wav.c revision 1.14.6.1
1 1.14.6.1 martin /* $NetBSD: wav.c,v 1.14.6.1 2024/03/12 12:41:38 martin Exp $ */ 2 1.3 mrg 3 1.1 mrg /* 4 1.14.6.1 martin * Copyright (c) 2002, 2009, 2013, 2015, 2019, 2024 Matthew R. Green 5 1.1 mrg * All rights reserved. 6 1.1 mrg * 7 1.1 mrg * Redistribution and use in source and binary forms, with or without 8 1.1 mrg * modification, are permitted provided that the following conditions 9 1.1 mrg * are met: 10 1.1 mrg * 1. Redistributions of source code must retain the above copyright 11 1.1 mrg * notice, this list of conditions and the following disclaimer. 12 1.1 mrg * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 mrg * notice, this list of conditions and the following disclaimer in the 14 1.1 mrg * documentation and/or other materials provided with the distribution. 15 1.1 mrg * 16 1.1 mrg * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 17 1.1 mrg * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 18 1.1 mrg * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 19 1.1 mrg * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 20 1.1 mrg * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 21 1.1 mrg * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 22 1.1 mrg * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 23 1.1 mrg * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 24 1.1 mrg * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 25 1.1 mrg * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 26 1.1 mrg * SUCH DAMAGE. 27 1.1 mrg */ 28 1.1 mrg 29 1.1 mrg /* 30 1.1 mrg * WAV support for the audio tools; thanks go to the sox utility for 31 1.1 mrg * clearing up issues with WAV files. 32 1.1 mrg */ 33 1.6 agc #include <sys/cdefs.h> 34 1.6 agc 35 1.6 agc #ifndef lint 36 1.14.6.1 martin __RCSID("$NetBSD: wav.c,v 1.14.6.1 2024/03/12 12:41:38 martin Exp $"); 37 1.6 agc #endif 38 1.6 agc 39 1.1 mrg 40 1.1 mrg #include <sys/types.h> 41 1.1 mrg #include <sys/audioio.h> 42 1.1 mrg #include <sys/ioctl.h> 43 1.1 mrg #include <sys/time.h> 44 1.1 mrg 45 1.1 mrg #include <ctype.h> 46 1.1 mrg #include <err.h> 47 1.1 mrg #include <stdio.h> 48 1.1 mrg #include <stdlib.h> 49 1.1 mrg #include <string.h> 50 1.9 mrg #include <stdint.h> 51 1.11 mrg #include <unistd.h> 52 1.14.6.1 martin #include <stdbool.h> 53 1.1 mrg 54 1.1 mrg #include "libaudio.h" 55 1.11 mrg #include "auconv.h" 56 1.1 mrg 57 1.10 joerg static const struct { 58 1.1 mrg int wenc; 59 1.2 mrg const char *wname; 60 1.1 mrg } wavencs[] = { 61 1.1 mrg { WAVE_FORMAT_UNKNOWN, "Microsoft Official Unknown" }, 62 1.1 mrg { WAVE_FORMAT_PCM, "Microsoft PCM" }, 63 1.1 mrg { WAVE_FORMAT_ADPCM, "Microsoft ADPCM" }, 64 1.14.6.1 martin { WAVE_FORMAT_IEEE_FLOAT,"Microsoft IEEE Floating-Point" }, 65 1.1 mrg { WAVE_FORMAT_ALAW, "Microsoft A-law" }, 66 1.5 wiz { WAVE_FORMAT_MULAW, "Microsoft