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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-21 11:44:51 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-21 11:44:51 +0000 |
commit | 9e3c08db40b8916968b9f30096c7be3f00ce9647 (patch) | |
tree | a68f146d7fa01f0134297619fbe7e33db084e0aa /gfx/layers/wr/IpcResourceUpdateQueue.cpp | |
parent | Initial commit. (diff) | |
download | thunderbird-upstream.tar.xz thunderbird-upstream.zip |
Adding upstream version 1:115.7.0.upstream/1%115.7.0upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'gfx/layers/wr/IpcResourceUpdateQueue.cpp')
-rw-r--r-- | gfx/layers/wr/IpcResourceUpdateQueue.cpp | 484 |
1 files changed, 484 insertions, 0 deletions
diff --git a/gfx/layers/wr/IpcResourceUpdateQueue.cpp b/gfx/layers/wr/IpcResourceUpdateQueue.cpp new file mode 100644 index 0000000000..d19dc7f2f9 --- /dev/null +++ b/gfx/layers/wr/IpcResourceUpdateQueue.cpp @@ -0,0 +1,484 @@ +/* -*- 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 + * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ + +#include "IpcResourceUpdateQueue.h" +#include <string.h> +#include <algorithm> +#include "mozilla/Maybe.h" +#include "mozilla/ipc/SharedMemory.h" +#include "mozilla/layers/PTextureChild.h" +#include "mozilla/layers/WebRenderBridgeChild.h" + +namespace mozilla { +namespace wr { + +using namespace mozilla::layers; + +ShmSegmentsWriter::ShmSegmentsWriter(layers::WebRenderBridgeChild* aAllocator, + size_t aChunkSize) + : mShmAllocator(aAllocator), mCursor(0), mChunkSize(aChunkSize) { + MOZ_ASSERT(mShmAllocator); +} + +ShmSegmentsWriter::~ShmSegmentsWriter() { Clear(); } + +ShmSegmentsWriter::ShmSegmentsWriter(ShmSegmentsWriter&& aOther) noexcept + : mSmallAllocs(std::move(aOther.mSmallAllocs)), + mLargeAllocs(std::move(aOther.mLargeAllocs)), + mShmAllocator(aOther.mShmAllocator), + mCursor(aOther.mCursor), + mChunkSize(aOther.mChunkSize) { + aOther.mCursor = 0; +} + +ShmSegmentsWriter& ShmSegmentsWriter::operator=( + ShmSegmentsWriter&& aOther) noexcept { + MOZ_ASSERT(IsEmpty(), "Will forget existing updates!"); + Clear(); + mSmallAllocs = std::move(aOther.mSmallAllocs); + mLargeAllocs = std::move(aOther.mLargeAllocs); + mShmAllocator = aOther.mShmAllocator; + mCursor = aOther.mCursor; + mChunkSize = aOther.mChunkSize; + aOther.mCursor = 0; + return *this; +} + +layers::OffsetRange ShmSegmentsWriter::Write(Range<uint8_t> aBytes) { + const size_t start = mCursor; + const size_t length = aBytes.length(); + + if (length >= mChunkSize * 4) { + auto range = AllocLargeChunk(length); + if (range.length()) { + // Allocation was successful + uint8_t* dstPtr = mLargeAllocs.LastElement().get<uint8_t>(); + memcpy(dstPtr, aBytes.begin().get(), length); + } + return range; + } + + int remainingBytesToCopy = length; + + size_t srcCursor = 0; + size_t dstCursor = mCursor; + size_t currAllocLen = mSmallAllocs.Length(); + + while (remainingBytesToCopy > 0) { + if (dstCursor >= mSmallAllocs.Length() * mChunkSize) { + if (!AllocChunk()) { + // Allocation failed, so roll back to the state at the start of this + // Write() call and