/* * Copyright 2016 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. */ #undef LOG_TAG #define LOG_TAG "HwcComposer" #include #include #include "ComposerHal.h" #include #include #include namespace android { using hardware::Return; using hardware::hidl_vec; using hardware::hidl_handle; namespace Hwc2 { Composer::~Composer() = default; namespace { class BufferHandle { public: explicit BufferHandle(const native_handle_t* buffer) { // nullptr is not a valid handle to HIDL mHandle = (buffer) ? buffer : native_handle_init(mStorage, 0, 0); } operator const hidl_handle&() const // NOLINT(google-explicit-constructor) { return mHandle; } private: NATIVE_HANDLE_DECLARE_STORAGE(mStorage, 0, 0); hidl_handle mHandle; }; class FenceHandle { public: FenceHandle(int fd, bool owned) : mOwned(owned) { native_handle_t* handle; if (fd >= 0) { handle = native_handle_init(mStorage, 1, 0); handle->data[0] = fd; } else { // nullptr is not a valid handle to HIDL handle = native_handle_init(mStorage, 0, 0); } mHandle = handle; } ~FenceHandle() { if (mOwned) { native_handle_close(mHandle); } } operator const hidl_handle&() const // NOLINT(google-explicit-constructor) { return mHandle; } private: bool mOwned; NATIVE_HANDLE_DECLARE_STORAGE(mStorage, 1, 0); hidl_handle mHandle; }; // assume NO_RESOURCES when Status::isOk returns false constexpr Error kDefaultError = Error::NO_RESOURCES; template T unwrapRet(Return& ret, const U& default_val) { return (ret.isOk()) ? static_cast(ret) : static_cast(default_val); } Error unwrapRet(Return& ret) { return unwrapRet(ret, kDefaultError); } } // anonymous namespace namespace impl { Composer::CommandWriter::CommandWriter(uint32_t initialMaxSize) : CommandWriterBase(initialMaxSize) {} Composer::CommandWriter::~CommandWriter() { } void Composer::CommandWriter::setLayerInfo(uint32_t type, uint32_t appId) { constexpr uint16_t kSetLayerInfoLength = 2; beginCommand(static_cast( IVrComposerClient::VrCommand::SET_LAYER_INFO), kSetLayerInfoLength); write(type); write(appId); endCommand(); } void Composer::CommandWriter::setClientTargetMetadata( const IVrComposerClient::BufferMetadata& metadata) { constexpr uint16_t kSetClientTargetMetadataLength = 7; beginCommand(static_cast( IVrComposerClient::VrCommand::SET_CLIENT_TARGET_METADATA), kSetClientTargetMetadataLength); writeBufferMetadata(metadata); endCommand(); } void Composer::CommandWriter::setLayerBufferMetadata( const IVrComposerClient::BufferMetadata& metadata) { constexpr uint16_t kSetLayerBufferMetadataLength = 7; beginCommand(static_cast( IVrComposerClient::VrCommand::SET_LAYER_BUFFER_METADATA), kSetLayerBufferMetadataLength); writeBufferMetadata(metadata); endCommand(); } void Composer::CommandWriter::writeBufferMetadata( const IVrComposerClient::BufferMetadata& metadata) { write(metadata.width); write(metadata.height); write(metadata.stride); write(metadata.layerCount); writeSigned(static_cast(metadata.format)); write64(metadata.usage); } Composer::Composer(const std::string& serviceName) : mWriter(kWriterInitialSize), mIsUsingVrComposer(serviceName == std::string("vr")) { mComposer = V2_1::IComposer::getService(serviceName); if (mComposer == nullptr) { LOG_ALWAYS_FATAL("failed to get hwcomposer service"); } if (sp composer_2_3 = IComposer::castFrom(mComposer)) { composer_2_3->createClient_2_3([&](const auto& tmpError, const auto& tmpClient) { if (tmpError == Error::NONE) { mClient = tmpClient; mClient_2_2 = tmpClient; mClient_2_3 = tmpClient; } }); } else { mComposer->createClient([&](const auto& tmpError, const auto& tmpClient) { if (tmpError != Error::NONE) { return; } mClient = tmpClient; if (sp composer_2_2 = V2_2::IComposer::castFrom(mComposer)) { mClient_2_2 = V2_2::IComposerClient::castFrom(mClient); LOG_ALWAYS_FATAL_IF(mClient_2_2 == nullptr, "IComposer 2.2 did not return IComposerClient 2.2"); } }); } if (mClient == nullptr) { LOG_ALWAYS_FATAL("failed to create composer client"); } if (mIsUsingVrComposer) { sp vrClient = IVrComposerClient::castFrom(mClient); if (vrClient == nullptr) { LOG_ALWAYS_FATAL("failed to create vr composer client"); } } } Composer::~Composer() = default; std::vector Composer::getCapabilities() { std::vector capabilities; mComposer->getCapabilities( [&](const auto& tmpCapabilities) { capabilities = tmpCapabilities; }); return capabilities; } std::string Composer::dumpDebugInfo() { std::string info; mComposer->dumpDebugInfo([&](const auto& tmpInfo) { info = tmpInfo.c_str(); }); return info; } void Composer::registerCallback(const sp& callback) { auto ret = mClient->registerCallback(callback); if (!ret.isOk()) { ALOGE("failed to register IComposerCallback"); } } bool Composer::isRemote() { return mClient->isRemote(); } void Composer::resetCommands() { mWriter.reset(); } Error Composer::executeCommands() { return execute(); } uint32_t Composer::getMaxVirtualDisplayCount() { auto ret = mClient->getMaxVirtualDisplayCount(); return unwrapRet(ret, 0); } Error Composer::createVirtualDisplay(uint32_t width, uint32_t height, PixelFormat* format, Display* outDisplay) { const uint32_t bufferSlotCount = 1; Error error = kDefaultError; if (mClient_2_2) { mClient_2_2->createVirtualDisplay_2_2(width, height, static_cast(*format), bufferSlotCount, [&](const auto& tmpError, const auto& tmpDisplay, const auto& tmpFormat) { error = tmpError; if (error != Error::NONE) { return; } *outDisplay = tmpDisplay; *format = static_cast( tmpFormat); }); } else { mClient->createVirtualDisplay(width, height, static_cast(*format), bufferSlotCount, [&](const auto& tmpError, const auto& tmpDisplay, const auto& tmpFormat) { error = tmpError; if (error != Error::NONE) { return; } *outDisplay = tmpDisplay; *format = static_cast(tmpFormat); }); } return error; } Error Composer::destroyVirtualDisplay(Display display) { auto ret = mClient->destroyVirtualDisplay(display); return unwrapRet(ret); } Error Composer::acceptDisplayChanges(Display display) { mWriter.selectDisplay(display); mWriter.acceptDisplayChanges(); return Error::NONE; } Error Composer::createLayer(Display display, Layer* outLayer) { Error error = kDefaultError; mClient->createLayer(display, BufferQueue::NUM_BUFFER_SLOTS, [&](const auto& tmpError, const auto& tmpLayer) { error = tmpError; if (error != Error::NONE) { return; } *outLayer = tmpLayer; }); return error; } Error Composer::destroyLayer(Display display, Layer layer) { auto ret = mClient->destroyLayer(display, layer); return unwrapRet(ret); } Error Composer::getActiveConfig(Display display, Config* outConfig) { Error error = kDefaultError; mClient->getActiveConfig(display, [&](const auto& tmpError, const auto& tmpConfig) { error = tmpError; if (error != Error::NONE) { return; } *outConfig = tmpConfig; }); return error; } Error Composer::getChangedCompositionTypes(Display display, std::vector* outLayers, std::vector* outTypes) { mReader.takeChangedCompositionTypes(display, outLayers, outTypes); return Error::NONE; } Error Composer::getColorModes(Display display, std::vector* outModes) { Error error = kDefaultError; if (mClient_2_3) { mClient_2_3->getColorModes_2_3(display, [&](const auto& tmpError, const auto& tmpModes) { error = tmpError; if (error != Error::NONE) { return; } *outModes = tmpModes; }); } else if (mClient_2_2) { mClient_2_2->getColorModes_2_2(display, [&](const auto& tmpError, const auto& tmpModes) { error = tmpError; if (error != Error::NONE) { return; } for (types::V1_1::ColorMode colorMode : tmpModes) { outModes->push_back(static_cast(colorMode)); } }); } else { mClient->getColorModes(display, [&](const auto& tmpError, const auto& tmpModes) { error = tmpError; if (error != Error::NONE) { return; } for (types::V1_0::ColorMode colorMode : tmpModes) { outModes->push_back(static_cast(colorMode)); } }); } return error; } Error Composer::getDisplayAttribute(Display display, Config config, IComposerClient::Attribute attribute, int32_t* outValue) { Error error = kDefaultError; mClient->getDisplayAttribute(display, config, attribute, [&](const