On 9/17/19 2:32 PM, Christoph Hellwig wrote:
On Tue, Sep 17, 2019 at 02:30:15PM +0530, Ritesh Harjani wrote:
So if we have a delayed buffered write to a file,
in that case we first only update inode->i_size and update
i_disksize at writeback time
(i.e. during block allocation).
In that case when we call for ext4_dio_write_iter
since offset + len > i_disksize, we call for ext4_update_i_disksize().
Now if writeback for some reason failed. And the system crashes, during the
DIO writes, after the blocks are allocated. Then during reboot we may have
an inconsistent inode, since we did not add the inode into the
orphan list before we updated the inode->i_disksize. And journal replay
may not succeed.
1. Can above actually happen? I am still not able to figure out the
race/inconsistency completely.
2. Can you please help explain under what other cases
it was necessary to call ext4_update_i_disksize() in DIO write paths?
3. When will i_disksize be out-of-sync with i_size during DIO writes?
None of the above seems new in this patchset, does it? That being said
In original code before updating i_disksize in ext4_direct_IO_write,
we used to add the inode into the orphan list (which will mark the iloc
dirty and also update the ondisk inode size). Only then we update the
i_disksize to inode->i_size (which still I don't understand the
reason to put inside open journal handle).
So in case if the crash happens, then in the recovery, we can replay the
journal and we truncate any extra blocks beyond i_size.
(ext4_orphan_cleanup()).
In new iomap implementation (i.e. this patchset), we are doing this in
reverse.
We first call for ext4_update_i_disksize() in ext4_dio_write_iter(),
and then in ext4_iomap_begin() after ext4_map_blocks(),
we add the inode to orphan list, which I am not really sure whether it
is really consistent with on disk size??
I found the early size update odd. XFS updates the on-disk size only
at I/O completion time to deal with various races including the
potential exposure of stale data.
Yes, can't really say why it is the case in ext4.
That's mostly what I wanted to understand from previous queries.
-ritesh