/* * Copyright (C) 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. */ #ifndef ANDROID_DRM_HWC_TWO_H_ #define ANDROID_DRM_HWC_TWO_H_ #include #include #include #include #include "compositor/DrmDisplayCompositor.h" #include "compositor/Planner.h" #include "drm/ResourceManager.h" #include "drm/VSyncWorker.h" #include "drmhwcomposer.h" namespace android { class Backend; class DrmHwcTwo : public hwc2_device_t { public: static int HookDevOpen(const struct hw_module_t *module, const char *name, struct hw_device_t **dev); DrmHwcTwo(); HWC2::Error Init(); hwc2_callback_data_t hotplug_callback_data_ = NULL; HWC2_PFN_HOTPLUG hotplug_callback_hook_ = NULL; std::mutex hotplug_callback_lock; void SetHotplugCallback(hwc2_callback_data_t data, hwc2_function_pointer_t hook) { const std::lock_guard lock(hotplug_callback_lock); hotplug_callback_data_ = data; hotplug_callback_hook_ = reinterpret_cast(hook); } class HwcLayer { public: HWC2::Composition sf_type() const { return sf_type_; } HWC2::Composition validated_type() const { return validated_type_; } void accept_type_change() { sf_type_ = validated_type_; } void set_validated_type(HWC2::Composition type) { validated_type_ = type; } bool type_changed() const { return sf_type_ != validated_type_; } uint32_t z_order() const { return z_order_; } buffer_handle_t buffer() { return buffer_; } void set_buffer(buffer_handle_t buffer) { buffer_ = buffer; } hwc_rect_t display_frame() { return display_frame_; } void PopulateDrmLayer(DrmHwcLayer *layer); bool RequireScalingOrPhasing() { float src_width = source_crop_.right - source_crop_.left; float src_height = source_crop_.bottom - source_crop_.top; float dest_width = display_frame_.right - display_frame_.left; float dest_height = display_frame_.bottom - display_frame_.top; bool scaling = src_width != dest_width || src_height != dest_height; bool phasing = (source_crop_.left - floor(source_crop_.left) != 0) || (source_crop_.top - floor(source_crop_.top) != 0); return scaling || phasing; } // Layer hooks HWC2::Error SetCursorPosition(int32_t x, int32_t y); HWC2::Error SetLayerBlendMode(int32_t mode); HWC2::Error SetLayerBuffer(buffer_handle_t buffer, int32_t acquire_fence); HWC2::Error SetLayerColor(hwc_color_t color); HWC2::Error SetLayerCompositionType(int32_t type); HWC2::Error SetLayerDataspace(int32_t dataspace); HWC2::Error SetLayerDisplayFrame(hwc_rect_t frame); HWC2::Error SetLayerPlaneAlpha(float alpha); HWC2::Error SetLayerSidebandStream(const native_handle_t *stream); HWC2::Error SetLayerSourceCrop(hwc_frect_t crop); HWC2::Error SetLayerSurfaceDamage(hwc_region_t damage); HWC2::Error SetLayerTransform(int32_t transform); HWC2::Error SetLayerVisibleRegion(hwc_region_t visible); HWC2::Error SetLayerZOrder(uint32_t order); UniqueFd acquire_fence_; /* * Release fence is not used. * There is no release fence support available in the DRM/KMS. In case no * release fence provided application will use this buffer for writing when * the next frame present fence is signaled. */ UniqueFd release_fence_; private: // sf_type_ stores the initial type given to us by surfaceflinger, // validated_type_ stores the type after running ValidateDisplay HWC2::Composition sf_type_ = HWC2::Composition::Invalid; HWC2::Composition validated_type_ = HWC2::Composition::Invalid; HWC2::BlendMode blending_ = HWC2::BlendMode::None; buffer_handle_t buffer_ = NULL; hwc_rect_t display_frame_; float alpha_ = 1.0f; hwc_frect_t source_crop_; int32_t cursor_x_; int32_t cursor_y_; hwc_color_t layer_color_; HWC2::Transform transform_ = HWC2::Transform::None; uint32_t z_order_ = 0; android_dataspace_t dataspace_ = HAL_DATASPACE_UNKNOWN; }; class HwcDisplay { public: HwcDisplay(ResourceManager *resource_manager, DrmDevice *drm, hwc2_display_t handle, HWC2::DisplayType type); HwcDisplay(const HwcDisplay &) = delete; HWC2::Error