/*
* Copyright (c) 2024, Andrew Kaster <andrew@ladybird.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibGC/Heap.h>
#include <LibJS/Runtime/VM.h>
#include <LibURL/URL.h>
#include <LibWeb/DOMURL/DOMURL.h>
#include <LibWeb/Fetch/Fetching/Fetching.h>
#include <LibWeb/Fetch/Infrastructure/FetchController.h>
#include <LibWeb/Fetch/Response.h>
#include <LibWeb/HTML/Scripting/ClassicScript.h>
#include <LibWeb/HTML/Scripting/Environments.h>
#include <LibWeb/HTML/Scripting/Fetching.h>
#include <LibWeb/HTML/Scripting/ModuleMap.h>
#include <LibWeb/HTML/Scripting/ModuleScript.h>
#include <LibWeb/HTML/Scripting/Script.h>
#include <LibWeb/HTML/Scripting/TemporaryExecutionContext.h>
#include <LibWeb/SecureContexts/AbstractOperations.h>
#include <LibWeb/ServiceWorker/Job.h>
#include <LibWeb/ServiceWorker/Registration.h>
#include <LibWeb/WebIDL/Promise.h>
namespace Web::ServiceWorker {
static void run_job(JS::VM&, JobQueue&);
static void finish_job(JS::VM&, GC::Ref<Job>);
static void resolve_job_promise(GC::Ref<Job>, Optional<Registration const&>, JS::Value = JS::js_null());
template<typename Error>
static void reject_job_promise(GC::Ref<Job>, String message);
static void register_(JS::VM&, GC::Ref<Job>);
static void update(JS::VM&, GC::Ref<Job>);
static void unregister(JS::VM&, GC::Ref<Job>);
GC_DEFINE_ALLOCATOR(Job);
// https://w3c.github.io/ServiceWorker/#create-job-algorithm
GC::Ref<Job> Job::create(JS::VM& vm, Job::Type type, StorageAPI::StorageKey storage_key, URL::URL scope_url, URL::URL script_url, GC::Ptr<WebIDL::Promise> promise, GC::Ptr<HTML::EnvironmentSettingsObject> client)
{
return vm.heap().allocate<Job>(type, move(storage_key), move(scope_url), move(script_url), promise, client);
}
Job::Job(Job::Type type, StorageAPI::StorageKey storage_key, URL::URL scope_url, URL::URL script_url, GC::Ptr<WebIDL::Promise> promise, GC::Ptr<HTML::EnvironmentSettingsObject> client)
: job_type(type)
, storage_key(move(storage_key))
, scope_url(move(scope_url))
, script_url(move(script_url))
, client(client)
, job_promise(promise)
{
// 8. If client is not null, set job’s referrer to client’s creation URL.
if (client)
referrer = client->creation_url;
}
Job::~Job() = default;
void Job::visit_edges(JS::Cell::Visitor& visitor)
{
Base::visit_edges(visitor);
visitor.visit(client);
visitor.visit(job_promise);
for (auto& job : list_of_equivalent_jobs)
visitor.visit(job);
}
// FIXME: Does this need to be a 'user agent' level thing? Or can we have one per renderer process?
// https://w3c.github.io/ServiceWorker/#dfn-scope-to-job-queue-map
static HashMap<ByteString, JobQueue>& scope_to_job_queue_map()
{
static HashMap<ByteString, JobQueue> map;
return map;
}
// https://w3c.github.io/ServiceWorker/#register-algorithm
static void register_(JS::VM& vm, GC::Ref<Job> job)
{
auto script_origin = job->script_url.origin();
auto scope_origin = job->scope_url.origin();
auto referrer_origin = job->referrer->origin();
// 1. If the result of running potentially trustworthy origin with the origin of job’s script url as the argument is Not Trusted, then:
if (SecureContexts::Trustworthiness::NotTrustworthy == SecureContexts::is_origin_potentially_trustworthy(script_origin)) {
// 1. Invoke Reject Job Promise with job and "SecurityError" DOMException.
reject_job_promise<WebIDL::SecurityError>(job, "Service Worker registration has untrustworthy script origin"_string);
// 2. Invoke Finish Job with job and abort these steps.
