| // Copyright 2013 The Flutter Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| |
| #ifndef FLUTTER_RUNTIME_RUNTIME_CONTROLLER_H_ |
| #define FLUTTER_RUNTIME_RUNTIME_CONTROLLER_H_ |
| |
| #include <memory> |
| #include <vector> |
| |
| #include "flutter/common/task_runners.h" |
| #include "flutter/flow/layers/layer_tree.h" |
| #include "flutter/fml/macros.h" |
| #include "flutter/lib/ui/io_manager.h" |
| #include "flutter/lib/ui/text/font_collection.h" |
| #include "flutter/lib/ui/ui_dart_state.h" |
| #include "flutter/lib/ui/window/pointer_data_packet.h" |
| #include "flutter/lib/ui/window/window.h" |
| #include "flutter/runtime/dart_vm.h" |
| #include "flutter/runtime/window_data.h" |
| #include "rapidjson/document.h" |
| #include "rapidjson/stringbuffer.h" |
| |
| namespace flutter { |
| |
| class Scene; |
| class RuntimeDelegate; |
| class View; |
| class Window; |
| |
| //------------------------------------------------------------------------------ |
| /// Represents an instance of a running root isolate with window bindings. In |
| /// normal operation, a single instance of this object is owned by the engine |
| /// per shell. This object may only be created, used, and collected on the UI |
| /// task runner. Window state queried by the root isolate is stored by this |
| /// object. In cold-restart scenarios, the engine may collect this before |
| /// installing a new runtime controller in its place. The Clone method may be |
| /// used by the engine to copy the currently accumulated window state so it can |
| /// be referenced by the new runtime controller. |
| /// |
| class RuntimeController final : public WindowClient { |
| public: |
| //---------------------------------------------------------------------------- |
| /// @brief Creates a new instance of a runtime controller. This is |
| /// usually only done by the engine instance associated with the |
| /// shell. |
| /// |
| /// @param client The runtime delegate. This is |
| /// usually the `Engine` instance. |
| /// @param vm A reference to a running Dart VM. |
| /// The runtime controller must be |
| /// collected before the VM is |
| /// destroyed (this order is |
| /// guaranteed by the shell). |
| /// @param[in] isolate_snapshot The isolate snapshot used to start |
| /// the root isolate managed by this |
| /// runtime controller. The isolate |
| /// must be transitioned into the |
| /// running phase manually by the |
| /// caller. |
| /// @param[in] task_runners The task runners used by the shell |
| /// hosting this runtime controller. |
| /// This may be used by the isolate to |
| /// scheduled asynchronous texture |
| /// uploads or post tasks to the |
| /// platform task runner. |
| /// @param[in] snapshot_delegate The snapshot delegate used by the |
| /// isolate to gather raster snapshots |
| /// of Flutter view hierarchies. |
| /// @param[in] io_manager The IO manager used by the isolate |
| /// for asynchronous texture uploads. |
| /// @param[in] unref_queue The unref queue used by the |
| /// isolate to collect resources that |
| /// may reference resources on the |
| /// GPU. |
| /// @param[in] image_decoder The image decoder |
| /// @param[in] advisory_script_uri The advisory script URI (only used |
| /// for debugging). This does not |
| /// affect the code being run in the |
| /// isolate in any way. |
| /// @param[in] advisory_script_entrypoint The advisory script entrypoint |
| /// (only used for debugging). This |
| /// does not affect the code being run |
| /// in the isolate in any way. The |
| /// isolate must be transitioned to |
| /// the running state explicitly by |
| /// the caller. |
| /// @param[in] idle_notification_callback The idle notification callback. |
| /// This allows callers to run native |
| /// code in isolate scope when the VM |
| /// is about to be notified that the |
| /// engine is going to be idle. |
| /// @param[in] window_data The window data (if exists). |
| /// @param[in] isolate_create_callback The isolate create callback. This |
| /// allows callers to run native code |
| /// in isolate scope on the UI task |
| /// runner as soon as the root isolate |
| /// has been created. |
| /// @param[in] isolate_shutdown_callback The isolate shutdown callback. |
| /// This allows callers to run native |
| /// code in isolate scoped on the UI |
| /// task runner just as the root |
