ref: 0adab62cc4a342a0f0b30d2934e33abcb6586cd4
dir: /src/soxio.c/
#include "sox_i.h"
#include <errno.h>
#include <fcntl.h>
#include <stdlib.h>
#include <string.h>
#include <sys/stat.h>
#include <sys/types.h>
#ifdef HAVE_IO_H
#include <io.h>
#endif
void set_endianness_if_not_already_set(ft_t ft)
{
if (ft->signal.reverse_bytes == SOX_OPTION_DEFAULT) {
if (ft->h->flags & SOX_FILE_ENDIAN)
/* Set reverse_bytes for big-endian formats; on a big-endian
system this cancels out with the reversal made for being on a
big-endian system. */
ft->signal.reverse_bytes = (ft->h->flags & SOX_FILE_ENDBIG) != 0;
else
ft->signal.reverse_bytes = SOX_OPTION_NO;
}
if (ft->signal.reverse_bits == SOX_OPTION_DEFAULT)
ft->signal.reverse_bits = !!(ft->h->flags & SOX_FILE_BIT_REV);
else if (ft->signal.reverse_bits != !!(ft->h->flags & SOX_FILE_BIT_REV))
sox_report("'%s': Format options overriding file-type bit-order", ft->filename);
if (ft->signal.reverse_nibbles == SOX_OPTION_DEFAULT)
ft->signal.reverse_nibbles = !!(ft->h->flags & SOX_FILE_NIB_REV);
else if (ft->signal.reverse_nibbles != !!(ft->h->flags & SOX_FILE_NIB_REV))
sox_report("'%s': Format options overriding file-type nibble-order", ft->filename);
}
static int is_seekable(ft_t ft)
{
struct stat st;
fstat(fileno(ft->fp), &st);
return ((st.st_mode & S_IFMT) == S_IFREG);
}
/* check that all settings have been given */
static int sox_checkformat(ft_t ft)
{
ft->sox_errno = SOX_SUCCESS;
if (ft->signal.rate == 0)
{
sox_fail_errno(ft,SOX_EFMT,"sampling rate was not specified");
return SOX_EOF;
}
if (ft->signal.size == -1)
{
sox_fail_errno(ft,SOX_EFMT,"data size was not specified");
return SOX_EOF;
}
if (ft->signal.encoding == SOX_ENCODING_UNKNOWN)
{
sox_fail_errno(ft,SOX_EFMT,"data encoding was not specified");
return SOX_EOF;
}
if ((ft->signal.size <= 0) || (ft->signal.size > SOX_INFO_SIZE_MAX))
{
sox_fail_errno(ft,SOX_EFMT,"data size %d is invalid", ft->signal.size);
return SOX_EOF;
}
if (ft->signal.encoding <= 0 || ft->signal.encoding >= SOX_ENCODINGS)
{
sox_fail_errno(ft,SOX_EFMT,"data encoding %d is invalid", ft->signal.encoding);
return SOX_EOF;
}
return SOX_SUCCESS;
}
ft_t sox_open_read(const char *path, const sox_signalinfo_t *info,
const char *filetype)
{
ft_t ft = (ft_t)xcalloc(sizeof(struct sox_soundstream), 1);
ft->filename = xstrdup(path);
/* Let auto type do the work if user is not overriding. */
if (!filetype)
ft->filetype = xstrdup("auto");
else
ft->filetype = xstrdup(filetype);
if (sox_gettype(ft, sox_false) != SOX_SUCCESS) {
sox_fail("Unknown input file format for `%s': %s",
ft->filename,
ft->sox_errstr);
goto input_error;
}
ft->signal.size = -1;
ft->signal.encoding = SOX_ENCODING_UNKNOWN;
ft->signal.channels = 0;
if (info)
ft->signal = *info;
ft->mode = 'r';
if (!(ft->h->flags & SOX_FILE_NOSTDIO))
{
/* Open file handler based on input name. Used stdin file handler
* if the filename is "-"
*/
if (!strcmp(ft->filename, "-")) {
if (sox_global_info.stdin_in_use_by) {
sox_fail("'-' (stdin) already in use by '%s'", sox_global_info.stdin_in_use_by);
goto input_error;
}
sox_global_info.stdin_in_use_by = "audio input";
SET_BINARY_MODE(stdin);
ft->fp = stdin;
}
else if ((ft->fp = xfopen(ft->filename, "rb")) == NULL)
{
sox_fail("Can't open input file `%s': %s", ft->filename,
strerror(errno));
goto input_error;
}
/* See if this file is seekable or not */
ft->seekable = is_seekable(ft);
}
if (filetype)
set_endianness_if_not_already_set(ft);
/* Read and write starters can change their formats. */
if (ft->h->startread && (*ft->h->startread)(ft) != SOX_SUCCESS)
{
sox_fail("Failed reading `%s': %s", ft->filename, ft->sox_errstr);
goto input_error;
}
/* Go ahead and assume 1 channel audio if nothing is detected.
