pinebuds/apps/audioplayers/voicebtpcmplay_sco_dma_snap...

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/***************************************************************************
*
* 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 All unpublished rights reserved.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.
*
****************************************************************************/
// Standard C Included Files
#include "app_audio.h"
#include "app_overlay.h"
#include "app_ring_merge.h"
#include "audio_prompt_sbc.h"
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#include "bt_sco_chain.h"
#include "cmsis_os.h"
#include "cqueue.h"
#include "hal_timer.h"
#include "hal_trace.h"
#include "hal_uart.h"
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#include "hfp_api.h"
#include "iir_resample.h"
#include "plat_types.h"
#include "tgt_hardware.h"
#include <math.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
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#ifdef TX_RX_PCM_MASK
#include "bt_drv_interface.h"
#endif
#define ENABLE_LPC_PLC
#define ENABLE_PLC_ENCODER
// BT
#include "a2dp_api.h"
#include "plc_utils.h"
extern "C" {
#include "plc_8000.h"
#include "speech_utils.h"
#if defined(HFP_1_6_ENABLE)
#include "codec_sbc.h"
#ifndef ENABLE_LPC_PLC
#include "plc_16000.h"
#endif
#endif
#if defined(CVSD_BYPASS)
#include "Pcm8k_Cvsd.h"
#endif
#ifndef ENABLE_LPC_PLC
static void *speech_plc;
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#endif
}
#if defined(ENABLE_LPC_PLC)
#include "lpc_plc_api.h"
#endif
#if defined(SPEECH_TX_24BIT)
extern int32_t *aec_echo_buf;
#else
extern short *aec_echo_buf;
#endif
// #define SPEECH_RX_PLC_DUMP_DATA
// #define PLC_DEBUG_PRINT_DATA
//#define DEBUG_SCO_DUMP
#ifdef SPEECH_RX_PLC_DUMP_DATA
#include "audio_dump.h"
int16_t *audio_dump_temp_buf = NULL;
#endif
// app_bt_stream.cpp::bt_sco_player(), used buffer size
#define APP_BT_STREAM_USE_BUF_SIZE (1024 * 2)
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#if defined(SCO_OPTIMIZE_FOR_RAM)
uint8_t *sco_overlay_ram_buf = NULL;
int sco_overlay_ram_buf_len = 0;
#endif
static bool resample_needed_flag = false;
static int sco_frame_length;
static int codec_frame_length;
static int16_t *resample_buf = NULL;
static IirResampleState *uplink_resample_st = NULL;
static IirResampleState *downlink_resample_st = NULL;
#define MSBC_FRAME_SIZE (60)
#if defined(HFP_1_6_ENABLE)
static btif_sbc_decoder_t *msbc_decoder;
static float msbc_eq_band_gain[CFG_HW_AUD_EQ_NUM_BANDS] = {0, 0, 0, 0,
0, 0, 0, 0};
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#define MSBC_ENCODE_PCM_LEN (240)
#ifndef ENABLE_LPC_PLC
struct PLC_State msbc_plc_state;
#endif
#ifdef ENABLE_PLC_ENCODER
static btif_sbc_encoder_t *msbc_plc_encoder;
static int16_t *msbc_plc_encoder_buffer = NULL;
#define MSBC_CODEC_DELAY (73)
#endif
static btif_sbc_encoder_t *msbc_encoder;
#endif
#if defined(ENABLE_LPC_PLC)
LpcPlcState *msbc_plc_state = NULL;
#endif
#define VOICEBTPCM_TRACE(s, ...)
// TRACE(s, ##__VA_ARGS__)
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#if defined(CHIP_BEST1400) || defined(CHIP_BEST1402) || \
defined(CHIP_BEST2300P) || defined(CHIP_BEST2300A) || \
defined(CHIP_BEST2001)
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#define MSBC_MUTE_PATTERN (0x55)
#else
#define MSBC_MUTE_PATTERN (0x00)
#endif
#define MSBC_LEN_FORMBT_PER_FRAME (60) // Bytes; only for BES platform.
