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authorLibravatar Jeff King <peff@peff.net>2016-06-30 05:09:16 -0400
committerLibravatar Junio C Hamano <gitster@pobox.com>2016-07-01 10:25:46 -0700
commitd1657b570a44108e49032962da201aad48689605 (patch)
tree8c1b5d49c51b24e2dc64cc4d2a01227e1354d139 /t
parentt5000: test tar files that overflow ustar headers (diff)
downloadtgif-d1657b570a44108e49032962da201aad48689605.tar.xz
archive-tar: write extended headers for file sizes >= 8GB
The ustar format has a fixed-length field for the size of each file entry which is supposed to contain up to 11 bytes of octal-formatted data plus a NUL or space terminator. These means that the largest size we can represent is 077777777777, or 1 byte short of 8GB. The correct solution for a larger file, according to POSIX.1-2001, is to add an extended pax header, similar to how we handle long filenames. This patch does that, and writes zero for the size field in the ustar header (the last bit is not mentioned by POSIX, but it matches how GNU tar behaves with --format=pax). This should be a strict improvement over the current behavior, which is to die in xsnprintf with a "BUG". However, there's some interesting history here. Prior to f2f0267 (archive-tar: use xsnprintf for trivial formatting, 2015-09-24), we silently overflowed the "size" field. The extra bytes ended up in the "mtime" field of the header, which was then immediately written itself, overwriting our extra bytes. What that means depends on how many bytes we wrote. If the size was 64GB or greater, then we actually overflowed digits into the mtime field, meaning our value was effectively right-shifted by those lost octal digits. And this patch is again a strict improvement over that. But if the size was between 8GB and 64GB, then our 12-byte field held all of the actual digits, and only our NUL terminator overflowed. According to POSIX, there should be a NUL or space at the end of the field. However, GNU tar seems to be lenient here, and will correctly parse a size up 64GB (minus one) from the field. So sizes in this range might have just worked, depending on the implementation reading the tarfile. This patch is mostly still an improvement there, as the 8GB limit is specifically mentioned in POSIX as the correct limit. But it's possible that it could be a regression (versus the pre-f2f0267 state) if all of the following are true: 1. You have a file between 8GB and 64GB. 2. Your tar implementation _doesn't_ know about pax extended headers. 3. Your tar implementation _does_ parse 12-byte sizes from the ustar header without a delimiter. It's probably not worth worrying about such an obscure set of conditions, but I'm documenting it here just in case. Helped-by: René Scharfe <l.s.r@web.de> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
Diffstat (limited to 't')
-rwxr-xr-xt/t5000-tar-tree.sh4
1 files changed, 2 insertions, 2 deletions
diff --git a/t/t5000-tar-tree.sh b/t/t5000-tar-tree.sh
index 950bdd31e7..93c2d3405d 100755
--- a/t/t5000-tar-tree.sh
+++ b/t/t5000-tar-tree.sh
@@ -360,7 +360,7 @@ test_expect_success 'set up repository with huge blob' '
# We expect git to die with SIGPIPE here (otherwise we
# would generate the whole 64GB).
-test_expect_failure 'generate tar with huge size' '
+test_expect_success 'generate tar with huge size' '
{
git archive HEAD
echo $? >exit-code
@@ -369,7 +369,7 @@ test_expect_failure 'generate tar with huge size' '
test_cmp expect exit-code
'
-test_expect_failure TAR_HUGE 'system tar can read our huge size' '
+test_expect_success TAR_HUGE 'system tar can read our huge size' '
echo 68719476737 >expect &&
tar_info huge.tar | cut -d" " -f1 >actual &&
test_cmp expect actual