finish_job(vm, job);
return;
}
// 2. If job’s script url's origin and job’s referrer's origin are not same origin, then:
if (!script_origin.is_same_origin(referrer_origin)) {
// 1. Invoke Reject Job Promise with job and "SecurityError" DOMException.
reject_job_promise<WebIDL::SecurityError>(job, "Service Worker registration has incompatible script and referrer origins"_string);
// 2. Invoke Finish Job with job and abort these steps.
finish_job(vm, job);
return;
}
// 3. If job’s scope url's origin and job’s referrer's origin are not same origin, then:
if (!scope_origin.is_same_origin(referrer_origin)) {
// 1. Invoke Reject Job Promise with job and "SecurityError" DOMException.
reject_job_promise<WebIDL::SecurityError>(job, "Service Worker registration has incompatible scope and referrer origins"_string);
// 2. Invoke Finish Job with job and abort these steps.
finish_job(vm, job);
return;
}
// 4. Let registration be the result of running Get Registration given job’s storage key and job’s scope url.
auto registration = Registration::get(job->storage_key, job->scope_url);
// 5. If registration is not null, then:
if (registration.has_value()) {
// 1. Let newestWorker be the result of running the Get Newest Worker algorithm passing registration as the argument.
auto* newest_worker = registration->newest_worker();
// 2. If newestWorker is not null, job’s script url equals newestWorker’s script url,
// job’s worker type equals newestWorker’s type, and job’s update via cache mode's value equals registration’s update via cache mode, then:
if (newest_worker != nullptr
&& job->script_url == newest_worker->script_url
&& job->worker_type == newest_worker->worker_type
&& job->update_via_cache == registration->update_via_cache()) {
// 1. Invoke Resolve Job Promise with job and registration.
resolve_job_promise(job, registration.value());
// 2. Invoke Finish Job with job and abort these steps.
finish_job(vm, job);
return;
}
}
// 6. Else:
else {
// 1. Invoke Set Registration algorithm with job’s storage key, job’s scope url, and job’s update via cache mode.
Registration::set(job->storage_key, job->scope_url, job->update_via_cache);
}
// Invoke Update algorithm passing job as the argument.
update(vm, job);
}
// Used to share internal Update algorithm state b/w fetch callbacks
class UpdateAlgorithmState : JS::Cell {
GC_CELL(UpdateAlgorithmState, JS::Cell);
public:
static GC::Ref<UpdateAlgorithmState> create(JS::VM& vm)
{
return vm.heap().allocate<UpdateAlgorithmState>();
}
OrderedHashMap<URL::URL, GC::Ref<Fetch::Infrastructure::Response>>& updated_resource_map() { return m_map; }
bool has_updated_resources() const { return m_has_updated_resources; }
void set_has_updated_resources(bool b) { m_has_updated_resources = b; }
private:
UpdateAlgorithmState() = default;
virtual void visit_edges(JS::Cell::Visitor& visitor) override
{
Base::visit_edges(visitor);
visitor.visit(m_map);
}
OrderedHashMap<URL::URL, GC::Ref<Fetch::Infrastructure::Response>> m_map;
bool m_has_updated_resources { false };
};
// https://w3c.github.io/ServiceWorker/#update
static void update(JS::VM& vm, GC::Ref<Job> job)
{
// 1. Let registration be the result of running Get Registration given job’s storage key and job’s scope url.
auto registration = Registration::get(job->storage_key, job->scope_url);
// 2. If registration is null, then:
if (!registration.has_value()) {
// 1. Invoke Reject Job Promise with job and TypeError.
reject_job_promise<JS::TypeError>(job, "Service Worker registration not found on update"_string);
// 2. Invoke Finish Job with job and abort these steps.
finish_job(vm, job);
return;
}
// 3. Let newestWorker be the result of running Get Newest Worker algorithm passing registration as the argument.
auto* newest_worker = registration->newest_worker();
// 4. If job’s job type is update, and newestWorker is not null and its script url does not equal job’s script url, then:
if (job->job_type == Job::Type::Update && newest_worker != nullptr && newest_worker->script_url != job->script_url) {
// 1. Invoke Reject Job Promise with job and TypeError.
reject_job_promise<JS::TypeError>(job, "Service Worker script URL mismatch on update"_string);
// 2. Invoke Finish Job with job and abort these steps.
finish_job(vm, job);
return;
}
// 5. Let hasUpdatedResources be false.
