/*************************************************************************** * * Copyright 2015-2019 BES. * All rights reserved. All unpublished rights reserved. * * No part of this work may be used or reproduced in any form or by any * means, or stored in a database or retrieval system, without prior written * permission of BES. * * Use of this work is governed by a license granted by BES. * This work contains confidential and proprietary information of * BES. which is protected by copyright, trade secret, * trademark and other intellectual property rights. * ****************************************************************************/ //#include "mbed.h" #include #include #include "cmsis_os.h" #include "app_bt_trace.h" #include "tgt_hardware.h" #include "hal_uart.h" #include "hal_timer.h" #include "audioflinger.h" #include "lockcqueue.h" #include "hal_cmu.h" #include "hal_overlay.h" #include "analog.h" #include "avdtp_i.h" #include "app_bt_stream.h" #include "app_overlay.h" #include "app_audio.h" #include "app_utils.h" #ifdef ANC_APP #include "app_anc.h" #endif #include "anc_wnr.h" #include "bluetooth.h" #include "nvrecord.h" #include "nvrecord_env.h" #include "nvrecord_dev.h" #include "resample_coef.h" #include "hal_codec.h" #include "hal_i2s.h" #include "hal_bootmode.h" #ifdef MEDIA_PLAYER_SUPPORT #include "resources.h" #include "app_media_player.h" #endif #ifdef __FACTORY_MODE_SUPPORT__ #include "app_factory_audio.h" #endif #ifdef TX_RX_PCM_MASK #include "hal_chipid.h" #endif #ifdef __IAG_BLE_INCLUDE__ #include "app_ble_mode_switch.h" #endif #ifdef VOICE_DATAPATH #include "app_voicepath.h" #endif #if defined(__AI_VOICE__)||defined(BISTO_ENABLED) #include "app_ai_voice.h" #include "app_ai_if.h" #endif #ifdef AI_AEC_CP_ACCEL #include "app_ai_algorithm.h" #endif #include "app_ring_merge.h" #include "bt_drv.h" #include "bt_xtal_sync.h" #include "bt_drv_reg_op.h" #include "besbt.h" #include "hal_chipid.h" #include "cqueue.h" #include "btapp.h" #include "app_hfp.h" #include "app_bt.h" #include "os_api.h" #include "audio_process.h" #include "app_a2dp.h" #include "audio_dump.h" #include "math.h" #ifdef WL_DET #include "app_mic_alg.h" #endif #if (A2DP_DECODER_VER == 2) #include "a2dp_decoder.h" #endif #if defined(__AUDIO_SPECTRUM__) #include "audio_spectrum.h" #endif #if defined(BONE_SENSOR_TDM) #include "speech_utils.h" #include "lis25ba.h" #include "tdm_stream.h" #endif #if defined(ANC_NOISE_TRACKER) #include "noise_tracker.h" #include "noise_tracker_callback.h" #endif #if defined(IBRT) #include "app_ibrt_if.h" #include "app_tws_ctrl_thread.h" #include "app_tws_ibrt_audio_analysis.h" #include "app_tws_ibrt_audio_sync.h" #include "app_ibrt_a2dp.h" #include "app_ibrt_rssi.h" #undef MUSIC_DELAY_CONTROL #endif #if defined(AUDIO_ANC_FB_ADJ_MC) #include "adj_mc.h" #include "fftfilt2.h" #endif // NOTE: Modify parameters for your project. // #define A2DP_STREAM_AUDIO_DUMP #if defined(__SW_IIR_EQ_PROCESS__) static uint8_t audio_eq_sw_iir_index = 0; extern const IIR_CFG_T * const audio_eq_sw_iir_cfg_list[]; #endif #if defined(__HW_FIR_EQ_PROCESS__) static uint8_t audio_eq_hw_fir_index = 0; extern const FIR_CFG_T * const audio_eq_hw_fir_cfg_list[]; #endif #if defined(__HW_DAC_IIR_EQ_PROCESS__) static uint8_t audio_eq_hw_dac_iir_index = 0; extern const IIR_CFG_T * const audio_eq_hw_dac_iir_cfg_list[]; #endif #include "audio_prompt_sbc.h" #if defined(__HW_IIR_EQ_PROCESS__) static uint8_t audio_eq_hw_iir_index = 0; extern const IIR_CFG_T * const audio_eq_hw_iir_cfg_list[]; #endif #if defined(HW_DC_FILTER_WITH_IIR) #include "hw_filter_codec_iir.h" #include "hw_codec_iir_process.h" hw_filter_codec_iir_cfg POSSIBLY_UNUSED adc_iir_cfg = { .bypass = 0, .iir_device = HW_CODEC_IIR_ADC, #if 1 .iir_cfg = { .iir_filtes_l = { .iir_bypass_flag = 0, .iir_counter = 2, .iir_coef = { {{0.994406, -1.988812, 0.994406}, {1.000000, -1.988781, 0.988843}}, // iir_designer('highpass', 0, 20, 0.7, 16000); {{4.0, 0.0, 0.0}, {1.0, 0.0, 0.0}}, } }, .iir_filtes_r = { .iir_bypass_flag = 0, .iir_counter = 2, .iir_coef = { {{0.994406, -1.988812, 0.994406}, {1.000000, -1.988781, 0.988843}}, {{4.0, 0.0, 0.0}, {1.0, 0.0, 0.0}}, } } } #else .iir_cfg = { .gain0 = 0, .gain1 = 0, .num = 1, .param = { {IIR_TYPE_HIGH_PASS, 0, 20.0, 0.7}, } } #endif }; hw_filter_codec_iir_state *hw_filter_codec_iir_st; #endif #if defined(CHIP_BEST2300) || defined(CHIP_BEST2300P) || defined(CHIP_BEST3003)|| \ defined(CHIP_BEST1400) || defined(CHIP_BEST1402) || defined(CHIP_BEST1000) || \ defined(CHIP_BEST2000) || defined(CHIP_BEST3001) || defined(CHIP_BEST2001) \ #undef AUDIO_RESAMPLE_ANTI_DITHER #else #define AUDIO_RESAMPLE_ANTI_DITHER #endif #include "audio_cfg.h" //#define SCO_DMA_SNAPSHOT_DEBUG extern uint8_t bt_audio_get_eq_index(AUDIO_EQ_TYPE_T audio_eq_type,uint8_t anc_status); extern uint32_t bt_audio_set_eq(AUDIO_EQ_TYPE_T audio_eq_type,uint8_t index); extern uint8_t bt_audio_updata_eq_for_anc(uint8_t anc_status); #include "app_bt_media_manager.h" #include "string.h" #include "hal_location.h" #include "bt_drv_interface.h" #include "audio_resample_ex.h" #if defined(CHIP_BEST1400) || defined(CHIP_BEST1402) || defined(CHIP_BEST2001) #define BT_INIT_XTAL_SYNC_FCAP_RANGE (0x1FF) #else #define BT_INIT_XTAL_SYNC_FCAP_RANGE (0xFF) #endif #define BT_INIT_XTAL_SYNC_MIN (20) #define BT_INIT_XTAL_SYNC_MAX (BT_INIT_XTAL_SYNC_FCAP_RANGE - BT_INIT_XTAL_SYNC_MIN) #ifdef __THIRDPARTY #include "app_thirdparty.h" #endif #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) #include"anc_process.h" #ifdef ANC_FB_MC_96KHZ #define DELAY_SAMPLE_MC (29*2) // 2:ch #define SAMPLERATE_RATIO_THRESHOLD (4) //384 = 96*4 #else #define DELAY_SAMPLE_MC (31*2) // 2:ch #define SAMPLERATE_RATIO_THRESHOLD (8) //384 = 48*8 #endif static int32_t delay_buf_bt[DELAY_SAMPLE_MC]; #endif #ifdef ANC_APP static uint8_t anc_status_record = 0xff; #endif #if defined(SCO_DMA_SNAPSHOT) #ifdef PCM_FAST_MODE #define MASTER_MOBILE_BTCLK_OFFSET (4) #elif TX_RX_PCM_MASK #define MASTER_MOBILE_BTCLK_OFFSET (8) #else #define MASTER_MOBILE_BTCLK_OFFSET (4) #endif #define MASTER_MOBILE_BTCNT_OFFSET (MASTER_MOBILE_BTCLK_OFFSET*625) #if defined(CHIP_BEST1400) || defined(CHIP_BEST1402) || defined(CHIP_BEST2300P) || defined(CHIP_BEST2300A) || defined(CHIP_BEST2001) #define MUTE_PATTERN (0x55) #else #define MUTE_PATTERN (0x00) #endif extern void app_tws_ibrt_audio_mobile_clkcnt_get(uint32_t btclk, uint16_t btcnt, uint32_t *mobile_master_clk, uint16_t *mobile_master_cnt); static uint8_t *playback_buf_codecpcm; static uint32_t playback_size_codecpcm; static uint8_t *capture_buf_codecpcm; static uint32_t capture_size_codecpcm; static uint8_t *playback_buf_btpcm; static uint32_t playback_size_btpcm; static uint8_t *capture_buf_btpcm; static uint32_t capture_size_btpcm; #ifdef TX_RX_PCM_MASK static uint8_t *playback_buf_btpcm_copy=NULL; static uint32_t playback_size_btpcm_copy=0; static uint8_t *capture_buf_btpcm_copy=NULL; static uint32_t capture_size_btpcm_copy=0; #endif volatile int sco_btpcm_mute_flag=0; volatile int sco_disconnect_mute_flag=0; static uint8_t *playback_buf_btpcm_cache=NULL; static enum AUD_SAMPRATE_T playback_samplerate_codecpcm; static int32_t mobile_master_clk_offset_init; #endif enum PLAYER_OPER_T { PLAYER_OPER_START, PLAYER_OPER_STOP, PLAYER_OPER_RESTART, }; #if defined(AF_ADC_I2S_SYNC) extern "C" void hal_codec_capture_enable(void); extern "C" void hal_codec_capture_enable_delay(void); static uint32_t codec_capture_cnt = 0; static uint32_t codec_playback_cnt = 0; #endif #if (AUDIO_OUTPUT_VOLUME_DEFAULT < 1) || (AUDIO_OUTPUT_VOLUME_DEFAULT > 17) #error "AUDIO_OUTPUT_VOLUME_DEFAULT out of range" #endif int8_t stream_local_volume = (AUDIO_OUTPUT_VOLUME_DEFAULT); #ifdef AUDIO_LINEIN int8_t stream_linein_volume = (AUDIO_OUTPUT_VOLUME_DEFAULT); #endif struct btdevice_volume *btdevice_volume_p; struct btdevice_volume current_btdevice_volume; #ifdef __BT_ANC__ uint8_t bt_sco_samplerate_ratio = 0; static uint8_t *bt_anc_sco_dec_buf; extern void us_fir_init(void); extern uint32_t voicebtpcm_pcm_resample (short* src_samp_buf, uint32_t src_smpl_cnt, short* dst_samp_buf); #endif #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) static enum AUD_BITS_T sample_size_play_bt; static enum AUD_SAMPRATE_T sample_rate_play_bt; static uint32_t data_size_play_bt; static uint8_t *playback_buf_bt; static uint32_t playback_size_bt; static int32_t playback_samplerate_ratio_bt; static uint8_t *playback_buf_mc; static uint32_t playback_size_mc; static enum AUD_CHANNEL_NUM_T playback_ch_num_bt; #ifdef AUDIO_ANC_FB_ADJ_MC uint32_t adj_mc_capture_sample_rate; #endif #endif #if defined(MUSIC_DELAY_CONTROL) && (defined(CHIP_BEST2300) || defined(CHIP_BEST2300P) || defined(CHIP_BEST2300A)|| defined(CHIP_BEST1400)|| defined(CHIP_BEST1402)) static enum AUD_BITS_T lowdelay_sample_size_play_bt; static enum AUD_SAMPRATE_T lowdelay_sample_rate_play_bt; static uint32_t lowdelay_data_size_play_bt; static enum AUD_CHANNEL_NUM_T lowdelay_playback_ch_num_bt; #endif extern uint8_t current_a2dp_non_type; extern void bt_media_clear_media_type(uint16_t media_type,enum BT_DEVICE_ID_T device_id); extern "C" uint8_t is_sbc_mode (void); uint8_t bt_sbc_mode; extern "C" uint8_t __attribute__((section(".fast_text_sram"))) is_sbc_mode(void) { return bt_sbc_mode; } extern "C" uint8_t is_sco_mode (void); uint8_t bt_sco_mode; extern "C" uint8_t __attribute__((section(".fast_text_sram"))) is_sco_mode(void) { return bt_sco_mode; } #define APP_BT_STREAM_TRIGGER_TIMEROUT (2000) #define TRIGGER_CHECKER_A2DP_PLAYERBLACK (1<<0) #define TRIGGER_CHECKER_A2DP_DONE (TRIGGER_CHECKER_A2DP_PLAYERBLACK) #define TRIGGER_CHECKER_HFP_BTPCM_PLAYERBLACK (1<<1) #define TRIGGER_CHECKER_HFP_BTPCM_CAPTURE (1<<2) #define TRIGGER_CHECKER_HFP_AUDPCM_PLAYERBLACK (1<<3) #define TRIGGER_CHECKER_HFP_AUDPCM_CAPTURE (1<<4) #define TRIGGER_CHECKER_HFP_DONE (TRIGGER_CHECKER_HFP_BTPCM_PLAYERBLACK|TRIGGER_CHECKER_HFP_BTPCM_CAPTURE|TRIGGER_CHECKER_HFP_AUDPCM_PLAYERBLACK|TRIGGER_CHECKER_HFP_AUDPCM_CAPTURE) static bool app_bt_stream_trigger_enable = 0; static uint32_t app_bt_stream_trigger_checker = 0; static void app_bt_stream_trigger_timeout_cb(void const *n); osTimerDef(APP_BT_STREAM_TRIGGER_TIMEOUT, app_bt_stream_trigger_timeout_cb); osTimerId app_bt_stream_trigger_timeout_id = NULL; static void app_bt_stream_trigger_timeout_cb(void const *n) { TRACE_AUD_STREAM_I("[STRM_TRIG][CHK]timeout_cb\n"); if (app_bt_stream_isrun(APP_BT_STREAM_A2DP_SBC)){ TRACE_AUD_STREAM_I("[STRM_TRIG][CHK]-->A2DP_SBC\n"); #if defined(IBRT) app_ibrt_if_force_audio_retrigger(); #else app_audio_sendrequest_param(APP_BT_STREAM_A2DP_SBC, (uint8_t)APP_BT_SETTING_RESTART, 0, 0); #endif }else if (app_bt_stream_isrun(APP_BT_STREAM_HFP_PCM)){ TRACE_AUD_STREAM_I("[STRM_TRIG][CHK]-->HFP_PCM\n"); app_audio_sendrequest(APP_BT_STREAM_HFP_PCM, (uint8_t)APP_BT_SETTING_RESTART, 0); } } static int app_bt_stream_trigger_checker_init(void) { if (app_bt_stream_trigger_timeout_id == NULL){ app_bt_stream_trigger_enable = false; app_bt_stream_trigger_checker = 0; app_bt_stream_trigger_timeout_id = osTimerCreate(osTimer(APP_BT_STREAM_TRIGGER_TIMEOUT), osTimerOnce, NULL); } return 0; } static int app_bt_stream_trigger_checker_start(void) { app_bt_stream_trigger_checker = 0; app_bt_stream_trigger_enable = true; osTimerStart(app_bt_stream_trigger_timeout_id, APP_BT_STREAM_TRIGGER_TIMEROUT); return 0; } static int app_bt_stream_trigger_checker_stop(void) { app_bt_stream_trigger_enable = false; app_bt_stream_trigger_checker = 0; osTimerStop(app_bt_stream_trigger_timeout_id); return 0; } int app_bt_stream_trigger_checker_handler(uint32_t trigger_checker) { bool trigger_ok = false; if (app_bt_stream_trigger_enable){ app_bt_stream_trigger_checker |= trigger_checker; if (app_bt_stream_isrun(APP_BT_STREAM_A2DP_SBC)){ if (app_bt_stream_trigger_checker == TRIGGER_CHECKER_A2DP_DONE){ trigger_ok = true; } }else if (app_bt_stream_isrun(APP_BT_STREAM_HFP_PCM)){ if (app_bt_stream_trigger_checker == TRIGGER_CHECKER_HFP_DONE){ trigger_ok = true; } } if (trigger_ok){ TRACE_AUD_STREAM_I("[STRM_TRIG][CHK] ok\n"); app_bt_stream_trigger_checker_stop(); } } return 0; } #ifdef A2DP_LHDC_ON extern struct BT_DEVICE_T app_bt_device; #if defined(A2DP_LHDC_V3) #define LHDC_AUDIO_96K_BUFF_SIZE (256*2*4*8) //#define LHDC_AUDIO_96K_16BITS_BUFF_SIZE (256*2*2*8) #define LHDC_AUDIO_BUFF_SIZE (256*2*4*4) //#define LHDC_AUDIO_16BITS_BUFF_SIZE (256*2*2*4) #define LHDC_LLC_AUDIO_BUFF_SIZE (256*2*2*2) #else #define LHDC_AUDIO_BUFF_SIZE (512*2*4) //#define LHDC_AUDIO_16BITS_BUFF_SIZE (512*2*2) #endif #endif uint16_t gStreamplayer = APP_BT_STREAM_INVALID; uint32_t a2dp_audio_more_data(uint8_t codec_type, uint8_t *buf, uint32_t len); int a2dp_audio_init(void); int a2dp_audio_deinit(void); enum AUD_SAMPRATE_T a2dp_sample_rate = AUD_SAMPRATE_48000; uint32_t a2dp_data_buf_size; #ifdef RB_CODEC extern int app_rbplay_audio_onoff(bool onoff, uint16_t aud_id); #endif #if defined(APP_LINEIN_A2DP_SOURCE)||defined(APP_I2S_A2DP_SOURCE) int app_a2dp_source_linein_on(bool on); #endif #if defined(APP_I2S_A2DP_SOURCE) #include "app_status_ind.h" #include "app_a2dp_source.h" //player channel should <= capture channel number //player must be 2 channel #define LINEIN_PLAYER_CHANNEL (2) #ifdef __AUDIO_INPUT_MONO_MODE__ #define LINEIN_CAPTURE_CHANNEL (1) #else #define LINEIN_CAPTURE_CHANNEL (2) #endif #if (LINEIN_CAPTURE_CHANNEL == 1) #define LINEIN_PLAYER_BUFFER_SIZE (1024*LINEIN_PLAYER_CHANNEL) #define LINEIN_CAPTURE_BUFFER_SIZE (LINEIN_PLAYER_BUFFER_SIZE/2) #elif (LINEIN_CAPTURE_CHANNEL == 2) #define LINEIN_PLAYER_BUFFER_SIZE (1024*LINEIN_PLAYER_CHANNEL) //#define LINEIN_CAPTURE_BUFFER_SIZE (LINEIN_PLAYER_BUFFER_SIZE) #define LINEIN_CAPTURE_BUFFER_SIZE (1024*10) #endif static int16_t *app_linein_play_cache = NULL; int8_t app_linein_buffer_is_empty(void) { if (app_audio_pcmbuff_length()) { return 0; } else { return 1; } } uint32_t app_linein_pcm_come(uint8_t * pcm_buf, uint32_t len) { //DUMP16("%d ", pcm_buf, 10); DUMP8("0x%02x ", pcm_buf, 10); TRACE_AUD_STREAM_I("app_linein_pcm_come"); app_audio_pcmbuff_put(pcm_buf, len); return len; } uint32_t app_linein_need_pcm_data(uint8_t* pcm_buf, uint32_t len) { #if (LINEIN_CAPTURE_CHANNEL == 1) app_audio_pcmbuff_get((uint8_t *)app_linein_play_cache, len/2); //app_play_audio_lineinmode_more_data((uint8_t *)app_linein_play_cache,len/2); app_bt_stream_copy_track_one_to_two_16bits((int16_t *)pcm_buf, app_linein_play_cache, len/2/2); #elif (LINEIN_CAPTURE_CHANNEL == 2) app_audio_pcmbuff_get((uint8_t *)pcm_buf, len); //app_play_audio_lineinmode_more_data((uint8_t *)pcm_buf, len); #endif #if defined(__AUDIO_OUTPUT_MONO_MODE__) merge_stereo_to_mono_16bits((int16_t *)buf, (int16_t *)pcm_buf, len/2); #endif #ifdef ANC_APP bt_audio_updata_eq_for_anc(app_anc_work_status()); #endif audio_process_run(pcm_buf, len); return len; } extern "C" void pmu_linein_onoff(unsigned char en); extern "C" int hal_analogif_reg_read(unsigned short reg, unsigned short *val); int app_a2dp_source_I2S_onoff(bool onoff) { static bool isRun = false; uint8_t *linein_audio_cap_buff = 0; uint8_t *linein_audio_play_buff = 0; uint8_t *linein_audio_loop_buf = NULL; struct AF_STREAM_CONFIG_T stream_cfg; TRACE_AUD_STREAM_I("app_a2dp_source_I2S_onoff work:%d op:%d", isRun, onoff); if (isRun == onoff) return 0; if (onoff) { app_sysfreq_req(APP_SYSFREQ_USER_APP_0, APP_SYSFREQ_104M); app_overlay_select(APP_OVERLAY_A2DP); app_audio_mempool_init(); app_audio_mempool_get_buff(&linein_audio_cap_buff, LINEIN_CAPTURE_BUFFER_SIZE); // app_audio_mempool_get_buff(&linein_audio_play_buff, LINEIN_PLAYER_BUFFER_SIZE); // app_audio_mempool_get_buff(&linein_audio_loop_buf, LINEIN_PLAYER_BUFFER_SIZE<<2); // app_audio_pcmbuff_init(linein_audio_loop_buf, LINEIN_PLAYER_BUFFER_SIZE<<2); #if (LINEIN_CAPTURE_CHANNEL == 1) app_audio_mempool_get_buff((uint8_t **)&app_linein_play_cache, LINEIN_PLAYER_BUFFER_SIZE/2/2); //app_play_audio_lineinmode_init(LINEIN_CAPTURE_CHANNEL, LINEIN_PLAYER_BUFFER_SIZE/2/2); #elif (LINEIN_CAPTURE_CHANNEL == 2) //app_play_audio_lineinmode_init(LINEIN_CAPTURE_CHANNEL, LINEIN_PLAYER_BUFFER_SIZE/2); #endif sRet = memset_s(&stream_cfg, sizeof(stream_cfg), 0, sizeof(stream_cfg)); if (sRet){ TRACE_AUD_STREAM_W("func-s line:%d sRet:%d %s ", __LINE__, sRet, __func__); } stream_cfg.bits = AUD_BITS_16; stream_cfg.channel_num = (enum AUD_CHANNEL_NUM_T)LINEIN_PLAYER_CHANNEL; stream_cfg.sample_rate = AUD_SAMPRATE_44100; #if 0 #if FPGA==0 stream_cfg.device = AUD_STREAM_USE_INT_CODEC; #else stream_cfg.device = AUD_STREAM_USE_EXT_CODEC; #endif stream_cfg.vol = 10;//stream_linein_volume; //TRACE_AUD_STREAM_I("vol = %d",stream_linein_volume); stream_cfg.io_path = AUD_OUTPUT_PATH_SPEAKER; stream_cfg.handler = app_linein_need_pcm_data; stream_cfg.data_ptr = BT_AUDIO_CACHE_2_UNCACHE(linein_audio_play_buff); stream_cfg.data_size = LINEIN_PLAYER_BUFFER_SIZE; af_stream_open(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK, &stream_cfg); af_stream_start(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); #endif #if 1 stream_cfg.device = AUD_STREAM_USE_I2S0_SLAVE; // stream_cfg.io_path = AUD_INPUT_PATH_LINEIN; // stream_cfg.handler = app_linein_pcm_come; stream_cfg.handler = a2dp_source_linein_more_pcm_data; // stream_cfg.handler = app_linein_pcm_come; stream_cfg.data_ptr = BT_AUDIO_CACHE_2_UNCACHE(linein_audio_cap_buff); stream_cfg.data_size = LINEIN_CAPTURE_BUFFER_SIZE;//2k // pmu_linein_onoff(1); af_stream_open(AUD_STREAM_ID_0, AUD_STREAM_CAPTURE, &stream_cfg); audio_process_open(stream_cfg.sample_rate, stream_cfg.bits, stream_cfg.channel_num, NULL, 0); af_stream_start(AUD_STREAM_ID_0, AUD_STREAM_CAPTURE); #endif //app_status_indication_set(APP_STATUS_INDICATION_LINEIN_ON); } else { // clear buffer data a2dp_source.pcm_queue.write=0; a2dp_source.pcm_queue.len=0; a2dp_source.pcm_queue.read=0; // pmu_linein_onoff(0); af_stream_stop(AUD_STREAM_ID_0, AUD_STREAM_CAPTURE); af_stream_stop(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); af_stream_close(AUD_STREAM_ID_0, AUD_STREAM_CAPTURE); af_stream_close(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); //app_status_indication_set(APP_STATUS_INDICATION_LINEIN_OFF); app_overlay_unloadall(); app_sysfreq_req(APP_SYSFREQ_USER_APP_0, APP_SYSFREQ_32K); } isRun = onoff; TRACE_AUD_STREAM_I("%s end!\n", __func__); return 0; } #endif enum AUD_SAMPRATE_T bt_parse_sbc_sample_rate(uint8_t sbc_samp_rate) { enum AUD_SAMPRATE_T sample_rate; sbc_samp_rate = sbc_samp_rate & A2D_STREAM_SAMP_FREQ_MSK; switch (sbc_samp_rate) { case A2D_SBC_IE_SAMP_FREQ_16: // sample_rate = AUD_SAMPRATE_16000; // break; case A2D_SBC_IE_SAMP_FREQ_32: // sample_rate = AUD_SAMPRATE_32000; // break; case A2D_SBC_IE_SAMP_FREQ_48: sample_rate = AUD_SAMPRATE_48000; break; case A2D_SBC_IE_SAMP_FREQ_44: sample_rate = AUD_SAMPRATE_44100; break; #if defined(A2DP_LHDC_ON) || defined(A2DP_LDAC_ON) || defined(A2DP_SCALABLE_ON) case A2D_SBC_IE_SAMP_FREQ_96: sample_rate = AUD_SAMPRATE_96000; break; #endif default: ASSERT(0, "[%s] 0x%x is invalid", __func__, sbc_samp_rate); break; } return sample_rate; } void bt_store_sbc_sample_rate(enum AUD_SAMPRATE_T sample_rate) { a2dp_sample_rate = sample_rate; } enum AUD_SAMPRATE_T bt_get_sbc_sample_rate(void) { return a2dp_sample_rate; } enum AUD_SAMPRATE_T bt_parse_store_sbc_sample_rate(uint8_t sbc_samp_rate) { enum AUD_SAMPRATE_T sample_rate; sample_rate = bt_parse_sbc_sample_rate(sbc_samp_rate); bt_store_sbc_sample_rate(sample_rate); return sample_rate; } int bt_sbc_player_setup(uint8_t freq) { struct AF_STREAM_CONFIG_T *stream_cfg = NULL; static uint8_t sbc_samp_rate = 0xff; uint32_t ret; if (sbc_samp_rate == freq) return 0; switch (freq) { case A2D_SBC_IE_SAMP_FREQ_16: case A2D_SBC_IE_SAMP_FREQ_32: case A2D_SBC_IE_SAMP_FREQ_48: a2dp_sample_rate = AUD_SAMPRATE_48000; break; #if defined(A2DP_LHDC_ON) || defined(A2DP_LDAC_ON) || defined(A2DP_SCALABLE_ON) case A2D_SBC_IE_SAMP_FREQ_96: a2dp_sample_rate = AUD_SAMPRATE_96000; break; #if defined(A2DP_LDAC_ON) case A2D_SBC_IE_SAMP_FREQ_88: a2dp_sample_rate = AUD_SAMPRATE_88200; break; #endif #endif case A2D_SBC_IE_SAMP_FREQ_44: a2dp_sample_rate = AUD_SAMPRATE_44100; break; default: break; } TRACE_AUD_STREAM_I("%s:Sample rate :%d", __func__, a2dp_sample_rate); ret = af_stream_get_cfg(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK, &stream_cfg, true); if (ret == 0) { stream_cfg->sample_rate = a2dp_sample_rate; af_stream_setup(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK, stream_cfg); } #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) ret = af_stream_get_cfg(AUD_STREAM_ID_2, AUD_STREAM_PLAYBACK, &stream_cfg, true); if (ret == 0) { stream_cfg->sample_rate = a2dp_sample_rate; sample_rate_play_bt=stream_cfg->sample_rate; af_stream_setup(AUD_STREAM_ID_2, AUD_STREAM_PLAYBACK, stream_cfg); anc_mc_run_setup(hal_codec_anc_convert_rate(sample_rate_play_bt)); } #endif sbc_samp_rate = freq; #ifdef MIX_AUDIO_PROMPT_WITH_A2DP_MEDIA_ENABLED if (audio_prompt_is_playing_ongoing()) { audio_prompt_forcefully_stop(); } #endif return 0; } void merge_stereo_to_mono_16bits(int16_t *src_buf, int16_t *dst_buf, uint32_t src_len) { uint32_t i = 0; for (i = 0; i < src_len; i+=2) { dst_buf[i] = (src_buf[i]>>1) + (src_buf[i+1]>>1); dst_buf[i+1] = dst_buf[i]; } } void merge_stereo_to_mono_24bits(int32_t *src_buf, int32_t *dst_buf, uint32_t src_len) { uint32_t i = 0; for (i = 0; i < src_len; i+=2) { dst_buf[i] = (src_buf[i]>>1) + (src_buf[i+1]>>1); dst_buf[i+1] = dst_buf[i]; } } static char _player_type_str[168]; static char *_catstr(char *dst, const char *src) { while(*dst) dst++; while((*dst++ = *src++)); return --dst; } const char *player2str(uint16_t player_type) { const char *s = NULL; char _cat = 0, first = 1, *d = NULL; _player_type_str[0] = '\0'; d = _player_type_str; d = _catstr(d, "["); if (player_type != 0) { for (int i = 15 ; i >= 0; i--) { _cat = 1; //TRACE_AUD_STREAM_I("i=%d,player_type=0x%d,player_type&(1<=0x80 && a2dp_Get_curr_a2dp_conhdl()<=0x82) { btofs = btdrv_rf_bitoffset_get( a2dp_Get_curr_a2dp_conhdl() -0x80); if(calib_reset==1) { calib_reset=0; bt_clock_total_mutius=0; bt_old_clock_us=btcnt; bt_old_clock_mutius=btclk; bt_total_offset_us=0; local_total_samples=0; local_total_frames=0; local_clock_ms = 0; bt_local_clock_s=0; bt_clock_us = 0; bt_clock_ms = 0; bt_old_offset_us=btofs; calib_factor_offset=0.0f; calib_factor_flag=0; calib_total_delay=0; calib_flag=0; } else { btoffset=btofs-bt_old_offset_us; if(btoffset<-BT_USPERCLK/3) { btoffset=btoffset+BT_USPERCLK; } else if(btoffset>BT_USPERCLK/3) { btoffset=btoffset-BT_USPERCLK; } bt_total_offset_us=bt_total_offset_us+btoffset; bt_old_offset_us=btofs; local_total_frames++; if(lowdelay_sample_size_play_bt==AUD_BITS_16) { smplcnt=len/(2*lowdelay_playback_ch_num_bt); } else { smplcnt=len/(4*lowdelay_playback_ch_num_bt); } local_total_samples=local_total_samples+smplcnt; bt_clock_us=btcnt-bt_old_clock_us-bt_total_offset_us; btoffset=btclk-bt_old_clock_mutius; if(btoffset<0) { btoffset=0; } bt_clock_total_mutius=bt_clock_total_mutius+btoffset; bt_old_clock_us=btcnt; bt_old_clock_mutius=btclk; if((bt_clock_total_mutius>BT_MUTIUSPERSECOND)&&(local_total_samples>lowdelay_sample_rate_play_bt)) { bt_local_clock_s++; bt_clock_total_mutius=bt_clock_total_mutius-BT_MUTIUSPERSECOND; local_total_samples=local_total_samples-lowdelay_sample_rate_play_bt; } bt_clock_ms=(bt_clock_total_mutius*BT_USPERCLK/1000)+bt_clock_us/625; local_clock_ms=(local_total_samples*1000)/lowdelay_sample_rate_play_bt; local_clock_ms=local_clock_ms+calib_total_delay; //TRACE_AUD_STREAM_I("A2DP bt_clock_ms:%8d,local_clock_ms:%8d,bt_total_offset_us:%8d\n",bt_clock_ms, local_clock_ms,bt_total_offset_us); if(bt_clock_ms>(local_clock_ms+CALIB_DEVIATION_MS)) { #if defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE) app_resample_tune(a2dp_resample, CALIB_FACTOR_DELAY); #else af_codec_tune(AUD_STREAM_PLAYBACK, CALIB_FACTOR_DELAY); #endif calib_factor_flag=1; //TRACE_AUD_STREAM_I("*************1***************"); } else if(bt_clock_ms<(local_clock_ms-CALIB_DEVIATION_MS)) { #if defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE) app_resample_tune(a2dp_resample, -CALIB_FACTOR_DELAY); #else af_codec_tune(AUD_STREAM_PLAYBACK, -CALIB_FACTOR_DELAY); #endif calib_factor_flag=-1; //TRACE_AUD_STREAM_I("*************-1***************"); } else { if((calib_factor_flag==1||calib_factor_flag==-1)&&(bt_clock_ms==local_clock_ms)) { if(calib_factor_offset=0x80 && a2dp_Get_curr_a2dp_conhdl()<=0x82) { uint32_t bitoffset = btdrv_rf_bitoffset_get( a2dp_Get_curr_a2dp_conhdl() -0x80); if(app_if_need_fix_target_rxbit() == false) { if(bitoffsetSLOT_SIZE-XTAL_OFFSET) bitoffset = SLOT_SIZE-XTAL_OFFSET; } #ifdef BT_XTAL_SYNC_SLOW bt_xtal_sync_new(bitoffset,app_if_need_fix_target_rxbit(),BT_XTAL_SYNC_MODE_WITH_MOBILE); #else bt_xtal_sync_new_new(bitoffset,app_if_need_fix_target_rxbit(),BT_XTAL_SYNC_MODE_WITH_MOBILE); #endif } #else bt_xtal_sync(BT_XTAL_SYNC_MODE_MUSIC); #endif #endif #ifndef FPGA uint8_t codec_type = bt_sbc_player_get_codec_type(); uint32_t overlay_id = 0; if(codec_type == BTIF_AVDTP_CODEC_TYPE_MPEG2_4_AAC) { overlay_id = APP_OVERLAY_A2DP_AAC; } else if(codec_type == BTIF_AVDTP_CODEC_TYPE_NON_A2DP) { #if defined(A2DP_LHDC_ON) if(current_a2dp_non_type == A2DP_NON_CODEC_TYPE_LHDC) { overlay_id = APP_OVERLAY_A2DP_LHDC; } #endif #if defined(A2DP_LDAC_ON) if(current_a2dp_non_type == A2DP_NON_CODEC_TYPE_LDAC) { overlay_id = APP_OVERLAY_A2DP_LDAC; } #endif #if defined(A2DP_SCALABLE_ON) if(current_a2dp_non_type == A2DP_NON_CODEC_TYPE_SCALABLE) { overlay_id = APP_OVERLAY_A2DP_SCALABLE; } #endif } else { overlay_id = APP_OVERLAY_A2DP; } memset(buf, 0, len); if(app_get_current_overlay() != overlay_id) { return len; } #endif #ifdef PLAYBACK_FORCE_48K app_playback_resample_run(force48k_resample, buf, len); #else #if (A2DP_DECODER_VER == 2) a2dp_audio_playback_handler(buf, len); #else #ifndef FPGA a2dp_audio_more_data(overlay_id, buf, len); #endif #endif #endif #ifdef __AUDIO_SPECTRUM__ audio_spectrum_run(buf, len); #endif #ifdef __KWS_AUDIO_PROCESS__ short* pdata = (short*)buf; short pdata_mono = 0; for(unsigned int i = 0;i=EQ_SW_IIR_LIST_NUM) return -1; #endif #ifdef __HW_FIR_EQ_PROCESS__ if (index >=EQ_HW_FIR_LIST_NUM) return -1; #endif #ifdef __HW_DAC_IIR_EQ_PROCESS__ if (index >=EQ_HW_DAC_IIR_LIST_NUM) return -1; #endif #ifdef __HW_IIR_EQ_PROCESS__ if (index >=EQ_HW_IIR_LIST_NUM) return -1; #endif g_current_eq_index = index; return index; } void bt_audio_updata_eq(uint8_t index) { TRACE_AUD_STREAM_I("[EQ] update idx = %d", index); #if defined(__SW_IIR_EQ_PROCESS__) || defined(__HW_FIR_EQ_PROCESS__)|| defined(__HW_DAC_IIR_EQ_PROCESS__)|| defined(__HW_IIR_EQ_PROCESS__) AUDIO_EQ_TYPE_T audio_eq_type; #ifdef __SW_IIR_EQ_PROCESS__ audio_eq_type = AUDIO_EQ_TYPE_SW_IIR; #endif #ifdef __HW_FIR_EQ_PROCESS__ audio_eq_type = AUDIO_EQ_TYPE_HW_FIR; #endif #ifdef __HW_DAC_IIR_EQ_PROCESS__ audio_eq_type = AUDIO_EQ_TYPE_HW_DAC_IIR; #endif #ifdef __HW_IIR_EQ_PROCESS__ audio_eq_type = AUDIO_EQ_TYPE_HW_IIR; #endif bt_audio_set_eq(audio_eq_type,index); #endif } #ifdef ANC_APP uint8_t bt_audio_updata_eq_for_anc(uint8_t anc_status) { anc_status = app_anc_work_status(); if(anc_status_record != anc_status) { anc_status_record = anc_status; TRACE_AUD_STREAM_I("[EQ] update anc_status = %d", anc_status); #ifdef __SW_IIR_EQ_PROCESS__ bt_audio_set_eq(AUDIO_EQ_TYPE_SW_IIR,bt_audio_get_eq_index(AUDIO_EQ_TYPE_SW_IIR,anc_status)); #endif #ifdef __HW_FIR_EQ_PROCESS__ bt_audio_set_eq(AUDIO_EQ_TYPE_HW_FIR,bt_audio_get_eq_index(AUDIO_EQ_TYPE_HW_FIR,anc_status)); #endif #ifdef __HW_DAC_IIR_EQ_PROCESS__ bt_audio_set_eq(AUDIO_EQ_TYPE_HW_DAC_IIR,bt_audio_get_eq_index(AUDIO_EQ_TYPE_HW_DAC_IIR,anc_status)); #endif #ifdef __HW_IIR_EQ_PROCESS__ bt_audio_set_eq(AUDIO_EQ_TYPE_HW_IIR,bt_audio_get_eq_index(AUDIO_EQ_TYPE_HW_IIR,anc_status)); #endif } return 0; } #endif uint8_t bt_audio_get_eq_index(AUDIO_EQ_TYPE_T audio_eq_type,uint8_t anc_status) { uint8_t index_eq=0; #if defined(__SW_IIR_EQ_PROCESS__) || defined(__HW_FIR_EQ_PROCESS__)|| defined(__HW_DAC_IIR_EQ_PROCESS__)|| defined(__HW_IIR_EQ_PROCESS__) switch (audio_eq_type) { #if defined(__SW_IIR_EQ_PROCESS__) case AUDIO_EQ_TYPE_SW_IIR: { if(anc_status) { index_eq=audio_eq_sw_iir_index+1; } else { index_eq=audio_eq_sw_iir_index; } } break; #endif #if defined(__HW_FIR_EQ_PROCESS__) case AUDIO_EQ_TYPE_HW_FIR: { if(a2dp_sample_rate == AUD_SAMPRATE_44100) { index_eq = 0; } else if(a2dp_sample_rate == AUD_SAMPRATE_48000) { index_eq = 1; } else if(a2dp_sample_rate == AUD_SAMPRATE_96000) { index_eq = 2; } else { ASSERT(0, "[%s] sample_rate_recv(%d) is not supported", __func__, a2dp_sample_rate); } audio_eq_hw_fir_index=index_eq; if(anc_status) { index_eq=index_eq+3; } } break; #endif #if defined(__HW_DAC_IIR_EQ_PROCESS__) case AUDIO_EQ_TYPE_HW_DAC_IIR: { if(anc_status) { index_eq=audio_eq_hw_dac_iir_index+1; } else { index_eq=audio_eq_hw_dac_iir_index; } } break; #endif #if defined(__HW_IIR_EQ_PROCESS__) case AUDIO_EQ_TYPE_HW_IIR: { if(anc_status) { index_eq=audio_eq_hw_iir_index+1; } else { index_eq=audio_eq_hw_iir_index; } } break; #endif default: { ASSERT(false,"[%s]Error eq type!",__func__); } } #endif return index_eq; } uint32_t bt_audio_set_eq(AUDIO_EQ_TYPE_T audio_eq_type, uint8_t index) { const FIR_CFG_T *fir_cfg=NULL; const IIR_CFG_T *iir_cfg=NULL; TRACE_AUD_STREAM_I("[EQ] set type=%d,index=%d", audio_eq_type,index); #if defined(__SW_IIR_EQ_PROCESS__) || defined(__HW_FIR_EQ_PROCESS__)|| defined(__HW_DAC_IIR_EQ_PROCESS__)|| defined(__HW_IIR_EQ_PROCESS__) switch (audio_eq_type) { #if defined(__SW_IIR_EQ_PROCESS__) case AUDIO_EQ_TYPE_SW_IIR: { if(index >= EQ_SW_IIR_LIST_NUM) { TRACE_AUD_STREAM_W("[EQ] SET index %u > EQ_SW_IIR_LIST_NUM", index); return 1; } iir_cfg=audio_eq_sw_iir_cfg_list[index]; } break; #endif #if defined(__HW_FIR_EQ_PROCESS__) case AUDIO_EQ_TYPE_HW_FIR: { if(index >= EQ_HW_FIR_LIST_NUM) { TRACE_AUD_STREAM_W("[EQ] SET index %u > EQ_HW_FIR_LIST_NUM", index); return 1; } fir_cfg=audio_eq_hw_fir_cfg_list[index]; } break; #endif #if defined(__HW_DAC_IIR_EQ_PROCESS__) case AUDIO_EQ_TYPE_HW_DAC_IIR: { if(index >= EQ_HW_DAC_IIR_LIST_NUM) { TRACE_AUD_STREAM_W("[EQ] SET index %u > EQ_HW_DAC_IIR_LIST_NUM", index); return 1; } iir_cfg=audio_eq_hw_dac_iir_cfg_list[index]; } break; #endif #if defined(__HW_IIR_EQ_PROCESS__) case AUDIO_EQ_TYPE_HW_IIR: { if(index >= EQ_HW_IIR_LIST_NUM) { TRACE_AUD_STREAM_W("[EQ] SET index %u > EQ_HW_IIR_LIST_NUM", index); return 1; } iir_cfg=audio_eq_hw_iir_cfg_list[index]; } break; #endif default: { ASSERT(false,"[%s]Error eq type!",__func__); } } #endif #ifdef AUDIO_SECTION_ENABLE const IIR_CFG_T *iir_cfg_from_audio_section = (const IIR_CFG_T *)load_audio_cfg_from_audio_section(AUDIO_PROCESS_TYPE_IIR_EQ); if (iir_cfg_from_audio_section) { iir_cfg = iir_cfg_from_audio_section; } #endif return audio_eq_set_cfg(fir_cfg,iir_cfg,audio_eq_type); } #define A2DP_PLAYER_PLAYBACK_WATER_LINE ((uint32_t)(3.f * a2dp_audio_latency_factor_get() + 0.5f)) #define A2DP_PLAYER_PLAYBACK_WATER_LINE_UPPER (25) /******************************** AUD_BITS_16 dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/2*1000000LL/stream_cfg->sample_rate; AUD_BITS_24 dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/4*1000000LL/stream_cfg->sample_rate; dma_buffer_delay_us scalable delay = 864/sample*1000*n ms scalable delay = 864/44100*1000*13 = 117ms scalable delay = 864/96000*1000*6 = 118ms waterline delay = 864/sample*1000*n ms waterline delay = 864/44100*1000*3 = 58ms waterline delay = 864/96000*1000*3 = 27ms audio_delay = scalable delay + waterline delay *********************************/ #define A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_HIRES_MTU (13) #define A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_HIRES_BASE (9000) #define A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_HIRES_US (A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_HIRES_BASE*A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_HIRES_MTU) #define A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_BASERES_MTU (6) #define A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_BASERES_BASE (19500) #define A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_BASERES_US (A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_BASERES_BASE*A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_BASERES_MTU) /******************************** AUD_BITS_16 dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/2*1000000LL/stream_cfg->sample_rate; AUD_BITS_24 dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/4*1000000LL/stream_cfg->sample_rate; dma_buffer_delay_us aac delay = 1024/sample*1000*n ms aac delay = 1024/44100*1000*5 = 116ms waterline delay = 1024/sample*1000*n ms waterline delay = 1024/44100*1000*3 = 69ms audio_delay = aac delay + waterline delay *********************************/ #ifndef A2DP_PLAYER_PLAYBACK_DELAY_AAC_MTU #ifdef A2DP_PLAYER_PLAYBACK_WATER_LINE #define A2DP_PLAYER_PLAYBACK_DELAY_AAC_MTU (3) #else #define A2DP_PLAYER_PLAYBACK_DELAY_AAC_MTU (6) #endif #endif #define A2DP_PLAYER_PLAYBACK_DELAY_AAC_BASE (23000) #define A2DP_PLAYER_PLAYBACK_DELAY_AAC_US (A2DP_PLAYER_PLAYBACK_DELAY_AAC_BASE*A2DP_PLAYER_PLAYBACK_DELAY_AAC_MTU) /******************************** AUD_BITS_16 dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/2*1000000LL/stream_cfg->sample_rate; AUD_BITS_24 dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/4*1000000LL/stream_cfg->sample_rate; sbc delay = 128/sample*n ms sbc delay = 128/44100*45 = 130ms sbc_delay = sbc delay(23219us) waterline delay = 128/sample*SBC_FRAME_MTU*n ms waterline delay = 128/44100*5*3 = 43ms audio_delay = aac delay + waterline delay *********************************/ #define A2DP_PLAYER_PLAYBACK_DELAY_SBC_FRAME_MTU (5) #ifndef A2DP_PLAYER_PLAYBACK_DELAY_SBC_MTU #ifdef A2DP_PLAYER_PLAYBACK_WATER_LINE #define A2DP_PLAYER_PLAYBACK_DELAY_SBC_MTU (35) #else #define A2DP_PLAYER_PLAYBACK_DELAY_SBC_MTU (50) #endif #endif #define A2DP_PLAYER_PLAYBACK_DELAY_SBC_BASE (2800) #define A2DP_PLAYER_PLAYBACK_DELAY_SBC_US (A2DP_PLAYER_PLAYBACK_DELAY_SBC_BASE*A2DP_PLAYER_PLAYBACK_DELAY_SBC_MTU) #if defined(A2DP_LHDC_ON) /******************************** AUD_BITS_16 dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/2*1000000LL/stream_cfg->sample_rate; AUD_BITS_24 dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/4*1000000LL/stream_cfg->sample_rate; lhdc delay = 512/sample*1000*n ms lhdc delay = *28 = 149ms audio_delay = lhdc delay lhdc_v2 delay = 512/96000*1000*38 = 202ms lhdc_v3 delay = 256/96000*1000*58 = 154ms audio_delay = lhdc_v3 delay *********************************/ #if defined(IBRT) #if defined(A2DP_LHDC_V3) #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_HIRES_MTU (68) #else #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_HIRES_MTU (38) #endif #else #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_HIRES_MTU (28) #endif #if defined(A2DP_LHDC_V3) #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_HIRES_BASE (2666) #else #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_HIRES_BASE (5333) #endif #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_HIRES_US (A2DP_PLAYER_PLAYBACK_DELAY_LHDC_HIRES_MTU*A2DP_PLAYER_PLAYBACK_DELAY_LHDC_HIRES_BASE) /******************************** AUD_BITS_16 dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/2*1000000LL/stream_cfg->sample_rate; AUD_BITS_24 dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/4*1000000LL/stream_cfg->sample_rate; lhdc delay = 512/sample*1000*n ms lhdc_v2 delay = 512/48000*1000*14 = 149ms lhdc_v3 delay = 256/48000*1000*28 = 149ms audio_delay = lhdc delay *********************************/ #if defined(A2DP_LHDC_V3) #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_BASERES_MTU (38) #else #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_BASERES_MTU (14) #endif #if defined(A2DP_LHDC_V3) #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_BASERES_BASE (5333) #else #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_BASERES_BASE (10666) #endif #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_BASERES_US (A2DP_PLAYER_PLAYBACK_DELAY_LHDC_BASERES_MTU*A2DP_PLAYER_PLAYBACK_DELAY_LHDC_BASERES_BASE) /******************************** AUD_BITS_16 dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/2*1000000LL/stream_cfg->sample_rate; AUD_BITS_24 dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/4*1000000LL/stream_cfg->sample_rate; lhdc delay = 512/sample*1000*n ms lhdc_v2 delay = 512/48000*1000*9 = 96ms lhdc_v3 delay = 256/48000*1000*19 = 101ms audio_delay = lhdc delay *********************************/ #if defined(IBRT) #if defined(A2DP_LHDC_V3) #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_LLC_MTU (15) #else #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_LLC_MTU (9) #endif #else #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_LLC_MTU (6) #endif #if defined(A2DP_LHDC_V3) #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_LLC_BASE (5333) #else #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_LLC_BASE (10666) #endif #define A2DP_PLAYER_PLAYBACK_DELAY_LHDC_LLC_US (A2DP_PLAYER_PLAYBACK_DELAY_LHDC_LLC_MTU*A2DP_PLAYER_PLAYBACK_DELAY_LHDC_LLC_BASE) #endif #if defined(A2DP_LDAC_ON) /******************************** AUD_BITS_16 dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/2*1000000LL/stream_cfg->sample_rate; AUD_BITS_24 dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/4*1000000LL/stream_cfg->sample_rate; ldac delay = 256/sample*1000*n ms ldac delay = 256/96000*1000*56 = 149ms audio_delay = ldac delay *********************************/ #define A2DP_PLAYER_PLAYBACK_DELAY_LDAC_FRAME_MTU (5) #define A2DP_PLAYER_PLAYBACK_DELAY_LDAC_MTU (60) #define A2DP_PLAYER_PLAYBACK_DELAY_LDAC_BASE (2667) #define A2DP_PLAYER_PLAYBACK_DELAY_LDAC_US (A2DP_PLAYER_PLAYBACK_DELAY_LDAC_BASE*A2DP_PLAYER_PLAYBACK_DELAY_LDAC_MTU) #endif enum BT_STREAM_TRIGGER_STATUS_T { BT_STREAM_TRIGGER_STATUS_NULL = 0, BT_STREAM_TRIGGER_STATUS_INIT, BT_STREAM_TRIGGER_STATUS_WAIT, BT_STREAM_TRIGGER_STATUS_OK, }; static uint32_t tg_acl_trigger_time = 0; static uint32_t tg_acl_trigger_start_time = 0; static uint32_t tg_acl_trigger_init_time = 0; static enum BT_STREAM_TRIGGER_STATUS_T bt_stream_trigger_status = BT_STREAM_TRIGGER_STATUS_NULL; void app_bt_stream_playback_irq_notification(enum AUD_STREAM_ID_T id, enum AUD_STREAM_T stream); inline void app_bt_stream_trigger_stauts_set(enum BT_STREAM_TRIGGER_STATUS_T stauts) { TRACE_AUD_STREAM_I("[STRM_TRIG] stauts_set %d->%d", bt_stream_trigger_status,stauts); bt_stream_trigger_status = stauts; } inline enum BT_STREAM_TRIGGER_STATUS_T app_bt_stream_trigger_stauts_get(void) { TRACE_AUD_STREAM_I("[STRM_TRIG] stauts_get:%d", bt_stream_trigger_status); return bt_stream_trigger_status; } uint32_t app_bt_stream_get_dma_buffer_delay_us(void) { uint32_t dma_buffer_delay_us = 0; struct AF_STREAM_CONFIG_T *stream_cfg = NULL; if (!af_stream_get_cfg(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK, &stream_cfg, false)){ if (stream_cfg->bits <= AUD_BITS_16){ dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/2*1000000LL/stream_cfg->sample_rate; }else{ dma_buffer_delay_us = stream_cfg->data_size/stream_cfg->channel_num/4*1000000LL/stream_cfg->sample_rate; } } return dma_buffer_delay_us; } uint32_t app_bt_stream_get_dma_buffer_samples(void) { uint32_t dma_buffer_delay_samples = 0; struct AF_STREAM_CONFIG_T *stream_cfg = NULL; if (!af_stream_get_cfg(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK, &stream_cfg, false)){ if (stream_cfg->bits <= AUD_BITS_16){ dma_buffer_delay_samples = stream_cfg->data_size/stream_cfg->channel_num/2; }else{ dma_buffer_delay_samples = stream_cfg->data_size/stream_cfg->channel_num/4; } } return dma_buffer_delay_samples; } #if defined(IBRT) typedef enum { APP_TWS_IBRT_AUDIO_SYNCHRONIZE_STATUS_IDLE, APP_TWS_IBRT_AUDIO_SYNCHRONIZE_STATUS_ONPROCESS, APP_TWS_IBRT_AUDIO_SYNCHRONIZE_STATUS_SYNCOK, }APP_TWS_IBRT_AUDIO_SYNCHRONIZE_STATUS_TYPE; #define APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_CNT_LIMIT (100) void app_bt_stream_ibrt_set_trigger_time(APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T *sync_trigger); void app_bt_stream_ibrt_auto_synchronize_initsync_start(APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T *sync_trigger); static APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T app_bt_stream_ibrt_auto_synchronize_trigger; static uint32_t app_bt_stream_ibrt_auto_synchronize_cnt = 0; int app_bt_stream_ibrt_audio_mismatch_stopaudio(void); void app_bt_stream_ibrt_auto_synchronize_hungup(void); void app_bt_stream_ibrt_auto_synchronize_stop(void); static APP_TWS_IBRT_AUDIO_SYNCHRONIZE_STATUS_TYPE ibrt_auto_synchronize_status = APP_TWS_IBRT_AUDIO_SYNCHRONIZE_STATUS_IDLE; int app_bt_stream_ibrt_auto_synchronize_status_set(APP_TWS_IBRT_AUDIO_SYNCHRONIZE_STATUS_TYPE status) { TRACE_AUD_STREAM_I("[AUTO_SYNC] status:%d", status); ibrt_auto_synchronize_status = status; return 0; } APP_TWS_IBRT_AUDIO_SYNCHRONIZE_STATUS_TYPE app_bt_stream_ibrt_auto_synchronize_status_get(void) { TRACE_AUD_STREAM_I("[AUTO_SYNC] status:%d", ibrt_auto_synchronize_status); return ibrt_auto_synchronize_status; } int app_bt_stream_ibrt_auto_synchronize_trigger_start(btif_media_header_t * header, unsigned char *buf, unsigned int len) { APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T *sync_trigger = &app_bt_stream_ibrt_auto_synchronize_trigger; app_bt_stream_ibrt_auto_synchronize_stop(); TRACE_AUD_STREAM_I("[AUTO_SYNC] trigger:%d Seq:%d timestamp:%d SubSeq:%d/%d currSeq:%d", sync_trigger->trigger_time, sync_trigger->audio_info.sequenceNumber, sync_trigger->audio_info.timestamp, sync_trigger->audio_info.curSubSequenceNumber, sync_trigger->audio_info.totalSubSequenceNumber, header->sequenceNumber ); ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); if (app_tws_ibrt_slave_ibrt_link_connected()){ if (sync_trigger->trigger_time >= bt_syn_get_curr_ticks(p_ibrt_ctrl->ibrt_conhandle)){ app_bt_stream_ibrt_set_trigger_time(sync_trigger); }else{ TRACE_AUD_STREAM_W("[AUTO_SYNC]failed trigger(%d)-->tg(%d) need resume", bt_syn_get_curr_ticks(p_ibrt_ctrl->ibrt_conhandle), sync_trigger->trigger_time); app_ibrt_if_force_audio_retrigger(); //app_tws_ibrt_audio_sync_mismatch_resume_notify(); } }else{ TRACE_AUD_STREAM_I("[AUTO_SYNC] ok but currRole:%d mismatch\n", p_ibrt_ctrl->current_role); app_ibrt_if_force_audio_retrigger(); } return 0; } int app_bt_stream_ibrt_auto_synchronize_dataind_cb(btif_media_header_t * header, unsigned char *buf, unsigned int len) { APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T *sync_trigger = &app_bt_stream_ibrt_auto_synchronize_trigger; bool synchronize_ok = false; int32_t timestamp_diff = 0; int32_t dma_buffer_samples = 0; int32_t frame_totle_samples = 0; frame_totle_samples = sync_trigger->audio_info.totalSubSequenceNumber * sync_trigger->audio_info.frame_samples; timestamp_diff = sync_trigger->audio_info.timestamp - header->timestamp; TRACE_AUD_STREAM_I("[AUTO_SYNC][DATAIND] seq:%d/%d timestamp:%d/%d cnt:%d", header->sequenceNumber, sync_trigger->audio_info.sequenceNumber, header->timestamp, sync_trigger->audio_info.timestamp, app_bt_stream_ibrt_auto_synchronize_cnt); if (++app_bt_stream_ibrt_auto_synchronize_cnt > APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_CNT_LIMIT){ app_bt_stream_ibrt_auto_synchronize_stop(); TRACE_AUD_STREAM_W("[AUTO_SYNC][DATAIND] SYNCHRONIZE_CNT_LIMIT, we need force retrigger"); app_ibrt_if_force_audio_retrigger(); }else if (app_tws_ibrt_mobile_link_connected()){ app_bt_stream_ibrt_auto_synchronize_stop(); TRACE_AUD_STREAM_W("[AUTO_SYNC][DATAIND] find role to master, we need force retrigger"); app_ibrt_if_force_audio_retrigger(); }else if (sync_trigger->audio_info.sequenceNumber < header->sequenceNumber){ app_bt_stream_ibrt_auto_synchronize_stop(); TRACE_AUD_STREAM_W("[AUTO_SYNC][DATAIND] seq timestamp:%d/%d mismatch need resume", header->timestamp, sync_trigger->audio_info.timestamp); app_ibrt_if_force_audio_retrigger(); }else{ if (header->sequenceNumber >= sync_trigger->audio_info.sequenceNumber && !sync_trigger->audio_info.totalSubSequenceNumber){ synchronize_ok = true; }else if (header->timestamp == sync_trigger->audio_info.timestamp){ synchronize_ok = true; } dma_buffer_samples = app_bt_stream_get_dma_buffer_samples()/2; if (sync_trigger->audio_info.timestamp >= header->timestamp && sync_trigger->audio_info.totalSubSequenceNumber){ if (timestamp_diff < dma_buffer_samples){ TRACE_AUD_STREAM_I("[AUTO_SYNC][DATAIND] timestamp_diff < dma_buffer_samples synchronize ok"); synchronize_ok = true; }else if (timestamp_diff < frame_totle_samples){ TRACE_AUD_STREAM_I("[AUTO_SYNC][DATAIND] timestamp_diff < frame_totle_samples synchronize ok"); synchronize_ok = true; } } if (!synchronize_ok && header->sequenceNumber >= sync_trigger->audio_info.sequenceNumber){ TRACE_AUD_STREAM_I("[AUTO_SYNC][DATAIND] timestamp %d vs %d", sync_trigger->audio_info.timestamp - header->timestamp, frame_totle_samples); if ((sync_trigger->audio_info.timestamp - header->timestamp) <= (uint32_t)(frame_totle_samples*3)){ sync_trigger->audio_info.sequenceNumber++; TRACE_AUD_STREAM_I("[AUTO_SYNC][DATAIND] timestamp try sequenceNumber:%d", header->sequenceNumber); } } //flush all a2dp_audio_synchronize_dest_packet_mut(0); if (synchronize_ok){ A2DP_AUDIO_LASTFRAME_INFO_T lastframe_info; if (a2dp_audio_lastframe_info_get(&lastframe_info) < 0){ TRACE_AUD_STREAM_I("[AUTO_SYNC][DATAIND]synchronize ok but lastframe error"); goto exit; } TRACE_AUD_STREAM_I("[AUTO_SYNC][DATAIND]synchronize ok timestamp_diff:%d frame_samples:%d", timestamp_diff, lastframe_info.frame_samples); sync_trigger->trigger_type = APP_TWS_IBRT_AUDIO_TRIGGER_TYPE_LOCAL; sync_trigger->audio_info.sequenceNumber = header->sequenceNumber; sync_trigger->audio_info.timestamp = header->timestamp; if (sync_trigger->audio_info.totalSubSequenceNumber){ sync_trigger->audio_info.curSubSequenceNumber = timestamp_diff/lastframe_info.frame_samples; TRACE_AUD_STREAM_I("[AUTO_SYNC][DATAIND]synchronize ok tstmp_diff:%d/%d SubSeq:%d", timestamp_diff, sync_trigger->audio_info.frame_samples, sync_trigger->audio_info.curSubSequenceNumber); }else{ sync_trigger->audio_info.curSubSequenceNumber = 0; } sync_trigger->audio_info.totalSubSequenceNumber = lastframe_info.totalSubSequenceNumber; sync_trigger->audio_info.frame_samples = lastframe_info.frame_samples; if (sync_trigger->audio_info.totalSubSequenceNumber && sync_trigger->audio_info.curSubSequenceNumber >= sync_trigger->audio_info.totalSubSequenceNumber){ TRACE_AUD_STREAM_W("[AUTO_SYNC][DATAIND]synchronize ok but sbc & timestamp is ms so force trigger"); app_bt_stream_ibrt_auto_synchronize_stop(); app_ibrt_if_force_audio_retrigger(); }else{ a2dp_audio_detect_store_packet_callback_register(app_bt_stream_ibrt_auto_synchronize_trigger_start); } }else{ a2dp_audio_detect_first_packet(); } } exit: return 0; } void app_bt_stream_ibrt_auto_synchronize_start(APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T *sync_trigger) { TRACE_AUD_STREAM_I("[AUTO_SYNC][DATAIND] trigger_time:%d seq:%d timestamp:%d SubSeq:%d/%d", sync_trigger->trigger_time, sync_trigger->audio_info.sequenceNumber, sync_trigger->audio_info.timestamp, sync_trigger->audio_info.curSubSequenceNumber, sync_trigger->audio_info.totalSubSequenceNumber ); app_bt_stream_ibrt_auto_synchronize_status_set(APP_TWS_IBRT_AUDIO_SYNCHRONIZE_STATUS_ONPROCESS); app_bt_stream_ibrt_auto_synchronize_cnt = 0; app_bt_stream_ibrt_auto_synchronize_trigger = *sync_trigger; a2dp_audio_detect_next_packet_callback_register(app_bt_stream_ibrt_auto_synchronize_dataind_cb); a2dp_audio_detect_first_packet(); } void app_bt_stream_ibrt_auto_synchronize_hungup(void) { a2dp_audio_detect_next_packet_callback_register(NULL); a2dp_audio_detect_store_packet_callback_register(NULL); } void app_bt_stream_ibrt_auto_synchronize_stop(void) { app_bt_stream_ibrt_auto_synchronize_hungup(); app_bt_stream_ibrt_auto_synchronize_cnt = 0; app_bt_stream_ibrt_auto_synchronize_status_set(APP_TWS_IBRT_AUDIO_SYNCHRONIZE_STATUS_IDLE); } bool app_bt_stream_ibrt_auto_synchronize_on_porcess(void) { bool nRet = true; APP_TWS_IBRT_AUDIO_SYNCHRONIZE_STATUS_TYPE synchronize_status = app_bt_stream_ibrt_auto_synchronize_status_get(); if (synchronize_status == APP_TWS_IBRT_AUDIO_SYNCHRONIZE_STATUS_IDLE){ nRet = false; } return nRet; } void app_bt_stream_ibrt_start_sbc_player_callback(uint32_t status, uint32_t param) { if (app_bt_stream_isrun(APP_BT_STREAM_A2DP_SBC)){ TRACE_AUD_STREAM_I("start_sbc_player_cb trigger(%d)-->tg(%d)", param, ((APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T *)(uintptr_t)param)->trigger_time); app_bt_stream_ibrt_set_trigger_time((APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T *)(uintptr_t)param); }else{ TRACE_AUD_STREAM_I("start_sbc_player_cb try again"); app_audio_manager_sendrequest_need_callback( APP_BT_STREAM_MANAGER_START,BT_STREAM_SBC, BT_DEVICE_ID_1, MAX_RECORD_NUM, (uint32_t)(uintptr_t)app_bt_stream_ibrt_start_sbc_player_callback, (uint32_t)param); } } int app_bt_stream_ibrt_start_sbc_player(APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T *sync_trigger) { TRACE_AUD_STREAM_I("start_sbc_player tg(%d)", sync_trigger->trigger_time); app_audio_manager_sendrequest_need_callback( APP_BT_STREAM_MANAGER_START,BT_STREAM_SBC, BT_DEVICE_ID_1, MAX_RECORD_NUM, (uint32_t)(uintptr_t)app_bt_stream_ibrt_start_sbc_player_callback, (uint32_t)(uintptr_t)sync_trigger); return 0; } uint16_t app_bt_stream_ibrt_trigger_seq_diff_calc(int32_t dma_samples, int32_t frame_samples, int32_t total_subseq, int32_t interval) { float seq_factor = 1.0f; if (total_subseq){ seq_factor = (float)(dma_samples/frame_samples)/(float)total_subseq; }else{ seq_factor = (float)(dma_samples/frame_samples); } return (uint16_t)(seq_factor * (float)interval); } #define MOBILE_LINK_PLAYBACK_INFO_TRIG_DUMMY_DMA_CNT (5) #define SYNCHRONIZE_DATAIND_CNT_LIMIT (25) static int synchronize_need_discards_dma_cnt = 0; static int synchronize_dataind_cnt = 0; int app_bt_stream_ibrt_auto_synchronize_initsync_dataind_cb_v2(btif_media_header_t * header, unsigned char *buf, unsigned int len) { bool synchronize_ok = false; bool discards_samples_finished = false; int dest_discards_samples = 0; uint32_t list_samples = 0; uint32_t curr_ticks = 0; A2DP_AUDIO_HEADFRAME_INFO_T headframe_info; ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T *sync_trigger = &app_bt_stream_ibrt_auto_synchronize_trigger; synchronize_dataind_cnt++; if (app_tws_ibrt_mobile_link_connected()){ TRACE_AUD_STREAM_W("[AUTO_SYNCV2] mobile_link is connect retrigger because role switch"); app_ibrt_if_force_audio_retrigger(); return 0; } if (synchronize_dataind_cnt >= SYNCHRONIZE_DATAIND_CNT_LIMIT){ TRACE_AUD_STREAM_W("[AUTO_SYNCV2] mobile_link is connect retrigger because CNT_LIMIT"); app_ibrt_if_force_audio_retrigger(); return 0; } dest_discards_samples = app_bt_stream_get_dma_buffer_samples()/2*synchronize_need_discards_dma_cnt; a2dp_audio_convert_list_to_samples(&list_samples); if ((int)list_samples > dest_discards_samples){ discards_samples_finished = true; a2dp_audio_discards_samples(dest_discards_samples); } a2dp_audio_decoder_headframe_info_get(&headframe_info); TRACE_AUD_STREAM_I("[AUTO_SYNCV2] sample:%d->%d seq:%d sub_seq:%d/%d", list_samples,dest_discards_samples, headframe_info.sequenceNumber, headframe_info.curSubSequenceNumber, headframe_info.totalSubSequenceNumber); curr_ticks = bt_syn_get_curr_ticks(p_ibrt_ctrl->ibrt_conhandle); TRACE_AUD_STREAM_I("[AUTO_SYNCV2] trig:%x/%x", curr_ticks, sync_trigger->trigger_time); if (discards_samples_finished){ if (sync_trigger->trigger_time > curr_ticks){ synchronize_ok = true; }else{ TRACE_AUD_STREAM_I("[AUTO_SYNCV2] synchronize_failed"); app_ibrt_if_force_audio_retrigger(); return 0; } } if (synchronize_ok){ TRACE_AUD_STREAM_I("[AUTO_SYNCV2] synchronize_ok"); tg_acl_trigger_time = sync_trigger->trigger_time; btdrv_syn_trigger_codec_en(1); btdrv_syn_clr_trigger(); btdrv_enable_playback_triggler(ACL_TRIGGLE_MODE); bt_syn_set_tg_ticks(sync_trigger->trigger_time, p_ibrt_ctrl->ibrt_conhandle, BT_TRIG_SLAVE_ROLE); app_tws_ibrt_audio_analysis_start(sync_trigger->handler_cnt, AUDIO_ANALYSIS_CHECKER_INTERVEL_INVALID); app_tws_ibrt_audio_sync_start(); app_tws_ibrt_audio_sync_new_reference(sync_trigger->factor_reference); TRACE_AUD_STREAM_I("[AUTO_SYNCV2] trigger curr(%d)-->tg(%d)", bt_syn_get_curr_ticks(p_ibrt_ctrl->ibrt_conhandle), sync_trigger->trigger_time); synchronize_need_discards_dma_cnt = 0; synchronize_dataind_cnt = 0; a2dp_audio_detect_first_packet_clear(); a2dp_audio_detect_next_packet_callback_register(NULL); a2dp_audio_detect_store_packet_callback_register(NULL); }else{ a2dp_audio_detect_first_packet(); } return 0; } void app_bt_stream_ibrt_mobile_link_playback_info_receive(APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T *sync_trigger) { uint32_t tg_tick = 0; uint32_t next_dma_cnt = 0; A2DP_AUDIO_LASTFRAME_INFO_T lastframe_info; A2DP_AUDIO_SYNCFRAME_INFO_T sync_info; A2DP_AUDIO_HEADFRAME_INFO_T headframe_info; APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T *sync_trigger_loc = &app_bt_stream_ibrt_auto_synchronize_trigger; ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); TRACE_AUD_STREAM_I("[AUTO_SYNCV2][INFO_RECV] session:%d hdl:%d clk:%d cnt:%d seq:%d/%d/%d", sync_trigger->a2dp_session, sync_trigger->handler_cnt, sync_trigger->trigger_bt_clk, sync_trigger->trigger_bt_cnt, sync_trigger->audio_info.sequenceNumber, sync_trigger->audio_info.curSubSequenceNumber, sync_trigger->audio_info.totalSubSequenceNumber); if (app_bt_stream_ibrt_auto_synchronize_on_porcess()){ TRACE_AUD_STREAM_W("[AUTO_SYNCV2][INFO_RECV] auto_synchronize_on_porcess skip it"); return; } if (!app_bt_is_a2dp_streaming(BTIF_DEVICE_ID_1)){ TRACE_AUD_STREAM_W("[AUTO_SYNCV2][INFO_RECV] streaming not ready skip it"); app_bt_stream_ibrt_audio_mismatch_stopaudio(); return; } if (a2dp_ibrt_session_get() != sync_trigger->a2dp_session){ TRACE_AUD_STREAM_W("[AUTO_SYNCV2][INFO_RECV] session mismatch skip it loc:%d rmt:%d", a2dp_ibrt_session_get(), sync_trigger->a2dp_session); TRACE_AUD_STREAM_W("[AUTO_SYNCV2][INFO_RECV] session froce resume and try retrigger"); a2dp_ibrt_session_set(sync_trigger->a2dp_session); app_bt_stream_ibrt_audio_mismatch_stopaudio(); return; } if (a2dp_audio_lastframe_info_get(&lastframe_info) < 0){ TRACE_AUD_STREAM_W("[AUTO_SYNCV2][INFO_RECV] lastframe not ready mismatch_stopaudio"); app_bt_stream_ibrt_audio_mismatch_stopaudio(); return; } *sync_trigger_loc = *sync_trigger; sync_info.sequenceNumber = sync_trigger->audio_info.sequenceNumber; sync_info.timestamp = sync_trigger->audio_info.timestamp; sync_info.curSubSequenceNumber = sync_trigger->audio_info.curSubSequenceNumber; sync_info.totalSubSequenceNumber = sync_trigger->audio_info.totalSubSequenceNumber; sync_info.frame_samples = sync_trigger->audio_info.frame_samples; if (a2dp_audio_synchronize_packet(&sync_info, A2DP_AUDIO_SYNCFRAME_MASK_ALL)){ TRACE_AUD_STREAM_W("[AUTO_SYNCV2][INFO_RECV] synchronize_packe mismatch"); app_ibrt_if_force_audio_retrigger(); return; } a2dp_audio_decoder_headframe_info_get(&headframe_info); TRACE_AUD_STREAM_I("[AUTO_SYNCV2][INFO_RECV] sync with master packet step1 seq:%d sub_seq:%d/%d", headframe_info.sequenceNumber, headframe_info.curSubSequenceNumber, headframe_info.totalSubSequenceNumber); a2dp_audio_discards_samples(lastframe_info.list_samples); a2dp_audio_decoder_headframe_info_get(&headframe_info); TRACE_AUD_STREAM_I("[AUTO_SYNCV2][INFO_RECV] sync with master packet step2 seq:%d sub_seq:%d/%d", headframe_info.sequenceNumber, headframe_info.curSubSequenceNumber, headframe_info.totalSubSequenceNumber); uint32_t btclk; uint16_t btcnt; uint32_t mobile_master_clk = 0; uint16_t mobile_master_cnt = 0; int64_t mobile_master_us = 0; btclk = btdrv_syn_get_curr_ticks()/2; btcnt = 0; app_tws_ibrt_audio_mobile_clkcnt_get(btclk, btcnt, &mobile_master_clk, &mobile_master_cnt); mobile_master_us = (int64_t)mobile_master_clk * (int64_t)SLOT_SIZE + (int64_t)mobile_master_cnt; uint32_t rmt_mobile_master_clk = sync_trigger->trigger_bt_clk; uint16_t rmt_mobile_master_cnt = sync_trigger->trigger_bt_cnt; int64_t rmt_mobile_master_us = 0; int64_t tmp_mobile_master_us = 0; rmt_mobile_master_us = (int64_t)rmt_mobile_master_clk * (int64_t)SLOT_SIZE + (int64_t)rmt_mobile_master_cnt; uint32_t dma_buffer_us = 0; dma_buffer_us = app_bt_stream_get_dma_buffer_delay_us()/2; tmp_mobile_master_us = rmt_mobile_master_us; do{ if (tmp_mobile_master_us - mobile_master_us >= 0){ break; } tmp_mobile_master_us += dma_buffer_us; next_dma_cnt++; }while(1); next_dma_cnt += MOBILE_LINK_PLAYBACK_INFO_TRIG_DUMMY_DMA_CNT ; tmp_mobile_master_us += dma_buffer_us * (MOBILE_LINK_PLAYBACK_INFO_TRIG_DUMMY_DMA_CNT-1); synchronize_need_discards_dma_cnt = next_dma_cnt + a2dp_audio_frame_delay_get() - 1; synchronize_dataind_cnt = 0; TRACE_AUD_STREAM_I("[AUTO_SYNCV2][INFO_RECV] loc:%08x%08x rmt:%08x%08x tg:%08x%08x", (uint32_t)((uint64_t)mobile_master_us>>32U), (uint32_t)((uint64_t)mobile_master_us&0xffffffff), (uint32_t)((uint64_t)rmt_mobile_master_us>>32U), (uint32_t)((uint64_t)rmt_mobile_master_us&0xffffffff), (uint32_t)((uint64_t)tmp_mobile_master_us>>32U), (uint32_t)((uint64_t)tmp_mobile_master_us&0xffffffff)); tmp_mobile_master_us = tmp_mobile_master_us/SLOT_SIZE; tg_tick = tmp_mobile_master_us * 2; tg_tick &= 0x0fffffff; sync_trigger_loc->trigger_type = APP_TWS_IBRT_AUDIO_TRIGGER_TYPE_LOCAL; sync_trigger_loc->trigger_time = tg_tick; sync_trigger_loc->handler_cnt += next_dma_cnt; a2dp_audio_detect_next_packet_callback_register(app_bt_stream_ibrt_auto_synchronize_initsync_dataind_cb_v2); a2dp_audio_detect_first_packet(); TRACE_AUD_STREAM_I("[AUTO_SYNCV2][INFO_RECV] mobile clk:%x/%x tg:%x", bt_syn_get_curr_ticks(p_ibrt_ctrl->ibrt_conhandle)/2, mobile_master_clk, tg_tick/2); TRACE_AUD_STREAM_I("[AUTO_SYNCV2][INFO_RECV] master_us:%x/%x/%x dma_cnt:%d/%d", (int32_t)mobile_master_us, (int32_t)rmt_mobile_master_us, (int32_t)tmp_mobile_master_us, next_dma_cnt, sync_trigger_loc->handler_cnt); } void app_bt_stream_ibrt_set_trigger_time(APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T *sync_trigger) { uint32_t curr_ticks = 0; ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); uint32_t tg_tick = sync_trigger->trigger_time; A2DP_AUDIO_SYNCFRAME_INFO_T sync_info; int synchronize_ret; A2DP_AUDIO_LASTFRAME_INFO_T lastframe_info; A2DP_AUDIO_HEADFRAME_INFO_T headframe_info; if (app_bt_stream_ibrt_auto_synchronize_on_porcess()){ TRACE_AUD_STREAM_W("[STRM_TRIG][A2DP][IBRT] auto_synchronize_on_porcess skip it"); return; } if (!app_bt_is_a2dp_streaming(BTIF_DEVICE_ID_1)){ TRACE_AUD_STREAM_W("[STRM_TRIG][A2DP][IBRT] streaming not ready skip it"); app_bt_stream_ibrt_audio_mismatch_stopaudio(); return; } if (a2dp_ibrt_session_get() != sync_trigger->a2dp_session){ TRACE_AUD_STREAM_W("[STRM_TRIG][A2DP][IBRT] session mismatch skip it loc:%d rmt:%d", a2dp_ibrt_session_get(), sync_trigger->a2dp_session); TRACE_AUD_STREAM_W("[STRM_TRIG][A2DP][IBRT] session froce resume and try retrigger"); a2dp_ibrt_session_set(sync_trigger->a2dp_session); app_bt_stream_ibrt_audio_mismatch_stopaudio(); return; } if (a2dp_audio_lastframe_info_get(&lastframe_info) < 0){ TRACE_AUD_STREAM_W("[STRM_TRIG][A2DP][IBRT] lastframe not ready mismatch_stopaudio"); app_bt_stream_ibrt_audio_mismatch_stopaudio(); return; } if (a2dp_audio_decoder_headframe_info_get(&headframe_info) < 0){ TRACE_AUD_STREAM_W("[STRM_TRIG][A2DP][IBRT] lastframe not ready mismatch_stopaudio"); app_bt_stream_ibrt_audio_mismatch_stopaudio(); goto exit; } TRACE_AUD_STREAM_W("[STRM_TRIG][A2DP][IBRT] info base_seq:%d/%d", headframe_info.sequenceNumber, sync_trigger->sequenceNumberStart); a2dp_audio_detect_next_packet_callback_register(NULL); a2dp_audio_detect_store_packet_callback_register(NULL); sync_info.sequenceNumber = sync_trigger->sequenceNumberStart; synchronize_ret = a2dp_audio_synchronize_packet(&sync_info, A2DP_AUDIO_SYNCFRAME_MASK_SEQ); if (synchronize_ret){ TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][IBRT] synchronize_packet failed"); app_bt_stream_ibrt_audio_mismatch_stopaudio(); goto exit; } curr_ticks = bt_syn_get_curr_ticks(p_ibrt_ctrl->ibrt_conhandle); if (tg_tick < curr_ticks){ TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][IBRT] synchronize tick failed:%x->%x", curr_ticks, tg_tick); app_bt_stream_ibrt_audio_mismatch_stopaudio(); goto exit; } sync_info.sequenceNumber = sync_trigger->audio_info.sequenceNumber; sync_info.timestamp = sync_trigger->audio_info.timestamp; sync_info.curSubSequenceNumber = sync_trigger->audio_info.curSubSequenceNumber; sync_info.totalSubSequenceNumber = sync_trigger->audio_info.totalSubSequenceNumber; sync_info.frame_samples = sync_trigger->audio_info.frame_samples; if (app_tws_ibrt_slave_ibrt_link_connected()){ if (app_bt_stream_isrun(APP_BT_STREAM_A2DP_SBC)){ if (sync_trigger->trigger_type == APP_TWS_IBRT_AUDIO_TRIGGER_TYPE_INIT_SYNC){ TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][IBRT] TRIGGER_TYPE_INIT_SYNC needskip:%d", sync_trigger->trigger_skip_frame); //limter to water line upper uint32_t list_samples = 0; uint32_t limter_water_line_samples = 0; limter_water_line_samples = (a2dp_audio_dest_packet_mut_get() * lastframe_info.list_samples); a2dp_audio_convert_list_to_samples(&list_samples); TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][IBRT] synchronize:%d/%d", list_samples, limter_water_line_samples); if (list_samples > limter_water_line_samples){ TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][IBRT] skip discards:%d", list_samples - limter_water_line_samples); a2dp_audio_discards_samples(list_samples - limter_water_line_samples); } app_bt_stream_ibrt_auto_synchronize_initsync_start(sync_trigger); app_bt_stream_ibrt_auto_synchronize_status_set(APP_TWS_IBRT_AUDIO_SYNCHRONIZE_STATUS_SYNCOK); } }else if (!app_bt_stream_isrun(APP_BT_STREAM_HFP_PCM)){ TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][IBRT] sbc player not active, so try to start it"); app_bt_stream_ibrt_auto_synchronize_trigger = *sync_trigger; app_bt_stream_ibrt_audio_mismatch_stopaudio(); } }else{ TRACE_AUD_STREAM_W("[STRM_TRIG][A2DP][IBRT] Not Connected"); } exit: return; } void app_bt_stream_ibrt_audio_mismatch_resume(void) { ibrt_a2dp_status_t a2dp_status; a2dp_ibrt_sync_get_status(&a2dp_status); TRACE_AUD_STREAM_I("[MISMATCH] resume state:%d", a2dp_status.state); if (a2dp_status.state == BTIF_AVDTP_STRM_STATE_STREAMING){ if (app_tws_ibrt_mobile_link_connected()){ TRACE_AUD_STREAM_I("[MISMATCH] resume find role switch so force retrigger"); app_ibrt_if_force_audio_retrigger(); }else{ app_tws_ibrt_audio_sync_mismatch_resume_notify(); } } } void app_bt_stream_ibrt_audio_mismatch_stopaudio_cb(uint32_t status, uint32_t param) { TRACE_AUD_STREAM_I("[MISMATCH] stopaudio_cb"); if (app_bt_stream_isrun(APP_BT_STREAM_A2DP_SBC)){ TRACE_AUD_STREAM_I("[MISMATCH] stopaudio_cb try again"); app_audio_manager_sendrequest_need_callback( APP_BT_STREAM_MANAGER_STOP,BT_STREAM_SBC, BT_DEVICE_ID_1, MAX_RECORD_NUM, (uintptr_t)app_bt_stream_ibrt_audio_mismatch_stopaudio_cb, (uint32_t)NULL); }else{ app_bt_stream_ibrt_audio_mismatch_resume(); } } int app_bt_stream_ibrt_audio_mismatch_stopaudio(void) { ibrt_a2dp_status_t a2dp_status; a2dp_ibrt_sync_get_status(&a2dp_status); TRACE_AUD_STREAM_I("[MISMATCH] stopaudio state:%d sco:%d sbc:%d media:%d", a2dp_status.state, app_audio_manager_hfp_is_active(BT_DEVICE_ID_1), app_audio_manager_a2dp_is_active(BT_DEVICE_ID_1), app_bt_stream_isrun(APP_PLAY_BACK_AUDIO)); if (a2dp_status.state == BTIF_AVDTP_STRM_STATE_STREAMING){ if (app_audio_manager_a2dp_is_active(BT_DEVICE_ID_1)){ TRACE_AUD_STREAM_I("[MISMATCH] stopaudio"); app_audio_sendrequest_param(APP_BT_STREAM_A2DP_SBC, (uint8_t)APP_BT_SETTING_RESTART, 0, APP_SYSFREQ_52M); app_bt_stream_ibrt_audio_mismatch_resume(); }else{ if (app_ibrt_ui_is_profile_exchanged()){ if (!bt_media_is_sbc_media_active()){ TRACE_AUD_STREAM_I("[MISMATCH] stopaudio not active resume it & force retrigger"); app_audio_manager_sendrequest(APP_BT_STREAM_MANAGER_START,BT_STREAM_SBC, BT_DEVICE_ID_1,MAX_RECORD_NUM); app_ibrt_if_force_audio_retrigger(); }else{ if (app_bt_stream_isrun(APP_PLAY_BACK_AUDIO) #ifdef MEDIA_PLAYER_SUPPORT &&app_play_audio_get_aud_id() == AUDIO_ID_BT_MUTE #endif ){ TRACE_AUD_STREAM_I("[MISMATCH] stopaudio resum on process skip it"); }else{ TRACE_AUD_STREAM_I("[MISMATCH] stopaudio cancel_media and force retrigger"); app_ibrt_if_force_audio_retrigger(); } } }else{ TRACE_AUD_STREAM_I("[MISMATCH] stopaudio profile not exchanged skip it"); } } } return 0; } #endif void app_bt_stream_set_trigger_time(uint32_t trigger_time_us) { struct AF_STREAM_CONFIG_T *stream_cfg = NULL; uint32_t curr_ticks = 0; uint32_t dma_buffer_delay_us = 0; uint32_t tg_acl_trigger_offset_time = 0; if (trigger_time_us){ #if defined(IBRT) ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); uint16_t conhandle = INVALID_HANDLE; if (app_tws_ibrt_mobile_link_connected()){ conhandle = p_ibrt_ctrl->mobile_conhandle; curr_ticks = bt_syn_get_curr_ticks(conhandle); }else if (app_tws_ibrt_slave_ibrt_link_connected()){ conhandle = p_ibrt_ctrl->ibrt_conhandle; curr_ticks = bt_syn_get_curr_ticks(conhandle); }else{ return; } #else curr_ticks = btdrv_syn_get_curr_ticks(); #endif af_stream_get_cfg(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK, &stream_cfg, false); btdrv_syn_trigger_codec_en(0); btdrv_syn_clr_trigger(); btdrv_enable_playback_triggler(ACL_TRIGGLE_MODE); dma_buffer_delay_us = app_bt_stream_get_dma_buffer_delay_us(); dma_buffer_delay_us /= 2; TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][SETTIME] %d-%d-%d dma_sz:%d dly:%d", stream_cfg->sample_rate, stream_cfg->channel_num, stream_cfg->bits, stream_cfg->data_size, dma_buffer_delay_us); tg_acl_trigger_offset_time = US_TO_BTCLKS(trigger_time_us-dma_buffer_delay_us); tg_acl_trigger_time = curr_ticks + tg_acl_trigger_offset_time; tg_acl_trigger_start_time = curr_ticks; #if defined(IBRT) bt_syn_set_tg_ticks(tg_acl_trigger_time, conhandle, BT_TRIG_SLAVE_ROLE); TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][SETTIME] %d->%d trig_dly:%d aud_dly:%dus", curr_ticks, tg_acl_trigger_time, trigger_time_us-dma_buffer_delay_us, trigger_time_us+dma_buffer_delay_us); #else bt_syn_set_tg_ticks(tg_acl_trigger_time, 0, BT_TRIG_NONE_ROLE); TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][SETTIME] %d->%d trig_dly:%d aud_dly:%dus", curr_ticks, tg_acl_trigger_time, trigger_time_us-dma_buffer_delay_us, trigger_time_us+dma_buffer_delay_us); #endif btdrv_syn_trigger_codec_en(1); app_bt_stream_trigger_stauts_set(BT_STREAM_TRIGGER_STATUS_WAIT); }else{ tg_acl_trigger_time = 0; tg_acl_trigger_start_time = 0; btdrv_syn_trigger_codec_en(0); btdrv_syn_clr_trigger(); app_bt_stream_trigger_stauts_set(BT_STREAM_TRIGGER_STATUS_NULL); TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][SETTIME] trigger clear"); } } void app_bt_stream_trigger_result(void) { uint32_t curr_ticks = 0; if(tg_acl_trigger_time){ #if defined(IBRT) ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); if (app_tws_ibrt_mobile_link_connected()){ curr_ticks = bt_syn_get_curr_ticks(p_ibrt_ctrl->mobile_conhandle); bt_syn_trig_checker(p_ibrt_ctrl->mobile_conhandle); }else if (app_tws_ibrt_slave_ibrt_link_connected()){ curr_ticks = bt_syn_get_curr_ticks(p_ibrt_ctrl->ibrt_conhandle); bt_syn_trig_checker(p_ibrt_ctrl->ibrt_conhandle); }else{ TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][RESULT] mobile_link:%d %04x ibrt_link:%d %04x", app_tws_ibrt_mobile_link_connected(), p_ibrt_ctrl->mobile_conhandle, app_tws_ibrt_slave_ibrt_link_connected(), p_ibrt_ctrl->ibrt_conhandle); } #else curr_ticks = btdrv_syn_get_curr_ticks(); #endif TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][RESULT] trig:%d curr:%d tg:%d start:%d", (curr_ticks - (uint32_t)US_TO_BTCLKS(app_bt_stream_get_dma_buffer_delay_us()/2)), curr_ticks, tg_acl_trigger_time, tg_acl_trigger_start_time); TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][RESULT] tg_trig_diff:%d trig_diff:%d", (uint32_t)BTCLKS_TO_US(curr_ticks-tg_acl_trigger_time), (uint32_t)BTCLKS_TO_US(curr_ticks-tg_acl_trigger_start_time)); app_bt_stream_set_trigger_time(0); app_bt_stream_trigger_stauts_set(BT_STREAM_TRIGGER_STATUS_OK); A2DP_AUDIO_HEADFRAME_INFO_T headframe_info; a2dp_audio_decoder_headframe_info_get(&headframe_info); TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][RESULT] synchronize_ok :%d", headframe_info.sequenceNumber); } } void app_bt_stream_playback_irq_notification(enum AUD_STREAM_ID_T id, enum AUD_STREAM_T stream) { if (id != AUD_STREAM_ID_0 || stream != AUD_STREAM_PLAYBACK) { return; } app_bt_stream_trigger_result(); #if defined(IBRT) app_tws_ibrt_audio_analysis_interrupt_tick(); #endif } extern void a2dp_audio_set_mtu_limit(uint8_t mut); extern float a2dp_audio_latency_factor_get(void); extern uint8_t a2dp_lhdc_config_llc_get(void); void app_bt_stream_trigger_init(void) { #if defined(IBRT) ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); if (app_tws_ibrt_mobile_link_connected()){ tg_acl_trigger_init_time = bt_syn_get_curr_ticks(p_ibrt_ctrl->mobile_conhandle); }else if (app_tws_ibrt_slave_ibrt_link_connected()){ tg_acl_trigger_init_time = bt_syn_get_curr_ticks(p_ibrt_ctrl->ibrt_conhandle); }else{ TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][INIT] mobile_link:%d %04x ibrt_link:%d %04x", app_tws_ibrt_mobile_link_connected(), p_ibrt_ctrl->mobile_conhandle, app_tws_ibrt_slave_ibrt_link_connected(), p_ibrt_ctrl->ibrt_conhandle); } #else tg_acl_trigger_init_time = btdrv_syn_get_curr_ticks(); #endif app_bt_stream_set_trigger_time(0); #ifdef PLAYBACK_USE_I2S af_i2s_sync_config(AUD_STREAM_PLAYBACK, AF_I2S_SYNC_TYPE_BT, false); af_i2s_sync_config(AUD_STREAM_PLAYBACK, AF_I2S_SYNC_TYPE_BT, true); #else af_codec_sync_config(AUD_STREAM_PLAYBACK, AF_CODEC_SYNC_TYPE_BT, false); af_codec_sync_config(AUD_STREAM_PLAYBACK, AF_CODEC_SYNC_TYPE_BT, true); #endif app_bt_stream_trigger_stauts_set(BT_STREAM_TRIGGER_STATUS_INIT); } void app_bt_stream_trigger_deinit(void) { app_bt_stream_set_trigger_time(0); } void app_bt_stream_trigger_start(uint8_t offset) { float tg_trigger_time = 0; uint32_t curr_ticks; struct AF_STREAM_CONFIG_T *stream_cfg = NULL; af_stream_get_cfg(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK, &stream_cfg, false); #if defined(IBRT) ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); if (app_tws_ibrt_mobile_link_connected()){ curr_ticks = bt_syn_get_curr_ticks(p_ibrt_ctrl->mobile_conhandle); }else if (app_tws_ibrt_slave_ibrt_link_connected()){ curr_ticks = bt_syn_get_curr_ticks(p_ibrt_ctrl->ibrt_conhandle); }else{ return; } #else curr_ticks = btdrv_syn_get_curr_ticks(); #endif TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][START] init(%d)-->set_trig(%d) %dus", tg_acl_trigger_init_time, curr_ticks, (uint32_t)BTCLKS_TO_US(curr_ticks-tg_acl_trigger_init_time)); #if defined(A2DP_AAC_ON) if(bt_sbc_player_get_codec_type() == BTIF_AVDTP_CODEC_TYPE_MPEG2_4_AAC){ tg_trigger_time = A2DP_PLAYER_PLAYBACK_DELAY_AAC_US * a2dp_audio_latency_factor_get(); tg_trigger_time += offset*A2DP_PLAYER_PLAYBACK_DELAY_AAC_BASE; #if (A2DP_DECODER_VER < 2) a2dp_audio_set_mtu_limit(A2DP_PLAYER_PLAYBACK_DELAY_AAC_MTU); #endif }else #endif if(bt_sbc_player_get_codec_type() == BTIF_AVDTP_CODEC_TYPE_NON_A2DP){ #if defined(A2DP_SCALABLE_ON) if(current_a2dp_non_type == A2DP_NON_CODEC_TYPE_SCALABLE){ if(stream_cfg->sample_rate > AUD_SAMPRATE_48000){ tg_trigger_time = A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_HIRES_US * a2dp_audio_latency_factor_get(); tg_trigger_time += offset*A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_HIRES_BASE; #if (A2DP_DECODER_VER < 2) a2dp_audio_set_mtu_limit(A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_HIRES_MTU); #endif }else{ tg_trigger_time = A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_BASERES_US * a2dp_audio_latency_factor_get(); tg_trigger_time += offset*A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_BASERES_BASE; #if (A2DP_DECODER_VER < 2) a2dp_audio_set_mtu_limit(A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_BASERES_MTU); #endif } } #endif #if defined(A2DP_LHDC_ON) if(current_a2dp_non_type == A2DP_NON_CODEC_TYPE_LHDC){ if (a2dp_lhdc_config_llc_get()){ tg_trigger_time = A2DP_PLAYER_PLAYBACK_DELAY_LHDC_LLC_US * a2dp_audio_latency_factor_get(); tg_trigger_time += offset*A2DP_PLAYER_PLAYBACK_DELAY_LHDC_LLC_BASE; #if (A2DP_DECODER_VER < 2) a2dp_audio_set_mtu_limit(A2DP_PLAYER_PLAYBACK_DELAY_LHDC_LLC_MTU); #endif }else if(stream_cfg->sample_rate > AUD_SAMPRATE_48000){ tg_trigger_time = A2DP_PLAYER_PLAYBACK_DELAY_LHDC_HIRES_US * a2dp_audio_latency_factor_get(); tg_trigger_time += offset*A2DP_PLAYER_PLAYBACK_DELAY_LHDC_HIRES_BASE; #if (A2DP_DECODER_VER < 2) a2dp_audio_set_mtu_limit(A2DP_PLAYER_PLAYBACK_DELAY_LHDC_HIRES_MTU); #endif }else{ tg_trigger_time = A2DP_PLAYER_PLAYBACK_DELAY_LHDC_BASERES_US * a2dp_audio_latency_factor_get(); tg_trigger_time += offset*A2DP_PLAYER_PLAYBACK_DELAY_LHDC_BASERES_BASE; #if (A2DP_DECODER_VER < 2) a2dp_audio_set_mtu_limit(A2DP_PLAYER_PLAYBACK_DELAY_LHDC_BASERES_MTU); #endif } } #endif #if defined(A2DP_LDAC_ON) if(current_a2dp_non_type == A2DP_NON_CODEC_TYPE_LDAC){ uint32_t frame_mtu = A2DP_PLAYER_PLAYBACK_DELAY_LDAC_FRAME_MTU; #if (A2DP_DECODER_VER == 2) A2DP_AUDIO_LASTFRAME_INFO_T lastframe_info; if (!a2dp_audio_lastframe_info_get(&lastframe_info)){ frame_mtu = lastframe_info.totalSubSequenceNumber; } #endif tg_trigger_time = A2DP_PLAYER_PLAYBACK_DELAY_LDAC_US * a2dp_audio_latency_factor_get(); tg_trigger_time += offset*A2DP_PLAYER_PLAYBACK_DELAY_LDAC_BASE*frame_mtu; #if (A2DP_DECODER_VER < 2) a2dp_audio_set_mtu_limit(A2DP_PLAYER_PLAYBACK_DELAY_LDAC_MTU); #endif TRACE_AUD_STREAM_I("[STRM_TRIG][A2DP][START] [%d,%d,%d]", A2DP_PLAYER_PLAYBACK_DELAY_LDAC_MTU,A2DP_PLAYER_PLAYBACK_DELAY_LDAC_BASE,A2DP_PLAYER_PLAYBACK_DELAY_LDAC_US); } #endif }else { uint32_t frame_mtu = A2DP_PLAYER_PLAYBACK_DELAY_SBC_FRAME_MTU; #if (A2DP_DECODER_VER == 2) A2DP_AUDIO_LASTFRAME_INFO_T lastframe_info; if (!a2dp_audio_lastframe_info_get(&lastframe_info)){ frame_mtu = lastframe_info.totalSubSequenceNumber; } #endif tg_trigger_time = A2DP_PLAYER_PLAYBACK_DELAY_SBC_US; tg_trigger_time += offset*A2DP_PLAYER_PLAYBACK_DELAY_SBC_BASE*frame_mtu; #if (A2DP_DECODER_VER < 2) a2dp_audio_set_mtu_limit(A2DP_PLAYER_PLAYBACK_DELAY_SBC_MTU); #endif } app_bt_stream_set_trigger_time((uint32_t)tg_trigger_time); } bool app_bt_stream_trigger_onprocess(void) { if (app_bt_stream_trigger_stauts_get() == BT_STREAM_TRIGGER_STATUS_INIT){ return true; }else{ return false; } } #if defined(IBRT) #ifdef A2DP_CP_ACCEL #define APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME (8) #define APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME_LHDC (12) #else #define APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME (4) #endif APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T app_bt_stream_ibrt_auto_synchronize_initsync_trigger; int app_bt_stream_ibrt_auto_synchronize_initsync_dataind_cb(btif_media_header_t * header, unsigned char *buf, unsigned int len) { APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T *sync_trigger = &app_bt_stream_ibrt_auto_synchronize_initsync_trigger; bool synchronize_ok = false; A2DP_AUDIO_LASTFRAME_INFO_T lastframe_info; TRACE_AUD_STREAM_I("[AUTO_SYNC][INITSYNC][DATAIND] dataind_seq:%d/%d timestamp:%d/%d", header->sequenceNumber, sync_trigger->audio_info.sequenceNumber, header->timestamp, sync_trigger->audio_info.timestamp); if (a2dp_audio_lastframe_info_get(&lastframe_info)<0){ TRACE_AUD_STREAM_W("[AUTO_SYNC][INITSYNC][DATAIND] force retrigger"); app_ibrt_if_force_audio_retrigger(); return 0; } if (app_bt_stream_trigger_stauts_get() != BT_STREAM_TRIGGER_STATUS_WAIT){ TRACE_AUD_STREAM_W("[AUTO_SYNC][INITSYNC][DATAIND] already end"); a2dp_audio_detect_next_packet_callback_register(NULL); a2dp_audio_detect_store_packet_callback_register(NULL); return 0; } if (sync_trigger->audio_info.sequenceNumber < header->sequenceNumber){ TRACE_AUD_STREAM_W("[AUTO_SYNC][INITSYNC][DATAIND] force retrigger"); app_ibrt_if_force_audio_retrigger(); }else{ if (header->sequenceNumber >= sync_trigger->audio_info.sequenceNumber){ synchronize_ok = true; } if (synchronize_ok && app_bt_stream_trigger_stauts_get() != BT_STREAM_TRIGGER_STATUS_WAIT){ TRACE_AUD_STREAM_W("[AUTO_SYNC][INITSYNC][DATAIND] synchronize_failed"); app_ibrt_if_force_audio_retrigger(); return 0; } #ifdef A2DP_PLAYER_PLAYBACK_WATER_LINE //limter to water line upper uint32_t list_samples = 0; uint32_t limter_water_line_samples = 0; limter_water_line_samples = (a2dp_audio_dest_packet_mut_get() * lastframe_info.list_samples); a2dp_audio_convert_list_to_samples(&list_samples); TRACE_AUD_STREAM_W("[AUTO_SYNC][INITSYNC][DATAIND] synchronize:%d/%d", list_samples, limter_water_line_samples); if (list_samples > limter_water_line_samples){ TRACE_AUD_STREAM_W("[AUTO_SYNC][INITSYNC][DATAIND] skip discards:%d", list_samples - limter_water_line_samples); a2dp_audio_discards_samples(list_samples - limter_water_line_samples); } #else //flush all a2dp_audio_synchronize_dest_packet_mut(0); #endif if (synchronize_ok){ A2DP_AUDIO_HEADFRAME_INFO_T headframe_info; a2dp_audio_decoder_headframe_info_get(&headframe_info); TRACE_AUD_STREAM_W("[AUTO_SYNC][INITSYNC][DATAIND] synchronize_ok :%d", headframe_info.sequenceNumber); a2dp_audio_detect_next_packet_callback_register(NULL); a2dp_audio_detect_store_packet_callback_register(NULL); }else{ a2dp_audio_detect_first_packet(); } } return 0; } void app_bt_stream_ibrt_auto_synchronize_initsync_start(APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T *sync_trigger) { TRACE_AUD_STREAM_I("[AUTO_SYNC][INITSYNC] start trigger_time:%d seq:%d timestamp:%d SubSeq:%d/%d", sync_trigger->trigger_time, sync_trigger->audio_info.sequenceNumber, sync_trigger->audio_info.timestamp, sync_trigger->audio_info.curSubSequenceNumber, sync_trigger->audio_info.totalSubSequenceNumber ); app_bt_stream_ibrt_auto_synchronize_initsync_trigger = *sync_trigger; a2dp_audio_detect_next_packet_callback_register(app_bt_stream_ibrt_auto_synchronize_initsync_dataind_cb); a2dp_audio_detect_first_packet(); if (app_tws_ibrt_slave_ibrt_link_connected()){ ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); if (sync_trigger->trigger_time > bt_syn_get_curr_ticks(p_ibrt_ctrl->ibrt_conhandle)){ uint32_t tg_tick = sync_trigger->trigger_time; btdrv_syn_trigger_codec_en(1); btdrv_syn_clr_trigger(); btdrv_enable_playback_triggler(ACL_TRIGGLE_MODE); bt_syn_set_tg_ticks(tg_tick, p_ibrt_ctrl->ibrt_conhandle, BT_TRIG_SLAVE_ROLE); tg_acl_trigger_time = tg_tick; app_bt_stream_trigger_stauts_set(BT_STREAM_TRIGGER_STATUS_WAIT); TRACE_AUD_STREAM_I("[AUTO_SYNC][INITSYNC] start slave trigger curr(%d)-->tg(%d)", bt_syn_get_curr_ticks(p_ibrt_ctrl->ibrt_conhandle), tg_tick); app_tws_ibrt_audio_analysis_start(sync_trigger->handler_cnt, AUDIO_ANALYSIS_CHECKER_INTERVEL_INVALID); app_tws_ibrt_audio_sync_start(); app_tws_ibrt_audio_sync_new_reference(sync_trigger->factor_reference); }else{ TRACE_AUD_STREAM_I("[AUTO_SYNC][INITSYNC] start slave failed trigger(%d)-->tg(%d) need resume", bt_syn_get_curr_ticks(p_ibrt_ctrl->ibrt_conhandle), sync_trigger->trigger_time); app_tws_ibrt_audio_sync_mismatch_resume_notify(); } } } int app_bt_stream_ibrt_audio_master_detect_next_packet_cb(btif_media_header_t * header, unsigned char *buf, unsigned int len) { #ifdef A2DP_PLAYER_PLAYBACK_WATER_LINE A2DP_AUDIO_SYNCFRAME_INFO_T sync_info; A2DP_AUDIO_HEADFRAME_INFO_T headframe_info; #endif if(app_bt_stream_trigger_stauts_get() == BT_STREAM_TRIGGER_STATUS_INIT){ ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); int32_t dma_buffer_samples = app_bt_stream_get_dma_buffer_samples()/2; if (app_tws_ibrt_slave_ibrt_link_connected()){ TRACE_AUD_STREAM_W("[AUTO_SYNC][MASTER] cache ok but currRole:%d mismatch\n", p_ibrt_ctrl->current_role); app_ibrt_if_force_audio_retrigger(); }else if (!app_ibrt_ui_is_profile_exchanged() && !app_ibrt_if_start_ibrt_onporcess() && !app_ibrt_sync_a2dp_status_onporcess()){ if (p_ibrt_ctrl->mobile_mode == IBRT_SNIFF_MODE){ //flush all a2dp_audio_synchronize_dest_packet_mut(0); a2dp_audio_detect_first_packet(); TRACE_AUD_STREAM_I("[AUTO_SYNC][MASTER] cache skip delay dma trigger1\n"); return 0; } TRACE_AUD_STREAM_I("[AUTO_SYNC][MASTER] cache ok use dma trigger1\n"); a2dp_audio_detect_next_packet_callback_register(NULL); a2dp_audio_detect_store_packet_callback_register(NULL); #ifdef A2DP_PLAYER_PLAYBACK_WATER_LINE app_bt_stream_trigger_start(A2DP_PLAYER_PLAYBACK_WATER_LINE); #else app_bt_stream_trigger_start(0); #endif }else if (app_ibrt_if_start_ibrt_onporcess() || app_ibrt_sync_a2dp_status_onporcess() || app_ibrt_waiting_cmd_rsp()){ //flush all a2dp_audio_synchronize_dest_packet_mut(0); a2dp_audio_detect_first_packet(); TRACE_AUD_STREAM_I("[AUTO_SYNC][MASTER] cache skip profile_exchanged sync_a2dp_status_onporcess\n"); return 0; }else{ if (p_ibrt_ctrl->tws_mode == IBRT_SNIFF_MODE || p_ibrt_ctrl->mobile_mode == IBRT_SNIFF_MODE){ //flush all a2dp_audio_synchronize_dest_packet_mut(0); a2dp_audio_detect_first_packet(); TRACE_AUD_STREAM_I("[AUTO_SYNC][MASTER] cache skip delay dma trigger2\n"); return 0; } uint8_t codec_type = bt_sbc_player_get_codec_type(); #ifdef A2DP_PLAYER_PLAYBACK_WATER_LINE uint32_t dest_waterline_samples = 0; uint32_t list_samples = 0; dest_waterline_samples = app_bt_stream_get_dma_buffer_samples()/2*A2DP_PLAYER_PLAYBACK_WATER_LINE; a2dp_audio_convert_list_to_samples(&list_samples); if (list_samples < dest_waterline_samples){ a2dp_audio_detect_first_packet(); TRACE_AUD_STREAM_I("[AUTO_SYNC][MASTER] cache skip fill data sample:%d\n", list_samples); return 0; } a2dp_audio_decoder_headframe_info_get(&headframe_info); if(codec_type == BTIF_AVDTP_CODEC_TYPE_LHDC) { sync_info.sequenceNumber = headframe_info.sequenceNumber; } else { sync_info.sequenceNumber = headframe_info.sequenceNumber + 1; } a2dp_audio_synchronize_packet(&sync_info, A2DP_AUDIO_SYNCFRAME_MASK_SEQ); #else a2dp_audio_synchronize_dest_packet_mut(0); #endif TRACE_AUD_STREAM_I("[AUTO_SYNC][MASTER] cache ok use dma trigger2\n"); //uint8_t codec_type = bt_sbc_player_get_codec_type(); #ifdef A2DP_CP_ACCEL if(codec_type == BTIF_AVDTP_CODEC_TYPE_LHDC) { app_bt_stream_trigger_start(APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME_LHDC - a2dp_audio_frame_delay_get()); } else { app_bt_stream_trigger_start(APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME - a2dp_audio_frame_delay_get()); } #else app_bt_stream_trigger_start(APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME); #endif APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T sync_trigger; A2DP_AUDIO_HEADFRAME_INFO_T headframe_info; A2DP_AUDIO_LASTFRAME_INFO_T lastframe_info; sync_trigger.trigger_time = tg_acl_trigger_time; if(codec_type == BTIF_AVDTP_CODEC_TYPE_LHDC) { sync_trigger.trigger_skip_frame = APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME_LHDC - a2dp_audio_frame_delay_get(); } else { sync_trigger.trigger_skip_frame = APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME - a2dp_audio_frame_delay_get(); } sync_trigger.trigger_type = APP_TWS_IBRT_AUDIO_TRIGGER_TYPE_INIT_SYNC; if (a2dp_audio_lastframe_info_get(&lastframe_info)<0){ goto exit; } a2dp_audio_decoder_headframe_info_get(&headframe_info); sync_trigger.sequenceNumberStart = headframe_info.sequenceNumber; if(codec_type == BTIF_AVDTP_CODEC_TYPE_LHDC) { sync_trigger.audio_info.sequenceNumber = lastframe_info.sequenceNumber + APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME_LHDC; if (lastframe_info.totalSubSequenceNumber){ sync_trigger.audio_info.timestamp = lastframe_info.timestamp + (lastframe_info.totalSubSequenceNumber * lastframe_info.frame_samples) * APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME_LHDC; }else{ sync_trigger.audio_info.timestamp = lastframe_info.timestamp + dma_buffer_samples * APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME_LHDC; } } else { sync_trigger.audio_info.sequenceNumber = lastframe_info.sequenceNumber + APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME; if (lastframe_info.totalSubSequenceNumber){ sync_trigger.audio_info.timestamp = lastframe_info.timestamp + (lastframe_info.totalSubSequenceNumber * lastframe_info.frame_samples) * APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME; }else{ sync_trigger.audio_info.timestamp = lastframe_info.timestamp + dma_buffer_samples * APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME; } } sync_trigger.audio_info.curSubSequenceNumber = lastframe_info.curSubSequenceNumber; sync_trigger.audio_info.totalSubSequenceNumber = lastframe_info.totalSubSequenceNumber; sync_trigger.audio_info.frame_samples = lastframe_info.frame_samples; sync_trigger.factor_reference = a2dp_audio_get_output_config()->factor_reference; sync_trigger.a2dp_session = a2dp_ibrt_session_get(); sync_trigger.handler_cnt = 0; app_bt_stream_ibrt_auto_synchronize_initsync_start(&sync_trigger); if (app_tws_ibrt_mobile_link_connected() && app_ibrt_ui_is_profile_exchanged()){ tws_ctrl_send_cmd_high_priority(APP_TWS_CMD_SET_TRIGGER_TIME, (uint8_t*)&sync_trigger, sizeof(APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T)); } } }else{ if(app_bt_stream_trigger_stauts_get() == BT_STREAM_TRIGGER_STATUS_NULL){ TRACE_AUD_STREAM_W("[AUTO_SYNC][MASTER] audio not ready skip it"); }else{ TRACE_AUD_STREAM_I("[AUTO_SYNC][MASTER] unhandle status:%d", app_bt_stream_trigger_stauts_get()); app_ibrt_if_force_audio_retrigger(); } } exit: return 0; } int app_bt_stream_ibrt_audio_master_detect_next_packet_start(void) { TRACE_AUD_STREAM_I("[AUTO_SYNC][MASTER] start"); a2dp_audio_detect_next_packet_callback_register(app_bt_stream_ibrt_audio_master_detect_next_packet_cb); return 0; } #define SLAVE_DETECT_NEXT_PACKET_TO_RETRIGGER_THRESHOLD (120) static uint32_t slave_detect_next_packet_cnt = 0; int app_bt_stream_ibrt_audio_slave_detect_next_packet_waitforever_cb(btif_media_header_t * header, unsigned char *buf, unsigned int len) { if (app_tws_ibrt_mobile_link_connected() || ++slave_detect_next_packet_cnt > SLAVE_DETECT_NEXT_PACKET_TO_RETRIGGER_THRESHOLD){ ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); TRACE_AUD_STREAM_W("[AUTO_SYNC][SLAVE] detect_next_packet ok but currRole:%d mismatch packet_cnt:%d\n", p_ibrt_ctrl->current_role, slave_detect_next_packet_cnt); slave_detect_next_packet_cnt = 0; app_ibrt_if_force_audio_retrigger(); }else{ TRACE_AUD_STREAM_I("[AUTO_SYNC][SLAVE] detect_next_packet cnt:%d\n", slave_detect_next_packet_cnt); a2dp_audio_detect_first_packet(); } return 0; } int app_bt_stream_ibrt_audio_slave_detect_next_packet_cb(btif_media_header_t * header, unsigned char *buf, unsigned int len) { if(app_bt_stream_trigger_onprocess()){ ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); int32_t dma_buffer_samples = app_bt_stream_get_dma_buffer_samples()/2; if (app_tws_ibrt_mobile_link_connected()){ TRACE_AUD_STREAM_W("[AUTO_SYNC][SLAVE]cache ok but currRole:%d mismatch\n", p_ibrt_ctrl->current_role); app_ibrt_if_force_audio_retrigger(); }else{ if (app_tws_ibrt_slave_ibrt_link_connected() && (p_ibrt_ctrl->tws_mode == IBRT_SNIFF_MODE || p_ibrt_ctrl->mobile_mode == IBRT_SNIFF_MODE || !app_ibrt_ui_is_profile_exchanged())){ //flush all a2dp_audio_synchronize_dest_packet_mut(0); a2dp_audio_detect_first_packet(); TRACE_AUD_STREAM_W("[AUTO_SYNC][SLAVE]cache skip delay dma trigger2\n"); return 0; } TRACE_AUD_STREAM_I("[AUTO_SYNC][SLAVE]cache ok use dma trigger2\n"); //flush all a2dp_audio_synchronize_dest_packet_mut(0); uint8_t codec_type = bt_sbc_player_get_codec_type(); #ifdef A2DP_CP_ACCEL if(codec_type == BTIF_AVDTP_CODEC_TYPE_LHDC) { app_bt_stream_trigger_start(APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME_LHDC - a2dp_audio_frame_delay_get()); } else { app_bt_stream_trigger_start(APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME - a2dp_audio_frame_delay_get()); } #else app_bt_stream_trigger_start(APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME); #endif APP_TWS_IBRT_AUDIO_SYNC_TRIGGER_T sync_trigger = {0,}; A2DP_AUDIO_LASTFRAME_INFO_T lastframe_info = {0,}; sync_trigger.trigger_time = tg_acl_trigger_time; if(codec_type == BTIF_AVDTP_CODEC_TYPE_LHDC) { sync_trigger.trigger_skip_frame = APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME_LHDC - a2dp_audio_frame_delay_get(); } else { sync_trigger.trigger_skip_frame = APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME - a2dp_audio_frame_delay_get(); } sync_trigger.trigger_type = APP_TWS_IBRT_AUDIO_TRIGGER_TYPE_INIT_SYNC; if (a2dp_audio_lastframe_info_get(&lastframe_info)<0){ goto exit; } if(codec_type == BTIF_AVDTP_CODEC_TYPE_LHDC) { sync_trigger.audio_info.sequenceNumber = lastframe_info.sequenceNumber + APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME_LHDC; sync_trigger.audio_info.timestamp = lastframe_info.timestamp + dma_buffer_samples * APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME_LHDC; } else { sync_trigger.audio_info.sequenceNumber = lastframe_info.sequenceNumber + APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME; sync_trigger.audio_info.timestamp = lastframe_info.timestamp + dma_buffer_samples * APP_BT_STREAM_IBRT_AUTO_SYNCHRONIZE_INITSYNC_SKIP_FRAME; } sync_trigger.audio_info.curSubSequenceNumber = lastframe_info.curSubSequenceNumber; sync_trigger.audio_info.totalSubSequenceNumber = lastframe_info.totalSubSequenceNumber; sync_trigger.audio_info.frame_samples = lastframe_info.frame_samples; sync_trigger.factor_reference = a2dp_audio_get_output_config() ? a2dp_audio_get_output_config()->factor_reference : 1.0f; sync_trigger.a2dp_session = a2dp_ibrt_session_get(); sync_trigger.handler_cnt = 0; app_bt_stream_ibrt_auto_synchronize_initsync_start(&sync_trigger); } } exit: return 0; } int app_bt_stream_ibrt_audio_slave_detect_next_packet_start(int need_autotrigger) { TRACE_AUD_STREAM_I("[AUTO_SYNC][SLAVE] start"); slave_detect_next_packet_cnt = 0; if (need_autotrigger){ a2dp_audio_detect_next_packet_callback_register(app_bt_stream_ibrt_audio_slave_detect_next_packet_waitforever_cb); }else{ app_tws_ibrt_audio_analysis_start(0, AUDIO_ANALYSIS_CHECKER_INTERVEL_INVALID); app_tws_ibrt_audio_sync_start(); a2dp_audio_detect_next_packet_callback_register(app_bt_stream_ibrt_audio_slave_detect_next_packet_cb); } return 0; } #else int app_bt_stream_detect_next_packet_cb(btif_media_header_t * header, unsigned char *buf, unsigned int len) { if(app_bt_stream_trigger_onprocess()){ TRACE_AUD_STREAM_I("[AUTO_SYNC] start"); app_bt_stream_trigger_start(0); } return 0; } #endif void app_audio_buffer_check(void) { bool buffer_check = (APP_AUDIO_BUFFER_SIZE + APP_CAPTURE_AUDIO_BUFFER_SIZE) <= syspool_original_size(); TRACE_AUD_STREAM_I("audio buf size[%d] capture buf size[%d] total available space[%d]", APP_AUDIO_BUFFER_SIZE, APP_CAPTURE_AUDIO_BUFFER_SIZE, syspool_original_size()); ASSERT(buffer_check, "Audio buffer[%d]+Capture buffer[%d] exceeds the maximum ram sapce[%d]", APP_AUDIO_BUFFER_SIZE, APP_CAPTURE_AUDIO_BUFFER_SIZE, syspool_original_size()); } static bool isRun = false; int bt_sbc_player(enum PLAYER_OPER_T on, enum APP_SYSFREQ_FREQ_T freq) { struct AF_STREAM_CONFIG_T stream_cfg; enum AUD_SAMPRATE_T sample_rate; const char *g_log_player_oper_str[] = { "PLAYER_OPER_START", "PLAYER_OPER_STOP", "PLAYER_OPER_RESTART", }; uint8_t* bt_audio_buff = NULL; uint8_t POSSIBLY_UNUSED *bt_eq_buff = NULL; uint32_t POSSIBLY_UNUSED eq_buff_size = 0; uint8_t POSSIBLY_UNUSED play_samp_size; TRACE_AUD_STREAM_I("[A2DP_PLAYER] work:%d op:%s freq:%d :sample:%d \n", isRun, g_log_player_oper_str[on], freq,a2dp_sample_rate); bt_set_playback_triggered(false); if ((isRun && on == PLAYER_OPER_START) || (!isRun && on == PLAYER_OPER_STOP)) { TRACE_AUD_STREAM_W("[A2DP_PLAYER],fail,isRun=%x,on=%x",isRun,on); return 0; } uint8_t codec_type = bt_sbc_player_get_codec_type(); if (on == PLAYER_OPER_STOP || on == PLAYER_OPER_RESTART) { #ifdef __THIRDPARTY start_by_sbc = false; #endif #ifdef PLAYBACK_USE_I2S hal_cmu_audio_resample_enable(); #endif #ifdef MIX_AUDIO_PROMPT_WITH_A2DP_MEDIA_ENABLED bool isToClearActiveMedia = audio_prompt_clear_pending_stream(PENDING_TO_STOP_A2DP_STREAMING); if (isToClearActiveMedia) { // clear active media mark bt_media_clear_media_type(BT_STREAM_SBC, BT_DEVICE_ID_1); bt_media_current_sbc_set(BT_DEVICE_NUM); } #endif #if defined(IBRT) app_bt_stream_ibrt_auto_synchronize_stop(); app_tws_ibrt_audio_analysis_stop(); app_tws_ibrt_audio_sync_stop(); #endif #if (A2DP_DECODER_VER == 2) a2dp_audio_stop(); #endif af_codec_set_playback_post_handler(NULL); af_stream_stop(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) #ifdef AUDIO_ANC_FB_ADJ_MC af_stream_stop(ADJ_MC_STREAM_ID, AUD_STREAM_CAPTURE); #endif af_stream_stop(AUD_STREAM_ID_2, AUD_STREAM_PLAYBACK); #endif #if defined(MUSIC_DELAY_CONTROL) && (defined(CHIP_BEST2300) || defined(CHIP_BEST2300P) || defined(CHIP_BEST2300A)|| defined(CHIP_BEST1400)|| defined(CHIP_BEST1402)) calib_reset = 1; af_stream_dma_tc_irq_disable(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); #endif af_stream_dma_tc_irq_disable(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); #if defined(__AUDIO_SPECTRUM__) audio_spectrum_close(); #endif audio_process_close(); TRACE_AUD_STREAM_I("[A2DP_PLAYER] syspool free size: %d/%d", syspool_free_size(), syspool_total_size()); #if !(defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE)) af_codec_tune(AUD_STREAM_PLAYBACK, 0); #endif af_stream_close(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) #ifdef AUDIO_ANC_FB_ADJ_MC af_stream_close(ADJ_MC_STREAM_ID, AUD_STREAM_CAPTURE); #endif af_stream_close(AUD_STREAM_ID_2, AUD_STREAM_PLAYBACK); #endif bt_sbc_mode = 0; #ifdef VOICE_DATAPATH app_voicepath_set_stream_state(AUDIO_OUTPUT_STREAMING, false); app_voicepath_set_pending_started_stream(AUDIO_OUTPUT_STREAMING, false); #endif #ifdef AI_AEC_CP_ACCEL cp_aec_deinit(); #endif af_set_irq_notification(NULL); if (on == PLAYER_OPER_STOP) { osThreadId ctrl_thread_id = NULL; osPriority ctrl_thread_priority; ctrl_thread_id = osThreadGetId(); ctrl_thread_priority = osThreadGetPriority(ctrl_thread_id); osThreadSetPriority(ctrl_thread_id, osPriorityLow); app_bt_stream_trigger_checker_stop(); #ifdef USER_REBOOT_PLAY_MUSIC_AUTO TRACE_AUD_STREAM_I("[A2DP_PLAYER] hal_sw_bootmode_clear HAL_SW_BOOTMODE_LOCAL_PLAYER!!!!!!"); hal_sw_bootmode_clear(HAL_SW_BOOTMODE_LOCAL_PLAYER); #endif #ifdef __A2DP_PLAYER_USE_BT_TRIGGER__ app_bt_stream_trigger_deinit(); #endif #ifndef FPGA #ifdef BT_XTAL_SYNC bt_term_xtal_sync(false); #ifndef BT_XTAL_SYNC_NO_RESET bt_term_xtal_sync_default(); #endif #endif #endif a2dp_audio_deinit(); #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__)&&defined(AUDIO_ANC_FB_ADJ_MC) adj_mc_deinit(); #endif app_overlay_unloadall(); #ifdef __THIRDPARTY app_thirdparty_specific_lib_event_handle(THIRDPARTY_FUNC_NO1,THIRDPARTY_STOP2MIC); app_thirdparty_specific_lib_event_handle(THIRDPARTY_FUNC_NO1,THIRDPARTY_START); #endif app_sysfreq_req(APP_SYSFREQ_USER_BT_A2DP, APP_SYSFREQ_32K); osThreadSetPriority(ctrl_thread_id, ctrl_thread_priority); af_set_priority(AF_USER_SBC, osPriorityAboveNormal); #if defined(__AI_VOICE__)||defined(BISTO_ENABLED) app_ai_if_inform_music_or_prompt_status(false, 0); #endif #if defined(IBRT) app_ibrt_if_exec_sleep_hook_blocker_clr(APP_IBRT_IF_SLEEP_HOOK_BLOCKER_A2DP_STREAMING); #endif } } if (on == PLAYER_OPER_START || on == PLAYER_OPER_RESTART) { #if USER_REBOOT_PLAY_MUSIC_AUTO TRACE_AUD_STREAM_I("[A2DP_PLAYER] hal_sw_bootmode_set HAL_SW_BOOTMODE_LOCAL_PLAYER!!!!!!"); hal_sw_bootmode_set(HAL_SW_BOOTMODE_LOCAL_PLAYER); #endif #if defined(__AI_VOICE__)||defined(BISTO_ENABLED) app_ai_if_inform_music_or_prompt_status(true, a2dp_sample_rate); app_ai_if_pre_music_or_prompt_check(); #endif #ifdef MIX_AUDIO_PROMPT_WITH_A2DP_MEDIA_ENABLED audio_prompt_stop_playing(); #endif #if defined(IBRT) app_ibrt_if_exec_sleep_hook_blocker_set(APP_IBRT_IF_SLEEP_HOOK_BLOCKER_A2DP_STREAMING); #endif #ifdef __THIRDPARTY app_thirdparty_specific_lib_event_handle(THIRDPARTY_FUNC_NO1,THIRDPARTY_STOP); #endif af_set_priority(AF_USER_SBC, osPriorityHigh); bt_media_volume_ptr_update_by_mediatype(BT_STREAM_SBC); stream_local_volume = btdevice_volume_p->a2dp_vol; app_audio_mempool_init_with_specific_size(APP_AUDIO_BUFFER_SIZE); #ifdef __BT_ONE_BRING_TWO__ if (btif_me_get_activeCons()>1) { if (freq < APP_SYSFREQ_104M) { freq = APP_SYSFREQ_104M; } } #endif #ifdef __PC_CMD_UART__ if (freq < APP_SYSFREQ_104M) { freq = APP_SYSFREQ_104M; } #endif #if defined(__SW_IIR_EQ_PROCESS__)&&defined(__HW_FIR_EQ_PROCESS__)&&defined(CHIP_BEST1000) if (audio_eq_hw_fir_cfg_list[bt_audio_get_eq_index(AUDIO_EQ_TYPE_HW_FIR,0)]->len>128) { if (freq < APP_SYSFREQ_104M) { freq = APP_SYSFREQ_104M; } } #endif #if defined(APP_MUSIC_26M) && !defined(__SW_IIR_EQ_PROCESS__)&& !defined(__HW_IIR_EQ_PROCESS__)&& !defined(__HW_FIR_EQ_PROCESS__) if (freq < APP_SYSFREQ_26M) { freq = APP_SYSFREQ_26M; } #else if (freq < APP_SYSFREQ_52M) { freq = APP_SYSFREQ_52M; } #endif #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) if (freq < APP_SYSFREQ_104M) { freq = APP_SYSFREQ_104M; } #endif TRACE_AUD_STREAM_I("[A2DP_PLAYER] codec_type:%d", codec_type); #if defined(A2DP_AAC_ON) if (codec_type == BTIF_AVDTP_CODEC_TYPE_MPEG2_4_AAC) { if(freq < APP_SYSFREQ_52M) { freq = APP_SYSFREQ_52M; } } #endif #if defined(A2DP_SCALABLE_ON) if (codec_type == BTIF_AVDTP_CODEC_TYPE_NON_A2DP) { if(a2dp_sample_rate==44100) { if(freq < APP_SYSFREQ_78M) { freq = APP_SYSFREQ_78M; } } else if(a2dp_sample_rate==96000) { if (freq < APP_SYSFREQ_208M) { freq = APP_SYSFREQ_208M; } } } TRACE_AUD_STREAM_I("[A2DP_PLAYER] a2dp_sample_rate=%d",a2dp_sample_rate); #endif #if defined(__AUDIO_DRC__) || defined(__AUDIO_DRC2__) freq = (freq < APP_SYSFREQ_208M)?APP_SYSFREQ_208M:freq; #endif #ifdef AUDIO_OUTPUT_SW_GAIN freq = (freq < APP_SYSFREQ_104M)?APP_SYSFREQ_104M:freq; #endif #ifdef PLAYBACK_FORCE_48K freq = (freq < APP_SYSFREQ_104M)?APP_SYSFREQ_104M:freq; #endif #ifdef A2DP_CP_ACCEL // Default freq for SBC freq = APP_SYSFREQ_26M; #if defined(A2DP_AAC_ON) if (codec_type == BTIF_AVDTP_CODEC_TYPE_MPEG2_4_AAC) { freq = APP_SYSFREQ_26M; } #endif #if defined(A2DP_LHDC_ON) || defined(A2DP_SCALABLE_ON) || defined(A2DP_LDAC_ON) if (codec_type == BTIF_AVDTP_CODEC_TYPE_NON_A2DP){ freq = APP_SYSFREQ_52M; } if (a2dp_sample_rate==AUD_SAMPRATE_96000) { freq = APP_SYSFREQ_104M; } #endif #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) if (freq < APP_SYSFREQ_52M) { freq = APP_SYSFREQ_52M; } #endif #if defined(A2DP_LDAC_ON) if (codec_type == BTIF_AVDTP_CODEC_TYPE_NON_A2DP){ if (a2dp_sample_rate==AUD_SAMPRATE_96000 || a2dp_sample_rate==AUD_SAMPRATE_88200) { freq = APP_SYSFREQ_104M; }else { freq = APP_SYSFREQ_52M; } } #endif #endif freq = APP_SYSFREQ_52M; app_sysfreq_req(APP_SYSFREQ_USER_BT_A2DP, freq); TRACE_AUD_STREAM_I("[A2DP_PLAYER] sysfreq %d", freq); TRACE_AUD_STREAM_I("[A2DP_PLAYER] sysfreq calc : %d\n", hal_sys_timer_calc_cpu_freq(5, 0)); if (on == PLAYER_OPER_START) { af_set_irq_notification(app_bt_stream_playback_irq_notification); ASSERT(!app_ring_merge_isrun(), "Ring playback will be abnormal, please check."); if (0) { } #if defined(A2DP_AAC_ON) else if (codec_type == BTIF_AVDTP_CODEC_TYPE_MPEG2_4_AAC) { app_overlay_select(APP_OVERLAY_A2DP_AAC); } #endif else if (codec_type == BTIF_AVDTP_CODEC_TYPE_NON_A2DP) { TRACE(1,"current_a2dp_non_type %d", current_a2dp_non_type); #if defined(A2DP_LHDC_ON) if(current_a2dp_non_type == A2DP_NON_CODEC_TYPE_LHDC) { app_overlay_select(APP_OVERLAY_A2DP_LHDC); } #endif #if defined(A2DP_SCALABLE_ON) else if (current_a2dp_non_type == A2DP_NON_CODEC_TYPE_SCALABLE) { app_overlay_select(APP_OVERLAY_A2DP_SCALABLE); } #endif #if defined(A2DP_LDAC_ON) else if (current_a2dp_non_type == A2DP_NON_CODEC_TYPE_LDAC) { TRACE_AUD_STREAM_I("[A2DP_PLAYER] ldac overlay select \n"); //toto app_overlay_select(APP_OVERLAY_A2DP_LDAC); } #endif } else { app_overlay_select(APP_OVERLAY_A2DP); } #ifdef BT_XTAL_SYNC #ifdef __TWS__ if(app_tws_mode_is_only_mobile()) { btdrv_rf_bit_offset_track_enable(false); } else #endif { btdrv_rf_bit_offset_track_enable(true); } bt_init_xtal_sync(BT_XTAL_SYNC_MODE_MUSIC, BT_INIT_XTAL_SYNC_MIN, BT_INIT_XTAL_SYNC_MAX, BT_INIT_XTAL_SYNC_FCAP_RANGE); #endif // BT_XTAL_SYNC #ifdef __THIRDPARTY app_thirdparty_specific_lib_event_handle(THIRDPARTY_FUNC_NO1,THIRDPARTY_START2MIC); #endif bt_sbc_mode = 1; } #ifdef __THIRDPARTY //app_thirdparty_specific_lib_event_handle(THIRDPARTY_FUNC_NO1,THIRDPARTY_STOP); start_by_sbc = true; app_thirdparty_specific_lib_event_handle(THIRDPARTY_FUNC_NO1,THIRDPARTY_START); #endif #if defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE) sample_rate = AUD_SAMPRATE_50781; #else sample_rate = a2dp_sample_rate; #endif #ifdef PLAYBACK_USE_I2S hal_cmu_audio_resample_disable(); #endif memset(&stream_cfg, 0, sizeof(stream_cfg)); stream_cfg.channel_num = AUD_CHANNEL_NUM_2; #ifdef PLAYBACK_FORCE_48K stream_cfg.sample_rate = AUD_SAMPRATE_48000; #else stream_cfg.sample_rate = sample_rate; #endif #ifdef FPGA stream_cfg.device = AUD_STREAM_USE_EXT_CODEC; #else #ifdef PLAYBACK_USE_I2S stream_cfg.device = AUD_STREAM_USE_I2S0_MASTER; #else stream_cfg.device = AUD_STREAM_USE_INT_CODEC; #endif #endif #ifdef PLAYBACK_USE_I2S stream_cfg.io_path = AUD_IO_PATH_NULL; #else stream_cfg.io_path = AUD_OUTPUT_PATH_SPEAKER; #endif stream_cfg.vol = stream_local_volume; stream_cfg.handler = bt_sbc_player_more_data; if (codec_type == BTIF_AVDTP_CODEC_TYPE_NON_A2DP){ #if defined(A2DP_SCALABLE_ON) if (current_a2dp_non_type == A2DP_NON_CODEC_TYPE_SCALABLE){ stream_cfg.data_size = SCALABLE_FRAME_SIZE*8; } #endif #if defined(A2DP_LHDC_ON) if (current_a2dp_non_type == A2DP_NON_CODEC_TYPE_LHDC){ #if defined(A2DP_LHDC_V3) if (bt_get_sbc_sample_rate() == AUD_SAMPRATE_96000) { stream_cfg.data_size = LHDC_AUDIO_96K_BUFF_SIZE; } else { stream_cfg.data_size = LHDC_AUDIO_BUFF_SIZE; } if (a2dp_lhdc_config_llc_get()){ TRACE_AUD_STREAM_I("[A2DP_PLAYER] USE LHDC_LLC"); stream_cfg.data_size = LHDC_LLC_AUDIO_BUFF_SIZE; } #else stream_cfg.data_size = LHDC_AUDIO_BUFF_SIZE; #endif } #endif #if defined(A2DP_LDAC_ON) if(current_a2dp_non_type == A2DP_NON_CODEC_TYPE_LDAC) { stream_cfg.data_size = BT_AUDIO_BUFF_SIZE_LDAC; } #endif }else #if defined(A2DP_AAC_ON) if (codec_type == BTIF_AVDTP_CODEC_TYPE_MPEG2_4_AAC){ stream_cfg.data_size = BT_AUDIO_BUFF_AAC_SIZE; }else #endif { if (stream_cfg.sample_rate == AUD_SAMPRATE_44100){ stream_cfg.data_size = BT_AUDIO_BUFF_SBC_44P1K_SIZE; }else{ stream_cfg.data_size = BT_AUDIO_BUFF_SBC_48K_SIZE; } } stream_cfg.bits = AUD_BITS_16; #ifdef A2DP_EQ_24BIT stream_cfg.data_size *= 2; stream_cfg.bits = AUD_BITS_24; #elif defined(A2DP_SCALABLE_ON) || defined(A2DP_LHDC_ON) || defined(A2DP_LDAC_ON) if (codec_type == BTIF_AVDTP_CODEC_TYPE_NON_A2DP) { stream_cfg.data_size *= 2; stream_cfg.bits = AUD_BITS_24; } #endif #if 0//defined(A2DP_LHDC_ON) if (codec_type == BTIF_AVDTP_CODEC_TYPE_NON_A2DP) { if(bt_sbc_player_get_sample_bit() == AUD_BITS_16) { stream_cfg.bits = AUD_BITS_16; } } #endif a2dp_data_buf_size = stream_cfg.data_size; app_audio_mempool_get_buff(&bt_audio_buff, stream_cfg.data_size); stream_cfg.data_ptr = BT_AUDIO_CACHE_2_UNCACHE(bt_audio_buff); #if defined(MUSIC_DELAY_CONTROL) && (defined(CHIP_BEST2300) || defined(CHIP_BEST2300P) || defined(CHIP_BEST2300A)|| defined(CHIP_BEST1400)|| defined(CHIP_BEST1402)) lowdelay_sample_size_play_bt=stream_cfg.bits; lowdelay_sample_rate_play_bt=stream_cfg.sample_rate; lowdelay_data_size_play_bt=stream_cfg.data_size; lowdelay_playback_ch_num_bt=stream_cfg.channel_num; #endif #ifdef MIX_AUDIO_PROMPT_WITH_A2DP_MEDIA_ENABLED uint8_t* promptTmpSourcePcmDataBuf; uint8_t* promptTmpTargetPcmDataBuf; uint8_t* promptPcmDataBuf; uint8_t* promptResamplerBuf; app_audio_mempool_get_buff(&promptTmpSourcePcmDataBuf, AUDIO_PROMPT_SOURCE_PCM_BUFFER_SIZE); app_audio_mempool_get_buff(&promptTmpTargetPcmDataBuf, AUDIO_PROMPT_TARGET_PCM_BUFFER_SIZE); app_audio_mempool_get_buff(&promptPcmDataBuf, AUDIO_PROMPT_PCM_BUFFER_SIZE); app_audio_mempool_get_buff(&promptResamplerBuf, AUDIO_PROMPT_BUF_SIZE_FOR_RESAMPLER); audio_prompt_buffer_config(MIX_WITH_A2DP_STREAMING, stream_cfg.channel_num, stream_cfg.bits, promptTmpSourcePcmDataBuf, promptTmpTargetPcmDataBuf, promptPcmDataBuf, AUDIO_PROMPT_PCM_BUFFER_SIZE, promptResamplerBuf, AUDIO_PROMPT_BUF_SIZE_FOR_RESAMPLER); #endif #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) sample_size_play_bt=stream_cfg.bits; sample_rate_play_bt=stream_cfg.sample_rate; data_size_play_bt=stream_cfg.data_size; playback_buf_bt=stream_cfg.data_ptr; playback_size_bt=stream_cfg.data_size; if(sample_rate_play_bt==AUD_SAMPRATE_96000) { playback_samplerate_ratio_bt=4; } else { playback_samplerate_ratio_bt=8; } playback_ch_num_bt=stream_cfg.channel_num; mid_p_8_old_l=0; mid_p_8_old_r=0; #endif #ifdef PLAYBACK_FORCE_48K force48k_resample= app_force48k_resample_any_open( stream_cfg.channel_num, app_force48k_resample_iter, stream_cfg.data_size / stream_cfg.channel_num, (float)sample_rate / AUD_SAMPRATE_48000); #endif TRACE(4, "A2DP Playback: sample rate: %d, bits = %d, channel number = %d, data size:%d", stream_cfg.sample_rate, stream_cfg.bits, stream_cfg.channel_num, stream_cfg.data_size); af_stream_open(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK, &stream_cfg); #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) stream_cfg.bits = sample_size_play_bt; stream_cfg.channel_num = playback_ch_num_bt; stream_cfg.sample_rate = sample_rate_play_bt; stream_cfg.device = AUD_STREAM_USE_MC; stream_cfg.vol = 0; #ifdef AUDIO_ANC_FB_ADJ_MC stream_cfg.handler = audio_adj_mc_data_playback_a2dp; #else stream_cfg.handler = audio_mc_data_playback_a2dp; #endif stream_cfg.io_path = AUD_OUTPUT_PATH_SPEAKER; app_audio_mempool_get_buff(&bt_audio_buff, data_size_play_bt*playback_samplerate_ratio_bt); stream_cfg.data_ptr = BT_AUDIO_CACHE_2_UNCACHE(bt_audio_buff); stream_cfg.data_size = data_size_play_bt*playback_samplerate_ratio_bt; playback_buf_mc=stream_cfg.data_ptr; playback_size_mc=stream_cfg.data_size; anc_mc_run_init(hal_codec_anc_convert_rate(sample_rate_play_bt)); memset(delay_buf_bt,0,sizeof(delay_buf_bt)); af_stream_open(AUD_STREAM_ID_2, AUD_STREAM_PLAYBACK, &stream_cfg); //ASSERT(ret == 0, "af_stream_open playback failed: %d", ret); #ifdef AUDIO_ANC_FB_ADJ_MC adj_mc_capture_sample_rate = sample_rate_play_bt / 3; adj_mc_init(ADJ_MC_FRAME_LEN); memset(&stream_cfg, 0, sizeof(stream_cfg)); stream_cfg.channel_num = (enum AUD_CHANNEL_NUM_T)ADJ_MC_CHANNEL_NUM; stream_cfg.data_size = ADJ_MC_BUF_SIZE; stream_cfg.sample_rate = (enum AUD_SAMPRATE_T)adj_mc_capture_sample_rate; stream_cfg.bits = AUD_BITS_16; stream_cfg.vol = 12; stream_cfg.chan_sep_buf = true; stream_cfg.device = AUD_STREAM_USE_INT_CODEC; stream_cfg.io_path = AUD_INPUT_PATH_ASRMIC; stream_cfg.handler = adj_mc_filter_estimate; stream_cfg.data_ptr = adj_mc_buf; TRACE(2,"[A2DP_PLAYER] capture sample_rate:%d, data_size:%d",stream_cfg.sample_rate,stream_cfg.data_size); af_stream_open(ADJ_MC_STREAM_ID, AUD_STREAM_CAPTURE, &stream_cfg); #endif #endif #ifdef A2DP_STREAM_AUDIO_DUMP audio_dump_init(1024, sizeof(int), 1); #endif #ifdef __HEAR_THRU_PEAK_DET__ PEAK_DETECTOR_CFG_T peak_detector_cfg; peak_detector_cfg.fs = stream_cfg.sample_rate; peak_detector_cfg.bits = stream_cfg.bits; peak_detector_cfg.factor_up = 0.6; peak_detector_cfg.factor_down = 2.0; peak_detector_cfg.reduce_dB = -30; peak_detector_init(); peak_detector_setup(&peak_detector_cfg); #endif #if defined(__AUDIO_SPECTRUM__) audio_spectrum_open(stream_cfg.sample_rate, stream_cfg.bits); #endif #if defined(__HW_FIR_EQ_PROCESS__) && defined(__HW_IIR_EQ_PROCESS__) eq_buff_size = stream_cfg.data_size*2; #elif defined(__HW_FIR_EQ_PROCESS__) && !defined(__HW_IIR_EQ_PROCESS__) play_samp_size = (stream_cfg.bits <= AUD_BITS_16) ? 