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ffmpeg.c
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ffmpeg.c
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/*
* Squeezelite - lightweight headless squeezebox emulator
*
* (c) Adrian Smith 2012-2015, [email protected]
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
#include "squeezelite.h"
#if FFMPEG
#include <libavformat/avformat.h>
#include <libavcodec/avcodec.h>
#define READ_SIZE 4096 * 4 // this is large enough to ensure ffmpeg always gets new data when decode is called
#define WRITE_SIZE 256 * 1024 // FIXME - make smaller, but still to absorb max wma output
// FIXME - do we need to align these params as per ffmpeg on i386?
#define attribute_align_arg
struct ff_s {
// state for ffmpeg decoder
bool wma;
u8_t wma_mmsh;
u8_t wma_playstream;
u8_t wma_metadatastream;
u8_t *readbuf;
bool end_of_stream;
AVInputFormat *input_format;
AVFormatContext *formatC;
AVCodecContext *codecC;
AVFrame *frame;
AVPacket *avpkt;
unsigned mmsh_bytes_left;
unsigned mmsh_bytes_pad;
unsigned mmsh_packet_len;
#if !LINKALL
// ffmpeg symbols to be dynamically loaded from libavcodec
unsigned (* avcodec_version)(void);
AVCodec * (* avcodec_find_decoder)(int);
int attribute_align_arg (* avcodec_open2)(AVCodecContext *, const AVCodec *, AVDictionary **);
AVFrame * (* avcodec_alloc_frame)(void);
void (* avcodec_free_frame)(AVFrame **);
int attribute_align_arg (* avcodec_decode_audio4)(AVCodecContext *, AVFrame *, int *, const AVPacket *);
// ffmpeg symbols to be dynamically loaded from libavformat
unsigned (* avformat_version)(void);
AVFormatContext * (* avformat_alloc_context)(void);
void (* avformat_free_context)(AVFormatContext *);
int (* avformat_open_input)(AVFormatContext **, const char *, AVInputFormat *, AVDictionary **);
int (* avformat_find_stream_info)(AVFormatContext *, AVDictionary **);
AVIOContext * (* avio_alloc_context)(unsigned char *, int, int, void *,
int (*read_packet)(void *, uint8_t *, int), int (*write_packet)(void *, uint8_t *, int), int64_t (*seek)(void *, int64_t, int));
void (* av_init_packet)(AVPacket *);
void (* av_free_packet)(AVPacket *);
int (* av_read_frame)(AVFormatContext *, AVPacket *);
AVInputFormat * (* av_find_input_format)(const char *);
void (* av_register_all)(void);
// ffmpeg symbols to be dynamically loaded from libavutil
unsigned (* avutil_version)(void);
void (* av_log_set_callback)(void (*)(void*, int, const char*, va_list));
void (* av_log_set_level)(int);
int (* av_strerror)(int, char *, size_t);
void * (* av_malloc)(size_t);
void (* av_freep)(void *);
#endif
};
static struct ff_s *ff;
extern log_level loglevel;
extern struct buffer *streambuf;
extern struct buffer *outputbuf;
extern struct streamstate stream;
extern struct outputstate output;
extern struct decodestate decode;
extern struct processstate process;
#define LOCK_S mutex_lock(streambuf->mutex)
#define UNLOCK_S mutex_unlock(streambuf->mutex)
#define LOCK_O mutex_lock(outputbuf->mutex)
#define UNLOCK_O mutex_unlock(outputbuf->mutex)
#if PROCESS
#define LOCK_O_direct if (decode.direct) mutex_lock(outputbuf->mutex)
#define UNLOCK_O_direct if (decode.direct) mutex_unlock(outputbuf->mutex)
#define IF_DIRECT(x) if (decode.direct) { x }
#define IF_PROCESS(x) if (!decode.direct) { x }
#else
#define LOCK_O_direct mutex_lock(outputbuf->mutex)
