/* * Copyright 2015 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 #undef LOG_TAG #define LOG_TAG "HWC2" #define ATRACE_TAG ATRACE_TAG_GRAPHICS #include "HWC2.h" #include "FloatRect.h" #include #include #include #include #include #include extern "C" { static void hotplug_hook(hwc2_callback_data_t callbackData, hwc2_display_t displayId, int32_t intConnected) { auto device = static_cast(callbackData); auto display = device->getDisplayById(displayId); if (display) { auto connected = static_cast(intConnected); device->callHotplug(std::move(display), connected); } else { ALOGE("Hotplug callback called with unknown display %" PRIu64, displayId); } } static void refresh_hook(hwc2_callback_data_t callbackData, hwc2_display_t displayId) { auto device = static_cast(callbackData); auto display = device->getDisplayById(displayId); if (display) { device->callRefresh(std::move(display)); } else { ALOGE("Refresh callback called with unknown display %" PRIu64, displayId); } } static void vsync_hook(hwc2_callback_data_t callbackData, hwc2_display_t displayId, int64_t timestamp) { auto device = static_cast(callbackData); auto display = device->getDisplayById(displayId); if (display) { device->callVsync(std::move(display), timestamp); } else { ALOGE("Vsync callback called with unknown display %" PRIu64, displayId); } } } using android::Fence; using android::FloatRect; using android::GraphicBuffer; using android::HdrCapabilities; using android::Rect; using android::Region; using android::sp; namespace HWC2 { // Device methods Device::Device(hwc2_device_t* device) : mHwcDevice(device), mCreateVirtualDisplay(nullptr), mDestroyVirtualDisplay(nullptr), mDump(nullptr), mGetMaxVirtualDisplayCount(nullptr), mRegisterCallback(nullptr), mAcceptDisplayChanges(nullptr), mCreateLayer(nullptr), mDestroyLayer(nullptr), mGetActiveConfig(nullptr), mGetChangedCompositionTypes(nullptr), mGetColorModes(nullptr), mGetDisplayAttribute(nullptr), mGetDisplayConfigs(nullptr), mGetDisplayName(nullptr), mGetDisplayRequests(nullptr), mGetDisplayType(nullptr), mGetDozeSupport(nullptr), mGetHdrCapabilities(nullptr), mGetReleaseFences(nullptr), mPresentDisplay(nullptr), mSetActiveConfig(nullptr), mSetClientTarget(nullptr), mSetColorMode(nullptr), mSetColorTransform(nullptr), mSetOutputBuffer(nullptr), mSetPowerMode(nullptr), mSetVsyncEnabled(nullptr), mValidateDisplay(nullptr), mSetCursorPosition(nullptr), mSetLayerBuffer(nullptr), mSetLayerSurfaceDamage(nullptr), mSetLayerBlendMode(nullptr), mSetLayerColor(nullptr), mSetLayerCompositionType(nullptr), mSetLayerDataspace(nullptr), mSetLayerDisplayFrame(nullptr), mSetLayerPlaneAlpha(nullptr), mSetLayerSidebandStream(nullptr), mSetLayerSourceCrop(nullptr), mSetLayerTransform(nullptr), mSetLayerVisibleRegion(nullptr), mSetLayerZOrder(nullptr), mCapabilities(), mDisplays(), mHotplug(), mPendingHotplugs(), mRefresh(), mPendingRefreshes(), mVsync(), mPendingVsyncs() { loadCapabilities(); loadFunctionPointers(); registerCallbacks(); } Device::~Device() { if (mHwcDevice == nullptr) { return; } for (auto element : mDisplays) { auto display = element.second; DisplayType displayType = HWC2::DisplayType::Invalid; auto error = display->getType(&displayType); if (error != Error::None) { ALOGE("~Device: Failed to determine type of display %" PRIu64 ": %s (%d)", display->getId(), to_string(error).c_str(), static_cast(error)); continue; } if (displayType == HWC2::DisplayType::Physical) { error = display->setVsyncEnabled(HWC2::Vsync::Disable); if (error != Error::None) { ALOGE("~Device: Failed to disable vsync for display %" PRIu64 ": %s (%d)", display->getId(), to_string(error).c_str(), static_cast(error)); } } } hwc2_close(mHwcDevice); } // Required by HWC2 device std::string Device::dump() const { uint32_t numBytes = 0; mDump(mHwcDevice, &numBytes, nullptr); std::vector buffer(numBytes); mDump(mHwcDevice, &numBytes, buffer.data()); return std::string(buffer.data(), buffer.size()); } uint32_t Device::getMaxVirtualDisplayCount() const { return mGetMaxVirtualDisplayCount(mHwcDevice); } Error Device::createVirtualDisplay(uint32_t width, uint32_t height, android_pixel_format_t* format, std::shared_ptr* outDisplay) { ALOGI("Creating virtual display"); hwc2_display_t displayId = 0; int32_t intFormat = static_cast(*format); int32_t intError = mCreateVirtualDisplay(mHwcDevice, width, height, &intFormat, &displayId); auto error = static_cast(intError); if (error != Error::None) { return error; } ALOGI("Created virtual display"); *format = static_cast(intFormat); *outDisplay = getDisplayById(displayId); (*outDisplay)->setVirtual(); return Error::None; } void Device::registerHotplugCallback(HotplugCallback hotplug) { ALOGV("registerHotplugCallback"); mHotplug = hotplug; for (auto& pending : mPendingHotplugs) { auto& display = pending.first; auto connected = pending.second; ALOGV("Sending pending hotplug(%" PRIu64 ", %s)", display->getId(), to_string(connected).c_str()); mHotplug(std::move(display), connected); } } void Device::registerRefreshCallback(RefreshCallback refresh) { mRefresh = refresh; for (auto& pending : mPendingRefreshes) { mRefresh(std::move(pending)); } } void Device::registerVsyncCallback(VsyncCallback vsync) { mVsync = vsync; for (auto& pending : mPendingVsyncs) { auto& display = pending.first; auto timestamp = pending.second; mVsync(std::move(display), timestamp); } } // For use by Device callbacks void Device::callHotplug(std::shared_ptr display, Connection connected) { if (connected == Connection::Connected) { if (!display->isConnected()) { display->loadConfigs(); display->setConnected(true); } } else { display->setConnected(false); mDisplays.erase(display->getId()); } if (mHotplug) { mHotplug(std::move(display), connected); } else { ALOGV("callHotplug called, but no valid callback registered, storing"); mPendingHotplugs.emplace_back(std::move(display), connected); } } void Device::callRefresh(std::shared_ptr display) { if (mRefresh) { mRefresh(std::move(display)); } else { ALOGV("callRefresh called, but no valid callback registered, storing"); mPendingRefreshes.emplace_back(std::move(display)); } } void Device::callVsync(std::shared_ptr display, nsecs_t timestamp) { if (mVsync) { mVsync(std::move(display), timestamp); } else { ALOGV("callVsync called, but no valid callback registered, storing"); mPendingVsyncs.emplace_back(std::move(display), timestamp); } } // Other Device methods std::shared_ptr Device::getDisplayById(hwc2_display_t id) { if (mDisplays.count(id) != 0) { return mDisplays.at(id); } auto display = std::make_shared(*this, id); mDisplays.emplace(id, display); return display; } // Device initialization methods void Device::loadCapabilities() { static_assert(sizeof(Capability) == sizeof(int32_t), "Capability size has changed"); uint32_t numCapabilities = 0; mHwcDevice->getCapabilities(mHwcDevice, &numCapabilities, nullptr); mCapabilities.resize(numCapabilities); auto asInt = reinterpret_cast(mCapabilities.data()); mHwcDevice->getCapabilities(mHwcDevice, &numCapabilities, asInt); } bool Device::hasCapability(HWC2::Capability capability) const { return std::find(mCapabilities.cbegin(), mCapabilities.cend(), capability) != mCapabilities.cend(); } void Device::loadFunctionPointers() { // For all of these early returns, we log an error