/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
//! A Job is an abstraction of async operation in service worker lifecycle propagation.
//! Each Job is uniquely identified by its scope_url, and is keyed accordingly under
//! the script thread. The script thread contains a JobQueue, which stores all scheduled Jobs
//! by multiple service worker clients in a Vec.
use dom::bindings::cell::DOMRefCell;
use dom::bindings::error::Error;
use dom::bindings::js::JS;
use dom::bindings::refcounted::{Trusted, TrustedPromise};
use dom::bindings::reflector::DomObject;
use dom::client::Client;
use dom::globalscope::GlobalScope;
use dom::promise::Promise;
use dom::serviceworkerregistration::ServiceWorkerRegistration;
use dom::urlhelper::UrlHelper;
use js::jsapi::JSAutoCompartment;
use script_thread::{ScriptThread, Runnable};
use servo_url::ServoUrl;
use std::cmp::PartialEq;
use std::collections::HashMap;
use std::rc::Rc;
use task_source::TaskSource;
use task_source::dom_manipulation::DOMManipulationTaskSource;
#[derive(PartialEq, Copy, Clone, Debug, JSTraceable)]
pub enum JobType {
Register,
Unregister,
Update
}
#[derive(Clone)]
pub enum SettleType {
Resolve(Trusted<ServiceWorkerRegistration>),
Reject(Error)
}
#[must_root]
#[derive(JSTraceable)]
pub struct Job {
pub job_type: JobType,
pub scope_url: ServoUrl,
pub script_url: ServoUrl,
pub promise: Rc<Promise>,
pub equivalent_jobs: Vec<Job>,
// client can be a window client, worker client so `Client` will be an enum in future
pub client: JS<Client>,
pub referrer: ServoUrl
}
impl Job {
#[allow(unrooted_must_root)]
// https://w3c.github.io/ServiceWorker/#create-job-algorithm
pub fn create_job(job_type: JobType,
scope_url: ServoUrl,
script_url: ServoUrl,
promise: Rc<Promise>,
client: &Client) -> Job {
Job {
job_type: job_type,
scope_url: scope_url,
script_url: script_url,
promise: promise,
equivalent_jobs: vec![],
client: JS::from_ref(client),
referrer: client.creation_url()
}
}
#[allow(unrooted_must_root)]
pub fn append_equivalent_job(&mut self, job: Job) {
self.equivalent_jobs.push(job);
}
}
impl PartialEq for Job {
// Equality criteria as described in https://w3c.github.io/ServiceWorker/#dfn-job-equivalent
fn eq(&self, other: &Self) -> bool {
let same_job = self.job_type == other.job_type;
if same_job {
match self.job_type {
JobType::Register | JobType::Update => {
self.scope_url == other.scope_url && self.script_url == other.script_url
},
JobType::Unregister => self.scope_url == other.scope_url
}
} else {
false
}
}
}
pub struct AsyncJobHandler {
pub scope_url: ServoUrl,
}
impl AsyncJobHandler {
fn new(scope_url: ServoUrl) -> AsyncJobHandler {
AsyncJobHandler {
scope_url: scope_url,
}
}
}
impl Runnable for AsyncJobHandler {
#[allow(unrooted_must_root)]
fn main_thread_handler(self: Box<AsyncJobHandler>, script_thread: &ScriptThread) {
script_thread.dispatch_job_queue(self);
}
}
#[must_root]
#[derive(JSTraceable)]
pub struct JobQueue(pub DOMRefCell<HashMap<ServoUrl, Vec<Job>>>);
impl JobQueue {
pub fn new() -> JobQueue {
JobQueue(DOMRefCell::new(HashMap::new()))
}
#[allow(unrooted_must_root)]
// https://w3c.github.io/ServiceWorker/#schedule-job-algorithm
pub fn schedule_job(&self,
job: Job,
global: &GlobalScope,
script_thread: &ScriptThread) {
debug!("scheduling {:?} job", job.job_type);
let mut queue_ref = self.0.borrow_mut();
let job_queue = queue_ref.entry(job.scope_url.clone()).or_insert(vec![]);
// Step 1
if job_queue.is_empty() {
