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mad.c
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mad.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"
#include <mad.h>
#define MAD_DELAY 529
#define READBUF_SIZE 2048 // local buffer used by decoder: FIXME merge with any other decoders needing one?
struct mad {
u8_t *readbuf;
unsigned readbuf_len;
struct mad_stream stream;
struct mad_frame frame;
struct mad_synth synth;
enum mad_error last_error;
// for lame gapless processing
int checktags;
u32_t consume;
u32_t skip;
u64_t samples;
u32_t padding;
#if !LINKALL
// mad symbols to be dynamically loaded
void (* mad_stream_init)(struct mad_stream *);
void (* mad_frame_init)(struct mad_frame *);
void (* mad_synth_init)(struct mad_synth *);
void (* mad_frame_finish)(struct mad_frame *);
void (* mad_stream_finish)(struct mad_stream *);
void (* mad_stream_buffer)(struct mad_stream *, unsigned char const *, unsigned long);
int (* mad_frame_decode)(struct mad_frame *, struct mad_stream *);
void (* mad_synth_frame)(struct mad_synth *, struct mad_frame const *);
char const *(* mad_stream_errorstr)(struct mad_stream const *);
#endif
};
static struct mad *m;
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 MAD(h, fn, ...) (mad_ ## fn)(__VA_ARGS__)
#else
#define MAD(h, fn, ...) (h)->mad_##fn(__VA_ARGS__)
#endif
// based on libmad minimad.c scale
static inline u32_t scale(mad_fixed_t sample) {
sample += (1L << (MAD_F_FRACBITS - 24));
if (sample >= MAD_F_ONE)
sample = MAD_F_ONE - 1;
else if (sample < -MAD_F_ONE)
sample = -MAD_F_ONE;
return (s32_t)(sample >> (MAD_F_FRACBITS + 1 - 24)) << 8;
}
// check for id3.2 tag at start of file - http://id3.org/id3v2.4.0-structure, return length
static unsigned _check_id3_tag(size_t bytes) {
u8_t *ptr = streambuf->readp;
u32_t size = 0;
if (bytes > 10 && *ptr == 'I' && *(ptr+1) == 'D' && *(ptr+2) == '3') {
// size is encoded as syncsafe integer, add 10 if footer present
if (*(ptr+6) < 0x80 && *(ptr+7) < 0x80 && *(ptr+8) < 0x80 && *(ptr+9) < 0x80) {
size = 10 + (*(ptr+6) << 21) + (*(ptr+7) << 14) + (*(ptr+8) << 7) + *(ptr+9) + ((*(ptr+5) & 0x10) ? 10 : 0);
LOG_DEBUG("id3.2 tag len: %u", size);
}
}
return size;
}
// check for lame gapless params, don't advance streambuf
static void _check_lame_header(size_t bytes) {
u8_t *ptr = streambuf->readp;
if (*ptr == 0xff && (*(ptr+1) & 0xf0) == 0xf0 && bytes > 180) {
u32_t frame_count = 0, enc_delay = 0, enc_padding = 0;
u8_t flags;
// 2 channels
if (!memcmp(ptr + 36, "Xing", 4) || !memcmp(ptr + 36, "Info", 4)) {
ptr += 36 + 7;
// mono
} else if (!memcmp(ptr + 21, "Xing", 4) || !memcmp(ptr + 21, "Info", 4)) {
ptr += 21 + 7;
}
flags = *ptr;
if (flags & 0x01) {
frame_count = unpackN((u32_t *)(ptr + 1));
ptr += 4;
}
if (flags & 0x02) ptr += 4;
if (flags & 0x04) ptr += 100;
if (flags & 0x08) ptr += 4;
if (!!memcmp(ptr+1, "LAME", 4)) {
return;
}
ptr += 22;
enc_delay = (*ptr << 4 | *(ptr + 1) >> 4) + MAD_DELAY;
enc_padding = (*(ptr + 1) & 0xF) << 8 | *(ptr + 2);
enc_padding = enc_padding > MAD_DELAY ? enc_padding - MAD_DELAY : 0;
