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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* 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
#include "ImageBridgeChild.h"
#include <vector> // for vector
#include "ImageBridgeParent.h" // for ImageBridgeParent
#include "ImageContainer.h" // for ImageContainer
#include "SynchronousTask.h"
#include "mozilla/Assertions.h" // for MOZ_ASSERT, etc
#include "mozilla/Monitor.h" // for Monitor, MonitorAutoLock
#include "mozilla/ReentrantMonitor.h" // for ReentrantMonitor, etc
#include "mozilla/StaticMutex.h"
#include "mozilla/StaticPtr.h" // for StaticRefPtr
#include "mozilla/dom/ContentChild.h"
#include "mozilla/gfx/Point.h" // for IntSize
#include "mozilla/gfx/gfxVars.h"
#include "mozilla/ipc/Endpoint.h"
#include "mozilla/ipc/MessageChannel.h" // for MessageChannel, etc
#include "mozilla/layers/CompositableClient.h" // for CompositableChild, etc
#include "mozilla/layers/CompositorThread.h"
#include "mozilla/layers/ISurfaceAllocator.h" // for ISurfaceAllocator
#include "mozilla/layers/ImageClient.h" // for ImageClient
#include "mozilla/layers/LayersMessages.h" // for CompositableOperation
#include "mozilla/layers/TextureClient.h" // for TextureClient
#include "mozilla/layers/TextureClient.h"
#include "mozilla/media/MediaSystemResourceManager.h" // for MediaSystemResourceManager
#include "mozilla/media/MediaSystemResourceManagerChild.h" // for MediaSystemResourceManagerChild
#include "mozilla/mozalloc.h" // for operator new, etc
#include "transport/runnable_utils.h"
#include "nsContentUtils.h"
#include "nsGlobalWindowInner.h"
#include "nsISupportsImpl.h" // for ImageContainer::AddRef, etc
#include "nsTArray.h" // for AutoTArray, nsTArray, etc
#include "nsTArrayForwardDeclare.h" // for AutoTArray
#include "nsThreadUtils.h" // for NS_IsMainThread
#include "WindowRenderer.h"
#if defined(XP_WIN)
# include "mozilla/gfx/DeviceManagerDx.h"
#endif
namespace mozilla {
namespace ipc {
class Shmem;
} // namespace ipc
namespace layers {
using namespace mozilla::ipc;
using namespace mozilla::gfx;
using namespace mozilla::media;
typedef std::vector<CompositableOperation> OpVector;
typedef nsTArray<OpDestroy> OpDestroyVector;
struct CompositableTransaction {
CompositableTransaction() : mFinished(true) {}
~CompositableTransaction() { End(); }
bool Finished() const { return mFinished; }
void Begin() {
MOZ_ASSERT(mFinished);
mFinished = false;
}
void End() {
mFinished = true;
mOperations.clear();
mDestroyedActors.Clear();
}
bool IsEmpty() const {
return mOperations.empty() && mDestroyedActors.IsEmpty();
}
void AddNoSwapEdit(const CompositableOperation& op) {
MOZ_ASSERT(!Finished(), "forgot BeginTransaction?");
mOperations.push_back(op);
}
OpVector mOperations;
OpDestroyVector mDestroyedActors;
bool mFinished;
};
struct AutoEndTransaction final {
explicit AutoEndTransaction(CompositableTransaction* aTxn) : mTxn(aTxn) {}
~AutoEndTransaction() { mTxn->End(); }
CompositableTransaction* mTxn;
};
void ImageBridgeChild::UseTextures(
CompositableClient* aCompositable,
const nsTArray<TimedTextureClient>& aTextures) {
MOZ_ASSERT(aCompositable);
MOZ_ASSERT(aCompositable->GetIPCHandle());