| /// isolate is about to be torn down. |
| /// @param[in] persistent_isolate_data Unstructured persistent read-only |
| /// data that the root isolate can |
| /// access in a synchronous manner. |
| /// |
| RuntimeController( |
| RuntimeDelegate& client, |
| DartVM* vm, |
| fml::RefPtr<const DartSnapshot> isolate_snapshot, |
| TaskRunners task_runners, |
| fml::WeakPtr<SnapshotDelegate> snapshot_delegate, |
| fml::WeakPtr<IOManager> io_manager, |
| fml::RefPtr<SkiaUnrefQueue> unref_queue, |
| fml::WeakPtr<ImageDecoder> image_decoder, |
| std::string advisory_script_uri, |
| std::string advisory_script_entrypoint, |
| const std::function<void(int64_t)>& idle_notification_callback, |
| const WindowData& window_data, |
| const fml::closure& isolate_create_callback, |
| const fml::closure& isolate_shutdown_callback, |
| std::shared_ptr<const fml::Mapping> persistent_isolate_data); |
| |
| // |WindowClient| |
| ~RuntimeController() override; |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Clone the the runtime controller. This re-creates the root |
| /// isolate with the same snapshots and copies all window data to |
| /// the new instance. This is usually only used in the debug |
| /// runtime mode to support the cold-restart scenario. |
| /// |
| /// @return A clone of the existing runtime controller. |
| /// |
| std::unique_ptr<RuntimeController> Clone() const; |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Forward the specified window metrics to the running isolate. |
| /// If the isolate is not running, these metrics will be saved and |
| /// flushed to the isolate when it starts. |
| /// |
| /// @param[in] metrics The metrics. |
| /// |
| /// @return If the window metrics were forwarded to the running isolate. |
| /// |
| bool SetViewportMetrics(const ViewportMetrics& metrics); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Forward the specified locale data to the running isolate. If |
| /// the isolate is not running, this data will be saved and |
| /// flushed to the isolate when it starts running. |
| /// |
| /// @deprecated The persistent isolate data must be used for this purpose |
| /// instead. |
| /// |
| /// @param[in] locale_data The locale data. This should consist of groups of |
| /// 4 strings, each group representing a single locale. |
| /// |
| /// @return If the locale data was forwarded to the running isolate. |
| /// |
| bool SetLocales(const std::vector<std::string>& locale_data); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Forward the user settings data to the running isolate. If the |
| /// isolate is not running, this data will be saved and flushed to |
| /// the isolate when it starts running. |
| /// |
| /// @deprecated The persistent isolate data must be used for this purpose |
| /// instead. |
| /// |
| /// @param[in] data The user settings data. |
| /// |
| /// @return If the user settings data was forwarded to the running |
| /// isolate. |
| /// |
| bool SetUserSettingsData(const std::string& data); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Forward the lifecycle state data to the running isolate. If |
| /// the isolate is not running, this data will be saved and |
| /// flushed to the isolate when it starts running. |
| /// |
| /// @deprecated The persistent isolate data must be used for this purpose |
| /// instead. |
| /// |
| /// @param[in] data The lifecycle state data. |
| /// |
| /// @return If the lifecycle state data was forwarded to the running |
| /// isolate. |
| /// |
| bool SetLifecycleState(const std::string& data); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Notifies the running isolate about whether the semantics tree |
| /// should be generated or not. If the isolate is not running, |
| /// this preference will be saved and flushed to the isolate when |
| /// it starts running. |
| /// |
| /// @param[in] enabled Indicates whether to generate the semantics tree. |
| /// |
| /// @return If the semantics tree generation preference was forwarded to |
| /// the running isolate. |
| /// |
| bool SetSemanticsEnabled(bool enabled); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Forward the preference of accessibility features that must be |
| /// enabled in the semantics tree to the running isolate. If the |
| /// isolate is not running, this data will be saved and flushed to |