auto& tmpError, const auto& tmpValue) { error = tmpError; if (error != Error::NONE) { return; } *outValue = tmpValue; }); return error; } Error Composer::getDisplayConfigs(Display display, std::vector* outConfigs) { Error error = kDefaultError; mClient->getDisplayConfigs(display, [&](const auto& tmpError, const auto& tmpConfigs) { error = tmpError; if (error != Error::NONE) { return; } *outConfigs = tmpConfigs; }); return error; } Error Composer::getDisplayName(Display display, std::string* outName) { Error error = kDefaultError; mClient->getDisplayName(display, [&](const auto& tmpError, const auto& tmpName) { error = tmpError; if (error != Error::NONE) { return; } *outName = tmpName.c_str(); }); return error; } Error Composer::getDisplayRequests(Display display, uint32_t* outDisplayRequestMask, std::vector* outLayers, std::vector* outLayerRequestMasks) { mReader.takeDisplayRequests(display, outDisplayRequestMask, outLayers, outLayerRequestMasks); return Error::NONE; } Error Composer::getDisplayType(Display display, IComposerClient::DisplayType* outType) { Error error = kDefaultError; mClient->getDisplayType(display, [&](const auto& tmpError, const auto& tmpType) { error = tmpError; if (error != Error::NONE) { return; } *outType = tmpType; }); return error; } Error Composer::getDozeSupport(Display display, bool* outSupport) { Error error = kDefaultError; mClient->getDozeSupport(display, [&](const auto& tmpError, const auto& tmpSupport) { error = tmpError; if (error != Error::NONE) { return; } *outSupport = tmpSupport; }); return error; } Error Composer::getHdrCapabilities(Display display, std::vector* outTypes, float* outMaxLuminance, float* outMaxAverageLuminance, float* outMinLuminance) { Error error = kDefaultError; if (mClient_2_3) { mClient_2_3->getHdrCapabilities_2_3(display, [&](const auto& tmpError, const auto& tmpTypes, const auto& tmpMaxLuminance, const auto& tmpMaxAverageLuminance, const auto& tmpMinLuminance) { error = tmpError; if (error != Error::NONE) { return; } *outTypes = tmpTypes; *outMaxLuminance = tmpMaxLuminance; *outMaxAverageLuminance = tmpMaxAverageLuminance; *outMinLuminance = tmpMinLuminance; }); } else { mClient->getHdrCapabilities(display, [&](const auto& tmpError, const auto& tmpTypes, const auto& tmpMaxLuminance, const auto& tmpMaxAverageLuminance, const auto& tmpMinLuminance) { error = tmpError; if (error != Error::NONE) { return; } outTypes->clear(); for (auto type : tmpTypes) { outTypes->push_back(static_cast(type)); } *outMaxLuminance = tmpMaxLuminance; *outMaxAverageLuminance = tmpMaxAverageLuminance; *outMinLuminance = tmpMinLuminance; }); } return error; } Error Composer::getReleaseFences(Display display, std::vector* outLayers, std::vector* outReleaseFences) { mReader.takeReleaseFences(display, outLayers, outReleaseFences); return Error::NONE; } Error Composer::presentDisplay(Display display, int* outPresentFence) { mWriter.selectDisplay(display); mWriter.presentDisplay(); Error error = execute(); if (error != Error::NONE) { return error; } mReader.takePresentFence(display, outPresentFence); return Error::NONE; } Error Composer::setActiveConfig(Display display, Config config) { auto ret = mClient->setActiveConfig(display, config); return unwrapRet(ret); } Error Composer::setClientTarget(Display display, uint32_t slot, const sp& target, int acquireFence, Dataspace dataspace, const std::vector& damage) { mWriter.selectDisplay(display); if (mIsUsingVrComposer && target.get()) { IVrComposerClient::BufferMetadata metadata = { .width = target->getWidth(), .height = target->getHeight(), .stride = target->getStride(), .layerCount = target->getLayerCount(), .format = static_cast(target->getPixelFormat()), .usage = target->getUsage(), }; mWriter.setClientTargetMetadata(metadata); } const native_handle_t* handle = nullptr; if (target.get()) { handle = target->getNativeBuffer()->handle; } mWriter.setClientTarget(slot, handle, acquireFence, dataspace, damage); return