MOZ_ASSERT(aCompositable->IsConnected());
AutoTArray<TimedTexture, 4> textures;
for (auto& t : aTextures) {
MOZ_ASSERT(t.mTextureClient);
MOZ_ASSERT(t.mTextureClient->GetIPDLActor());
if (!t.mTextureClient->IsSharedWithCompositor()) {
return;
}
bool readLocked = t.mTextureClient->OnForwardedToHost();
textures.AppendElement(TimedTexture(
WrapNotNull(t.mTextureClient->GetIPDLActor()), t.mTimeStamp,
t.mPictureRect, t.mFrameID, t.mProducerID, readLocked));
// Wait end of usage on host side if TextureFlags::RECYCLE is set
HoldUntilCompositableRefReleasedIfNecessary(t.mTextureClient);
}
mTxn->AddNoSwapEdit(CompositableOperation(aCompositable->GetIPCHandle(),
OpUseTexture(textures)));
}
void ImageBridgeChild::UseRemoteTexture(
CompositableClient* aCompositable, const RemoteTextureId aTextureId,
const RemoteTextureOwnerId aOwnerId, const gfx::IntSize aSize,
const TextureFlags aFlags, const RefPtr<FwdTransactionTracker>& aTracker) {
MOZ_ASSERT(aCompositable);
MOZ_ASSERT(aCompositable->GetIPCHandle());
MOZ_ASSERT(aCompositable->IsConnected());
mTxn->AddNoSwapEdit(CompositableOperation(
aCompositable->GetIPCHandle(),
OpUseRemoteTexture(aTextureId, aOwnerId, aSize, aFlags)));
TrackFwdTransaction(aTracker);
}
void ImageBridgeChild::HoldUntilCompositableRefReleasedIfNecessary(
TextureClient* aClient) {
if (!aClient) {
return;
}
// Wait ReleaseCompositableRef only when TextureFlags::RECYCLE or
// TextureFlags::WAIT_HOST_USAGE_END is set on ImageBridge.
bool waitNotifyNotUsed =
aClient->GetFlags() & TextureFlags::RECYCLE ||
aClient->GetFlags() & TextureFlags::WAIT_HOST_USAGE_END;
if (!waitNotifyNotUsed) {
return;
}
aClient->SetLastFwdTransactionId(GetFwdTransactionId());
mTexturesWaitingNotifyNotUsed.emplace(aClient->GetSerial(), aClient);
}
void ImageBridgeChild::NotifyNotUsed(uint64_t aTextureId,
uint64_t aFwdTransactionId) {
auto it = mTexturesWaitingNotifyNotUsed.find(aTextureId);
if (it != mTexturesWaitingNotifyNotUsed.end()) {
if (aFwdTransactionId < it->second->GetLastFwdTransactionId()) {
// Released on host side, but client already requested newer use texture.
return;
}
mTexturesWaitingNotifyNotUsed.erase(it);
}
}
void ImageBridgeChild::CancelWaitForNotifyNotUsed(uint64_t aTextureId) {
MOZ_ASSERT(InImageBridgeChildThread());
mTexturesWaitingNotifyNotUsed.erase(aTextureId);
}
// Singleton
static StaticMutex sImageBridgeSingletonLock MOZ_UNANNOTATED;
static StaticRefPtr<ImageBridgeChild> sImageBridgeChildSingleton;
static StaticRefPtr<nsIThread> sImageBridgeChildThread;
// dispatched function
void ImageBridgeChild::ShutdownStep1(SynchronousTask* aTask) {
AutoCompleteTask complete(aTask);
MOZ_ASSERT(InImageBridgeChildThread(),
"Should be in ImageBridgeChild thread.");
MediaSystemResourceManager::Shutdown();
// Force all managed protocols to shut themselves down cleanly
nsTArray<PTextureChild*> textures;
ManagedPTextureChild(textures);
for (int i = textures.Length() - 1; i >= 0; --i) {
RefPtr<TextureClient> client = TextureClient::AsTextureClient(textures[i]);
if (client) {
client->Destroy();
}
}
if (mCanSend) {
SendWillClose();
}
MarkShutDown();
// From now on, no message can be sent through the image bridge from the
// client side except the final Stop message.