let scope_url = job.scope_url.clone();
job_queue.push(job);
let run_job_handler = box AsyncJobHandler::new(scope_url);
let _ = script_thread.dom_manipulation_task_source().queue(run_job_handler, global);
debug!("queued task to run newly-queued job");
} else {
// Step 2
let mut last_job = job_queue.pop().unwrap();
if job == last_job && !last_job.promise.is_settled() {
last_job.append_equivalent_job(job);
job_queue.push(last_job);
debug!("appended equivalent job");
} else {
// restore the popped last_job
job_queue.push(last_job);
// and push this new job to job queue
job_queue.push(job);
debug!("pushed onto job queue job");
}
}
}
#[allow(unrooted_must_root)]
// https://w3c.github.io/ServiceWorker/#run-job-algorithm
pub fn run_job(&self, run_job_handler: Box<AsyncJobHandler>, script_thread: &ScriptThread) {
debug!("running a job");
let url = {
let queue_ref = self.0.borrow();
let front_job = {
let job_vec = queue_ref.get(&run_job_handler.scope_url);
job_vec.unwrap().first().unwrap()
};
let scope_url = front_job.scope_url.clone();
match front_job.job_type {
JobType::Register => self.run_register(front_job, run_job_handler, script_thread),
JobType::Update => self.update(front_job, script_thread),
JobType::Unregister => unreachable!(),
};
scope_url
};
self.finish_job(url, script_thread);
}
#[allow(unrooted_must_root)]
// https://w3c.github.io/ServiceWorker/#register-algorithm
fn run_register(&self, job: &Job, register_job_handler: Box<AsyncJobHandler>, script_thread: &ScriptThread) {
debug!("running register job");
let AsyncJobHandler { scope_url, .. } = *register_job_handler;
// Step 1-3
if !UrlHelper::is_origin_trustworthy(&job.script_url) {
// Step 1.1
reject_job_promise(job,
Error::Type("Invalid script ServoURL".to_owned()),
script_thread.dom_manipulation_task_source());
// Step 1.2 (see run_job)
return;
} else if job.script_url.origin() != job.referrer.origin() || job.scope_url.origin() != job.referrer.origin() {
// Step 2.1/3.1
reject_job_promise(job,
Error::Security,
script_thread.dom_manipulation_task_source());
// Step 2.2/3.2 (see run_job)
return;
}
// Step 4-5
if let Some(reg) = script_thread.handle_get_registration(&job.scope_url) {
// Step 5.1
if reg.get_uninstalling() {
reg.set_uninstalling(false);
}
// Step 5.3
if let Some(ref newest_worker) = reg.get_newest_worker() {
if (&*newest_worker).get_script_url() == job.script_url {
// Step 5.3.1
resolve_job_promise(job, &*reg, script_thread.dom_manipulation_task_source());
// Step 5.3.2 (see run_job)
return;
}
}
} else {
// Step 6.1
let global = &*job.client.global();
let pipeline = global.pipeline_id();
let new_reg = ServiceWorkerRegistration::new(&*global, &job.script_url, scope_url);
script_thread.handle_serviceworker_registration(&job.scope_url, &*new_reg, pipeline);
}
// Step 7
self.update(job, script_thread)
}
#[allow(unrooted_must_root)]
// https://w3c.github.io/ServiceWorker/#finish-job-algorithm
pub fn finish_job(&self, scope_url: ServoUrl, script_thread: &ScriptThread) {
debug!("finishing previous job");
let run_job = if let Some(job_vec) = (*self.0.borrow_mut()).get_mut(&scope_url) {
assert_eq!(job_vec.first().as_ref().unwrap().scope_url, scope_url);
let _ = job_vec.remove(0);
!job_vec.is_empty()
} else {
warn!("non-existent job vector for Servourl: {:?}", scope_url);
false
};
if run_job {
debug!("further jobs in queue after finishing");
let handler = box AsyncJobHandler::new(scope_url);
self.run_job(handler, script_thread);
