/****************************************************************************** * * Copyright (C) 2009-2012 Broadcom Corporation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ******************************************************************************/ /****************************************************************************** ** ** Name: btif_media_task.c ** ** Description: This is the multimedia module for the BTIF system. It ** contains task implementations AV, HS and HF profiles ** audio & video processing ** ******************************************************************************/ #define LOG_TAG "bt_btif_media" #include <assert.h> #include <string.h> #include <stdio.h> #include <sys/types.h> #include <sys/stat.h> #include <fcntl.h> #include <unistd.h> #include <pthread.h> #include <stdint.h> #include <sys/time.h> #include <errno.h> #include "bt_target.h" #include "osi/include/fixed_queue.h" #include "gki.h" #include "bta_api.h" #include "btu.h" #include "bta_sys.h" #include "bta_sys_int.h" #include "bta_av_api.h" #include "a2d_api.h" #include "a2d_sbc.h" #include "a2d_int.h" #include "bta_av_sbc.h" #include "bta_av_ci.h" #include "l2c_api.h" #include "btif_av_co.h" #include "btif_media.h" #include "osi/include/alarm.h" #include "osi/include/log.h" #include "osi/include/thread.h" #if (BTA_AV_INCLUDED == TRUE) #include "sbc_encoder.h" #endif #include <hardware/bluetooth.h> #include "audio_a2dp_hw.h" #include "btif_av.h" #include "btif_sm.h" #include "btif_util.h" #if (BTA_AV_SINK_INCLUDED == TRUE) #include "oi_codec_sbc.h" #include "oi_status.h" #endif #include "stdio.h" #include <dlfcn.h> #if (BTA_AV_SINK_INCLUDED == TRUE) OI_CODEC_SBC_DECODER_CONTEXT context; OI_UINT32 contextData[CODEC_DATA_WORDS(2, SBC_CODEC_FAST_FILTER_BUFFERS)]; OI_INT16 pcmData[15*SBC_MAX_SAMPLES_PER_FRAME*SBC_MAX_CHANNELS]; #endif /***************************************************************************** ** Constants *****************************************************************************/ #ifndef AUDIO_CHANNEL_OUT_MONO #define AUDIO_CHANNEL_OUT_MONO 0x01 #endif #ifndef AUDIO_CHANNEL_OUT_STEREO #define AUDIO_CHANNEL_OUT_STEREO 0x03 #endif /* BTIF media cmd event definition : BTIF_MEDIA_TASK_CMD */ enum { BTIF_MEDIA_START_AA_TX = 1, BTIF_MEDIA_STOP_AA_TX, BTIF_MEDIA_AA_RX_RDY, BTIF_MEDIA_UIPC_RX_RDY, BTIF_MEDIA_SBC_ENC_INIT, BTIF_MEDIA_SBC_ENC_UPDATE, BTIF_MEDIA_SBC_DEC_INIT, BTIF_MEDIA_VIDEO_DEC_INIT, BTIF_MEDIA_FLUSH_AA_TX, BTIF_MEDIA_FLUSH_AA_RX, BTIF_MEDIA_AUDIO_FEEDING_INIT, BTIF_MEDIA_AUDIO_RECEIVING_INIT, BTIF_MEDIA_AUDIO_SINK_CFG_UPDATE, BTIF_MEDIA_AUDIO_SINK_CLEAR_TRACK }; enum { MEDIA_TASK_STATE_OFF = 0, MEDIA_TASK_STATE_ON = 1, MEDIA_TASK_STATE_SHUTTING_DOWN = 2 }; /* Macro to multiply the media task tick */ #ifndef BTIF_MEDIA_NUM_TICK #define BTIF_MEDIA_NUM_TICK 1 #endif /* Media task tick in milliseconds, must be set to multiple of (1000/TICKS_PER_SEC) (10) */ #define BTIF_MEDIA_TIME_TICK (20 * BTIF_MEDIA_NUM_TICK) #define A2DP_DATA_READ_POLL_MS (BTIF_MEDIA_TIME_TICK / 2) #define BTIF_SINK_MEDIA_TIME_TICK (20 * BTIF_MEDIA_NUM_TICK) /* buffer pool */ #define BTIF_MEDIA_AA_POOL_ID GKI_POOL_ID_3 #define BTIF_MEDIA_AA_BUF_SIZE GKI_BUF3_SIZE /* offset */ #if (BTA_AV_CO_CP_SCMS_T == TRUE) #define BTIF_MEDIA_AA_SBC_OFFSET (AVDT_MEDIA_OFFSET + BTA_AV_SBC_HDR_SIZE + 1) #else #define BTIF_MEDIA_AA_SBC_OFFSET (AVDT_MEDIA_OFFSET + BTA_AV_SBC_HDR_SIZE) #endif /* Define the bitrate step when trying to match bitpool value */ #ifndef BTIF_MEDIA_BITRATE_STEP #define BTIF_MEDIA_BITRATE_STEP 5 #endif /* Middle quality quality setting @ 44.1 khz */ #define DEFAULT_SBC_BITRATE 328 #ifndef BTIF_A2DP_NON_EDR_MAX_RATE #define BTIF_A2DP_NON_EDR_MAX_RATE 229 #endif #define USEC_PER_SEC 1000000L #define TPUT_STATS_INTERVAL_US (3000*1000) /* * CONGESTION COMPENSATION CTRL :: * * Thus setting controls how many buffers we will hold in media task * during temp link congestion. Together with the stack buffer queues * it controls much temporary a2dp link congestion we can * compensate for. It however also depends on the default run level of sinks * jitterbuffers. Depending on type of sink this would vary. * Ideally the (SRC) max tx buffer capacity should equal the sinks * jitterbuffer runlevel including any intermediate buffers on the way * towards the sinks codec. */ /* fixme -- define this in pcm time instead of buffer count */ /* The typical runlevel of the tx queue size is ~1 buffer but due to link flow control or thread preemption in lower layers we might need to temporarily buffer up data */ /* 18 frames is equivalent to 6.89*18*2.9 ~= 360 ms @ 44.1 khz, 20 ms mediatick */ #define MAX_OUTPUT_A2DP_FRAME_QUEUE_SZ 18 #ifndef MAX_PCM_FRAME_NUM_PER_TICK #define MAX_PCM_FRAME_NUM_PER_TICK 14 #endif /* In case of A2DP SINK, we will delay start by 5 AVDTP Packets*/ #define MAX_A2DP_DELAYED_START_FRAME_COUNT 5 #define PACKET_PLAYED_PER_TICK_48 8 #define PACKET_PLAYED_PER_TICK_44 7 #define PACKET_PLAYED_PER_TICK_32 5 #define PACKET_PLAYED_PER_TICK_16 3 typedef struct { UINT16 num_frames_to_be_processed; UINT16 len; UINT16 offset; UINT16 layer_specific; } tBT_SBC_HDR; typedef struct { UINT32 aa_frame_counter; INT32 aa_feed_counter; INT32 aa_feed_residue; UINT32 counter; UINT32 bytes_per_tick; /* pcm bytes read each media task tick */ } tBTIF_AV_MEDIA_FEEDINGS_PCM_STATE; typedef union { tBTIF_AV_MEDIA_FEEDINGS_PCM_STATE pcm; } tBTIF_AV_MEDIA_FEEDINGS_STATE; typedef struct { #if (BTA_AV_INCLUDED == TRUE) BUFFER_Q TxAaQ; BUFFER_Q RxSbcQ; BOOLEAN is_tx_timer; BOOLEAN is_rx_timer; UINT16 TxAaMtuSize; UINT32 timestamp; UINT8 TxTranscoding; tBTIF_AV_FEEDING_MODE feeding_mode; tBTIF_AV_MEDIA_FEEDINGS media_feeding; tBTIF_AV_MEDIA_FEEDINGS_STATE media_feeding_state; SBC_ENC_PARAMS encoder; UINT8 busy_level; void* av_sm_hdl; UINT8 a2dp_cmd_pending; /* we can have max one command pending */ BOOLEAN tx_flush; /* discards any outgoing data when true */ BOOLEAN rx_flush; /* discards any incoming data when true */ UINT8 peer_sep; BOOLEAN data_channel_open; UINT8 frames_to_process; UINT32 sample_rate; UINT8 channel_count; alarm_t *media_alarm; alarm_t *decode_alarm; #endif } tBTIF_MEDIA_CB; typedef struct { long long rx; long long rx_tot; long long tx; long long tx_tot; long long ts_prev_us; } t_stat; static UINT64 last_frame_us = 0; static void btif_a2dp_data_cb(tUIPC_CH_ID ch_id, tUIPC_EVENT event); static void btif_a2dp_ctrl_cb(tUIPC_CH_ID ch_id, tUIPC_EVENT event); static void btif_a2dp_encoder_update(void); #if (BTA_AV_SINK_INCLUDED == TRUE) extern OI_STATUS OI_CODEC_SBC_DecodeFrame(OI_CODEC_SBC_DECODER_CONTEXT *context, const OI_BYTE **frameData, unsigned long *frameBytes, OI_INT16 *pcmData, unsigned long *pcmBytes); extern OI_STATUS OI_CODEC_SBC_DecoderReset(OI_CODEC_SBC_DECODER_CONTEXT *context, unsigned long *decoderData, unsigned long decoderDataBytes, OI_UINT8 maxChannels, OI_UINT8 pcmStride, OI_BOOL enhanced); #endif static void btif_media_flush_q(BUFFER_Q *p_q); static void btif_media_task_aa_handle_stop_decoding(void ); static void btif_media_task_aa_rx_flush(void); static const char *dump_media_event(UINT16 event); static void btif_media_thread_init(void *context); static void btif_media_thread_cleanup(void *context); static void btif_media_thread_handle_cmd(fixed_queue_t *queue, void *context); /* Handle incoming media packets A2DP SINK streaming*/ #if (BTA_AV_SINK_INCLUDED == TRUE) static void btif_media_task_handle_inc_media(tBT_SBC_HDR*p_msg); #endif #if (BTA_AV_INCLUDED == TRUE) static void btif_media_send_aa_frame(void); static void btif_media_task_feeding_state_reset(void); static void btif_media_task_aa_start_tx(void); static void btif_media_task_aa_stop_tx(void); static void btif_media_task_enc_init(BT_HDR *p_msg); static void btif_media_task_enc_update(BT_HDR *p_msg); static void btif_media_task_audio_feeding_init(BT_HDR *p_msg); static void btif_media_task_aa_tx_flush(BT_HDR *p_msg); static void btif_media_aa_prep_2_send(UINT8 nb_frame); #if (BTA_AV_SINK_INCLUDED == TRUE) static void btif_media_task_aa_handle_decoder_reset(BT_HDR *p_msg); static void btif_media_task_aa_handle_clear_track(void); #endif static void btif_media_task_aa_handle_start_decoding(void); #endif BOOLEAN btif_media_task_clear_track(void); static void btif_media_task_aa_handle_timer(UNUSED_ATTR void *context); static void btif_media_task_avk_handle_timer(UNUSED_ATTR void *context); extern BOOLEAN btif_hf_is_call_idle(); static tBTIF_MEDIA_CB btif_media_cb; static int media_task_running = MEDIA_TASK_STATE_OFF; static fixed_queue_t *btif_media_cmd_msg_queue; static thread_t *worker_thread; /***************************************************************************** ** Misc helper functions *****************************************************************************/ static UINT64 time_now_us() { struct timespec ts_now; clock_gettime(CLOCK_BOOTTIME, &ts_now); return ((UINT64)ts_now.tv_sec * USEC_PER_SEC) + ((UINT64)ts_now.tv_nsec / 1000); } static void log_tstamps_us(char *comment) { static UINT64 prev_us = 0; const UINT64 now_us = time_now_us(); APPL_TRACE_DEBUG("[%s] ts %08llu, diff : %08llu, queue sz %d", comment, now_us, now_us - prev_us, GKI_queue_length(&btif_media_cb.TxAaQ)); prev_us = now_us; } UNUSED_ATTR static const char *dump_media_event(UINT16 