// 6. Let updatedResourceMap be an ordered map where the keys are URLs and the values are responses.
auto state = UpdateAlgorithmState::create(vm);
// Fetch time, with a few caveats:
// - The spec says to use the 'to be created environment settings object for this service worker'
// - Soft-Update has no client
// To perform the fetch hook given request, run the following steps:
auto perform_the_fetch_hook_function = [®istration = *registration, job, newest_worker, state](GC::Ref<Fetch::Infrastructure::Request> request, HTML::TopLevelModule top_level, Fetch::Infrastructure::FetchAlgorithms::ProcessResponseConsumeBodyFunction process_custom_fetch_response) -> WebIDL::ExceptionOr<void> {
// FIXME: Soft-Update has no client
auto& realm = job->client->realm();
auto& vm = realm.vm();
// 1. Append `Service-Worker`/`script` to request’s header list.
// Note: See https://w3c.github.io/ServiceWorker/#service-worker
request->header_list()->append(Fetch::Infrastructure::Header::from_string_pair("Service-Worker"sv, "script"sv));
// 2. Set request’s cache mode to "no-cache" if any of the following are true:
// - registration’s update via cache mode is not "all".
// - job’s force bypass cache flag is set.
// - newestWorker is not null and registration is stale.
if (registration.update_via_cache() != Bindings::ServiceWorkerUpdateViaCache::All
|| job->force_cache_bypass
|| (newest_worker != nullptr && registration.is_stale())) {
request->set_cache_mode(Fetch::Infrastructure::Request::CacheMode::NoCache);
}
// 3. Set request’s service-workers mode to "none".
request->set_service_workers_mode(Fetch::Infrastructure::Request::ServiceWorkersMode::None);
Web::Fetch::Infrastructure::FetchAlgorithms::Input fetch_algorithms_input {};
fetch_algorithms_input.process_response_consume_body = move(process_custom_fetch_response);
// 4. If the isTopLevel flag is unset, then return the result of fetching request.
// FIXME: Needs spec issue, this wording is confusing and contradicts the way perform the fetch hook is used in `run a worker`
if (top_level == HTML::TopLevelModule::No) {
TRY(Web::Fetch::Fetching::fetch(realm, request, Web::Fetch::Infrastructure::FetchAlgorithms::create(vm, move(fetch_algorithms_input))));
return {};
}
// 5. Set request's redirect mode to "error".
request->set_redirect_mode(Fetch::Infrastructure::Request::RedirectMode::Error);
// 6. Fetch request, and asynchronously wait to run the remaining steps as part of fetch’s processResponse for the response response.
// Note: The rest of the steps are in the processCustomFetchResponse algorithm
// FIXME: Needs spec issue to mention the existence of processCustomFetchResponse, same as step 4
// FIXME: Is there a better way to 'wait' for the fetch's processResponse to complete?
// Is this actually what the spec wants us to do?
IGNORE_USE_IN_ESCAPING_LAMBDA auto process_response_completion_result = Optional<WebIDL::ExceptionOr<void>> {};
fetch_algorithms_input.process_response = [request, job, state, newest_worker, &realm, ®istration, &process_response_completion_result](GC::Ref<Fetch::Infrastructure::Response> response) mutable -> void {
// 7. Extract a MIME type from the response’s header list. If s MIME type (ignoring parameters) is not a JavaScript MIME type, then:
auto mime_type = response->header_list()->extract_mime_type();
if (!mime_type.has_value() || !mime_type->is_javascript()) {
// 1. Invoke Reject Job Promise with job and "SecurityError" DOMException.
reject_job_promise<WebIDL::SecurityError>(job, "Service Worker script response is not a JavaScript MIME type"_string);
// 2. Asynchronously complete these steps with a network error.
process_response_completion_result = WebIDL::NetworkError::create(realm, "Service Worker script response is not a JavaScript MIME type"_string);
return;
}
// 8. Let serviceWorkerAllowed be the result of extracting header list values given `Service-Worker-Allowed` and response’s header list.
