ref: aaa8932887e11d0b6b90462a15ba05237ecd306a
dir: /src/wav.c/
/* libSoX microsoft's WAVE sound format handler * * Copyright 1998-2006 Chris Bagwell and SoX Contributors * Copyright 1997 Graeme W. Gill, 93/5/17 * Copyright 1992 Rick Richardson * Copyright 1991 Lance Norskog And Sundry Contributors * * Info for format tags can be found at: * http://www-mmsp.ece.mcgill.ca/Documents/AudioFormats/WAVE/WAVE.html * */ #include "sox_i.h" #include <string.h> #include <stdlib.h> #include <stdio.h> #include "ima_rw.h" #include "adpcm.h" #ifdef EXTERNAL_GSM #ifdef HAVE_GSM_GSM_H #include <gsm/gsm.h> #else #include <gsm.h> #endif #else #include "../libgsm/gsm.h" #endif /* Magic length writen when its not possible to write valid lengths. * This can be either because of non-seekable output or because * the length can not be represented by the 32-bits used in WAV files. * When magic length is detected on inputs, disable any length * logic. */ #define MS_UNSPEC 0x7ffff000 #define WAVE_FORMAT_UNKNOWN (0x0000U) #define WAVE_FORMAT_PCM (0x0001U) #define WAVE_FORMAT_ADPCM (0x0002U) #define WAVE_FORMAT_IEEE_FLOAT (0x0003U) #define WAVE_FORMAT_ALAW (0x0006U) #define WAVE_FORMAT_MULAW (0x0007U) #define WAVE_FORMAT_OKI_ADPCM (0x0010U) #define WAVE_FORMAT_IMA_ADPCM (0x0011U) #define WAVE_FORMAT_DIGISTD (0x0015U) #define WAVE_FORMAT_DIGIFIX (0x0016U) #define WAVE_FORMAT_DOLBY_AC2 (0x0030U) #define WAVE_FORMAT_GSM610 (0x0031U) #define WAVE_FORMAT_ROCKWELL_ADPCM (0x003bU) #define WAVE_FORMAT_ROCKWELL_DIGITALK (0x003cU) #define WAVE_FORMAT_G721_ADPCM (0x0040U) #define WAVE_FORMAT_G728_CELP (0x0041U) #define WAVE_FORMAT_MPEG (0x0050U) #define WAVE_FORMAT_MPEGLAYER3 (0x0055U) #define WAVE_FORMAT_G726_ADPCM (0x0064U) #define WAVE_FORMAT_G722_ADPCM (0x0065U) #define WAVE_FORMAT_EXTENSIBLE (0xfffeU) /* To allow padding to samplesPerBlock. Works, but currently never true. */ static const size_t pad_nsamps = sox_false; /* Private data for .wav file */ typedef struct { /* samples/channel reading: starts at total count and decremented */ /* writing: starts at 0 and counts samples written */ uint64_t numSamples; size_t dataLength; /* needed for ADPCM writing */ unsigned short formatTag; /* What type of encoding file is using */ unsigned short samplesPerBlock; unsigned short blockAlign; size_t dataStart; /* need to for seeking */ char * comment; int ignoreSize; /* ignoreSize allows us to process 32-bit WAV files that are * greater then 2 Gb and can't be represented by the * 32-bit size field. */ /* FIXME: Have some front-end code which sets this flag. */ /* following used by *ADPCM wav files */ unsigned short nCoefs; /* ADPCM: number of coef sets */ short *lsx_ms_adpcm_i_coefs; /* ADPCM: coef sets */ unsigned char *packet; /* Temporary buffer for packets */ short *samples; /* interleaved samples buffer */ short *samplePtr; /* Pointer to current sample */ short *sampleTop; /* End of samples-buffer */ unsigned short blockSamplesRemaining;/* Samples remaining per channel */ int state[16]; /* step-size info for *ADPCM writes */ /* following used by GSM 6.10 wav */ gsm gsmhandle; gsm_signal *gsmsample; int gsmindex; size_t gsmbytecount; /* counts bytes written to data block */ } priv_t; static char *wav_format_str(unsigned wFormatTag); static int wavwritehdr(sox_format_t *, int); /****************************************************************************/ /* IMA ADPCM Support Functions Section */ /****************************************************************************/ /* * * ImaAdpcmReadBlock - Grab and decode complete block of samples * */ static unsigned short ImaAdpcmReadBlock(sox_format_t * ft) { priv_t * wav = (priv_t *) ft->priv; size_t bytesRead; int samplesThisBlock; /* Pull in the packet and check the header */ bytesRead = lsx_readbuf(ft, wav->packet, (size_t)wav->blockAlign); samplesThisBlock = wav->samplesPerBlock; if (bytesRead < wav->blockAlign) { /* If it looks like a valid header is around then try and */ /* work with partial blocks. Specs say it should be null */ /* padded but I guess this is better than trailing quiet. */ samplesThisBlock = lsx_ima_samples_in((size_t)0, (size_t)ft->signal.channels, bytesRead, (size_t) 0); if (samplesThisBlock == 0) { lsx_warn("Premature EOF on .wav input file"); return 0; } } wav->samplePtr = wav->samples; /* For a full block, the following should be true: */ /* wav->samplesPerBlock = blockAlign - 8byte header + 1 sample in header */ lsx_ima_block_expand_i(ft->signal.channels, wav->packet, wav->samples, samplesThisBlock); return samplesThisBlock; } /****************************************************************************/ /* MS ADPCM Support Functions Section */ /****************************************************************************/ /* * * AdpcmReadBlock - Grab and decode complete block of samples * */ static unsigned short AdpcmReadBlock(sox_format_t * ft) { priv_t * wav = (priv_t *) ft->priv; size_t bytesRead; int samplesThisBlock; const char *errmsg; /* Pull in the packet and check the header */ bytesRead = lsx_readbuf(ft, wav->packet, (size_t) wav->blockAlign); samplesThisBlock = wav->samplesPerBlock; if (bytesRead < wav->blockAlign) { /* If it looks like a valid header is around then try and */ /* work with partial blocks. Specs say it should be null */ /* padded but I guess this is better than trailing quiet. */ samplesThisBlock = lsx_ms_adpcm_samples_in((size_t)0, (size_t)ft->signal.channels, bytesRead, (size_t)0); if (samplesThisBlock == 0) { lsx_warn("Premature EOF on .wav input file"); return 0; } } errmsg = lsx_ms_adpcm_block_expand_i(ft->signal.channels, wav->nCoefs, wav->lsx_ms_adpcm_i_coefs, wav->packet, wav->samples, samplesThisBlock); if (errmsg) lsx_warn("%s", errmsg); return samplesThisBlock; } /****************************************************************************/ /* Common ADPCM Write Function */ /****************************************************************************/ static int xxxAdpcmWriteBlock(sox_format_t * ft) { priv_t * wav = (priv_t *) ft->priv; size_t chans, ct; short *p; chans = ft->signal.channels; p = wav->samplePtr; ct = p - wav->samples; if (ct>=chans) { /* zero-fill samples if needed to complete block */ for (p = wav->samplePtr; p < wav->sampleTop; p++) *p=0; /* compress the samples to wav->packet */ if (wav->formatTag == WAVE_FORMAT_ADPCM) { lsx_ms_adpcm_block_mash_i((unsigned) chans, wav->samples, wav->samplesPerBlock, wav->state, wav->packet, wav->blockAlign); }else{ /* WAVE_FORMAT_IMA_ADPCM */ lsx_ima_block_mash_i((unsigned) chans, wav->samples, wav->samplesPerBlock, wav->state, wav->packet, 9); } /* write the compressed packet */ if (lsx_writebuf(ft, wav->packet, (size_t) wav->blockAlign) != wav->blockAlign) { lsx_fail_errno(ft,SOX_EOF,"write error"); return (SOX_EOF); } /* update lengths and samplePtr */ wav->dataLength += wav->blockAlign; if (pad_nsamps) wav->numSamples += wav->samplesPerBlock; else wav->numSamples += ct/chans; wav->samplePtr = wav->samples; } return (SOX_SUCCESS); } /****************************************************************************/ /* WAV GSM6.10 support functions */ /****************************************************************************/ /* create the gsm object, malloc buffer for 160*2 samples */ static int wavgsminit(sox_format_t * ft) { int valueP=1; priv_t * wav = (priv_t *) ft->priv; wav->gsmbytecount=0; wav->gsmhandle=gsm_create(); if (!wav->gsmhandle) { lsx_fail_errno(ft,SOX_EOF,"cannot create GSM object"); return (SOX_EOF); } if(gsm_option(wav->gsmhandle,GSM_OPT_WAV49,&valueP) == -1){ lsx_fail_errno(ft,SOX_EOF,"error setting gsm_option for WAV49 format. Recompile gsm library with -DWAV49 option and relink sox"); return (SOX_EOF); } wav->gsmsample=lsx_malloc(sizeof(gsm_signal)*160*2); wav->gsmindex=0; return (SOX_SUCCESS); } /*destroy the gsm object and free the buffer */ static void wavgsmdestroy(sox_format_t * ft) { priv_t * wav = (priv_t *) ft->priv; gsm_destroy(wav->gsmhandle); free(wav->gsmsample); } static size_t wavgsmread(sox_format_t * ft, sox_sample_t *buf, size_t len) { priv_t * wav = (priv_t *) ft->priv; size_t done=0; int bytes; gsm_byte frame[65]; ft->sox_errno = SOX_SUCCESS; /* copy out any samples left from the last call */ while(wav->gsmindex && (wav->gsmindex<160*2) && (done < len)) buf[done++]=SOX_SIGNED_16BIT_TO_SAMPLE(wav->gsmsample[wav->gsmindex++],); /* read and decode loop, possibly leaving some samples in wav->gsmsample */ while (done < len) { wav->gsmindex=0; bytes = lsx_readbuf(ft, frame, (size_t)65); if (bytes <=0) return done; if (bytes<65) { lsx_warn("invalid wav gsm frame size: %d bytes",bytes); return done; } /* decode the long 33 byte half */ if(gsm_decode(wav->gsmhandle,frame, wav->gsmsample)<0) { lsx_fail_errno(ft,SOX_EOF,"error during gsm decode"); return 0; } /* decode the short 32 byte half */ if(gsm_decode(wav->gsmhandle,frame+33, wav->gsmsample+160)<0) { lsx_fail_errno(ft,SOX_EOF,"error during gsm decode"); return 0; } while ((wav->gsmindex <160*2) && (done < len)){ buf[done++]=SOX_SIGNED_16BIT_TO_SAMPLE(wav->gsmsample[(wav->gsmindex)++],); } } return done; } static int wavgsmflush(sox_format_t * ft) { gsm_byte frame[65]; priv_t * wav = (priv_t *) ft->priv; /* zero fill as needed */ while(wav->gsmindex<160*2) wav->gsmsample[wav->gsmindex++]=0; /*encode the even half short (32 byte) frame */ gsm_encode(wav->gsmhandle, wav->gsmsample, frame); /*encode the odd half long (33 byte) frame */ gsm_encode(wav->gsmhandle, wav->gsmsample+160, frame+32); if (lsx_writebuf(ft, frame, (size_t) 65) != 65) { lsx_fail_errno(ft,SOX_EOF,"write error"); return (SOX_EOF); } wav->gsmbytecount += 65; wav->gsmindex = 0; return (SOX_SUCCESS); } static size_t wavgsmwrite(sox_format_t * ft, const sox_sample_t *buf, size_t len) { priv_t * wav = (priv_t *) ft->priv; size_t done = 0; int rc; ft->sox_errno = SOX_SUCCESS; while (done < len) { SOX_SAMPLE_LOCALS; while ((wav->gsmindex < 160*2) && (done < len)) wav->gsmsample[(wav->gsmindex)++] = SOX_SAMPLE_TO_SIGNED_16BIT(buf[done++], ft->clips); if (wav->gsmindex < 160*2) break; rc = wavgsmflush(ft); if (rc) return 0; } return done; } static void wavgsmstopwrite(sox_format_t * ft) { priv_t * wav = (priv_t *) ft->priv; ft->sox_errno = SOX_SUCCESS; if (wav->gsmindex) wavgsmflush(ft); /* Add a pad byte if amount of written bytes is not even. */ if (wav->gsmbytecount && wav->gsmbytecount % 2){ if(lsx_writeb(ft, 0)) lsx_fail_errno(ft,SOX_EOF,"write error"); else wav->gsmbytecount += 1; } wavgsmdestroy(ft); } /****************************************************************************/ /* General Sox WAV file code */ /****************************************************************************/ static int findChunk(sox_format_t * ft, const char *Label, uint32_t *len) { char magic[5]; for (;;) { if (lsx_reads(ft, magic, (size_t)4) == SOX_EOF) { lsx_fail_errno(ft, SOX_EHDR, "WAVE file has missing %s chunk", Label); return SOX_EOF; } lsx_debug("WAV Chunk %s", magic); if (lsx_readdw(ft, len) == SOX_EOF) { lsx_fail_errno(ft, SOX_EHDR, "WAVE file %s chunk is too short", magic); return SOX_EOF; } if (strncmp(Label, magic, (size_t)4) == 0) break; /* Found the given chunk */ /* skip to next chunk */ if (*len == 0 || lsx_seeki(ft, (off_t)(*len), SEEK_CUR) != SOX_SUCCESS) { lsx_fail_errno(ft,SOX_EHDR, "WAV chunk appears to have invalid size %d.", *len); return SOX_EOF; } } return SOX_SUCCESS; } static int wavfail(sox_format_t * ft, const char *format) { lsx_fail_errno(ft, SOX_EHDR, "WAV file encoding `%s' is not supported", format); return SOX_EOF; } /* * Do anything