rudism
/
pinebuds
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
pinebuds/apps/audioplayers/a2dpplay.cpp

3476 lines
98 KiB
C++
Raw Blame History

/***************************************************************************
*
* Copyright 2015-2019 BES.
* All rights reserved. All unpublished rights reserved.
*
* No part of this work may be used or reproduced in any form or by any
* means, or stored in a database or retrieval system, without prior written
* permission of BES.
*
* Use of this work is governed by a license granted by BES.
* This work contains confidential and proprietary information of
* BES. which is protected by copyright, trade secret,
* trademark and other intellectual property rights.
*
****************************************************************************/
#if (A2DP_DECODER_VER < 2)
#ifdef MBED
#include "mbed.h"
#include "rtos.h"
#endif
// Standard C Included Files
#include <string.h>
#include <math.h>
#include <stdbool.h>
#include <stdlib.h>
#include <stdio.h>
#include "tgt_hardware.h"
#ifdef MBED
#include "SDFileSystem.h"
#endif
#include "hal_uart.h"
#include "hal_timer.h"
#include "hal_trace.h"
#include "hal_codec.h"
#include "audioflinger.h"
#include "cqueue.h"
#include "app_audio.h"
#include "app_overlay.h"
#include "analog.h"
#ifdef RTOS
#include "cmsis_os.h"
#endif
extern "C" {
#if defined(A2DP_LHDC_ON)
#include "hal_sysfreq.h"
#include "lhdcUtil.h"
#endif
}
extern "C" {
#if defined(A2DP_LDAC_ON)
#include "hal_sysfreq.h"
//#include "speech_memory.h"
#include"ldacBT.h"
#define MED_MEM_HEAP_SIZE (1024*20)
HANDLE_LDAC_BT hLdacData = NULL;
#endif
}
#include "a2dp_api.h"
#if defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE)
#include "hal_sysfreq.h"
#include "hal_chipid.h"
#include "audio_resample_ex.h"
#endif
#include "btapp.h"
#include "hal_location.h"
#include "cmsis.h"
#define TEXT_A2DP_LOC_A(n, l) __attribute__((section(#n "." #l)))
#define TEXT_A2DP_LOC(n, l) TEXT_A2DP_LOC_A(n, l)
#define TEXT_SBC_LOC TEXT_A2DP_LOC(.overlay_a2dp_sbc, __LINE__)
#define TEXT_AAC_LOC TEXT_A2DP_LOC(.overlay_a2dp_aac, __LINE__)
#define TEXT_SSC_LOC TEXT_A2DP_LOC(.overlay_a2dp_ssc, __LINE__)
#define TEXT_LDAC_LOC TEXT_A2DP_LOC(.overlay_a2dp_ldac, __LINE__)
#define TEXT_LHDC_LOC TEXT_A2DP_LOC(.overlay_a2dp_lhdc, __LINE__)
//#define A2DP_AUDIO_SYNC_WITH_LOCAL (1)
#define A2DP_AUDIO_SYNC_TRACE(s,...)
//TRACE(s, ##__VA_ARGS__)
#ifdef A2DP_AUDIO_SYNC_WITH_LOCAL
#define A2DP_AUDIO_SYNC_WITH_LOCAL_SAMPLERATE_DEFAULT (0)
#define A2DP_AUDIO_SYNC_WITH_LOCAL_SAMPLERATE_INC (2)
#define A2DP_AUDIO_SYNC_WITH_LOCAL_SAMPLERATE_DEC (-2)
#define A2DP_AUDIO_SYNC_WITH_LOCAL_SAMPLERATE_STEP (0.00005f)
#define A2DPPLAY_SYNC_STATUS_SET (0x01)
#define A2DPPLAY_SYNC_STATUS_RESET (0x02)
#define A2DPPLAY_SYNC_STATUS_PROC (0x04)
enum A2DP_AUDIO_SYNC_STATUS {
A2DP_AUDIO_SYNC_STATUS_SAMPLERATE_DEC,
A2DP_AUDIO_SYNC_STATUS_SAMPLERATE_INC,
A2DP_AUDIO_SYNC_STATUS_SAMPLERATE_DEFAULT,
};
#endif
#define A2DPPLAY_CACHE_OK_THRESHOLD (sbc_frame_size<<6)
enum A2DPPLAY_STRTEAM_T {
A2DPPLAY_STRTEAM_PUT= 0,
A2DPPLAY_STRTEAM_GET,
A2DPPLAY_STRTEAM_QTY,
};
/* sbc queue */
#define SBC_TEMP_BUFFER_SIZE 128
#define SBC_QUEUE_SIZE_DEFAULT (SBC_TEMP_BUFFER_SIZE*64)
#define SBC_QUEUE_SIZE (1024*11)
/* sbc decoder */
static bool need_init_decoder = true;
static btif_sbc_decoder_t* sbc_decoder = NULL;
static float sbc_eq_band_gain[CFG_HW_AUD_EQ_NUM_BANDS];
CQueue sbc_queue;
static uint32_t g_sbc_queue_size = SBC_QUEUE_SIZE_DEFAULT;
static uint16_t sbc_frame_size = SBC_TEMP_BUFFER_SIZE;
static uint16_t sbc_frame_rev_len = 0;
static uint16_t sbc_frame_num = 0;
static uint32_t assumed_mtu_interval = 0;
static uint32_t dec_start_time;
static uint32_t last_dec_time;
#ifdef A2DP_TRACE_DEC_TIME
static const bool dec_trace_time = true;
#else
static bool dec_trace_time;
#endif
static bool dec_reset_queue;
static enum APP_AUDIO_CACHE_T a2dp_cache_status = APP_AUDIO_CACHE_QTY;
#define A2DP_SYNC_WITH_GET_MUTUX_TIMEROUT_CNT (5)
#define A2DP_SYNC_WITH_GET_MUTUX_TIMEROUT_MS (20)
static osThreadId a2dp_put_thread_tid = NULL;
static bool a2dp_get_need_sync = false;
extern enum AUD_SAMPRATE_T a2dp_sample_rate;
#if defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE)
#ifdef CHIP_BEST1000
static bool allow_resample = false;
#else
static const bool allow_resample = true;
#endif
#endif
extern int a2dp_timestamp_parser_needsync(void);
#define A2DP_SYNC_WITH_GET_MUTUX_ALLOC() do{ \
if (a2dp_put_thread_tid == NULL){ \
a2dp_put_thread_tid = osThreadGetId(); \
} \
}while(0)
#define A2DP_SYNC_WITH_GET_MUTUX_FREE() do{ \
a2dp_put_thread_tid = NULL; \
}while(0)
#define A2DP_SYNC_WITH_GET_MUTUX_WAIT() do{ \
a2dp_get_need_sync = true; \
if (a2dp_put_thread_tid){ \
osSignalClear(a2dp_put_thread_tid, 0x80); \
osSignalWait(0x80, A2DP_SYNC_WITH_GET_MUTUX_TIMEROUT_MS); \
}\
}while(0)
#define A2DP_SYNC_WITH_GET_MUTUX_SET() do{ \
if (a2dp_get_need_sync){ \
a2dp_get_need_sync = false; \
if (a2dp_put_thread_tid){ \
osSignalSet(a2dp_put_thread_tid, 0x80); \
} \
} \
}while(0)
//#define A2DP_SYNC_WITH_PUT_MUTUX (1)
#define A2DP_SYNC_WITH_PUT_MUTUX_TIMEROUT_CNT (1)
#define A2DP_SYNC_WITH_PUT_MUTUX_TIMEROUT_MS (3)
static osThreadId a2dp_get_thread_tid = NULL;
static bool a2dp_get_put_sync = false;
#define A2DP_SYNC_WITH_PUT_MUTUX_ALLOC() do{ \
if (a2dp_get_thread_tid == NULL){ \
a2dp_get_thread_tid = osThreadGetId(); \
} \
}while(0)
#define A2DP_SYNC_WITH_PUT_MUTUX_FREE() do{ \
a2dp_get_thread_tid = NULL; \
}while(0)
#define A2DP_SYNC_WITH_PUT_MUTUX_WAIT() do{ \
a2dp_get_put_sync = true; \
if (a2dp_get_thread_tid){\
osSignalClear(a2dp_get_thread_tid, 0x80); \
osSignalWait(0x5, A2DP_SYNC_WITH_PUT_MUTUX_TIMEROUT_MS); \
}\
}while(0)
#define A2DP_SYNC_WITH_PUT_MUTUX_SET() do{ \
if (a2dp_get_put_sync){ \
a2dp_get_put_sync = false; \
if (a2dp_get_thread_tid){\
osSignalSet(a2dp_get_thread_tid, 0x80); \
}\
} \
}while(0)
int a2dp_audio_sbc_set_frame_info(int rcv_len, int frame_num)
{
if ((!rcv_len)||(!frame_num)){
return 0;
}
if (sbc_frame_rev_len != rcv_len || sbc_frame_num != frame_num){
sbc_frame_rev_len = rcv_len;
sbc_frame_num = frame_num;
sbc_frame_size = rcv_len/frame_num;
}
return 0;
}
extern struct BT_DEVICE_T app_bt_device;
extern uint8_t a2dp_channel_num[BT_DEVICE_NUM];
void expand_1_channel_to_2_channels_16bits(unsigned char *in, unsigned int in_len)
{
int cnt = 0;
int len = in_len;
short* ptr = (short*)in + in_len/2;
short* ptr_out = (short*)in + in_len;
while(len > 0){
*(ptr_out - 2*cnt - 1) = *(ptr - cnt);
*(ptr_out - 2*cnt - 2) = *(ptr - cnt);
cnt += 1;
len -= 2;
}
}
#ifdef A2DP_AUDIO_SYNC_WITH_LOCAL
static enum A2DP_AUDIO_SYNC_STATUS sync_status = A2DP_AUDIO_SYNC_STATUS_SAMPLERATE_DEFAULT;
static int a2dp_audio_sync_proc(uint8_t status, int shift)
{
#if !(defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE))
struct AF_STREAM_CONFIG_T *cfg;
bool need_shift = false;
static int cur_shift = 0;
static int dest_shift = 0;
LOCK_APP_AUDIO_QUEUE();
if (status & A2DPPLAY_SYNC_STATUS_RESET){
sync_status = A2DP_AUDIO_SYNC_STATUS_SAMPLERATE_DEFAULT;
cur_shift = 0;
dest_shift = 0;
}
if (status & A2DPPLAY_SYNC_STATUS_SET){
dest_shift = shift;
}
if (cur_shift > dest_shift){
cur_shift--;
need_shift = true;
}
if (cur_shift<dest_shift){
cur_shift++;
need_shift = true;
}
if (need_shift){
A2DP_AUDIO_SYNC_TRACE(1,"a2dp_audio_sync_proc shift:%d\n", cur_shift);
uint32_t ret = af_stream_get_cfg(AUD_STREAM_ID_0, AUD_STREAM_PLAYBACK, &cfg, false);
if (0 == ret)
{
af_codec_tune(AUD_STREAM_PLAYBACK, A2DP_AUDIO_SYNC_WITH_LOCAL_SAMPLERATE_STEP*cur_shift);
}
}
UNLOCK_APP_AUDIO_QUEUE();
#endif
return 0;
}
#endif
bool a2dp_audio_isrunning(enum A2DPPLAY_STRTEAM_T stream, bool run)
{
static bool stream_running[A2DPPLAY_STRTEAM_QTY] = {false, false};
if (stream >= A2DPPLAY_STRTEAM_QTY)
return false;
stream_running[stream] = run;
if (stream_running[A2DPPLAY_STRTEAM_PUT] && stream_running[A2DPPLAY_STRTEAM_GET])
return true;
else
return false;
}
#if defined(A2DP_AAC_ON)
#define AAC_READBUF_SIZE (2048)
uint32_t aac_maxreadBytes = AAC_READBUF_SIZE;
uint32_t aac_frame_mute = 0;
int decode_aac_frame(unsigned char *pcm_buffer, unsigned int pcm_len);
#endif
#if defined(A2DP_LHDC_ON)
#include "hal_timer.h"
#define A2DP_LHDC_DEFAULT_LATENCY 1
uint8_t latencyIndex = 0;
uint8_t latencyUpdated = 0;
uint16_t latencyTable[] = {50, 150, 300};
uint8_t magicTag[] = {'l','h','d','c'};
typedef struct {
uint8_t tag[4];
uint32_t packetLen;
uint8_t dptr[0];
} LHDC_HEADER;
typedef struct {
uint16_t frame_len;
bool isSplit;
bool isLeft;
} LHDC_FRAME_HDR;
#define LHDC_READBUF_SIZE 1024 * 4 /* pick something big enough to hold a bunch of frames */
uint8_t lhdcTempBuf[LHDC_READBUF_SIZE];
uint8_t lhdc_input_mid_buf[LHDC_READBUF_SIZE];
#define L2CAP_MTU 672
#define PACKET_MTU_SIZE (L2CAP_MTU-12)
void initial_lhdc_assemble_packet(bool splitFlg);
/**
* get lhdc frame header
*/
bool get_lhdc_header(uint8_t * in, LHDC_FRAME_HDR * h);
uint32_t get_lhdc_frame(uint8_t * frame_q, size_t q_available_size, uint8_t * out_buf, uint32_t * out_size, uint32_t * out_frames);
/**
* Grabe lhdc data from queue
*/
int get_lhdc_data(unsigned char * frame, unsigned int len);
int assemble_lhdc_packet(uint8_t * input, uint32_t input_len,
uint8_t** pLout, uint32_t * pLlen,
uint8_t** pRout, uint32_t * pRlen);
#endif
#if defined(A2DP_LDAC_ON)
#define LDAC_FRAME_LEN_INDEX_106 106
#define LDAC_FRAME_LEN_INDEX_128 128
#define LDAC_FRAME_LEN_INDEX_160 160
#define LDAC_FRAME_LEN_INDEX_216 216
#define LDAC_FRAME_LEN_INDEX_326 326
