#include "iaxclient_lib.h" // changed by James Turner to use non-prefixed OpenAL include paths, // which is what CMake official FindOpenAL.cmake and the OpenAL-soft Config.cmake // expect to provide. This avoids any pre-processor logic to decide which // prefix is correct. #include #include struct openal_priv_data { int sample_rate; int num_buffers; int buffers_head; int buffers_tail; int buffers_free; ALuint* buffers; ALCcontext* out_ctx; ALuint source; ALCdevice* in_dev; float input_level; float output_level; }; static struct iaxc_audio_device device = { "default", IAXC_AD_INPUT | IAXC_AD_OUTPUT | IAXC_AD_RING | IAXC_AD_INPUT_DEFAULT | IAXC_AD_OUTPUT_DEFAULT | IAXC_AD_RING_DEFAULT, 0 }; static int openal_error(const char* function, int err) { fprintf(stderr, "OpenAl function %s failed with code %d\n", function, err); return -1; } int openal_input(struct iaxc_audio_driver *d, void *samples, int *nSamples) { int err; struct openal_priv_data* priv = (struct openal_priv_data*)(d->priv); ALCint available; ALCsizei request; alcGetIntegerv(priv->in_dev, ALC_CAPTURE_SAMPLES, sizeof(available), &available); /* do not return less data than caller wanted, iaxclient does not like it */ request = (available < *nSamples) ? 0 : *nSamples; if (request > 0) { err = alcGetError(priv->in_dev); alcCaptureSamples(priv->in_dev, samples, request); err = alcGetError(priv->in_dev); if (err) { openal_error("alcCaptureSamples", err); *nSamples = 0; return 1; } // software mute, but keep data flowing for sync purposes if (priv->input_level == 0) { memset(samples, 0, 2 * request); } } *nSamples = request; return 0; } static void openal_unqueue(struct openal_priv_data* priv) { int i; ALint err; ALint processed; alGetSourcei(priv->source, AL_BUFFERS_PROCESSED, &processed); #ifdef OPENAL_DEBUG { ALint queued; ALint state; alGetSourcei(priv->source, AL_BUFFERS_QUEUED, &queued); alGetSourcei(priv->source, AL_SOURCE_STATE, &state); fprintf(stderr, "free: %d processed: %d queued: %d head: %d tail: %d state: %d\n", priv->buffers_free, processed, queued, priv->buffers_head, priv->buffers_tail, state); } #endif alGetError(); for(i = 0; i < processed; i++) { alSourceUnqueueBuffers(priv->source, 1, priv->buffers + priv->buffers_tail); err = alGetError(); if (err) { openal_error("alSourceUnqueueBuffers", err); break; } if (++priv->buffers_tail >= priv->num_buffers) { priv->buffers_tail = 0; } ++priv->buffers_free; } } int openal_output(struct iaxc_audio_driver *d, void *samples, int nSamples) { struct openal_priv_data* priv = (struct openal_priv_data*)(d->priv); openal_unqueue(priv); /* If we run out of buffers, wait for an arbitrary number to become free */ if (priv->buffers_free == 0) { while(priv->buffers_free < 4) { iaxc_millisleep(100); openal_unqueue(priv); } } if (priv->buffers_free > 0) { ALuint buffer = priv->buffers[priv->buffers_head++]; if (priv->buffers_head >= priv->num_buffers) { priv->buffers_head = 0; } alBufferData(buffer, AL_FORMAT_MONO16, samples, nSamples * 2, priv->sample_rate); alSourceQueueBuffers(priv->source, 1, &buffer); --priv->buffers_free; /* delay start of output until we have 2 buffers */ if (priv->buffers_free == priv->num_buffers - 2) { ALint state; alGetSourcei(priv->source, AL_SOURCE_STATE, &state); if (state != AL_PLAYING) { #ifdef OPENAL_DEBUG fprintf(stderr, "calling alSourcePlay\n"); #endif alSourcePlay(priv->source); } } } else { fprintf(stderr, "openal_output buffer overflow\n"); return 1; } return 0; } int openal_select_devices(struct iaxc_audio_driver *d, int input, int output, int ring) { return (input != 0 || output !