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KT24-1110_65E-HA-651B/cpu/br25/audio_enc/audio_enc_recoder.c

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inited
2024-11-10 10:44:17 +00:00
#include "asm/includes.h"
#include "media/includes.h"
#include "system/includes.h"
#include "asm/audio_src.h"
#include "audio_enc.h"
#include "app_main.h"
#include "app_action.h"
#include "encode/encode_write.h"
#include "clock_cfg.h"
#include "audio_config.h"
#include "audio_track.h"
#define LADC_MIC_BUF_NUM 2
#define LADC_MIC_CH_NUM 1
#define LADC_MIC_IRQ_POINTS 256
#define LADC_MIC_BUFS_SIZE (LADC_MIC_CH_NUM * LADC_MIC_BUF_NUM * LADC_MIC_IRQ_POINTS)
typedef struct {
struct audio_adc_output_hdl adc_output;
struct adc_mic_ch mic_ch;
s16 adc_buf[LADC_MIC_BUFS_SIZE]; //align 4Bytes
int cut_timer;
} ladc_mic_t;
static ladc_mic_t *ladc_mic = NULL;
extern struct audio_adc_hdl adc_hdl;
int audio_adc_mic_init(u16 sr)
{
//printf("ladc_mic_open:%d\n",sr);
ASSERT(ladc_mic == NULL);
ladc_mic = zalloc(sizeof(ladc_mic_t));
if (ladc_mic) {
audio_adc_mic_open(&ladc_mic->mic_ch, AUDIO_ADC_MIC_CH, &adc_hdl);
audio_adc_mic_set_sample_rate(&ladc_mic->mic_ch, sr);
audio_adc_mic_set_gain(&ladc_mic->mic_ch, 5);
audio_adc_mic_set_buffs(&ladc_mic->mic_ch, ladc_mic->adc_buf, LADC_MIC_IRQ_POINTS * 2, LADC_MIC_BUF_NUM);
audio_adc_mic_start(&ladc_mic->mic_ch);
return 0;
} else {
return -1;
}
}
void audio_adc_mic_exit(void)
{
//printf("ladc_mic_close\n");
if (ladc_mic) {
audio_adc_mic_close(&ladc_mic->mic_ch);
free(ladc_mic);
ladc_mic = NULL;
}
}
/*audio_adc采样输出回调函数*/
static void audio_adc_data_hdl(void *priv, s16 *data, int len)
{
struct audio_adc_hdl *hdl = priv;
putchar('o');
//printf("adc:%x,len:%d",data,len);
#if 0 //直接推adc数据到dac听,用来测试adc采样数据是否正常
int wlen = app_audio_output_write(data, len * hdl->channel);
if (wlen != len) {
//printf("wlen:%d-%d",wlen,len);
}
#endif
}
/******************************************************/
#define LADC_LINEIN_BUF_NUM 2
#define LADC_LINEIN_CH_NUM 1
#define LADC_LINEIN_IRQ_POINTS 256
#define LADC_LINEIN_BUFS_SIZE (LADC_LINEIN_CH_NUM * LADC_LINEIN_BUF_NUM * LADC_LINEIN_IRQ_POINTS)
struct audio_adc_var {
struct audio_adc_output_hdl adc_output;
struct audio_adc_ch ch;
s16 adc_buf[LADC_LINEIN_BUFS_SIZE]; //align 4Bytes
};
struct audio_adc_var *ladc_linein = NULL;
void audio_adc_linein_demo(void)
{
u16 ladc_linein_sr = 44100;
r_printf("audio_adc_linein_demo...");
ladc_linein = zalloc(sizeof(*ladc_linein));
if (ladc_linein) {
audio_adc_linein_open(&ladc_linein->ch, AUDIO_ADC_LINE0_L, &adc_hdl);
audio_adc_linein_set_sample_rate(&ladc_linein->ch, ladc_linein_sr);
audio_adc_linein_set_gain(&ladc_linein->ch, 5);
printf("adc_buf_size:%d", sizeof(ladc_linein->adc_buf));
audio_adc_set_buffs(&ladc_linein->ch, ladc_linein->adc_buf, LADC_LINEIN_CH_NUM * LADC_LINEIN_IRQ_POINTS * 2, LADC_LINEIN_BUF_NUM);
ladc_linein->adc_output.handler = audio_adc_data_hdl;
ladc_linein->adc_output.priv = &adc_hdl;
audio_adc_add_output_handler(&adc_hdl, &ladc_linein->adc_output);
audio_adc_linein_start(&ladc_linein->ch);
app_audio_output_samplerate_set(ladc_linein_sr);