message inside // loadFunctionPointer specifying which function failed to load // Display function pointers if (!loadFunctionPointer(FunctionDescriptor::CreateVirtualDisplay, mCreateVirtualDisplay)) return; if (!loadFunctionPointer(FunctionDescriptor::DestroyVirtualDisplay, mDestroyVirtualDisplay)) return; if (!loadFunctionPointer(FunctionDescriptor::Dump, mDump)) return; if (!loadFunctionPointer(FunctionDescriptor::GetMaxVirtualDisplayCount, mGetMaxVirtualDisplayCount)) return; if (!loadFunctionPointer(FunctionDescriptor::RegisterCallback, mRegisterCallback)) return; // Device function pointers if (!loadFunctionPointer(FunctionDescriptor::AcceptDisplayChanges, mAcceptDisplayChanges)) return; if (!loadFunctionPointer(FunctionDescriptor::CreateLayer, mCreateLayer)) return; if (!loadFunctionPointer(FunctionDescriptor::DestroyLayer, mDestroyLayer)) return; if (!loadFunctionPointer(FunctionDescriptor::GetActiveConfig, mGetActiveConfig)) return; if (!loadFunctionPointer(FunctionDescriptor::GetChangedCompositionTypes, mGetChangedCompositionTypes)) return; if (!loadFunctionPointer(FunctionDescriptor::GetColorModes, mGetColorModes)) return; if (!loadFunctionPointer(FunctionDescriptor::GetDisplayAttribute, mGetDisplayAttribute)) return; if (!loadFunctionPointer(FunctionDescriptor::GetDisplayConfigs, mGetDisplayConfigs)) return; if (!loadFunctionPointer(FunctionDescriptor::GetDisplayName, mGetDisplayName)) return; if (!loadFunctionPointer(FunctionDescriptor::GetDisplayRequests, mGetDisplayRequests)) return; if (!loadFunctionPointer(FunctionDescriptor::GetDisplayType, mGetDisplayType)) return; if (!loadFunctionPointer(FunctionDescriptor::GetDozeSupport, mGetDozeSupport)) return; if (!loadFunctionPointer(FunctionDescriptor::GetHdrCapabilities, mGetHdrCapabilities)) return; if (!loadFunctionPointer(FunctionDescriptor::GetReleaseFences, mGetReleaseFences)) return; if (!loadFunctionPointer(FunctionDescriptor::PresentDisplay, mPresentDisplay)) return; if (!loadFunctionPointer(FunctionDescriptor::SetActiveConfig, mSetActiveConfig)) return; if (!loadFunctionPointer(FunctionDescriptor::SetClientTarget, mSetClientTarget)) return; if (!loadFunctionPointer(FunctionDescriptor::SetColorMode, mSetColorMode)) return; if (!loadFunctionPointer(FunctionDescriptor::SetColorTransform, mSetColorTransform)) return; if (!loadFunctionPointer(FunctionDescriptor::SetOutputBuffer, mSetOutputBuffer)) return; if (!loadFunctionPointer(FunctionDescriptor::SetPowerMode, mSetPowerMode)) return; if (!loadFunctionPointer(FunctionDescriptor::SetVsyncEnabled, mSetVsyncEnabled)) return; if (!loadFunctionPointer(FunctionDescriptor::ValidateDisplay, mValidateDisplay)) return; // Layer function pointers if (!loadFunctionPointer(FunctionDescriptor::SetCursorPosition, mSetCursorPosition)) return; if (!loadFunctionPointer(FunctionDescriptor::SetLayerBuffer, mSetLayerBuffer)) return; if (!loadFunctionPointer(FunctionDescriptor::SetLayerSurfaceDamage, mSetLayerSurfaceDamage)) return; if (!loadFunctionPointer(FunctionDescriptor::SetLayerBlendMode, mSetLayerBlendMode)) return; if (!loadFunctionPointer(FunctionDescriptor::SetLayerColor, mSetLayerColor)) return; if (!loadFunctionPointer(FunctionDescriptor::SetLayerCompositionType, mSetLayerCompositionType)) return; if (!loadFunctionPointer(FunctionDescriptor::SetLayerDataspace, mSetLayerDataspace)) return; if (!loadFunctionPointer(FunctionDescriptor::SetLayerDisplayFrame, mSetLayerDisplayFrame)) return; if (!loadFunctionPointer(FunctionDescriptor::SetLayerPlaneAlpha, mSetLayerPlaneAlpha)) return; if (hasCapability(Capability::SidebandStream)) { if (!loadFunctionPointer(FunctionDescriptor::SetLayerSidebandStream, mSetLayerSidebandStream)) return; } if (!loadFunctionPointer(FunctionDescriptor::SetLayerSourceCrop, mSetLayerSourceCrop)) return; if (!loadFunctionPointer(FunctionDescriptor::SetLayerTransform, mSetLayerTransform)) return; if (!loadFunctionPointer(FunctionDescriptor::SetLayerVisibleRegion, mSetLayerVisibleRegion)) return; if (!loadFunctionPointer(FunctionDescriptor::SetLayerZOrder, mSetLayerZOrder)) return; } void Device::registerCallbacks() { registerCallback(Callback::Hotplug, hotplug_hook); registerCallback(Callback::Refresh, refresh_hook); registerCallback(Callback::Vsync, vsync_hook); } // For use by Display void Device::destroyVirtualDisplay(hwc2_display_t display) { ALOGI("Destroying virtual display"); int32_t intError = mDestroyVirtualDisplay(mHwcDevice, display); auto error = static_cast(intError); ALOGE_IF(error != Error::None, "destroyVirtualDisplay(%" PRIu64 ") failed:" " %s (%d)", display, to_string(error).c_str(), intError); } // Display methods Display::Display(Device& device, hwc2_display_t id) : mDevice(device), mId(id), mIsConnected(false), mIsVirtual(false) { ALOGV("Created display %" PRIu64, id); } Display::~Display() { ALOGV("Destroyed display %" PRIu64, mId); if (mIsVirtual) { mDevice.destroyVirtualDisplay(mId); } } Display::Config::Config(Display& display, hwc2_config_t id) : mDisplay(display), mId(id), mWidth(-1), mHeight(-1), mVsyncPeriod(-1), mDpiX(-1), mDpiY(-1) {} Display::Config::Builder::Builder(Display& display, hwc2_config_t id) : mConfig(new Config(display, id)) {} float Display::Config::Builder::getDefaultDensity() { // Default density is based on TVs: 1080p displays get XHIGH density, lower- // resolution displays get TV density. Maybe eventually we'll need to update // it for 4k displays, though hopefully those will just report accurate DPI // information to begin with. This is also used for virtual displays and // older HWC implementations, so be careful about orientation. auto longDimension = std::max(mConfig->mWidth, mConfig->mHeight); if (longDimension >= 1080) { return ACONFIGURATION_DENSITY_XHIGH; } else { return ACONFIGURATION_DENSITY_TV; } } // Required by HWC2 display Error Display::acceptChanges() { int32_t intError = mDevice.mAcceptDisplayChanges(mDevice.mHwcDevice, mId); return static_cast(intError); } Error Display::createLayer(std::shared_ptr* outLayer) { hwc2_layer_t layerId = 0; int32_t intError = mDevice.mCreateLayer(mDevice.mHwcDevice, mId, &layerId); auto error = static_cast(intError); if (error != Error::None) { return error; } auto layer = std::make_shared(shared_from_this(), layerId); mLayers.emplace(layerId, layer); *outLayer = std::move(layer); return Error::None; } Error Display::getActiveConfig( std::shared_ptr* outConfig) const { ALOGV("[%" PRIu64 "] getActiveConfig", mId); hwc2_config_t configId = 0; int32_t intError = mDevice.mGetActiveConfig(mDevice.mHwcDevice, mId, &configId); auto error = static_cast(intError); if (error != Error::None) { return error; } if (mConfigs.count(configId) != 0) { *outConfig = mConfigs.at(configId); } else { ALOGE("[%" PRIu64 "] getActiveConfig returned unknown config %u", mId, configId); // Return no error, but the caller needs to check for a null pointer to // detect this case *outConfig = nullptr; } return Error::None; } Error Display::getChangedCompositionTypes( std::unordered_map, Composition>* outTypes) { uint32_t numElements = 0; int32_t intError = mDevice.mGetChangedCompositionTypes(mDevice.mHwcDevice, mId, &numElements, nullptr, nullptr); auto error = static_cast(intError); if (error != Error::None) { return error; } std::vector