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chromium / external / github.com / flutter / engine / 1239df96aada4f995efd2627b032215e7232692f / . / runtime / dart_isolate.cc
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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/dart_isolate.h"
#include <cstdlib>
#include <tuple>
#include "flutter/fml/paths.h"
#include "flutter/fml/trace_event.h"
#include "flutter/lib/io/dart_io.h"
#include "flutter/lib/ui/dart_runtime_hooks.h"
#include "flutter/lib/ui/dart_ui.h"
#include "flutter/runtime/dart_service_isolate.h"
#include "flutter/runtime/dart_vm.h"
#include "flutter/runtime/dart_vm_lifecycle.h"
#include "third_party/dart/runtime/include/dart_api.h"
#include "third_party/dart/runtime/include/dart_tools_api.h"
#include "third_party/tonic/converter/dart_converter.h"
#include "third_party/tonic/dart_class_library.h"
#include "third_party/tonic/dart_class_provider.h"
#include "third_party/tonic/dart_message_handler.h"
#include "third_party/tonic/dart_state.h"
#include "third_party/tonic/file_loader/file_loader.h"
#include "third_party/tonic/logging/dart_invoke.h"
#include "third_party/tonic/scopes/dart_api_scope.h"
#include "third_party/tonic/scopes/dart_isolate_scope.h"
namespace flutter {
std::weak_ptr<DartIsolate> DartIsolate::CreateRootIsolate(
const Settings& settings,
fml::RefPtr<const DartSnapshot> isolate_snapshot,
fml::RefPtr<const DartSnapshot> shared_snapshot,
TaskRunners task_runners,
std::unique_ptr<Window> window,
fml::WeakPtr<SnapshotDelegate> snapshot_delegate,
fml::WeakPtr<IOManager> io_manager,
std::string advisory_script_uri,
std::string advisory_script_entrypoint,
Dart_IsolateFlags* flags,
fml::closure isolate_create_callback,
fml::closure isolate_shutdown_callback) {
TRACE_EVENT0("flutter", "DartIsolate::CreateRootIsolate");
Dart_Isolate vm_isolate = nullptr;
std::weak_ptr<DartIsolate> embedder_isolate;
char* error = nullptr;
// Since this is the root isolate, we fake a parent embedder data object. We
// cannot use unique_ptr here because the destructor is private (since the
// isolate lifecycle is entirely managed by the VM).
//
// The child isolate preparer is null but will be set when the isolate is
// being prepared to run.
auto root_embedder_data = std::make_unique<std::shared_ptr<DartIsolate>>(
std::make_shared<DartIsolate>(
settings, // settings
std::move(isolate_snapshot), // isolate snapshot
std::move(shared_snapshot), // shared snapshot
task_runners, // task runners
std::move(snapshot_delegate), // snapshot delegate
std::move(io_manager), // IO manager
advisory_script_uri, // advisory URI
advisory_script_entrypoint, // advisory entrypoint
nullptr, // child isolate preparer
isolate_create_callback, // isolate create callback
isolate_shutdown_callback // isolate shutdown callback
));
std::tie(vm_isolate, embedder_isolate) = CreateDartVMAndEmbedderObjectPair(
advisory_script_uri.c_str(), // advisory script URI
advisory_script_entrypoint.c_str(), // advisory script entrypoint
nullptr, // package root
nullptr, // package config
flags, // flags
root_embedder_data.get(), // parent embedder data
true, // is root isolate
&error // error (out)
);
if (error != nullptr) {
free(error);
}
if (vm_isolate == nullptr) {
return {};
}
std::shared_ptr<DartIsolate> shared_embedder_isolate =
embedder_isolate.lock();
if (shared_embedder_isolate) {
// Only root isolates can interact with windows.