app_audio_output_start();
}
}
#define ADC_BUF_NUM 2
#define ADC_CH_NUM 1
#define ADC_IRQ_POINTS 256
#define ADC_BUFS_SIZE (ADC_BUF_NUM *ADC_CH_NUM* ADC_IRQ_POINTS)
#if TCFG_MIC_EFFECT_ENABLE
#define ADC_STORE_PCM_SIZE (ADC_BUFS_SIZE * 6)
#else
#define ADC_STORE_PCM_SIZE (ADC_BUFS_SIZE * 16)
#endif/*TCFG_MIC_EFFECT_ENABLE*/
#define ADC_LINEIN_IRQ_POINTS 32
#define ADC_LINEIN_BUFS_SIZE (ADC_BUF_NUM *ADC_CH_NUM* ADC_LINEIN_IRQ_POINTS)
#define ADC_LINEIN_STORE_PCM_SIZE (ADC_LINEIN_BUFS_SIZE * 6)
struct linein_sample_hdl {
OS_SEM sem;
struct audio_adc_ch linein_ch;
struct audio_adc_output_hdl sample_output;
s16 adc_buf[ADC_BUFS_SIZE];
/* s16 *store_pcm_buf[ADC_STORE_PCM_SIZE]; */
s16 *store_pcm_buf;
cbuffer_t cbuf;
void (*resume)(void);
volatile u8 wait_resume;
u8 channel_num;
int samples;
u16 sample_rate;
void *audio_track;
};
/* struct linein_sample_hdl g_linein_sample_hdl sec(.linein_pcm_mem); */
/* static s16 linein_store_pcm_buf[ADC_STORE_PCM_SIZE] sec(.linein_pcm_mem); */
void linein_sample_set_resume_handler(void *priv, void (*resume)(void))
{
struct linein_sample_hdl *linein = (struct linein_sample_hdl *)priv;
if (linein) {
linein->resume = resume;
}
}
AT(.fm_data_code)
void fm_inside_output_handler(void *priv, s16 *data, int len)
{
struct linein_sample_hdl *linein = (struct linein_sample_hdl *)priv;
if (linein->audio_track) {
audio_local_sample_track_in_period(linein->audio_track, (len >> 1) / linein->channel_num);
}
int wlen = cbuf_write(&linein->cbuf, data, len);
os_sem_post(&linein->sem);
if (wlen != len) {
putchar('w');
}
if (linein->resume) {
if (linein->wait_resume) {
linein->wait_resume = 0;
linein->resume();
}
}
}
static void linein_sample_output_handler(void *priv, s16 *data, int len)
{
struct linein_sample_hdl *linein = (struct linein_sample_hdl *)priv;
if (linein->audio_track) {
audio_local_sample_track_in_period(linein->audio_track, (len >> 1));
}
int wlen = cbuf_write(&linein->cbuf, data, len * linein->channel_num);
os_sem_post(&linein->sem);
if (wlen != len * linein->channel_num) {
putchar('W');
}
if (linein->resume) {
if (linein->wait_resume) {
linein->wait_resume = 0;
linein->resume();
}
}
}
AT(.fm_data_code)
int linein_stream_sample_rate(void *hdl)
{
struct linein_sample_hdl *linein = (struct linein_sample_hdl *)hdl;
if (linein->audio_track) {
int sr = audio_local_sample_track_rate(linein->audio_track);
if ((sr < (linein->sample_rate + 200)) && (sr > linein->sample_rate - 200)) {
return sr;
}
printf("linein audio_track reset \n");
local_irq_disable();
audio_local_sample_track_close(linein->audio_track);
linein->audio_track = audio_local_sample_track_open(linein->channel_num, linein->sample_rate, 1000);
local_irq_enable();
}
return linein->sample_rate;
}
AT(.fm_data_code)
int linein_sample_read(void *hdl, void *data, int len)
{
struct linein_sample_hdl *linein = (struct linein_sample_hdl *)hdl;
#if 0
// no wait
u8 count = 0;
__retry:
if (cbuf_get_data_size(&linein->cbuf) < len) {
local_irq_disable();
os_sem_set(&linein->sem, 0);
local_irq_enable();
os_sem_pend(&linein->sem, 2);
if (cbuf_get_data_size(&linein->cbuf) < len) {
