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// 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.
#include "flutter/runtime/runtime_controller.h"
#include <utility>
#include "flutter/common/constants.h"
#include "flutter/common/settings.h"
#include "flutter/fml/message_loop.h"
#include "flutter/fml/trace_event.h"
#include "flutter/lib/ui/compositing/scene.h"
#include "flutter/lib/ui/ui_dart_state.h"
#include "flutter/lib/ui/window/platform_configuration.h"
#include "flutter/lib/ui/window/viewport_metrics.h"
#include "flutter/runtime/dart_isolate_group_data.h"
#include "flutter/runtime/isolate_configuration.h"
#include "flutter/runtime/runtime_delegate.h"
#include "third_party/tonic/dart_message_handler.h"
namespace flutter {
RuntimeController::RuntimeController(RuntimeDelegate& p_client,
const TaskRunners& task_runners)
: client_(p_client), vm_(nullptr), context_(task_runners) {}
RuntimeController::RuntimeController(
RuntimeDelegate& p_client,
DartVM* p_vm,
fml::RefPtr<const DartSnapshot> p_isolate_snapshot,
const std::function<void(int64_t)>& p_idle_notification_callback,
const PlatformData& p_platform_data,
const fml::closure& p_isolate_create_callback,
const fml::closure& p_isolate_shutdown_callback,
std::shared_ptr<const fml::Mapping> p_persistent_isolate_data,
const UIDartState::Context& p_context)
: client_(p_client),
vm_(p_vm),
isolate_snapshot_(std::move(p_isolate_snapshot)),
idle_notification_callback_(p_idle_notification_callback),
platform_data_(p_platform_data),
isolate_create_callback_(p_isolate_create_callback),
isolate_shutdown_callback_(p_isolate_shutdown_callback),
persistent_isolate_data_(std::move(p_persistent_isolate_data)),
context_(p_context) {}
std::unique_ptr<RuntimeController> RuntimeController::Spawn(
RuntimeDelegate& p_client,
std::string advisory_script_uri,
std::string advisory_script_entrypoint,
const std::function<void(int64_t)>& p_idle_notification_callback,
const fml::closure& p_isolate_create_callback,
const fml::closure& p_isolate_shutdown_callback,
const std::shared_ptr<const fml::Mapping>& p_persistent_isolate_data,
fml::WeakPtr<IOManager> io_manager,
fml::WeakPtr<ImageDecoder> image_decoder,
fml::WeakPtr<ImageGeneratorRegistry> image_generator_registry,
fml::TaskRunnerAffineWeakPtr<SnapshotDelegate> snapshot_delegate) const {
UIDartState::Context spawned_context{
context_.task_runners, std::move(snapshot_delegate),
std::move(io_manager), context_.unref_queue,
std::move(image_decoder), std::move(image_generator_registry),
std::move(advisory_script_uri), std::move(advisory_script_entrypoint),
context_.volatile_path_tracker, context_.concurrent_task_runner,
context_.enable_impeller};
auto result =
std::make_unique<RuntimeController>(p_client, //
vm_, //
isolate_snapshot_, //
p_idle_notification_callback, //
platform_data_, //
p_isolate_create_callback, //
p_isolate_shutdown_callback, //
p_persistent_isolate_data, //
spawned_context); //
result->spawning_isolate_ = root_isolate_;
return result;
}
RuntimeController::~RuntimeController() {
FML_DCHECK(Dart_CurrentIsolate() == nullptr);
std::shared_ptr<DartIsolate> root_isolate = root_isolate_.lock();
if (root_isolate) {
root_isolate->SetReturnCodeCallback(nullptr);
auto result = root_isolate->Shutdown();
if (!result) {
FML_DLOG(ERROR) << "Could not shutdown the root isolate.";
}
root_isolate_ = {};
}
}
bool RuntimeController::IsRootIsolateRunning() {
std::shared_ptr<DartIsolate> root_isolate = root_isolate_.lock();
if (root_isolate) {
return root_isolate->GetPhase() == DartIsolate::Phase::Running;
}
return false;
}
std::unique_ptr<RuntimeController> RuntimeController::Clone() const {
return std::make_unique<RuntimeController>(client_, //
vm_, //
isolate_snapshot_, //
idle_notification_callback_, //
platform_data_, //
isolate_create_callback_, //
isolate_shutdown_callback_, //
persistent_isolate_data_, //
context_ //
);
}
bool RuntimeController::FlushRuntimeStateToIsolate() {