Error::NONE; } Error Composer::setColorMode(Display display, ColorMode mode, RenderIntent renderIntent) { hardware::Return ret(kDefaultError); if (mClient_2_3) { ret = mClient_2_3->setColorMode_2_3(display, mode, renderIntent); } else if (mClient_2_2) { ret = mClient_2_2->setColorMode_2_2(display, static_cast(mode), renderIntent); } else { ret = mClient->setColorMode(display, static_cast(mode)); } return unwrapRet(ret); } Error Composer::setColorTransform(Display display, const float* matrix, ColorTransform hint) { mWriter.selectDisplay(display); mWriter.setColorTransform(matrix, hint); return Error::NONE; } Error Composer::setOutputBuffer(Display display, const native_handle_t* buffer, int releaseFence) { mWriter.selectDisplay(display); mWriter.setOutputBuffer(0, buffer, dup(releaseFence)); return Error::NONE; } Error Composer::setPowerMode(Display display, IComposerClient::PowerMode mode) { Return ret(Error::UNSUPPORTED); if (mClient_2_2) { ret = mClient_2_2->setPowerMode_2_2(display, mode); } else if (mode != IComposerClient::PowerMode::ON_SUSPEND) { ret = mClient->setPowerMode(display, static_cast(mode)); } return unwrapRet(ret); } Error Composer::setVsyncEnabled(Display display, IComposerClient::Vsync enabled) { auto ret = mClient->setVsyncEnabled(display, enabled); return unwrapRet(ret); } Error Composer::setClientTargetSlotCount(Display display) { const uint32_t bufferSlotCount = BufferQueue::NUM_BUFFER_SLOTS; auto ret = mClient->setClientTargetSlotCount(display, bufferSlotCount); return unwrapRet(ret); } Error Composer::validateDisplay(Display display, uint32_t* outNumTypes, uint32_t* outNumRequests) { mWriter.selectDisplay(display); mWriter.validateDisplay(); Error error = execute(); if (error != Error::NONE) { return error; } mReader.hasChanges(display, outNumTypes, outNumRequests); return Error::NONE; } Error Composer::presentOrValidateDisplay(Display display, uint32_t* outNumTypes, uint32_t* outNumRequests, int* outPresentFence, uint32_t* state) { mWriter.selectDisplay(display); mWriter.presentOrvalidateDisplay(); Error error = execute(); if (error != Error::NONE) { return error; } mReader.takePresentOrValidateStage(display, state); if (*state == 1) { // Present succeeded mReader.takePresentFence(display, outPresentFence); } if (*state == 0) { // Validate succeeded. mReader.hasChanges(display, outNumTypes, outNumRequests); } return Error::NONE; } Error Composer::setCursorPosition(Display display, Layer layer, int32_t x, int32_t y) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerCursorPosition(x, y); return Error::NONE; } Error Composer::setLayerBuffer(Display display, Layer layer, uint32_t slot, const sp& buffer, int acquireFence) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); if (mIsUsingVrComposer && buffer.get()) { IVrComposerClient::BufferMetadata metadata = { .width = buffer->getWidth(), .height = buffer->getHeight(), .stride = buffer->getStride(), .layerCount = buffer->getLayerCount(), .format = static_cast(buffer->getPixelFormat()), .usage = buffer->getUsage(), }; mWriter.setLayerBufferMetadata(metadata); } const native_handle_t* handle = nullptr; if (buffer.get()) { handle = buffer->getNativeBuffer()->handle; } mWriter.setLayerBuffer(slot, handle, acquireFence); return Error::NONE; } Error Composer::setLayerSurfaceDamage(Display display, Layer layer, const std::vector& damage) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerSurfaceDamage(damage); return Error::NONE; } Error Composer::setLayerBlendMode(Display display, Layer layer, IComposerClient::BlendMode mode) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerBlendMode(mode); return Error::NONE; } Error Composer::setLayerColor(Display display, Layer layer, const IComposerClient::Color& color) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerColor(color); return Error::NONE; } Error Composer::setLayerCompositionType(Display display, Layer layer, IComposerClient::Composition type) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerCompositionType(type); return Error::NONE; } Error Composer::setLayerDataspace(Display display, Layer layer, Dataspace dataspace) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerDataspace(dataspace); return Error::NONE; } Error Composer::setLayerDisplayFrame(Display display, Layer layer, const IComposerClient::Rect& frame) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerDisplayFrame(frame); return Error::NONE; } Error Composer::setLayerPlaneAlpha(Display display, Layer layer, float alpha) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerPlaneAlpha(alpha); return Error::NONE; } Error Composer::setLayerSidebandStream(Display display, Layer layer, const native_handle_t* stream) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerSidebandStream(stream); return Error::NONE; } Error Composer::setLayerSourceCrop(Display display, Layer layer, const IComposerClient::FRect& crop) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerSourceCrop(crop); return Error::NONE; } Error Composer::setLayerTransform(Display display, Layer layer, Transform transform) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerTransform(transform); return Error::NONE; } Error Composer::setLayerVisibleRegion(Display display, Layer layer, const std::vector& visible) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerVisibleRegion(visible); return Error::NONE; } Error Composer::setLayerZOrder(Display display, Layer layer, uint32_t z) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerZOrder(z); return Error::NONE; } Error Composer::setLayerInfo(Display display, Layer layer, uint32_t type, uint32_t appId) { if (mIsUsingVrComposer) { mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerInfo(type, appId); } return Error::NONE; } Error Composer::execute() { // prepare input command queue bool queueChanged = false; uint32_t commandLength = 0; hidl_vec commandHandles; if (!mWriter.writeQueue(&queueChanged, &commandLength, &commandHandles)) { mWriter.reset(); return Error::NO_RESOURCES; } // set up new input command queue if necessary if (queueChanged) { auto ret = mClient->setInputCommandQueue(*mWriter.getMQDescriptor()); auto error = unwrapRet(ret); if (error != Error::NONE) { mWriter.reset(); return error; } } if (commandLength == 0) { mWriter.reset(); return Error::NONE; } Error error = kDefaultError; hardware::Return ret; auto hidl_callback = [&](const auto& tmpError, const auto& tmpOutChanged, const auto& tmpOutLength, const auto& tmpOutHandles) { error = tmpError; // set up new output command queue if necessary if (error == Error::NONE && tmpOutChanged) { error = kDefaultError; mClient->getOutputCommandQueue( [&](const auto& tmpError, const auto& tmpDescriptor) { error = tmpError; if (error != Error::NONE) { return; } mReader.setMQDescriptor(tmpDescriptor); }); } if (error != Error::NONE) { return; } if (mReader.readQueue(tmpOutLength, tmpOutHandles)) { error = mReader.parse(); mReader.reset(); } else { error = Error::NO_RESOURCES; } }; if (mClient_2_2) { ret = mClient_2_2->executeCommands_2_2(commandLength, commandHandles, hidl_callback); } else { ret = mClient->executeCommands(commandLength, commandHandles, hidl_callback); } // executeCommands can fail because of out-of-fd and we do not want to // abort() in that case if (!ret.isOk()) { ALOGE("executeCommands failed because of %s", ret.description().c_str()); } if (error == Error::NONE) { std::vector commandErrors = mReader.takeErrors(); for (const auto& cmdErr : commandErrors) { auto command = static_cast(mWriter.getCommand(cmdErr.location)); if (command == IComposerClient::Command::VALIDATE_DISPLAY || command == IComposerClient::Command::PRESENT_DISPLAY || command == IComposerClient::Command::PRESENT_OR_VALIDATE_DISPLAY) { error = cmdErr.error; } else { ALOGW("command 0x%x generated error %d", command, cmdErr.error); } } } mWriter.reset(); return error; } // Composer HAL 2.2 Error