From 6bf0a5cb5034a7e684dcc3500e841785237ce2dd Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 19:32:43 +0200 Subject: Adding upstream version 1:115.7.0. Signed-off-by: Daniel Baumann --- dom/media/systemservices/CamerasChild.cpp | 535 ++++++++++++++++++++++++++++++ 1 file changed, 535 insertions(+) create mode 100644 dom/media/systemservices/CamerasChild.cpp (limited to 'dom/media/systemservices/CamerasChild.cpp') diff --git a/dom/media/systemservices/CamerasChild.cpp b/dom/media/systemservices/CamerasChild.cpp new file mode 100644 index 0000000000..3b9ce64e46 --- /dev/null +++ b/dom/media/systemservices/CamerasChild.cpp @@ -0,0 +1,535 @@ +/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ +/* vim: set sw=2 ts=8 et ft=cpp : */ +/* 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/. */ + +#include "CamerasChild.h" + +#undef FF + +#include "mozilla/Assertions.h" +#include "mozilla/ipc/BackgroundChild.h" +#include "mozilla/ipc/PBackgroundChild.h" +#include "mozilla/Logging.h" +#include "mozilla/SyncRunnable.h" +#include "mozilla/WeakPtr.h" +#include "mozilla/Unused.h" +#include "MediaUtils.h" +#include "nsThreadUtils.h" + +#undef LOG +#undef LOG_ENABLED +mozilla::LazyLogModule gCamerasChildLog("CamerasChild"); +#define LOG(args) MOZ_LOG(gCamerasChildLog, mozilla::LogLevel::Debug, args) +#define LOG_ENABLED() MOZ_LOG_TEST(gCamerasChildLog, mozilla::LogLevel::Debug) + +namespace mozilla::camera { + +CamerasSingleton::CamerasSingleton() + : mCamerasMutex("CamerasSingleton::mCamerasMutex"), + mCameras(nullptr), + mCamerasChildThread(nullptr) { + LOG(("CamerasSingleton: %p", this)); +} + +CamerasSingleton::~CamerasSingleton() { LOG(("~CamerasSingleton: %p", this)); } + +class InitializeIPCThread : public Runnable { + public: + InitializeIPCThread() + : Runnable("camera::InitializeIPCThread"), mCamerasChild(nullptr) {} + + NS_IMETHOD Run() override { + // Try to get the PBackground handle + ipc::PBackgroundChild* existingBackgroundChild = + ipc::BackgroundChild::GetForCurrentThread(); + // If it's not spun up yet, block until it is, and retry + if (!existingBackgroundChild) { + LOG(("No existingBackgroundChild")); + existingBackgroundChild = + ipc::BackgroundChild::GetOrCreateForCurrentThread(); + LOG(("BackgroundChild: %p", existingBackgroundChild)); + if (!existingBackgroundChild) { + return NS_ERROR_FAILURE; + } + } + + // Create CamerasChild + // We will be returning the resulting pointer (synchronously) to our caller. + mCamerasChild = static_cast( + existingBackgroundChild->SendPCamerasConstructor()); + + return NS_OK; + } + + CamerasChild* GetCamerasChild() { return mCamerasChild; } + + private: + CamerasChild* mCamerasChild; +}; + +CamerasChild* GetCamerasChild() { + CamerasSingleton::Mutex().AssertCurrentThreadOwns(); + if (!CamerasSingleton::Child()) { + MOZ_ASSERT(!NS_IsMainThread(), "Should not be on the main Thread"); + MOZ_ASSERT(!CamerasSingleton::Thread()); + LOG(("No sCameras, setting up IPC Thread")); + nsresult rv = NS_NewNamedThread("Cameras IPC", + getter_AddRefs(CamerasSingleton::Thread())); + if (NS_FAILED(rv)) { + LOG(("Error launching IPC Thread")); + return nullptr; + } + + // At this point we are in the MediaManager thread, and the thread we are + // dispatching to is the specific Cameras IPC thread that was just made + // above, so now we will fire off a runnable to run + // BackgroundChild::GetOrCreateForCurrentThread there, while we + // block in this thread. + // We block until the following happens in the Cameras IPC thread: + // 1) Creation of PBackground finishes + // 2) Creation of PCameras finishes by sending a message to the parent + RefPtr