FML_DCHECK(!has_flushed_runtime_state_)
<< "FlushRuntimeStateToIsolate is called more than once somehow.";
has_flushed_runtime_state_ = true;
for (auto const& [view_id, viewport_metrics] :
platform_data_.viewport_metrics_for_views) {
if (!AddView(view_id, viewport_metrics)) {
return false;
}
}
return SetLocales(platform_data_.locale_data) &&
SetSemanticsEnabled(platform_data_.semantics_enabled) &&
SetAccessibilityFeatures(
platform_data_.accessibility_feature_flags_) &&
SetUserSettingsData(platform_data_.user_settings_data) &&
SetInitialLifecycleState(platform_data_.lifecycle_state) &&
SetDisplays(platform_data_.displays);
}
bool RuntimeController::AddView(int64_t view_id,
const ViewportMetrics& view_metrics) {
platform_data_.viewport_metrics_for_views[view_id] = view_metrics;
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->AddView(view_id, view_metrics);
return true;
}
return false;
}
bool RuntimeController::RemoveView(int64_t view_id) {
platform_data_.viewport_metrics_for_views.erase(view_id);
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->RemoveView(view_id);
return true;
}
return false;
}
bool RuntimeController::SetViewportMetrics(int64_t view_id,
const ViewportMetrics& metrics) {
TRACE_EVENT0("flutter", "SetViewportMetrics");
platform_data_.viewport_metrics_for_views[view_id] = metrics;
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
return platform_configuration->UpdateViewMetrics(view_id, metrics);
}
return false;
}
bool RuntimeController::SetLocales(
const std::vector<std::string>& locale_data) {
platform_data_.locale_data = locale_data;
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->UpdateLocales(locale_data);
return true;
}
return false;
}
bool RuntimeController::SetUserSettingsData(const std::string& data) {
platform_data_.user_settings_data = data;
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->UpdateUserSettingsData(
platform_data_.user_settings_data);
return true;
}
return false;
}
bool RuntimeController::SetInitialLifecycleState(const std::string& data) {
platform_data_.lifecycle_state = data;
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->UpdateInitialLifecycleState(
platform_data_.lifecycle_state);
return true;
}
return false;
}
bool RuntimeController::SetSemanticsEnabled(bool enabled) {
platform_data_.semantics_enabled = enabled;
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->UpdateSemanticsEnabled(
platform_data_.semantics_enabled);
return true;
}
return false;
}
bool RuntimeController::SetAccessibilityFeatures(int32_t flags) {
platform_data_.accessibility_feature_flags_ = flags;
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->UpdateAccessibilityFeatures(
platform_data_.accessibility_feature_flags_);
return true;
}
return false;
}
bool RuntimeController::BeginFrame(fml::TimePoint frame_time,
uint64_t frame_number) {
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->BeginFrame(frame_time, frame_number);
return true;
}
return false;
}
bool RuntimeController::ReportTimings(std::vector<int64_t> timings) {
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->ReportTimings(std::move(timings));
return true;
}
return false;
}
bool RuntimeController::NotifyIdle(fml::TimeDelta deadline) {
if (deadline - fml::TimeDelta::FromMicroseconds(Dart_TimelineGetMicros()) <
fml::TimeDelta::FromMilliseconds(1)) {
// There's less than 1ms left before the deadline. Upstream callers do not
// check to see if the deadline is in the past, and work after this point
// will be in vain.
return false;
}
std::shared_ptr<DartIsolate> root_isolate = root_isolate_.lock();
if (!root_isolate) {
return false;
}
tonic::DartState::Scope scope(root_isolate);
Dart_PerformanceMode performance_mode =
PlatformConfigurationNativeApi::GetDartPerformanceMode();
if (performance_mode == Dart_PerformanceMode::Dart_PerformanceMode_Latency) {
return false;
}
Dart_NotifyIdle(deadline.ToMicroseconds());
// Idle notifications being in isolate scope are part of the contract.
