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#include <stdlib.h>
#include <string.h>
#include <fcntl.h>
#include <unistd.h>
#include <errno.h>
#include <xas/audio.h>
#include <xas/riff.h>
struct _xas_riff {
const char *file;
int fd;
size_t size;
size_t sample_size,
sample_rate,
channels;
};
static int header_write(xas_riff *riff) {
xas_riff_wave_header header = {
.riff = {
{
.id = XAS_RIFF_HEADER_MAIN_ID,
.size = sizeof(xas_riff_main_chunk)
+ sizeof(xas_riff_wave_chunk)
+ riff->size
},
.type = XAS_RIFF_HEADER_WAVE_ID,
},
.wave = {
{
.id = XAS_RIFF_HEADER_WAVE_FMT_ID,
.size = sizeof(xas_riff_wave_chunk)
- sizeof(xas_riff_chunk)
},
.type = XAS_RIFF_WAVE_DEFAULT_TYPE,
.channels = riff->channels,
.sample_rate = riff->sample_rate,
.byte_rate = riff->channels * riff->sample_size * riff->sample_rate,
.sample_size = riff->sample_size,
.sample_size_bits = riff->sample_size << 3
},
{
.id = XAS_RIFF_HEADER_WAVE_DATA_ID,
.size = riff->size
}
};
if (lseek(riff->fd, 0, SEEK_SET) < 0) {
goto error_io;
}
if (write(riff->fd, &header, sizeof(header)) < 0) {
goto error_io;
}
if (lseek(riff->fd, 0, SEEK_END) < 0) {
goto error_io;
}
return 0;
error_io:
return -1;
}
static xas_riff *new_file(const char *path,
size_t sample_size,
size_t sample_rate,
size_t channels,
int flags) {
xas_riff *riff;
if ((riff = malloc(sizeof(*riff))) == NULL) {
goto error_malloc_riff;
}
flags |= O_CREAT;
if ((riff->fd = open(path, flags, 0644)) < 0) {
goto error_open;
}
riff->file = path;
riff->size = 0;
riff->sample_size = sample_size;
riff->sample_rate = sample_rate;
riff->channels = channels;
if (header_write(riff) < 0) {
goto error_header_write;
}
return riff;
error_header_write:
close(riff->fd);
error_open:
free(riff);
error_malloc_riff:
return NULL;
}
static int wave_header_parse(xas_riff *riff,
xas_riff_wave_header *header) {
if (memcmp(header->riff.header.id,
XAS_RIFF_HEADER_MAIN_ID,
strlen(XAS_RIFF_HEADER_MAIN_ID)) != 0) {
goto error_invalid_header_main_id;
}
if (header->riff.header.size < sizeof(xas_riff_main_chunk)
+ sizeof(xas_riff_wave_chunk)) {
goto error_invalid_header_wave_chunk_size;
}
if (memcmp(header->riff.type,
XAS_RIFF_HEADER_WAVE_ID,
strlen(XAS_RIFF_HEADER_WAVE_ID)) != 0) {
goto error_invalid_wave_chunk_id;
}
if (memcmp(header->wave.header.id,
XAS_RIFF_HEADER_WAVE_FMT_ID,
strlen(XAS_RIFF_HEADER_WAVE_FMT_ID)) != 0) {
goto error_invalid_wave_format_id;
}
if (header->wave.header.size != sizeof(xas_riff_wave_chunk)
- sizeof(xas_riff_chunk)) {
goto error_invalid_wave_format_size;
}
if (header->wave.type != XAS_RIFF_WAVE_DEFAULT_TYPE) {
goto error_invalid_wave_format_type;
}
switch (header->wave.channels) {
case XAS_AUDIO_STREAM_MONO:
case XAS_AUDIO_STREAM_STEREO:
break;
default:
goto error_invalid_wave_channels;
}
if (header->wave.byte_rate != header->wave.channels
* header->wave.sample_size
* header->wave.sample_rate) {
goto error_invalid_wave_byte_rate;
}
if (header->wave.sample_size_bits != header->wave.sample_size << 3) {
goto error_invalid_wave_sample_size_bits;
}
if (memcmp(header->data.id,
XAS_RIFF_HEADER_WAVE_DATA_ID,
strlen(XAS_RIFF_HEADER_WAVE_DATA_ID)) != 0) {
goto error_invalid_wave_data_format_id;
}
riff->sample_size = header->wave.sample_size;
riff->sample_rate = header->wave.sample_rate;
riff->channels = header->wave.channels;
return 0;
error_invalid_wave_data_format_id:
error_invalid_wave_sample_size_bits:
error_invalid_wave_byte_rate:
error_invalid_wave_channels:
error_invalid_wave_format_type:
error_invalid_wave_format_size:
error_invalid_wave_format_id:
error_invalid_wave_chunk_id:
error_invalid_header_wave_chunk_size:
error_invalid_header_main_id:
return -1;
}
static xas_riff *open_fd(int fd) {
xas_riff *riff;
xas_riff_wave_header header;
ssize_t readlen;
if ((riff = malloc(sizeof(*riff))) == NULL) {
goto error_malloc_riff;
}
riff->file = NULL;
riff->fd = fd;
riff->size = 0;
riff->sample_size = 0;
riff->sample_rate = 0;
riff->channels = 0;
if ((readlen = read(fd, &header, sizeof(header))) < 0) {
goto error_read;
}
if (readlen != sizeof(header)) {