2 : 4; #if defined(CHIP_BEST2000) eq_buff_size = stream_cfg.data_size * sizeof(int32_t) / play_samp_size; #elif defined(CHIP_BEST1000) eq_buff_size = stream_cfg.data_size * sizeof(int16_t) / play_samp_size; #elif defined(CHIP_BEST2300) || defined(CHIP_BEST2300P) || defined(CHIP_BEST2300A) eq_buff_size = stream_cfg.data_size; #endif #elif !defined(__HW_FIR_EQ_PROCESS__) && defined(__HW_IIR_EQ_PROCESS__) eq_buff_size = stream_cfg.data_size; #else eq_buff_size = 0; bt_eq_buff = NULL; #endif if(eq_buff_size > 0) { app_audio_mempool_get_buff(&bt_eq_buff, eq_buff_size); } #if defined(IBRT) enum AUD_CHANNEL_NUM_T sw_ch_num = AUD_CHANNEL_NUM_1; #else enum AUD_CHANNEL_NUM_T sw_ch_num = stream_cfg.channel_num; #endif audio_process_open(stream_cfg.sample_rate, stream_cfg.bits, sw_ch_num, stream_cfg.channel_num, stream_cfg.data_size/stream_cfg.channel_num/(stream_cfg.bits <= AUD_BITS_16 ? 2 : 4)/2, bt_eq_buff, eq_buff_size); // disable audio eq config on a2dp start for audio tuning tools #ifndef __PC_CMD_UART__ #ifdef __SW_IIR_EQ_PROCESS__ bt_audio_set_eq(AUDIO_EQ_TYPE_SW_IIR,bt_audio_get_eq_index(AUDIO_EQ_TYPE_SW_IIR,0)); #endif #ifdef __HW_FIR_EQ_PROCESS__ bt_audio_set_eq(AUDIO_EQ_TYPE_HW_FIR,bt_audio_get_eq_index(AUDIO_EQ_TYPE_HW_FIR,0)); #endif #ifdef __HW_DAC_IIR_EQ_PROCESS__ bt_audio_set_eq(AUDIO_EQ_TYPE_HW_DAC_IIR,bt_audio_get_eq_index(AUDIO_EQ_TYPE_HW_DAC_IIR,0)); #endif #ifdef __HW_IIR_EQ_PROCESS__ bt_audio_set_eq(AUDIO_EQ_TYPE_HW_IIR,bt_audio_get_eq_index(AUDIO_EQ_TYPE_HW_IIR,0)); #endif #endif #ifdef ANC_APP anc_status_record = 0xff; #endif #if defined(IBRT) APP_TWS_IBRT_AUDIO_SYNC_CFG_T sync_config; sync_config.factor_reference = TWS_IBRT_AUDIO_SYNC_FACTOR_REFERENCE; sync_config.factor_fast_limit = TWS_IBRT_AUDIO_SYNC_FACTOR_FAST_LIMIT; sync_config.factor_slow_limit = TWS_IBRT_AUDIO_SYNC_FACTOR_SLOW_LIMIT;; sync_config.dead_zone_us = TWS_IBRT_AUDIO_SYNC_DEAD_ZONE_US; app_tws_ibrt_audio_sync_reconfig(&sync_config); #else #if !(defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE)) af_codec_tune(AUD_STREAM_PLAYBACK, 0); #endif #endif if (on == PLAYER_OPER_START) { // This might use all of the rest buffer in the mempool, // so it must be the last configuration before starting stream. #if (A2DP_DECODER_VER == 2) A2DP_AUDIO_OUTPUT_CONFIG_T output_config; A2DP_AUDIO_CODEC_TYPE a2dp_audio_codec_type = A2DP_AUDIO_CODEC_TYPE_SBC; output_config.sample_rate = sample_rate; output_config.num_channels = 2; #ifdef A2DP_EQ_24BIT output_config.bits_depth = 24; #else output_config.bits_depth = 16; #endif output_config.frame_samples = app_bt_stream_get_dma_buffer_samples()/2; output_config.factor_reference = 1.0f; #if defined(IBRT) ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); uint8_t codec_type = bt_sbc_player_get_codec_type(); float dest_packet_mut = 0; int need_autotrigger = a2dp_ibrt_stream_need_autotrigger_getandclean_flag(); uint32_t offset_mut = 0; switch (codec_type) { case BTIF_AVDTP_CODEC_TYPE_SBC: a2dp_audio_codec_type = A2DP_AUDIO_CODEC_TYPE_SBC; dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_SBC_MTU; #ifdef A2DP_PLAYER_PLAYBACK_WATER_LINE offset_mut = A2DP_PLAYER_PLAYBACK_DELAY_SBC_FRAME_MTU * A2DP_PLAYER_PLAYBACK_WATER_LINE; #endif break; case BTIF_AVDTP_CODEC_TYPE_MPEG2_4_AAC: a2dp_audio_codec_type = A2DP_AUDIO_CODEC_TYPE_MPEG2_4_AAC; dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_AAC_MTU; #ifdef A2DP_PLAYER_PLAYBACK_WATER_LINE offset_mut = A2DP_PLAYER_PLAYBACK_WATER_LINE; #endif break; case BTIF_AVDTP_CODEC_TYPE_NON_A2DP: #if defined(A2DP_LHDC_ON) if(current_a2dp_non_type == A2DP_NON_CODEC_TYPE_LHDC) { a2dp_audio_codec_type = A2DP_AUDIO_CODEC_TYPE_LHDC; if (a2dp_lhdc_config_llc_get()){ dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_LHDC_LLC_MTU; }else if (sample_rate > AUD_SAMPRATE_48000){ dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_LHDC_HIRES_MTU; }else{ dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_LHDC_BASERES_MTU; } } #endif #if defined(A2DP_LDAC_ON) if(current_a2dp_non_type == A2DP_NON_CODEC_TYPE_LDAC) { a2dp_audio_codec_type = A2DP_AUDIO_CODEC_TYPE_LDAC; dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_LDAC_MTU; } #endif #if defined(A2DP_SCALABLE_ON) if(current_a2dp_non_type == A2DP_NON_CODEC_TYPE_SCALABLE) { a2dp_audio_codec_type = A2DP_AUDIO_CODEC_TYPE_SCALABL; if (sample_rate > AUD_SAMPRATE_48000){ dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_HIRES_MTU; }else{ dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_BASERES_MTU; } } #endif break; default: break; } output_config.factor_reference = TWS_IBRT_AUDIO_SYNC_FACTOR_REFERENCE; #if defined(A2DP_LHDC_ON) || defined(A2DP_SCALABLE_ON) || defined(A2DP_LDAC_ON) if (codec_type == BTIF_AVDTP_CODEC_TYPE_NON_A2DP) { if(bt_sbc_player_get_sample_bit() == AUD_BITS_16) { output_config.curr_bits = AUD_BITS_16; } else { output_config.curr_bits = AUD_BITS_24; } } #endif dest_packet_mut *= a2dp_audio_latency_factor_get(); A2DP_AUDIO_CHANNEL_SELECT_E a2dp_audio_channel_sel = A2DP_AUDIO_CHANNEL_SELECT_STEREO; switch ((AUDIO_CHANNEL_SELECT_E)p_ibrt_ctrl->audio_chnl_sel) { case AUDIO_CHANNEL_SELECT_STEREO: a2dp_audio_channel_sel = A2DP_AUDIO_CHANNEL_SELECT_STEREO; break; case AUDIO_CHANNEL_SELECT_LRMERGE: a2dp_audio_channel_sel = A2DP_AUDIO_CHANNEL_SELECT_LRMERGE; break; case AUDIO_CHANNEL_SELECT_LCHNL: a2dp_audio_channel_sel = A2DP_AUDIO_CHANNEL_SELECT_LCHNL; break; case AUDIO_CHANNEL_SELECT_RCHNL: a2dp_audio_channel_sel = A2DP_AUDIO_CHANNEL_SELECT_RCHNL; break; default: break; } dest_packet_mut += offset_mut; a2dp_audio_init(freq, a2dp_audio_codec_type, &output_config, a2dp_audio_channel_sel, (uint16_t)dest_packet_mut); app_tws_ibrt_audio_analysis_interval_set(sample_rate > AUD_SAMPRATE_48000 ? AUDIO_ANALYSIS_INTERVAL*2 : AUDIO_ANALYSIS_INTERVAL); if (app_tws_ibrt_mobile_link_connected()){ app_tws_ibrt_audio_analysis_start(0, AUDIO_ANALYSIS_CHECKER_INTERVEL_INVALID); app_tws_ibrt_audio_sync_start(); app_bt_stream_ibrt_audio_master_detect_next_packet_start(); }else if (app_tws_ibrt_slave_ibrt_link_connected()){ app_bt_stream_ibrt_audio_slave_detect_next_packet_start(need_autotrigger); }else{ TRACE_AUD_STREAM_E("[A2DP_PLAYER] mobile_link:%d %04x ibrt_link:%d %04x", app_tws_ibrt_mobile_link_connected(), p_ibrt_ctrl->mobile_conhandle, app_tws_ibrt_slave_ibrt_link_connected(), p_ibrt_ctrl->ibrt_conhandle); } #else uint8_t codec_type = bt_sbc_player_get_codec_type(); uint16_t dest_packet_mut = 0; switch (codec_type) { case BTIF_AVDTP_CODEC_TYPE_SBC: a2dp_audio_codec_type = A2DP_AUDIO_CODEC_TYPE_SBC; dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_SBC_MTU; break; case BTIF_AVDTP_CODEC_TYPE_MPEG2_4_AAC: a2dp_audio_codec_type = A2DP_AUDIO_CODEC_TYPE_MPEG2_4_AAC; dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_AAC_MTU; break; case BTIF_AVDTP_CODEC_TYPE_NON_A2DP: #if defined(A2DP_LHDC_ON) if(current_a2dp_non_type == A2DP_NON_CODEC_TYPE_LHDC) { a2dp_audio_codec_type = A2DP_AUDIO_CODEC_TYPE_LHDC; if (a2dp_lhdc_config_llc_get()){ dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_LHDC_LLC_MTU; }else if (sample_rate > AUD_SAMPRATE_48000){ dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_LHDC_HIRES_MTU; }else{ dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_LHDC_BASERES_MTU; } } #endif #if defined(A2DP_LDAC_ON) if(current_a2dp_non_type == A2DP_NON_CODEC_TYPE_LDAC) { a2dp_audio_codec_type = A2DP_AUDIO_CODEC_TYPE_LDAC; dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_LDAC_MTU; } #endif #if defined(A2DP_SCALABLE_ON) if(current_a2dp_non_type == A2DP_NON_CODEC_TYPE_SCALABLE) { a2dp_audio_codec_type = A2DP_AUDIO_CODEC_TYPE_SCALABL; if (sample_rate > AUD_SAMPRATE_48000){ dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_HIRES_MTU; }else{ dest_packet_mut = A2DP_PLAYER_PLAYBACK_DELAY_SCALABLE_BASERES_MTU; } } #endif if (codec_type == BTIF_AVDTP_CODEC_TYPE_NON_A2DP) { if(bt_sbc_player_get_sample_bit() == AUD_BITS_16) { output_config.curr_bits = AUD_BITS_16; } else { output_config.curr_bits = AUD_BITS_24; } } break; default: break; } #if defined(A2DP_LHDC_ON) if (codec_type == BTIF_AVDTP_CODEC_TYPE_NON_A2DP) { if(bt_sbc_player_get_sample_bit() == AUD_BITS_16) { output_config.curr_bits = AUD_BITS_16; } else { output_config.curr_bits = AUD_BITS_24; } } #endif a2dp_audio_init(freq,a2dp_audio_codec_type, &output_config, A2DP_AUDIO_CHANNEL_SELECT_STEREO, dest_packet_mut); a2dp_audio_detect_next_packet_callback_register(app_bt_stream_detect_next_packet_cb); #endif a2dp_audio_start(); #else a2dp_audio_init(); #endif } #if defined(MUSIC_DELAY_CONTROL) && (defined(CHIP_BEST2300) || defined(CHIP_BEST2300P) || defined(CHIP_BEST2300A)|| defined(CHIP_BEST1400)|| defined(CHIP_BEST1402)) calib_reset = 1; #endif af_stream_dma_tc_irq_enable(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); af_codec_set_playback_post_handler(bt_sbc_player_playback_post_handler); #ifdef __A2DP_PLAYER_USE_BT_TRIGGER__ app_bt_stream_trigger_init(); #endif #ifdef VOICE_DATAPATH if (app_voicepath_get_stream_state(VOICEPATH_STREAMING)) { app_voicepath_set_pending_started_stream(AUDIO_OUTPUT_STREAMING, true); } else { app_voicepath_set_stream_state(AUDIO_OUTPUT_STREAMING, true); af_stream_start(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); } #else af_stream_start(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); #endif #ifdef AI_AEC_CP_ACCEL cp_aec_init(); #endif #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) af_stream_start(AUD_STREAM_ID_2, AUD_STREAM_PLAYBACK); #ifdef AUDIO_ANC_FB_ADJ_MC af_stream_start(ADJ_MC_STREAM_ID, AUD_STREAM_CAPTURE); #endif #endif #ifdef __THIRDPARTY //app_thirdparty_specific_lib_event_handle(THIRDPARTY_ID_NO1,THIRDPARTY_OTHER_EVENT); #endif app_bt_stream_trigger_checker_start(); } isRun = (on != PLAYER_OPER_STOP); return 0; } #if defined(SCO_DMA_SNAPSHOT) static uint32_t sco_trigger_wait_codecpcm = 0; static uint32_t sco_trigger_wait_btpcm = 0; void app_bt_stream_sco_trigger_set_codecpcm_triggle(uint8_t triggle_en) { sco_trigger_wait_codecpcm = triggle_en; } uint32_t app_bt_stream_sco_trigger_wait_codecpcm_triggle(void) { return sco_trigger_wait_codecpcm; } void app_bt_stream_sco_trigger_set_btpcm_triggle(uint32_t triggle_en) { sco_trigger_wait_btpcm = triggle_en; } uint32_t app_bt_stream_sco_trigger_wait_btpcm_triggle(void) { return sco_trigger_wait_btpcm; } int app_bt_stream_sco_trigger_codecpcm_tick(void) { if(app_bt_stream_sco_trigger_wait_codecpcm_triggle()){ app_bt_stream_sco_trigger_set_codecpcm_triggle(0); #if defined(IBRT) ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); if (app_tws_ibrt_mobile_link_connected()){ TRACE_AUD_STREAM_I("[SCO_PLAYER] codecpcm_tick:%x/%x", btdrv_syn_get_curr_ticks(), bt_syn_get_curr_ticks(p_ibrt_ctrl->mobile_conhandle)); }else if (app_tws_ibrt_slave_ibrt_link_connected()){ TRACE_AUD_STREAM_I("[SCO_PLAYER] codecpcm_tick:%x/%x", btdrv_syn_get_curr_ticks(), bt_syn_get_curr_ticks(p_ibrt_ctrl->ibrt_conhandle)); }else{ TRACE_AUD_STREAM_E("[SCO_PLAYER] codecpcm_tick mobile_link:%d %04x ibrt_link:%d %04x", app_tws_ibrt_mobile_link_connected(), p_ibrt_ctrl->mobile_conhandle, app_tws_ibrt_slave_ibrt_link_connected(), p_ibrt_ctrl->ibrt_conhandle); } #else uint16_t conhdl = 0xFFFF; int curr_sco; curr_sco = app_audio_manager_get_active_sco_num(); if (curr_sco != BT_DEVICE_NUM) { conhdl = btif_hf_get_remote_hci_handle(*app_audio_manager_get_active_sco_chnl()); } if (conhdl != 0xFFFF){ TRACE_AUD_STREAM_I("[SCO_PLAYER] codecpcm_tick:%x", bt_syn_get_curr_ticks(conhdl)); } #endif btdrv_syn_clr_trigger(); return 1; } return 0; } int app_bt_stream_sco_trigger_btpcm_tick(void) { if(app_bt_stream_sco_trigger_wait_btpcm_triggle()){ app_bt_stream_sco_trigger_set_btpcm_triggle(0); btdrv_set_bt_pcm_triggler_en(0); #if defined(IBRT) ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); if (app_tws_ibrt_mobile_link_connected()){ TRACE_AUD_STREAM_I("[SCO_PLAYER] btpcm_tick:%x/%x", btdrv_syn_get_curr_ticks(), bt_syn_get_curr_ticks(p_ibrt_ctrl->mobile_conhandle)); }else if (app_tws_ibrt_slave_ibrt_link_connected()){ TRACE_AUD_STREAM_I("[SCO_PLAYER] btpcm_tick:tick:%x/%x", btdrv_syn_get_curr_ticks(), bt_syn_get_curr_ticks(p_ibrt_ctrl->ibrt_conhandle)); }else{ TRACE_AUD_STREAM_I("[SCO_PLAYER] btpcm_tick: mobile_link:%d %04x ibrt_link:%d %04x", app_tws_ibrt_mobile_link_connected(), p_ibrt_ctrl->mobile_conhandle, app_tws_ibrt_slave_ibrt_link_connected(), p_ibrt_ctrl->ibrt_conhandle); } #else uint16_t conhdl = 0xFFFF; int curr_sco; curr_sco = app_audio_manager_get_active_sco_num(); if (curr_sco != BT_DEVICE_NUM) { conhdl = btif_hf_get_remote_hci_handle(*app_audio_manager_get_active_sco_chnl()); } TRACE_AUD_STREAM_I("[SCO_PLAYER] btpcm_tick:%x", bt_syn_get_curr_ticks(conhdl)); #endif btdrv_syn_clr_trigger(); return 1; } return 0; } void app_bt_stream_sco_trigger_btpcm_start(void ) { uint32_t curr_ticks = 0; uint32_t tg_acl_trigger_offset_time = 0; uint16_t conhdl = 0xFFFF; uint32_t lock; #if defined(IBRT) ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); if (app_tws_ibrt_mobile_link_connected()){ conhdl = p_ibrt_ctrl->mobile_conhandle; #ifdef __SW_TRIG__ btdrv_sync_sw_trig_store_conhdl(p_ibrt_ctrl->mobile_conhandle); #endif }else if (app_tws_ibrt_slave_ibrt_link_connected()){ conhdl = p_ibrt_ctrl->ibrt_conhandle; #ifdef __SW_TRIG__ btdrv_sync_sw_trig_store_conhdl(p_ibrt_ctrl->ibrt_conhandle); #endif }else{ TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] btpcm_startr mobile:%d %04x ibrt:%d %04x", app_tws_ibrt_mobile_link_connected(), p_ibrt_ctrl->mobile_conhandle, app_tws_ibrt_slave_ibrt_link_connected(), p_ibrt_ctrl->ibrt_conhandle); } #else int curr_sco; curr_sco = app_audio_manager_get_active_sco_num(); if (curr_sco != BT_DEVICE_NUM) { conhdl = btif_hf_get_remote_hci_handle(*app_audio_manager_get_active_sco_chnl()); } #endif lock = int_lock(); curr_ticks = bt_syn_get_curr_ticks(conhdl); tg_acl_trigger_offset_time = (curr_ticks+0x180) - ((curr_ticks+0x180)%192); btdrv_set_bt_pcm_triggler_en(0); btdrv_set_bt_pcm_en(0); btdrv_syn_clr_trigger(); btdrv_enable_playback_triggler(SCO_TRIGGLE_MODE); #if defined(IBRT) if (app_tws_ibrt_mobile_link_connected()){ bt_syn_set_tg_ticks(tg_acl_trigger_offset_time, p_ibrt_ctrl->mobile_conhandle, BT_TRIG_SLAVE_ROLE); TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] btpcm_startr set ticks:%d,",tg_acl_trigger_offset_time); }else if (app_tws_ibrt_slave_ibrt_link_connected()){ bt_syn_set_tg_ticks(tg_acl_trigger_offset_time, p_ibrt_ctrl->ibrt_conhandle, BT_TRIG_SLAVE_ROLE); TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] btpcm_startr set ticks:%d,",tg_acl_trigger_offset_time); }else{ TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] btpcm_startr mobile:%d %04x ibrt:%d %04x", app_tws_ibrt_mobile_link_connected(), p_ibrt_ctrl->mobile_conhandle, app_tws_ibrt_slave_ibrt_link_connected(), p_ibrt_ctrl->ibrt_conhandle); } TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] btpcm_startr get ticks:%d,",curr_ticks); #else bt_syn_set_tg_ticks(tg_acl_trigger_offset_time, conhdl, BT_TRIG_SLAVE_ROLE); #endif btdrv_set_bt_pcm_triggler_en(1); btdrv_set_bt_pcm_en(1); app_bt_stream_sco_trigger_set_btpcm_triggle(1); TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] btpcm_startr curr:%x, trig:%x, curr:%x", btdrv_syn_get_curr_ticks(), tg_acl_trigger_offset_time, bt_syn_get_curr_ticks(conhdl)); int_unlock(lock); } void app_bt_stream_sco_trigger_btpcm_stop(void) { return; } #define TIRG_DELAY_THRESHOLD_325US (15) //total:TIRG_DELAY_THRESHOLD_325US*325us #define TIRG_DELAY_MAX (20) //total:20*TIRG_DELAY_325US*325us #define TIRG_DELAY_325US (96) //total:TIRG_DELAY_325US*325us It' up to the codec and bt pcm pingpang buffer. void app_bt_stream_sco_trigger_codecpcm_start(uint32_t btclk, uint16_t btcnt ) { uint32_t curr_ticks = 0; uint32_t tg_acl_trigger_offset_time = 0; uint32_t lock; uint16_t conhdl = 0xFFFF; //must lock the interrupts when set trig ticks. #if defined(IBRT) ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx(); if (app_tws_ibrt_mobile_link_connected()){ conhdl = p_ibrt_ctrl->mobile_conhandle; }else if (app_tws_ibrt_slave_ibrt_link_connected()){ conhdl = p_ibrt_ctrl->ibrt_conhandle; }else{ TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] codecpcm_start mobile_link:%d %04x ibrt_link:%d %04x", app_tws_ibrt_mobile_link_connected(), p_ibrt_ctrl->mobile_conhandle, app_tws_ibrt_slave_ibrt_link_connected(), p_ibrt_ctrl->ibrt_conhandle); } #else int curr_sco; curr_sco = app_audio_manager_get_active_sco_num(); if (curr_sco != BT_DEVICE_NUM) { conhdl = btif_hf_get_remote_hci_handle(*app_audio_manager_get_active_sco_chnl()); } #endif lock = int_lock(); curr_ticks = bt_syn_get_curr_ticks(conhdl); TRACE_AUD_STREAM_I("[[STRM_TRIG][SCO] codecpcm_start 1 curr:%d clk:%dcnt:%d", curr_ticks,btclk,btcnt); #ifdef LOW_DELAY_SCO tg_acl_trigger_offset_time=btclk+12+MASTER_MOBILE_BTCLK_OFFSET; #else tg_acl_trigger_offset_time=btclk+24+MASTER_MOBILE_BTCLK_OFFSET; #endif tg_acl_trigger_offset_time = tg_acl_trigger_offset_time * 2; if(tg_acl_trigger_offset_timeTIRG_DELAY_MAX) { tirg_delay=TIRG_DELAY_MAX; TRACE_AUD_STREAM_W("[STRM_TRIG][SCO] codecpcm_start bt clk convolution!"); } tg_acl_trigger_offset_time=tg_acl_trigger_offset_time+tirg_delay*TIRG_DELAY_325US; TRACE_AUD_STREAM_W("[STRM_TRIG][SCO] codecpcm_start need more tirg_delay:%d offset:%d curr:%d,",tirg_delay,tg_acl_trigger_offset_time,curr_ticks); } tg_acl_trigger_offset_time &= 0x0fffffff; btdrv_syn_trigger_codec_en(0); // af_codec_sync_config(AUD_STREAM_PLAYBACK, AF_CODEC_SYNC_TYPE_BT, false); // af_codec_sync_config(AUD_STREAM_CAPTURE, AF_CODEC_SYNC_TYPE_BT, false); btdrv_syn_clr_trigger(); #if defined(IBRT) if (app_tws_ibrt_mobile_link_connected()){ bt_syn_set_tg_ticks(tg_acl_trigger_offset_time, p_ibrt_ctrl->mobile_conhandle, BT_TRIG_SLAVE_ROLE); TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] codecpcm_start set 2 offset:%d",tg_acl_trigger_offset_time); }else if (app_tws_ibrt_slave_ibrt_link_connected()){ bt_syn_set_tg_ticks(tg_acl_trigger_offset_time, p_ibrt_ctrl->ibrt_conhandle, BT_TRIG_SLAVE_ROLE); TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] codecpcm_start set 2 offset:%d",tg_acl_trigger_offset_time); }else{ TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] codecpcm_start mobile_link:%d %04x ibrt_link:%d %04x", app_tws_ibrt_mobile_link_connected(), p_ibrt_ctrl->mobile_conhandle, app_tws_ibrt_slave_ibrt_link_connected(), p_ibrt_ctrl->ibrt_conhandle); } #else bt_syn_set_tg_ticks(tg_acl_trigger_offset_time, conhdl, BT_TRIG_SLAVE_ROLE); #endif btdrv_syn_trigger_codec_en(1); app_bt_stream_sco_trigger_set_codecpcm_triggle(1); btdrv_enable_playback_triggler(ACL_TRIGGLE_MODE); int_unlock(lock); TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] codecpcm_start enable curr:%x trig:%x curr:%x", btdrv_syn_get_curr_ticks(), tg_acl_trigger_offset_time, curr_ticks); // af_codec_sync_config(AUD_STREAM_PLAYBACK, AF_CODEC_SYNC_TYPE_BT, true); // af_codec_sync_config(AUD_STREAM_CAPTURE, AF_CODEC_SYNC_TYPE_BT, true); } void app_bt_stream_sco_trigger_codecpcm_stop(void) { #ifdef PLAYBACK_USE_I2S af_i2s_sync_config(AUD_STREAM_PLAYBACK, AF_I2S_SYNC_TYPE_BT, false); #else af_codec_sync_config(AUD_STREAM_PLAYBACK, AF_CODEC_SYNC_TYPE_BT, false); #endif af_codec_sync_config(AUD_STREAM_CAPTURE, AF_CODEC_SYNC_TYPE_BT, false); } #endif void speech_tx_aec_set_frame_len(int len); int voicebtpcm_pcm_echo_buf_queue_init(uint32_t size); void voicebtpcm_pcm_echo_buf_queue_reset(void); void voicebtpcm_pcm_echo_buf_queue_deinit(void); int voicebtpcm_pcm_audio_init(int sco_sample_rate, int codec_sample_rate); int voicebtpcm_pcm_audio_deinit(void); uint32_t voicebtpcm_pcm_audio_data_come(uint8_t *buf, uint32_t len); uint32_t voicebtpcm_pcm_audio_more_data(uint8_t *buf, uint32_t len); int store_voicebtpcm_m2p_buffer(unsigned char *buf, unsigned int len); int get_voicebtpcm_p2m_frame(unsigned char *buf, unsigned int len); static uint32_t mic_force_mute = 0; static uint32_t spk_force_mute = 0; static uint32_t bt_sco_player_code_type = 0; static enum AUD_CHANNEL_NUM_T sco_play_chan_num; static enum AUD_CHANNEL_NUM_T sco_cap_chan_num; bool bt_sco_codec_is_msbc(void) { bool en = false; #ifdef HFP_1_6_ENABLE if (app_audio_manager_get_scocodecid() == BTIF_HF_SCO_CODEC_MSBC) { en = true; } else #endif { en = false; } return en; } void bt_sco_mobile_clkcnt_get(uint32_t btclk, uint16_t btcnt, uint32_t *mobile_master_clk, uint16_t *mobile_master_cnt) { #if defined(IBRT) app_tws_ibrt_audio_mobile_clkcnt_get(btclk, btcnt, mobile_master_clk, mobile_master_cnt); #else uint16_t conhdl = 0xFFFF; int32_t clock_offset; uint16_t bit_offset; int curr_sco; curr_sco = app_audio_manager_get_active_sco_num(); if (curr_sco != BT_DEVICE_NUM){ conhdl = btif_hf_get_remote_hci_handle(*app_audio_manager_get_active_sco_chnl()); } if (conhdl != 0xFFFF){ bt_drv_reg_op_piconet_clk_offset_get(conhdl, &clock_offset, &bit_offset); //TRACE_AUD_STREAM_I("mobile piconet clk:%d bit:%d loc clk:%d cnt:%d", clock_offset, bit_offset, btclk, btcnt); btdrv_slave2master_clkcnt_convert(btclk, btcnt, clock_offset, bit_offset, mobile_master_clk, mobile_master_cnt); }else{ TRACE_AUD_STREAM_W("[STRM_TRIG][SCO] mobile_clkcnt_get warning conhdl NULL conhdl:%x", conhdl); *mobile_master_clk = 0; *mobile_master_cnt = 0; } #endif } #if defined(__AUDIO_RESAMPLE__) && defined(SW_SCO_RESAMPLE) #ifdef CHIP_BEST1000 #error "Unsupport SW_SCO_RESAMPLE on best1000 by now" #endif #ifdef NO_SCO_RESAMPLE #error "Conflicted config: NO_SCO_RESAMPLE and SW_SCO_RESAMPLE" #endif // The decoded playback data in the first irq is output to DAC after the second irq (PING-PONG buffer) #define SCO_PLAY_RESAMPLE_ALIGN_CNT 2 static uint8_t sco_play_irq_cnt; static bool sco_dma_buf_err; static struct APP_RESAMPLE_T *sco_capture_resample; static struct APP_RESAMPLE_T *sco_playback_resample; static int bt_sco_capture_resample_iter(uint8_t *buf, uint32_t len) { voicebtpcm_pcm_audio_data_come(buf, len); return 0; } static int bt_sco_playback_resample_iter(uint8_t *buf, uint32_t len) { voicebtpcm_pcm_audio_more_data(buf, len); return 0; } #endif #if defined(SCO_DMA_SNAPSHOT) extern int process_downlink_bt_voice_frames(uint8_t *in_buf, uint32_t in_len, uint8_t *out_buf,uint32_t out_len,int32_t codec_type); extern int process_uplink_bt_voice_frames(uint8_t *in_buf, uint32_t in_len, uint8_t *ref_buf, uint32_t ref_len, uint8_t *out_buf,uint32_t out_len,int32_t