/******************************************************************************
*
* 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
**
******************************************************************************/
#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 "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"
#if (BTA_AV_INCLUDED == TRUE)
#include "sbc_encoder.h"
#endif
#define LOG_TAG "BTIF-MEDIA"
#include <hardware/bluetooth.h>
#include "audio_a2dp_hw.h"
#include "btif_av.h"
#include "btif_sm.h"
#include "btif_util.h"
#include "bt_utils.h"
/*****************************************************************************
** Constants
*****************************************************************************/
//#define DEBUG_MEDIA_AV_FLOW TRUE
/* BTIF media task gki event definition */
#define BTIF_MEDIA_TASK_CMD TASK_MBOX_0_EVT_MASK
#define BTIF_MEDIA_TASK_DATA TASK_MBOX_1_EVT_MASK
#define BTIF_MEDIA_TASK_KILL EVENT_MASK(GKI_SHUTDOWN_EVT)
#define BTIF_MEDIA_AA_TASK_TIMER_ID TIMER_0
#define BTIF_MEDIA_AV_TASK_TIMER_ID TIMER_1
#define BTIF_MEDIA_AA_TASK_TIMER TIMER_0_EVT_MASK
#define BTIF_MEDIA_AV_TASK_TIMER TIMER_1_EVT_MASK
#define BTIF_MEDIA_TASK_CMD_MBOX TASK_MBOX_0 /* cmd mailbox */
#define BTIF_MEDIA_TASK_DATA_MBOX TASK_MBOX_1 /* data mailbox */
/* 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
};
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)
/* 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
#ifndef A2DP_MEDIA_TASK_STACK_SIZE
#define A2DP_MEDIA_TASK_STACK_SIZE 0x2000 /* In bytes */
#endif
#define A2DP_MEDIA_TASK_TASK_STR ((INT8 *) "A2DP-MEDIA")
static UINT32 a2dp_media_task_stack[(A2DP_MEDIA_TASK_STACK_SIZE + 3) / 4];
#define BT_MEDIA_TASK A2DP_MEDIA_TASK
#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 */
/* 24 frames is equivalent to 6.89*24*2.9 ~= 480 ms @ 44.1 khz, 20 ms mediatick */
#define MAX_OUTPUT_A2DP_FRAME_QUEUE_SZ 24
//#define BTIF_MEDIA_VERBOSE_ENABLED
#ifdef BTIF_MEDIA_VERBOSE_ENABLED
#define VERBOSE(fmt, ...) \
LogMsg( TRACE_CTRL_GENERAL | TRACE_LAYER_NONE | TRACE_ORG_APPL | \
TRACE_TYPE_ERROR, fmt, ## __VA_ARGS__)
#else
#define VERBOSE(fmt, ...)
#endif
/*****************************************************************************
** Data types
*****************************************************************************/
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;
BOOLEAN is_tx_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 */
#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;
/*****************************************************************************
** Local data
*****************************************************************************/
static tBTIF_MEDIA_CB btif_media_cb;
static int media_task_running = MEDIA_TASK_STATE_OFF;
/*****************************************************************************
** Local functions
*****************************************************************************/
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);
const char* dump_media_event(UINT16 event);
/*****************************************************************************
** Externs
*****************************************************************************/
static void btif_media_task_handle_cmd(BT_HDR *p_msg);
static void btif_media_task_handle_media(BT_HDR *p_msg);
#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);
#endif
/*****************************************************************************
** Misc helper functions
*****************************************************************************/
static void tput_mon(int is_rx, int len, int reset)
{
/* only monitor one connection at a time for now */
static t_stat cur_stat;
struct timespec now;
unsigned long long prev_us;
unsigned long long now_us;
if (reset == TRUE)
{
memset(&cur_stat, 0, sizeof(t_stat));
return;
}
if (is_rx)
{
cur_stat.rx+=len;
cur_stat.rx_tot+=len;
}
else
{
cur_stat.tx+=len;
cur_stat.tx_tot+=len;
}
clock_gettime(CLOCK_MONOTONIC, &now);
now_us = now.tv_sec*USEC_PER_SEC + now.tv_nsec/1000;
if ((now_us - cur_stat.ts_prev_us) < TPUT_STATS_INTERVAL_US)