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#define SAMPLES_LEN_PER_FRAME (120)
#define MSBC_LEN_PER_FRAME (57 + 3)
#define BYTES_PER_PCM_FRAME (SAMPLES_LEN_PER_FRAME * 2)
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// Add 1 to ensure it never be out of bounds when msbc_offset is 1
unsigned char msbc_buf_all[MSBC_LEN_FORMBT_PER_FRAME * 3 + 1];
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#if defined(HFP_1_6_ENABLE)
static int msbc_find_first_sync = 0;
static unsigned int msbc_offset = 0;
static unsigned int next_frame_flag = 0;
#endif
static PacketLossState pld;
extern bool bt_sco_codec_is_msbc(void);
int process_downlink_msbc_frames(unsigned char *msbc_buf, unsigned int msbc_len,
unsigned char *pcm_buf, unsigned int pcm_len);
int process_downlink_cvsd_frames(unsigned char *cvsd_buf, unsigned int cvsd_len,
unsigned char *pcm_buf, unsigned int pcm_len);
int process_uplink_msbc_frames(unsigned char *pcm_buf, unsigned int pcm_len,
unsigned char *msbc_buf, unsigned int msbc_len);
int process_uplink_cvsd_frames(unsigned char *pcm_buf, unsigned int pcm_len,
unsigned char *cvsd_buf, unsigned int cvsd_len);
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int process_downlink_bt_voice_frames(uint8_t *in_buf, uint32_t in_len,
uint8_t *out_buf, uint32_t out_len,
int32_t codec_type) {
// TRACE(3,"[%s] in_len = %d, out_len = %d", __FUNCTION__, in_len, out_len);
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#if defined(SPEECH_RX_24BIT)
out_len /= 2;
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#endif
int16_t *pcm_buf = (int16_t *)out_buf;
int pcm_len = out_len / sizeof(int16_t);
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if (resample_needed_flag == true) {
pcm_buf = resample_buf;
pcm_len = sco_frame_length;
}
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if (bt_sco_codec_is_msbc()) {
process_downlink_msbc_frames(in_buf, in_len, (uint8_t *)pcm_buf,
pcm_len * sizeof(int16_t));
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// Down sampling
if (resample_needed_flag) {
iir_resample_process(downlink_resample_st, pcm_buf, (int16_t *)out_buf,
pcm_len);
pcm_buf = (int16_t *)out_buf;
pcm_len >>= 1;
}
} else {
process_downlink_cvsd_frames(in_buf, in_len, (uint8_t *)pcm_buf,
pcm_len * sizeof(int16_t));
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// Up sampling
if (resample_needed_flag) {
iir_resample_process(downlink_resample_st, pcm_buf, (int16_t *)out_buf,
pcm_len);
pcm_buf = (int16_t *)out_buf;
pcm_len <<= 1;
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}
}
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#if defined(SPEECH_RX_24BIT)
int32_t *buf32 = (int32_t *)out_buf;
for (int i = pcm_len - 1; i >= 0; i--) {
buf32[i] = ((int32_t)pcm_buf[i] << 8);
}
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#endif
speech_rx_process(pcm_buf, &pcm_len);
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#if defined(SPEECH_RX_24BIT)
out_len *= 2;
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#endif
return 0;
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}
int process_uplink_bt_voice_frames(uint8_t *in_buf, uint32_t in_len,
uint8_t *ref_buf, uint32_t ref_len,
uint8_t *out_buf, uint32_t out_len,
int32_t codec_type) {
// TRACE(3,"[%s] in_len = %d, out_len = %d", __FUNCTION__, in_len, out_len);
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#if defined(SPEECH_TX_24BIT)
int32_t *pcm_buf = (int32_t *)in_buf;
int pcm_len = in_len / sizeof(int32_t);
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#else
int16_t *pcm_buf = (int16_t *)in_buf;
int pcm_len = in_len / sizeof(int16_t);
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#endif
#if defined(SPEECH_TX_AEC_CODEC_REF)
ASSERT(pcm_len % (SPEECH_CODEC_CAPTURE_CHANNEL_NUM + 1) == 0,
"[%s] pcm_len(%d) should be divided by %d", __FUNCTION__, pcm_len,
SPEECH_CODEC_CAPTURE_CHANNEL_NUM + 1);
// copy reference buffer
#if defined(SPEECH_TX_AEC) || defined(SPEECH_TX_AEC2) || \
defined(SPEECH_TX_AEC3) || defined(SPEECH_TX_AEC2FLOAT) || \
defined(SPEECH_TX_THIRDPARTY)
for (int i = SPEECH_CODEC_CAPTURE_CHANNEL_NUM, j = 0; i < pcm_len;
i += SPEECH_CODEC_CAPTURE_CHANNEL_NUM + 1, j++) {
aec_echo_buf[j] = pcm_buf[i];