if (++count > 4) {
return 0;
}
goto __retry;
}
}
#endif
int rlen = cbuf_read(&linein->cbuf, data, 64);
local_irq_disable();
if (rlen < len) {
linein->wait_resume = 1;
}
local_irq_enable();
return rlen;
}
AT(.fm_data_code)
int linein_sample_size(void *hdl)
{
struct linein_sample_hdl *linein = (struct linein_sample_hdl *)hdl;
return cbuf_get_data_size(&linein->cbuf);
}
AT(.fm_data_code)
int linein_sample_total(void *hdl)
{
struct linein_sample_hdl *linein = (struct linein_sample_hdl *)hdl;
return linein->cbuf.total_len;
}
void *linein_sample_open(u8 source, u16 sample_rate)
{
struct linein_sample_hdl *linein = NULL;
/* linein = &g_linein_sample_hdl;// zalloc(sizeof(struct linein_sample_hdl)); */
linein = zalloc(sizeof(struct linein_sample_hdl));
if (!linein) {
return NULL;
}
memset(linein, 0x0, sizeof(struct linein_sample_hdl));
linein->store_pcm_buf = malloc(ADC_LINEIN_STORE_PCM_SIZE);
if (!linein->store_pcm_buf) {
return NULL;
}
if (source != 0xff) {
audio_adc_linein_open(&linein->linein_ch, (source << 2), &adc_hdl);
}
cbuf_init(&linein->cbuf, linein->store_pcm_buf, ADC_LINEIN_STORE_PCM_SIZE);
linein->sample_rate = sample_rate;
linein->audio_track = audio_local_sample_track_open(linein->channel_num, sample_rate, 1000);
os_sem_create(&linein->sem, 0);
if (source == 0xff) {
return linein;
}
linein->channel_num = adc_hdl.channel;
audio_adc_linein_set_sample_rate(&linein->linein_ch, sample_rate);
audio_adc_linein_set_gain(&linein->linein_ch, 3);
audio_adc_set_buffs(&linein->linein_ch, linein->adc_buf, ADC_CH_NUM * ADC_LINEIN_IRQ_POINTS * 2, ADC_BUF_NUM);
linein->sample_output.handler = linein_sample_output_handler;
linein->sample_output.priv = linein;
audio_adc_add_output_handler(&adc_hdl, &linein->sample_output);
audio_adc_linein_start(&linein->linein_ch);
return linein;
}
void linein_sample_close(void *hdl)
{
struct linein_sample_hdl *linein = (struct linein_sample_hdl *)hdl;
if (!linein) {
return;
}
audio_adc_linein_close(&linein->linein_ch);
audio_adc_del_output_handler(&adc_hdl, &linein->sample_output);
if (linein->audio_track) {
audio_local_sample_track_close(linein->audio_track);
}
free(linein->store_pcm_buf);
free(linein);
}
void *fm_sample_open(u8 source, u16 sample_rate)
{
struct linein_sample_hdl *linein = NULL;
/* linein = &g_linein_sample_hdl;// zalloc(sizeof(struct linein_sample_hdl)); */
linein = zalloc(sizeof(struct linein_sample_hdl));
if (!linein) {
return NULL;
}
memset(linein, 0x0, sizeof(struct linein_sample_hdl));
linein->store_pcm_buf = zalloc(ADC_STORE_PCM_SIZE);
if (!linein->store_pcm_buf) {
return NULL;
}
cbuf_init(&linein->cbuf, linein->store_pcm_buf, ADC_STORE_PCM_SIZE);
os_sem_create(&linein->sem, 0);
linein->sample_rate = sample_rate;
linein->audio_track = audio_local_sample_track_open(linein->channel_num, sample_rate, 1000);
linein->channel_num = 2;
if (source == 1) { //line1
audio_adc_linein_open(&linein->linein_ch, AUDIO_ADC_LINE1_LR, &adc_hdl);
} else if (source == 0) { //linein0
audio_adc_linein_open(&linein->linein_ch, AUDIO_ADC_LINE0_LR, &adc_hdl);
} else if (source == 2) {