// add one frame to initial skip for this (empty) frame
m->skip = enc_delay + 1152;
m->samples = frame_count * 1152 - enc_delay - enc_padding;
m->padding = enc_padding;
LOG_INFO("gapless: skip: %u samples: " FMT_u64 " delay: %u padding: %u", m->skip, m->samples, enc_delay, enc_padding);
}
}
static decode_state mad_decode(void) {
size_t bytes;
bool eos = false;
LOCK_S;
bytes = min(_buf_used(streambuf), _buf_cont_read(streambuf));
if (m->checktags) {
if (m->checktags == 1) {
m->consume = _check_id3_tag(bytes);
m->checktags = 2;
}
if (m->consume) {
u32_t consume = min(m->consume, bytes);
LOG_DEBUG("consume: %u of %u", consume, m->consume);
_buf_inc_readp(streambuf, consume);
m->consume -= consume;
UNLOCK_S;
return DECODE_RUNNING;
}
if (m->checktags == 2) {
if (!stream.meta_interval) {
_check_lame_header(bytes);
}
m->checktags = 0;
}
}
if (m->stream.next_frame && m->readbuf_len) {
m->readbuf_len -= m->stream.next_frame - m->readbuf;
memmove(m->readbuf, m->stream.next_frame, m->readbuf_len);
}
bytes = min(bytes, READBUF_SIZE - m->readbuf_len);
memcpy(m->readbuf + m->readbuf_len, streambuf->readp, bytes);
m->readbuf_len += bytes;
_buf_inc_readp(streambuf, bytes);
if (stream.state <= DISCONNECT && _buf_used(streambuf) == 0) {
eos = true;
LOG_DEBUG("end of stream");
memset(m->readbuf + m->readbuf_len, 0, MAD_BUFFER_GUARD);
m->readbuf_len += MAD_BUFFER_GUARD;
}
UNLOCK_S;
MAD(m, stream_buffer, &m->stream, m->readbuf, m->readbuf_len);
while (true) {
size_t frames;
s32_t *iptrl;
s32_t *iptrr;
unsigned max_frames;
if (MAD(m, frame_decode, &m->frame, &m->stream) == -1) {
decode_state ret;
if (!eos && m->stream.error == MAD_ERROR_BUFLEN) {
ret = DECODE_RUNNING;
} else if (eos && (m->stream.error == MAD_ERROR_BUFLEN || m->stream.error == MAD_ERROR_LOSTSYNC)) {
ret = DECODE_COMPLETE;
} else if (!MAD_RECOVERABLE(m->stream.error)) {
LOG_INFO("mad_frame_decode error: %s - stopping decoder", MAD(m, stream_errorstr, &m->stream));
ret = DECODE_COMPLETE;
} else {
if (m->stream.error != m->last_error) {
// suppress repeat error messages
LOG_DEBUG("mad_frame_decode error: %s", MAD(m, stream_errorstr, &m->stream));
}
ret = DECODE_RUNNING;
}
m->last_error = m->stream.error;
return ret;
};
MAD(m, synth_frame, &m->synth, &m->frame);
if (decode.new_stream) {
LOCK_O;
LOG_INFO("setting track_start");
output.next_sample_rate = decode_newstream(m->synth.pcm.samplerate, 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;
}
LOCK_O_direct;
IF_DIRECT(
max_frames = _buf_space(outputbuf) / BYTES_PER_FRAME;
);
IF_PROCESS(
max_frames = process.max_in_frames - process.in_frames;
);
if (m->synth.pcm.length > max_frames) {
LOG_WARN("too many samples - dropping samples");
m->synth.pcm.length = max_frames;
}
frames = m->synth.pcm.length;
iptrl = m->synth.pcm.samples[0];
iptrr = m->synth.pcm.samples[ m->synth.pcm.channels - 1 ];
if (m->skip) {
u32_t skip = min(m->skip, frames);
LOG_DEBUG("gapless: skipping %u frames at start", skip);
frames -= skip;
m->skip -= skip;
iptrl += skip;
iptrr += skip;