uint8_t get_ldac_frame_num(uint16_t frame_length_index){
uint8_t frame_num = 0;
switch(frame_length_index)
{
case LDAC_FRAME_LEN_INDEX_106:
frame_num = 6;
break;
case LDAC_FRAME_LEN_INDEX_128:
frame_num = 5;
break;
case LDAC_FRAME_LEN_INDEX_160:
frame_num = 4;
break;
case LDAC_FRAME_LEN_INDEX_216:
frame_num = 3;
break;
case LDAC_FRAME_LEN_INDEX_326:
frame_num = 2;
break;
default:
ASSERT(0, "Unknown ldac frame format: %d !!!!!",frame_length_index);
break;
}
return frame_num;
}
#endif
#define DELAY_MTU_LIMIT 8
static volatile int delay_mtu_limit = DELAY_MTU_LIMIT;
static volatile int mtu_count = 0;
static volatile int delay_mtu_count = 0;
bool app_bt_stream_trigger_onprocess(void);
void app_bt_stream_trigger_start(uint8_t offset);
void a2dp_audio_set_mtu_limit(uint8_t mut)
{
delay_mtu_limit = mut;
}
static uint32_t old_t = 0;
static uint32_t ssb_err = 0;
static uint32_t ssb_err_max = 0;
static uint32_t ssb_err_min = 0xffffffff;
static uint32_t lagest_mtu_in1s = 0;
static uint32_t least_mtu_in1s = 0xffffffff;
static uint32_t check_interval = 50;
int store_sbc_buffer(unsigned char *buf, unsigned int len)
{
int POSSIBLY_UNUSED size;
int cnt = 0;
int nRet = 0;
#if defined(A2DP_LHDC_ON)
uint32_t newLen = 0;
bool mtu_plus = false;
#endif
#if defined(A2DP_LDAC_ON)
uint16_t frame_length_index = 0;
#endif
uint32_t now_t = TICKS_TO_MS(hal_sys_timer_get());
ssb_err = now_t - old_t;
old_t = now_t;
if(ssb_err < 500){
if(ssb_err_max < ssb_err)
ssb_err_max = ssb_err;
if(ssb_err_min > ssb_err)
ssb_err_min = ssb_err;
}
if (!a2dp_audio_isrunning(A2DPPLAY_STRTEAM_PUT, true)){
TRACE(3,"%s not ready:%d cache_status:%d",__func__, len, a2dp_cache_status);
}
uint8_t overlay_id = app_get_current_overlay();
if(overlay_id == APP_OVERLAY_A2DP)
{
//TRACE(8,"sbc %d %x %x %x %x mtu_count:%d sbcqueue:%d,sbc_frame_rev_len=%d", len, buf[0],
// buf[1],buf[2],buf[3],mtu_count,APP_AUDIO_LengthOfCQueue(&sbc_queue),sbc_frame_rev_len);
}
#if defined(A2DP_LDAC_ON)
else if(overlay_id == APP_OVERLAY_A2DP_LDAC)
{
uint16_t data1 = (uint16_t)(buf[1]&0x07);
uint16_t data2 = (uint16_t)buf[2];
frame_length_index = ((data1<< 6 &0xFFFF) | (data2 >> 2 & 0xFFFF));
sbc_frame_num = get_ldac_frame_num(frame_length_index);
//TRACE(10,"ldac %d %d %x %x %x %x mtu_count:%d sbcqueue:%d,sbc_frame_rev_len=%d,sbc_frame_num %d", len, sbc_frame_size,buf[0],
// buf[1],buf[2],buf[3],mtu_count,APP_AUDIO_LengthOfCQueue(&sbc_queue),sbc_frame_rev_len,sbc_frame_num);
}
#endif
else
{
//TRACE(8,"AAC %d %x %x %x %x mtu_count:%d sbcqueue:%d,sbc_frame_rev_len=%d", len, buf[0],
// buf[1],buf[2],buf[3],mtu_count,APP_AUDIO_LengthOfCQueue(&sbc_queue),sbc_frame_rev_len);
}
switch (a2dp_cache_status) {
case APP_AUDIO_CACHE_CACHEING:
{
#if defined(A2DP_LHDC_ON)
newLen = 0;
if(overlay_id == APP_OVERLAY_A2DP_LHDC){
uint32_t lSize = 0, rSize = 0;
uint8_t *lPTR = NULL, *rPTR = NULL;
//TRACE(2,"%s:APP_AUDIO_CACHE_CACHEING Enter len = %d",__func__, len);
//TRACE(2,"%s: input len(%d)",__func__, len);
if (assemble_lhdc_packet(buf, len, &lPTR, &lSize, &rPTR, &rSize) > 0){
if (lPTR != NULL && lSize != 0){
newLen = lSize + sizeof(LHDC_HEADER);
memcpy(lhdcTempBuf + sizeof(LHDC_HEADER), lPTR, lSize);
memcpy(lhdcTempBuf, magicTag, sizeof(magicTag));
memcpy(lhdcTempBuf + sizeof(magicTag), &lSize, sizeof(unsigned int));
mtu_plus = true;
}
}else {
nRet = 0;
}
}
#endif
LOCK_APP_AUDIO_QUEUE();
#if defined(A2DP_LHDC_ON)
if(overlay_id == APP_OVERLAY_A2DP_LHDC){
nRet = APP_AUDIO_EnCQueue(&sbc_queue, lhdcTempBuf, newLen);
size = APP_AUDIO_LengthOfCQueue(&sbc_queue);
}else
#endif
#if defined(A2DP_LDAC_ON)
if(overlay_id == APP_OVERLAY_A2DP_LDAC){
//if(bt_sbc_player_get_codec_type() == BTIF_AVDTP_CODEC_TYPE_NON_A2DP){
nRet = APP_AUDIO_EnCQueue(&sbc_queue, buf, len);
size = APP_AUDIO_LengthOfCQueue(&sbc_queue);
}else
#endif
#if defined(A2DP_AAC_ON)
if(overlay_id == APP_OVERLAY_A2DP_AAC){
nRet = AvailableOfCQueue(&sbc_queue);
if (nRet >= (int)(len + 2))
{
nRet = APP_AUDIO_EnCQueue(&sbc_queue, (uint8_t *)&len, 2);
nRet = APP_AUDIO_EnCQueue(&sbc_queue, buf, len);
}
else
nRet = CQ_ERR;
}else
#endif
{
nRet = APP_AUDIO_EnCQueue(&sbc_queue, buf, len);
}
size = APP_AUDIO_LengthOfCQueue(&sbc_queue);
#if defined(A2DP_LHDC_ON)
if(overlay_id == APP_OVERLAY_A2DP_LHDC){
if (mtu_plus) {
if (delay_mtu_count == 0)
mtu_count = 0;
delay_mtu_count++;
mtu_count++;
mtu_plus = false;
}
}else{
#endif
if(overlay_id == APP_OVERLAY_A2DP
#if defined(A2DP_LDAC_ON)
|| overlay_id == APP_OVERLAY_A2DP_LDAC
#endif
){
if (delay_mtu_count == 0)
mtu_count = 0;
delay_mtu_count += sbc_frame_num;
mtu_count += sbc_frame_num;
// TRACE(1,"+mtu_count = %d",mtu_count);
}else{
if (delay_mtu_count == 0)
mtu_count = 0;
delay_mtu_count++;
mtu_count++;
}
#if defined(A2DP_LHDC_ON)
}
#endif
UNLOCK_APP_AUDIO_QUEUE();
bool flag = 0;
#if defined(A2DP_AAC_ON)
if(overlay_id == APP_OVERLAY_A2DP_AAC)
flag = 1;
#endif
#if defined(A2DP_SCALABLE_ON)
if(overlay_id == APP_OVERLAY_A2DP_SCALABLE)
flag = 1;
#endif
#if defined(A2DP_LHDC_ON)
if(overlay_id == APP_OVERLAY_A2DP_LHDC)
flag = 1;
#endif
#if defined(A2DP_LDAC_ON)
if(overlay_id == APP_OVERLAY_A2DP_LDAC)
{
flag = 1;
TRACE(0,"y# ldac cache");
}
#endif
if(flag)
{
#ifdef __A2DP_PLAYER_USE_BT_TRIGGER__
if(app_bt_stream_trigger_onprocess()&&mtu_count){
TRACE(0,"cache ok use dma trigger\n");
a2dp_cache_status = APP_AUDIO_CACHE_OK;
app_bt_stream_trigger_start(0);
}
#else
if (delay_mtu_count >= delay_mtu_limit){
TRACE(2,"aac cache ok:%d,mtu_count=%d\n", size,mtu_count);
a2dp_cache_status = APP_AUDIO_CACHE_OK;
}
#endif
}else{
#ifdef __A2DP_PLAYER_USE_BT_TRIGGER__
if(app_bt_stream_trigger_onprocess()&&mtu_count){
TRACE(0,"cache ok use dma trigger\n");
a2dp_cache_status = APP_AUDIO_CACHE_OK;
app_bt_stream_trigger_start(0);
}
#else
if (delay_mtu_count >= delay_mtu_limit){
TRACE(4,"cache ok:%d,%d,%d,mtu_count=%d\n", size,len,sbc_frame_size,mtu_count);
a2dp_cache_status = APP_AUDIO_CACHE_OK;
}else if (sbc_frame_size && (size>=A2DPPLAY_CACHE_OK_THRESHOLD)){
TRACE(2,"cache ok:%d,mtu_count=%d\n", size,mtu_count);
a2dp_cache_status = APP_AUDIO_CACHE_OK;
}else{
TRACE(1,"cache add:%d\n", len);
}
#endif
}
if(nRet == CQ_ERR){
TRACE(0,"cache add overflow\n");
a2dp_cache_status = APP_AUDIO_CACHE_OK;
}
if (a2dp_cache_status == APP_AUDIO_CACHE_OK){
old_t = 0;
ssb_err = 0;
ssb_err_max = 0;
ssb_err_min = 0xffffffff;
lagest_mtu_in1s = 0;
least_mtu_in1s = 0xffffffff;
check_interval = 50;
#ifdef __LOCK_AUDIO_THREAD__
af_unlock_thread();
#endif
A2DP_SYNC_WITH_GET_MUTUX_ALLOC();
A2DP_SYNC_WITH_GET_MUTUX_WAIT();
#ifdef __LOCK_AUDIO_THREAD__
af_lock_thread();
#endif
}
break;
}
case APP_AUDIO_CACHE_OK:
{
delay_mtu_count = 0;
#if defined(A2DP_LHDC_ON)
newLen = 0;
if(overlay_id == APP_OVERLAY_A2DP_LHDC){
uint32_t lSize = 0, rSize = 0;
uint8_t *lPTR = NULL, *rPTR = NULL;
//TRACE(2,"%s: input len(%d)",__func__, len);
if (assemble_lhdc_packet(buf, len, &lPTR, &lSize, &rPTR, &rSize) > 0){
if (lPTR != NULL && lSize != 0){
newLen = lSize + sizeof(LHDC_HEADER);
memcpy(lhdcTempBuf + sizeof(LHDC_HEADER), lPTR, lSize);
memcpy(lhdcTempBuf, magicTag, sizeof(magicTag));
memcpy(lhdcTempBuf + sizeof(magicTag), &lSize, sizeof(unsigned int));
mtu_plus = true;
}
}
}
#endif
do{
LOCK_APP_AUDIO_QUEUE();
#if defined(A2DP_LHDC_ON)
if(overlay_id == APP_OVERLAY_A2DP_LHDC){
nRet = APP_AUDIO_EnCQueue(&sbc_queue, lhdcTempBuf, newLen);
}else
#endif
#if defined(A2DP_AAC_ON)
if(overlay_id == APP_OVERLAY_A2DP_AAC){
nRet = AvailableOfCQueue(&sbc_queue);
if (nRet >= (int)(len + 2))
{
nRet = APP_AUDIO_EnCQueue(&sbc_queue, (uint8_t *)&len, 2);
nRet = APP_AUDIO_EnCQueue(&sbc_queue, buf, len);
}
else
nRet = CQ_ERR;
}else
#endif
{
nRet = APP_AUDIO_EnCQueue(&sbc_queue, buf, len);
}
if (CQ_OK == nRet){
#if defined(A2DP_LHDC_ON)
if(overlay_id == APP_OVERLAY_A2DP_LHDC){
if (mtu_plus) {
mtu_count++;
mtu_plus = false;
}
} else {
#endif
if(overlay_id == APP_OVERLAY_A2DP
#if defined(A2DP_LDAC_ON)
|| overlay_id == APP_OVERLAY_A2DP_LDAC
#endif
){
mtu_count += sbc_frame_num;
// TRACE(1,"+mtu_count = %d",mtu_count);
}else{
mtu_count++;
}
#if defined(A2DP_LHDC_ON)
}
#endif
}
// size = APP_AUDIO_LengthOfCQueue(&sbc_queue);
UNLOCK_APP_AUDIO_QUEUE();
// TRACE(3,"cache add:%d %d/%d \n", len, size, g_sbc_queue_size);
if (CQ_OK == nRet){
nRet = 0;
break;
}else{
TRACE(1,"cache flow control:%d\n", cnt);
#ifdef A2DP_AUDIO_SYNC_WITH_LOCAL
a2dp_audio_sync_proc(A2DPPLAY_SYNC_STATUS_SET, 0);
#endif
nRet = -1;
#ifdef __LOCK_AUDIO_THREAD__
af_unlock_thread();
#endif
A2DP_SYNC_WITH_GET_MUTUX_ALLOC();
A2DP_SYNC_WITH_GET_MUTUX_WAIT();
#ifdef __LOCK_AUDIO_THREAD__
af_lock_thread();
#endif
}
}while(cnt++<A2DP_SYNC_WITH_GET_MUTUX_TIMEROUT_CNT);
break;
}
case APP_AUDIO_CACHE_QTY:
default:
break;
}
#ifdef A2DP_SYNC_WITH_PUT_MUTUX
A2DP_SYNC_WITH_PUT_MUTUX_SET();
#endif
if (nRet){
TRACE(0,"cache overflow\n");
}
return 0;
}
#if defined(A2DP_LDAC_ON)
#define LDAC_READBUF_SIZE 1024 /* pick something big enough to hold a bunch of frames */
uint8_t ldac_input_mid_buf[LDAC_READBUF_SIZE+2];
/*
* Grabe lhdc data from queue
*/
TEXT_LDAC_LOC
int get_ldac_data(unsigned char * frame, unsigned int len)
{
int status;
unsigned int len1 = 0, len2 = 0;
unsigned char *e1 = NULL, *e2 = NULL;
LOCK_APP_AUDIO_QUEUE();
unsigned int queu_len = (unsigned int)LengthOfCQueue(&sbc_queue);
len = queu_len < len ? queu_len : len;
status = PeekCQueue(&sbc_queue, len, &e1, &len1, &e2, &len2);
UNLOCK_APP_AUDIO_QUEUE();
if(status != CQ_OK){
return 0;
}
if (e1) {
memcpy(frame, e1, len1);
}
if (e2) {
memcpy(frame + len1, e2, len2);
}
return len;
}
/**
* Decode LDAC data...