audio_adc_linein_open(&linein->linein_ch, AUDIO_ADC_LINE2_LR, &adc_hdl);
} else {
return linein;
}
audio_adc_linein_set_sample_rate(&linein->linein_ch, sample_rate);
audio_adc_linein_set_gain(&linein->linein_ch, 1);
audio_adc_set_buffs(&linein->linein_ch, linein->adc_buf, ADC_CH_NUM * ADC_IRQ_POINTS * 2, ADC_BUF_NUM);
linein->sample_output.handler = linein_sample_output_handler;
linein->sample_output.priv = linein;
audio_adc_add_output_handler(&adc_hdl, &linein->sample_output);
audio_adc_linein_start(&linein->linein_ch);
return linein;
}
void fm_sample_close(void *hdl, u8 source)
{
struct linein_sample_hdl *linein = (struct linein_sample_hdl *)hdl;
if (!linein) {
return;
}
if (source <= 2) {
audio_adc_linein_close(&linein->linein_ch);
audio_adc_del_output_handler(&adc_hdl, &linein->sample_output);
}
if (linein->audio_track) {
audio_local_sample_track_close(linein->audio_track);
}
free(linein->store_pcm_buf);
free(linein);
}
////>>>>>>>>>>>>>>record_player api录音接口<<<<<<<<<<<<<<<<<<<<<///
#if 1
/* #define RECORD_PLAYER_DEFULT_SAMPLERATE (44100L) */
#define RECORD_PLAYER_DEFULT_SAMPLERATE (16000L)
#define RECORD_PLAYER_DEFULT_BITRATE (128L)
#define RECORD_PLAYER_DEFULT_ADPCM_BLOCKSIZE (1024L) //256/512/1024/2048
#define RECORD_PLAYER_MIXER_CHANNELS 1 //mixer record single channel
#define REC_ALIN(var,al) ((((var)+(al)-1)/(al))*(al))
struct record_hdl {
struct audio_adc_output_hdl adc_output;
struct adc_mic_ch mic_ch;
struct audio_adc_ch linein_ch;
struct __dev *dev;
void *file;
//s16 adc_buf[ADC_BUFS_SIZE];
s16 *adc_buf;
u32 magic;
u32 start_sys_tick;
enum enc_source source;
u16 sample_rate;
u16 cut_head_timer;
u8 cut_head_flag;
u8 stop_req;
u8 nchl;
u8 coding_type;
volatile u8 busy;
volatile u8 status;
void (*err_callback)(void);
};
extern u32 timer_get_ms(void);
extern u32 audio_output_channel_num(void);
extern struct audio_mixer mixer;
static struct record_hdl *rec_hdl = NULL;
int recorder_get_enc_time()
{
int ret = 0;
if (rec_hdl && rec_hdl->file) {
ret = pcm2file_enc_get_time(rec_hdl->file);
}
// log_d("get ret %d s\n", ret);
return ret;
}
static void recorder_encode_clock_add(u32 coding_type)
{
if ((coding_type == AUDIO_CODING_WAV) || (coding_type == AUDIO_CODING_PCM)) {
clock_add(ENC_WAV_CLK);
} else if (coding_type == AUDIO_CODING_G726) {
clock_add(ENC_G726_CLK);
} else if (coding_type == AUDIO_CODING_MP3) {
clock_add(ENC_MP3_CLK);
}
clock_set_cur();
}
static void recorder_encode_clock_remove(u32 coding_type)
{
if ((coding_type == AUDIO_CODING_WAV) || (coding_type == AUDIO_CODING_PCM)) {
clock_remove(ENC_WAV_CLK);
} else if (coding_type == AUDIO_CODING_G726) {
clock_remove(ENC_G726_CLK);
} else if (coding_type == AUDIO_CODING_MP3) {
clock_remove(ENC_MP3_CLK);
}
clock_set_cur();
}
void recorder_encode_stop(void)
{
if (rec_hdl) {
switch (rec_hdl->source) {
case ENCODE_SOURCE_MIX:
break;
case ENCODE_SOURCE_MIC:
#if 0
audio_adc_mic_close(&rec_hdl->mic_ch);
audio_adc_del_output_handler(&adc_hdl, &rec_hdl->adc_output);
#else
audio_mic_close(&rec_hdl->mic_ch, &rec_hdl->adc_output);
#endif
break;
case ENCODE_SOURCE_LINE0_LR:
case ENCODE_SOURCE_LINE1_LR:
case ENCODE_SOURCE_LINE2_LR:
audio_adc_linein_close(&rec_hdl->linein_ch);
audio_adc_del_output_handler(&adc_hdl, &rec_hdl->adc_output);
break;
default:
break;
}
rec_hdl->magic++;
rec_hdl->status = 0;
printf("[%s], wait busy\n", __FUNCTION__);
while (rec_hdl->busy) {
os_time_dly(2);
}
printf("[%s], wait busy ok\n", __FUNCTION__);
pcm2file_enc_close(&rec_hdl->file);
recorder_encode_clock_remove(rec_hdl->coding_type);
rec_hdl->file = NULL;
sys_timeout_del(rec_hdl->cut_head_timer);
local_irq_disable();
free(rec_hdl);
rec_hdl = NULL;
local_irq_enable();
vddiom_set_dynamic(TCFG_LOWPOWER_VDDIOM_LEVEL);
}
}
static void recorder_encode_event_handler(struct audio_encoder *hdl, int argc, int *argv)
{
if (rec_hdl == NULL) {
return ;
}
struct audio_encoder *enc = get_pcm2file_encoder_hdl(rec_hdl->file);
printf("%s, argv[]:%d, %d , hdl = %x, enc = %x", __FUNCTION__, argv[0], argv[1], hdl, enc);
if ((hdl != NULL) && (hdl == enc)) {
if (rec_hdl->err_callback) {
rec_hdl->err_callback();
} else {
recorder_encode_stop();
}
} else {
printf("err enc handle !!\n");
}
}
static void adc_output_to_enc(void *priv, s16 *data, int len)
{
/* putchar('o'); */
if (rec_hdl == NULL) {
return ;
}
if (rec_hdl->cut_head_flag) {
return ;
}
switch (rec_hdl->source) {
case ENCODE_SOURCE_MIC:
case ENCODE_SOURCE_LINE0_LR:
case ENCODE_SOURCE_LINE1_LR:
case ENCODE_SOURCE_LINE2_LR:
pcm2file_enc_write_pcm(rec_hdl->file, data, len * adc_hdl.channel);
break;
default:
break;
}
}
void record_cut_head_timeout(void *priv)
{
if (rec_hdl) {
rec_hdl->cut_head_flag = 0;
printf("record_cut_head_timeout \n");
}
}
u32 recorder_get_encoding_time()
{
return recorder_get_enc_time();
// u32 time_sec = 0;
// if (rec_hdl) {
// time_sec = (timer_get_ms() - rec_hdl->start_sys_tick) / 1000;
// /* printf("rec time sec = %d\n",time_sec); */
// }
// return time_sec;
}
///检查录音是否正在进行
int recorder_is_encoding(void)
{
if (rec_hdl) {
return 1;
}
return 0;
}
int recorder_encode_start(struct record_file_fmt *f)
{
struct audio_fmt afmt;
struct record_file_fmt fmt;
u32 cut_tail_size = 0;
struct record_hdl *rec = NULL;
vddiom_set_dynamic(TCFG_VDDIO_DEV_ACCESS_LEVEL);
memcpy((u8 *)&fmt, (u8 *)f, sizeof(struct record_file_fmt));
if ((fmt.coding_type == AUDIO_CODING_WAV) || fmt.coding_type == AUDIO_CODING_G726) {
fmt.bit_rate = RECORD_PLAYER_DEFULT_ADPCM_BLOCKSIZE;
} else {
fmt.bit_rate = RECORD_PLAYER_DEFULT_BITRATE;
}
#if TCFG_MIC_EFFECT_ENABLE
fmt.sample_rate = MIC_EFFECT_SAMPLERATE;
#endif
afmt.coding_type = fmt.coding_type;
afmt.channel = fmt.channel;
afmt.sample_rate = fmt.sample_rate;
afmt.bit_rate = fmt.bit_rate;
if (rec_hdl) {
recorder_encode_stop();
}
u32 offset = 0;
u32 size = REC_ALIN(sizeof(struct record_hdl), 4);
if ((fmt.source == ENCODE_SOURCE_LINE0_LR)
|| (fmt.source == ENCODE_SOURCE_LINE1_LR)
|| (fmt.source == ENCODE_SOURCE_LINE2_LR)
) {
size += REC_ALIN((sizeof(s16) * ADC_BUFS_SIZE), 4);
}
u8 *buf = zalloc(size);
if (!buf) {
vddiom_set_dynamic(TCFG_LOWPOWER_VDDIOM_LEVEL);
return -1;
}
rec = (struct record_hdl *)(buf + offset);
offset += REC_ALIN(sizeof(struct record_hdl), 4);
rec->source = fmt.source;
rec->dev = dev_manager_find_spec(fmt.dev, 0);