layerIds(numElements); std::vector types(numElements); intError = mDevice.mGetChangedCompositionTypes(mDevice.mHwcDevice, mId, &numElements, layerIds.data(), types.data()); error = static_cast(intError); if (error != Error::None) { return error; } outTypes->clear(); outTypes->reserve(numElements); for (uint32_t element = 0; element < numElements; ++element) { auto layer = getLayerById(layerIds[element]); if (layer) { auto type = static_cast(types[element]); ALOGV("getChangedCompositionTypes: adding %" PRIu64 " %s", layer->getId(), to_string(type).c_str()); outTypes->emplace(layer, type); } else { ALOGE("getChangedCompositionTypes: invalid layer %" PRIu64 " found" " on display %" PRIu64, layerIds[element], mId); } } return Error::None; } Error Display::getColorModes(std::vector* outModes) const { uint32_t numModes = 0; int32_t intError = mDevice.mGetColorModes(mDevice.mHwcDevice, mId, &numModes, nullptr); auto error = static_cast(intError); if (error != Error::None) { return error; } std::vector modes(numModes); intError = mDevice.mGetColorModes(mDevice.mHwcDevice, mId, &numModes, modes.data()); error = static_cast(intError); if (error != Error::None) { return error; } std::swap(*outModes, modes); return Error::None; } std::vector> Display::getConfigs() const { std::vector> configs; for (const auto& element : mConfigs) { configs.emplace_back(element.second); } return configs; } Error Display::getName(std::string* outName) const { uint32_t size; int32_t intError = mDevice.mGetDisplayName(mDevice.mHwcDevice, mId, &size, nullptr); auto error = static_cast(intError); if (error != Error::None) { return error; } std::vector rawName(size); intError = mDevice.mGetDisplayName(mDevice.mHwcDevice, mId, &size, rawName.data()); error = static_cast(intError); if (error != Error::None) { return error; } *outName = std::string(rawName.cbegin(), rawName.cend()); return Error::None; } Error Display::getRequests(HWC2::DisplayRequest* outDisplayRequests, std::unordered_map, LayerRequest>* outLayerRequests) { int32_t intDisplayRequests = 0; uint32_t numElements = 0; int32_t intError = mDevice.mGetDisplayRequests(mDevice.mHwcDevice, mId, &intDisplayRequests, &numElements, nullptr, nullptr); auto error = static_cast(intError); if (error != Error::None) { return error; } std::vector layerIds(numElements); std::vector layerRequests(numElements); intError = mDevice.mGetDisplayRequests(mDevice.mHwcDevice, mId, &intDisplayRequests, &numElements, layerIds.data(), layerRequests.data()); error = static_cast(intError); if (error != Error::None) { return error; } *outDisplayRequests = static_cast(intDisplayRequests); outLayerRequests->clear(); outLayerRequests->reserve(numElements); for (uint32_t element = 0; element < numElements; ++element) { auto layer = getLayerById(layerIds[element]); if (layer) { auto layerRequest = static_cast(layerRequests[element]); outLayerRequests->emplace(layer, layerRequest); } else { ALOGE("getRequests: invalid layer %" PRIu64 " found on display %" PRIu64, layerIds[element], mId); } } return Error::None; } Error Display::getType(DisplayType* outType) const { int32_t intType = 0; int32_t intError = mDevice.mGetDisplayType(mDevice.mHwcDevice, mId, &intType); auto error = static_cast(intError); if (error != Error::None) { return error; } *outType = static_cast(intType); return Error::None; } Error Display::supportsDoze(bool* outSupport) const { int32_t intSupport = 0; int32_t intError = mDevice.mGetDozeSupport(mDevice.mHwcDevice, mId, &intSupport); auto error = static_cast(intError); if (error != Error::None) { return error; } *outSupport = static_cast(intSupport); return Error::None; } Error