*/
//#include "os_tcb.h"
extern const char * get_error_code_string( int error_code );
extern int app_audio_mempool_force_set_buff_used(uint32_t size);
extern uint32_t ldac_buffer_used;
uint32_t skip_ldac_frame = 2;
static bool ldac_recovery;
TEXT_LDAC_LOC
int ldac_dec_init(void)
{
if (hLdacData) {
return 0;
}
int sample_rate = bt_get_ladc_sample_rate();
int channel_mode = bt_ldac_player_get_channelmode();
TRACE(2,"a2dp_audio_init sample Rate=%d, channel_mode = %d\n", sample_rate, channel_mode);
//TRACE(1,"sys freq calc : %d\n", hal_sys_timer_calc_cpu_freq(0));
TRACE(0,"ldac need init here!!!! \n");
if ((hLdacData = ldacBT_get_handle()) == (HANDLE_LDAC_BT)NULL){
TRACE(0,"Error: Can not Get LDAC Handle!\n");
return 1;
}
int result = ldacBT_init_handle_decode(hLdacData,channel_mode,sample_rate,0,0,0);
if (result) {
TRACE(1,"[ERR] Initializing LDAC Handle for synthesis! Error code %s\n", get_error_code_string(ldacBT_get_error_code(hLdacData)));
return 2;
}
return 0;
}
TEXT_LDAC_LOC
int ldac_dec_deinit(void)
{
ldacBT_free_handle(hLdacData);
hLdacData = NULL;
app_audio_mempool_force_set_buff_used(ldac_buffer_used);
return 0;
}
TEXT_LDAC_LOC
int ldac_seek_header(uint32_t n_read_bytes, uint32_t *p_parse_bytes)
{
int channel_mode = 0;
int sample_rate = 0;
if (p_parse_bytes) {
*p_parse_bytes = 0;
}
if (n_read_bytes < 2) {
return 1;
}
/* update used_bytes to skip current ldac frame */
sample_rate = bt_get_ladc_sample_rate();
channel_mode = bt_ldac_player_get_channelmode();
if(1){
unsigned char *pStream, *p1st, *p2nd, *pTail;
unsigned char sync2 = 0;
unsigned char cci = 0;
p1st = p2nd = NULL;
pStream = ldac_input_mid_buf;
pTail = ldac_input_mid_buf + n_read_bytes - 2;
switch(channel_mode){
case LDACBT_CHANNEL_MODE_MONO:
cci = LDAC_CCI_MONO;
break;
case LDACBT_CHANNEL_MODE_DUAL_CHANNEL:
cci = LDAC_CCI_DUAL_CHANNEL;
break;
case LDACBT_CHANNEL_MODE_STEREO:
default:
cci = LDAC_CCI_STEREO;
break;
}
if(0){;}
else if(sample_rate == 1*44100){ sync2 = (0 << 5) | (cci << 3); }
else if(sample_rate == 1*48000){ sync2 = (1 << 5) | (cci << 3); }
else if(sample_rate == 2*44100){ sync2 = (2 << 5) | (cci << 3); }
else if(sample_rate == 2*48000){ sync2 = (3 << 5) | (cci << 3); }
while( pStream < pTail ){
if( pStream[0] == 0xAA ){ /* syncword */
if( (pStream[1] & 0xF8) == sync2 ){
if( p1st == NULL ){ p1st = pStream; } /* 1st syncword found */
else{ /* 2nd syncword found, this frame must decode next time */
p2nd = pStream;
if (p_parse_bytes) {
*p_parse_bytes = pStream - ldac_input_mid_buf;
}
break;
}
}
}
++pStream;
}
if( p2nd == NULL ){
/* faild to find next frame header */
TRACE(0,"Error: Can not get next LDAC frame_header!\n");
return 1;
}
}
return 0;
}
TEXT_LDAC_LOC
int load_ldac_frame(uint8_t **p_data, uint32_t *p_len)
{
#if 1
uint8_t retry = 0;
int len;
int result = 0;
if(hLdacData == NULL){
return 1;
}
while (true) {
len = get_ldac_data(ldac_input_mid_buf, LDAC_READBUF_SIZE);
if(len == 0){
if (retry++ >= A2DP_SYNC_WITH_PUT_MUTUX_TIMEROUT_CNT){
TRACE(0,"ldac No Data return");
result = 1;
break;
}
continue;
}
if (ldac_recovery) {
uint32_t parse_bytes;
result = ldac_seek_header(len, &parse_bytes);
if (result == 0) {
ldac_recovery = false;
}
LOCK_APP_AUDIO_QUEUE();
DeCQueue(&sbc_queue, 0, parse_bytes);
UNLOCK_APP_AUDIO_QUEUE();
continue;
}
break;
}
if(skip_ldac_frame > 0){
skip_ldac_frame--;
}
#endif
return result;
}
TEXT_LDAC_LOC
int decode_ldac_frame(uint8_t *out, uint32_t out_max, uint32_t *p_out_len, const uint8_t *in, uint32_t in_len, uint32_t *p_consume_len)
{
int result;
int n_read_bytes, used_bytes, wrote_bytes;
n_read_bytes = LDAC_READBUF_SIZE;
result = ldacBT_decode(hLdacData, ldac_input_mid_buf, out, LDACBT_SMPL_FMT_S16, n_read_bytes, &used_bytes, &wrote_bytes);
if (p_out_len) {
*p_out_len = wrote_bytes;
}
if (p_consume_len) {
*p_consume_len = used_bytes;
}
return result;
}
TEXT_LDAC_LOC
int consume_ldac_frame(const uint8_t *data, uint32_t len)
{
LOCK_APP_AUDIO_QUEUE();
DeCQueue(&sbc_queue, 0, len);
mtu_count--;
UNLOCK_APP_AUDIO_QUEUE();
return 0;
}
TEXT_LDAC_LOC
void decode_ldac_end(uint32_t expect_out_len, uint32_t out_len, uint32_t in_len)
{
if (expect_out_len != out_len) {
if (hLdacData) {
int error_code;
error_code = ldacBT_get_error_code(hLdacData);
TRACE(6,"error_code = %4d, %4d, %4d,FrameHeader[%02x:%02x:%02x]\n", LDACBT_API_ERR(error_code), LDACBT_HANDLE_ERR(error_code),\
LDACBT_BLOCK_ERR(error_code), ldac_input_mid_buf[0], ldac_input_mid_buf[1], ldac_input_mid_buf[2]);
if( LDACBT_FATAL(error_code) ){
ldac_dec_deinit();
}
}
if (hLdacData == NULL) {
/* Recovery Process */
int result;
result = ldac_dec_init();
if (result) {
ldac_dec_deinit();
}
ldac_recovery = true;
}
}
}
#endif
#if defined(A2DP_AAC_ON)
#include "aacdecoder_lib.h"
#include "aacenc_lib.h"
#include "heap_api.h"
#define DECODE_AAC_PCM_FRAME_LENGTH (1024*4)
HANDLE_AACDECODER aacDec_handle = NULL;
#define AAC_MEMPOLL_SIZE (40596)
heap_handle_t aac_memhandle = NULL;
uint8_t *aac_mempoll = NULL;
static unsigned char aac_input_mid_buf[AAC_READBUF_SIZE];
STATIC_ASSERT(sizeof(aac_input_mid_buf) >= 2048, "aac_input_mid_buf too small");
static uint32_t byte_in_buffer = 0;
int aac_meminit()
{
int ret = 1;
if (aac_mempoll == NULL)
ret = app_audio_mempool_get_buff((uint8_t **)&aac_mempoll, AAC_MEMPOLL_SIZE);
if (ret > 0 && aac_memhandle == NULL)
{
aac_memhandle = heap_register(aac_mempoll,AAC_MEMPOLL_SIZE);
}
return ret;
}
void aac_memdeinit()
{
extern int total_calloc;
aac_mempoll = 0;
aac_memhandle = 0;
total_calloc = 0;
byte_in_buffer = 0;
}
volatile int aac_slave_codec_patch_bytes = 0;
int aacdec_init(void)
{
if (aacDec_handle == NULL) {
TRANSPORT_TYPE transportFmt = TT_MP4_LATM_MCP1;
aacDec_handle = aacDecoder_Open(transportFmt, 1 /* nrOfLayers */);
if (!aacDec_handle)
{
TRACE(1,"%s Error initializing AAC decoder", __func__);
return 1;
}
aacDecoder_SetParam(aacDec_handle,AAC_PCM_LIMITER_ENABLE,0);
aacDecoder_SetParam(aacDec_handle, AAC_DRC_ATTENUATION_FACTOR, 0);
aacDecoder_SetParam(aacDec_handle, AAC_DRC_BOOST_FACTOR, 0);
}
return 0;
}
int aacdec_deinit(void)
{
if (aacDec_handle != NULL) {
aacDecoder_Close(aacDec_handle);
aacDec_handle = NULL;
size_t total = 0, used = 0, max_used = 0;
heap_memory_info(aac_memhandle,&total, &used, &max_used);
TRACE(3,"AAC MALLOC MEM: total - %d, used - %d, max_used - %d.",
total, used, max_used);
}
return 0;
}
TEXT_AAC_LOC
static int pcm_buffer_read_no_protction(CQueue *queue, uint8_t *buff, uint16_t len)
{
uint8_t *e1 = NULL, *e2 = NULL;
unsigned int len1 = 0, len2 = 0;
int status;
status = PeekCQueue(queue, len, &e1, &len1, &e2, &len2);
//TRACE(5,"pcm_buffer_read_no_protction len=%d,len1=%d,len2=%d,e1=0x%x,e2=0x%x",len,len1,len2,e1,e2);
if (len==(len1+len2)){
memcpy(buff,e1,len1);
memcpy(buff+len1,e2,len2);
DeCQueue(queue, 0, len);
}else{
memset(buff, 0x00, len);
status = -1;
}
return status;
}
TEXT_AAC_LOC
int load_aac_frame(uint8_t **p_data, uint32_t *p_len)
{
//uint32_t lock;
unsigned short aac_len =0 ;
int status;
LOCK_APP_AUDIO_QUEUE();
status = pcm_buffer_read_no_protction(&sbc_queue, (uint8_t *)&aac_len, 2);
if(status != CQ_OK){
UNLOCK_APP_AUDIO_QUEUE();
//a2dp_cache_status = APP_AUDIO_CACHE_CACHEING;
return 1;
}
if (aac_len < 64) {
aac_maxreadBytes = 64;
} else if (aac_len < 128) {
aac_maxreadBytes = 128;
} else if (aac_len < 256) {
aac_maxreadBytes = 256;
} else if (aac_len < 512) {
aac_maxreadBytes = 512;
} else if (aac_len < 1024) {
aac_maxreadBytes = 1024;
} else {
if (aac_len >= 2048) {
// Header is bad!
dec_reset_queue = true;
return 2;
}
aac_maxreadBytes = 2048;
}
status = pcm_buffer_read_no_protction(&sbc_queue,aac_input_mid_buf, aac_len);
if(status != CQ_OK){
UNLOCK_APP_AUDIO_QUEUE();
//a2dp_cache_status = APP_AUDIO_CACHE_CACHEING;
return 1;
}
mtu_count--;
UNLOCK_APP_AUDIO_QUEUE();
//uint32_t a2dp_queue_bytes = LengthOfCQueue(&sbc_queue);
//TRACE(3,"d aac_len=%d, a2dp_bytes=%d, aac_maxreadBytes=%d\n", aac_len, a2dp_queue_bytes, aac_maxreadBytes);
if (p_data) {
*p_data = (unsigned char *)aac_input_mid_buf;
}
if (p_len) {
*p_len = aac_maxreadBytes;
}
return 0;
}
TEXT_AAC_LOC
int decode_aac_frame(uint8_t *out, uint32_t out_max, uint32_t *p_out_len, const uint8_t *in, uint32_t in_len, uint32_t *p_consume_len)
{
unsigned int bufferSize = in_len;
unsigned int bytesValid = in_len;
AAC_DECODER_ERROR err = AAC_DEC_OK;
CStreamInfo* info=NULL;
//at leat should large than AAC_MAX_NSAMPS*2 (one channel)
if(out_max < 2048){
TRACE(2,"%s daac pcm_len = %d \n", __func__, out_max);
return 1;
}
if(a2dp_channel_num[app_bt_device.curr_a2dp_stream_id] == 1){
out_max >>= 1;
}
//int tt = hal_sys_timer_get();
err = aacDecoder_Fill(aacDec_handle, (uint8_t **)&in, &bufferSize, &bytesValid);
if (err != AAC_DEC_OK) {
TRACE(1,"aacDecoder_Fill failed:0x%x", err);
//if aac failed reopen it again
if(is_aacDecoder_Close(aacDec_handle)){
aacDec_handle = NULL;
aacdec_init();
TRACE(1,"%s reopen aac codec \n", __func__);
}
return 2;
}
/* decode one AAC frame */
err = aacDecoder_DecodeFrame(aacDec_handle, (short *)out, out_max/2, 0 /* flags */);
#if 0
TRACE_IMM(0," ");
for(uint32_t i=0;i<aac_len;i=i+32)
{
DUMP8("%02x", &(aac_input_mid_buf[i]), 32);
}
#endif
if (err != AAC_DEC_OK)
{
TRACE(1,"aacDecoder_DecodeFrame failed:0x%x", err);
//if aac failed reopen it again
if(is_aacDecoder_Close(aacDec_handle)){
aacDec_handle = NULL;
aacdec_init();
TRACE(1,"%s reopen aac codec \n", __func__);
}
return 3;
}
info = aacDecoder_GetStreamInfo(aacDec_handle);
if (!info || info->sampleRate <= 0) {
TRACE(2,"%s Invalid stream info %d", __func__, info->sampleRate);
return 4;
}
int frame_len = info->frameSize * info->numChannels * 2;//sizeof(pcm_buffer[0]);
//TRACE(4,"aac: %d,frameSize=%d,numChannels=%d use %d ms\n", frame_len,info->frameSize,info->numChannels,TICKS_TO_MS(hal_sys_timer_get()-tt));
if (p_out_len) {
*p_out_len = frame_len;
}
if (p_consume_len) {
*p_consume_len = in_len - bytesValid;
}
if(a2dp_channel_num[app_bt_device.curr_a2dp_stream_id] == 1){
expand_1_channel_to_2_channels_16bits(out, frame_len);
*p_out_len = frame_len << 1;
}
return 0;
}
#endif
#ifdef A2DP_EQ_24BIT
static void convert_16bit_to_24bit(int32_t *out, int16_t *in, int len)
{
for (int i = len - 1; i >= 0; i--) {
out[i] = ((int32_t)in[i] << 8);
}
}
#endif
#if defined(A2DP_SCALABLE_ON)
extern "C" {
#include "ssc.h"
}
unsigned char *scalable_input_mid_buf = NULL;
unsigned char *scalable_decoder_place = NULL;
unsigned char *scalable_decoder_temp_buf = NULL;
void *hSSDecoder = NULL;
#if 0
uint8_t ss_dump[484*10];
uint32_t ss_dump_index = 0;
#endif
extern "C" int ssc_decoder_init(
void *s,
int channels,
int Fs
);
TEXT_SSC_LOC
void ss_to_24bit_buf(int32_t *out, int32_t *in, int size)
{
for(int i = 0; i < size; i++) {
out[i] = in[i];
}
}
TEXT_SSC_LOC