}
#endif
for (int i = 0, j = 0; i < pcm_len; i += SPEECH_CODEC_CAPTURE_CHANNEL_NUM + 1,
j += SPEECH_CODEC_CAPTURE_CHANNEL_NUM) {
for (int k = 0; k < SPEECH_CODEC_CAPTURE_CHANNEL_NUM; k++)
pcm_buf[j + k] = pcm_buf[i + k];
}
pcm_len = pcm_len / (SPEECH_CODEC_CAPTURE_CHANNEL_NUM + 1) *
SPEECH_CODEC_CAPTURE_CHANNEL_NUM;
#elif (defined(SPEECH_TX_AEC) || defined(SPEECH_TX_AEC2) || \
defined(SPEECH_TX_AEC3) || defined(SPEECH_TX_AEC2FLOAT) || \
defined(SPEECH_TX_THIRDPARTY))
int ref_pcm_len = ref_len / sizeof(int16_t);
ASSERT(pcm_len / SPEECH_CODEC_CAPTURE_CHANNEL_NUM == ref_pcm_len,
"[%s] Length error: %d / %d != %d", __func__, pcm_len,
SPEECH_CODEC_CAPTURE_CHANNEL_NUM, ref_pcm_len);
for (int i = 0; i < ref_pcm_len; i++) {
aec_echo_buf[i] = ref_buf[i];
}
#endif
speech_tx_process(pcm_buf, aec_echo_buf, &pcm_len);
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#if defined(SPEECH_TX_24BIT)
int32_t *buf24 = (int32_t *)pcm_buf;
int16_t *buf16 = (int16_t *)pcm_buf;
for (int i = 0; i < pcm_len; i++)
buf16[i] = (buf24[i] >> 8);
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#endif
int16_t *pcm_buf_16bits = (int16_t *)pcm_buf;
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if (bt_sco_codec_is_msbc()) {
// Up sampling
if (resample_needed_flag) {
iir_resample_process(uplink_resample_st, (int16_t *)pcm_buf_16bits,
resample_buf, pcm_len);
pcm_buf_16bits = resample_buf;
pcm_len = sco_frame_length;
}
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process_uplink_msbc_frames((uint8_t *)pcm_buf_16bits,
pcm_len * sizeof(int16_t), out_buf, out_len);
} else {
// Down sampling
if (resample_needed_flag) {
iir_resample_process(uplink_resample_st, (int16_t *)pcm_buf_16bits,
resample_buf, pcm_len);
pcm_buf_16bits = resample_buf;
pcm_len = sco_frame_length;
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}
process_uplink_cvsd_frames((uint8_t *)pcm_buf_16bits,
pcm_len * sizeof(int16_t), out_buf, out_len);
}
return 0;
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}
int process_downlink_msbc_frames(unsigned char *msbc_buf, unsigned int msbc_len,
unsigned char *pcm_buf, unsigned int pcm_len) {
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#if defined(HFP_1_6_ENABLE)
btif_sbc_pcm_data_t pcm_data;
unsigned int msbc_offset_lowdelay = 0;
unsigned int i, j;
unsigned char *msbc_buffer = (unsigned char *)msbc_buf;
int frame_flag[6]; // 1: good frame; 0:bad frame;
bt_status_t ret;
unsigned int frame_counter = 0;
unsigned short byte_decode = 0;
unsigned int msbc_offset_total = 0;
int msbc_offset_drift[6] = {
0,
};
short *dec_pcm_buf = (short *)pcm_buf;
unsigned char dec_msbc_buf[MSBC_LEN_PER_FRAME] = {
0,
};
// unsigned int timer_begin=hal_sys_timer_get();
// TRACE(2,"process_downlink_msbc_frames:pcm_len:%d,msbc_len:%d",pcm_len,msbc_len);
// TRACE(1,"decode_msbc_frame,msbc_len:%d",msbc_len);
for (i = 0; i < msbc_len; i++) {
msbc_buf_all[i + MSBC_LEN_FORMBT_PER_FRAME] = msbc_buffer[i];
}
/*
for(i =0; i<msbc_len/2; i=i+10)
{
TRACE(10,"0x%x,0x%x,0x%x,0x%x,0x%x,0x%x,0x%x,0x%x,0x%x,0x%x,",
DecMsbcBufAll[i],DecMsbcBufAll[i+1],DecMsbcBufAll[i+2],DecMsbcBufAll[i+3],DecMsbcBufAll[i+4],
DecMsbcBufAll[i+5],DecMsbcBufAll[i+6],DecMsbcBufAll[i+7],DecMsbcBufAll[i+8],DecMsbcBufAll[i+9]);
}
*/
for (j = 0; j < msbc_len / MSBC_LEN_FORMBT_PER_FRAME; j++) {
frame_flag[j] = 0;
}
if (msbc_find_first_sync == 0) {
for (i = 0; i < msbc_len; i++) {
if ((msbc_buf_all[i] == 0x01) && ((msbc_buf_all[i + 1] & 0x0f) == 0x08) &&
(msbc_buf_all[i + 2] == 0xad))
break;
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}
TRACE(1, "sync......:%d", i);
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if (i < msbc_len) {
msbc_find_first_sync = 1;
msbc_offset = i % MSBC_LEN_FORMBT_PER_FRAME;
msbc_offset_total = i;
} else {
for (j = 0; j < msbc_len / MSBC_LEN_FORMBT_PER_FRAME; j++) {
frame_flag[j] = 1;
}
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}
}
if (msbc_find_first_sync == 1) {
int value = 0;
unsigned char headerm1 = 0;
unsigned char header0 = 0;
unsigned char header1 = 0;
unsigned char header2 = 0;
unsigned char header3 = 0;
// unsigned char tail0 = 0;
if (msbc_offset == 0 || msbc_offset == 1) {
msbc_offset_lowdelay = msbc_offset + 60;