Init(std::vector *planes); void RegisterVsyncCallback(hwc2_callback_data_t data, hwc2_function_pointer_t func); void RegisterRefreshCallback(hwc2_callback_data_t data, hwc2_function_pointer_t func); HWC2::Error CreateComposition(bool test); std::vector GetOrderLayersByZPos(); void ClearDisplay(); std::string Dump(); // HWC Hooks HWC2::Error AcceptDisplayChanges(); HWC2::Error CreateLayer(hwc2_layer_t *layer); HWC2::Error DestroyLayer(hwc2_layer_t layer); HWC2::Error GetActiveConfig(hwc2_config_t *config); HWC2::Error GetChangedCompositionTypes(uint32_t *num_elements, hwc2_layer_t *layers, int32_t *types); HWC2::Error GetClientTargetSupport(uint32_t width, uint32_t height, int32_t format, int32_t dataspace); HWC2::Error GetColorModes(uint32_t *num_modes, int32_t *modes); HWC2::Error GetDisplayAttribute(hwc2_config_t config, int32_t attribute, int32_t *value); HWC2::Error GetDisplayConfigs(uint32_t *num_configs, hwc2_config_t *configs); HWC2::Error GetDisplayName(uint32_t *size, char *name); HWC2::Error GetDisplayRequests(int32_t *display_requests, uint32_t *num_elements, hwc2_layer_t *layers, int32_t *layer_requests); HWC2::Error GetDisplayType(int32_t *type); #if PLATFORM_SDK_VERSION > 27 HWC2::Error GetRenderIntents(int32_t mode, uint32_t *outNumIntents, int32_t *outIntents); HWC2::Error SetColorModeWithIntent(int32_t mode, int32_t intent); #endif #if PLATFORM_SDK_VERSION > 28 HWC2::Error GetDisplayIdentificationData(uint8_t *outPort, uint32_t *outDataSize, uint8_t *outData); HWC2::Error GetDisplayCapabilities(uint32_t *outNumCapabilities, uint32_t *outCapabilities); HWC2::Error GetDisplayBrightnessSupport(bool *supported); HWC2::Error SetDisplayBrightness(float); #endif #if PLATFORM_SDK_VERSION > 29 HWC2::Error GetDisplayConnectionType(uint32_t *outType); HWC2::Error GetDisplayVsyncPeriod(hwc2_vsync_period_t *outVsyncPeriod); HWC2::Error SetActiveConfigWithConstraints( hwc2_config_t config, hwc_vsync_period_change_constraints_t *vsyncPeriodChangeConstraints, hwc_vsync_period_change_timeline_t *outTimeline); HWC2::Error SetAutoLowLatencyMode(bool on); HWC2::Error GetSupportedContentTypes( uint32_t *outNumSupportedContentTypes, const uint32_t *outSupportedContentTypes); HWC2::Error SetContentType(int32_t contentType); #endif HWC2::Error GetDozeSupport(int32_t *support); HWC2::Error GetHdrCapabilities(uint32_t *num_types, int32_t *types, float *max_luminance, float *max_average_luminance, float *min_luminance); HWC2::Error GetReleaseFences(uint32_t *num_elements, hwc2_layer_t *layers, int32_t *fences); HWC2::Error PresentDisplay(int32_t *present_fence); HWC2::Error SetActiveConfig(hwc2_config_t config); HWC2::Error ChosePreferredConfig(); HWC2::Error SetClientTarget(buffer_handle_t target, int32_t acquire_fence, int32_t dataspace, hwc_region_t damage); HWC2::Error SetColorMode(int32_t mode); HWC2::Error SetColorTransform(const float *matrix, int32_t hint); HWC2::Error SetOutputBuffer(buffer_handle_t buffer, int32_t release_fence); HWC2::Error SetPowerMode(int32_t mode); HWC2::Error SetVsyncEnabled(int32_t enabled); HWC2::Error ValidateDisplay(uint32_t *num_types, uint32_t *num_requests); HwcLayer *get_layer(hwc2_layer_t layer) { auto it = layers_.find(layer); if (it == layers_.end()) return nullptr; return &it->second; } /* Statistics */ struct Stats { Stats minus(Stats b) { return {total_frames_ - b.total_frames_, total_pixops_ - b.total_pixops_, gpu_pixops_ - b.gpu_pixops_, failed_kms_validate_ - b.failed_kms_validate_, failed_kms_present_ - b.failed_kms_present_, frames_flattened_ - b.frames_flattened_}; } uint32_t total_frames_ = 0; uint64_t total_pixops_ = 0; uint64_t gpu_pixops_ = 0; uint32_t failed_kms_validate_ = 0; uint32_t failed_kms_present_ = 0; uint32_t frames_flattened_ = 0; }; const Backend *backend() const { return backend_.get(); } void set_backend(std::unique_ptr