event) { switch(event) { CASE_RETURN_STR(BTIF_MEDIA_START_AA_TX) CASE_RETURN_STR(BTIF_MEDIA_STOP_AA_TX) CASE_RETURN_STR(BTIF_MEDIA_AA_RX_RDY) CASE_RETURN_STR(BTIF_MEDIA_UIPC_RX_RDY) CASE_RETURN_STR(BTIF_MEDIA_SBC_ENC_INIT) CASE_RETURN_STR(BTIF_MEDIA_SBC_ENC_UPDATE) CASE_RETURN_STR(BTIF_MEDIA_SBC_DEC_INIT) CASE_RETURN_STR(BTIF_MEDIA_VIDEO_DEC_INIT) CASE_RETURN_STR(BTIF_MEDIA_FLUSH_AA_TX) CASE_RETURN_STR(BTIF_MEDIA_FLUSH_AA_RX) CASE_RETURN_STR(BTIF_MEDIA_AUDIO_FEEDING_INIT) CASE_RETURN_STR(BTIF_MEDIA_AUDIO_RECEIVING_INIT) CASE_RETURN_STR(BTIF_MEDIA_AUDIO_SINK_CFG_UPDATE) CASE_RETURN_STR(BTIF_MEDIA_AUDIO_SINK_CLEAR_TRACK) default: return "UNKNOWN MEDIA EVENT"; } } /***************************************************************************** ** A2DP CTRL PATH *****************************************************************************/ static const char* dump_a2dp_ctrl_event(UINT8 event) { switch(event) { CASE_RETURN_STR(A2DP_CTRL_CMD_NONE) CASE_RETURN_STR(A2DP_CTRL_CMD_CHECK_READY) CASE_RETURN_STR(A2DP_CTRL_CMD_START) CASE_RETURN_STR(A2DP_CTRL_CMD_STOP) CASE_RETURN_STR(A2DP_CTRL_CMD_SUSPEND) default: return "UNKNOWN MSG ID"; } } static void btif_audiopath_detached(void) { APPL_TRACE_EVENT("## AUDIO PATH DETACHED ##"); /* send stop request only if we are actively streaming and haven't received a stop request. Potentially audioflinger detached abnormally */ if (btif_media_cb.is_tx_timer) { /* post stop event and wait for audio path to stop */ btif_dispatch_sm_event(BTIF_AV_STOP_STREAM_REQ_EVT, NULL, 0); } } static void a2dp_cmd_acknowledge(int status) { UINT8 ack = status; APPL_TRACE_EVENT("## a2dp ack : %s, status %d ##", dump_a2dp_ctrl_event(btif_media_cb.a2dp_cmd_pending), status); /* sanity check */ if (btif_media_cb.a2dp_cmd_pending == A2DP_CTRL_CMD_NONE) { APPL_TRACE_ERROR("warning : no command pending, ignore ack"); return; } /* clear pending */ btif_media_cb.a2dp_cmd_pending = A2DP_CTRL_CMD_NONE; /* acknowledge start request */ UIPC_Send(UIPC_CH_ID_AV_CTRL, 0, &ack, 1); } static void btif_recv_ctrl_data(void) { UINT8 cmd = 0; int n; n = UIPC_Read(UIPC_CH_ID_AV_CTRL, NULL, &cmd, 1); /* detach on ctrl channel means audioflinger process was terminated */ if (n == 0) { APPL_TRACE_EVENT("CTRL CH DETACHED"); UIPC_Close(UIPC_CH_ID_AV_CTRL); /* we can operate only on datachannel, if af client wants to do send additional commands the ctrl channel would be reestablished */ //btif_audiopath_detached(); return; } APPL_TRACE_DEBUG("a2dp-ctrl-cmd : %s", dump_a2dp_ctrl_event(cmd)); btif_media_cb.a2dp_cmd_pending = cmd; switch(cmd) { case A2DP_CTRL_CMD_CHECK_READY: if (media_task_running == MEDIA_TASK_STATE_SHUTTING_DOWN) { a2dp_cmd_acknowledge(A2DP_CTRL_ACK_FAILURE); return; } /* check whether av is ready to setup a2dp datapath */ if ((btif_av_stream_ready() == TRUE) || (btif_av_stream_started_ready() == TRUE)) { a2dp_cmd_acknowledge(A2DP_CTRL_ACK_SUCCESS); } else { a2dp_cmd_acknowledge(A2DP_CTRL_ACK_FAILURE); } break; case A2DP_CTRL_CMD_START: /* Don't sent START request to stack while we are in call. Some headsets like the Sony MW600, don't allow AVDTP START in call and respond BAD_STATE. */ if (!btif_hf_is_call_idle()) { a2dp_cmd_acknowledge(A2DP_CTRL_ACK_INCALL_FAILURE); break; } if (btif_av_stream_ready() == TRUE) { /* setup audio data channel listener */ UIPC_Open(UIPC_CH_ID_AV_AUDIO, btif_a2dp_data_cb); /* post start event and wait for audio path to open */ btif_dispatch_sm_event(BTIF_AV_START_STREAM_REQ_EVT, NULL, 0); #if (BTA_AV_SINK_INCLUDED == TRUE) if (btif_media_cb.peer_sep == AVDT_TSEP_SRC) a2dp_cmd_acknowledge(A2DP_CTRL_ACK_SUCCESS); #endif } else if (btif_av_stream_started_ready()) { /* already started, setup audio data channel listener and ack back immediately */ UIPC_Open(UIPC_CH_ID_AV_AUDIO, btif_a2dp_data_cb); a2dp_cmd_acknowledge(A2DP_CTRL_ACK_SUCCESS); } else { a2dp_cmd_acknowledge(A2DP_CTRL_ACK_FAILURE); break; } break; case A2DP_CTRL_CMD_STOP: if (btif_media_cb.peer_sep == AVDT_TSEP_SNK && btif_media_cb.is_tx_timer == FALSE) { /* we are already stopped, just ack back */ a2dp_cmd_acknowledge(A2DP_CTRL_ACK_SUCCESS); break; } btif_dispatch_sm_event(BTIF_AV_STOP_STREAM_REQ_EVT, NULL, 0); a2dp_cmd_acknowledge(A2DP_CTRL_ACK_SUCCESS); break; case A2DP_CTRL_CMD_SUSPEND: /* local suspend */ if (btif_av_stream_started_ready()) { btif_dispatch_sm_event(BTIF_AV_SUSPEND_STREAM_REQ_EVT, NULL, 0); } else { /* if we are not in started state, just ack back ok and let audioflinger close the channel. This can happen if we are remotely suspended, clear REMOTE SUSPEND Flag */ btif_av_clear_remote_suspend_flag(); a2dp_cmd_acknowledge(A2DP_CTRL_ACK_SUCCESS); } break; case A2DP_CTRL_GET_AUDIO_CONFIG: { uint32_t sample_rate = btif_media_cb.sample_rate; uint8_t channel_count = btif_media_cb.channel_count; a2dp_cmd_acknowledge(A2DP_CTRL_ACK_SUCCESS); UIPC_Send(UIPC_CH_ID_AV_CTRL, 0, (UINT8 *)&sample_rate, 4); UIPC_Send(UIPC_CH_ID_AV_CTRL, 0, &channel_count, 1); break; } default: APPL_TRACE_ERROR("UNSUPPORTED CMD (%d)", cmd); a2dp_cmd_acknowledge(A2DP_CTRL_ACK_FAILURE); break; } APPL_TRACE_DEBUG("a2dp-ctrl-cmd : %s DONE", dump_a2dp_ctrl_event(cmd)); } static void btif_a2dp_ctrl_cb(tUIPC_CH_ID ch_id, tUIPC_EVENT event) { UNUSED(ch_id); APPL_TRACE_DEBUG("A2DP-CTRL-CHANNEL EVENT %s", dump_uipc_event(event)); switch(event) { case UIPC_OPEN_EVT: /* fetch av statemachine handle */ btif_media_cb.av_sm_hdl = btif_av_get_sm_handle(); break; case UIPC_CLOSE_EVT: /* restart ctrl server unless we are shutting down */ if (media_task_running == MEDIA_TASK_STATE_ON) UIPC_Open(UIPC_CH_ID_AV_CTRL , btif_a2dp_ctrl_cb); break; case UIPC_RX_DATA_READY_EVT: btif_recv_ctrl_data(); break; default : APPL_TRACE_ERROR("### A2DP-CTRL-CHANNEL EVENT %d NOT HANDLED ###", event); break; } } static void btif_a2dp_data_cb(tUIPC_CH_ID ch_id, tUIPC_EVENT event) { UNUSED(ch_id); APPL_TRACE_DEBUG("BTIF MEDIA (A2DP-DATA) EVENT %s", dump_uipc_event(event)); switch(event) { case UIPC_OPEN_EVT: /* read directly from media task from here on (keep callback for connection events */ UIPC_Ioctl(UIPC_CH_ID_AV_AUDIO, UIPC_REG_REMOVE_ACTIVE_READSET, NULL); UIPC_Ioctl(UIPC_CH_ID_AV_AUDIO, UIPC_SET_READ_POLL_TMO, (void *)A2DP_DATA_READ_POLL_MS); if (btif_media_cb.peer_sep == AVDT_TSEP_SNK) { /* Start the media task to encode SBC */ btif_media_task_start_aa_req(); /* make sure we update any changed sbc encoder params */ btif_a2dp_encoder_update(); } btif_media_cb.data_channel_open = TRUE; /* ack back when media task is fully started */ break; case UIPC_CLOSE_EVT: a2dp_cmd_acknowledge(A2DP_CTRL_ACK_SUCCESS); btif_audiopath_detached(); btif_media_cb.data_channel_open = FALSE; break; default : APPL_TRACE_ERROR("### A2DP-DATA EVENT %d NOT HANDLED ###", event); break; } } /***************************************************************************** ** BTIF ADAPTATION *****************************************************************************/ static UINT16 btif_media_task_get_sbc_rate(void) { UINT16 rate = DEFAULT_SBC_BITRATE; /* restrict bitrate if a2dp link is non-edr */ if (!btif_av_is_peer_edr()) { rate = BTIF_A2DP_NON_EDR_MAX_RATE; APPL_TRACE_DEBUG("non-edr a2dp sink detected, restrict rate to %d", rate); } return rate; } static void btif_a2dp_encoder_init(void) { UINT16 minmtu; tBTIF_MEDIA_INIT_AUDIO msg; tA2D_SBC_CIE sbc_config; /* lookup table for converting channel mode */ UINT16 codec_mode_tbl[5] = { SBC_JOINT_STEREO, SBC_STEREO, SBC_DUAL, 0, SBC_MONO }; /* lookup table for converting number of blocks */ UINT16 codec_block_tbl[5] = { 16, 12, 8, 0, 4 }; /* lookup table to convert freq */ UINT16 freq_block_tbl[5] = { SBC_sf48000, SBC_sf44100, SBC_sf32000, 0, SBC_sf16000 }; APPL_TRACE_DEBUG("btif_a2dp_encoder_init"); /* Retrieve the current SBC configuration (default if currently not used) */ bta_av_co_audio_get_sbc_config(&sbc_config, &minmtu); msg.NumOfSubBands = (sbc_config.num_subbands == A2D_SBC_IE_SUBBAND_4) ? 4 : 8; msg.NumOfBlocks = codec_block_tbl[sbc_config.block_len >> 5]; msg.AllocationMethod = (sbc_config.alloc_mthd == A2D_SBC_IE_ALLOC_MD_L) ? SBC_LOUDNESS : SBC_SNR; msg.ChannelMode = codec_mode_tbl[sbc_config.ch_mode >> 1]; msg.SamplingFreq = freq_block_tbl[sbc_config.samp_freq >> 5]; msg.MtuSize = minmtu; APPL_TRACE_EVENT("msg.ChannelMode %x", msg.ChannelMode); /* Init the media task to encode SBC properly */ btif_media_task_enc_init_req(&msg); } static void btif_a2dp_encoder_update(void) { UINT16 minmtu; tA2D_SBC_CIE sbc_config; tBTIF_MEDIA_UPDATE_AUDIO msg; UINT8 pref_min; UINT8 pref_max; APPL_TRACE_DEBUG("btif_a2dp_encoder_update"); /* Retrieve the current SBC configuration (default if currently not used) */ bta_av_co_audio_get_sbc_config(&sbc_config, &minmtu); APPL_TRACE_DEBUG("btif_a2dp_encoder_update: Common min_bitpool:%d(0x%x) max_bitpool:%d(0x%x)", sbc_config.min_bitpool, sbc_config.min_bitpool, sbc_config.max_bitpool, sbc_config.max_bitpool); if (sbc_config.min_bitpool > sbc_config.max_bitpool) { APPL_TRACE_ERROR("btif_a2dp_encoder_update: ERROR btif_a2dp_encoder_update min_bitpool > max_bitpool"); } /* check if remote sink has a preferred bitpool range */ if (bta_av_co_get_remote_bitpool_pref(&pref_min, &pref_max) == TRUE) { /* adjust our preferred bitpool with the remote preference if within our capable range */ if (pref_min < sbc_config.min_bitpool) pref_min = sbc_config.min_bitpool; if (pref_max > sbc_config.max_bitpool) pref_max = sbc_config.max_bitpool; msg.MinBitPool = pref_min; msg.MaxBitPool = pref_max; if ((pref_min != sbc_config.min_bitpool) || (pref_max != sbc_config.max_bitpool)) { APPL_TRACE_EVENT("## adjusted our bitpool range to peer pref [%d:%d] ##", pref_min, pref_max); } } else { msg.MinBitPool = sbc_config.min_bitpool; msg.MaxBitPool = sbc_config.max_bitpool; } msg.MinMtuSize = minmtu; /* Update the media task to encode SBC properly */ btif_media_task_enc_update_req(&msg); } bool btif_a2dp_start_media_task(void) { if (media_task_running != MEDIA_TASK_STATE_OFF) { APPL_TRACE_ERROR("warning : media task already running"); return false; } APPL_TRACE_EVENT("## A2DP START MEDIA THREAD ##"); btif_media_cmd_msg_queue = fixed_queue_new(SIZE_MAX); /* start a2dp media task */ worker_thread = thread_new("media_worker"); if (worker_thread == NULL) goto error_exit; fixed_queue_register_dequeue(btif_media_cmd_msg_queue, thread_get_reactor(worker_thread), btif_media_thread_handle_cmd, NULL); thread_post(worker_thread, btif_media_thread_init, NULL); APPL_TRACE_EVENT("## A2DP MEDIA THREAD STARTED ##"); return true; error_exit:; APPL_TRACE_ERROR("%s unable to start up media thread", __func__); return false; } void btif_a2dp_stop_media_task(void) { APPL_TRACE_EVENT("## A2DP STOP MEDIA THREAD ##"); // Stop timer alarm_free(btif_media_cb.media_alarm); btif_media_cb.media_alarm = NULL; btif_media_cb.is_tx_timer = FALSE; // Exit thread fixed_queue_free(btif_media_cmd_msg_queue, NULL); thread_post(worker_thread, btif_media_thread_cleanup, NULL); thread_free(worker_thread); worker_thread = NULL; btif_media_cmd_msg_queue = NULL; } /***************************************************************************** ** ** Function btif_a2dp_on_init ** ** Description ** ** Returns ** *******************************************************************************/ void btif_a2dp_on_init(void) { //tput_mon(1, 0, 1); } /***************************************************************************** ** ** Function btif_a2dp_setup_codec ** ** Description ** ** Returns ** *******************************************************************************/ void btif_a2dp_setup_codec(void) { tBTIF_AV_MEDIA_FEEDINGS media_feeding; tBTIF_STATUS status; APPL_TRACE_EVENT("## A2DP SETUP CODEC ##"); GKI_disable(); /* for now hardcode 44.1 khz 16 bit stereo PCM format */ media_feeding.cfg.pcm.sampling_freq = 44100; media_feeding.cfg.pcm.bit_per_sample = 16; media_feeding.cfg.pcm.num_channel = 2; media_feeding.format = BTIF_AV_CODEC_PCM; if (bta_av_co_audio_set_codec(&media_feeding, &status)) { tBTIF_MEDIA_INIT_AUDIO_FEEDING mfeed; /* Init the encoding task */ btif_a2dp_encoder_init(); /* Build the media task configuration */ mfeed.feeding = media_feeding; mfeed.feeding_mode = BTIF_AV_FEEDING_ASYNCHRONOUS; /* Send message to Media task to configure transcoding */ btif_media_task_audio_feeding_init_req(&mfeed); } GKI_enable(); } /***************************************************************************** ** ** Function btif_a2dp_on_idle ** ** Description ** ** Returns ** *******************************************************************************/ void btif_a2dp_on_idle(void) { APPL_TRACE_EVENT("## ON A2DP IDLE ##"); if (btif_media_cb.peer_sep == AVDT_TSEP_SNK) { /* Make sure media task is stopped */ btif_media_task_stop_aa_req(); } bta_av_co_init(); #if (BTA_AV_SINK_INCLUDED == TRUE) if (btif_media_cb.peer_sep == AVDT_TSEP_SRC) { btif_media_cb.rx_flush = TRUE; btif_media_task_aa_rx_flush_req(); btif_media_task_aa_handle_stop_decoding(); btif_media_task_clear_track(); APPL_TRACE_DEBUG("Stopped BT track"); } #endif } /***************************************************************************** ** ** Function btif_a2dp_on_open ** ** Description ** ** Returns ** *******************************************************************************/ void btif_a2dp_on_open(void) { APPL_TRACE_EVENT("## ON A2DP OPEN ##"); /* always use callback to notify socket events */ UIPC_Open(UIPC_CH_ID_AV_AUDIO, btif_a2dp_data_cb); } /******************************************************************************* ** ** Function btif_media_task_clear_track ** ** Description ** ** Returns TRUE is success ** *******************************************************************************/ BOOLEAN btif_media_task_clear_track(void) { BT_HDR *p_buf; if (NULL == (p_buf = GKI_getbuf(sizeof(BT_HDR)))) { return FALSE; } p_buf->event = BTIF_MEDIA_AUDIO_SINK_CLEAR_TRACK; fixed_queue_enqueue(btif_media_cmd_msg_queue, p_buf); return TRUE; } /***************************************************************************** ** ** Function btif_reset_decoder ** ** Description ** ** Returns ** *******************************************************************************/ void btif_reset_decoder(UINT8 *p_av) { APPL_TRACE_EVENT("btif_reset_decoder"); APPL_TRACE_DEBUG("btif_reset_decoder p_codec_info[%x:%x:%x:%x:%x:%x]", p_av[1], p_av[2], p_av[3], p_av[4], p_av[5], p_av[6]); tBTIF_MEDIA_SINK_CFG_UPDATE *p_buf; if (NULL == (p_buf = GKI_getbuf(sizeof(tBTIF_MEDIA_SINK_CFG_UPDATE)))) { APPL_TRACE_EVENT("btif_reset_decoder No Buffer "); return; } memcpy(p_buf->codec_info,p_av, AVDT_CODEC_SIZE); p_buf->hdr.event = BTIF_MEDIA_AUDIO_SINK_CFG_UPDATE; fixed_queue_enqueue(btif_media_cmd_msg_queue, p_buf); } /***************************************************************************** ** ** Function btif_a2dp_on_started ** ** Description ** ** Returns ** *******************************************************************************/ BOOLEAN btif_a2dp_on_started(tBTA_AV_START *p_av, BOOLEAN pending_start) { BOOLEAN ack = FALSE; APPL_TRACE_EVENT("## ON A2DP STARTED ##"); if (p_av == NULL) { /* ack back a local start request */ a2dp_cmd_acknowledge(A2DP_CTRL_ACK_SUCCESS); return TRUE; } if (p_av->status == BTA_AV_SUCCESS) { if (p_av->suspending == FALSE) { if (p_av->initiator) { if (pending_start) { a2dp_cmd_acknowledge(A2DP_CTRL_ACK_SUCCESS); ack = TRUE; } } else { /* we were remotely started, make sure codec is setup before datapath is started */ btif_a2dp_setup_codec(); } /* media task is autostarted upon a2dp audiopath connection */ } } else if (pending_start) { a2dp_cmd_acknowledge(A2DP_CTRL_ACK_FAILURE); ack = TRUE; } return ack; } /***************************************************************************** ** ** Function btif_a2dp_ack_fail ** ** Description ** ** Returns ** *******************************************************************************/ void btif_a2dp_ack_fail(void) { APPL_TRACE_EVENT("## A2DP_CTRL_ACK_FAILURE ##"); a2dp_cmd_acknowledge(A2DP_CTRL_ACK_FAILURE); } /***************************************************************************** ** ** Function btif_a2dp_on_stopped ** ** Description ** ** Returns ** *******************************************************************************/ void btif_a2dp_on_stopped(tBTA_AV_SUSPEND *p_av) { APPL_TRACE_EVENT("## ON A2DP STOPPED ##"); if (btif_media_cb.peer_sep == AVDT_TSEP_SRC) /* Handling for A2DP SINK cases*/ { btif_media_cb.rx_flush = TRUE; btif_media_task_aa_rx_flush_req(); btif_media_task_aa_handle_stop_decoding(); UIPC_Close(UIPC_CH_ID_AV_AUDIO); btif_media_cb.data_channel_open = FALSE; return; } /* allow using this api for other than suspend */ if (p_av != NULL) { if (p_av->status != BTA_AV_SUCCESS) { APPL_TRACE_EVENT("AV STOP FAILED (%d)", p_av->status); if (p_av->initiator) a2dp_cmd_acknowledge(A2DP_CTRL_ACK_FAILURE); return; } } /* ensure tx frames are immediately suspended */ btif_media_cb.tx_flush = 1; /* request to stop media task */ btif_media_task_aa_tx_flush_req(); btif_media_task_stop_aa_req(); /* once stream is fully stopped we will ack back */ } /***************************************************************************** ** ** Function btif_a2dp_on_suspended ** ** Description ** ** Returns ** *******************************************************************************/ void btif_a2dp_on_suspended(tBTA_AV_SUSPEND *p_av) { APPL_TRACE_EVENT("## ON A2DP SUSPENDED ##"); if (btif_media_cb.peer_sep == AVDT_TSEP_SRC) { btif_media_cb.rx_flush = TRUE; btif_media_task_aa_rx_flush_req(); btif_media_task_aa_handle_stop_decoding(); return; } /* check for status failures */ if (p_av->status != BTA_AV_SUCCESS) { if (p_av->initiator == TRUE) a2dp_cmd_acknowledge(A2DP_CTRL_ACK_FAILURE); } /* once stream is fully stopped we will ack back */ /* ensure tx frames are immediately flushed */ btif_media_cb.tx_flush = 1; /* stop timer tick */ btif_media_task_stop_aa_req(); } /* when true media task discards any rx frames */ void btif_a2dp_set_rx_flush(BOOLEAN enable) { APPL_TRACE_EVENT("## DROP RX %d ##", enable); btif_media_cb.rx_flush = enable; } /* when true media task discards any tx frames */ void btif_a2dp_set_tx_flush(BOOLEAN enable) { APPL_TRACE_EVENT("## DROP TX %d ##", enable); btif_media_cb.tx_flush = enable; } #if (BTA_AV_SINK_INCLUDED == TRUE) static void btif_media_task_avk_handle_timer(UNUSED_ATTR void *context) { UINT8 count; tBT_SBC_HDR *p_msg; int num_sbc_frames; int num_frames_to_process; count = btif_media_cb.RxSbcQ._count; if (0 == count) { APPL_TRACE_DEBUG(" QUE EMPTY "); } else { if (btif_media_cb.rx_flush == TRUE) { btif_media_flush_q(&(btif_media_cb.RxSbcQ)); return; } num_frames_to_process = btif_media_cb.frames_to_process; APPL_TRACE_DEBUG(" Process Frames + "); do { p_msg = (tBT_SBC_HDR *)GKI_getfirst(&(btif_media_cb.RxSbcQ)); if (p_msg == NULL) return; num_sbc_frames = p_msg->num_frames_to_be_processed; /* num of frames in Que Packets */ APPL_TRACE_DEBUG(" Frames