}
}
// https://w3c.github.io/ServiceWorker/#update-algorithm
fn update(&self, job: &Job, script_thread: &ScriptThread) {
debug!("running update job");
// Step 1
let reg = match script_thread.handle_get_registration(&job.scope_url) {
Some(reg) => reg,
None => {
let err_type = Error::Type("No registration to update".to_owned());
// Step 2.1
reject_job_promise(job, err_type, script_thread.dom_manipulation_task_source());
// Step 2.2 (see run_job)
return;
}
};
// Step 2
if reg.get_uninstalling() {
let err_type = Error::Type("Update called on an uninstalling registration".to_owned());
// Step 2.1
reject_job_promise(job, err_type, script_thread.dom_manipulation_task_source());
// Step 2.2 (see run_job)
return;
}
// Step 3
let newest_worker = reg.get_newest_worker();
let newest_worker_url = newest_worker.as_ref().map(|w| w.get_script_url());
// Step 4
if newest_worker_url.as_ref() == Some(&job.script_url) && job.job_type == JobType::Update {
let err_type = Error::Type("Invalid script ServoURL".to_owned());
// Step 4.1
reject_job_promise(job, err_type, script_thread.dom_manipulation_task_source());
// Step 4.2 (see run_job)
return;
}
// Step 8
if let Some(newest_worker) = newest_worker {
job.client.set_controller(&*newest_worker);
// Step 8.1
resolve_job_promise(job, &*reg, script_thread.dom_manipulation_task_source());
// Step 8.2 present in run_job
}
// TODO Step 9 (create new service worker)
}
}
struct AsyncPromiseSettle {
global: Trusted<GlobalScope>,
promise: TrustedPromise,
settle_type: SettleType,
}
impl Runnable for AsyncPromiseSettle {
#[allow(unrooted_must_root)]
fn handler(self: Box<AsyncPromiseSettle>) {
let global = self.global.root();
let settle_type = self.settle_type.clone();
let promise = self.promise.root();
settle_job_promise(&*global, &*promise, settle_type)
}
}
impl AsyncPromiseSettle {
#[allow(unrooted_must_root)]
fn new(promise: Rc<Promise>, settle_type: SettleType) -> AsyncPromiseSettle {
AsyncPromiseSettle {
global: Trusted::new(&*promise.global()),
promise: TrustedPromise::new(promise),
settle_type: settle_type,
}
}
}
fn settle_job_promise(global: &GlobalScope, promise: &Promise, settle: SettleType) {
let _ac = JSAutoCompartment::new(global.get_cx(), promise.reflector().get_jsobject().get());
match settle {
SettleType::Resolve(reg) => promise.resolve_native(global.get_cx(), &*reg.root()),
SettleType::Reject(err) => promise.reject_error(global.get_cx(), err),
};
}
fn queue_settle_promise_for_job(job: &Job, settle: SettleType, task_source: &DOMManipulationTaskSource) {
let task = box AsyncPromiseSettle::new(job.promise.clone(), settle);
let global = job.client.global();
let _ = task_source.queue(task, &*global);
}
// https://w3c.github.io/ServiceWorker/#reject-job-promise-algorithm
// https://w3c.github.io/ServiceWorker/#resolve-job-promise-algorithm
fn queue_settle_promise(job: &Job, settle: SettleType, task_source: &DOMManipulationTaskSource) {
// Step 1
queue_settle_promise_for_job(job, settle.clone(), task_source);
// Step 2
for job in &job.equivalent_jobs {
queue_settle_promise_for_job(job, settle.clone(), task_source);
}
}
fn reject_job_promise(job: &Job, err: Error, task_source: &DOMManipulationTaskSource) {
queue_settle_promise(job, SettleType::Reject(err), task_source)
}
fn resolve_job_promise(job: &Job, reg: &ServiceWorkerRegistration, task_source: &DOMManipulationTaskSource) {
queue_settle_promise(job, SettleType::Resolve(Trusted::new(reg)), task_source)
}