mu-law" }, 67 1.1 mrg { WAVE_FORMAT_OKI_ADPCM,"OKI ADPCM" }, 68 1.1 mrg { WAVE_FORMAT_DIGISTD, "Digistd format" }, 69 1.1 mrg { WAVE_FORMAT_DIGIFIX, "Digifix format" }, 70 1.1 mrg { -1, "?Unknown?" }, 71 1.1 mrg }; 72 1.1 mrg 73 1.2 mrg const char * 74 1.2 mrg wav_enc_from_val(int encoding) 75 1.1 mrg { 76 1.1 mrg int i; 77 1.1 mrg 78 1.1 mrg for (i = 0; wavencs[i].wenc != -1; i++) 79 1.1 mrg if (wavencs[i].wenc == encoding) 80 1.1 mrg break; 81 1.1 mrg return (wavencs[i].wname); 82 1.1 mrg } 83 1.1 mrg 84 1.1 mrg /* 85 1.1 mrg * sample header is: 86 1.1 mrg * 87 1.1 mrg * RIFF\^@^C^@WAVEfmt ^P^@^@^@^A^@^B^@D<AC>^@^@^P<B1>^B^@^D^@^P^@data^@^@^C^@^@^@^@^@^@^@^@^@^@ 88 1.1 mrg * 89 1.1 mrg */ 90 1.1 mrg /* 91 1.1 mrg * WAV format helpers 92 1.1 mrg */ 93 1.14.6.1 martin 94 1.14.6.1 martin static bool 95 1.14.6.1 martin find_riff_chunk(const char search[4], size_t *remainp, char **wherep, uint32_t *partlen) 96 1.14.6.1 martin { 97 1.14.6.1 martin wav_audioheaderpart part; 98 1.14.6.1 martin 99 1.14.6.1 martin *partlen = 0; 100 1.14.6.1 martin 101 1.14.6.1 martin #define ADJUST(l) do { \ 102 1.14.6.1 martin if (l >= *(remainp)) \ 103 1.14.6.1 martin return false; \ 104 1.14.6.1 martin *(wherep) += (l); \ 105 1.14.6.1 martin *(remainp) -= (l); \ 106 1.14.6.1 martin } while (0) 107 1.14.6.1 martin 108 1.14.6.1 martin while (*remainp >= sizeof part) { 109 1.14.6.1 martin const char *emsg = ""; 110 1.14.6.1 martin uint32_t len; 111 1.14.6.1 martin 112 1.14.6.1 martin memcpy(&part, *wherep, sizeof part); 113 1.14.6.1 martin ADJUST(sizeof part); 114 1.14.6.1 martin len = getle32(part.len); 115 1.14.6.1 martin if (len % 2) { 116 1.14.6.1 martin emsg = " (odd length, adjusted)"; 117 1.14.6.1 martin len += 1; 118 1.14.6.1 martin } 119 1.14.6.1 martin if (strncmp(part.name, search, sizeof *search) == 0) { 120 1.14.6.1 martin *partlen = len; 121 1.14.6.1 martin if (verbose > 1) 122 1.14.6.1 martin fprintf(stderr, "Found part %.04s length %d%s\n", 123 1.14.6.1 martin part.name, len, emsg); 124 1.14.6.1 martin return true; 125 1.14.6.1 martin } 126 1.14.6.1 martin ADJUST(len); 127 1.14.6.1 martin if (verbose > 1) 128 1.14.6.1 martin fprintf(stderr, "Skipping part %.04s length %d%s\n", 129 1.14.6.1 martin part.name, len, emsg); 130 1.14.6.1 martin } 131 1.14.6.1 martin #undef ADJUST 132 1.14.6.1 martin 133 1.14.6.1 martin return false; 134 1.14.6.1 martin } 135 1.14.6.1 martin 136 1.1 mrg /* 137 1.1 mrg * find a .wav header, etc. returns header length on success 138 1.1 mrg */ 139 1.1 mrg ssize_t 140 1.10 joerg audio_wav_parse_hdr(void *hdr, size_t sz, u_int *enc, u_int *prec, 141 1.13 mrg u_int *sample, u_int *channels, off_t *datasize) 142 1.1 mrg { 143 1.14.6.1 martin char *where = hdr; 144 1.1 mrg wav_audioheaderfmt fmt; 145 1.9 mrg wav_audiohdrextensible ext; 146 1.14.6.1 martin size_t remain = sz; 147 