| /// the isolate when it starts running. |
| /// |
| /// @param[in] flags The accessibility features that must be generated in |
| /// the semantics tree. |
| /// |
| /// @return If the preference of accessibility features was forwarded to |
| /// the running isolate. |
| /// |
| bool SetAccessibilityFeatures(int32_t flags); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Notifies the running isolate that it should start generating a |
| /// new frame. |
| /// |
| /// @see `Engine::BeginFrame` for more context. |
| /// |
| /// @param[in] frame_time The point at which the current frame interval |
| /// began. May be used by animation interpolators, |
| /// physics simulations, etc. |
| /// |
| /// @return If notification to begin frame rendering was delivered to the |
| /// running isolate. |
| /// |
| bool BeginFrame(fml::TimePoint frame_time); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Dart code cannot fully measure the time it takes for a |
| /// specific frame to be rendered. This is because Dart code only |
| /// runs on the UI task runner. That is only a small part of the |
| /// overall frame workload. The GPU task runner frame workload is |
| /// executed on a thread where Dart code cannot run (and hence |
| /// instrument). Besides, due to the pipelined nature of rendering |
| /// in Flutter, there may be multiple frame workloads being |
| /// processed at any given time. However, for non-Timeline based |
| /// profiling, it is useful for trace collection and processing to |
| /// happen in Dart. To do this, the GPU task runner frame |
| /// workloads need to be instrumented separately. After a set |
| /// number of these profiles have been gathered, they need to be |
| /// reported back to Dart code. The engine reports this extra |
| /// instrumentation information back to Dart code running on the |
| /// engine by invoking this method at predefined intervals. |
| /// |
| /// @see `Engine::ReportTimings`, `FrameTiming` |
| /// |
| /// @param[in] timings Collection of `FrameTiming::kCount` * `n` timestamps |
| /// for `n` frames whose timings have not been reported |
| /// yet. A collection of integers is reported here for |
| /// easier conversions to Dart objects. The timestamps |
| /// are measured against the system monotonic clock |
| /// measured in microseconds. |
| /// |
| bool ReportTimings(std::vector<int64_t> timings); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Notify the Dart VM that no frame workloads are expected on the |
| /// UI task runner till the specified deadline. The VM uses this |
| /// opportunity to perform garbage collection operations is a |
| /// manner that interferes as little as possible with frame |
| /// rendering. |
| /// |
| /// NotifyIdle is advisory. The VM may or may not run a garbage collection |
| /// when this is called, and will eventually perform garbage collections even |
| /// if it is not called or it is called with insufficient deadlines. |
| /// |
| /// The garbage collection mechanism and its thresholds are internal |
| /// implementation details and absolutely no guarantees are made about the |
| /// threshold discussed below. This discussion is also an oversimplification |
| /// but hopefully serves to calibrate expectations about GC behavior: |
| /// * When the Dart VM and its root isolate are initialized, the memory |
| /// consumed upto that point are treated as a baseline. |
| /// * A fixed percentage of the memory consumed (~20%) over the baseline is |
| /// treated as the hard threshold. |
| /// * The memory in play is divided into old space and new space. The new |
| /// space is typically very small and fills up rapidly. |
| /// * The baseline plus the threshold is considered the old space while the |
| /// small new space is a separate region (typically a few pages). |
| /// * The total old space size minus the max new space size is treated as the |
| /// soft threshold. |
| /// * In a world where there is no call to NotifyIdle, when the total |
| /// allocation exceeds the soft threshold, a concurrent mark is initiated in |
| /// the VM. There is a “small” pause that occurs when the concurrent mark is |
| /// initiated and another pause when the mark concludes and a sweep is |
| /// initiated. |
| /// * If the total allocations exceeds the the hard threshold, a “big” |
| /// stop-the-world pause is initiated. |
