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webkit / WebKit / 5549cdc34b021e0f42036a79dc545fd3130e6d99 / . / Source / WebCore / workers / service / server / SWServer.cpp
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/*
* Copyright (C) 2017 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#include "SWServer.h"
#if ENABLE(SERVICE_WORKER)
#include "ExceptionCode.h"
#include "ExceptionData.h"
#include "Logging.h"
#include "RegistrationStore.h"
#include "SWOriginStore.h"
#include "SWServerJobQueue.h"
#include "SWServerRegistration.h"
#include "SWServerToContextConnection.h"
#include "SWServerWorker.h"
#include "SecurityOrigin.h"
#include "ServiceWorkerClientType.h"
#include "ServiceWorkerContextData.h"
#include "ServiceWorkerFetchResult.h"
#include "ServiceWorkerJobData.h"
#include <wtf/CompletionHandler.h>
#include <wtf/NeverDestroyed.h>
#include <wtf/text/WTFString.h>
namespace WebCore {
static Seconds terminationDelay { 10_s };
SWServer::Connection::Connection(SWServer& server)
: m_server(server)
, m_identifier(generateObjectIdentifier<SWServerConnectionIdentifierType>())
{
m_server.registerConnection(*this);
}
SWServer::Connection::~Connection()
{
m_server.unregisterConnection(*this);
}
HashSet<SWServer*>& SWServer::allServers()
{
static NeverDestroyed<HashSet<SWServer*>> servers;
return servers;
}
SWServer::~SWServer()
{
RELEASE_ASSERT(m_connections.isEmpty());
RELEASE_ASSERT(m_registrations.isEmpty());
RELEASE_ASSERT(m_jobQueues.isEmpty());
allServers().remove(this);
}
SWServerWorker* SWServer::workerByID(ServiceWorkerIdentifier identifier) const
{
auto* worker = SWServerWorker::existingWorkerForIdentifier(identifier);
ASSERT(!worker || &worker->server() == this);
return worker;
}
std::optional<ServiceWorkerClientData> SWServer::serviceWorkerClientWithOriginByID(const ClientOrigin& clientOrigin, const ServiceWorkerClientIdentifier& clientIdentifier) const
{
auto iterator = m_clientIdentifiersPerOrigin.find(clientOrigin);
if (iterator == m_clientIdentifiersPerOrigin.end())
return std::nullopt;
if (!iterator->value.identifiers.contains(clientIdentifier))
return std::nullopt;
auto clientIterator = m_clientsById.find(clientIdentifier);
ASSERT(clientIterator != m_clientsById.end());
return clientIterator->value;
}
SWServerWorker* SWServer::activeWorkerFromRegistrationID(ServiceWorkerRegistrationIdentifier identifier)
{
auto* registration = m_registrationsByID.get(identifier);
return registration ? registration->activeWorker() : nullptr;
}
SWServerRegistration* SWServer::getRegistration(const ServiceWorkerRegistrationKey& registrationKey)
{
return m_registrations.get(registrationKey);
}
void SWServer::registrationStoreImportComplete()
{
ASSERT(!m_importCompleted);
m_importCompleted = true;
m_originStore->importComplete();
auto clearCallbacks = WTFMove(m_clearCompletionCallbacks);
for (auto& callback : clearCallbacks)
callback();
performGetOriginsWithRegistrationsCallbacks();
}
void SWServer::registrationStoreDatabaseFailedToOpen()
{
if (!m_importCompleted)
registrationStoreImportComplete();
}
void SWServer::addRegistrationFromStore(ServiceWorkerContextData&& data)
{
// Pages should not have been able to make a new registration to this key while the import was still taking place.
