services/surfaceflinger/DisplayHardware/HWComposer.h - third_party/android/platform/frameworks/native - Git at Google

 /*
  * Copyright (C) 2010 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.
  */

 #ifndef ANDROID_SF_HWCOMPOSER_H
 #define ANDROID_SF_HWCOMPOSER_H

 #include <cstdint>
 #include <future>
 #include <memory>
 #include <mutex>
 #include <optional>
 #include <unordered_map>
 #include <unordered_set>
 #include <vector>

 #include <android-base/thread_annotations.h>
 #include <ui/Fence.h>

 // TODO(b/129481165): remove the #pragma below and fix conversion issues
 #pragma clang diagnostic push
 #pragma clang diagnostic ignored "-Wconversion"
 #pragma clang diagnostic ignored "-Wextra"
 #include <ui/GraphicTypes.h>
 #pragma clang diagnostic pop // ignored "-Wconversion -Wextra"

 #include <utils/StrongPointer.h>
 #include <utils/Timers.h>

 #include "DisplayIdentification.h"
 #include "DisplayMode.h"
 #include "HWC2.h"
 #include "Hal.h"

 namespace android {

 namespace hal = hardware::graphics::composer::hal;

 struct DisplayedFrameStats;
 class GraphicBuffer;
 class TestableSurfaceFlinger;
 struct CompositionInfo;

 namespace Hwc2 {
 class Composer;
 } // namespace Hwc2

 namespace compositionengine {
 class Output;
 } // namespace compositionengine

 struct KnownHWCGenericLayerMetadata {
     const char* name;
     const uint32_t id;
 };

 // See the comment for SurfaceFlinger::getHwComposer for the thread safety rules for accessing
 // this class.
 class HWComposer {
 public:
     struct DeviceRequestedChanges {
         using ChangedTypes = std::unordered_map<HWC2::Layer*, hal::Composition>;
         using ClientTargetProperty = hal::ClientTargetProperty;
         using DisplayRequests = hal::DisplayRequest;
         using LayerRequests = std::unordered_map<HWC2::Layer*, hal::LayerRequest>;

         ChangedTypes changedTypes;
         DisplayRequests displayRequests;
         LayerRequests layerRequests;
         ClientTargetProperty clientTargetProperty;
     };

     struct HWCDisplayMode {
         hal::HWConfigId hwcId;
         int32_t width = -1;
         int32_t height = -1;
         nsecs_t vsyncPeriod = -1;
         int32_t dpiX = -1;
         int32_t dpiY = -1;
         int32_t configGroup = -1;

         friend std::ostream& operator<<(std::ostream& os, const HWCDisplayMode& mode) {
             return os << "id=" << mode.hwcId << " res=" << mode.width << "x" << mode.height
                       << " vsyncPeriod=" << mode.vsyncPeriod << " dpi=" << mode.dpiX << "x"
                       << mode.dpiY << " group=" << mode.configGroup;
         }
     };

     virtual ~HWComposer();

     virtual void setCallback(HWC2::ComposerCallback*) = 0;

     virtual bool getDisplayIdentificationData(hal::HWDisplayId, uint8_t* outPort,
                                               DisplayIdentificationData* outData) const = 0;

     virtual bool hasCapability(hal::Capability) const = 0;
     virtual bool hasDisplayCapability(HalDisplayId, hal::DisplayCapability) const = 0;

     virtual size_t getMaxVirtualDisplayCount() const = 0;
     virtual size_t getMaxVirtualDisplayDimension() const = 0;

     // Attempts to allocate a virtual display on the HWC. The maximum number of virtual displays
     // supported by the HWC can be queried in advance, but allocation may fail for other reasons.
     // For virtualized compositors, the PhysicalDisplayId is a hint that this virtual display is
     // a mirror of a physical display, and that the screen should be captured by the host rather
     // than guest compositor.
     virtual bool allocateVirtualDisplay(HalVirtualDisplayId, ui::Size, ui::PixelFormat*,
                                         std::optional<PhysicalDisplayId> mirror) = 0;

     virtual void allocatePhysicalDisplay(hal::HWDisplayId, PhysicalDisplayId) = 0;

     // Attempts to create a new layer on this display
     virtual std::shared_ptr<HWC2::Layer> createLayer(HalDisplayId) = 0;

     // Gets any required composition change requests from the HWC device.
     //
     // Note that frameUsesClientComposition must be set correctly based on
     // whether the current frame appears to use client composition. If it is
     // false some internal optimizations are allowed to present the display
     // with fewer handshakes, but this does not work if client composition is
     // expected.
     virtual status_t getDeviceCompositionChanges(
             HalDisplayId, bool frameUsesClientComposition,
             std::chrono::steady_clock::time_point earliestPresentTime,
             std::optional<DeviceRequestedChanges>* outChanges) = 0;

     virtual status_t setClientTarget(HalDisplayId, uint32_t slot, const sp<Fence>& acquireFence,
                                      const sp<GraphicBuffer>& target, ui::Dataspace) = 0;