}
if (m->samples) {
if (m->samples < frames) {
LOG_DEBUG("gapless: trimming %u frames from end", frames - m->samples);
frames = (size_t)m->samples;
}
m->samples -= frames;
if (m->samples > 0 && eos && !(m->stream.next_frame[0] == 0xff && (m->stream.next_frame[1] & 0xf0) == 0xf0)) {
// this is the last frame to be decoded, but more samples expected so we must have skipped, remove padding
// note this only works if the padding is less than one frame of 1152 bytes otherswise some gap will remain
LOG_DEBUG("gapless: early end - trimming padding from end");
if (frames >= m->padding) {
frames -= m->padding;
} else {
frames = 0;
}
m->samples = 0;
}
}
LOG_SDEBUG("write %u frames", frames);
while (frames > 0) {
size_t f, count;
s32_t *optr;
IF_DIRECT(
f = min(frames, _buf_cont_write(outputbuf) / BYTES_PER_FRAME);
optr = (s32_t *)outputbuf->writep;
);
IF_PROCESS(
f = min(frames, process.max_in_frames - process.in_frames);
optr = (s32_t *)((u8_t *)process.inbuf + process.in_frames * BYTES_PER_FRAME);
);
count = f;
while (count--) {
*optr++ = scale(*iptrl++);
*optr++ = scale(*iptrr++);
}
frames -= f;
IF_DIRECT(
_buf_inc_writep(outputbuf, f * BYTES_PER_FRAME);
);
IF_PROCESS(
process.in_frames += f;
);
}
UNLOCK_O_direct;
}
return eos ? DECODE_COMPLETE : DECODE_RUNNING;
}
static void mad_open(u8_t size, u8_t rate, u8_t chan, u8_t endianness) {
if (!m->readbuf) {
m->readbuf = malloc(READBUF_SIZE + MAD_BUFFER_GUARD);
}
m->checktags = 1;
m->consume = 0;
m->skip = MAD_DELAY;
m->samples = 0;
m->readbuf_len = 0;
m->last_error = MAD_ERROR_NONE;
MAD(m, stream_init, &m->stream);
MAD(m, frame_init, &m->frame);
MAD(m, synth_init, &m->synth);
}
static void mad_close(void) {
mad_synth_finish(&m->synth); // macro only in current version
MAD(m, frame_finish, &m->frame);
MAD(m, stream_finish, &m->stream);
free(m->readbuf);
m->readbuf = NULL;
}
static bool load_mad() {
#if !LINKALL
void *handle = dlopen(LIBMAD, RTLD_NOW);
char *err;
if (!handle) {
LOG_INFO("dlerror: %s", dlerror());
return false;
}
m->mad_stream_init = dlsym(handle, "mad_stream_init");
m->mad_frame_init = dlsym(handle, "mad_frame_init");
m->mad_synth_init = dlsym(handle, "mad_synth_init");
m->mad_frame_finish = dlsym(handle, "mad_frame_finish");
m->mad_stream_finish = dlsym(handle, "mad_stream_finish");
m->mad_stream_buffer = dlsym(handle, "mad_stream_buffer");
m->mad_frame_decode = dlsym(handle, "mad_frame_decode");
m->mad_synth_frame = dlsym(handle, "mad_synth_frame");
m->mad_stream_errorstr = dlsym(handle, "mad_stream_errorstr");
if ((err = dlerror()) != NULL) {
LOG_INFO("dlerror: %s", err);
return false;
}
LOG_INFO("loaded "LIBMAD);
#endif
return true;
}
struct codec *register_mad(void) {
static struct codec ret = {
'm', // id
"mp3", // types
READBUF_SIZE, // min read
206800, // min space
mad_open, // open
mad_close, // close
mad_decode, // decode
};
m = malloc(sizeof(struct mad));
if (!m) {
return NULL;
}
m->readbuf = NULL;
m->readbuf_len = 0;
if (!load_mad()) {
return NULL;
}
LOG_INFO("using mad to decode mp3");
return &ret;
}