* This is because libsox usually doesn't set this for mono file
* formats (for historical reasons).
*/
if (!(ft->h->flags & SOX_FILE_PHONY) && !ft->signal.channels)
ft->signal.channels = 1;
if (sox_checkformat(ft) )
{
sox_fail("bad input format for file %s: %s", ft->filename,
ft->sox_errstr);
goto input_error;
}
return ft;
input_error:
free(ft->filename);
free(ft->filetype);
free(ft);
return NULL;
}
ft_t sox_open_write(
sox_bool (*overwrite_permitted)(const char *filename),
const char *path,
const sox_signalinfo_t *info,
const char *filetype,
const char *comment,
sox_size_t length,
const sox_instrinfo_t *instr,
const sox_loopinfo_t *loops)
{
ft_t ft = (ft_t)xcalloc(sizeof(struct sox_soundstream), 1);
int i;
sox_bool no_filetype_given = filetype == NULL;
ft->filename = xstrdup(path);
if (!filetype) {
char const * extension = find_file_extension(ft->filename);
if (extension)
ft->filetype = xstrdup(extension);
} else
ft->filetype = xstrdup(filetype);
if (!ft->filetype || sox_gettype(ft, no_filetype_given) != SOX_SUCCESS)
{
sox_fail("Unknown output file format for '%s': %s",
ft->filename,
ft->sox_errstr);
goto output_error;
}
ft->signal.size = -1;
ft->signal.encoding = SOX_ENCODING_UNKNOWN;
ft->signal.channels = 0;
if (info)
ft->signal = *info;
ft->mode = 'w';
if (!(ft->h->flags & SOX_FILE_NOSTDIO))
{
/* Open file handler based on output name. Used stdout file handler
* if the filename is "-"
*/
if (!strcmp(ft->filename, "-")) {
if (sox_global_info.stdout_in_use_by) {
sox_fail("'-' (stdout) already in use by '%s'", sox_global_info.stdout_in_use_by);
goto output_error;
}
sox_global_info.stdout_in_use_by = "audio output";
SET_BINARY_MODE(stdout);
ft->fp = stdout;
}
else {
struct stat st;
if (!stat(ft->filename, &st) && (st.st_mode & S_IFMT) == S_IFREG &&
!overwrite_permitted(ft->filename)) {
sox_fail("Permission to overwrite '%s' denied", ft->filename);
goto output_error;
}
if ((ft->fp = fopen(ft->filename, "wb")) == NULL) {
sox_fail("Can't open output file '%s': %s", ft->filename,
strerror(errno));
goto output_error;
}
}
/* stdout tends to be line-buffered. Override this */
/* to be Full Buffering. */
if (setvbuf (ft->fp, NULL, _IOFBF, sizeof(char)*sox_bufsiz))
{
sox_fail("Can't set write buffer");
goto output_error;
}
/* See if this file is seekable or not */
ft->seekable = is_seekable(ft);
}
ft->comment = xstrdup(comment);
if (loops)
for (i = 0; i < SOX_MAX_NLOOPS; i++)
ft->loops[i] = loops[i];
/* leave SMPTE # alone since it's absolute */
if (instr)
ft->instr = *instr;
ft->length = length;