| /// * If after either the sweep after the concurrent mark, or, the |
| /// stop-the-world pause, the consumption returns to be below the soft |
| /// threshold, the dance begins anew. |
| /// * If after both the “small” and “big” pauses, memory usage is still over |
| /// the hard threshold, i.e, the objects are still reachable, that amount of |
| /// memory is treated as the new baseline and a fixed percentage of the new |
| /// baseline over the new baseline is now the new hard threshold. |
| /// * Updating the baseline will continue till memory for the updated old |
| /// space can be allocated from the operating system. These allocations will |
| /// typically fail due to address space exhaustion on 32-bit systems and |
| /// page table exhaustion on 64-bit systems. |
| /// * NotifyIdle initiates the concurrent mark preemptively. The deadline is |
| /// used by the VM to determine if the corresponding sweep can be performed |
| /// within the deadline. This way, jank due to “small” pauses can be |
| /// ameliorated. |
| /// * There is no ability to stop a “big” pause on reaching the hard threshold |
| /// in the old space. The best you can do is release (by making them |
| /// unreachable) objects eagerly so that the are marked as unreachable in |
| /// the concurrent mark initiated by either reaching the soft threshold or |
| /// an explicit NotifyIdle. |
| /// * If you are running out of memory, its because too many large objects |
| /// were allocation and remained reachable such that the the old space kept |
| /// growing till it could grow no more. |
| /// * At the edges of allocation thresholds, failures can occur gracefully if |
| /// the instigating allocation was made in the Dart VM or rather gracelessly |
| /// if the allocation is made by some native component. |
| /// |
| /// @see `Dart_TimelineGetMicros` |
| /// |
| /// @bug The `deadline` argument must be converted to `std::chrono` |
| /// instead of a raw integer. |
| /// |
| /// @param[in] deadline The deadline measures in microseconds against the |
| /// system's monotonic time. The clock can be accessed via |
| /// `Dart_TimelineGetMicros`. |
| /// |
| /// @return If the idle notification was forwarded to the running isolate. |
| /// |
| bool NotifyIdle(int64_t deadline); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Returns if the root isolate is running. The isolate must be |
| /// transitioned to the running phase manually. The isolate can |
| /// stop running if it terminates execution on its own. |
| /// |
| /// @return True if root isolate running, False otherwise. |
| /// |
| bool IsRootIsolateRunning() const; |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Dispatch the specified platform message to running root |
| /// isolate. |
| /// |
| /// @param[in] message The message to dispatch to the isolate. |
| /// |
| /// @return If the message was dispatched to the running root isolate. |
| /// This may fail is an isolate is not running. |
| /// |
| bool DispatchPlatformMessage(fml::RefPtr<PlatformMessage> message); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Dispatch the specified pointer data message to the running |
| /// root isolate. |
| /// |
| /// @param[in] packet The pointer data message to dispatch to the isolate. |
| /// |
| /// @return If the pointer data message was dispatched. This may fail is |
| /// an isolate is not running. |
| /// |
| bool DispatchPointerDataPacket(const PointerDataPacket& packet); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Dispatch the semantics action to the specified accessibility |
| /// node. |
| /// |
| /// @param[in] id The identified of the accessibility node. |
| /// @param[in] action The semantics action to perform on the specified |
| /// accessibility node. |
| /// @param[in] args Optional data that applies to the specified action. |
| /// |
| /// @return If the semantics action was dispatched. This may fail if an |
| /// isolate is not running. |
| /// |
| bool DispatchSemanticsAction(int32_t id, |
| SemanticsAction action, |
| std::vector<uint8_t> args); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Gets the main port identifier of the root isolate. |
| /// |
| /// @return The main port identifier. If no root isolate is running, |
| /// returns `ILLEGAL_PORT`. |
| /// |