return;
APPL_TRACE_WARNING4("tput rx:%d, tx:%d (bytes/s) (tot : rx %d, tx %d bytes)",
(cur_stat.rx*1000000)/((now_us - cur_stat.ts_prev_us)),
(cur_stat.tx*1000000)/((now_us - cur_stat.ts_prev_us)),
cur_stat.rx_tot, cur_stat.tx_tot);
/* stats dumped. now reset stats for next interval */
cur_stat.rx = 0;
cur_stat.tx = 0;
cur_stat.ts_prev_us = now_us;
}
static void log_tstamps_us(char *comment)
{
#define USEC_PER_SEC 1000000L
static struct timespec prev = {0, 0};
struct timespec now, diff;
unsigned int diff_us = 0;
unsigned int now_us = 0;
clock_gettime(CLOCK_MONOTONIC, &now);
now_us = now.tv_sec*USEC_PER_SEC + now.tv_nsec/1000;
diff_us = (now.tv_sec - prev.tv_sec) * USEC_PER_SEC + (now.tv_nsec - prev.tv_nsec)/1000;
APPL_TRACE_DEBUG4("[%s] ts %08d, diff : %08d, queue sz %d", comment, now_us, diff_us,
btif_media_cb.TxAaQ.count);
prev = now;
}
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)
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_EVENT0("## 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_EVENT2("## 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_ERROR0("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_EVENT0("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_DEBUG1("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:
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);
}
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.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);
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 */
a2dp_cmd_acknowledge(A2DP_CTRL_ACK_SUCCESS);
}
break;
default:
APPL_TRACE_ERROR1("UNSUPPORTED CMD (%d)", cmd);
a2dp_cmd_acknowledge(A2DP_CTRL_ACK_FAILURE);
break;
}
APPL_TRACE_DEBUG1("a2dp-ctrl-cmd : %s DONE", dump_a2dp_ctrl_event(cmd));
}
static void btif_a2dp_ctrl_cb(tUIPC_CH_ID ch_id, tUIPC_EVENT event)
{
APPL_TRACE_DEBUG1("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_ERROR1("### A2DP-CTRL-CHANNEL EVENT %d NOT HANDLED ###", event);
break;
}
}
static void btif_a2dp_data_cb(tUIPC_CH_ID ch_id, tUIPC_EVENT event)
{
APPL_TRACE_DEBUG1("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);
/* 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();
/* ack back when media task is fully started */
break;
case UIPC_CLOSE_EVT:
a2dp_cmd_acknowledge(A2DP_CTRL_ACK_SUCCESS);
btif_audiopath_detached();
break;
default :
APPL_TRACE_ERROR1("### 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_DEBUG1("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_DEBUG0("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_EVENT1("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_DEBUG0("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_DEBUG4("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_ERROR0("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_EVENT2("## 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);
}
/*****************************************************************************
**
** Function btif_a2dp_start_media_task
**
** Description
**
** Returns
**
*******************************************************************************/
int btif_a2dp_start_media_task(void)
{
int retval;
if (media_task_running != MEDIA_TASK_STATE_OFF)
{
APPL_TRACE_ERROR0("warning : media task already running");
return GKI_FAILURE;
}
APPL_TRACE_EVENT0("## A2DP START MEDIA TASK ##");
/* start a2dp media task */
retval = GKI_create_task((TASKPTR)btif_media_task, A2DP_MEDIA_TASK,
A2DP_MEDIA_TASK_TASK_STR,
(UINT16 *) ((UINT8 *)a2dp_media_task_stack + A2DP_MEDIA_TASK_STACK_SIZE),
sizeof(a2dp_media_task_stack));
if (retval != GKI_SUCCESS)
return retval;
/* wait for task to come up to sure we are able to send messages to it */
while (media_task_running == MEDIA_TASK_STATE_OFF)
usleep(10);
APPL_TRACE_EVENT0("## A2DP MEDIA TASK STARTED ##");
return retval;
}
/*****************************************************************************
**
** Function btif_a2dp_stop_media_task
**
** Description
**
** Returns
**
*******************************************************************************/
void btif_a2dp_stop_media_task(void)
{
