#ifndef ANDROID_DVR_DISPLAY_PROTOCOL_H_ #define ANDROID_DVR_DISPLAY_PROTOCOL_H_ #include #include #include #include #include #include #include #include #include #include // RPC protocol definitions for DVR display services (VrFlinger). namespace android { namespace dvr { namespace display { // Native display metrics. struct Metrics { // Basic display properties. uint32_t display_width; uint32_t display_height; uint32_t display_x_dpi; uint32_t display_y_dpi; uint32_t vsync_period_ns; // HMD metrics. // TODO(eieio): Determine how these fields should be populated. On phones // these values are determined at runtime by VrCore based on which headset the // phone is in. On dedicated hardware this needs to come from somewhere else. // Perhaps these should be moved to a separate structure that is returned by a // separate runtime call. uint32_t distorted_width; uint32_t distorted_height; uint32_t hmd_ipd_mm; float inter_lens_distance_m; std::array left_fov_lrbt; std::array right_fov_lrbt; private: PDX_SERIALIZABLE_MEMBERS(Metrics, display_width, display_height, display_x_dpi, display_y_dpi, vsync_period_ns, distorted_width, distorted_height, hmd_ipd_mm, inter_lens_distance_m, left_fov_lrbt, right_fov_lrbt); }; // Serializable base type for enum structs. Enum structs are easier to use than // enum classes, especially for bitmasks. This base type provides common // utilities for flags types. template class Flags { public: using Base = Flags; using Type = Integer; // NOLINTNEXTLINE(google-explicit-constructor) Flags(const Integer& value) : value_{value} {} Flags(const Flags&) = default; Flags& operator=(const Flags&) = default; Integer value() const { return value_; } // NOLINTNEXTLINE(google-explicit-constructor) operator Integer() const { return value_; } bool IsSet(Integer bits) const { return (value_ & bits) == bits; } bool IsClear(Integer bits) const { return (value_ & bits) == 0; } void Set(Integer bits) { value_ |= bits; } void Clear(Integer bits) { value_ &= ~bits; } Integer operator|(Integer bits) const { return value_ | bits; } Integer operator&(Integer bits) const { return value_ & bits; } Flags& operator|=(Integer bits) { value_ |= bits; return *this; } Flags& operator&=(Integer bits) { value_ &= bits; return *this; } private: Integer value_; PDX_SERIALIZABLE_MEMBERS(Flags, value_); }; // Flags indicating what changed since last update. struct SurfaceUpdateFlags : public Flags { enum : Type { None = DVR_SURFACE_UPDATE_FLAGS_NONE, NewSurface = DVR_SURFACE_UPDATE_FLAGS_NEW_SURFACE, BuffersChanged = DVR_SURFACE_UPDATE_FLAGS_BUFFERS_CHANGED, VisibilityChanged = DVR_SURFACE_UPDATE_FLAGS_VISIBILITY_CHANGED, AttributesChanged = DVR_SURFACE_UPDATE_FLAGS_ATTRIBUTES_CHANGED, }; SurfaceUpdateFlags() : Base{None} {} using Base::Base; }; // Surface attribute key/value types. using SurfaceAttributeKey = int32_t; using SurfaceAttributeValue = pdx::rpc::Variant, std::array, std::array, std::array, std::array>; // Defined surface attribute keys. struct SurfaceAttribute : public Flags { enum : Type { // Keys in the negative integer space are interpreted by VrFlinger for // direct surfaces. Direct = DVR_SURFACE_ATTRIBUTE_DIRECT, ZOrder = DVR_SURFACE_ATTRIBUTE_Z_ORDER, Visible = DVR_SURFACE_ATTRIBUTE_VISIBLE, // Invalid key. May be used to terminate C style lists in public API code. Invalid = DVR_SURFACE_ATTRIBUTE_INVALID, // Positive keys are interpreted by the compositor only. FirstUserKey = DVR_SURFACE_ATTRIBUTE_FIRST_USER_KEY, }; SurfaceAttribute() : Base{Invalid} {} using Base::Base; }; // Collection of surface attribute key/value pairs. using SurfaceAttributes = std::map; struct SurfaceState { int32_t surface_id; int32_t process_id; int32_t user_id; SurfaceAttributes