#define UNLOCK_O_direct mutex_unlock(outputbuf->mutex)
#define IF_DIRECT(x) { x }
#define IF_PROCESS(x)
#endif
#if LINKALL
#define AV(h, fn, ...) (av_ ## fn)(__VA_ARGS__)
#define AVIO(h, fn, ...) (avio_ ## fn)(__VA_ARGS__)
#define AVCODEC(h, fn, ...) (avcodec_ ## fn)(__VA_ARGS__)
#define AVFORMAT(h, fn, ...) (avformat_ ## fn)(__VA_ARGS__)
#else
#define AV(h, fn, ...) (h)->av_##fn(__VA_ARGS__)
#define AVIO(h, fn, ...) (h)->avio_##fn(__VA_ARGS__)
#define AVCODEC(h, fn, ...) (h)->avcodec_##fn(__VA_ARGS__)
#define AVFORMAT(h, fn, ...) (h)->avformat_##fn(__VA_ARGS__)
#endif
// our own version of useful error function not included in earlier ffmpeg versions
static char *av__err2str(errnum) {
static char buf[64];
AV(ff, strerror, errnum, buf, 64);
return buf;
}
// parser to extract asf data packet length from asf header
const u8_t header_guid[16] = { 0x30, 0x26, 0xB2, 0x75, 0x8E, 0x66, 0xCF, 0x11, 0xA6, 0xD9, 0x00, 0xAA, 0x00, 0x62, 0xCE, 0x6C };
const u8_t file_props_guid[16] = { 0xA1, 0xDC, 0xAB, 0x8C, 0x47, 0xA9, 0xCF, 0x11, 0x8E, 0xE4, 0x00, 0xC0, 0x0C, 0x20, 0x53, 0x65 };
static int _parse_packlen(void) {
int bytes = min(_buf_used(streambuf), _buf_cont_read(streambuf));
u8_t *ptr = streambuf->readp;
int remain = 1;
while (bytes >= 24 && remain > 0) {
u32_t len = *(ptr+16) | *(ptr+17) << 8 | *(ptr+18) << 16 | *(ptr+19) << 24; // assume msb 32 bits are 0
if (!memcmp(ptr, header_guid, 16) && bytes >= 30) {
ptr += 30;
bytes -= 30;
remain = len - 30;
continue;
}
if (!memcmp(ptr, file_props_guid, 16) && len == 104) {
u32_t packlen = *(ptr+92) | *(ptr+93) << 8 | *(ptr+94) << 16 | *(ptr+95) << 24;
LOG_INFO("asf packet len: %u", packlen);
return packlen;
}
ptr += len;
bytes -= len;
remain -= len;
}
LOG_WARN("could not parse packet length");
return 0;
}
static int _read_data(void *opaque, u8_t *buffer, int buf_size) {
size_t bytes;
LOCK_S;
bytes = min(_buf_used(streambuf), _buf_cont_read(streambuf));
ff->end_of_stream = (stream.state <= DISCONNECT && bytes == 0);
bytes = min(bytes, buf_size);
// for chunked wma extract asf header and data frames from framing structure
// pad asf data frames to size of packet extracted from asf header
if (ff->wma_mmsh) {
unsigned chunk_type = 0, chunk_len = 0;
if (ff->mmsh_bytes_left) {
// bytes remaining from previous frame
if (bytes >= ff->mmsh_bytes_left) {
bytes = ff->mmsh_bytes_left;
ff->mmsh_bytes_left = 0;
} else {
ff->mmsh_bytes_left -= bytes;
}
} else if (ff->mmsh_bytes_pad) {
// add padding for previous frame
bytes = min(ff->mmsh_bytes_pad, buf_size);
memset(buffer, 0, bytes);
ff->mmsh_bytes_pad -= bytes;
UNLOCK_S;
return bytes;
} else if (bytes >= 12) {
// new chunk header
chunk_type = (*(streambuf->readp) & 0x7f) | *(streambuf->readp + 1) << 8;
chunk_len = *(streambuf->readp + 2) | *(streambuf->readp + 3) << 8;
_buf_inc_readp(streambuf, 12);
bytes -= 12;
} else if (_buf_used(streambuf) >= 12) {
// new chunk header split over end of streambuf, read in two
u8_t header[12];
memcpy(header, streambuf->readp, bytes);
_buf_inc_readp(streambuf, bytes);
memcpy(header + bytes, streambuf->readp, 12 - bytes);
_buf_inc_readp(streambuf, 12 - bytes);
chunk_type = (header[0] & 0x7f) | header[1] << 8;
chunk_len = header[2] | header[3] << 8;
bytes = min(_buf_used(streambuf), _buf_cont_read(streambuf));
bytes = min(bytes, buf_size);
} else {
// should not get here...