ASSERT(!m_registrations.contains(data.registration.key));
auto registration = std::make_unique<SWServerRegistration>(*this, data.registration.key, data.registration.updateViaCache, data.registration.scopeURL, data.scriptURL);
registration->setLastUpdateTime(data.registration.lastUpdateTime);
auto registrationPtr = registration.get();
addRegistration(WTFMove(registration));
auto worker = SWServerWorker::create(*this, *registrationPtr, data.scriptURL, data.script, data.contentSecurityPolicy, data.workerType, data.serviceWorkerIdentifier);
registrationPtr->updateRegistrationState(ServiceWorkerRegistrationState::Active, worker.ptr());
worker->setState(ServiceWorkerState::Activated);
}
void SWServer::addRegistration(std::unique_ptr<SWServerRegistration>&& registration)
{
auto key = registration->key();
auto* registrationPtr = registration.get();
auto addResult1 = m_registrations.add(key, WTFMove(registration));
ASSERT_UNUSED(addResult1, addResult1.isNewEntry);
auto addResult2 = m_registrationsByID.add(registrationPtr->identifier(), registrationPtr);
ASSERT_UNUSED(addResult2, addResult2.isNewEntry);
m_originStore->add(key.topOrigin());
}
void SWServer::removeRegistration(const ServiceWorkerRegistrationKey& key)
{
auto topOrigin = key.topOrigin();
auto registration = m_registrations.take(key);
ASSERT(registration);
bool wasRemoved = m_registrationsByID.remove(registration->identifier());
ASSERT_UNUSED(wasRemoved, wasRemoved);
m_originStore->remove(topOrigin);
m_registrationStore.removeRegistration(*registration);
}
Vector<ServiceWorkerRegistrationData> SWServer::getRegistrations(const SecurityOriginData& topOrigin, const URL& clientURL)
{
Vector<SWServerRegistration*> matchingRegistrations;
for (auto& item : m_registrations) {
if (!item.value->isUninstalling() && item.key.originIsMatching(topOrigin, clientURL))
matchingRegistrations.append(item.value.get());
}
// The specification mandates that registrations are returned in the insertion order.
std::sort(matchingRegistrations.begin(), matchingRegistrations.end(), [](auto& a, auto& b) {
return a->creationTime() < b->creationTime();
});
Vector<ServiceWorkerRegistrationData> matchingRegistrationDatas;
matchingRegistrationDatas.reserveInitialCapacity(matchingRegistrations.size());
for (auto* registration : matchingRegistrations)
matchingRegistrationDatas.uncheckedAppend(registration->data());
return matchingRegistrationDatas;
}
void SWServer::clearAll(CompletionHandler<void()>&& completionHandler)
{
if (!m_importCompleted) {
m_clearCompletionCallbacks.append([this, completionHandler = WTFMove(completionHandler)] () mutable {
ASSERT(m_importCompleted);
clearAll(WTFMove(completionHandler));
});
return;
}
m_jobQueues.clear();
while (!m_registrations.isEmpty())
m_registrations.begin()->value->clear();
ASSERT(m_registrationsByID.isEmpty());
m_pendingContextDatas.clear();
m_originStore->clearAll();
m_registrationStore.clearAll(WTFMove(completionHandler));
}
void SWServer::clear(const SecurityOriginData& securityOrigin, CompletionHandler<void()>&& completionHandler)
{
if (!m_importCompleted) {
m_clearCompletionCallbacks.append([this, securityOrigin, completionHandler = WTFMove(completionHandler)] () mutable {
ASSERT(m_importCompleted);
clear(securityOrigin, WTFMove(completionHandler));
});
return;
}
m_jobQueues.removeIf([&](auto& keyAndValue) {
return keyAndValue.key.relatesToOrigin(securityOrigin);
});
Vector<SWServerRegistration*> registrationsToRemove;
for (auto& keyAndValue : m_registrations) {
if (keyAndValue.key.relatesToOrigin(securityOrigin))
registrationsToRemove.append(keyAndValue.value.get());
}
for (auto& contextDatas : m_pendingContextDatas.values()) {
contextDatas.removeAllMatching([&](auto& contextData) {
return contextData.registration.key.relatesToOrigin(securityOrigin);
});
}
if (registrationsToRemove.isEmpty()) {
completionHandler();
return;
}
// Calling SWServerRegistration::clear() takes care of updating m_registrations, m_originStore and m_registrationStore.