1.7 mrg u_int newenc, newprec; 148 1.14.6.1 martin uint32_t len = 0; 149 1.9 mrg u_int16_t fmttag; 150 1.2 mrg static const char 151 1.2 mrg strfmt[4] = "fmt ", 152 1.2 mrg strRIFF[4] = "RIFF", 153 1.2 mrg strWAVE[4] = "WAVE", 154 1.2 mrg strdata[4] = "data"; 155 1.14.6.1 martin bool found; 156 1.14.6.1 martin 157 1.1 mrg if (sz < 32) 158 1.1 mrg return (AUDIO_ENOENT); 159 1.1 mrg 160 1.14.6.1 martin #define ADJUST(l) do { \ 161 1.14.6.1 martin if (l >= remain) \ 162 1.14.6.1 martin return (AUDIO_ESHORTHDR); \ 163 1.14.6.1 martin where += (l); \ 164 1.14.6.1 martin remain -= (l); \ 165 1.14.6.1 martin } while (0) 166 1.14.6.1 martin 167 1.14.6.1 martin if (memcmp(where, strRIFF, sizeof strRIFF) != 0) 168 1.1 mrg return (AUDIO_ENOENT); 169 1.14.6.1 martin ADJUST(sizeof strRIFF); 170 1.14.6.1 martin /* XXX we ignore the RIFF length here */ 171 1.14.6.1 martin ADJUST(4); 172 1.14.6.1 martin if (memcmp(where, strWAVE, sizeof strWAVE) != 0) 173 1.1 mrg return (AUDIO_ENOENT); 174 1.14.6.1 martin ADJUST(sizeof strWAVE); 175 1.1 mrg 176 1.14.6.1 martin found = find_riff_chunk(strfmt, &remain, &where, &len); 177 1.1 mrg 178 1.1 mrg /* too short ? */ 179 1.14.6.1 martin if (!found || remain <= sizeof fmt) 180 1.1 mrg return (AUDIO_ESHORTHDR); 181 1.1 mrg 182 1.14.6.1 martin memcpy(&fmt, where, sizeof fmt); 183 1.9 mrg fmttag = getle16(fmt.tag); 184 1.9 mrg if (verbose) 185 1.14.6.1 martin printf("WAVE format tag/len: %04x/%u\n", fmttag, len); 186 1.9 mrg 187 1.9 mrg if (fmttag == WAVE_FORMAT_EXTENSIBLE) { 188 1.14.6.1 martin if (len < sizeof(fmt) + sizeof(ext)) { 189 1.14.6.1 martin if (verbose) 190 1.14.6.1 martin fprintf(stderr, "short WAVE ext fmt\n"); 191 1.9 mrg return (AUDIO_ESHORTHDR); 192 1.14.6.1 martin } 193 1.14.6.1 martin if (remain <= sizeof ext + sizeof fmt) { 194 1.14.6.1 martin if (verbose) 195 1.14.6.1 martin fprintf(stderr, "WAVE ext truncated\n"); 196 1.9 mrg return (AUDIO_ESHORTHDR); 197 1.14.6.1 martin } 198 1.14.6.1 martin memcpy(&ext, where + sizeof fmt, sizeof ext); 199 1.14 jdolecek fmttag = getle16(ext.sub_tag); 200 1.14.6.1 martin uint16_t sublen = getle16(ext.len); 201 1.9 mrg if (verbose) 202 1.14.6.1 martin printf("WAVE extensible tag/len: %04x/%u\n", fmttag, sublen); 203 1.14.6.1 martin 204 1.14.6.1 martin /* 205 1.14.6.1 martin * XXXMRG: it may be that part.len (aka sizeof fmt + sizeof ext) 206 1.14.6.1 martin * should equal sizeof fmt + sizeof ext.len + sublen? this block 207 1.14.6.1 martin * is only entered for part.len == 40, where ext.len is expected 208 1.14.6.1 martin * to be 22 (sizeof ext.len = 2, sizeof fmt = 16). 209 1.14.6.1 martin * 210 1.14.6.1 martin * warn about this, but don't consider it an error. 