/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this file, * You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifdef MOZ_LOGGING #define FORCE_PR_LOG #endif #if defined(PR_LOG) #error "This file must be #included before any IPDL-generated files or other files that #include prlog.h" #endif #include "nsIPrefService.h" #include "nsIPrefBranch.h" #include "CSFLog.h" #include "prenv.h" #ifdef PR_LOGGING static PRLogModuleInfo* GetUserMediaLog() { static PRLogModuleInfo *sLog; if (!sLog) sLog = PR_NewLogModule("GetUserMedia"); return sLog; } #endif #include "MediaEngineWebRTC.h" #include "ImageContainer.h" #ifdef MOZ_WIDGET_ANDROID #include "AndroidBridge.h" #endif #undef LOG #define LOG(args) PR_LOG(GetUserMediaLog(), PR_LOG_DEBUG, args) namespace mozilla { void MediaEngineWebRTC::EnumerateVideoDevices(nsTArray >* aVSources) { #ifdef MOZ_B2G_CAMERA MutexAutoLock lock(mMutex); if (!mCameraManager) { return; } /** * We still enumerate every time, in case a new device was plugged in since * the last call. TODO: Verify that WebRTC actually does deal with hotplugging * new devices (with or without new engine creation) and accordingly adjust. * Enumeration is not neccessary if GIPS reports the same set of devices * for a given instance of the engine. Likewise, if a device was plugged out, * mVideoSources must be updated. */ int num = 0; nsresult result; result = mCameraManager->GetNumberOfCameras(num); if (num <= 0 || result != NS_OK) { return; } for (int i = 0; i < num; i++) { nsCString cameraName; result = mCameraManager->GetCameraName(i, cameraName); if (result != NS_OK) { continue; } nsRefPtr vSource; NS_ConvertUTF8toUTF16 uuid(cameraName); if (mVideoSources.Get(uuid, getter_AddRefs(vSource))) { // We've already seen this device, just append. aVSources->AppendElement(vSource.get()); } else { vSource = new MediaEngineWebRTCVideoSource(mCameraManager, i, mWindowId); mVideoSources.Put(uuid, vSource); // Hashtable takes ownership. aVSources->AppendElement(vSource); } } return; #else webrtc::ViEBase* ptrViEBase; webrtc::ViECapture* ptrViECapture; // We spawn threads to handle gUM runnables, so we must protect the member vars MutexAutoLock lock(mMutex); #ifdef MOZ_WIDGET_ANDROID jobject context = mozilla::AndroidBridge::Bridge()->GetGlobalContextRef(); // get the JVM JavaVM *jvm = mozilla::AndroidBridge::Bridge()->GetVM(); JNIEnv *env; jint res = jvm->AttachCurrentThread(&env, NULL); if (webrtc::VideoEngine::SetAndroidObjects(jvm, (void*)context) != 0) { LOG(("VieCapture:SetAndroidObjects Failed")); return; } env->DeleteGlobalRef(context); #endif if (!mVideoEngine) { if (!(mVideoEngine = webrtc::VideoEngine::Create())) { return; } } PRLogModuleInfo *logs = GetWebRTCLogInfo(); if (!gWebrtcTraceLoggingOn && logs && logs->level > 0) { // no need to a critical section or lock here gWebrtcTraceLoggingOn = 1; const char *file = PR_GetEnv("WEBRTC_TRACE_FILE"); if (!file) { file = "WebRTC.log"; } LOG(("Logging webrtc to %s level %d", __FUNCTION__, file, logs->level)); mVideoEngine->SetTraceFilter(logs->level); mVideoEngine->SetTraceFile(file); } ptrViEBase = webrtc::ViEBase::GetInterface(mVideoEngine); if (!ptrViEBase) { return; } if (!mVideoEngineInit) { if (ptrViEBase->Init() < 0) { return; } mVideoEngineInit = true; } ptrViECapture = webrtc::ViECapture::GetInterface(mVideoEngine); if (!ptrViECapture) { return; } /** * We still enumerate every time, in case a new device was plugged in since * the last call. TODO: Verify that WebRTC actually does deal with hotplugging * new devices (with or without new engine creation) and accordingly adjust. * Enumeration is not neccessary if GIPS reports the same set of devices * for a given instance of the engine. Likewise, if a device was plugged out, * mVideoSources must be updated. */ int num = ptrViECapture->NumberOfCaptureDevices(); if (num <= 0) { return; } for (int i = 0; i < num; i++) { const unsigned int kMaxDeviceNameLength = 128; // XXX