> > Bloody hell! Doesn't *anyone* understand that a frozen filesystem is > *clean*? That the process of freezing it ensures all dirty data and > metadata is written out before the freeze completes? And that once > frozen, it can't be dirtied until unfrozen? What do you mean by "it can't be diritied until unfrozen". What happens if I have a kernel compilation happening on a filesystem which I am trying to freeze? Does (a) the freeze fail (because the checks equivalent to what happens when you remount a filesystem read-only happen)? (b) The process gets a kill -9 when it tries to write a file on the frozen filesystem? (c) The process gets a kill -STOP when it tries to write to a file on the frozen filesystem? (d) The process won't fail, but just continue to run, filling the page cache with dirty pages that can't be written out because the filesystem is frozen? If the answer is (b) or (c), and if you don't have a timeout, and the backup process which has frozen the filesystem tries to write to the filesystem, hilarity will ensue.... > That's 3 (or is it 4 - maybe 5 now that I think about it) different > ppl in 24 hours that have made this same broken argument about > being unable to write back dirty data on a frozen filesystem...... It's not a question of writing back dirty data, it's the fact that you *can't*, leading to the page cache filling up wirth dirty data, leading eventually to the OOM killer running --- and since the last time I tried suggesting that if the process holding the file descriptor freezing the filesystem, that idea got shot down (I see it's been suggested again), if that happens, there is going to be no other recovery path other than the Big Red Button. - Ted -- To unsubscribe from this list: send the line "unsubscribe linux-ext4" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html