void ss_to_16bit_buf(int16_t *out, int32_t *in, int size)
{
for(int i = 0; i < size; i++) {
out[i] = in[i];
}
}
static int ss_pcm_buff[SCALABLE_FRAME_SIZE << 1];
static int scalable_uhq_flag = 0;
TEXT_SSC_LOC
int load_scalable_frame(uint8_t **p_data, uint32_t *p_len)
{
int hw_tmp,len,bitrate_bps,frame_size;
int r = 0;
unsigned char *e1 = NULL, *e2 = NULL;
unsigned int len1 = 0, len2 = 0;
int sampling_rate = 44100;
int extends_flag;
TRACE(0,"##decode_scalable_frame");
uint8_t head[4];
LOCK_APP_AUDIO_QUEUE();
len1 = len2 = 0;
e1 = e2 = 0;
r = PeekCQueue(&sbc_queue, SCALABLE_HEAD_SIZE, &e1, &len1, &e2, &len2);
UNLOCK_APP_AUDIO_QUEUE();
if(r == CQ_ERR) {
//osDelay(2);
TRACE(2,"no data head xxx %d/%d" , LengthOfCQueue(&sbc_queue),AvailableOfCQueue(&sbc_queue));
//goto get_scalable_head_again;
LOCK_APP_AUDIO_QUEUE();
DeCQueue(&sbc_queue, head, 4);
UNLOCK_APP_AUDIO_QUEUE();
hal_trace_dump("sss %01x",1,4,head);
return 1;
}
else {
// normal
if (e1) {
memcpy(scalable_input_mid_buf, e1, len1);
}
if (e2) {
memcpy(scalable_input_mid_buf + len1, e2, len2);
}
}
LOCK_APP_AUDIO_QUEUE();
DeCQueue(&sbc_queue, 0, 4);
UNLOCK_APP_AUDIO_QUEUE();
scalable_uhq_flag = 0;
extends_flag = ((scalable_input_mid_buf[3]>>3)&1);
switch ((scalable_input_mid_buf[3]&0xf7)) {
case 0xF0:
bitrate_bps = 88000;
break;
case 0xF1:
bitrate_bps = 96000;
break;
case 0xF2:
bitrate_bps = 128000;
break;
case 0xF3:
bitrate_bps = 192000;
break;
case 0xF5:
scalable_uhq_flag = 1;
bitrate_bps = 328000;
sampling_rate = 96000;
break;
default:
bitrate_bps = 88000;
break;
}
frame_size = SCALABLE_FRAME_SIZE;
len = bitrate_bps*frame_size/sampling_rate/8;
if(scalable_uhq_flag == 0)
{
hw_tmp = (len*3)>>7;
len = hw_tmp+len;
len = len+((len & 1)^1);
}
else{
len=369;//744/2-4+1
}
TRACE(4,"len %d,uhq:%d ext:%d extbitrate_bps %d", len,scalable_uhq_flag, extends_flag,bitrate_bps);
LOCK_APP_AUDIO_QUEUE();
len1 = len2 = 0;
e1 = e2 = 0;
r = PeekCQueue(&sbc_queue, len-1, &e1, &len1, &e2, &len2);
if(r == CQ_ERR) {
//osDelay(2);
TRACE(0,"no data ");
UNLOCK_APP_AUDIO_QUEUE();
return 2;
}
else {
// normal
if (e1) {
memcpy(scalable_input_mid_buf+4, e1, len1);
}
if (e2) {
memcpy(scalable_input_mid_buf+4+len1, e2, len2);
}
}
// UNLOCK_APP_AUDIO_QUEUE();
// LOCK_APP_AUDIO_QUEUE();
DeCQueue(&sbc_queue, 0, len-1);
UNLOCK_APP_AUDIO_QUEUE();
// TRACE(2,"len1 %d, len2 %d\n", len1, len2);
if (p_data) {
*p_data = scalable_input_mid_buf;
}
if (p_len) {
*p_len = len - 1;
}
return 0;
}
TEXT_SSC_LOC
int decode_scalable_frame(uint8_t *out, uint32_t out_max, uint32_t *p_out_len, const uint8_t *in, uint32_t in_len, uint32_t *p_consume_len)
{
uint32_t out_len;
int decoder_size;
int output_samples;
int err;
out_len = SCALABLE_FRAME_SIZE * 2;
if (hSSDecoder == NULL) {
hSSDecoder = (void *)scalable_decoder_place;
//err = ssc_decoder_create(44100, 2, hSSDecoder);
decoder_size = ssc_decoder_get_size(2,96000);
err = ssc_decoder_init(hSSDecoder,2,96000);
TRACE(2,"decoder_size %d init ret %d\n", decoder_size,err);
}
if(a2dp_channel_num[app_bt_device.curr_a2dp_stream_id] == 1){
ASSERT(0, "UHQ should check audio channel number");
}
output_samples = ssc_decode(hSSDecoder, scalable_input_mid_buf, (int *)ss_pcm_buff, SCALABLE_FRAME_SIZE, scalable_decoder_temp_buf);
if (scalable_uhq_flag) {
ss_to_24bit_buf((int32_t *)out, (int32_t *)ss_pcm_buff, out_len);
out_len *= 4;
}
else {
ss_to_16bit_buf((int16_t *)out, (int32_t *)ss_pcm_buff, out_len);
out_len *= 2;
}
TRACE(2,"pcm_len %d o:%d", out_len, output_samples);
if (p_out_len) {
*p_out_len = out_len;
}
if (p_consume_len) {
*p_consume_len = 0;
}
return 0;
}
#endif
static unsigned int sbc_next_frame_size;
static btif_sbc_pcm_data_t sbc_pcm_data;
static uint8_t sbc_underflow;
TEXT_SBC_LOC
void decode_sbc_begin(void)
{
sbc_underflow = 0;
}
TEXT_SBC_LOC
int load_sbc_frame(uint8_t **p_data, uint32_t *p_len)
{
unsigned char retry = 0;
int r = 0;
unsigned char *e1 = NULL, *e2 = NULL;
unsigned int len1 = 0, len2 = 0;
if (!sbc_next_frame_size){
sbc_next_frame_size = sbc_frame_size;
}
if (need_init_decoder) {
sbc_next_frame_size = sbc_frame_size;
}
get_again:
LOCK_APP_AUDIO_QUEUE();
len1 = len2 = 0;
r = PeekCQueue(&sbc_queue, sbc_next_frame_size, &e1, &len1, &e2, &len2);
UNLOCK_APP_AUDIO_QUEUE();
if(r == CQ_ERR) {
#ifdef __LOCK_AUDIO_THREAD__
TRACE(1,"cache sbc_underflow retry:%d\n", retry);
goto exit;
#elif defined (A2DP_SYNC_WITH_PUT_MUTUX)
int size;
A2DP_SYNC_WITH_PUT_MUTUX_ALLOC();
A2DP_SYNC_WITH_PUT_MUTUX_WAIT();
if (retry++<A2DP_SYNC_WITH_PUT_MUTUX_TIMEROUT_CNT){
goto get_again;
}else{
LOCK_APP_AUDIO_QUEUE();
size = LengthOfCQueue(&sbc_queue);
UNLOCK_APP_AUDIO_QUEUE();
sbc_underflow = 1;
TRACE(2,"cache sbc_underflow size:%d retry:%d\n", size, retry);
goto exit;
}
#else
#if 1
TRACE(1,"cache sbc_underflow retry:%d\n", retry);
goto exit;
#else
int size;
osDelay(2);
LOCK_APP_AUDIO_QUEUE();
size = LengthOfCQueue(&sbc_queue);
UNLOCK_APP_AUDIO_QUEUE();
if (retry++<12){
goto get_again;
}else{
sbc_underflow = 1;
TRACE(2,"cache sbc_underflow size:%d retry:%d\n", size, retry);
goto exit;
}
#endif
#endif
} else {
retry = 0;
}
if (!len1){
TRACE(2,"len1 sbc_underflow %d/%d\n", len1, len2);
goto get_again;
}
if (p_data) {
*p_data = e1;
}
if (p_len) {
*p_len = len1;
}
return 0;
exit:
return 1;
}
TEXT_SBC_LOC
int decode_sbc_frame(uint8_t *out, uint32_t out_max, uint32_t *p_out_len, const uint8_t *in, uint32_t in_len, uint32_t *p_consume_len)
{
uint16_t parse_len;
static uint16_t parse_len_total_frame = 0;
bt_status_t ret;
if(need_init_decoder) {
parse_len_total_frame = 0;
btif_sbc_init_decoder(sbc_decoder);
}
need_init_decoder = false;
sbc_pcm_data.data = out;
sbc_pcm_data.dataLen = 0;
if(a2dp_channel_num[app_bt_device.curr_a2dp_stream_id] == 1){
out_max >>= 1;
}
uint32_t lock = int_lock();
ret = btif_sbc_decode_frames(sbc_decoder, (uint8_t *)in, in_len,
&parse_len,
&sbc_pcm_data,
out_max,
sbc_eq_band_gain);
int_unlock(lock);
parse_len_total_frame += parse_len;
if(parse_len_total_frame >= sbc_frame_size){
mtu_count --;
// TRACE(1,"-mtu_count = %d",mtu_count);
parse_len_total_frame -= sbc_frame_size;
}
if (ret == BT_STS_SUCCESS) {
sbc_next_frame_size = sbc_frame_size;
} else {
sbc_next_frame_size = (sbc_frame_size > parse_len) ? (sbc_frame_size - parse_len) : sbc_frame_size;
if (ret == BT_STS_FAILED) {
need_init_decoder = true;
TRACE(1,"err mutelen:%d\n",sbc_pcm_data.dataLen);
} else if(ret == BT_STS_NO_RESOURCES) {
TRACE(1,"no_res mutelen:%d\n",sbc_pcm_data.dataLen);
}
}
if (p_out_len) {
*p_out_len = sbc_pcm_data.dataLen;
}
if (p_consume_len) {
*p_consume_len = parse_len;
}
if(a2dp_channel_num[app_bt_device.curr_a2dp_stream_id] == 1){
expand_1_channel_to_2_channels_16bits(sbc_pcm_data.data, sbc_pcm_data.dataLen);
sbc_pcm_data.dataLen <<= 1;
*p_out_len = sbc_pcm_data.dataLen;
}
return (ret == BT_STS_CONTINUE || ret == BT_STS_SUCCESS) ? 0 : 1;
}
TEXT_SBC_LOC
int consume_sbc_frame(const uint8_t *data, uint32_t len)
{
LOCK_APP_AUDIO_QUEUE();
DeCQueue(&sbc_queue, 0, len);
UNLOCK_APP_AUDIO_QUEUE();
return 0;
}
TEXT_SBC_LOC
void decode_sbc_end(uint32_t expect_out_len, uint32_t out_len, uint32_t in_len)
{
#ifndef A2DP_TRACE_DEC_TIME
if (sbc_underflow || need_init_decoder) {
dec_trace_time = true;
}
#endif
#ifdef A2DP_AUDIO_SYNC_WITH_LOCAL
if(expect_out_len == out_len){
int size;
LOCK_APP_AUDIO_QUEUE();
size = LengthOfCQueue(&sbc_queue);
UNLOCK_APP_AUDIO_QUEUE();
// TRACE(2,"decode_sbc_frame Queue remain size:%d frame_size:%d\n",size, sbc_frame_size);
A2DP_AUDIO_SYNC_TRACE(6,"sync status:%d qsize:%d/%d fsize:%d, thr:%d used:%d", sync_status,size, g_sbc_queue_size, sbc_frame_size, A2DPPLAY_CACHE_OK_THRESHOLD, in_len);
/*
nor:
if (size>7488+1170*2)
goto inc
if (size<7488-1170)
goto dec
dec:
if (size>=7488+1170)
goto nor
inc:
if (size<=7488)
goto nor
*/
switch (sync_status) {
case A2DP_AUDIO_SYNC_STATUS_SAMPLERATE_DEC:
if (size >= (A2DPPLAY_CACHE_OK_THRESHOLD + in_len)){
a2dp_audio_sync_proc(A2DPPLAY_SYNC_STATUS_SET, A2DP_AUDIO_SYNC_WITH_LOCAL_SAMPLERATE_DEFAULT);
sync_status = A2DP_AUDIO_SYNC_STATUS_SAMPLERATE_DEFAULT;
A2DP_AUDIO_SYNC_TRACE(0,"default pll freq");
}else{
a2dp_audio_sync_proc(A2DPPLAY_SYNC_STATUS_PROC, 0);
}
break;
case A2DP_AUDIO_SYNC_STATUS_SAMPLERATE_INC:
if (size <= (A2DPPLAY_CACHE_OK_THRESHOLD)){
a2dp_audio_sync_proc(A2DPPLAY_SYNC_STATUS_SET, A2DP_AUDIO_SYNC_WITH_LOCAL_SAMPLERATE_DEFAULT);
sync_status = A2DP_AUDIO_SYNC_STATUS_SAMPLERATE_DEFAULT;
A2DP_AUDIO_SYNC_TRACE(0,"default pll freq");
}else{
a2dp_audio_sync_proc(A2DPPLAY_SYNC_STATUS_PROC, 0);
}
break;
case A2DP_AUDIO_SYNC_STATUS_SAMPLERATE_DEFAULT:
default:
if (size > (A2DPPLAY_CACHE_OK_THRESHOLD + (in_len<<1))){
a2dp_audio_sync_proc(A2DPPLAY_SYNC_STATUS_SET, A2DP_AUDIO_SYNC_WITH_LOCAL_SAMPLERATE_INC);
sync_status = A2DP_AUDIO_SYNC_STATUS_SAMPLERATE_INC;
A2DP_AUDIO_SYNC_TRACE(0,"inc pll freq");
}else if (size < (A2DPPLAY_CACHE_OK_THRESHOLD - in_len)){
a2dp_audio_sync_proc(A2DPPLAY_SYNC_STATUS_SET, A2DP_AUDIO_SYNC_WITH_LOCAL_SAMPLERATE_DEC);
sync_status = A2DP_AUDIO_SYNC_STATUS_SAMPLERATE_DEC;
A2DP_AUDIO_SYNC_TRACE(0,"dec pll freq");
}else{
a2dp_audio_sync_proc(A2DPPLAY_SYNC_STATUS_PROC, 0);
}
break;
}
}
#endif
}
#if defined(A2DP_LHDC_ON)
#define PACKET_BUFFER_LENGTH 4 * 1024
uint8_t serial_no;
bool is_synced;
bool is_splited;
ASM_PKT_STATUS asm_pkt_st;
uint8_t packet_buffer[PACKET_BUFFER_LENGTH];
uint32_t packet_buf_len = 0;
uint32_t frames_nb_in_buffer = 0;
uint32_t total_frame_nb = 0;
void reset_lhdc_assmeble_packet()
{
is_synced = false;
asm_pkt_st = ASM_PKT_WAT_STR;
packet_buf_len = 0;
total_frame_nb = 0;
}
void initial_lhdc_assemble_packet(bool splitFlg){
memset(packet_buffer, 0, PACKET_BUFFER_LENGTH);
reset_lhdc_assmeble_packet();
serial_no = 0xff;
is_splited = splitFlg;
TRACE(1,"is_splited = %s\n", splitFlg ? "true" : "false");
}
/**
* get lhdc frame header
*/
bool get_lhdc_header(uint8_t * in, LHDC_FRAME_HDR * h) {
#define LHDC_HDR_LEN 4
uint32_t hdr = 0;
bool ret = false;
memcpy(&hdr, in , LHDC_HDR_LEN);
h->frame_len = ( int)( ( hdr >> 8) & 0x1fff);
h->isSplit = ( ( hdr & 0x00600000) == 0x00600000);
h->isLeft = ((hdr & 0xf) == 0);
if ( ( hdr & 0xff000000) != 0x4c000000){
TRACE(0,"lhdc hdr err!\n");
ret = false;
} else {
//TRACE(4,"frame_len = %d, g_lhdc_split = %s, g_lhdc_channel = %s(%d)", h->frame_len, h->isSplit ? "true" : "false", h->isLeft ? "left" : "right", (hdr & 0xf) );
ret = true;
}
return ret;
}
/**
*Get splited lhdc frames fit to MTU size
*/
uint32_t get_lhdc_frame(uint8_t * frame_q, size_t q_available_size, uint8_t * out_buf, uint32_t * out_size, uint32_t * out_frames){
LHDC_FRAME_HDR hdr;
size_t emptSize = q_available_size >= PACKET_MTU_SIZE ? PACKET_MTU_SIZE : q_available_size;
uint32_t * offset = out_size;
//uint32_t * frame_cnt = out_frames;
bool start = TRUE;
*offset = 0; // *frame_cnt = 0;
