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For debugging purposes, I want to open a file on a specific predefined block. For instance, if I suspect a specific block is damaged, I want to write and read from it, and I'd rather do that in user mode, while the partition is mounted.

Is there a way to tell Linux, "hey! open this new file on block 4579 if it's free".

Yes, I can edit the block device directly, but that would likely to trash the filesystem if the drive is mounted.

Generic answers are welcomed, but even answer for the ext filesystems families is good enough.

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This would be highly dependent on the specific filesystem in use. Some filesystems don't even have the concept of blocks. But you've tagged the question ext4. I highly doubt that there is such a feature for ext4 or any other similar filesystem. –  Celada Jul 4 '12 at 16:38
    
@Celada they have to have the concept of block, since this is the basic unit they write to the physical device, isn't it? –  mikebloch Jul 5 '12 at 7:16
    
I said some filesystems don't have the concept of a block. nfs, tmpfs, virtual filesystems, most fuse filesystems, jffs2 (though that one does erase by the block), etc... But I just said that by the way, since I gather you are asking about ext4 specifically. –  Celada Jul 5 '12 at 13:26
    
@Celada, can you please explain (I'm new to block devices), won't jffs2 eventually write 4K to the second block in the underlying flash? (or whatever). Maybe it'll allocate a certain block to many files, maybe it doesn't have concept of files at all, but at the end of the day, it'll write 4K (or whatever the block size is) of data to the underlying block device (which might be a file pretending to be a block device, but it'll still think it's a block device). Am I wrong? –  mikebloch Jul 5 '12 at 15:08
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This question reminds me of people who want to access a specific physical memory address from user space. Sigh... –  paulsm4 Jul 5 '12 at 23:43

1 Answer 1

For instance, if I suspect a specific block is damaged, I want to write and read from it ... Is there a way to tell Linux, "hey! open this new file on block 4579 if it's free".

Yes, you can use the underlying block device as a file and seek to that location on the file. This seems appropriate given your "debugging" use case. Note that writes to this block may destroy the integrity of the filesystem above (even writing back the contents just read).

Otherwise, no, the filesystems are designed to hide often mask the real geometry underlying device's layout and as such there is no such mechanism to give hints on where the file should be created.

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Even the drives don't expose their real geometry. All flash devices except raw NAND chips do wear leveling automatically, of course, so there simply is no notion of a specific location in storage. And magnetic devices can detect errors via ECC mechanisms and transparently remap the sectors without any visibility at the OS level. –  Andy Ross Jul 4 '12 at 17:58
    
@AndyRoss I don't care about it in that level, I just want to get the same block level access that the OS uses. –  mikebloch Jul 5 '12 at 7:15
    
@Brian I know that but, I don't want to trash my file system. –  mikebloch Jul 5 '12 at 7:15
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@mikebloch I don't think the onus is on Brian to show an LKML reference saying the feature was considered and rejected. It would be a very odd thing for a filesystem to allow external input into its block allocation decision strategy, so it's more than likely that it's never even been discussed before. The ioctls you mention to find the location of files and free space after the fact were specifically added to solve concrete use cases (like the needs of a bootloader. Even then, it's fragile to expose this: what does it even mean when RAID parity is involved? Or file data stored in the inode? –  Celada Jul 5 '12 at 13:35
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@mikebloch defrag software, like fsck, would be considered part of the implementation of the filesystem and is tightly associated with a particular filesystem type and probably developed by the same team, too. It would use private interfaces to the filesystem that aren't designed for public use, and could not really be extended to be generic enough anyway. Think, for example, of zfs: it's a copy-on-write filesystem so a file moves around to a new block every time it's modified. Are you expecting that? Anyway, for zfs, you have to deal with much more than just blocks: you have storage pools –  Celada Jul 5 '12 at 17:40

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