base/task_scheduler/post_task.h was introduced to Chrome in Q1. The API is fully documented under Threading and Tasks in Chrome. This page will go into more details about how to migrate callers of existing APIs to TaskScheduler.
The SequencedWorkerPools and BrowserThreads (not UI/IO) are already being redirected to TaskScheduler under the hood so it's now “merely” a matter of updating the actual call sites.
Much of the migration has already been automated but the callers that remain require manual intervention from the OWNERS.
Here‘s a list of everything that’s left. Please pick items in this list, assign them to self and tick the boxes when done.
And some slides with a migration example.
BlockingPool (and other SequencedWorkerPools)
Tag migration CLs with BUG=667892.
The remaining callers of BrowserThread::GetBlockingPool() require manual intervention because they're plumbing the SequencedWorkerPool multiple layers into another component.
The TaskScheduler API explicitly discourages this paradigm. Instead exposing a static API from post_task.h and encouraging that individual components grab the TaskRunner/TaskTraits they need instead of bring injected one from their owner and hoping for the right traits. This often allows cleaning up multiple layers of plumbing without otherwise hurting testing as documented here.
Replace methods that used to
and make them use
The TaskScheduler API intentionally doesn‘t provide a TaskScheduler::RunsTasksInCurrentSequence() equivalent as ultimately everything will run in TaskScheduler and that’d be meaningless... As such prefer asserting the properties your task needs as documentation rather than where it runs.
You can of course still use
if you have access to the TaskRunner instance (generic asserts discussed above are meant for anonymous methods that require static checks).
Note: Contrary to overheard belief: SequencedWorkerPool::PostTask() resulted in an unsequenced (parallel) task. The SequencedWorkerPool allowed posting to sequences but on its own was just a plain TaskRunner (despite having sequence in its name...). base::PostTaskWithTraits() is thus the proper replacement if not having explicit sequencing was intended, otherwise base::CreateSequenceTaskRunnerWithTraits() is what you're looking for.
All BrowserThreads but UI/IO are being migrated to TaskScheduler (i.e. FILE/FILE_USER_BLOCKING/DB/PROCESS_LAUNCHER/CACHE).
Tag migration CLs with BUG=689520.
This migration requires manual intervention because:
- Everything on BrowserThread::FOO has to be assumed to depend on being sequenced with everything else on BrowserThread::FOO until decided otherwise by a developer.
- Everything on BrowserThread::FOO has to be assumed to be thread-affine until decided otherwise by a developer.
As a developer your goal is to get rid of all uses of BrowserThread::FOO in your assigned files by:
- Splitting things into their own execution sequence (i.e. post to a TaskRunner obtained from post_task.h -- see Threading and Tasks in Chrome for details).
- Removing the plumbing: if GetTaskRunnerForThread(BrowserThread::FOO) is passed down into a component the prefered paradigm is to remove all of that plumbing and simply have the leaf layers requiring a TaskRunner get it from base::CreateSequencedTaskRunnerWithTraits() directly.
- Ideally migrating from a single-threaded context to a much preferred sequenced context.
- Note: if your tasks use COM APIs (Component Object Model on Windows), you'll need to use CreateCOMSTATaskRunnerWithTraits() and sequencing will not be an option (there are DCHECKs in place that will fire if your task uses COM without being on a COM initialized TaskRunner).
Relevant single-thread -> sequence mappings
- base::SingleThreadTaskRunner -> base::SequencedTaskRunner
- SingleThreadTaskRunner::BelongsToCurrentThread() -> SeqeuenceTaskRunner::RunsTasksInCurrentSequence()
- base::ThreadTaskRunnerHandle -> base::SequencedTaskRunnerHandle
- base::ThreadChecker -> base::SequenceChecker
- ThreadChecker::CalledOnValidThread() -> DCHECK_CALLED_ON_VALID_SEQUENCE(...)
- base::ThreadLocalStorage::Slot -> base::SequenceLocalStorageSlot
- BrowserThread::PostTaskAndReplyWithResult() -> base::PostTaskAndReplyWithResult() (from post_task.h or from task_runner_util.h (if you need to feed a TaskRunner))
- BrowserThread::DeleteOnThread -> base::OnTaskRunnerDeleter / base::RefCountedDeleteOnSequence
- BrowserMessageFilter::OverrideThreadForMessage() -> BrowserMessageFilter::OverrideTaskRunnerForMessage()
- CreateSingleThreadTaskRunnerWithTraits() -> CreateSequencedTaskRunnerWithTraits()
- Every CreateSingleThreadTaskRunnerWithTraits() usage should be accompanied with a comment and ideally a bug to make it sequence when the sequence-unfriendly dependency is addressed (again Prefer Sequences to Threads).
Other relevant mappings for tests
- base::MessageLoop -> base::test::ScopedTaskEnvironment
- content::TestBrowserThread -> content::TestBrowserThreadBundle (if you still need other BrowserThreads and ScopedTaskEnvironment if you don't)
- base::RunLoop().Run() -(maybe)> content::RunAllTasksUntilIdle()
- If test code was previously using RunLoop to execute things off the main thread (as TestBrowserThreadBundle grouped everything under a single MessageLoop), flushing tasks will now require asking for that explicitly.
- Or ScopedTaskEnvironment::RunUntilIdle() if you're not using TestBrowserThreadBundle.
- If you need to control the order of execution of main thread versus scheduler you can individually RunLoop.Run() and TaskScheduler::FlushForTesting()
- If you need the TaskScheduler to not run anything until explicitly asked to use ScopedTaskEnvironment::ExecutionMode::QUEUED.
Other known migration hurdles and recommended paradigms
- Everything in a file/component needs to run on the same sequence but there isn't a clear place to own/access the common SequencedTaskRunner => base::Lazy(Sequenced|SingleThread|COMSTA)TaskRunner.
- For anything else, ping base/task_scheduler/OWNERS or firstname.lastname@example.org, thanks!