278 lines
9.3 KiB
C++
278 lines
9.3 KiB
C++
// Copyright 2004-present Facebook. All Rights Reserved.
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#include "Bridge.h"
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#ifdef WITH_FBSYSTRACE
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#include <fbsystrace.h>
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using fbsystrace::FbSystraceAsyncFlow;
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#endif
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#include <folly/json.h>
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#include <folly/Memory.h>
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#include <folly/MoveWrapper.h>
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#include "Platform.h"
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#include "SystraceSection.h"
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namespace facebook {
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namespace react {
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Bridge::Bridge(
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JSExecutorFactory* jsExecutorFactory,
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std::shared_ptr<MessageQueueThread> jsQueue,
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std::unique_ptr<ExecutorTokenFactory> executorTokenFactory,
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std::unique_ptr<BridgeCallback> callback) :
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m_callback(std::move(callback)),
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m_destroyed(std::make_shared<bool>(false)),
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m_executorTokenFactory(std::move(executorTokenFactory)) {
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std::unique_ptr<JSExecutor> mainExecutor = jsExecutorFactory->createJSExecutor(this, jsQueue);
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// cached to avoid locked map lookup in the common case
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m_mainExecutor = mainExecutor.get();
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m_mainExecutorToken = folly::make_unique<ExecutorToken>(registerExecutor(
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std::move(mainExecutor), jsQueue));
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}
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// This must be called on the same thread on which the constructor was called.
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Bridge::~Bridge() {
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CHECK(*m_destroyed) << "Bridge::destroy() must be called before deallocating the Bridge!";
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}
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void Bridge::loadApplicationScript(std::unique_ptr<const JSBigString> script,
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std::string sourceURL) {
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// TODO(t11144533): Add assert that we are on the correct thread
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m_mainExecutor->loadApplicationScript(std::move(script), std::move(sourceURL));
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}
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void Bridge::loadApplicationUnbundle(
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std::unique_ptr<JSModulesUnbundle> unbundle,
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std::unique_ptr<const JSBigString> startupScript,
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std::string startupScriptSourceURL) {
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runOnExecutorQueue(
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*m_mainExecutorToken,
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[unbundle=folly::makeMoveWrapper(std::move(unbundle)),
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startupScript=folly::makeMoveWrapper(std::move(startupScript)),
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startupScriptSourceURL=std::move(startupScriptSourceURL)]
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(JSExecutor* executor) mutable {
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executor->setJSModulesUnbundle(unbundle.move());
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executor->loadApplicationScript(std::move(*startupScript),
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std::move(startupScriptSourceURL));
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});
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}
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void Bridge::callFunction(
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ExecutorToken executorToken,
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const std::string& moduleId,
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const std::string& methodId,
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const folly::dynamic& arguments,
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const std::string& tracingName) {
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#ifdef WITH_FBSYSTRACE
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int systraceCookie = m_systraceCookie++;
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FbSystraceAsyncFlow::begin(
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TRACE_TAG_REACT_CXX_BRIDGE,
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tracingName.c_str(),
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systraceCookie);
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#endif
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runOnExecutorQueue(executorToken, [moduleId, methodId, arguments, tracingName, systraceCookie] (JSExecutor* executor) {
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#ifdef WITH_FBSYSTRACE
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FbSystraceAsyncFlow::end(
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TRACE_TAG_REACT_CXX_BRIDGE,
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tracingName.c_str(),
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systraceCookie);
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SystraceSection s(tracingName.c_str());
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#endif
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// This is safe because we are running on the executor's thread: it won't
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// destruct until after it's been unregistered (which we check above) and
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// that will happen on this thread
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executor->callFunction(moduleId, methodId, arguments);
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});
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}
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void Bridge::invokeCallback(ExecutorToken executorToken, const double callbackId, const folly::dynamic& arguments) {
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#ifdef WITH_FBSYSTRACE
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int systraceCookie = m_systraceCookie++;
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FbSystraceAsyncFlow::begin(
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TRACE_TAG_REACT_CXX_BRIDGE,
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"<callback>",
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systraceCookie);
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#endif
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runOnExecutorQueue(executorToken, [callbackId, arguments, systraceCookie] (JSExecutor* executor) {
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#ifdef WITH_FBSYSTRACE
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FbSystraceAsyncFlow::end(
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TRACE_TAG_REACT_CXX_BRIDGE,
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"<callback>",
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systraceCookie);
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SystraceSection s("Bridge.invokeCallback");
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#endif
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executor->invokeCallback(callbackId, arguments);
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});
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}
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void Bridge::setGlobalVariable(std::string propName,
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std::unique_ptr<const JSBigString> jsonValue) {
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runOnExecutorQueue(
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*m_mainExecutorToken,
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[propName=std::move(propName), jsonValue=folly::makeMoveWrapper(std::move(jsonValue))]
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(JSExecutor* executor) mutable {
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executor->setGlobalVariable(propName, jsonValue.move());
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});
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}
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void* Bridge::getJavaScriptContext() {
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// TODO(cjhopman): this seems unsafe unless we require that it is only called on the main js queue.
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return m_mainExecutor->getJavaScriptContext();
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}
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bool Bridge::supportsProfiling() {
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// Intentionally doesn't post to jsqueue. supportsProfiling() can be called from any thread.