backend) { backend_ = std::move(backend); } const std::vector &primary_planes() const { return primary_planes_; } const std::vector &overlay_planes() const { return overlay_planes_; } std::map &layers() { return layers_; } const DrmDisplayCompositor &compositor() const { return compositor_; } const DrmDevice *drm() const { return drm_; } const DrmConnector *connector() const { return connector_; } ResourceManager *resource_manager() const { return resource_manager_; } android_color_transform_t &color_transform_hint() { return color_transform_hint_; } Stats &total_stats() { return total_stats_; } private: void AddFenceToPresentFence(UniqueFd fd); constexpr static size_t MATRIX_SIZE = 16; ResourceManager *resource_manager_; DrmDevice *drm_; DrmDisplayCompositor compositor_; std::unique_ptr planner_; std::vector primary_planes_; std::vector overlay_planes_; std::unique_ptr backend_; VSyncWorker vsync_worker_; DrmConnector *connector_ = NULL; DrmCrtc *crtc_ = NULL; hwc2_display_t handle_; HWC2::DisplayType type_; uint32_t layer_idx_ = 0; std::map layers_; HwcLayer client_layer_; UniqueFd present_fence_; int32_t color_mode_{}; std::array color_transform_matrix_{}; android_color_transform_t color_transform_hint_; uint32_t frame_no_ = 0; Stats total_stats_; Stats prev_stats_; std::string DumpDelta(DrmHwcTwo::HwcDisplay::Stats delta); }; class DrmHotplugHandler : public DrmEventHandler { public: DrmHotplugHandler(DrmHwcTwo *hwc2, DrmDevice *drm) : hwc2_(hwc2), drm_(drm) { } void HandleEvent(uint64_t timestamp_us); private: DrmHwcTwo *hwc2_; DrmDevice *drm_; }; private: static DrmHwcTwo *toDrmHwcTwo(hwc2_device_t *dev) { return static_cast(dev); } template static hwc2_function_pointer_t ToHook(T function) { static_assert(std::is_same::value, "Incompatible fn pointer"); return reinterpret_cast(function); } template static T DeviceHook(hwc2_device_t *dev, Args... args) { DrmHwcTwo *hwc = toDrmHwcTwo(dev); return static_cast(((*hwc).*func)(std::forward(args)...)); } static HwcDisplay *GetDisplay(DrmHwcTwo *hwc, hwc2_display_t display_handle) { auto it = hwc->displays_.find(display_handle); if (it == hwc->displays_.end()) return nullptr; return &it->second; } template static int32_t DisplayHook(hwc2_device_t *dev, hwc2_display_t display_handle, Args... args) { HwcDisplay *display = GetDisplay(toDrmHwcTwo(dev), display_handle); if (!display) return static_cast(HWC2::Error::BadDisplay); return static_cast((display->*func)(std::forward(args)...)); } template static int32_t LayerHook(hwc2_device_t *dev, hwc2_display_t display_handle, hwc2_layer_t layer_handle, Args... args) { HwcDisplay *display = GetDisplay(toDrmHwcTwo(dev), display_handle); if (!display) return static_cast(HWC2::Error::BadDisplay); HwcLayer *layer = display->get_layer(layer_handle); if (!layer) return static_cast(HWC2::Error::BadLayer); return static_cast((layer->*func)(std::forward(args)...)); } // hwc2_device_t hooks static int HookDevClose(hw_device_t *dev); static void HookDevGetCapabilities(hwc2_device_t *dev, uint32_t *out_count, int32_t *out_capabilities); static hwc2_function_pointer_t HookDevGetFunction(struct hwc2_device *device, int32_t descriptor); // Device functions HWC2::Error CreateVirtualDisplay(uint32_t width, uint32_t height, int32_t *format, hwc2_display_t *display); HWC2::Error DestroyVirtualDisplay(hwc2_display_t display); void Dump(uint32_t *outSize, char *outBuffer); uint32_t GetMaxVirtualDisplayCount(); HWC2::Error RegisterCallback(int32_t descriptor, hwc2_callback_data_t data, hwc2_function_pointer_t function); HWC2::Error CreateDisplay(hwc2_display_t displ, HWC2::DisplayType type); void HandleDisplayHotplug(hwc2_display_t displayid, int state); void HandleInitialHotplugState(DrmDevice *drmDevice); ResourceManager resource_manager_; std::map displays_; std::string mDumpString; }; } // namespace android #endif