shared_embedder_isolate->SetWindow(std::move(window));
}
root_embedder_data.release();
return embedder_isolate;
}
DartIsolate::DartIsolate(const Settings& settings,
fml::RefPtr<const DartSnapshot> isolate_snapshot,
fml::RefPtr<const DartSnapshot> shared_snapshot,
TaskRunners task_runners,
fml::WeakPtr<SnapshotDelegate> snapshot_delegate,
fml::WeakPtr<IOManager> io_manager,
std::string advisory_script_uri,
std::string advisory_script_entrypoint,
ChildIsolatePreparer child_isolate_preparer,
fml::closure isolate_create_callback,
fml::closure isolate_shutdown_callback)
: UIDartState(std::move(task_runners),
settings.task_observer_add,
settings.task_observer_remove,
std::move(snapshot_delegate),
std::move(io_manager),
advisory_script_uri,
advisory_script_entrypoint,
settings.log_tag,
settings.unhandled_exception_callback,
DartVMRef::GetIsolateNameServer()),
settings_(settings),
isolate_snapshot_(std::move(isolate_snapshot)),
shared_snapshot_(std::move(shared_snapshot)),
child_isolate_preparer_(std::move(child_isolate_preparer)),
isolate_create_callback_(isolate_create_callback),
isolate_shutdown_callback_(isolate_shutdown_callback) {
FML_DCHECK(isolate_snapshot_) << "Must contain a valid isolate snapshot.";
phase_ = Phase::Uninitialized;
}
DartIsolate::~DartIsolate() = default;
const Settings& DartIsolate::GetSettings() const {
return settings_;
}
DartIsolate::Phase DartIsolate::GetPhase() const {
return phase_;
}
bool DartIsolate::Initialize(Dart_Isolate dart_isolate, bool is_root_isolate) {
TRACE_EVENT0("flutter", "DartIsolate::Initialize");
if (phase_ != Phase::Uninitialized) {
return false;
}
if (dart_isolate == nullptr) {
return false;
}
if (Dart_CurrentIsolate() != dart_isolate) {
return false;
}
auto* isolate_data = static_cast<std::shared_ptr<DartIsolate>*>(
Dart_IsolateData(dart_isolate));
if (isolate_data->get() != this) {
return false;
}
// After this point, isolate scopes can be safely used.
SetIsolate(dart_isolate);
// We are entering a new scope (for the first time since initialization) and
// we want to restore the current scope to null when we exit out of this
// method. This balances the implicit Dart_EnterIsolate call made by
// Dart_CreateIsolate (which calls the Initialize).
Dart_ExitIsolate();
tonic::DartIsolateScope scope(isolate());
SetMessageHandlingTaskRunner(GetTaskRunners().GetUITaskRunner(),
is_root_isolate);
if (tonic::LogIfError(
Dart_SetLibraryTagHandler(tonic::DartState::HandleLibraryTag))) {
return false;
}
if (!UpdateThreadPoolNames()) {
return false;
}
phase_ = Phase::Initialized;
return true;
}
fml::RefPtr<fml::TaskRunner> DartIsolate::GetMessageHandlingTaskRunner() const {
return message_handling_task_runner_;
}
void DartIsolate::SetMessageHandlingTaskRunner(
fml::RefPtr<fml::TaskRunner> runner,
bool is_root_isolate) {
if (!is_root_isolate || !runner) {
return;
}
message_handling_task_runner_ = runner;
message_handler().Initialize(
[runner](std::function<void()> task) { runner->PostTask(task); });
}
// Updating thread names here does not change the underlying OS thread names.
// Instead, this is just additional metadata for the Observatory to show the
// thread name of the isolate.
bool DartIsolate::UpdateThreadPoolNames() const {
// TODO(chinmaygarde): This implementation does not account for multiple
// shells sharing the same (or subset of) threads.
