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Message-ID: <20231206193757.k5cppxqew6zjmbx3@quack3>
Date:   Wed, 6 Dec 2023 20:37:57 +0100
From:   Jan Kara <jack@...e.cz>
To:     Baokun Li <libaokun1@...wei.com>
Cc:     Jan Kara <jack@...e.cz>, linux-mm@...ck.org,
        linux-ext4@...r.kernel.org, tytso@....edu,
        adilger.kernel@...ger.ca, willy@...radead.org,
        akpm@...ux-foundation.org, ritesh.list@...il.com,
        linux-kernel@...r.kernel.org, yi.zhang@...wei.com,
        yangerkun@...wei.com, yukuai3@...wei.com
Subject: Re: [PATCH -RFC 0/2] mm/ext4: avoid data corruption when extending
 DIO write race with buffered read

On Tue 05-12-23 20:50:30, Baokun Li wrote:
> On 2023/12/4 22:41, Jan Kara wrote:
> > On Mon 04-12-23 21:50:18, Baokun Li wrote:
> > > On 2023/12/4 20:11, Jan Kara wrote:
> > > > On Sat 02-12-23 17:14:30, Baokun Li wrote:
> > > > > Recently, while running some pressure tests on MYSQL, noticed that
> > > > > occasionally a "corrupted data in log event" error would be reported.
> > > > > After analyzing the error, I found that extending DIO write and buffered
> > > > > read were competing, resulting in some zero-filled page end being read.
> > > > > Since ext4 buffered read doesn't hold an inode lock, and there is no
> > > > > field in the page to indicate the valid data size, it seems to me that
> > > > > it is impossible to solve this problem perfectly without changing these
> > > > > two things.
> > > > Yes, combining buffered reads with direct IO writes is a recipe for
> > > > problems and pretty much in the "don't do it" territory. So honestly I'd
> > > > consider this a MYSQL bug. Were you able to identify why does MYSQL use
> > > > buffered read in this case? It is just something specific to the test
> > > > you're doing?
> > > The problem is with a one-master-twoslave MYSQL database with three
> > > physical machines, and using sysbench pressure testing on each of the
> > > three machines, the problem occurs about once every two to three hours.
> > > 
> > > The problem is with the relay log file, and when the problem occurs, the
> > > middle dozens of bytes of the file are read as all zeros, while the data on
> > > disk is not. This is a journal-like file where a write process gets the data
> > > from
> > > the master node and writes it locally, and another replay process reads the
> > > file and performs the replay operation accordingly (some SQL statements).
> > > The problem is that when replaying, it finds that the data read is
> > > corrupted,
> > > not valid SQL data, while the data on disk is normal.
> > > 
> > > It's not confirmed that buffered reads vs direct IO writes is actually
> > > causing this issue, but this is the only scenario that we can reproduce
> > > with our local simplified scripts. Also, after merging in patch 1, the
> > > MYSQL pressure test scenario has now been tested for 5 days and has not
> > > been reproduced.
> > > 
> > > I'll double-check the problem scenario, although buffered reads with
> > > buffered writes doesn't seem to have this problem.
> > Yeah, from what you write it seems that the replay code is using buffered
> > reads on the journal file. I guess you could confirm that with a bit of
> > kernel tracing but the symptoms look pretty convincing. Did you try talking
> > to MYSQL guys about why they are doing this?
>
> The operations performed on the relay log file are buffered reads and
> writes, which I confirmed with the following bpftrace script:
> ```
> #include <linux/fs.h>
> #include <linux/path.h>
> #include <linux/dcache.h>
> 
> kprobe:generic_file_buffered_read /!strncmp(str(((struct kiocb
> *)arg0)->ki_filp->f_path.dentry->d_name.name), "relay", 5)/ {
>     printf("read path: %s\n", str(((struct kiocb
> *)arg0)->ki_filp->f_path.dentry->d_name.name));
> }
> 
> kprobe:ext4_buffered_write_iter /!strncmp(str(((struct kiocb
> *)arg0)->ki_filp->f_path.dentry->d_name.name), "relay", 5)/ {
>     printf("write path: %s\n", str(((struct kiocb
> *)arg0)->ki_filp->f_path.dentry->d_name.name));
> }
> ```
> I suspect there are DIO writes causing the problem, but I haven't caught
> any DIO writes to such files via bpftrace.

Interesting. Not sure how your partially zeroed-out buffers could happen
with fully buffered IO.

> > > > > In this series, the first patch reads the inode size twice, and takes the
> > > > > smaller of the two values as the copyout limit to avoid copying data that
> > > > > was not actually read (0-padding) into the user buffer and causing data
> > > > > corruption. This greatly reduces the probability of problems under 4k
> > > > > page. However, the problem is still easily triggered under 64k page.
> > > > > 
> > > > > The second patch waits for the existing dio write to complete and
> > > > > invalidate the stale page cache before performing a new buffered read
> > > > > in ext4, avoiding data corruption by copying the stale page cache to
> > > > > the user buffer. This makes it much less likely that the problem will
> > > > > be triggered in a 64k page.
> > > > > 
> > > > > Do we have a plan to add a lock to the ext4 buffered read or a field in
> > > > > the page that indicates the size of the valid data in the page? Or does
> > > > > anyone have a better idea?
> > > > No, there are no plans to address this AFAIK. Because such locking will
> > > > slow down all the well behaved applications to fix a corner case for
> > > > application doing unsupported things. Sure we must not crash the kernel,
> > > > corrupt the filesystem or leak sensitive (e.g. uninitialized) data if app
> > > > combines buffered and direct IO but returning zeros instead of valid data
> > > > is in my opinion fully within the range of acceptable behavior for such
> > > > case.
> > > > 
> > > I also feel that a scenario like buffered reads + DIO writes is strange.
> > > But theoretically when read doesn't return an error, the data read
> > > shouldn't be wrong.  And I tested that xfs guarantees data consistency in
> > > this scenario, which is why I thought it might be buggy.
> > Yes, XFS has inherited stronger consistency guarantees from IRIX times than
> > Linux filesystems traditionally had. We generally don't even guarantee
> > buffered read vs buffered write atomicity (i.e., buffered read can see a
> > torn buffered write).
> 
> I'm a bit confused here, buffered read vs buffered write uses the same
> page and appears to be protected by a memory barrier, how does the
> inconsistency occur?

Within the same page buffered reads and writes should be consistent because
they are synchronized by the page lock. However once reads and writes
involve multiple pages, there is no serialization so you can get contents
of some pages before write and some pages after being written. However this
doesn't seem to be your particular case here. I just wanted to point out
that in general even buffered reads vs writes are not fully consistent.

								Honza

-- 
Jan Kara <jack@...e.com>
SUSE Labs, CR

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