APPL_TRACE_EVENT0("## A2DP STOP MEDIA TASK ##");
GKI_destroy_task(BT_MEDIA_TASK);
}
/*****************************************************************************
**
** 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_EVENT0("## 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_EVENT0("## ON A2DP IDLE ##");
/* Make sure media task is stopped */
btif_media_task_stop_aa_req();
bta_av_co_init();
}
/*****************************************************************************
**
** Function btif_a2dp_on_open
**
** Description
**
** Returns
**
*******************************************************************************/
void btif_a2dp_on_open(void)
{
APPL_TRACE_EVENT0("## ON A2DP OPEN ##");
/* always use callback to notify socket events */
UIPC_Open(UIPC_CH_ID_AV_AUDIO, btif_a2dp_data_cb);
}
/*****************************************************************************
**
** Function btif_a2dp_on_started
**
** Description
**
** Returns
**
*******************************************************************************/
BOOLEAN btif_a2dp_on_started(tBTA_AV_START *p_av, BOOLEAN pending_start)
{
tBTIF_STATUS status;
BOOLEAN ack = FALSE;
APPL_TRACE_EVENT0("## 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)
{
tBTIF_STATUS status;
APPL_TRACE_EVENT0("## 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_EVENT0("## ON A2DP STOPPED ##");
/* allow using this api for other than suspend */
if (p_av != NULL)
{
if (p_av->status != BTA_AV_SUCCESS)
{
APPL_TRACE_EVENT1("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_EVENT0("## ON A2DP SUSPENDED ##");
/* 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 tx frames */
void btif_a2dp_set_tx_flush(BOOLEAN enable)
{
APPL_TRACE_EVENT1("## DROP TX %d ##", enable);
btif_media_cb.tx_flush = enable;
}
/*****************************************************************************
**
** Function btif_calc_pcmtime
**
** Description Calculates the pcmtime equivalent of a datapacket
**
** Returns microseconds
**
*******************************************************************************/
static int btif_calc_pcmtime(UINT32 bytes_processed)
{
int pcm_time_us = 0;
tBTIF_AV_MEDIA_FEED_CFG *p_cfg;
p_cfg = &btif_media_cb.media_feeding.cfg;
/* calculate corresponding pcm time based on data processed */
switch(btif_media_cb.media_feeding.format)
{
case BTIF_AV_CODEC_PCM:
pcm_time_us = (bytes_processed*1000000)/
(p_cfg->pcm.num_channel*p_cfg->pcm.sampling_freq*p_cfg->pcm.bit_per_sample/8);
break;
default :
APPL_TRACE_ERROR1("mediafeeding format invalid : %d", btif_media_cb.media_feeding.format);
break;
}
return pcm_time_us;
}
/*******************************************************************************
**
** Function btif_media_task_aa_handle_timer
**
** Description
**
** Returns void
**
*******************************************************************************/
static void btif_media_task_aa_handle_timer(void)
{
#if (defined(DEBUG_MEDIA_AV_FLOW) && (DEBUG_MEDIA_AV_FLOW == TRUE))
static UINT16 Debug = 0;
APPL_TRACE_DEBUG1("btif_media_task_aa_handle_timer: %d", Debug++);
#endif
log_tstamps_us("media task tx timer");
#if (BTA_AV_INCLUDED == TRUE)
btif_media_send_aa_frame();
#endif
}
#if (BTA_AV_INCLUDED == TRUE)
/*******************************************************************************
**
** Function btif_media_task_aa_handle_timer
**
** Description
**
** Returns void
**
*******************************************************************************/
static void btif_media_task_aa_handle_uipc_rx_rdy(void)
{
#if (defined(DEBUG_MEDIA_AV_FLOW) && (DEBUG_MEDIA_AV_FLOW == TRUE))
static UINT16 Debug = 0;
APPL_TRACE_DEBUG1("btif_media_task_aa_handle_uipc_rx_rdy: %d", Debug++);
#endif
/* process all the UIPC data */
btif_media_aa_prep_2_send(0xFF);
/* send it */
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
/*******************************************************************************
**
** Function btif_media_task_init
**
** Description
**
** Returns void
**
*******************************************************************************/
void btif_media_task_init(void)