const auto& task_runners = GetTaskRunners();
if (auto task_runner = task_runners.GetGPUTaskRunner()) {
task_runner->PostTask(
[label = task_runners.GetLabel() + std::string{".gpu"}]() {
Dart_SetThreadName(label.c_str());
});
}
if (auto task_runner = task_runners.GetUITaskRunner()) {
task_runner->PostTask(
[label = task_runners.GetLabel() + std::string{".ui"}]() {
Dart_SetThreadName(label.c_str());
});
}
if (auto task_runner = task_runners.GetIOTaskRunner()) {
task_runner->PostTask(
[label = task_runners.GetLabel() + std::string{".io"}]() {
Dart_SetThreadName(label.c_str());
});
}
if (auto task_runner = task_runners.GetPlatformTaskRunner()) {
task_runner->PostTask(
[label = task_runners.GetLabel() + std::string{".platform"}]() {
Dart_SetThreadName(label.c_str());
});
}
return true;
}
bool DartIsolate::LoadLibraries(bool is_root_isolate) {
TRACE_EVENT0("flutter", "DartIsolate::LoadLibraries");
if (phase_ != Phase::Initialized) {
return false;
}
tonic::DartState::Scope scope(this);
DartIO::InitForIsolate();
DartUI::InitForIsolate(is_root_isolate);
const bool is_service_isolate = Dart_IsServiceIsolate(isolate());
DartRuntimeHooks::Install(is_root_isolate && !is_service_isolate,
GetAdvisoryScriptURI());
if (!is_service_isolate) {
class_library().add_provider(
"ui", std::make_unique<tonic::DartClassProvider>(this, "dart:ui"));
}
phase_ = Phase::LibrariesSetup;
return true;
}
bool DartIsolate::PrepareForRunningFromPrecompiledCode() {
TRACE_EVENT0("flutter", "DartIsolate::PrepareForRunningFromPrecompiledCode");
if (phase_ != Phase::LibrariesSetup) {
return false;
}
tonic::DartState::Scope scope(this);
if (Dart_IsNull(Dart_RootLibrary())) {
return false;
}
if (!MarkIsolateRunnable()) {
return false;
}
child_isolate_preparer_ = [](DartIsolate* isolate) {
return isolate->PrepareForRunningFromPrecompiledCode();
};
if (isolate_create_callback_) {
isolate_create_callback_();
}
phase_ = Phase::Ready;
return true;
}
bool DartIsolate::LoadKernel(std::shared_ptr<const fml::Mapping> mapping,
bool last_piece) {
if (!Dart_IsKernel(mapping->GetMapping(), mapping->GetSize())) {
return false;
}
// Mapping must be retained until isolate shutdown.
kernel_buffers_.push_back(mapping);
Dart_Handle library =
Dart_LoadLibraryFromKernel(mapping->GetMapping(), mapping->GetSize());
if (tonic::LogIfError(library)) {
return false;
}
if (!last_piece) {
// More to come.
return true;
}
Dart_SetRootLibrary(library);
if (tonic::LogIfError(Dart_FinalizeLoading(false))) {
return false;
}
return true;
}
FML_WARN_UNUSED_RESULT
bool DartIsolate::PrepareForRunningFromKernel(
std::shared_ptr<const fml::Mapping> mapping,
bool last_piece) {
TRACE_EVENT0("flutter", "DartIsolate::PrepareForRunningFromKernel");
if (phase_ != Phase::LibrariesSetup) {
return false;
}
if (DartVM::IsRunningPrecompiledCode()) {
return false;
}
if (!mapping || mapping->GetSize() == 0) {
return false;
}
tonic::DartState::Scope scope(this);
// Use root library provided by kernel in favor of one provided by snapshot.
Dart_SetRootLibrary(Dart_Null());
if (!LoadKernel(mapping, last_piece)) {
return false;
}
if (!last_piece) {
// More to come.
return true;
}
if (Dart_IsNull(Dart_RootLibrary())) {
return false;
}
if (!MarkIsolateRunnable()) {
return false;
}
// Child isolate shares root isolate embedder_isolate (lines 691 and 693
// below). Re-initializing child_isolate_preparer_ lambda while it is being
// executed leads to crashes.
if (child_isolate_preparer_ == nullptr) {
child_isolate_preparer_ = [buffers =
kernel_buffers_](DartIsolate* isolate) {
for (unsigned long i = 0; i < buffers.size(); i++) {
bool last_piece = i + 1 == buffers.size();
const std::shared_ptr<const fml::Mapping>& buffer = buffers.at(i);
if (!isolate->PrepareForRunningFromKernel(buffer, last_piece)) {
return false;
}
}
return true;
};
}
if (isolate_create_callback_) {
isolate_create_callback_();
}
phase_ = Phase::Ready;
return true;
}
FML_WARN_UNUSED_RESULT
bool DartIsolate::PrepareForRunningFromKernels(
std::vector<std::shared_ptr<const fml::Mapping>> kernels) {
const auto count = kernels.size();
if (count == 0) {
return false;
}
for (size_t i = 0; i < count; ++i) {
bool last = (i == (count - 1));
if (!PrepareForRunningFromKernel(kernels[i], last)) {
return false;
}
}
return true;
}
FML_WARN_UNUSED_RESULT
bool DartIsolate::PrepareForRunningFromKernels(
std::vector<std::unique_ptr<const fml::Mapping>> kernels) {
std::vector<std::shared_ptr<const fml::Mapping>> shared_kernels;
for (auto& kernel : kernels) {
shared_kernels.emplace_back(std::move(kernel));
}
return PrepareForRunningFromKernels(shared_kernels);
}
bool DartIsolate::MarkIsolateRunnable() {
TRACE_EVENT0("flutter", "DartIsolate::MarkIsolateRunnable");
if (phase_ != Phase::LibrariesSetup) {
return false;
}
// This function may only be called from an active isolate scope.
if (Dart_CurrentIsolate() != isolate()) {
return false;
}
// There must be no current isolate to mark an isolate as being runnable.
