cross-posted from: https://programming.dev/post/9319044
Hey,
I am planning to implement authenticated boot inspired from Pid Eins’ blog. I’ll be using pam mount for /home/user. I need to check integrity of all partitions.
I have been using luks+ext4 till now. I am
hesistanthesitant to switch to zfs/btrfs, afraid I might fuck up. A while back I accidently purged ‘/’ trying out timeshift which was my fault.Should I use zfs/btrfs for /home/user? As for root, I’m considering luks+(zfs/btrfs) to be restorable to blank state.
Btrfs is default on OpenSUSE, has worked great for me for 7 years. No issues.
Same here, but for only 1 year on my main machine and 6 years on my laptop. I looove snapper. It saved my ass so many times
Yes it is great. For me snapper rollback was an awesome onboarding experience to linux. Being eager to try things I read online for tweaks and general explorarion it brought me back to a working system after some custom kernel compiling gone awry, or deleting the wrong file etc.
I’ve been on btrfs for so many years, with nightly backups with restic, so I’ve been dragging my feet on snapper. Finally installed it a couple weeks ago, and while I opened the config, I don’t think I changed anything. It’s worked so well, and the Arch package was so well done, that I’d forgotten I had it installed until a few days later I noticed that it was taking snapshots every time before I installed something. It’s shockingly good, and I don’t understand why btrfs+snapper(+grub-btrfs) isn’t the default on installs now.
Been using Btrfs for a year, I once had an issue that my filesystem was read only, I went to the Btrfs reddit and after some troubleshooting it turned out that my ssd was dying, I couldn’t believe it at first because my SMART report was perfectly clean and the SSD was only 2 years old, then a few hours later SMART began reporting thousands of dead sectors.
The bloody thing was better than smart at detecting a dying ssd lol.
Luks+btrfs with Arch as daily driver for 3 years now, mostly coding and browsing. Not a single problem so far :D
that sounds good.
Have you used luks integrity feature? though it’s marked experimental in man page
I have the same use-case as @[email protected]. I didn’t test the integrity feature because it is my work machine and I am not fond of doing experimental stuff on it.
If you want to be sure you don’t loss data make sure you backup your keys.
After 4 years on btrfs I haven’t had a single issue, I never think about it really. Granted, I have a very basic setup. Snapper snapshots have saved me a couple of times, that aspect of it is really useful.
As a home user I’d recommend btrfs. It has main line kernel support and is way easier to get operational than zfs. I’d you don’t need the more advance raid types of zfs or deduplication, btrfs can do everything you want. Also btrfs is a lot more resource friendly. Zfs, especially with deduplication, takes a ton of RAM.
My experiences:
ZFS: never even tried because it’s not integrated (license).
Btrfs: iirc I’ve tried it three times. Several years ago now. On at least two of those tries, after maybe a month or some of daily driving, suddenly the fs goes totally unresponsive and because it’s the entire system, could only reboot. FS is corrupted and won’t recover. There is no fsck. There is no recovery. Total data loss. Start again from last backup. Haven’t seen that since reiserfs around 2000. Found lots of posts with similar error message. Took btrfs off the list of things I’ll be using in production.
I like both from a distance, but still use ext*. Never had total data loss that wasn’t a completely electrically dead drive with any version I’ve used since 1995.
Btrfs has come a long way in the last few years. I have been using it for a little over 5 years and its rock solid. It now powers all my bare metal machines and I use Raid 1 on my servers.
There was one time I had a disk unexpectedly go bad (it started returning bad data on read) which lead to the system going read only. It took me about 5min to swap disks and it was fine. Needless to say I was impressed that no data was lost.
Btrfs will normally won’t get corrupted unless you have a hardware issue. It uses cow so writes can never be half competed. If you do manage to get corruption you can use btrfs check.
Btrfs will normally won’t get corrupted unless you have a hardware issue. It uses cow so writes can never be half competed. If you do manage to get corruption you can use btrfs check.
From my experience BTRFS is way more reliable against hardware failure then Ext4 ever was. Ext* filesystems tend to go corrupt on the first and smallest power loss or hardware failure.
Ouch, that must have been a pain to recover from…
I’ve had almost the opposite experience to yours funnily. Several years ago my HDDs would drop out at random during heavy write loads, after a while I narrowed down the cause to some dodgy SATA power cables, which sadly I could not replace at the time. Due to the hardware issue I could not scrub the filesystem successfully either. However I managed to recover all my data to a separate BTRFS filesystem, using some “restore” utility that was mentioned in the docs, and to the best of my knowledge all the recovered data was intact.
While that past error required a separate filesystem to perform the recovery, my most recent hardware issue with drives dropping out didn’t need any recovery at all - after resolving the hardware issue (a loose power connection) BTRFS pretty much fixed itself during a scheduled scrub and spat out all the repairs in dmesg.
I would suggest enabling some kind of monitoring on BTRFS’s counters if you haven’t, because the fs will do whatever it can to prevent interruption to operations. In my previous two cases, performance was pretty much unaffected, and I only noticed the hardware problems due to the scheduled scrub & balance taking longer or failing.
Don’t run a fsck - BTRFS essentially does this to itself during filesystem operations, such as a scrub or a file read. The provided btrfs check tool (fsck) is for the internal B-tree structure specifically AFAIK, and irreversably modifies the filesystem internally in a way that can cause unrecoverable data loss if the user does not know what they are doing. Instead of running fsck, run a scrub - it’s an online operation that can be done while the filesystem is still mounted
DO NOT RUN A SCRUB IF YOU SUSPECT HARDWARE FAILURE.