surface_attributes; SurfaceUpdateFlags update_flags; std::vector queue_ids; // Convenience accessors. bool GetVisible() const { bool bool_value = false; GetAttribute(SurfaceAttribute::Visible, &bool_value, ValidTypes{}); return bool_value; } int GetZOrder() const { int int_value = 0; GetAttribute(SurfaceAttribute::ZOrder, &int_value, ValidTypes{}); return int_value; } private: template struct ValidTypes {}; template bool GetAttribute(SurfaceAttributeKey key, ReturnType* out_value, ValidTypes) const { auto search = surface_attributes.find(key); if (search != surface_attributes.end()) return pdx::rpc::IfAnyOf::Get(&search->second, out_value); else return false; } PDX_SERIALIZABLE_MEMBERS(SurfaceState, surface_id, process_id, surface_attributes, update_flags, queue_ids); }; struct SurfaceInfo { int surface_id; bool visible; int z_order; private: PDX_SERIALIZABLE_MEMBERS(SurfaceInfo, surface_id, visible, z_order); }; enum class ConfigFileType : uint32_t { kLensMetrics, kDeviceMetrics, kDeviceConfiguration }; struct DisplayProtocol { // Service path. static constexpr char kClientPath[] = "system/vr/display/client"; // Op codes. enum { kOpGetMetrics = 0, kOpGetConfigurationData, kOpSetupGlobalBuffer, kOpDeleteGlobalBuffer, kOpGetGlobalBuffer, kOpIsVrAppRunning, kOpCreateSurface, kOpGetSurfaceInfo, kOpCreateQueue, kOpSetAttributes, }; // Aliases. using LocalChannelHandle = pdx::LocalChannelHandle; using Void = pdx::rpc::Void; // Methods. PDX_REMOTE_METHOD(GetMetrics, kOpGetMetrics, Metrics(Void)); PDX_REMOTE_METHOD(GetConfigurationData, kOpGetConfigurationData, std::string(ConfigFileType config_type)); PDX_REMOTE_METHOD(SetupGlobalBuffer, kOpSetupGlobalBuffer, LocalNativeBufferHandle(DvrGlobalBufferKey key, size_t size, uint64_t usage)); PDX_REMOTE_METHOD(DeleteGlobalBuffer, kOpDeleteGlobalBuffer, void(DvrGlobalBufferKey key)); PDX_REMOTE_METHOD(GetGlobalBuffer, kOpGetGlobalBuffer, LocalNativeBufferHandle(DvrGlobalBufferKey key)); PDX_REMOTE_METHOD(IsVrAppRunning, kOpIsVrAppRunning, bool(Void)); PDX_REMOTE_METHOD(CreateSurface, kOpCreateSurface, SurfaceInfo(const SurfaceAttributes& attributes)); PDX_REMOTE_METHOD(GetSurfaceInfo, kOpGetSurfaceInfo, SurfaceInfo(Void)); PDX_REMOTE_METHOD( CreateQueue, kOpCreateQueue, LocalChannelHandle(const ProducerQueueConfig& producer_config)); PDX_REMOTE_METHOD(SetAttributes, kOpSetAttributes, void(const SurfaceAttributes& attributes)); }; struct DisplayManagerProtocol { // Service path. static constexpr char kClientPath[] = "system/vr/display/manager"; // Op codes. enum { kOpGetSurfaceState = 0, kOpGetSurfaceQueue, }; // Aliases. using LocalChannelHandle = pdx::LocalChannelHandle; using Void = pdx::rpc::Void; // Methods. PDX_REMOTE_METHOD(GetSurfaceState, kOpGetSurfaceState, std::vector(Void)); PDX_REMOTE_METHOD(GetSurfaceQueue, kOpGetSurfaceQueue, LocalChannelHandle(int surface_id, int queue_id)); }; struct VSyncSchedInfo { int64_t vsync_period_ns; int64_t timestamp_ns; uint32_t next_vsync_count; private: PDX_SERIALIZABLE_MEMBERS(VSyncSchedInfo, vsync_period_ns, timestamp_ns, next_vsync_count); }; struct VSyncProtocol { // Service path. static constexpr char kClientPath[] = "system/vr/display/vsync"; // Op codes. enum { kOpWait = 0, kOpAck, kOpGetLastTimestamp, kOpGetSchedInfo, kOpAcknowledge, }; // Aliases. using Void = pdx::rpc::Void; using Timestamp = int64_t; // Methods. PDX_REMOTE_METHOD(Wait, kOpWait, Timestamp(Void)); PDX_REMOTE_METHOD(GetLastTimestamp, kOpGetLastTimestamp, Timestamp(Void)); PDX_REMOTE_METHOD(GetSchedInfo, kOpGetSchedInfo, VSyncSchedInfo(Void)); PDX_REMOTE_METHOD(Acknowledge, kOpAcknowledge, void(Void)); }; } // namespace display } // namespace dvr } // namespace android #endif // ANDROID_DVR_DISPLAY_PROTOCOL_H_