// Note: See the definition of the Service-Worker-Allowed header in Appendix B: Extended HTTP headers. https://w3c.github.io/ServiceWorker/#service-worker-allowed
auto service_worker_allowed = Fetch::Infrastructure::extract_header_list_values("Service-Worker-Allowed"sv.bytes(), response->header_list());
// 9. Set policyContainer to the result of creating a policy container from a fetch response given response.
// FIXME: CSP not implemented yet
// 10. If serviceWorkerAllowed is failure, then:
if (service_worker_allowed.has<Fetch::Infrastructure::ExtractHeaderParseFailure>()) {
// FIXME: Should we reject the job promise with a security error here?
// 1. Asynchronously complete these steps with a network error.
process_response_completion_result = WebIDL::NetworkError::create(realm, "Failed to extract Service-Worker-Allowed header from fetch response"_string);
return;
}
// 11. Let scopeURL be registration’s scope url.
auto const& scope_url = registration.scope_url();
// 12. Let maxScopeString be null.
auto max_scope_string = Optional<ByteString> {};
auto join_paths_with_slash = [](URL::URL const& url) -> ByteString {
StringBuilder builder;
builder.append('/');
for (auto const& component : url.paths()) {
builder.append(component);
builder.append('/');
}
return builder.to_byte_string();
};
// 13. If serviceWorkerAllowed is null, then:
if (service_worker_allowed.has<Empty>()) {
// 1. Let resolvedScope be the result of parsing "./" using job’s script url as the base URL.
auto resolved_scope = DOMURL::parse("./"sv, job->script_url);
// 2. Set maxScopeString to "/", followed by the strings in resolvedScope’s path (including empty strings), separated from each other by "/".
max_scope_string = join_paths_with_slash(*resolved_scope);
}
// 14. Else:
else {
// 1. Let maxScope be the result of parsing serviceWorkerAllowed using job’s script url as the base URL.
auto max_scope = DOMURL::parse(service_worker_allowed.get<Vector<ByteBuffer>>()[0], job->script_url);
// 2. If maxScope’s origin is job’s script url's origin, then:
if (max_scope->origin().is_same_origin(job->script_url.origin())) {
// 1. Set maxScopeString to "/", followed by the strings in maxScope’s path (including empty strings), separated from each other by "/".
max_scope_string = join_paths_with_slash(*max_scope);
}
}
// 15. Let scopeString be "/", followed by the strings in scopeURL’s path (including empty strings), separated from each other by "/".
auto scope_string = join_paths_with_slash(scope_url);
// 16. If maxScopeString is null or scopeString does not start with maxScopeString, then:
if (!max_scope_string.has_value() || !scope_string.starts_with(max_scope_string.value())) {
// 1. Invoke Reject Job Promise with job and "SecurityError" DOMException.
reject_job_promise<WebIDL::SecurityError>(job, "Service Worker script scope does not match Service-Worker-Allowed header"_string);
// 2. Asynchronously complete these steps with a network error.
process_response_completion_result = WebIDL::NetworkError::create(realm, "Service Worker script scope does not match Service-Worker-Allowed header"_string);
return;
}
// 17. Let url be request’s url.
auto& url = request->url();
// 18. Set updatedResourceMap[url] to response.
state->updated_resource_map().set(url, response);
// 19. If response’s cache state is not "local", set registration’s last update check time to the current time.
if (response->cache_state() != Fetch::Infrastructure::Response::CacheState::Local)
registration.set_last_update_check_time(MonotonicTime::now());
// 20. Set hasUpdatedResources to true if any of the following are true:
// - newestWorker is null.
// - newestWorker’s script url is not url or newestWorker’s type is not job’s worker type.
