ref: 1d48e533e1c6de212ad1520ed6481b222727e7a6
dir: /src/oss.c/
/* Copyright 1997 Chris Bagwell And Sundry Contributors * This source code is freely redistributable and may be used for * any purpose. This copyright notice must be maintained. * Chris Bagwell And Sundry Contributors are not * responsible for the consequences of using this software. * * Direct to Open Sound System (OSS) sound driver * OSS is a popular unix sound driver for Intel x86 unices (eg. Linux) * and several other unixes (such as SunOS/Solaris). * This driver is compatible with OSS original source that was called * USS, Voxware and TASD. * * added by Chris Bagwell (cbagwell@sprynet.com) on 2/19/96 * based on info grabed from vplay.c in Voxware snd-utils-3.5 package. * and on LINUX_PLAYER patches added by Greg Lee * which was originally from Directo to Sound Blaster device driver (sbdsp.c). * SBLAST patches by John T. Kohl. * * Changes: * * Nov. 26, 1999 Stan Brooks <stabro@megsinet.net> * Moved initialization code common to startread and startwrite * into a single function ossdspinit(). * */ #include "sox_i.h" #include <stdlib.h> #include <stdio.h> #include <fcntl.h> #ifdef HAVE_SYS_SOUNDCARD_H #include <sys/soundcard.h> #endif #ifdef HAVE_MACHINE_SOUNDCARD_H #include <machine/soundcard.h> #endif #ifdef HAVE_UNISTD_H #include <unistd.h> #endif /* these appear in the sys/soundcard.h of OSS 4.x, and in Linux's * sound/core/oss/pcm_oss.c (2.6.24 and later), but are typically * not included in system header files. */ #ifndef AFMT_S32_LE #define AFMT_S32_LE 0x00001000 #endif #ifndef AFMT_S32_BE #define AFMT_S32_BE 0x00002000 #endif #include <sys/ioctl.h> typedef struct { char* pOutput; unsigned cOutput; int device; unsigned sample_shift; } priv_t; /* common r/w initialization code */ static int ossinit(sox_format_t* ft) { int sampletype, samplesize; int tmp, rc; char const* szDevname; priv_t* pPriv = (priv_t*)ft->priv; if (ft->filename == 0 || ft->filename[0] == 0 || !strcasecmp("default", ft->filename)) { szDevname = getenv("OSS_AUDIODEV"); if (szDevname != NULL) { lsx_report("Using device name from OSS_AUDIODEV environment variable: %s", szDevname); } else { szDevname = "/dev/dsp"; lsx_report("Using default OSS device name: %s", szDevname); } } else { szDevname = ft->filename; lsx_report("Using user-specified device name: %s", szDevname); } pPriv->device = open( szDevname, ft->mode == 'r' ? O_RDONLY : O_WRONLY); if (pPriv->device < 0) { lsx_fail_errno(ft, errno, "open failed for device: %s", szDevname); return SOX_EOF; } if (ft->encoding.bits_per_sample == 8) { sampletype = AFMT_U8; samplesize = 8; pPriv->sample_shift = 0; if (ft->encoding.encoding == SOX_ENCODING_UNKNOWN) ft->encoding.encoding = SOX_ENCODING_UNSIGNED; if (ft->encoding.encoding != SOX_ENCODING_UNSIGNED) { lsx_report("OSS driver only supports unsigned with bytes"); lsx_report("Forcing to unsigned"); ft->encoding.encoding = SOX_ENCODING_UNSIGNED; } } else if (ft->encoding.bits_per_sample == 16) { /* Attempt to use endian that user specified */ if (ft->encoding.reverse_bytes) sampletype = (MACHINE_IS_BIGENDIAN) ? AFMT_S16_LE : AFMT_S16_BE; else sampletype = (MACHINE_IS_BIGENDIAN) ? AFMT_S16_BE : AFMT_S16_LE; samplesize = 16; pPriv->sample_shift = 1; if (ft->encoding.encoding == SOX_ENCODING_UNKNOWN) ft->encoding.encoding = SOX_ENCODING_SIGN2; if (ft->encoding.encoding != SOX_ENCODING_SIGN2) { lsx_report("OSS driver only supports signed with words"); lsx_report("Forcing to signed linear"); ft->encoding.encoding = SOX_ENCODING_SIGN2; } } else if (ft->encoding.bits_per_sample == 32) { /* Attempt to use endian that user specified */ if (ft->encoding.reverse_bytes) sampletype = (MACHINE_IS_BIGENDIAN) ? AFMT_S32_LE : AFMT_S32_BE; else sampletype = (MACHINE_IS_BIGENDIAN) ? AFMT_S32_BE : AFMT_S32_LE; samplesize = 32; pPriv->sample_shift = 2; if (ft->encoding.encoding == SOX_ENCODING_UNKNOWN) ft->encoding.encoding = SOX_ENCODING_SIGN2; if (ft->encoding.encoding != SOX_ENCODING_SIGN2) { lsx_report("OSS driver only supports signed with words"); lsx_report("Forcing to signed linear"); ft->encoding.encoding = SOX_ENCODING_SIGN2; } } else { /* Attempt to use endian that user specified */ if (ft->encoding.reverse_bytes) sampletype = (MACHINE_IS_BIGENDIAN) ? AFMT_S16_LE : AFMT_S16_BE; else sampletype = (MACHINE_IS_BIGENDIAN) ? AFMT_S16_BE : AFMT_S16_LE; samplesize = 16; pPriv->sample_shift = 1; ft->encoding.bits_per_sample = 16; ft->encoding.encoding = SOX_ENCODING_SIGN2; lsx_report("OSS driver only supports bytes and words"); lsx_report("Forcing to signed linear word"); } ft->signal.channels = 2; if (ioctl(pPriv->device, (size_t) SNDCTL_DSP_RESET, 0) < 0) { lsx_fail_errno(ft,SOX_EOF,"Unable to reset OSS device %s. Possibly accessing an invalid file/device", szDevname); return(SOX_EOF); } /* Query the supported formats and find the best match */ rc = ioctl(pPriv->device, SNDCTL_DSP_GETFMTS, &tmp); if (rc == 0) { if ((tmp & sampletype) == 0) { /* is 16-bit supported? */ if (samplesize == 16 && (tmp & (AFMT_S16_LE|AFMT_S16_BE)) == 0) { /* Must not like 16-bits, try 8-bits */ ft->encoding.bits_per_sample = 8; ft->encoding.encoding = SOX_ENCODING_UNSIGNED; lsx_report("OSS driver doesn't like signed words"); lsx_report("Forcing to unsigned bytes"); tmp = sampletype = AFMT_U8; samplesize = 8; pPriv->sample_shift = 0; } /* is 8-bit supported */ else if (samplesize == 8 && (tmp & AFMT_U8) == 0) { ft->encoding.bits_per_sample = 16; ft->encoding.encoding = SOX_ENCODING_SIGN2; lsx_report("OSS driver doesn't like unsigned bytes"); lsx_report("Forcing to signed words"); sampletype = (MACHINE_IS_BIGENDIAN) ? AFMT_S16_BE : AFMT_S16_LE; samplesize = 16; pPriv->sample_shift = 1; } /* determine which 16-bit format to use */ if (samplesize == 16 && (tmp & sampletype) == 0) { /* Either user requested something not supported * or hardware doesn't support machine endian. * Force to opposite as the above test showed * it supports at least one of the two endians. */ sampletype = (sampletype == AFMT_S16_BE) ? AFMT_S16_LE : AFMT_S16_BE; ft->encoding.reverse_bytes = !ft->encoding.reverse_bytes; } } tmp = sampletype; rc = ioctl(pPriv->device, SNDCTL_DSP_SETFMT, &tmp); } /* Give up and exit */ if (rc < 0 || tmp != sampletype) { lsx_fail_errno(ft,SOX_EOF,"Unable to set the sample size to %d", samplesize); return (SOX_EOF); } tmp = 1; if (ioctl(pPriv->device, SNDCTL_DSP_STEREO, &tmp) < 0 || tmp != 1) { lsx_warn("Couldn't set to stereo"); ft->signal.channels = 1; } tmp = ft->signal.rate; if (ioctl(pPriv->device, SNDCTL_DSP_SPEED, &tmp) < 0 || (int)ft->signal.rate != tmp) { /* If the rate the sound card is using is not within 1% of what * the user specified then override the user setting. * The only reason not to always override this is because of * clock-rounding problems. Sound cards will sometimes use * things like 44101 when you ask for 44100. No need overriding * this and having strange output file rates for something that * we can't hear anyways. */ if ((int)ft->signal.rate - tmp > (tmp * .01) || tmp - (int)ft->signal.rate > (tmp * .01)) ft->signal.rate = tmp; } if (ioctl(pPriv->device, (size_t) SNDCTL_DSP_SYNC, NULL) < 0) { lsx_fail_errno(ft,SOX_EOF,"Unable to sync dsp"); return (SOX_EOF); } if (ft->mode == 'r') { pPriv->cOutput = 0; pPriv->pOutput = NULL; } else { size_t cbOutput = sox_globals.bufsiz; pPriv->cOutput = cbOutput >> pPriv->sample_shift; pPriv->pOutput = lsx_malloc(cbOutput); } return(SOX_SUCCESS); } static int ossstop(sox_format_t* ft) { priv_t* pPriv = (priv_t*)ft->priv; if (pPriv->device >= 