runnable = new InitializeIPCThread(); + RefPtr sr = new SyncRunnable(runnable); + sr->DispatchToThread(CamerasSingleton::Thread()); + CamerasSingleton::Child() = runnable->GetCamerasChild(); + } + if (!CamerasSingleton::Child()) { + LOG(("Failed to set up CamerasChild, are we in shutdown?")); + } + return CamerasSingleton::Child(); +} + +CamerasChild* GetCamerasChildIfExists() { + OffTheBooksMutexAutoLock lock(CamerasSingleton::Mutex()); + return CamerasSingleton::Child(); +} + +mozilla::ipc::IPCResult CamerasChild::RecvReplyFailure(void) { + LOG(("%s", __PRETTY_FUNCTION__)); + MonitorAutoLock monitor(mReplyMonitor); + mReceivedReply = true; + mReplySuccess = false; + monitor.Notify(); + return IPC_OK(); +} + +mozilla::ipc::IPCResult CamerasChild::RecvReplySuccess(void) { + LOG(("%s", __PRETTY_FUNCTION__)); + MonitorAutoLock monitor(mReplyMonitor); + mReceivedReply = true; + mReplySuccess = true; + monitor.Notify(); + return IPC_OK(); +} + +mozilla::ipc::IPCResult CamerasChild::RecvReplyNumberOfCapabilities( + const int& capabilityCount) { + LOG(("%s", __PRETTY_FUNCTION__)); + MonitorAutoLock monitor(mReplyMonitor); + mReceivedReply = true; + mReplySuccess = true; + mReplyInteger = capabilityCount; + monitor.Notify(); + return IPC_OK(); +} + +// Helper function to dispatch calls to the IPC Thread and +// CamerasChild object. Takes the needed locks and dispatches. +// Takes a "failed" value and a reference to the output variable +// as parameters, will return the right one depending on whether +// dispatching succeeded. +// +// The LockAndDispatch object in the caller must stay alive until after any +// reply data has been retreived (mReplyInteger, etc) so that the data is +// protected by the ReplyMonitor/RequestMutex +template +class LockAndDispatch { + public: + LockAndDispatch(CamerasChild* aCamerasChild, const char* aRequestingFunc, + nsIRunnable* aRunnable, T aFailureValue, + const T& aSuccessValue) + : mCamerasChild(aCamerasChild), + mRequestingFunc(aRequestingFunc), + mRunnable(aRunnable), + mReplyLock(aCamerasChild->mReplyMonitor), + mRequestLock(aCamerasChild->mRequestMutex), + mSuccess(true), + mFailureValue(aFailureValue), + mSuccessValue(aSuccessValue) { + Dispatch(); + } + + T ReturnValue() const { + if (mSuccess) { + return mSuccessValue; + } else { + return mFailureValue; + } + } + + const bool& Success() const { return mSuccess; } + + private: + void Dispatch() { + if (!mCamerasChild->DispatchToParent(mRunnable, mReplyLock)) { + LOG(("Cameras dispatch for IPC failed in %s", mRequestingFunc)); + mSuccess = false; + } + } + + CamerasChild* mCamerasChild; + const char* mRequestingFunc; + nsIRunnable* mRunnable; + // Prevent concurrent use of the reply variables by holding + // the mReplyMonitor. Note that this is unlocked while waiting for + // the reply to be filled in, necessitating the additional mRequestLock/Mutex; + MonitorAutoLock mReplyLock; + MutexAutoLock mRequestLock; + bool mSuccess; + const T mFailureValue; + const T& mSuccessValue; +}; + +bool CamerasChild::DispatchToParent(nsIRunnable* aRunnable, + MonitorAutoLock& aMonitor) { + CamerasSingleton::Mutex().AssertCurrentThreadOwns(); + mReplyMonitor.AssertCurrentThreadOwns(); + CamerasSingleton::Thread()->Dispatch(aRunnable, NS_DISPATCH_NORMAL); + // Guard against spurious wakeups. + mReceivedReply = false; + // Wait for a reply + do { + // If the parent has been shut down, then we won't receive a reply. + if (!mIPCIsAlive) { + return false; + } + aMonitor.Wait(); + } while (!mReceivedReply); + return mReplySuccess; +} + +int CamerasChild::NumberOfCapabilities(CaptureEngine aCapEngine, + const