     // Present layers to the display and read releaseFences.
     virtual status_t presentAndGetReleaseFences(
             HalDisplayId, std::chrono::steady_clock::time_point earliestPresentTime) = 0;

     // set power mode
     virtual status_t setPowerMode(PhysicalDisplayId, hal::PowerMode) = 0;

     // Sets a color transform to be applied to the result of composition
     virtual status_t setColorTransform(HalDisplayId, const mat4& transform) = 0;

     // reset state when a display is disconnected
     virtual void disconnectDisplay(HalDisplayId) = 0;

     // get the present fence received from the last call to present.
     virtual sp<Fence> getPresentFence(HalDisplayId) const = 0;

     // Get last release fence for the given layer
     virtual sp<Fence> getLayerReleaseFence(HalDisplayId, HWC2::Layer*) const = 0;

     // Set the output buffer and acquire fence for a virtual display.
     virtual status_t setOutputBuffer(HalVirtualDisplayId, const sp<Fence>& acquireFence,
                                      const sp<GraphicBuffer>& buffer) = 0;

     // After SurfaceFlinger has retrieved the release fences for all the frames,
     // it can call this to clear the shared pointers in the release fence map
     virtual void clearReleaseFences(HalDisplayId) = 0;

     // Fetches the HDR capabilities of the given display
     virtual status_t getHdrCapabilities(HalDisplayId, HdrCapabilities* outCapabilities) = 0;

     virtual int32_t getSupportedPerFrameMetadata(HalDisplayId) const = 0;

     // Returns the available RenderIntent of the given display.
     virtual std::vector<ui::RenderIntent> getRenderIntents(HalDisplayId, ui::ColorMode) const = 0;

     virtual mat4 getDataspaceSaturationMatrix(HalDisplayId, ui::Dataspace) = 0;

     // Returns the attributes of the color sampling engine.
     virtual status_t getDisplayedContentSamplingAttributes(HalDisplayId, ui::PixelFormat* outFormat,
                                                            ui::Dataspace* outDataspace,
                                                            uint8_t* outComponentMask) = 0;
     virtual status_t setDisplayContentSamplingEnabled(HalDisplayId, bool enabled,
                                                       uint8_t componentMask,
                                                       uint64_t maxFrames) = 0;
     virtual status_t getDisplayedContentSample(HalDisplayId, uint64_t maxFrames, uint64_t timestamp,
                                                DisplayedFrameStats* outStats) = 0;

     // Sets the brightness of a display.
     virtual std::future<status_t> setDisplayBrightness(PhysicalDisplayId, float brightness) = 0;

     // Events handling ---------------------------------------------------------

     // Returns stable display ID (and display name on connection of new or previously disconnected
     // display), or std::nullopt if hotplug event was ignored.
     // This function is called from SurfaceFlinger.
     virtual std::optional<DisplayIdentificationInfo> onHotplug(hal::HWDisplayId,
                                                                hal::Connection) = 0;

     // If true we'll update the DeviceProductInfo on subsequent hotplug connected events.
     // TODO(b/157555476): Remove when the framework has proper support for headless mode
     virtual bool updatesDeviceProductInfoOnHotplugReconnect() const = 0;

     virtual bool onVsync(hal::HWDisplayId, int64_t timestamp) = 0;
     virtual void setVsyncEnabled(PhysicalDisplayId, hal::Vsync enabled) = 0;

     virtual bool isConnected(PhysicalDisplayId) const = 0;

     virtual std::vector<HWCDisplayMode> getModes(PhysicalDisplayId) const = 0;

     virtual std::optional<hal::HWConfigId> getActiveMode(PhysicalDisplayId) const = 0;

     virtual std::vector<ui::ColorMode> getColorModes(PhysicalDisplayId) const = 0;

     virtual status_t setActiveColorMode(PhysicalDisplayId, ui::ColorMode mode,
                                         ui::RenderIntent) = 0;

     // Composer 2.4
     virtual ui::DisplayConnectionType getDisplayConnectionType(PhysicalDisplayId) const = 0;
     virtual bool isVsyncPeriodSwitchSupported(PhysicalDisplayId) const = 0;
     virtual status_t getDisplayVsyncPeriod(PhysicalDisplayId displayId,
                                            nsecs_t* outVsyncPeriod) const = 0;
     virtual status_t setActiveModeWithConstraints(PhysicalDisplayId, hal::HWConfigId,
                                                   const hal::VsyncPeriodChangeConstraints&,
                                                   hal::VsyncPeriodChangeTimeline* outTimeline) = 0;
     virtual status_t setAutoLowLatencyMode(PhysicalDisplayId, bool on) = 0;
     virtual status_t getSupportedContentTypes(
             PhysicalDisplayId, std::vector<hal::ContentType>* outSupportedContentTypes) = 0;
     virtual status_t setContentType(PhysicalDisplayId, hal::ContentType) = 0;
     virtual const std::unordered_map<std::string, bool>& getSupportedLayerGenericMetadata()
             const = 0;