for (auto* registration : registrationsToRemove)
registration->clear();
m_registrationStore.flushChanges(WTFMove(completionHandler));
}
void SWServer::Connection::finishFetchingScriptInServer(const ServiceWorkerFetchResult& result)
{
m_server.scriptFetchFinished(*this, result);
}
void SWServer::Connection::didResolveRegistrationPromise(const ServiceWorkerRegistrationKey& key)
{
m_server.didResolveRegistrationPromise(*this, key);
}
void SWServer::Connection::addServiceWorkerRegistrationInServer(ServiceWorkerRegistrationIdentifier identifier)
{
m_server.addClientServiceWorkerRegistration(*this, identifier);
}
void SWServer::Connection::removeServiceWorkerRegistrationInServer(ServiceWorkerRegistrationIdentifier identifier)
{
m_server.removeClientServiceWorkerRegistration(*this, identifier);
}
void SWServer::Connection::syncTerminateWorker(ServiceWorkerIdentifier identifier)
{
if (auto* worker = m_server.workerByID(identifier))
m_server.syncTerminateWorker(*worker);
}
SWServer::SWServer(UniqueRef<SWOriginStore>&& originStore, String&& registrationDatabaseDirectory, PAL::SessionID sessionID)
: m_originStore(WTFMove(originStore))
, m_registrationStore(*this, WTFMove(registrationDatabaseDirectory))
, m_sessionID(sessionID)
{
UNUSED_PARAM(registrationDatabaseDirectory);
allServers().add(this);
}
// https://w3c.github.io/ServiceWorker/#schedule-job-algorithm
void SWServer::scheduleJob(ServiceWorkerJobData&& jobData)
{
ASSERT(m_connections.contains(jobData.connectionIdentifier()));
// FIXME: Per the spec, check if this job is equivalent to the last job on the queue.
// If it is, stack it along with that job.
auto& jobQueue = *m_jobQueues.ensure(jobData.registrationKey(), [this, &jobData] {
return std::make_unique<SWServerJobQueue>(*this, jobData.registrationKey());
}).iterator->value;
jobQueue.enqueueJob(jobData);
if (jobQueue.size() == 1)
jobQueue.runNextJob();
}
void SWServer::rejectJob(const ServiceWorkerJobData& jobData, const ExceptionData& exceptionData)
{
LOG(ServiceWorker, "Rejected ServiceWorker job %s in server", jobData.identifier().loggingString().utf8().data());
auto* connection = m_connections.get(jobData.connectionIdentifier());
if (!connection)
return;
connection->rejectJobInClient(jobData.identifier().jobIdentifier, exceptionData);
}
void SWServer::resolveRegistrationJob(const ServiceWorkerJobData& jobData, const ServiceWorkerRegistrationData& registrationData, ShouldNotifyWhenResolved shouldNotifyWhenResolved)
{
LOG(ServiceWorker, "Resolved ServiceWorker job %s in server with registration %s", jobData.identifier().loggingString().utf8().data(), registrationData.identifier.loggingString().utf8().data());
auto* connection = m_connections.get(jobData.connectionIdentifier());
if (!connection)
return;
connection->resolveRegistrationJobInClient(jobData.identifier().jobIdentifier, registrationData, shouldNotifyWhenResolved);
}
void SWServer::resolveUnregistrationJob(const ServiceWorkerJobData& jobData, const ServiceWorkerRegistrationKey& registrationKey, bool unregistrationResult)
{
auto* connection = m_connections.get(jobData.connectionIdentifier());
if (!connection)
return;
connection->resolveUnregistrationJobInClient(jobData.identifier().jobIdentifier, registrationKey, unregistrationResult);
}
void SWServer::startScriptFetch(const ServiceWorkerJobData& jobData, FetchOptions::Cache cachePolicy)
{
LOG(ServiceWorker, "Server issuing startScriptFetch for current job %s in client", jobData.identifier().loggingString().utf8().data());
auto* connection = m_connections.get(jobData.connectionIdentifier());
ASSERT_WITH_MESSAGE(connection, "If the connection was lost, this job should have been cancelled");
if (connection)
connection->startScriptFetchInClient(jobData.identifier().jobIdentifier, jobData.registrationKey(), cachePolicy);
}
void SWServer::scriptFetchFinished(Connection& connection, const ServiceWorkerFetchResult& result)
{
LOG(ServiceWorker, "Server handling scriptFetchFinished for current job %s in client", result.jobDataIdentifier.loggingString().utf8().data());
ASSERT(m_connections.contains(result.jobDataIdentifier.connectionIdentifier));
auto jobQueue = m_jobQueues.get(result.registrationKey);
if (!jobQueue)
return;
jobQueue->scriptFetchFinished(connection, result);
}
void SWServer::scriptContextFailedToStart(const std::optional<ServiceWorkerJobDataIdentifier>& jobDataIdentifier, SWServerWorker& worker, const String& message)
{
if (!jobDataIdentifier)
return;
RELEASE_LOG_ERROR(ServiceWorker, "%p - SWServer::scriptContextFailedToStart: Failed to start SW for job %s, error: %s", this, jobDataIdentifier->loggingString().utf8().data(), message.utf8().data());
auto* jobQueue = m_jobQueues.get(worker.registrationKey());
if (!jobQueue || !jobQueue->isCurrentlyProcessingJob(*jobDataIdentifier)) {
// The job which started this worker has been canceled, terminate this worker.