LOG_ERROR("chunk parser stalled bytes: %u %u", bytes, _buf_used(streambuf));
UNLOCK_S;
return 0;
}
if (chunk_type && chunk_len) {
if (chunk_type == 0x4824) {
// asf header - parse packet length
ff->mmsh_packet_len = _parse_packlen();
ff->mmsh_bytes_pad = 0;
} else if (chunk_type == 0x4424 && ff->mmsh_packet_len) {
// asf data packet - add padding
ff->mmsh_bytes_pad = ff->mmsh_packet_len - chunk_len + 8;
} else {
LOG_INFO("unknown chunk: %04x", chunk_type);
// other packet - no padding
ff->mmsh_bytes_pad = 0;
}
if (chunk_len - 8 <= bytes) {
bytes = chunk_len - 8;
ff->mmsh_bytes_left = 0;
} else {
ff->mmsh_bytes_left = chunk_len - 8 - bytes;
}
}
}
memcpy(buffer, streambuf->readp, bytes);
_buf_inc_readp(streambuf, bytes);
if (ff->mmsh_bytes_pad && bytes + ff->mmsh_bytes_pad < buf_size) {
memset(buffer + bytes, 0, ff->mmsh_bytes_pad);
bytes += ff->mmsh_bytes_pad;
ff->mmsh_bytes_pad = 0;
}
UNLOCK_S;
return bytes;
}
static decode_state ff_decode(void) {
int r, len, got_frame;
AVPacket pkt_c;
s32_t *optr = NULL;
if (decode.new_stream) {
AVIOContext *avio;
AVStream *av_stream;
AVCodec *codec;
int o;
int audio_stream = -1;
ff->mmsh_bytes_left = ff->mmsh_bytes_pad = ff->mmsh_packet_len = 0;
if (!ff->readbuf) {
ff->readbuf = AV(ff, malloc, READ_SIZE + FF_INPUT_BUFFER_PADDING_SIZE);
}
avio = AVIO(ff, alloc_context, ff->readbuf, READ_SIZE, 0, NULL, _read_data, NULL, NULL);
avio->seekable = 0;
ff->formatC = AVFORMAT(ff, alloc_context);
if (ff->formatC == NULL) {
LOG_ERROR("null context");
return DECODE_ERROR;
}
ff->formatC->pb = avio;
ff->formatC->flags |= AVFMT_FLAG_CUSTOM_IO | AVFMT_FLAG_NOPARSE;
o = AVFORMAT(ff, open_input, &ff->formatC, "", ff->input_format, NULL);
if (o < 0) {
LOG_WARN("avformat_open_input: %d %s", o, av__err2str(o));
return DECODE_ERROR;
}
LOG_INFO("format: name:%s lname:%s", ff->formatC->iformat->name, ff->formatC->iformat->long_name);
o = AVFORMAT(ff, find_stream_info, ff->formatC, NULL);
if (o < 0) {
LOG_WARN("avformat_find_stream_info: %d %s", o, av__err2str(o));
return DECODE_ERROR;
}
if (ff->wma && ff->wma_playstream < ff->formatC->nb_streams) {
if (ff->formatC->streams[ff->wma_playstream]->codec->codec_type == AVMEDIA_TYPE_AUDIO) {
LOG_INFO("using wma stream sent from server: %i", ff->wma_playstream);
audio_stream = ff->wma_playstream;
}
}
if (audio_stream == -1) {
int i;
for (i = 0; i < ff->formatC->nb_streams; ++i) {
if (ff->formatC->streams[i]->codec->codec_type == AVMEDIA_TYPE_AUDIO) {
audio_stream = i;
LOG_INFO("found stream: %i", i);
break;
}
}
}
if (audio_stream == -1) {
LOG_WARN("no audio stream found");
return DECODE_ERROR;
}
av_stream = ff->formatC->streams[audio_stream];
ff->codecC = av_stream->codec;
codec = AVCODEC(ff, find_decoder, ff->codecC->codec_id);
AVCODEC(ff, open2, ff->codecC, codec, NULL);
ff->frame = AVCODEC(ff, alloc_frame);
ff->avpkt = AV(ff, malloc, sizeof(AVPacket));
if (ff->avpkt == NULL) {
LOG_ERROR("can't allocate avpkt");
return DECODE_ERROR;
}
AV(ff, init_packet, ff->avpkt);
ff->avpkt->data = NULL;
ff->avpkt->size = 0;
LOCK_O;
LOG_INFO("setting track_start");
output.next_sample_rate = decode_newstream(ff->codecC->sample_rate, output.supported_rates);
IF_DSD( output.next_dop = false; )
output.track_start = outputbuf->writep;