FIX! const unsigned int kMaxUniqueIdLength = 256; char deviceName[kMaxDeviceNameLength]; char uniqueId[kMaxUniqueIdLength]; // paranoia deviceName[0] = '\0'; uniqueId[0] = '\0'; int error = ptrViECapture->GetCaptureDevice(i, deviceName, sizeof(deviceName), uniqueId, sizeof(uniqueId)); if (error) { LOG((" VieCapture:GetCaptureDevice: Failed %d", ptrViEBase->LastError() )); continue; } #ifdef DEBUG LOG((" Capture Device Index %d, Name %s", i, deviceName)); webrtc::CaptureCapability cap; int numCaps = ptrViECapture->NumberOfCapabilities(uniqueId, kMaxUniqueIdLength); LOG(("Number of Capabilities %d", numCaps)); for (int j = 0; j < numCaps; j++) { if (ptrViECapture->GetCaptureCapability(uniqueId, kMaxUniqueIdLength, j, cap ) != 0 ) { break; } LOG(("type=%d width=%d height=%d maxFPS=%d", cap.rawType, cap.width, cap.height, cap.maxFPS )); } #endif if (uniqueId[0] == '\0') { // In case a device doesn't set uniqueId! strncpy(uniqueId, deviceName, sizeof(uniqueId)); uniqueId[sizeof(uniqueId)-1] = '\0'; // strncpy isn't safe } nsRefPtr vSource; NS_ConvertUTF8toUTF16 uuid(uniqueId); if (mVideoSources.Get(uuid, getter_AddRefs(vSource))) { // We've already seen this device, just append. aVSources->AppendElement(vSource.get()); } else { vSource = new MediaEngineWebRTCVideoSource(mVideoEngine, i); mVideoSources.Put(uuid, vSource); // Hashtable takes ownership. aVSources->AppendElement(vSource); } } ptrViEBase->Release(); ptrViECapture->Release(); return; #endif } void MediaEngineWebRTC::EnumerateAudioDevices(nsTArray >* aASources) { webrtc::VoEBase* ptrVoEBase = NULL; webrtc::VoEHardware* ptrVoEHw = NULL; // We spawn threads to handle gUM runnables, so we must protect the member vars MutexAutoLock lock(mMutex); #ifdef MOZ_WIDGET_ANDROID jobject context = mozilla::AndroidBridge::Bridge()->GetGlobalContextRef(); // get the JVM JavaVM *jvm = mozilla::AndroidBridge::Bridge()->GetVM(); JNIEnv *env; jvm->AttachCurrentThread(&env, NULL); if (webrtc::VoiceEngine::SetAndroidObjects(jvm, (void*)context) != 0) { LOG(("VoiceEngine:SetAndroidObjects Failed")); return; } env->DeleteGlobalRef(context); #endif if (!mVoiceEngine) { mVoiceEngine = webrtc::VoiceEngine::Create(); if (!mVoiceEngine) { return; } } ptrVoEBase = webrtc::VoEBase::GetInterface(mVoiceEngine); if (!ptrVoEBase) { return; } if (!mAudioEngineInit) { if (ptrVoEBase->Init() < 0) { return; } mAudioEngineInit = true; } ptrVoEHw = webrtc::VoEHardware::GetInterface(mVoiceEngine); if (!ptrVoEHw) { return; } int nDevices = 0; ptrVoEHw->GetNumOfRecordingDevices(nDevices); for (int i = 0; i < nDevices; i++) { // We use constants here because GetRecordingDeviceName takes char[128]. char deviceName[128]; char uniqueId[128]; // paranoia; jingle doesn't bother with this deviceName[0] = '\0'; uniqueId[0] = '\0'; int error = ptrVoEHw->GetRecordingDeviceName(i, deviceName, uniqueId); if (error) { LOG((" VoEHardware:GetRecordingDeviceName: Failed %d", ptrVoEBase->LastError() )); continue; } if (uniqueId[0] == '\0') { // Mac and Linux don't set uniqueId! MOZ_ASSERT(sizeof(deviceName) == sizeof(uniqueId)); // total paranoia strcpy(uniqueId,deviceName); // safe given assert and initialization/error-check } nsRefPtr aSource; NS_ConvertUTF8toUTF16 uuid(uniqueId); if (mAudioSources.Get(uuid, getter_AddRefs(aSource))) { // We've already seen this device, just append. aASources->AppendElement(aSource.get()); } else { aSource = new MediaEngineWebRTCAudioSource( mVoiceEngine, i, deviceName, uniqueId ); mAudioSources.Put(uuid, aSource); // Hashtable takes ownership. aASources->AppendElement(aSource); } } ptrVoEHw->Release(); ptrVoEBase->Release(); } void MediaEngineWebRTC::Shutdown() { // This is likely paranoia MutexAutoLock lock(mMutex); if (mVideoEngine) { mVideoSources.Clear(); webrtc::VideoEngine::Delete(mVideoEngine); } if (mVoiceEngine) { mAudioSources.Clear(); webrtc::VoiceEngine::Delete(mVoiceEngine); } mVideoEngine = NULL; mVoiceEngine = NULL; } }