terminatePreinstallationWorker(worker);
return;
}
jobQueue->scriptContextFailedToStart(*jobDataIdentifier, worker.identifier(), message);
}
void SWServer::scriptContextStarted(const std::optional<ServiceWorkerJobDataIdentifier>& jobDataIdentifier, SWServerWorker& worker)
{
if (!jobDataIdentifier)
return;
auto* jobQueue = m_jobQueues.get(worker.registrationKey());
if (!jobQueue || !jobQueue->isCurrentlyProcessingJob(*jobDataIdentifier)) {
// The job which started this worker has been canceled, terminate this worker.
terminatePreinstallationWorker(worker);
return;
}
jobQueue->scriptContextStarted(*jobDataIdentifier, worker.identifier());
}
void SWServer::terminatePreinstallationWorker(SWServerWorker& worker)
{
worker.terminate();
auto* registration = getRegistration(worker.registrationKey());
if (registration && registration->preInstallationWorker() == &worker)
registration->setPreInstallationWorker(nullptr);
}
void SWServer::didFinishInstall(const std::optional<ServiceWorkerJobDataIdentifier>& jobDataIdentifier, SWServerWorker& worker, bool wasSuccessful)
{
if (!jobDataIdentifier)
return;
if (wasSuccessful)
RELEASE_LOG(ServiceWorker, "%p - SWServer::didFinishInstall: Successfuly finished SW install for job %s", this, jobDataIdentifier->loggingString().utf8().data());
else
RELEASE_LOG_ERROR(ServiceWorker, "%p - SWServer::didFinishInstall: Failed SW install for job %s", this, jobDataIdentifier->loggingString().utf8().data());
if (auto* jobQueue = m_jobQueues.get(worker.registrationKey()))
jobQueue->didFinishInstall(*jobDataIdentifier, worker.identifier(), wasSuccessful);
}
void SWServer::didFinishActivation(SWServerWorker& worker)
{
RELEASE_LOG(ServiceWorker, "%p - SWServer::didFinishActivation: Finished activation for service worker %llu", this, worker.identifier().toUInt64());
auto* registration = getRegistration(worker.registrationKey());
if (!registration)
return;
m_registrationStore.updateRegistration(worker.contextData());
registration->didFinishActivation(worker.identifier());
}
// https://w3c.github.io/ServiceWorker/#clients-getall
void SWServer::matchAll(SWServerWorker& worker, const ServiceWorkerClientQueryOptions& options, const ServiceWorkerClientsMatchAllCallback& callback)
{
// FIXME: Support reserved client filtering.
// FIXME: Support WindowClient additional properties.