while (start) {
if (get_lhdc_header(frame_q + *offset, &hdr) == false ){
start = false;
continue;
}
if (emptSize < hdr.frame_len) {
start = false;
continue;
}
memcpy(out_buf + *offset, frame_q + *offset, hdr.frame_len);
emptSize -= hdr.frame_len;
*offset += hdr.frame_len;
(*out_frames)++;
}
return *offset;
}
/**
* Grabe lhdc data from queue
*/
int get_lhdc_data(unsigned char * frame, unsigned int len)
{
int status;
unsigned int len1 = 0, len2 = 0;
unsigned char *e1 = NULL, *e2 = NULL;
LOCK_APP_AUDIO_QUEUE();
unsigned int queu_len = (unsigned int)LengthOfCQueue(&sbc_queue);
len = queu_len < len ? queu_len : len;
status = PeekCQueue(&sbc_queue, len, &e1, &len1, &e2, &len2);
UNLOCK_APP_AUDIO_QUEUE();
if(status != CQ_OK){
return 0;
}
if (e1) {
memcpy(frame, e1, len1);
}
if (e2) {
memcpy(frame + len1, e2, len2);
}
return len;
}
int assemble_lhdc_packet(uint8_t * input, uint32_t input_len, uint8_t** pLout, uint32_t * pLlen, uint8_t** pRout, uint32_t * pRlen){
uint8_t hdr = 0, seqno = 0xff;
int ret = -1;
uint32_t status = 0;
hdr = (*input);
input++;
seqno = (*input);
input++;
input_len -= 2;
status = hdr & A2DP_LHDC_HDR_LATENCY_MASK;
if (latencyUpdated != (uint8_t)status) {
latencyUpdated = (uint8_t)status;
TRACE(1,"New latency setting = 0x%02x", latencyUpdated);
}
if( is_synced)
{
if( seqno != serial_no )
{
reset_lhdc_assmeble_packet();
if( (hdr & A2DP_LHDC_HDR_FLAG_MSK) == 0 ||
(hdr & A2DP_LHDC_HDR_S_MSK) != 0 )
{
goto lhdc_start;
}
else
TRACE(1,"drop packet No. %u", seqno);
return 0;
}
serial_no = seqno + 1;
}
lhdc_start:
switch (asm_pkt_st) {
case ASM_PKT_WAT_STR:{
if( (hdr & A2DP_LHDC_HDR_FLAG_MSK) == 0 )
{
memcpy(&packet_buffer[0], input, input_len);
if (pLlen && pLout) {
*pLlen = input_len;
*pLout = packet_buffer;
}
if (pRout && pRlen) {
*pRout = NULL;
*pRlen = 0;
}
//TRACE(1,"Single payload size = %d", *pLlen);
asm_pkt_st = ASM_PKT_WAT_STR;
packet_buf_len = 0;//= packet_buf_left_len = packet_buf_right_len = 0;
total_frame_nb = 0;
ret = 1;
}
else if( hdr & A2DP_LHDC_HDR_S_MSK )
{
ret = 0;
if (packet_buf_len + input_len >= PACKET_BUFFER_LENGTH) {
packet_buf_len = 0;
asm_pkt_st = ASM_PKT_WAT_STR;
TRACE(1,"ASM_PKT_WAT_STR:Frame buffer overflow!(%d)", packet_buf_len);
break;
}
memcpy(&packet_buffer, input, input_len);
packet_buf_len = input_len;
asm_pkt_st = ASM_PKT_WAT_LST;
//TRACE(1,"multi:first payload size = %d", input_len);
}
else
ret = -1;
if( ret >= 0 )
{
if( !is_synced )
{
is_synced = true;
serial_no = seqno + 1;
}
}
break;
}
case ASM_PKT_WAT_LST:{
if (packet_buf_len + input_len >= PACKET_BUFFER_LENGTH) {
packet_buf_len = 0;
asm_pkt_st = ASM_PKT_WAT_STR;
TRACE(1,"ASM_PKT_WAT_LST:Frame buffer overflow(%d)", packet_buf_len);
break;
}
memcpy(&packet_buffer[packet_buf_len], input, input_len);
//TRACE(1,"multi:payload size = %d", input_len);
packet_buf_len += input_len;
ret = 0;
if( hdr & A2DP_LHDC_HDR_L_MSK )
{
if (pLlen && pLout) {
*pLlen = packet_buf_len;
*pLout = packet_buffer;
}
//TRACE(1,"multi: all payload size = %d", packet_buf_len);
packet_buf_len = 0; //packet_buf_left_len = packet_buf_right_len = 0;
total_frame_nb = 0;
ret = 1;
asm_pkt_st = ASM_PKT_WAT_STR;
}
break;
}
default:
ret = 0;
break;
}
return ret;
}
/**
* Decode LHDC data...
*/
TEXT_LHDC_LOC
int load_lhdc_frame(uint8_t **p_data, uint32_t *p_len)
{
int ret;
LHDC_HEADER *ph = NULL;
uint8_t retry = 0;
int status;
uint8_t *_buff = NULL;
uint32_t _buff_len = 0;
ret = 1;
A2DP_SYNC_WITH_PUT_MUTUX_ALLOC();
if (latencyIndex != latencyUpdated) {
latencyIndex = latencyUpdated;
goto _exit;
}
while (true) {
int result = lhdcReadyForInput();
if (result == 1) {
/* code */
status = get_lhdc_data(lhdc_input_mid_buf, sizeof(LHDC_HEADER));
if(status == 0){
//No data return...
if (retry++ >= A2DP_SYNC_WITH_PUT_MUTUX_TIMEROUT_CNT){
TRACE(1,"%s:No Data return", __func__);
break;
}
A2DP_SYNC_WITH_PUT_MUTUX_WAIT();
continue;
}
retry = 0;
ph = (LHDC_HEADER *)&lhdc_input_mid_buf[0];
result = memcmp((const char*)magicTag, (const char*)ph->tag, sizeof(magicTag));
if (result != 0) {
uint8_t tmp[sizeof(magicTag) + 1];
size_t i;
for ( i = 0; i < sizeof(magicTag); i++) {
sprintf((char*)&tmp[i], "%c", (char)ph->tag[i]);
}
tmp[i] = 0;
continue;
}
status = get_lhdc_data(lhdc_input_mid_buf, sizeof(LHDC_HEADER) + ph->packetLen);
if(status == 0){
//No data return...
TRACE(1,"Fetch data error[lenght = %d]", ph->packetLen);
continue;
}
ph = (LHDC_HEADER *)&lhdc_input_mid_buf[0];
//TRACE(2,"%s:Get packet[%d]", __func__, ph->packetLen);
LOCK_APP_AUDIO_QUEUE();
DeCQueue(&sbc_queue, 0, sizeof(LHDC_HEADER) + ph->packetLen);
mtu_count--;
UNLOCK_APP_AUDIO_QUEUE();
_buff = ph->dptr;
_buff_len = ph->packetLen;
ret = 0;
} else {
_buff = NULL;
_buff_len = 0;
ret = 0;
}
break;
}
_exit:
A2DP_SYNC_WITH_PUT_MUTUX_FREE();
if (p_data) {
*p_data = _buff;
}
if (p_len) {
*p_len = _buff_len;
}
return ret;
}
TEXT_LHDC_LOC
int decode_lhdc_frame(uint8_t *out, uint32_t out_max, uint32_t *p_out_len, const uint8_t *in, uint32_t in_len, uint32_t *p_consume_len)
{
uint32_t need_again;
uint32_t out_len;
if(a2dp_channel_num[app_bt_device.curr_a2dp_stream_id] == 1){
ASSERT(0, "lhdc should check audio channel number");
}
out_len = lhdcDecodeProcess(out, (uint8_t *)in, in_len, &need_again);
if (p_out_len) {
*p_out_len = (out_len >= 0) ? out_len : 0;
}
if (p_consume_len) {
*p_consume_len = (out_len >= 0) ? in_len : 0;
}
return (out_len >= 0) ? 0 : 1;
}
TEXT_LHDC_LOC
void decode_lhdc_end(uint32_t expect_out_len, uint32_t out_len, uint32_t in_len)
{
if (expect_out_len != out_len) {
dec_reset_queue = true;
}
}
#endif
#ifdef A2DP_CP_ACCEL
#include "cp_accel.h"
#define CP_CACHE_ATTR ALIGNED(4) CP_BSS_LOC
#define CP_DEC_SLOT_CNT 3
enum CP_DEC_STATE_T {
CP_DEC_STATE_IDLE,
CP_DEC_STATE_WORKING,
CP_DEC_STATE_DONE,
CP_DEC_STATE_FAILED,
};
static CP_CACHE_ATTR uint8_t cp_in_cache[1024 * 10];
static CP_CACHE_ATTR uint8_t cp_out_cache[1024 * 16];
static CP_BSS_LOC uint32_t cp_in_wpos;
static CP_BSS_LOC uint32_t cp_in_rpos;
static CP_BSS_LOC uint32_t cp_dec_start_time;
static CP_BSS_LOC uint32_t cp_last_dec_time;
#ifdef A2DP_TRACE_CP_DEC_TIME
static CP_DATA_LOC const bool cp_dec_trace_time = true;
#else
static CP_BSS_LOC bool cp_dec_trace_time;
#endif
static CP_BSS_LOC uint8_t cp_dec_idx;
static bool mcu_dec_inited;
static enum APP_OVERLAY_ID_T cp_overlay_type;
static enum CP_DEC_STATE_T cp_dec_state[CP_DEC_SLOT_CNT];
static uint8_t cp_dec_mtu_cnt[CP_DEC_SLOT_CNT];
static uint32_t cp_out_len[CP_DEC_SLOT_CNT];
static uint8_t mcu_dec_idx;
static uint32_t cp_in_size;
static uint32_t cp_out_size;
static uint32_t cp_out_loop_size;
static uint32_t cp_get_in_cache_data_len(uint32_t in_wpos, uint32_t in_rpos);
static void cp_get_in_cache_data(uint8_t *data, uint32_t len, uint32_t in_wpos, uint32_t in_rpos);
static uint32_t cp_update_in_cache_pos(uint32_t in_pos, uint32_t len);
#if defined(A2DP_LDAC_ON)
static CP_BSS_LOC bool cp_ldac_fatal_error;
TEXT_LDAC_LOC
int cp_load_ldac_frame(uint8_t **p_data, uint32_t *p_len)
{
uint32_t len;
uint32_t in_rpos;
uint32_t in_wpos;
if (hLdacData == NULL || cp_ldac_fatal_error){
return 1;
}
in_rpos = cp_in_rpos;
in_wpos = cp_in_wpos;
_get_hdr:
len = cp_get_in_cache_data_len(in_wpos, in_rpos);
if (len == 0) {
return 2;
}
if (len > LDAC_READBUF_SIZE) {
len = LDAC_READBUF_SIZE;
}
cp_get_in_cache_data(&ldac_input_mid_buf[0], len, in_wpos, in_rpos);
if (ldac_recovery) {
uint32_t parse_bytes;
int result;
result = ldac_seek_header(len, &parse_bytes);
if (result == 0) {
ldac_recovery = false;
}
in_rpos = cp_update_in_cache_pos(in_rpos, parse_bytes);
goto _get_hdr;
}
return 0;
}
TEXT_LDAC_LOC
static int cp_consume_ldac_frame(const uint8_t *data, uint32_t len)
{
cp_in_rpos = cp_update_in_cache_pos(cp_in_rpos, len);
return 0;
}
TEXT_LDAC_LOC
void cp_decode_ldac_end(uint32_t expect_out_len, uint32_t out_len, uint32_t in_len)
{
if (expect_out_len != out_len) {
if (hLdacData) {
int error_code;
error_code = ldacBT_get_error_code(hLdacData);
TRACE(6,"error_code = %4d, %4d, %4d,FrameHeader[%02x:%02x:%02x]\n", LDACBT_API_ERR(error_code), LDACBT_HANDLE_ERR(error_code),\
LDACBT_BLOCK_ERR(error_code), ldac_input_mid_buf[0], ldac_input_mid_buf[1], ldac_input_mid_buf[2]);
if( LDACBT_FATAL(error_code) ){
cp_ldac_fatal_error = true;
}
}
}
}
TEXT_LDAC_LOC
void mcu_decode_ldac_end(uint32_t expect_out_len, uint32_t out_len, uint32_t in_len)
{
if (expect_out_len != out_len) {
if (cp_ldac_fatal_error) {
ldac_dec_deinit();
}
if (hLdacData == NULL) {
/* Recovery Process */
int result;
result = ldac_dec_init();
if (result) {
ldac_dec_deinit();
}
ldac_recovery = true;
cp_ldac_fatal_error = false;
}
}
}
#endif
#if defined(A2DP_LHDC_ON)
TEXT_LHDC_LOC
int cp_load_lhdc_frame(uint8_t **p_data, uint32_t *p_len)
{
int ret;
LHDC_HEADER ph;
uint32_t len;
uint32_t in_rpos;
uint32_t in_wpos;
uint8_t *frame_buf = NULL;
uint32_t frame_len = 0;
int result;
ret = 1;
if (latencyIndex != latencyUpdated) {
latencyIndex = latencyUpdated;
goto _exit;
}
result = lhdcReadyForInput();
if (result == 0) {
ret = 0;
goto _exit;
}
in_rpos = cp_in_rpos;
in_wpos = cp_in_wpos;
_get_hdr:
len = cp_get_in_cache_data_len(in_wpos, in_rpos);
if (len < sizeof(ph)) {
goto _exit;
}
cp_get_in_cache_data(&lhdc_input_mid_buf[0], sizeof(ph), in_wpos, in_rpos);
memcpy(&ph, &lhdc_input_mid_buf[0], sizeof(ph));
result = memcmp((const char*)magicTag, (const char*)ph.tag, sizeof(magicTag));
if (result != 0) {
in_rpos = cp_update_in_cache_pos(in_rpos, 1);
goto _get_hdr;
}
if (len < sizeof(ph) + ph.packetLen) {
goto _exit;
}
in_rpos = cp_update_in_cache_pos(in_rpos, sizeof(ph));
cp_get_in_cache_data(&lhdc_input_mid_buf[sizeof(ph)], ph.packetLen, in_wpos, in_rpos);
in_rpos = cp_update_in_cache_pos(in_rpos, ph.packetLen);
cp_in_rpos = in_rpos;
frame_buf = &((LHDC_HEADER *)&lhdc_input_mid_buf[0])->dptr[0];
frame_len = ph.packetLen;
ret = 0;
_exit:
if (p_data) {
*p_data = frame_buf;
}
if (p_len) {
*p_len = frame_len;
}
return ret;
}
#endif
#if defined(A2DP_AAC_ON)
TEXT_AAC_LOC
int cp_load_aac_frame(uint8_t **p_data, uint32_t *p_len)
{
uint32_t len;
unsigned short aac_len = 0;
uint32_t in_rpos;
uint32_t in_wpos;
in_rpos = cp_in_rpos;
in_wpos = cp_in_wpos;
len = cp_get_in_cache_data_len(in_wpos, in_rpos);
if (len < 2) {
return 1;
}
if (in_wpos > in_rpos || cp_in_size >= in_rpos + 2) {
aac_len = cp_in_cache[in_rpos] | (cp_in_cache[in_rpos + 1] << 8);
} else {
aac_len = cp_in_cache[in_rpos] | (cp_in_cache[0] << 8);
}
in_rpos = cp_update_in_cache_pos(in_rpos, 2);
if (aac_len < 64) {
aac_maxreadBytes = 64;
} else if (aac_len < 128) {
aac_maxreadBytes = 128;
} else if (aac_len < 256) {
aac_maxreadBytes = 256;
} else if (aac_len < 512) {
aac_maxreadBytes = 512;
} else if (aac_len < 1024) {
aac_maxreadBytes = 1024;
} else {
if (aac_len >= 2048) {
// Header is bad!