0) { close(pPriv->device); } if (pPriv->pOutput) { free(pPriv->pOutput); } return SOX_SUCCESS; } static size_t ossread(sox_format_t* ft, sox_sample_t* pOutput, size_t cOutput) { priv_t* pPriv = (priv_t*)ft->priv; char* pbOutput = (char*)pOutput; size_t cbOutputLeft = cOutput << pPriv->sample_shift; size_t i, cRead; int cbRead; SOX_SAMPLE_LOCALS; LSX_USE_VAR(sox_macro_temp_double); while (cbOutputLeft) { cbRead = read(pPriv->device, pbOutput, cbOutputLeft); if (cbRead <= 0) { if (cbRead < 0) { lsx_fail_errno(ft, errno, "Error reading from device"); return 0; } break; } cbOutputLeft -= cbRead; pbOutput += cbRead; } /* Convert in-place (backwards) */ cRead = cOutput - (cbOutputLeft >> pPriv->sample_shift); if (ft->encoding.reverse_bytes) { switch (pPriv->sample_shift) { case 0: for (i = cRead; i != 0; i--) { pOutput[i - 1] = SOX_UNSIGNED_8BIT_TO_SAMPLE( ((sox_uint8_t*)pOutput)[i - 1], dummy); } break; case 1: for (i = cRead; i != 0; i--) { pOutput[i - 1] = SOX_SIGNED_16BIT_TO_SAMPLE( lsx_swapw(((sox_int16_t*)pOutput)[i - 1]), dummy); } break; case 2: for (i = cRead; i != 0; i--) { pOutput[i - 1] = SOX_SIGNED_32BIT_TO_SAMPLE( lsx_swapdw(((sox_int32_t*)pOutput)[i - 1]), dummy); } break; } } else { switch (pPriv->sample_shift) { case 0: for (i = cRead; i != 0; i--) { pOutput[i - 1] = SOX_UNSIGNED_8BIT_TO_SAMPLE( ((sox_uint8_t*)pOutput)[i - 1], dummy); } break; case 1: for (i = cRead; i != 0; i--) { pOutput[i - 1] = SOX_SIGNED_16BIT_TO_SAMPLE( ((sox_int16_t*)pOutput)[i - 1], dummy); } break; case 2: for (i = cRead; i != 0; i--) { pOutput[i - 1] = SOX_SIGNED_32BIT_TO_SAMPLE( ((sox_int32_t*)pOutput)[i - 1], dummy); } break; } } return cRead; } static size_t osswrite( sox_format_t* ft, const sox_sample_t* pInput, size_t cInput) { priv_t* pPriv = (priv_t*)ft->priv; size_t cInputRemaining = cInput; unsigned cClips = 0; SOX_SAMPLE_LOCALS; while (cInputRemaining) { size_t cStride; size_t i; size_t cbStride; int cbWritten; cStride = cInputRemaining; if (cStride > pPriv->cOutput) { cStride = pPriv->cOutput; } if (ft->encoding.reverse_bytes) { switch (pPriv->sample_shift) { case 0: for (i = 0; i != cStride; i++) { ((sox_uint8_t*)pPriv->pOutput)[i] = SOX_SAMPLE_TO_UNSIGNED_8BIT(pInput[i], cClips); } break; case 1: for (i = 0; i != cStride; i++) { sox_int16_t s16 = SOX_SAMPLE_TO_SIGNED_16BIT(pInput[i], cClips); ((sox_int16_t*)pPriv->pOutput)[i] = lsx_swapw(s16); } break; case 2: for (i = 0; i != cStride; i++) { ((sox_int32_t*)pPriv->pOutput)[i] = lsx_swapdw(SOX_SAMPLE_TO_SIGNED_32BIT(pInput[i], cClips)); } break; } } else { switch (pPriv->sample_shift) { case 0: for (i = 0; i != cStride; i++) { ((sox_uint8_t*)pPriv->pOutput)[i] = SOX_SAMPLE_TO_UNSIGNED_8BIT(pInput[i], cClips); } break; case 1: for (i = 0; i != cStride; i++) { ((sox_int16_t*)pPriv->pOutput)[i] = SOX_SAMPLE_TO_SIGNED_16BIT(pInput[i], cClips); } break; case 2: for (i = 0; i != cStride; i++) { ((sox_int32_t*)pPriv->pOutput)[i] = SOX_SAMPLE_TO_SIGNED_32BIT(pInput[i], cClips); } break; } } cbStride = cStride << pPriv->sample_shift; i = 0; do { cbWritten = write(pPriv->device, &pPriv->pOutput[i], cbStride - i); i += cbWritten; if (cbWritten <= 0) { lsx_fail_errno(ft, errno, "Error writing to device"); return 0; } } while (i != cbStride); cInputRemaining -= cStride; pInput += cStride; } return cInput; } LSX_FORMAT_HANDLER(oss) { static char const* const names[] = {"ossdsp", "oss", NULL}; static unsigned const write_encodings[] = { SOX_ENCODING_SIGN2, 32, 16, 0, SOX_ENCODING_UNSIGNED, 8, 0, 0}; static sox_format_handler_t const handler = {SOX_LIB_VERSION_CODE, "Open Sound System device driver for unix-like systems", names, SOX_FILE_DEVICE | SOX_FILE_NOSTDIO, ossinit, ossread, ossstop, ossinit, osswrite, ossstop, NULL, write_encodings, NULL, sizeof(priv_t) }; return &handler; }