// - FIXME: newestWorker’s script resource map[url]'s body is not byte-for-byte identical with response’s body.
if (newest_worker == nullptr
|| newest_worker->script_url != url
|| newest_worker->worker_type != job->worker_type) {
state->set_has_updated_resources(true);
}
// FIXME: 21. If hasUpdatedResources is false and newestWorker’s classic scripts imported flag is set, then:
// 22. Asynchronously complete these steps with response.
process_response_completion_result = WebIDL::ExceptionOr<void> {};
};
auto fetch_controller = TRY(Web::Fetch::Fetching::fetch(realm, request, Web::Fetch::Infrastructure::FetchAlgorithms::create(vm, move(fetch_algorithms_input))));
// FIXME: This feels.. uncomfortable but it should work to block the current task until the fetch has progressed past our processResponse hook or aborted
auto& event_loop = job->client ? job->client->responsible_event_loop() : HTML::main_thread_event_loop();
event_loop.spin_until(GC::create_function(realm.heap(), [fetch_controller, &realm, &process_response_completion_result]() -> bool {
if (process_response_completion_result.has_value())
return true;
if (fetch_controller->state() == Fetch::Infrastructure::FetchController::State::Terminated || fetch_controller->state() == Fetch::Infrastructure::FetchController::State::Aborted) {
process_response_completion_result = WebIDL::AbortError::create(realm, "Service Worker fetch was terminated or aborted"_string);
return true;
}
return false;
}));
return process_response_completion_result.release_value();
};
auto perform_the_fetch_hook = HTML::create_perform_the_fetch_hook(vm.heap(), move(perform_the_fetch_hook_function));
// When the algorithm asynchronously completes, continue the rest of these steps, with script being the asynchronous completion value.
auto on_fetch_complete = HTML::create_on_fetch_script_complete(vm.heap(), [job, newest_worker, state, ®istration = *registration, &vm](GC::Ptr<HTML::Script> script) -> void {
// If script is null or Is Async Module with script’s record, script’s base URL, and « » is true, then:
// FIXME: Reject async modules
if (!script) {
// 1. Invoke Reject Job Promise with job and TypeError.
reject_job_promise<JS::TypeError>(job, "Service Worker script is not a valid module"_string);
// 2. If newestWorker is null, then remove registration map[(registration’s storage key, serialized scopeURL)].
if (newest_worker == nullptr)
Registration::remove(registration.storage_key(), registration.scope_url());
// 3. Invoke Finish Job with job and abort these steps.
finish_job(vm, job);
return;
}
// FIXME: Actually create service worker
// 10. Let worker be a new service worker.
// 11. Set worker’s script url to job’s script url, worker’s script resource to script, worker’s type to job’s worker type, and worker’s script resource map to updatedResourceMap.
(void)state;
// 12. Append url to worker’s set of used scripts.
// 13. Set worker’s script resource’s policy container to policyContainer.
// 14. Let forceBypassCache be true if job’s force bypass cache flag is set, and false otherwise.
// 15. Let runResult be the result of running the Run Service Worker algorithm with worker and forceBypassCache.
// 16. If runResult is failure or an abrupt completion, then:
// 17. Else, invoke Install algorithm with job, worker, and registration as its arguments.
if (job->client) {
auto& realm = job->client->realm();
auto context = HTML::TemporaryExecutionContext(realm, HTML::TemporaryExecutionContext::CallbacksEnabled::Yes);
WebIDL::reject_promise(realm, *job->job_promise, *vm.throw_completion<JS::InternalError>(JS::ErrorType::NotImplemented, "Run Service Worker"sv).value());
finish_job(vm, job);
}
});
// 7. Switching on job’s worker type, run these substeps with the following options:
switch (job->worker_type) {
case Bindings::WorkerType::Classic:
// 1. Fetch a classic worker script given job’s serialized script url, job’s client, "serviceworker", and the to-be-created environment settings object for this service worker.
// FIXME: Credentials mode
// FIXME: Use a 'stub' service worker ESO as the fetch "environment"
(void)HTML::fetch_classic_worker_script(job->script_url, *job->client, Fetch::Infrastructure::Request::Destination::ServiceWorker, *job->client, perform_the_fetch_hook, on_fetch_complete);
break;
case Bindings::WorkerType::Module:
// 2. Fetch a module worker script graph given job’s serialized script url, job’s client, "serviceworker", "omit", and the to-be-created environment settings object for this service worker.