Display::getHdrCapabilities( std::unique_ptr* outCapabilities) const { uint32_t numTypes = 0; float maxLuminance = -1.0f; float maxAverageLuminance = -1.0f; float minLuminance = -1.0f; int32_t intError = mDevice.mGetHdrCapabilities(mDevice.mHwcDevice, mId, &numTypes, nullptr, &maxLuminance, &maxAverageLuminance, &minLuminance); auto error = static_cast(intError); if (error != Error::None) { return error; } std::vector types(numTypes); intError = mDevice.mGetHdrCapabilities(mDevice.mHwcDevice, mId, &numTypes, types.data(), &maxLuminance, &maxAverageLuminance, &minLuminance); error = static_cast(intError); if (error != Error::None) { return error; } *outCapabilities = std::make_unique(std::move(types), maxLuminance, maxAverageLuminance, minLuminance); return Error::None; } Error Display::getReleaseFences( std::unordered_map, sp>* outFences) const { uint32_t numElements = 0; int32_t intError = mDevice.mGetReleaseFences(mDevice.mHwcDevice, mId, &numElements, nullptr, nullptr); auto error = static_cast(intError); if (error != Error::None) { return error; } std::vector layerIds(numElements); std::vector fenceFds(numElements); intError = mDevice.mGetReleaseFences(mDevice.mHwcDevice, mId, &numElements, layerIds.data(), fenceFds.data()); error = static_cast(intError); if (error != Error::None) { return error; } std::unordered_map, sp> releaseFences; releaseFences.reserve(numElements); for (uint32_t element = 0; element < numElements; ++element) { auto layer = getLayerById(layerIds[element]); if (layer) { sp fence(new Fence(fenceFds[element])); releaseFences.emplace(std::move(layer), fence); } else { ALOGE("getReleaseFences: invalid layer %" PRIu64 " found on display %" PRIu64, layerIds[element], mId); return Error::BadLayer; } } *outFences = std::move(releaseFences); return Error::None; } Error Display::present(sp* outRetireFence) { int32_t retireFenceFd = 0; int32_t intError = mDevice.mPresentDisplay(mDevice.mHwcDevice, mId, &retireFenceFd); auto error = static_cast(intError); if (error != Error::None) { return error; } *outRetireFence = new Fence(retireFenceFd); return Error::None; } Error Display::setActiveConfig(const std::shared_ptr& config) { if (config->getDisplayId() != mId) { ALOGE("setActiveConfig received config %u for the wrong display %" PRIu64 " (expected %" PRIu64 ")", config->getId(), config->getDisplayId(), mId); return Error::BadConfig; } int32_t intError = mDevice.mSetActiveConfig(mDevice.mHwcDevice, mId, config->getId()); return static_cast(intError); } Error Display::setClientTarget(buffer_handle_t target, const sp& acquireFence, android_dataspace_t dataspace) { // TODO: Properly encode client target surface damage int32_t fenceFd = acquireFence->dup(); int32_t intError = mDevice.mSetClientTarget(mDevice.mHwcDevice, mId, target, fenceFd, static_cast(dataspace), {0, nullptr}); return static_cast(intError); } Error Display::setColorMode(int32_t mode) { int32_t intError = mDevice.mSetColorMode(mDevice.mHwcDevice, mId, mode); return static_cast(intError); } Error Display::setColorTransform(const android::mat4& matrix, android_color_transform_t hint) { int32_t intError = mDevice.mSetColorTransform(mDevice.mHwcDevice, mId, matrix.asArray(), static_cast(hint)); return static_cast(intError); } Error Display::setOutputBuffer(const sp& buffer, const sp& releaseFence) { int32_t fenceFd = releaseFence->dup(); auto handle = buffer->getNativeBuffer()->handle; int32_t intError = mDevice.mSetOutputBuffer(mDevice.mHwcDevice, mId, handle, fenceFd); return static_cast(intError); } Error Display::setPowerMode(PowerMode mode) { auto intMode = static_cast(mode); int32_t intError = mDevice.mSetPowerMode(mDevice.mHwcDevice, mId, intMode); return static_cast(intError); } Error Display::setVsyncEnabled(Vsync enabled) { auto intEnabled = static_cast(enabled); int32_t intError = mDevice.mSetVsyncEnabled(mDevice.mHwcDevice, mId, intEnabled); return static_cast(intError); } Error Display::validate(uint32_t* outNumTypes, uint32_t* outNumRequests) { uint32_t numTypes = 0; uint32_t numRequests = 0; int32_t intError = mDevice.mValidateDisplay(mDevice.mHwcDevice, mId, &numTypes, &numRequests); auto error = static_cast(intError); if (error != Error::None && error != Error::HasChanges) { return error; } *outNumTypes = numTypes; *outNumRequests = numRequests; return error; } // For use by Device int32_t Display::getAttribute(hwc2_config_t configId, Attribute attribute) { int32_t value = 0; int32_t intError = mDevice.mGetDisplayAttribute(mDevice.mHwcDevice, mId, configId, static_cast(attribute), &value); auto error = static_cast(intError); if (error != Error::None) { ALOGE("getDisplayAttribute(%" PRIu64 ", %u, %s) failed: %s (%d)", mId, configId, to_string(attribute).c_str(), to_string(error).c_str(), intError); return -1; } return value; } void Display::loadConfig(hwc2_config_t configId) { ALOGV("[%" PRIu64 "] loadConfig(%u)", mId, configId); auto config = Config::Builder(*this, configId) .setWidth(getAttribute(configId, Attribute::Width)) .setHeight(getAttribute(configId, Attribute::Height)) .setVsyncPeriod(getAttribute(configId, Attribute::VsyncPeriod)) .setDpiX(getAttribute(configId, Attribute::DpiX)) .setDpiY(getAttribute(configId, Attribute::DpiY)) .build(); mConfigs.emplace(configId, std::move(config)); } void Display::loadConfigs() { ALOGV("[%" PRIu64 "] loadConfigs", mId); uint32_t numConfigs = 0; int32_t intError = mDevice.mGetDisplayConfigs(mDevice.mHwcDevice, mId, &numConfigs, nullptr); auto error = static_cast(intError); if (error != Error::None) { ALOGE("[%" PRIu64 "] getDisplayConfigs [1] failed: %s (%d)", mId, to_string(error).c_str(), intError); return; } std::vector configIds(numConfigs); intError = mDevice.mGetDisplayConfigs(mDevice.mHwcDevice, mId, &numConfigs, configIds.data()); error = static_cast(intError); if (error != Error::None) { ALOGE("[%" PRIu64 "] getDisplayConfigs [2] failed: %s (%d)", mId, to_string(error).c_str(), intError); return; } for (auto configId : configIds) { loadConfig(configId); } } // For use by Layer void Display::destroyLayer(hwc2_layer_t layerId) { int32_t intError = mDevice.mDestroyLayer(mDevice.mHwcDevice, mId, layerId); auto error = static_cast(intError); ALOGE_IF(error != Error::None, "destroyLayer(%" PRIu64 ", %" PRIu64 ")" " failed: %s (%d)", mId, layerId, to_string(error).c_str(), intError); mLayers.erase(layerId); } // Other Display methods std::shared_ptr Display::getLayerById(hwc2_layer_t id) const { if (mLayers.count(id) == 0) { return nullptr; } auto layer = mLayers.at(id).lock(); return layer; } // Layer methods Layer::Layer(const std::shared_ptr& display, hwc2_layer_t id) : mDisplay(display), mDisplayId(display->getId()), mDevice(display->getDevice()), mId(id) { ALOGV("Created layer %" PRIu64 " on display %" PRIu64, id, display->getId()); } Layer::~Layer() { auto display = mDisplay.lock(); if (display) { display->destroyLayer(mId); } } Error Layer::setCursorPosition(int32_t x, int32_t y) { int32_t intError = mDevice.mSetCursorPosition(mDevice.mHwcDevice, mDisplayId, mId, x, y); return static_cast(intError); } Error Layer::setBuffer(buffer_handle_t buffer, const sp& acquireFence) { int32_t fenceFd = acquireFence->dup(); int32_t intError = mDevice.mSetLayerBuffer(mDevice.mHwcDevice, mDisplayId, mId, buffer, fenceFd); return