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I am wondering how does stat command calculate the blocks of a file. I read the article, it says:

The value st_blocks gives the size of the file in 512-byte blocks. (This may be smaller than st_size/512 e.g. when the file has holes.) The value st_blksize gives the "preferred" blocksize for efficient file system I/O. (Writing to a file in smaller chunks may cause an inefficient read-modify-rewrite.)

but I cannot verify it on my test.

my file system is ext3.

the dumpe2fs -h /dev/sda3 shows:

First block: 0
Block size: 4096
Fragment size: 4096

then I run

kent@KentT60:~/Desktop$ stat Email
File: `Email'
Size: 965 Blocks: 8 IO Block: 4096 regular file
Device: 80ah/2058d Inode: 746095 Links: 1
Access: (0644/-rw-r--r--) Uid: ( 1000/ kent) Gid: ( 1000/ kent)
Access: 2009-08-11 21:36:36.000000000 +0200
Modify: 2009-08-11 21:36:35.000000000 +0200
Change: 2009-08-11 21:36:35.000000000 +0200

If Blocks here means:how many 512bytes blocks, the number should be 2 not 8. I thought that, the blocksize from filesystem (io block) is 4k. If fs will get the file Email, it will fetch minimal 4k from disk (8 x 512bytes blocks), which means 965/512 + 6 = 8. I am not sure if the guess is correct.

another test:

kent@KentT60:~/Desktop$ stat wxPython-demo-
File: `wxPython-demo-'
Size: 3605257 Blocks: 7056 IO Block: 4096 regular file
Device: 80ah/2058d Inode: 746210 Links: 1
Access: (0644/-rw-r--r--) Uid: ( 1000/ kent) Gid: ( 1000/ kent)
Access: 2009-08-12 21:45:45.000000000 +0200
Modify: 2009-08-12 21:43:46.000000000 +0200
Change: 2009-08-12 21:43:46.000000000 +0200

3605257/512=7041.xx = 7042

following my guess above, this would be 7042 + 6 = 7048. but the stat result shows 7056.

And another example from internet at I copy the example at bottom of the page here:

File: `index.htm'
Size: 17137 Blocks: 40 IO Block: 8192 regular file
Device: 8h/8d Inode: 23161443 Links: 1
Access: (0644/-rw-r--r--) Uid: (17433/comphope) Gid: ( 32/ www)
Access: 2007-04-03 09:20:18.000000000 -0600
Modify: 2007-04-01 23:13:05.000000000 -0600
Change: 2007-04-02 16:36:21.000000000 -0600

In this example, FS blocksize is 8k. I suppose the Blocks number should be 16xN, but it is 40. get lost...

anyone can explain, how the stat calculate the Blocks ?


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1 Answer 1

up vote 9 down vote accepted

The stat command-line tool uses the stat / fstat etc. functions, which return data in the stat structure. The st_blocks member of the stat structure returns:

The total number of physical blocks of size 512 bytes actually allocated on disk. This field is not defined for block special or character special files.

So for your "Email" example, with a size of 965 and block-count of 8, it is indicating that 8*512=4096 bytes are physically allocated on disk. The reason it's not 2 is that the file system on disk does not allocate space in units of 512, it evidently allocates them in units of 4096. (And the unit of allocation may vary depending on file size and filesystem sophistication. E.g. ZFS supports different units of allocation.)

Similarly, for wxPython example, it indicates that 7056*512 bytes, or 3612672 bytes are physically allocated on disk. You get the idea.

The IO block size is "a hint as to the 'best' unit size for I/O operations" - it's usually the unit of allocation on the physical disk. Don't get confused between the IO block and the block that stat uses to indicate physical size; the blocks for physical size are always 512 bytes.

Update based on comment:

Like I said, st_blocks is how the OS indicates how much space is used by the file on disk. The actual units of allocation on disk are the choice of the file system. For example, ZFS can have allocation blocks of variable size, even in the same file, because of the way it allocates blocks: files start out having a small block size, and block sizes keeps on increasing until it reaches a particular point. If the file is later truncated, it will probably keep the old block size. So based on the history of the file, it can have multiple possible block sizes. So given a file size it is not always obvious why it has a particular physical size.

Concrete example: on my Solaris box, with a ZFS file system, I can create a very short file:

$ echo foo > test
$ stat test
  Size: 4               Blocks: 2          IO Block: 512    regular file
(irrelevant details omitted)

OK, small file, 2 blocks, physical disk usage is 1024 for this file.

$ dd if=/dev/zero of=test2 bs=8192 count=4
$ stat test2
  Size: 32768           Blocks: 65         IO Block: 32768  regular file

OK, now we see physical disk usage of 32.5K, and an IO block size of 32K. I then copied it to test3 and truncated this test3 file in an editor:

$ cp test2 test3
$ joe -hex test3
$ stat test3
  Size: 4               Blocks: 65         IO Block: 32768  regular file

Well now, here's a file with 4 bytes in it - just like test - but it's using 32.5K physically on the disk, because of the way the ZFS file system allocates space. Block sizes increase as the file gets larger, but they don't decrease when the file gets smaller. (And yes, this can lead to substantial wasted space depending on the kinds of files and file operations you do on ZFS, which is why it allows you to set the maximum block size on a per-filesystem basis, and change it dynamically.)

Hopefully you should now appreciate that there isn't necessarily a simple relationship between file size and physical disk usage. Even in the above it's not clear why 32.5K bytes are needed to store a file that's exactly 32K in size - it appears that ZFS generally needs an extra 512 bytes for extra storage of its own. Perhaps it's using that storage for checksums, reference counts, transaction state - file system bookkeeping. By including these extras in the indicated physical file size, it seems like ZFS is trying not to mislead the user as to the physical costs of the file. That doesn't mean it's trivial to reverse-engineer the calculation without knowing intimate details about the underlying file system implementation.

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Agreed. st_blocks is only called that for historical reasons. Don't think of it as blocks, but as the amount of disk space used by the file, in units of 512 bytes. 512 bytes is a convenient unit because it is pretty much the smallest allocation unit that anyone uses. – mark4o Aug 28 '09 at 14:23
Thanks for the explaination. almost clear. but still have questions. i am not sure if it is correct understanding: st_blocks = (IO block size / 512) * (how many IO blocks the file used). Email example can be explained by this: (4096/512) * 1 = 8 wxpython one not. because the file used 881 IO blocks, and (4096/512)*881=7048 not 7056. and the last example not either: 40 can even not be exactly divided by 16 (8192/512).. is the "512bytes" for all system the same? thanks – Kent Aug 29 '09 at 9:38
the examples and explanations do help a lot. thanks, Barry Kelly. – Kent Aug 29 '09 at 12:11

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