abort. + while (mSmallAllocs.Length() > currAllocLen) { + RefCountedShmem shm = mSmallAllocs.PopLastElement(); + RefCountedShm::Dealloc(mShmAllocator, shm); + } + MOZ_ASSERT(mSmallAllocs.Length() == currAllocLen); + return layers::OffsetRange(0, start, 0); + } + // Allocation succeeded, so dstCursor should now be pointing to + // something inside the allocation buffer + MOZ_ASSERT(dstCursor < (mSmallAllocs.Length() * mChunkSize)); + } + + const size_t dstMaxOffset = mChunkSize * mSmallAllocs.Length(); + const size_t dstBaseOffset = mChunkSize * (mSmallAllocs.Length() - 1); + + MOZ_ASSERT(dstCursor >= dstBaseOffset); + MOZ_ASSERT(dstCursor <= dstMaxOffset); + + size_t availableRange = dstMaxOffset - dstCursor; + size_t copyRange = std::min<int>(availableRange, remainingBytesToCopy); + + uint8_t* srcPtr = &aBytes[srcCursor]; + uint8_t* dstPtr = RefCountedShm::GetBytes(mSmallAllocs.LastElement()) + + (dstCursor - dstBaseOffset); + + memcpy(dstPtr, srcPtr, copyRange); + + srcCursor += copyRange; + dstCursor += copyRange; + remainingBytesToCopy -= copyRange; + + // sanity check + MOZ_ASSERT(remainingBytesToCopy >= 0); + } + + mCursor += length; + + return layers::OffsetRange(0, start, length); +} + +bool ShmSegmentsWriter::AllocChunk() { + RefCountedShmem shm; + if (!mShmAllocator->AllocResourceShmem(mChunkSize, shm)) { + gfxCriticalNote << "ShmSegmentsWriter failed to allocate chunk #" + << mSmallAllocs.Length(); + MOZ_ASSERT(false, "ShmSegmentsWriter fails to allocate chunk"); + return false; + } + RefCountedShm::AddRef(shm); + mSmallAllocs.AppendElement(shm); + return true; +} + +layers::OffsetRange ShmSegmentsWriter::AllocLargeChunk(size_t aSize) { + ipc::Shmem shm; + if (!mShmAllocator->AllocShmem(aSize, &shm)) { + gfxCriticalNote + << "ShmSegmentsWriter failed to allocate large chunk of size " << aSize; + MOZ_ASSERT(false, "ShmSegmentsWriter fails to allocate large chunk"); + return layers::OffsetRange(0, 0, 0); + } + mLargeAllocs.AppendElement(shm); + + return layers::OffsetRange(mLargeAllocs.Length(), 0, aSize); +} + +void ShmSegmentsWriter::Flush(nsTArray<RefCountedShmem>& aSmallAllocs, + nsTArray<ipc::Shmem>& aLargeAllocs) { + MOZ_ASSERT(aSmallAllocs.IsEmpty()); + MOZ_ASSERT(aLargeAllocs.IsEmpty()); + aSmallAllocs = std::move(mSmallAllocs); + aLargeAllocs = std::move(mLargeAllocs); + mCursor = 0; +} + +bool ShmSegmentsWriter::IsEmpty() const { return mCursor == 0; } + +void ShmSegmentsWriter::Clear() { + if (mShmAllocator) { + IpcResourceUpdateQueue::ReleaseShmems(mShmAllocator, mSmallAllocs); + IpcResourceUpdateQueue::ReleaseShmems(mShmAllocator, mLargeAllocs); + } + mCursor = 0; +} + +ShmSegmentsReader::ShmSegmentsReader( + const nsTArray<RefCountedShmem>& aSmallShmems, + const nsTArray<ipc::Shmem>& aLargeShmems) + : mSmallAllocs(aSmallShmems), mLargeAllocs(aLargeShmems), mChunkSize(0) { + if (mSmallAllocs.IsEmpty()) { + return; + } + + mChunkSize = RefCountedShm::GetSize(mSmallAllocs[0]); + + // Check that all shmems are readable and have the same size. If anything + // isn't right, set mChunkSize to zero which signifies that the reader is + // in an invalid state and Read calls will return false; + for (const auto& shm : mSmallAllocs) { + if (!RefCountedShm::IsValid(shm) || + RefCountedShm::GetSize(shm) != mChunkSize || + RefCountedShm::GetBytes(shm) == nullptr) { + mChunkSize = 0; + return; + } + } + + for (const auto& shm : mLargeAllocs) { + if (!shm.IsReadable() || shm.get<uint8_t>() == nullptr) { + mChunkSize = 0; + return; + } + } +} + +bool ShmSegmentsReader::ReadLarge(const layers::OffsetRange& aRange, + wr::Vec<uint8_t>& aInto) { + // source = zero is for small allocs. + MOZ_RELEASE_ASSERT(aRange.source() != 0); + if (aRange.source() > mLargeAllocs.Length()) { + return false; + } + size_t id = aRange.source() - 1; + const ipc::Shmem& shm = mLargeAllocs[id]; + if (shm.Size<uint8_t>() < aRange.length()) { + return false; + } + + uint8_t* srcPtr = shm.get<uint8_t>(); + aInto.PushBytes(Range<uint8_t>(srcPtr, aRange.length())); + + return true; +} + +bool ShmSegmentsReader::Read(const layers::OffsetRange& aRange, + wr::Vec<uint8_t>& aInto) { + if (aRange.length() == 0) { + return true; + } + + if (aRange.source() != 0) { + return ReadLarge(aRange, aInto); + } + + if (mChunkSize == 0) { + return false; + } + + if (aRange.start() + aRange.length() > mChunkSize * mSmallAllocs.Length()) { + return false; + } + + size_t initialLength = aInto.Length(); + + size_t srcCursor = aRange.start(); + size_t remainingBytesToCopy = aRange.length(); + while (remainingBytesToCopy > 0) { + const size_t shm_idx = srcCursor / mChunkSize; + const size_t ptrOffset = srcCursor % mChunkSize; + const size_t copyRange = + std::min(remainingBytesToCopy, mChunkSize - ptrOffset); + uint8_t* srcPtr = + RefCountedShm::GetBytes(mSmallAllocs[shm_idx]) + ptrOffset; + + aInto.PushBytes(Range<uint8_t>(srcPtr, copyRange)); + + srcCursor += copyRange; + remainingBytesToCopy -= copyRange; + } + + return aInto.Length() - initialLength == aRange.length(); +} + +Maybe<Range<uint8_t>> ShmSegmentsReader::GetReadPointerLarge( + const layers::OffsetRange& aRange) { + // source = zero is for small allocs. + MOZ_RELEASE_ASSERT(aRange.source() != 0); + if (aRange.source() > mLargeAllocs.Length()) { + return Nothing(); + } + size_t id = aRange.source() - 1; + const ipc::Shmem& shm = mLargeAllocs[id]; + if (shm.Size<uint8_t>() < aRange.length()) { + return Nothing(); + } + + uint8_t* srcPtr = shm.get<uint8_t>(); + return Some(Range<uint8_t>(srcPtr, aRange.length())); +} + +Maybe<Range<uint8_t>> ShmSegmentsReader::GetReadPointer( + const layers::OffsetRange& aRange) { + if (aRange.length() == 0) { + return Some(Range<uint8_t>()); + } + + if (aRange.source() != 0) { + return GetReadPointerLarge(aRange); + } + + if (mChunkSize == 0 || + aRange.start() + aRange.length() > mChunkSize * mSmallAllocs.Length()) { + return Nothing(); + } + + size_t srcCursor = aRange.start(); + size_t remainingBytesToCopy = aRange.length(); + const size_t shm_idx = srcCursor / mChunkSize; + const size_t ptrOffset = srcCursor % mChunkSize; + // Return nothing if we can't return a pointer to the full range + if (mChunkSize - ptrOffset < remainingBytesToCopy) { + return