Vector<ServiceWorkerClientData> matchingClients;
forEachClientForOrigin(worker.origin(), [&](auto& clientData) {
if (!options.includeUncontrolled) {
auto registrationIdentifier = m_clientToControllingRegistration.get(clientData.identifier);
if (worker.data().registrationIdentifier != registrationIdentifier)
return;
if (&worker != this->activeWorkerFromRegistrationID(registrationIdentifier))
return;
}
if (options.type != ServiceWorkerClientType::All && options.type != clientData.type)
return;
matchingClients.append(clientData);
});
callback(WTFMove(matchingClients));
}
void SWServer::forEachClientForOrigin(const ClientOrigin& origin, const WTF::Function<void(ServiceWorkerClientData&)>& apply)
{
auto iterator = m_clientIdentifiersPerOrigin.find(origin);
if (iterator == m_clientIdentifiersPerOrigin.end())
return;
for (auto& clientIdentifier : iterator->value.identifiers) {
auto clientIterator = m_clientsById.find(clientIdentifier);
ASSERT(clientIterator != m_clientsById.end());
apply(clientIterator->value);
}
}
void SWServer::claim(SWServerWorker& worker)
{
auto& origin = worker.origin();
forEachClientForOrigin(origin, [&](auto& clientData) {
auto* registration = this->doRegistrationMatching(origin.topOrigin, clientData.url);
if (!(registration && registration->key() == worker.registrationKey()))
return;
auto result = m_clientToControllingRegistration.add(clientData.identifier, registration->identifier());
if (!result.isNewEntry) {
auto previousIdentifier = result.iterator->value;
if (previousIdentifier == registration->identifier())
return;
result.iterator->value = registration->identifier();
if (auto* controllingRegistration = m_registrationsByID.get(previousIdentifier))
controllingRegistration->removeClientUsingRegistration(clientData.identifier);
}
registration->controlClient(clientData.identifier);
});
}
void SWServer::didResolveRegistrationPromise(Connection& connection, const ServiceWorkerRegistrationKey& registrationKey)
{
ASSERT_UNUSED(connection, m_connections.contains(connection.identifier()));
if (auto* jobQueue = m_jobQueues.get(registrationKey))
jobQueue->didResolveRegistrationPromise();
}
void SWServer::addClientServiceWorkerRegistration(Connection& connection, ServiceWorkerRegistrationIdentifier identifier)
{
auto* registration = m_registrationsByID.get(identifier);
if (!registration) {
LOG_ERROR("Request to add client-side ServiceWorkerRegistration to non-existent server-side registration");
return;
}
registration->addClientServiceWorkerRegistration(connection.identifier());
}
void SWServer::removeClientServiceWorkerRegistration(Connection& connection, ServiceWorkerRegistrationIdentifier identifier)
{
if (auto* registration = m_registrationsByID.get(identifier))
registration->removeClientServiceWorkerRegistration(connection.identifier());
}
void SWServer::updateWorker(Connection&, const ServiceWorkerJobDataIdentifier& jobDataIdentifier, SWServerRegistration& registration, const URL& url, const String& script, const ContentSecurityPolicyResponseHeaders& contentSecurityPolicy, WorkerType type)
{
tryInstallContextData({ jobDataIdentifier, registration.data(), generateObjectIdentifier<ServiceWorkerIdentifierType>(), script, contentSecurityPolicy, url, type, sessionID(), false });
}
void SWServer::tryInstallContextData(ServiceWorkerContextData&& data)
{
auto securityOrigin = SecurityOriginData::fromURL(data.scriptURL);
auto* connection = SWServerToContextConnection::connectionForOrigin(securityOrigin);
if (!connection) {
m_pendingContextDatas.ensure(WTFMove(securityOrigin), [] {
return Vector<ServiceWorkerContextData> { };
}).iterator->value.append(WTFMove(data));
return;
}
installContextData(data);
}
void SWServer::serverToContextConnectionCreated(SWServerToContextConnection& contextConnection)
{
auto pendingContextDatas = m_pendingContextDatas.take(contextConnection.securityOrigin());
for (auto& data : pendingContextDatas)
installContextData(data);
auto serviceWorkerRunRequests = m_serviceWorkerRunRequests.take(contextConnection.securityOrigin());
for (auto& item : serviceWorkerRunRequests) {
bool success = runServiceWorker(item.key);
for (auto& callback : item.value)
callback(success ? &contextConnection : nullptr);
}
}
void SWServer::installContextData(const ServiceWorkerContextData& data)
{
ASSERT_WITH_MESSAGE(!data.loadedFromDisk, "Workers we just read from disk should only be launched as needed");
if (data.jobDataIdentifier) {
// Abort if the job that scheduled this has been cancelled.