required before you start reading samples. * Read file header. * Find out sampling rate, * size and encoding of samples, * mono/stereo/quad. */ static int startread(sox_format_t * ft) { priv_t * wav = (priv_t *) ft->priv; char magic[5]; uint32_t len; /* wave file characteristics */ uint32_t dwRiffLength; unsigned short wChannels; /* number of channels */ uint32_t dwSamplesPerSecond; /* samples per second per channel */ uint32_t dwAvgBytesPerSec;/* estimate of bytes per second needed */ uint16_t wBitsPerSample; /* bits per sample */ uint32_t wFmtSize; uint16_t wExtSize = 0; /* extended field for non-PCM */ uint32_t dwDataLength; /* length of sound data in bytes */ size_t bytesPerBlock = 0; int bytespersample; /* bytes per sample (per channel */ char text[256]; uint32_t dwLoopPos; ft->sox_errno = SOX_SUCCESS; wav->ignoreSize = ft->signal.length == SOX_IGNORE_LENGTH; if (lsx_reads(ft, magic, (size_t)4) == SOX_EOF || (strncmp("RIFF", magic, (size_t)4) != 0 && strncmp("RIFX", magic, (size_t)4) != 0)) { lsx_fail_errno(ft,SOX_EHDR,"WAVE: RIFF header not found"); return SOX_EOF; } /* RIFX is a Big-endian RIFF */ if (strncmp("RIFX", magic, (size_t)4) == 0) { lsx_debug("Found RIFX header"); ft->encoding.reverse_bytes = MACHINE_IS_LITTLEENDIAN; } else ft->encoding.reverse_bytes = MACHINE_IS_BIGENDIAN; lsx_readdw(ft, &dwRiffLength); if (lsx_reads(ft, magic, (size_t)4) == SOX_EOF || strncmp("WAVE", magic, (size_t)4)) { lsx_fail_errno(ft,SOX_EHDR,"WAVE header not found"); return SOX_EOF; } /* Now look for the format chunk */ if (findChunk(ft, "fmt ", &len) == SOX_EOF) { lsx_fail_errno(ft,SOX_EHDR,"WAVE chunk fmt not found"); return SOX_EOF; } wFmtSize = len; if (wFmtSize < 16) { lsx_fail_errno(ft,SOX_EHDR,"WAVE file fmt chunk is too short"); return SOX_EOF; } lsx_readw(ft, &(wav->formatTag)); lsx_readw(ft, &wChannels); lsx_readdw(ft, &dwSamplesPerSecond); lsx_readdw(ft, &dwAvgBytesPerSec); /* Average bytes/second */ lsx_readw(ft, &(wav->blockAlign)); /* Block align */ lsx_readw(ft, &wBitsPerSample); /* bits per sample per channel */ len -= 16; if (wav->formatTag == WAVE_FORMAT_EXTENSIBLE) { uint16_t extensionSize; uint16_t numberOfValidBits; uint32_t speakerPositionMask; uint16_t subFormatTag; uint8_t dummyByte; int i; if (wFmtSize < 18) { lsx_fail_errno(ft,SOX_EHDR,"WAVE file fmt chunk is too short"); return SOX_EOF; } lsx_readw(ft, &extensionSize); len -= 2; if (extensionSize < 22) { lsx_fail_errno(ft,SOX_EHDR,"WAVE file fmt chunk is too short"); return SOX_EOF; } lsx_readw(ft, &numberOfValidBits); lsx_readdw(ft, &speakerPositionMask); lsx_readw(ft, &subFormatTag); for (i = 0; i < 14; ++i) lsx_readb(ft, &dummyByte); len -= 22; if (numberOfValidBits != wBitsPerSample) { lsx_fail_errno(ft,SOX_EHDR,"WAVE file fmt with padded samples is not supported yet"); return SOX_EOF; } wav->formatTag = subFormatTag; lsx_report("EXTENSIBLE"); } switch (wav->formatTag) { case WAVE_FORMAT_UNKNOWN: lsx_fail_errno(ft,SOX_EHDR,"WAVE file is in unsupported Microsoft Official Unknown format."); return SOX_EOF; case WAVE_FORMAT_PCM: /* Default (-1) depends on sample size. Set that later on. */ if (ft->encoding.encoding != SOX_ENCODING_UNKNOWN && ft->encoding.encoding != SOX_ENCODING_UNSIGNED && ft->encoding.encoding != SOX_ENCODING_SIGN2) lsx_report("User options overriding encoding read in .wav header"); break; case WAVE_FORMAT_IMA_ADPCM: if (ft->encoding.encoding == SOX_ENCODING_UNKNOWN || ft->encoding.encoding == SOX_ENCODING_IMA_ADPCM) ft->encoding.encoding = SOX_ENCODING_IMA_ADPCM; else lsx_report("User options overriding encoding read in .wav header"); break; case WAVE_FORMAT_ADPCM: if (ft->encoding.encoding == SOX_ENCODING_UNKNOWN || ft->encoding.encoding == SOX_ENCODING_MS_ADPCM) ft->encoding.encoding = SOX_ENCODING_MS_ADPCM; else lsx_report("User options overriding encoding read in .wav header"); break; case WAVE_FORMAT_IEEE_FLOAT: if (ft->encoding.encoding == SOX_ENCODING_UNKNOWN || ft->encoding.encoding == SOX_ENCODING_FLOAT) ft->encoding.encoding = SOX_ENCODING_FLOAT; else lsx_report("User options overriding encoding read in .wav header"); break; case WAVE_FORMAT_ALAW: if (ft->encoding.encoding == SOX_ENCODING_UNKNOWN || ft->encoding.encoding == SOX_ENCODING_ALAW) ft->encoding.encoding = SOX_ENCODING_ALAW; else lsx_report("User options overriding encoding read in .wav header"); break; case WAVE_FORMAT_MULAW: if (ft->encoding.encoding == SOX_ENCODING_UNKNOWN || ft->encoding.encoding == SOX_ENCODING_ULAW) ft->encoding.encoding = SOX_ENCODING_ULAW; else lsx_report("User options overriding encoding read in .wav header"); break; case WAVE_FORMAT_OKI_ADPCM: return wavfail(ft, "OKI ADPCM"); case WAVE_FORMAT_DIGISTD: return wavfail(ft, "Digistd"); case WAVE_FORMAT_DIGIFIX: return wavfail(ft, "Digifix"); case WAVE_FORMAT_DOLBY_AC2: return wavfail(ft, "Dolby AC2"); case WAVE_FORMAT_GSM610: if (ft->encoding.encoding == SOX_ENCODING_UNKNOWN || ft->encoding.encoding == SOX_ENCODING_GSM ) ft->encoding.encoding = SOX_ENCODING_GSM; else lsx_report("User options overriding encoding read in .wav header"); break; case WAVE_FORMAT_ROCKWELL_ADPCM: return wavfail(ft, "Rockwell ADPCM"); case WAVE_FORMAT_ROCKWELL_DIGITALK: return wavfail(ft, "Rockwell DIGITALK"); case WAVE_FORMAT_G721_ADPCM: return wavfail(ft, "G.721 ADPCM"); case WAVE_FORMAT_G728_CELP: return wavfail(ft, "G.728 CELP"); case WAVE_FORMAT_MPEG: return wavfail(ft, "MPEG"); case WAVE_FORMAT_MPEGLAYER3: return wavfail(ft, "MP3"); case WAVE_FORMAT_G726_ADPCM: return wavfail(ft, "G.726 ADPCM"); case WAVE_FORMAT_G722_ADPCM: return wavfail(ft, "G.722 ADPCM"); default: lsx_fail_errno(ft, SOX_EHDR, "Unknown WAV file encoding (type %x)", wav->formatTag); return SOX_EOF; } /* User options take precedence */ if (ft->signal.channels == 0 || ft->signal.channels == wChannels) ft->signal.channels = wChannels; else lsx_report("User options overriding channels read in .wav header"); if (ft->signal.rate == 0 || ft->signal.rate == dwSamplesPerSecond) ft->signal.rate = dwSamplesPerSecond; else lsx_report("User options overriding rate read in .wav header"); wav->lsx_ms_adpcm_i_coefs = NULL; wav->packet = NULL; wav->samples = NULL; /* non-PCM formats expect alaw and mulaw formats have extended fmt chunk. * Check for those cases. */ if (wav->formatTag != WAVE_FORMAT_PCM && wav->formatTag != WAVE_FORMAT_ALAW && wav->formatTag != WAVE_FORMAT_MULAW) { if (len >= 2) { lsx_readw(ft, &wExtSize); len -= 2; } else { lsx_warn("wave header missing FmtExt chunk"); } } if (wExtSize > len) { lsx_fail_errno(ft,SOX_EOF,"wave header error: wExtSize inconsistent with wFmtLen"); return SOX_EOF; } switch (wav->formatTag) { case WAVE_FORMAT_ADPCM: if (wExtSize < 4) { lsx_fail_errno(ft,SOX_EOF,"format[%s]: expects wExtSize >= %d", wav_format_str(wav->formatTag), 4); return SOX_EOF; } if (wBitsPerSample != 4) { lsx_fail_errno(ft,SOX_EOF,"Can only handle 4-bit MS ADPCM in wav files"); return SOX_EOF; } lsx_readw(ft, &(wav->samplesPerBlock)); bytesPerBlock = lsx_ms_adpcm_bytes_per_block((size_t) ft->signal.channels, (size_t) wav->samplesPerBlock); if (bytesPerBlock > wav->blockAlign) { lsx_fail_errno(ft,SOX_EOF,"format[%s]: samplesPerBlock(%d) incompatible with blockAlign(%d)", wav_format_str(wav->formatTag), wav->samplesPerBlock, wav->blockAlign); return SOX_EOF; } lsx_readw(ft, &(wav->nCoefs)); if (wav->nCoefs < 7 || wav->nCoefs > 0x100) { lsx_fail_errno(ft,SOX_EOF,"ADPCM file nCoefs (%.4hx) makes no sense", wav->nCoefs); return SOX_EOF; } wav->packet = lsx_malloc((size_t)wav->blockAlign); len -= 4; if (wExtSize < 4 + 4*wav->nCoefs) { lsx_fail_errno(ft,SOX_EOF,"wave header error: wExtSize(%d) too small for nCoefs(%d)", wExtSize, wav->nCoefs); return SOX_EOF; } wav->samples = lsx_malloc(wChannels*wav->samplesPerBlock*sizeof(short)); /* nCoefs, lsx_ms_adpcm_i_coefs used by adpcm.c */ wav->lsx_ms_adpcm_i_coefs = lsx_malloc(wav->nCoefs * 2 * sizeof(short)); { int i, errct=0; for (i=0; len>=2 && i < 2*wav->nCoefs; i++) { lsx_readsw(ft, &(wav->lsx_ms_adpcm_i_coefs[i])); len -= 2; if (i<14) errct += (wav->lsx_ms_adpcm_i_coefs[i] != lsx_ms_adpcm_i_coef[i/2][i%2]); /* lsx_debug("lsx_ms_adpcm_i_coefs[%2d] %4d",i,wav->lsx_ms_adpcm_i_coefs[i]); */ } if (errct) lsx_warn("base lsx_ms_adpcm_i_coefs differ in %d/14 positions",errct); } bytespersample = 2; /* AFTER de-compression */ break; case WAVE_FORMAT_IMA_ADPCM: if (wExtSize < 2) { lsx_fail_errno(ft,SOX_EOF,"format[%s]: expects wExtSize >= %d", wav_format_str(wav->formatTag), 2); return SOX_EOF; } if (wBitsPerSample != 4) { lsx_fail_errno(ft,SOX_EOF,"Can only handle 4-bit IMA ADPCM in wav files"); return SOX_EOF; } lsx_readw(ft, &(wav->samplesPerBlock)); bytesPerBlock = lsx_ima_bytes_per_block((size_t) ft->signal.channels, (size_t) wav->samplesPerBlock); if (bytesPerBlock > wav->blockAlign || wav->samplesPerBlock%8 != 1) { lsx_fail_errno(ft,SOX_EOF,"format[%s]: samplesPerBlock(%d) incompatible with blockAlign(%d)", wav_format_str(wav->formatTag), wav->samplesPerBlock, wav->blockAlign); return SOX_EOF; } wav->packet = lsx_malloc((size_t)wav->blockAlign); len -= 2; wav->samples = lsx_malloc(wChannels*wav->samplesPerBlock*sizeof(short)); bytespersample = 2; /* AFTER de-compression */ break; /* GSM formats have extended fmt chunk. Check for those cases. */ case WAVE_FORMAT_GSM610: if (wExtSize < 2) { lsx_fail_errno(ft,SOX_EOF,"format[%s]: expects wExtSize >= %d", wav_format_str(wav->formatTag), 2); return SOX_EOF; } lsx_readw(ft, &wav->samplesPerBlock); bytesPerBlock = 65; if (wav->blockAlign != 65) { lsx_fail_errno(ft,SOX_EOF,"format[%s]: expects blockAlign(%d) = %d", wav_format_str(wav->formatTag), wav->blockAlign, 65); return SOX_EOF; } if (wav->samplesPerBlock != 320) { lsx_fail_errno(ft,SOX_EOF,"format[%s]: expects samplesPerBlock(%d) = %d", wav_format_str(wav->formatTag), wav->samplesPerBlock, 320); return SOX_EOF; } bytespersample = 2; /* AFTER de-compression */ len -= 2; break; default: bytespersample = (wBitsPerSample + 7)/8; } /* User options take precedence */ if (!ft->encoding.bits_per_sample || ft->encoding.bits_per_sample == wBitsPerSample) ft->encoding.bits_per_sample = wBitsPerSample; else lsx_warn("User options overriding size read in .wav header"); /* Now we have enough information to set default encodings. */ switch (bytespersample) { case 1: if (ft->encoding.encoding == SOX_ENCODING_UNKNOWN) ft->encoding.encoding = SOX_ENCODING_UNSIGNED; break; case 2: case 3: case 4: if (ft->encoding.encoding == SOX_ENCODING_UNKNOWN) ft->encoding.encoding = SOX_ENCODING_SIGN2; break; default: lsx_fail_errno(ft,SOX_EFMT,"Sorry, don't understand .wav size"); return SOX_EOF; } /* Skip anything left over from fmt chunk */ lsx_seeki(ft, (off_t)len, SEEK_CUR); /* for non-PCM formats, there's a 'fact' chunk before * the upcoming 'data' chunk */ /* Now look for the wave data chunk */ if (findChunk(ft, "data", &len) == SOX_EOF) { lsx_fail_errno(ft, SOX_EOF, "Could not find data chunk."); return SOX_EOF; } dwDataLength = len; if (dwDataLength == MS_UNSPEC) { wav->ignoreSize = 1; lsx_debug("WAV Chunk data's length is value often used in pipes or 4G files. Ignoring length."); } /* Data starts here */ wav->dataStart = lsx_tell(ft); switch (wav->formatTag) { case WAVE_FORMAT_ADPCM: wav->numSamples = lsx_ms_adpcm_samples_in((size_t)dwDataLength, (size_t)ft->signal.channels, (size_t)wav->blockAlign, (size_t)wav->samplesPerBlock); lsx_debug_more("datalen %d, numSamples %lu",dwDataLength, (unsigned long)wav->numSamples); wav->blockSamplesRemaining = 0; /* Samples left in buffer */ ft->signal.length = wav->numSamples*ft->signal.channels; break; case