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authorLibravatar Jeff King <peff@peff.net>2020-06-01 16:22:18 -0400
committerLibravatar Junio C Hamano <gitster@pobox.com>2020-06-02 09:28:56 -0700
commitd2d7fbe12945dd9032c9c7c14a4563dbecc7e629 (patch)
tree1dad06fff2d40ef98f56a0fa36c713481569c1ec /t/t4013/diff.diff_--patch-with-raw_initial..side
parentGit 2.26 (diff)
downloadtgif-d2d7fbe12945dd9032c9c7c14a4563dbecc7e629.tar.xz
diff: discard blob data from stat-unmatched pairs
When performing a tree-level diff against the working tree, we may find that our index stat information is dirty, so we queue a filepair to be examined later. If the actual content hasn't changed, we call this a stat-unmatch; the stat information was out of date, but there's no actual diff. Normally diffcore_std() would detect and remove these identical filepairs via diffcore_skip_stat_unmatch(). However, when "--quiet" is used, we want to stop the diff as soon as we see any changes, so we check for stat-unmatches immediately in diff_change(). That check may require us to actually load the file contents into the pair of diff_filespecs. If we find that the pair isn't a stat-unmatch, then no big deal; we'd likely load the contents later anyway to generate a patch, do rename detection, etc, so we want to hold on to it. But if it is a stat-unmatch, then we have no more use for that data; the whole point is that we're going discard the pair. However, we never free the allocated diff_filespec data. In most cases, keeping that data isn't a problem. We don't expect a lot of stat-unmatch entries, and since we're using --quiet, we'd quit as soon as we saw such a real change anyway. However, there are extreme cases where it makes a big difference: 1. We'd generally mmap() the working tree half of the pair. And since the OS may limit the total number of maps, we can run afoul of this in large repositories. E.g.: $ cd linux $ git ls-files | wc -l 67959 $ sysctl vm.max_map_count vm.max_map_count = 65530 $ git ls-files | xargs touch ;# everything is stat-dirty! $ git diff --quiet fatal: mmap failed: Cannot allocate memory It should be unusual to have so many files stat-dirty, but it's possible if you've just run a script like "sed -i" or similar. After this patch, the above correctly exits with code 0. 2. Even if you don't hit mmap limits, the index half of the pair will have been pulled from the object database into heap memory. Again in a clone of linux.git, running: $ git ls-files | head -n 10000 | xargs touch $ git diff --quiet peaks at 145MB heap before this patch, and 94MB after. This patch solves the problem by freeing any diff_filespec data we picked up during the "--quiet" stat-unmatch check in diff_changes. Nobody is going to need that data later, so there's no point holding on to it. There are a few things to note: - we could skip queueing the pair entirely, which could in theory save a little work. But there's not much to save, as we need a diff_filepair to feed to diff_filespec_check_stat_unmatch() anyway. And since we cache the result of the stat-unmatch checks, a later call to diffcore_skip_stat_unmatch() call will quickly skip over them. The diffcore code also counts up the number of stat-unmatched pairs as it removes them. It's doubtful any callers would care about that in combination with --quiet, but we'd have to reimplement the logic here to be on the safe side. So it's not really worth the trouble. - I didn't write a test, because we always produce the correct output unless we run up against system mmap limits, which are both unportable and expensive to test against. Measuring peak heap would be interesting, but our perf suite isn't yet capable of that. - note that diff without "--quiet" does not suffer from the same problem. In diffcore_skip_stat_unmatch(), we detect the stat-unmatch entries and drop them immediately, so we're not carrying their data around. - you _can_ still trigger the mmap limit problem if you truly have that many files with actual changes. But it's rather unlikely. The stat-unmatch check avoids loading the file contents if the sizes don't match, so you'd need a pretty trivial change in every single file. Likewise, inexact rename detection might load the data for many files all at once. But you'd need not just 64k changes, but that many deletions and additions. The most likely candidate is perhaps break-detection, which would load the data for all pairs and keep it around for the content-level diff. But again, you'd need 64k actually changed files in the first place. So it's still possible to trigger this case, but it seems like "I accidentally made all my files stat-dirty" is the most likely case in the real world. Reported-by: Jan Christoph Uhde <Jan@UhdeJc.com> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
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