Composer::setLayerPerFrameMetadata(Display display, Layer layer, const std::vector& perFrameMetadatas) { if (!mClient_2_2) { return Error::UNSUPPORTED; } mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerPerFrameMetadata(perFrameMetadatas); return Error::NONE; } std::vector Composer::getPerFrameMetadataKeys( Display display) { std::vector keys; if (!mClient_2_2) { return keys; } Error error = kDefaultError; if (mClient_2_3) { mClient_2_3->getPerFrameMetadataKeys_2_3(display, [&](const auto& tmpError, const auto& tmpKeys) { error = tmpError; if (error != Error::NONE) { ALOGW("getPerFrameMetadataKeys failed " "with %d", tmpError); return; } keys = tmpKeys; }); } else { mClient_2_2 ->getPerFrameMetadataKeys(display, [&](const auto& tmpError, const auto& tmpKeys) { error = tmpError; if (error != Error::NONE) { ALOGW("getPerFrameMetadataKeys failed with %d", tmpError); return; } keys.clear(); for (auto key : tmpKeys) { keys.push_back(static_cast(key)); } }); } return keys; } Error Composer::getRenderIntents(Display display, ColorMode colorMode, std::vector* outRenderIntents) { if (!mClient_2_2) { outRenderIntents->push_back(RenderIntent::COLORIMETRIC); return Error::NONE; } Error error = kDefaultError; auto getRenderIntentsLambda = [&](const auto& tmpError, const auto& tmpKeys) { error = tmpError; if (error != Error::NONE) { return; } *outRenderIntents = tmpKeys; }; if (mClient_2_3) { mClient_2_3->getRenderIntents_2_3(display, colorMode, getRenderIntentsLambda); } else { mClient_2_2->getRenderIntents(display, static_cast(colorMode), getRenderIntentsLambda); } return error; } Error Composer::getDataspaceSaturationMatrix(Dataspace dataspace, mat4* outMatrix) { if (!mClient_2_2) { *outMatrix = mat4(); return Error::NONE; } Error error = kDefaultError; mClient_2_2->getDataspaceSaturationMatrix(static_cast(dataspace), [&](const auto& tmpError, const auto& tmpMatrix) { error = tmpError; if (error != Error::NONE) { return; } *outMatrix = mat4(tmpMatrix.data()); }); return error; } // Composer HAL 2.3 Error Composer::getDisplayIdentificationData(Display display, uint8_t* outPort, std::vector* outData) { if (!mClient_2_3) { return Error::UNSUPPORTED; } Error error = kDefaultError; mClient_2_3->getDisplayIdentificationData(display, [&](const auto& tmpError, const auto& tmpPort, const auto& tmpData) { error = tmpError; if (error != Error::NONE) { return; } *outPort = tmpPort; *outData = tmpData; }); return error; } Error Composer::setLayerColorTransform(Display display, Layer layer, const float* matrix) { if (!mClient_2_3) { return Error::UNSUPPORTED; } mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerColorTransform(matrix); return Error::NONE; } Error Composer::getDisplayedContentSamplingAttributes(Display display, PixelFormat* outFormat, Dataspace* outDataspace, uint8_t* outComponentMask) { if (!outFormat || !outDataspace || !outComponentMask) { return Error::BAD_PARAMETER; } if (!mClient_2_3) { return Error::UNSUPPORTED; } Error error = kDefaultError; mClient_2_3->getDisplayedContentSamplingAttributes(display, [&](const auto tmpError, const auto& tmpFormat, const auto& tmpDataspace, const auto& tmpComponentMask) { error = tmpError; if (error == Error::NONE) { *outFormat = tmpFormat; *outDataspace = tmpDataspace; *outComponentMask = static_cast( tmpComponentMask); } }); return error; } Error Composer::getDisplayCapabilities(Display display, std::vector* outCapabilities) { if (!mClient_2_3) { return Error::UNSUPPORTED; } Error error = kDefaultError; mClient_2_3->getDisplayCapabilities(display, [&](const auto& tmpError, const auto& tmpCapabilities) { error = tmpError; if (error != Error::NONE) { return; } *outCapabilities = tmpCapabilities; }); return error; } Error Composer::setDisplayContentSamplingEnabled(Display display, bool enabled, uint8_t componentMask, uint64_t maxFrames) { if (!mClient_2_3) { return Error::UNSUPPORTED; } auto enable = enabled ? V2_3::IComposerClient::DisplayedContentSampling::ENABLE : V2_3::IComposerClient::DisplayedContentSampling::DISABLE; return mClient_2_3->setDisplayedContentSamplingEnabled(display, enable, componentMask, maxFrames); } Error Composer::getDisplayedContentSample(Display display, uint64_t maxFrames, uint64_t timestamp, DisplayedFrameStats* outStats) { if (!outStats) { return Error::BAD_PARAMETER; } if (!mClient_2_3) { return Error::UNSUPPORTED; } Error error = kDefaultError; mClient_2_3->getDisplayedContentSample(display, maxFrames, timestamp, [&](const auto tmpError, auto tmpNumFrames, const auto& tmpSamples0, const auto& tmpSamples1, const auto& tmpSamples2, const auto& tmpSamples3) { error = tmpError; if (error == Error::NONE) { outStats->numFrames = tmpNumFrames; outStats->component_0_sample = tmpSamples0; outStats->component_1_sample = tmpSamples1; outStats->component_2_sample = tmpSamples2; outStats->component_3_sample = tmpSamples3; } }); return error; } Error Composer::setLayerPerFrameMetadataBlobs( Display display, Layer layer, const std::vector& metadata) { if (!mClient_2_3) { return Error::UNSUPPORTED; } mWriter.selectDisplay(display); mWriter.selectLayer(layer); mWriter.setLayerPerFrameMetadataBlobs(metadata); return Error::NONE; } Error Composer::setDisplayBrightness(Display display, float brightness) { if (!mClient_2_3) { return Error::UNSUPPORTED; } return mClient_2_3->setDisplayBrightness(display, brightness); } CommandReader::~CommandReader() { resetData(); } Error CommandReader::parse() { resetData(); IComposerClient::Command command; uint16_t length = 0; while (!isEmpty()) { auto command_2_1 = reinterpret_cast(&command); if (!beginCommand(command_2_1, &length)) { break; } bool parsed = false; switch (command) { case IComposerClient::Command::SELECT_DISPLAY: parsed = parseSelectDisplay(length); break; case IComposerClient::Command::SET_ERROR: parsed = parseSetError(length); break; case IComposerClient::Command::SET_CHANGED_COMPOSITION_TYPES: parsed = parseSetChangedCompositionTypes(length); break; case IComposerClient::Command::SET_DISPLAY_REQUESTS: parsed = parseSetDisplayRequests(length); break; case IComposerClient::Command::SET_PRESENT_FENCE: parsed = parseSetPresentFence(length); break; case IComposerClient::Command::SET_RELEASE_FENCES: parsed = parseSetReleaseFences(length); break; case IComposerClient::Command ::SET_PRESENT_OR_VALIDATE_DISPLAY_RESULT: parsed = parseSetPresentOrValidateDisplayResult(length); break; default: parsed = false; break; } endCommand(); if (!parsed) { ALOGE("failed to parse command 0x%x length %" PRIu16, command, length); break; } } return isEmpty() ? Error::NONE : Error::NO_RESOURCES; } bool CommandReader::parseSelectDisplay(uint16_t length) { if (length != CommandWriterBase::kSelectDisplayLength) { return false; } mCurrentReturnData = &mReturnData[read64()]; return true; } bool CommandReader::parseSetError(uint16_t length) { if (length != CommandWriterBase::kSetErrorLength) { return false; } auto location = read(); auto error = static_cast(readSigned()); mErrors.emplace_back(CommandError{location, error}); return true; } bool CommandReader::parseSetChangedCompositionTypes(uint16_t length) { // (layer id, composition type) pairs if (length % 3 != 0 || !mCurrentReturnData) { return false; } uint32_t count = length / 3; mCurrentReturnData->changedLayers.reserve(count); mCurrentReturnData->compositionTypes.reserve(count); while (count > 0) { auto layer = read64(); auto type = static_cast(readSigned()); mCurrentReturnData->changedLayers.push_back(layer); mCurrentReturnData->compositionTypes.push_back(type); count--; } return true; } bool CommandReader::parseSetDisplayRequests(uint16_t length) { // display requests followed by (layer id, layer requests) pairs if (length % 3 != 1 || !mCurrentReturnData) { return false; } mCurrentReturnData->displayRequests = read(); uint32_t count = (length - 1) / 3; mCurrentReturnData->requestedLayers.reserve(count); mCurrentReturnData->requestMasks.reserve(count); while (count > 