set_endianness_if_not_already_set(ft);
/* Read and write starters can change their formats. */
if (ft->h->startwrite && (*ft->h->startwrite)(ft) != SOX_SUCCESS)
{
sox_fail("Failed writing %s: %s", ft->filename, ft->sox_errstr);
goto output_error;
}
if (sox_checkformat(ft) )
{
sox_fail("bad output format for file %s: %s", ft->filename,
ft->sox_errstr);
goto output_error;
}
return ft;
output_error:
free(ft->filename);
free(ft->filetype);
free(ft);
return NULL;
}
sox_size_t sox_read(ft_t f, sox_ssample_t * buf, sox_size_t len)
{
sox_size_t actual = f->h->read? (*f->h->read)(f, buf, len) : 0;
return (actual > len? 0 : actual);
}
sox_size_t sox_write(ft_t ft, const sox_ssample_t *buf, sox_size_t len)
{
return ft->h->write? (*ft->h->write)(ft, buf, len) : 0;
}
#define TWIDDLE_BYTE(ub, type) \
do { \
if (ft->signal.reverse_bits) \
ub = cswap[ub]; \
if (ft->signal.reverse_nibbles) \
ub = ((ub & 15) << 4) | (ub >> 4); \
} while (0);
#define TWIDDLE_WORD(uw, type) \
if (ft->signal.reverse_bytes ^ SOX_IS_BIGENDIAN) \
uw = sox_swap ## type(uw);
/* N.B. This macro doesn't work for unaligned types (e.g. 3-byte
types). */
#define READ_FUNC(type, size, ctype, twiddle) \
sox_size_t sox_read_ ## type ## _buf( \
ft_t ft, ctype *buf, sox_size_t len) \
{ \
sox_size_t n, nread; \
if ((nread = sox_readbuf(ft, buf, len * size)) != len * size) \
sox_fail_errno(ft, errno, sox_readerr); \
nread /= size; \
for (n = 0; n < nread; n++) \
twiddle(buf[n], type); \
return nread; \
}
/* Unpack a 3-byte value from a uint8_t * */
#define sox_unpack3(p) ((p)[0] | ((p)[1] << 8) | ((p)[2] << 16))
/* This (slower) macro works for unaligned types (e.g. 3-byte types)
that need to be unpacked. */
#define READ_FUNC_UNPACK(type, size, ctype, twiddle) \
sox_size_t sox_read_ ## type ## _buf( \
ft_t ft, ctype *buf, sox_size_t len) \
{ \
sox_size_t n, nread; \
uint8_t *data = xmalloc(size * len); \
if ((nread = sox_readbuf(ft, data, len * size)) != len * size) \
sox_fail_errno(ft, errno, sox_readerr); \
nread /= size; \
for (n = 0; n < nread; n++) { \
ctype datum = sox_unpack ## size(data + n * size); \
twiddle(datum, type); \
buf[n] = datum; \
} \
free(data); \
return n; \
}
READ_FUNC(b, 1, uint8_t, TWIDDLE_BYTE)
READ_FUNC(w, 2, uint16_t, TWIDDLE_WORD)
READ_FUNC_UNPACK(3, 3, uint24_t, TWIDDLE_WORD)
READ_FUNC(dw, 4, uint32_t, TWIDDLE_WORD)
READ_FUNC(f, sizeof(float), float, TWIDDLE_WORD)
READ_FUNC(df, sizeof(double), double, TWIDDLE_WORD)
/* N.B. This macro doesn't work for unaligned types (e.g. 3-byte
types). */
#define WRITE_FUNC(type, size, ctype, twiddle) \
