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flutter_flutter/runtime/runtime_controller.cc
Greg Spencer 85b0031f73
Migration to PlatformDispatcher and multi-window (#20496) 
This is a PR for converting the dart:ui code in the engine to use a multi-window API. The goal here is to convert from the window singleton to an API that has the concept of multiple windows. Also, I'm matching up the new PlatformDispatcher class to talk directly to the PlatformConfiguration class in the engine. I'm not attempting to actually enable creating multiple windows here, just migrate to an API that has a concept of multiple windows. The multi-window API in this PR currently only ever creates one window.

The design doc for this change is here.

The major changes in this PR:

Move the platfom-specific attributes out of Window, and into the new PlatformDispatcher class that holds all of the platform state, so that the platform code need only update the configuration on this class.
Create FlutterView, FlutterWindow, and SingletonFlutterWindow classes to separate out the concepts of a view (of which there may be multiple in a window), a window (of which there may be multiple on a screen, and they host views), and a window where there is only ever expected to be one (this hosts the entire API of the former Window class, and will eventually be the type of the window singleton).
Next step after this PR lands:

Remove the Window class entirely (it is replaced by SingletonFlutterWindow). Some minor changes in the Framework are needed to switch to using SingletonFlutterWindow directly first.

The Window class still exists in this PR, but will be removed as soon as the framework is converted to point to the SingletonFlutterWindow class instead. They share the same API, just have different names (Window is currently a subclass of SingletonFlutterWindow). The intention is that the Window name will be freed up to use as a widget class name in the framework for managing windows. The singleton called window will remain, and keep the same API it has now.
2020-10-09 16:29:16 -07:00