left in topmost packet %d", num_sbc_frames); APPL_TRACE_DEBUG(" Remaining frames to process in tick %d", num_frames_to_process); APPL_TRACE_DEBUG(" Num of Packets in Que %d", btif_media_cb.RxSbcQ._count); if ( num_sbc_frames > num_frames_to_process) /* Que Packet has more frames*/ { p_msg->num_frames_to_be_processed= num_frames_to_process; btif_media_task_handle_inc_media(p_msg); p_msg->num_frames_to_be_processed = num_sbc_frames - num_frames_to_process; num_frames_to_process = 0; break; } else /* Que packet has less frames */ { btif_media_task_handle_inc_media(p_msg); p_msg = (tBT_SBC_HDR *)GKI_dequeue(&(btif_media_cb.RxSbcQ)); if( p_msg == NULL ) { APPL_TRACE_ERROR("Insufficient data in que "); break; } num_frames_to_process = num_frames_to_process - p_msg->num_frames_to_be_processed; GKI_freebuf(p_msg); } }while(num_frames_to_process > 0); APPL_TRACE_DEBUG(" Process Frames - "); } } #else static void btif_media_task_avk_handle_timer(UNUSED_ATTR void *context) {} #endif static void btif_media_task_aa_handle_timer(UNUSED_ATTR void *context) { log_tstamps_us("media task tx timer"); #if (BTA_AV_INCLUDED == TRUE) if(btif_media_cb.is_tx_timer == TRUE) { btif_media_send_aa_frame(); } else { APPL_TRACE_ERROR("ERROR Media task Scheduled after Suspend"); } #endif } #if (BTA_AV_INCLUDED == TRUE) static void btif_media_task_aa_handle_uipc_rx_rdy(void) { /* process all the UIPC data */ btif_media_aa_prep_2_send(0xFF); /* send it */ LOG_VERBOSE("btif_media_task_aa_handle_uipc_rx_rdy calls bta_av_ci_src_data_ready"); bta_av_ci_src_data_ready(BTA_AV_CHNL_AUDIO); } #endif static void btif_media_thread_init(UNUSED_ATTR void *context) { memset(&btif_media_cb, 0, sizeof(btif_media_cb)); UIPC_Init(NULL); #if (BTA_AV_INCLUDED == TRUE) UIPC_Open(UIPC_CH_ID_AV_CTRL , btif_a2dp_ctrl_cb); #endif raise_priority_a2dp(TASK_HIGH_MEDIA); media_task_running = MEDIA_TASK_STATE_ON; } static void btif_media_thread_cleanup(UNUSED_ATTR void *context) { /* make sure no channels are restarted while shutting down */ media_task_running = MEDIA_TASK_STATE_SHUTTING_DOWN; /* this calls blocks until uipc is fully closed */ UIPC_Close(UIPC_CH_ID_ALL); /* Clear media task flag */ media_task_running = MEDIA_TASK_STATE_OFF; } /******************************************************************************* ** ** Function btif_media_task_send_cmd_evt ** ** Description ** ** Returns TRUE is success ** *******************************************************************************/ BOOLEAN btif_media_task_send_cmd_evt(UINT16 Evt) { BT_HDR *p_buf; if (NULL == (p_buf = GKI_getbuf(sizeof(BT_HDR)))) { return FALSE; } p_buf->event = Evt; fixed_queue_enqueue(btif_media_cmd_msg_queue, p_buf); return TRUE; } /******************************************************************************* ** ** Function btif_media_flush_q ** ** Description ** ** Returns void ** *******************************************************************************/ static void btif_media_flush_q(BUFFER_Q *p_q) { while (!GKI_queue_is_empty(p_q)) { GKI_freebuf(GKI_dequeue(p_q)); } } static void btif_media_thread_handle_cmd(fixed_queue_t *queue, UNUSED_ATTR void *context) { BT_HDR *p_msg = (BT_HDR *)fixed_queue_dequeue(queue); LOG_VERBOSE("btif_media_thread_handle_cmd : %d %s", p_msg->event, dump_media_event(p_msg->event)); switch (p_msg->event) { #if (BTA_AV_INCLUDED == TRUE) case BTIF_MEDIA_START_AA_TX: btif_media_task_aa_start_tx(); break; case BTIF_MEDIA_STOP_AA_TX: btif_media_task_aa_stop_tx(); break; case BTIF_MEDIA_SBC_ENC_INIT: btif_media_task_enc_init(p_msg); break; case BTIF_MEDIA_SBC_ENC_UPDATE: btif_media_task_enc_update(p_msg); break; case BTIF_MEDIA_AUDIO_FEEDING_INIT: btif_media_task_audio_feeding_init(p_msg); break; case BTIF_MEDIA_FLUSH_AA_TX: btif_media_task_aa_tx_flush(p_msg); break; case BTIF_MEDIA_UIPC_RX_RDY: btif_media_task_aa_handle_uipc_rx_rdy(); break; case BTIF_MEDIA_AUDIO_SINK_CFG_UPDATE: #if (BTA_AV_SINK_INCLUDED == TRUE) btif_media_task_aa_handle_decoder_reset(p_msg); #endif break; case BTIF_MEDIA_AUDIO_SINK_CLEAR_TRACK: #if (BTA_AV_SINK_INCLUDED == TRUE) btif_media_task_aa_handle_clear_track(); #endif break; case BTIF_MEDIA_FLUSH_AA_RX: btif_media_task_aa_rx_flush(); break; #endif default: APPL_TRACE_ERROR("ERROR in %s unknown event %d", __func__, p_msg->event); } GKI_freebuf(p_msg); LOG_VERBOSE("%s: %s DONE", __func__, dump_media_event(p_msg->event)); } #if (BTA_AV_SINK_INCLUDED == TRUE) /******************************************************************************* ** ** Function btif_media_task_handle_inc_media ** ** Description ** ** Returns void ** *******************************************************************************/ static void btif_media_task_handle_inc_media(tBT_SBC_HDR*p_msg) { UINT8 *sbc_start_frame = ((UINT8*)(p_msg + 1) + p_msg->offset + 1); int count; UINT32 pcmBytes, availPcmBytes; OI_INT16 *pcmDataPointer = pcmData; /*Will be overwritten on next packet receipt*/ OI_STATUS status; int num_sbc_frames = p_msg->num_frames_to_be_processed; UINT32 sbc_frame_len = p_msg->len - 1; availPcmBytes = 2*sizeof(pcmData); if ((btif_media_cb.peer_sep == AVDT_TSEP_SNK) || (btif_media_cb.rx_flush)) { APPL_TRACE_DEBUG(" State Changed happened in this tick "); return; } // ignore data if no one is listening if (!btif_media_cb.data_channel_open) return; APPL_TRACE_DEBUG("Number of sbc frames %d, frame_len %d", num_sbc_frames, sbc_frame_len); for(count = 0; count < num_sbc_frames && sbc_frame_len != 0; count ++) { pcmBytes = availPcmBytes; status = OI_CODEC_SBC_DecodeFrame(&context, (const OI_BYTE**)&sbc_start_frame, (OI_UINT32 *)&sbc_frame_len, (OI_INT16 *)pcmDataPointer, (OI_UINT32 *)&pcmBytes); if (!OI_SUCCESS(status)) { APPL_TRACE_ERROR("Decoding failure: %d\n", status); break; } availPcmBytes -= pcmBytes; pcmDataPointer += pcmBytes/2; p_msg->offset += (p_msg->len - 1) - sbc_frame_len; p_msg->len = sbc_frame_len + 1; } UIPC_Send(UIPC_CH_ID_AV_AUDIO, 0, (UINT8 *)pcmData, (2*sizeof(pcmData) - availPcmBytes)); } #endif #if (BTA_AV_INCLUDED == TRUE) /******************************************************************************* ** ** Function btif_media_task_enc_init_req ** ** Description ** ** Returns TRUE is success ** *******************************************************************************/ BOOLEAN btif_media_task_enc_init_req(tBTIF_MEDIA_INIT_AUDIO *p_msg) { tBTIF_MEDIA_INIT_AUDIO *p_buf; if (NULL == (p_buf = GKI_getbuf(sizeof(tBTIF_MEDIA_INIT_AUDIO)))) { return FALSE; } memcpy(p_buf, p_msg, sizeof(tBTIF_MEDIA_INIT_AUDIO)); p_buf->hdr.event = BTIF_MEDIA_SBC_ENC_INIT; fixed_queue_enqueue(btif_media_cmd_msg_queue, p_buf); return TRUE; } /******************************************************************************* ** ** Function btif_media_task_enc_update_req ** ** Description ** ** Returns TRUE is success ** *******************************************************************************/ BOOLEAN btif_media_task_enc_update_req(tBTIF_MEDIA_UPDATE_AUDIO *p_msg) { tBTIF_MEDIA_UPDATE_AUDIO *p_buf; if (NULL == (p_buf = GKI_getbuf(sizeof(tBTIF_MEDIA_UPDATE_AUDIO)))) { return FALSE; } memcpy(p_buf, p_msg, sizeof(tBTIF_MEDIA_UPDATE_AUDIO)); p_buf->hdr.event = BTIF_MEDIA_SBC_ENC_UPDATE; fixed_queue_enqueue(btif_media_cmd_msg_queue, p_buf); return TRUE; } /******************************************************************************* ** ** Function btif_media_task_audio_feeding_init_req ** ** Description ** ** Returns TRUE is success ** *******************************************************************************/ BOOLEAN btif_media_task_audio_feeding_init_req(tBTIF_MEDIA_INIT_AUDIO_FEEDING *p_msg) { tBTIF_MEDIA_INIT_AUDIO_FEEDING *p_buf; if (NULL == (p_buf = GKI_getbuf(sizeof(tBTIF_MEDIA_INIT_AUDIO_FEEDING)))) { return FALSE; } memcpy(p_buf, p_msg, sizeof(tBTIF_MEDIA_INIT_AUDIO_FEEDING)); p_buf->hdr.event = BTIF_MEDIA_AUDIO_FEEDING_INIT; fixed_queue_enqueue(btif_media_cmd_msg_queue, p_buf); return TRUE; } /******************************************************************************* ** ** Function btif_media_task_start_aa_req ** ** Description ** ** Returns TRUE is success ** *******************************************************************************/ BOOLEAN btif_media_task_start_aa_req(void) { BT_HDR *p_buf; if (NULL == (p_buf = GKI_getbuf(sizeof(BT_HDR)))) { APPL_TRACE_EVENT("GKI failed"); return FALSE; } p_buf->event = BTIF_MEDIA_START_AA_TX; fixed_queue_enqueue(btif_media_cmd_msg_queue, p_buf); return TRUE; } /******************************************************************************* ** ** Function btif_media_task_stop_aa_req ** ** Description ** ** Returns TRUE is success ** *******************************************************************************/ BOOLEAN btif_media_task_stop_aa_req(void) { BT_HDR *p_buf; if (NULL == (p_buf = GKI_getbuf(sizeof(BT_HDR)))) { return FALSE; } p_buf->event = BTIF_MEDIA_STOP_AA_TX; /* * Explicitly check whether the btif_media_cmd_msg_queue is not NULL to * avoid a race condition during shutdown of the Bluetooth stack. * This race condition is triggered when A2DP audio is streaming on * shutdown: * "btif_a2dp_on_stopped() -> btif_media_task_stop_aa_req()" is called * to stop the particular audio stream, and this happens right after * the "cleanup() -> btif_a2dp_stop_media_task()" processing during * the shutdown of the Bluetooth stack. */ if (btif_media_cmd_msg_queue != NULL) fixed_queue_enqueue(btif_media_cmd_msg_queue, p_buf); return