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Message-ID: <CAOvWMLY9HAeQTsEwCchKNjL+1=-grBQrDO6-KCYcS-mxMYyRpw@mail.gmail.com>
Date: Tue, 5 Nov 2013 17:28:35 -0800
From: Andiry Xu <andiry@...il.com>
To: Jan Kara <jack@...e.cz>
Cc: Wang Shilong <wangsl-fnst@...fujitsu.com>,
linux-kernel@...r.kernel.org, linux-ext4@...r.kernel.org,
Andiry Xu <andiry.xu@...il.com>
Subject: Re: [BUG][ext2] XIP does not work on ext2
Hi,
On Tue, Nov 5, 2013 at 6:32 AM, Jan Kara <jack@...e.cz> wrote:
> Hello,
>
> On Mon 04-11-13 18:37:40, Andiry Xu wrote:
>> On Mon, Nov 4, 2013 at 4:37 PM, Jan Kara <jack@...e.cz> wrote:
>> > Hello,
>> >
>> > On Mon 04-11-13 14:31:34, Andiry Xu wrote:
>> >> When I'm trying XIP on ext2, I find that xip does not work on ext2
>> >> with latest kernel.
>> >>
>> >> Reproduce steps:
>> >> Compile kernel with following configs:
>> >> CONFIG_BLK_DEV_XIP=y
>> >> CONFIG_EXT2_FS_XIP=y
>> >>
>> >> And run following commands:
>> >> # mke2fs -b 4096 /dev/ram0
>> >> # mount -t ext2 -o xip /dev/ram0 /mnt/ramdisk/
>> >> # dd if=/dev/zero of=/mnt/ramdisk/test1 bs=1M count=16
>> >>
>> >> And it shows:
>> >> dd: writing `/mnt/ramdisk/test1': No space left on device
>> >>
>> >> df also shows /mnt/ramdisk is 100% full. Its default size is 64MB so a
>> >> 16MB write should only occupy 1/4 capacity.
>> >>
>> >> Criminal commit:
>> >> After git bisect, it points to the following commit:
>> >> 8e3dffc651cb668e1ff4d8b89cc1c3dde7540d3b
>> >> Ext2: mark inode dirty after the function dquot_free_block_nodirty is called
>> > Thanks for report and the bisection!
>> >
>> >> Particularly, the following code:
>> >> @@ -1412,9 +1415,11 @@ allocated:
>> >> *errp = 0;
>> >> brelse(bitmap_bh);
>> >> - dquot_free_block_nodirty(inode, *count-num);
>> >> - mark_inode_dirty(inode);
>> >> - *count = num;
>> >> + if (num < *count) {
>> >> + dquot_free_block_nodirty(inode, *count-num);
>> >> + mark_inode_dirty(inode);
>> >> + *count = num;
>> >> + }
>> >> return ret_block;
>> >>
>> >> Not mark_inode_dirty() is called only when num is less than *count.
>> >> However, I've seen
>> >> with the dd command, there is case where num >= *count.
>> >>
>> >> Fix:
>> >> I've verified that the following patch fixes the issue:
>> >> diff --git a/fs/ext2/balloc.c b/fs/ext2/balloc.c
>> >> index 9f9992b..5446a52 100644
>> >> --- a/fs/ext2/balloc.c
>> >> +++ b/fs/ext2/balloc.c
>> >> @@ -1406,11 +1406,10 @@ allocated:
>> >>
>> >> *errp = 0;
>> >> brelse(bitmap_bh);
>> >> - if (num < *count) {
>> >> + if (num <= *count)
>> >> dquot_free_block_nodirty(inode, *count-num);
>> >> - mark_inode_dirty(inode);
>> >> - *count = num;
>> >> - }
>> >> + mark_inode_dirty(inode);
>> >> + *count = num;
>> >> return ret_block;
>> >>
>> >> io_error:
>> >>
>> >> However, I'm not familiar with ext2 source code and cannot tell if
>> >> this is the correct fix. At least it fixes my issue.
>> > With this, you have essentially reverted a hunk from commit
>> > 8e3dffc651cb668e1ff4d8b89cc1c3dde7540d3b. But I don't see a reason why it
>> > should be reverted. num should never ever be greater than *count and when
>> > num == count, we the code inside if doesn't do anything useful.
>> >
>> > I've looked into the code and I think I see the problem. It is a long
>> > standing bug in __ext2_get_block() in fs/ext2/xip.c. It calls
>> > ext2_get_block() asking for 0 blocks to map (while we really want 1 block).
>> > ext2_get_block() just passes that request and ext2_get_blocks() actually
>> > allocates 1 block. And that's were the commit you have identified makes a
>> > difference because previously we returned that 1 block was allocated while
>> > now we return that 0 blocks were allocated and thus allocation is repeated
>> > until all free blocks are exhaused.
>> >
>> > Attached patch should fix the problem.
>> >
>>
>> Thanks for the reply. I've verified that your patch fixes my issue.
>> And it's absolutely better than my solution.
>>
>> Tested-by: Andiry Xu <andiry.xu@...il.com>
> Thanks for testing!
>
>> I have another question about ext2 XIP performance, although it's not
>> quite related to this thread.
>>
>> I'm testing xip with ext2 on a ram disk drive, the driver is brd.c.
>> The RAM disk size is 2GB and I pre-fill it to guarantee that all pages
>> reside in main memory.
>> Then I use two different applications to write to the ram disk. One is
>> open() with O_DIRECT flag, and writing with Posix write(). Another is
>> open() with O_DIRECT, mmap() it to user space, then use memcpy() to
>> write data. I use different request size to write data, from 512 bytes
>> to 64MB.
>>
>> In my understanding, the mmap version bypasses the file system and
>> does not go to kernel space, hence it should have better performance
>> than the Posix-write version. However, my test result shows it's not
>> always true: when the request size is between 8KB and 1MB, the
>> Posix-write() version has bandwidth about 7GB/s and mmap version only
>> has 5GB/s. The test is performed on a i7-3770K machine with 8GB
>> memory, kernel 3.12. Also I have tested on kernel 3.2, in which mmap
>> has really bad performance, only 2GB/s for all request sizes.
>>
>> Do you know the reason why write() outperforms mmap() in some cases? I
>> know it's not related the thread but I really appreciate if you can
>> answer my question.
> Well, I'm not completely sure. mmap()ed memory always works on page-by-page
> basis - you first access the page, it gets faulted in and you can further
> access it. So for small (sub page size) accesses this is a win because you
> don't have an overhead of syscall and fs write path. For accesses larger
> than page size the overhead of syscall and some initial checks is well
> hidden by other things. I guess write() ends up being more efficient
> because write path taken for each page is somewhat lighter than full page
> fault. But you'd need to look into perf data to get some hard numbers on
> where the time is spent.
>
Thanks for the reply. However I have filled up the whole RAM disk
before doing the test, i.e. asked the brd driver to allocate all the
pages initially. Moreover I have done the test on PMFS, a file system
for persistent memory, and the result is the same. PMFS reserves some
physical memory during system boot and then use it to emulate the
persistent memory device, so there shouldn't be any page fault. I
think there should be some other reason.
I will try to look into the perf data and see what happens. Thanks for
the advice.
Thanks,
Andiry
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