char* deviceUniqueIdUTF8) { + LOG(("%s", __PRETTY_FUNCTION__)); + LOG(("NumberOfCapabilities for %s", deviceUniqueIdUTF8)); + nsCString unique_id(deviceUniqueIdUTF8); + nsCOMPtr runnable = + mozilla::NewRunnableMethod( + "camera::PCamerasChild::SendNumberOfCapabilities", this, + &CamerasChild::SendNumberOfCapabilities, aCapEngine, unique_id); + LockAndDispatch<> dispatcher(this, __func__, runnable, 0, mReplyInteger); + LOG(("Capture capability count: %d", dispatcher.ReturnValue())); + return dispatcher.ReturnValue(); +} + +int CamerasChild::NumberOfCaptureDevices(CaptureEngine aCapEngine) { + LOG(("%s", __PRETTY_FUNCTION__)); + nsCOMPtr runnable = mozilla::NewRunnableMethod( + "camera::PCamerasChild::SendNumberOfCaptureDevices", this, + &CamerasChild::SendNumberOfCaptureDevices, aCapEngine); + LockAndDispatch<> dispatcher(this, __func__, runnable, 0, mReplyInteger); + LOG(("Capture Devices: %d", dispatcher.ReturnValue())); + return dispatcher.ReturnValue(); +} + +mozilla::ipc::IPCResult CamerasChild::RecvReplyNumberOfCaptureDevices( + const int& aDeviceCount) { + LOG(("%s", __PRETTY_FUNCTION__)); + MonitorAutoLock monitor(mReplyMonitor); + mReceivedReply = true; + mReplySuccess = true; + mReplyInteger = aDeviceCount; + monitor.Notify(); + return IPC_OK(); +} + +int CamerasChild::EnsureInitialized(CaptureEngine aCapEngine) { + LOG(("%s", __PRETTY_FUNCTION__)); + nsCOMPtr runnable = mozilla::NewRunnableMethod( + "camera::PCamerasChild::SendEnsureInitialized", this, + &CamerasChild::SendEnsureInitialized, aCapEngine); + LockAndDispatch<> dispatcher(this, __func__, runnable, 0, mReplyInteger); + LOG(("Capture Devices: %d", dispatcher.ReturnValue())); + return dispatcher.ReturnValue(); +} + +int CamerasChild::GetCaptureCapability( + CaptureEngine aCapEngine, const char* unique_idUTF8, + const unsigned int capability_number, + webrtc::VideoCaptureCapability* capability) { + LOG(("GetCaptureCapability: %s %d", unique_idUTF8, capability_number)); + MOZ_ASSERT(capability); + nsCString unique_id(unique_idUTF8); + nsCOMPtr runnable = + mozilla::NewRunnableMethod( + "camera::PCamerasChild::SendGetCaptureCapability", this, + &CamerasChild::SendGetCaptureCapability, aCapEngine, unique_id, + capability_number); + mReplyCapability = capability; + LockAndDispatch<> dispatcher(this, __func__, runnable, -1, mZero); + mReplyCapability = nullptr; + return dispatcher.ReturnValue(); +} + +mozilla::ipc::IPCResult CamerasChild::RecvReplyGetCaptureCapability( + const VideoCaptureCapability& ipcCapability) { + LOG(("%s", __PRETTY_FUNCTION__)); + MonitorAutoLock monitor(mReplyMonitor); + mReceivedReply = true; + mReplySuccess = true; + mReplyCapability->width = ipcCapability.width(); + mReplyCapability->height = ipcCapability.height(); + mReplyCapability->maxFPS = ipcCapability.maxFPS(); + mReplyCapability->videoType = + static_cast(ipcCapability.videoType()); + mReplyCapability->interlaced = ipcCapability.interlaced(); + monitor.Notify(); + return IPC_OK(); +} + +int CamerasChild::GetCaptureDevice( + CaptureEngine aCapEngine, unsigned int list_number, char* device_nameUTF8, + const unsigned int device_nameUTF8Length, char* unique_idUTF8, + const unsigned int unique_idUTF8Length, bool* scary) { + LOG(("%s", __PRETTY_FUNCTION__)); + nsCOMPtr runnable = + mozilla::NewRunnableMethod( + "camera::PCamerasChild::SendGetCaptureDevice", this, + &CamerasChild::SendGetCaptureDevice, aCapEngine, list_number); + LockAndDispatch<> dispatcher(this, __func__, runnable, -1, mZero); + if (dispatcher.Success()) { + base::strlcpy(device_nameUTF8, mReplyDeviceName.get(), + device_nameUTF8Length); + base::strlcpy(unique_idUTF8, mReplyDeviceID.get(), unique_idUTF8Length); + if (scary) { + *scary = mReplyScary; + } + LOG(("Got %s name %s id", device_nameUTF8, unique_idUTF8)); + } + return dispatcher.ReturnValue(); +} + +mozilla::ipc::IPCResult CamerasChild::RecvReplyGetCaptureDevice( + const nsACString& device_name, const nsACString& device_id, + const bool& scary) { + LOG(("%s", __PRETTY_FUNCTION__)); + MonitorAutoLock monitor(mReplyMonitor); + mReceivedReply = true; + mReplySuccess = true; + mReplyDeviceName = device_name; + mReplyDeviceID = device_id; + mReplyScary = scary; + monitor.Notify(); + return IPC_OK(); +} + +int CamerasChild::AllocateCapture(CaptureEngine aCapEngine, + const char* unique_idUTF8, + uint64_t aWindowID) { + LOG(("%s", __PRETTY_FUNCTION__)); + nsCString unique_id(unique_idUTF8); + nsCOMPtr runnable = + mozilla::NewRunnableMethod( + "camera::PCamerasChild::SendAllocateCapture", this, + &CamerasChild::SendAllocateCapture, aCapEngine, unique_id, aWindowID); + LockAndDispatch<> dispatcher(this, __func__, runnable, -1, mReplyInteger); + if (dispatcher.Success()) { + LOG(("Capture Device allocated: %d", mReplyInteger)); + } + return dispatcher.ReturnValue(); +} + +mozilla::ipc::IPCResult CamerasChild::RecvReplyAllocateCapture( + const int& aCaptureId) { + LOG(("%s", __PRETTY_FUNCTION__)); + MonitorAutoLock monitor(mReplyMonitor); + mReceivedReply = true; + mReplySuccess = true; + mReplyInteger = aCaptureId; + monitor.Notify(); + return IPC_OK(); +} + +int CamerasChild::ReleaseCapture(CaptureEngine aCapEngine, + const int capture_id) { + LOG(("%s", __PRETTY_FUNCTION__)); + nsCOMPtr runnable = + mozilla::NewRunnableMethod( + "camera::PCamerasChild::SendReleaseCapture", this, + &CamerasChild::SendReleaseCapture, aCapEngine, capture_id); + LockAndDispatch<> dispatcher(this, __func__, runnable, -1, mZero); + return dispatcher.ReturnValue(); +} + +void CamerasChild::AddCallback(const CaptureEngine aCapEngine, + const int capture_id, FrameRelay* render) { + MutexAutoLock lock(mCallbackMutex); + CapturerElement ce; + ce.engine = aCapEngine; + ce.id = capture_id; + ce.callback = render; + mCallbacks.AppendElement(ce); +} + +void CamerasChild::RemoveCallback(const CaptureEngine aCapEngine, + const int capture_id) { + MutexAutoLock lock(mCallbackMutex); + for (unsigned int i = 0; i < mCallbacks.Length(); i++) { + CapturerElement ce = mCallbacks[i]; + if (ce.engine == aCapEngine && ce.id == capture_id) { + mCallbacks.RemoveElementAt(i); + break; + } + } +} + +int CamerasChild::StartCapture(CaptureEngine aCapEngine, const int capture_id, + const webrtc::VideoCaptureCapability& webrtcCaps, + FrameRelay* cb) { + LOG(("%s", __PRETTY_FUNCTION__)); + AddCallback(aCapEngine, capture_id, cb); + VideoCaptureCapability capCap( + webrtcCaps.width, webrtcCaps.height, webrtcCaps.maxFPS, + static_cast(webrtcCaps.videoType), webrtcCaps.interlaced); + nsCOMPtr runnable = + mozilla::NewRunnableMethod( + "camera::PCamerasChild::SendStartCapture", this, + &CamerasChild::SendStartCapture, aCapEngine, capture_id, capCap); + LockAndDispatch<> dispatcher(this, __func__, runnable, -1, mZero); + return dispatcher.ReturnValue(); +} + +int CamerasChild::FocusOnSelectedSource(CaptureEngine aCapEngine, + const int aCaptureId) { + LOG(("%s", __PRETTY_FUNCTION__)); + nsCOMPtr runnable = + mozilla::NewRunnableMethod( + "camera::PCamerasChild::SendFocusOnSelectedSource", this, + &CamerasChild::SendFocusOnSelectedSource, aCapEngine, aCaptureId); + LockAndDispatch<> dispatcher(this, __func__, runnable, -1, mZero); + return dispatcher.ReturnValue(); +} + +int CamerasChild::StopCapture(CaptureEngine aCapEngine, const int capture_id) { + LOG(("%s", __PRETTY_FUNCTION__)); + nsCOMPtr