audio/common/wav.c

1.20       mrg /*	$NetBSD: wav.c,v 1.20 2024/03/11 19:17:52 mrg Exp $	*/
 1.3       mrg
 1.1       mrg /*
1.19       mrg  * Copyright (c) 2002, 2009, 2013, 2015, 2019, 2024 Matthew R. Green
 1.1       mrg  * All rights reserved.
 1.1       mrg  *
 1.1       mrg  * Redistribution and use in source and binary forms, with or without
 1.1       mrg  * modification, are permitted provided that the following conditions
 1.1       mrg  * are met:
 1.1       mrg  * 1. Redistributions of source code must retain the above copyright
 1.1       mrg  *    notice, this list of conditions and the following disclaimer.
 1.1       mrg  * 2. Redistributions in binary form must reproduce the above copyright
 1.1       mrg  *    notice, this list of conditions and the following disclaimer in the
 1.1       mrg  *    documentation and/or other materials provided with the distribution.
 1.1       mrg  *
 1.1       mrg  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
 1.1       mrg  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 1.1       mrg  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 1.1       mrg  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
 1.1       mrg  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
 1.1       mrg  * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
 1.1       mrg  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
 1.1       mrg  * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
 1.1       mrg  * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 1.1       mrg  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 1.1       mrg  * SUCH DAMAGE.
 1.1       mrg  */
 1.1       mrg
 1.1       mrg /*
 1.1       mrg  * WAV support for the audio tools; thanks go to the sox utility for
 1.1       mrg  * clearing up issues with WAV files.
 1.1       mrg  */
 1.6       agc #include <sys/cdefs.h>
 1.6       agc
 1.6       agc #ifndef lint
1.20       mrg __RCSID("$NetBSD: wav.c,v 1.20 2024/03/11 19:17:52 mrg Exp $");
 1.6       agc #endif
 1.6       agc
 1.1       mrg
 1.1       mrg #include <sys/types.h>
 1.1       mrg #include <sys/audioio.h>
 1.1       mrg #include <sys/ioctl.h>
 1.1       mrg #include <sys/time.h>
 1.1       mrg
 1.1       mrg #include <ctype.h>
 1.1       mrg #include <err.h>
 1.1       mrg #include <stdio.h>
 1.1       mrg #include <stdlib.h>
 1.1       mrg #include <string.h>
 1.9       mrg #include <stdint.h>
1.11       mrg #include <unistd.h>
1.19       mrg #include <stdbool.h>
 1.1       mrg
 1.1       mrg #include "libaudio.h"
1.11       mrg #include "auconv.h"
 1.1       mrg
1.10     joerg static const struct {
 1.1       mrg 	int	wenc;
 1.2       mrg 	const char *wname;
 1.1       mrg } wavencs[] = {