auto* jobQueue = m_jobQueues.get(data.registration.key);
if (!jobQueue || !jobQueue->isCurrentlyProcessingJob(*data.jobDataIdentifier))
return;
}
auto* registration = m_registrations.get(data.registration.key);
RELEASE_ASSERT(registration);
auto worker = SWServerWorker::create(*this, *registration, data.scriptURL, data.script, data.contentSecurityPolicy, data.workerType, data.serviceWorkerIdentifier);
auto* connection = worker->contextConnection();
ASSERT(connection);
registration->setPreInstallationWorker(worker.ptr());
worker->setState(SWServerWorker::State::Running);
auto result = m_runningOrTerminatingWorkers.add(data.serviceWorkerIdentifier, WTFMove(worker));
ASSERT_UNUSED(result, result.isNewEntry);
connection->installServiceWorkerContext(data, m_sessionID);
}
void SWServer::runServiceWorkerIfNecessary(ServiceWorkerIdentifier identifier, RunServiceWorkerCallback&& callback)
{
auto* worker = workerByID(identifier);
if (!worker) {
callback(nullptr);
return;
}
auto* contextConnection = worker->contextConnection();
if (worker->isRunning()) {
ASSERT(contextConnection);
callback(contextConnection);
return;
}
if (!contextConnection) {
auto& serviceWorkerRunRequestsForOrigin = m_serviceWorkerRunRequests.ensure(worker->securityOrigin(), [] {
return HashMap<ServiceWorkerIdentifier, Vector<RunServiceWorkerCallback>> { };
}).iterator->value;
serviceWorkerRunRequestsForOrigin.ensure(identifier, [&] {
return Vector<RunServiceWorkerCallback> { };
}).iterator->value.append(WTFMove(callback));
return;
}
bool success = runServiceWorker(identifier);
callback(success ? contextConnection : nullptr);
}
bool SWServer::runServiceWorker(ServiceWorkerIdentifier identifier)
{
auto* worker = workerByID(identifier);
if (!worker)
return false;
// If the registration for a working has been removed then the request to run
// the worker is moot.
if (!getRegistration(worker->registrationKey()))
return false;
auto addResult = m_runningOrTerminatingWorkers.add(identifier, *worker);
ASSERT_UNUSED(addResult, addResult.isNewEntry || worker->isTerminating());
worker->setState(SWServerWorker::State::Running);
auto* contextConnection = worker->contextConnection();
ASSERT(contextConnection);
contextConnection->installServiceWorkerContext(worker->contextData(), m_sessionID);
return true;
}
void SWServer::terminateWorker(SWServerWorker& worker)
{
terminateWorkerInternal(worker, Asynchronous);
}
void SWServer::syncTerminateWorker(SWServerWorker& worker)
{
terminateWorkerInternal(worker, Synchronous);
}
void SWServer::terminateWorkerInternal(SWServerWorker& worker, TerminationMode mode)
{
ASSERT(m_runningOrTerminatingWorkers.get(worker.identifier()) == &worker);
ASSERT(worker.isRunning());
RELEASE_LOG(ServiceWorker, "%p - SWServer::terminateWorkerInternal: Terminating service worker %llu", this, worker.identifier().toUInt64());
worker.setState(SWServerWorker::State::Terminating);
auto* contextConnection = worker.contextConnection();
ASSERT(contextConnection);
if (!contextConnection) {
LOG_ERROR("Request to terminate a worker whose context connection does not exist");
workerContextTerminated(worker);
return;
}
switch (mode) {
case Asynchronous:
contextConnection->terminateWorker(worker.identifier());
break;
case Synchronous:
contextConnection->syncTerminateWorker(worker.identifier());
break;
};
}
void SWServer::markAllWorkersForOriginAsTerminated(const SecurityOriginData& securityOrigin)
{
Vector<SWServerWorker*> terminatedWorkers;
for (auto& worker : m_runningOrTerminatingWorkers.values()) {
if (worker->securityOrigin() == securityOrigin)
terminatedWorkers.append(worker.ptr());
}
for (auto& terminatedWorker : terminatedWorkers)
workerContextTerminated(*terminatedWorker);
}
void SWServer::workerContextTerminated(SWServerWorker& worker)
{
worker.setState(SWServerWorker::State::NotRunning);
if (auto* jobQueue = m_jobQueues.get(worker.registrationKey()))
jobQueue->cancelJobsFromServiceWorker(worker.identifier());
// At this point if no registrations are referencing the worker then it will be destroyed,
// removing itself from the m_workersByID map.
