/* Copyright (C) 2012 Doubango Telecom * * This file is part of Open Source Doubango Framework. * * DOUBANGO is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * DOUBANGO is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with DOUBANGO. */ #include "audio_opensles_producer.h" #include "audio_opensles.h" #include "tinydav/audio/tdav_producer_audio.h" #include "tsk_string.h" #include "tsk_memory.h" #include "tsk_debug.h" typedef struct audio_producer_opensles_s { TDAV_DECLARE_PRODUCER_AUDIO; bool isMuted; audio_opensles_instance_handle_t* audioInstHandle; struct { void* ptr; int size; int index; } buffer; } audio_producer_opensles_t; int audio_producer_opensles_handle_data_10ms(const audio_producer_opensles_t* _self, const void* audioSamples, int nSamples, int nBytesPerSample, int samplesPerSec, int nChannels) { if(!_self || !audioSamples || !nSamples) { AUDIO_OPENSLES_DEBUG_ERROR("Invalid parameter"); return -1; } if(!TMEDIA_PRODUCER(_self)->enc_cb.callback) { AUDIO_OPENSLES_DEBUG_WARN("No callback function is registered for the producer"); return 0; } if((nSamples != (samplesPerSec / 100))) { AUDIO_OPENSLES_DEBUG_ERROR("Not producing 10ms samples (nSamples=%d, samplesPerSec=%d)", nSamples, samplesPerSec); return -2; } if((nBytesPerSample != (TMEDIA_PRODUCER(_self)->audio.bits_per_sample >> 3))) { AUDIO_OPENSLES_DEBUG_ERROR("%d not valid bytes/samples", nBytesPerSample); return -3; } if((nChannels != TMEDIA_PRODUCER(_self)->audio.channels)) { AUDIO_OPENSLES_DEBUG_ERROR("Recording - %d not the expected number of channels but should be %d", nChannels, TMEDIA_PRODUCER(_self)->audio.channels); return -4; } int nSamplesInBits = (nSamples * nBytesPerSample); if(_self->buffer.index + nSamplesInBits > _self->buffer.size) { AUDIO_OPENSLES_DEBUG_ERROR("Buffer overflow"); return -5; } audio_producer_opensles_t* self = const_cast(_self); if(self->isMuted) { memset((((uint8_t*)self->buffer.ptr) + self->buffer.index), 0, nSamplesInBits); } else { memcpy((((uint8_t*)self->buffer.ptr) + self->buffer.index), audioSamples, nSamplesInBits); } self->buffer.index += nSamplesInBits; if(self->buffer.index == self->buffer.size) { self->buffer.index = 0; TMEDIA_PRODUCER(self)->enc_cb.callback(TMEDIA_PRODUCER(self)->enc_cb.callback_data, self->buffer.ptr, self->buffer.size); } return 0; } /* ============ Media Producer Interface ================= */ static int audio_producer_opensles_set(tmedia_producer_t* _self, const tmedia_param_t* param) { audio_producer_opensles_t* self = (audio_producer_opensles_t*)_self; if(param->plugin_type == tmedia_ppt_producer) { if(param->value_type == tmedia_pvt_int32) { if(tsk_striequals(param->key, "mute")) { self->isMuted = (*((int32_t*)param->value) != 0); // Mute not supported on android -> send silence when needed return 0; } else if(tsk_striequals(param->key, "volume")) { return audio_opensles_instance_set_microphone_volume(self->audioInstHandle, *((int32_t*)param->value)); } } } return tdav_producer_audio_set(TDAV_PRODUCER_AUDIO(self), param); } static int audio_producer_opensles_prepare(tmedia_producer_t* _self, const tmedia_codec_t* codec) { audio_producer_opensles_t* self = (audio_producer_opensles_t*)_self; if(!self || !codec) { AUDIO_OPENSLES_DEBUG_ERROR("Invalid parameter"); return -1; } // create audio instance if(!