 1.1       mrg 	{ WAVE_FORMAT_UNKNOWN, 	"Microsoft Official Unknown" },
 1.1       mrg 	{ WAVE_FORMAT_PCM,	"Microsoft PCM" },
 1.1       mrg 	{ WAVE_FORMAT_ADPCM,	"Microsoft ADPCM" },
1.15       mrg 	{ WAVE_FORMAT_IEEE_FLOAT,"Microsoft IEEE Floating-Point" },
 1.1       mrg 	{ WAVE_FORMAT_ALAW,	"Microsoft A-law" },
 1.5       wiz 	{ WAVE_FORMAT_MULAW,	"Microsoft mu-law" },
 1.1       mrg 	{ WAVE_FORMAT_OKI_ADPCM,"OKI ADPCM" },
 1.1       mrg 	{ WAVE_FORMAT_DIGISTD,	"Digistd format" },
 1.1       mrg 	{ WAVE_FORMAT_DIGIFIX,	"Digifix format" },
 1.1       mrg 	{ -1, 			"?Unknown?" },
 1.1       mrg };
 1.1       mrg
 1.2       mrg const char *
 1.2       mrg wav_enc_from_val(int encoding)
 1.1       mrg {
 1.1       mrg 	int	i;
 1.1       mrg
 1.1       mrg 	for (i = 0; wavencs[i].wenc != -1; i++)
 1.1       mrg 		if (wavencs[i].wenc == encoding)
 1.1       mrg 			break;
 1.1       mrg 	return (wavencs[i].wname);
 1.1       mrg }
 1.1       mrg
 1.1       mrg /*
 1.1       mrg  * sample header is:
 1.1       mrg  *
 1.1       mrg  *   RIFF\^@^C^@WAVEfmt ^P^@^@^@^A^@^B^@D<AC>^@^@^P<B1>^B^@^D^@^P^@data^@^@^C^@^@^@^@^@^@^@^@^@^@
 1.1       mrg  *
 1.1       mrg  */
 1.1       mrg /*
 1.1       mrg  * WAV format helpers
 1.1       mrg  */
 1.1       mrg /*
 1.1       mrg  * find a .wav header, etc. returns header length on success
 1.1       mrg  */
 1.1       mrg ssize_t
1.10     joerg audio_wav_parse_hdr(void *hdr, size_t sz, u_int *enc, u_int *prec,
1.13       mrg     u_int *sample, u_int *channels, off_t *datasize)
 1.1       mrg {
1.19       mrg 	char	*where = hdr;
 1.1       mrg 	wav_audioheaderpart part;
 1.1       mrg 	wav_audioheaderfmt fmt;
 1.9       mrg 	wav_audiohdrextensible ext;
1.19       mrg 	size_t remain = sz;
 1.7       mrg 	u_int	newenc, newprec;
1.19       mrg 	uint32_t len = 0;
 1.9       mrg 	u_int16_t fmttag;
 1.2       mrg 	static const char
 1.2       mrg 	    strfmt[4] = "fmt ",
 1.2       mrg 	    strRIFF[4] = "RIFF",
 1.2       mrg 	    strWAVE[4] = "WAVE",
 1.2       mrg 	    strdata[4] = "data";
1.19       mrg 	bool found;
1.17      gson
 1.1       mrg 	if (sz < 32)
 1.1       mrg 		return (AUDIO_ENOENT);
 1.1       mrg
1.19       mrg #define ADJUST(l) do {				\
1.19       mrg 	if (l >= remain)			\
1.19       mrg 		return (AUDIO_ESHORTHDR);	\
1.19       mrg 	where += (l);				\
1.19       mrg 	remain -= (l);				\
1.19       mrg } while (0)
1.19       mrg
1.19       mrg 	if (strncmp(where, strRIFF, sizeof strRIFF) != 0)
 1.1       mrg 		return (AUDIO_ENOENT);
1.19       mrg 	ADJUST(8);
1.19       mrg 	if (strncmp(where, strWAVE, sizeof strWAVE) != 0)
 1.1       mrg 		return (AUDIO_ENOENT);
1.19       mrg 	ADJUST(4);
 1.1       mrg
1.19       mrg 	found = false;
1.19       mrg 	while (remain >= sizeof part) {