     // for debugging ----------------------------------------------------------
     virtual void dump(std::string& out) const = 0;

     virtual Hwc2::Composer* getComposer() const = 0;

     // TODO(b/74619554): Remove special cases for internal/external display.
     virtual std::optional<hal::HWDisplayId> getInternalHwcDisplayId() const = 0;
     virtual std::optional<hal::HWDisplayId> getExternalHwcDisplayId() const = 0;

     virtual std::optional<PhysicalDisplayId> toPhysicalDisplayId(hal::HWDisplayId) const = 0;
     virtual std::optional<hal::HWDisplayId> fromPhysicalDisplayId(PhysicalDisplayId) const = 0;
 };

 namespace impl {

 class HWComposer final : public android::HWComposer {
 public:
     explicit HWComposer(std::unique_ptr<Hwc2::Composer> composer);
     explicit HWComposer(const std::string& composerServiceName);

     ~HWComposer() override;

     void setCallback(HWC2::ComposerCallback*) override;

     bool getDisplayIdentificationData(hal::HWDisplayId, uint8_t* outPort,
                                       DisplayIdentificationData* outData) const override;

     bool hasCapability(hal::Capability) const override;
     bool hasDisplayCapability(HalDisplayId, hal::DisplayCapability) const override;

     size_t getMaxVirtualDisplayCount() const override;
     size_t getMaxVirtualDisplayDimension() const override;

     bool allocateVirtualDisplay(HalVirtualDisplayId, ui::Size, ui::PixelFormat*,
                                 std::optional<PhysicalDisplayId>) override;

     // Called from SurfaceFlinger, when the state for a new physical display needs to be recreated.
     void allocatePhysicalDisplay(hal::HWDisplayId, PhysicalDisplayId) override;

     // Attempts to create a new layer on this display
     std::shared_ptr<HWC2::Layer> createLayer(HalDisplayId) override;

     status_t getDeviceCompositionChanges(
             HalDisplayId, bool frameUsesClientComposition,
             std::chrono::steady_clock::time_point earliestPresentTime,
             std::optional<DeviceRequestedChanges>* outChanges) override;

     status_t setClientTarget(HalDisplayId, uint32_t slot, const sp<Fence>& acquireFence,
                              const sp<GraphicBuffer>& target, ui::Dataspace) override;

     // Present layers to the display and read releaseFences.
     status_t presentAndGetReleaseFences(
             HalDisplayId, std::chrono::steady_clock::time_point earliestPresentTime) override;

     // set power mode
     status_t setPowerMode(PhysicalDisplayId, hal::PowerMode mode) override;

     // Sets a color transform to be applied to the result of composition
     status_t setColorTransform(HalDisplayId, const mat4& transform) override;

     // reset state when a display is disconnected
     void disconnectDisplay(HalDisplayId) override;

     // get the present fence received from the last call to present.
     sp<Fence> getPresentFence(HalDisplayId) const override;

     // Get last release fence for the given layer
     sp<Fence> getLayerReleaseFence(HalDisplayId, HWC2::Layer*) const override;

     // Set the output buffer and acquire fence for a virtual display.
     status_t setOutputBuffer(HalVirtualDisplayId, const sp<Fence>& acquireFence,
                              const sp<GraphicBuffer>& buffer) override;

     // After SurfaceFlinger has retrieved the release fences for all the frames,
     // it can call this to clear the shared pointers in the release fence map
     void clearReleaseFences(HalDisplayId) override;

     // Fetches the HDR capabilities of the given display
     status_t getHdrCapabilities(HalDisplayId, HdrCapabilities* outCapabilities) override;

     int32_t getSupportedPerFrameMetadata(HalDisplayId) const override;

     // Returns the available RenderIntent of the given display.
     std::vector<ui::RenderIntent> getRenderIntents(HalDisplayId, ui::ColorMode) const override;

     mat4 getDataspaceSaturationMatrix(HalDisplayId, ui::Dataspace) override;

     // Returns the attributes of the color sampling engine.
     status_t getDisplayedContentSamplingAttributes(HalDisplayId, ui::PixelFormat* outFormat,
                                                    ui::Dataspace* outDataspace,
                                                    uint8_t* outComponentMask) override;
     status_t setDisplayContentSamplingEnabled(HalDisplayId, bool enabled, uint8_t componentMask,
                                               uint64_t maxFrames) override;
     status_t getDisplayedContentSample(HalDisplayId, uint64_t maxFrames, uint64_t timestamp,
                                        DisplayedFrameStats* outStats) override;
     std::future<status_t> setDisplayBrightness(PhysicalDisplayId, float brightness) override;

