this post was submitted on 23 Nov 2024
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i've instaled opensuse tumbleweed a bunch of times in the last few years, but i always used ext4 instead of btrfs because of previous bad experiences with it nearly a decade ago. every time, with no exceptions, the partition would crap itself into an irrecoverable state

this time around i figured that, since so many years had passed since i last tried btrfs, the filesystem would be in a more reliable state, so i decided to try it again on a new opensuse installation. already, right after installation, os-prober failed to setup opensuse's entry in grub, but maybe that's on me, since my main system is debian (turns out the problem was due to btrfs snapshots)

anyway, after a little more than a week, the partition turned read-only in the middle of a large compilation and then, after i rebooted, the partition died and was irrecoverable. could be due to some bad block or read failure from the hdd (it is supposedly brand new, but i guess it could be busted), but shit like this never happens to me on extfs, even if the hdd is literally dying. also, i have an ext4 and an ufs partition in the same hdd without any issues.

even if we suppose this is the hardware's fault and not btrfs's, should a file system be a little bit more resilient than that? at this rate, i feel like a cosmic ray could set off a btrfs corruption. i hear people claim all the time how mature btrfs is and that it no longer makes sense to create new ext4 partitions, but either i'm extremely unlucky with btrfs or the system is in fucking perpetual beta state and it will never change because it is just good enough for companies who can just, in the case of a partition failure, can just quickly switch the old hdd for a new one and copy the nightly backup over to it

in any case, i am never going to touch btrfs ever again and i'm always going to advise people to choose ext4 instead of btrfs

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[–] Atemu@lemmy.ml 18 points 23 hours ago (2 children)

could be due to some bad block or read failure from the hdd (it is supposedly brand new, but i guess it could be busted)

I'd suspect the controller or cable first.

shit like this never happens to me on extfs, even if the hdd is literally dying

You say that as if it's a good thing. If you HDD is "literally dying", you want the filesystem to fail safe to make you (and applications) aware and not continue as if nothing happened. extfs doesn't fail here because it cannot even detect that something is wrong.

btrfs has its own share of bugs but, in theory, this is actually a feature.

i have an ext4 and an ufs partition in the same hdd without any issues.

Not any issue that you know of. For all extfs (and, by extension, you) knows, the disk/cable/controller/whatever could have mangled your most precious files and it would be none the wiser; happily passing mangled data to applications.

You have backups of course (right?), so that's not an issue you might say but if the filesystem isn't integer, that can permeate to your backups because the backup tool reading those files is none the wiser too; it relies on the filesystem to return the correct data. If you don't manually verify each and every file on a higher level (e.g. manual inspection or hashing) and prune old backups, this has potential for actual data loss.

If your hardware isn't handling the storage of data as it should, you want to know.

even if we suppose this is the hardware's fault and not btrfs's, should a file system be a little bit more resilient than that? at this rate, i feel like a cosmic ray could set off a btrfs corruption.

While the behaviour upon encountering an issue is in theory correct, btrfs is quite fragile. Hardware issues shouldn't happen but when they happen, you're quite doomed because btrfs doesn't have the option to continue despite the integrity of a part of it being compromised.
btrfs-restore disables btrfs' integrity; emulating extfs's failure mode but it's only for extracting files from the raw disks, not for continuing to use it as a filesystem.

I don't know enough about btrfs to know whether this is feasible but perhaps it could be made a bit more log-structured such that old data is overwritten first which would allow you to simply roll back the filesystem state to a wide range of previous generations, of which some are hopefully not corrupted. You'd then discard the newer generations which would allow you to keep using the filesystem.
You'd risk losing data that was written since that generation of course but that's often a much lesser evil. This isn't applicable to all kinds of corruption because older generations can become corrupted retroactively of course but at least a good amount of them I suspect.

[–] pupbiru@aussie.zone 3 points 15 hours ago (1 children)

I don't know enough about btrfs to know whether this is feasible but perhaps it could be made a bit more log-structured such that old data is overwritten first which would allow you to simply roll back the filesystem state to a wide range of previous generations, of which some are hopefully not corrupted. You'd then discard the newer generations which would allow you to keep using the filesystem.

i’m not sure i understand quite what you’re suggesting, but BTRFD is a copy on write filesystem

so when you write a block, you’re not writing over the old data: you’re writing to empty space, and then BTRFS is marking the old space as unused - or in the case of snapshots, marking it to be kept as old data

[–] Atemu@lemmy.ml 1 points 28 minutes ago

I am well aware of how CoW works. What I wrote does not stand in conflict with it.

Perhaps I wasn't clear enough in what I said though:

Each metadata operation ("commit" I think it's called) has a generation number; it first builds this generation (efficiently via CoW) and then atomically switches to it. The next generation is built with an incremented generation number and atomically switched again.
That's my understanding of how btrfs generally operates.

When things go awry, some sector that holds some of the newest generation may be corrupt but it might be that a relatively recent generation does not contain this data and is therefore unaffected.

What I'm suggesting is that you should be able to roll back to such a generation at the cost of the changes which happened in between in order to restore a usable filesystem. For this to be feasible, btrfs would need to take greater care not to overwrite recent generation data though which is what I meant by making it "more log-structured".

I don't know whether any of this is realistically doable though; my knowledge of btrfs isn't enough to ascertain this.