// msbc_offset_lowdelay=msbc_offset;
} else {
msbc_offset_lowdelay = msbc_offset;
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}
// check again
for (j = 0; j < (msbc_len / MSBC_LEN_FORMBT_PER_FRAME); j++) {
if (next_frame_flag == 1) {
next_frame_flag = 0;
frame_flag[j] = 1;
continue;
}
if (msbc_offset_lowdelay == 0 && j == 0) {
headerm1 = 0x01;
} else {
headerm1 = msbc_buf_all[msbc_offset_lowdelay +
j * MSBC_LEN_FORMBT_PER_FRAME - 1];
}
header0 =
msbc_buf_all[msbc_offset_lowdelay + j * MSBC_LEN_FORMBT_PER_FRAME];
header1 = msbc_buf_all[msbc_offset_lowdelay +
j * MSBC_LEN_FORMBT_PER_FRAME + 1];
header2 = msbc_buf_all[msbc_offset_lowdelay +
j * MSBC_LEN_FORMBT_PER_FRAME + 2];
header3 = msbc_buf_all[msbc_offset_lowdelay +
j * MSBC_LEN_FORMBT_PER_FRAME + 3];
/*if ((headerm1 == 0x01) && ((header0 & 0x0f) == 0x08) && (header1 ==
0xad) || (header0 == 0x01) && ((header1 & 0x0f) == 0x08) && (header2 ==
0xad) || (header1 == 0x01) && ((header2 & 0x0f) == 0x08) && (header3 ==
0xad))
{
frame_flag[j] = 0;
}*/
if ((headerm1 == 0x01) && ((header0 & 0x0f) == 0x08) &&
(header1 == 0xad)) {
frame_flag[j] = 0;
// It seems that offset is reduced by 1
msbc_offset_drift[j] = -1;
TRACE(1, "[%s] msbc_offset is reduced by 1", __FUNCTION__);
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/*
tail0 = msbc_buf_all[msbc_offset_lowdelay +
j*MSBC_LEN_FORMBT_PER_FRAME + 59 - 1]; if (tail0 == 0x00 || tail0 ==
0x01|| tail0==0xff)
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{
frame_flag[j] = 0;
}
else
{
frame_flag[j] = 1;
next_frame_flag = 1;
}
*/
} else if ((header0 == 0x01) && ((header1 & 0x0f) == 0x08) &&
(header2 == 0xad)) {
frame_flag[j] = 0;
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/*
tail0 = msbc_buf_all[msbc_offset_lowdelay +
j*MSBC_LEN_FORMBT_PER_FRAME + 59]; if (tail0 == 0x00 || tail0 ==
0x01|| tail0==0xff)
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{
frame_flag[j] = 0;
}
else
{
frame_flag[j] = 1;
next_frame_flag = 1;
}
*/
} else if ((header1 == 0x01) && ((header2 & 0x0f) == 0x08) &&
(header3 == 0xad)) {
frame_flag[j] = 0;
msbc_offset_drift[j] = 1;
TRACE(1, "[%s] msbc_offset is increased by 1", __FUNCTION__);
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/*
tail0 = msbc_buf_all[msbc_offset_lowdelay +
j*MSBC_LEN_FORMBT_PER_FRAME + 59 + 1]; if (tail0 == 0x00 ||
tail0==0x01|| tail0==0xff)
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{
frame_flag[j] = 0;
}
else
{
frame_flag[j] = 1;
next_frame_flag = 1;
}
*/
} else {
if ((header0 == MSBC_MUTE_PATTERN) &&
((header1 & 0x0f) == (MSBC_MUTE_PATTERN & 0x0f)) &&
(header2 == MSBC_MUTE_PATTERN)) {
frame_flag[j] = 1;
} else {
if ((msbc_offset_lowdelay + j * MSBC_LEN_FORMBT_PER_FRAME) >=
msbc_offset_total) {
frame_flag[j] = 3;
} else {
frame_flag[j] = 1;
}
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}
}
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}
for (j = 0; j < msbc_len / MSBC_LEN_FORMBT_PER_FRAME; j++) {
value = value | frame_flag[j];
}
// abnormal msbc packet.
if (value > 1)
msbc_find_first_sync = 0;
}
while ((frame_counter < msbc_len / MSBC_LEN_FORMBT_PER_FRAME) &&
(frame_counter < pcm_len / BYTES_PER_PCM_FRAME)) {
// TRACE(3,"[%s] decoding, offset %d, offset drift %d", __FUNCTION__,
// msbc_offset, msbc_offset_drift[frame_counter]);
// skip first byte when msbc_offset == 0 and msbc_offset_drift == -1
unsigned int start_idx = 0;
if (msbc_offset_lowdelay == 0 && msbc_offset_drift[frame_counter] == -1) {
start_idx = 1;
dec_msbc_buf[0] = 0x01;
}
for (i = start_idx; i < MSBC_LEN_PER_FRAME; i++) {
// DecMsbcBuf[i]=DecMsbcBufAll[i+msbc_offset_lowdelay+frame_counter*MSBC_LEN_FORMBT_PER_FRAME+2];
dec_msbc_buf[i] = msbc_buf_all[i + msbc_offset_lowdelay +
msbc_offset_drift[frame_counter] +
frame_counter * MSBC_LEN_FORMBT_PER_FRAME];
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}
// TRACE(1,"msbc header:0x%x",DecMsbcBuf[0]);
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#ifdef SPEECH_RX_PLC_DUMP_DATA
audio_dump_add_channel_data(2, (short *)dec_msbc_buf,
MSBC_LEN_PER_FRAME / 2);
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#endif
plc_type_t plc_type = packet_loss_detection_process(&pld, dec_msbc_buf);