auto result = m_runningOrTerminatingWorkers.take(worker.identifier());
ASSERT_UNUSED(result, result && result->ptr() == &worker);
}
void SWServer::fireInstallEvent(SWServerWorker& worker)
{
auto* contextConnection = worker.contextConnection();
if (!contextConnection) {
LOG_ERROR("Request to fire install event on a worker whose context connection does not exist");
return;
}
contextConnection->fireInstallEvent(worker.identifier());
}
void SWServer::fireActivateEvent(SWServerWorker& worker)
{
auto* contextConnection = worker.contextConnection();
if (!contextConnection) {
LOG_ERROR("Request to fire install event on a worker whose context connection does not exist");
return;
}
contextConnection->fireActivateEvent(worker.identifier());
}
void SWServer::registerConnection(Connection& connection)
{
auto result = m_connections.add(connection.identifier(), nullptr);
ASSERT(result.isNewEntry);
result.iterator->value = &connection;
}
void SWServer::unregisterConnection(Connection& connection)
{
ASSERT(m_connections.get(connection.identifier()) == &connection);
m_connections.remove(connection.identifier());
for (auto& registration : m_registrations.values())
registration->unregisterServerConnection(connection.identifier());
for (auto& jobQueue : m_jobQueues.values())
jobQueue->cancelJobsFromConnection(connection.identifier());
}
SWServerRegistration* SWServer::doRegistrationMatching(const SecurityOriginData& topOrigin, const URL& clientURL)
{
SWServerRegistration* selectedRegistration = nullptr;
for (auto& registration : m_registrations.values()) {
if (!registration->key().isMatching(topOrigin, clientURL))
continue;
if (!selectedRegistration || selectedRegistration->key().scopeLength() < registration->key().scopeLength())
selectedRegistration = registration.get();
}
return (selectedRegistration && !selectedRegistration->isUninstalling()) ? selectedRegistration : nullptr;
}
SWServerRegistration* SWServer::registrationFromServiceWorkerIdentifier(ServiceWorkerIdentifier identifier)
{
auto iterator = m_runningOrTerminatingWorkers.find(identifier);
if (iterator == m_runningOrTerminatingWorkers.end())
return nullptr;
return m_registrations.get(iterator->value->registrationKey());
}
void SWServer::registerServiceWorkerClient(ClientOrigin&& clientOrigin, ServiceWorkerClientData&& data, const std::optional<ServiceWorkerRegistrationIdentifier>& controllingServiceWorkerRegistrationIdentifier)
{
auto clientIdentifier = data.identifier;
ASSERT(!m_clientsById.contains(clientIdentifier));
m_clientsById.add(clientIdentifier, WTFMove(data));
auto& clientIdentifiersForOrigin = m_clientIdentifiersPerOrigin.ensure(clientOrigin, [] {
return Clients { };
}).iterator->value;
ASSERT(!clientIdentifiersForOrigin.identifiers.contains(clientIdentifier));
clientIdentifiersForOrigin.identifiers.append(clientIdentifier);
clientIdentifiersForOrigin.terminateServiceWorkersTimer = nullptr;
m_clientsBySecurityOrigin.ensure(clientOrigin.clientOrigin, [] {
return HashSet<ServiceWorkerClientIdentifier> { };
}).iterator->value.add(clientIdentifier);
if (!controllingServiceWorkerRegistrationIdentifier)
return;
auto* controllingRegistration = m_registrationsByID.get(*controllingServiceWorkerRegistrationIdentifier);
if (!controllingRegistration || !controllingRegistration->activeWorker())
return;
controllingRegistration->addClientUsingRegistration(clientIdentifier);
ASSERT(!m_clientToControllingRegistration.contains(clientIdentifier));
m_clientToControllingRegistration.add(clientIdentifier, *controllingServiceWorkerRegistrationIdentifier);
}
void SWServer::unregisterServiceWorkerClient(const ClientOrigin& clientOrigin, ServiceWorkerClientIdentifier clientIdentifier)
{
bool wasRemoved = m_clientsById.remove(clientIdentifier);
ASSERT_UNUSED(wasRemoved, wasRemoved);
auto iterator = m_clientIdentifiersPerOrigin.find(clientOrigin);