0) { auto layer = read64(); auto layerRequestMask = read(); mCurrentReturnData->requestedLayers.push_back(layer); mCurrentReturnData->requestMasks.push_back(layerRequestMask); count--; } return true; } bool CommandReader::parseSetPresentFence(uint16_t length) { if (length != CommandWriterBase::kSetPresentFenceLength || !mCurrentReturnData) { return false; } if (mCurrentReturnData->presentFence >= 0) { close(mCurrentReturnData->presentFence); } mCurrentReturnData->presentFence = readFence(); return true; } bool CommandReader::parseSetReleaseFences(uint16_t length) { // (layer id, release fence index) pairs if (length % 3 != 0 || !mCurrentReturnData) { return false; } uint32_t count = length / 3; mCurrentReturnData->releasedLayers.reserve(count); mCurrentReturnData->releaseFences.reserve(count); while (count > 0) { auto layer = read64(); auto fence = readFence(); mCurrentReturnData->releasedLayers.push_back(layer); mCurrentReturnData->releaseFences.push_back(fence); count--; } return true; } bool CommandReader::parseSetPresentOrValidateDisplayResult(uint16_t length) { if (length != CommandWriterBase::kPresentOrValidateDisplayResultLength || !mCurrentReturnData) { return false; } mCurrentReturnData->presentOrValidateState = read(); return true; } void CommandReader::resetData() { mErrors.clear(); for (auto& data : mReturnData) { if (data.second.presentFence >= 0) { close(data.second.presentFence); } for (auto fence : data.second.releaseFences) { if (fence >= 0) { close(fence); } } } mReturnData.clear(); mCurrentReturnData = nullptr; } std::vector CommandReader::takeErrors() { return std::move(mErrors); } bool CommandReader::hasChanges(Display display, uint32_t* outNumChangedCompositionTypes, uint32_t* outNumLayerRequestMasks) const { auto found = mReturnData.find(display); if (found == mReturnData.end()) { *outNumChangedCompositionTypes = 0; *outNumLayerRequestMasks = 0; return false; } const ReturnData& data = found->second; *outNumChangedCompositionTypes = data.compositionTypes.size(); *outNumLayerRequestMasks = data.requestMasks.size(); return !(data.compositionTypes.empty() && data.requestMasks.empty()); } void CommandReader::takeChangedCompositionTypes(Display display, std::vector* outLayers, std::vector* outTypes) { auto found = mReturnData.find(display); if (found == mReturnData.end()) { outLayers->clear(); outTypes->clear(); return; } ReturnData& data = found->second; *outLayers = std::move(data.changedLayers); *outTypes = std::move(data.compositionTypes); } void CommandReader::takeDisplayRequests(Display display, uint32_t* outDisplayRequestMask, std::vector* outLayers, std::vector* outLayerRequestMasks) { auto found = mReturnData.find(display); if (found == mReturnData.end()) { *outDisplayRequestMask = 0; outLayers->clear(); outLayerRequestMasks->clear(); return; } ReturnData& data = found->second; *outDisplayRequestMask = data.displayRequests; *outLayers = std::move(data.requestedLayers); *outLayerRequestMasks = std::move(data.requestMasks); } void CommandReader::takeReleaseFences(Display display, std::vector* outLayers, std::vector* outReleaseFences) { auto found = mReturnData.find(display); if (found == mReturnData.end()) { outLayers->clear(); outReleaseFences->clear(); return; } ReturnData& data = found->second; *outLayers = std::move(data.releasedLayers); *outReleaseFences = std::move(data.releaseFences); } void CommandReader::takePresentFence(Display display, int* outPresentFence) { auto found = mReturnData.find(display); if (found == mReturnData.end()) { *outPresentFence = -1; return; } ReturnData& data = found->second; *outPresentFence = data.presentFence; data.presentFence = -1; } void CommandReader::takePresentOrValidateStage(Display display, uint32_t* state) { auto found = mReturnData.find(display); if (found == mReturnData.end()) { *state= -1; return; } ReturnData& data = found->second; *state = data.presentOrValidateState; } } // namespace impl } // namespace Hwc2 } // namespace android