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if (plc_type != PLC_TYPE_PASS) {
memset(dec_pcm_buf, 0, SAMPLES_LEN_PER_FRAME * sizeof(int16_t));
goto do_plc;
}
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pcm_data.sampleFreq = BTIF_SBC_CHNL_SAMPLE_FREQ_16;
pcm_data.numChannels = 1;
pcm_data.dataLen = 0;
pcm_data.data = (uint8_t *)dec_pcm_buf;
ret = btif_sbc_decode_frames(msbc_decoder, (unsigned char *)dec_msbc_buf,
MSBC_LEN_PER_FRAME, &byte_decode, &pcm_data,
SAMPLES_LEN_PER_FRAME * 2, msbc_eq_band_gain);
// ASSERT(ret == BT_STS_SUCCESS, "[%s] msbc decoder should never fail",
// __FUNCTION__);
if (ret != BT_STS_SUCCESS) {
plc_type = PLC_TYPE_DECODER_ERROR;
packet_loss_detection_update_histogram(&pld, plc_type);
}
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do_plc:
if (plc_type == PLC_TYPE_PASS) {
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#if defined(ENABLE_LPC_PLC)
lpc_plc_save(msbc_plc_state, dec_pcm_buf);
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#else
PLC_good_frame(&msbc_plc_state, dec_pcm_buf, dec_pcm_buf);
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#endif
#ifdef SPEECH_RX_PLC_DUMP_DATA
audio_dump_add_channel_data(0, (short *)dec_pcm_buf,
MSBC_ENCODE_PCM_LEN / 2);
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#endif
} else {
TRACE(1, "PLC bad frame, plc type: %d", plc_type);
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#if defined(PLC_DEBUG_PRINT_DATA)
DUMP8("0x%02x, ", dec_msbc_buf, 60);
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#endif
#ifdef SPEECH_RX_PLC_DUMP_DATA
for (uint32_t i = 0; i < MSBC_ENCODE_PCM_LEN / 2; i++) {
audio_dump_temp_buf[i] = (plc_type - 1) * 5000;
}
audio_dump_add_channel_data(0, audio_dump_temp_buf,
MSBC_ENCODE_PCM_LEN / 2);
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#endif
#if defined(ENABLE_LPC_PLC)
lpc_plc_generate(msbc_plc_state, dec_pcm_buf,
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#if defined(ENABLE_PLC_ENCODER)
msbc_plc_encoder_buffer
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#else
NULL
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#endif
);
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#if defined(ENABLE_PLC_ENCODER)
pcm_data.sampleFreq = BTIF_SBC_CHNL_SAMPLE_FREQ_16;
pcm_data.numChannels = 1;
pcm_data.dataLen = MSBC_ENCODE_PCM_LEN;
pcm_data.data = (uint8_t *)(msbc_plc_encoder_buffer + MSBC_CODEC_DELAY);
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btif_plc_update_sbc_decoder_state(msbc_plc_encoder, &pcm_data,
msbc_decoder, msbc_eq_band_gain);
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#endif
#else
pcm_data.sampleFreq = BTIF_SBC_CHNL_SAMPLE_FREQ_16;
pcm_data.numChannels = 1;
pcm_data.dataLen = 0;
pcm_data.data = (uint8_t *)dec_pcm_buf;
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ret =
btif_sbc_decode_frames(msbc_decoder, (unsigned char *)indices0,
MSBC_LEN_PER_FRAME, &byte_decode, &pcm_data,
SAMPLES_LEN_PER_FRAME * 2, msbc_eq_band_gain);
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PLC_bad_frame(&msbc_plc_state, dec_pcm_buf, dec_pcm_buf);
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ASSERT(ret == BT_STS_SUCCESS, "[%s] msbc decoder should never fail",
__FUNCTION__);
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#endif
}
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#ifdef SPEECH_RX_PLC_DUMP_DATA
audio_dump_add_channel_data(1, (short *)dec_pcm_buf,
MSBC_ENCODE_PCM_LEN / 2);
audio_dump_run();
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#endif
dec_pcm_buf = dec_pcm_buf + SAMPLES_LEN_PER_FRAME;
frame_counter++;
}
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for (i = 0; i < MSBC_LEN_FORMBT_PER_FRAME; i++) {
msbc_buf_all[i] = msbc_buf_all[i + msbc_len];
}
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#endif
// TRACE(1,"msbc + plc:%d", (hal_sys_timer_get()-timer_begin));
return 0;
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}
#ifdef TX_RX_PCM_MASK
#define MSBC_OFFSET_BYTES (0)
#else
#if defined(PCM_FAST_MODE)
#define MSBC_OFFSET_BYTES (1) // This is reletive with chip.
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#else
#define MSBC_OFFSET_BYTES (2) // This is reletive with chip.