Dart_ExitIsolate();
char* error = Dart_IsolateMakeRunnable(isolate());
if (error) {
FML_DLOG(ERROR) << error;
::free(error);
// Failed. Restore the isolate.
Dart_EnterIsolate(isolate());
return false;
}
// Success. Restore the isolate.
Dart_EnterIsolate(isolate());
return true;
}
FML_WARN_UNUSED_RESULT
static bool InvokeMainEntrypoint(Dart_Handle user_entrypoint_function) {
if (tonic::LogIfError(user_entrypoint_function)) {
FML_LOG(ERROR) << "Could not resolve main entrypoint function.";
return false;
}
Dart_Handle start_main_isolate_function =
tonic::DartInvokeField(Dart_LookupLibrary(tonic::ToDart("dart:isolate")),
"_getStartMainIsolateFunction", {});
if (tonic::LogIfError(start_main_isolate_function)) {
FML_LOG(ERROR) << "Could not resolve main entrypoint trampoline.";
return false;
}
if (tonic::LogIfError(tonic::DartInvokeField(
Dart_LookupLibrary(tonic::ToDart("dart:ui")), "_runMainZoned",
{start_main_isolate_function, user_entrypoint_function}))) {
FML_LOG(ERROR) << "Could not invoke the main entrypoint.";
return false;
}
return true;
}
FML_WARN_UNUSED_RESULT
bool DartIsolate::Run(const std::string& entrypoint_name, fml::closure on_run) {
TRACE_EVENT0("flutter", "DartIsolate::Run");
if (phase_ != Phase::Ready) {
return false;
}
tonic::DartState::Scope scope(this);
auto user_entrypoint_function =
Dart_GetField(Dart_RootLibrary(), tonic::ToDart(entrypoint_name.c_str()));
if (!InvokeMainEntrypoint(user_entrypoint_function)) {
return false;
}
phase_ = Phase::Running;
FML_DLOG(INFO) << "New isolate is in the running state.";
if (on_run) {
on_run();
}
return true;
}
FML_WARN_UNUSED_RESULT
bool DartIsolate::RunFromLibrary(const std::string& library_name,
const std::string& entrypoint_name,
fml::closure on_run) {
TRACE_EVENT0("flutter", "DartIsolate::RunFromLibrary");
if (phase_ != Phase::Ready) {
return false;
}
tonic::DartState::Scope scope(this);
auto user_entrypoint_function =
Dart_GetField(Dart_LookupLibrary(tonic::ToDart(library_name.c_str())),
tonic::ToDart(entrypoint_name.c_str()));
if (!InvokeMainEntrypoint(user_entrypoint_function)) {
return false;
}
phase_ = Phase::Running;
FML_DLOG(INFO) << "New isolate is in the running state.";
if (on_run) {
on_run();
}
return true;
}
bool DartIsolate::Shutdown() {
TRACE_EVENT0("flutter", "DartIsolate::Shutdown");
// This call may be re-entrant since Dart_ShutdownIsolate can invoke the
// cleanup callback which deletes the embedder side object of the dart isolate
// (a.k.a. this).
if (phase_ == Phase::Shutdown) {
return false;
}
phase_ = Phase::Shutdown;
Dart_Isolate vm_isolate = isolate();
// The isolate can be nullptr if this instance is the stub isolate data used
// during root isolate creation.
if (vm_isolate != nullptr) {
// We need to enter the isolate because Dart_ShutdownIsolate does not take
// the isolate to shutdown as a parameter.
