/* opensl_io.c: Android OpenSL input/output module Copyright (c) 2012, Victor Lazzarini All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name of the nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include "audin_main.h" #include "opensl_io.h" #define CONV16BIT 32768 #define CONVMYFLT (1./32768.) static void bqRecorderCallback(SLAndroidSimpleBufferQueueItf bq, void* context); // creates the OpenSL ES audio engine static SLresult openSLCreateEngine(OPENSL_STREAM* p) { SLresult result; // create engine result = slCreateEngine(&(p->engineObject), 0, NULL, 0, NULL, NULL); DEBUG_DVC("engineObject=%p", p->engineObject); if (result != SL_RESULT_SUCCESS) goto engine_end; // realize the engine result = (*p->engineObject)->Realize(p->engineObject, SL_BOOLEAN_FALSE); DEBUG_DVC("Realize=%d", result); if (result != SL_RESULT_SUCCESS) goto engine_end; // get the engine interface, which is needed in order to create other objects result = (*p->engineObject)->GetInterface(p->engineObject, SL_IID_ENGINE, &(p->engineEngine)); DEBUG_DVC("engineEngine=%p", p->engineEngine); if (result != SL_RESULT_SUCCESS) goto engine_end; // get the volume interface - important, this is optional! result = (*p->engineObject)->GetInterface(p->engineObject, SL_IID_DEVICEVOLUME, &(p->deviceVolume)); DEBUG_DVC("deviceVolume=%p", p->deviceVolume); if (result != SL_RESULT_SUCCESS) { p->deviceVolume = NULL; result = SL_RESULT_SUCCESS; } engine_end: assert(SL_RESULT_SUCCESS == result); return result; } // Open the OpenSL ES device for input static SLresult openSLRecOpen(OPENSL_STREAM* p) { SLresult result; SLuint32 sr = p->sr; SLuint32 channels = p->inchannels; assert(!p->recorderObject); if (channels) { switch (sr) { case 8000: sr = SL_SAMPLINGRATE_8; break; case 11025: sr = SL_SAMPLINGRATE_11_025; break; case 16000: sr = SL_SAMPLINGRATE_16; break; case 22050: sr = SL_SAMPLINGRATE_22_05; break; case 24000: sr = SL_SAMPLINGRATE_24; break; case 32000: sr = SL_SAMPLINGRATE_32; break; case 44100: sr = SL_SAMPLINGRATE_44_1; break; case 48000: sr = SL_SAMPLINGRATE_48; break; case 64000: sr = SL_SAMPLINGRATE_64; break; case 88200: sr = SL_SAMPLINGRATE_88_2; break; case 96000: sr = SL_SAMPLINGRATE_96; break; case 192000: sr = SL_SAMPLINGRATE_192; break; default: return -1; } // configure audio source SLDataLocator_IODevice loc_dev = {SL_DATALOCATOR_IODEVICE, SL_IODEVICE_AUDIOINPUT, SL_DEFAULTDEVICEID_AUDIOINPUT, NULL }; SLDataSource audioSrc = {&loc_dev, NULL}; // configure audio sink int speakers; if (channels > 1) speakers = SL_SPEAKER_FRONT_LEFT | SL_SPEAKER_FRONT_RIGHT; else speakers = SL_SPEAKER_FRONT_CENTER; SLDataLocator_AndroidSimpleBufferQueue loc_bq = {SL_DATALOCATOR_ANDROIDSIMPLEBUFFERQUEUE, 2}; SLDataFormat_PCM format_pcm; format_pcm.formatType = SL_DATAFORMAT_PCM; format_pcm.numChannels = channels; format_pcm.samplesPerSec = sr; format_pcm.channelMask = speakers; format_pcm.endianness = SL_BYTEORDER_LITTLEENDIAN; if (16 == p->bits_per_sample) { format_pcm.bitsPerSample = SL_PCMSAMPLEFORMAT_FIXED_16; format_pcm.containerSize = 16; } else if (8 == p->bits_per_sample) { format_pcm.bitsPerSample = SL_PCMSAMPLEFORMAT_FIXED_8; format_pcm.containerSize = 8; } else assert(0); SLDataSink audioSnk = {&loc_bq, &format_pcm}; // create audio recorder // (requires the RECORD_AUDIO permission) const SLInterfaceID id[] = {SL_IID_ANDROIDSIMPLEBUFFERQUEUE}; const SLboolean req[] = {SL_BOOLEAN_TRUE}; result = (*p->engineEngine)->CreateAudioRecorder(p->engineEngine, &(p->recorderObject), &audioSrc, &audioSnk, 1, id, req); DEBUG_DVC("p->recorderObject=%p", p->recorderObject); assert(!result); if (SL_RESULT_SUCCESS != result) goto end_recopen; // realize the audio recorder result = (*p->recorderObject)->Realize(p->recorderObject, SL_BOOLEAN_FALSE); DEBUG_DVC("Realize=%d", result); assert(!result); if (SL_RESULT_SUCCESS != result) goto end_recopen; // get the record interface result = (*p->recorderObject)->GetInterface(p->recorderObject, SL_IID_RECORD, &(p->recorderRecord)); DEBUG_DVC("p->recorderRecord=%p", p->recorderRecord); assert(!result); if (SL_RESULT_SUCCESS != result) goto end_recopen; // get the buffer queue interface result = (*p->recorderObject)->GetInterface(p->recorderObject, SL_IID_ANDROIDSIMPLEBUFFERQUEUE, &(p->recorderBufferQueue)); DEBUG_DVC("p->recorderBufferQueue=%p", p->recorderBufferQueue); assert(!result); if (SL_RESULT_SUCCESS != result) goto end_recopen; // register callback on the buffer queue result = (*p->recorderBufferQueue)->RegisterCallback(p->recorderBufferQueue, bqRecorderCallback, p); DEBUG_DVC("p->recorderBufferQueue=%p", p->recorderBufferQueue); assert(!result); if (SL_RESULT_SUCCESS != result) goto end_recopen; end_recopen: return result; } else return SL_RESULT_SUCCESS; } // close the OpenSL IO and destroy the audio engine static void openSLDestroyEngine(OPENSL_STREAM* p) { DEBUG_DVC("p=%p", p); // destroy audio recorder object, and invalidate all associated interfaces if (p->recorderObject != NULL) { (*p->recorderObject)->Destroy(p->recorderObject); p->recorderObject = NULL; p->recorderRecord = NULL; p->recorderBufferQueue = NULL; } // destroy engine object, and invalidate all associated interfaces if (p->engineObject != NULL) { (*p->engineObject)->Destroy(p->engineObject); p->engineObject = NULL; p->engineEngine = NULL; } } // open the android audio device for input OPENSL_STREAM* android_OpenRecDevice(char* name, int sr, int inchannels, int bufferframes, int bits_per_sample) { OPENSL_STREAM* p; p = (OPENSL_STREAM*) calloc(sizeof(OPENSL_STREAM), 1); if (!p) return NULL; p->inchannels = inchannels; p->sr = sr; p->queue = Queue_New(TRUE, -1, -1); p->buffersize = bufferframes; p->bits_per_sample = bits_per_sample; if ((p->bits_per_sample != 8) && (p->bits_per_sample != 16)) { android_CloseRecDevice(p); return NULL; } if (openSLCreateEngine(p) != SL_RESULT_SUCCESS) { android_CloseRecDevice(p); return NULL; } if (openSLRecOpen(p) != SL_RESULT_SUCCESS) { android_CloseRecDevice(p); return NULL; } return p; } // close the android audio device void android_CloseRecDevice(OPENSL_STREAM* p) { DEBUG_DVC("p=%p", p); if (p == NULL) return; if (p->queue) { while (Queue_Count(p->queue) > 0) { queue_element* e = Queue_Dequeue(p->queue); free(e->data); free(e); } Queue_Free(p->queue); } if (p->next) { free(p->next->data); free(p->next); } if (p->prep) { free(p->prep->data); free(p->prep); } openSLDestroyEngine(p); free(p); } // this callback handler is called every time a buffer finishes recording static void bqRecorderCallback(SLAndroidSimpleBufferQueueItf bq, void* context) { queue_element* e; OPENSL_STREAM* p = (OPENSL_STREAM*) context; DEBUG_DVC("p=%p", p); assert(p); assert(p->next); assert(p->prep); assert(p->queue); e = calloc(1, sizeof(queue_element)); if (!e) return; e->data = calloc(p->buffersize, p->bits_per_sample / 8); if (!e->data) { free(e); return; } e->size = p->buffersize * p->bits_per_sample / 8; Queue_Enqueue(p->queue, p->next); p->next = p->prep; p->prep = e; (*p->recorderBufferQueue)->Enqueue(p->recorderBufferQueue, e->data, e->size); } // gets a buffer of size samples from the device int android_RecIn(OPENSL_STREAM* p, short* buffer, int size) { queue_element* e; int rc; DWORD status; assert(p); assert(buffer); assert(size > 0); /* Initial trigger for the queue. */ if (!p->prep) { p->prep = calloc(1, sizeof(queue_element)); p->prep->data = calloc(p->buffersize, p->bits_per_sample / 8); p->prep->size = p->buffersize * p->bits_per_sample / 8; p->next = calloc(1, sizeof(queue_element)); p->next->data = calloc(p->buffersize, p->bits_per_sample / 8); p->next->size = p->buffersize * p->bits_per_sample / 8; (*p->recorderBufferQueue)->Enqueue(p->recorderBufferQueue, p->next->data, p->next->size); (*p->recorderBufferQueue)->Enqueue(p->recorderBufferQueue, p->prep->data, p->prep->size); (*p->recorderRecord)->SetRecordState(p->recorderRecord, SL_RECORDSTATE_RECORDING); } /* Wait for queue to be filled... */ if (!Queue_Count(p->queue)) { status = WaitForSingleObject(p->queue->event, INFINITE); if (status == WAIT_FAILED) { WLog_ERR(TAG, "WaitForSingleObject failed with error %lu", (unsigned long)GetLastError()); return -1; } } e = Queue_Dequeue(p->queue); if (!e) { WLog_ERR(TAG, "[ERROR] got e=%p from queue", e); return -1; } rc = (e->size < size) ? e->size : size; assert(size == e->size); assert(p->buffersize * p->bits_per_sample / 8 == size); memcpy(buffer, e->data, rc); free(e->data); free(e); return rc; }