git-commit-vandalism/t/t1450-fsck.sh

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#!/bin/sh
test_description='git fsck random collection of tests
* (HEAD) B
* (main) A
'
. ./test-lib.sh
test_expect_success setup '
git config gc.auto 0 &&
git config i18n.commitencoding ISO-8859-1 &&
test_commit A fileA one &&
git config --unset i18n.commitencoding &&
git checkout HEAD^0 &&
test_commit B fileB two &&
git tag -d A B &&
tests: use 'test_must_be_empty' instead of 'test_cmp <empty> <out>' Using 'test_must_be_empty' is shorter and more idiomatic than >empty && test_cmp empty out as it saves the creation of an empty file. Furthermore, sometimes the expected empty file doesn't have such a descriptive name like 'empty', and its creation is far away from the place where it's finally used for comparison (e.g. in 't7600-merge.sh', where two expected empty files are created in the 'setup' test, but are used only about 500 lines later). These cases were found by instrumenting 'test_cmp' to error out the test script when it's used to compare empty files, and then converted manually. Note that even after this patch there still remain a lot of cases where we use 'test_cmp' to check empty files: - Sometimes the expected output is not hard-coded in the test, but 'test_cmp' is used to ensure that two similar git commands produce the same output, and that output happens to be empty, e.g. the test 'submodule update --merge - ignores --merge for new submodules' in 't7406-submodule-update.sh'. - Repetitive common tasks, including preparing the expected results and running 'test_cmp', are often extracted into a helper function, and some of this helper's callsites expect no output. - For the same reason as above, the whole 'test_expect_success' block is within a helper function, e.g. in 't3070-wildmatch.sh'. - Or 'test_cmp' is invoked in a loop, e.g. the test 'cvs update (-p)' in 't9400-git-cvsserver-server.sh'. Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-08-19 23:57:25 +02:00
git reflog expire --expire=now --all
'
test_expect_success 'loose objects borrowed from alternate are not missing' '
mkdir another &&
(
cd another &&
git init &&
echo ../../../.git/objects >.git/objects/info/alternates &&
test_commit C fileC one &&
git fsck --no-dangling >../actual 2>&1
) &&
tests: use 'test_must_be_empty' instead of 'test_cmp <empty> <out>' Using 'test_must_be_empty' is shorter and more idiomatic than >empty && test_cmp empty out as it saves the creation of an empty file. Furthermore, sometimes the expected empty file doesn't have such a descriptive name like 'empty', and its creation is far away from the place where it's finally used for comparison (e.g. in 't7600-merge.sh', where two expected empty files are created in the 'setup' test, but are used only about 500 lines later). These cases were found by instrumenting 'test_cmp' to error out the test script when it's used to compare empty files, and then converted manually. Note that even after this patch there still remain a lot of cases where we use 'test_cmp' to check empty files: - Sometimes the expected output is not hard-coded in the test, but 'test_cmp' is used to ensure that two similar git commands produce the same output, and that output happens to be empty, e.g. the test 'submodule update --merge - ignores --merge for new submodules' in 't7406-submodule-update.sh'. - Repetitive common tasks, including preparing the expected results and running 'test_cmp', are often extracted into a helper function, and some of this helper's callsites expect no output. - For the same reason as above, the whole 'test_expect_success' block is within a helper function, e.g. in 't3070-wildmatch.sh'. - Or 'test_cmp' is invoked in a loop, e.g. the test 'cvs update (-p)' in 't9400-git-cvsserver-server.sh'. Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-08-19 23:57:25 +02:00
test_must_be_empty actual
'
test_expect_success 'HEAD is part of refs, valid objects appear valid' '
git fsck >actual 2>&1 &&
tests: use 'test_must_be_empty' instead of 'test_cmp <empty> <out>' Using 'test_must_be_empty' is shorter and more idiomatic than >empty && test_cmp empty out as it saves the creation of an empty file. Furthermore, sometimes the expected empty file doesn't have such a descriptive name like 'empty', and its creation is far away from the place where it's finally used for comparison (e.g. in 't7600-merge.sh', where two expected empty files are created in the 'setup' test, but are used only about 500 lines later). These cases were found by instrumenting 'test_cmp' to error out the test script when it's used to compare empty files, and then converted manually. Note that even after this patch there still remain a lot of cases where we use 'test_cmp' to check empty files: - Sometimes the expected output is not hard-coded in the test, but 'test_cmp' is used to ensure that two similar git commands produce the same output, and that output happens to be empty, e.g. the test 'submodule update --merge - ignores --merge for new submodules' in 't7406-submodule-update.sh'. - Repetitive common tasks, including preparing the expected results and running 'test_cmp', are often extracted into a helper function, and some of this helper's callsites expect no output. - For the same reason as above, the whole 'test_expect_success' block is within a helper function, e.g. in 't3070-wildmatch.sh'. - Or 'test_cmp' is invoked in a loop, e.g. the test 'cvs update (-p)' in 't9400-git-cvsserver-server.sh'. Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-08-19 23:57:25 +02:00
test_must_be_empty actual
'