{
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
}
/*******************************************************************************
**
** Function btif_media_task
**
** Description Task for SBC encoder. This task receives an
** event when the waveIn interface has a pcm data buffer
** ready. On receiving the event, handle all ready pcm
** data buffers. If stream is started, run the SBC encoder
** on each chunk of pcm samples and build an output packet
** consisting of one or more encoded SBC frames.
**
** Returns void
**
*******************************************************************************/
int btif_media_task(void *p)
{
UINT16 event;
BT_HDR *p_msg;
VERBOSE("================ MEDIA TASK STARTING ================");
btif_media_task_init();
media_task_running = MEDIA_TASK_STATE_ON;
raise_priority_a2dp(TASK_HIGH_MEDIA);
while (1)
{
event = GKI_wait(0xffff, 0);
VERBOSE("================= MEDIA TASK EVENT %d ===============", event);
if (event & BTIF_MEDIA_TASK_CMD)
{
/* Process all messages in the queue */
while ((p_msg = (BT_HDR *) GKI_read_mbox(BTIF_MEDIA_TASK_CMD_MBOX)) != NULL)
{
btif_media_task_handle_cmd(p_msg);
}
}
if (event & BTIF_MEDIA_TASK_DATA)
{
/* Process all messages in the queue */
while ((p_msg = (BT_HDR *) GKI_read_mbox(BTIF_MEDIA_TASK_DATA_MBOX)) != NULL)
{
btif_media_task_handle_media(p_msg);
}
}
if (event & BTIF_MEDIA_AA_TASK_TIMER)
{
/* advance audio timer expiration */
btif_media_task_aa_handle_timer();
}
VERBOSE("=============== MEDIA TASK EVENT %d DONE ============", event);
/* When we get this event we exit the task - should only happen on GKI_shutdown */
if (event & BTIF_MEDIA_TASK_KILL)
{
/* 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);
break;
}
}
/* Clear media task flag */
media_task_running = MEDIA_TASK_STATE_OFF;
APPL_TRACE_DEBUG0("MEDIA TASK EXITING");
return 0;
}
/*******************************************************************************
**
** 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;
GKI_send_msg(BT_MEDIA_TASK, BTIF_MEDIA_TASK_CMD_MBOX, p_buf);
return TRUE;
}
/*******************************************************************************
**
** Function btif_media_flush_q
**
** Description
**
** Returns void
**
*******************************************************************************/
static void btif_media_flush_q(BUFFER_Q *p_q)
{
while (GKI_IS_QUEUE_EMPTY(p_q) == FALSE)
{
GKI_freebuf(GKI_dequeue(p_q));
}
}
/*******************************************************************************
**
** Function btif_media_task_handle_cmd
**
** Description
**
** Returns void
**
*******************************************************************************/
static void btif_media_task_handle_cmd(BT_HDR *p_msg)
{
VERBOSE("btif_media_task_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;
#endif
default:
APPL_TRACE_ERROR1("ERROR in btif_media_task_handle_cmd unknown event %d", p_msg->event);
}
GKI_freebuf(p_msg);
VERBOSE("btif_media_task_handle_cmd : %s DONE", dump_media_event(p_msg->event));
}
/*******************************************************************************
**
** Function btif_media_task_handle_media
**
** Description
**
** Returns void
**
*******************************************************************************/
static void btif_media_task_handle_media(BT_HDR *p_msg)
{
APPL_TRACE_ERROR0("ERROR btif_media_task_handle_media: not in use");
GKI_freebuf(p_msg);
}
#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;