 1.1       mrg 		memcpy(&part, where, sizeof part);
1.19       mrg 		ADJUST(sizeof part);
1.19       mrg 		len = getle32(part.len);
1.19       mrg 		if (strncmp(part.name, strfmt, sizeof strfmt) == 0) {
1.19       mrg 			found = true;
1.19       mrg 			break;
1.19       mrg 		}
1.19       mrg 		ADJUST(len);
1.19       mrg 	}
 1.1       mrg
 1.1       mrg 	/* too short ? */
1.19       mrg 	if (!found || remain <= sizeof fmt)
 1.1       mrg 		return (AUDIO_ESHORTHDR);
 1.1       mrg
1.19       mrg 	memcpy(&fmt, where, sizeof fmt);
 1.9       mrg 	fmttag = getle16(fmt.tag);
 1.9       mrg 	if (verbose)
1.19       mrg 		printf("WAVE format tag/len: %04x/%u\n", fmttag, len);
 1.9       mrg
 1.9       mrg 	if (fmttag == WAVE_FORMAT_EXTENSIBLE) {
1.19       mrg 		if (len < sizeof(fmt) + sizeof(ext)) {
1.19       mrg 			if (verbose)
1.19       mrg 				fprintf(stderr, "short WAVE ext fmt\n");
 1.9       mrg 			return (AUDIO_ESHORTHDR);
1.19       mrg 		}
1.19       mrg 		if (remain <= sizeof ext + sizeof fmt) {
1.19       mrg 			if (verbose)
1.19       mrg 				fprintf(stderr, "WAVE ext truncated\n");
 1.9       mrg 			return (AUDIO_ESHORTHDR);
1.19       mrg 		}
1.19       mrg 		memcpy(&ext, where + sizeof fmt, sizeof ext);
1.14  jdolecek 		fmttag = getle16(ext.sub_tag);
1.19       mrg 		uint16_t sublen = getle16(ext.len);
 1.9       mrg 		if (verbose)
1.19       mrg 			printf("WAVE extensible tag/len: %04x/%u\n", fmttag, sublen);
1.19       mrg
1.19       mrg 		/*
1.19       mrg 		 * XXXMRG: it may be that part.len (aka sizeof fmt + sizeof ext)
1.19       mrg 		 * should equal sizeof fmt + sizeof ext.len + sublen?  this block
1.19       mrg 		 * is only entered for part.len == 40, where ext.len is expected
1.19       mrg 		 * to be 22 (sizeof ext.len = 2, sizeof fmt = 16).
1.19       mrg 		 *
1.19       mrg 		 * warn about this, but don't consider it an error.
1.19       mrg 		 */
1.20       mrg 		if (getle16(ext.len) != 22 && verbose) {
1.20       mrg 			fprintf(stderr, "warning: WAVE ext.len %u not 22\n",
1.20       mrg 			    getle16(ext.len));
1.20       mrg 		}
1.19       mrg 	} else if (len < sizeof(fmt)) {
1.19       mrg 		if (verbose)
1.19       mrg 			fprintf(stderr, "WAVE fmt unsupported size %u\n", len);
1.19       mrg 		return (AUDIO_EWAVUNSUPP);
 1.9       mrg 	}
1.19       mrg 	ADJUST(len);
 1.9       mrg
 1.9       mrg 	switch (fmttag) {
 1.1       mrg 	default:
 1.1       mrg 		return (AUDIO_EWAVUNSUPP);
 1.1       mrg
 1.1       mrg 	case WAVE_FORMAT_PCM:
 1.9       mrg 	case WAVE_FORMAT_ADPCM:
 1.9       mrg 	case WAVE_FORMAT_OKI_ADPCM:
 1.9       mrg 	case WAVE_FORMAT_IMA_ADPCM:
 1.9       mrg 	case WAVE_FORMAT_DIGIFIX:
 1.9       mrg 	case WAVE_FORMAT_DIGISTD:
 1.1       mrg 		switch (getle16(fmt.bits_per_sample)) {
