On Thu 24-02-22 10:11:02, Byungchul Park wrote:
On Wed, Feb 23, 2022 at 03:48:59PM +0100, Jan Kara wrote:
KJOURNALD2(kthread) TASK1(ksys_write) TASK2(ksys_write)
wait A --- stuck wait B --- stuck wait C --- stuck
wake up B wake up C wake up A
where: A is a wait_queue, j_wait_commit B is a wait_queue, j_wait_transaction_locked C is a rwsem, mapping.invalidate_lock
I see. But a situation like this is not necessarily a guarantee of a deadlock, is it? I mean there can be task D that will eventually call say 'wake up B' and unblock everything and this is how things were designed to work? Multiple sources of wakeups are quite common I'd say... What does
Yes. At the very beginning when I desgined Dept, I was thinking whether to support multiple wakeup sources or not for a quite long time. Supporting it would be a better option to aovid non-critical reports. However, I thought anyway we'd better fix it - not urgent tho - if there's any single circle dependency. That's why I decided not to support it for now and wanted to gather the kernel guys' opinions. Thing is which policy we should go with.
I see. So supporting only a single wakeup source is fine for locks I guess. But for general wait queues or other synchronization mechanisms, I'm afraid it will lead to quite some false positive reports. Just my 2c.
Dept do to prevent false reports in cases like this?
The above is the simplest form. And it's worth noting that Dept focuses on wait and event itself rather than grabing and releasing things like lock. The following is the more descriptive form of it.
KJOURNALD2(kthread) TASK1(ksys_write) TASK2(ksys_write)
wait @j_wait_commit ext4_truncate_failed_write() down_write(mapping.invalidate_lock)
ext4_truncate() ... wait @j_wait_transaction_locked ext_truncate_failed_write() down_write(mapping.invalidate_lock) ext4_should_retry_alloc() ... __jbd2_log_start_commit() wake_up(j_wait_commit)jbd2_journal_commit_transaction() wake_up(j_wait_transaction_locked) up_write(mapping.invalidate_lock)
I hope this would help you understand the report.
I see, thanks for explanation! So the above scenario is impossible because
My pleasure.
for anyone to block on @j_wait_transaction_locked the transaction must be committing, which is done only by kjournald2 kthread and so that thread cannot be waiting at @j_wait_commit. Essentially blocking on @j_wait_transaction_locked means @j_wait_commit wakeup was already done.
kjournal2 repeatedly does the wait and the wake_up so the above scenario looks possible to me even based on what you explained. Maybe I should understand how the journal things work more for furhter discussion. Your explanation is so helpful. Thank you really.
OK, let me provide you with more details for better understanding :) In jbd2 we have an object called 'transaction'. This object can go through many states but for our case is important that transaction is moved to T_LOCKED state and out of it only while jbd2_journal_commit_transaction() function is executing and waiting on j_wait_transaction_locked waitqueue is exactly waiting for a transaction to get out of T_LOCKED state. Function jbd2_journal_commit_transaction() is executed only by kjournald. Hence anyone can see transaction in T_LOCKED state only if kjournald is running inside jbd2_journal_commit_transaction() and thus kjournald cannot be sleeping on j_wait_commit at the same time. Does this explain things?
Honza