211 1.14.6.1 martin */ 212 1.14.6.1 martin if (getle16(ext.len) != 22 && verbose) { 213 1.14.6.1 martin fprintf(stderr, "warning: WAVE ext.len %u not 22\n", 214 1.14.6.1 martin getle16(ext.len)); 215 1.14.6.1 martin } 216 1.14.6.1 martin } else if (len < sizeof(fmt)) { 217 1.14.6.1 martin if (verbose) 218 1.14.6.1 martin fprintf(stderr, "WAVE fmt unsupported size %u\n", len); 219 1.14.6.1 martin return (AUDIO_EWAVUNSUPP); 220 1.9 mrg } 221 1.14.6.1 martin ADJUST(len); 222 1.9 mrg 223 1.9 mrg switch (fmttag) { 224 1.1 mrg default: 225 1.1 mrg return (AUDIO_EWAVUNSUPP); 226 1.1 mrg 227 1.1 mrg case WAVE_FORMAT_PCM: 228 1.9 mrg case WAVE_FORMAT_ADPCM: 229 1.9 mrg case WAVE_FORMAT_OKI_ADPCM: 230 1.9 mrg case WAVE_FORMAT_IMA_ADPCM: 231 1.9 mrg case WAVE_FORMAT_DIGIFIX: 232 1.9 mrg case WAVE_FORMAT_DIGISTD: 233 1.1 mrg switch (getle16(fmt.bits_per_sample)) { 234 1.1 mrg case 8: 235 1.1 mrg newprec = 8; 236 1.1 mrg break; 237 1.1 mrg case 16: 238 1.1 mrg newprec = 16; 239 1.1 mrg break; 240 1.1 mrg case 24: 241 1.1 mrg newprec = 24; 242 1.1 mrg break; 243 1.1 mrg case 32: 244 1.1 mrg newprec = 32; 245 1.1 mrg break; 246 1.1 mrg default: 247 1.1 mrg return (AUDIO_EWAVBADPCM); 248 1.1 mrg } 249 1.1 mrg if (newprec == 8) 250 1.1 mrg newenc = AUDIO_ENCODING_ULINEAR_LE; 251 1.1 mrg else 252 1.1 mrg newenc = AUDIO_ENCODING_SLINEAR_LE; 253 1.1 mrg break; 254 1.1 mrg case WAVE_FORMAT_ALAW: 255 1.1 mrg newenc = AUDIO_ENCODING_ALAW; 256 1.1 mrg newprec = 8; 257 1.1 mrg break; 258 1.1 mrg case WAVE_FORMAT_MULAW: 259 1.1 mrg newenc = AUDIO_ENCODING_ULAW; 260 1.1 mrg newprec = 8; 261 1.1 mrg break; 262 1.14.6.1 martin case WAVE_FORMAT_IEEE_FLOAT: 263 1.14.6.1 martin switch (getle16(fmt.bits_per_sample)) { 264 1.14.6.1 martin case 32: 265 1.14.6.1 martin newenc = AUDIO_ENCODING_LIBAUDIO_FLOAT32; 266 1.14.6.1 martin newprec = 32; 267 1.14.6.1 martin break; 268 1.14.6.1 martin case 64: 269 1.14.6.1 martin newenc = AUDIO_ENCODING_LIBAUDIO_FLOAT64; 270 1.14.6.1 martin newprec = 32; 271 1.14.6.1 martin break; 272 1.14.6.1 martin default: 273 1.14.6.1 martin return (AUDIO_EWAVBADPCM); 274 1.14.6.1 martin } 275 1.14.6.1 martin break; 276 1.1 mrg } 277 1.1 mrg 278 1.14.6.1 martin found = find_riff_chunk(strdata, &remain, &where, &len); 279 1.14.6.1 martin if (!found) 280 1.14.6.1 martin return (AUDIO_EWAVNODATA); 281 1.1 mrg 282 1.14.6.1 martin if (len) { 283 1.1 mrg if (channels) 284 1.7 mrg *channels = (u_int)getle16(fmt.channels); 285 1.1 mrg if (sample) 286 1.1 mrg *sample = getle32(fmt.sample_rate); 287 1.1 mrg if (enc) 288 1.1 mrg *enc = newenc; 289 1.1 mrg if (prec) 290 1.1 mrg *prec = newprec; 291 1.1 mrg if (datasize) 292 1.14.6.1 martin *datasize = (off_t)len; 293 1.14.6.1 martin return (where - (char *)hdr); 294 1.1 mrg } 295 1.1 mrg return (AUDIO_EWAVNODATA); 296 1.14.6.1 martin 297 1.14.6.1 martin #undef ADJUST 298 1.1 mrg } 299 1.11 mrg 300 1.11 mrg 301 1.11 mrg /* 302 1.11 mrg * prepare a WAV header for writing; we fill in hdrp, lenp and leftp, 303 