 1.1       mrg 		case 8:
 1.1       mrg 			newprec = 8;
 1.1       mrg 			break;
 1.1       mrg 		case 16:
 1.1       mrg 			newprec = 16;
 1.1       mrg 			break;
 1.1       mrg 		case 24:
 1.1       mrg 			newprec = 24;
 1.1       mrg 			break;
 1.1       mrg 		case 32:
 1.1       mrg 			newprec = 32;
 1.1       mrg 			break;
 1.1       mrg 		default:
 1.1       mrg 			return (AUDIO_EWAVBADPCM);
 1.1       mrg 		}
 1.1       mrg 		if (newprec == 8)
 1.1       mrg 			newenc = AUDIO_ENCODING_ULINEAR_LE;
 1.1       mrg 		else
 1.1       mrg 			newenc = AUDIO_ENCODING_SLINEAR_LE;
 1.1       mrg 		break;
 1.1       mrg 	case WAVE_FORMAT_ALAW:
 1.1       mrg 		newenc = AUDIO_ENCODING_ALAW;
 1.1       mrg 		newprec = 8;
 1.1       mrg 		break;
 1.1       mrg 	case WAVE_FORMAT_MULAW:
 1.1       mrg 		newenc = AUDIO_ENCODING_ULAW;
 1.1       mrg 		newprec = 8;
 1.1       mrg 		break;
1.15       mrg 	case WAVE_FORMAT_IEEE_FLOAT:
1.15       mrg 		switch (getle16(fmt.bits_per_sample)) {
1.15       mrg 		case 32:
1.15       mrg 			newenc = AUDIO_ENCODING_LIBAUDIO_FLOAT32;
1.15       mrg 			newprec = 32;
1.15       mrg 			break;
1.15       mrg 		case 64:
1.15       mrg 			newenc = AUDIO_ENCODING_LIBAUDIO_FLOAT64;
1.15       mrg 			newprec = 32;
1.15       mrg 			break;
1.15       mrg 		default:
1.15       mrg 			return (AUDIO_EWAVBADPCM);
1.15       mrg 		}
1.15       mrg 		break;
 1.1       mrg 	}
 1.1       mrg
1.19       mrg 	found = false;
1.19       mrg 	while (remain >= sizeof part) {
 1.1       mrg 		memcpy(&part, where, sizeof part);
1.19       mrg 		ADJUST(sizeof part);
1.19       mrg 		if (strncmp(part.name, strdata, sizeof strdata) == 0) {
1.19       mrg 			found = true;
1.19       mrg 			break;
1.19       mrg 		}
1.19       mrg 		/* Adjust len here only for non-data parts. */
1.19       mrg 		len = getle32(part.len);
1.19       mrg 		ADJUST(len);
1.19       mrg 	}
1.19       mrg 	if (!found)
1.19       mrg 		return (AUDIO_ENOENT);
 1.1       mrg
1.19       mrg 	if (getle32(part.len)) {
 1.1       mrg 		if (channels)
 1.7       mrg 			*channels = (u_int)getle16(fmt.channels);
 1.1       mrg 		if (sample)
 1.1       mrg 			*sample = getle32(fmt.sample_rate);
 1.1       mrg 		if (enc)
 1.1       mrg 			*enc = newenc;
 1.1       mrg 		if (prec)
 1.1       mrg 			*prec = newprec;
 1.1       mrg 		if (datasize)
1.13       mrg 			*datasize = (off_t)getle32(part.len);
1.19       mrg 		return (where - (char *)hdr);
 1.1       mrg 	}
 1.1       mrg 	return (AUDIO_EWAVNODATA);
1.19       mrg
1.19       mrg #undef ADJUST
 1.1       mrg }
1.11       mrg
1.11       mrg
1.11       mrg /*
1.11       mrg  * prepare a WAV header for writing; we fill in hdrp, lenp and leftp,
1.11       mrg  * and expect our caller (wav_write_header()) to use them.