dec_reset_queue = true;
return 2;
}
aac_maxreadBytes = 2048;
}
if (len < 2 + (uint32_t)aac_len) {
return 3;
}
cp_dec_mtu_cnt[cp_dec_idx]++;
cp_get_in_cache_data(&aac_input_mid_buf[0], aac_len, in_wpos, in_rpos);
// Consume the packet
in_rpos = cp_update_in_cache_pos(in_rpos, aac_len);
cp_in_rpos = in_rpos;
if (p_data) {
*p_data = (unsigned char *)aac_input_mid_buf;
}
if (p_len) {
*p_len = aac_maxreadBytes;
}
return 0;
}
#endif
TEXT_SBC_LOC
int cp_load_sbc_frame(uint8_t **p_data, uint32_t *p_len)
{
uint32_t len;
uint32_t in_wpos;
uint32_t in_rpos;
if (!sbc_next_frame_size){
sbc_next_frame_size = sbc_frame_size;
}
if (need_init_decoder) {
sbc_next_frame_size = sbc_frame_size;
}
in_wpos = cp_in_wpos;
in_rpos = cp_in_rpos;
if (in_wpos == in_rpos) {
return 1;
}
if (in_wpos > in_rpos) {
len = in_wpos - in_rpos;
} else {
len = cp_in_size - in_rpos;
}
if (len > sbc_next_frame_size) {
len = sbc_next_frame_size;
}
if (p_data) {
*p_data = &cp_in_cache[in_rpos];
}
if (p_len) {
*p_len = len;
}
return 0;
}
TEXT_SBC_LOC
static int cp_consume_sbc_frame(const uint8_t *data, uint32_t len)
{
cp_in_rpos = cp_update_in_cache_pos(cp_in_rpos, len);
return 0;
}
CP_TEXT_SRAM_LOC
static uint32_t cp_get_in_cache_data_len(uint32_t in_wpos, uint32_t in_rpos)
{
uint32_t len;
if (in_wpos >= in_rpos) {
len = in_wpos - in_rpos;
} else {
len = cp_in_size - in_rpos + in_wpos;
}
return len;
}
CP_TEXT_SRAM_LOC
static void cp_get_in_cache_data(uint8_t *data, uint32_t len, uint32_t in_wpos, uint32_t in_rpos)
{
// Assuming cp_get_in_cache_data_len(in_wpos, in_rpos) >= len
if (in_wpos > in_rpos || cp_in_size >= in_rpos + len) {
memcpy(&data[0], &cp_in_cache[in_rpos], len);
} else {
uint32_t copy_len;
copy_len = cp_in_size - in_rpos;
memcpy(&data[0], &cp_in_cache[in_rpos], copy_len);
memcpy(&data[copy_len], &cp_in_cache[0], len - copy_len);
}
}
CP_TEXT_SRAM_LOC
static uint32_t cp_update_in_cache_pos(uint32_t in_pos, uint32_t len)
{
// Consume the packet
in_pos += len;
if (in_pos >= cp_in_size) {
in_pos -= cp_in_size;
}
return in_pos;
}
CP_TEXT_SRAM_LOC
static int cp_decode_a2dp_begin(enum APP_OVERLAY_ID_T overlay_type)
{
cp_dec_start_time = hal_fast_sys_timer_get();
#ifndef A2DP_TRACE_CP_DEC_TIME
cp_dec_trace_time = false;
#endif
if (cp_dec_state[cp_dec_idx] != CP_DEC_STATE_IDLE && cp_dec_state[cp_dec_idx] != CP_DEC_STATE_WORKING) {
return 1;
}
if (cp_dec_state[cp_dec_idx] == CP_DEC_STATE_IDLE) {
cp_dec_state[cp_dec_idx] = CP_DEC_STATE_WORKING;
cp_out_len[cp_dec_idx] = 0;
cp_dec_mtu_cnt[cp_dec_idx] = 0;
}
return 0;
}
CP_TEXT_SRAM_LOC
static int cp_load_a2dp_encoded_data(enum APP_OVERLAY_ID_T overlay_type, uint8_t **p_data, uint32_t *p_len)
{
int ret = -1;
if (0) {
#if defined(A2DP_LDAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LDAC) {
ret = cp_load_ldac_frame(p_data, p_len);
#endif
#if defined(A2DP_LHDC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LHDC) {
ret = cp_load_lhdc_frame(p_data, p_len);
#endif
#if defined(A2DP_AAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_AAC) {
ret = cp_load_aac_frame(p_data, p_len);
#endif
} else if (overlay_type == APP_OVERLAY_A2DP) {
ret = cp_load_sbc_frame(p_data, p_len);
}
return ret;
}
CP_TEXT_SRAM_LOC
static int cp_decode_a2dp_process(enum APP_OVERLAY_ID_T overlay_type, uint8_t *out, uint32_t out_max, uint32_t *p_out_len,
const uint8_t *in, uint32_t in_len, uint32_t *p_consume_len)
{
int ret = -1;
if (p_out_len) {
*p_out_len = 0;
}
if (p_consume_len) {
*p_consume_len = 0;
}
if (0) {
#if defined(A2DP_LDAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LDAC) {
ret = decode_ldac_frame(out, out_max, p_out_len, in, in_len, p_consume_len);
#endif
#if defined(A2DP_AAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_AAC) {
ret = decode_aac_frame(out, out_max, p_out_len, in, in_len, p_consume_len);
#endif
#if defined(A2DP_SCALABLE_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_SCALABLE) {
ret = decode_scalable_frame(out, out_max, p_out_len, in, in_len, p_consume_len);
#endif
#if defined(A2DP_LHDC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LHDC) {
ret = decode_lhdc_frame(out, out_max, p_out_len, in, in_len, p_consume_len);
#endif
} else if (overlay_type == APP_OVERLAY_A2DP) {
ret = decode_sbc_frame(out, out_max, p_out_len, in, in_len, p_consume_len);
}
return ret;
}
CP_TEXT_SRAM_LOC
static int cp_consume_a2dp_encoded_data(enum APP_OVERLAY_ID_T overlay_type, const uint8_t *data, uint32_t len)
{
if (0) {
#if defined(A2DP_LDAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LDAC) {
cp_consume_ldac_frame(data, len);
#endif
} else if (overlay_type == APP_OVERLAY_A2DP) {
cp_consume_sbc_frame(data, len);
}
return 0;
}
CP_TEXT_SRAM_LOC
static void cp_decode_a2dp_end(enum APP_OVERLAY_ID_T overlay_type, uint32_t expect_out_len, uint32_t out_len, uint32_t in_len, bool retry)
{
uint32_t etime;
uint8_t old_cp_dec_idx;
if (0) {
#if defined(A2DP_LDAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LDAC) {
cp_decode_ldac_end(expect_out_len, out_len, in_len);
#endif
}
old_cp_dec_idx = cp_dec_idx;
cp_out_len[cp_dec_idx] += out_len;
if (!retry) {
if (expect_out_len == out_len) {
cp_dec_state[cp_dec_idx] = CP_DEC_STATE_DONE;
} else {
cp_dec_state[cp_dec_idx] = CP_DEC_STATE_FAILED;
}
cp_dec_idx++;
if (cp_dec_idx >= CP_DEC_SLOT_CNT) {
cp_dec_idx = 0;
}
}
etime = hal_fast_sys_timer_get();
if (cp_dec_trace_time) {
TRACE(4,"cp_decode[%u]: %u us in %u us (r=%u)", old_cp_dec_idx, FAST_TICKS_TO_US(etime - cp_dec_start_time), FAST_TICKS_TO_US(etime - cp_last_dec_time), retry);
}
#ifdef A2DP_TRACE_CP_ACCEL
if (retry) {
TRACE(3,"cp_decode[%u]:retry: cp_out_len=%u out_len=%u", old_cp_dec_idx, cp_out_len[old_cp_dec_idx], out_len);
}
#endif
cp_last_dec_time = etime;
}
CP_TEXT_SRAM_LOC
static int cp_decode_a2dp_frame(enum APP_OVERLAY_ID_T overlay_type, unsigned char *pcm_buffer, unsigned int pcm_len)
{
uint32_t all_out_len = 0, all_in_len = 0;
int ret, ret2;
uint32_t out_len;
uint8_t *enc_data;
uint32_t enc_len;
uint32_t consume_len;
bool retry = false;
ret = cp_decode_a2dp_begin(overlay_type);
if (ret) {
return 0;
}
while (all_out_len < pcm_len) {
ret = cp_load_a2dp_encoded_data(overlay_type, &enc_data, &enc_len);
if (ret) {
retry = true;
break;
}
ret = cp_decode_a2dp_process(overlay_type, &pcm_buffer[all_out_len], pcm_len - all_out_len, &out_len, enc_data, enc_len, &consume_len);
ret2 = cp_consume_a2dp_encoded_data(overlay_type, enc_data, consume_len);
all_out_len += out_len;
if (ret || ret2) {
break;
}
}
cp_decode_a2dp_end(overlay_type, pcm_len, all_out_len, all_in_len, retry);
return all_out_len;
}
CP_TEXT_SRAM_LOC
unsigned int cp_a2dp_main(uint8_t event)
{
uint32_t out_wpos;
uint32_t out_len;
uint32_t pcm_len;
do {
if (cp_dec_state[cp_dec_idx] == CP_DEC_STATE_WORKING) {
if (cp_out_len[cp_dec_idx] < cp_out_loop_size) {
pcm_len = cp_out_loop_size - cp_out_len[cp_dec_idx];
} else {
cp_out_len[cp_dec_idx] = 0;
pcm_len = cp_out_loop_size;
}
} else {
pcm_len = cp_out_loop_size;
}
out_wpos = cp_out_loop_size * cp_dec_idx + cp_out_loop_size - pcm_len;
out_len = cp_decode_a2dp_frame(cp_overlay_type, &cp_out_cache[out_wpos], cp_out_loop_size);
} while (out_len == pcm_len);
return 0;
}
FRAM_TEXT_LOC
static void mcu_decode_a2dp_init(uint32_t out_max)
{
uint32_t i;
if (mcu_dec_inited == false) {
mcu_dec_inited = true;
cp_in_size = sizeof(cp_in_cache);
cp_out_size = out_max * CP_DEC_SLOT_CNT;
ASSERT(cp_out_size <= sizeof(cp_out_cache), "%s: cp_out_cache too small (should >= %u)", __func__, cp_out_size);
cp_out_loop_size = out_max;
cp_overlay_type = app_get_current_overlay();
for (i = 0; i < CP_DEC_SLOT_CNT; i++) {
cp_dec_state[i] = CP_DEC_STATE_IDLE;
cp_dec_mtu_cnt[i] = 0;
cp_out_len[i] = 0;
}
#if defined(A2DP_LHDC_ON)
// Increase latency to improve data buffering
mcu_dec_idx = 1;
#else
mcu_dec_idx = CP_DEC_SLOT_CNT - 1;
#endif
for (i = mcu_dec_idx; i < CP_DEC_SLOT_CNT; i++) {
cp_dec_state[i] = CP_DEC_STATE_DONE;
cp_out_len[i] = cp_out_loop_size;
}
}
}
FRAM_TEXT_LOC
static int mcu_load_a2dp_encoded_data(uint8_t **p_data, uint32_t *p_len)
{
uint32_t free_len;
uint32_t in_wpos, in_rpos;
uint32_t size;
int r = 0;
unsigned char *e1 = NULL, *e2 = NULL;
unsigned int len1 = 0, len2 = 0;
in_wpos = cp_in_wpos;
in_rpos = cp_in_rpos;
if (in_wpos < in_rpos) {
free_len = in_rpos - in_wpos - 1;
} else {
free_len = cp_in_size - in_wpos + in_rpos - 1;
}
if (free_len == 0) {
return 0;
}
LOCK_APP_AUDIO_QUEUE();
size = LengthOfCQueue(&sbc_queue);
UNLOCK_APP_AUDIO_QUEUE();
if (size > free_len) {
size = free_len;
}
LOCK_APP_AUDIO_QUEUE();
r = PeekCQueue(&sbc_queue, size, &e1, &len1, &e2, &len2);
UNLOCK_APP_AUDIO_QUEUE();
if (r == CQ_ERR) {
TRACE(2,"%s: Failed to get %u from sbc_queue", __func__, size);
return 1;
}
if (in_wpos < in_rpos) {
if (len1) {
memcpy(&cp_in_cache[in_wpos], e1, len1);
in_wpos += len1;
}
if (len2) {
memcpy(&cp_in_cache[in_wpos], e2, len2);
in_wpos += len2;
}
} else {
free_len = cp_in_size - in_wpos;
if (len1) {
if (free_len > len1) {
free_len = len1;
}
memcpy(&cp_in_cache[in_wpos], e1, free_len);
len1 -= free_len;
e1 += free_len;
in_wpos = cp_update_in_cache_pos(in_wpos, free_len);
if (len1) {
memcpy(&cp_in_cache[in_wpos], e1, len1);
in_wpos = cp_update_in_cache_pos(in_wpos, len1);
}
if (in_wpos < in_rpos) {
free_len = in_rpos - in_wpos - 1;
} else {
free_len = cp_in_size - in_wpos;
}
}
if (len2) {
if (free_len > len2) {
free_len = len2;
}
memcpy(&cp_in_cache[in_wpos], e2, free_len);
len2 -= free_len;
e2 += free_len;
in_wpos = cp_update_in_cache_pos(in_wpos, free_len);
if (len2) {
memcpy(&cp_in_cache[in_wpos], e2, len2);
in_wpos = cp_update_in_cache_pos(in_wpos, len2);
}
}
}
cp_in_wpos = in_wpos;
LOCK_APP_AUDIO_QUEUE();
DeCQueue(&sbc_queue, NULL, size);
UNLOCK_APP_AUDIO_QUEUE();
return 0;
}
FRAM_TEXT_LOC
static int mcu_decode_a2dp_process(uint8_t *out, uint32_t out_max, uint32_t *p_out_len,
const uint8_t *in, uint32_t in_len, uint32_t *p_consume_len)
{
int ret = 0;
uint32_t out_rpos;
#ifdef A2DP_TRACE_CP_ACCEL
TRACE(3,"mcu_dec_proc[%u]: state=%u len=%u", mcu_dec_idx, cp_dec_state[mcu_dec_idx], cp_out_len[mcu_dec_idx]);
#endif
cp_accel_send_event_mcu2cp(CP_BUILD_ID(CP_TASK_A2DP_DECODE, CP_EVENT_A2DP_DECODE));
if (cp_dec_state[mcu_dec_idx] != CP_DEC_STATE_DONE) {
ret = 1;
goto _exit;
}
if (cp_out_len[mcu_dec_idx] != out_max) {
ret = 2;
goto _exit;
}
out_rpos = cp_out_loop_size * mcu_dec_idx;