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return m_mainExecutor->supportsProfiling();
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}
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void Bridge::startProfiler(const std::string& title) {
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runOnExecutorQueue(*m_mainExecutorToken, [=] (JSExecutor* executor) {
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executor->startProfiler(title);
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});
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}
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void Bridge::stopProfiler(const std::string& title, const std::string& filename) {
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runOnExecutorQueue(*m_mainExecutorToken, [=] (JSExecutor* executor) {
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executor->stopProfiler(title, filename);
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});
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}
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void Bridge::handleMemoryPressureModerate() {
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runOnExecutorQueue(*m_mainExecutorToken, [=] (JSExecutor* executor) {
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executor->handleMemoryPressureModerate();
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});
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}
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void Bridge::handleMemoryPressureCritical() {
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runOnExecutorQueue(*m_mainExecutorToken, [=] (JSExecutor* executor) {
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executor->handleMemoryPressureCritical();
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});
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}
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void Bridge::callNativeModules(JSExecutor& executor, const std::string& callJSON, bool isEndOfBatch) {
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// This is called by the executor and thus runs on the executor's own queue.
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// This means that the executor has not yet been unregistered (and we are
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// guaranteed to be able to get the token).
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m_callback->onCallNativeModules(getTokenForExecutor(executor), callJSON, isEndOfBatch);
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}
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MethodCallResult Bridge::callSerializableNativeHook(unsigned int moduleId, unsigned int methodId, const std::string& argsJSON) {
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return m_callback->callSerializableNativeHook(*m_mainExecutorToken, moduleId, methodId, folly::parseJson(argsJSON));
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}
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ExecutorToken Bridge::getMainExecutorToken() const {
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return *m_mainExecutorToken.get();
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}
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ExecutorToken Bridge::registerExecutor(
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std::unique_ptr<JSExecutor> executor,
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std::shared_ptr<MessageQueueThread> messageQueueThread) {
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auto token = m_executorTokenFactory->createExecutorToken();
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std::lock_guard<std::mutex> registrationGuard(m_registrationMutex);
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CHECK(m_executorTokenMap.find(executor.get()) == m_executorTokenMap.end())
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<< "Trying to register an already registered executor!";
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m_executorTokenMap.emplace(executor.get(), token);
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m_executorMap.emplace(
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token,
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folly::make_unique<ExecutorRegistration>(std::move(executor), std::move(messageQueueThread)));
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return token;
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}
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std::unique_ptr<JSExecutor> Bridge::unregisterExecutor(ExecutorToken executorToken) {
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std::unique_ptr<JSExecutor> executor;
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{
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std::lock_guard<std::mutex> registrationGuard(m_registrationMutex);
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auto it = m_executorMap.find(executorToken);
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CHECK(it != m_executorMap.end())
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<< "Trying to unregister an executor that was never registered!";
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executor = std::move(it->second->executor_);
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m_executorMap.erase(it);
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m_executorTokenMap.erase(executor.get());
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}
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m_callback->onExecutorUnregistered(executorToken);
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return executor;
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}
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MessageQueueThread* Bridge::getMessageQueueThread(const ExecutorToken& executorToken) {
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std::lock_guard<std::mutex> registrationGuard(m_registrationMutex);
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auto it = m_executorMap.find(executorToken);
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if (it == m_executorMap.end()) {
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return nullptr;
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}
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return it->second->messageQueueThread_.get();
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}
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JSExecutor* Bridge::getExecutor(const ExecutorToken& executorToken) {
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std::lock_guard<std::mutex> registrationGuard(m_registrationMutex);
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auto it = m_executorMap.find(executorToken);
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if (it == m_executorMap.end()) {
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return nullptr;
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}
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return it->second->executor_.get();
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}
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ExecutorToken Bridge::getTokenForExecutor(JSExecutor& executor) {
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std::lock_guard<std::mutex> registrationGuard(m_registrationMutex);
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return m_executorTokenMap.at(&executor);
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}
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void Bridge::destroy() {
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auto executorMessageQueueThread = getMessageQueueThread(*m_mainExecutorToken);
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executorMessageQueueThread->runOnQueueSync([this, &executorMessageQueueThread] {
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executorMessageQueueThread->quitSynchronous();
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*m_destroyed = true;
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m_mainExecutor = nullptr;
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std::unique_ptr<JSExecutor> mainExecutor = unregisterExecutor(*m_mainExecutorToken);
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mainExecutor->destroy();
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});
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}
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void Bridge::runOnExecutorQueue(ExecutorToken executorToken, std::function<void(JSExecutor*)> task) {
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if (*m_destroyed) {
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return;
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}
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auto executorMessageQueueThread = getMessageQueueThread(executorToken);
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if (executorMessageQueueThread == nullptr) {
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LOG(WARNING) << "Dropping JS action for executor that has been unregistered...";
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return;
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}
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std::shared_ptr<bool> isDestroyed = m_destroyed;
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executorMessageQueueThread->runOnQueue([this, isDestroyed, executorToken, task=std::move(task)] {
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if (*isDestroyed) {
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return;
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}
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JSExecutor *executor = getExecutor(executorToken);
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if (executor == nullptr) {
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LOG(WARNING) << "Dropping JS call for executor that has been unregistered...";
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return;
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}
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// The executor is guaranteed to be valid for the duration of the task because:
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// 1. the executor is only destroyed after it is unregistered
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// 2. the executor is unregistered on this queue
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// 3. we just confirmed that the executor hasn't been unregistered above
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task(executor);
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});
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}
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} }
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