if (idle_notification_callback_) {
TRACE_EVENT0("flutter", "EmbedderIdleNotification");
idle_notification_callback_(deadline.ToMicroseconds());
}
return true;
}
bool RuntimeController::NotifyDestroyed() {
std::shared_ptr<DartIsolate> root_isolate = root_isolate_.lock();
if (!root_isolate) {
return false;
}
tonic::DartState::Scope scope(root_isolate);
Dart_NotifyDestroyed();
return true;
}
bool RuntimeController::DispatchPlatformMessage(
std::unique_ptr<PlatformMessage> message) {
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
TRACE_EVENT0("flutter", "RuntimeController::DispatchPlatformMessage");
platform_configuration->DispatchPlatformMessage(std::move(message));
return true;
}
return false;
}
bool RuntimeController::DispatchPointerDataPacket(
const PointerDataPacket& packet) {
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
TRACE_EVENT0("flutter", "RuntimeController::DispatchPointerDataPacket");
platform_configuration->DispatchPointerDataPacket(packet);
return true;
}
return false;
}
bool RuntimeController::DispatchSemanticsAction(int32_t node_id,
SemanticsAction action,
fml::MallocMapping args) {
TRACE_EVENT1("flutter", "RuntimeController::DispatchSemanticsAction", "mode",
"basic");
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->DispatchSemanticsAction(node_id, action,
std::move(args));
return true;
}
return false;
}
PlatformConfiguration*
RuntimeController::GetPlatformConfigurationIfAvailable() {
std::shared_ptr<DartIsolate> root_isolate = root_isolate_.lock();
return root_isolate ? root_isolate->platform_configuration() : nullptr;
}
// |PlatformConfigurationClient|
std::string RuntimeController::DefaultRouteName() {
return client_.DefaultRouteName();
}
// |PlatformConfigurationClient|
void RuntimeController::ScheduleFrame() {
client_.ScheduleFrame();
}
// |PlatformConfigurationClient|
void RuntimeController::Render(int64_t view_id,
Scene* scene,
double width,
double height) {
const ViewportMetrics* view_metrics =
UIDartState::Current()->platform_configuration()->GetMetrics(view_id);
if (view_metrics == nullptr) {
return;
}
client_.Render(view_id, scene->takeLayerTree(width, height),
view_metrics->device_pixel_ratio);
}
// |PlatformConfigurationClient|
void RuntimeController::UpdateSemantics(SemanticsUpdate* update) {
if (platform_data_.semantics_enabled) {
client_.UpdateSemantics(update->takeNodes(), update->takeActions());
}
}
// |PlatformConfigurationClient|
void RuntimeController::HandlePlatformMessage(
std::unique_ptr<PlatformMessage> message) {
client_.HandlePlatformMessage(std::move(message));
}
// |PlatformConfigurationClient|
FontCollection& RuntimeController::GetFontCollection() {
return client_.GetFontCollection();
}
// |PlatfromConfigurationClient|
std::shared_ptr<AssetManager> RuntimeController::GetAssetManager() {
return client_.GetAssetManager();
}
// |PlatformConfigurationClient|
void RuntimeController::UpdateIsolateDescription(const std::string isolate_name,
int64_t isolate_port) {
client_.UpdateIsolateDescription(isolate_name, isolate_port);
}
// |PlatformConfigurationClient|
void RuntimeController::SetNeedsReportTimings(bool value) {
client_.SetNeedsReportTimings(value);
}
// |PlatformConfigurationClient|
std::shared_ptr<const fml::Mapping>
RuntimeController::GetPersistentIsolateData() {
return persistent_isolate_data_;
}
// |PlatformConfigurationClient|
std::unique_ptr<std::vector<std::string>>
RuntimeController::ComputePlatformResolvedLocale(
const std::vector<std::string>& supported_locale_data) {
return client_.ComputePlatformResolvedLocale(supported_locale_data);
}
// |PlatformConfigurationClient|
void RuntimeController::SendChannelUpdate(std::string name, bool listening) {
client_.SendChannelUpdate(std::move(name), listening);
}
Dart_Port RuntimeController::GetMainPort() {
std::shared_ptr<DartIsolate> root_isolate = root_isolate_.lock();
return root_isolate ? root_isolate->main_port() : ILLEGAL_PORT;
}
std::string RuntimeController::GetIsolateName() {
std::shared_ptr<DartIsolate> root_isolate = root_isolate_.lock();
return root_isolate ? root_isolate->debug_name() : "";
}
bool RuntimeController::HasLivePorts() {
std::shared_ptr<DartIsolate> root_isolate = root_isolate_.lock();
if (!root_isolate) {
return false;
}
tonic::DartState::Scope scope(root_isolate);
return Dart_HasLivePorts();
}
tonic::DartErrorHandleType RuntimeController::GetLastError() {
std::shared_ptr<DartIsolate> root_isolate = root_isolate_.lock();
return root_isolate ? root_isolate->GetLastError() : tonic::kNoError;
}
bool RuntimeController::LaunchRootIsolate(
const Settings& settings,
const fml::closure& root_isolate_create_callback,
std::optional<std::string> dart_entrypoint,
std::optional<std::string> dart_entrypoint_library,
const std::vector<std::string>& dart_entrypoint_args,
std::unique_ptr<IsolateConfiguration> isolate_configuration) {
if (root_isolate_.lock()) {
FML_LOG(ERROR) << "Root isolate was already running.";
return false;
}
auto strong_root_isolate =
DartIsolate::CreateRunningRootIsolate(
settings, //
isolate_snapshot_, //
std::make_unique<PlatformConfiguration>(this), //
DartIsolate::Flags{}, //
root_isolate_create_callback, //
isolate_create_callback_, //
isolate_shutdown_callback_, //
std::move(dart_entrypoint), //
std::move(dart_entrypoint_library), //
dart_entrypoint_args, //
std::move(isolate_configuration), //
context_, //
spawning_isolate_.lock().get()) //
.lock();
if (!strong_root_isolate) {
FML_LOG(ERROR) << "Could not create root isolate.";
return false;
}
// Enable platform channels for background isolates.