if (output.fade_mode) _checkfade(true);
decode.new_stream = false;
UNLOCK_O;
}
got_frame = 0;
if ((r = AV(ff, read_frame, ff->formatC, ff->avpkt)) < 0) {
if (r == AVERROR_EOF) {
if (ff->end_of_stream) {
LOG_INFO("decode complete");
return DECODE_COMPLETE;
} else {
LOG_INFO("codec end of file");
}
} else {
LOG_ERROR("av_read_frame error: %i %s", r, av__err2str(r));
}
return DECODE_RUNNING;
}
// clone packet as we are adjusting it
pkt_c = *ff->avpkt;
IF_PROCESS(
optr = (s32_t *)process.inbuf;
process.in_frames = 0;
);
while (pkt_c.size > 0 || got_frame) {
len = AVCODEC(ff, decode_audio4, ff->codecC, ff->frame, &got_frame, &pkt_c);
if (len < 0) {
LOG_ERROR("avcodec_decode_audio4 error: %i %s", len, av__err2str(len));
return DECODE_RUNNING;
}
pkt_c.data += len;
pkt_c.size -= len;
if (got_frame) {
s16_t *iptr16 = (s16_t *)ff->frame->data[0];
s32_t *iptr32 = (s32_t *)ff->frame->data[0];
s16_t *iptr16l = (s16_t *)ff->frame->data[0];
s16_t *iptr16r = (s16_t *)ff->frame->data[1];
s32_t *iptr32l = (s32_t *)ff->frame->data[0];
s32_t *iptr32r = (s32_t *)ff->frame->data[1];
float *iptrfl = (float *)ff->frame->data[0];
float *iptrfr = (float *)ff->frame->data[1];
frames_t frames = ff->frame->nb_samples;
LOG_SDEBUG("got audio channels: %u samples: %u format: %u", ff->codecC->channels, ff->frame->nb_samples,
ff->codecC->sample_fmt);
LOCK_O_direct;
while (frames > 0) {
frames_t count;
frames_t f;
IF_DIRECT(
optr = (s32_t *)outputbuf->writep;
f = min(_buf_space(outputbuf), _buf_cont_write(outputbuf)) / BYTES_PER_FRAME;
f = min(f, frames);
);
IF_PROCESS(
if (process.in_frames + frames > process.max_in_frames) {
LOG_WARN("exceeded process buffer size - dropping frames");
break;
}
f = frames;
);
count = f;
if (ff->codecC->channels == 2) {
if (ff->codecC->sample_fmt == AV_SAMPLE_FMT_S16) {
while (count--) {
*optr++ = *iptr16++ << 16;
*optr++ = *iptr16++ << 16;
}
} else if (ff->codecC->sample_fmt == AV_SAMPLE_FMT_S32) {
while (count--) {
*optr++ = *iptr32++;
*optr++ = *iptr32++;
}
} else if (ff->codecC->sample_fmt == AV_SAMPLE_FMT_S16P) {
while (count--) {
*optr++ = *iptr16l++ << 16;
*optr++ = *iptr16r++ << 16;
}
} else if (ff->codecC->sample_fmt == AV_SAMPLE_FMT_S32P) {
while (count--) {
*optr++ = *iptr32l++;
*optr++ = *iptr32r++;
}
} else if (ff->codecC->sample_fmt == AV_SAMPLE_FMT_FLTP) {
while (count--) {
double scaledl = *iptrfl++ * 0x7fffffff;
double scaledr = *iptrfr++ * 0x7fffffff;
if (scaledl > 2147483647.0) scaledl = 2147483647.0;
if (scaledl < -2147483648.0) scaledl = -2147483648.0;
if (scaledr > 2147483647.0) scaledr = 2147483647.0;
if (scaledr < -2147483648.0) scaledr = -2147483648.0;
*optr++ = (s32_t)scaledl;
*optr++ = (s32_t)scaledr;
}
} else {
LOG_WARN("unsupported sample format: %u", ff->codecC->sample_fmt);
}
} else if (ff->codecC->channels == 1) {
if (ff->codecC->sample_fmt == AV_SAMPLE_FMT_S16) {
while (count--) {
*optr++ = *iptr16 << 16;
*optr++ = *iptr16++ << 16;
}
} else if (ff->codecC->sample_fmt == AV_SAMPLE_FMT_S32) {
while (count--) {
*optr++ = *iptr32;
*optr++ = *iptr32++;
}
} else if (ff->codecC->sample_fmt == AV_SAMPLE_FMT_S16P) {
while (count--) {
*optr++ = *iptr16l << 16;
*optr++ = *iptr16l++ << 16;
}
} else if (ff->codecC->sample_fmt == AV_SAMPLE_FMT_S32P) {
while (count--) {
