rtt-f030/bsp/stm32_radio/mp3.c

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#include <rtthread.h>
#include <dfs_posix.h>
#include <mp3/pub/mp3dec.h>
#include "board.h"
#include "netbuffer.h"
#define MP3_AUDIO_BUF_SZ 4096
rt_uint8_t mp3_fd_buffer[MP3_AUDIO_BUF_SZ];
struct mp3_decoder
{
/* mp3 information */
HMP3Decoder decoder;
MP3FrameInfo frame_info;
rt_uint32_t frames;
/* mp3 file descriptor */
rt_size_t (*fetch_data)(void* parameter, rt_uint8_t *buffer, rt_size_t length);
void* fetch_parameter;
/* mp3 read session */
rt_uint8_t *read_buffer;
rt_uint8_t* read_ptr;
rt_int32_t read_offset;
rt_uint32_t bytes_left, bytes_left_before_decoding;
/* audio device */
rt_device_t snd_device;
};
static rt_err_t mp3_decoder_tx_done(rt_device_t dev, void *buffer)
{
/* release memory block */
sbuf_release(buffer);
return RT_EOK;
}
void mp3_decoder_init(struct mp3_decoder* decoder)
{
RT_ASSERT(decoder != RT_NULL);
/* init read session */
decoder->read_ptr = RT_NULL;
decoder->bytes_left_before_decoding = decoder->bytes_left = 0;
decoder->frames = 0;
// decoder->read_buffer = rt_malloc(MP3_AUDIO_BUF_SZ);
decoder->read_buffer = &mp3_fd_buffer[0];
if (decoder->read_buffer == RT_NULL) return;
decoder->decoder = MP3InitDecoder();
/* open audio device */
decoder->snd_device = rt_device_find("snd");
if (decoder->snd_device != RT_NULL)
{
/* set tx complete call back function */
rt_device_set_tx_complete(decoder->snd_device, mp3_decoder_tx_done);
rt_device_open(decoder->snd_device, RT_DEVICE_OFLAG_WRONLY);
}
}
void mp3_decoder_detach(struct mp3_decoder* decoder)
{
RT_ASSERT(decoder != RT_NULL);
/* close audio device */
if (decoder->snd_device != RT_NULL)
rt_device_close(decoder->snd_device);
/* release mp3 decoder */
MP3FreeDecoder(decoder->decoder);
}
struct mp3_decoder* mp3_decoder_create()
{
struct mp3_decoder* decoder;
/* allocate object */
decoder = (struct mp3_decoder*) rt_malloc (sizeof(struct mp3_decoder));
if (decoder != RT_NULL)
{
mp3_decoder_init(decoder);
}
return decoder;
}
void mp3_decoder_delete(struct mp3_decoder* decoder)
{
RT_ASSERT(decoder != RT_NULL);
/* de-init mp3 decoder object */
mp3_decoder_detach(decoder);
/* release this object */
rt_free(decoder);
}
rt_uint16_t is_first = 1;
rt_uint32_t current_offset = 0;
static rt_int32_t mp3_decoder_fill_buffer(struct mp3_decoder* decoder)
{
rt_size_t bytes_read;
rt_size_t bytes_to_read;
// rt_kprintf("left: %d. refilling inbuffer...\n", decoder->bytes_left);
if (decoder->bytes_left > 0)
{
// better: move unused rest of buffer to the start
rt_memmove(decoder->read_buffer, decoder->read_ptr, decoder->bytes_left);
}
bytes_to_read = (MP3_AUDIO_BUF_SZ - decoder->bytes_left) & ~(512 - 1);
// rt_kprintf("read bytes: %d\n", bytes_to_read);
if (is_first) is_first = 0;
else current_offset += MP3_AUDIO_BUF_SZ - decoder->bytes_left;
bytes_read = decoder->fetch_data(decoder->fetch_parameter,
(rt_uint8_t *)(decoder->read_buffer + decoder->bytes_left),
bytes_to_read);
if (bytes_read == bytes_to_read)
{
decoder->read_ptr = decoder->read_buffer;
decoder->read_offset = 0;
decoder->bytes_left = decoder->bytes_left + bytes_to_read;
return 0;
}
else
{
rt_kprintf("can't read more data");
return -1;
}
}
int mp3_decoder_run(struct mp3_decoder* decoder)
{
int err;
rt_uint16_t* buffer;
RT_ASSERT(decoder != RT_NULL);
if ((decoder->read_ptr == RT_NULL) || decoder->bytes_left < 2*MAINBUF_SIZE)
{
if(mp3_decoder_fill_buffer(decoder) != 0)
return -1;
}
// rt_kprintf("read offset: 0x%08x\n", decoder->read_ptr - decoder->read_buffer);
decoder->read_offset = MP3FindSyncWord(decoder->read_ptr, decoder->bytes_left);
if (decoder->read_offset < 0)
{
rt_kprintf("Error: MP3FindSyncWord returned <0");
if(mp3_decoder_fill_buffer(decoder) != 0)
return -1;
}
// rt_kprintf("sync position: %x\n", decoder->read_offset);
decoder->read_ptr += decoder->read_offset;
decoder->bytes_left -= decoder->read_offset;
decoder->bytes_left_before_decoding = decoder->bytes_left;
#if 0
// check if this is really a valid frame
// (the decoder does not seem to calculate CRC, so make some plausibility checks)
