/** * FreeRDP: A Remote Desktop Protocol Implementation * Audio Output Virtual Channel * * Copyright 2009-2012 Jay Sorg * Copyright 2010-2012 Vic Lee * Copyright 2015 Thincast Technologies GmbH * Copyright 2015 DI (FH) Martin Haimberger * Copyright 2016 David PHAM-VAN * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include #include #include #include #include #include "rdpsnd_main.h" typedef struct { rdpsndDevicePlugin device; HWAVEOUT hWaveOut; WAVEFORMATEX format; UINT32 volume; wLog* log; UINT32 latency; HANDLE hThread; DWORD threadId; CRITICAL_SECTION cs; } rdpsndWinmmPlugin; static BOOL rdpsnd_winmm_convert_format(const AUDIO_FORMAT* in, WAVEFORMATEX* out) { if (!in || !out) return FALSE; ZeroMemory(out, sizeof(WAVEFORMATEX)); out->wFormatTag = WAVE_FORMAT_PCM; out->nChannels = in->nChannels; out->nSamplesPerSec = in->nSamplesPerSec; switch (in->wFormatTag) { case WAVE_FORMAT_PCM: out->wBitsPerSample = in->wBitsPerSample; break; default: return FALSE; } out->nBlockAlign = out->nChannels * out->wBitsPerSample / 8; out->nAvgBytesPerSec = out->nSamplesPerSec * out->nBlockAlign; return TRUE; } static BOOL rdpsnd_winmm_set_format(rdpsndDevicePlugin* device, const AUDIO_FORMAT* format, UINT32 latency) { rdpsndWinmmPlugin* winmm = (rdpsndWinmmPlugin*)device; winmm->latency = latency; if (!rdpsnd_winmm_convert_format(format, &winmm->format)) return FALSE; return TRUE; } static DWORD WINAPI waveOutProc(LPVOID lpParameter) { MSG msg; rdpsndWinmmPlugin* winmm = (rdpsndWinmmPlugin*)lpParameter; while (GetMessage(&msg, NULL, 0, 0)) { if (msg.message == MM_WOM_CLOSE) { /* device was closed - exit thread */ break; } else if (msg.message == MM_WOM_DONE) { /* free buffer */ LPWAVEHDR waveHdr = (LPWAVEHDR)msg.lParam; EnterCriticalSection(&winmm->cs); waveOutUnprepareHeader((HWAVEOUT)msg.wParam, waveHdr, sizeof(WAVEHDR)); LeaveCriticalSection(&winmm->cs); free(waveHdr->lpData); free(waveHdr); } } return 0; } static BOOL rdpsnd_winmm_open(rdpsndDevicePlugin* device, const AUDIO_FORMAT* format, UINT32 latency) { MMRESULT mmResult; rdpsndWinmmPlugin* winmm = (rdpsndWinmmPlugin*)device; if (winmm->hWaveOut) return TRUE; if (!rdpsnd_winmm_set_format(device, format, latency)) return FALSE; winmm->hThread = CreateThread(NULL, 0, waveOutProc, winmm, 0, &winmm->threadId); if (!winmm->hThread) { WLog_Print(winmm->log, WLOG_ERROR, "CreateThread failed: %" PRIu32 "", GetLastError()); return FALSE; } mmResult = waveOutOpen(&winmm->hWaveOut, WAVE_MAPPER, &winmm->format, (DWORD_PTR)winmm->threadId, 0, CALLBACK_THREAD); if (mmResult != MMSYSERR_NOERROR) { WLog_Print(winmm->log, WLOG_ERROR, "waveOutOpen failed: %" PRIu32 "", mmResult); return FALSE; } mmResult = waveOutSetVolume(winmm->hWaveOut, winmm->volume); if (mmResult != MMSYSERR_NOERROR) { WLog_Print(winmm->log, WLOG_ERROR, "waveOutSetVolume failed: %" PRIu32 "", mmResult); return FALSE; } return TRUE; } static void rdpsnd_winmm_close(rdpsndDevicePlugin* device) { MMRESULT mmResult; rdpsndWinmmPlugin* winmm = (rdpsndWinmmPlugin*)device; if (winmm->hWaveOut) { EnterCriticalSection(&winmm->cs); mmResult = waveOutReset(winmm->hWaveOut); if (mmResult != MMSYSERR_NOERROR) WLog_Print(winmm->log, WLOG_ERROR, "waveOutReset failure: %" PRIu32 "", mmResult); mmResult = waveOutClose(winmm->hWaveOut); if (mmResult != MMSYSERR_NOERROR) WLog_Print(winmm->log, WLOG_ERROR, "waveOutClose failure: %" PRIu32 "", mmResult); LeaveCriticalSection(&winmm->cs); winmm->hWaveOut = NULL; } if (winmm->hThread) { WaitForSingleObject(winmm->hThread, INFINITE); CloseHandle(winmm->hThread); winmm->hThread = NULL; } } static void rdpsnd_winmm_free(rdpsndDevicePlugin* device) { rdpsndWinmmPlugin* winmm = (rdpsndWinmmPlugin*)device; if (winmm) { rdpsnd_winmm_close(device); DeleteCriticalSection(&winmm->cs); free(winmm); } } static BOOL rdpsnd_winmm_format_supported(rdpsndDevicePlugin* device, const AUDIO_FORMAT* format) { MMRESULT result; WAVEFORMATEX out; WINPR_UNUSED(device); if (rdpsnd_winmm_convert_format(format, &out)) { result = waveOutOpen(NULL, WAVE_MAPPER, &out, 0, 0, WAVE_FORMAT_QUERY); if (result == MMSYSERR_NOERROR) return TRUE; } return FALSE; } static UINT32 rdpsnd_winmm_get_volume(rdpsndDevicePlugin* device) { MMRESULT mmResult; DWORD dwVolume = UINT32_MAX; rdpsndWinmmPlugin* winmm = (rdpsndWinmmPlugin*)device; if (!winmm->hWaveOut) return dwVolume; mmResult = waveOutGetVolume(winmm->hWaveOut, &dwVolume); if (mmResult != MMSYSERR_NOERROR) { WLog_Print(winmm->log, WLOG_ERROR, "waveOutGetVolume failure: %" PRIu32 "", mmResult); dwVolume = UINT32_MAX; } return dwVolume; } static BOOL rdpsnd_winmm_set_volume(rdpsndDevicePlugin* device, UINT32 value) { MMRESULT mmResult; rdpsndWinmmPlugin* winmm = (rdpsndWinmmPlugin*)device; winmm->volume = value; if (!winmm->hWaveOut) return TRUE; mmResult = waveOutSetVolume(winmm->hWaveOut, value); if (mmResult != MMSYSERR_NOERROR) { WLog_Print(winmm->log, WLOG_ERROR, "waveOutGetVolume failure: %" PRIu32 "", mmResult); return FALSE; } return TRUE; } static UINT rdpsnd_winmm_play(rdpsndDevicePlugin* device, const BYTE* data, size_t size) { MMRESULT mmResult; LPWAVEHDR lpWaveHdr; rdpsndWinmmPlugin* winmm = (rdpsndWinmmPlugin*)device; if (!winmm->hWaveOut) return 0; if (size > UINT32_MAX) return 0; lpWaveHdr = (LPWAVEHDR)calloc(1, sizeof(WAVEHDR)); if (!lpWaveHdr) return 0; lpWaveHdr->dwFlags = 0; lpWaveHdr->dwLoops = 0; lpWaveHdr->lpData = malloc(size); if (!lpWaveHdr->lpData) goto fail; memcpy(lpWaveHdr->lpData, data, size); lpWaveHdr->dwBufferLength = (DWORD)size; EnterCriticalSection(&winmm->cs); mmResult = waveOutPrepareHeader(winmm->hWaveOut, lpWaveHdr, sizeof(WAVEHDR)); if (mmResult != MMSYSERR_NOERROR) { WLog_Print(winmm->log, WLOG_ERROR, "waveOutPrepareHeader failure: %" PRIu32 "", mmResult); goto failCS; } mmResult = waveOutWrite(winmm->hWaveOut, lpWaveHdr, sizeof(WAVEHDR)); if (mmResult != MMSYSERR_NOERROR) { WLog_Print(winmm->log, WLOG_ERROR, "waveOutWrite failure: %" PRIu32 "", mmResult); waveOutUnprepareHeader(winmm->hWaveOut, lpWaveHdr, sizeof(WAVEHDR)); goto failCS; } LeaveCriticalSection(&winmm->cs); return winmm->latency; failCS: LeaveCriticalSection(&winmm->cs); fail: if (lpWaveHdr) free(lpWaveHdr->lpData); free(lpWaveHdr); return 0; } static void rdpsnd_winmm_parse_addin_args(rdpsndDevicePlugin* device, const ADDIN_ARGV* args) { WINPR_UNUSED(device); WINPR_UNUSED(args); } /** * Function description * * @return 0 on success, otherwise a Win32 error code */ FREERDP_ENTRY_POINT(UINT winmm_freerdp_rdpsnd_client_subsystem_entry( PFREERDP_RDPSND_DEVICE_ENTRY_POINTS pEntryPoints)) { const ADDIN_ARGV* args; rdpsndWinmmPlugin* winmm; if (waveOutGetNumDevs() == 0) { WLog_Print(WLog_Get(TAG), WLOG_ERROR, "No sound playback device available!"); return ERROR_DEVICE_NOT_AVAILABLE; } winmm = (rdpsndWinmmPlugin*)calloc(1, sizeof(rdpsndWinmmPlugin)); if (!winmm) return CHANNEL_RC_NO_MEMORY; winmm->device.Open = rdpsnd_winmm_open; winmm->device.FormatSupported = rdpsnd_winmm_format_supported; winmm->device.GetVolume = rdpsnd_winmm_get_volume; winmm->device.SetVolume = rdpsnd_winmm_set_volume; winmm->device.Play = rdpsnd_winmm_play; winmm->device.Close = rdpsnd_winmm_close; winmm->device.Free = rdpsnd_winmm_free; winmm->log = WLog_Get(TAG); InitializeCriticalSection(&winmm->cs); args = pEntryPoints->args; rdpsnd_winmm_parse_addin_args(&winmm->device, args); winmm->volume = 0xFFFFFFFF; pEntryPoints->pRegisterRdpsndDevice(pEntryPoints->rdpsnd, (rdpsndDevicePlugin*)winmm); return CHANNEL_RC_OK; }