1.11 mrg * and expect our caller (wav_write_header()) to use them. 304 1.11 mrg */ 305 1.11 mrg int 306 1.13 mrg wav_prepare_header(struct track_info *ti, void **hdrp, size_t *lenp, int *leftp) 307 1.11 mrg { 308 1.11 mrg /* 309 1.11 mrg * WAV header we write looks like this: 310 1.11 mrg * 311 1.11 mrg * bytes purpose 312 1.11 mrg * 0-3 "RIFF" 313 1.14.6.1 martin * 4-7 RIFF chunk length (file length minus 8) 314 1.11 mrg * 8-15 "WAVEfmt " 315 1.11 mrg * 16-19 format size 316 1.11 mrg * 20-21 format tag 317 1.11 mrg * 22-23 number of channels 318 1.11 mrg * 24-27 sample rate 319 1.11 mrg * 28-31 average bytes per second 320 1.11 mrg * 32-33 block alignment 321 1.11 mrg * 34-35 bits per sample 322 1.11 mrg * 323 1.11 mrg * then for ULAW and ALAW outputs, we have an extended chunk size 324 1.11 mrg * and a WAV "fact" to add: 325 1.11 mrg * 326 1.11 mrg * 36-37 length of extension (== 0) 327 1.11 mrg * 38-41 "fact" 328 1.11 mrg * 42-45 fact size 329 1.11 mrg * 46-49 number of samples written 330 1.11 mrg * 50-53 "data" 331 1.11 mrg * 54-57 data length 332 1.11 mrg * 58- raw audio data 333 1.11 mrg * 334 1.11 mrg * for PCM outputs we have just the data remaining: 335 1.11 mrg * 336 1.11 mrg * 36-39 "data" 337 1.11 mrg * 40-43 data length 338 1.11 mrg * 44- raw audio data 339 1.11 mrg * 340 1.11 mrg * RIFF\^@^C^@WAVEfmt ^P^@^@^@^A^@^B^@D<AC>^@^@^P<B1>^B^@^D^@^P^@data^@^@^C^@^@^@^@^@^@^@^@^@^@ 341 1.11 mrg */ 342 1.11 mrg static char wavheaderbuf[64]; 343 1.11 mrg char *p = wavheaderbuf; 344 1.11 mrg const char *riff = "RIFF", 345 1.11 mrg *wavefmt = "WAVEfmt ", 346 1.11 mrg *fact = "fact", 347 1.11 mrg *data = "data"; 348 1.11 mrg u_int32_t filelen, fmtsz, sps, abps, factsz = 4, nsample, datalen; 349 1.12 christos u_int16_t fmttag, nchan, align, extln = 0; 350 1.11 mrg 351 1.13 mrg if (ti->header_info) 352 1.11 mrg warnx("header information not supported for WAV"); 353 1.11 mrg *leftp = 0; 354 1.11 mrg 355 1.13 mrg switch (ti->precision) { 356 1.11 mrg case 8: 357 1.11 mrg break; 358 1.11 mrg case 16: 359 1.11 mrg break; 360 1.14.6.1 martin case 24: 361 1.14.6.1 martin break; 362 1.11 mrg case 32: 363 1.11 mrg break; 364 1.11 mrg default: 365 1.11 mrg { 366 1.11 mrg static int warned = 0; 367 1.11 mrg 368 1.11 mrg if (warned == 0) { 369 1.13 mrg warnx("can not support precision of %d", ti->precision); 370 1.11 mrg warned = 1; 371 1.11 mrg } 372 1.11 mrg } 373 1.11 mrg return (-1); 374 1.11 mrg } 375 1.11 mrg 376 1.13 mrg switch (ti->encoding) { 377 1.11 mrg case AUDIO_ENCODING_ULAW: 378 1.11 mrg fmttag = WAVE_FORMAT_MULAW; 379 1.11 mrg fmtsz = 18; 380 1.13 mrg align = ti->channels; 381 1.11 mrg break; 382 1.11 mrg 383 1.11 mrg case AUDIO_ENCODING_ALAW: 384 1.11 mrg fmttag = WAVE_FORMAT_ALAW; 385 1.11 mrg fmtsz = 18; 386 1.13 mrg align = ti->channels; 387 1.11 mrg break; 388 1.11 mrg 389 1.11 mrg /* 390 1.11 mrg * we could try to support RIFX but it seems to be more portable 391 1.11 mrg * to output little-endian data for WAV files. 