*optr++ = *iptr32l;
*optr++ = *iptr32l++;
}
} else if (ff->codecC->sample_fmt == AV_SAMPLE_FMT_FLTP) {
while (count--) {
double scaled = *iptrfl++ * 0x7fffffff;
if (scaled > 2147483647.0) scaled = 2147483647.0;
if (scaled < -2147483648.0) scaled = -2147483648.0;
*optr++ = (s32_t)scaled;
*optr++ = (s32_t)scaled;
}
} else {
LOG_WARN("unsupported sample format: %u", ff->codecC->sample_fmt);
}
} else {
LOG_WARN("unsupported number of channels");
}
frames -= f;
IF_DIRECT(
_buf_inc_writep(outputbuf, f * BYTES_PER_FRAME);
);
IF_PROCESS(
process.in_frames += f;
);
}
UNLOCK_O_direct;
}
}
AV(ff, free_packet, ff->avpkt);
return DECODE_RUNNING;
}
static void _free_ff_data(void) {
if (ff->formatC) {
if (ff->formatC->pb) AV(ff, freep, &ff->formatC->pb);
AVFORMAT(ff, free_context, ff->formatC);
ff->formatC = NULL;
}
if (ff->frame) {
// ffmpeg version dependant free function
#if !LINKALL
ff->avcodec_free_frame ? AVCODEC(ff, free_frame, &ff->frame) : AV(ff, freep, &ff->frame);
#elif LIBAVCODEC_VERSION_INT >= AV_VERSION_INT(54,28,0)
AVCODEC(ff, free_frame, &ff->frame);
#else
AV(ff, freep, &ff->frame);
#endif
ff->frame = NULL;
}
if (ff->avpkt) {
AV(ff, free_packet, ff->avpkt);
AV(ff, freep, &ff->avpkt);
ff->avpkt = NULL;
}
}
static void ff_open_wma(u8_t size, u8_t rate, u8_t chan, u8_t endianness) {
_free_ff_data();
ff->input_format = AV(ff, find_input_format, "asf");
if (ff->input_format == NULL) {
LOG_ERROR("asf format not supported by ffmpeg library");
}
ff->wma = true;
ff->wma_mmsh = size - '0';
ff->wma_playstream = rate - 1;
ff->wma_metadatastream = chan != '?' ? chan : 0;
LOG_INFO("open wma chunking: %u playstream: %u metadatastream: %u", ff->wma_mmsh, ff->wma_playstream, ff->wma_metadatastream);
}
static void ff_open_alac(u8_t size, u8_t rate, u8_t chan, u8_t endianness) {
_free_ff_data();
ff->input_format = AV(ff, find_input_format, "mp4");
if (ff->input_format == NULL) {
LOG_ERROR("mp4 format not supported by ffmpeg library");
}
ff->wma = false;
ff->wma_mmsh = 0;
LOG_INFO("open alac");
}
static void ff_close(void) {
_free_ff_data();
if (ff->readbuf) {
AV(ff, freep, &ff->readbuf);
ff->readbuf = NULL;
}
}
static bool load_ff() {
#if !LINKALL
void *handle_codec = NULL, *handle_format = NULL, *handle_util = NULL;
char name[30];
char *err;
// we try to load the ffmpeg library version which matches the header file we are compiled with as structs differ between versions
sprintf(name, LIBAVCODEC, LIBAVCODEC_VERSION_MAJOR);
handle_codec = dlopen(name, RTLD_NOW);
if (!handle_codec) {
LOG_INFO("dlerror: %s", dlerror());
return false;
}
sprintf(name, LIBAVFORMAT, LIBAVFORMAT_VERSION_MAJOR);
handle_format = dlopen(name, RTLD_NOW);
if (!handle_format) {
LOG_INFO("dlerror: %s", dlerror());
return false;
}
sprintf(name, LIBAVUTIL, LIBAVUTIL_VERSION_MAJOR);
handle_util = dlopen(name, RTLD_NOW);
if (!handle_util) {
LOG_INFO("dlerror: %s", dlerror());
return false;
}
ff->avcodec_version = dlsym(handle_codec, "avcodec_version");
ff->avcodec_find_decoder = dlsym(handle_codec, "avcodec_find_decoder");
ff->avcodec_open2 = dlsym(handle_codec, "avcodec_open2");
ff->avcodec_alloc_frame = dlsym(handle_codec, "avcodec_alloc_frame");
ff->avcodec_free_frame = dlsym(handle_codec, "avcodec_free_frame");