FML_DCHECK(Dart_CurrentIsolate() == nullptr);
Dart_EnterIsolate(vm_isolate);
Dart_ShutdownIsolate();
FML_DCHECK(Dart_CurrentIsolate() == nullptr);
}
return true;
}
Dart_Isolate DartIsolate::DartCreateAndStartServiceIsolate(
const char* package_root,
const char* package_config,
Dart_IsolateFlags* flags,
char** error) {
auto vm_data = DartVMRef::GetVMData();
if (!vm_data) {
*error = strdup(
"Could not access VM data to initialize isolates. This may be because "
"the VM has initialized shutdown on another thread already.");
return nullptr;
}
const auto& settings = vm_data->GetSettings();
if (!settings.enable_observatory) {
FML_DLOG(INFO) << "Observatory is disabled.";
return nullptr;
}
TaskRunners null_task_runners("io.flutter." DART_VM_SERVICE_ISOLATE_NAME,
nullptr, nullptr, nullptr, nullptr);
flags->load_vmservice_library = true;
std::weak_ptr<DartIsolate> weak_service_isolate =
DartIsolate::CreateRootIsolate(
vm_data->GetSettings(), // settings
vm_data->GetIsolateSnapshot(), // isolate snapshot
vm_data->GetSharedSnapshot(), // shared snapshot
null_task_runners, // task runners
nullptr, // window
{}, // snapshot delegate
{}, // IO Manager
DART_VM_SERVICE_ISOLATE_NAME, // script uri
DART_VM_SERVICE_ISOLATE_NAME, // script entrypoint
flags, // flags
nullptr, // isolate create callback
nullptr // isolate shutdown callback
);
std::shared_ptr<DartIsolate> service_isolate = weak_service_isolate.lock();
if (!service_isolate) {
*error = strdup("Could not create the service isolate.");
FML_DLOG(ERROR) << *error;
return nullptr;
}
tonic::DartState::Scope scope(service_isolate);
if (!DartServiceIsolate::Startup(
settings.ipv6 ? "::1" : "127.0.0.1", // server IP address
settings.observatory_port, // server observatory port
tonic::DartState::HandleLibraryTag, // embedder library tag handler
false, // disable websocket origin check
settings.disable_service_auth_codes, // disable VM service auth codes
error // error (out)
)) {
// Error is populated by call to startup.
FML_DLOG(ERROR) << *error;
return nullptr;
}
if (auto service_protocol = DartVMRef::GetServiceProtocol()) {
service_protocol->ToggleHooks(true);
} else {
FML_DLOG(ERROR)
<< "Could not acquire the service protocol handlers. This might be "
"because the VM has already begun teardown on another thread.";
}
return service_isolate->isolate();
}
// |Dart_IsolateCreateCallback|
Dart_Isolate DartIsolate::DartIsolateCreateCallback(
const char* advisory_script_uri,
const char* advisory_script_entrypoint,
const char* package_root,
const char* package_config,
Dart_IsolateFlags* flags,
std::shared_ptr<DartIsolate>* parent_embedder_isolate,
char** error) {
if (parent_embedder_isolate == nullptr &&
strcmp(advisory_script_uri, DART_VM_SERVICE_ISOLATE_NAME) == 0) {
// The VM attempts to start the VM service for us on |Dart_Initialize|. In
// such a case, the callback data will be null and the script URI will be
// DART_VM_SERVICE_ISOLATE_NAME. In such cases, we just create the service
// isolate like normal but dont hold a reference to it at all. We also start
// this isolate since we will never again reference it from the engine.
return DartCreateAndStartServiceIsolate(package_root, //
package_config, //
flags, //
error //
);
}
return CreateDartVMAndEmbedderObjectPair(
advisory_script_uri, // URI
advisory_script_entrypoint, // entrypoint
package_root, // package root
package_config, // package config
flags, // isolate flags
parent_embedder_isolate, // embedder data
false, // is root isolate
error // error
)
.first;
}
std::pair<Dart_Isolate, std::weak_ptr<DartIsolate>>
DartIsolate::CreateDartVMAndEmbedderObjectPair(
const char* advisory_script_uri,
const char* advisory_script_entrypoint,
const char* package_root,
const char* package_config,
Dart_IsolateFlags* flags,
std::shared_ptr<DartIsolate>* p_parent_embedder_isolate,
bool is_root_isolate,
char** error) {
TRACE_EVENT0("flutter", "DartIsolate::CreateDartVMAndEmbedderObjectPair");
std::unique_ptr<std::shared_ptr<DartIsolate>> embedder_isolate(
p_parent_embedder_isolate);
if (embedder_isolate == nullptr) {
*error =
strdup("Parent isolate did not have embedder specific callback data.");
FML_DLOG(ERROR) << *error;
return {nullptr, {}};
}
if (!is_root_isolate) {
auto* raw_embedder_isolate = embedder_isolate.release();
TaskRunners null_task_runners(advisory_script_uri, nullptr, nullptr,
nullptr, nullptr);
// Copy most fields from the parent to the child.