# Corruption tests follow. Make sure to remove all traces of the
# specific corruption you test afterwards, lest a later test trip over
# it.
sha1_file () {
git rev-parse --git-path objects/$(test_oid_to_path "$1")
}
remove_object () {
rm "$(sha1_file "$1")"
}
test_expect_success 'object with hash mismatch' '
git init --bare hash-mismatch &&
(
cd hash-mismatch &&
oid=$(echo blob | git hash-object -w --stdin) &&
old=$(test_oid_to_path "$oid") &&
new=$(dirname $old)/$(test_oid ff_2) &&
oid="$(dirname $new)$(basename $new)" &&
mv objects/$old objects/$new &&
git update-index --add --cacheinfo 100644 $oid foo &&
tree=$(git write-tree) &&
cmt=$(echo bogus | git commit-tree $tree) &&
git update-ref refs/heads/bogus $cmt &&
test_must_fail git fsck 2>out &&
grep "$oid.*corrupt" out
)
'
test_expect_success 'object with hash and type mismatch' '
git init --bare hash-type-mismatch &&
(
cd hash-type-mismatch &&
oid=$(echo blob | git hash-object -w --stdin -t garbage --literally) &&
old=$(test_oid_to_path "$oid") &&
new=$(dirname $old)/$(test_oid ff_2) &&
oid="$(dirname $new)$(basename $new)" &&
mv objects/$old objects/$new &&
git update-index --add --cacheinfo 100644 $oid foo &&
tree=$(git write-tree) &&
cmt=$(echo bogus | git commit-tree $tree) &&
git update-ref refs/heads/bogus $cmt &&
cat >expect <<-\EOF &&
fatal: invalid object type
EOF
test_must_fail git fsck 2>actual &&
test_cmp expect actual
)
'
test_expect_success POSIXPERM 'zlib corrupt loose object output ' '
git init --bare corrupt-loose-output &&
(
cd corrupt-loose-output &&
oid=$(git hash-object -w --stdin --literally </dev/null) &&
oidf=objects/$(test_oid_to_path "$oid") &&
chmod 755 $oidf &&
echo extra garbage >>$oidf &&
cat >expect.error <<-EOF &&
error: garbage at end of loose object '\''$oid'\''
error: unable to unpack contents of ./$oidf
error: $oid: object corrupt or missing: ./$oidf
EOF
test_must_fail git fsck 2>actual &&
grep ^error: actual >error &&
test_cmp expect.error error
)
'
test_expect_success 'branch pointing to non-commit' '
git rev-parse HEAD^{tree} >.git/refs/heads/invalid &&
test_when_finished "git update-ref -d refs/heads/invalid" &&
test_must_fail git fsck 2>out &&
test_i18ngrep "not a commit" out
'
test_expect_success 'HEAD link pointing at a funny object' '
test_when_finished "mv .git/SAVED_HEAD .git/HEAD" &&
mv .git/HEAD .git/SAVED_HEAD &&
echo $ZERO_OID >.git/HEAD &&
# avoid corrupt/broken HEAD from interfering with repo discovery
test_must_fail env GIT_DIR=.git git fsck 2>out &&
test_i18ngrep "detached HEAD points" out
'
test_expect_success 'HEAD link pointing at a funny place' '
test_when_finished "mv .git/SAVED_HEAD .git/HEAD" &&
mv .git/HEAD .git/SAVED_HEAD &&
echo "ref: refs/funny/place" >.git/HEAD &&
# avoid corrupt/broken HEAD from interfering with repo discovery
test_must_fail env GIT_DIR=.git git fsck 2>out &&
test_i18ngrep "HEAD points to something strange" out
'
test_expect_success 'HEAD link pointing at a funny object (from different wt)' '
test_when_finished "mv .git/SAVED_HEAD .git/HEAD" &&
test_when_finished "rm -rf .git/worktrees wt" &&
git worktree add wt &&
mv .git/HEAD .git/SAVED_HEAD &&
echo $ZERO_OID >.git/HEAD &&
# avoid corrupt/broken HEAD from interfering with repo discovery
test_must_fail git -C wt fsck 2>out &&
test_i18ngrep "main-worktree/HEAD: detached HEAD points" out
'
test_expect_success 'other worktree HEAD link pointing at a funny object' '
test_when_finished "rm -rf .git/worktrees other" &&
git worktree add other &&
echo $ZERO_OID >.git/worktrees/other/HEAD &&
test_must_fail git fsck 2>out &&