runnable = + mozilla::NewRunnableMethod( + "camera::PCamerasChild::SendStopCapture", this, + &CamerasChild::SendStopCapture, aCapEngine, capture_id); + LockAndDispatch<> dispatcher(this, __func__, runnable, -1, mZero); + if (dispatcher.Success()) { + RemoveCallback(aCapEngine, capture_id); + } + return dispatcher.ReturnValue(); +} + +class ShutdownRunnable : public Runnable { + public: + explicit ShutdownRunnable(already_AddRefed&& aReplyEvent) + : Runnable("camera::ShutdownRunnable"), mReplyEvent(aReplyEvent){}; + + NS_IMETHOD Run() override { + LOG(("Closing BackgroundChild")); + // This will also destroy the CamerasChild. + ipc::BackgroundChild::CloseForCurrentThread(); + + NS_DispatchToMainThread(mReplyEvent.forget()); + + return NS_OK; + } + + private: + RefPtr mReplyEvent; +}; + +void Shutdown(void) { + // Called from both MediaEngineWebRTC::Shutdown() on the MediaManager thread + // and DeallocPCamerasChild() on the dedicated IPC thread. + OffTheBooksMutexAutoLock lock(CamerasSingleton::Mutex()); + + CamerasChild* child = CamerasSingleton::Child(); + if (!child) { + // We don't want to cause everything to get fired up if we're + // really already shut down. + LOG(("Shutdown when already shut down")); + return; + } + if (CamerasSingleton::Thread()) { + LOG(("PBackground thread exists, dispatching close")); + // The IPC thread is shut down on the main thread after the + // BackgroundChild is closed. + RefPtr runnable = new ShutdownRunnable( + NewRunnableMethod("nsIThread::Shutdown", CamerasSingleton::Thread(), + &nsIThread::Shutdown)); + CamerasSingleton::Thread()->Dispatch(runnable.forget(), NS_DISPATCH_NORMAL); + } else { + LOG(("Shutdown called without PBackground thread")); + } + LOG(("Erasing sCameras & thread refs (original thread)")); + CamerasSingleton::Child() = nullptr; + CamerasSingleton::Thread() = nullptr; +} + +mozilla::ipc::IPCResult CamerasChild::RecvDeliverFrame( + const CaptureEngine& capEngine, const int& capId, + mozilla::ipc::Shmem&& shmem, const VideoFrameProperties& prop) { + MutexAutoLock lock(mCallbackMutex); + if (Callback(capEngine, capId)) { + unsigned char* image = shmem.get(); + Callback(capEngine, capId)->DeliverFrame(image, prop); + } else { + LOG(("DeliverFrame called with dead callback")); + } + SendReleaseFrame(std::move(shmem)); + return IPC_OK(); +} + +mozilla::ipc::IPCResult CamerasChild::RecvDeviceChange() { + mDeviceListChangeEvent.Notify(); + return IPC_OK(); +} + +void CamerasChild::ActorDestroy(ActorDestroyReason aWhy) { + LOG(("ActorDestroy")); + MonitorAutoLock monitor(mReplyMonitor); + mIPCIsAlive = false; + // Hopefully prevent us from getting stuck + // on replies that'll never come. + monitor.NotifyAll(); +} + +CamerasChild::CamerasChild() + : mCallbackMutex("mozilla::cameras::CamerasChild::mCallbackMutex"), + mIPCIsAlive(true), + mRequestMutex("mozilla::cameras::CamerasChild::mRequestMutex"), + mReplyMonitor("mozilla::cameras::CamerasChild::mReplyMonitor"), + mReceivedReply(false), + mReplySuccess(false), + mZero(0), + mReplyInteger(0), + mReplyScary(false) { + LOG(("CamerasChild: %p", this)); + + MOZ_COUNT_CTOR(CamerasChild); +} + +CamerasChild::~CamerasChild() { + LOG(("~CamerasChild: %p", this)); + CamerasSingleton::AssertNoChild(); + MOZ_COUNT_DTOR(CamerasChild); +} + +FrameRelay* CamerasChild::Callback(CaptureEngine aCapEngine, int capture_id) { + for (unsigned int i = 0; i < mCallbacks.Length(); i++) { + CapturerElement ce = mCallbacks[i]; + if (ce.engine == aCapEngine && ce.id == capture_id) { + return ce.callback; + } + } + + return nullptr; +} + +} // namespace mozilla::camera -- cgit v1.2.3