ASSERT(iterator != m_clientIdentifiersPerOrigin.end());
auto& clientIdentifiers = iterator->value.identifiers;
clientIdentifiers.removeFirstMatching([&] (const auto& identifier) {
return clientIdentifier == identifier;
});
if (clientIdentifiers.isEmpty()) {
ASSERT(!iterator->value.terminateServiceWorkersTimer);
iterator->value.terminateServiceWorkersTimer = std::make_unique<Timer>([clientOrigin, this] {
for (auto& worker : m_runningOrTerminatingWorkers.values()) {
if (worker->isRunning() && worker->origin() == clientOrigin)
terminateWorker(worker);
}
if (!m_clientsBySecurityOrigin.contains(clientOrigin.clientOrigin)) {
if (auto* connection = SWServerToContextConnection::connectionForOrigin(clientOrigin.clientOrigin))
connection->connectionMayNoLongerBeNeeded();
}
m_clientIdentifiersPerOrigin.remove(clientOrigin);
});
iterator->value.terminateServiceWorkersTimer->startOneShot(m_shouldDisableServiceWorkerProcessTerminationDelay ? 0_s : terminationDelay);
}
auto clientsBySecurityOriginIterator = m_clientsBySecurityOrigin.find(clientOrigin.clientOrigin);
ASSERT(clientsBySecurityOriginIterator != m_clientsBySecurityOrigin.end());
auto& clientsForSecurityOrigin = clientsBySecurityOriginIterator->value;
clientsForSecurityOrigin.remove(clientIdentifier);
if (clientsForSecurityOrigin.isEmpty())
m_clientsBySecurityOrigin.remove(clientsBySecurityOriginIterator);
auto registrationIterator = m_clientToControllingRegistration.find(clientIdentifier);
if (registrationIterator == m_clientToControllingRegistration.end())
return;
if (auto* registration = m_registrationsByID.get(registrationIterator->value))
registration->removeClientUsingRegistration(clientIdentifier);
m_clientToControllingRegistration.remove(registrationIterator);
}
bool SWServer::needsServerToContextConnectionForOrigin(const SecurityOriginData& securityOrigin) const
{
return m_clientsBySecurityOrigin.contains(securityOrigin);
}
void SWServer::resolveRegistrationReadyRequests(SWServerRegistration& registration)
{
for (auto* connection : m_connections.values())
connection->resolveRegistrationReadyRequests(registration);
}
void SWServer::Connection::whenRegistrationReady(uint64_t registrationReadyRequestIdentifier, const SecurityOriginData& topOrigin, const URL& clientURL)
{
if (auto* registration = doRegistrationMatching(topOrigin, clientURL)) {
if (registration->activeWorker()) {
registrationReady(registrationReadyRequestIdentifier, registration->data());
return;
}
}
m_registrationReadyRequests.append({ topOrigin, clientURL, registrationReadyRequestIdentifier });
}
void SWServer::Connection::resolveRegistrationReadyRequests(SWServerRegistration& registration)
{
m_registrationReadyRequests.removeAllMatching([&](auto& request) {
if (!registration.key().isMatching(request.topOrigin, request.clientURL))
return false;
this->registrationReady(request.identifier, registration.data());
return true;
});
}
void SWServer::getOriginsWithRegistrations(Function<void(const HashSet<SecurityOriginData>&)>&& callback)
{
m_getOriginsWithRegistrationsCallbacks.append(WTFMove(callback));
if (m_importCompleted)
performGetOriginsWithRegistrationsCallbacks();
}
void SWServer::performGetOriginsWithRegistrationsCallbacks()
{
ASSERT(isMainThread());
ASSERT(m_importCompleted);
if (m_getOriginsWithRegistrationsCallbacks.isEmpty())
return;
HashSet<SecurityOriginData> originsWithRegistrations;
for (auto& key : m_registrations.keys()) {
originsWithRegistrations.add(key.topOrigin());
originsWithRegistrations.add(SecurityOriginData { key.scope().protocol().toString(), key.scope().host(), key.scope().port() });
}
auto callbacks = WTFMove(m_getOriginsWithRegistrationsCallbacks);
for (auto& callback : callbacks)
callback(originsWithRegistrations);
}
} // namespace WebCore
#endif // ENABLE(SERVICE_WORKER)