392 1.11 mrg */ 393 1.11 mrg case AUDIO_ENCODING_ULINEAR_BE: 394 1.11 mrg case AUDIO_ENCODING_SLINEAR_BE: 395 1.11 mrg case AUDIO_ENCODING_ULINEAR_LE: 396 1.11 mrg case AUDIO_ENCODING_SLINEAR_LE: 397 1.11 mrg case AUDIO_ENCODING_PCM16: 398 1.11 mrg 399 1.11 mrg #if BYTE_ORDER == LITTLE_ENDIAN 400 1.11 mrg case AUDIO_ENCODING_ULINEAR: 401 1.11 mrg case AUDIO_ENCODING_SLINEAR: 402 1.11 mrg #endif 403 1.11 mrg fmttag = WAVE_FORMAT_PCM; 404 1.11 mrg fmtsz = 16; 405 1.13 mrg align = ti->channels * (ti->precision / 8); 406 1.11 mrg break; 407 1.11 mrg 408 1.11 mrg default: 409 1.11 mrg #if 0 // move into record.c, and maybe merge.c 410 1.11 mrg { 411 1.11 mrg static int warned = 0; 412 1.11 mrg 413 1.11 mrg if (warned == 0) { 414 1.13 mrg const char *s = wav_enc_from_val(ti->encoding); 415 1.11 mrg 416 1.11 mrg if (s == NULL) 417 1.11 mrg warnx("can not support encoding of %s", s); 418 1.11 mrg else 419 1.13 mrg warnx("can not support encoding of %d", ti->encoding); 420 1.11 mrg warned = 1; 421 1.11 mrg } 422 1.11 mrg } 423 1.11 mrg #endif 424 1.13 mrg ti->format = AUDIO_FORMAT_NONE; 425 1.11 mrg return (-1); 426 1.11 mrg } 427 1.11 mrg 428 1.13 mrg nchan = ti->channels; 429 1.13 mrg sps = ti->sample_rate; 430 1.11 mrg 431 1.11 mrg /* data length */ 432 1.13 mrg if (ti->outfd == STDOUT_FILENO) 433 1.11 mrg datalen = 0; 434 1.13 mrg else if (ti->total_size != -1) 435 1.13 mrg datalen = ti->total_size; 436 1.11 mrg else 437 1.11 mrg datalen = 0; 438 1.11 mrg 439 1.11 mrg /* file length */ 440 1.11 mrg filelen = 4 + (8 + fmtsz) + (8 + datalen); 441 1.11 mrg if (fmttag != WAVE_FORMAT_PCM) 442 1.11 mrg filelen += 8 + factsz; 443 1.11 mrg 444 1.13 mrg abps = (double)align*ti->sample_rate / (double)1 + 0.5; 445 1.11 mrg 446 1.13 mrg nsample = (datalen / ti->precision) / ti->sample_rate; 447 1.14.6.1 martin 448 1.11 mrg /* 449 1.11 mrg * now we've calculated the info, write it out! 450 1.11 mrg */ 451 1.11 mrg #define put32(x) do { \ 452 1.11 mrg u_int32_t _f; \ 453 1.11 mrg putle32(_f, (x)); \ 454 1.11 mrg memcpy(p, &_f, 4); \ 455 1.11 mrg } while (0) 456 1.11 mrg #define put16(x) do { \ 457 1.11 mrg u_int16_t _f; \ 458 1.11 mrg putle16(_f, (x)); \ 459 1.11 mrg memcpy(p, &_f, 2); \ 460 1.11 mrg } while (0) 461 1.11 mrg memcpy(p, riff, 4); 462 1.11 mrg p += 4; /* 4 */ 463 1.11 mrg put32(filelen); 464 1.11 mrg p += 4; /* 8 */ 465 1.11 mrg memcpy(p, wavefmt, 8); 466 1.11 mrg p += 8; /* 16 */ 467 1.11 mrg put32(fmtsz); 468 1.11 mrg p += 4; /* 20 */ 469 1.11 mrg put16(fmttag); 470 1.11 mrg p += 2; /* 22 */ 471 1.11 mrg put16(nchan); 472 1.11 mrg p += 2; /* 24 */ 473 1.11 mrg put32(sps); 474 1.11 mrg p += 4; /* 28 */ 475 1.11 mrg put32(abps); 476 1.11 mrg p += 4; /* 32 */ 477 1.11 mrg put16(align); 478 1.11 mrg p += 2; /* 34 */ 479 1.13 mrg put16(ti->precision); 480 1.11 mrg p += 2; /* 36 */ 481 1.11 mrg /* NON PCM formats have an extended chunk; write it */ 482 1.11 mrg if (fmttag != WAVE_FORMAT_PCM) { 483 1.11 mrg put16(extln); 484 1.11 mrg p += 2; /* 38 */ 485 1.11 mrg memcpy(p, fact, 4); 486 1.11 mrg p += 4; /* 42 */ 487 1.11 mrg put32(factsz); 488 1.11 mrg p += 4; /* 46 */ 489 1.11 mrg put32(nsample); 490 1.11 mrg p += 4; /* 50 */ 491 1.11 mrg } 492 1.11 mrg memcpy(p, data, 4); 493 1.11 mrg p += 4; /* 40/54 */ 494 1.11 mrg put32(datalen); 495 1.11 mrg p += 4; /* 44/58 */ 496 1.11 mrg #undef put32 497 1.11 mrg #undef put16 498 1.11 mrg 499 1.11 mrg *hdrp = wavheaderbuf; 500 1.11 mrg *lenp = (p - wavheaderbuf); 501 1.11 mrg 502 1.11 mrg return 0; 503 1.11 mrg } 504 1.11 mrg 505 1.11 mrg write_conv_func 506 1.13 mrg wav_write_get_conv_func(struct track_info *ti) 507 1.11 mrg { 508 1.11 mrg write_conv_func conv_func = NULL; 509 1.11 mrg 510 1.13 mrg switch (ti->encoding) { 511 1.11 mrg 512 1.11 mrg /* 513 1.11 mrg * we could try to support RIFX but it seems to be more portable 514 1.11 mrg * to output little-endian data for WAV files. 515 1.11 mrg */ 516 1.11 mrg case AUDIO_ENCODING_ULINEAR_BE: 517 1.11 mrg #if BYTE_ORDER == BIG_ENDIAN 518 1.11 mrg case AUDIO_ENCODING_ULINEAR: 519 1.11 mrg #endif 520 1.13 mrg if (ti->precision == 16) 521 1.11 mrg conv_func = change_sign16_swap_bytes_be; 522 1.13 mrg else if (ti->precision == 32) 523 1.11 mrg conv_func = change_sign32_swap_bytes_be; 524 1.11 mrg break; 525 1.11 mrg 526 1.11 mrg case AUDIO_ENCODING_SLINEAR_BE: 527 1.11 mrg #if BYTE_ORDER == BIG_ENDIAN 528 1.11 mrg case AUDIO_ENCODING_SLINEAR: 529 1.11 mrg #endif 530 1.13 mrg if (ti->precision == 8) 531 1.11 mrg conv_func = change_sign8; 532 1.13 mrg else if (ti->precision == 16) 533 1.11 mrg conv_func = swap_bytes; 534 1.13 mrg else if (ti->precision == 32) 535 1.11 mrg conv_func = swap_bytes32; 536 1.11 mrg break; 537 1.11 mrg 538 1.11 mrg case AUDIO_ENCODING_ULINEAR_LE: 539 1.11 mrg #if BYTE_ORDER == LITTLE_ENDIAN 540 1.11 mrg case AUDIO_ENCODING_ULINEAR: 541 1.11 mrg #endif 542 1.13 mrg if (ti->precision == 16) 543 1.11 mrg conv_func = change_sign16_le; 544 1.13 mrg else if (ti->precision == 32) 545 1.11 mrg conv_func = change_sign32_le; 546 1.11 mrg break; 547 1.11 mrg 548 1.11 mrg case AUDIO_ENCODING_SLINEAR_LE: 549 1.11 mrg case AUDIO_ENCODING_PCM16: 550 1.11 mrg #if BYTE_ORDER == LITTLE_ENDIAN 551 1.11 mrg case AUDIO_ENCODING_SLINEAR: 552 1.11 mrg #endif 553 1.13 mrg if (ti->precision == 8) 554 1.11 mrg conv_func = change_sign8; 555 1.11 mrg break; 556 1.11 mrg 557 1.11 mrg default: 558 1.13 mrg ti->format = AUDIO_FORMAT_NONE; 559 1.11 mrg } 560 1.11 mrg 561 1.11 mrg return conv_func; 562 1.11 mrg } 563
Indexes created Tue Oct 28 12:10:06 GMT 2025