static_cast(intError); } Error Layer::setSurfaceDamage(const Region& damage) { // We encode default full-screen damage as INVALID_RECT upstream, but as 0 // rects for HWC int32_t intError = 0; if (damage.isRect() && damage.getBounds() == Rect::INVALID_RECT) { intError = mDevice.mSetLayerSurfaceDamage(mDevice.mHwcDevice, mDisplayId, mId, {0, nullptr}); } else { size_t rectCount = 0; auto rectArray = damage.getArray(&rectCount); std::vector hwcRects; for (size_t rect = 0; rect < rectCount; ++rect) { hwcRects.push_back({rectArray[rect].left, rectArray[rect].top, rectArray[rect].right, rectArray[rect].bottom}); } hwc_region_t hwcRegion = {}; hwcRegion.numRects = rectCount; hwcRegion.rects = hwcRects.data(); intError = mDevice.mSetLayerSurfaceDamage(mDevice.mHwcDevice, mDisplayId, mId, hwcRegion); } return static_cast(intError); } Error Layer::setBlendMode(BlendMode mode) { auto intMode = static_cast(mode); int32_t intError = mDevice.mSetLayerBlendMode(mDevice.mHwcDevice, mDisplayId, mId, intMode); return static_cast(intError); } Error Layer::setColor(hwc_color_t color) { int32_t intError = mDevice.mSetLayerColor(mDevice.mHwcDevice, mDisplayId, mId, color); return static_cast(intError); } Error Layer::setCompositionType(Composition type) { auto intType = static_cast(type); int32_t intError = mDevice.mSetLayerCompositionType(mDevice.mHwcDevice, mDisplayId, mId, intType); return static_cast(intError); } Error Layer::setDataspace(android_dataspace_t dataspace) { auto intDataspace = static_cast(dataspace); int32_t intError = mDevice.mSetLayerDataspace(mDevice.mHwcDevice, mDisplayId, mId, intDataspace); return static_cast(intError); } Error Layer::setDisplayFrame(const Rect& frame) { hwc_rect_t hwcRect{frame.left, frame.top, frame.right, frame.bottom}; int32_t intError = mDevice.mSetLayerDisplayFrame(mDevice.mHwcDevice, mDisplayId, mId, hwcRect); return static_cast(intError); } Error Layer::setPlaneAlpha(float alpha) { int32_t intError = mDevice.mSetLayerPlaneAlpha(mDevice.mHwcDevice, mDisplayId, mId, alpha); return static_cast(intError); } Error Layer::setSidebandStream(const native_handle_t* stream) { if (!mDevice.hasCapability(Capability::SidebandStream)) { ALOGE("Attempted to call setSidebandStream without checking that the " "device supports sideband streams"); return Error::Unsupported; } int32_t intError = mDevice.mSetLayerSidebandStream(mDevice.mHwcDevice, mDisplayId, mId, stream); return static_cast(intError); } Error Layer::setSourceCrop(const FloatRect& crop) { hwc_frect_t hwcRect{crop.left, crop.top, crop.right, crop.bottom}; int32_t intError = mDevice.mSetLayerSourceCrop(mDevice.mHwcDevice, mDisplayId, mId, hwcRect); return static_cast(intError); } Error Layer::setTransform(Transform transform) { auto intTransform = static_cast(transform); int32_t intError = mDevice.mSetLayerTransform(mDevice.mHwcDevice, mDisplayId, mId, intTransform); return static_cast(intError); } Error Layer::setVisibleRegion(const Region& region) { size_t rectCount = 0; auto rectArray = region.getArray(&rectCount); std::vector hwcRects; for (size_t rect = 0; rect < rectCount; ++rect) { hwcRects.push_back({rectArray[rect].left, rectArray[rect].top, rectArray[rect].right, rectArray[rect].bottom}); } hwc_region_t hwcRegion = {}; hwcRegion.numRects = rectCount; hwcRegion.rects = hwcRects.data(); int32_t intError = mDevice.mSetLayerVisibleRegion(mDevice.mHwcDevice, mDisplayId, mId, hwcRegion); return static_cast(intError); } Error Layer::setZOrder(uint32_t z) { int32_t intError = mDevice.mSetLayerZOrder(mDevice.mHwcDevice, mDisplayId, mId, z); return static_cast(intError); } } // namespace HWC2