codec_type); #define MSBC_FRAME_LEN (60) #define PCM_LEN_PER_FRAME (240) #define CAL_FRAME_NUM (22) static void bt_sco_codec_tuning(void) { uint32_t btclk; uint16_t btcnt; uint32_t mobile_master_clk; uint16_t mobile_master_cnt; uint32_t mobile_master_clk_offset; int32_t mobile_master_cnt_offset; static float fre_offset=0.0f; static int32_t mobile_master_cnt_offset_init; static int32_t mobile_master_cnt_offset_old; static uint32_t first_proc_flag=0; #if defined( __AUDIO_RESAMPLE__) && !defined(AUDIO_RESAMPLE_ANTI_DITHER) static uint32_t frame_counter=0; static int32_t mobile_master_cnt_offset_max=0; static int32_t mobile_master_cnt_offset_min=0; static int32_t mobile_master_cnt_offset_resample=0; int32_t offset_max=0; int32_t offset_min=0; #endif bt_drv_reg_op_dma_tc_clkcnt_get(&btclk, &btcnt); bt_sco_mobile_clkcnt_get(btclk, btcnt, &mobile_master_clk, &mobile_master_cnt); #if defined(SCO_DMA_SNAPSHOT_DEBUG) TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] tune btclk:%d,btcnt:%d,",mobile_master_clk,mobile_master_cnt); #endif mobile_master_clk_offset=(mobile_master_clk-mobile_master_clk_offset_init)%12; mobile_master_cnt_offset=mobile_master_clk_offset*625+(625-mobile_master_cnt); mobile_master_cnt_offset=mobile_master_cnt_offset-(MASTER_MOBILE_BTCNT_OFFSET+mobile_master_cnt_offset_init); if(app_bt_stream_sco_trigger_codecpcm_tick()) { fre_offset=0.0f; if(mobile_master_clk_offsetmobile_master_cnt_offset_max) { mobile_master_cnt_offset_max=mobile_master_cnt_offset; } if(mobile_master_cnt_offset=CAL_FRAME_NUM) { if(mobile_master_cnt_offset_minoffset_max) { mobile_master_cnt_offset_resample=mobile_master_cnt_offset_max-offset_max; } else { mobile_master_cnt_offset_resample=0; } TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] tune mobile_master_cnt_offset:%d/%d",mobile_master_cnt_offset_min,mobile_master_cnt_offset_max); mobile_master_cnt_offset=mobile_master_cnt_offset_resample; if(first_proc_flag==0) { fre_offset=((int32_t)(mobile_master_cnt_offset*0.5f))*0.0000001f +(mobile_master_cnt_offset-mobile_master_cnt_offset_old)*0.0000001f; first_proc_flag=1; } else { fre_offset=fre_offset+((int32_t)(mobile_master_cnt_offset*0.5f))*0.0000001f +(mobile_master_cnt_offset-mobile_master_cnt_offset_old)*0.0000001f; first_proc_flag=1; } mobile_master_cnt_offset_old=mobile_master_cnt_offset; #if defined(SCO_DMA_SNAPSHOT_DEBUG) TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] tune mobile_master_cnt_offset:%d", mobile_master_cnt_offset); #endif mobile_master_cnt_offset_max=0; mobile_master_cnt_offset_min=0; frame_counter=0; } } else #endif { fre_offset=fre_offset+((int32_t)(mobile_master_cnt_offset*0.5f))*0.00000001f +(mobile_master_cnt_offset-mobile_master_cnt_offset_old)*0.00000001f; mobile_master_cnt_offset_old=mobile_master_cnt_offset; //TRACE_AUD_STREAM_I("mobile_master_cnt_offset:%d",mobile_master_cnt_offset); first_proc_flag=1; } #if defined(SCO_DMA_SNAPSHOT_DEBUG) TRACE_AUD_STREAM_I("[STRM_TRIG][SCO] tune fre_offset:%d",(int)(fre_offset*10000000.0f)); #endif if(first_proc_flag==1) { if(fre_offset>0.0001f)fre_offset=0.0001f; if(fre_offset<-0.0001f)fre_offset=-0.0001f; } #if defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE) app_resample_tune(playback_samplerate_codecpcm, fre_offset); #else af_codec_tune(AUD_STREAM_NUM, fre_offset); #endif return; } #endif extern CQueue* get_tx_esco_queue_ptr(); #if defined(BONE_SENSOR_TDM) #define MIC_TDM_FRAME_MS (15) #define MIC_TDM_MAX_CH (3) static int16_t mic_tdm_buf[SPEECH_FRAME_MS_TO_LEN(16000, MIC_TDM_FRAME_MS)]; // forward static uint32_t bt_sco_codec_capture_data(uint8_t *buf, uint32_t len); uint32_t tdm_callback_func(uint8_t *buf_ptr, uint32_t frame_len) { int16_t *pcm_buf = (int16_t *)buf_ptr; // TODO: Check frame_len, depend on sample rate for (uint32_t i = 0; i < frame_len; i++) { mic_tdm_buf[i] = pcm_buf[i]; } #if defined(__AUDIO_RESAMPLE__) && defined(SW_SCO_RESAMPLE) ASSERT(0, "[%s] Do not support defined(__AUDIO_RESAMPLE__) && defined(SW_SCO_RESAMPLE)", __func__); #endif return 0; } void bt_sco_get_tdm_buffer(uint8_t **buf, uint32_t *len) { *buf = (uint8_t *)&mic_tdm_buf[0]; *len = sizeof(mic_tdm_buf); } #endif #if defined(ANC_NOISE_TRACKER) static int16_t *anc_buf = NULL; #endif #if defined(ANC_WNR_ENABLED) #if defined(SPEECH_TX_24BIT) static int32_t wnr_buf[256*2]; #else static short wnr_buf[256*2]; #endif #endif //#define BT_SCO_HANDLER_PROFILE //( codec:mic-->btpcm:tx // codec:mic static uint32_t bt_sco_codec_capture_data(uint8_t *buf, uint32_t len) { app_bt_stream_trigger_checker_handler(TRIGGER_CHECKER_HFP_AUDPCM_CAPTURE); #if defined(ANC_NOISE_TRACKER) int16_t *pcm_buf = (int16_t *)buf; uint32_t pcm_len = len / sizeof(short); uint32_t ch_num = SPEECH_CODEC_CAPTURE_CHANNEL_NUM + ANC_NOISE_TRACKER_CHANNEL_NUM; uint32_t remain_ch_num = SPEECH_CODEC_CAPTURE_CHANNEL_NUM; #if defined(SPEECH_TX_AEC_CODEC_REF) ch_num += 1; remain_ch_num += 1; #endif ASSERT(pcm_len % ch_num == 0, "[%s] input data length error", __FUNCTION__); // assume anc mic in ch0 for (uint32_t i = 0, j = 0; i < pcm_len; i += ch_num, j += ANC_NOISE_TRACKER_CHANNEL_NUM) { for (uint32_t ch = 0; ch < ANC_NOISE_TRACKER_CHANNEL_NUM; ch++) anc_buf[j + ch] = pcm_buf[i + ch]; } noise_tracker_process(anc_buf, pcm_len / ch_num * ANC_NOISE_TRACKER_CHANNEL_NUM); for (uint32_t i = 0, j = 0; i < pcm_len; i += ch_num, j += remain_ch_num) { for (uint32_t chi = ANC_NOISE_TRACKER_CHANNEL_NUM, cho = 0; chi < ch_num; chi++, cho++) pcm_buf[j + cho] = pcm_buf[i + chi]; } len = len / ch_num * remain_ch_num; #endif #if defined(AF_ADC_I2S_SYNC) //TRACE_AUD_STREAM_I("[SCO][MIC] cnt = %d", codec_capture_cnt++); #endif #if defined(ANC_WNR_ENABLED) #if defined(SPEECH_TX_24BIT) int32_t *pcm_buf = (int32_t *)buf; uint32_t pcm_len = len / sizeof(int32_t); #else int16_t *pcm_buf = (int16_t *)buf; uint32_t pcm_len = len / sizeof(short); #endif for(uint32_t i=0;i>8); } int_unlock(lock); } #endif //TRACE_AUD_STREAM_I("pcm length:%d",len); //processing clock bt_sco_codec_tuning(); //processing mic uint8_t *capture_pcm_frame_p=capture_buf_codecpcm+pingpang*(capture_size_codecpcm)/2; //uint8_t *dst=(uint8_t *)(playback_buf_btpcm+(pingpang)*playback_size_btpcm/2); uint8_t *dst=playback_buf_btpcm_cache; uint8_t *ref_pcm_frame_p=playback_buf_codecpcm+(pingpang^1)*(playback_size_codecpcm)/2; #if defined(HFP_1_6_ENABLE) process_uplink_bt_voice_frames(capture_pcm_frame_p,len, ref_pcm_frame_p,(playback_size_codecpcm)/2, dst,len,app_audio_manager_get_scocodecid()); #else process_uplink_bt_voice_frames(capture_pcm_frame_p,len, ref_pcm_frame_p,(playback_size_codecpcm)/2, dst,len,BTIF_HF_SCO_CODEC_CVSD); #endif #if defined(BT_SCO_HANDLER_PROFILE) uint32_t end_ticks = hal_fast_sys_timer_get(); TRACE_AUD_STREAM_I("[SCO][MIC] takes %d us", FAST_TICKS_TO_US(end_ticks - start_ticks)); #endif return len; #else #if defined(BT_SCO_HANDLER_PROFILE) uint32_t start_ticks = hal_fast_sys_timer_get(); #endif #if defined(BONE_SENSOR_TDM) int16_t *pcm_buf = (int16_t *)buf; uint32_t frame_len = len / sizeof(short) / SPEECH_CODEC_CAPTURE_CHANNEL_NUM; uint32_t ch_num = SPEECH_CODEC_CAPTURE_CHANNEL_NUM + 1; ASSERT(SPEECH_CODEC_CAPTURE_CHANNEL_NUM < MIC_TDM_MAX_CH, "[%s] SPEECH_CODEC_CAPTURE_CHANNEL_NUM(%d) is invalid", __func__, SPEECH_CODEC_CAPTURE_CHANNEL_NUM); // TODO: Check len, depend on sample rate for (uint32_t ch = 0; ch < SPEECH_CODEC_CAPTURE_CHANNEL_NUM; ch++) { for (uint32_t i = 0; i < frame_len; i++) { mic_tdm_buf[ch_num * i + ch] = pcm_buf[SPEECH_CODEC_CAPTURE_CHANNEL_NUM * i + ch]; } } return len; #endif #if defined(__AUDIO_RESAMPLE__) && defined(SW_SCO_RESAMPLE) if(hal_cmu_get_audio_resample_status()) { if (af_stream_buffer_error(AUD_STREAM_ID_0, AUD_STREAM_CAPTURE)) { sco_dma_buf_err = true; } // The decoded playback data in the first irq is output to DAC after the second irq (PING-PONG buffer), // so it is aligned with the capture data after 2 playback irqs. if (sco_play_irq_cnt < SCO_PLAY_RESAMPLE_ALIGN_CNT) { // Skip processing return len; } app_capture_resample_run(sco_capture_resample, buf, len); } else #endif { voicebtpcm_pcm_audio_data_come(buf, len); } #if defined(BT_SCO_HANDLER_PROFILE) uint32_t end_ticks = hal_fast_sys_timer_get(); TRACE_AUD_STREAM_I("[SCO][MIC] takes %d us", FAST_TICKS_TO_US(end_ticks - start_ticks)); #endif return len; #endif } #ifdef _SCO_BTPCM_CHANNEL_ // btpcm:tx static uint32_t bt_sco_btpcm_playback_data(uint8_t *buf, uint32_t len) { app_bt_stream_trigger_checker_handler(TRIGGER_CHECKER_HFP_BTPCM_PLAYERBLACK); #if defined(SCO_DMA_SNAPSHOT) return len; #else #if defined(BT_SCO_HANDLER_PROFILE) uint32_t start_ticks = hal_fast_sys_timer_get(); #endif get_voicebtpcm_p2m_frame(buf, len); #if defined(BT_SCO_HANDLER_PROFILE) uint32_t end_ticks = hal_fast_sys_timer_get(); TRACE_AUD_STREAM_I("[SCO][SPK] takes %d us", FAST_TICKS_TO_US(end_ticks - start_ticks)); #endif return len; #endif } //) #if defined(AF_ADC_I2S_SYNC) void codec_capture_i2s_enable(void) { uint32_t lock; TRACE_AUD_STREAM_I("[SCO][IIS] Start...", __func__); lock = int_lock(); hal_codec_capture_enable(); hal_i2s_enable(HAL_I2S_ID_0); int_unlock(lock); } #endif extern CQueue* get_rx_esco_queue_ptr(); static volatile bool is_codec_stream_started = false; #ifdef PCM_PRIVATE_DATA_FLAG void bt_sco_btpcm_get_pcm_priv_data(struct PCM_DATA_FLAG_T *pcm_data, uint8_t *buf, uint32_t len) { uint8_t frame_num = len/120; for(uint8_t i=0; i>5)&3; pcm_data[i].btclk = buf[head_pos+6]|(buf[head_pos+8]<<8)|(buf[head_pos+10]<<16)|(buf[head_pos+12]<<24); pcm_data[i].reserved = buf[head_pos+14]|(buf[head_pos+16]<<8)|(buf[head_pos+18]<<16)|(buf[head_pos+20]<<24); //clear private msg in buffer for(uint8_t j=0; jcodec:spk // btpcm:rx extern void bt_drv_reg_op_set_music_ongong_flag(); extern void bt_drv_reg_op_clear_music_ongong_flag(); static uint32_t bt_sco_btpcm_capture_data(uint8_t *buf, uint32_t len) { int POSSIBLY_UNUSED sRet = 0; app_bt_stream_trigger_checker_handler(TRIGGER_CHECKER_HFP_BTPCM_CAPTURE); #ifdef __BT_ONE_BRING_TWO__ if(a2dp_is_music_ongoing()) bt_drv_reg_op_set_music_ongong_flag(); else bt_drv_reg_op_clear_music_ongong_flag(); #endif #if defined(PCM_PRIVATE_DATA_FLAG) && defined(PCM_FAST_MODE) bt_sco_btpcm_get_pcm_priv_data(pcm_data_param, buf, len); #endif #if defined(SCO_DMA_SNAPSHOT) uint32_t btclk; uint16_t btcnt; uint32_t mobile_master_clk; uint16_t mobile_master_cnt; bool codec_stream_trig = false; #if defined(BT_SCO_HANDLER_PROFILE) uint32_t start_ticks = hal_fast_sys_timer_get(); #endif if((is_codec_stream_started == false)&&(buf==capture_buf_btpcm)) { if(!af_stream_buffer_error(AUD_STREAM_ID_1, AUD_STREAM_CAPTURE)) { bt_drv_reg_op_dma_tc_clkcnt_get(&btclk, &btcnt); bt_sco_mobile_clkcnt_get(btclk, btcnt,&mobile_master_clk, &mobile_master_cnt); hal_sys_timer_delay_us(1); if(!af_stream_buffer_error(AUD_STREAM_ID_1, AUD_STREAM_CAPTURE)) { codec_stream_trig = true; } } } /* uint32_t curr_ticks; ibbt_ctrl_t *p_ibbt_ctrl = app_tws_ibbt_get_bt_ctrl_ctx(); if (app_tws_ibbt_tws_link_connected()){ curr_ticks = bt_syn_get_curr_ticks(IBBT_MASTER == p_ibbt_ctrl->current_role ? p_ibbt_ctrl->mobile_conhandle : p_ibbt_ctrl->ibbt_conhandle); TRACE_AUD_STREAM_I("bt_sco_btpcm_capture_data +++++++++++++++++++++++++++++++++curr_ticks:%d,",curr_ticks); }else{ curr_ticks = btdrv_syn_get_curr_ticks(); TRACE_AUD_STREAM_I("--------------------------------------"); } */ sco_btpcm_mute_flag=0; if (codec_stream_trig) { if (app_bt_stream_sco_trigger_btpcm_tick()) { af_stream_dma_tc_irq_enable(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); af_stream_dma_tc_irq_disable(AUD_STREAM_ID_1, AUD_STREAM_CAPTURE); #if defined(SCO_DMA_SNAPSHOT_DEBUG) af_stream_dma_tc_irq_enable(AUD_STREAM_ID_1, AUD_STREAM_CAPTURE); #endif TRACE_AUD_STREAM_I("[SCO][BTPCMRX] buf:%p,capture_buf_btpcm:%p",buf,capture_buf_btpcm); // uint16_t *source=(uint16_t *)buf; // DUMP16("%02x,", source, MSBC_FRAME_LEN); #if defined(BONE_SENSOR_TDM) #if defined(AF_ADC_I2S_SYNC) hal_i2s_enable_delay(HAL_I2S_ID_0); // hal_codec_capture_enable_delay(); #endif tdm_stream_start(); #endif mobile_master_clk_offset_init=mobile_master_clk%12; app_bt_stream_sco_trigger_codecpcm_start(mobile_master_clk,mobile_master_cnt); is_codec_stream_started = true; #if defined(SCO_DMA_SNAPSHOT_DEBUG) TRACE_AUD_STREAM_I("[SCO][BTPCMRX] btclk:%d,btcnt:%d,",mobile_master_clk,mobile_master_cnt); #endif } } else { #if defined(SCO_DMA_SNAPSHOT_DEBUG) bt_drv_reg_op_dma_tc_clkcnt_get(&btclk, &btcnt); bt_sco_mobile_clkcnt_get(btclk, btcnt,&mobile_master_clk, &mobile_master_cnt); TRACE_AUD_STREAM_I("[SCO][BTPCMRX]:btclk:%d,btcnt:%d,",mobile_master_clk,mobile_master_cnt); #endif } #if defined(BT_SCO_HANDLER_PROFILE) uint32_t end_ticks = hal_fast_sys_timer_get(); TRACE_AUD_STREAM_I("[SCO][BTPCMRX] takes %d us", FAST_TICKS_TO_US(end_ticks - start_ticks)); #endif return len; #else #if defined(BT_SCO_HANDLER_PROFILE) uint32_t start_ticks = hal_fast_sys_timer_get(); #endif if(!is_sco_mode()){ TRACE_AUD_STREAM_E("[SCO][BTPCMRX] player exit!"); memset(buf,0x0,len); return len; } #if defined(TX_RX_PCM_MASK) TRACE_AUD_STREAM_I("[SCO][BTPCMRX] TX_RX_PCM_MASK"); CQueue* Rx_esco_queue_temp = NULL; Rx_esco_queue_temp = get_rx_esco_queue_ptr(); if(bt_sco_codec_is_msbc() && btdrv_is_pcm_mask_enable() ==1 ) { memset(buf,0,len); int status = 0; len /= 2; uint8_t rx_data[len]; status = DeCQueue(Rx_esco_queue_temp,rx_data,len); for(uint32_t i = 0; imobile_conhandle -0x80); } else if (app_tws_ibrt_slave_ibrt_link_connected()) { valid = true; bitoffset = btdrv_rf_bitoffset_get(p_ibrt_ctrl->ibrt_conhandle -0x80); } if(valid) { if(app_if_need_fix_target_rxbit() == false) { if(bitoffsetSLOT_SIZE-XTAL_OFFSET) bitoffset = SLOT_SIZE-XTAL_OFFSET; } #ifdef BT_XTAL_SYNC_SLOW bt_xtal_sync_new_new(bitoffset,app_if_need_fix_target_rxbit(),BT_XTAL_SYNC_MODE_WITH_MOBILE); #else bt_xtal_sync_new(bitoffset,app_if_need_fix_target_rxbit(),BT_XTAL_SYNC_MODE_WITH_MOBILE); #endif } #endif #else bt_xtal_sync(BT_XTAL_SYNC_MODE_VOICE); #endif #endif #if defined(AF_ADC_I2S_SYNC) //TRACE_AUD_STREAM_I("[%s] cnt = %d", __func__, codec_playback_cnt++); #endif #if defined(SCO_DMA_SNAPSHOT) //processing ping pang flag int pingpang; if(buf==playback_buf_codecpcm) { pingpang=0; } else { pingpang=1; } #ifdef TX_RX_PCM_MASK //processing btpcm.(It must be from CPU's copy ) if(btdrv_is_pcm_mask_enable()==1&&bt_sco_codec_is_msbc()) { uint32_t lock; uint32_t i; //must lock the interrupts when exchanging data. lock = int_lock(); uint16_t *capture_dst=(uint16_t *)(capture_buf_btpcm + pingpang * capture_size_btpcm / 2); for( i =0; i> 8); } source_len >>= 1; } process_downlink_bt_voice_frames(source,source_len, playbakce_pcm_frame_p,(playback_size_codecpcm)/sco_play_chan_num/2,app_audio_manager_get_scocodecid()); #else process_downlink_bt_voice_frames(source,(playback_size_btpcm)/2, playbakce_pcm_frame_p,(playback_size_codecpcm)/sco_play_chan_num/2,BTIF_HF_SCO_CODEC_CVSD); #endif if (sco_play_chan_num == AUD_CHANNEL_NUM_2) { // Convert mono data to stereo data #if defined(SPEECH_RX_24BIT) app_bt_stream_copy_track_one_to_two_24bits((int32_t *)playbakce_pcm_frame_p, (int32_t *)playbakce_pcm_frame_p, playback_size_codecpcm / 2 / sco_play_chan_num / sizeof(int32_t)); #else app_bt_stream_copy_track_one_to_two_16bits((int16_t *)playbakce_pcm_frame_p, (int16_t *)playbakce_pcm_frame_p, playback_size_codecpcm / 2 / sco_play_chan_num / sizeof(int16_t)); #endif } return len; #else #if defined(BT_SCO_HANDLER_PROFILE) uint32_t start_ticks = hal_fast_sys_timer_get(); #endif uint8_t *dec_buf; uint32_t mono_len; #if defined(SPEECH_RX_24BIT) len /= 2; #endif #ifdef __BT_ANC__ mono_len = len / sco_play_chan_num / bt_sco_samplerate_ratio; dec_buf = bt_anc_sco_dec_buf; #else mono_len = len / sco_play_chan_num; dec_buf = buf; #endif #if defined(__AUDIO_RESAMPLE__) && defined(SW_SCO_RESAMPLE) if(hal_cmu_get_audio_resample_status()) { if (sco_play_irq_cnt < SCO_PLAY_RESAMPLE_ALIGN_CNT) { sco_play_irq_cnt++; } if (sco_dma_buf_err || af_stream_buffer_error(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK)) { sco_dma_buf_err = false; sco_play_irq_cnt = 0; app_resample_reset(sco_playback_resample); app_resample_reset(sco_capture_resample); voicebtpcm_pcm_echo_buf_queue_reset(); TRACE_AUD_STREAM_I("[SCO][SPK]: DMA buffer error: reset resample"); } app_playback_resample_run(sco_playback_resample, dec_buf, mono_len); } else #endif { #ifdef __BT_ANC__ bt_anc_sco_down_sample_16bits((int16_t *)dec_buf, (int16_t *)buf, mono_len / 2); #else if (sco_play_chan_num == AUD_CHANNEL_NUM_2) { // Convert stereo data to mono data (to save into echo_buf) app_bt_stream_copy_track_two_to_one_16bits((int16_t *)dec_buf, (int16_t *)buf, mono_len / 2); } #endif voicebtpcm_pcm_audio_more_data(dec_buf, mono_len); } #ifdef __BT_ANC__ voicebtpcm_pcm_resample((int16_t *)dec_buf, mono_len / 2, (int16_t *)buf); #endif #if defined(SPEECH_RX_24BIT) len <<= 1; #endif if (sco_play_chan_num == AUD_CHANNEL_NUM_2) { // Convert mono data to stereo data #if defined(SPEECH_RX_24BIT) app_bt_stream_copy_track_one_to_two_24bits((int32_t *)buf, (int32_t *)buf, len / 2 / sizeof(int32_t)); #else app_bt_stream_copy_track_one_to_two_16bits((int16_t *)buf, (int16_t *)buf, len / 2 / sizeof(int16_t)); #endif } if (spk_force_mute) { memset(buf, 0, len); } #if defined(BT_SCO_HANDLER_PROFILE) uint32_t end_ticks = hal_fast_sys_timer_get(); TRACE_AUD_STREAM_I("[SCO][SPK] takes %d us", FAST_TICKS_TO_US(end_ticks - start_ticks)); #endif return len; #endif } int bt_sco_player_forcemute(bool mic_mute, bool spk_mute) { mic_force_mute = mic_mute; spk_force_mute = spk_mute; return 0; } int bt_sco_player_get_codetype(void) { if (gStreamplayer & APP_BT_STREAM_HFP_PCM) { return bt_sco_player_code_type; } else { return 0; } } #if defined(AUDIO_ANC_FB_MC_SCO) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) static uint32_t audio_mc_data_playback_sco(uint8_t *buf, uint32_t mc_len_bytes) { // uint32_t begin_time; //uint32_t end_time; // begin_time = hal_sys_timer_get(); // TRACE_AUD_STREAM_I("phone cancel: %d",begin_time); float left_gain; float right_gain; int32_t playback_len_bytes,mc_len_bytes_8; int32_t i,j,k; int delay_sample; mc_len_bytes_8=mc_len_bytes/8; hal_codec_get_dac_gain(&left_gain,&right_gain); TRACE_AUD_STREAM_I("[SCO][SPK][MC] playback_samplerate_ratio: %d,ch:%d,sample_size:%d.",playback_samplerate_ratio_bt,playback_ch_num_bt,sample_size_play_bt); TRACE_AUD_STREAM_I("[SCO][SPK][MC] len: %d",mc_len_bytes); // TRACE_AUD_STREAM_I("left_gain: %d",(int)(left_gain*(1<<12))); // TRACE_AUD_STREAM_I("right_gain: %d",(int)(right_gain*(1<<12))); playback_len_bytes=mc_len_bytes/playback_samplerate_ratio_bt; if (sample_size_play_bt == AUD_BITS_16) { int16_t *sour_p=(int16_t *)(playback_buf_bt+playback_size_bt/2); int16_t *mid_p=(int16_t *)(buf); int16_t *mid_p_8=(int16_t *)(buf+mc_len_bytes-mc_len_bytes_8); int16_t *dest_p=(int16_t *)buf; if(buf == playback_buf_mc) { sour_p=(int16_t *)playback_buf_bt; } if(playback_ch_num_bt==AUD_CHANNEL_NUM_2) { delay_sample=DELAY_SAMPLE_MC; for(i=0,j=0;ihfp_vol; app_audio_manager_sco_status_checker(); #if defined(HFP_1_6_ENABLE) bt_sco_player_code_type = app_audio_manager_get_scocodecid(); #endif if (freq < APP_SYSFREQ_104M) { freq = APP_SYSFREQ_104M; } #if defined(AUDIO_ANC_FB_MC_SCO) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) if (freq < APP_SYSFREQ_208M) { freq = APP_SYSFREQ_208M; } #endif #if defined(SCO_CP_ACCEL) freq = APP_SYSFREQ_52M; #endif app_sysfreq_req(APP_SYSFREQ_USER_BT_SCO, freq); TRACE_AUD_STREAM_I("[SCO_PLAYER] sysfreq:%d", freq); TRACE_AUD_STREAM_I("[SCO_PLAYER] sysfreq calc : %d\n", hal_sys_timer_calc_cpu_freq(5, 0)); #ifndef FPGA app_overlay_select(APP_OVERLAY_HFP); #ifdef BT_XTAL_SYNC bt_init_xtal_sync(BT_XTAL_SYNC_MODE_VOICE, BT_INIT_XTAL_SYNC_MIN, BT_INIT_XTAL_SYNC_MAX, BT_INIT_XTAL_SYNC_FCAP_RANGE); #endif #endif btdrv_rf_bit_offset_track_enable(true); #if !defined(SCO_DMA_SNAPSHOT) int aec_frame_len = speech_get_frame_size(speech_codec_get_sample_rate(), 1, SPEECH_SCO_FRAME_MS); speech_tx_aec_set_frame_len(aec_frame_len); #endif bt_sco_player_forcemute(false, false); bt_sco_mode = 1; app_audio_mempool_init(); #ifndef _SCO_BTPCM_CHANNEL_ memset(&hf_sendbuff_ctrl, 0, sizeof(hf_sendbuff_ctrl)); #endif sample_rate = speech_codec_get_sample_rate(); sco_cap_chan_num = (enum AUD_CHANNEL_NUM_T)SPEECH_CODEC_CAPTURE_CHANNEL_NUM; #if defined(FPGA) sco_cap_chan_num = AUD_CHANNEL_NUM_2; #endif #if defined(SPEECH_TX_AEC_CODEC_REF) sco_cap_chan_num = (enum AUD_CHANNEL_NUM_T)(sco_cap_chan_num + 1); #endif #if defined(ANC_NOISE_TRACKER) sco_cap_chan_num = (enum AUD_CHANNEL_NUM_T)(sco_cap_chan_num + ANC_NOISE_TRACKER_CHANNEL_NUM); #endif #ifdef PLAYBACK_USE_I2S hal_cmu_audio_resample_disable(); #endif memset(&stream_cfg, 0, sizeof(stream_cfg)); // codec:mic stream_cfg.channel_num = sco_cap_chan_num; stream_cfg.data_size = speech_get_af_buffer_size(sample_rate, sco_cap_chan_num, SPEECH_SCO_FRAME_MS); #if defined(__AUDIO_RESAMPLE__) && defined(NO_SCO_RESAMPLE) // When __AUDIO_RESAMPLE__ is defined, // resample is off by default on best1000, and on by default on other platforms #ifndef CHIP_BEST1000 hal_cmu_audio_resample_disable(); #endif #endif #if defined(__AUDIO_RESAMPLE__) && defined(SW_SCO_RESAMPLE) if (sample_rate == AUD_SAMPRATE_8000) { stream_cfg.sample_rate = AUD_SAMPRATE_8463; } else if (sample_rate == AUD_SAMPRATE_16000) { stream_cfg.sample_rate = AUD_SAMPRATE_16927; } #ifdef RESAMPLE_ANY_SAMPLE_RATE sco_capture_resample = app_capture_resample_any_open( stream_cfg.channel_num, bt_sco_capture_resample_iter, stream_cfg.data_size / 2, (float)CODEC_FREQ_26M / CODEC_FREQ_24P576M); #else sco_capture_resample = app_capture_resample_open(sample_rate, stream_cfg.channel_num, bt_sco_capture_resample_iter, stream_cfg.data_size / 2); #endif uint32_t mono_cap_samp_cnt = stream_cfg.data_size / 2 / 2 / stream_cfg.channel_num; uint32_t cap_irq_cnt_per_frm = ((mono_cap_samp_cnt * stream_cfg.sample_rate + (sample_rate - 1)) / sample_rate + (aec_frame_len - 1)) / aec_frame_len; if (cap_irq_cnt_per_frm == 0) { cap_irq_cnt_per_frm = 1; } #else stream_cfg.sample_rate = sample_rate; #endif #if defined(SPEECH_TX_24BIT) stream_cfg.bits = AUD_BITS_24; stream_cfg.data_size *= 2; #else stream_cfg.bits = AUD_BITS_16; #endif stream_cfg.vol = stream_local_volume; #ifdef FPGA stream_cfg.device = AUD_STREAM_USE_EXT_CODEC; #else stream_cfg.device = AUD_STREAM_USE_INT_CODEC; #endif stream_cfg.io_path = AUD_INPUT_PATH_MAINMIC; stream_cfg.handler = bt_sco_codec_capture_data; app_audio_mempool_get_buff(&bt_audio_buff, stream_cfg.data_size); stream_cfg.data_ptr = BT_AUDIO_CACHE_2_UNCACHE(bt_audio_buff); #if defined(SCO_DMA_SNAPSHOT) capture_buf_codecpcm=stream_cfg.data_ptr; capture_size_codecpcm=stream_cfg.data_size; #endif TRACE_AUD_STREAM_I("[SCO_PLAYER] capture sample_rate:%d, data_size:%d",stream_cfg.sample_rate,stream_cfg.data_size); #if defined(ANC_WNR_ENABLED) if(app_anc_work_status()) { anc_wnr_close(); anc_wnr_ctrl(stream_cfg.sample_rate, speech_get_frame_size(stream_cfg.sample_rate, 1, SPEECH_SCO_FRAME_MS)); anc_release_gain(); anc_wnr_open(ANC_WNR_OPEN_MODE_CONFIGURE); } else { anc_wnr_ctrl(stream_cfg.sample_rate, speech_get_frame_size(stream_cfg.sample_rate, 1, SPEECH_SCO_FRAME_MS)); } #endif af_stream_open(AUD_STREAM_ID_0, AUD_STREAM_CAPTURE, &stream_cfg); #if defined(HW_DC_FILTER_WITH_IIR) hw_filter_codec_iir_st = hw_filter_codec_iir_create(stream_cfg.sample_rate, stream_cfg.channel_num, stream_cfg.bits, &adc_iir_cfg); #endif #if defined(CHIP_BEST2300) btdrv_set_bt_pcm_triggler_delay(60); #elif defined(CHIP_BEST1400) || defined(CHIP_BEST1402) || defined(CHIP_BEST2001) #if defined(SCO_DMA_SNAPSHOT) btdrv_set_bt_pcm_triggler_delay(2); #else btdrv_set_bt_pcm_triggler_delay(60); #endif #elif defined(CHIP_BEST2300P) || defined(CHIP_BEST2300A) #if defined(SCO_DMA_SNAPSHOT) btdrv_set_bt_pcm_triggler_delay(2); #else btdrv_set_bt_pcm_triggler_delay(59); #endif #else btdrv_set_bt_pcm_triggler_delay(55); #endif // codec:spk sample_rate = speech_codec_get_sample_rate(); #if defined(CHIP_BEST1000) sco_play_chan_num = AUD_CHANNEL_NUM_2; #else #ifdef PLAYBACK_USE_I2S sco_play_chan_num = AUD_CHANNEL_NUM_2; #else sco_play_chan_num = AUD_CHANNEL_NUM_1; #endif #endif #if defined(BONE_SENSOR_TDM) #if defined(AF_ADC_I2S_SYNC) codec_capture_cnt = 0; codec_playback_cnt = 0; #endif lis25ba_init(); tdm_stream_register(tdm_callback_func); #endif stream_cfg.channel_num = sco_play_chan_num; // stream_cfg.data_size = BT_AUDIO_SCO_BUFF_SIZE * stream_cfg.channel_num; stream_cfg.data_size = speech_get_af_buffer_size(sample_rate, sco_play_chan_num, SPEECH_SCO_FRAME_MS); #if defined(__AUDIO_RESAMPLE__) && defined(SW_SCO_RESAMPLE) if (sample_rate == AUD_SAMPRATE_8000) { stream_cfg.sample_rate = AUD_SAMPRATE_8463; } else if (sample_rate == AUD_SAMPRATE_16000) { stream_cfg.sample_rate = AUD_SAMPRATE_16927; } #ifdef RESAMPLE_ANY_SAMPLE_RATE sco_playback_resample = app_playback_resample_any_open( AUD_CHANNEL_NUM_1, bt_sco_playback_resample_iter, stream_cfg.data_size / stream_cfg.channel_num / 2, (float)CODEC_FREQ_24P576M / CODEC_FREQ_26M); #else sco_playback_resample = app_playback_resample_open(sample_rate, AUD_CHANNEL_NUM_1, bt_sco_playback_resample_iter, stream_cfg.data_size / stream_cfg.channel_num / 2); #endif sco_play_irq_cnt = 0; sco_dma_buf_err = false; uint32_t mono_play_samp_cnt = stream_cfg.data_size / 2 / 2 / stream_cfg.channel_num; uint32_t play_irq_cnt_per_frm = ((mono_play_samp_cnt * stream_cfg.sample_rate + (sample_rate - 1)) / sample_rate + (aec_frame_len - 1)) / aec_frame_len; if (play_irq_cnt_per_frm == 0) { play_irq_cnt_per_frm = 1; } uint32_t play_samp_cnt_per_frm = mono_play_samp_cnt * play_irq_cnt_per_frm; uint32_t cap_samp_cnt_per_frm = mono_cap_samp_cnt * cap_irq_cnt_per_frm; uint32_t max_samp_cnt_per_frm = (play_samp_cnt_per_frm >= cap_samp_cnt_per_frm) ? play_samp_cnt_per_frm : cap_samp_cnt_per_frm; uint32_t echo_q_samp_cnt = (((max_samp_cnt_per_frm + mono_play_samp_cnt * SCO_PLAY_RESAMPLE_ALIGN_CNT) * // convert to 8K/16K sample cnt sample_rate +(stream_cfg.sample_rate - 