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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 "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/lib/ui/window/window.h"
#include "flutter/runtime/runtime_delegate.h"
#include "third_party/tonic/dart_message_handler.h"
namespace flutter {
RuntimeController::RuntimeController(RuntimeDelegate& client,
TaskRunners p_task_runners)
: client_(client), vm_(nullptr), task_runners_(p_task_runners) {}
RuntimeController::RuntimeController(
RuntimeDelegate& p_client,
DartVM* p_vm,
fml::RefPtr<const DartSnapshot> p_isolate_snapshot,
TaskRunners p_task_runners,
fml::WeakPtr<SnapshotDelegate> p_snapshot_delegate,
fml::WeakPtr<HintFreedDelegate> p_hint_freed_delegate,
fml::WeakPtr<IOManager> p_io_manager,
fml::RefPtr<SkiaUnrefQueue> p_unref_queue,
fml::WeakPtr<ImageDecoder> p_image_decoder,
std::string p_advisory_script_uri,
std::string p_advisory_script_entrypoint,
const std::function<void(int64_t)>& 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)
: client_(p_client),
vm_(p_vm),
isolate_snapshot_(std::move(p_isolate_snapshot)),
task_runners_(p_task_runners),
snapshot_delegate_(p_snapshot_delegate),
hint_freed_delegate_(p_hint_freed_delegate),
io_manager_(p_io_manager),
unref_queue_(p_unref_queue),
image_decoder_(p_image_decoder),
advisory_script_uri_(p_advisory_script_uri),
advisory_script_entrypoint_(p_advisory_script_entrypoint),
idle_notification_callback_(idle_notification_callback),
platform_data_(std::move(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)) {
// Create the root isolate as soon as the runtime controller is initialized.
// It will be run at a later point when the engine provides a run
// configuration and then runs the isolate.
auto strong_root_isolate =
DartIsolate::CreateRootIsolate(
vm_->GetVMData()->GetSettings(), //
isolate_snapshot_, //
task_runners_, //
std::make_unique<PlatformConfiguration>(this), //
snapshot_delegate_, //
hint_freed_delegate_, //
io_manager_, //
unref_queue_, //
image_decoder_, //
p_advisory_script_uri, //
p_advisory_script_entrypoint, //
nullptr, //
isolate_create_callback_, //
isolate_shutdown_callback_ //
)
.lock();
FML_CHECK(strong_root_isolate) << "Could not create root isolate.";
// The root isolate ivar is weak.
root_isolate_ = strong_root_isolate;
strong_root_isolate->SetReturnCodeCallback([this](uint32_t code) {
root_isolate_return_code_ = {true, code};
});
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
tonic::DartState::Scope scope(strong_root_isolate);
platform_configuration->DidCreateIsolate();
if (!FlushRuntimeStateToIsolate()) {
FML_DLOG(ERROR) << "Could not setup initial isolate state.";
}
} else {
FML_DCHECK(false) << "RuntimeController created without window binding.";
}
FML_DCHECK(Dart_CurrentIsolate() == nullptr);
}
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() const {
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::unique_ptr<RuntimeController>(new RuntimeController(
client_, //
vm_, //
isolate_snapshot_, //
task_runners_, //
snapshot_delegate_, //
hint_freed_delegate_, //
io_manager_, //
unref_queue_, //
image_decoder_, //
advisory_script_uri_, //
advisory_script_entrypoint_, //
idle_notification_callback_, //
platform_data_, //
isolate_create_callback_, //
isolate_shutdown_callback_, //
persistent_isolate_data_ //
));
}
bool RuntimeController::FlushRuntimeStateToIsolate() {
return SetViewportMetrics(platform_data_.viewport_metrics) &&
SetLocales(platform_data_.locale_data) &&
SetSemanticsEnabled(platform_data_.semantics_enabled) &&
SetAccessibilityFeatures(
platform_data_.accessibility_feature_flags_) &&
SetUserSettingsData(platform_data_.user_settings_data) &&
SetLifecycleState(platform_data_.lifecycle_state);
}
bool RuntimeController::SetViewportMetrics(const ViewportMetrics& metrics) {
platform_data_.viewport_metrics = metrics;
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->get_window(0)->UpdateWindowMetrics(metrics);
return true;
}
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::SetLifecycleState(const std::string& data) {
platform_data_.lifecycle_state = data;
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->UpdateLifecycleState(
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) {
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->BeginFrame(frame_time);
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(int64_t deadline, size_t freed_hint) {
std::shared_ptr<DartIsolate> root_isolate = root_isolate_.lock();
if (!root_isolate) {
return false;
}
tonic::DartState::Scope scope(root_isolate);
// Dart will use the freed hint at the next idle notification. Make sure to
// Update it with our latest value before calling NotifyIdle.
Dart_HintFreed(freed_hint);
Dart_NotifyIdle(deadline);
// Idle notifications being in isolate scope are part of the contract.
if (idle_notification_callback_) {
TRACE_EVENT0("flutter", "EmbedderIdleNotification");
idle_notification_callback_(deadline);
}
return true;
}
bool RuntimeController::DispatchPlatformMessage(
fml::RefPtr<PlatformMessage> message) {
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
TRACE_EVENT1("flutter", "RuntimeController::DispatchPlatformMessage",
"mode", "basic");
platform_configuration->DispatchPlatformMessage(std::move(message));
return true;
}
return false;
}
bool RuntimeController::DispatchPointerDataPacket(
const PointerDataPacket& packet) {
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
TRACE_EVENT1("flutter", "RuntimeController::DispatchPointerDataPacket",
"mode", "basic");
platform_configuration->get_window(0)->DispatchPointerDataPacket(packet);
return true;
}
return false;
}
bool RuntimeController::DispatchSemanticsAction(int32_t id,
SemanticsAction action,
std::vector<uint8_t> args) {
TRACE_EVENT1("flutter", "RuntimeController::DispatchSemanticsAction", "mode",
"basic");
if (auto* platform_configuration = GetPlatformConfigurationIfAvailable()) {
platform_configuration->DispatchSemanticsAction(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(Scene* scene) {
client_.Render(scene->takeLayerTree());
}
// |PlatformConfigurationClient|
void RuntimeController::UpdateSemantics(SemanticsUpdate* update) {
if (platform_data_.semantics_enabled) {
client_.UpdateSemantics(update->takeNodes(), update->takeActions());
}
}
// |PlatformConfigurationClient|
void RuntimeController::HandlePlatformMessage(
fml::RefPtr<PlatformMessage> message) {
client_.HandlePlatformMessage(std::move(message));
}
// |PlatformConfigurationClient|
FontCollection& RuntimeController::GetFontCollection() {
return client_.GetFontCollection();
}
// |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);
}
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;
}
std::weak_ptr<DartIsolate> RuntimeController::GetRootIsolate() {
return root_isolate_;
}
std::pair<bool, uint32_t> RuntimeController::GetRootIsolateReturnCode() {
return root_isolate_return_code_;
}
RuntimeController::Locale::Locale(std::string language_code_,
std::string country_code_,
std::string script_code_,
std::string variant_code_)
: language_code(language_code_),
country_code(country_code_),
script_code(script_code_),
variant_code(variant_code_) {}
RuntimeController::Locale::~Locale() = default;
} // namespace flutter
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