TRUE; } /******************************************************************************* ** ** Function btif_media_task_aa_rx_flush_req ** ** Description ** ** Returns TRUE is success ** *******************************************************************************/ BOOLEAN btif_media_task_aa_rx_flush_req(void) { BT_HDR *p_buf; if (GKI_queue_is_empty(&(btif_media_cb.RxSbcQ))== TRUE) /* Que is already empty */ return TRUE; if (NULL == (p_buf = GKI_getbuf(sizeof(BT_HDR)))) { return FALSE; } p_buf->event = BTIF_MEDIA_FLUSH_AA_RX; fixed_queue_enqueue(btif_media_cmd_msg_queue, p_buf); return TRUE; } /******************************************************************************* ** ** Function btif_media_task_aa_tx_flush_req ** ** Description ** ** Returns TRUE is success ** *******************************************************************************/ BOOLEAN btif_media_task_aa_tx_flush_req(void) { BT_HDR *p_buf = GKI_getbuf(sizeof(BT_HDR)); if (p_buf == NULL) return FALSE; p_buf->event = BTIF_MEDIA_FLUSH_AA_TX; /* * Explicitly check whether the btif_media_cmd_msg_queue is not NULL to * avoid a race condition during shutdown of the Bluetooth stack. * This race condition is triggered when A2DP audio is streaming on * shutdown: * "btif_a2dp_on_stopped() -> btif_media_task_aa_tx_flush_req()" is called * to stop the particular audio stream, and this happens right after * the "cleanup() -> btif_a2dp_stop_media_task()" processing during * the shutdown of the Bluetooth stack. */ if (btif_media_cmd_msg_queue != NULL) fixed_queue_enqueue(btif_media_cmd_msg_queue, p_buf); return TRUE; } /******************************************************************************* ** ** Function btif_media_task_aa_rx_flush ** ** Description ** ** Returns void ** *******************************************************************************/ static void btif_media_task_aa_rx_flush(void) { /* Flush all enqueued GKI SBC buffers (encoded) */ APPL_TRACE_DEBUG("btif_media_task_aa_rx_flush"); btif_media_flush_q(&(btif_media_cb.RxSbcQ)); } /******************************************************************************* ** ** Function btif_media_task_aa_tx_flush ** ** Description ** ** Returns void ** *******************************************************************************/ static void btif_media_task_aa_tx_flush(BT_HDR *p_msg) { UNUSED(p_msg); /* Flush all enqueued GKI music buffers (encoded) */ APPL_TRACE_DEBUG("btif_media_task_aa_tx_flush"); btif_media_cb.media_feeding_state.pcm.counter = 0; btif_media_cb.media_feeding_state.pcm.aa_feed_residue = 0; btif_media_flush_q(&(btif_media_cb.TxAaQ)); UIPC_Ioctl(UIPC_CH_ID_AV_AUDIO, UIPC_REQ_RX_FLUSH, NULL); } /******************************************************************************* ** ** Function btif_media_task_enc_init ** ** Description Initialize encoding task ** ** Returns void ** *******************************************************************************/ static void btif_media_task_enc_init(BT_HDR *p_msg) { tBTIF_MEDIA_INIT_AUDIO *pInitAudio = (tBTIF_MEDIA_INIT_AUDIO *) p_msg; APPL_TRACE_DEBUG("btif_media_task_enc_init"); btif_media_cb.timestamp = 0; /* SBC encoder config (enforced even if not used) */ btif_media_cb.encoder.s16ChannelMode = pInitAudio->ChannelMode; btif_media_cb.encoder.s16NumOfSubBands = pInitAudio->NumOfSubBands; btif_media_cb.encoder.s16NumOfBlocks = pInitAudio->NumOfBlocks; btif_media_cb.encoder.s16AllocationMethod = pInitAudio->AllocationMethod; btif_media_cb.encoder.s16SamplingFreq = pInitAudio->SamplingFreq; btif_media_cb.encoder.u16BitRate = btif_media_task_get_sbc_rate(); /* Default transcoding is PCM to SBC, modified by feeding configuration */ btif_media_cb.TxTranscoding = BTIF_MEDIA_TRSCD_PCM_2_SBC; btif_media_cb.TxAaMtuSize = ((BTIF_MEDIA_AA_BUF_SIZE-BTIF_MEDIA_AA_SBC_OFFSET-sizeof(BT_HDR)) < pInitAudio->MtuSize) ? (BTIF_MEDIA_AA_BUF_SIZE - BTIF_MEDIA_AA_SBC_OFFSET - sizeof(BT_HDR)) : pInitAudio->MtuSize; APPL_TRACE_EVENT("btif_media_task_enc_init busy %d, mtu %d, peer mtu %d", btif_media_cb.busy_level, btif_media_cb.TxAaMtuSize, pInitAudio->MtuSize); APPL_TRACE_EVENT(" ch mode %d, subnd %d, nb blk %d, alloc %d, rate %d, freq %d", btif_media_cb.encoder.s16ChannelMode, btif_media_cb.encoder.s16NumOfSubBands, btif_media_cb.encoder.s16NumOfBlocks, btif_media_cb.encoder.s16AllocationMethod, btif_media_cb.encoder.u16BitRate, btif_media_cb.encoder.s16SamplingFreq); /* Reset entirely the SBC encoder */ SBC_Encoder_Init(&(btif_media_cb.encoder)); APPL_TRACE_DEBUG("btif_media_task_enc_init bit pool %d", btif_media_cb.encoder.s16BitPool); } /******************************************************************************* ** ** Function btif_media_task_enc_update ** ** Description Update encoding task ** ** Returns void ** *******************************************************************************/ static void btif_media_task_enc_update(BT_HDR *p_msg) { tBTIF_MEDIA_UPDATE_AUDIO * pUpdateAudio = (tBTIF_MEDIA_UPDATE_AUDIO *) p_msg; SBC_ENC_PARAMS *pstrEncParams = &btif_media_cb.encoder; UINT16 s16SamplingFreq; SINT16 s16BitPool = 0; SINT16 s16BitRate; SINT16 s16FrameLen; UINT8 protect = 0; APPL_TRACE_DEBUG("btif_media_task_enc_update : minmtu %d, maxbp %d minbp %d", pUpdateAudio->MinMtuSize, pUpdateAudio->MaxBitPool, pUpdateAudio->MinBitPool); /* Only update the bitrate and MTU size while timer is running to make sure it has been initialized */ //if (btif_media_cb.is_tx_timer) { btif_media_cb.TxAaMtuSize = ((BTIF_MEDIA_AA_BUF_SIZE - BTIF_MEDIA_AA_SBC_OFFSET - sizeof(BT_HDR)) < pUpdateAudio->MinMtuSize) ? (BTIF_MEDIA_AA_BUF_SIZE - BTIF_MEDIA_AA_SBC_OFFSET - sizeof(BT_HDR)) : pUpdateAudio->MinMtuSize; /* Set the initial target bit rate */ pstrEncParams->u16BitRate = btif_media_task_get_sbc_rate(); if (pstrEncParams->s16SamplingFreq == SBC_sf16000) s16SamplingFreq = 16000; else if (pstrEncParams->s16SamplingFreq == SBC_sf32000) s16SamplingFreq = 32000; else if (pstrEncParams->s16SamplingFreq == SBC_sf44100) s16SamplingFreq = 44100; else s16SamplingFreq = 48000; do { if (pstrEncParams->s16NumOfBlocks == 0 || pstrEncParams->s16NumOfSubBands == 0 || pstrEncParams->s16NumOfChannels == 0) { APPL_TRACE_ERROR("btif_media_task_enc_update() - Avoiding division by zero..."); APPL_TRACE_ERROR("btif_media_task_enc_update() - block=%d, subBands=%d, channels=%d", pstrEncParams->s16NumOfBlocks, pstrEncParams->s16NumOfSubBands, pstrEncParams->s16NumOfChannels); break; } if ((pstrEncParams->s16ChannelMode == SBC_JOINT_STEREO) || (pstrEncParams->s16ChannelMode == SBC_STEREO) ) { s16BitPool = (SINT16)( (pstrEncParams->u16BitRate * pstrEncParams->s16NumOfSubBands * 1000 / s16SamplingFreq) -( (32 + (4 * pstrEncParams->s16NumOfSubBands * pstrEncParams->s16NumOfChannels) + ( (pstrEncParams->s16ChannelMode - 2) * pstrEncParams->s16NumOfSubBands ) ) / pstrEncParams->s16NumOfBlocks) ); s16FrameLen = 4 + (4*pstrEncParams->s16NumOfSubBands* pstrEncParams->s16NumOfChannels)/8 + ( ((pstrEncParams->s16ChannelMode - 2) * pstrEncParams->s16NumOfSubBands) + (pstrEncParams->s16NumOfBlocks * s16BitPool) ) / 8; s16BitRate = (8 * s16FrameLen * s16SamplingFreq) / (pstrEncParams->s16NumOfSubBands * pstrEncParams->s16NumOfBlocks * 1000); if (s16BitRate > pstrEncParams->u16BitRate) s16BitPool--; if(pstrEncParams->s16NumOfSubBands == 8) s16BitPool = (s16BitPool > 255) ? 255 : s16BitPool; else s16BitPool = (s16BitPool > 128) ? 128 : s16BitPool; } else { s16BitPool = (SINT16)( ((pstrEncParams->s16NumOfSubBands * pstrEncParams->u16BitRate * 1000) / (s16SamplingFreq * pstrEncParams->s16NumOfChannels)) -( ( (32 / pstrEncParams->s16NumOfChannels) + (4 * pstrEncParams->s16NumOfSubBands) ) / pstrEncParams->s16NumOfBlocks ) ); pstrEncParams->s16BitPool = (s16BitPool > (16 * pstrEncParams->s16NumOfSubBands)) ? (16*pstrEncParams->s16NumOfSubBands) : s16BitPool; } if (s16BitPool < 0) { s16BitPool = 0; } APPL_TRACE_EVENT("bitpool candidate : %d (%d kbps)", s16BitPool, pstrEncParams->u16BitRate); if (s16BitPool > pUpdateAudio->MaxBitPool) { APPL_TRACE_DEBUG("btif_media_task_enc_update computed bitpool too large (%d)", s16BitPool); /* Decrease bitrate */ btif_media_cb.encoder.u16BitRate -= BTIF_MEDIA_BITRATE_STEP; /* Record that we have decreased the bitrate */ protect |= 1; } else if (s16BitPool < pUpdateAudio->MinBitPool) { APPL_TRACE_WARNING("btif_media_task_enc_update computed bitpool too small (%d)", s16BitPool); /* Increase bitrate */ UINT16 previous_u16BitRate = btif_media_cb.encoder.u16BitRate; btif_media_cb.encoder.u16BitRate += BTIF_MEDIA_BITRATE_STEP; /* Record that we have increased the bitrate */ protect |= 2; /* Check over-flow */ if (btif_media_cb.encoder.u16BitRate < previous_u16BitRate) protect |= 3; } else { break; } /* In case we have already increased and decreased the bitrate, just stop */ if (protect == 3) { APPL_TRACE_ERROR("btif_media_task_enc_update could not find bitpool in range"); break; } } while (1); /* Finally update the bitpool in the encoder structure */ pstrEncParams->s16BitPool = s16BitPool; APPL_TRACE_DEBUG("btif_media_task_enc_update final bit rate %d, final bit pool %d", btif_media_cb.encoder.u16BitRate, btif_media_cb.encoder.s16BitPool); /* make sure we reinitialize encoder with new settings */ SBC_Encoder_Init(&(btif_media_cb.encoder)); } } /******************************************************************************* ** ** Function btif_media_task_pcm2sbc_init ** ** Description Init encoding task for PCM to SBC according to feeding ** ** Returns void ** *******************************************************************************/ static void btif_media_task_pcm2sbc_init(tBTIF_MEDIA_INIT_AUDIO_FEEDING * p_feeding) { BOOLEAN reconfig_needed = FALSE; APPL_TRACE_DEBUG("PCM feeding:"); APPL_TRACE_DEBUG("sampling_freq:%d", p_feeding->feeding.cfg.pcm.sampling_freq); APPL_TRACE_DEBUG("num_channel:%d", p_feeding->feeding.cfg.pcm.num_channel); APPL_TRACE_DEBUG("bit_per_sample:%d", p_feeding->feeding.cfg.pcm.bit_per_sample); /* Check the PCM feeding sampling_freq */ switch (p_feeding->feeding.cfg.pcm.sampling_freq) { case 8000: case 12000: case 16000: case 24000: case 32000: case 48000: /* For these sampling_freq the AV connection must be 48000 */ if (btif_media_cb.encoder.s16SamplingFreq != SBC_sf48000) { /* Reconfiguration needed at 48000 */ APPL_TRACE_DEBUG("SBC Reconfiguration needed at 48000"); btif_media_cb.encoder.s16SamplingFreq = SBC_sf48000; reconfig_needed = TRUE; } break; case 11025: case 22050: case 44100: /* For these sampling_freq the AV connection must be 44100 */ if (btif_media_cb.encoder.s16SamplingFreq != SBC_sf44100) { /* Reconfiguration needed at 44100 */ APPL_TRACE_DEBUG("SBC Reconfiguration needed at 44100"); btif_media_cb.encoder.s16SamplingFreq = SBC_sf44100; reconfig_needed = TRUE; } break; default: APPL_TRACE_DEBUG("Feeding PCM sampling_freq unsupported"); break; } /* Some AV Headsets do not support Mono => always ask for Stereo */ if (btif_media_cb.encoder.s16ChannelMode == SBC_MONO) { APPL_TRACE_DEBUG("SBC Reconfiguration needed in Stereo"); btif_media_cb.encoder.s16ChannelMode = SBC_JOINT_STEREO; reconfig_needed = TRUE; } if (reconfig_needed != FALSE) { APPL_TRACE_DEBUG("btif_media_task_pcm2sbc_init :: mtu %d", btif_media_cb.TxAaMtuSize); APPL_TRACE_DEBUG("ch mode %d, nbsubd %d, nb %d, alloc %d, rate %d, freq %d", btif_media_cb.encoder.s16ChannelMode, btif_media_cb.encoder.s16NumOfSubBands, btif_media_cb.encoder.s16NumOfBlocks, btif_media_cb.encoder.s16AllocationMethod, btif_media_cb.encoder.u16BitRate, btif_media_cb.encoder.s16SamplingFreq); SBC_Encoder_Init(&(btif_media_cb.encoder)); } else { APPL_TRACE_DEBUG("btif_media_task_pcm2sbc_init no SBC reconfig needed"); } } /******************************************************************************* ** ** Function btif_media_task_audio_feeding_init ** ** Description Initialize the audio path according to the feeding format ** ** Returns void ** *******************************************************************************/ static void btif_media_task_audio_feeding_init(BT_HDR *p_msg) { tBTIF_MEDIA_INIT_AUDIO_FEEDING *p_feeding = (tBTIF_MEDIA_INIT_AUDIO_FEEDING *) p_msg; APPL_TRACE_DEBUG("btif_media_task_audio_feeding_init format:%d", p_feeding->feeding.format); /* Save Media Feeding information */ btif_media_cb.feeding_mode = p_feeding->feeding_mode; btif_media_cb.media_feeding = p_feeding->feeding; /* Handle different feeding formats */ switch (p_feeding->feeding.format) { case BTIF_AV_CODEC_PCM: btif_media_cb.TxTranscoding = BTIF_MEDIA_TRSCD_PCM_2_SBC; btif_media_task_pcm2sbc_init(p_feeding); break; default : APPL_TRACE_ERROR("unknown feeding format %d", p_feeding->feeding.format); break; } } int btif_a2dp_get_track_frequency(UINT8 frequency) { int freq = 48000; switch (frequency) { case A2D_SBC_IE_SAMP_FREQ_16: freq = 16000; break; case A2D_SBC_IE_SAMP_FREQ_32: freq = 32000; break; case A2D_SBC_IE_SAMP_FREQ_44: freq = 44100; break; case A2D_SBC_IE_SAMP_FREQ_48: freq = 48000; break; } return freq; } int btif_a2dp_get_track_channel_count(UINT8 channeltype) { int count = 1; switch (channeltype) { case A2D_SBC_IE_CH_MD_MONO: count = 1; break; case A2D_SBC_IE_CH_MD_DUAL: case A2D_SBC_IE_CH_MD_STEREO: case A2D_SBC_IE_CH_MD_JOINT: count = 2; break; } return count; } void btif_a2dp_set_peer_sep(UINT8 sep) { btif_media_cb.peer_sep = sep; } static void btif_decode_alarm_cb(UNUSED_ATTR void *context) { thread_post(worker_thread, btif_media_task_avk_handle_timer, NULL); } static void btif_media_task_aa_handle_stop_decoding(void) { alarm_free(btif_media_cb.decode_alarm); btif_media_cb.decode_alarm = NULL; } static void btif_media_task_aa_handle_start_decoding(void) { if (btif_media_cb.decode_alarm) return; btif_media_cb.decode_alarm = alarm_new(); if (!btif_media_cb.decode_alarm) { LOG_ERROR("%s unable to allocate decode alarm.", __func__); return; } alarm_set_periodic(btif_media_cb.decode_alarm, BTIF_SINK_MEDIA_TIME_TICK, btif_decode_alarm_cb, NULL); } #if (BTA_AV_SINK_INCLUDED == TRUE) static void btif_media_task_aa_handle_clear_track (void) { APPL_TRACE_DEBUG("btif_media_task_aa_handle_clear_track"); } /******************************************************************************* ** ** Function btif_media_task_aa_handle_decoder_reset ** ** Description ** ** Returns void ** *******************************************************************************/ static void btif_media_task_aa_handle_decoder_reset(BT_HDR *p_msg) { tBTIF_MEDIA_SINK_CFG_UPDATE *p_buf = (tBTIF_MEDIA_SINK_CFG_UPDATE*) p_msg; tA2D_STATUS a2d_status; tA2D_SBC_CIE sbc_cie; OI_STATUS status; UINT32 freq_multiple = 48*20; /* frequency multiple for 20ms of data , initialize with 48K*/ UINT32 num_blocks = 16; UINT32 num_subbands = 8; APPL_TRACE_DEBUG("btif_media_task_aa_handle_decoder_reset p_codec_info[%x:%x:%x:%x:%x:%x]", p_buf->codec_info[1], p_buf->codec_info[2], p_buf->codec_info[3], p_buf->codec_info[4], p_buf->codec_info[5], p_buf->codec_info[6]); a2d_status = A2D_ParsSbcInfo(&sbc_cie, p_buf->codec_info, FALSE); if (a2d_status != A2D_SUCCESS) { APPL_TRACE_ERROR("ERROR dump_codec_info A2D_ParsSbcInfo fail:%d", a2d_status); return; } btif_media_cb.sample_rate = btif_a2dp_get_track_frequency(sbc_cie.samp_freq); btif_media_cb.channel_count = btif_a2dp_get_track_channel_count(sbc_cie.ch_mode); btif_media_cb.rx_flush = FALSE; APPL_TRACE_DEBUG("Reset to sink role"); status = OI_CODEC_SBC_DecoderReset(&context, contextData, sizeof(contextData), 2, 2, FALSE); if (!OI_SUCCESS(status)) { APPL_TRACE_ERROR("OI_CODEC_SBC_DecoderReset failed with error code %d\n", status); } UIPC_Open(UIPC_CH_ID_AV_AUDIO, btif_a2dp_data_cb); switch(sbc_cie.samp_freq) { case A2D_SBC_IE_SAMP_FREQ_16: APPL_TRACE_DEBUG("\tsamp_freq:%d (16000)", sbc_cie.samp_freq); freq_multiple = 16*20; break; case A2D_SBC_IE_SAMP_FREQ_32: APPL_TRACE_DEBUG("\tsamp_freq:%d (32000)", sbc_cie.samp_freq); freq_multiple = 32*20; break; case A2D_SBC_IE_SAMP_FREQ_44: APPL_TRACE_DEBUG("\tsamp_freq:%d (44100)", sbc_cie.samp_freq); freq_multiple = 441*2; break; case A2D_SBC_IE_SAMP_FREQ_48: APPL_TRACE_DEBUG("\tsamp_freq:%d (48000)", sbc_cie.samp_freq); freq_multiple = 48*20; break; default: APPL_TRACE_DEBUG(" Unknown Frequency "); break; } switch(sbc_cie.ch_mode) { case A2D_SBC_IE_CH_MD_MONO: APPL_TRACE_DEBUG("\tch_mode:%d (Mono)", sbc_cie.ch_mode); break; case A2D_SBC_IE_CH_MD_DUAL: APPL_TRACE_DEBUG("\tch_mode:%d (DUAL)", sbc_cie.ch_mode); break; case A2D_SBC_IE_CH_MD_STEREO: APPL_TRACE_DEBUG("\tch_mode:%d (STEREO)", sbc_cie.ch_mode); break; case A2D_SBC_IE_CH_MD_JOINT: APPL_TRACE_DEBUG("\tch_mode:%d (JOINT)", sbc_cie.ch_mode); break; default: APPL_TRACE_DEBUG(" Unknown Mode "); break; } switch(sbc_cie.block_len) { case A2D_SBC_IE_BLOCKS_4: APPL_TRACE_DEBUG("\tblock_len:%d (4)", sbc_cie.block_len); num_blocks = 4; break; case A2D_SBC_IE_BLOCKS_8: APPL_TRACE_DEBUG("\tblock_len:%d (8)", sbc_cie.block_len); num_blocks = 8; break; case A2D_SBC_IE_BLOCKS_12: APPL_TRACE_DEBUG("\tblock_len:%d (12)", sbc_cie.block_len); num_blocks = 12; break; case A2D_SBC_IE_BLOCKS_16: APPL_TRACE_DEBUG("\tblock_len:%d (16)", sbc_cie.block_len); num_blocks = 16; break; default: APPL_TRACE_DEBUG(" Unknown BlockLen "); break; } switch(sbc_cie.num_subbands) { case A2D_SBC_IE_SUBBAND_4: APPL_TRACE_DEBUG("\tnum_subbands:%d (4)", sbc_cie.num_subbands); num_subbands = 4; break; case A2D_SBC_IE_SUBBAND_8: APPL_TRACE_DEBUG("\tnum_subbands:%d (8)", sbc_cie.num_subbands); num_subbands = 8; break; default: APPL_TRACE_DEBUG(" Unknown SubBands "); break; } switch(sbc_cie.alloc_mthd) { case A2D_SBC_IE_ALLOC_MD_S: APPL_TRACE_DEBUG("\talloc_mthd:%d (SNR)", sbc_cie.alloc_mthd); break; case A2D_SBC_IE_ALLOC_MD_L: APPL_TRACE_DEBUG("\talloc_mthd:%d (Loudness)", sbc_cie.alloc_mthd); break; default: APPL_TRACE_DEBUG(" Unknown Allocation Method"); break; } APPL_TRACE_DEBUG("\tBit pool Min:%d Max:%d", sbc_cie.min_bitpool, sbc_cie.max_bitpool); btif_media_cb.frames_to_process = ((freq_multiple)/(num_blocks*num_subbands)) + 1; APPL_TRACE_DEBUG(" Frames to be processed in 20 ms %d",btif_media_cb.frames_to_process); } #endif /******************************************************************************* ** ** Function btif_media_task_feeding_state_reset ** ** Description Reset the media feeding state ** ** Returns void ** *******************************************************************************/ static void btif_media_task_feeding_state_reset(void) { /* By default, just clear the entire state */ memset(&btif_media_cb.media_feeding_state, 0, sizeof(btif_media_cb.media_feeding_state)); if (btif_media_cb.TxTranscoding == BTIF_MEDIA_TRSCD_PCM_2_SBC) { btif_media_cb.media_feeding_state.pcm.bytes_per_tick = (btif_media_cb.media_feeding.cfg.pcm.sampling_freq * btif_media_cb.media_feeding.cfg.pcm.bit_per_sample / 8 * btif_media_cb.media_feeding.cfg.pcm.num_channel * BTIF_MEDIA_TIME_TICK)/1000; APPL_TRACE_WARNING("pcm bytes per tick %d", (int)btif_media_cb.media_feeding_state.pcm.bytes_per_tick); } } static void btif_media_task_alarm_cb(UNUSED_ATTR void *context) { thread_post(worker_thread, btif_media_task_aa_handle_timer, NULL); } /******************************************************************************* ** ** Function btif_media_task_aa_start_tx ** ** Description Start media task encoding ** ** Returns void ** *******************************************************************************/ static void btif_media_task_aa_start_tx(void) { APPL_TRACE_DEBUG("btif_media_task_aa_start_tx is timer %d, feeding mode %d", btif_media_cb.is_tx_timer, btif_media_cb.feeding_mode); /* Use a timer to poll the UIPC, get rid of the UIPC call back */ // UIPC_Ioctl(UIPC_CH_ID_AV_AUDIO, UIPC_REG_CBACK, NULL); btif_media_cb.is_tx_timer = TRUE; last_frame_us = 0; /* Reset the media feeding state */ btif_media_task_feeding_state_reset(); APPL_TRACE_EVENT("starting timer %dms", BTIF_MEDIA_TIME_TICK); assert(btif_media_cb.media_alarm == NULL); btif_media_cb.media_alarm = alarm_new(); if (!btif_media_cb.media_alarm) { LOG_ERROR("%s unable to allocate media alarm.", __func__); return; } alarm_set_periodic(btif_media_cb.media_alarm, BTIF_MEDIA_TIME_TICK, btif_media_task_alarm_cb, NULL); } /******************************************************************************* ** ** Function btif_media_task_aa_stop_tx ** ** Description Stop media task encoding ** ** Returns void ** *******************************************************************************/ static void btif_media_task_aa_stop_tx(void) { APPL_TRACE_DEBUG("%s is_tx_timer: %d", __func__, btif_media_cb.is_tx_timer); const bool send_ack = (btif_media_cb.is_tx_timer != FALSE); /* Stop the timer first */ alarm_free(btif_media_cb.media_alarm); btif_media_cb.media_alarm = NULL; btif_media_cb.is_tx_timer = FALSE; UIPC_Close(UIPC_CH_ID_AV_AUDIO); /* Try to send acknowldegment once the media stream is stopped. This will make sure that the A2DP HAL layer is un-blocked on wait for acknowledgment for the sent command. This resolves a corner cases AVDTP SUSPEND collision when the DUT and the remote device issue SUSPEND simultaneously and due to the processing of the SUSPEND request from the remote, the media path is torn down. If the A2DP HAL happens to wait for ACK for the initiated SUSPEND, it would never receive it casuing a block/wait. Due to this acknowledgement, the A2DP HAL is guranteed to get the ACK for any pending command in such cases. */ if (send_ack) a2dp_cmd_acknowledge(A2DP_CTRL_ACK_SUCCESS); /* audio engine stopped, reset tx suspended flag */ btif_media_cb.tx_flush = 0; last_frame_us = 0; /* Reset the media feeding state */ btif_media_task_feeding_state_reset(); } /******************************************************************************* ** ** Function btif_get_num_aa_frame ** ** Description ** ** Returns The number of media frames in this time slice ** *******************************************************************************/ static UINT8 btif_get_num_aa_frame(void) { UINT8 result=0; switch (btif_media_cb.TxTranscoding) { case BTIF_MEDIA_TRSCD_PCM_2_SBC: { UINT32 pcm_bytes_per_frame = btif_media_cb.encoder.s16NumOfSubBands * btif_media_cb.encoder.s16NumOfBlocks * btif_media_cb.media_feeding.cfg.pcm.num_channel * btif_media_cb.media_feeding.cfg.pcm.bit_per_sample / 8; UINT32 us_this_tick = BTIF_MEDIA_TIME_TICK * 1000; UINT64 now_us = time_now_us(); if (last_frame_us != 0) us_this_tick = (now_us - last_frame_us); last_frame_us = now_us; btif_media_cb.media_feeding_state.pcm.counter += btif_media_cb.media_feeding_state.pcm.bytes_per_tick * us_this_tick / (BTIF_MEDIA_TIME_TICK * 1000); /* calculate nbr of frames pending for this media tick */ result = btif_media_cb.media_feeding_state.pcm.counter/pcm_bytes_per_frame; if (result > MAX_PCM_FRAME_NUM_PER_TICK) { APPL_TRACE_WARNING("%s() - Limiting frames to be sent from %d to %d" , __FUNCTION__, result, MAX_PCM_FRAME_NUM_PER_TICK); result = MAX_PCM_FRAME_NUM_PER_TICK; } btif_media_cb.media_feeding_state.pcm.counter -= result*pcm_bytes_per_frame; LOG_VERBOSE("WRITE %d FRAMES", result); } break; default: APPL_TRACE_ERROR("ERROR btif_get_num_aa_frame Unsupported transcoding format 0x%x", btif_media_cb.TxTranscoding); result = 0; break; } return (UINT8)result; } /******************************************************************************* ** ** Function btif_media_sink_enque_buf ** ** Description This function is called by the av_co to fill A2DP Sink Queue ** ** ** Returns size of the queue *******************************************************************************/ UINT8 btif_media_sink_enque_buf(BT_HDR *p_pkt) { tBT_SBC_HDR *p_msg; if(btif_media_cb.rx_flush == TRUE) /* Flush enabled, do not enque*/ return GKI_queue_length(&btif_media_cb.RxSbcQ); if(GKI_queue_length(&btif_media_cb.RxSbcQ) == MAX_OUTPUT_A2DP_FRAME_QUEUE_SZ) { GKI_freebuf(GKI_dequeue(&(btif_media_cb.RxSbcQ))); } BTIF_TRACE_VERBOSE("btif_media_sink_enque_buf + "); /* allocate and Queue this buffer */ if ((p_msg = (tBT_SBC_HDR *) GKI_getbuf(sizeof(tBT_SBC_HDR) + p_pkt->offset+ p_pkt->len)) != NULL) { memcpy(p_msg, p_pkt, (sizeof(BT_HDR) + p_pkt->offset + p_pkt->len)); p_msg->num_frames_to_be_processed = (*((UINT8*)(p_msg + 1) + p_msg->offset)) & 0x0f; BTIF_TRACE_VERBOSE("btif_media_sink_enque_buf + ", p_msg->num_frames_to_be_processed); GKI_enqueue(&(btif_media_cb.RxSbcQ), p_msg); if(GKI_queue_length(&btif_media_cb.RxSbcQ) == MAX_A2DP_DELAYED_START_FRAME_COUNT) { BTIF_TRACE_DEBUG(" Initiate Decoding "); btif_media_task_aa_handle_start_decoding(); } } else { /* let caller deal with a failed allocation */ BTIF_TRACE_VERBOSE("btif_media_sink_enque_buf No Buffer left - "); } return GKI_queue_length(&btif_media_cb.RxSbcQ); } /******************************************************************************* ** ** Function btif_media_aa_readbuf ** ** Description This function is called by the av_co to get the next buffer to send ** ** ** Returns void *******************************************************************************/ BT_HDR *btif_media_aa_readbuf(void) { return GKI_dequeue(&(btif_media_cb.TxAaQ)); } /******************************************************************************* ** ** Function btif_media_aa_read_feeding ** ** Description ** ** Returns void ** *******************************************************************************/ BOOLEAN btif_media_aa_read_feeding(tUIPC_CH_ID channel_id) { UINT16 event; UINT16 blocm_x_subband = btif_media_cb.encoder.s16NumOfSubBands * \ btif_media_cb.encoder.s16NumOfBlocks; UINT32 read_size; UINT16 sbc_sampling = 48000; UINT32 src_samples; UINT16 bytes_needed = blocm_x_subband * btif_media_cb.encoder.s16NumOfChannels * \ btif_media_cb.media_feeding.cfg.pcm.bit_per_sample / 8; static UINT16 up_sampled_buffer[SBC_MAX_NUM_FRAME * SBC_MAX_NUM_OF_BLOCKS * SBC_MAX_NUM_OF_CHANNELS * SBC_MAX_NUM_OF_SUBBANDS * 2]; static UINT16 read_buffer[SBC_MAX_NUM_FRAME * SBC_MAX_NUM_OF_BLOCKS * SBC_MAX_NUM_OF_CHANNELS * SBC_MAX_NUM_OF_SUBBANDS]; UINT32 src_size_used; UINT32 dst_size_used; BOOLEAN fract_needed; INT32 fract_max; INT32 fract_threshold; UINT32 nb_byte_read; /* Get the SBC sampling rate */ switch (btif_media_cb.encoder.s16SamplingFreq) { case SBC_sf48000: sbc_sampling = 48000; break; case SBC_sf44100: sbc_sampling = 44100; break; case SBC_sf32000: sbc_sampling = 32000; break; case SBC_sf16000: sbc_sampling = 16000; break; } if (sbc_sampling == btif_media_cb.media_feeding.cfg.pcm.sampling_freq) { read_size = bytes_needed - btif_media_cb.media_feeding_state.pcm.aa_feed_residue; nb_byte_read = UIPC_Read(channel_id, &event, ((UINT8 *)btif_media_cb.encoder.as16PcmBuffer) + btif_media_cb.media_feeding_state.pcm.aa_feed_residue, read_size); if (nb_byte_read == read_size) { btif_media_cb.media_feeding_state.pcm.aa_feed_residue = 0; return TRUE; } else { APPL_TRACE_WARNING("### UNDERFLOW :: ONLY READ %d BYTES OUT OF %d ###", nb_byte_read, read_size); btif_media_cb.media_feeding_state.pcm.aa_feed_residue += nb_byte_read; return FALSE; } } /* Some Feeding PCM frequencies require to split the number of sample */ /* to read. */ /* E.g 128/6=21.3333 => read 22 and 21 and 21 => max = 2; threshold = 0*/ fract_needed = FALSE; /* Default */ switch (btif_media_cb.media_feeding.cfg.pcm.sampling_freq) { case 32000: case 8000: fract_needed = TRUE; fract_max = 2; /* 0, 1 and 2 */ fract_threshold = 0; /* Add one for the first */ break; case 16000: fract_needed = TRUE; fract_max = 2; /* 0, 1 and 2 */ fract_threshold = 1; /* Add one for the first two frames*/ break; } /* Compute number of sample to read from source */ src_samples = blocm_x_subband; src_samples *= btif_media_cb.media_feeding.cfg.pcm.sampling_freq; src_samples /= sbc_sampling; /* The previous division may have a remainder not null */ if (fract_needed) { if (btif_media_cb.media_feeding_state.pcm.aa_feed_counter <= fract_threshold) { src_samples++; /* for every read before threshold add one sample */ } /* do nothing if counter >= threshold */ btif_media_cb.media_feeding_state.pcm.aa_feed_counter++; /* one more read */ if (btif_media_cb.media_feeding_state.pcm.aa_feed_counter > fract_max) { btif_media_cb.media_feeding_state.pcm.aa_feed_counter = 0; } } /* Compute number of bytes to read from source */ read_size = src_samples; read_size *= btif_media_cb.media_feeding.cfg.pcm.num_channel; read_size *= (btif_media_cb.media_feeding.cfg.pcm.bit_per_sample / 8); /* Read Data from UIPC channel */ nb_byte_read = UIPC_Read(channel_id, &event, (UINT8 *)read_buffer, read_size); //tput_mon(TRUE, nb_byte_read, FALSE); if (nb_byte_read < read_size) { APPL_TRACE_WARNING("### UNDERRUN :: ONLY READ %d BYTES OUT OF %d ###", nb_byte_read, read_size); if (nb_byte_read == 0) return FALSE; if(btif_media_cb.feeding_mode == BTIF_AV_FEEDING_ASYNCHRONOUS) { /* Fill the unfilled part of the read buffer with silence (0) */ memset(((UINT8 *)read_buffer) + nb_byte_read, 0, read_size - nb_byte_read); nb_byte_read = read_size; } } /* Initialize PCM up-sampling engine */ bta_av_sbc_init_up_sample(btif_media_cb.media_feeding.cfg.pcm.sampling_freq, sbc_sampling, btif_media_cb.media_feeding.cfg.pcm.bit_per_sample, btif_media_cb.media_feeding.cfg.pcm.num_channel); /* re-sample read buffer */ /* The output PCM buffer will be stereo, 16 bit per sample */ dst_size_used = bta_av_sbc_up_sample((UINT8 *)read_buffer, (UINT8 *)up_sampled_buffer + btif_media_cb.media_feeding_state.pcm.aa_feed_residue, nb_byte_read, sizeof(up_sampled_buffer) - btif_media_cb.media_feeding_state.pcm.aa_feed_residue, &src_size_used); /* update the residue */ btif_media_cb.media_feeding_state.pcm.aa_feed_residue += dst_size_used; /* only copy the pcm sample when we have up-sampled enough PCM */ if(btif_media_cb.media_feeding_state.pcm.aa_feed_residue >= bytes_needed) { /* Copy the output pcm samples in SBC encoding buffer */ memcpy((UINT8 *)btif_media_cb.encoder.as16PcmBuffer, (UINT8 *)up_sampled_buffer, bytes_needed); /* update the residue */ btif_media_cb.media_feeding_state.pcm.aa_feed_residue -= bytes_needed; if (btif_media_cb.media_feeding_state.pcm.aa_feed_residue != 0) { memcpy((UINT8 *)up_sampled_buffer, (UINT8 *)up_sampled_buffer + bytes_needed, btif_media_cb.media_feeding_state.pcm.aa_feed_residue); } return TRUE; } return FALSE; } /******************************************************************************* ** ** Function btif_media_aa_prep_sbc_2_send ** ** Description ** ** Returns void ** *******************************************************************************/ static void btif_media_aa_prep_sbc_2_send(UINT8 nb_frame) { BT_HDR * p_buf; UINT16 blocm_x_subband = btif_media_cb.encoder.s16NumOfSubBands * btif_media_cb.encoder.s16NumOfBlocks; while (nb_frame) { if (NULL == (p_buf = GKI_getpoolbuf(BTIF_MEDIA_AA_POOL_ID))) { APPL_TRACE_ERROR ("ERROR btif_media_aa_prep_sbc_2_send no buffer TxCnt %d ", GKI_queue_length(&btif_media_cb.TxAaQ)); return; } /* Init buffer */ p_buf->offset = BTIF_MEDIA_AA_SBC_OFFSET; p_buf->len = 0; p_buf->layer_specific = 0; do { /* Write @ of allocated buffer in encoder.pu8Packet */ btif_media_cb.encoder.pu8Packet = (UINT8 *) (p_buf + 1) + p_buf->offset + p_buf->len; /* Fill allocated buffer with 0 */ memset(btif_media_cb.encoder.as16PcmBuffer, 0, blocm_x_subband * btif_media_cb.encoder.s16NumOfChannels); /* Read PCM data and upsample them if needed */ if (btif_media_aa_read_feeding(UIPC_CH_ID_AV_AUDIO)) { /* SBC encode and descramble frame */ SBC_Encoder(&(btif_media_cb.encoder)); A2D_SbcChkFrInit(btif_media_cb.encoder.pu8Packet); A2D_SbcDescramble(btif_media_cb.encoder.pu8Packet, btif_media_cb.encoder.u16PacketLength); /* Update SBC frame length */ p_buf->len += btif_media_cb.encoder.u16PacketLength; nb_frame--; p_buf->layer_specific++; } else { APPL_TRACE_WARNING("btif_media_aa_prep_sbc_2_send underflow %d, %d", nb_frame, btif_media_cb.media_feeding_state.pcm.aa_feed_residue); btif_media_cb.media_feeding_state.pcm.counter += nb_frame * btif_media_cb.encoder.s16NumOfSubBands * btif_media_cb.encoder.s16NumOfBlocks * btif_media_cb.media_feeding.cfg.pcm.num_channel * btif_media_cb.media_feeding.cfg.pcm.bit_per_sample / 8; /* no more pcm to read */ nb_frame = 0; /* break read loop if timer was stopped (media task stopped) */ if ( btif_media_cb.is_tx_timer == FALSE ) { GKI_freebuf(p_buf); return; } } } while (((p_buf->len + btif_media_cb.encoder.u16PacketLength) < btif_media_cb.TxAaMtuSize) && (p_buf->layer_specific < 0x0F) && nb_frame); if(p_buf->len) { /* timestamp of the media packet header represent the TS of the first SBC frame i.e the timestamp before including this frame */ *((UINT32 *) (p_buf + 1)) = btif_media_cb.timestamp; btif_media_cb.timestamp += p_buf->layer_specific * blocm_x_subband; if (btif_media_cb.tx_flush) { APPL_TRACE_DEBUG("### tx suspended, discarded frame ###"); if (GKI_queue_length(&btif_media_cb.TxAaQ) > 0) btif_media_flush_q(&(btif_media_cb.TxAaQ)); GKI_freebuf(p_buf); return; } /* Enqueue the encoded SBC frame in AA Tx Queue */ GKI_enqueue(&(btif_media_cb.TxAaQ), p_buf); } else { GKI_freebuf(p_buf); } } } /******************************************************************************* ** ** Function btif_media_aa_prep_2_send ** ** Description ** ** Returns void ** *******************************************************************************/ static void btif_media_aa_prep_2_send(UINT8 nb_frame) { // Check for TX queue overflow if (nb_frame > MAX_OUTPUT_A2DP_FRAME_QUEUE_SZ) nb_frame = MAX_OUTPUT_A2DP_FRAME_QUEUE_SZ; if (GKI_queue_length(&btif_media_cb.TxAaQ) > (MAX_OUTPUT_A2DP_FRAME_QUEUE_SZ - nb_frame)) { APPL_TRACE_WARNING("%s() - TX queue buffer count %d/%d", __func__, GKI_queue_length(&btif_media_cb.TxAaQ), MAX_OUTPUT_A2DP_FRAME_QUEUE_SZ - nb_frame); } while (GKI_queue_length(&btif_media_cb.TxAaQ) > (MAX_OUTPUT_A2DP_FRAME_QUEUE_SZ - nb_frame)) GKI_freebuf(GKI_dequeue(&(btif_media_cb.TxAaQ))); // Transcode frame switch (btif_media_cb.TxTranscoding) { case BTIF_MEDIA_TRSCD_PCM_2_SBC: btif_media_aa_prep_sbc_2_send(nb_frame); break; default: APPL_TRACE_ERROR("%s unsupported transcoding format 0x%x", __func__, btif_media_cb.TxTranscoding); break; } } /******************************************************************************* ** ** Function btif_media_send_aa_frame ** ** Description ** ** Returns void ** *******************************************************************************/ static void btif_media_send_aa_frame(void) { UINT8 nb_frame_2_send; /* get the number of frame to send */ nb_frame_2_send = btif_get_num_aa_frame(); if (nb_frame_2_send != 0) { /* format and Q buffer to send */ btif_media_aa_prep_2_send(nb_frame_2_send); } /* send it */ LOG_VERBOSE("btif_media_send_aa_frame : send %d frames", nb_frame_2_send); bta_av_ci_src_data_ready(BTA_AV_CHNL_AUDIO); } #endif /* BTA_AV_INCLUDED == TRUE */ /******************************************************************************* ** ** Function dump_codec_info ** ** Description Decode and display codec_info (for debug) ** ** Returns void ** *******************************************************************************/ void dump_codec_info(unsigned char *p_codec) { tA2D_STATUS a2d_status; tA2D_SBC_CIE sbc_cie; a2d_status = A2D_ParsSbcInfo(&sbc_cie, p_codec, FALSE); if (a2d_status != A2D_SUCCESS) { APPL_TRACE_ERROR("ERROR dump_codec_info A2D_ParsSbcInfo fail:%d", a2d_status); return; } APPL_TRACE_DEBUG("dump_codec_info"); if (sbc_cie.samp_freq == A2D_SBC_IE_SAMP_FREQ_16) { APPL_TRACE_DEBUG("\tsamp_freq:%d (16000)", sbc_cie.samp_freq);} else if (sbc_cie.samp_freq == A2D_SBC_IE_SAMP_FREQ_32) { APPL_TRACE_DEBUG("\tsamp_freq:%d (32000)", sbc_cie.samp_freq);} else if (sbc_cie.samp_freq == A2D_SBC_IE_SAMP_FREQ_44) { APPL_TRACE_DEBUG("\tsamp_freq:%d (44.100)", sbc_cie.samp_freq);} else if (sbc_cie.samp_freq == A2D_SBC_IE_SAMP_FREQ_48) { APPL_TRACE_DEBUG("\tsamp_freq:%d (48000)", sbc_cie.samp_freq);} else { APPL_TRACE_DEBUG("\tBAD samp_freq:%d", sbc_cie.samp_freq);} if (sbc_cie.ch_mode == A2D_SBC_IE_CH_MD_MONO) { APPL_TRACE_DEBUG("\tch_mode:%d (Mono)", sbc_cie.ch_mode);} else if (sbc_cie.ch_mode == A2D_SBC_IE_CH_MD_DUAL) { APPL_TRACE_DEBUG("\tch_mode:%d (Dual)", sbc_cie.ch_mode);} else if (sbc_cie.ch_mode == A2D_SBC_IE_CH_MD_STEREO) { APPL_TRACE_DEBUG("\tch_mode:%d (Stereo)", sbc_cie.ch_mode);} else if (sbc_cie.ch_mode == A2D_SBC_IE_CH_MD_JOINT) { APPL_TRACE_DEBUG("\tch_mode:%d (Joint)", sbc_cie.ch_mode);} else { APPL_TRACE_DEBUG("\tBAD ch_mode:%d", sbc_cie.ch_mode);} if (sbc_cie.block_len == A2D_SBC_IE_BLOCKS_4) { APPL_TRACE_DEBUG("\tblock_len:%d (4)", sbc_cie.block_len);} else if (sbc_cie.block_len == A2D_SBC_IE_BLOCKS_8) { APPL_TRACE_DEBUG("\tblock_len:%d (8)", sbc_cie.block_len);} else if (sbc_cie.block_len == A2D_SBC_IE_BLOCKS_12) { APPL_TRACE_DEBUG("\tblock_len:%d (12)", sbc_cie.block_len);} else if (sbc_cie.block_len == A2D_SBC_IE_BLOCKS_16) { APPL_TRACE_DEBUG("\tblock_len:%d (16)", sbc_cie.block_len);} else { APPL_TRACE_DEBUG("\tBAD block_len:%d", sbc_cie.block_len);} if (sbc_cie.num_subbands == A2D_SBC_IE_SUBBAND_4) { APPL_TRACE_DEBUG("\tnum_subbands:%d (4)", sbc_cie.num_subbands);} else if (sbc_cie.num_subbands == A2D_SBC_IE_SUBBAND_8) { APPL_TRACE_DEBUG("\tnum_subbands:%d (8)", sbc_cie.num_subbands);} else { APPL_TRACE_DEBUG("\tBAD num_subbands:%d", sbc_cie.num_subbands);} if (sbc_cie.alloc_mthd == A2D_SBC_IE_ALLOC_MD_S) { APPL_TRACE_DEBUG("\talloc_mthd:%d (SNR)", sbc_cie.alloc_mthd);} else if (sbc_cie.alloc_mthd == A2D_SBC_IE_ALLOC_MD_L) { APPL_TRACE_DEBUG("\talloc_mthd:%d (Loundess)", sbc_cie.alloc_mthd);} else { APPL_TRACE_DEBUG("\tBAD alloc_mthd:%d", sbc_cie.alloc_mthd);} APPL_TRACE_DEBUG("\tBit pool Min:%d Max:%d", sbc_cie.min_bitpool, sbc_cie.max_bitpool); }