}
// dispatched function
void ImageBridgeChild::ShutdownStep2(SynchronousTask* aTask) {
AutoCompleteTask complete(aTask);
MOZ_ASSERT(InImageBridgeChildThread(),
"Should be in ImageBridgeChild thread.");
mSectionAllocator = nullptr;
if (!mDestroyed) {
Close();
}
}
void ImageBridgeChild::ActorDestroy(ActorDestroyReason aWhy) {
mCanSend = false;
mDestroyed = true;
{
MutexAutoLock lock(mContainerMapLock);
mImageContainerListeners.clear();
}
}
void ImageBridgeChild::CreateImageClientSync(SynchronousTask* aTask,
RefPtr<ImageClient>* result,
CompositableType aType,
ImageContainer* aImageContainer) {
AutoCompleteTask complete(aTask);
*result = CreateImageClientNow(aType, aImageContainer);
}
ImageBridgeChild::ImageBridgeChild(uint32_t aNamespace)
: mNamespace(aNamespace),
mCanSend(false),
mDestroyed(false),
mFwdTransactionCounter(this),
mContainerMapLock("ImageBridgeChild.mContainerMapLock") {
MOZ_ASSERT(mNamespace);
MOZ_ASSERT(NS_IsMainThread());
mTxn = new CompositableTransaction();
}
ImageBridgeChild::~ImageBridgeChild() { delete mTxn; }
void ImageBridgeChild::MarkShutDown() {
mTexturesWaitingNotifyNotUsed.clear();
mCanSend = false;
}
void ImageBridgeChild::Connect(CompositableClient* aCompositable,
ImageContainer* aImageContainer) {
MOZ_ASSERT(aCompositable);
MOZ_ASSERT(InImageBridgeChildThread());
MOZ_ASSERT(CanSend());
CompositableHandle handle = CompositableHandle::GetNext();
// ImageClient of ImageContainer provides aImageContainer.
// But offscreen canvas does not provide it.
if (aImageContainer) {
MutexAutoLock lock(mContainerMapLock);
MOZ_ASSERT(mImageContainerListeners.find(uint64_t(handle)) ==
mImageContainerListeners.end());
mImageContainerListeners.emplace(
uint64_t(handle), aImageContainer->GetImageContainerListener());
}
aCompositable->InitIPDL(handle);
SendNewCompositable(handle, aCompositable->GetTextureInfo());
}
void ImageBridgeChild::ForgetImageContainer(const CompositableHandle& aHandle) {
MutexAutoLock lock(mContainerMapLock);
mImageContainerListeners.erase(aHandle.Value());
}
/* static */
RefPtr<ImageBridgeChild> ImageBridgeChild::GetSingleton() {
StaticMutexAutoLock lock(sImageBridgeSingletonLock);
return sImageBridgeChildSingleton;
}
void ImageBridgeChild::UpdateImageClient(RefPtr<ImageContainer> aContainer) {
if (!aContainer) {
return;
}
if (!InImageBridgeChildThread()) {
RefPtr<Runnable> runnable =
WrapRunnable(RefPtr<ImageBridgeChild>(this),
&ImageBridgeChild::UpdateImageClient, aContainer);
GetThread()->Dispatch(runnable.forget());
return;
}
if (!CanSend()) {
return;
}
RefPtr<ImageClient> client = aContainer->GetImageClient();
if (NS_WARN_IF(!client)) {
return;
}
// If the client has become disconnected before this event was dispatched,
// early return now.
if (!client->IsConnected()) {
return;
}
BeginTransaction();
client->UpdateImage(aContainer);
EndTransaction();
}
void ImageBridgeChild::UpdateCompositable(
const RefPtr<ImageContainer> aContainer, const RemoteTextureId aTextureId,
const RemoteTextureOwnerId aOwnerId, const gfx::IntSize aSize,
const TextureFlags aFlags, const RefPtr<FwdTransactionTracker> aTracker) {
if (!aContainer) {
return;
}
if (!InImageBridgeChildThread()) {
RefPtr<Runnable> runnable = WrapRunnable(
RefPtr<ImageBridgeChild>(this), &ImageBridgeChild::UpdateCompositable,
aContainer, aTextureId, aOwnerId, aSize, aFlags, aTracker);
GetThread()->Dispatch(runnable.forget());
return;
}
if (!CanSend()) {
return;
}
RefPtr<ImageClient> client = aContainer->GetImageClient();
if (NS_WARN_IF(!client)) {
return;
}
// If the client has become disconnected before this event was dispatched,
// early return now.