strong_root_isolate->GetIsolateGroupData().SetPlatformMessageHandler(
strong_root_isolate->GetRootIsolateToken(),
client_.GetPlatformMessageHandler());
// The root isolate ivar is weak.
root_isolate_ = strong_root_isolate;
// Capture by `this` here is safe because the callback is made by the dart
// state itself. The isolate (and its Dart state) is owned by this object and
// it will be collected before this object.
strong_root_isolate->SetReturnCodeCallback(
[this](uint32_t code) { root_isolate_return_code_ = code; });
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
tonic::DartState::Scope scope(strong_root_isolate);
platform_configuration->DidCreateIsolate();
if (!FlushRuntimeStateToIsolate()) {
FML_DLOG(ERROR) << "Could not set up initial isolate state.";
}
} else {
FML_DCHECK(false) << "RuntimeController created without window binding.";
}
FML_DCHECK(Dart_CurrentIsolate() == nullptr);
client_.OnRootIsolateCreated();
return true;
}
std::optional<std::string> RuntimeController::GetRootIsolateServiceID() const {
if (auto isolate = root_isolate_.lock()) {
return isolate->GetServiceId();
}
return std::nullopt;
}
std::optional<uint32_t> RuntimeController::GetRootIsolateReturnCode() {
return root_isolate_return_code_;
}
uint64_t RuntimeController::GetRootIsolateGroup() const {
auto isolate = root_isolate_.lock();
if (isolate) {
auto isolate_scope = tonic::DartIsolateScope(isolate->isolate());
Dart_IsolateGroup isolate_group = Dart_CurrentIsolateGroup();
return reinterpret_cast<uint64_t>(isolate_group);
} else {
return 0;
}
}
void RuntimeController::LoadDartDeferredLibrary(
intptr_t loading_unit_id,
std::unique_ptr<const fml::Mapping> snapshot_data,
std::unique_ptr<const fml::Mapping> snapshot_instructions) {
root_isolate_.lock()->LoadLoadingUnit(loading_unit_id,
std::move(snapshot_data),
std::move(snapshot_instructions));
}
void RuntimeController::LoadDartDeferredLibraryError(
intptr_t loading_unit_id,
const std::string
error_message, // NOLINT(performance-unnecessary-value-param)
bool transient) {
root_isolate_.lock()->LoadLoadingUnitError(loading_unit_id, error_message,
transient);
}
void RuntimeController::RequestDartDeferredLibrary(intptr_t loading_unit_id) {
return client_.RequestDartDeferredLibrary(loading_unit_id);
}
bool RuntimeController::SetDisplays(const std::vector<DisplayData>& displays) {
TRACE_EVENT0("flutter", "SetDisplays");
platform_data_.displays = displays;
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->UpdateDisplays(displays);
return true;
}
return false;
}
double RuntimeController::GetScaledFontSize(double unscaled_font_size,
int configuration_id) const {
return client_.GetScaledFontSize(unscaled_font_size, configuration_id);
}
RuntimeController::Locale::Locale(std::string language_code_,
std::string country_code_,
std::string script_code_,
std::string variant_code_)
: language_code(std::move(language_code_)),
country_code(std::move(country_code_)),
script_code(std::move(script_code_)),
variant_code(std::move(variant_code_)) {}
RuntimeController::Locale::~Locale() = default;
} // namespace flutter