| Dart_Port GetMainPort(); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Gets the debug name of the root isolate. But default, the |
| /// debug name of the isolate is derived from its advisory script |
| /// URI, advisory main entrypoint and its main port name. For |
| /// example, "main.dart$main-1234" where the script URI is |
| /// "main.dart", the entrypoint is "main" and the port name |
| /// "1234". Once launched, the isolate may re-christen itself |
| /// using a name it selects via `setIsolateDebugName` in |
| /// `window.dart`. This name is purely advisory and only used by |
| /// instrumentation and reporting purposes. |
| /// |
| /// @return The debug name of the root isolate. |
| /// |
| std::string GetIsolateName(); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Returns if the root isolate has any live receive ports. |
| /// |
| /// @return True if there are live receive ports, False otherwise. Return |
| /// False if the root isolate is not running as well. |
| /// |
| bool HasLivePorts(); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Get the last error encountered by the microtask queue. |
| /// |
| /// @return The last error encountered by the microtask queue. |
| /// |
| tonic::DartErrorHandleType GetLastError(); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Get a weak pointer to the root Dart isolate. This isolate may |
| /// only be locked on the UI task runner. Callers use this |
| /// accessor to transition to the root isolate to the running |
| /// phase. |
| /// |
| /// @return The root isolate reference. |
| /// |
| std::weak_ptr<DartIsolate> GetRootIsolate(); |
| |
| //---------------------------------------------------------------------------- |
| /// @brief Get the return code specified by the root isolate (if one is |
| /// present). |
| /// |
| /// @bug Change this method to return `std::optional<uint32_t>` |
| /// instead. |
| /// |
| /// @return The root isolate return code. The first argument in the pair |
| /// indicates if one is specified by the root isolate. |
| /// |
| std::pair<bool, uint32_t> GetRootIsolateReturnCode(); |
| |
| private: |
| struct Locale { |
| Locale(std::string language_code_, |
| std::string country_code_, |
| std::string script_code_, |
| std::string variant_code_); |
| |
| ~Locale(); |
| |
| std::string language_code; |
| std::string country_code; |
| std::string script_code; |
| std::string variant_code; |
| }; |
| |
| RuntimeDelegate& client_; |
| DartVM* const vm_; |
| fml::RefPtr<const DartSnapshot> isolate_snapshot_; |
| TaskRunners task_runners_; |
| fml::WeakPtr<SnapshotDelegate> snapshot_delegate_; |
| fml::WeakPtr<IOManager> io_manager_; |
| fml::RefPtr<SkiaUnrefQueue> unref_queue_; |
| fml::WeakPtr<ImageDecoder> image_decoder_; |
| std::string advisory_script_uri_; |
| std::string advisory_script_entrypoint_; |
| std::function<void(int64_t)> idle_notification_callback_; |
| WindowData window_data_; |
| std::weak_ptr<DartIsolate> root_isolate_; |
| std::pair<bool, uint32_t> root_isolate_return_code_ = {false, 0}; |
| const fml::closure isolate_create_callback_; |
| const fml::closure isolate_shutdown_callback_; |
| std::shared_ptr<const fml::Mapping> persistent_isolate_data_; |
| |
| Window* GetWindowIfAvailable(); |
| |
| bool FlushRuntimeStateToIsolate(); |
| |
| // |WindowClient| |
| std::string DefaultRouteName() override; |
| |
| // |WindowClient| |
| void ScheduleFrame() override; |
| |
| // |WindowClient| |
| void Render(Scene* scene) override; |
| |
| // |WindowClient| |
| void UpdateSemantics(SemanticsUpdate* update) override; |
| |
| // |WindowClient| |
| void HandlePlatformMessage(fml::RefPtr<PlatformMessage> message) override; |
| |
| // |WindowClient| |
| FontCollection& GetFontCollection() override; |
| |
| // |WindowClient| |
| void UpdateIsolateDescription(const std::string isolate_name, |
| int64_t isolate_port) override; |
| |
| // |WindowClient| |
| void SetNeedsReportTimings(bool value) override; |
| |
| // |WindowClient| |
| std::shared_ptr<const fml::Mapping> GetPersistentIsolateData() override; |
| |
| // |WindowClient| |
| std::unique_ptr<std::vector<std::string>> ComputePlatformResolvedLocale( |
| const std::vector<std::string>& supported_locale_data) override; |
| |
| FML_DISALLOW_COPY_AND_ASSIGN(RuntimeController); |
| }; |
| |
| } // namespace flutter |
| |
| #endif // FLUTTER_RUNTIME_RUNTIME_CONTROLLER_H_ |