WAVE_FORMAT_IMA_ADPCM: /* Compute easiest part of number of samples. For every block, there are samplesPerBlock samples to read. */ wav->numSamples = lsx_ima_samples_in((size_t)dwDataLength, (size_t)ft->signal.channels, (size_t)wav->blockAlign, (size_t)wav->samplesPerBlock); lsx_debug_more("datalen %d, numSamples %lu",dwDataLength, (unsigned long)wav->numSamples); wav->blockSamplesRemaining = 0; /* Samples left in buffer */ lsx_ima_init_table(); ft->signal.length = wav->numSamples*ft->signal.channels; break; case WAVE_FORMAT_GSM610: wav->numSamples = ((dwDataLength / wav->blockAlign) * wav->samplesPerBlock); wavgsminit(ft); ft->signal.length = wav->numSamples*ft->signal.channels; break; default: wav->numSamples = div_bits(dwDataLength, ft->encoding.bits_per_sample) / ft->signal.channels; ft->signal.length = wav->numSamples * ft->signal.channels; } /* When ignoring size, reset length so that output files do * not mistakenly depend on it. */ if (wav->ignoreSize) ft->signal.length = SOX_UNSPEC; lsx_debug("Reading Wave file: %s format, %d channel%s, %d samp/sec", wav_format_str(wav->formatTag), ft->signal.channels, wChannels == 1 ? "" : "s", dwSamplesPerSecond); lsx_debug(" %d byte/sec, %d block align, %d bits/samp, %u data bytes", dwAvgBytesPerSec, wav->blockAlign, wBitsPerSample, dwDataLength); /* Can also report extended fmt information */ switch (wav->formatTag) { case WAVE_FORMAT_ADPCM: lsx_debug(" %d Extsize, %d Samps/block, %lu bytes/block %d Num Coefs, %lu Samps/chan", wExtSize,wav->samplesPerBlock, (unsigned long)bytesPerBlock,wav->nCoefs, (unsigned long)wav->numSamples); break; case WAVE_FORMAT_IMA_ADPCM: lsx_debug(" %d Extsize, %d Samps/block, %lu bytes/block %lu Samps/chan", wExtSize, wav->samplesPerBlock, (unsigned long)bytesPerBlock, (unsigned long)wav->numSamples); break; case WAVE_FORMAT_GSM610: lsx_debug("GSM .wav: %d Extsize, %d Samps/block, %lu Samples/chan", wExtSize, wav->samplesPerBlock, (unsigned long)wav->numSamples); break; default: lsx_debug(" %lu Samps/chans", (unsigned long)wav->numSamples); } /* Horrible way to find Cool Edit marker points. Taken from Quake source*/ ft->oob.loops[0].start = ~0u; if(ft->seekable){ /*Got this from the quake source. I think it 32bit aligns the chunks * doubt any machine writing Cool Edit Chunks writes them at an odd * offset */ len = (len + 1) & ~1u; if (lsx_seeki(ft, (off_t)len, SEEK_CUR) == SOX_SUCCESS && findChunk(ft, "LIST", &len) != SOX_EOF) { wav->comment = lsx_malloc((size_t)256); /* Initialize comment to a NULL string */ wav->comment[0] = 0; while(!lsx_eof(ft)) { if (lsx_reads(ft,magic,(size_t)4) == SOX_EOF) break; /* First look for type fields for LIST Chunk and * skip those if found. Since a LIST is a list * of Chunks, treat the remaining data as Chunks * again. */ if (strncmp(magic, "INFO", (size_t)4) == 0) { /*Skip*/ lsx_debug("Type INFO"); } else if (strncmp(magic, "adtl", (size_t)4) == 0) { /* Skip */ lsx_debug("Type adtl"); } else { if (lsx_readdw(ft,&len) == SOX_EOF) break; if (strncmp(magic,"ICRD",(size_t)4) == 0) { lsx_debug("Chunk ICRD"); if (len > 254) { lsx_warn("Possible buffer overflow hack attack (ICRD)!"); break; } lsx_reads(ft,text, (size_t)len); if (strlen(wav->comment) + strlen(text) < 254) { if (wav->comment[0] != 0) strcat(wav->comment,"\n"); strcat(wav->comment,text); } if (strlen(text) < len) lsx_seeki(ft, (off_t)(len - strlen(text)), SEEK_CUR); } else if (strncmp(magic,"ISFT",(size_t)4) == 0) { lsx_debug("Chunk ISFT"); if (len > 254) { lsx_warn("Possible buffer overflow hack attack (ISFT)!"); break; } lsx_reads(ft,text, (size_t)len); if (strlen(wav->comment) + strlen(text) < 254) { if (wav->comment[0] != 0) strcat(wav->comment,"\n"); strcat(wav->comment,text); } if (strlen(text) < len) lsx_seeki(ft, (off_t)(len - strlen(text)), SEEK_CUR); } else if (strncmp(magic,"cue ",(size_t)4) == 0) { lsx_debug("Chunk cue "); lsx_seeki(ft,(off_t)(len-4),SEEK_CUR); lsx_readdw(ft,&dwLoopPos); ft->oob.loops[0].start = dwLoopPos; } else if (strncmp(magic,"ltxt",(size_t)4) == 0) { lsx_debug("Chunk ltxt"); lsx_readdw(ft,&dwLoopPos); ft->oob.loops[0].length = dwLoopPos - ft->oob.loops[0].start; if (len > 4) lsx_seeki(ft, (off_t)(len - 4), SEEK_CUR); } else { lsx_debug("Attempting to seek beyond unsupported chunk `%c%c%c%c' of length %d bytes", magic[0], magic[1], magic[2], magic[3], len); len = (len + 1) & ~1u; lsx_seeki(ft, (off_t)len, SEEK_CUR); } } } } lsx_clearerr(ft); lsx_seeki(ft,(off_t)wav->dataStart,SEEK_SET); } return lsx_rawstartread(ft); } /* * Read up to len samples from file. * Convert to signed longs. * Place in buf[]. * Return number of samples read. */ static size_t read_samples(sox_format_t * ft, sox_sample_t *buf, size_t len) { priv_t * wav = (priv_t *) ft->priv; size_t done; ft->sox_errno = SOX_SUCCESS; /* If file is in ADPCM encoding then read in multiple blocks else */ /* read as much as possible and return quickly. */ switch (ft->encoding.encoding) { case SOX_ENCODING_IMA_ADPCM: case SOX_ENCODING_MS_ADPCM: if (!wav->ignoreSize && len > (wav->numSamples*ft->signal.channels)) len = (wav->numSamples*ft->signal.channels); done = 0; while (done < len) { /* Still want data? */ /* See if need to read more from disk */ if (wav->blockSamplesRemaining == 0) { if (wav->formatTag == WAVE_FORMAT_IMA_ADPCM) wav->blockSamplesRemaining = ImaAdpcmReadBlock(ft); else wav->blockSamplesRemaining = AdpcmReadBlock(ft); if (wav->blockSamplesRemaining == 0) { /* Don't try to read any more samples */ wav->numSamples = 0; return done; } wav->samplePtr = wav->samples; } /* Copy interleaved data into buf, converting to sox_sample_t */ { short *p, *top; size_t ct; ct = len-done; if (ct > (wav->blockSamplesRemaining*ft->signal.channels)) ct = (wav->blockSamplesRemaining*ft->signal.channels); done += ct; wav->blockSamplesRemaining -= (ct/ft->signal.channels); p = wav->samplePtr; top = p+ct; /* Output is already signed */ while (p<top) *buf++ = SOX_SIGNED_16BIT_TO_SAMPLE((*p++),); wav->samplePtr = p; } } /* "done" for ADPCM equals total data processed and not * total samples procesed. The only way to take care of that * is to return here and not fall thru. */ wav->numSamples -= (done / ft->signal.channels); return done; break; case SOX_ENCODING_GSM: if (!wav->ignoreSize && len > wav->numSamples*ft->signal.channels) len = (wav->numSamples*ft->signal.channels); done = wavgsmread(ft, buf, len); if (done == 0 && wav->numSamples != 0 && !wav->ignoreSize) lsx_warn("Premature EOF on .wav input file"); break; default: /* assume PCM or float encoding */ if (!wav->ignoreSize && len > wav->numSamples*ft->signal.channels) len = (wav->numSamples*ft->signal.channels); done = lsx_rawread(ft, buf, len); /* If software thinks there are more samples but I/O */ /* says otherwise, let the user know about this. */ if (done == 0 && wav->numSamples != 0 && !wav->ignoreSize) lsx_warn("Premature EOF on .wav input file"); } /* Only return buffers that contain a totally playable * amount of audio. */ done -= done % ft->signal.channels; if (done/ft->signal.channels > wav->numSamples) wav->numSamples = 0; else wav->numSamples -= (done/ft->signal.channels); return done; } /* * Do anything required when you stop reading samples. * Don't close input file! */ static int stopread(sox_format_t * ft) { priv_t * wav = (priv_t *) ft->priv; ft->sox_errno = SOX_SUCCESS; free(wav->packet); free(wav->samples); free(wav->lsx_ms_adpcm_i_coefs); free(wav->comment); wav->comment = NULL; switch (ft->encoding.encoding) { case SOX_ENCODING_GSM: wavgsmdestroy(ft); break; case SOX_ENCODING_IMA_ADPCM: case SOX_ENCODING_MS_ADPCM: break; default: break; } return SOX_SUCCESS; } static int startwrite(sox_format_t * ft) { priv_t * wav = (priv_t *) ft->priv; int rc; ft->sox_errno = SOX_SUCCESS; if (ft->encoding.encoding != SOX_ENCODING_MS_ADPCM && ft->encoding.encoding != SOX_ENCODING_IMA_ADPCM && ft->encoding.encoding != SOX_ENCODING_GSM) { rc = lsx_rawstartwrite(ft); if (rc) return rc; } wav->numSamples = 0; wav->dataLength = 0; if (!ft->signal.length && !ft->seekable) lsx_warn("Length in output .wav header will be wrong since can't seek to fix it"); rc = wavwritehdr(ft, 0); /* also calculates various wav->* info */ if (rc != 0) return rc; wav->packet = NULL; wav->samples = NULL; wav->lsx_ms_adpcm_i_coefs = NULL; switch (wav->formatTag) { size_t ch, sbsize; case WAVE_FORMAT_IMA_ADPCM: lsx_ima_init_table(); /* intentional case fallthru! */ case WAVE_FORMAT_ADPCM: /* #channels already range-checked for overflow in wavwritehdr() */ for (ch=0; ch<ft->signal.channels; ch++) wav->state[ch] = 0; sbsize = ft->signal.channels * wav->samplesPerBlock; wav->packet = lsx_malloc((size_t)wav->blockAlign); wav->samples = lsx_malloc(sbsize*sizeof(short)); wav->sampleTop = wav->samples + sbsize; wav->samplePtr = wav->samples; break; case WAVE_FORMAT_GSM610: return wavgsminit(ft); default: break; } return SOX_SUCCESS; } /* wavwritehdr: write .wav headers as follows: bytes variable description 0 - 3 'RIFF'/'RIFX' Little/Big-endian 4 - 7 wRiffLength length of file minus the 8 byte riff header 8 - 11 'WAVE' 12 - 15 'fmt ' 16 - 19 wFmtSize length of format chunk minus 8 byte header 20 - 21 wFormatTag identifies PCM, ULAW etc 22 - 23 wChannels 24 - 27 dwSamplesPerSecond samples per second per channel 28 - 31 dwAvgBytesPerSec non-trivial for compressed formats 32 - 33 wBlockAlign basic block size 34 - 35 wBitsPerSample non-trivial for compressed formats PCM formats then go straight to the data chunk: 36 - 39 'data' 40 - 43 dwDataLength length of data chunk minus 8 byte header 44 - (dwDataLength + 43) the data non-PCM formats must write an extended format chunk and a fact chunk: ULAW, ALAW formats: 36 - 37 wExtSize = 0 the length of the format extension 38 - 41 'fact' 42 - 45 dwFactSize = 4 length of the fact chunk minus 8 byte header 46 - 49 dwSamplesWritten actual number of samples written out 50 - 53 'data' 54 - 57 dwDataLength length of data chunk minus 8 byte header 58 - (dwDataLength + 57) the data GSM6.10 format: 36 - 37 wExtSize = 2 the length in bytes of the format-dependent extension 38 - 39 320 number of samples per block 40 - 43 'fact' 44 - 47 dwFactSize = 4 length of the fact chunk minus 8 byte header 48 - 51 dwSamplesWritten actual number of samples written out 52 - 55 'data' 56 - 59 dwDataLength length of data chunk minus 8 byte header 60 - (dwDataLength + 59) the data (+ a padding byte if dwDataLength is odd) note that header contains (up to) 3 separate ways of describing the length of the file, all derived here from the number of (input) samples wav->numSamples in a way that is non-trivial for the blocked and padded compressed formats: wRiffLength - (riff header) the length of the file, minus 8 dwSamplesWritten - (fact header) the number of samples written (after padding to a complete block eg for GSM) dwDataLength - (data chunk header) the number of (valid) data bytes written */ static int wavwritehdr(sox_format_t * ft, int second_header) { priv_t * wav = (priv_t *) ft->priv; /* variables written to wav file header */ /* RIFF header */ uint32_t wRiffLength ; /* length of file after 8 byte riff header */ /* fmt chunk */ uint16_t wFmtSize = 16; /* size field of the fmt chunk */ uint16_t wFormatTag = 0; /* data format */ uint16_t wChannels; /* number of channels */ uint32_t dwSamplesPerSecond; /* samples per second per channel*/ uint32_t dwAvgBytesPerSec=0; /* estimate of bytes per second needed */ uint16_t wBlockAlign=0; /* byte alignment of a basic sample block */ uint16_t wBitsPerSample=0; /* bits per sample */ /* fmt chunk extension (not PCM) */ uint16_t wExtSize=0; /* extra bytes in the format extension */ uint16_t wSamplesPerBlock; /* samples per channel per block */ /* wSamplesPerBlock and other things may go into format extension */ /* fact chunk (not PCM) */ uint32_t dwFactSize=4; /* length of the fact chunk */ uint32_t dwSamplesWritten=0; /* windows doesnt seem to use this*/ /* data chunk */ uint32_t dwDataLength; /* length of sound data in bytes */ /* end of variables written to header */ /* internal variables, intermediate values etc */ int bytespersample; /* (uncompressed) bytes per sample (per channel) */ long blocksWritten = 0; sox_bool isExtensible = sox_false; /* WAVE_FORMAT_EXTENSIBLE? */ dwSamplesPerSecond = ft->signal.rate; wChannels = ft->signal.channels; wBitsPerSample = ft->encoding.bits_per_sample; wSamplesPerBlock = 1; /* common default for PCM data */ switch (ft->encoding.encoding) { case SOX_ENCODING_UNSIGNED: case SOX_ENCODING_SIGN2: wFormatTag = WAVE_FORMAT_PCM; bytespersample = (wBitsPerSample + 7)/8; wBlockAlign = wChannels * bytespersample; break; case SOX_ENCODING_FLOAT: wFormatTag = WAVE_FORMAT_IEEE_FLOAT; bytespersample = (wBitsPerSample + 7)/8; wBlockAlign = wChannels * bytespersample; break; case SOX_ENCODING_ALAW: wFormatTag = WAVE_FORMAT_ALAW; wBlockAlign = wChannels; break; case SOX_ENCODING_ULAW: wFormatTag = WAVE_FORMAT_MULAW; wBlockAlign = wChannels; break; case SOX_ENCODING_IMA_ADPCM: if (wChannels>16) { lsx_fail_errno(ft,SOX_EOF,"Channels(%d) must be <= 16",wChannels); return SOX_EOF; } wFormatTag = WAVE_FORMAT_IMA_ADPCM; wBlockAlign = wChannels * 256; /* reasonable default */ wBitsPerSample = 4; wExtSize = 2; wSamplesPerBlock = lsx_ima_samples_in((size_t) 0, (size_t) wChannels, (size_t) wBlockAlign, (size_t) 0); break; case SOX_ENCODING_MS_ADPCM: if (wChannels>16) { lsx_fail_errno(ft,SOX_EOF,"Channels(%d) must be <= 16",wChannels); return SOX_EOF; } wFormatTag = WAVE_FORMAT_ADPCM; wBlockAlign = ft->signal.rate / 11008; wBlockAlign = max(wBlockAlign, 1) * wChannels * 256; wBitsPerSample = 4; wExtSize = 4+4*7; /* Ext fmt data length */ wSamplesPerBlock = lsx_ms_adpcm_samples_in((size_t) 0, (size_t) wChannels, (size_t) wBlockAlign, (size_t) 0); break; case SOX_ENCODING_GSM: if (wChannels!=1) { lsx_report("Overriding GSM audio from %d channel to 1",wChannels); if (!second_header) ft->signal.length /= max(1, ft->signal.channels); wChannels = ft->signal.channels = 1; } wFormatTag = WAVE_FORMAT_GSM610; /* dwAvgBytesPerSec = 1625*(dwSamplesPerSecond/8000.)+0.5; */ wBlockAlign=65; wBitsPerSample=0; /* not representable as int */ wExtSize=2; /* length of format extension */ wSamplesPerBlock = 320; break; default: break; } wav->formatTag = wFormatTag; wav->blockAlign = wBlockAlign; wav->samplesPerBlock = wSamplesPerBlock; /* When creating header, use length hint given by input file. If no * hint then write default value. Also, use default value even * on header update if more then 32-bit length needs to be written. */ if ((!second_header && !ft->signal.length) || wav->numSamples > 0xffffffff) { /* adjust for blockAlign */ blocksWritten = MS_UNSPEC/wBlockAlign; dwDataLength = blocksWritten * wBlockAlign; dwSamplesWritten = blocksWritten * wSamplesPerBlock; } else { /* fixup with real length */ dwSamplesWritten = second_header? wav->numSamples : ft->signal.length / wChannels; blocksWritten = (dwSamplesWritten+wSamplesPerBlock-1)/wSamplesPerBlock; dwDataLength = blocksWritten * wBlockAlign; } if (wFormatTag == WAVE_FORMAT_GSM610) dwDataLength = (dwDataLength+1) & ~1u; /* round up to even */ if (wFormatTag == WAVE_FORMAT_PCM && (wBitsPerSample > 16 || wChannels > 2) && strcmp(ft->filetype, "wavpcm")) { isExtensible = sox_true; wFmtSize += 2 + 22; } else if (wFormatTag != WAVE_FORMAT_PCM) wFmtSize += 2+wExtSize; /* plus ExtData */ wRiffLength = 4 + (8+wFmtSize) + (8+dwDataLength); if (wFormatTag != WAVE_FORMAT_PCM) /* PCM omits the "fact" chunk */ wRiffLength += (8+dwFactSize); /* dwAvgBytesPerSec <-- this is BEFORE compression, isn't it? guess not. */ dwAvgBytesPerSec = (double)wBlockAlign*ft->signal.rate / (double)wSamplesPerBlock + 0.5; /* figured out header info, so write it */ /* If user specified opposite swap than we think, assume they are * asking to write a RIFX file. */ if (ft->encoding.reverse_bytes == MACHINE_IS_LITTLEENDIAN) { if (!second_header) lsx_report("Requested to swap bytes so writing RIFX header"); lsx_writes(ft, "RIFX"); } else lsx_writes(ft, "RIFF"); lsx_writedw(ft, wRiffLength); lsx_writes(ft, "WAVE"); lsx_writes(ft, "fmt "); lsx_writedw(ft, wFmtSize); lsx_writew(ft, isExtensible ? WAVE_FORMAT_EXTENSIBLE : wFormatTag); lsx_writew(ft, wChannels); lsx_writedw(ft, dwSamplesPerSecond); lsx_writedw(ft, dwAvgBytesPerSec); lsx_writew(ft, wBlockAlign); lsx_writew(ft, wBitsPerSample); /* end info common to all fmts */ if (isExtensible) { static unsigned char const guids[][14] = { "\x00\x00\x00\x00\x10\x00\x80\x00\x00\xAA\x00\x38\x9B\x71", /* wav */ "\x00\x00\x21\x07\xd3\x11\x86\x44\xc8\xc1\xca\x00\x00\x00"}; /* amb */ lsx_writew(ft, 22); lsx_writew(ft, wBitsPerSample); /* No padding in container */ lsx_writedw(ft, 0); /* Speaker mapping not specified */ lsx_writew(ft, wFormatTag); lsx_writebuf(ft, guids[!strcmp(ft->filetype, "amb")], (size_t)14); } else /* if not PCM, we need to write out wExtSize even if wExtSize=0 */ if (wFormatTag != WAVE_FORMAT_PCM) lsx_writew(ft,wExtSize); switch (wFormatTag) { int i; case WAVE_FORMAT_IMA_ADPCM: lsx_writew(ft, wSamplesPerBlock); break; case WAVE_FORMAT_ADPCM: lsx_writew(ft, wSamplesPerBlock); lsx_writew(ft, 7); /* nCoefs */ for (i=0; i<7; i++) { lsx_writew(ft, (uint16_t)(lsx_ms_adpcm_i_coef[i][0])); lsx_writew(ft, (uint16_t)(lsx_ms_adpcm_i_coef[i][1])); } break; case WAVE_FORMAT_GSM610: lsx_writew(ft, wSamplesPerBlock); break; default: break; } /* if not PCM, write the 'fact' chunk */ if (isExtensible || wFormatTag != WAVE_FORMAT_PCM){ lsx_writes(ft, "fact"); lsx_writedw(ft,dwFactSize); lsx_writedw(ft,dwSamplesWritten); } lsx_writes(ft, "data"); lsx_writedw(ft, dwDataLength); /* data chunk size */ if (!second_header) { lsx_debug("Writing Wave file: %s format, %d channel%s, %d samp/sec", wav_format_str(wFormatTag), wChannels, wChannels == 1 ? "" : "s", dwSamplesPerSecond); lsx_debug(" %d byte/sec, %d block align, %d bits/samp", dwAvgBytesPerSec, wBlockAlign, wBitsPerSample); } else { lsx_debug("Finished writing Wave file, %u data bytes %lu samples", dwDataLength, (unsigned long)wav->numSamples); if (wFormatTag == WAVE_FORMAT_GSM610){ lsx_debug("GSM6.10 format: %li blocks %u padded samples %u padded data bytes", blocksWritten, dwSamplesWritten, dwDataLength); if (wav->gsmbytecount != dwDataLength) lsx_warn("help ! internal inconsistency - data_written %u gsmbytecount %lu", dwDataLength, (unsigned long)wav->gsmbytecount); } } return SOX_SUCCESS; } static size_t write_samples(sox_format_t * ft, const sox_sample_t *buf, size_t len) { priv_t * wav = (priv_t *) ft->priv; ptrdiff_t total_len = len; ft->sox_errno = SOX_SUCCESS; switch (wav->formatTag) { case WAVE_FORMAT_IMA_ADPCM: case WAVE_FORMAT_ADPCM: while (len>0) { short *p = wav->samplePtr; short *top = wav->sampleTop; if (top>p+len) top = p+len; len -= top-p; /* update residual len */ while (p < top) *p++ = (*buf++) >> 16; wav->samplePtr = p; if (p == wav->sampleTop) xxxAdpcmWriteBlock(ft); } return total_len - len; break; case WAVE_FORMAT_GSM610: len = wavgsmwrite(ft, buf, len); wav->numSamples += (len/ft->signal.channels); return len; break; default: len = lsx_rawwrite(ft, buf, len); wav->numSamples += (len/ft->signal.channels); return len; } } static int stopwrite(sox_format_t * ft) { priv_t * wav = (priv_t *) ft->priv; ft->sox_errno = SOX_SUCCESS; /* Call this to flush out any remaining data. */ switch (wav->formatTag) { case WAVE_FORMAT_IMA_ADPCM: case WAVE_FORMAT_ADPCM: xxxAdpcmWriteBlock(ft); break; case WAVE_FORMAT_GSM610: wavgsmstopwrite(ft); break; } free(wav->packet); free(wav->samples); free(wav->lsx_ms_adpcm_i_coefs); /* All samples are already written out. */ /* If file header needs fixing up, for example it needs the */ /* the number of samples in a field, seek back and write them here. */ if (ft->signal.length && wav->numSamples <= 0xffffffff && wav->numSamples == ft->signal.length) return SOX_SUCCESS; if (!ft->seekable) return SOX_EOF; if (lsx_seeki(ft, (off_t)0, SEEK_SET) != 0) { lsx_fail_errno(ft,SOX_EOF,"Can't rewind output file to rewrite .wav header."); return SOX_EOF; } return (wavwritehdr(ft, 1)); } /* * Return a string corresponding to the wave format type. */ static char *wav_format_str(unsigned wFormatTag) { switch (wFormatTag) { case WAVE_FORMAT_UNKNOWN: return "Microsoft Official Unknown"; case WAVE_FORMAT_PCM: return "Microsoft PCM"; case WAVE_FORMAT_ADPCM: return "Microsoft ADPCM"; case WAVE_FORMAT_IEEE_FLOAT: return "IEEE Float"; case WAVE_FORMAT_ALAW: return "Microsoft A-law"; case WAVE_FORMAT_MULAW: return "Microsoft U-law"; case WAVE_FORMAT_OKI_ADPCM: return "OKI ADPCM format."; case WAVE_FORMAT_IMA_ADPCM: return "IMA ADPCM"; case WAVE_FORMAT_DIGISTD: return "Digistd format."; case WAVE_FORMAT_DIGIFIX: return "Digifix format."; case WAVE_FORMAT_DOLBY_AC2: return "Dolby AC2"; case WAVE_FORMAT_GSM610: return "GSM 6.10"; case WAVE_FORMAT_ROCKWELL_ADPCM: return "Rockwell ADPCM"; case WAVE_FORMAT_ROCKWELL_DIGITALK: return "Rockwell DIGITALK"; case WAVE_FORMAT_G721_ADPCM: return "G.721 ADPCM"; case WAVE_FORMAT_G728_CELP: return "G.728 CELP"; case WAVE_FORMAT_MPEG: return "MPEG"; case WAVE_FORMAT_MPEGLAYER3: return "MPEG Layer 3"; case WAVE_FORMAT_G726_ADPCM: return "G.726 ADPCM"; case WAVE_FORMAT_G722_ADPCM: return "G.722 ADPCM"; default: return "Unknown"; } } static int seek(sox_format_t * ft, uint64_t offset) { priv_t * wav = (priv_t *) ft->priv; if (ft->encoding.bits_per_sample & 7) lsx_fail_errno(ft, SOX_ENOTSUP, "seeking not supported with this encoding"); else if (wav->formatTag == WAVE_FORMAT_GSM610) { int new_offset, alignment; size_t gsmoff; /* rounding bytes to blockAlign so that we * don't have to decode partial block. */ gsmoff = offset * wav->blockAlign / wav->samplesPerBlock + wav->blockAlign * ft->signal.channels / 2; gsmoff -= gsmoff % (wav->blockAlign * ft->signal.channels); ft->sox_errno = lsx_seeki(ft, (off_t)(gsmoff + wav->dataStart), SEEK_SET); if (ft->sox_errno == SOX_SUCCESS) { /* offset is in samples */ new_offset = offset; alignment = offset % wav->samplesPerBlock; if (alignment != 0) new_offset += (wav->samplesPerBlock - alignment); wav->numSamples = ft->signal.length - (new_offset / ft->signal.channels); } } else { double wide_sample = offset - (offset % ft->signal.channels); double to_d = wide_sample * ft->encoding.bits_per_sample / 8; off_t to = to_d; ft->sox_errno = (to != to_d)? SOX_EOF : lsx_seeki(ft, (off_t)wav->dataStart + (off_t)to, SEEK_SET); if (ft->sox_errno == SOX_SUCCESS) wav->numSamples -= (size_t)wide_sample / ft->signal.channels; } return ft->sox_errno; } LSX_FORMAT_HANDLER(wav) { static char const * const names[] = {"wav", "wavpcm", "amb", NULL}; static unsigned const write_encodings[] = { SOX_ENCODING_SIGN2, 16, 24, 32, 0, SOX_ENCODING_UNSIGNED, 8, 0, SOX_ENCODING_ULAW, 8, 0, SOX_ENCODING_ALAW, 8, 0, SOX_ENCODING_GSM, 0, SOX_ENCODING_MS_ADPCM, 4, 0, SOX_ENCODING_IMA_ADPCM, 4, 0, SOX_ENCODING_FLOAT, 32, 0, 0}; static sox_format_handler_t const handler = {SOX_LIB_VERSION_CODE, "Microsoft audio format", names, SOX_FILE_LIT_END, startread, read_samples, stopread, startwrite, write_samples, stopwrite, seek, write_encodings, NULL, sizeof(priv_t) }; return &handler; }