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#endif
#endif
#define MSBC_OFFSET_HEADER0_BYTES \
((MSBC_LEN_PER_FRAME - MSBC_OFFSET_BYTES) % MSBC_LEN_PER_FRAME)
#define MSBC_OFFSET_HEADER1_BYTES \
((MSBC_LEN_PER_FRAME - MSBC_OFFSET_BYTES + 1) % MSBC_LEN_PER_FRAME)
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int process_uplink_msbc_frames(unsigned char *pcm_buf, unsigned int pcm_len,
unsigned char *msbc_buf, unsigned int msbc_len) {
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#if defined(HFP_1_6_ENABLE)
uint32_t frame_counter = 0;
static uint32_t frame_counter_total = 0;
static btif_sbc_pcm_data_t pcm_data_enc;
uint16_t bytes_encoded = 0;
static uint8_t msbc_buf_frame[MSBC_LEN_PER_FRAME * 2];
uint16_t msbc_len_frame = MSBC_LEN_PER_FRAME - 3;
// TRACE(2,"process_uplink_msbc_frames:pcm_len:%d,msbc_len:%d",pcm_len,msbc_len);
while ((frame_counter < msbc_len / MSBC_LEN_FORMBT_PER_FRAME) &&
(frame_counter < pcm_len / BYTES_PER_PCM_FRAME)) {
unsigned short *msbc_buf_dst_p;
pcm_data_enc.data = pcm_buf + frame_counter * BYTES_PER_PCM_FRAME;
pcm_data_enc.dataLen = BYTES_PER_PCM_FRAME;
#if (MSBC_OFFSET_BYTES == 0) || (MSBC_OFFSET_BYTES == 1) || \
(MSBC_OFFSET_BYTES == 2)
// body
btif_sbc_encode_frames(msbc_encoder, &pcm_data_enc, &bytes_encoded,
&(msbc_buf_frame[2 - MSBC_OFFSET_BYTES]),
(uint16_t *)&msbc_len_frame, 0xFFFF);
// tail
msbc_buf_frame[59 - MSBC_OFFSET_BYTES] = 0x00;
// header
msbc_buf_frame[MSBC_OFFSET_HEADER0_BYTES] = 0x01;
switch ((frame_counter_total % 4)) {
case 0:
msbc_buf_frame[MSBC_OFFSET_HEADER1_BYTES] = 0x08;
break;
case 1:
msbc_buf_frame[MSBC_OFFSET_HEADER1_BYTES] = 0x38;
break;
case 2:
msbc_buf_frame[MSBC_OFFSET_HEADER1_BYTES] = 0xc8;
break;
default:
msbc_buf_frame[MSBC_OFFSET_HEADER1_BYTES] = 0xf8;
break;
}
msbc_buf_dst_p =
(uint16_t *)(msbc_buf + frame_counter * MSBC_LEN_PER_FRAME * 2);
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for (int i = 0; i < MSBC_LEN_PER_FRAME; i++) {
msbc_buf_dst_p[i] = msbc_buf_frame[i] << 8;
}
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#else
btif_sbc_encode_frames(msbc_encoder, &pcm_data_enc, &bytes_encoded,
&(msbc_buf_frame[MSBC_LEN_PER_FRAME + 2]),
(uint16_t *)&msbc_len_frame, 0xFFFF);
msbc_buf_frame[MSBC_LEN_PER_FRAME + 0] = 0x01;
switch ((frame_counter_total % 4)) {
case 0:
msbc_buf_frame[MSBC_LEN_PER_FRAME + 1] = 0x08;
break;
case 1:
msbc_buf_frame[MSBC_LEN_PER_FRAME + 1] = 0x38;
break;
case 2:
msbc_buf_frame[MSBC_LEN_PER_FRAME + 1] = 0xc8;
break;
default:
msbc_buf_frame[MSBC_LEN_PER_FRAME + 1] = 0xf8;
break;
}
msbc_buf_frame[MSBC_LEN_PER_FRAME + 59] = 0x00;
msbc_buf_dst_p =
(uint16_t *)(msbc_buf + frame_counter * MSBC_LEN_PER_FRAME * 2);
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for (int i = 0; i < MSBC_LEN_PER_FRAME; i++) {
msbc_buf_dst_p[i] = msbc_buf_frame[MSBC_OFFSET_BYTES + i] << 8;
}
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for (int i = 0; i < MSBC_LEN_PER_FRAME; i++) {
msbc_buf_frame[i] = msbc_buf_frame[MSBC_LEN_PER_FRAME + i];
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}
#endif
frame_counter_total++;
frame_counter++;
}
#endif
return 0;
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}
#if defined(CHIP_BEST2300A)
#define CVSD_OFFSET_BYTES (120)
#else
#define CVSD_OFFSET_BYTES (120 - 2)
#endif
#define CVSD_PACKET_SIZE (120)
#define CVSD_PACKET_NUM (2)
#define CVSD_MUTE_PATTERN (0x55)
#define CVSD_PCM_SIZE (120)
static POSSIBLY_UNUSED uint8_t
cvsd_buf_all[CVSD_PACKET_SIZE + CVSD_OFFSET_BYTES];
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POSSIBLY_UNUSED plc_type_t check_cvsd_mute_pattern(uint8_t *buf, uint32_t len) {
for (uint32_t i = 0; i < len; i++)
if (buf[i] != CVSD_MUTE_PATTERN)
return PLC_TYPE_PASS;
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return PLC_TYPE_CONTROLLER_MUTE;
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}
int process_downlink_cvsd_frames(unsigned char *cvsd_buf, unsigned int cvsd_len,
unsigned char *pcm_buf, unsigned int pcm_len) {
// TRACE(2,"process_downlink_cvsd_frames
// pcm_len:%d,cvsd_len:%d",pcm_len,cvsd_len);
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#if defined(CVSD_BYPASS) && defined(ENABLE_LPC_PLC)
ASSERT(cvsd_len % CVSD_PACKET_SIZE == 0, "[%s] cvsd input length(%d) error",
__FUNCTION__, cvsd_len);
for (uint32_t i = 0; i < cvsd_len; i += CVSD_PACKET_SIZE) {
memcpy(&cvsd_buf_all[CVSD_OFFSET_BYTES], cvsd_buf, CVSD_PACKET_SIZE);
memcpy(cvsd_buf, cvsd_buf_all, CVSD_PACKET_SIZE);
memcpy(cvsd_buf_all, &cvsd_buf_all[CVSD_PACKET_SIZE], CVSD_OFFSET_BYTES);
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// DUMP16("0x%x, ", cvsd_buf, CVSD_PACKET_SIZE / 2);