     // Events handling ---------------------------------------------------------

     // Returns PhysicalDisplayId (and display name on connection of new or previously disconnected
     // display), or std::nullopt if hotplug event was ignored.
     std::optional<DisplayIdentificationInfo> onHotplug(hal::HWDisplayId, hal::Connection) override;

     bool updatesDeviceProductInfoOnHotplugReconnect() const override;

     bool onVsync(hal::HWDisplayId, int64_t timestamp) override;
     void setVsyncEnabled(PhysicalDisplayId, hal::Vsync enabled) override;

     bool isConnected(PhysicalDisplayId) const override;

     std::vector<HWCDisplayMode> getModes(PhysicalDisplayId) const override;

     std::optional<hal::HWConfigId> getActiveMode(PhysicalDisplayId) const override;

     std::vector<ui::ColorMode> getColorModes(PhysicalDisplayId) const override;

     status_t setActiveColorMode(PhysicalDisplayId, ui::ColorMode, ui::RenderIntent) override;

     // Composer 2.4
     ui::DisplayConnectionType getDisplayConnectionType(PhysicalDisplayId) const override;
     bool isVsyncPeriodSwitchSupported(PhysicalDisplayId) const override;
     status_t getDisplayVsyncPeriod(PhysicalDisplayId displayId,
                                    nsecs_t* outVsyncPeriod) const override;
     status_t setActiveModeWithConstraints(PhysicalDisplayId, hal::HWConfigId,
                                           const hal::VsyncPeriodChangeConstraints&,
                                           hal::VsyncPeriodChangeTimeline* outTimeline) override;
     status_t setAutoLowLatencyMode(PhysicalDisplayId, bool) override;
     status_t getSupportedContentTypes(PhysicalDisplayId, std::vector<hal::ContentType>*) override;
     status_t setContentType(PhysicalDisplayId, hal::ContentType) override;

     const std::unordered_map<std::string, bool>& getSupportedLayerGenericMetadata() const override;

     // for debugging ----------------------------------------------------------
     void dump(std::string& out) const override;

     Hwc2::Composer* getComposer() const override { return mComposer.get(); }

     // TODO(b/74619554): Remove special cases for internal/external display.
     std::optional<hal::HWDisplayId> getInternalHwcDisplayId() const override {
         return mInternalHwcDisplayId;
     }
     std::optional<hal::HWDisplayId> getExternalHwcDisplayId() const override {
         return mExternalHwcDisplayId;
     }

     std::optional<PhysicalDisplayId> toPhysicalDisplayId(hal::HWDisplayId) const override;
     std::optional<hal::HWDisplayId> fromPhysicalDisplayId(PhysicalDisplayId) const override;

 private:
     // For unit tests
     friend TestableSurfaceFlinger;

     struct DisplayData {
         bool isVirtual = false;
         std::unique_ptr<HWC2::Display> hwcDisplay;
         sp<Fence> lastPresentFence = Fence::NO_FENCE; // signals when the last set op retires
         std::unordered_map<HWC2::Layer*, sp<Fence>> releaseFences;
         buffer_handle_t outbufHandle = nullptr;
         sp<Fence> outbufAcquireFence = Fence::NO_FENCE;

         bool validateWasSkipped;
         hal::Error presentError;

         bool vsyncTraceToggle = false;

         std::mutex vsyncEnabledLock;
         hal::Vsync vsyncEnabled GUARDED_BY(vsyncEnabledLock) = hal::Vsync::DISABLE;

         nsecs_t lastHwVsync = 0;
     };

     std::optional<DisplayIdentificationInfo> onHotplugConnect(hal::HWDisplayId);
     std::optional<DisplayIdentificationInfo> onHotplugDisconnect(hal::HWDisplayId);
     bool shouldIgnoreHotplugConnect(hal::HWDisplayId, bool hasDisplayIdentificationData) const;

     int32_t getAttribute(hal::HWDisplayId hwcDisplayId, hal::HWConfigId configId,
                          hal::Attribute attribute) const;

     void loadCapabilities();
     void loadLayerMetadataSupport();

     std::unordered_map<HalDisplayId, DisplayData> mDisplayData;

     std::unique_ptr<android::Hwc2::Composer> mComposer;
     std::unordered_set<hal::Capability> mCapabilities;
     std::unordered_map<std::string, bool> mSupportedLayerGenericMetadata;
     bool mRegisteredCallback = false;

     std::unordered_map<hal::HWDisplayId, PhysicalDisplayId> mPhysicalDisplayIdMap;
     std::optional<hal::HWDisplayId> mInternalHwcDisplayId;
     std::optional<hal::HWDisplayId> mExternalHwcDisplayId;
     bool mHasMultiDisplaySupport = false;

     const size_t mMaxVirtualDisplayDimension;
     const bool mUpdateDeviceProductInfoOnHotplugReconnect;
 };

