/* * Copyright (C) 2019 The Android Open Source Project * * 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. */ // #define LOG_NDEBUG 0 #define LOG_TAG "C2AllocatorBlob" #include #include #include #include namespace android { using ::android::hardware::graphics::common::V1_2::PixelFormat; constexpr uint32_t kLinearBufferHeight = 1u; constexpr uint32_t kLinearBufferFormat = static_cast(PixelFormat::BLOB); namespace { c2_status_t GetCapacityFromHandle(const C2Handle* const grallocHandle, size_t* capacity) { uint32_t width, height, format, stride, generation, igbp_slot; uint64_t usage, igbp_id; _UnwrapNativeCodec2GrallocMetadata(grallocHandle, &width, &height, &format, &usage, &stride, &generation, &igbp_id, &igbp_slot); if (height != kLinearBufferHeight || format != kLinearBufferFormat) { return C2_BAD_VALUE; } *capacity = width; return C2_OK; } } // namespace // C2AllocationBlob is a wrapper for C2AllocationGralloc allocated by C2AllocatorGralloc. // C2AllocationBlob::handle() delegates to the backed C2AllocationGralloc::handle(). class C2AllocationBlob : public C2LinearAllocation { public: C2AllocationBlob(std::shared_ptr graphicAllocation, size_t capacity, C2Allocator::id_t allocatorId); ~C2AllocationBlob() override; c2_status_t map(size_t offset, size_t size, C2MemoryUsage usage, C2Fence* fence, void** addr /* nonnull */) override; c2_status_t unmap(void* addr, size_t size, C2Fence* fenceFd) override; id_t getAllocatorId() const override { return mAllocatorId; } const C2Handle* handle() const override { return mGraphicAllocation->handle(); } bool equals(const std::shared_ptr& other) const override { return other && other->handle() == handle(); } private: const std::shared_ptr mGraphicAllocation; const C2Allocator::id_t mAllocatorId; }; C2AllocationBlob::C2AllocationBlob( std::shared_ptr graphicAllocation, size_t capacity, C2Allocator::id_t allocatorId) : C2LinearAllocation(capacity), mGraphicAllocation(std::move(graphicAllocation)), mAllocatorId(allocatorId) {} C2AllocationBlob::~C2AllocationBlob() {} c2_status_t C2AllocationBlob::map(size_t offset, size_t size, C2MemoryUsage usage, C2Fence* fence, void** addr /* nonnull */) { C2PlanarLayout layout; C2Rect rect = C2Rect(size, kLinearBufferHeight).at(offset, 0u); return mGraphicAllocation->map(rect, usage, fence, &layout, reinterpret_cast(addr)); } c2_status_t C2AllocationBlob::unmap(void* addr, size_t size, C2Fence* fenceFd) { C2Rect rect(size, kLinearBufferHeight); return mGraphicAllocation->unmap(reinterpret_cast(&addr), rect, fenceFd); } /* ====================================== BLOB ALLOCATOR ====================================== */ C2AllocatorBlob::C2AllocatorBlob(id_t id) { C2MemoryUsage minUsage = {0, 0}; C2MemoryUsage maxUsage = {C2MemoryUsage::CPU_READ | C2MemoryUsage::READ_PROTECTED, C2MemoryUsage::CPU_WRITE}; Traits traits = {"android.allocator.blob", id, LINEAR, minUsage, maxUsage}; mTraits = std::make_shared(traits); auto allocatorStore = GetCodec2PlatformAllocatorStore(); allocatorStore->fetchAllocator(C2PlatformAllocatorStore::GRALLOC, &mC2AllocatorGralloc); if (!mC2AllocatorGralloc) { ALOGE("Failed to obtain C2AllocatorGralloc as backed allocator"); } } C2AllocatorBlob::~C2AllocatorBlob() {} c2_status_t C2AllocatorBlob::newLinearAllocation( uint32_t capacity, C2MemoryUsage usage, std::shared_ptr* allocation) { if (allocation == nullptr) { return C2_BAD_VALUE; } allocation->reset(); if (!mC2AllocatorGralloc) { return C2_CORRUPTED; } std::shared_ptr graphicAllocation; c2_status_t status = mC2AllocatorGralloc->newGraphicAllocation( capacity, kLinearBufferHeight, kLinearBufferFormat, usage, &graphicAllocation); if (status != C2_OK) { ALOGE("Failed newGraphicAllocation"); return status; } allocation->reset(new C2AllocationBlob(std::move(graphicAllocation), static_cast(capacity), mTraits->id)); return C2_OK; } c2_status_t C2AllocatorBlob::priorLinearAllocation( const C2Handle* handle, std::shared_ptr* allocation) { if (allocation == nullptr) { return C2_BAD_VALUE; } allocation->reset(); if (!mC2AllocatorGralloc) { return C2_CORRUPTED; } std::shared_ptr graphicAllocation; c2_status_t status = mC2AllocatorGralloc->priorGraphicAllocation(handle, &graphicAllocation); if (status != C2_OK) { ALOGE("Failed priorGraphicAllocation"); return status; } const C2Handle* const grallocHandle = graphicAllocation->handle(); size_t capacity = 0; status = GetCapacityFromHandle(grallocHandle, &capacity); if (status != C2_OK) { ALOGE("Failed to extract capacity from Handle"); return status; } allocation->reset(new C2AllocationBlob(std::move(graphicAllocation), capacity, mTraits->id)); return C2_OK; } id_t C2AllocatorBlob::getId() const { return mTraits->id; } C2String C2AllocatorBlob::getName() const { return mTraits->name; } std::shared_ptr C2AllocatorBlob::getTraits() const { return mTraits; } // static bool C2AllocatorBlob::isValid(const C2Handle* const o) { size_t capacity; // Distinguish C2Handle purely allocated by C2AllocatorGralloc, or one allocated through // C2AllocatorBlob, by checking the handle's height is 1, and its format is // PixelFormat::BLOB by GetCapacityFromHandle(). return C2AllocatorGralloc::isValid(o) && GetCapacityFromHandle(o, &capacity) == C2_OK; } } // namespace android