if (!client->IsConnected()) {
return;
}
BeginTransaction();
UseRemoteTexture(client, aTextureId, aOwnerId, aSize, aFlags, aTracker);
EndTransaction();
}
void ImageBridgeChild::FlushAllImagesSync(SynchronousTask* aTask,
ImageClient* aClient,
ImageContainer* aContainer) {
AutoCompleteTask complete(aTask);
if (!CanSend()) {
return;
}
MOZ_ASSERT(aClient);
BeginTransaction();
if (aContainer) {
aContainer->ClearImagesFromImageBridge();
}
aClient->FlushAllImages();
EndTransaction();
}
void ImageBridgeChild::FlushAllImages(ImageClient* aClient,
ImageContainer* aContainer) {
MOZ_ASSERT(aClient);
MOZ_ASSERT(!InImageBridgeChildThread());
if (InImageBridgeChildThread()) {
NS_ERROR(
"ImageBridgeChild::FlushAllImages() is called on ImageBridge thread.");
return;
}
SynchronousTask task("FlushAllImages Lock");
// RefPtrs on arguments are not needed since this dispatches synchronously.
RefPtr<Runnable> runnable = WrapRunnable(
RefPtr<ImageBridgeChild>(this), &ImageBridgeChild::FlushAllImagesSync,
&task, aClient, aContainer);
GetThread()->Dispatch(runnable.forget());
task.Wait();
}
void ImageBridgeChild::SyncWithCompositor(const Maybe<uint64_t>& aWindowID) {
if (NS_WARN_IF(InImageBridgeChildThread())) {
MOZ_ASSERT_UNREACHABLE("Cannot call on ImageBridge thread!");
return;
}
if (!aWindowID) {
return;
}
const auto fnSyncWithWindow = [&]() {
if (auto* window = nsGlobalWindowInner::GetInnerWindowWithId(*aWindowID)) {
if (auto* widget = window->GetNearestWidget()) {
if (auto* renderer = widget->GetWindowRenderer()) {
if (auto* kc = renderer->AsKnowsCompositor()) {
kc->SyncWithCompositor();
}
}
}
}
};
if (NS_IsMainThread()) {
fnSyncWithWindow();
return;
}
SynchronousTask task("SyncWithCompositor Lock");
RefPtr<Runnable> runnable =
NS_NewRunnableFunction("ImageBridgeChild::SyncWithCompositor", [&]() {
AutoCompleteTask complete(&task);
fnSyncWithWindow();
});
NS_DispatchToMainThread(runnable.forget());
task.Wait();
}
void ImageBridgeChild::BeginTransaction() {
MOZ_ASSERT(CanSend());
MOZ_ASSERT(mTxn->Finished(), "uncommitted txn?");
UpdateFwdTransactionId();
mTxn->Begin();
}
void ImageBridgeChild::EndTransaction() {
MOZ_ASSERT(CanSend());
MOZ_ASSERT(!mTxn->Finished(), "forgot BeginTransaction?");
AutoEndTransaction _(mTxn);
if (mTxn->IsEmpty()) {
return;
}
AutoTArray<CompositableOperation, 10> cset;
cset.SetCapacity(mTxn->mOperations.size());
if (!mTxn->mOperations.empty()) {
cset.AppendElements(&mTxn->mOperations.front(), mTxn->mOperations.size());
}
if (!SendUpdate(cset, mTxn->mDestroyedActors, GetFwdTransactionId())) {
NS_WARNING("could not send async texture transaction");
return;
}
}
bool ImageBridgeChild::InitForContent(Endpoint<PImageBridgeChild>&& aEndpoint,
uint32_t aNamespace) {
MOZ_ASSERT(NS_IsMainThread());
gfxPlatform::GetPlatform();
if (!sImageBridgeChildThread) {
nsCOMPtr<nsIThread> thread;
nsresult rv = NS_NewNamedThread("ImageBridgeChld", getter_AddRefs(thread));
MOZ_RELEASE_ASSERT(NS_SUCCEEDED(rv),
"Failed to start ImageBridgeChild thread!");
sImageBridgeChildThread = thread.forget();
}
RefPtr<ImageBridgeChild> child = new ImageBridgeChild(aNamespace);
child->GetThread()->Dispatch(NS_NewRunnableFunction(
"layers::ImageBridgeChild::Bind",
[child, endpoint = std::move(aEndpoint)]() mutable {
child->Bind(std::move(endpoint));
}));
// Assign this after so other threads can't post messages before we connect to
// IPDL.