Nothing(); + } + uint8_t* srcPtr = RefCountedShm::GetBytes(mSmallAllocs[shm_idx]) + ptrOffset; + return Some(Range<uint8_t>(srcPtr, remainingBytesToCopy)); +} + +IpcResourceUpdateQueue::IpcResourceUpdateQueue( + layers::WebRenderBridgeChild* aAllocator, size_t aChunkSize) + : mWriter(aAllocator, aChunkSize) {} + +IpcResourceUpdateQueue::IpcResourceUpdateQueue( + IpcResourceUpdateQueue&& aOther) noexcept + : mWriter(std::move(aOther.mWriter)), + mUpdates(std::move(aOther.mUpdates)) {} + +IpcResourceUpdateQueue& IpcResourceUpdateQueue::operator=( + IpcResourceUpdateQueue&& aOther) noexcept { + MOZ_ASSERT(IsEmpty(), "Will forget existing updates!"); + mWriter = std::move(aOther.mWriter); + mUpdates = std::move(aOther.mUpdates); + return *this; +} + +void IpcResourceUpdateQueue::ReplaceResources(IpcResourceUpdateQueue&& aOther) { + MOZ_ASSERT(IsEmpty(), "Will forget existing updates!"); + mWriter = std::move(aOther.mWriter); + mUpdates = std::move(aOther.mUpdates); +} + +bool IpcResourceUpdateQueue::AddImage(ImageKey key, + const ImageDescriptor& aDescriptor, + Range<uint8_t> aBytes) { + auto bytes = mWriter.Write(aBytes); + if (!bytes.length()) { + return false; + } + mUpdates.AppendElement(layers::OpAddImage(aDescriptor, bytes, 0, key)); + return true; +} + +bool IpcResourceUpdateQueue::AddBlobImage(BlobImageKey key, + const ImageDescriptor& aDescriptor, + Range<uint8_t> aBytes, + ImageIntRect aVisibleRect) { + MOZ_RELEASE_ASSERT(aDescriptor.width > 0 && aDescriptor.height > 0); + auto bytes = mWriter.Write(aBytes); + if (!bytes.length()) { + return false; + } + mUpdates.AppendElement( + layers::OpAddBlobImage(aDescriptor, bytes, aVisibleRect, 0, key)); + return true; +} + +void IpcResourceUpdateQueue::AddSharedExternalImage(wr::ExternalImageId aExtId, + wr::ImageKey aKey) { + mUpdates.AppendElement(layers::OpAddSharedExternalImage(aExtId, aKey)); +} + +void IpcResourceUpdateQueue::PushExternalImageForTexture( + wr::ExternalImageId aExtId, wr::ImageKey aKey, + layers::TextureClient* aTexture, bool aIsUpdate) { + MOZ_ASSERT(aTexture); + MOZ_ASSERT(aTexture->GetIPDLActor()); + MOZ_RELEASE_ASSERT(aTexture->GetIPDLActor()->GetIPCChannel() == + mWriter.WrBridge()->GetIPCChannel()); + mUpdates.AppendElement(layers::OpPushExternalImageForTexture( + aExtId, aKey, WrapNotNull(aTexture->GetIPDLActor()), aIsUpdate)); +} + +bool IpcResourceUpdateQueue::UpdateImageBuffer( + ImageKey aKey, const ImageDescriptor& aDescriptor, Range<uint8_t> aBytes) { + auto bytes = mWriter.Write(aBytes); + if (!bytes.length()) { + return false; + } + mUpdates.AppendElement(layers::OpUpdateImage(aDescriptor, bytes, aKey)); + return true; +} + +bool IpcResourceUpdateQueue::UpdateBlobImage(BlobImageKey aKey, + const ImageDescriptor& aDescriptor, + Range<uint8_t> aBytes, + ImageIntRect aVisibleRect, + ImageIntRect aDirtyRect) { + MOZ_ASSERT(aVisibleRect.width > 0 && aVisibleRect.height > 0); + + auto bytes = mWriter.Write(aBytes); + if (!bytes.length()) { + return false; + } + mUpdates.AppendElement(layers::OpUpdateBlobImage(aDescriptor, bytes, aKey, + aVisibleRect, aDirtyRect)); + return