1.11       mrg  */
1.11       mrg int
1.13       mrg wav_prepare_header(struct track_info *ti, void **hdrp, size_t *lenp, int *leftp)
1.11       mrg {
1.11       mrg 	/*
1.11       mrg 	 * WAV header we write looks like this:
1.11       mrg 	 *
1.11       mrg 	 *      bytes   purpose
1.11       mrg 	 *      0-3     "RIFF"
1.19       mrg 	 *      4-7     RIFF chunk length (file length minus 8)
1.11       mrg 	 *      8-15    "WAVEfmt "
1.11       mrg 	 *      16-19   format size
1.11       mrg 	 *      20-21   format tag
1.11       mrg 	 *      22-23   number of channels
1.11       mrg 	 *      24-27   sample rate
1.11       mrg 	 *      28-31   average bytes per second
1.11       mrg 	 *      32-33   block alignment
1.11       mrg 	 *      34-35   bits per sample
1.11       mrg 	 *
1.11       mrg 	 * then for ULAW and ALAW outputs, we have an extended chunk size
1.11       mrg 	 * and a WAV "fact" to add:
1.11       mrg 	 *
1.11       mrg 	 *      36-37   length of extension (== 0)
1.11       mrg 	 *      38-41   "fact"
1.11       mrg 	 *      42-45   fact size
1.11       mrg 	 *      46-49   number of samples written
1.11       mrg 	 *      50-53   "data"
1.11       mrg 	 *      54-57   data length
1.11       mrg 	 *      58-     raw audio data
1.11       mrg 	 *
1.11       mrg 	 * for PCM outputs we have just the data remaining:
1.11       mrg 	 *
1.11       mrg 	 *      36-39   "data"
1.11       mrg 	 *      40-43   data length
1.11       mrg 	 *      44-     raw audio data
1.11       mrg 	 *
1.11       mrg 	 *	RIFF\^@^C^@WAVEfmt ^P^@^@^@^A^@^B^@D<AC>^@^@^P<B1>^B^@^D^@^P^@data^@^@^C^@^@^@^@^@^@^@^@^@^@
1.11       mrg 	 */
1.11       mrg 	static char wavheaderbuf[64];
1.11       mrg 	char	*p = wavheaderbuf;
1.11       mrg 	const char *riff = "RIFF",
1.11       mrg 	    *wavefmt = "WAVEfmt ",
1.11       mrg 	    *fact = "fact",
1.11       mrg 	    *data = "data";
1.11       mrg 	u_int32_t filelen, fmtsz, sps, abps, factsz = 4, nsample, datalen;
1.12  christos 	u_int16_t fmttag, nchan, align, extln = 0;
1.11       mrg
1.13       mrg 	if (ti->header_info)
1.11       mrg 		warnx("header information not supported for WAV");
1.11       mrg 	*leftp = 0;
1.11       mrg
1.13       mrg 	switch (ti->precision) {
1.11       mrg 	case 8:
1.11       mrg 		break;
1.11       mrg 	case 16:
1.11       mrg 		break;
1.16   mlelstv 	case 24:
1.16   mlelstv 		break;
1.11       mrg 	case 32:
1.11       mrg 		break;
1.11       mrg 	default:
1.11       mrg 		{
1.11       mrg 			static int warned = 0;
1.11       mrg
1.11       mrg 			if (warned == 0) {
1.13       mrg 				warnx("can not support precision of %d", ti->precision);
1.11       mrg 				warned = 1;
1.11       mrg 			}
1.11       mrg 		}
1.11       mrg 		return (-1);
1.11       mrg 	}
1.11       mrg
1.13       mrg 	switch (ti->encoding) {
1.11       mrg 	case AUDIO_ENCODING_ULAW:
1.11       mrg 		fmttag = WAVE_FORMAT_MULAW;
1.11       mrg 		fmtsz = 18;
1.13       mrg 		align = ti->channels;
1.11       mrg 		break;
1.11       mrg
1.11       mrg 	case AUDIO_ENCODING_ALAW:
1.11       mrg 		fmttag = WAVE_FORMAT_ALAW;
1.11       mrg 		fmtsz = 18;
1.13       mrg 		align = ti->channels;
1.11       mrg 		break;
1.11       mrg
1.11       mrg 	/*
1.11       mrg 	 * we could try to support RIFX but it seems to be more portable
1.11       mrg 	 * to output little-endian data for WAV files.