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plc_type_t plc_type = check_cvsd_mute_pattern(cvsd_buf, CVSD_PACKET_SIZE);
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if (plc_type != PLC_TYPE_PASS) {
memset(pcm_buf, 0, CVSD_PCM_SIZE);
goto do_plc;
}
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CvsdToPcm8k(cvsd_buf, (short *)(pcm_buf), CVSD_PACKET_SIZE / 2, 0);
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do_plc:
if (plc_type == PLC_TYPE_PASS) {
lpc_plc_save(msbc_plc_state, (int16_t *)pcm_buf);
} else {
TRACE(1, "PLC bad frame, plc type: %d", plc_type);
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#if defined(PLC_DEBUG_PRINT_DATA)
DUMP16("0x%x, ", cvsd_buf, CVSD_PACKET_SIZE / 2);
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#endif
lpc_plc_generate(msbc_plc_state, (int16_t *)pcm_buf, NULL);
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}
cvsd_buf += CVSD_PACKET_SIZE;
pcm_buf += CVSD_PCM_SIZE;
}
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#else
#if defined(CVSD_BYPASS)
CvsdToPcm8k(cvsd_buf, (short *)(pcm_buf), cvsd_len / 2, 0);
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#else
memcpy(pcm_buf, cvsd_buf, cvsd_len);
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#endif
#ifndef ENABLE_LPC_PLC
speech_plc_8000((PlcSt_8000 *)speech_plc, (short *)pcm_buf, pcm_len);
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#endif
#endif
return 0;
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}
int process_uplink_cvsd_frames(unsigned char *pcm_buf, unsigned int pcm_len,
unsigned char *cvsd_buf, unsigned int cvsd_len) {
// TRACE(2,"process_uplink_cvsd_frames
// pcm_len:%d,cvsd_len:%d",pcm_len,cvsd_len);
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#if defined(CVSD_BYPASS)
Pcm8kToCvsd((short *)pcm_buf, cvsd_buf, pcm_len / 2);
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#endif
return 0;
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}
void *voicebtpcm_get_ext_buff(int size) {
uint8_t *pBuff = NULL;
if (size % 4) {
size = size + (4 - size % 4);
}
app_audio_mempool_get_buff(&pBuff, size);
VOICEBTPCM_TRACE(2, "[%s] len:%d", __func__, size);
return (void *)pBuff;
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}
// sco sample rate: encoder/decoder sample rate
// codec sample rate: hardware sample rate
int voicebtpcm_pcm_audio_init(int sco_sample_rate, int codec_sample_rate) {
uint8_t POSSIBLY_UNUSED *speech_buf = NULL;
int POSSIBLY_UNUSED speech_len = 0;
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sco_frame_length =
SPEECH_FRAME_MS_TO_LEN(sco_sample_rate, SPEECH_SCO_FRAME_MS);
codec_frame_length =
SPEECH_FRAME_MS_TO_LEN(codec_sample_rate, SPEECH_SCO_FRAME_MS);
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TRACE(3, "[%s] TX: sample rate = %d, frame len = %d", __func__,
codec_sample_rate, codec_frame_length);
TRACE(3, "[%s] RX: sample rate = %d, frame len = %d", __func__,
codec_sample_rate, codec_frame_length);
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memset(cvsd_buf_all, CVSD_MUTE_PATTERN, sizeof(cvsd_buf_all));
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#if defined(HFP_1_6_ENABLE)
memset(msbc_buf_all, MSBC_MUTE_PATTERN & 0xFF, sizeof(msbc_buf_all));
if (bt_sco_codec_is_msbc()) {
app_audio_mempool_get_buff((uint8_t **)&msbc_encoder,
sizeof(btif_sbc_encoder_t));
app_audio_mempool_get_buff((uint8_t **)&msbc_decoder,
sizeof(btif_sbc_decoder_t));
// init msbc encoder
btif_sbc_init_encoder(msbc_encoder);
msbc_encoder->streamInfo.mSbcFlag = 1;
msbc_encoder->streamInfo.numChannels = 1;
msbc_encoder->streamInfo.channelMode = BTIF_SBC_CHNL_MODE_MONO;
msbc_encoder->streamInfo.bitPool = 26;
msbc_encoder->streamInfo.sampleFreq = BTIF_SBC_CHNL_SAMPLE_FREQ_16;
msbc_encoder->streamInfo.allocMethod = BTIF_SBC_ALLOC_METHOD_LOUDNESS;
msbc_encoder->streamInfo.numBlocks = BTIF_MSBC_BLOCKS;
msbc_encoder->streamInfo.numSubBands = 8;
// init msbc decoder
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 i;
for (i = 0; i < sizeof(msbc_eq_band_gain) / sizeof(float); i++) {
msbc_eq_band_gain[i] = EQLevel[cfg_aud_eq_sbc_band_settings[i] + 12];
}
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btif_sbc_init_decoder(msbc_decoder);
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msbc_decoder->streamInfo.mSbcFlag = 1;
msbc_decoder->streamInfo.bitPool = 26;
msbc_decoder->streamInfo.sampleFreq = BTIF_SBC_CHNL_SAMPLE_FREQ_16;
msbc_decoder->streamInfo.channelMode = BTIF_SBC_CHNL_MODE_MONO;
msbc_decoder->streamInfo.allocMethod = BTIF_SBC_ALLOC_METHOD_LOUDNESS;
/* Number of blocks used to encode the stream (4, 8, 12, or 16) */
msbc_decoder->streamInfo.numBlocks = BTIF_MSBC_BLOCKS;