GKI_send_msg(BT_MEDIA_TASK, BTIF_MEDIA_TASK_CMD_MBOX, 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;
GKI_send_msg(BT_MEDIA_TASK, BTIF_MEDIA_TASK_CMD_MBOX, 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;
GKI_send_msg(BT_MEDIA_TASK, BTIF_MEDIA_TASK_CMD_MBOX, 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_EVENT0("GKI failed");
return FALSE;
}
p_buf->event = BTIF_MEDIA_START_AA_TX;
GKI_send_msg(BT_MEDIA_TASK, BTIF_MEDIA_TASK_CMD_MBOX, 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;
GKI_send_msg(BT_MEDIA_TASK, BTIF_MEDIA_TASK_CMD_MBOX, 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;
if (NULL == (p_buf = GKI_getbuf(sizeof(BT_HDR))))
{
return FALSE;
}
p_buf->event = BTIF_MEDIA_FLUSH_AA_TX;
GKI_send_msg(BT_MEDIA_TASK, BTIF_MEDIA_TASK_CMD_MBOX, p_buf);
return TRUE;
}
/*******************************************************************************
**
** Function btif_media_task_aa_tx_flush
**
** Description
**
** Returns void
**
*******************************************************************************/
static void btif_media_task_aa_tx_flush(BT_HDR *p_msg)
{
/* Flush all enqueued GKI music buffers (encoded) */
APPL_TRACE_DEBUG0("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_DEBUG0("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_EVENT3("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_EVENT6(" 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_DEBUG1("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;
SINT16 s16BitRate;
SINT16 s16FrameLen;
UINT8 protect = 0;
APPL_TRACE_DEBUG3("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->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_EVENT2("bitpool candidate : %d (%d kbps)",
s16BitPool, pstrEncParams->u16BitRate);
if (s16BitPool > pUpdateAudio->MaxBitPool)
{
APPL_TRACE_DEBUG1("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_WARNING1("btif_media_task_enc_update computed bitpool too small (%d)", s16BitPool);
/* Increase bitrate */
btif_media_cb.encoder.u16BitRate += BTIF_MEDIA_BITRATE_STEP;
/* Record that we have increased the bitrate */
protect |= 2;
}
else
{
break;
}
/* In case we have already increased and decreased the bitrate, just stop */
if (protect == 3)
{
APPL_TRACE_ERROR0("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_DEBUG2("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_DEBUG0("PCM feeding:");
APPL_TRACE_DEBUG1("sampling_freq:%d", p_feeding->feeding.cfg.pcm.sampling_freq);
APPL_TRACE_DEBUG1("num_channel:%d", p_feeding->feeding.cfg.pcm.num_channel);
APPL_TRACE_DEBUG1("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_DEBUG0("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_DEBUG0("SBC Reconfiguration needed at 44100");
btif_media_cb.encoder.s16SamplingFreq = SBC_sf44100;
reconfig_needed = TRUE;
}
break;
default:
APPL_TRACE_DEBUG0("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_DEBUG0("SBC Reconfiguration needed in Stereo");
btif_media_cb.encoder.s16ChannelMode = SBC_JOINT_STEREO;
reconfig_needed = TRUE;
}
if (reconfig_needed != FALSE)
{
APPL_TRACE_DEBUG1("btif_media_task_pcm2sbc_init :: mtu %d", btif_media_cb.TxAaMtuSize);
APPL_TRACE_DEBUG6("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_DEBUG0("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_DEBUG1("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_ERROR1("unknown feeding format %d", p_feeding->feeding.format);
break;
}
}
/*******************************************************************************