 } // namespace impl
 } // namespace android

 #endif // ANDROID_SF_HWCOMPOSER_H
	/*
	* Copyright (C) 2010 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.
	*/

	#ifndef ANDROID_SF_HWCOMPOSER_H
	#define ANDROID_SF_HWCOMPOSER_H

	#include <cstdint>
	#include <future>
	#include <memory>
	#include <mutex>
	#include <optional>
	#include <unordered_map>
	#include <unordered_set>
	#include <vector>

	#include <android-base/thread_annotations.h>
	#include <ui/Fence.h>

	// TODO(b/129481165): remove the #pragma below and fix conversion issues
	#pragma clang diagnostic push
	#pragma clang diagnostic ignored "-Wconversion"
	#pragma clang diagnostic ignored "-Wextra"
	#include <ui/GraphicTypes.h>
	#pragma clang diagnostic pop // ignored "-Wconversion -Wextra"

	#include <utils/StrongPointer.h>
	#include <utils/Timers.h>

	#include "DisplayIdentification.h"
	#include "DisplayMode.h"
	#include "HWC2.h"
	#include "Hal.h"

	namespace android {

	namespace hal = hardware::graphics::composer::hal;

	struct DisplayedFrameStats;
	class GraphicBuffer;
	class TestableSurfaceFlinger;
	struct CompositionInfo;

	namespace Hwc2 {
	class Composer;
	} // namespace Hwc2

	namespace compositionengine {
	class Output;
	} // namespace compositionengine

	struct KnownHWCGenericLayerMetadata {
	const char* name;
	const uint32_t id;
	};

	// See the comment for SurfaceFlinger::getHwComposer for the thread safety rules for accessing
	// this class.
	class HWComposer {
	public:
	struct DeviceRequestedChanges {
	using ChangedTypes = std::unordered_map<HWC2::Layer*, hal::Composition>;
	using ClientTargetProperty = hal::ClientTargetProperty;
	using DisplayRequests = hal::DisplayRequest;
	using LayerRequests = std::unordered_map<HWC2::Layer*, hal::LayerRequest>;

	ChangedTypes changedTypes;
	DisplayRequests displayRequests;
	LayerRequests layerRequests;
	ClientTargetProperty clientTargetProperty;
	};

	struct HWCDisplayMode {
	hal::HWConfigId hwcId;
	int32_t width = -1;
	int32_t height = -1;
	nsecs_t vsyncPeriod = -1;
	int32_t dpiX = -1;
	int32_t dpiY = -1;
	int32_t configGroup = -1;

	friend std::ostream& operator<<(std::ostream& os, const HWCDisplayMode& mode) {
	return os << "id=" << mode.hwcId << " res=" << mode.width << "x" << mode.height
	<< " vsyncPeriod=" << mode.vsyncPeriod << " dpi=" << mode.dpiX << "x"
	<< mode.dpiY << " group=" << mode.configGroup;
	}
	};

	virtual ~HWComposer();

	virtual void setCallback(HWC2::ComposerCallback*) = 0;

	virtual bool getDisplayIdentificationData(hal::HWDisplayId, uint8_t* outPort,
	DisplayIdentificationData* outData) const = 0;

	virtual bool hasCapability(hal::Capability) const = 0;
	virtual bool hasDisplayCapability(HalDisplayId, hal::DisplayCapability) const = 0;

	virtual size_t getMaxVirtualDisplayCount() const = 0;
	virtual size_t getMaxVirtualDisplayDimension() const = 0;

	// Attempts to allocate a virtual display on the HWC. The maximum number of virtual displays
	// supported by the HWC can be queried in advance, but allocation may fail for other reasons.
	// For virtualized compositors, the PhysicalDisplayId is a hint that this virtual display is
	// a mirror of a physical display, and that the screen should be captured by the host rather
	// than guest compositor.
	virtual bool allocateVirtualDisplay(HalVirtualDisplayId, ui::Size, ui::PixelFormat*,
	std::optional<PhysicalDisplayId> mirror) = 0;

	virtual void allocatePhysicalDisplay(hal::HWDisplayId, PhysicalDisplayId) = 0;

	// Attempts to create a new layer on this display
	virtual std::shared_ptr<HWC2::Layer> createLayer(HalDisplayId) = 0;

	// Gets any required composition change requests from the HWC device.
	//
	// Note that frameUsesClientComposition must be set correctly based on
	// whether the current frame appears to use client composition. If it is
	// false some internal optimizations are allowed to present the display
	// with fewer handshakes, but this does not work if client composition is
	// expected.
	virtual status_t getDeviceCompositionChanges(
	HalDisplayId, bool frameUsesClientComposition,
	std::chrono::steady_clock::time_point earliestPresentTime,
	std::optional<DeviceRequestedChanges>* outChanges) = 0;

	virtual status_t setClientTarget(HalDisplayId, uint32_t slot, const sp<Fence>& acquireFence,
	const sp<GraphicBuffer>& target, ui::Dataspace) = 0;