sox_size_t sox_write_ ## type ## _buf( \
ft_t ft, ctype *buf, sox_size_t len) \
{ \
sox_size_t n, nwritten; \
for (n = 0; n < len; n++) \
twiddle(buf[n], type); \
if ((nwritten = sox_writebuf(ft, buf, len * size)) != len * size) \
sox_fail_errno(ft, errno, sox_writerr); \
return nwritten / size; \
}
/* Pack a 3-byte value to a uint8_t * */
#define sox_pack3(p, v) \
(p)[0] = v & 0xff; \
(p)[1] = (v >> 8) & 0xff; \
(p)[2] = (v >> 16) & 0xff;
/* This (slower) macro works for unaligned types (e.g. 3-byte types)
that need to be packed. */
#define WRITE_FUNC_PACK(type, size, ctype, twiddle) \
sox_size_t sox_write_ ## type ## _buf( \
ft_t ft, ctype *buf, sox_size_t len) \
{ \
sox_size_t n, nwritten; \
uint8_t *data = xmalloc(size * len); \
for (n = 0; n < len; n++) { \
ctype datum = buf[n]; \
twiddle(datum, type); \
sox_pack ## size(data + n * size, datum); \
} \
if ((nwritten = sox_writebuf(ft, data, len * size)) != len * size) \
sox_fail_errno(ft, errno, sox_writerr); \
free(data); \
return nwritten / size; \
}
WRITE_FUNC(b, 1, uint8_t, TWIDDLE_BYTE)
WRITE_FUNC(w, 2, uint16_t, TWIDDLE_WORD)
WRITE_FUNC_PACK(3, 3, uint24_t, TWIDDLE_WORD)
WRITE_FUNC(dw, 4, uint32_t, TWIDDLE_WORD)
WRITE_FUNC(f, sizeof(float), float, TWIDDLE_WORD)
WRITE_FUNC(df, sizeof(double), double, TWIDDLE_WORD)
#define WRITE1_FUNC(type, sign, ctype) \
int sox_write ## type(ft_t ft, ctype datum) \
{ \
return sox_write_ ## type ## _buf(ft, &datum, 1) == 1 ? SOX_SUCCESS : SOX_EOF; \
}
WRITE1_FUNC(b, u, uint8_t)
WRITE1_FUNC(w, u, uint16_t)
WRITE1_FUNC(3, u, uint24_t)
WRITE1_FUNC(dw, u, uint32_t)
WRITE1_FUNC(f, su, float)
WRITE1_FUNC(df, su, double)
/* N.B. The file (if any) may already have been deleted. */
int sox_close(ft_t ft)
{
int rc;
if (ft->mode == 'r')
rc = ft->h->stopread? (*ft->h->stopread)(ft) : SOX_SUCCESS;
else
rc = ft->h->stopwrite? (*ft->h->stopwrite)(ft) : SOX_SUCCESS;
if (!(ft->h->flags & SOX_FILE_NOSTDIO))
fclose(ft->fp);
free(ft->filename);
free(ft->filetype);
/* Currently, since startread() mallocs comments, stopread
* is expected to also free it. */
if (ft->mode == 'w')
free(ft->comment);
return rc;
}
int sox_seek(ft_t ft, sox_size_t offset, int whence)
{
/* FIXME: Implement SOX_SEEK_CUR and SOX_SEEK_END. */
if (whence != SOX_SEEK_SET)
return SOX_EOF; /* FIXME: return SOX_EINVAL */
/* If file is a seekable file and this handler supports seeking,
* the invoke handlers function.
*/
if (ft->seekable && (ft->h->flags & SOX_FILE_SEEK))
return ft->h->seek? (*ft->h->seek)(ft, offset) : SOX_EOF;
else
return SOX_EOF; /* FIXME: return SOX_EBADF */
}