1.11       mrg 	 */
1.11       mrg 	case AUDIO_ENCODING_ULINEAR_BE:
1.11       mrg 	case AUDIO_ENCODING_SLINEAR_BE:
1.11       mrg 	case AUDIO_ENCODING_ULINEAR_LE:
1.11       mrg 	case AUDIO_ENCODING_SLINEAR_LE:
1.11       mrg 	case AUDIO_ENCODING_PCM16:
1.11       mrg
1.11       mrg #if BYTE_ORDER == LITTLE_ENDIAN
1.11       mrg 	case AUDIO_ENCODING_ULINEAR:
1.11       mrg 	case AUDIO_ENCODING_SLINEAR:
1.11       mrg #endif
1.11       mrg 		fmttag = WAVE_FORMAT_PCM;
1.11       mrg 		fmtsz = 16;
1.13       mrg 		align = ti->channels * (ti->precision / 8);
1.11       mrg 		break;
1.11       mrg
1.11       mrg 	default:
1.11       mrg #if 0 // move into record.c, and maybe merge.c
1.11       mrg 		{
1.11       mrg 			static int warned = 0;
1.11       mrg
1.11       mrg 			if (warned == 0) {
1.13       mrg 				const char *s = wav_enc_from_val(ti->encoding);
1.11       mrg
1.11       mrg 				if (s == NULL)
1.11       mrg 					warnx("can not support encoding of %s", s);
1.11       mrg 				else
1.13       mrg 					warnx("can not support encoding of %d", ti->encoding);
1.11       mrg 				warned = 1;
1.11       mrg 			}
1.11       mrg 		}
1.11       mrg #endif
1.13       mrg 		ti->format = AUDIO_FORMAT_NONE;
1.11       mrg 		return (-1);
1.11       mrg 	}
1.11       mrg
1.13       mrg 	nchan = ti->channels;
1.13       mrg 	sps = ti->sample_rate;
1.11       mrg
1.11       mrg 	/* data length */
1.13       mrg 	if (ti->outfd == STDOUT_FILENO)
1.11       mrg 		datalen = 0;
1.13       mrg 	else if (ti->total_size != -1)
1.13       mrg 		datalen = ti->total_size;
1.11       mrg 	else
1.11       mrg 		datalen = 0;
1.11       mrg
1.11       mrg 	/* file length */
1.11       mrg 	filelen = 4 + (8 + fmtsz) + (8 + datalen);
1.11       mrg 	if (fmttag != WAVE_FORMAT_PCM)
1.11       mrg 		filelen += 8 + factsz;
1.11       mrg
1.13       mrg 	abps = (double)align*ti->sample_rate / (double)1 + 0.5;
1.11       mrg
1.13       mrg 	nsample = (datalen / ti->precision) / ti->sample_rate;
1.18      gson
1.11       mrg 	/*
1.11       mrg 	 * now we've calculated the info, write it out!
1.11       mrg 	 */
1.11       mrg #define put32(x) do { \
1.11       mrg 	u_int32_t _f; \
1.11       mrg 	putle32(_f, (x)); \
1.11       mrg 	memcpy(p, &_f, 4); \
1.11       mrg } while (0)
1.11       mrg #define put16(x) do { \
1.11       mrg 	u_int16_t _f; \
1.11       mrg 	putle16(_f, (x)); \
1.11       mrg 	memcpy(p, &_f, 2); \
1.11       mrg } while (0)
1.11       mrg 	memcpy(p, riff, 4);
1.11       mrg 	p += 4;				/* 4 */
1.11       mrg 	put32(filelen);
1.11       mrg 	p += 4;				/* 8 */
1.11       mrg 	memcpy(p, wavefmt, 8);
1.11       mrg 	p += 8;				/* 16 */
1.11       mrg 	put32(fmtsz);
1.11       mrg 	p += 4;				/* 20 */
1.11       mrg 	put16(fmttag);
1.11       mrg 	p += 2;				/* 22 */
1.11       mrg 	put16(nchan);
1.11       mrg 	p += 2;				/* 24 */
1.11       mrg 	put32(sps);
1.11       mrg 	p += 4;				/* 28 */
1.11       mrg 	put32(abps);
1.11       mrg 	p += 4;				/* 32 */
1.11       mrg 	put16(align);