// FIXME: Credentials mode
// FIXME: Use a 'stub' service worker ESO as the fetch "environment"
(void)HTML::fetch_module_worker_script_graph(job->script_url, *job->client, Fetch::Infrastructure::Request::Destination::ServiceWorker, *job->client, perform_the_fetch_hook, on_fetch_complete);
}
}
static void unregister(JS::VM& vm, GC::Ref<Job> job)
{
// If there's no client, there won't be any promises to resolve
if (job->client) {
auto& realm = job->client->realm();
auto context = HTML::TemporaryExecutionContext(realm, HTML::TemporaryExecutionContext::CallbacksEnabled::Yes);
WebIDL::reject_promise(realm, *job->job_promise, *vm.throw_completion<JS::InternalError>(JS::ErrorType::NotImplemented, "Service Worker unregistration"sv).value());
finish_job(vm, job);
}
}
// https://w3c.github.io/ServiceWorker/#run-job-algorithm
static void run_job(JS::VM& vm, JobQueue& job_queue)
{
// 1. Assert: jobQueue is not empty.
VERIFY(!job_queue.is_empty());
// 2. Queue a task to run these steps:
auto job_run_steps = GC::create_function(vm.heap(), [&vm, &job_queue] {
// 1. Let job be the first item in jobQueue.
auto& job = job_queue.first();
// FIXME: Do these really need to be in parallel to the HTML event loop? Sounds fishy
switch (job->job_type) {
case Job::Type::Register:
// 2. If job’s job type is register, run Register with job in parallel.
register_(vm, job);
break;
case Job::Type::Update:
// 3. If job’s job type is update, run Update with job in parallel.
update(vm, job);
break;
case Job::Type::Unregister:
// 4. If job’s job type is unregister, run Unregister with job in parallel.
unregister(vm, job);
break;
}
});
// FIXME: How does the user agent ensure this happens? Is this a normative note?
// Spec-Note:
// For a register job and an update job, the user agent delays queuing a task for running the job
// until after a DOMContentLoaded event has been dispatched to the document that initiated the job.
// FIXME: Spec should be updated to avoid 'queue a task' and use 'queue a global task' instead
// FIXME: On which task source? On which event loop? On behalf of which document?
HTML::queue_a_task(HTML::Task::Source::Unspecified, nullptr, nullptr, job_run_steps);
}
// https://w3c.github.io/ServiceWorker/#finish-job-algorithm
static void finish_job(JS::VM& vm, GC::Ref<Job> job)
{
// 1. Let jobQueue be job’s containing job queue.
auto& job_queue = *job->containing_job_queue;
// 2. Assert: the first item in jobQueue is job.
VERIFY(job_queue.first() == job);
// 3. Dequeue from jobQueue
(void)job_queue.take_first();
// 4. If jobQueue is not empty, invoke Run Job with jobQueue.
if (!job_queue.is_empty())
run_job(vm, job_queue);
}
// https://w3c.github.io/ServiceWorker/#resolve-job-promise-algorithm
static void resolve_job_promise(GC::Ref<Job> job, Optional<Registration const&>, JS::Value value)
{
// 1. If job’s client is not null, queue a task, on job’s client's responsible event loop using the DOM manipulation task source, to run the following substeps:
if (job->client) {
auto& realm = job->client->realm();
HTML::queue_a_task(HTML::Task::Source::DOMManipulation, job->client->responsible_event_loop(), nullptr, GC::create_function(realm.heap(), [&realm, job, value] {
HTML::TemporaryExecutionContext const context(realm, HTML::TemporaryExecutionContext::CallbacksEnabled::Yes);
// FIXME: Resolve to a ServiceWorkerRegistration platform object
// 1. Let convertedValue be null.
// 2. If job’s job type is either register or update, set convertedValue to the result of
// getting the service worker registration object that represents value in job’s client.
// 3. Else, set convertedValue to value, in job’s client's Realm.
// 4. Resolve job’s job promise with convertedValue.
WebIDL::resolve_promise(realm, *job->job_promise, value);
}));
}
// 2. For each equivalentJob in job’s list of equivalent jobs:
for (auto& equivalent_job : job->list_of_equivalent_jobs) {
// 1. If equivalentJob’s client is null, continue.
if (!equivalent_job->client)
continue;
// 2. Queue a task, on equivalentJob’s client's responsible event loop using the DOM manipulation task source,
// to run the following substeps:
auto& realm = equivalent_job->client->realm();
HTML::queue_a_task(HTML::Task::Source::DOMManipulation, equivalent_job->client->responsible_event_loop(), nullptr, GC::create_function(realm.heap(), [&realm, equivalent_job, value] {
HTML::TemporaryExecutionContext const context(realm, HTML::TemporaryExecutionContext::CallbacksEnabled::Yes);
// FIXME: Resolve to a ServiceWorkerRegistration platform object
// 1. Let convertedValue be null.