errno= EINVAL;
goto error_wave_header_short;
}
if (wave_header_parse(riff, &header) < 0) {
goto error_wave_header_parse;
}
return riff;
error_wave_header_parse:
error_wave_header_short:
error_read:
free(riff);
error_malloc_riff:
return NULL;
}
static xas_riff *open_file(const char *path, int flags) {
xas_riff *riff;
xas_riff_wave_header header;
ssize_t readlen;
if ((riff = malloc(sizeof(*riff))) == NULL) {
goto error_malloc_riff;
}
flags &= ~(O_CREAT | O_TRUNC);
if ((riff->fd = open(path, flags)) < 0) {
goto error_open;
}
riff->file = path;
riff->size = 0;
riff->sample_size = 0;
riff->sample_rate = 0;
riff->channels = 0;
if (lseek(riff->fd, 0, SEEK_SET) < 0) {
goto error_lseek;
}
if ((readlen = read(riff->fd, &header, sizeof(header))) < 0) {
goto error_read;
}
if (readlen != sizeof(header)) {
errno= EINVAL;
goto error_wave_header_short;
}
if (wave_header_parse(riff, &header) < 0) {
goto error_wave_header_parse;
}
return riff;
error_wave_header_parse:
error_wave_header_short:
error_read:
error_lseek:
close(riff->fd);
error_open:
free(riff);
error_malloc_riff:
return NULL;
}
static void close_file(xas_riff *riff, xas_audio_stream *stream) {
if (lseek(riff->fd, 0, SEEK_SET) == 0) {
(void)header_write(riff);
}
if (riff->file) {
(void)close(riff->fd);
}
free(riff);
}
static ssize_t audio_drain(xas_riff *riff,
void *samples,
size_t count,
xas_audio_stream *stream) {
size_t len = count * stream->sample_size
* stream->channels;
ssize_t wrlen;
if ((wrlen = write(riff->fd, samples, len)) < 0) {
goto error_write;
}
riff->size += wrlen;
return wrlen / stream->sample_size / stream->channels;
error_write:
return -1;
}
static ssize_t audio_fill(xas_riff *riff,
void *samples,
size_t count,
xas_audio_stream *stream) {
size_t len = count * stream->sample_size
* stream->channels;
ssize_t rdlen;
if ((rdlen = read(riff->fd, samples, len)) < 0) {
goto error_read;
}
return rdlen / stream->sample_size / stream->channels;
error_read:
return -1;
}
xas_audio_stream *xas_riff_new_file(const char *path,
size_t sample_size,
size_t sample_rate,
size_t channels,
int flags) {
xas_audio_stream *stream;
xas_riff *riff;
if ((riff = new_file(path,
sample_size,
sample_rate,
channels,
flags)) == NULL) {
goto error_new_file;
}
if (flags & (O_RDWR | O_WRONLY)) {
if ((stream = xas_audio_stream_new_sink((xas_audio_drain)audio_drain,
(xas_audio_cleanup)close_file,
riff,
sample_size,
sample_rate,
channels,
4096)) == NULL) {
goto error_audio_stream_new_sink;
}
} else {
if ((stream = xas_audio_stream_new_source((xas_audio_fill)audio_fill,
(xas_audio_cleanup)close_file,
riff,
sample_size,
sample_rate,
channels,
4096)) == NULL) {
goto error_audio_stream_new_sink;
}
}
return stream;
error_audio_stream_new_sink:
close_file(riff, NULL);
error_new_file:
return NULL;
}
xas_audio_stream *xas_riff_open_file(const char *path, int flags) {
xas_audio_stream *stream;
xas_riff *riff;
if ((riff = open_file(path, flags)) == NULL) {
goto error_open_file;
}
if (flags & (O_RDWR | O_WRONLY)) {
if ((stream = xas_audio_stream_new_sink((xas_audio_drain)audio_drain,
(xas_audio_cleanup)close_file,
riff,
riff->sample_size,
riff->sample_rate,
riff->channels,
4096)) == NULL) {
goto error_audio_stream_new_sink;
}
} else {
if ((stream = xas_audio_stream_new_source((xas_audio_fill)audio_fill,
(xas_audio_cleanup)close_file,
riff,
riff->sample_size,
riff->sample_rate,
riff->channels,
4096)) == NULL) {
goto error_audio_stream_new_sink;
}
}
return stream;
error_audio_stream_new_sink:
close_file(riff, NULL);
error_open_file:
return NULL;
}
xas_audio_stream *xas_riff_open_fd(int fd) {
xas_audio_stream *stream;
xas_riff *riff;
if ((riff = open_fd(fd)) == NULL) {
goto error_open_fd;
}
if ((stream = xas_audio_stream_new_source((xas_audio_fill)audio_fill,
(xas_audio_cleanup)close_file,
riff,
riff->sample_size,
riff->sample_rate,
riff->channels,
4096)) == NULL) {
goto error_audio_stream_new_sink;
}
return stream;
error_audio_stream_new_sink:
free(riff);
error_open_fd:
return NULL;
}
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