	// Present layers to the display and read releaseFences.
	virtual status_t presentAndGetReleaseFences(
	HalDisplayId, std::chrono::steady_clock::time_point earliestPresentTime) = 0;

	// set power mode
	virtual status_t setPowerMode(PhysicalDisplayId, hal::PowerMode) = 0;

	// Sets a color transform to be applied to the result of composition
	virtual status_t setColorTransform(HalDisplayId, const mat4& transform) = 0;

	// reset state when a display is disconnected
	virtual void disconnectDisplay(HalDisplayId) = 0;

	// get the present fence received from the last call to present.
	virtual sp<Fence> getPresentFence(HalDisplayId) const = 0;

	// Get last release fence for the given layer
	virtual sp<Fence> getLayerReleaseFence(HalDisplayId, HWC2::Layer*) const = 0;

	// Set the output buffer and acquire fence for a virtual display.
	virtual status_t setOutputBuffer(HalVirtualDisplayId, const sp<Fence>& acquireFence,
	const sp<GraphicBuffer>& buffer) = 0;

	// After SurfaceFlinger has retrieved the release fences for all the frames,
	// it can call this to clear the shared pointers in the release fence map
	virtual void clearReleaseFences(HalDisplayId) = 0;

	// Fetches the HDR capabilities of the given display
	virtual status_t getHdrCapabilities(HalDisplayId, HdrCapabilities* outCapabilities) = 0;

	virtual int32_t getSupportedPerFrameMetadata(HalDisplayId) const = 0;

	// Returns the available RenderIntent of the given display.
	virtual std::vector<ui::RenderIntent> getRenderIntents(HalDisplayId, ui::ColorMode) const = 0;

	virtual mat4 getDataspaceSaturationMatrix(HalDisplayId, ui::Dataspace) = 0;

	// Returns the attributes of the color sampling engine.
	virtual status_t getDisplayedContentSamplingAttributes(HalDisplayId, ui::PixelFormat* outFormat,
	ui::Dataspace* outDataspace,
	uint8_t* outComponentMask) = 0;
	virtual status_t setDisplayContentSamplingEnabled(HalDisplayId, bool enabled,
	uint8_t componentMask,
	uint64_t maxFrames) = 0;
	virtual status_t getDisplayedContentSample(HalDisplayId, uint64_t maxFrames, uint64_t timestamp,
	DisplayedFrameStats* outStats) = 0;

	// Sets the brightness of a display.
	virtual std::future<status_t> setDisplayBrightness(PhysicalDisplayId, float brightness) = 0;

	// Events handling ---------------------------------------------------------

	// Returns stable display ID (and display name on connection of new or previously disconnected
	// display), or std::nullopt if hotplug event was ignored.
	// This function is called from SurfaceFlinger.
	virtual std::optional<DisplayIdentificationInfo> onHotplug(hal::HWDisplayId,
	hal::Connection) = 0;

	// If true we'll update the DeviceProductInfo on subsequent hotplug connected events.
	// TODO(b/157555476): Remove when the framework has proper support for headless mode
	virtual bool updatesDeviceProductInfoOnHotplugReconnect() const = 0;

	virtual bool onVsync(hal::HWDisplayId, int64_t timestamp) = 0;
	virtual void setVsyncEnabled(PhysicalDisplayId, hal::Vsync enabled) = 0;

	virtual bool isConnected(PhysicalDisplayId) const = 0;

	virtual std::vector<HWCDisplayMode> getModes(PhysicalDisplayId) const = 0;

	virtual std::optional<hal::HWConfigId> getActiveMode(PhysicalDisplayId) const = 0;

	virtual std::vector<ui::ColorMode> getColorModes(PhysicalDisplayId) const = 0;

	virtual status_t setActiveColorMode(PhysicalDisplayId, ui::ColorMode mode,
	ui::RenderIntent) = 0;

	// Composer 2.4
	virtual ui::DisplayConnectionType getDisplayConnectionType(PhysicalDisplayId) const = 0;
	virtual bool isVsyncPeriodSwitchSupported(PhysicalDisplayId) const = 0;
	virtual status_t getDisplayVsyncPeriod(PhysicalDisplayId displayId,
	nsecs_t* outVsyncPeriod) const = 0;
	virtual status_t setActiveModeWithConstraints(PhysicalDisplayId, hal::HWConfigId,
	const hal::VsyncPeriodChangeConstraints&,
	hal::VsyncPeriodChangeTimeline* outTimeline) = 0;
	virtual status_t setAutoLowLatencyMode(PhysicalDisplayId, bool on) = 0;
	virtual status_t getSupportedContentTypes(
	PhysicalDisplayId, std::vector<hal::ContentType>* outSupportedContentTypes) = 0;
	virtual status_t setContentType(PhysicalDisplayId, hal::ContentType) = 0;
	virtual const std::unordered_map<std::string, bool>& getSupportedLayerGenericMetadata()
	const = 0;