// 2. If equivalentJob’s job type is either register or update, set convertedValue to the result of
// getting the service worker registration object that represents value in equivalentJob’s client.
// 3. Else, set convertedValue to value, in equivalentJob’s client's Realm.
// 4. Resolve equivalentJob’s job promise with convertedValue.
WebIDL::resolve_promise(realm, *equivalent_job->job_promise, value);
}));
}
}
// https://w3c.github.io/ServiceWorker/#reject-job-promise-algorithm
template<typename Error>
static void reject_job_promise(GC::Ref<Job> job, String message)
{
// 1. If job’s client is not null, queue a task, on job’s client's responsible event loop using the DOM manipulation task source,
// to reject job’s job promise with a new exception with errorData and a user agent-defined message, in job’s client's Realm.
if (job->client) {
auto& realm = job->client->realm();
HTML::queue_a_task(HTML::Task::Source::DOMManipulation, job->client->responsible_event_loop(), nullptr, GC::create_function(realm.heap(), [&realm, job, message] {
HTML::TemporaryExecutionContext const context(realm, HTML::TemporaryExecutionContext::CallbacksEnabled::Yes);
WebIDL::reject_promise(realm, *job->job_promise, Error::create(realm, message));
}));
}
// 2. For each equivalentJob in job’s list of equivalent jobs:
for (auto& equivalent_job : job->list_of_equivalent_jobs) {
// 1. If equivalentJob’s client is null, continue.
if (!equivalent_job->client)
continue;
// 2. Queue a task, on equivalentJob’s client's responsible event loop using the DOM manipulation task source,
// to reject equivalentJob’s job promise with a new exception with errorData and a user agent-defined message,
// in equivalentJob’s client's Realm.
auto& realm = equivalent_job->client->realm();
HTML::queue_a_task(HTML::Task::Source::DOMManipulation, equivalent_job->client->responsible_event_loop(), nullptr, GC::create_function(realm.heap(), [&realm, equivalent_job, message] {
HTML::TemporaryExecutionContext const context(realm, HTML::TemporaryExecutionContext::CallbacksEnabled::Yes);
WebIDL::reject_promise(realm, *equivalent_job->job_promise, Error::create(realm, message));
}));
}
}
// https://w3c.github.io/ServiceWorker/#schedule-job-algorithm
void schedule_job(JS::VM& vm, GC::Ref<Job> job)
{
// 1. Let jobQueue be null.
// Note: See below for how we ensure job queue
// 2. Let jobScope be job’s scope url, serialized.
// FIXME: Suspect that spec should specify to not use fragment here
auto job_scope = job->scope_url.serialize().to_byte_string();
// 3. If scope to job queue map[jobScope] does not exist, set scope to job queue map[jobScope] to a new job queue.
// 4. Set jobQueue to scope to job queue map[jobScope].
auto& job_queue = scope_to_job_queue_map().ensure(job_scope, [&vm] {
return JobQueue(vm.heap());
});
// 5. If jobQueue is empty, then:
if (job_queue.is_empty()) {
// 2. Set job’s containing job queue to jobQueue, and enqueue job to jobQueue.
job->containing_job_queue = &job_queue;
job_queue.append(job);
run_job(vm, job_queue);
}
// 6. Else:
else {
// 1. Let lastJob be the element at the back of jobQueue.
auto& last_job = job_queue.last();
// 2. If job is equivalent to lastJob and lastJob’s job promise has not settled, append job to lastJob’s list of equivalent jobs.
// FIXME: There's no WebIDL AO that corresponds to checking if an ECMAScript promise has settled
if (job == last_job && !as<JS::Promise>(*job->job_promise->promise()).is_handled()) {
last_job->list_of_equivalent_jobs.append(job);
}
// 3. Else, set job’s containing job queue to jobQueue, and enqueue job to jobQueue.
else {
job->containing_job_queue = &job_queue;
job_queue.append(job);
}
}
}
}