{
StaticMutexAutoLock lock(sImageBridgeSingletonLock);
sImageBridgeChildSingleton = child;
}
return true;
}
bool ImageBridgeChild::ReinitForContent(Endpoint<PImageBridgeChild>&& aEndpoint,
uint32_t aNamespace) {
MOZ_ASSERT(NS_IsMainThread());
// Note that at this point, ActorDestroy may not have been called yet,
// meaning mCanSend is still true. In this case we will try to send a
// synchronous WillClose message to the parent, and will certainly get a
// false result and a MsgDropped processing error. This is okay.
ShutdownSingleton();
return InitForContent(std::move(aEndpoint), aNamespace);
}
void ImageBridgeChild::Bind(Endpoint<PImageBridgeChild>&& aEndpoint) {
if (!aEndpoint.Bind(this)) {
return;
}
mSectionAllocator = MakeUnique<FixedSizeSmallShmemSectionAllocator>(this);
mCanSend = true;
}
void ImageBridgeChild::BindSameProcess(RefPtr<ImageBridgeParent> aParent) {
Open(aParent, aParent->GetThread(), mozilla::ipc::ChildSide);
mSectionAllocator = MakeUnique<FixedSizeSmallShmemSectionAllocator>(this);
mCanSend = true;
}
/* static */
void ImageBridgeChild::ShutDown() {
MOZ_ASSERT(NS_IsMainThread());
ShutdownSingleton();
if (sImageBridgeChildThread) {
sImageBridgeChildThread->Shutdown();
sImageBridgeChildThread = nullptr;
}
}
/* static */
void ImageBridgeChild::ShutdownSingleton() {
MOZ_ASSERT(NS_IsMainThread());
if (RefPtr<ImageBridgeChild> child = GetSingleton()) {
child->WillShutdown();
StaticMutexAutoLock lock(sImageBridgeSingletonLock);
sImageBridgeChildSingleton = nullptr;
}
}
void ImageBridgeChild::WillShutdown() {
{
SynchronousTask task("ImageBridge ShutdownStep1 lock");
RefPtr<Runnable> runnable =
WrapRunnable(RefPtr<ImageBridgeChild>(this),
&ImageBridgeChild::ShutdownStep1, &task);
GetThread()->Dispatch(runnable.forget());
task.Wait();
}
{
SynchronousTask task("ImageBridge ShutdownStep2 lock");
RefPtr<Runnable> runnable =
WrapRunnable(RefPtr<ImageBridgeChild>(this),
&ImageBridgeChild::ShutdownStep2, &task);
GetThread()->Dispatch(runnable.forget());
task.Wait();
}
}
void ImageBridgeChild::InitSameProcess(uint32_t aNamespace) {
NS_ASSERTION(NS_IsMainThread(), "Should be on the main Thread!");
MOZ_ASSERT(!sImageBridgeChildSingleton);
MOZ_ASSERT(!sImageBridgeChildThread);
nsCOMPtr<nsIThread> thread;
nsresult rv = NS_NewNamedThread("ImageBridgeChld", getter_AddRefs(thread));
MOZ_RELEASE_ASSERT(NS_SUCCEEDED(rv),
"Failed to start ImageBridgeChild thread!");
sImageBridgeChildThread = thread.forget();
RefPtr<ImageBridgeChild> child = new ImageBridgeChild(aNamespace);
RefPtr<ImageBridgeParent> parent = ImageBridgeParent::CreateSameProcess();
RefPtr<Runnable> runnable =
WrapRunnable(child, &ImageBridgeChild::BindSameProcess, parent);
child->GetThread()->Dispatch(runnable.forget());
// Assign this after so other threads can't post messages before we connect to
// IPDL.