memcpy(out, &cp_out_cache[out_rpos], out_max);
if (p_out_len) {
*p_out_len = out_max;
}
_exit:
if (cp_dec_state[mcu_dec_idx] == CP_DEC_STATE_DONE || cp_dec_state[mcu_dec_idx] == CP_DEC_STATE_FAILED) {
if (mtu_count > cp_dec_mtu_cnt[mcu_dec_idx]) {
mtu_count -= cp_dec_mtu_cnt[mcu_dec_idx];
} else {
mtu_count = 0;
}
cp_dec_state[mcu_dec_idx] = CP_DEC_STATE_IDLE;
mcu_dec_idx++;
if (mcu_dec_idx >= CP_DEC_SLOT_CNT) {
mcu_dec_idx = 0;
}
}
return ret;
}
static struct cp_task_desc TASK_DESC_A2DP = {CP_ACCEL_STATE_CLOSED, cp_a2dp_main, NULL, NULL, NULL};
void cp_a2dp_init(void)
{
mcu_dec_inited = false;
norflash_api_flush_disable(NORFLASH_API_USER_CP,(uint32_t)cp_accel_init_done);
cp_accel_open(CP_TASK_A2DP_DECODE, &TASK_DESC_A2DP);
while(cp_accel_init_done() == false) {
hal_sys_timer_delay_us(100);
}
norflash_api_flush_enable(NORFLASH_API_USER_CP);
}
void cp_a2dp_deinit(void)
{
cp_accel_close(CP_TASK_A2DP_DECODE);
}
#endif
FRAM_TEXT_LOC
static int decode_a2dp_begin(enum APP_OVERLAY_ID_T overlay_type)
{
#ifdef TIMER1_BASE
dec_start_time = hal_fast_sys_timer_get();
#else
dec_start_time = hal_sys_timer_get();
#endif
#ifndef A2DP_TRACE_DEC_TIME
dec_trace_time = false;
#endif
#ifndef A2DP_CP_ACCEL
if (overlay_type == APP_OVERLAY_A2DP) {
decode_sbc_begin();
}
#endif
return 0;
}
FRAM_TEXT_LOC
static int load_a2dp_encoded_data(enum APP_OVERLAY_ID_T overlay_type, uint8_t **p_data, uint32_t *p_len)
{
int ret = -1;
#ifdef A2DP_CP_ACCEL
ret = mcu_load_a2dp_encoded_data(p_data, p_len);
#else
if (0) {
#if defined(A2DP_LDAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LDAC) {
ret = load_ldac_frame(p_data, p_len);
#endif
#if defined(A2DP_AAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_AAC) {
ret = load_aac_frame(p_data, p_len);
#endif
#if defined(A2DP_SCALABLE_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_SCALABLE) {
ret = load_scalable_frame(p_data, p_len);
#endif
#if defined(A2DP_LHDC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LHDC) {
ret = load_lhdc_frame(p_data, p_len);
#endif
} else if (overlay_type == APP_OVERLAY_A2DP) {
ret = load_sbc_frame(p_data, p_len);
}
#endif
return ret;
}
FRAM_TEXT_LOC
static int decode_a2dp_process(enum APP_OVERLAY_ID_T overlay_type, uint8_t *out, uint32_t out_max, uint32_t *p_out_len,
const uint8_t *in, uint32_t in_len, uint32_t *p_consume_len)
{
int ret = -1;
if (p_out_len) {
*p_out_len = 0;
}
if (p_consume_len) {
*p_consume_len = 0;
}
#ifdef A2DP_CP_ACCEL
ret = mcu_decode_a2dp_process(out, out_max, p_out_len, in, in_len, p_consume_len);
#else
if (0) {
#if defined(A2DP_LDAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LDAC) {
ret = decode_ldac_frame(out, out_max, p_out_len, in, in_len, p_consume_len);
#endif
#if defined(A2DP_AAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_AAC) {
ret = decode_aac_frame(out, out_max, p_out_len, in, in_len, p_consume_len);
#endif
#if defined(A2DP_SCALABLE_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_SCALABLE) {
ret = decode_scalable_frame(out, out_max, p_out_len, in, in_len, p_consume_len);
#endif
#if defined(A2DP_LHDC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LHDC) {
ret = decode_lhdc_frame(out, out_max, p_out_len, in, in_len, p_consume_len);
#endif
} else if (overlay_type == APP_OVERLAY_A2DP) {
ret = decode_sbc_frame(out, out_max, p_out_len, in, in_len, p_consume_len);
}
#endif
return ret;
}
FRAM_TEXT_LOC
static int consume_a2dp_encoded_data(enum APP_OVERLAY_ID_T overlay_type, const uint8_t *data, uint32_t len)
{
#ifndef A2DP_CP_ACCEL
if (0) {
#if defined(A2DP_LDAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LDAC) {
consume_ldac_frame(data, len);
#endif
} else if (overlay_type == APP_OVERLAY_A2DP) {
consume_sbc_frame(data, len);
}
#endif
return 0;
}
FRAM_TEXT_LOC
static void decode_a2dp_end(enum APP_OVERLAY_ID_T overlay_type, uint32_t expect_out_len, uint32_t out_len, uint32_t in_len)
{
uint32_t etime;
#ifdef A2DP_CP_ACCEL
if (0) {
#if defined(A2DP_LDAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LDAC) {
mcu_decode_ldac_end(expect_out_len, out_len, in_len);
#endif
}
#else
if (0) {
#if defined(A2DP_LDAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LDAC) {
decode_ldac_end(expect_out_len, out_len, in_len);
#endif
#if defined(A2DP_LHDC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LHDC) {
decode_lhdc_end(expect_out_len, out_len, in_len);
#endif
} else if (overlay_type == APP_OVERLAY_A2DP) {
decode_sbc_end(expect_out_len, out_len, in_len);
}
#endif
if (dec_reset_queue) {
dec_reset_queue = false;
LOCK_APP_AUDIO_QUEUE();
ResetCQueue(&sbc_queue);
TRACE(0,"Reset queue");
UNLOCK_APP_AUDIO_QUEUE();
}
#ifdef TIMER1_BASE
etime = hal_fast_sys_timer_get();
if (dec_trace_time) {
TRACE(2,"a2dp decode: %u us in %u us", FAST_TICKS_TO_US(etime - dec_start_time), FAST_TICKS_TO_US(etime - last_dec_time));
}
#else
etime = hal_sys_timer_get();
if (dec_trace_time) {
TRACE(2,"a2dp decode: %u ms in %u ms", TICKS_TO_MS(etime - dec_start_time), TICKS_TO_MS(etime - last_dec_time));
}
#endif
last_dec_time = etime;
}
FRAM_TEXT_LOC
static int decode_a2dp_frame(enum APP_OVERLAY_ID_T overlay_type, unsigned char *pcm_buffer, unsigned int pcm_len)
{
uint32_t all_out_len = 0, all_in_len = 0;
int ret, ret2;
uint32_t out_len;
uint8_t *enc_data;
uint32_t enc_len;
uint32_t consume_len;
#ifdef A2DP_CP_ACCEL
mcu_decode_a2dp_init(pcm_len);
#endif
ret = decode_a2dp_begin(overlay_type);
if (ret) {
return 0;
}
while (all_out_len < pcm_len) {
ret = load_a2dp_encoded_data(overlay_type, &enc_data, &enc_len);
if (ret) {
break;
}
ret = decode_a2dp_process(overlay_type, pcm_buffer + all_out_len, pcm_len - all_out_len, &out_len, enc_data, enc_len, &consume_len);
ret2 = consume_a2dp_encoded_data(overlay_type, enc_data, consume_len);
all_out_len += out_len;
all_in_len += consume_len;
if (ret || ret2) {
break;
}
}
decode_a2dp_end(overlay_type, pcm_len, all_out_len, all_in_len);
return all_out_len;
}
#if defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE)
#define AAC_RESAMPLE_ITER_LEN (1024 * 2 * 2)
#define SBC_RESAMPLE_ITER_LEN (128 * 2 * 2)
static struct APP_RESAMPLE_T *a2dp_resample;
FRAM_TEXT_LOC
static int a2dp_resample_iter(uint8_t *buf, uint32_t len)
{
enum APP_OVERLAY_ID_T overlay_type;
overlay_type = app_get_current_overlay();
uint32_t l = decode_a2dp_frame(overlay_type, buf, len);
if (l != len) {
TRACE(2,"a2dp_audio_more_data decode err %d/%d", l, len);
return 1;
}
return 0;
}
#endif
extern bool process_delay(int32_t delay_ms);
void static attempt_slow_samplerate(uint8_t overlay_type)
{
uint32_t current_mtu_conut =0;
if (check_interval >0)
check_interval--;
assumed_mtu_interval = 20;
current_mtu_conut = mtu_count;
if (lagest_mtu_in1s < current_mtu_conut)
lagest_mtu_in1s = current_mtu_conut;
if (least_mtu_in1s > current_mtu_conut)
least_mtu_in1s = current_mtu_conut;
if (check_interval == 0)
{
int32_t delay_ms = 0;
if(overlay_type == APP_OVERLAY_A2DP){
delay_ms = (delay_mtu_limit-(int)lagest_mtu_in1s)*128*1000/a2dp_sample_rate;
}else
#if defined(A2DP_AAC_ON)
if(overlay_type == APP_OVERLAY_A2DP_AAC){
delay_ms = (delay_mtu_limit-(int)lagest_mtu_in1s)*1024*1000/a2dp_sample_rate;
}else
#endif
#if defined(A2DP_SCALABLE_ON)
if(overlay_type == APP_OVERLAY_A2DP_SCALABLE){
delay_ms = (delay_mtu_limit-(int)lagest_mtu_in1s)*864*1000/a2dp_sample_rate;
}else
#endif
#if defined(A2DP_LHDC_ON)
if(overlay_type == APP_OVERLAY_A2DP_LHDC){
delay_ms = (delay_mtu_limit-(int)lagest_mtu_in1s)*512*1000/a2dp_sample_rate;
}else
#endif
#if defined(A2DP_LDAC_ON)
if(overlay_type == APP_OVERLAY_A2DP_LDAC){
delay_ms = (delay_mtu_limit-(int)lagest_mtu_in1s)*256*1000/a2dp_sample_rate;
}else
#endif
{
delay_ms = (delay_mtu_limit-(int)lagest_mtu_in1s)*assumed_mtu_interval;
}
TRACE(6,"store_interval=%d,lagest_mtu_in1s=%d,least_mtu_in1s=%d,delay_ms=%d,frame_len=%d,mtu_count=%d",ssb_err_max,lagest_mtu_in1s,least_mtu_in1s,delay_ms,sbc_frame_rev_len,mtu_count);
process_delay(delay_ms);
check_interval = 50;
lagest_mtu_in1s = 0;
least_mtu_in1s = 0xffffffff;
}
}
// A2DP_EQ_24BIT == 1, buf should be 32bit(24bit)
// A2DP_EQ_24BIT == 0, buf should be 16bit
uint32_t a2dp_audio_more_data(uint8_t overlay_type, uint8_t *buf, uint32_t len)
{
uint32_t l = 0;
if (!a2dp_audio_isrunning(A2DPPLAY_STRTEAM_GET, true)){
}
#ifdef A2DP_EQ_24BIT
// Change len to 16-bit sample buffer length
if ((bt_sbc_player_get_sample_bit() == 16)
#if defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE)
|| allow_resample
#endif
) {
len = len / (sizeof(int32_t) / sizeof(int16_t));
}
#endif
if (a2dp_cache_status == APP_AUDIO_CACHE_CACHEING){
#if FPGA==0
TRACE(1,"a2dp_audio_more_data cache not ready skip frame %d\n" ,overlay_type);
#endif
} else {
#if defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE)
if (allow_resample)
{
app_playback_resample_run(a2dp_resample, buf, len);
}
else
#endif
{
l = decode_a2dp_frame((enum APP_OVERLAY_ID_T)overlay_type, buf, len);
if (l != len) {
TRACE(2,"a2dp_audio_more_data decode err %d/%d", l, len);
if (l < len){
memset(buf + l, 0, len - l);
//a2dp_cache_status = APP_AUDIO_CACHE_CACHEING;
TRACE(0,"set to APP_AUDIO_CACHE_CACHEING");
}
} else {
//TRACE(2,"a2dp_audio_more_data decode success %d/%d", l, len);
}
}
if (a2dp_cache_status == APP_AUDIO_CACHE_OK) {
attempt_slow_samplerate(overlay_type);
}
}
#ifdef A2DP_EQ_24BIT
if ((bt_sbc_player_get_sample_bit() == 16)
#if defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE)
|| allow_resample
#endif
) {
convert_16bit_to_24bit((int32_t *)buf, (int16_t *)buf, len / sizeof(int16_t));
// Restore len to 24-bit sample buffer length
len = len * (sizeof(int32_t) / sizeof(int16_t));
}
#endif
A2DP_SYNC_WITH_GET_MUTUX_SET();
return len;
}
#if defined(A2DP_LDAC_ON)
/* Convert LDAC Error Code to string */
#define CASE_RETURN_STR(const) case const: return #const;
static const char * ldac_ErrCode2Str( int ErrCode )
{
switch(ErrCode){
CASE_RETURN_STR(LDACBT_ERR_NONE);
CASE_RETURN_STR(LDACBT_ERR_NON_FATAL);
CASE_RETURN_STR(LDACBT_ERR_BIT_ALLOCATION);
CASE_RETURN_STR(LDACBT_ERR_NOT_IMPLEMENTED);
CASE_RETURN_STR(LDACBT_ERR_NON_FATAL_ENCODE);
CASE_RETURN_STR(LDACBT_ERR_FATAL);
CASE_RETURN_STR(LDACBT_ERR_SYNTAX_BAND);
CASE_RETURN_STR(LDACBT_ERR_SYNTAX_GRAD_A);
CASE_RETURN_STR(LDACBT_ERR_SYNTAX_GRAD_B);
CASE_RETURN_STR(LDACBT_ERR_SYNTAX_GRAD_C);
CASE_RETURN_STR(LDACBT_ERR_SYNTAX_GRAD_D);