/* The number of subbands in the stream (4 or 8) */
msbc_decoder->streamInfo.numSubBands = 8;
msbc_decoder->streamInfo.numChannels = 1;
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// init msbc plc
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#ifndef ENABLE_LPC_PLC
InitPLC(&msbc_plc_state);
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#endif
next_frame_flag = 0;
msbc_find_first_sync = 0;
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packet_loss_detection_init(&pld);
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#if defined(ENABLE_PLC_ENCODER)
app_audio_mempool_get_buff((uint8_t **)&msbc_plc_encoder,
sizeof(btif_sbc_encoder_t));
btif_sbc_init_encoder(msbc_plc_encoder);
msbc_plc_encoder->streamInfo.mSbcFlag = 1;
msbc_plc_encoder->streamInfo.bitPool = 26;
msbc_plc_encoder->streamInfo.sampleFreq = BTIF_SBC_CHNL_SAMPLE_FREQ_16;
msbc_plc_encoder->streamInfo.channelMode = BTIF_SBC_CHNL_MODE_MONO;
msbc_plc_encoder->streamInfo.allocMethod = BTIF_SBC_ALLOC_METHOD_LOUDNESS;
/* Number of blocks used to encode the stream (4, 8, 12, or 16) */
msbc_plc_encoder->streamInfo.numBlocks = BTIF_MSBC_BLOCKS;
/* The number of subbands in the stream (4 or 8) */
msbc_plc_encoder->streamInfo.numSubBands = 8;
msbc_plc_encoder->streamInfo.numChannels = 1;
app_audio_mempool_get_buff((uint8_t **)&msbc_plc_encoder_buffer,
sizeof(int16_t) *
(SAMPLES_LEN_PER_FRAME + MSBC_CODEC_DELAY));
#endif
} else
#endif
{
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#ifndef ENABLE_LPC_PLC
speech_plc = (PlcSt_8000 *)speech_plc_8000_init(voicebtpcm_get_ext_buff);
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#endif
}
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#if defined(CVSD_BYPASS)
Pcm8k_CvsdInit();
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#endif
#ifdef SPEECH_RX_PLC_DUMP_DATA
audio_dump_temp_buf =
(int16_t *)voicebtpcm_get_ext_buff(sizeof(int16_t) * 120);
audio_dump_init(120, sizeof(short), 3);
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#endif
resample_needed_flag = (sco_sample_rate == codec_sample_rate) ? 0 : 1;
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if (resample_needed_flag) {
TRACE(1, "[%s] SCO <-- Resample --> CODEC", __func__);
resample_buf =
(int16_t *)voicebtpcm_get_ext_buff(sizeof(int16_t) * sco_frame_length);
}
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#if defined(SCO_OPTIMIZE_FOR_RAM)
sco_overlay_ram_buf_len =
hal_overlay_get_text_free_size((enum HAL_OVERLAY_ID_T)APP_OVERLAY_HFP);
sco_overlay_ram_buf = (uint8_t *)hal_overlay_get_text_free_addr(
(enum HAL_OVERLAY_ID_T)APP_OVERLAY_HFP);
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#endif
speech_len = app_audio_mempool_free_buff_size() - APP_BT_STREAM_USE_BUF_SIZE;
speech_buf = (uint8_t *)voicebtpcm_get_ext_buff(speech_len);
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int tx_frame_ms = SPEECH_PROCESS_FRAME_MS;
int rx_frame_ms = SPEECH_SCO_FRAME_MS;
speech_init(codec_sample_rate, codec_sample_rate, tx_frame_ms, rx_frame_ms,
SPEECH_SCO_FRAME_MS, speech_buf, speech_len);
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if (resample_needed_flag) {
uplink_resample_st = iir_resample_init(
codec_frame_length,
iir_resample_choose_mode(codec_sample_rate, sco_sample_rate));
downlink_resample_st = iir_resample_init(
sco_frame_length,
iir_resample_choose_mode(sco_sample_rate, codec_sample_rate));
}
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#if defined(ENABLE_LPC_PLC)
msbc_plc_state = lpc_plc_create(sco_sample_rate);
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#endif
return 0;
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}
int voicebtpcm_pcm_audio_deinit(void) {
TRACE(1, "[%s] Close...", __func__);
// TRACE(2,"[%s] app audio buffer free = %d", __func__,
// app_audio_mempool_free_buff_size());
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#if defined(ENABLE_LPC_PLC)
lpc_plc_destroy(msbc_plc_state);
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#endif
if (resample_needed_flag) {
iir_resample_destroy(uplink_resample_st);
iir_resample_destroy(downlink_resample_st);
}
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speech_deinit();
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packet_loss_detection_report(&pld);
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#if defined(SCO_OPTIMIZE_FOR_RAM)
sco_overlay_ram_buf = NULL;
sco_overlay_ram_buf_len = 0;
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#endif
// TRACE(1,"Free buf = %d", app_audio_mempool_free_buff_size());
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return 0;
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}