**
** Function btif_media_task_uipc_cback
**
** Description UIPC call back function for synchronous mode only
**
** Returns void
**
*******************************************************************************/
static void btif_media_task_uipc_cback(BT_HDR *p_msg)
{
/* Sanity check */
if (NULL == p_msg)
{
return;
}
/* Just handle RX_EVT */
if (p_msg->event != UIPC_RX_DATA_EVT)
{
return;
}
p_msg->event = BTIF_MEDIA_UIPC_RX_RDY;
GKI_send_msg(BT_MEDIA_TASK, BTIF_MEDIA_TASK_CMD_MBOX, p_msg);
}
/*******************************************************************************
**
** 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_WARNING1("pcm bytes per tick %d",
(int)btif_media_cb.media_feeding_state.pcm.bytes_per_tick);
}
}
/*******************************************************************************
**
** 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_DEBUG2("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;
/* Reset the media feeding state */
btif_media_task_feeding_state_reset();
APPL_TRACE_EVENT2("starting timer %d ticks (%d)",
GKI_MS_TO_TICKS(BTIF_MEDIA_TIME_TICK), TICKS_PER_SEC);
GKI_start_timer(BTIF_MEDIA_AA_TASK_TIMER_ID, GKI_MS_TO_TICKS(BTIF_MEDIA_TIME_TICK), TRUE);
}
/*******************************************************************************
**
** 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_DEBUG1("btif_media_task_aa_stop_tx is timer: %d", btif_media_cb.is_tx_timer);
/* Stop the timer first */
GKI_stop_timer(BTIF_MEDIA_AA_TASK_TIMER_ID);
btif_media_cb.is_tx_timer = FALSE;
UIPC_Close(UIPC_CH_ID_AV_AUDIO);
/* audio engine stopped, reset tx suspended flag */
btif_media_cb.tx_flush = 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;
btif_media_cb.media_feeding_state.pcm.counter +=
btif_media_cb.media_feeding_state.pcm.bytes_per_tick;
/* calculate nbr of frames pending for this media tick */
result = btif_media_cb.media_feeding_state.pcm.counter/pcm_bytes_per_frame;
btif_media_cb.media_feeding_state.pcm.counter -= result*pcm_bytes_per_frame;
VERBOSE("WRITE %d FRAMES", result);
}
break;
default:
APPL_TRACE_ERROR1("ERROR btif_get_num_aa_frame Unsupported transcoding format 0x%x",
btif_media_cb.TxTranscoding);
result = 0;
break;
}
#if (defined(DEBUG_MEDIA_AV_FLOW) && (DEBUG_MEDIA_AV_FLOW == TRUE))
APPL_TRACE_DEBUG1("btif_get_num_aa_frame returns %d", result);
#endif
return result;
}
/*******************************************************************************
**
** 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_WARNING2("### 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_WARNING2("### 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);
#if (defined(DEBUG_MEDIA_AV_FLOW) && (DEBUG_MEDIA_AV_FLOW == TRUE))
APPL_TRACE_DEBUG3("btif_media_aa_read_feeding readsz:%d src_size_used:%d dst_size_used:%d",
read_size, src_size_used, dst_size_used);
#endif
/* 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;
}
#if (defined(DEBUG_MEDIA_AV_FLOW) && (DEBUG_MEDIA_AV_FLOW == TRUE))
APPL_TRACE_DEBUG3("btif_media_aa_read_feeding residue:%d, dst_size_used %d, bytes_needed %d",
btif_media_cb.media_feeding_state.pcm.aa_feed_residue, dst_size_used, bytes_needed);
#endif
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;
#if (defined(DEBUG_MEDIA_AV_FLOW) && (DEBUG_MEDIA_AV_FLOW == TRUE))
APPL_TRACE_DEBUG2("btif_media_aa_prep_sbc_2_send nb_frame %d, TxAaQ %d",
nb_frame, btif_media_cb.TxAaQ.count);
#endif
while (nb_frame)
{
if (NULL == (p_buf = GKI_getpoolbuf(BTIF_MEDIA_AA_POOL_ID)))
{
APPL_TRACE_ERROR1 ("ERROR btif_media_aa_prep_sbc_2_send no buffer TxCnt %d ",
