ref: 2024869a595118d686682b38386c594c717ea5bd
dir: /src/coreaudio.c/
/* AudioCore sound handler * * Copyright 2008 Chris Bagwell And Sundry Contributors */ #include "sox_i.h" #include <CoreAudio/CoreAudio.h> #include <pthread.h> #define Buffactor 4 typedef struct { AudioDeviceID adid; pthread_mutex_t mutex; pthread_cond_t cond; int device_started; size_t bufsize; size_t bufrd; size_t bufwr; size_t bufrdavail; float *buf; } priv_t; static OSStatus PlaybackIOProc(AudioDeviceID inDevice UNUSED, const AudioTimeStamp *inNow UNUSED, const AudioBufferList *inInputData UNUSED, const AudioTimeStamp *inInputTime UNUSED, AudioBufferList *outOutputData, const AudioTimeStamp *inOutputTime UNUSED, void *inClientData) { priv_t *ac = (priv_t*)((sox_format_t*)inClientData)->priv; AudioBuffer *buf; size_t copylen, avail; pthread_mutex_lock(&ac->mutex); for(buf = outOutputData->mBuffers; buf != outOutputData->mBuffers + outOutputData->mNumberBuffers; buf++){ copylen = buf->mDataByteSize / sizeof(float); if(copylen > ac->bufrdavail) copylen = ac->bufrdavail; avail = ac->bufsize - ac->bufrd; if(buf->mData == NULL){ /*do nothing-hardware can't play audio*/ }else if(copylen > avail){ memcpy(buf->mData, ac->buf + ac->bufrd, avail * sizeof(float)); memcpy((float*)buf->mData + avail, ac->buf, (copylen - avail) * sizeof(float)); }else{ memcpy(buf->mData, ac->buf + ac->bufrd, copylen * sizeof(float)); } buf->mDataByteSize = copylen * sizeof(float); ac->bufrd += copylen; if(ac->bufrd >= ac->bufsize) ac->bufrd -= ac->bufsize; ac->bufrdavail -= copylen; } pthread_cond_signal(&ac->cond); pthread_mutex_unlock(&ac->mutex); return kAudioHardwareNoError; } static OSStatus RecIOProc(AudioDeviceID inDevice UNUSED, const AudioTimeStamp *inNow UNUSED, const AudioBufferList *inInputData, const AudioTimeStamp *inInputTime UNUSED, AudioBufferList *outOutputData UNUSED, const AudioTimeStamp *inOutputTime UNUSED, void *inClientData) { priv_t *ac = (priv_t *)((sox_format_t*)inClientData)->priv; AudioBuffer const *buf; size_t nfree, copylen, avail; pthread_mutex_lock(&ac->mutex); for(buf = inInputData->mBuffers; buf != inInputData->mBuffers + inInputData->mNumberBuffers; buf++){ if(buf->mData == NULL) continue; copylen = buf->mDataByteSize / sizeof(float); nfree = ac->bufsize - ac->bufrdavail - 1; if(nfree == 0) lsx_warn("coreaudio: unhandled buffer overrun. Data discarded."); if(copylen > nfree) copylen = nfree; avail = ac->bufsize - ac->bufwr; if(copylen > avail){ memcpy(ac->buf + ac->bufwr, buf->mData, avail * sizeof(float)); memcpy(ac->buf, (float*)buf->mData + avail, (copylen - avail) * sizeof(float)); }else{ memcpy(ac->buf + ac->bufwr, buf->mData, copylen * sizeof(float)); } ac->bufwr += copylen; if(ac->bufwr >= ac->bufsize) ac->bufwr -= ac->bufsize; ac->bufrdavail += copylen; } pthread_cond_signal(&ac->cond); pthread_mutex_unlock(&ac->mutex); return kAudioHardwareNoError; } static int setup(sox_format_t *ft, int is_input) { priv_t *ac = (priv_t *)ft->priv; OSStatus status; UInt32 property_size; struct AudioStreamBasicDescription stream_desc; int32_t buf_size; int rc; if (strncmp(ft->filename, "default", (size_t)7) == 0) { property_size = sizeof(ac->adid); if (is_input) status = AudioHardwareGetProperty(kAudioHardwarePropertyDefaultInputDevice, &property_size, &ac->adid); else status = AudioHardwareGetProperty(kAudioHardwarePropertyDefaultOutputDevice, &property_size, &ac->adid); } else { Boolean is_writable; status = AudioHardwareGetPropertyInfo(kAudioHardwarePropertyDevices, &property_size, &is_writable); if (status == noErr) { int device_count = property_size/sizeof(AudioDeviceID); AudioDeviceID *devices; devices = malloc(property_size); status = AudioHardwareGetProperty(kAudioHardwarePropertyDevices, &property_size, devices); if (status == noErr) { int i; for (i = 0; i < device_count; i++) { char name[256]; status = AudioDeviceGetProperty(devices[i],0,false,kAudioDevicePropertyDeviceName,&property_size,&name); lsx_report("Found Audio Device \"%s\"\n",name); /* String returned from OS is truncated so only compare * as much as returned. */ if (strncmp(name,ft->filename,strlen(name)) == 0) { ac->adid = devices[i]; break; } } } free(devices); } } if (status || ac->adid == kAudioDeviceUnknown) { lsx_fail_errno(ft, SOX_EPERM, "can not open audio device"); return SOX_EOF; } /* Query device to get initial values */ property_size = sizeof(struct AudioStreamBasicDescription); status = AudioDeviceGetProperty(ac->adid, 0, is_input, kAudioDevicePropertyStreamFormat, &property_size, &stream_desc); if (status) { lsx_fail_errno(ft, SOX_EPERM, "can not get audio device properties"); return SOX_EOF; } if (!(stream_desc.mFormatFlags & kLinearPCMFormatFlagIsFloat)) { lsx_fail_errno(ft, SOX_EPERM, "audio device does not accept floats"); return SOX_EOF; } /* OS X effectively only supports these values. */ ft->signal.channels = 2; ft->signal.rate = 44100; ft->encoding.bits_per_sample = 32; /* TODO: My limited experience with hardware can only get floats working * withh a fixed sample rate and stereo. I know that is a limitiation of * audio device I have so this may not be standard operating orders. * If some hardware supports setting sample rates and channel counts * then should do that over resampling and mixing. */ #if 0 stream_desc.mSampleRate = ft->signal.rate; stream_desc.mChannelsPerFrame = ft->signal.channels; /* Write them back */ property_size = sizeof(struct AudioStreamBasicDescription); status = AudioDeviceSetProperty(ac->adid, NULL, 0, is_input, kAudioDevicePropertyStreamFormat, property_size, &stream_desc); if (status) { lsx_fail_errno(ft, SOX_EPERM, "can not set audio device properties"); return SOX_EOF; } /* Query device to see if it worked */ property_size = sizeof(struct AudioStreamBasicDescription); status = AudioDeviceGetProperty(ac->adid, 0, is_input, kAudioDevicePropertyStreamFormat, &property_size, &stream_desc); if (status) { lsx_fail_errno(ft, SOX_EPERM, "can not get audio device properties"); return SOX_EOF; } #endif if (stream_desc.mChannelsPerFrame != ft->signal.channels) { lsx_debug("audio device did not accept %d channels. Use %d channels instead.", (int)ft->signal.channels, (int)stream_desc.mChannelsPerFrame); ft->signal.channels = stream_desc.mChannelsPerFrame; } if (stream_desc.mSampleRate != ft->signal.rate) { lsx_debug("audio device did not accept %d sample rate. Use %d instead.", (int)ft->signal.rate, (int)stream_desc.mSampleRate); ft->signal.rate = stream_desc.mSampleRate; } ac->bufsize = sox_globals.bufsiz / sizeof(sox_sample_t) * Buffactor; ac->bufrd = 0; ac->bufwr = 0; ac->bufrdavail = 0; ac->buf = lsx_malloc(ac->bufsize * sizeof(float)); buf_size = sox_globals.bufsiz / sizeof(sox_sample_t) * sizeof(float); property_size = sizeof(buf_size); status = AudioDeviceSetProperty(ac->adid, NULL, 0, is_input, kAudioDevicePropertyBufferSize, property_size, &buf_size); rc = pthread_mutex_init(&ac->mutex, NULL); if (rc) { lsx_fail_errno(ft, SOX_EPERM, "failed initializing mutex"); return SOX_EOF; } rc = pthread_cond_init(&ac->cond, NULL); if (rc) { lsx_fail_errno(ft, SOX_EPERM, "failed initializing condition"); return SOX_EOF; } ac->device_started = 0; /* Registers callback with the device without activating it. */ if (is_input) status = AudioDeviceAddIOProc(ac->adid, RecIOProc, (void *)ft); else status = AudioDeviceAddIOProc(ac->adid, PlaybackIOProc, (void *)ft); return SOX_SUCCESS; } static int startread(sox_format_t *ft) { return setup(ft, 1); } static size_t read_samples(sox_format_t *ft, sox_sample_t *buf, size_t nsamp) { priv_t *ac = (priv_t *)ft->priv; size_t len; SOX_SAMPLE_LOCALS; if (!ac->device_started) { AudioDeviceStart(ac->adid, RecIOProc); ac->device_started = 1; } pthread_mutex_lock(&ac->mutex); /* Wait until input buffer has been filled by device driver */ while (ac->bufrdavail == 0) pthread_cond_wait(&ac->cond, &ac->mutex); len = 0; while(len < nsamp && ac->bufrdavail > 0){ buf[len] = SOX_FLOAT_32BIT_TO_SAMPLE(ac->buf[ac->bufrd], ft->clips); len++; ac->bufrd++; if(ac->bufrd == ac->bufsize) ac->bufrd = 0; ac->bufrdavail--; } pthread_mutex_unlock(&ac->mutex); return len; } static int stopread(sox_format_t * ft) { priv_t *ac = (priv_t *)ft->priv; AudioDeviceStop(ac->adid, RecIOProc); AudioDeviceRemoveIOProc(ac->adid, RecIOProc); pthread_cond_destroy(&ac->cond); pthread_mutex_destroy(&ac->mutex); free(ac->buf); return SOX_SUCCESS; } static int startwrite(sox_format_t * ft) { return setup(ft, 0); } static size_t write_samples(sox_format_t *ft, const sox_sample_t *buf, size_t nsamp) { priv_t *ac = (priv_t *)ft->priv; size_t i; SOX_SAMPLE_LOCALS; pthread_mutex_lock(&ac->mutex); /* Wait to start until mutex is locked to help prevent callback * getting zero samples. */ if(!ac->device_started){ if(AudioDeviceStart(ac->adid, PlaybackIOProc)){ pthread_mutex_unlock(&ac->mutex); return SOX_EOF; } ac->device_started = 1; } /* globals.bufsize is in samples * buf_offset is in bytes * buf_size is in bytes */ for(i = 0; i < nsamp; i++){ while(ac->bufrdavail == ac->bufsize - 1) pthread_cond_wait(&ac->cond, &ac->mutex); ac->buf[ac->bufwr] = SOX_SAMPLE_TO_FLOAT_32BIT(buf[i], ft->clips); ac->bufwr++; if(ac->bufwr == ac->bufsize) ac->bufwr = 0; ac->bufrdavail++; } pthread_mutex_unlock(&ac->mutex); return nsamp; } static int stopwrite(sox_format_t * ft) { priv_t *ac = (priv_t *)ft->priv; if(ac->device_started){ pthread_mutex_lock(&ac->mutex); while (ac->bufrdavail > 0) pthread_cond_wait(&ac->cond, &ac->mutex); pthread_mutex_unlock(&ac->mutex); AudioDeviceStop(ac->adid, PlaybackIOProc); } AudioDeviceRemoveIOProc(ac->adid, PlaybackIOProc); pthread_cond_destroy(&ac->cond); pthread_mutex_destroy(&ac->mutex); free(ac->buf); return SOX_SUCCESS; } LSX_FORMAT_HANDLER(coreaudio) { static char const *const names[] = { "coreaudio", NULL }; static unsigned const write_encodings[] = { SOX_ENCODING_FLOAT, 32, 0, 0}; static sox_format_handler_t const handler = {SOX_LIB_VERSION_CODE, "Mac AudioCore device driver", names, SOX_FILE_DEVICE | SOX_FILE_NOSTDIO, startread, read_samples, stopread, startwrite, write_samples, stopwrite, NULL, write_encodings, NULL, sizeof(priv_t) }; return &handler; }