1.11       mrg 	p += 2;				/* 34 */
1.13       mrg 	put16(ti->precision);
1.11       mrg 	p += 2;				/* 36 */
1.11       mrg 	/* NON PCM formats have an extended chunk; write it */
1.11       mrg 	if (fmttag != WAVE_FORMAT_PCM) {
1.11       mrg 		put16(extln);
1.11       mrg 		p += 2;			/* 38 */
1.11       mrg 		memcpy(p, fact, 4);
1.11       mrg 		p += 4;			/* 42 */
1.11       mrg 		put32(factsz);
1.11       mrg 		p += 4;			/* 46 */
1.11       mrg 		put32(nsample);
1.11       mrg 		p += 4;			/* 50 */
1.11       mrg 	}
1.11       mrg 	memcpy(p, data, 4);
1.11       mrg 	p += 4;				/* 40/54 */
1.11       mrg 	put32(datalen);
1.11       mrg 	p += 4;				/* 44/58 */
1.11       mrg #undef put32
1.11       mrg #undef put16
1.11       mrg
1.11       mrg 	*hdrp = wavheaderbuf;
1.11       mrg 	*lenp = (p - wavheaderbuf);
1.11       mrg
1.11       mrg 	return 0;
1.11       mrg }
1.11       mrg
1.11       mrg write_conv_func
1.13       mrg wav_write_get_conv_func(struct track_info *ti)
1.11       mrg {
1.11       mrg 	write_conv_func conv_func = NULL;
1.11       mrg
1.13       mrg 	switch (ti->encoding) {
1.11       mrg
1.11       mrg 	/*
1.11       mrg 	 * we could try to support RIFX but it seems to be more portable
1.11       mrg 	 * to output little-endian data for WAV files.
1.11       mrg 	 */
1.11       mrg 	case AUDIO_ENCODING_ULINEAR_BE:
1.11       mrg #if BYTE_ORDER == BIG_ENDIAN
1.11       mrg 	case AUDIO_ENCODING_ULINEAR:
1.11       mrg #endif
1.13       mrg 		if (ti->precision == 16)
1.11       mrg 			conv_func = change_sign16_swap_bytes_be;
1.13       mrg 		else if (ti->precision == 32)
1.11       mrg 			conv_func = change_sign32_swap_bytes_be;
1.11       mrg 		break;
1.11       mrg
1.11       mrg 	case AUDIO_ENCODING_SLINEAR_BE:
1.11       mrg #if BYTE_ORDER == BIG_ENDIAN
1.11       mrg 	case AUDIO_ENCODING_SLINEAR:
1.11       mrg #endif
1.13       mrg 		if (ti->precision == 8)
1.11       mrg 			conv_func = change_sign8;
1.13       mrg 		else if (ti->precision == 16)
1.11       mrg 			conv_func = swap_bytes;
1.13       mrg 		else if (ti->precision == 32)
1.11       mrg 			conv_func = swap_bytes32;
1.11       mrg 		break;
1.11       mrg
1.11       mrg 	case AUDIO_ENCODING_ULINEAR_LE:
1.11       mrg #if BYTE_ORDER == LITTLE_ENDIAN
1.11       mrg 	case AUDIO_ENCODING_ULINEAR:
1.11       mrg #endif
1.13       mrg 		if (ti->precision == 16)
1.11       mrg 			conv_func = change_sign16_le;
1.13       mrg 		else if (ti->precision == 32)
1.11       mrg 			conv_func = change_sign32_le;
1.11       mrg 		break;
1.11       mrg
1.11       mrg 	case AUDIO_ENCODING_SLINEAR_LE:
1.11       mrg 	case AUDIO_ENCODING_PCM16:
1.11       mrg #if BYTE_ORDER == LITTLE_ENDIAN
1.11       mrg 	case AUDIO_ENCODING_SLINEAR:
1.11       mrg #endif
1.13       mrg 		if (ti->precision == 8)
1.11       mrg 			conv_func = change_sign8;
1.11       mrg 		break;
1.11       mrg
1.11       mrg 	default:
1.13       mrg 		ti->format = AUDIO_FORMAT_NONE;
1.11       mrg 	}
1.11       mrg
1.11       mrg 	return conv_func;
1.11       mrg }