#if HAVE_CRT #define _CRTDBG_MAP_ALLOC #include #include #endif //HAVE_CRT /* * Copyright (C) 2020, University of the Basque Country (UPV/EHU) * Contact for licensing options: * * The original file was part of Open Source Doubango Framework * Copyright (C) 2010-2011 Mamadou Diop. * 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. * */ /**@file tdav_consumer_waveapi.c * @brief Audio Consumer for Win32 and WinCE platforms. * */ #include "tinydav/audio/waveapi/tdav_consumer_waveapi.h" #if HAVE_WAVE_API #include "tsk_thread.h" #include "tsk_memory.h" #include "tsk_debug.h" #define TDAV_WAVEAPI_CONSUMER_ERROR_BUFF_COUNT 0xFF #define tdav_consumer_waveapi_set tsk_null static void print_last_error(MMRESULT mmrError, const char* func) { static char buffer_err[TDAV_WAVEAPI_CONSUMER_ERROR_BUFF_COUNT]; waveOutGetErrorTextA(mmrError, buffer_err, sizeof(buffer_err)); TSK_DEBUG_ERROR("%s() error: %s", func, buffer_err); } static int free_wavehdr(tdav_consumer_waveapi_t* consumer, tsk_size_t index) { if(!consumer || index >= sizeof(consumer->hWaveHeaders)/sizeof(LPWAVEHDR)){ TSK_DEBUG_ERROR("Invalid parameter"); return -1; } TSK_FREE(consumer->hWaveHeaders[index]->lpData); TSK_FREE(consumer->hWaveHeaders[index]); return 0; } static int create_wavehdr(tdav_consumer_waveapi_t* consumer, tsk_size_t index) { if(!consumer || index >= sizeof(consumer->hWaveHeaders)/sizeof(LPWAVEHDR)){ TSK_DEBUG_ERROR("Invalid parameter"); return -1; } if(consumer->hWaveHeaders[index]){ free_wavehdr(consumer, index); } #if HAVE_CRT //Debug memory consumer->hWaveHeaders[index] = calloc(1, sizeof(WAVEHDR)); consumer->hWaveHeaders[index]->lpData = calloc(1, consumer->bytes_per_notif); #else consumer->hWaveHeaders[index] = tsk_calloc(1, sizeof(WAVEHDR)); consumer->hWaveHeaders[index]->lpData = tsk_calloc(1, consumer->bytes_per_notif); #endif //HAVE_CRT consumer->hWaveHeaders[index]->dwBufferLength = (DWORD)consumer->bytes_per_notif; consumer->hWaveHeaders[index]->dwFlags = WHDR_BEGINLOOP | WHDR_ENDLOOP; consumer->hWaveHeaders[index]->dwLoops = 0x01; consumer->hWaveHeaders[index]->dwUser = index; return 0; } static int write_wavehdr(tdav_consumer_waveapi_t* consumer, tsk_size_t index) { MMRESULT result; if(!consumer || !consumer->hWaveHeaders[index] || !consumer->hWaveOut){ TSK_DEBUG_ERROR("Invalid parameter"); return -1; } result = waveOutPrepareHeader(consumer->hWaveOut, consumer->hWaveHeaders[index], sizeof(WAVEHDR)); if(result != MMSYSERR_NOERROR){ print_last_error(result, "waveOutPrepareHeader"); return -2; } result = waveOutWrite(consumer->hWaveOut, consumer->hWaveHeaders[index], sizeof(WAVEHDR)); if(result != MMSYSERR_NOERROR){ print_last_error(result, "waveOutWrite"); return -3; } return 0; } static int play_wavehdr(tdav_consumer_waveapi_t* consumer, LPWAVEHDR lpHdr) { MMRESULT result; tsk_size_t out_size; if(!consumer || !lpHdr || !consumer->hWaveOut){ TSK_DEBUG_ERROR("Invalid parameter"); return -1; } result = waveOutUnprepareHeader(consumer->hWaveOut, lpHdr, sizeof(WAVEHDR)); if(result != MMSYSERR_NOERROR){ print_last_error(result, "waveOutUnprepareHeader"); return -2; } // // // Fill lpHdr->Data with decoded data // // if((out_size = tdav_consumer_audio_get(TDAV_CONSUMER_AUDIO(consumer), lpHdr->lpData, lpHdr->dwBufferLength))){ //memcpy(lpHdr->lpData, data, lpHdr->dwBufferLength); //TSK_FREE(data); } else{ /* Put silence */ memset(lpHdr->lpData, 0, lpHdr->dwBufferLength); } if(!consumer->started){ return 0; } result = waveOutPrepareHeader(consumer->hWaveOut, lpHdr, sizeof(WAVEHDR)); if(result != MMSYSERR_NOERROR){ print_last_error(result, "waveOutPrepareHeader"); return -3; } result = waveOutWrite(consumer->hWaveOut, lpHdr, sizeof(WAVEHDR)); if(result != MMSYSERR_NOERROR){ print_last_error(result, "waveOutWrite"); return -4; } return 0; } static void* TSK_STDCALL __playback_thread(void *param) { tdav_consumer_waveapi_t* consumer = (tdav_consumer_waveapi_t*)param; DWORD dwEvent; tsk_size_t i; TSK_DEBUG_INFO("__playback_thread -- START"); SetThreadPriority(GetCurrentThread(), THREAD_PRIORITY_HIGHEST); for(;;){ dwEvent = WaitForMultipleObjects(2, consumer->events, FALSE, INFINITE); if (dwEvent == 1){ break; } else if (dwEvent == 0){ EnterCriticalSection(&consumer->cs); for(i = 0; i< sizeof(consumer->hWaveHeaders)/sizeof(LPWAVEHDR); i++){ if(consumer->hWaveHeaders[i] && (consumer->hWaveHeaders[i]->dwFlags & WHDR_DONE)){ play_wavehdr(consumer, consumer->hWaveHeaders[i]); } } LeaveCriticalSection(&consumer->cs); } } TSK_DEBUG_INFO("__playback_thread -- STOP"); return tsk_null; } /* ============ Media Consumer Interface ================= */ int tdav_consumer_waveapi_prepare(tmedia_consumer_t* self, const tmedia_codec_t* codec) { tdav_consumer_waveapi_t* consumer = (tdav_consumer_waveapi_t*)self; tsk_size_t i; if(!consumer || !codec && codec->plugin){ TSK_DEBUG_ERROR("Invalid parameter"); return -1; } TMEDIA_CONSUMER(consumer)->audio.ptime = TMEDIA_CODEC_PTIME_AUDIO_DECODING(codec); TMEDIA_CONSUMER(consumer)->audio.in.channels = TMEDIA_CODEC_CHANNELS_AUDIO_DECODING(codec); TMEDIA_CONSUMER(consumer)->audio.in.rate = TMEDIA_CODEC_RATE_DECODING(codec); /* codec should have ptime */ /* Format */ ZeroMemory(&consumer->wfx, sizeof(WAVEFORMATEX)); consumer->wfx.wFormatTag = WAVE_FORMAT_PCM; consumer->wfx.nChannels = TMEDIA_CONSUMER(consumer)->audio.in.channels; consumer->wfx.nSamplesPerSec = TMEDIA_CONSUMER(consumer)->audio.out.rate ? TMEDIA_CONSUMER(consumer)->audio.out.rate : TMEDIA_CONSUMER(consumer)->audio.in.rate; consumer->wfx.wBitsPerSample = TMEDIA_CONSUMER(consumer)->audio.bits_per_sample; consumer->wfx.nBlockAlign = (consumer->wfx.nChannels * consumer->wfx.wBitsPerSample/8); consumer->wfx.nAvgBytesPerSec = (consumer->wfx.nSamplesPerSec * consumer->wfx.nBlockAlign); /* Average bytes (count) for each notification */ consumer->bytes_per_notif = ((consumer->wfx.nAvgBytesPerSec * TMEDIA_CONSUMER(consumer)->audio.ptime)/1000); /* create buffers */ for(i = 0; i< sizeof(consumer->hWaveHeaders)/sizeof(consumer->hWaveHeaders[0]); i++){ create_wavehdr(consumer, i); } return 0; } int tdav_consumer_waveapi_start(tmedia_consumer_t* self) { tdav_consumer_waveapi_t* consumer = (tdav_consumer_waveapi_t*)self; MMRESULT result; tsk_size_t i; if(!consumer){ TSK_DEBUG_ERROR("Invalid parameter"); return -1; } if(consumer->started || consumer->hWaveOut){ TSK_DEBUG_WARN("Consumer already started"); return 0; } /* create events */ if(!consumer->events[0]){ consumer->events[0] = CreateEvent(NULL, FALSE, FALSE, NULL); } if(!consumer->events[1]){ consumer->events[1] = CreateEvent(NULL, FALSE, FALSE, NULL); } /* open */ result = waveOutOpen((HWAVEOUT *)&consumer->hWaveOut, WAVE_MAPPER, &consumer->wfx, (DWORD)consumer->events[0], (DWORD_PTR)consumer, CALLBACK_EVENT); if(result != MMSYSERR_NOERROR){ print_last_error(result, "waveOutOpen"); return -2; } /* write */ for(i = 0; i< sizeof(consumer->hWaveHeaders)/sizeof(consumer->hWaveHeaders[0]); i++){ write_wavehdr(consumer, i); } /* start thread */ consumer->started = tsk_true; tsk_thread_create(&consumer->tid[0], __playback_thread, consumer); return 0; } int tdav_consumer_waveapi_consume(tmedia_consumer_t* self, const void* buffer, tsk_size_t size, const tsk_object_t* proto_hdr) { tdav_consumer_waveapi_t* consumer = (tdav_consumer_waveapi_t*)self; if(!consumer || !buffer || !size){ TSK_DEBUG_ERROR("Invalid parameter"); return -1; } /* buffer is already decoded */ return tdav_consumer_audio_put(TDAV_CONSUMER_AUDIO(consumer), buffer, size, proto_hdr); } int tdav_consumer_waveapi_pause(tmedia_consumer_t* self) { tdav_consumer_waveapi_t* consumer = (tdav_consumer_waveapi_t*)self; if(!consumer){ TSK_DEBUG_ERROR("Invalid parameter"); return -1; } return 0; } int tdav_consumer_waveapi_stop(tmedia_consumer_t* self) { tdav_consumer_waveapi_t* consumer = (tdav_consumer_waveapi_t*)self; MMRESULT result; if(!self){ TSK_DEBUG_ERROR("Invalid parameter"); return -1; } if(!consumer->started){ TSK_DEBUG_WARN("Consumer not started"); return 0; } /* stop thread */ if(consumer->tid[0]){ SetEvent(consumer->events[1]); tsk_thread_join(&(consumer->tid[0])); } /* should be done here */ consumer->started = tsk_false; if(consumer->hWaveOut && ((result = waveOutReset(consumer->hWaveOut)) != MMSYSERR_NOERROR)){ print_last_error(result, "waveOutReset"); } return 0; } // // WaveAPI consumer object definition // /* constructor */ static tsk_object_t* tdav_consumer_waveapi_ctor(tsk_object_t * self, va_list * app) { tdav_consumer_waveapi_t *consumer = self; if(consumer){ /* init base */ tdav_consumer_audio_init(TDAV_CONSUMER_AUDIO(consumer)); /* init self */ InitializeCriticalSection(&consumer->cs); } return self; } /* destructor */ static tsk_object_t* tdav_consumer_waveapi_dtor(tsk_object_t * self) { tdav_consumer_waveapi_t *consumer = self; if(consumer){ tsk_size_t i; /* stop */ if(consumer->started){ tdav_consumer_waveapi_stop(self); } /* deinit base */ tdav_consumer_audio_deinit(TDAV_CONSUMER_AUDIO(consumer)); /* deinit self */ for(i = 0; i< sizeof(consumer->hWaveHeaders)/sizeof(LPWAVEHDR); i++){ free_wavehdr(consumer, i); } if(consumer->hWaveOut){ waveOutClose(consumer->hWaveOut); } if(consumer->events[0]){ CloseHandle(consumer->events[0]); } if(consumer->events[1]){ CloseHandle(consumer->events[1]); } DeleteCriticalSection(&consumer->cs); } return self; } /* object definition */ static const tsk_object_def_t tdav_consumer_waveapi_def_s = { sizeof(tdav_consumer_waveapi_t), tdav_consumer_waveapi_ctor, tdav_consumer_waveapi_dtor, tdav_consumer_audio_cmp, }; /* plugin definition*/ static const tmedia_consumer_plugin_def_t tdav_consumer_waveapi_plugin_def_s = { &tdav_consumer_waveapi_def_s, tmedia_audio, "Microsoft WaveAPI consumer", tdav_consumer_waveapi_set, tdav_consumer_waveapi_prepare, tdav_consumer_waveapi_start, tdav_consumer_waveapi_consume, tdav_consumer_waveapi_pause, tdav_consumer_waveapi_stop }; const tmedia_consumer_plugin_def_t *tdav_consumer_waveapi_plugin_def_t = &tdav_consumer_waveapi_plugin_def_s; #endif /* HAVE_WAVE_API */