=0 || ring != 0) ? -1 : 0; } int openal_selected_devices(struct iaxc_audio_driver *d, int *input, int *output, int *ring) { *input = 0; *output = 0; *ring = 0; return 0; } /* Apparently iaxclient calls openal_start a gazillion times and doesn't call openal_stop. So let's just make them no-ops. */ int openal_start(struct iaxc_audio_driver *d) { int iret = 0; struct openal_priv_data* priv = (struct openal_priv_data*)(d->priv); if (priv) /* just to stop compiler noise */ iret = 0; return iret; } int openal_stop(struct iaxc_audio_driver *d) { int iret = 0; struct openal_priv_data* priv = (struct openal_priv_data*)(d->priv); if (priv) /* just to stop compiler noise */ iret = 0; return iret; } float openal_input_level_get(struct iaxc_audio_driver *d) { struct openal_priv_data* priv = (struct openal_priv_data*)(d->priv); return priv->input_level; } float openal_output_level_get(struct iaxc_audio_driver *d) { struct openal_priv_data* priv = (struct openal_priv_data*)(d->priv); return priv->output_level; } int openal_input_level_set(struct iaxc_audio_driver *d, float level) { struct openal_priv_data* priv = (struct openal_priv_data*)(d->priv); priv->input_level = (level < 0.5) ? 0 : 1; return 0; } int openal_output_level_set(struct iaxc_audio_driver *d, float level) { struct openal_priv_data* priv = (struct openal_priv_data*)(d->priv); priv->output_level = level; alSourcef(priv->source, AL_GAIN, level); return 0; } int openal_play_sound(struct iaxc_sound *s, int ring) { return 0; } int openal_stop_sound(int id) { return 0; } int openal_mic_boost_get(struct iaxc_audio_driver *d) { return 0; } int openal_mic_boost_set(struct iaxc_audio_driver *d, int enable) { return 0; } int openal_destroy(struct iaxc_audio_driver *d) { struct openal_priv_data* priv = (struct openal_priv_data*)(d->priv); alcCaptureStop(priv->in_dev); alcCaptureCloseDevice(priv->in_dev); alDeleteSources(1, &priv->source); return 0; } int openal_initialize(struct iaxc_audio_driver *d, int sample_rate) { struct openal_priv_data* priv = malloc(sizeof(struct openal_priv_data)); int err = alGetError(); d->priv = priv; // First we are looking for output device priv->out_ctx = alcGetCurrentContext(); if( priv->out_ctx == NULL ) { // FGCom standalone only ALCdevice* out_dev = alcOpenDevice(NULL); if (out_dev == 0) return openal_error("alcOpenDevice", alGetError()); priv->out_ctx = alcCreateContext(out_dev, 0); if (priv->out_ctx == 0) return openal_error("alcCreateContext", alGetError()); } alcMakeContextCurrent(priv->out_ctx); if ((err = alGetError())) return openal_error("alcMakeContextCurrent", err); // Then we look for input device priv->in_dev = alcCaptureOpenDevice(NULL, 8000, AL_FORMAT_MONO16, 800); if (!priv->in_dev) return openal_error("alcCaptureOpenDevice", alGetError()); if ((err = alGetError())) return openal_error("alcCaptureOpenDevice1", alGetError()); alcCaptureStart(priv->in_dev); if ((err = alGetError())) return openal_error("alcCaptureStart", err); priv->sample_rate = sample_rate; priv->num_buffers = 20; priv->input_level = 0; priv->output_level = 1; priv->buffers_head = 0; priv->buffers_tail = 0; priv->buffers_free = priv->num_buffers; priv->buffers = (ALuint*)malloc(sizeof(ALuint) * priv->num_buffers); alGenBuffers(priv->num_buffers, priv->buffers); if ((err = alGetError())) return openal_error("alGenBuffers", err); alGenSources(1, &priv->source); if ((err = alGetError())) return openal_error("alGenSources", err); d->initialize = openal_initialize; d->destroy = openal_destroy; d->select_devices = openal_select_devices; d->selected_devices = openal_selected_devices; d->start = openal_start; d->stop = openal_stop; d->output = openal_output; d->input = openal_input; d->input_level_get = openal_input_level_get; d->input_level_set = openal_input_level_set; d->output_level_get = openal_output_level_get; d->output_level_set = openal_output_level_set; d->mic_boost_get = openal_mic_boost_get; d->mic_boost_set = openal_mic_boost_set; d->play_sound = openal_play_sound; d->stop_sound = openal_stop_sound; d->nDevices = 1; d->devices = &device; return 0; }