On 2017年11月16日 20:33, Zdenek Kabelac wrote: > Dne 16.11.2017 v 11:04 Qu Wenruo napsal(a): >> >> >> On 2017年11月16日 17:43, Zdenek Kabelac wrote: >>> Dne 16.11.2017 v 09:08 Qu Wenruo napsal(a): >>>> >>>> >>>>>>>>> >>>>>>>> [What we have] >>>>>>>> The nearest infrastructure I found in kernel is >>>>>>>> bio_integrity_payload. >>>>>>>> >>> >>> Hi >>> >>> We already have dm-integrity target upstream. >>> What's missing in this target ? >> >> If I didn't miss anything, the dm-integrity is designed to calculate and >> restore csum into its space to verify the integrity. >> The csum happens when bio reaches dm-integrity. >> >> However what I want is, fs generate bio with attached verification hook, >> and pass to lower layers to verify it. >> >> For example, if we use the following device mapper layout: >> >> FS (can be any fs with metadata csum) >> | >> dm-integrity >> | >> dm-raid1 >> / \ >> disk1 disk2 >> >> If some data in disk1 get corrupted (the disk itself is still good), and >> when dm-raid1 tries to read the corrupted data, it may return the >> corrupted one, and then caught by dm-integrity, finally return -EIO to >> FS. >> >> But the truth is, we could at least try to read out data in disk2 if we >> know the csum for it. >> And use the checksum to verify if it's the correct data. >> >> >> So my idea will be: >> FS (with metadata csum, or even data csum support) >> | READ bio for metadata >> | -With metadata verification hook >> dm-raid1 >> / \ >> disk1 disk2 >> >> dm-raid1 handles the bio, reading out data from disk1. >> But the result can't pass verification hook. >> Then retry with disk2. >> >> If result from disk2 passes verification hook. That's good, returning >> the result from disk2 to upper layer (fs). >> And we can even submit WRITE bio to try to write the good result back to >> disk1. >> >> If result from disk2 doesn't pass verification hook, then we return -EIO >> to upper layer. >> >> That's what btrfs has already done for DUP/RAID1/10 (although RAID5/6 >> will also try to rebuild data, but it still has some problem). >> >> I just want to make device-mapper raid able to handle such case too. >> Especially when most fs supports checksum for their metadata. >> > > Hi > > IMHO you are looking for too complicated solution. This is at least less complicated than dm-integrity. Just a new hook for READ bio. And it can start from easy part. Like starting from dm-raid1 and other fs support. > > If your checksum is calculated and checked at FS level there is no added > value when you spread this logic to other layers. That's why I'm moving the checking part to lower level, to make more value from the checksum. > > dm-integrity adds basic 'check-summing' to any filesystem without the > need to modify fs itself Well, despite the fact that modern filesystem has already implemented their metadata csum. - the paid price is - if there is bug between > passing data from 'fs' to dm-integrity' it cannot be captured. > > Advantage of having separated 'fs' and 'block' layer is in its > separation and simplicity at each level. Totally agreed on this. But the idea here should not bring that large impact (compared to big things like ZFS/Btrfs). 1) It only affect READ bio 2) Every dm target can choose if to support or pass down the hook. no mean to support it for RAID0 for example. And for complex raid like RAID5/6 no need to support it from the very beginning. 3) Main part of the functionality is already implemented The core complexity contains 2 parts: a) checksum calculation and checking Modern fs is already doing this, at least for metadata. b) recovery dm targets already have this implemented for supported raid profile. All these are already implemented, just moving them to different timing is not bringing such big modification IIRC. > > If you want integrated solution - you are simply looking for btrfs where > multiple layers are integrated together. If with such verification hook (along with something extra to handle scrub), btrfs chunk mapping can be re-implemented with device-mapper: In fact btrfs logical space is just a dm-linear device, and each chunk can be implemented by its corresponding dm-* module like: dm-linear: | btrfs chunk 1 | btrfs chunk 2 | ... | btrfs chunk n | and btrfs chunk 1: metadata, using dm-raid1 on diskA and diskB btrfs chunk 2: data, using dm-raid0 on disk A B C D ... btrfs chunk n: system, using dm-raid1 on disk A B At least btrfs can take the advantage of the simplicity of separate layers. And other filesystem can get a little higher chance to recover its metadata if built on dm-raid. Thanks, Qu > > You are also possibly missing feature of dm-interity - it's not just > giving you 'checksum' - it also makes you sure - device has proper > content - you can't just 'replace block' even with proper checksum for a > block somewhere in the middle of you device... and when joined with > crypto - it makes it way more secure... > > Regards > > Zdenek
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