if (!(MP3GetNextFrameInfo(decoder->decoder, &decoder->frame_info, decoder->read_ptr) == 0 &&
decoder->frame_info.nChans == 2 &&
decoder->frame_info.version == 0))
{
rt_kprintf("this is an invalid frame\n");
// advance data pointer
// TODO: handle bytes_left == 0
RT_ASSERT(decoder->bytes_left > 0);
decoder->bytes_left --;
decoder->read_ptr ++;
return 0;
}
if (decoder->bytes_left < 1024)
{
if(mp3_decoder_fill_buffer(decoder) != 0)
return -1;
}
#endif
/* get a decoder buffer */
buffer = (rt_uint16_t*)sbuf_alloc();
// rt_kprintf("bytes left before decode: %d\n", decoder->bytes_left);
err = MP3Decode(decoder->decoder, &decoder->read_ptr,
(int*)&decoder->bytes_left, (short*)buffer, 0);
// rt_kprintf("bytes left after decode: %d\n", decoder->bytes_left);
decoder->frames++;
if (err != ERR_MP3_NONE)
{
switch (err)
{
case ERR_MP3_INDATA_UNDERFLOW:
rt_kprintf("ERR_MP3_INDATA_UNDERFLOW\n");
decoder->bytes_left = 0;
if(mp3_decoder_fill_buffer(decoder) != 0)
return -1;
break;
case ERR_MP3_MAINDATA_UNDERFLOW:
/* do nothing - next call to decode will provide more mainData */
rt_kprintf("ERR_MP3_MAINDATA_UNDERFLOW\n");
break;
case ERR_MP3_INVALID_FRAMEHEADER:
rt_kprintf("ERR_MP3_INVALID_FRAMEHEADER\n");
rt_kprintf("current offset: 0x%08x, frames: %d\n", current_offset, decoder->frames);
/* dump sector */
{
rt_uint8_t *ptr;
rt_size_t size = 0, col = 0;
ptr = decoder->read_buffer;
rt_kprintf(" 00 01 02 03 04 05 06 07 08 09 0a 0b 0c 0d 0e 0f\n");
rt_kprintf("00 ");
while (size ++ < 512)
{
rt_kprintf("%02x ", *ptr ++);
if (size % 16 == 0) rt_kprintf("\n%02x ", ++col);
}
}
RT_ASSERT(0);
// break;
case ERR_MP3_INVALID_HUFFCODES:
rt_kprintf("ERR_MP3_INVALID_HUFFCODES\n");
break;
default:
rt_kprintf("unknown error: %i\n", err);
// skip this frame
if (decoder->bytes_left > 0)
{
decoder->bytes_left --;
decoder->read_ptr ++;
}
else
{
// TODO
RT_ASSERT(0);
}
break;
}
/* release this memory block */
sbuf_release(buffer);
}
else
{
/* no error */
MP3GetLastFrameInfo(decoder->decoder, &decoder->frame_info);
#ifdef MP3_DECODER_TRACE
rt_kprintf("Bitrate: %i\n", decoder->frame_info.bitrate);
rt_kprintf("%i samples\n", decoder->frame_info.outputSamps);
rt_kprintf("%lu Hz, %i kbps\n", decoder->frame_info.samprate,
decoder->frame_info.bitrate/1000);
#endif
/* set sample rate */
/* write to sound device */
rt_device_write(decoder->snd_device, 0, buffer, decoder->frame_info.outputSamps * 2);
// rt_mp_free(buffer);
}
return 0;
}
#include <finsh.h>
rt_size_t fd_fetch(void* parameter, rt_uint8_t *buffer, rt_size_t length)
{
int fd = (int)parameter;
return read(fd, (char*)buffer, length);
}
void mp3(char* filename)
{
int fd;
struct mp3_decoder* decoder;
fd = open(filename, O_RDONLY, 0);
if (fd >= 0)
{
decoder = mp3_decoder_create();
if (decoder != RT_NULL)
{
decoder->fetch_data = fd_fetch;
decoder->fetch_parameter = (void*)fd;
while (mp3_decoder_run(decoder) != -1);
close(fd);
/* delete decoder object */
mp3_decoder_delete(decoder);
}
}
}
FINSH_FUNCTION_EXPORT(mp3, mp3 decode test);
#if STM32_EXT_SRAM
/* http mp3 */
#include "http.h"
static rt_size_t http_fetch(rt_uint8_t* ptr, rt_size_t len, void* parameter)
{
struct http_session* session = (struct http_session*)parameter;
RT_ASSERT(session != RT_NULL);
return http_session_read(session, ptr, len);
}
static void http_close(void* parameter)
{
struct http_session* session = (struct http_session*)parameter;
RT_ASSERT(session != RT_NULL);
http_session_close(session);
}
rt_size_t http_data_fetch(void* parameter, rt_uint8_t *buffer, rt_size_t length)
{
return net_buf_read(buffer, length);
}
void http_mp3(char* url)
{
struct http_session* session;
struct mp3_decoder* decoder;
session = http_session_open(url);
if (session != RT_NULL)
{
/* add a job to netbuf worker */
net_buf_add_job(http_fetch, http_close, (void*)session);
decoder = mp3_decoder_create();
if (decoder != RT_NULL)
{
decoder->fetch_data = http_data_fetch;
decoder->fetch_parameter = RT_NULL;
while (mp3_decoder_run(decoder) != -1);
/* delete decoder object */
mp3_decoder_delete(decoder);
}
session = RT_NULL;
}
}
FINSH_FUNCTION_EXPORT(http_mp3, http mp3 decode test);
#endif