btif_media_cb.TxAaQ.count);
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_WARNING2("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 )
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;
VERBOSE("TX QUEUE NOW %d", btif_media_cb.TxAaQ.count);
if (btif_media_cb.tx_flush)
{
APPL_TRACE_DEBUG0("### tx suspended, discarded frame ###");
if (btif_media_cb.TxAaQ.count > 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)
{
VERBOSE("btif_media_aa_prep_2_send : %d frames (queue %d)", nb_frame,
btif_media_cb.TxAaQ.count);
while (btif_media_cb.TxAaQ.count >= MAX_OUTPUT_A2DP_FRAME_QUEUE_SZ)
{
APPL_TRACE_WARNING1("btif_media_aa_prep_2_send congestion buf count %d",
btif_media_cb.TxAaQ.count);
GKI_freebuf(GKI_dequeue(&(btif_media_cb.TxAaQ)));
}
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_ERROR1("ERROR btif_media_aa_prep_2_send unsupported transcoding format 0x%x",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();
/* format and Q buffer to send */
btif_media_aa_prep_2_send(nb_frame_2_send);
/* send it */
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_ERROR1("ERROR dump_codec_info A2D_ParsSbcInfo fail:%d", a2d_status);
return;
}
APPL_TRACE_DEBUG0("dump_codec_info");
if (sbc_cie.samp_freq == A2D_SBC_IE_SAMP_FREQ_16)
{ APPL_TRACE_DEBUG1("\tsamp_freq:%d (16000)", sbc_cie.samp_freq);}
else if (sbc_cie.samp_freq == A2D_SBC_IE_SAMP_FREQ_32)
{ APPL_TRACE_DEBUG1("\tsamp_freq:%d (32000)", sbc_cie.samp_freq);}
else if (sbc_cie.samp_freq == A2D_SBC_IE_SAMP_FREQ_44)
{ APPL_TRACE_DEBUG1("\tsamp_freq:%d (44.100)", sbc_cie.samp_freq);}
else if (sbc_cie.samp_freq == A2D_SBC_IE_SAMP_FREQ_48)
{ APPL_TRACE_DEBUG1("\tsamp_freq:%d (48000)", sbc_cie.samp_freq);}
else
{ APPL_TRACE_DEBUG1("\tBAD samp_freq:%d", sbc_cie.samp_freq);}
if (sbc_cie.ch_mode == A2D_SBC_IE_CH_MD_MONO)
{ APPL_TRACE_DEBUG1("\tch_mode:%d (Mono)", sbc_cie.ch_mode);}
else if (sbc_cie.ch_mode == A2D_SBC_IE_CH_MD_DUAL)
{ APPL_TRACE_DEBUG1("\tch_mode:%d (Dual)", sbc_cie.ch_mode);}
else if (sbc_cie.ch_mode == A2D_SBC_IE_CH_MD_STEREO)
{ APPL_TRACE_DEBUG1("\tch_mode:%d (Stereo)", sbc_cie.ch_mode);}
else if (sbc_cie.ch_mode == A2D_SBC_IE_CH_MD_JOINT)
{ APPL_TRACE_DEBUG1("\tch_mode:%d (Joint)", sbc_cie.ch_mode);}
else
{ APPL_TRACE_DEBUG1("\tBAD ch_mode:%d", sbc_cie.ch_mode);}
if (sbc_cie.block_len == A2D_SBC_IE_BLOCKS_4)
{ APPL_TRACE_DEBUG1("\tblock_len:%d (4)", sbc_cie.block_len);}
else if (sbc_cie.block_len == A2D_SBC_IE_BLOCKS_8)
{ APPL_TRACE_DEBUG1("\tblock_len:%d (8)", sbc_cie.block_len);}
else if (sbc_cie.block_len == A2D_SBC_IE_BLOCKS_12)
{ APPL_TRACE_DEBUG1("\tblock_len:%d (12)", sbc_cie.block_len);}
else if (sbc_cie.block_len == A2D_SBC_IE_BLOCKS_16)
{ APPL_TRACE_DEBUG1("\tblock_len:%d (16)", sbc_cie.block_len);}
else
{ APPL_TRACE_DEBUG1("\tBAD block_len:%d", sbc_cie.block_len);}
if (sbc_cie.num_subbands == A2D_SBC_IE_SUBBAND_4)
{ APPL_TRACE_DEBUG1("\tnum_subbands:%d (4)", sbc_cie.num_subbands);}
else if (sbc_cie.num_subbands == A2D_SBC_IE_SUBBAND_8)
{ APPL_TRACE_DEBUG1("\tnum_subbands:%d (8)", sbc_cie.num_subbands);}
else
{ APPL_TRACE_DEBUG1("\tBAD num_subbands:%d", sbc_cie.num_subbands);}
if (sbc_cie.alloc_mthd == A2D_SBC_IE_ALLOC_MD_S)
{ APPL_TRACE_DEBUG1("\talloc_mthd:%d (SNR)", sbc_cie.alloc_mthd);}
else if (sbc_cie.alloc_mthd == A2D_SBC_IE_ALLOC_MD_L)
{ APPL_TRACE_DEBUG1("\talloc_mthd:%d (Loundess)", sbc_cie.alloc_mthd);}
else
{ APPL_TRACE_DEBUG1("\tBAD alloc_mthd:%d", sbc_cie.alloc_mthd);}
APPL_TRACE_DEBUG2("\tBit pool Min:%d Max:%d", sbc_cie.min_bitpool, sbc_cie.max_bitpool);
}