embedder_isolate = std::make_unique<std::shared_ptr<DartIsolate>>(
std::make_shared<DartIsolate>(
(*raw_embedder_isolate)->GetSettings(), // settings
(*raw_embedder_isolate)->GetIsolateSnapshot(), // isolate_snapshot
(*raw_embedder_isolate)->GetSharedSnapshot(), // shared_snapshot
null_task_runners, // task_runners
fml::WeakPtr<SnapshotDelegate>{}, // snapshot_delegate
fml::WeakPtr<IOManager>{}, // io_manager
advisory_script_uri, // advisory_script_uri
advisory_script_entrypoint, // advisory_script_entrypoint
(*raw_embedder_isolate)->child_isolate_preparer_, // preparer
(*raw_embedder_isolate)->isolate_create_callback_, // on create
(*raw_embedder_isolate)->isolate_shutdown_callback_ // on shutdown
)
);
}
// Create the Dart VM isolate and give it the embedder object as the baton.
Dart_Isolate isolate = Dart_CreateIsolate(
advisory_script_uri, //
advisory_script_entrypoint, //
(*embedder_isolate)->GetIsolateSnapshot()->GetDataMapping(),
(*embedder_isolate)->GetIsolateSnapshot()->GetInstructionsMapping(),
(*embedder_isolate)->GetSharedSnapshot()->GetDataMapping(),
(*embedder_isolate)->GetSharedSnapshot()->GetInstructionsMapping(), flags,
embedder_isolate.get(), error);
if (isolate == nullptr) {
FML_DLOG(ERROR) << *error;
return {nullptr, {}};
}
if (!(*embedder_isolate)->Initialize(isolate, is_root_isolate)) {
*error = strdup("Embedder could not initialize the Dart isolate.");
FML_DLOG(ERROR) << *error;
return {nullptr, {}};
}
if (!(*embedder_isolate)->LoadLibraries(is_root_isolate)) {
*error =
strdup("Embedder could not load libraries in the new Dart isolate.");
FML_DLOG(ERROR) << *error;
return {nullptr, {}};
}
auto weak_embedder_isolate = (*embedder_isolate)->GetWeakIsolatePtr();
// Root isolates will be setup by the engine and the service isolate (which is
// also a root isolate) by the utility routines in the VM. However, secondary
// isolates will be run by the VM if they are marked as runnable.
if (!is_root_isolate) {
FML_DCHECK((*embedder_isolate)->child_isolate_preparer_);
if (!(*embedder_isolate)
->child_isolate_preparer_((*embedder_isolate).get())) {
*error = strdup("Could not prepare the child isolate to run.");
FML_DLOG(ERROR) << *error;
return {nullptr, {}};
}
}
// The ownership of the embedder object is controlled by the Dart VM. So the
// only reference returned to the caller is weak.
embedder_isolate.release();
return {isolate, weak_embedder_isolate};
}
// |Dart_IsolateShutdownCallback|
void DartIsolate::DartIsolateShutdownCallback(
std::shared_ptr<DartIsolate>* embedder_isolate) {
embedder_isolate->get()->OnShutdownCallback();
}
// |Dart_IsolateCleanupCallback|
void DartIsolate::DartIsolateCleanupCallback(
std::shared_ptr<DartIsolate>* embedder_isolate) {
delete embedder_isolate;
}
fml::RefPtr<const DartSnapshot> DartIsolate::GetIsolateSnapshot() const {
return isolate_snapshot_;
}
fml::RefPtr<const DartSnapshot> DartIsolate::GetSharedSnapshot() const {
return shared_snapshot_;
}
std::weak_ptr<DartIsolate> DartIsolate::GetWeakIsolatePtr() {
return std::static_pointer_cast<DartIsolate>(shared_from_this());
}
void DartIsolate::AddIsolateShutdownCallback(fml::closure closure) {
shutdown_callbacks_.emplace_back(
std::make_unique<AutoFireClosure>(std::move(closure)));
}
void DartIsolate::OnShutdownCallback() {
shutdown_callbacks_.clear();
if (isolate_shutdown_callback_) {
isolate_shutdown_callback_();
}
}
DartIsolate::AutoFireClosure::AutoFireClosure(fml::closure closure)
: closure_(std::move(closure)) {}
DartIsolate::AutoFireClosure::~AutoFireClosure() {
if (closure_) {
closure_();
}
}
} // namespace flutter