if (rec->dev == NULL) {
free(rec);
vddiom_set_dynamic(TCFG_LOWPOWER_VDDIOM_LEVEL);
return -1;
}
rec->sample_rate = fmt.sample_rate;
rec->nchl = fmt.channel;
rec->coding_type = fmt.coding_type;
recorder_encode_clock_add(fmt.coding_type);
rec->file = pcm2file_enc_open(&afmt, fmt.dev, fmt.folder, fmt.filename);
if (!rec->file) {
free(rec);
recorder_encode_clock_remove(fmt.coding_type);
vddiom_set_dynamic(TCFG_LOWPOWER_VDDIOM_LEVEL);
return -1;
}
rec->cut_head_flag = 1;
rec->cut_head_timer = sys_timeout_add(NULL, record_cut_head_timeout, fmt.cut_head_time);
if ((fmt.coding_type == AUDIO_CODING_WAV) || (fmt.coding_type == AUDIO_CODING_G726)) {
cut_tail_size = (4 * fmt.sample_rate * fmt.channel) * fmt.cut_tail_time / 1000 / 8;
cut_tail_size = ((cut_tail_size + fmt.bit_rate - 1) / fmt.bit_rate) * fmt.bit_rate;
} else {
cut_tail_size = fmt.bit_rate * fmt.cut_tail_time / 8;
}
rec->err_callback = NULL;
if (fmt.err_callback) {
rec->err_callback = fmt.err_callback;
}
last_enc_file_codeing_type_save(afmt.coding_type);
pcm2file_enc_set_evt_handler(rec->file, recorder_encode_event_handler, rec->magic);
pcm2file_enc_write_file_set_limit(rec->file, cut_tail_size, fmt.limit_size);
pcm2file_enc_start(rec->file);
switch (rec->source) {
case ENCODE_SOURCE_MIX:
break;
case ENCODE_SOURCE_MIC:
rec->adc_output.handler = adc_output_to_enc;
rec->adc_output.priv = rec;
if (audio_mic_open(&rec->mic_ch, fmt.sample_rate, fmt.gain) == 0) {
audio_mic_add_output(&rec->adc_output);
audio_mic_start(&rec->mic_ch);
}
break;
case ENCODE_SOURCE_LINE0_LR:
case ENCODE_SOURCE_LINE1_LR:
case ENCODE_SOURCE_LINE2_LR:
rec->adc_buf = (s16 *)(buf + offset);
audio_adc_linein_open(&rec->linein_ch, AUDIO_ADC_LINE0_LR + (rec->source - ENCODE_SOURCE_LINE0_LR), &adc_hdl);
audio_adc_linein_set_sample_rate(&rec->linein_ch, fmt.sample_rate);
audio_adc_linein_set_gain(&rec->linein_ch, fmt.gain);
audio_adc_set_buffs(&rec->linein_ch, rec->adc_buf, ADC_CH_NUM * ADC_IRQ_POINTS * 2, ADC_BUF_NUM);
rec->adc_output.handler = adc_output_to_enc;
rec->adc_output.priv = &adc_hdl;
audio_adc_add_output_handler(&adc_hdl, &rec->adc_output);
audio_adc_linein_start(&rec->linein_ch);
break;
default:
break;
}
rec->start_sys_tick = timer_get_ms();
rec_hdl = rec;
rec_hdl->status = 1;
rec_hdl->busy = 0;
return 0;
}
void recorder_encode_pp()
{
struct pcm2file_enc_hdl *file_hdl = (struct pcm2file_enc_hdl *)rec_hdl->file;
if (rec_hdl) {
if (rec_hdl->status == 1) {
enc_change_status(rec_hdl->file);
}
printf("[%s] recorder pp\n", __FUNCTION__);
}
}
int recorder_userdata_to_enc(s16 *data, int len)
{
if ((rec_hdl == NULL) || (rec_hdl->status == 0)) {
return 0;
}
rec_hdl->busy = 1;
if (rec_hdl->cut_head_flag) {
rec_hdl->busy = 0;
return 0;
}
int wlen = pcm2file_enc_write_pcm(rec_hdl->file, data, len);
rec_hdl->busy = 0;
return wlen;
}
void recorder_device_offline_check(char *logo)
{
if (rec_hdl) {
if (!strcmp(dev_manager_get_logo(rec_hdl->dev), logo)) {
///当前录音正在使用的设备掉线, 应该停掉录音
printf("is the recording dev = %s\n", logo);
recorder_encode_stop();
}
}
}
#endif//
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