true; +} + +void IpcResourceUpdateQueue::UpdateSharedExternalImage( + wr::ExternalImageId aExtId, wr::ImageKey aKey, ImageIntRect aDirtyRect) { + mUpdates.AppendElement( + layers::OpUpdateSharedExternalImage(aExtId, aKey, aDirtyRect)); +} + +void IpcResourceUpdateQueue::SetBlobImageVisibleArea( + wr::BlobImageKey aKey, const ImageIntRect& aArea) { + mUpdates.AppendElement(layers::OpSetBlobImageVisibleArea(aArea, aKey)); +} + +void IpcResourceUpdateQueue::DeleteImage(ImageKey aKey) { + mUpdates.AppendElement(layers::OpDeleteImage(aKey)); +} + +void IpcResourceUpdateQueue::DeleteBlobImage(BlobImageKey aKey) { + mUpdates.AppendElement(layers::OpDeleteBlobImage(aKey)); +} + +bool IpcResourceUpdateQueue::AddRawFont(wr::FontKey aKey, Range<uint8_t> aBytes, + uint32_t aIndex) { + auto bytes = mWriter.Write(aBytes); + if (!bytes.length()) { + return false; + } + mUpdates.AppendElement(layers::OpAddRawFont(bytes, aIndex, aKey)); + return true; +} + +bool IpcResourceUpdateQueue::AddFontDescriptor(wr::FontKey aKey, + Range<uint8_t> aBytes, + uint32_t aIndex) { + auto bytes = mWriter.Write(aBytes); + if (!bytes.length()) { + return false; + } + mUpdates.AppendElement(layers::OpAddFontDescriptor(bytes, aIndex, aKey)); + return true; +} + +void IpcResourceUpdateQueue::DeleteFont(wr::FontKey aKey) { + mUpdates.AppendElement(layers::OpDeleteFont(aKey)); +} + +void IpcResourceUpdateQueue::AddFontInstance( + wr::FontInstanceKey aKey, wr::FontKey aFontKey, float aGlyphSize, + const wr::FontInstanceOptions* aOptions, + const wr::FontInstancePlatformOptions* aPlatformOptions, + Range<const gfx::FontVariation> aVariations) { + auto bytes = mWriter.WriteAsBytes(aVariations); + mUpdates.AppendElement(layers::OpAddFontInstance( + aOptions ? Some(*aOptions) : Nothing(), + aPlatformOptions ? Some(*aPlatformOptions) : Nothing(), bytes, aKey, + aFontKey, aGlyphSize)); +} + +void IpcResourceUpdateQueue::DeleteFontInstance(wr::FontInstanceKey aKey) { + mUpdates.AppendElement(layers::OpDeleteFontInstance(aKey)); +} + +void IpcResourceUpdateQueue::Flush( + nsTArray<layers::OpUpdateResource>& aUpdates, + nsTArray<layers::RefCountedShmem>& aSmallAllocs, + nsTArray<ipc::Shmem>& aLargeAllocs) { + aUpdates = std::move(mUpdates); + mWriter.Flush(aSmallAllocs, aLargeAllocs); +} + +bool IpcResourceUpdateQueue::IsEmpty() const { + if (mUpdates.Length() == 0) { + MOZ_ASSERT(mWriter.IsEmpty()); + return true; + } + return false; +} + +void IpcResourceUpdateQueue::Clear() { + mWriter.Clear(); + mUpdates.Clear(); +} + +// static +void IpcResourceUpdateQueue::ReleaseShmems( + ipc::IProtocol* aShmAllocator, nsTArray<layers::RefCountedShmem>& aShms) { + for (auto& shm : aShms) { + if (RefCountedShm::IsValid(shm) && RefCountedShm::Release(shm) == 0) { + RefCountedShm::Dealloc(aShmAllocator, shm); + } + } + aShms.Clear(); +} + +// static +void IpcResourceUpdateQueue::ReleaseShmems(ipc::IProtocol* aShmAllocator, + nsTArray<ipc::Shmem>& aShms) { + for (auto& shm : aShms) { + aShmAllocator->DeallocShmem(shm); + } + aShms.Clear(); +} + +} // namespace wr +} // namespace mozilla |