	// for debugging ----------------------------------------------------------
	virtual void dump(std::string& out) const = 0;

	virtual Hwc2::Composer* getComposer() const = 0;

	// TODO(b/74619554): Remove special cases for internal/external display.
	virtual std::optional<hal::HWDisplayId> getInternalHwcDisplayId() const = 0;
	virtual std::optional<hal::HWDisplayId> getExternalHwcDisplayId() const = 0;

	virtual std::optional<PhysicalDisplayId> toPhysicalDisplayId(hal::HWDisplayId) const = 0;
	virtual std::optional<hal::HWDisplayId> fromPhysicalDisplayId(PhysicalDisplayId) const = 0;
	};

	namespace impl {

	class HWComposer final : public android::HWComposer {
	public:
	explicit HWComposer(std::unique_ptr<Hwc2::Composer> composer);
	explicit HWComposer(const std::string& composerServiceName);

	~HWComposer() override;

	void setCallback(HWC2::ComposerCallback*) override;

	bool getDisplayIdentificationData(hal::HWDisplayId, uint8_t* outPort,
	DisplayIdentificationData* outData) const override;

	bool hasCapability(hal::Capability) const override;
	bool hasDisplayCapability(HalDisplayId, hal::DisplayCapability) const override;

	size_t getMaxVirtualDisplayCount() const override;
	size_t getMaxVirtualDisplayDimension() const override;

	bool allocateVirtualDisplay(HalVirtualDisplayId, ui::Size, ui::PixelFormat*,
	std::optional<PhysicalDisplayId>) override;

	// Called from SurfaceFlinger, when the state for a new physical display needs to be recreated.
	void allocatePhysicalDisplay(hal::HWDisplayId, PhysicalDisplayId) override;

	// Attempts to create a new layer on this display
	std::shared_ptr<HWC2::Layer> createLayer(HalDisplayId) override;

	status_t getDeviceCompositionChanges(
	HalDisplayId, bool frameUsesClientComposition,
	std::chrono::steady_clock::time_point earliestPresentTime,
	std::optional<DeviceRequestedChanges>* outChanges) override;

	status_t setClientTarget(HalDisplayId, uint32_t slot, const sp<Fence>& acquireFence,
	const sp<GraphicBuffer>& target, ui::Dataspace) override;

	// Present layers to the display and read releaseFences.
	status_t presentAndGetReleaseFences(
	HalDisplayId, std::chrono::steady_clock::time_point earliestPresentTime) override;

	// set power mode
	status_t setPowerMode(PhysicalDisplayId, hal::PowerMode mode) override;

	// Sets a color transform to be applied to the result of composition
	status_t setColorTransform(HalDisplayId, const mat4& transform) override;

	// reset state when a display is disconnected
	void disconnectDisplay(HalDisplayId) override;

	// get the present fence received from the last call to present.
	sp<Fence> getPresentFence(HalDisplayId) const override;

	// Get last release fence for the given layer
	sp<Fence> getLayerReleaseFence(HalDisplayId, HWC2::Layer*) const override;

	// Set the output buffer and acquire fence for a virtual display.
	status_t setOutputBuffer(HalVirtualDisplayId, const sp<Fence>& acquireFence,
	const sp<GraphicBuffer>& buffer) override;

	// After SurfaceFlinger has retrieved the release fences for all the frames,
	// it can call this to clear the shared pointers in the release fence map
	void clearReleaseFences(HalDisplayId) override;

	// Fetches the HDR capabilities of the given display
	status_t getHdrCapabilities(HalDisplayId, HdrCapabilities* outCapabilities) override;

	int32_t getSupportedPerFrameMetadata(HalDisplayId) const override;

	// Returns the available RenderIntent of the given display.
	std::vector<ui::RenderIntent> getRenderIntents(HalDisplayId, ui::ColorMode) const override;

	mat4 getDataspaceSaturationMatrix(HalDisplayId, ui::Dataspace) override;

	// Returns the attributes of the color sampling engine.
	status_t getDisplayedContentSamplingAttributes(HalDisplayId, ui::PixelFormat* outFormat,
	ui::Dataspace* outDataspace,
	uint8_t* outComponentMask) override;
	status_t setDisplayContentSamplingEnabled(HalDisplayId, bool enabled, uint8_t componentMask,
	uint64_t maxFrames) override;
	status_t getDisplayedContentSample(HalDisplayId, uint64_t maxFrames, uint64_t timestamp,
	DisplayedFrameStats* outStats) override;
	std::future<status_t> setDisplayBrightness(PhysicalDisplayId, float brightness) override;