(self->audioInstHandle = audio_opensles_instance_create(TMEDIA_PRODUCER(self)->session_id))) { AUDIO_OPENSLES_DEBUG_ERROR("Failed to create audio instance handle"); return -2; } // check that ptime is mutiple of 10 if((codec->plugin->audio.ptime % 10)) { AUDIO_OPENSLES_DEBUG_ERROR("ptime=%d not multiple of 10", codec->plugin->audio.ptime); return -3; } // init input parameters from the codec TMEDIA_PRODUCER(self)->audio.channels = TMEDIA_CODEC_CHANNELS_AUDIO_ENCODING(codec); TMEDIA_PRODUCER(self)->audio.rate = TMEDIA_CODEC_RATE_ENCODING(codec); TMEDIA_PRODUCER(self)->audio.ptime = TMEDIA_CODEC_PTIME_AUDIO_ENCODING(codec); AUDIO_OPENSLES_DEBUG_INFO("audio_producer_opensles_prepare(channels=%d, rate=%d, ptime=%d)", codec->plugin->audio.channels, codec->plugin->rate, codec->plugin->audio.ptime); // prepare playout device and update output parameters int ret; ret = audio_opensles_instance_prepare_producer(self->audioInstHandle, &_self); // now that the producer is prepared we can initialize internal buffer using device caps if(ret == 0) { // allocate buffer int xsize = ((TMEDIA_PRODUCER(self)->audio.ptime * TMEDIA_PRODUCER(self)->audio.rate) / 1000) * (TMEDIA_PRODUCER(self)->audio.bits_per_sample >> 3); AUDIO_OPENSLES_DEBUG_INFO("producer buffer xsize = %d", xsize); if(!(self->buffer.ptr = tsk_realloc(self->buffer.ptr, xsize))) { AUDIO_OPENSLES_DEBUG_ERROR("Failed to allocate buffer with size = %d", xsize); self->buffer.size = 0; return -1; } self->buffer.size = xsize; self->buffer.index = 0; } return ret; } static int audio_producer_opensles_start(tmedia_producer_t* _self) { audio_producer_opensles_t* self = (audio_producer_opensles_t*)_self; if(!self) { AUDIO_OPENSLES_DEBUG_ERROR("Invalid parameter"); return -1; } AUDIO_OPENSLES_DEBUG_INFO("audio_producer_opensles_start"); return audio_opensles_instance_start_producer(self->audioInstHandle); } static int audio_producer_opensles_pause(tmedia_producer_t* self) { return 0; } static int audio_producer_opensles_stop(tmedia_producer_t* _self) { audio_producer_opensles_t* self = (audio_producer_opensles_t*)_self; if(!self) { AUDIO_OPENSLES_DEBUG_ERROR("Invalid parameter"); return -1; } return audio_opensles_instance_stop_producer(self->audioInstHandle); } // // SLES audio producer object definition // /* constructor */ static tsk_object_t* audio_producer_opensles_ctor(tsk_object_t *_self, va_list * app) { audio_producer_opensles_t *self = (audio_producer_opensles_t *)_self; if(self) { /* init base */ tdav_producer_audio_init(TDAV_PRODUCER_AUDIO(self)); /* init self */ } return self; } /* destructor */ static tsk_object_t* audio_producer_opensles_dtor(tsk_object_t *_self) { audio_producer_opensles_t *self = (audio_producer_opensles_t *)_self; if(self) { /* stop */ audio_producer_opensles_stop(TMEDIA_PRODUCER(self)); /* deinit self */ if(self->audioInstHandle) { audio_opensles_instance_destroy(&self->audioInstHandle); } TSK_FREE(self->buffer.ptr); /* deinit base */ tdav_producer_audio_deinit(TDAV_PRODUCER_AUDIO(self)); } return self; } /* object definition */ static const tsk_object_def_t audio_producer_opensles_def_s = { sizeof(audio_producer_opensles_t), audio_producer_opensles_ctor, audio_producer_opensles_dtor, tdav_producer_audio_cmp, }; /* plugin definition*/ static const tmedia_producer_plugin_def_t audio_producer_opensles_plugin_def_s = { &audio_producer_opensles_def_s, tmedia_audio, "SLES audio producer", audio_producer_opensles_set, audio_producer_opensles_prepare, audio_producer_opensles_start, audio_producer_opensles_pause, audio_producer_opensles_stop }; const tmedia_producer_plugin_def_t *audio_producer_opensles_plugin_def_t = &audio_producer_opensles_plugin_def_s;