{
StaticMutexAutoLock lock(sImageBridgeSingletonLock);
sImageBridgeChildSingleton = child;
}
}
/* static */
void ImageBridgeChild::InitWithGPUProcess(
Endpoint<PImageBridgeChild>&& aEndpoint, uint32_t aNamespace) {
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(!sImageBridgeChildSingleton);
MOZ_ASSERT(!sImageBridgeChildThread);
nsCOMPtr<nsIThread> thread;
nsresult rv = NS_NewNamedThread("ImageBridgeChld", getter_AddRefs(thread));
MOZ_RELEASE_ASSERT(NS_SUCCEEDED(rv),
"Failed to start ImageBridgeChild thread!");
sImageBridgeChildThread = thread.forget();
RefPtr<ImageBridgeChild> child = new ImageBridgeChild(aNamespace);
child->GetThread()->Dispatch(NS_NewRunnableFunction(
"layers::ImageBridgeChild::Bind",
[child, endpoint = std::move(aEndpoint)]() mutable {
child->Bind(std::move(endpoint));
}));
// Assign this after so other threads can't post messages before we connect to
// IPDL.
{
StaticMutexAutoLock lock(sImageBridgeSingletonLock);
sImageBridgeChildSingleton = child;
}
}
bool InImageBridgeChildThread() {
return sImageBridgeChildThread &&
sImageBridgeChildThread->IsOnCurrentThread();
}
FixedSizeSmallShmemSectionAllocator* ImageBridgeChild::GetTileLockAllocator() {
return mSectionAllocator.get();
}
nsISerialEventTarget* ImageBridgeChild::GetThread() const {
return sImageBridgeChildThread;
}
/* static */
void ImageBridgeChild::IdentifyCompositorTextureHost(
const TextureFactoryIdentifier& aIdentifier) {
if (RefPtr<ImageBridgeChild> child = GetSingleton()) {
child->UpdateTextureFactoryIdentifier(aIdentifier);
}
}
void ImageBridgeChild::UpdateTextureFactoryIdentifier(
const TextureFactoryIdentifier& aIdentifier) {
IdentifyTextureHost(aIdentifier);
}
RefPtr<ImageClient> ImageBridgeChild::CreateImageClient(
CompositableType aType, ImageContainer* aImageContainer) {
if (InImageBridgeChildThread()) {
return CreateImageClientNow(aType, aImageContainer);
}
SynchronousTask task("CreateImageClient Lock");
RefPtr<ImageClient> result = nullptr;
RefPtr<Runnable> runnable = WrapRunnable(
RefPtr<ImageBridgeChild>(this), &ImageBridgeChild::CreateImageClientSync,
&task, &result, aType, aImageContainer);
GetThread()->Dispatch(runnable.forget());
task.Wait();
return result;
}
RefPtr<ImageClient> ImageBridgeChild::CreateImageClientNow(
CompositableType aType, ImageContainer* aImageContainer) {
MOZ_ASSERT(InImageBridgeChildThread());
if (!CanSend()) {
return nullptr;
}
RefPtr<ImageClient> client = ImageClient::CreateImageClient(
aType, aImageContainer->mUsageType, this, TextureFlags::NO_FLAGS);
MOZ_ASSERT(client, "failed to create ImageClient");
if (client) {
client->Connect(aImageContainer);
}
return client;
}
bool ImageBridgeChild::AllocUnsafeShmem(size_t aSize, ipc::Shmem* aShmem) {
if (!InImageBridgeChildThread()) {
return DispatchAllocShmemInternal(aSize, aShmem,
true); // true: unsafe
}
if (!CanSend()) {
return false;
}
return PImageBridgeChild::AllocUnsafeShmem(aSize, aShmem);
}
bool ImageBridgeChild::AllocShmem(size_t aSize, ipc::Shmem* aShmem) {
if (!InImageBridgeChildThread()) {
return DispatchAllocShmemInternal(aSize, aShmem,
false); // false: unsafe
}
if (!CanSend()) {
return false;
}
return PImageBridgeChild::AllocShmem(aSize, aShmem);
}
void ImageBridgeChild::ProxyAllocShmemNow(SynchronousTask* aTask, size_t aSize,
ipc::Shmem* aShmem, bool aUnsafe,
bool* aSuccess) {
AutoCompleteTask complete(aTask);
if (!CanSend()) {
return;
}
bool ok = false;
if (aUnsafe) {
ok = AllocUnsafeShmem(aSize, aShmem);
} else {
ok = AllocShmem(aSize, aShmem);
}
*aSuccess = ok;
}
bool ImageBridgeChild::DispatchAllocShmemInternal(size_t aSize,
ipc::Shmem* aShmem,
bool aUnsafe) {
SynchronousTask task("AllocatorProxy alloc");
bool success = false;
RefPtr<Runnable> runnable = WrapRunnable(
RefPtr<ImageBridgeChild>(this), &ImageBridgeChild::ProxyAllocShmemNow,
&task, aSize, aShmem, aUnsafe, &success);
GetThread()->Dispatch(runnable.forget());
task.Wait();
return success;
}
void ImageBridgeChild::ProxyDeallocShmemNow(SynchronousTask* aTask,
ipc::Shmem* aShmem, bool* aResult) {
AutoCompleteTask complete(aTask);
if (!CanSend()) {
return;
}
*aResult = DeallocShmem(*aShmem);
}
bool ImageBridgeChild::DeallocShmem(ipc::Shmem& aShmem) {
if (InImageBridgeChildThread()) {
if (!CanSend()) {
return false;
}
return PImageBridgeChild::DeallocShmem(aShmem);
}
// If we can't post a task, then we definitely cannot send, so there's
// no reason to queue up this send.
