com.dsp_ndb_ptr->d_melody_e2_semaphore & SC_MELODY_E2_SEMAPHORE_MASK)) + { + // Initialize oscillators available, oscillators can be used by the DSP (d_melody_e2_osc_active) + // or by the other melody E2 generator (melody_e2_osc_stop) + oscillator_not_available = + l1s.melody_e2.global_osc_active | l1s.melody_e2.global_osc_to_start; + + // find an available oscillator + oscillator_number = 0; + while( (oscillator_number < SC_MELODY_E2_NUMBER_OF_OSCILLATOR) && + (oscillator_not_available & (0x0001<<oscillator_number)) ) + { + oscillator_number++; + } + + // Initialize end of file + l1s.melody0_e2.end_of_file = FALSE; + + // download the description until the delta time is different from 0 + // or end of the melody file + while ( (l1s.melody0_e2.counter == 0) && + (l1s.melody0_e2.end_of_file == FALSE) ) + { + // Download the byte of the note descriptor extension in trash + l1s.melody0_e2.error_id= copy_byte_data_from_buffer (l1a_l1s_com.melody0_e2_task.parameters.session_id, + &l1s.melody0_e2.buffer_size, + (UWORD8 **)&l1s.melody0_e2.ptr_buf, + 2, + &trash[0]); + + // Check end of melody + if ( (trash[0] != 0x00) || (trash[1] != 0x00) ) + { + // It is not the end of melody + + // If an oscillator is available, use it + if (oscillator_number < SC_MELODY_E2_NUMBER_OF_OSCILLATOR) + { + // Reset the oscillator description + l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_osc[oscillator_number][0] = 0x0000; + l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_osc[oscillator_number][1] = 0x0000; + l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_osc[oscillator_number][2] = 0x0000; + + l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_osc[oscillator_number][0] = + trash[0] + (trash[1] << 8); + + // Update the oscillators to start bit field + l1s.melody_e2.global_osc_to_start |= (0x0001<<oscillator_number); + + // Save the oscillator as active for this melody + l1s.melody0_e2.oscillator_active |= (0x0001<<oscillator_number); + + // oscillator is no longer available + oscillator_not_available |= (0x0001<<oscillator_number); + } + + // Download the extensions + extension_index = 1; + while(l1s.melody0_e2.extension_flag) + { + // Download the byte of the note descriptor extension + l1s.melody0_e2.error_id= copy_byte_data_from_buffer (l1a_l1s_com.melody0_e2_task.parameters.session_id, + &l1s.melody0_e2.buffer_size, + (UWORD8 **)&l1s.melody0_e2.ptr_buf, + 2, + &trash[0]); + + // Read the extension flag + l1s.melody0_e2.extension_flag = Field(trash[0], + SC_MELODY_E2_EXTENSION_FLAG_MASK, + SC_MELODY_E2_EXTENSION_FLAG_SHIFT); + + // If an oscillator is available, use it + if (oscillator_number < SC_MELODY_E2_NUMBER_OF_OSCILLATOR) + { + l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_osc[oscillator_number][extension_index] = + trash[0] + (trash[1] << 8); + } + + extension_index++; + } // extension download + + // find next available oscillator + while( (oscillator_number < SC_MELODY_E2_NUMBER_OF_OSCILLATOR) && + (oscillator_not_available & (0x0001<<oscillator_number)) ) + { + oscillator_number++; + } + + // Read next delta time + l1s.melody0_e2.error_id= copy_byte_data_from_buffer (l1a_l1s_com.melody0_e2_task.parameters.session_id, + &l1s.melody0_e2.buffer_size, + (UWORD8 **)&l1s.melody0_e2.ptr_buf, + 1, + (UWORD8 *)(&l1s.melody0_e2.counter)); + + // Save the extension flag + l1s.melody0_e2.extension_flag = Field(l1s.melody0_e2.counter, + SC_MELODY_E2_EXTENSION_FLAG_MASK, + SC_MELODY_E2_EXTENSION_FLAG_SHIFT); + + l1s.melody0_e2.counter = Field(l1s.melody0_e2.counter, + SC_MELODY_E2_DELTA_TIME_MASK, + SC_MELODY_E2_DELTA_TIME_SHIFT); + } // if ( (trash[0] != 0x00) || (trash[1] != 0x00) ) + else + { + // it's the end of the melody file + l1s.melody0_e2.end_of_file = TRUE; + } + } // while ( (l1s.melody0_e2.counter == 0) && (l1s.melody0_e2.end_of_file == FALSE) ) + + // Perform TDMA convertion or handle end of file + if (l1s.melody0_e2.end_of_file == FALSE) + { + // Update note start + l1s.melody0_e2.note_start_20ms += l1s.melody0_e2.counter; + + l1s.melody0_e2.delta_time = l1s.melody0_e2.counter; + + // Convert the delta time into TDMA time unit + l1s.melody0_e2.counter = audio_twentyms_to_TDMA_convertion(l1s.melody0_e2.note_start_20ms) + - l1s.melody_e2.timebase; + + // decrease the counter + l1s.melody0_e2.counter--; + + *state = M0_WAIT_COUNTER_EQUAL_0; + } + else + { + l1s.melody0_e2.delta_time = 0xFFFF; + *state = M0_WAIT_END_MELODY; + } + } // semaphore check + } // if (l1a_l1s_com.melody0_e2_task.command.stop) (2nd else) + } // case M0_WAIT_COUNTER_EQUAL_0: + break; + + case M0_WAIT_END_MELODY: + { + if (l1a_l1s_com.melody0_e2_task.command.stop) + { + // Stop immediatly the current melody + // Wait until the semaphore is set to 0 by the DSP to stop the current description + if (!(l1s_dsp_com.dsp_ndb_ptr->d_melody_e2_semaphore & SC_MELODY_E2_SEMAPHORE_MASK)) + { + // Stop the oscillator mentionned in the bits field melody0_e2.oscillator_active + for(oscillator_number=0; oscillator_number<SC_MELODY_E2_NUMBER_OF_OSCILLATOR; oscillator_number++) + { + if (l1s.melody0_e2.oscillator_active & (0x0001<<oscillator_number)) + { + // Stop the current oscillator + l1s_dsp_com.dsp_ndb_ptr->d_melody_e2_osc_stop |= (0x0001<<oscillator_number); + } + } + // wait until all the oscillator are stopped + l1a_l1s_com.melody0_e2_task.parameters.loopback = FALSE; + l1a_l1s_com.melody0_e2_task.command.stop = FALSE; + l1s_dsp_com.dsp_ndb_ptr->d_melody_e2_deltatime = 0xFFFF;// another melody could be running + } // semaphore + } + else if (l1s.melody0_e2.oscillator_active == 0x0000) + { + // all oscillators are stopped + if (l1a_l1s_com.melody0_e2_task.parameters.loopback) + { + // It's the loopback mode + // Reset the pointer to the current melody + #if (OP_RIV_AUDIO == 0) + l1s.melody0_e2.ptr_buf = NULL; + #endif + l1s.melody0_e2.buffer_size = 0; + l1s.melody0_e2.error_id = Cust_get_pointer((UWORD16 **)&l1s.melody0_e2.ptr_buf, + &l1s.melody0_e2.buffer_size, + l1a_l1s_com.melody0_e2_task.parameters.session_id); + + // Jump the header field + l1s.melody0_e2.error_id = copy_byte_data_from_buffer (l1a_l1s_com.melody0_e2_task.parameters.session_id, + &l1s.melody0_e2.buffer_size, + (UWORD8 **)&l1s.melody0_e2.ptr_buf, + (UWORD16)(l1a_l1s_com.melody0_e2_task.parameters.header_size), + &trash[0]); + + // Wait until the description can be downloaded + *state = M0_ALIGN_40MS_BOUNDARY; + } + else + { + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_MELODY0_E2_STOP_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + // Go to inactive mode + *state = M0_INACTIVE; + } + } + break; + } // M0_WAIT_END_MELODY + } // switch + } // l1s_melody0_e2_manager + + /*-------------------------------------------------------*/ + /* l1s_melody1_e2_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Audio melody 0 format E2 L1S manager */ + /* task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_melody1_e2_manager(void) + { + enum states + { + M1_INACTIVE = 0, + M1_ALIGN_40MS_BOUNDARY = 1, + M1_WAIT_COUNTER_EQUAL_0 = 2, + M1_WAIT_END_MELODY = 3 + }; + + UWORD8 *state = &l1s.audio_state[L1S_MELODY1_E2_STATE]; + xSignalHeaderRec *conf_msg; + UWORD8 trash[SC_MELODY_E2_MAXIMUM_HEADER_SIZE+1], oscillator_number, extension_index; + UWORD16 oscillator_not_available; + + switch(*state) + { + case M1_INACTIVE: + { + // Reset the commands: + l1a_l1s_com.melody1_e2_task.command.start = FALSE; + + // Initialize the pointer and size to the new description + l1s.melody1_e2.ptr_buf = l1a_l1s_com.melody1_e2_task.parameters.ptr_buf; + l1s.melody1_e2.buffer_size = l1a_l1s_com.melody1_e2_task.parameters.buffer_size; + + *state = M1_ALIGN_40MS_BOUNDARY; + } + break; + + case M1_ALIGN_40MS_BOUNDARY: + { + // Initialize the counter to the first time + l1s.melody1_e2.error_id = copy_byte_data_from_buffer (l1a_l1s_com.melody1_e2_task.parameters.session_id, + &l1s.melody1_e2.buffer_size, + (UWORD8 **)&l1s.melody1_e2.ptr_buf, + 1, + (UWORD8 *)(&l1s.melody1_e2.counter)); + + // Save the extension flag + l1s.melody1_e2.extension_flag = Field(l1s.melody1_e2.counter, + SC_MELODY_E2_EXTENSION_FLAG_MASK, + SC_MELODY_E2_EXTENSION_FLAG_SHIFT); + + // Save delta-time in 20ms unit + l1s.melody1_e2.counter = Field(l1s.melody1_e2.counter, + SC_MELODY_E2_DELTA_TIME_MASK, + SC_MELODY_E2_DELTA_TIME_SHIFT); + l1s.melody1_e2.note_start_20ms = l1s.melody1_e2.counter; + + // Adjust note_start on 20ms boundary because global counter could be running for another melody or loopback + // Timebase can be computed as k*60ms + timebase_mod_60ms + l1s.melody1_e2.note_start_20ms += ((l1s.melody_e2.timebase - l1s.melody_e2.timebase_mod_60ms) / 13 * 3); + if (l1s.melody_e2.timebase_mod_60ms < 4) + { + l1s.melody1_e2.note_start_20ms += 1; + } + else if (l1s.melody_e2.timebase_mod_60ms < 8) + { + l1s.melody1_e2.note_start_20ms += 2; + } + else if (l1s.melody_e2.timebase_mod_60ms < 13) + { + l1s.melody1_e2.note_start_20ms += 3; + } + + // Align on 40ms boundary + if ( (l1s.melody1_e2.note_start_20ms & 1) == 1 ) + l1s.melody1_e2.note_start_20ms++; + + // Convert to TDMA + l1s.melody1_e2.counter = audio_twentyms_to_TDMA_convertion(l1s.melody1_e2.note_start_20ms); + + // Compute TDMA to wait (-1 to take into account this TDMA) + l1s.melody1_e2.counter = l1s.melody1_e2.counter - l1s.melody_e2.timebase - 1; + + // Wait to download the first description + *state = M1_WAIT_COUNTER_EQUAL_0; + } // M1_INIT + break; + + case M1_WAIT_COUNTER_EQUAL_0: + { + // Stop command + if (l1a_l1s_com.melody1_e2_task.command.stop) + { + // wait until all the ocillator are stopped + *state = M1_WAIT_END_MELODY; + } + else if (l1s.melody1_e2.counter > 0) + { + // Decrease the counter + l1s.melody1_e2.counter--; + } + else + { + // Wait until the semaphore is set to 0 by the DSP + if (!(l1s_dsp_com.dsp_ndb_ptr->d_melody_e2_semaphore & SC_MELODY_E2_SEMAPHORE_MASK)) + { + // Initialize oscillators available, oscillators can be used by the DSP (d_melody_e2_osc_active) + // or by the other melody E2 generator (melody_e2_osc_stop) + oscillator_not_available = + l1s.melody_e2.global_osc_active | l1s.melody_e2.global_osc_to_start; + + // find an available oscillator + oscillator_number = 0; + while( (oscillator_number < SC_MELODY_E2_NUMBER_OF_OSCILLATOR) && + (oscillator_not_available & (0x0001<<oscillator_number)) ) + { + oscillator_number++; + } + + // Initialize end of file + l1s.melody1_e2.end_of_file = FALSE; + + // download the description until the delta time is different from 0 + // or end of the melody file + while ( (l1s.melody1_e2.counter == 0) && + (l1s.melody1_e2.end_of_file == FALSE) ) + { + // Download the byte of the note descriptor extension in trash + l1s.melody1_e2.error_id= copy_byte_data_from_buffer (l1a_l1s_com.melody1_e2_task.parameters.session_id, + &l1s.melody1_e2.buffer_size, + (UWORD8 **)&l1s.melody1_e2.ptr_buf, + 2, + &trash[0]); + + // Check end of melody + if ( (trash[0] != 0x00) || (trash[1] != 0x00) ) + { + // It is not the end of melody + + // If an oscillator is available, use it + if (oscillator_number < SC_MELODY_E2_NUMBER_OF_OSCILLATOR) + { + // Reset the oscillator description + l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_osc[oscillator_number][0] = 0x0000; + l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_osc[oscillator_number][1] = 0x0000; + l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_osc[oscillator_number][2] = 0x0000; + + l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_osc[oscillator_number][0] = + trash[0] + (trash[1] << 8); + + // Update the oscillators to start bit field + l1s.melody_e2.global_osc_to_start |= (0x0001<<oscillator_number); + + // Save the oscillator as active for this melody + l1s.melody1_e2.oscillator_active |= (0x0001<<oscillator_number); + + // oscillator is no longer available + oscillator_not_available |= (0x0001<<oscillator_number); + } + + // Download the extensions + extension_index = 1; + while(l1s.melody1_e2.extension_flag) + { + // Download the byte of the note descriptor extension + l1s.melody1_e2.error_id= copy_byte_data_from_buffer (l1a_l1s_com.melody1_e2_task.parameters.session_id, + &l1s.melody1_e2.buffer_size, + (UWORD8 **)&l1s.melody1_e2.ptr_buf, + 2, + &trash[0]); + + // Read the extension flag + l1s.melody1_e2.extension_flag = Field(trash[0], + SC_MELODY_E2_EXTENSION_FLAG_MASK, + SC_MELODY_E2_EXTENSION_FLAG_SHIFT); + + // If an oscillator is available, use it + if (oscillator_number < SC_MELODY_E2_NUMBER_OF_OSCILLATOR) + { + l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_osc[oscillator_number][extension_index] = + trash[0] + (trash[1] << 8); + } + + extension_index++; + } // extension download + + // find next available oscillator + while( (oscillator_number < SC_MELODY_E2_NUMBER_OF_OSCILLATOR) && + (oscillator_not_available & (0x0001<<oscillator_number)) ) + { + oscillator_number++; + } + + // Read next delta time + l1s.melody1_e2.error_id= copy_byte_data_from_buffer (l1a_l1s_com.melody1_e2_task.parameters.session_id, + &l1s.melody1_e2.buffer_size, + (UWORD8 **)&l1s.melody1_e2.ptr_buf, + 1, + (UWORD8 *)(&l1s.melody1_e2.counter)); + + // Save the extension flag + l1s.melody1_e2.extension_flag = Field(l1s.melody1_e2.counter, + SC_MELODY_E2_EXTENSION_FLAG_MASK, + SC_MELODY_E2_EXTENSION_FLAG_SHIFT); + + l1s.melody1_e2.counter = Field(l1s.melody1_e2.counter, + SC_MELODY_E2_DELTA_TIME_MASK, + SC_MELODY_E2_DELTA_TIME_SHIFT); + } // if ( (trash[0] != 0x00) || (trash[1] != 0x00) ) + else + { + // it's the end of the melody file + l1s.melody1_e2.end_of_file = TRUE; + } + } // while ( (l1s.melody1_e2.counter == 0) && (l1s.melody1_e2.end_of_file == FALSE) ) + + // Perform TDMA convertion or handle end of file + if (l1s.melody1_e2.end_of_file == FALSE) + { + // Update note start + l1s.melody1_e2.note_start_20ms += l1s.melody1_e2.counter; + + l1s.melody1_e2.delta_time = l1s.melody1_e2.counter; + + // Convert the delta time into TDMA time unit + l1s.melody1_e2.counter = audio_twentyms_to_TDMA_convertion(l1s.melody1_e2.note_start_20ms) + - l1s.melody_e2.timebase; + + // decrease the counter + l1s.melody1_e2.counter--; + + *state = M1_WAIT_COUNTER_EQUAL_0; + } + else + { + l1s.melody1_e2.delta_time = 0xFFFF; + *state = M1_WAIT_END_MELODY; + } + } // semaphore check + } // if (l1a_l1s_com.melody1_e2_task.command.stop) (2nd else) + } // case M1_WAIT_COUNTER_EQUAL_0: + break; + + case M1_WAIT_END_MELODY: + { + if (l1a_l1s_com.melody1_e2_task.command.stop) + { + // Stop immediatly the current melody + // Wait until the semaphore is set to 0 by the DSP to stop the current description + if (!(l1s_dsp_com.dsp_ndb_ptr->d_melody_e2_semaphore & SC_MELODY_E2_SEMAPHORE_MASK)) + { + // Stop the oscillator mentionned in the bits field melody1_e2.oscillator_active + for(oscillator_number=0; oscillator_number<SC_MELODY_E2_NUMBER_OF_OSCILLATOR; oscillator_number++) + { + if (l1s.melody1_e2.oscillator_active & (0x0001<<oscillator_number)) + { + // Stop the current oscillator + l1s_dsp_com.dsp_ndb_ptr->d_melody_e2_osc_stop |= (0x0001<<oscillator_number); + } + } + // wait until all the oscillator are stopped + l1a_l1s_com.melody1_e2_task.parameters.loopback = FALSE; + l1a_l1s_com.melody1_e2_task.command.stop = FALSE; + l1s_dsp_com.dsp_ndb_ptr->d_melody_e2_deltatime = 0xFFFF; // another melody could be running + } // semaphore + } + else if (l1s.melody1_e2.oscillator_active == 0x0000) + { + // all oscillators are stopped + if (l1a_l1s_com.melody1_e2_task.parameters.loopback) + { + // It's the loopback mode + // Reset the pointer to the current melody + #if (OP_RIV_AUDIO == 0) + l1s.melody1_e2.ptr_buf = NULL; + #endif + l1s.melody1_e2.buffer_size = 0; + l1s.melody1_e2.error_id = Cust_get_pointer((UWORD16 **)&l1s.melody1_e2.ptr_buf, + &l1s.melody1_e2.buffer_size, + l1a_l1s_com.melody1_e2_task.parameters.session_id); + + // Jump the header field + l1s.melody1_e2.error_id = copy_byte_data_from_buffer (l1a_l1s_com.melody1_e2_task.parameters.session_id, + &l1s.melody1_e2.buffer_size, + (UWORD8 **)&l1s.melody1_e2.ptr_buf, + (UWORD16)(l1a_l1s_com.melody1_e2_task.parameters.header_size), + &trash[0]); + + // Wait until the description can be downloaded + *state = M1_ALIGN_40MS_BOUNDARY; + } + else + { + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_MELODY1_E2_STOP_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + // Go to inactive mode + *state = M1_INACTIVE; + } + } + break; + } // M1_WAIT_END_MELODY + } // switch + } // l1s_melody1_e2_manager + + #endif // MELODY_E2 + + #if (L1_CPORT == 1) + /*-------------------------------------------------------*/ + /* l1s_cport_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Cport L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_cport_manager(void) + { + enum states + { + IDLE = 0, + WAIT_CPORT_CONF = 1 + }; + + UWORD8 *state = &l1s.audio_state[L1S_CPORT_STATE]; + xSignalHeaderRec *conf_msg; + API temp_write_var; + + switch(*state) + { + case IDLE: + { + // Check if a cport configuration is not yet in progress in DSP + if (l1s_dsp_com.dsp_ndb_ptr->d_cport_status == (API) (CPORT_R_NONE | CPORT_W_NONE)) + { + // ok, we can start the DSP Cport configuration task + if (l1a_l1s_com.cport_task.parameters.configuration & CPORT_W_CTRL) + l1s_dsp_com.dsp_ndb_ptr->d_cport_ctrl = l1a_l1s_com.cport_task.parameters.ctrl; + + if (l1a_l1s_com.cport_task.parameters.configuration & (CPORT_W_CPCFR1 | CPORT_W_CPCFR2)) + { + temp_write_var = 0; + + if (l1a_l1s_com.cport_task.parameters.configuration & CPORT_W_CPCFR1) + temp_write_var = l1a_l1s_com.cport_task.parameters.cpcfr1 << 8; + + if (l1a_l1s_com.cport_task.parameters.configuration & CPORT_W_CPCFR2) + temp_write_var |= l1a_l1s_com.cport_task.parameters.cpcfr2; + + l1s_dsp_com.dsp_ndb_ptr->a_cport_cfr[0] = temp_write_var; + } + + + if (l1a_l1s_com.cport_task.parameters.configuration & (CPORT_W_CPCFR3 | CPORT_W_CPCFR4)) + { + temp_write_var = 0; + + if (l1a_l1s_com.cport_task.parameters.configuration & CPORT_W_CPCFR3) + temp_write_var = l1a_l1s_com.cport_task.parameters.cpcfr3 << 8; + + if (l1a_l1s_com.cport_task.parameters.configuration & CPORT_W_CPCFR4) + temp_write_var |= l1a_l1s_com.cport_task.parameters.cpcfr4; + + l1s_dsp_com.dsp_ndb_ptr->a_cport_cfr[1] = temp_write_var; + } + + + if (l1a_l1s_com.cport_task.parameters.configuration & (CPORT_W_CPTCTL | CPORT_W_CPTTADDR)) + { + temp_write_var = 0; + + if (l1a_l1s_com.cport_task.parameters.configuration & CPORT_W_CPTCTL) + temp_write_var = l1a_l1s_com.cport_task.parameters.cptctl << 8; + + if (l1a_l1s_com.cport_task.parameters.configuration & CPORT_W_CPTTADDR) + temp_write_var |= l1a_l1s_com.cport_task.parameters.cpttaddr; + + l1s_dsp_com.dsp_ndb_ptr->d_cport_tcl_tadt = temp_write_var; + } + + + if (l1a_l1s_com.cport_task.parameters.configuration & CPORT_W_CPTDAT) + l1s_dsp_com.dsp_ndb_ptr->d_cport_tdat = l1a_l1s_com.cport_task.parameters.cptdat; + + if (l1a_l1s_com.cport_task.parameters.configuration & CPORT_W_CPTVS) + l1s_dsp_com.dsp_ndb_ptr->d_cport_tvs = l1a_l1s_com.cport_task.parameters.cptvs; + + l1s_dsp_com.dsp_ndb_ptr->d_cport_init = l1a_l1s_com.cport_task.parameters.configuration; + + *state = WAIT_CPORT_CONF; + + // Reset the command + l1a_l1s_com.cport_task.command.start = FALSE; + + } + + // else, we do nothing -> check will be done again at next frame + } + break; + + case WAIT_CPORT_CONF: + { + // the DSP acknowledges the L1S start request. + if (l1s_dsp_com.dsp_ndb_ptr->d_cport_init + == l1s_dsp_com.dsp_ndb_ptr->d_cport_status) + { + // task is over + l1s_dsp_com.dsp_ndb_ptr->d_cport_init = (API) (CPORT_R_NONE | CPORT_W_NONE); + l1s_dsp_com.dsp_ndb_ptr->d_cport_ctrl = (API) 0; + l1s_dsp_com.dsp_ndb_ptr->a_cport_cfr[0] = (API) 0; + l1s_dsp_com.dsp_ndb_ptr->a_cport_cfr[1] = (API) 0; + l1s_dsp_com.dsp_ndb_ptr->d_cport_tcl_tadt = (API) 0; + l1s_dsp_com.dsp_ndb_ptr->d_cport_tdat = (API) 0; + l1s_dsp_com.dsp_ndb_ptr->d_cport_tvs = (API) 0; + + // Send the configuration confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(sizeof(T_L1_CPORT_CONFIGURE_CON)); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_CPORT_CONFIGURE_CON; + + //Fill the message + ((T_L1_CPORT_CONFIGURE_CON *)(conf_msg->SigP))->register_id = (l1s_dsp_com.dsp_ndb_ptr->d_cport_status & CPORT_READ_MASK); + ((T_L1_CPORT_CONFIGURE_CON *)(conf_msg->SigP))->register_value = l1s_dsp_com.dsp_ndb_ptr->d_cport_reg_value; + + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + + } // switch + } + #endif // L1_CPORT == 1 + + /*-------------------------------------------------------*/ + /* l1s_audio_it_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Audio it manager */ + /* */ + /*-------------------------------------------------------*/ + void l1s_audio_it_manager(void) + { + // Reset the command : + l1a_l1s_com.audioIt_task.command.start = FALSE; + + // this is an empty state machin only used to generate an + // audio IT to DSP in case another sw entity has changed + // something in the API + } + + + #if (L1_EXTERNAL_AUDIO_VOICE_ONOFF == 1) + /*-------------------------------------------------------*/ + /* l1s_audio_onoff_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : audio on/off L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_audio_onoff_manager(void) + { + enum states + { + IDLE = 0, + WAIT_AUDIO_ONOFF_CON = 1 + }; + + UWORD8 *state = &l1s.audio_state[L1S_AUDIO_ONOFF_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + // Disable the start command + l1a_l1s_com.audio_onoff_task.command.start = FALSE; + + // Update the audio on/off value except if the L1S is already forcing it + if ((l1a_l1s_com.audio_onoff_task.parameters.onoff_value == TRUE) && + (l1a_l1s_com.audio_forced_by_l1s == FALSE)) + // l1a_l1s_com.audio_onoff_task.parameters.onoff_value == AUDIO_ON + { + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= (API) B_AUDIO_ON_START; + } + else if ((l1a_l1s_com.audio_onoff_task.parameters.onoff_value == FALSE) && + (l1a_l1s_com.audio_forced_by_l1s == FALSE)) + // l1a_l1s_com.audio_onoff_task.parameters.onoff_value == AUDIO_OFF + { + l1s_dsp_com.dsp_ndb_ptr->d_toneskb_init |= (API) B_AUDIO_OFF_STOP; + } + + *state = WAIT_AUDIO_ONOFF_CON; + } + break; + + case WAIT_AUDIO_ONOFF_CON: + { + // The L1 has to send the confirmation message even if the request was to disable the audio on/off + // and it is still forced. This confirmation message is only to acknowledge the reception of the message, + // it is not correlated to the state of the audio into the DSP. + + // Allocate memory for confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AUDIO_ONOFF_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + break; + + } // switch + } + #endif + + #if (L1_EXT_MCU_AUDIO_VOICE_ONOFF == 1) + /*-------------------------------------------------------*/ + /* l1s_audio_onoff_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : audio on/off L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_audio_voice_onoff_manager(void) + { + enum states + { + IDLE = 0, + WAIT_AUDIO_ONOFF_CON = 1 + }; + + UWORD8 *state = &l1s.audio_state[L1S_AUDIO_ONOFF_STATE]; + UWORD8 *ul_state = &l1s.audio_state[L1S_AUDIO_UL_ONOFF_STATE]; + UWORD8 *dl_state = &l1s.audio_state[L1S_AUDIO_DL_ONOFF_STATE]; + UWORD8 *vul_state = &l1a_l1s_com.audio_onoff_task.parameters.vul_onoff_value; + UWORD8 *vdl_state = &l1a_l1s_com.audio_onoff_task.parameters.vdl_onoff_value; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + // Disable the start command + l1a_l1s_com.audio_onoff_task.command.start = FALSE; + + // Update the Voice Uplink count + if(l1a_l1s_com.audio_onoff_task.parameters.vul_onoff_value == L1_AUDIO_VOICE_UL_ON) + { + l1s.audio_on_off_ctl.l1_audio_switch_on_ul_request++; + } + else if(l1a_l1s_com.audio_onoff_task.parameters.vul_onoff_value == L1_AUDIO_VOICE_UL_OFF ) + { + if(l1s.audio_on_off_ctl.l1_audio_switch_on_ul_request) + l1s.audio_on_off_ctl.l1_audio_switch_on_ul_request--; + } + + // Update the Voice Downlink count + if(l1a_l1s_com.audio_onoff_task.parameters.vdl_onoff_value == L1_AUDIO_VOICE_DL_ON) + { + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request++; + } + else if(l1a_l1s_com.audio_onoff_task.parameters.vdl_onoff_value == L1_AUDIO_VOICE_DL_OFF) + { + if(l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request) + l1s.audio_on_off_ctl.l1_audio_switch_on_dl_request--; + } + + *state = WAIT_AUDIO_ONOFF_CON; + } + break; + + case WAIT_AUDIO_ONOFF_CON: + { + // For Voice Uplink or Downlink switch on is done only after the VUL or VDL is actually switched ON + // For switch off there could be potentially other tasks that use the VUL or VDL and hence a blind + // confirmation is given + if( (((*vul_state == L1_AUDIO_VOICE_UL_ON) && (*ul_state == L1_AUDIO_UL_ON)) || + (*vul_state == L1_AUDIO_VOICE_UL_OFF) || (*vul_state == L1_AUDIO_VOICE_UL_NO_ACTION)) && + (((*vdl_state == L1_AUDIO_VOICE_DL_ON) && (*dl_state == L1_AUDIO_DL_ON)) || + (*vdl_state == L1_AUDIO_VOICE_DL_OFF) || (*vdl_state == L1_AUDIO_VOICE_DL_NO_ACTION))) + { + // The L1 has to send the confirmation message even if the request was to disable the audio on/off + // and it is still forced. This confirmation message is only to acknowledge the reception of the message, + // it is not correlated to the state of the audio into the DSP. + + // Allocate memory for confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AUDIO_ONOFF_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + + } // switch + } + #endif + + #if (L1_STEREOPATH == 1) + /*-------------------------------------------------------*/ + /* l1s_stereopath_drv_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : Generic Stereopath L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ +#if (CODE_VERSION == SIMULATION) + void l1s_stereopath_drv_manager(void) + { + enum states + { + IDLE=0, + WAIT_STOP + }; + + xSignalHeaderRec *conf_msg; + + if(l1a_l1s_com.stereopath_drv_task.command.start==TRUE) + { + // reset the command + l1a_l1s_com.stereopath_drv_task.command.start=FALSE; + + // change state + l1s.audio_state[L1S_STEREOPATH_DRV_STATE]=WAIT_STOP; + + // send confirmation to the L1A + conf_msg=os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode=L1_STEREOPATH_DRV_START_CON; + os_send_sig(conf_msg,L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + } + + if(l1a_l1s_com.stereopath_drv_task.command.stop==TRUE) + { + // reset the command + l1a_l1s_com.stereopath_drv_task.command.stop=FALSE; + + // change state + l1s.audio_state[L1S_STEREOPATH_DRV_STATE]=IDLE; + + // send confirmation to the L1A + conf_msg=os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode=L1_STEREOPATH_DRV_STOP_CON; + os_send_sig(conf_msg,L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + } + } +#else // CODE_VERSION + void l1s_stereopath_drv_manager(void) + { + //sundi: change in the enum values for the ABB states +#if (ANLG_FAM == 11) + enum states + { + IDLE = 0, + ABB_CONFIGURE_DONE = 1, + ABB_START = 2, + ABB_START_DONE = 3, + DMA_CONF = 4, + CPORT_CONF = 5, + CPORT_START = 6, + WAIT_STOP = 7, + CPORT_STOP = 8, + ABB_STOP_DONE = 9, + DMA_STOP = 10, + STOP_CON = 11 + }; +#else + enum states + { + IDLE = 0, + ABB_START = 1, + DMA_CONF = 2, + CPORT_CONF = 3, + CPORT_START = 4, + WAIT_STOP = 5, + CPORT_STOP = 6, + DMA_STOP = 7, + STOP_CON = 8 + }; +#endif + + UWORD8 *state = &l1s.audio_state[L1S_STEREOPATH_DRV_STATE]; + xSignalHeaderRec *conf_msg; + static UWORD16 wait_pll_on_counter = L1S_STEREOPATH_DRV_WAIT_PLL_COUNTER; + + // This is the default parameters structure for a DMA channel + static T_DMA_TYPE_CHANNEL_PARAMETER d_dma_channel_parameter= + { + f_dma_default_call_back_it, // call back function + C_DMA_CHANNEL_2, // channel number + C_DMA_CHANNEL_NOT_SECURED, // channel security + C_DMA_DATA_S16, // data type + C_DMA_IMIF_PORT, // source port + C_DMA_CHANNEL_NOT_PACKED, // source packing + C_DMA_CHANNEL_SINGLE, // source bursting + C_DMA_RHEA_PORT, // destination port + C_DMA_CHANNEL_NOT_PACKED, // destination packing + C_DMA_CHANNEL_SINGLE, // destination bursting + C_DMA_CHANNEL_CPORT_TX, // hw synchro + C_DMA_CHANNEL_PRIORITY_HIGH, // channel priority + C_DMA_CHANNEL_AUTO_INIT_ON, // autoinit option + C_DMA_CHANNEL_FIFO_FLUSH_OFF, // fifo flush option + C_DMA_CHANNEL_ADDR_MODE_POST_INC, // source addressing mode + C_DMA_CHANNEL_ADDR_MODE_CONSTANT, // destination addressing mode + C_DMA_CHANNEL_IT_TIME_OUT_ON, // IT time out control + C_DMA_CHANNEL_IT_DROP_ON, // IT drop control + C_DMA_CHANNEL_IT_FRAME_OFF, // IT frame control + C_DMA_CHANNEL_IT_BLOCK_ON, // IT block control + C_DMA_CHANNEL_IT_HALF_BLOCK_ON, // IT half_block control + 0, // source start address + 0xFFFFD800L, // destination start address + 2, // element number + 0 // frame number + }; + + switch(*state) + { + case IDLE: + { +#if (ANLG_FAM == 11) + //Sundi:Set the abb_write_done variable to 0. This variable gets set in I2C call back fn. + l1s.abb_write_done = 0; +#endif + // Configure the ABB audio part in order to get the correct clock for the Cport + l1s_stereopath_drv_config_ABB(l1a_l1s_com.stereopath_drv_task.parameters.mono_stereo, + l1a_l1s_com.stereopath_drv_task.parameters.sampling_frequency); + +#if (ANLG_FAM == 11) + // Must wait for the PLL to be locked. The value of 1 is subtracted from the standard value + // in order to take care of the extra state added - ABB_CONFIGURE_DONE. + wait_pll_on_counter = L1S_STEREOPATH_DRV_WAIT_PLL_COUNTER - 1; +#else + // Must wait for the PLL to be locked. + wait_pll_on_counter = L1S_STEREOPATH_DRV_WAIT_PLL_COUNTER; + +#endif + + // Reset the command + l1a_l1s_com.stereopath_drv_task.command.start = FALSE; +#if (ANLG_FAM == 11) + //sundi: change the state to ABB_CONFIGURE_DONE to wait for I2C write ACK. + *state = ABB_CONFIGURE_DONE; + +#else + *state = ABB_START; +#endif + } + break; +#if (ANLG_FAM == 11) + //sundi: add the new state + case ABB_CONFIGURE_DONE: + { + //sundi: continue to be in this state till an I2C write ACK comes. + //abb_write_done is set to 1 by the call back function + //that is passed to the I2C write function. + if (l1s.abb_write_done == 1) + { + *state = ABB_START; + + } + } + break; +#endif + case ABB_START: + { + if (wait_pll_on_counter == 0) + { +#if (ANLG_FAM == 11) + //Sundi:Set the abb_write_done variable to 0. This variable gets set in I2C call back fn. + l1s.abb_write_done = 0; +#endif + // PLL is locked, the ABB can be started + l1s_stereopath_drv_start_ABB(); +#if (ANLG_FAM == 11) + //sundi: Change state to ABB_START_DONE + *state = ABB_START_DONE; +#else + *state = DMA_CONF; +#endif + } + else + wait_pll_on_counter--; + } + break; +#if (ANLG_FAM == 11) + //sundi: Add the new state ABB_START_DONE + case ABB_START_DONE: + { + //sundi: continue to be in this state till an I2C write ACK comes. + //abb_write_done is set to 1 by the call back function + //that is passed to the I2C write function. + if (l1s.abb_write_done == 1) + { + *state = DMA_CONF; + + } + } + break; +#endif + // After 1 TDMA frame, DSP has necessarily programmed ABB + case DMA_CONF: + { + // update the DMA defaut parameters structure with received parameters + d_dma_channel_parameter.pf_dma_call_back_address = (T_DMA_CALL_BACK) l1a_l1s_com.stereopath_drv_task.parameters.DMA_int_callback_fct; + d_dma_channel_parameter.d_dma_channel_number = (T_DMA_TYPE_CHANNEL_NUMBER) l1a_l1s_com.stereopath_drv_task.parameters.DMA_channel_number; + d_dma_channel_parameter.d_dma_channel_data_type = (T_DMA_TYPE_CHANNEL_DATA_TYPE) l1a_l1s_com.stereopath_drv_task.parameters.data_type; + d_dma_channel_parameter.d_dma_channel_src_port = (T_DMA_TYPE_CHANNEL_PORT) l1a_l1s_com.stereopath_drv_task.parameters.source_port; + d_dma_channel_parameter.d_dma_channel_src_address = (SYS_UWORD32) l1a_l1s_com.stereopath_drv_task.parameters.source_buffer_address; + d_dma_channel_parameter.d_dma_channel_element_number = (SYS_UWORD16) l1a_l1s_com.stereopath_drv_task.parameters.element_number; + d_dma_channel_parameter.d_dma_channel_frame_number = (SYS_UWORD16) l1a_l1s_com.stereopath_drv_task.parameters.frame_number; + + // Configure and start the DMA channel + l1s_stereopath_drv_start_DMA(d_dma_channel_parameter,l1a_l1s_com.stereopath_drv_task.parameters.DMA_allocation); + + // Reset the Cport + l1s_stereopath_drv_reset_CPORT(); + + *state = CPORT_CONF; + + } + break; + + case CPORT_CONF: + { + // Configure the Cport + l1s_stereopath_drv_config_CPORT(); + + *state = CPORT_START; + + } + break; + + case CPORT_START: + { + // Start the Cport + l1s_stereopath_drv_start_CPORT(); + + // Send the start confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_STEREOPATH_DRV_START_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = WAIT_STOP; + } + break; + + case WAIT_STOP: + { + /* OUTEN registers have been updated */ + if(l1a_l1s_com.outen_cfg_task.command_requested != l1a_l1s_com.outen_cfg_task.command_commited) + { + l1s_stereopath_callback(L1S_TWL3029_STEROPATH_START); + } + if (l1a_l1s_com.stereopath_drv_task.command.stop) + { + // Stop command received + + // Reset the Cport + l1s_stereopath_drv_reset_CPORT(); + + *state = CPORT_STOP; + + // Disable the stop command + l1a_l1s_com.stereopath_drv_task.command.stop = FALSE; + } + } + break; + + case CPORT_STOP: + { + // Stop the Cport + l1s_stereopath_drv_stop_CPORT(); +#if (ANLG_FAM == 11) + //Set the abb_write_done variable to 0. This variable gets set in I2C call back fn. + l1s.abb_write_done = 0; +#endif + // Stop the ABB + l1s_stereopath_drv_stop_ABB(); +#if (ANLG_FAM == 11) + //sundi: change state to ABB_STOP_DONE + *state = ABB_STOP_DONE; +#else + *state = DMA_STOP; +#endif + } + break; +#if (ANLG_FAM == 11) + //sundi: Add a new state ABB_STOP_DONE + case ABB_STOP_DONE: + { + //sundi:continue to be in this state till an I2C write ACK comes. + //abb_write_done is set to 1 by the call back function + //that is passed to the I2C write function. + if (l1s.abb_write_done == 1) + { + *state = DMA_STOP; + } + } + break; +#endif + case DMA_STOP: + { + // Reset the DMA channel + l1s_stereopath_drv_reset_DMA(d_dma_channel_parameter); + + *state = STOP_CON; + } + break; + + case STOP_CON: + { + // Send the stop confirmation message + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_STEREOPATH_DRV_STOP_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR); + + *state = IDLE; + } + break; + + } // switch + } +#endif // CODE_VERSION + #endif // L1_STEREOPATH == 1 + + #if (L1_ANR == 1) + /*-------------------------------------------------------*/ + /* l1s_anr_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : ANR L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_anr_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_ACK = 1 + }; + + UWORD8 *state = &l1s.audio_state[L1S_ANR_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + if (l1a_l1s_com.anr_task.parameters.anr_enable) + { + // ANR start requested + //-------------------- + + // Set ANR parameters + l1s_dsp_com.dsp_ndb_ptr->d_anr_min_gain = l1a_l1s_com.anr_task.parameters.min_gain; + l1s_dsp_com.dsp_ndb_ptr->d_anr_div_factor_shift = l1a_l1s_com.anr_task.parameters.div_factor_shift; + l1s_dsp_com.dsp_ndb_ptr->d_anr_ns_level = l1a_l1s_com.anr_task.parameters.ns_level; +#if (DSP == 38) || (DSP == 39) + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_ANR_UL_STATE) +#else + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_ANR_STATE) +#endif + { + // ANR already started: update the DSP ANR module + l1s_dsp_com.dsp_ndb_ptr->d_anr_ul_ctrl = B_ANR_FULL_UPDATE; + + *state = WAIT_DSP_ACK; + } + else + { + // Set ANR constants + l1s_dsp_com.dsp_ndb_ptr->d_anr_vad_thr = C_ANR_VAD_THR; + l1s_dsp_com.dsp_ndb_ptr->d_anr_gamma_slow = C_ANR_GAMMA_SLOW; + l1s_dsp_com.dsp_ndb_ptr->d_anr_gamma_fast = C_ANR_GAMMA_FAST; + l1s_dsp_com.dsp_ndb_ptr->d_anr_gamma_gain_slow = C_ANR_GAMMA_GAIN_SLOW; + l1s_dsp_com.dsp_ndb_ptr->d_anr_gamma_gain_fast = C_ANR_GAMMA_GAIN_FAST; + l1s_dsp_com.dsp_ndb_ptr->d_anr_thr2 = C_ANR_THR2; + l1s_dsp_com.dsp_ndb_ptr->d_anr_thr4 = C_ANR_THR4; + l1s_dsp_com.dsp_ndb_ptr->d_anr_thr5 = C_ANR_THR5; + l1s_dsp_com.dsp_ndb_ptr->d_anr_mean_ratio_thr1 = C_ANR_MEAN_RATIO_THR1; + l1s_dsp_com.dsp_ndb_ptr->d_anr_mean_ratio_thr2 = C_ANR_MEAN_RATIO_THR2; + l1s_dsp_com.dsp_ndb_ptr->d_anr_mean_ratio_thr3 = C_ANR_MEAN_RATIO_THR3; + l1s_dsp_com.dsp_ndb_ptr->d_anr_mean_ratio_thr4 = C_ANR_MEAN_RATIO_THR4; + + // Enable the DSP ANR module + l1s_dsp_com.dsp_ndb_ptr->d_anr_ul_ctrl = B_ANR_ENABLE; + + *state = WAIT_DSP_ACK; + } + } + else // ANR start requested + { + // ANR stop requested + //------------------- +#if (DSP == 38) || (DSP == 39) + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_ANR_UL_STATE) +#else + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_ANR_STATE) +#endif + { + // Disable the DSP ANR module + l1s_dsp_com.dsp_ndb_ptr->d_anr_ul_ctrl = B_ANR_DISABLE; + + *state = WAIT_DSP_ACK; + } + else + { + // ANR already disabled: confirm + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_ANR_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + } + } + + // Disable the update command + l1a_l1s_com.anr_task.command.update = FALSE; + } + break; + + case WAIT_DSP_ACK: + { + // The DSP acknowledged the L1S command + if (l1s_dsp_com.dsp_ndb_ptr->d_anr_ul_ctrl == 0) + { + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_ANR_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + #endif // L1_ANR == 1 + + #if (L1_ANR == 2) + /*-------------------------------------------------------*/ + /* l1s_anr_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : ANR 2.13 L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_anr_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_ACK = 1 + }; + + UWORD8 *state = &l1s.audio_state[L1S_ANR_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + if (l1a_l1s_com.anr_task.parameters.anr_ul_control == ANR_START || + l1a_l1s_com.anr_task.parameters.anr_ul_control == ANR_UPDATE ) + { + // ANR start or update requested + //------------------------------ + + // Set ANR parameters + l1s_dsp_com.dsp_ndb_ptr->d_anr_control = l1a_l1s_com.anr_task.parameters.control; + l1s_dsp_com.dsp_ndb_ptr->d_anr_ns_level = l1a_l1s_com.anr_task.parameters.ns_level; + l1s_dsp_com.dsp_ndb_ptr->d_anr_tone_ene_th = l1a_l1s_com.anr_task.parameters.tone_ene_th; + l1s_dsp_com.dsp_ndb_ptr->d_anr_tone_cnt_th = l1a_l1s_com.anr_task.parameters.tone_cnt_th; + + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_ANR_UL_STATE) + { + // ANR already started: update the DSP ANR module + l1s_dsp_com.dsp_ndb_ptr->d_anr_ul_ctrl = B_ANR_FULL_UPDATE; + l1s.anr_ul_action = ANR_UPDATED; + + *state = WAIT_DSP_ACK; + } + else + { + // Enable the DSP ANR module + l1s_dsp_com.dsp_ndb_ptr->d_anr_ul_ctrl = B_ANR_ENABLE; + l1s.anr_ul_action = ANR_STARTED; + + *state = WAIT_DSP_ACK; + } + } + + + if (l1a_l1s_com.anr_task.parameters.anr_ul_control == ANR_STOP) + { + // ANR stop requested + //------------------- + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_ANR_UL_STATE) + { + // Disable the DSP ANR module + l1s_dsp_com.dsp_ndb_ptr->d_anr_ul_ctrl = B_ANR_DISABLE; + l1s.anr_ul_action = ANR_STOPPED; + + *state = WAIT_DSP_ACK; + } + else + { + // ANR already disabled: confirm + // Allocate confirmation message... + l1s.anr_ul_action = ANR_NO_ACTION; + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AQI_ANR_CON; + ((T_L1_AQI_ANR_CON *)(conf_msg->SigP))->anr_ul_action = l1s.anr_ul_action; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + } + } + + // Disable the update command + l1a_l1s_com.anr_task.command.update = FALSE; + } + break; + + case WAIT_DSP_ACK: + { + // The DSP acknowledged the L1S command + if (l1s_dsp_com.dsp_ndb_ptr->d_anr_ul_ctrl == 0) + { + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AQI_ANR_CON; + ((T_L1_AQI_ANR_CON *)(conf_msg->SigP))->anr_ul_action = l1s.anr_ul_action; + + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + #endif // L1_ANR == 2 + + #if (L1_IIR == 1) + /*-------------------------------------------------------*/ + /* l1s_iir_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : IIR L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_iir_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_ACK = 1 + }; + + UWORD8 *state = &l1s.audio_state[L1S_IIR_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + if (l1a_l1s_com.iir_task.parameters.iir_enable) + { + UWORD8 i; + + // IIR start requested + //-------------------- + + // Set IIR parameters + l1s_dsp_com.dsp_ndb_ptr->d_iir_nb_iir_blocks = l1a_l1s_com.iir_task.parameters.nb_iir_blocks; + + for (i=0; i < (l1a_l1s_com.iir_task.parameters.nb_iir_blocks * 8); i++) + l1s_dsp_com.dsp_ndb_ptr->a_iir_iir_coefs[i] = l1a_l1s_com.iir_task.parameters.iir_coefs[i]; + + l1s_dsp_com.dsp_ndb_ptr->d_iir_nb_fir_coefs = l1a_l1s_com.iir_task.parameters.nb_fir_coefs; + + for (i=0; i < l1a_l1s_com.iir_task.parameters.nb_fir_coefs; i++) + l1s_dsp_com.dsp_ndb_ptr->a_iir_fir_coefs[i] = l1a_l1s_com.iir_task.parameters.fir_coefs[i]; + + l1s_dsp_com.dsp_ndb_ptr->d_iir_input_scaling = l1a_l1s_com.iir_task.parameters.input_scaling; + l1s_dsp_com.dsp_ndb_ptr->d_iir_fir_scaling = l1a_l1s_com.iir_task.parameters.fir_scaling; + l1s_dsp_com.dsp_ndb_ptr->d_iir_input_gain_scaling = l1a_l1s_com.iir_task.parameters.input_gain_scaling; + l1s_dsp_com.dsp_ndb_ptr->d_iir_output_gain_scaling = l1a_l1s_com.iir_task.parameters.output_gain_scaling; + l1s_dsp_com.dsp_ndb_ptr->d_iir_output_gain = l1a_l1s_com.iir_task.parameters.output_gain; + l1s_dsp_com.dsp_ndb_ptr->d_iir_feedback = l1a_l1s_com.iir_task.parameters.feedback; + +#if (DSP == 38) || (DSP == 39) + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_IIR_DL_STATE) +#else + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_IIR_STATE) +#endif + { + // IIR already started: update the DSP IIR module + l1s_dsp_com.dsp_ndb_ptr->d_iir_dl_ctrl = B_IIR_FULL_UPDATE; + + *state = WAIT_DSP_ACK; + } + else + { + // Enable the DSP IIR module + l1s_dsp_com.dsp_ndb_ptr->d_iir_dl_ctrl = B_IIR_ENABLE; + + *state = WAIT_DSP_ACK; + } + } + else // IIR start requested + { + // IIR stop requested + //------------------- +#if (DSP == 38) || (DSP == 39) + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_IIR_DL_STATE) +#else + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_IIR_STATE) +#endif + { + // Disable the DSP IIR module + l1s_dsp_com.dsp_ndb_ptr->d_iir_dl_ctrl = B_IIR_DISABLE; + + *state = WAIT_DSP_ACK; + } + else + { + // IIR already disabled: confirm + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_IIR_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + } + } + + // Disable the update command + l1a_l1s_com.iir_task.command.update = FALSE; + } + break; + + case WAIT_DSP_ACK: + { + // The DSP acknowledged the L1S command + if (l1s_dsp_com.dsp_ndb_ptr->d_iir_dl_ctrl == 0) + { + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_IIR_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + #endif // L1_IIR == 1 + + #if (L1_AGC_UL == 1) + /*-------------------------------------------------------*/ + /* l1s_agc_ul_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : AGC_UL L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_agc_ul_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_ACK = 1 + }; + + UWORD8 *state = &l1s.audio_state[L1S_AGC_UL_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + if (l1a_l1s_com.agc_ul_task.parameters.agc_ul_control == AGC_START || + l1a_l1s_com.agc_ul_task.parameters.agc_ul_control == AGC_UPDATE) + { + // AGC_UL start or update requested + //--------------------------------- + + // Set AGC UL parameters + + l1_audio_agc_ul_copy_params(); + + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_AGC_UL_STATE) + { + // AGC UL already started: update the DSP AGC UL module + l1s_dsp_com.dsp_ndb_ptr->d_agc_ul_ctrl = B_AGC_FULL_UPDATE; + l1s.agc_ul_action = AGC_UPDATED; + + *state = WAIT_DSP_ACK; + } + else + { + + // Enable the DSP AGC UL module + l1s_dsp_com.dsp_ndb_ptr->d_agc_ul_ctrl = B_AGC_ENABLE; + l1s.agc_ul_action = AGC_STARTED; + + *state = WAIT_DSP_ACK; + } + } + + if (l1a_l1s_com.agc_ul_task.parameters.agc_ul_control == AGC_STOP) + { + // AGC UL stop requested + //------------------- + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_AGC_UL_STATE) + { + // Disable the DSP AGC UL module + l1s_dsp_com.dsp_ndb_ptr->d_agc_ul_ctrl = B_AGC_DISABLE; + l1s.agc_ul_action = AGC_STOPPED; + + *state = WAIT_DSP_ACK; + } + else + { + // AGC UL already disabled: confirm + // Allocate confirmation message... + l1s.agc_ul_action = AGC_NO_ACTION; + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AQI_AGC_UL_CON; + ((T_L1_AQI_AGC_UL_CON *)(conf_msg->SigP))->agc_ul_action = l1s.agc_ul_action; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + } + } + + // Disable the update command + l1a_l1s_com.agc_ul_task.command.update = FALSE; + } + break; + + case WAIT_DSP_ACK: + { + // The DSP acknowledged the L1S command + if (l1s_dsp_com.dsp_ndb_ptr->d_agc_ul_ctrl == 0) + { + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AQI_AGC_UL_CON; + ((T_L1_AQI_AGC_UL_CON *)(conf_msg->SigP))->agc_ul_action = l1s.agc_ul_action; + + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + #endif // L1_AGC_UL == 1 + + + #if (L1_AGC_DL == 1) + /*-------------------------------------------------------*/ + /* l1s_agc_dl_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : AGC DL L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_agc_dl_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_ACK = 1 + }; + + UWORD8 *state = &l1s.audio_state[L1S_AGC_DL_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + if (l1a_l1s_com.agc_dl_task.parameters.agc_dl_control == AGC_START || + l1a_l1s_com.agc_dl_task.parameters.agc_dl_control == AGC_UPDATE) + { + // AGC DL start or update requested + //--------------------------------- + + // Set AGC DL parameters + + l1_audio_agc_dl_copy_params(); + + + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_AGC_DL_STATE) + { + // AGC DL already started: update the DSP AGC DL module + l1s_dsp_com.dsp_ndb_ptr->d_agc_dl_ctrl = B_AGC_FULL_UPDATE; + l1s.agc_dl_action = AGC_UPDATED; + + *state = WAIT_DSP_ACK; + } + else + { + + // Enable the DSP AGC DL module + l1s_dsp_com.dsp_ndb_ptr->d_agc_dl_ctrl = B_AGC_ENABLE; + l1s.agc_dl_action = AGC_STARTED; + + *state = WAIT_DSP_ACK; + } + } + + if (l1a_l1s_com.agc_dl_task.parameters.agc_dl_control == AGC_STOP) + { + // AGC DL stop requested + //------------------- + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_AGC_DL_STATE) + { + // Disable the DSP AGC DL module + l1s_dsp_com.dsp_ndb_ptr->d_agc_dl_ctrl = B_AGC_DISABLE; + l1s.agc_dl_action = AGC_STOPPED; + + *state = WAIT_DSP_ACK; + } + else + { + // AGC DL already disabled: confirm + // Allocate confirmation message... + l1s.agc_dl_action = AGC_NO_ACTION; + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AQI_AGC_DL_CON; + ((T_L1_AQI_AGC_DL_CON *)(conf_msg->SigP))->agc_dl_action = l1s.agc_dl_action; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + } + } + + // Disable the update command + l1a_l1s_com.agc_dl_task.command.update = FALSE; + } + break; + + case WAIT_DSP_ACK: + { + // The DSP acknowledged the L1S command + if (l1s_dsp_com.dsp_ndb_ptr->d_agc_dl_ctrl == 0) + { + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AQI_AGC_DL_CON; + ((T_L1_AQI_AGC_DL_CON *)(conf_msg->SigP))->agc_dl_action = l1s.agc_dl_action; + + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + #endif // L1_AGC_DL == 1 + +#if (L1_IIR == 2) + /*-------------------------------------------------------*/ + /* l1s_iir_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : IIR L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_iir_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_ACK = 1 + }; + + UWORD8 *state = &l1s.audio_state[L1S_IIR_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + if (l1a_l1s_com.iir_task.parameters->iir_dl_control == IIR_START || + l1a_l1s_com.iir_task.parameters->iir_dl_control == IIR_UPDATE ) + { + // IIR start or update requested + //------------------------------ + + l1_audio_iir4x_copy_params(); + + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_IIR_DL_STATE) + { + // IIR already started: update the DSP IIR module + l1s_dsp_com.dsp_ndb_ptr->d_iir_dl_ctrl = B_IIR_FULL_UPDATE; + l1s.iir_dl_action = IIR_UPDATED; + + *state = WAIT_DSP_ACK; + } + else + { + // Enable the DSP IIR module + l1s_dsp_com.dsp_ndb_ptr->d_iir_dl_ctrl = B_IIR_ENABLE; + l1s.iir_dl_action = IIR_STARTED; + + *state = WAIT_DSP_ACK; + } + } + + if (l1a_l1s_com.iir_task.parameters->iir_dl_control == IIR_STOP) + { + // IIR stop requested + //------------------- + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_IIR_DL_STATE) + { + // Disable the DSP IIR module + l1s_dsp_com.dsp_ndb_ptr->d_iir_dl_ctrl = B_IIR_DISABLE; + l1s.iir_dl_action = IIR_STOPPED; + + *state = WAIT_DSP_ACK; + } + else + { + // IIR already disabled: confirm + // Allocate confirmation message... + l1s.iir_dl_action = IIR_NO_ACTION; + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AQI_IIR_DL_CON; + ((T_L1_AQI_IIR_DL_CON *)(conf_msg->SigP))->iir_dl_action = l1s.iir_dl_action; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + } + } + + // Disable the update command + l1a_l1s_com.iir_task.command.update = FALSE; + } + break; + + case WAIT_DSP_ACK: + { + // The DSP acknowledged the L1S command + if (l1s_dsp_com.dsp_ndb_ptr->d_iir_dl_ctrl == 0) + { + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AQI_IIR_DL_CON; + ((T_L1_AQI_IIR_DL_CON *)(conf_msg->SigP))->iir_dl_action = l1s.iir_dl_action; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + #endif // L1_IIR == 2 + + #if (L1_WCM == 1) + /*-------------------------------------------------------*/ + /* l1s_wcm_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : WCM L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_wcm_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_ACK = 1 + }; + + UWORD8 *state = &l1s.audio_state[L1S_WCM_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + if (l1a_l1s_com.wcm_task.parameters->wcm_control == WCM_START || + l1a_l1s_com.wcm_task.parameters->wcm_control == WCM_UPDATE ) + { + UWORD8 i; + + // WCM start or update requested + //------------------------------ + + l1s_dsp_com.dsp_ndb_ptr->d_wcm_mode = l1a_l1s_com.wcm_task.parameters->parameters.mode; + l1s_dsp_com.dsp_ndb_ptr->d_wcm_frame_size = l1a_l1s_com.wcm_task.parameters->parameters.frame_size; + l1s_dsp_com.dsp_ndb_ptr->d_wcm_num_sub_frames = l1a_l1s_com.wcm_task.parameters->parameters.num_sub_frames; + l1s_dsp_com.dsp_ndb_ptr->d_wcm_ratio = l1a_l1s_com.wcm_task.parameters->parameters.ratio; + l1s_dsp_com.dsp_ndb_ptr->d_wcm_threshold = l1a_l1s_com.wcm_task.parameters->parameters.threshold; + + for (i=0; i < (WCM_1X_GAIN_TABLE_LENGTH); i++) + { + l1s_dsp_com.dsp_ndb_ptr->a_wcm_gain[i] = l1a_l1s_com.wcm_task.parameters->parameters.gain[i]; + } + + if (l1s_dsp_com.dsp_ndb_ptr->d_audio_apps_status & B_WCM_STATE) + { + // WCM already started: update the DSP WCM module + l1s_dsp_com.dsp_ndb_ptr->d_audio_apps_ctrl = B_WCM_FULL_UPDATE; + l1s.wcm_action = WCM_UPDATED; + + *state = WAIT_DSP_ACK; + } + else + { + // Enable the DSP WCM module + l1s_dsp_com.dsp_ndb_ptr->d_audio_apps_ctrl = B_WCM_ENABLE; + l1s.wcm_action = WCM_STARTED; + + *state = WAIT_DSP_ACK; + } + } + + if (l1a_l1s_com.wcm_task.parameters->wcm_control == WCM_STOP) + { + // WCM stop requested + //------------------- + if (l1s_dsp_com.dsp_ndb_ptr->d_audio_apps_status & B_WCM_STATE) + { + // Disable the DSP WCM module + l1s_dsp_com.dsp_ndb_ptr->d_audio_apps_ctrl = B_WCM_DISABLE; + l1s.wcm_action = WCM_STOPPED; + + *state = WAIT_DSP_ACK; + } + else + { + // WCM already disabled: confirm + // Allocate confirmation message... + l1s.wcm_action = WCM_NO_ACTION; + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AQI_WCM_CON; + ((T_L1_AQI_WCM_CON *)(conf_msg->SigP))->wcm_action = l1s.wcm_action; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + } + } + + // Disable the update command + l1a_l1s_com.wcm_task.command.update = FALSE; + } + break; + + case WAIT_DSP_ACK: + { + // The DSP acknowledged the L1S command + if (l1s_dsp_com.dsp_ndb_ptr->d_audio_apps_ctrl == 0) + { + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AQI_WCM_CON; + ((T_L1_AQI_WCM_CON *)(conf_msg->SigP))->wcm_action = l1s.wcm_action; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + #endif // L1_WCM == 2 + +#if (L1_DRC == 1) + /*-------------------------------------------------------*/ + /* l1s_drc_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : DRC L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_drc_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_ACK = 1 + }; + + UWORD8 *state = &l1s.audio_state[L1S_DRC_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + if (l1a_l1s_com.drc_task.parameters->drc_dl_control == DRC_START || + l1a_l1s_com.drc_task.parameters->drc_dl_control == DRC_UPDATE) + { + // DRC start or update requested + //------------------------------ + + l1_audio_drc1x_copy_params(); + + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_DRC_DL_STATE) + { + // DRC already started: update the DSP DRC module + l1s_dsp_com.dsp_ndb_ptr->d_drc_dl_ctrl = B_DRC_FULL_UPDATE; + l1s.drc_dl_action = DRC_UPDATED; + + *state = WAIT_DSP_ACK; + } + else + { + // Enable the DSP DRC module + l1s_dsp_com.dsp_ndb_ptr->d_drc_dl_ctrl = B_DRC_ENABLE; + l1s.drc_dl_action = DRC_STARTED; + + *state = WAIT_DSP_ACK; + } + } + + if (l1a_l1s_com.drc_task.parameters->drc_dl_control == DRC_STOP) + { + // DRC stop requested + //------------------- + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_DRC_DL_STATE) + { + // Disable the DSP DRC module + l1s_dsp_com.dsp_ndb_ptr->d_drc_dl_ctrl = B_DRC_DISABLE; + l1s.drc_dl_action = DRC_STOPPED; + + *state = WAIT_DSP_ACK; + } + else + { + // DRC already disabled: confirm + // Allocate confirmation message... + l1s.drc_dl_action = DRC_NO_ACTION; + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AQI_DRC_CON; + ((T_L1_AQI_DRC_CON *)(conf_msg->SigP))->drc_dl_action = l1s.drc_dl_action; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + } + } + + // Disable the update command + l1a_l1s_com.drc_task.command.update = FALSE; + } + break; + + case WAIT_DSP_ACK: + { + // The DSP acknowledged the L1S command + if (l1s_dsp_com.dsp_ndb_ptr->d_drc_dl_ctrl == 0) + { + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_AQI_DRC_CON; + ((T_L1_AQI_DRC_CON *)(conf_msg->SigP))->drc_dl_action = l1s.drc_dl_action; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + #endif // L1_DRC == 1 + + #if (L1_LIMITER == 1) + /*-------------------------------------------------------*/ + /* l1s_limiter_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : LIMITER L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_limiter_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_ACK = 1, + WAIT_PARTIAL_UPDATE = 2 + }; + + UWORD8 *state = &l1s.audio_state[L1S_LIMITER_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + /* LIMITER update command */ + /*------------------------*/ + + if (l1a_l1s_com.limiter_task.command.update) + { + if (l1a_l1s_com.limiter_task.parameters.limiter_enable) + { + UWORD8 i; + + // LIMITER start requested + //------------------------ + + // Set LIMITER parameters + l1s_dsp_com.dsp_ndb_ptr->d_lim_block_size = l1a_l1s_com.limiter_task.parameters.block_size; + l1s_dsp_com.dsp_ndb_ptr->d_lim_slope_update_period = l1a_l1s_com.limiter_task.parameters.slope_update_period; + l1s_dsp_com.dsp_ndb_ptr->d_lim_nb_fir_coefs = l1a_l1s_com.limiter_task.parameters.nb_fir_coefs; + + for (i=0; i < ((l1a_l1s_com.limiter_task.parameters.nb_fir_coefs - 1)>>1) + 1; i++) + l1s_dsp_com.dsp_ndb_ptr->a_lim_filter_coefs[i] = l1a_l1s_com.limiter_task.parameters.filter_coefs[i]; + + l1s_dsp_com.dsp_ndb_ptr->d_lim_gain_fall_q15 = l1a_l1s_com.limiter_task.parameters.gain_fall; + l1s_dsp_com.dsp_ndb_ptr->d_lim_gain_rise_q15 = l1a_l1s_com.limiter_task.parameters.gain_rise; + + // a_lim_mul_low/high computation and update + l1_audio_lim_update_mul_low_high(); + + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_LIM_STATE) + { + // LIMITER already started: update the DSP LIMITER module + l1s_dsp_com.dsp_ndb_ptr->d_lim_dl_ctrl = B_LIM_FULL_UPDATE; + + *state = WAIT_DSP_ACK; + } + else + { + // Enable the DSP LIMITER module + l1s_dsp_com.dsp_ndb_ptr->d_lim_dl_ctrl = B_LIM_ENABLE; + + *state = WAIT_DSP_ACK; + } + } + else // LIMITER start requested + { + // LIMITER stop requested + //----------------------- + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_LIM_STATE) + { + // Disable the DSP LIMITER module + l1s_dsp_com.dsp_ndb_ptr->d_lim_dl_ctrl = B_LIM_DISABLE; + + *state = WAIT_DSP_ACK; + } + else + { + // LIMITER already disabled: confirm + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_LIMITER_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + } + } + + // Disable the update command + l1a_l1s_com.limiter_task.command.update = FALSE; + } // LIMITER update + + /* LIMITER partial update command */ + /*--------------------------------*/ + + else if (l1a_l1s_com.limiter_task.command.partial_update) + { + // Only update if the module is enabled + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_LIM_STATE) + { + // a_lim_mul_low/high computation and update + l1_audio_lim_update_mul_low_high(); + + // Partial update of the DSP LIMITER module + l1s_dsp_com.dsp_ndb_ptr->d_lim_dl_ctrl = B_LIM_UPDATE; + + *state = WAIT_PARTIAL_UPDATE; + } + + // Disable the partial update command + l1a_l1s_com.limiter_task.command.partial_update = FALSE; + } + } + break; + + case WAIT_DSP_ACK: + { + // The DSP acknowledged the L1S command + if (l1s_dsp_com.dsp_ndb_ptr->d_lim_dl_ctrl == 0) + { + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_LIMITER_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + + case WAIT_PARTIAL_UPDATE: + { + // The DSP acknowledged the L1S command + if (l1s_dsp_com.dsp_ndb_ptr->d_lim_dl_ctrl == 0) + { + *state = IDLE; + } + } + break; + } // switch + } + #endif // L1_LIMITER == 1 + + #if (L1_ES == 1) + + /*******************************************/ + /* ES configuration tables */ + /*******************************************/ +#pragma DATA_SECTION(default_es_configs,".flashcnst"); +const T_ES_CONFIG default_es_configs[7] = + { + // Behavior 1 + { + (B_ES_UL | B_ES_DL | B_ES_NSF), + C_ES_GAIN_DL_OFF, + C_ES_GAIN_UL_1_OFF, + C_ES_GAIN_UL_2_OFF, + C_ES_TCL_6DB, + C_ES_TCL_0DB, + C_ES_TCL_12DB, + C_ES_TCL_6DB, + C_ES_TCL_0DB, + C_ES_TCL_LOUD, + C_ES_SW_CNT, + C_ES_DT_CNT, + C_ES_HG_CNT_1, + /* DL attenuation */ + {C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_0DB, C_ES_ATT_LIN_3DB}, + /* UL attenuation */ + {C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_15DB, C_ES_ATT_LIN_0DB} + } , + + // Behavior 1a + { + (B_ES_UL | B_ES_DL), + C_ES_GAIN_DL_OFF, + C_ES_GAIN_UL_1_OFF, + C_ES_GAIN_UL_2_OFF, + C_ES_TCL_6DB, + C_ES_TCL_0DB, + C_ES_TCL_12DB, + C_ES_TCL_6DB, + C_ES_TCL_0DB, + C_ES_TCL_LOUD, + C_ES_SW_CNT, + C_ES_DT_CNT, + C_ES_HG_CNT_1A, + /* DL attenuation */ + {C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_0DB, C_ES_ATT_LIN_3DB}, + /* UL attenuation */ + {C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_6DB, C_ES_ATT_LIN_0DB} + } , + + // Behavior 2a + { + (B_ES_UL | B_ES_DL | B_ES_NSF), + C_ES_GAIN_DL_OFF, + C_ES_GAIN_UL_1_OFF, + C_ES_GAIN_UL_2_OFF, + C_ES_TCL_6DB, + C_ES_TCL_0DB, + C_ES_TCL_12DB, + C_ES_TCL_6DB, + C_ES_TCL_0DB, + C_ES_TCL_LOUD, + C_ES_SW_CNT, + C_ES_DT_CNT, + C_ES_HG_CNT_2A, + /* DL attenuation */ + {C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_5DB, C_ES_ATT_LIN_0DB, C_ES_ATT_LIN_5DB}, + /* UL attenuation */ + {C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_6DB, C_ES_ATT_LIN_24DB, C_ES_ATT_LIN_0DB} + } , + + // Behavior 2b + { + (B_ES_UL | B_ES_DL | B_ES_CNG), + C_ES_GAIN_DL_OFF, + C_ES_GAIN_UL_1_OFF, + C_ES_GAIN_UL_2_OFF, + C_ES_TCL_6DB, + C_ES_TCL_0DB, + C_ES_TCL_10DB, + C_ES_TCL_4DB, + C_ES_TCL_0DB, + C_ES_TCL_LOUD, + C_ES_SW_CNT, + C_ES_DT_CNT, + C_ES_HG_CNT_2B, + /* DL attenuation */ + {C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_8DB, C_ES_ATT_LIN_0DB, C_ES_ATT_LIN_8DB}, + /* UL attenuation */ + {C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_9DB, C_ES_ATT_LIN_36DB, C_ES_ATT_LIN_0DB} + } , + + // Behavior 2c + { + (B_ES_UL | B_ES_DL | B_ES_CNG), + C_ES_GAIN_DL_OFF, + C_ES_GAIN_UL_1_OFF, + C_ES_GAIN_UL_2_OFF, + C_ES_TCL_M6DB, + C_ES_TCL_M23DB, + C_ES_TCL_0DB, + C_ES_TCL_M6DB, + C_ES_TCL_M3DB, + C_ES_TCL_LOUD, + C_ES_SW_CNT, + C_ES_DT_CNT, + C_ES_HG_CNT_2C, + /* DL attenuation */ + {C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_10DB, C_ES_ATT_LIN_0DB, C_ES_ATT_LIN_10DB}, + /* UL attenuation */ + {C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_12DB, C_ES_ATT_LIN_48DB, C_ES_ATT_LIN_0DB} + } , + + // Behavior 2c_idle + { + (B_ES_UL | B_ES_DL | B_ES_CNG), + C_ES_GAIN_DL_OFF, + C_ES_GAIN_UL_1_OFF, + C_ES_GAIN_UL_2_OFF, + C_ES_TCL_M6DB, + C_ES_TCL_M23DB, + C_ES_TCL_0DB, + C_ES_TCL_M6DB, + C_ES_TCL_M3DB, + C_ES_TCL_LOUD, + C_ES_SW_CNT, + C_ES_DT_CNT, + C_ES_HG_CNT_2C_IDLE, + /* DL attenuation */ + {C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_10DB, C_ES_ATT_LIN_0DB, C_ES_ATT_LIN_10DB}, + /* UL attenuation */ + {C_ES_ATT_LIN_12DB, C_ES_ATT_LIN_12DB, C_ES_ATT_LIN_48DB, C_ES_ATT_LIN_0DB} + } , + + // Behavior 3 + { + (B_ES_UL | B_ES_DL | B_ES_CNG), + C_ES_GAIN_DL_OFF, + C_ES_GAIN_UL_1_OFF, + C_ES_GAIN_UL_2_OFF, + C_ES_TCL_B3_FE_LS, + C_ES_TCL_B3_DT_LS, + C_ES_TCL_B3_FE_NS, + C_ES_TCL_B3_DT_NS, + C_ES_TCL_B3_NE, + C_ES_TCL_LOUD, + C_ES_SW_CNT, + C_ES_DT_CNT, + C_ES_HG_CNT_3, + /* DL attenuation */ + {C_ES_ATT_LIN_3DB, C_ES_ATT_LIN_16DB, C_ES_ATT_LIN_0DB, C_ES_ATT_LIN_21DB}, + /* UL attenuation */ + {C_ES_ATT_LIN_19DB, C_ES_ATT_LIN_19DB, C_ES_ATT_LIN_66DB, C_ES_ATT_LIN_0DB} + } + }; + + /*-------------------------------------------------------*/ + /* l1s_es_manager() */ + /*-------------------------------------------------------*/ + /* */ + /* Parameters : */ + /* */ + /* Return : */ + /* */ + /* Description : ES L1S manager task. */ + /* */ + /*-------------------------------------------------------*/ + void l1s_es_manager(void) + { + enum states + { + IDLE = 0, + WAIT_DSP_ACK = 1 + }; + + UWORD8 *state = &l1s.audio_state[L1S_ES_STATE]; + xSignalHeaderRec *conf_msg; + + switch(*state) + { + case IDLE: + { + if (l1a_l1s_com.es_task.parameters.es_enable) + { + const T_ES_CONFIG *es_cfg; + + // ES start requested + //-------------------- + + // Set ES parameters + if (l1a_l1s_com.es_task.parameters.es_behavior == ES_CUSTOM_PARAM) + { + es_cfg = &(l1a_l1s_com.es_task.parameters.es_config); + } + else + { + es_cfg = &(default_es_configs[l1a_l1s_com.es_task.parameters.es_behavior]); + } + + // Set parameters in the API + l1s_dsp_com.dsp_ndb_ptr->d_es_mode = es_cfg->es_mode; + l1s_dsp_com.dsp_ndb_ptr->d_es_gain_dl = es_cfg->es_gain_dl; + l1s_dsp_com.dsp_ndb_ptr->d_es_gain_ul_1 = es_cfg->es_gain_ul_1; + l1s_dsp_com.dsp_ndb_ptr->d_es_gain_ul_2 = es_cfg->es_gain_ul_2; + l1s_dsp_com.dsp_ndb_ptr->d_es_tcl_fe_ls_thr = es_cfg->tcl_fe_ls_thr; + l1s_dsp_com.dsp_ndb_ptr->d_es_tcl_dt_ls_thr = es_cfg->tcl_dt_ls_thr; + l1s_dsp_com.dsp_ndb_ptr->d_es_tcl_fe_ns_thr = es_cfg->tcl_fe_ns_thr; + l1s_dsp_com.dsp_ndb_ptr->d_es_tcl_dt_ns_thr = es_cfg->tcl_dt_ns_thr; + l1s_dsp_com.dsp_ndb_ptr->d_es_tcl_ne_thr = es_cfg->tcl_ne_thr; + l1s_dsp_com.dsp_ndb_ptr->d_es_ref_ls_pwr = es_cfg->ref_ls_pwr; + l1s_dsp_com.dsp_ndb_ptr->d_es_switching_time = es_cfg->switching_time; + l1s_dsp_com.dsp_ndb_ptr->d_es_switching_time_dt = es_cfg->switching_time_dt; + l1s_dsp_com.dsp_ndb_ptr->d_es_hang_time = es_cfg->hang_time; + l1s_dsp_com.dsp_ndb_ptr->a_es_gain_lin_dl_vect[0] = es_cfg->gain_lin_dl_vect[0]; + l1s_dsp_com.dsp_ndb_ptr->a_es_gain_lin_dl_vect[1] = es_cfg->gain_lin_dl_vect[1]; + l1s_dsp_com.dsp_ndb_ptr->a_es_gain_lin_dl_vect[2] = es_cfg->gain_lin_dl_vect[2]; + l1s_dsp_com.dsp_ndb_ptr->a_es_gain_lin_dl_vect[3] = es_cfg->gain_lin_dl_vect[3]; + l1s_dsp_com.dsp_ndb_ptr->a_es_gain_lin_ul_vect[0] = es_cfg->gain_lin_ul_vect[0]; + l1s_dsp_com.dsp_ndb_ptr->a_es_gain_lin_ul_vect[1] = es_cfg->gain_lin_ul_vect[1]; + l1s_dsp_com.dsp_ndb_ptr->a_es_gain_lin_ul_vect[2] = es_cfg->gain_lin_ul_vect[2]; + l1s_dsp_com.dsp_ndb_ptr->a_es_gain_lin_ul_vect[3] = es_cfg->gain_lin_ul_vect[3]; + + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_ES_STATE) + { + // ES already started: update the DSP ES module + l1s_dsp_com.dsp_ndb_ptr->d_es_ctrl = B_ES_FULL_UPDATE; + + *state = WAIT_DSP_ACK; + } + else + { + // Enable the DSP ES module + l1s_dsp_com.dsp_ndb_ptr->d_es_ctrl = B_ES_ENABLE; + + *state = WAIT_DSP_ACK; + } + } + else // ES start requested + { + // ES stop requested + //------------------- + if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_ES_STATE) + { + // Disable the DSP ES module + l1s_dsp_com.dsp_ndb_ptr->d_es_ctrl = B_ES_DISABLE; + + *state = WAIT_DSP_ACK; + } + else + { + // ES already disabled: confirm + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_ES_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + } + } + + // Disable the update command + l1a_l1s_com.es_task.command.update = FALSE; + } + break; + + case WAIT_DSP_ACK: + { + // The DSP acknowledged the L1S command + if (l1s_dsp_com.dsp_ndb_ptr->d_es_ctrl == 0) + { + // Allocate confirmation message... + conf_msg = os_alloc_sig(0); + DEBUGMSG(status,NU_ALLOC_ERR) + conf_msg->SignalCode = L1_ES_CON; + // Send confirmation message... + os_send_sig(conf_msg, L1C1_QUEUE); + DEBUGMSG(status,NU_SEND_QUEUE_ERR) + + *state = IDLE; + } + } + break; + } // switch + } + #endif // L1_ES == 1 + +#endif // AUDIO_TASK