No seriously. If you are having hardware issues a scrub could make the corruption much worse. You should first make a complete copy of your data and then run btrfs check. Sorry for shouting but it is really important you don’t stub a bad disk.
Several years ago now. On at least two of those tries, after maybe a month or some of daily driving, suddenly the fs goes totally unresponsive and because it’s the entire system, could only reboot. FS is corrupted and won’t recover. There is no fsck. There is no recovery. Total data loss.
Could you narrow it down to just how long ago? BTRFS took a very long time to stabilise, so that could possibly make a difference here. Also, do you remember if you were using any special features, especially RAID, and if RAID, which level?
I could see if there’s notes somewhere. Very plain desktop and laptop. Probably encrypted LVM. At least one was doing a lot of software builds with big system image trees and snapshots.
There is btrfs-check --repair to fix corruption
https://www.suse.com/support/kb/doc/?id=000018769
WARNING: Using ‘–repair’ can further damage a filesystem instead of helping if it can’t fix your particular issue.
Edit:
It is extremely important that you ensure a backup has been created before invoking ‘–repair’.
That is a caveat with OS disk tools. Even partition resizing gives this warning, as does Windows checkdisk…something about unnessary disk checks ahould be avoided as they can create issues where none might have existed, so only run when you suspect a problem.
But as lemann pointed out in this thread btrfs scrub is less risky
Can’t vouch for ZFS, but btrfs is great!
You can mount root, log, and home on different subvolumes, they’d practically be on different partitions while still sharing the size limit.
I would also take system snapshots while the system is still running with one command. No need to exclude the home or log directories, nor the pseudo fs (e.g. proc, sys, tmp, dev).
I think zfs is a pretty cool guy. Eh copy on write and doesn’t afraid of anything
At some, long ago, the Ubuntu installer was offering to use zfs for the boot and root partitions. That sounded like a good idea and worked great for a long time, automatic snapshots, options to restore state at boot etc.
Until my generous boot partition started to run out if space with all the snapshots (which were setup automatically and no obvious way to configure) OK no big deal, write a bash script that finds the old snapshots and delete them manually whenever boot is full again.
Then one day recently my laptop wouldn’t boot anymore, Grub could no longer read the zfs on boot. Managed to boot with USB installation image, read zsf and chroot. Tried alot of things but in the end killed zfs and replace with ext4. Then made it boot again.
Apparently I’m not the only one with this issue.
I did my first BTRFS setup over the weekend. I followed the Arch wiki to set up what I thought was RAID 1 only to find out nearly a TB of copying later that it was splitting the data between the drives, not mirroring them (only the metadata was in R1.) One command later and I’d converted the filesystem to true RAID 1. I feel like any other system would require a total redo of the entire FS, but BTRFS did it flawlessly.
I’m still confused, however, as it seems RAID 1 only works with two drives from what I’ve read. Is that true? Why?
That is not the case. In the context of btrfs, RAID-1 means “ensure that two copies of every data block are available in the running volume,” not “ensure that every bit of both of these drives is identical at all times.” For example, I have a btrfs volume in my server with six drives in it (14 TB each) set up as a RAID-1/1 (both data and metadata are mirrored). It doesn’t really matter which two drives of the six have copies of a given data block, only that two copies exist at all.
Compare it to… three RAID-1 metadevices (mdadm), with LVM over top, and ext4 (let’s say) on top of that. When a file is created in the filesystem (ext4), LVM ensures that it doesn’t matter on which pair of drives it was written, and mdadm’s RAID-1 functionality ensures that there are always two identical copies of the file (on two identical copies of a drive).
Iirc they added raid1c3 raid1c4 etc to make raid 1 work with more copies.
@unhinge I run a simple 48TiB zpool, and I found it easier to set up than many suggest and trivial to work with. I don’t do anything funky with it though, outside of some playing with snapshots and send/receive when I first built it.
I think I recall reading about some nuance around using LUKS vs ZFS’s own encryption back then. Might be worth having a read around comparing them for your use case.
afaik openzfs provides authenticated encryption while luks integrity is marked experimental (as of now in man page).
openzfs also doesn’t reencrypt dedup blocks if dedup is enabled Tom Caputi’s talk, but dedup can just be disabled
if you happen to find the comparison, could you link it here
My experience with btrfs is “oh shit I forgot to set up subvolumes”. Other than that, it just works. No issues whatsoever.
oh shit I forgot to set up subvolumes
lol
I’m also planning on using its subvolume and snapshot feature. since zfs also supports native encryption, it’ll be easier to manage subvolums for backups
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[…] there were rumours some French guy got arrested and had his LUKS encryption fail on him, so you never know.
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Or its possible that he reused passwords
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Fucking French, man…
I haven’t used them professionally but I’ve been using ZFS on my home router (OPNsense) and NAS (TrueNAS with RAID-Z2) for many years without problem. I’ve used Btrfs on laptops and desktops with OpenSUSE Tumbleweed for the past year and a bit, also without problem. Btrfs snapshots have saved me a couple of times when I messed something up. Both seem like solid filesystems for everyday use.
Why ZFS on a router?
The two options are UFS and ZFS, and their documentation recommends that ZFS is more reliable. I had UFS before and after a power outage the router wouldn’t reboot, so I switched to ZFS. That was two or three years ago and the router has stayed up since then (except one time when an SSD died, but that was a hardware failure).
Honestly I’m surprised UFS is still a thing. I guess its useful for read only flash.
I have had great luck with my users’ home directories on ZFS. No issues in years. Used to have issues, and on those days I was glad root was on ext3.
I had issues with btrfs about 10 years ago. It is much better now.
Both experiences with Linux.
A different ZFS partition per user is really helpful for quota and migration.