if (!CanPostTask()) {
return false;
}
SynchronousTask task("AllocatorProxy Dealloc");
bool result = false;
RefPtr<Runnable> runnable = WrapRunnable(
RefPtr<ImageBridgeChild>(this), &ImageBridgeChild::ProxyDeallocShmemNow,
&task, &aShmem, &result);
GetThread()->Dispatch(runnable.forget());
task.Wait();
return result;
}
PTextureChild* ImageBridgeChild::AllocPTextureChild(
const SurfaceDescriptor&, ReadLockDescriptor&, const LayersBackend&,
const TextureFlags&, const uint64_t& aSerial,
const wr::MaybeExternalImageId& aExternalImageId) {
MOZ_ASSERT(CanSend());
return TextureClient::CreateIPDLActor();
}
bool ImageBridgeChild::DeallocPTextureChild(PTextureChild* actor) {
return TextureClient::DestroyIPDLActor(actor);
}
PMediaSystemResourceManagerChild*
ImageBridgeChild::AllocPMediaSystemResourceManagerChild() {
MOZ_ASSERT(CanSend());
return new mozilla::media::MediaSystemResourceManagerChild();
}
bool ImageBridgeChild::DeallocPMediaSystemResourceManagerChild(
PMediaSystemResourceManagerChild* aActor) {
MOZ_ASSERT(aActor);
delete static_cast<mozilla::media::MediaSystemResourceManagerChild*>(aActor);
return true;
}
mozilla::ipc::IPCResult ImageBridgeChild::RecvParentAsyncMessages(
nsTArray<AsyncParentMessageData>&& aMessages) {
for (AsyncParentMessageArray::index_type i = 0; i < aMessages.Length(); ++i) {
const AsyncParentMessageData& message = aMessages[i];
switch (message.type()) {
case AsyncParentMessageData::TOpNotifyNotUsed: {
const OpNotifyNotUsed& op = message.get_OpNotifyNotUsed();
NotifyNotUsed(op.TextureId(), op.fwdTransactionId());
break;
}
default:
NS_ERROR("unknown AsyncParentMessageData type");
return IPC_FAIL_NO_REASON(this);
}
}
return IPC_OK();
}
RefPtr<ImageContainerListener> ImageBridgeChild::FindListener(
const CompositableHandle& aHandle) {
RefPtr<ImageContainerListener> listener;
MutexAutoLock lock(mContainerMapLock);
auto it = mImageContainerListeners.find(aHandle.Value());
if (it != mImageContainerListeners.end()) {
listener = it->second;
}
return listener;
}
mozilla::ipc::IPCResult ImageBridgeChild::RecvDidComposite(
nsTArray<ImageCompositeNotification>&& aNotifications) {
for (auto& n : aNotifications) {
RefPtr<ImageContainerListener> listener = FindListener(n.compositable());
if (listener) {
listener->NotifyComposite(n);
}
}
return IPC_OK();
}
mozilla::ipc::IPCResult ImageBridgeChild::RecvReportFramesDropped(
const CompositableHandle& aHandle, const uint32_t& aFrames) {
RefPtr<ImageContainerListener> listener = FindListener(aHandle);
if (listener) {
listener->NotifyDropped(aFrames);
}
return IPC_OK();
}
PTextureChild* ImageBridgeChild::CreateTexture(
const SurfaceDescriptor& aSharedData, ReadLockDescriptor&& aReadLock,
LayersBackend aLayersBackend, TextureFlags aFlags,
const dom::ContentParentId& aContentId, uint64_t aSerial,
wr::MaybeExternalImageId& aExternalImageId) {
MOZ_ASSERT(CanSend());
return SendPTextureConstructor(aSharedData, std::move(aReadLock),