ff->avcodec_decode_audio4 = dlsym(handle_codec, "avcodec_decode_audio4");
ff->av_init_packet = dlsym(handle_codec, "av_init_packet");
ff->av_free_packet = dlsym(handle_codec, "av_free_packet");
if ((err = dlerror()) != NULL) {
LOG_INFO("dlerror: %s", err);
return false;
}
LOG_INFO("loaded "LIBAVCODEC" (%u.%u.%u)", LIBAVCODEC_VERSION_MAJOR, ff->avcodec_version() >> 16, (ff->avcodec_version() >> 8) & 0xff, ff->avcodec_version() & 0xff);
ff->avformat_version = dlsym(handle_format, "avformat_version");
ff->avformat_alloc_context = dlsym(handle_format, "avformat_alloc_context");
ff->avformat_free_context = dlsym(handle_format, "avformat_free_context");
ff->avformat_open_input = dlsym(handle_format, "avformat_open_input");
ff->avformat_find_stream_info = dlsym(handle_format, "avformat_find_stream_info");
ff->avio_alloc_context = dlsym(handle_format, "avio_alloc_context");
ff->av_read_frame = dlsym(handle_format, "av_read_frame");
ff->av_find_input_format= dlsym(handle_format, "av_find_input_format");
ff->av_register_all = dlsym(handle_format, "av_register_all");
if ((err = dlerror()) != NULL) {
LOG_INFO("dlerror: %s", err);
return false;
}
LOG_INFO("loaded "LIBAVFORMAT" (%u.%u.%u)", LIBAVFORMAT_VERSION_MAJOR, ff->avformat_version() >> 16, (ff->avformat_version() >> 8) & 0xff, ff->avformat_version() & 0xff);
ff->avutil_version = dlsym(handle_util, "avutil_version");
ff->av_log_set_callback = dlsym(handle_util, "av_log_set_callback");
ff->av_log_set_level = dlsym(handle_util, "av_log_set_level");
ff->av_strerror = dlsym(handle_util, "av_strerror");
ff->av_malloc = dlsym(handle_util, "av_malloc");
ff->av_freep = dlsym(handle_util, "av_freep");
if ((err = dlerror()) != NULL) {
LOG_INFO("dlerror: %s", err);
return false;
}
LOG_INFO("loaded "LIBAVUTIL" (%u.%u.%u)", LIBAVUTIL_VERSION_MAJOR, ff->avutil_version() >> 16, (ff->avutil_version() >> 8) & 0xff, ff->avutil_version() & 0xff);
#endif
return true;
}
static int ff_log_level = 0;
void av_err_callback(void *avcl, int level, const char *fmt, va_list vl) {
if (level > ff_log_level) return;
fprintf(stderr, "%s ffmpeg: ", logtime());
vfprintf(stderr, fmt, vl);
fflush(stderr);
}
static bool registered = false;
struct codec *register_ff(const char *codec) {
if (!registered) {
ff = malloc(sizeof(struct ff_s));
if (!ff) {
return NULL;
}
memset(ff, 0, sizeof(struct ff_s));
if (!load_ff()) {
return NULL;
}
switch (loglevel) {
case lERROR:
ff_log_level = AV_LOG_ERROR; break;
case lWARN:
ff_log_level = AV_LOG_WARNING; break;
case lINFO:
ff_log_level = AV_LOG_INFO; break;
case lDEBUG:
ff_log_level = AV_LOG_VERBOSE; break;
default: break;
}
AV(ff, log_set_callback, av_err_callback);
AV(ff, register_all);
registered = true;
}
if (!strcmp(codec, "wma")) {
static struct codec ret = {
'w', // id
"wma,wmap,wmal", // types
READ_SIZE, // min read
WRITE_SIZE, // min space
ff_open_wma, // open
ff_close, // close
ff_decode, // decode
};
LOG_INFO("using ffmpeg to decode wma,wmap,wmal");
return &ret;
}
if (!strcmp(codec, "alc")) {
static struct codec ret = {
'l', // id
"alc", // types
READ_SIZE, // min read
WRITE_SIZE, // min space
ff_open_alac,// open
ff_close, // close
ff_decode, // decode
};
LOG_INFO("using ffmpeg to decode alc");
return &ret;
}
return NULL;
}
#endif