CASE_RETURN_STR(LDACBT_ERR_SYNTAX_GRAD_E);
CASE_RETURN_STR(LDACBT_ERR_SYNTAX_IDSF);
CASE_RETURN_STR(LDACBT_ERR_SYNTAX_SPEC);
CASE_RETURN_STR(LDACBT_ERR_BIT_PACKING);
CASE_RETURN_STR(LDACBT_ERR_ALLOC_MEMORY);
CASE_RETURN_STR(LDACBT_ERR_FATAL_HANDLE);
CASE_RETURN_STR(LDACBT_ERR_ILL_SYNCWORD);
CASE_RETURN_STR(LDACBT_ERR_ILL_SMPL_FORMAT);
CASE_RETURN_STR(LDACBT_ERR_ILL_PARAM);
CASE_RETURN_STR(LDACBT_ERR_ASSERT_SAMPLING_FREQ);
CASE_RETURN_STR(LDACBT_ERR_ASSERT_SUP_SAMPLING_FREQ);
CASE_RETURN_STR(LDACBT_ERR_CHECK_SAMPLING_FREQ);
CASE_RETURN_STR(LDACBT_ERR_ASSERT_CHANNEL_CONFIG);
CASE_RETURN_STR(LDACBT_ERR_CHECK_CHANNEL_CONFIG);
CASE_RETURN_STR(LDACBT_ERR_ASSERT_FRAME_LENGTH);
CASE_RETURN_STR(LDACBT_ERR_ASSERT_SUP_FRAME_LENGTH);
CASE_RETURN_STR(LDACBT_ERR_ASSERT_FRAME_STATUS);
CASE_RETURN_STR(LDACBT_ERR_ASSERT_NSHIFT);
CASE_RETURN_STR(LDACBT_ERR_ASSERT_CHANNEL_MODE);
CASE_RETURN_STR(LDACBT_ERR_ENC_INIT_ALLOC);
CASE_RETURN_STR(LDACBT_ERR_ENC_ILL_GRADMODE);
CASE_RETURN_STR(LDACBT_ERR_ENC_ILL_GRADPAR_A);
CASE_RETURN_STR(LDACBT_ERR_ENC_ILL_GRADPAR_B);
CASE_RETURN_STR(LDACBT_ERR_ENC_ILL_GRADPAR_C);
CASE_RETURN_STR(LDACBT_ERR_ENC_ILL_GRADPAR_D);
CASE_RETURN_STR(LDACBT_ERR_ENC_ILL_NBANDS);
CASE_RETURN_STR(LDACBT_ERR_PACK_BLOCK_FAILED);
CASE_RETURN_STR(LDACBT_ERR_DEC_INIT_ALLOC);
CASE_RETURN_STR(LDACBT_ERR_INPUT_BUFFER_SIZE);
CASE_RETURN_STR(LDACBT_ERR_UNPACK_BLOCK_FAILED);
CASE_RETURN_STR(LDACBT_ERR_UNPACK_BLOCK_ALIGN);
CASE_RETURN_STR(LDACBT_ERR_UNPACK_FRAME_ALIGN);
CASE_RETURN_STR(LDACBT_ERR_FRAME_LENGTH_OVER);
CASE_RETURN_STR(LDACBT_ERR_FRAME_ALIGN_OVER);
CASE_RETURN_STR(LDACBT_ERR_ALTER_EQMID_LIMITED);
CASE_RETURN_STR(LDACBT_ERR_ILL_EQMID);
CASE_RETURN_STR(LDACBT_ERR_ILL_SAMPLING_FREQ);
CASE_RETURN_STR(LDACBT_ERR_ILL_NUM_CHANNEL);
CASE_RETURN_STR(LDACBT_ERR_ILL_MTU_SIZE);
CASE_RETURN_STR(LDACBT_ERR_HANDLE_NOT_INIT);
default:
return "unknown-error-code";
}
}
char a_ErrorCodeStr[128];
const char * get_error_code_string( int error_code )
{
int errApi, errHdl, errBlk;
errApi = LDACBT_API_ERR( error_code );
errHdl = LDACBT_HANDLE_ERR( error_code );
errBlk = LDACBT_BLOCK_ERR( error_code );
a_ErrorCodeStr[0] = '\0';
strcat( a_ErrorCodeStr, "API:" );
strcat( a_ErrorCodeStr, ldac_ErrCode2Str( errApi ) );
strcat( a_ErrorCodeStr, " Handle:" );
strcat( a_ErrorCodeStr, ldac_ErrCode2Str( errHdl ) );
strcat( a_ErrorCodeStr, " Block:" );
strcat( a_ErrorCodeStr, ldac_ErrCode2Str( errBlk ) );
return a_ErrorCodeStr;
}
#endif
extern uint8_t bt_sbc_player_get_bitsDepth(void);
#if defined(A2DP_LDAC_ON)
uint32_t ldac_buffer_used = 0;
#endif
static const char *a2dp_get_codec_name(enum APP_OVERLAY_ID_T overlay_type)
{
const char *codec_name;
if (0) {
#if defined(A2DP_LDAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LDAC) {
codec_name = "LDAC";
#endif
#if defined(A2DP_AAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_AAC) {
codec_name = "AAC";
#endif
#if defined(A2DP_SCALABLE_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_SCALABLE) {
codec_name = "SCALABLE";
#endif
#if defined(A2DP_LHDC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_LHDC) {
codec_name = "LHDC";
#endif
} else if (overlay_type == APP_OVERLAY_A2DP) {
codec_name = "SBC";
} else {
codec_name = "UNKNOWN";
}
return codec_name;
}
static void a2dp_trace_codec_name(const char *prefix, enum APP_OVERLAY_ID_T overlay_type)
{
TRACE(3,"\n\n%s: codecType=%x->:%s\n", prefix, overlay_type,a2dp_get_codec_name(overlay_type));
}
int a2dp_audio_init(void)
{
const float EQLevel[25] = {
0.0630957, 0.0794328, 0.1, 0.1258925, 0.1584893,
0.1995262, 0.2511886, 0.3162278, 0.398107 , 0.5011872,
0.6309573, 0.794328 , 1, 1.258925 , 1.584893 ,
1.995262 , 2.5118864, 3.1622776, 3.9810717, 5.011872 ,
6.309573 , 7.943282 , 10 , 12.589254, 15.848932
};//-12~12
uint8_t *buff = NULL;
uint8_t i;
enum APP_OVERLAY_ID_T overlay_type;
overlay_type = app_get_current_overlay();
a2dp_trace_codec_name(__func__, overlay_type);
#if defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE)
APP_RESAMPLE_ITER_CALLBACK iter_cb;
uint32_t iter_len;
iter_cb = a2dp_resample_iter;
if (0) {
#if defined(A2DP_AAC_ON)
} else if (overlay_type == APP_OVERLAY_A2DP_AAC) {
iter_len = AAC_RESAMPLE_ITER_LEN;
#endif
} else if (overlay_type == APP_OVERLAY_A2DP) {
iter_len = SBC_RESAMPLE_ITER_LEN;
} else {
ASSERT(false, "%s: Bad app overlay type for play resample: %d", __func__, overlay_type);
}
#ifdef CHIP_BEST1000
if(hal_get_chip_metal_id() >= HAL_CHIP_METAL_ID_2 && hal_sysfreq_get() <= HAL_CMU_FREQ_52M)
{
allow_resample = true;
}
#endif
if (allow_resample)
{
#ifdef RESAMPLE_ANY_SAMPLE_RATE
float ratio;
if (a2dp_sample_rate % AUD_SAMPRATE_8000) {
ratio = (float)CODEC_FREQ_22P5792M * ((float)a2dp_sample_rate / AUD_SAMPRATE_44100) / CODEC_FREQ_26M;
} else {
ratio = (float)CODEC_FREQ_24P576M * ((float)a2dp_sample_rate / AUD_SAMPRATE_48000) / CODEC_FREQ_26M;
}
a2dp_resample = app_playback_resample_any_open(AUD_CHANNEL_NUM_2,
iter_cb, iter_len, ratio);
#else
a2dp_resample = app_playback_resample_open(a2dp_sample_rate, AUD_CHANNEL_NUM_2,
iter_cb, iter_len);
#endif
}
#endif
for (i=0; i<sizeof(sbc_eq_band_gain)/sizeof(float); i++){
sbc_eq_band_gain[i] = EQLevel[cfg_aud_eq_sbc_band_settings[i]+12];
}
A2DP_SYNC_WITH_GET_MUTUX_FREE();
A2DP_SYNC_WITH_PUT_MUTUX_FREE();
if(overlay_type == APP_OVERLAY_A2DP){
app_audio_mempool_get_buff((uint8_t **)&sbc_decoder, sizeof(btif_sbc_decoder_t));
}
#if defined(A2DP_AAC_ON)
if(overlay_type == APP_OVERLAY_A2DP_AAC) {
int ret;
aac_meminit();
ret = aacdec_init();
ASSERT(ret == 0, "%s: aacdec_init ERROR", __func__);
}
#endif
#if defined(A2DP_SCALABLE_ON)
if(overlay_type == APP_OVERLAY_A2DP_SCALABLE){
app_audio_mempool_get_buff((uint8_t **)&scalable_input_mid_buf, SCALABLE_READBUF_SIZE);
app_audio_mempool_get_buff((uint8_t **)&scalable_decoder_place, SCALABLE_DECODER_SIZE);
app_audio_mempool_get_buff((uint8_t **)&scalable_decoder_temp_buf, SCALABLE_FRAME_SIZE * 16);
}
hSSDecoder = NULL;
#endif
#if defined(A2DP_LHDC_ON)
if(overlay_type == APP_OVERLAY_A2DP_LHDC){
uint8_t bits_depth = bt_sbc_player_get_bitsDepth();
AUD_SAMPRATE_T sample_rate = bt_get_sbc_sample_rate();
TRACE(2,"a2dp_audio_init sample Rate=%d, bits_depth = %d\n", sample_rate, bits_depth);
TRACE(1,"sys freq calc : %d\n", hal_sys_timer_calc_cpu_freq(5, 0));
//lhdcInit(bits_depth, sample_rate, bits_depth >= 24 ? 1 : 0);
//extern const char __testkey_start[];
extern const char testkey_bin[];
lhdcSetLicenseKeyTable((uint8_t *)testkey_bin);
TRACE(0,"lhdcSetLicenseKeyTable,testkey_bin:\n");
for(uint8_t i=0;i<128;i++){
TRACE(1,"i = %d", i);
DUMP8("0x%02x ", &testkey_bin[i], 32);
i+= 31;
}
lhdcInit(bits_depth, sample_rate, 0);
initial_lhdc_assemble_packet(false);
}
#endif
#ifdef SBC_QUEUE_SIZE
if (0) {
#if defined(A2DP_AAC_ON) || defined(A2DP_SCALABLE_ON) || defined(A2DP_LHDC_ON)
} else if(overlay_type == APP_OVERLAY_A2DP_AAC){
#if defined(MIX_MIC_DURING_MUSIC)
g_sbc_queue_size = app_audio_mempool_free_buff_size() - 4096;
#else
g_sbc_queue_size = app_audio_mempool_free_buff_size();
#endif
#endif
#if defined(A2DP_SCALABLE_ON)
} else if(overlay_type == APP_OVERLAY_A2DP_SCALABLE){
#if defined(MIX_MIC_DURING_MUSIC)
g_sbc_queue_size = app_audio_mempool_free_buff_size() - 4096;
#else
g_sbc_queue_size = app_audio_mempool_free_buff_size();
#endif
#endif
#if defined(A2DP_LHDC_ON)
} else if(overlay_type == APP_OVERLAY_A2DP_LHDC){
#if defined(MIX_MIC_DURING_MUSIC)
g_sbc_queue_size = app_audio_mempool_free_buff_size() - 4096;
#else
g_sbc_queue_size = app_audio_mempool_free_buff_size();
#endif
#endif
} else {
g_sbc_queue_size = SBC_QUEUE_SIZE;
}
#else
g_sbc_queue_size = app_audio_mempool_free_buff_size();
#endif
#if defined(A2DP_LDAC_ON)
if(overlay_type == APP_OVERLAY_A2DP_LDAC)
{
//if((bt_sbc_player_get_codec_type() == BTIF_AVDTP_CODEC_TYPE_NON_A2DP)){
//app_audio_mempool_get_buff(&g_medMemHeap, MED_MEM_HEAP_SIZE);
//speech_heap_init((uint8_t *)(&g_medMemHeap[0]), MED_MEM_HEAP_SIZE);
g_sbc_queue_size = app_audio_mempool_free_buff_size() - MED_MEM_HEAP_SIZE;
TRACE(1,"A2DP_LDAC_ON g_sbc_queue_size %d\n", g_sbc_queue_size);
}
#endif
app_audio_mempool_get_buff(&buff, g_sbc_queue_size);
ASSERT((buff!=NULL), "%s:get sbc queue buff fail, size %d bytes!", __func__, g_sbc_queue_size);
memset(buff, 0, g_sbc_queue_size);
a2dp_audio_isrunning(A2DPPLAY_STRTEAM_PUT, false);
a2dp_audio_isrunning(A2DPPLAY_STRTEAM_GET, false);
LOCK_APP_AUDIO_QUEUE();
APP_AUDIO_InitCQueue(&sbc_queue, g_sbc_queue_size, buff);
UNLOCK_APP_AUDIO_QUEUE();
#if defined(A2DP_LDAC_ON)
if(overlay_type == APP_OVERLAY_A2DP_LDAC){
ldac_buffer_used = app_audio_mempool_total_buf() - app_audio_mempool_free_buff_size();
ldac_recovery = false;
ldac_dec_init();
}
#endif
#ifdef A2DP_AUDIO_SYNC_WITH_LOCAL
a2dp_audio_sync_proc(A2DPPLAY_SYNC_STATUS_SET|A2DPPLAY_SYNC_STATUS_RESET, A2DP_AUDIO_SYNC_WITH_LOCAL_SAMPLERATE_DEFAULT);
#endif
#ifdef A2DP_CP_ACCEL
cp_a2dp_init();
#endif
a2dp_cache_status = APP_AUDIO_CACHE_CACHEING;
need_init_decoder = true;
dec_reset_queue = false;
sbc_frame_rev_len = 0;
sbc_frame_num = 0;
sbc_frame_size = SBC_TEMP_BUFFER_SIZE;
mtu_count = 0;
assumed_mtu_interval = 0;
return 0;
}
int a2dp_audio_deinit(void)
{
enum APP_OVERLAY_ID_T overlay_type;
overlay_type = app_get_current_overlay();
a2dp_trace_codec_name(__func__, overlay_type);
#if defined(__AUDIO_RESAMPLE__) && defined(SW_PLAYBACK_RESAMPLE)
if (allow_resample) {
app_playback_resample_close(a2dp_resample);
a2dp_resample = NULL;
#ifdef CHIP_BEST1000
allow_resample = false;
#endif
}
#endif
#ifdef A2DP_CP_ACCEL
cp_a2dp_deinit();
#endif
#if defined(A2DP_LDAC_ON)
if(overlay_type == APP_OVERLAY_A2DP_LDAC){
ldac_dec_deinit();
}
#endif
#if defined(A2DP_LHDC_ON)
if(overlay_type == APP_OVERLAY_A2DP_LHDC){
lhdcDestroy();
}
#endif
#if defined(A2DP_AAC_ON)
aacdec_deinit();
aac_memdeinit();
#endif
A2DP_SYNC_WITH_GET_MUTUX_SET();
A2DP_SYNC_WITH_PUT_MUTUX_SET();
A2DP_SYNC_WITH_GET_MUTUX_FREE();
A2DP_SYNC_WITH_PUT_MUTUX_FREE();
a2dp_audio_isrunning(A2DPPLAY_STRTEAM_PUT, false);
a2dp_audio_isrunning(A2DPPLAY_STRTEAM_GET, false);
a2dp_cache_status = APP_AUDIO_CACHE_QTY;
need_init_decoder = true;
sbc_frame_rev_len = 0;
sbc_frame_num = 0;
sbc_frame_size = SBC_TEMP_BUFFER_SIZE;
mtu_count = 0;
assumed_mtu_interval = 0;
return 0;
}
float a2dp_audio_latency_factor_get(void)
{
return 1.0f;
}
#endif
Reference in New Issue View Git Blame Copy Permalink