Ric Wheeler wrote: > Alasdair G Kergon wrote: >> On Fri, Feb 15, 2008 at 03:20:10PM +0100, Andi Kleen wrote: >>> On Fri, Feb 15, 2008 at 04:07:54PM +0300, Michael Tokarev wrote: >>>> I wonder if it's worth the effort to try to implement this. >> >> My personal view (which seems to be in the minority) is that it's a >> waste of our development time *except* in the (rare?) cases similar to >> the ones Andi is talking about. > > Using working barriers is important for normal users when you really > care about data loss and have normal drives in a box. We do power fail > testing on boxes (with reiserfs and ext3) and can definitely see a lot > of file system corruption eliminated over power failures when barriers > are enabled properly. > > It is not unreasonable for some machines to disable barriers to get a > performance boost, but I would not do that when you are storing things > you really need back. The talk here is about something different - about supporting barriers on md/dm devices, i.e., on pseudo-devices which uses multiple real devices as components (software RAIDs etc). In this "world" it's nearly impossible to support barriers if there are more than one underlying component device, barriers only works if there's only one component. And the talk is about supporting barriers only in "minority" of cases - mostly for simplest device-mapper case only, NOT covering any raid1 or other "fancy" configurations. > Of course, you don't need barriers when you either disable the write > cache on the drives or use a battery backed RAID array which gives you a > write cache that will survive power outages... Two things here. First, I still don't understand why in God's sake barriers are "working" while regular cache flushes are not. Almost no consumer-grade hard drive supports write barriers, but they all support regular cache flushes, and the latter should be enough (while not the most speed-optimal) to ensure data safety. Why to require write cache disable (like in XFS FAQ) instead of going the flush-cache-when-appropriate (as opposed to write-barrier- when-appropriate) way? And second, "surprisingly", battery-backed RAID write caches tends to fail too, sometimes... ;) Usually, such a battery is enough to keep the data in memory for several hours only (sine many RAID controllers uses regular RAM for memory caches, which requires some power to keep its state), -- I come across this issue the hard way, and realized that only very few persons around me who manages raid systems even knows about this problem - that the battery-backed cache is only for some time... For example, power failed at evening, and by tomorrow morning, batteries are empty already. Or, with better batteries, think about a weekend... ;) (I've seen some vendors now uses flash-based backing store for caches instead, which should ensure far better results here). /mjt -- dm-devel mailing list dm-devel@xxxxxxxxxx https://www.redhat.com/mailman/listinfo/dm-devel