1)) / stream_cfg.sample_rate + // aligned with aec_frame_len (aec_frame_len - 1)) / aec_frame_len * aec_frame_len; if (echo_q_samp_cnt == 0) { echo_q_samp_cnt = aec_frame_len; } voicebtpcm_pcm_echo_buf_queue_init(echo_q_samp_cnt * 2); #else stream_cfg.sample_rate = sample_rate; #endif #ifdef __BT_ANC__ // Mono channel decoder buffer (8K or 16K sample rate) app_audio_mempool_get_buff(&bt_anc_sco_dec_buf, stream_cfg.data_size / 2 / sco_play_chan_num); // The playback size for the actual sample rate bt_sco_samplerate_ratio = 6/(sample_rate/AUD_SAMPRATE_8000); stream_cfg.data_size *= bt_sco_samplerate_ratio; #if defined(__AUDIO_RESAMPLE__) && defined(SW_SCO_RESAMPLE) stream_cfg.sample_rate = AUD_SAMPRATE_50781; #else stream_cfg.sample_rate = AUD_SAMPRATE_48000; #endif //damic_init(); //init_amic_dc_bt(); //ds_fir_init(); us_fir_init(); #endif stream_cfg.bits = AUD_BITS_16; #ifdef PLAYBACK_USE_I2S stream_cfg.device = AUD_STREAM_USE_I2S0_MASTER; stream_cfg.io_path = AUD_IO_PATH_NULL; #else stream_cfg.io_path = AUD_OUTPUT_PATH_SPEAKER; #endif stream_cfg.handler = bt_sco_codec_playback_data; #if defined(SPEECH_RX_24BIT) stream_cfg.bits = AUD_BITS_24; stream_cfg.data_size *= 2; #endif #ifdef MIX_AUDIO_PROMPT_WITH_A2DP_MEDIA_ENABLED uint8_t* promptTmpSourcePcmDataBuf; uint8_t* promptTmpTargetPcmDataBuf; uint8_t* promptPcmDataBuf; uint8_t* promptResamplerBuf; sco_sample_rate = stream_cfg.sample_rate; app_audio_mempool_get_buff(&promptTmpSourcePcmDataBuf, AUDIO_PROMPT_SOURCE_PCM_BUFFER_SIZE); app_audio_mempool_get_buff(&promptTmpTargetPcmDataBuf, AUDIO_PROMPT_TARGET_PCM_BUFFER_SIZE); app_audio_mempool_get_buff(&promptPcmDataBuf, AUDIO_PROMPT_PCM_BUFFER_SIZE); app_audio_mempool_get_buff(&promptResamplerBuf, AUDIO_PROMPT_BUF_SIZE_FOR_RESAMPLER); audio_prompt_buffer_config(MIX_WITH_SCO_STREAMING, stream_cfg.channel_num, stream_cfg.bits, promptTmpSourcePcmDataBuf, promptTmpTargetPcmDataBuf, promptPcmDataBuf, AUDIO_PROMPT_PCM_BUFFER_SIZE, promptResamplerBuf, AUDIO_PROMPT_BUF_SIZE_FOR_RESAMPLER); #endif app_audio_mempool_get_buff(&bt_audio_buff, stream_cfg.data_size); stream_cfg.data_ptr = BT_AUDIO_CACHE_2_UNCACHE(bt_audio_buff); TRACE_AUD_STREAM_I("[SCO_PLAYER] playback sample_rate:%d, data_size:%d",stream_cfg.sample_rate,stream_cfg.data_size); #if defined(AUDIO_ANC_FB_MC_SCO) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) sample_size_play_bt=stream_cfg.bits; sample_rate_play_bt=stream_cfg.sample_rate; data_size_play_bt=stream_cfg.data_size; playback_buf_bt=stream_cfg.data_ptr; playback_size_bt=stream_cfg.data_size; #ifdef __BT_ANC__ playback_samplerate_ratio_bt=8; #else if (sample_rate_play_bt == AUD_SAMPRATE_8000) { playback_samplerate_ratio_bt=8*3*2; } else if (sample_rate_play_bt == AUD_SAMPRATE_16000) { playback_samplerate_ratio_bt=8*3; } #endif playback_ch_num_bt=stream_cfg.channel_num; #endif #if defined(SCO_DMA_SNAPSHOT) playback_buf_codecpcm=stream_cfg.data_ptr; playback_size_codecpcm=stream_cfg.data_size; playback_samplerate_codecpcm=stream_cfg.sample_rate; #endif af_stream_open(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK, &stream_cfg); af_stream_dma_tc_irq_enable(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); af_codec_set_playback_post_handler(bt_sco_codec_playback_data_post_handler); #if defined(AUDIO_ANC_FB_MC_SCO) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) stream_cfg.bits = sample_size_play_bt; stream_cfg.channel_num = playback_ch_num_bt; stream_cfg.sample_rate = sample_rate_play_bt; stream_cfg.device = AUD_STREAM_USE_MC; stream_cfg.vol = 0; stream_cfg.handler = audio_mc_data_playback_sco; stream_cfg.io_path = AUD_OUTPUT_PATH_SPEAKER; app_audio_mempool_get_buff(&bt_audio_buff, data_size_play_bt*playback_samplerate_ratio_bt); stream_cfg.data_ptr = BT_AUDIO_CACHE_2_UNCACHE(bt_audio_buff); stream_cfg.data_size = data_size_play_bt*playback_samplerate_ratio_bt; playback_buf_mc=stream_cfg.data_ptr; playback_size_mc=stream_cfg.data_size; anc_mc_run_init(hal_codec_anc_convert_rate(sample_rate_play_bt)); memset(delay_buf_bt,0,sizeof(delay_buf_bt)); af_stream_open(AUD_STREAM_ID_2, AUD_STREAM_PLAYBACK, &stream_cfg); #endif #if defined(BONE_SENSOR_TDM) tdm_stream_open(); #if defined(AF_ADC_I2S_SYNC) af_codec_bt_trigger_config(true, bt_sco_bt_trigger_callback); #endif #endif #if defined(ANC_NOISE_TRACKER) app_audio_mempool_get_buff( (uint8_t **)&anc_buf, speech_get_frame_size( speech_codec_get_sample_rate(), ANC_NOISE_TRACKER_CHANNEL_NUM, SPEECH_SCO_FRAME_MS) * sizeof(int16_t)); noise_tracker_init(nt_demo_words_cb, ANC_NOISE_TRACKER_CHANNEL_NUM, -20); #endif // Must call this function before af_stream_start // Get all free app audio buffer except SCO_BTPCM used(2k) voicebtpcm_pcm_audio_init(speech_sco_get_sample_rate(), speech_codec_get_sample_rate()); /* TRACE_AUD_STREAM_I("[SCO_PLAYER] start codec %d", FAST_TICKS_TO_US(hal_fast_sys_timer_get())); #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) af_stream_start(AUD_STREAM_ID_2, AUD_STREAM_PLAYBACK); #endif af_stream_start(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); af_stream_start(AUD_STREAM_ID_0, AUD_STREAM_CAPTURE); */ #ifdef SPEECH_SIDETONE hal_codec_sidetone_enable(); #endif #ifdef _SCO_BTPCM_CHANNEL_ stream_cfg.bits = AUD_BITS_16; stream_cfg.sample_rate = speech_sco_get_sample_rate(); stream_cfg.channel_num = AUD_CHANNEL_NUM_1; // stream_cfg.data_size = BT_AUDIO_SCO_BUFF_SIZE * stream_cfg.channel_num; if (bt_sco_codec_is_msbc()) { stream_cfg.data_size = speech_get_af_buffer_size(stream_cfg.sample_rate, stream_cfg.channel_num, SPEECH_SCO_FRAME_MS)/2; } else { stream_cfg.data_size = speech_get_af_buffer_size(stream_cfg.sample_rate, stream_cfg.channel_num, SPEECH_SCO_FRAME_MS); } // btpcm:rx stream_cfg.device = AUD_STREAM_USE_BT_PCM; stream_cfg.handler = bt_sco_btpcm_capture_data; app_audio_mempool_get_buff(&bt_audio_buff, stream_cfg.data_size); stream_cfg.data_ptr = BT_AUDIO_CACHE_2_UNCACHE(bt_audio_buff); TRACE_AUD_STREAM_I("[SCO_PLAYER] sco btpcm sample_rate:%d, data_size:%d",stream_cfg.sample_rate,stream_cfg.data_size); #if defined(SCO_DMA_SNAPSHOT) sco_btpcm_mute_flag=0; sco_disconnect_mute_flag=0; capture_buf_btpcm=stream_cfg.data_ptr; capture_size_btpcm=stream_cfg.data_size; #ifdef TX_RX_PCM_MASK capture_size_btpcm_copy=stream_cfg.data_size/4;//only need ping or pang; app_audio_mempool_get_buff(&capture_buf_btpcm_copy, capture_size_btpcm_copy); #endif #endif af_stream_open(AUD_STREAM_ID_1, AUD_STREAM_CAPTURE, &stream_cfg); // btpcm:tx stream_cfg.device = AUD_STREAM_USE_BT_PCM; stream_cfg.handler = bt_sco_btpcm_playback_data; app_audio_mempool_get_buff(&bt_audio_buff, stream_cfg.data_size); stream_cfg.data_ptr = BT_AUDIO_CACHE_2_UNCACHE(bt_audio_buff); #if defined(SCO_DMA_SNAPSHOT) playback_buf_btpcm=stream_cfg.data_ptr; playback_size_btpcm=stream_cfg.data_size; #ifdef TX_RX_PCM_MASK playback_size_btpcm_copy=stream_cfg.data_size/4; //only need ping or pang; app_audio_mempool_get_buff(&playback_buf_btpcm_copy, playback_size_btpcm_copy); #endif //only need ping or pang; app_audio_mempool_get_buff(&playback_buf_btpcm_cache, stream_cfg.data_size/2); #endif af_stream_open(AUD_STREAM_ID_1, AUD_STREAM_PLAYBACK, &stream_cfg); #if !(defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE)) af_codec_tune(AUD_STREAM_NUM, 0); #endif TRACE_AUD_STREAM_I("[SCO_PLAYER] start btpcm %d", FAST_TICKS_TO_US(hal_fast_sys_timer_get())); af_stream_start(AUD_STREAM_ID_1, AUD_STREAM_PLAYBACK); af_stream_start(AUD_STREAM_ID_1, AUD_STREAM_CAPTURE); #if defined(SCO_DMA_SNAPSHOT) af_stream_dma_tc_irq_enable(AUD_STREAM_ID_1, AUD_STREAM_CAPTURE); #ifdef PLAYBACK_USE_I2S af_i2s_sync_config(AUD_STREAM_PLAYBACK, AF_I2S_SYNC_TYPE_BT, true); #else af_codec_sync_config(AUD_STREAM_PLAYBACK, AF_CODEC_SYNC_TYPE_BT, true); #endif af_codec_sync_config(AUD_STREAM_CAPTURE, AF_CODEC_SYNC_TYPE_BT, true); btdrv_disable_playback_triggler(); app_bt_stream_sco_trigger_btpcm_start(); af_stream_start(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); af_stream_start(AUD_STREAM_ID_0, AUD_STREAM_CAPTURE); #endif is_codec_stream_started = false; #if defined(CHIP_BEST2300) || defined(CHIP_BEST2300P) || defined(CHIP_BEST2300A) || defined(CHIP_BEST1400) || defined(CHIP_BEST1402) || defined(CHIP_BEST2001) #if defined(CVSD_BYPASS) btdrv_cvsd_bypass_enable(bt_sco_codec_is_msbc()); #endif #if !defined(SCO_DMA_SNAPSHOT) btdrv_pcm_enable(); #endif #endif #endif #ifdef FPGA app_bt_stream_volumeset(stream_local_volume); //btdrv_set_bt_pcm_en(1); #endif app_bt_stream_trigger_checker_start(); TRACE_AUD_STREAM_I("[SCO_PLAYER] on"); } else { #ifdef MIX_AUDIO_PROMPT_WITH_A2DP_MEDIA_ENABLED bool isToClearActiveMedia= audio_prompt_clear_pending_stream(PENDING_TO_STOP_SCO_STREAMING); if (isToClearActiveMedia) { bt_media_clear_media_type(BT_STREAM_VOICE, BT_DEVICE_ID_1); } #endif app_bt_stream_trigger_checker_stop(); #if defined(SCO_DMA_SNAPSHOT) #ifdef TX_RX_PCM_MASK playback_buf_btpcm_copy=NULL; capture_buf_btpcm_copy=NULL; playback_size_btpcm_copy=0; capture_size_btpcm_copy=0; #endif #endif #ifdef __THIRDPARTY app_thirdparty_specific_lib_event_handle(THIRDPARTY_FUNC_NO2,THIRDPARTY_MIC_CLOSE); #endif #if defined(SCO_DMA_SNAPSHOT) app_bt_stream_sco_trigger_codecpcm_stop(); #endif af_stream_dma_tc_irq_disable(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); af_codec_set_playback_post_handler(NULL); af_stream_stop(AUD_STREAM_ID_0, AUD_STREAM_CAPTURE); af_stream_stop(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); #if defined(AUDIO_ANC_FB_MC_SCO) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) af_stream_stop(AUD_STREAM_ID_2, AUD_STREAM_PLAYBACK); #endif is_codec_stream_started = false; #if defined(BONE_SENSOR_TDM) tdm_stream_stop(); #endif #if !(defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE)) af_codec_tune(AUD_STREAM_NUM, 0); #endif #ifdef _SCO_BTPCM_CHANNEL_ af_stream_stop(AUD_STREAM_ID_1, AUD_STREAM_CAPTURE); af_stream_stop(AUD_STREAM_ID_1, AUD_STREAM_PLAYBACK); af_stream_close(AUD_STREAM_ID_1, AUD_STREAM_CAPTURE); af_stream_close(AUD_STREAM_ID_1, AUD_STREAM_PLAYBACK); #endif #ifdef TX_RX_PCM_MASK if (btdrv_is_pcm_mask_enable()==1 && bt_drv_reg_op_pcm_get()) { bt_drv_reg_op_pcm_set(0); TRACE_AUD_STREAM_I("[SCO_PLAYER] PCM UNMASK"); } #endif #if defined(PCM_FAST_MODE) btdrv_open_pcm_fast_mode_disable(); #endif #if defined(HW_DC_FILTER_WITH_IIR) hw_filter_codec_iir_destroy(hw_filter_codec_iir_st); #endif af_stream_close(AUD_STREAM_ID_0, AUD_STREAM_CAPTURE); af_stream_close(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); #if defined(AUDIO_ANC_FB_MC_SCO) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) af_stream_close(AUD_STREAM_ID_2, AUD_STREAM_PLAYBACK); #endif #if defined(BONE_SENSOR_TDM) tdm_stream_close(); #endif #ifdef SPEECH_SIDETONE hal_codec_sidetone_disable(); #endif #if defined(__AUDIO_RESAMPLE__) && defined(SW_SCO_RESAMPLE) app_capture_resample_close(sco_capture_resample); sco_capture_resample = NULL; app_capture_resample_close(sco_playback_resample); sco_playback_resample = NULL; #endif #if defined(__AUDIO_RESAMPLE__) && defined(NO_SCO_RESAMPLE) #ifndef CHIP_BEST1000 // When __AUDIO_RESAMPLE__ is defined, // resample is off by default on best1000, and on by default on other platforms hal_cmu_audio_resample_enable(); #endif #endif #ifdef PLAYBACK_USE_I2S hal_cmu_audio_resample_enable(); #endif bt_sco_mode = 0; #ifdef __BT_ANC__ bt_anc_sco_dec_buf = NULL; //damic_deinit(); //app_cap_thread_stop(); #endif voicebtpcm_pcm_audio_deinit(); #if defined(BONE_SENSOR_TDM) lis25ba_deinit(); #endif #ifndef FPGA #ifdef BT_XTAL_SYNC bt_term_xtal_sync(false); #ifndef BT_XTAL_SYNC_NO_RESET bt_term_xtal_sync_default(); #endif #endif #endif #if defined(HFP_1_6_ENABLE) TRACE(1,"clear sco tx fifo codec:%d",bt_sco_player_code_type); bt_drv_reg_op_sco_txfifo_reset(bt_sco_player_code_type); bt_sco_player_code_type = BTIF_HF_SCO_CODEC_NONE; #else bt_drv_reg_op_sco_txfifo_reset(1); #endif #if defined(ANC_WNR_ENABLED) if (app_anc_work_status()) { anc_wnr_close(); anc_release_gain(); anc_wnr_open(ANC_WNR_OPEN_MODE_STANDALONE); } #endif #ifdef __IAG_BLE_INCLUDE__ app_ble_force_switch_adv(BLE_SWITCH_USER_SCO, true); #endif TRACE_AUD_STREAM_I("[SCO_PLAYER] off"); app_overlay_unloadall(); app_sysfreq_req(APP_SYSFREQ_USER_BT_SCO, APP_SYSFREQ_32K); af_set_priority(AF_USER_SCO, osPriorityAboveNormal); //bt_syncerr set to default(0x07) // BTDIGITAL_REG_SET_FIELD(REG_BTCORE_BASE_ADDR, 0x0f, 0, 0x07); #ifdef __THIRDPARTY //app_thirdparty_specific_lib_event_handle(THIRDPARTY_FUNC_NO1,THIRDPARTY_START); app_thirdparty_specific_lib_event_handle(THIRDPARTY_FUNC_NO3,THIRDPARTY_START); app_thirdparty_specific_lib_event_handle(THIRDPARTY_FUNC_KWS,THIRDPARTY_CALL_STOP); #endif #if defined(IBRT) app_ibrt_if_exec_sleep_hook_blocker_clr(APP_IBRT_IF_SLEEP_HOOK_BLOCKER_HFP_SCO); app_ibrt_ui_rssi_reset(); #endif #ifdef WL_DET app_mic_alg_audioloop(true,APP_SYSFREQ_78M); #endif } isRun=on; return 0; } #ifdef AUDIO_LINEIN #include "app_status_ind.h" //player channel should <= capture channel number //player must be 2 channel #define LINEIN_PLAYER_CHANNEL (2) #ifdef __AUDIO_OUTPUT_MONO_MODE__ #define LINEIN_CAPTURE_CHANNEL (1) #else #define LINEIN_CAPTURE_CHANNEL (2) #endif #if (LINEIN_CAPTURE_CHANNEL == 1) #define LINEIN_PLAYER_BUFFER_SIZE (1024*LINEIN_PLAYER_CHANNEL) #define LINEIN_CAPTURE_BUFFER_SIZE (LINEIN_PLAYER_BUFFER_SIZE/2) #elif (LINEIN_CAPTURE_CHANNEL == 2) #define LINEIN_PLAYER_BUFFER_SIZE (1024*LINEIN_PLAYER_CHANNEL) #define LINEIN_CAPTURE_BUFFER_SIZE (LINEIN_PLAYER_BUFFER_SIZE) #endif int8_t app_linein_buffer_is_empty(void) { if (app_audio_pcmbuff_length()){ return 0; }else{ return 1; } } uint32_t app_linein_pcm_come(uint8_t * pcm_buf, uint32_t len) { app_audio_pcmbuff_put(pcm_buf, len); return len; } uint32_t app_linein_need_pcm_data(uint8_t* pcm_buf, uint32_t len) { #if (LINEIN_CAPTURE_CHANNEL == 1) app_audio_pcmbuff_get((uint8_t *)app_linein_play_cache, len/2); app_play_audio_lineinmode_more_data((uint8_t *)app_linein_play_cache,len/2); app_bt_stream_copy_track_one_to_two_16bits((int16_t *)pcm_buf, app_linein_play_cache, len/2/2); #elif (LINEIN_CAPTURE_CHANNEL == 2) app_audio_pcmbuff_get((uint8_t *)pcm_buf, len); app_play_audio_lineinmode_more_data((uint8_t *)pcm_buf, len); #endif #if defined(__AUDIO_OUTPUT_MONO_MODE__) merge_stereo_to_mono_16bits((int16_t *)buf, (int16_t *)pcm_buf, len/2); #endif #ifdef ANC_APP bt_audio_updata_eq_for_anc(app_anc_work_status()); #else bt_audio_updata_eq(app_audio_get_eq()); #endif audio_process_run(pcm_buf, len); return len; } int app_play_linein_onoff(bool onoff) { static bool isRun = false; uint8_t *linein_audio_cap_buff = 0; uint8_t *linein_audio_play_buff = 0; uint8_t *linein_audio_loop_buf = NULL; struct AF_STREAM_CONFIG_T stream_cfg; uint8_t POSSIBLY_UNUSED *bt_eq_buff = NULL; uint32_t POSSIBLY_UNUSED eq_buff_size; uint8_t POSSIBLY_UNUSED play_samp_size; TRACE_AUD_STREAM_I("[LINEIN_PLAYER] work:%d op:%d", isRun, onoff); if (isRun == onoff) return 0; if (onoff){ app_sysfreq_req(APP_SYSFREQ_USER_APP_0, APP_SYSFREQ_104M); app_overlay_select(APP_OVERLAY_A2DP); app_audio_mempool_init(); app_audio_mempool_get_buff(&linein_audio_cap_buff, LINEIN_CAPTURE_BUFFER_SIZE); app_audio_mempool_get_buff(&linein_audio_play_buff, LINEIN_PLAYER_BUFFER_SIZE); app_audio_mempool_get_buff(&linein_audio_loop_buf, LINEIN_PLAYER_BUFFER_SIZE<<2); app_audio_pcmbuff_init(linein_audio_loop_buf, LINEIN_PLAYER_BUFFER_SIZE<<2); #if (LINEIN_CAPTURE_CHANNEL == 1) app_audio_mempool_get_buff((uint8_t **)&app_linein_play_cache, LINEIN_PLAYER_BUFFER_SIZE/2/2); app_play_audio_lineinmode_init(LINEIN_CAPTURE_CHANNEL, LINEIN_PLAYER_BUFFER_SIZE/2/2); #elif (LINEIN_CAPTURE_CHANNEL == 2) app_play_audio_lineinmode_init(LINEIN_CAPTURE_CHANNEL, LINEIN_PLAYER_BUFFER_SIZE/2); #endif memset(&stream_cfg, 0, sizeof(stream_cfg)); stream_cfg.bits = AUD_BITS_16; stream_cfg.channel_num = (enum AUD_CHANNEL_NUM_T)LINEIN_PLAYER_CHANNEL; #if defined(__AUDIO_RESAMPLE__) stream_cfg.sample_rate = AUD_SAMPRATE_50781; #else stream_cfg.sample_rate = AUD_SAMPRATE_44100; #endif #if FPGA==0 stream_cfg.device = AUD_STREAM_USE_INT_CODEC; #else stream_cfg.device = AUD_STREAM_USE_EXT_CODEC; #endif stream_cfg.vol = stream_linein_volume; TRACE_AUD_STREAM_I("[LINEIN_PLAYER] vol = %d",stream_linein_volume); stream_cfg.io_path = AUD_OUTPUT_PATH_SPEAKER; stream_cfg.handler = app_linein_need_pcm_data; stream_cfg.data_ptr = BT_AUDIO_CACHE_2_UNCACHE(linein_audio_play_buff); stream_cfg.data_size = LINEIN_PLAYER_BUFFER_SIZE; #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) sample_size_play_bt=stream_cfg.bits; sample_rate_play_bt=stream_cfg.sample_rate; data_size_play_bt=stream_cfg.data_size; playback_buf_bt=stream_cfg.data_ptr; playback_size_bt=stream_cfg.data_size; if(sample_rate_play_bt==AUD_SAMPRATE_96000) { playback_samplerate_ratio_bt=4; } else { playback_samplerate_ratio_bt=8; } playback_ch_num_bt=stream_cfg.channel_num; mid_p_8_old_l=0; mid_p_8_old_r=0; #endif af_stream_open(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK, &stream_cfg); #if defined(__HW_FIR_EQ_PROCESS__) && defined(__HW_IIR_EQ_PROCESS__) eq_buff_size = stream_cfg.data_size*2; #elif defined(__HW_FIR_EQ_PROCESS__) && !defined(__HW_IIR_EQ_PROCESS__) play_samp_size = (stream_cfg.bits <= AUD_BITS_16) ? 2 : 4; #if defined(CHIP_BEST2000) eq_buff_size = stream_cfg.data_size * sizeof(int32_t) / play_samp_size; #elif defined(CHIP_BEST1000) eq_buff_size = stream_cfg.data_size * sizeof(int16_t) / play_samp_size; #elif defined(CHIP_BEST2300) || defined(CHIP_BEST2300P) || defined(CHIP_BEST2300A) eq_buff_size = stream_cfg.data_size; #endif #elif !defined(__HW_FIR_EQ_PROCESS__) && defined(__HW_IIR_EQ_PROCESS__) eq_buff_size = stream_cfg.data_size; #else eq_buff_size = 0; bt_eq_buff = NULL; #endif if(eq_buff_size>0) { app_audio_mempool_get_buff(&bt_eq_buff, eq_buff_size); } #if defined(IBRT) enum AUD_CHANNEL_NUM_T sw_ch_num = AUD_CHANNEL_NUM_1; #else enum AUD_CHANNEL_NUM_T sw_ch_num = stream_cfg.channel_num; #endif audio_process_open(stream_cfg.sample_rate, stream_cfg.bits, sw_ch_num, stream_cfg.channel_num, stream_cfg.data_size/stream_cfg.channel_num/(stream_cfg.bits <= AUD_BITS_16 ? 2 : 4)/2, bt_eq_buff, eq_buff_size); #ifdef __SW_IIR_EQ_PROCESS__ bt_audio_set_eq(AUDIO_EQ_TYPE_SW_IIR,bt_audio_get_eq_index(AUDIO_EQ_TYPE_SW_IIR,0)); #endif #ifdef __HW_FIR_EQ_PROCESS__ bt_audio_set_eq(AUDIO_EQ_TYPE_HW_FIR,bt_audio_get_eq_index(AUDIO_EQ_TYPE_HW_FIR,0)); #endif #ifdef __HW_DAC_IIR_EQ_PROCESS__ bt_audio_set_eq(AUDIO_EQ_TYPE_HW_DAC_IIR,bt_audio_get_eq_index(AUDIO_EQ_TYPE_HW_DAC_IIR,0)); #endif #ifdef __HW_IIR_EQ_PROCESS__ bt_audio_set_eq(AUDIO_EQ_TYPE_HW_IIR,bt_audio_get_eq_index(AUDIO_EQ_TYPE_HW_IIR,0)); #endif #ifdef ANC_APP anc_status_record = 0xff; #endif #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) uint8_t *bt_audio_buff = NULL; stream_cfg.bits = sample_size_play_bt; stream_cfg.channel_num = playback_ch_num_bt; stream_cfg.sample_rate = sample_rate_play_bt; stream_cfg.device = AUD_STREAM_USE_MC; stream_cfg.vol = 0; stream_cfg.handler = audio_mc_data_playback_a2dp; stream_cfg.io_path = AUD_OUTPUT_PATH_SPEAKER; app_audio_mempool_get_buff(&bt_audio_buff, data_size_play_bt*playback_samplerate_ratio_bt); stream_cfg.data_ptr = BT_AUDIO_CACHE_2_UNCACHE(bt_audio_buff); stream_cfg.data_size = data_size_play_bt*playback_samplerate_ratio_bt; playback_buf_mc=stream_cfg.data_ptr; playback_size_mc=stream_cfg.data_size; anc_mc_run_init(hal_codec_anc_convert_rate(sample_rate_play_bt)); memset(delay_buf_bt,0,sizeof(delay_buf_bt)); af_stream_open(AUD_STREAM_ID_2, AUD_STREAM_PLAYBACK, &stream_cfg); //ASSERT(ret == 0, "af_stream_open playback failed: %d", ret); #endif af_stream_start(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); #if defined(AUDIO_ANC_FB_MC) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) af_stream_start(AUD_STREAM_ID_2, AUD_STREAM_PLAYBACK); #endif memset(&stream_cfg, 0, sizeof(stream_cfg)); stream_cfg.bits = AUD_BITS_16; #if defined(__AUDIO_RESAMPLE__) stream_cfg.sample_rate = AUD_SAMPRATE_50781; #else stream_cfg.sample_rate = AUD_SAMPRATE_44100; #endif #if FPGA==0 stream_cfg.device = AUD_STREAM_USE_INT_CODEC; #else stream_cfg.device = AUD_STREAM_USE_EXT_CODEC; #endif stream_cfg.io_path = AUD_INPUT_PATH_LINEIN; stream_cfg.channel_num = (enum AUD_CHANNEL_NUM_T)LINEIN_CAPTURE_CHANNEL; stream_cfg.channel_map = (enum AUD_CHANNEL_MAP_T)hal_codec_get_input_path_cfg(stream_cfg.io_path); stream_cfg.handler = app_linein_pcm_come; stream_cfg.data_ptr = BT_AUDIO_CACHE_2_UNCACHE(linein_audio_cap_buff); stream_cfg.data_size = LINEIN_CAPTURE_BUFFER_SIZE; af_stream_open(AUD_STREAM_ID_0, AUD_STREAM_CAPTURE, &stream_cfg); af_stream_start(AUD_STREAM_ID_0, AUD_STREAM_CAPTURE); }else { af_stream_stop(AUD_STREAM_ID_0, AUD_STREAM_CAPTURE); af_stream_stop(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); audio_process_close(); af_stream_close(AUD_STREAM_ID_0, AUD_STREAM_CAPTURE); af_stream_close(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK); app_overlay_unloadall(); app_sysfreq_req(APP_SYSFREQ_USER_APP_0, APP_SYSFREQ_32K); } isRun = onoff; TRACE_AUD_STREAM_I("[LINEIN_PLAYER] end!\n"); return 0; } #endif int app_bt_stream_open(APP_AUDIO_STATUS* status) { int nRet = -1; uint16_t player = status->id; APP_AUDIO_STATUS next_status; enum APP_SYSFREQ_FREQ_T freq = (enum APP_SYSFREQ_FREQ_T)status->freq; TRACE_AUD_STREAM_I("[STRM_PLAYER][OPEN] prev:0x%x%s freq:%d", gStreamplayer, player2str(gStreamplayer), freq); TRACE_AUD_STREAM_I("[STRM_PLAYER][OPEN] cur:0x%x%s freq:%d", player, player2str(player), freq); APP_AUDIO_STATUS streamToClose; if (gStreamplayer != APP_BT_STREAM_INVALID) { #if !ISOLATED_AUDIO_STREAM_ENABLED TRACE_AUD_STREAM_I("[STRM_PLAYER][OPEN] close 0x%x%s prev opening", gStreamplayer, player2str(gStreamplayer)); nRet = app_bt_stream_close(gStreamplayer); if (nRet) { return -1; } else { streamToClose.id = gStreamplayer; app_audio_list_rmv_callback(&streamToClose, &next_status, APP_BT_SETTING_Q_POS_TAIL, false); } #else if (gStreamplayer & player) { TRACE_AUD_STREAM_I("[STRM_PLAYER][OPEN] 0x%x%s has opened", player, player2str(player)); return -1; } if (player >= APP_BT_STREAM_BORDER_INDEX) { if (APP_BT_INPUT_STREAM_INDEX(gStreamplayer) > 0) { TRACE_AUD_STREAM_I("[STRM_PLAYER][OPEN] close 0x%x%s prev opening", gStreamplayer, player2str(gStreamplayer)); } } else { if (APP_BT_OUTPUT_STREAM_INDEX(gStreamplayer) > 0) { TRACE_AUD_STREAM_I("[STRM_PLAYER][OPEN] close 0x%x%s prev opening", gStreamplayer, player2str(gStreamplayer)); uint16_t player2close = APP_BT_OUTPUT_STREAM_INDEX(gStreamplayer); nRet = app_bt_stream_close(player2close); if (nRet) { return -1; } else { streamToClose.id = player2close; app_audio_list_rmv_callback(&streamToClose, &next_status, APP_BT_SETTING_Q_POS_TAIL, false); } } } #endif } switch (player) { case APP_BT_STREAM_HFP_PCM: case APP_BT_STREAM_HFP_CVSD: case APP_BT_STREAM_HFP_VENDOR: nRet = bt_sco_player(true, freq); break; case APP_BT_STREAM_A2DP_SBC: case APP_BT_STREAM_A2DP_AAC: case APP_BT_STREAM_A2DP_VENDOR: nRet = bt_sbc_player(PLAYER_OPER_START, freq); break; #ifdef __FACTORY_MODE_SUPPORT__ case APP_FACTORYMODE_AUDIO_LOOP: nRet = app_factorymode_audioloop(true, freq); break; #endif #ifdef MEDIA_PLAYER_SUPPORT case APP_PLAY_BACK_AUDIO: nRet = app_play_audio_onoff(true, status); break; #endif #ifdef RB_CODEC case APP_BT_STREAM_RBCODEC: nRet = app_rbplay_audio_onoff(true, 0); break; #endif #ifdef AUDIO_LINEIN case APP_PLAY_LINEIN_AUDIO: nRet = app_play_linein_onoff(true); break; #endif #if defined(APP_LINEIN_A2DP_SOURCE) case APP_A2DP_SOURCE_LINEIN_AUDIO: nRet = app_a2dp_source_linein_on(true); break; #endif #if defined(APP_I2S_A2DP_SOURCE) case APP_A2DP_SOURCE_I2S_AUDIO: nRet = app_a2dp_source_I2S_onoff(true); break; #endif #ifdef VOICE_DATAPATH case APP_BT_STREAM_VOICEPATH: nRet = app_voicepath_start_audio_stream(); break; #endif #ifdef __AI_VOICE__ case APP_BT_STREAM_AI_VOICE: nRet = app_ai_voice_start_mic_stream(); break; #endif #ifdef __THIRDPARTY case APP_BT_STREAM_THIRDPARTY_VOICE: nRet = app_thirdparty_specific_lib_event_handle(THIRDPARTY_FUNC_KWS, THIRDPARTY_MIC_OPEN); break; #endif default: nRet = -1; break; } if (!nRet) { gStreamplayer |= player; TRACE_AUD_STREAM_I("[STRM_PLAYER][OPEN] updated to 0x%x%s", gStreamplayer, player2str(gStreamplayer)); } return nRet; } int app_bt_stream_close(uint16_t player) { int nRet = -1; TRACE_AUD_STREAM_I("[STRM_PLAYER][CLOSE] gStreamplayer: 0x%x%s", gStreamplayer, player2str(gStreamplayer)); TRACE_AUD_STREAM_I("[STRM_PLAYER][CLOSE] player:0x%x%s", gStreamplayer, player2str(gStreamplayer)); if ((gStreamplayer & player) != player) { return -1; } switch (player) { case APP_BT_STREAM_HFP_PCM: case APP_BT_STREAM_HFP_CVSD: case APP_BT_STREAM_HFP_VENDOR: nRet = bt_sco_player(false, APP_SYSFREQ_32K); break; case APP_BT_STREAM_A2DP_SBC: case APP_BT_STREAM_A2DP_AAC: case APP_BT_STREAM_A2DP_VENDOR: nRet = bt_sbc_player(PLAYER_OPER_STOP, APP_SYSFREQ_32K); break; #ifdef __FACTORY_MODE_SUPPORT__ case APP_FACTORYMODE_AUDIO_LOOP: nRet = app_factorymode_audioloop(false, APP_SYSFREQ_32K); break; #endif #ifdef MEDIA_PLAYER_SUPPORT case APP_PLAY_BACK_AUDIO: nRet = app_play_audio_onoff(false, NULL); break; #endif #ifdef RB_CODEC case APP_BT_STREAM_RBCODEC: nRet = app_rbplay_audio_onoff(false, 0); break; #endif #ifdef AUDIO_LINEIN case APP_PLAY_LINEIN_AUDIO: nRet = app_play_linein_onoff(false); break; #endif #if defined(APP_LINEIN_A2DP_SOURCE) case APP_A2DP_SOURCE_LINEIN_AUDIO: nRet = app_a2dp_source_linein_on(false); break; #endif #if defined(APP_I2S_A2DP_SOURCE) case APP_A2DP_SOURCE_I2S_AUDIO: nRet = app_a2dp_source_I2S_onoff(false); break; #endif #ifdef VOICE_DATAPATH case APP_BT_STREAM_VOICEPATH: nRet = app_voicepath_stop_audio_stream(); break; #endif #ifdef __AI_VOICE__ case APP_BT_STREAM_AI_VOICE: nRet = app_ai_voice_stop_mic_stream(); break; #endif #ifdef __THIRDPARTY case APP_BT_STREAM_THIRDPARTY_VOICE: nRet = app_thirdparty_specific_lib_event_handle(THIRDPARTY_FUNC_KWS, THIRDPARTY_MIC_CLOSE); break; #endif default: nRet = -1; break; } if (!nRet) { gStreamplayer &= (~player); TRACE_AUD_STREAM_I("[STRM_PLAYER][CLOSE] updated to 0x%x%s", gStreamplayer, player2str(gStreamplayer)); } return nRet; } int app_bt_stream_setup(uint16_t player, uint8_t status) { int nRet = -1; TRACE_AUD_STREAM_I("[STRM_PLAYER][SETUP] prev:%d%s sample:%d", gStreamplayer, player2str(gStreamplayer), status); TRACE_AUD_STREAM_I("[STRM_PLAYER][SETUP] cur:%d%s sample:%d", player, player2str(player), status); switch (player) { case APP_BT_STREAM_HFP_PCM: case APP_BT_STREAM_HFP_CVSD: case APP_BT_STREAM_HFP_VENDOR: break; case APP_BT_STREAM_A2DP_SBC: case APP_BT_STREAM_A2DP_AAC: case APP_BT_STREAM_A2DP_VENDOR: bt_sbc_player_setup(status); break; default: nRet = -1; break; } return nRet; } int app_bt_stream_restart(APP_AUDIO_STATUS* status) { int nRet = -1; uint16_t player = status->id; enum APP_SYSFREQ_FREQ_T freq = (enum APP_SYSFREQ_FREQ_T)status->freq; TRACE_AUD_STREAM_I("[STRM_PLAYER][RESTART] prev:%d%s freq:%d", gStreamplayer, player2str(gStreamplayer), freq); TRACE_AUD_STREAM_I("[STRM_PLAYER][RESTART] cur:%d%s freq:%d", player, player2str(player), freq); if ((gStreamplayer & player) != player) { return -1; } switch (player) { case APP_BT_STREAM_HFP_PCM: case APP_BT_STREAM_HFP_CVSD: case APP_BT_STREAM_HFP_VENDOR: nRet = bt_sco_player(false, freq); nRet = bt_sco_player(true, freq); break; case APP_BT_STREAM_A2DP_SBC: case APP_BT_STREAM_A2DP_AAC: case APP_BT_STREAM_A2DP_VENDOR: #if defined(IBRT) ibrt_a2dp_status_t a2dp_status; a2dp_ibrt_sync_get_status(&a2dp_status); TRACE_AUD_STREAM_I("[STRM_PLAYER][RESTART] state:%d", a2dp_status.state); if (a2dp_status.state == BTIF_AVDTP_STRM_STATE_STREAMING){ if (app_audio_manager_a2dp_is_active(BT_DEVICE_ID_1)){ TRACE_AUD_STREAM_I("[STRM_PLAYER][RESTART] resume"); nRet = bt_sbc_player(PLAYER_OPER_STOP, freq); nRet = bt_sbc_player(PLAYER_OPER_START, freq); }else{ if (app_ibrt_ui_is_profile_exchanged()){ TRACE_AUD_STREAM_I("[STRM_PLAYER][RESTART] force_audio_retrigger"); app_audio_manager_sendrequest(APP_BT_STREAM_MANAGER_START,BT_STREAM_SBC, BT_DEVICE_ID_1,MAX_RECORD_NUM); app_ibrt_if_force_audio_retrigger(); } } } #elif defined(__BT_ONE_BRING_TWO__) if (btif_me_get_activeCons()>1) { enum APP_SYSFREQ_FREQ_T sysfreq; #ifdef A2DP_CP_ACCEL sysfreq = APP_SYSFREQ_26M; #else sysfreq = APP_SYSFREQ_104M; #endif app_sysfreq_req(APP_SYSFREQ_USER_BT_A2DP, sysfreq); bt_media_volume_ptr_update_by_mediatype(BT_STREAM_SBC); app_bt_stream_volumeset(btdevice_volume_p->a2dp_vol); } #endif break; #ifdef __FACTORY_MODE_SUPPORT__ case APP_FACTORYMODE_AUDIO_LOOP: break; #endif #ifdef MEDIA_PLAYER_SUPPORT case APP_PLAY_BACK_AUDIO: break; #endif default: nRet = -1; break; } return nRet; } void app_bt_stream_volumeup(void) { #if defined AUDIO_LINEIN if(app_bt_stream_isrun(APP_PLAY_LINEIN_AUDIO)) { stream_linein_volume ++; if (stream_linein_volume > TGT_VOLUME_LEVEL_15) stream_linein_volume = TGT_VOLUME_LEVEL_15; app_bt_stream_volumeset(stream_linein_volume); TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL][UP] set linein volume %d\n", stream_linein_volume); }else #endif { if (app_bt_stream_isrun(APP_BT_STREAM_HFP_PCM)) { TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL][UP] hfp volume"); int8_t updatedVol = btdevice_volume_p->hfp_vol; updatedVol++; if (updatedVol > TGT_VOLUME_LEVEL_15) { updatedVol = TGT_VOLUME_LEVEL_15; } uint32_t lock = nv_record_pre_write_operation(); btdevice_volume_p->hfp_vol = updatedVol; nv_record_post_write_operation(lock); current_btdevice_volume.hfp_vol=updatedVol; if (updatedVol < TGT_VOLUME_LEVEL_15) { app_bt_stream_volumeset(updatedVol); } if (btdevice_volume_p->hfp_vol == TGT_VOLUME_LEVEL_15) { #ifdef MEDIA_PLAYER_SUPPORT media_PlayAudio(AUD_ID_BT_WARNING,0); #endif } } else if ((app_bt_stream_isrun(APP_BT_STREAM_A2DP_SBC)) || (app_bt_stream_isrun(APP_BT_STREAM_INVALID))) { TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL][UP] a2dp volume"); int8_t updatedVol = btdevice_volume_p->a2dp_vol; updatedVol++; if (updatedVol > TGT_VOLUME_LEVEL_15) { updatedVol = TGT_VOLUME_LEVEL_15; } uint32_t lock = nv_record_pre_write_operation(); btdevice_volume_p->a2dp_vol = updatedVol; nv_record_post_write_operation(lock); current_btdevice_volume.a2dp_vol=updatedVol; if (updatedVol < TGT_VOLUME_LEVEL_15) { app_bt_stream_volumeset(updatedVol); } if (btdevice_volume_p->a2dp_vol == TGT_VOLUME_LEVEL_15) { #ifdef MEDIA_PLAYER_SUPPORT media_PlayAudio(AUD_ID_BT_WARNING,0); #endif } } TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL][UP] a2dp: %d", btdevice_volume_p->a2dp_vol); TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL][UP] hfp: %d", btdevice_volume_p->hfp_vol); } #ifndef FPGA nv_record_touch_cause_flush(); #endif } void app_bt_set_volume(uint16_t type,uint8_t level) { if ((type&APP_BT_STREAM_HFP_PCM) && app_bt_stream_isrun(APP_BT_STREAM_HFP_PCM)) { TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL] set hfp volume"); if (level >= TGT_VOLUME_LEVEL_MUTE && level <= TGT_VOLUME_LEVEL_15) { uint32_t lock = nv_record_pre_write_operation(); btdevice_volume_p->hfp_vol = level; nv_record_post_write_operation(lock); app_bt_stream_volumeset(btdevice_volume_p->hfp_vol); } if (btdevice_volume_p->hfp_vol == TGT_VOLUME_LEVEL_0) { #ifdef MEDIA_PLAYER_SUPPORT media_PlayAudio(AUD_ID_BT_WARNING,0); #endif } } if ((type&APP_BT_STREAM_A2DP_SBC) && ((app_bt_stream_isrun(APP_BT_STREAM_INVALID)) || (app_bt_stream_isrun(APP_BT_STREAM_A2DP_SBC)))) { TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL] set a2dp volume"); if (level >= TGT_VOLUME_LEVEL_MUTE && level <= TGT_VOLUME_LEVEL_15) { uint32_t lock = nv_record_pre_write_operation(); btdevice_volume_p->a2dp_vol = level; nv_record_post_write_operation(lock); app_bt_stream_volumeset(btdevice_volume_p->a2dp_vol); } if (btdevice_volume_p->a2dp_vol == TGT_VOLUME_LEVEL_MUTE) { #ifdef MEDIA_PLAYER_SUPPORT media_PlayAudio(AUD_ID_BT_WARNING,0); #endif } } TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL] a2dp: %d", btdevice_volume_p->a2dp_vol); TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL] hfp: %d", btdevice_volume_p->hfp_vol); #ifndef FPGA nv_record_touch_cause_flush(); #endif } void app_bt_stream_volumedown(void) { #if defined AUDIO_LINEIN if(app_bt_stream_isrun(APP_PLAY_LINEIN_AUDIO)) { stream_linein_volume --; if (stream_linein_volume < TGT_VOLUME_LEVEL_MUTE) stream_linein_volume = TGT_VOLUME_LEVEL_MUTE; app_bt_stream_volumeset(stream_linein_volume); TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL][DONW] set linein volume %d\n", stream_linein_volume); }else #endif { if (app_bt_stream_isrun(APP_BT_STREAM_HFP_PCM)) { TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL][DONW] set hfp volume"); int8_t updatedVol = btdevice_volume_p->hfp_vol; updatedVol--; if (updatedVol < TGT_VOLUME_LEVEL_0) { updatedVol = TGT_VOLUME_LEVEL_0; } uint32_t lock = nv_record_pre_write_operation(); btdevice_volume_p->hfp_vol = updatedVol; nv_record_post_write_operation(lock); current_btdevice_volume.hfp_vol=updatedVol; app_bt_stream_volumeset(updatedVol); if (btdevice_volume_p->hfp_vol == TGT_VOLUME_LEVEL_0) { #ifdef MEDIA_PLAYER_SUPPORT media_PlayAudio(AUD_ID_BT_WARNING,0); #endif } } else if ((app_bt_stream_isrun(APP_BT_STREAM_INVALID)) || (app_bt_stream_isrun(APP_BT_STREAM_A2DP_SBC))) { TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL][DONW] set a2dp volume"); int8_t updatedVol = btdevice_volume_p->a2dp_vol; updatedVol--; if (updatedVol < TGT_VOLUME_LEVEL_MUTE) { updatedVol = TGT_VOLUME_LEVEL_MUTE; } uint32_t lock = nv_record_pre_write_operation(); btdevice_volume_p->a2dp_vol = updatedVol; nv_record_post_write_operation(lock); current_btdevice_volume.a2dp_vol=updatedVol; app_bt_stream_volumeset(updatedVol); if (btdevice_volume_p->a2dp_vol == TGT_VOLUME_LEVEL_MUTE) { #ifdef MEDIA_PLAYER_SUPPORT media_PlayAudio(AUD_ID_BT_WARNING,0); #endif } } TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL][DONW] a2dp: %d", btdevice_volume_p->a2dp_vol); TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL][DONW] hfp: %d", btdevice_volume_p->hfp_vol); } #ifndef FPGA nv_record_touch_cause_flush(); #endif } void app_bt_stream_volumeset_handler(int8_t vol) { uint32_t ret; struct AF_STREAM_CONFIG_T *stream_cfg = NULL; ret = af_stream_get_cfg(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK, &stream_cfg, false); if (ret == 0) { stream_cfg->vol = vol; af_stream_setup(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK, stream_cfg); } #if (defined(AUDIO_ANC_FB_MC)||defined(AUDIO_ANC_FB_MC_SCO)) && defined(ANC_APP) && !defined(__AUDIO_RESAMPLE__) ret = af_stream_get_cfg(AUD_STREAM_ID_2, AUD_STREAM_PLAYBACK, &stream_cfg, false); if (ret == 0) { stream_cfg->vol = vol; af_stream_setup(AUD_STREAM_ID_2, AUD_STREAM_PLAYBACK, stream_cfg); } #endif } int app_bt_stream_volumeset(int8_t vol) { TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL][SET] vol=%d", vol); if (vol > TGT_VOLUME_LEVEL_15) vol = TGT_VOLUME_LEVEL_15; if (vol < TGT_VOLUME_LEVEL_MUTE) vol = TGT_VOLUME_LEVEL_MUTE; stream_local_volume = vol; #ifdef MIX_AUDIO_PROMPT_WITH_A2DP_MEDIA_ENABLED if ((!app_bt_stream_isrun(APP_PLAY_BACK_AUDIO)) && (audio_prompt_is_allow_update_volume())) #else if (!app_bt_stream_isrun(APP_PLAY_BACK_AUDIO)) #endif { app_bt_stream_volumeset_handler(vol); } return 0; } int app_bt_stream_local_volume_get(void) { return stream_local_volume; } uint8_t app_bt_stream_a2dpvolume_get(void) { // return btdevice_volume_p->a2dp_vol; return current_btdevice_volume.a2dp_vol; } uint8_t app_bt_stream_hfpvolume_get(void) { //return btdevice_volume_p->hfp_vol; return current_btdevice_volume.hfp_vol; } void app_bt_stream_a2dpvolume_reset(void) { btdevice_volume_p->a2dp_vol = NVRAM_ENV_STREAM_VOLUME_A2DP_VOL_DEFAULT ; current_btdevice_volume.a2dp_vol=NVRAM_ENV_STREAM_VOLUME_A2DP_VOL_DEFAULT; } void app_bt_stream_hfpvolume_reset(void) { btdevice_volume_p->hfp_vol = NVRAM_ENV_STREAM_VOLUME_HFP_VOL_DEFAULT; current_btdevice_volume.hfp_vol=NVRAM_ENV_STREAM_VOLUME_HFP_VOL_DEFAULT; } void app_bt_stream_volume_ptr_update(uint8_t *bdAddr) { static struct btdevice_volume stream_volume = {NVRAM_ENV_STREAM_VOLUME_A2DP_VOL_DEFAULT,NVRAM_ENV_STREAM_VOLUME_HFP_VOL_DEFAULT}; #ifndef FPGA nvrec_btdevicerecord *record = NULL; memset(¤t_btdevice_volume, 0, sizeof(btdevice_volume)); if (bdAddr && !nv_record_btdevicerecord_find((bt_bdaddr_t*)bdAddr,&record)) { btdevice_volume_p = &(record->device_vol); DUMP8("0x%02x ", bdAddr, BTIF_BD_ADDR_SIZE); TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL][UPDATE] a2dp_vol:%d hfp_vol:%d ptr:%p", btdevice_volume_p->a2dp_vol, btdevice_volume_p->hfp_vol,btdevice_volume_p); } else #endif { btdevice_volume_p = &stream_volume; TRACE_AUD_STREAM_I("[STRM_PLAYER][VOL][UPDATE] default"); if (bdAddr){ DUMP8("0x%02x ", bdAddr, BTIF_BD_ADDR_SIZE); } } current_btdevice_volume.a2dp_vol=btdevice_volume_p->a2dp_vol; current_btdevice_volume.hfp_vol=btdevice_volume_p->hfp_vol; } struct btdevice_volume * app_bt_stream_volume_get_ptr(void) { return btdevice_volume_p; } bool app_bt_stream_isrun(uint16_t player) { if ((gStreamplayer & player) == player) { return true; } else { return false; } } int app_bt_stream_closeall() { TRACE_AUD_STREAM_I("[STRM_PLAYER][CLOSEALL]"); bt_sco_player(false, APP_SYSFREQ_32K); bt_sbc_player(PLAYER_OPER_STOP, APP_SYSFREQ_32K); #ifdef MEDIA_PLAYER_SUPPORT app_play_audio_onoff(false, 0); #endif #ifdef RB_CODEC app_rbplay_audio_onoff(false, 0); #endif #ifdef VOICE_DATAPATH app_voicepath_stop_audio_stream(); #endif gStreamplayer = APP_BT_STREAM_INVALID; return 0; } void app_bt_stream_copy_track_one_to_two_24bits(int32_t *dst_buf, int32_t *src_buf, uint32_t src_len) { // Copy from tail so that it works even if dst_buf == src_buf for (int i = (int)(src_len - 1); i >= 0; i--) { dst_buf[i*2 + 0] = dst_buf[i*2 + 1] = src_buf[i]; } } void app_bt_stream_copy_track_one_to_two_16bits(int16_t *dst_buf, int16_t *src_buf, uint32_t src_len) { // Copy from tail so that it works even if dst_buf == src_buf for (int i = (int)(src_len - 1); i >= 0; i--) { dst_buf[i*2 + 0] = dst_buf[i*2 + 1] = src_buf[i]; } } void app_bt_stream_copy_track_two_to_one_16bits(int16_t *dst_buf, int16_t *src_buf, uint32_t dst_len) { for (uint32_t i = 0; i < dst_len; i++) { dst_buf[i] = src_buf[i*2]; } } void app_bt_stream_adaptive_frequency_adjusting(void) { #if 0//(A2DP_DECODER_VER == 2) if (app_bt_stream_isrun(APP_BT_STREAM_A2DP_SBC)){ if (!a2dp_audio_sysfreq_boost_running()){ a2dp_audio_sysfreq_boost_start(1); } } #endif } #ifdef PLAYBACK_FORCE_48K static int app_force48k_resample_iter(uint8_t *buf, uint32_t len) { uint8_t codec_type = bt_sbc_player_get_codec_type(); uint32_t overlay_id = 0; if(0){ #if defined(A2DP_LHDC_ON) }else if(codec_type == BTIF_AVDTP_CODEC_TYPE_LHDC){ overlay_id = APP_OVERLAY_A2DP_LHDC; #endif #if defined(A2DP_AAC_ON) }else if(codec_type == BTIF_AVDTP_CODEC_TYPE_MPEG2_4_AAC){ overlay_id = APP_OVERLAY_A2DP_AAC; #endif }else if(codec_type == BTIF_AVDTP_CODEC_TYPE_SBC){ overlay_id = APP_OVERLAY_A2DP; } a2dp_audio_more_data(overlay_id, buf, len); return 0; } struct APP_RESAMPLE_T *app_force48k_resample_any_open(enum AUD_CHANNEL_NUM_T chans, APP_RESAMPLE_ITER_CALLBACK cb, uint32_t iter_len, float ratio_step) { return app_playback_resample_any_open(chans, cb, iter_len, ratio_step); } #endif // ======================================================= // APP RESAMPLE // ======================================================= #ifndef MIX_MIC_DURING_MUSIC #include "resample_coef.h" #endif static APP_RESAMPLE_BUF_ALLOC_CALLBACK resamp_buf_alloc = app_audio_mempool_get_buff; static void memzero_int16(void *dst, uint32_t len) { if (dst) { int16_t *dst16 = (int16_t *)dst; int16_t *dst16_end = dst16 + len / 2; while (dst16 < dst16_end) { *dst16++ = 0; } } else { TRACE_AUD_STREAM_I("WRN: receive null pointer"); } } struct APP_RESAMPLE_T *app_resample_open_with_preallocated_buf(enum AUD_STREAM_T stream, const struct RESAMPLE_COEF_T *coef, enum AUD_CHANNEL_NUM_T chans, APP_RESAMPLE_ITER_CALLBACK cb, uint32_t iter_len, float ratio_step, uint8_t* buf, uint32_t bufSize) { TRACE_AUD_STREAM_I("[STRM_PLAYER][PROMPT_MIXER][OPEN]"); struct APP_RESAMPLE_T *resamp; struct RESAMPLE_CFG_T cfg; enum RESAMPLE_STATUS_T status; uint32_t size, resamp_size; resamp_size = audio_resample_ex_get_buffer_size(chans, AUD_BITS_16, coef->phase_coef_num); size = sizeof(struct APP_RESAMPLE_T); size += ALIGN(iter_len, 4); size += resamp_size; ASSERT(size < bufSize, "Pre-allocated buffer size %d is smaller than the needed size %d", bufSize, size); resamp = (struct APP_RESAMPLE_T *)buf; buf += sizeof(*resamp); resamp->stream = stream; resamp->cb = cb; resamp->iter_buf = buf; buf += ALIGN(iter_len, 4); resamp->iter_len = iter_len; resamp->offset = iter_len; resamp->ratio_step = ratio_step; memset(&cfg, 0, sizeof(cfg)); cfg.chans = chans; cfg.bits = AUD_BITS_16; cfg.ratio_step = ratio_step; cfg.coef = coef; cfg.buf = buf; cfg.size = resamp_size; status = audio_resample_ex_open(&cfg, (RESAMPLE_ID *)&resamp->id); ASSERT(status == RESAMPLE_STATUS_OK, "%s: Failed to open resample: %d", __func__, status); #ifdef CHIP_BEST1000 hal_cmu_audio_resample_enable(); #endif return resamp; } static struct APP_RESAMPLE_T *app_resample_open(enum AUD_STREAM_T stream, const struct RESAMPLE_COEF_T *coef, enum AUD_CHANNEL_NUM_T chans, APP_RESAMPLE_ITER_CALLBACK cb, uint32_t iter_len, float ratio_step) { TRACE_AUD_STREAM_I("[STRM_PLAYER][RESAMPLE][OPEN] ratio: %d/1000", uint32_t(ratio_step * 1000)); struct APP_RESAMPLE_T *resamp; struct RESAMPLE_CFG_T cfg; enum RESAMPLE_STATUS_T status; uint32_t size, resamp_size; uint8_t *buf; resamp_size = audio_resample_ex_get_buffer_size(chans, AUD_BITS_16, coef->phase_coef_num); size = sizeof(struct APP_RESAMPLE_T); size += ALIGN(iter_len, 4); size += resamp_size; resamp_buf_alloc(&buf, size); resamp = (struct APP_RESAMPLE_T *)buf; buf += sizeof(*resamp); resamp->stream = stream; resamp->cb = cb; resamp->iter_buf = buf; buf += ALIGN(iter_len, 4); resamp->iter_len = iter_len; resamp->offset = iter_len; resamp->ratio_step = ratio_step; memset(&cfg, 0, sizeof(cfg)); cfg.chans = chans; cfg.bits = AUD_BITS_16; cfg.ratio_step = ratio_step; cfg.coef = coef; cfg.buf = buf; cfg.size = resamp_size; status = audio_resample_ex_open(&cfg, (RESAMPLE_ID *)&resamp->id); ASSERT(status == RESAMPLE_STATUS_OK, "%s: Failed to open resample: %d", __func__, status); #ifdef CHIP_BEST1000 hal_cmu_audio_resample_enable(); #endif return resamp; } static int app_resample_close(struct APP_RESAMPLE_T *resamp) { #ifdef CHIP_BEST1000 hal_cmu_audio_resample_disable(); #endif if (resamp) { audio_resample_ex_close((RESAMPLE_ID *)resamp->id); } return 0; } struct APP_RESAMPLE_T *app_playback_resample_open(enum AUD_SAMPRATE_T sample_rate, enum AUD_CHANNEL_NUM_T chans, APP_RESAMPLE_ITER_CALLBACK cb, uint32_t iter_len) { const struct RESAMPLE_COEF_T *coef = NULL; if (sample_rate == AUD_SAMPRATE_8000) { coef = &resample_coef_8k_to_8p4k; } else if (sample_rate == AUD_SAMPRATE_16000) { coef = &resample_coef_8k_to_8p4k; } else if (sample_rate == AUD_SAMPRATE_32000) { coef = &resample_coef_32k_to_50p7k; } else if (sample_rate == AUD_SAMPRATE_44100) { coef = &resample_coef_44p1k_to_50p7k; } else if (sample_rate == AUD_SAMPRATE_48000) { coef = &resample_coef_48k_to_50p7k; } else { ASSERT(false, "%s: Bad sample rate: %u", __func__, sample_rate); } return app_resample_open(AUD_STREAM_PLAYBACK, coef, chans, cb, iter_len, 0); } #ifdef RESAMPLE_ANY_SAMPLE_RATE struct APP_RESAMPLE_T *app_playback_resample_any_open(enum AUD_CHANNEL_NUM_T chans, APP_RESAMPLE_ITER_CALLBACK cb, uint32_t iter_len, float ratio_step) { const struct RESAMPLE_COEF_T *coef = &resample_coef_any_up256; return app_resample_open(AUD_STREAM_PLAYBACK, coef, chans, cb, iter_len, ratio_step); } struct APP_RESAMPLE_T *app_playback_resample_any_open_with_pre_allocated_buffer(enum AUD_CHANNEL_NUM_T chans, APP_RESAMPLE_ITER_CALLBACK cb, uint32_t iter_len, float ratio_step, uint8_t* ptrBuf, uint32_t bufSize) { const struct RESAMPLE_COEF_T *coef = &resample_coef_any_up256; return app_resample_open_with_preallocated_buf( AUD_STREAM_PLAYBACK, coef, chans, cb, iter_len, ratio_step, ptrBuf, bufSize); } struct APP_RESAMPLE_T *app_capture_resample_14k7_to_16k(enum AUD_CHANNEL_NUM_T chans, APP_RESAMPLE_ITER_CALLBACK cb, uint32_t iter_len, float ratio_step, uint8_t* ptrBuf, uint32_t bufSize) { const struct RESAMPLE_COEF_T *coef = &resample_coef_44p1k_to_48k; return app_resample_open_with_preallocated_buf( AUD_STREAM_PLAYBACK, coef, chans, cb, iter_len, ratio_step, ptrBuf, bufSize); } #endif int app_playback_resample_close(struct APP_RESAMPLE_T *resamp) { return app_resample_close(resamp); } int app_playback_resample_run(struct APP_RESAMPLE_T *resamp, uint8_t *buf, uint32_t len) { uint32_t in_size, out_size; struct RESAMPLE_IO_BUF_T io; enum RESAMPLE_STATUS_T status; int ret; //uint32_t lock; if (resamp == NULL) { goto _err_exit; } io.out_cyclic_start = NULL; io.out_cyclic_end = NULL; if (resamp->offset < resamp->iter_len) { io.in = resamp->iter_buf + resamp->offset; io.in_size = resamp->iter_len - resamp->offset; io.out = buf; io.out_size = len; //lock = int_lock(); status = audio_resample_ex_run((RESAMPLE_ID *)resamp->id, &io, &in_size, &out_size); //int_unlock(lock); if (status != RESAMPLE_STATUS_OUT_FULL && status != RESAMPLE_STATUS_IN_EMPTY && status != RESAMPLE_STATUS_DONE) { goto _err_exit; } buf += out_size; len -= out_size; resamp->offset += in_size; ASSERT(len == 0 || resamp->offset == resamp->iter_len, "%s: Bad resample offset: len=%d offset=%u iter_len=%u", __func__, len, resamp->offset, resamp->iter_len); } while (len) { ret = resamp->cb(resamp->iter_buf, resamp->iter_len); if (ret) { goto _err_exit; } io.in = resamp->iter_buf; io.in_size = resamp->iter_len; io.out = buf; io.out_size = len; //lock = int_lock(); status = audio_resample_ex_run((RESAMPLE_ID *)resamp->id, &io, &in_size, &out_size); //int_unlock(lock); if (status != RESAMPLE_STATUS_OUT_FULL && status != RESAMPLE_STATUS_IN_EMPTY && status != RESAMPLE_STATUS_DONE) { goto _err_exit; } ASSERT(out_size <= len, "%s: Bad resample out_size: out_size=%u len=%d", __func__, out_size, len); ASSERT(in_size <= resamp->iter_len, "%s: Bad resample in_size: in_size=%u iter_len=%u", __func__, in_size, resamp->iter_len); buf += out_size; len -= out_size; if (in_size != resamp->iter_len) { resamp->offset = in_size; ASSERT(len == 0, "%s: Bad resample len: len=%d out_size=%u", __func__, len, out_size); } } return 0; _err_exit: if (resamp) { app_resample_reset(resamp); } memzero_int16(buf, len); return 1; } struct APP_RESAMPLE_T *app_capture_resample_open(enum AUD_SAMPRATE_T sample_rate, enum AUD_CHANNEL_NUM_T chans, APP_RESAMPLE_ITER_CALLBACK cb, uint32_t iter_len) { const struct RESAMPLE_COEF_T *coef = NULL; if (sample_rate == AUD_SAMPRATE_8000) { coef = &resample_coef_8p4k_to_8k; } else if (sample_rate == AUD_SAMPRATE_16000) { // Same coef as 8K sample rate coef = &resample_coef_8p4k_to_8k; } else { ASSERT(false, "%s: Bad sample rate: %u", __func__, sample_rate); } return app_resample_open(AUD_STREAM_CAPTURE, coef, chans, cb, iter_len, 0); } #ifdef RESAMPLE_ANY_SAMPLE_RATE struct APP_RESAMPLE_T *app_capture_resample_any_open(enum AUD_CHANNEL_NUM_T chans, APP_RESAMPLE_ITER_CALLBACK cb, uint32_t iter_len, float ratio_step) { const struct RESAMPLE_COEF_T *coef = &resample_coef_any_up256; return app_resample_open(AUD_STREAM_CAPTURE, coef, chans, cb, iter_len, ratio_step); } #endif int app_capture_resample_close(struct APP_RESAMPLE_T *resamp) { return app_resample_close(resamp); } int app_capture_resample_run(struct APP_RESAMPLE_T *resamp, uint8_t *buf, uint32_t len) { uint32_t in_size, out_size; struct RESAMPLE_IO_BUF_T io; enum RESAMPLE_STATUS_T status; int ret; if (resamp == NULL) { goto _err_exit; } io.out_cyclic_start = NULL; io.out_cyclic_end = NULL; if (resamp->offset < resamp->iter_len) { io.in = buf; io.in_size = len; io.out = resamp->iter_buf + resamp->offset; io.out_size = resamp->iter_len - resamp->offset; status = audio_resample_ex_run((RESAMPLE_ID *)resamp->id, &io, &in_size, &out_size); if (status != RESAMPLE_STATUS_OUT_FULL && status != RESAMPLE_STATUS_IN_EMPTY && status != RESAMPLE_STATUS_DONE) { goto _err_exit; } buf += in_size; len -= in_size; resamp->offset += out_size; ASSERT(len == 0 || resamp->offset == resamp->iter_len, "%s: Bad resample offset: len=%d offset=%u iter_len=%u", __func__, len, resamp->offset, resamp->iter_len); if (resamp->offset == resamp->iter_len) { ret = resamp->cb(resamp->iter_buf, resamp->iter_len); if (ret) { goto _err_exit; } } } while (len) { io.in = buf; io.in_size = len; io.out = resamp->iter_buf; io.out_size = resamp->iter_len; status = audio_resample_ex_run((RESAMPLE_ID *)resamp->id, &io, &in_size, &out_size); if (status != RESAMPLE_STATUS_OUT_FULL && status != RESAMPLE_STATUS_IN_EMPTY && status != RESAMPLE_STATUS_DONE) { goto _err_exit; } ASSERT(in_size <= len, "%s: Bad resample in_size: in_size=%u len=%u", __func__, in_size, len); ASSERT(out_size <= resamp->iter_len, "%s: Bad resample out_size: out_size=%u iter_len=%u", __func__, out_size, resamp->iter_len); buf += in_size; len -= in_size; if (out_size == resamp->iter_len) { ret = resamp->cb(resamp->iter_buf, resamp->iter_len); if (ret) { goto _err_exit; } } else { resamp->offset = out_size; ASSERT(len == 0, "%s: Bad resample len: len=%u in_size=%u", __func__, len, in_size); } } return 0; _err_exit: if (resamp) { app_resample_reset(resamp); } memzero_int16(buf, len); return 1; } void app_resample_reset(struct APP_RESAMPLE_T *resamp) { audio_resample_ex_flush((RESAMPLE_ID *)resamp->id); resamp->offset = resamp->iter_len; } void app_resample_tune(struct APP_RESAMPLE_T *resamp, float ratio) { float new_step; if (resamp == NULL) { return; } TRACE_AUD_STREAM_I("%s: stream=%d ratio=%d", __FUNCTION__, resamp->stream, FLOAT_TO_PPB_INT(ratio)); if (resamp->stream == AUD_STREAM_PLAYBACK) { new_step = resamp->ratio_step + resamp->ratio_step * ratio; } else { new_step = resamp->ratio_step - resamp->ratio_step * ratio; } audio_resample_ex_set_ratio_step(resamp->id, new_step); } APP_RESAMPLE_BUF_ALLOC_CALLBACK app_resample_set_buf_alloc_callback(APP_RESAMPLE_BUF_ALLOC_CALLBACK cb) { APP_RESAMPLE_BUF_ALLOC_CALLBACK old_cb; old_cb = resamp_buf_alloc; resamp_buf_alloc = cb; return old_cb; } #ifdef TX_RX_PCM_MASK #ifdef SCO_DMA_SNAPSHOT #define MSBC_LEN 60 void store_encode_frame2buff() { if(bt_sco_codec_is_msbc()) { uint32_t len; //processing uplink msbc data. if(playback_buf_btpcm_copy!=NULL) { len=playback_size_btpcm_copy-MSBC_LEN; memcpy((uint8_t *)(*(volatile uint32_t *)(MIC_BUFF_ADRR_REG)),playback_buf_btpcm_copy,MSBC_LEN); memcpy(playback_buf_btpcm_copy,playback_buf_btpcm_copy+MSBC_LEN,len); } //processing downlink msbc data. if(capture_buf_btpcm_copy!=NULL) { len=capture_size_btpcm_copy-MSBC_LEN; memcpy(capture_buf_btpcm_copy,capture_buf_btpcm_copy+MSBC_LEN,len); memcpy(capture_buf_btpcm_copy+len,(uint8_t *)(*(volatile uint32_t *)(RX_BUFF_ADRR)),MSBC_LEN); } #if defined(CHIP_BEST2300A) uint8_t sco_toggle = *(volatile uint8_t *)(RX_BUFF_ADRR+8); pcm_data_param[sco_toggle].curr_time = *(volatile uint32_t *)(RX_BUFF_ADRR+4); pcm_data_param[sco_toggle].toggle = sco_toggle; pcm_data_param[sco_toggle].flag = *(volatile uint8_t *)(RX_BUFF_ADRR+9); pcm_data_param[sco_toggle].counter = *(volatile uint16_t *)(RX_BUFF_ADRR+10); #endif } return; } #else extern CQueue* get_tx_esco_queue_ptr(); extern CQueue* get_rx_esco_queue_ptr(); void store_encode_frame2buff() { CQueue* Tx_esco_queue_temp = NULL; CQueue* Rx_esco_queue_temp = NULL; Tx_esco_queue_temp = get_tx_esco_queue_ptr(); Rx_esco_queue_temp = get_rx_esco_queue_ptr(); unsigned int len; len= 60; int status = 0; if(bt_sco_codec_is_msbc()) { status = DeCQueue(Tx_esco_queue_temp,(uint8_t *)(*(volatile uint32_t *)(MIC_BUFF_ADRR_REG)),len); if(status){ //TRACE_AUD_STREAM_I("TX DeC Fail"); } status =EnCQueue(Rx_esco_queue_temp, (uint8_t *)(*(volatile uint32_t *)(RX_BUFF_ADRR)), len); if(status){ //TRACE_AUD_STREAM_I("RX EnC Fail"); } } } #endif #endif int app_bt_stream_init(void) { app_bt_stream_trigger_checker_init(); return 0; }