	// Events handling ---------------------------------------------------------

	// Returns PhysicalDisplayId (and display name on connection of new or previously disconnected
	// display), or std::nullopt if hotplug event was ignored.
	std::optional<DisplayIdentificationInfo> onHotplug(hal::HWDisplayId, hal::Connection) override;

	bool updatesDeviceProductInfoOnHotplugReconnect() const override;

	bool onVsync(hal::HWDisplayId, int64_t timestamp) override;
	void setVsyncEnabled(PhysicalDisplayId, hal::Vsync enabled) override;

	bool isConnected(PhysicalDisplayId) const override;

	std::vector<HWCDisplayMode> getModes(PhysicalDisplayId) const override;

	std::optional<hal::HWConfigId> getActiveMode(PhysicalDisplayId) const override;

	std::vector<ui::ColorMode> getColorModes(PhysicalDisplayId) const override;

	status_t setActiveColorMode(PhysicalDisplayId, ui::ColorMode, ui::RenderIntent) override;

	// Composer 2.4
	ui::DisplayConnectionType getDisplayConnectionType(PhysicalDisplayId) const override;
	bool isVsyncPeriodSwitchSupported(PhysicalDisplayId) const override;
	status_t getDisplayVsyncPeriod(PhysicalDisplayId displayId,
	nsecs_t* outVsyncPeriod) const override;
	status_t setActiveModeWithConstraints(PhysicalDisplayId, hal::HWConfigId,
	const hal::VsyncPeriodChangeConstraints&,
	hal::VsyncPeriodChangeTimeline* outTimeline) override;
	status_t setAutoLowLatencyMode(PhysicalDisplayId, bool) override;
	status_t getSupportedContentTypes(PhysicalDisplayId, std::vector<hal::ContentType>*) override;
	status_t setContentType(PhysicalDisplayId, hal::ContentType) override;

	const std::unordered_map<std::string, bool>& getSupportedLayerGenericMetadata() const override;

	// for debugging ----------------------------------------------------------
	void dump(std::string& out) const override;

	Hwc2::Composer* getComposer() const override { return mComposer.get(); }

	// TODO(b/74619554): Remove special cases for internal/external display.
	std::optional<hal::HWDisplayId> getInternalHwcDisplayId() const override {
	return mInternalHwcDisplayId;
	}
	std::optional<hal::HWDisplayId> getExternalHwcDisplayId() const override {
	return mExternalHwcDisplayId;
	}

	std::optional<PhysicalDisplayId> toPhysicalDisplayId(hal::HWDisplayId) const override;
	std::optional<hal::HWDisplayId> fromPhysicalDisplayId(PhysicalDisplayId) const override;

	private:
	// For unit tests
	friend TestableSurfaceFlinger;

	struct DisplayData {
	bool isVirtual = false;
	std::unique_ptr<HWC2::Display> hwcDisplay;
	sp<Fence> lastPresentFence = Fence::NO_FENCE; // signals when the last set op retires
	std::unordered_map<HWC2::Layer*, sp<Fence>> releaseFences;
	buffer_handle_t outbufHandle = nullptr;
	sp<Fence> outbufAcquireFence = Fence::NO_FENCE;

	bool validateWasSkipped;
	hal::Error presentError;

	bool vsyncTraceToggle = false;

	std::mutex vsyncEnabledLock;
	hal::Vsync vsyncEnabled GUARDED_BY(vsyncEnabledLock) = hal::Vsync::DISABLE;

	nsecs_t lastHwVsync = 0;
	};

	std::optional<DisplayIdentificationInfo> onHotplugConnect(hal::HWDisplayId);
	std::optional<DisplayIdentificationInfo> onHotplugDisconnect(hal::HWDisplayId);
	bool shouldIgnoreHotplugConnect(hal::HWDisplayId, bool hasDisplayIdentificationData) const;

	int32_t getAttribute(hal::HWDisplayId hwcDisplayId, hal::HWConfigId configId,
	hal::Attribute attribute) const;

	void loadCapabilities();
	void loadLayerMetadataSupport();

	std::unordered_map<HalDisplayId, DisplayData> mDisplayData;

	std::unique_ptr<android::Hwc2::Composer> mComposer;
	std::unordered_set<hal::Capability> mCapabilities;
	std::unordered_map<std::string, bool> mSupportedLayerGenericMetadata;
	bool mRegisteredCallback = false;

	std::unordered_map<hal::HWDisplayId, PhysicalDisplayId> mPhysicalDisplayIdMap;
	std::optional<hal::HWDisplayId> mInternalHwcDisplayId;
	std::optional<hal::HWDisplayId> mExternalHwcDisplayId;
	bool mHasMultiDisplaySupport = false;

	const size_t mMaxVirtualDisplayDimension;
	const bool mUpdateDeviceProductInfoOnHotplugReconnect;
	};

	} // namespace impl
	} // namespace android

	#endif // ANDROID_SF_HWCOMPOSER_H