aLayersBackend, aFlags, aSerial,
aExternalImageId);
}
static bool IBCAddOpDestroy(CompositableTransaction* aTxn,
const OpDestroy& op) {
if (aTxn->Finished()) {
return false;
}
aTxn->mDestroyedActors.AppendElement(op);
return true;
}
bool ImageBridgeChild::DestroyInTransaction(PTextureChild* aTexture) {
return IBCAddOpDestroy(mTxn, OpDestroy(WrapNotNull(aTexture)));
}
bool ImageBridgeChild::DestroyInTransaction(const CompositableHandle& aHandle) {
return IBCAddOpDestroy(mTxn, OpDestroy(aHandle));
}
void ImageBridgeChild::RemoveTextureFromCompositable(
CompositableClient* aCompositable, TextureClient* aTexture) {
MOZ_ASSERT(CanSend());
MOZ_ASSERT(aTexture);
MOZ_ASSERT(aTexture->IsSharedWithCompositor());
MOZ_ASSERT(aCompositable->IsConnected());
if (!aTexture || !aTexture->IsSharedWithCompositor() ||
!aCompositable->IsConnected()) {
return;
}
mTxn->AddNoSwapEdit(CompositableOperation(
aCompositable->GetIPCHandle(),
OpRemoveTexture(WrapNotNull(aTexture->GetIPDLActor()))));
}
bool ImageBridgeChild::IsSameProcess() const {
return OtherPid() == base::GetCurrentProcId();
}
bool ImageBridgeChild::CanPostTask() const {
// During shutdown, the cycle collector may free objects that are holding a
// reference to ImageBridgeChild. Since this happens on the main thread,
// ImageBridgeChild will attempt to post a task to the ImageBridge thread.
// However the thread manager has already been shut down, so the task cannot
// post.
//
// It's okay if this races. We only care about the shutdown case where
// everything's happening on the main thread. Even if it races outside of
// shutdown, it's still harmless to post the task, since the task must
// check CanSend().
return !mDestroyed;
}
void ImageBridgeChild::ReleaseCompositable(const CompositableHandle& aHandle) {
if (!InImageBridgeChildThread()) {
// If we can't post a task, then we definitely cannot send, so there's
// no reason to queue up this send.
if (!CanPostTask()) {
return;
}
RefPtr<Runnable> runnable =
WrapRunnable(RefPtr<ImageBridgeChild>(this),
&ImageBridgeChild::ReleaseCompositable, aHandle);
GetThread()->Dispatch(runnable.forget());
return;
}
if (!CanSend()) {
return;
}
if (!DestroyInTransaction(aHandle)) {
SendReleaseCompositable(aHandle);
}
{
MutexAutoLock lock(mContainerMapLock);
mImageContainerListeners.erase(aHandle.Value());
}
}
bool ImageBridgeChild::CanSend() const {
MOZ_ASSERT(InImageBridgeChildThread());
return mCanSend;
}
void ImageBridgeChild::HandleFatalError(const char* aMsg) {
dom::ContentChild::FatalErrorIfNotUsingGPUProcess(aMsg, OtherChildID());
}
wr::MaybeExternalImageId ImageBridgeChild::GetNextExternalImageId() {
static uint32_t sNextID = 1;
++sNextID;
MOZ_RELEASE_ASSERT(sNextID != UINT32_MAX);
uint64_t imageId = mNamespace;
imageId = imageId << 32 | sNextID;
return Some(wr::ToExternalImageId(imageId));
}
} // namespace layers
} // namespace mozilla