test_i18ngrep "worktrees/other/HEAD: detached HEAD points" out
'
test_expect_success 'other worktree HEAD link pointing at missing object' '
test_when_finished "rm -rf .git/worktrees other" &&
git worktree add other &&
echo "Contents missing from repo" | git hash-object --stdin >.git/worktrees/other/HEAD &&
test_must_fail git fsck 2>out &&
test_i18ngrep "worktrees/other/HEAD: invalid sha1 pointer" out
'
test_expect_success 'other worktree HEAD link pointing at a funny place' '
test_when_finished "rm -rf .git/worktrees other" &&
git worktree add other &&
echo "ref: refs/funny/place" >.git/worktrees/other/HEAD &&
test_must_fail git fsck 2>out &&
test_i18ngrep "worktrees/other/HEAD points to something strange" out
'
test_expect_success 'commit with multiple signatures is okay' '
git cat-file commit HEAD >basis &&
cat >sigs <<-EOF &&
gpgsig -----BEGIN PGP SIGNATURE-----
VGhpcyBpcyBub3QgcmVhbGx5IGEgc2lnbmF0dXJlLg==
-----END PGP SIGNATURE-----
gpgsig-sha256 -----BEGIN PGP SIGNATURE-----
VGhpcyBpcyBub3QgcmVhbGx5IGEgc2lnbmF0dXJlLg==
-----END PGP SIGNATURE-----
EOF
sed -e "/^committer/q" basis >okay &&
cat sigs >>okay &&
echo >>okay &&
sed -e "1,/^$/d" basis >>okay &&
cat okay &&
new=$(git hash-object -t commit -w --stdin <okay) &&
test_when_finished "remove_object $new" &&
git update-ref refs/heads/bogus "$new" &&
test_when_finished "git update-ref -d refs/heads/bogus" &&
git fsck 2>out &&
cat out &&
! grep "commit $new" out
'
test_expect_success 'email without @ is okay' '
git cat-file commit HEAD >basis &&
sed "s/@/AT/" basis >okay &&
new=$(git hash-object -t commit -w --stdin <okay) &&
test_when_finished "remove_object $new" &&
git update-ref refs/heads/bogus "$new" &&
test_when_finished "git update-ref -d refs/heads/bogus" &&
git fsck 2>out &&
! grep "commit $new" out
'
test_expect_success 'email with embedded > is not okay' '
git cat-file commit HEAD >basis &&
sed "s/@[a-z]/&>/" basis >bad-email &&
new=$(git hash-object -t commit -w --stdin <bad-email) &&
test_when_finished "remove_object $new" &&
git update-ref refs/heads/bogus "$new" &&
test_when_finished "git update-ref -d refs/heads/bogus" &&
test_must_fail git fsck 2>out &&
test_i18ngrep "error in commit $new" out
'
test_expect_success 'missing < email delimiter is reported nicely' '
git cat-file commit HEAD >basis &&
sed "s/<//" basis >bad-email-2 &&
new=$(git hash-object -t commit -w --stdin <bad-email-2) &&
test_when_finished "remove_object $new" &&
git update-ref refs/heads/bogus "$new" &&
test_when_finished "git update-ref -d refs/heads/bogus" &&
test_must_fail git fsck 2>out &&
test_i18ngrep "error in commit $new.* - bad name" out
'
test_expect_success 'missing email is reported nicely' '
git cat-file commit HEAD >basis &&
sed "s/[a-z]* <[^>]*>//" basis >bad-email-3 &&
new=$(git hash-object -t commit -w --stdin <bad-email-3) &&
test_when_finished "remove_object $new" &&
git update-ref refs/heads/bogus "$new" &&
test_when_finished "git update-ref -d refs/heads/bogus" &&
test_must_fail git fsck 2>out &&
test_i18ngrep "error in commit $new.* - missing email" out
'
test_expect_success '> in name is reported' '
git cat-file commit HEAD >basis &&
sed "s/ </> </" basis >bad-email-4 &&
new=$(git hash-object -t commit -w --stdin <bad-email-4) &&
test_when_finished "remove_object $new" &&
git update-ref refs/heads/bogus "$new" &&
test_when_finished "git update-ref -d refs/heads/bogus" &&
test_must_fail git fsck 2>out &&
test_i18ngrep "error in commit $new" out
'
# date is 2^64 + 1
test_expect_success 'integer overflow in timestamps is reported' '
git cat-file commit HEAD >basis &&
sed "s/^\\(author .*>\\) [0-9]*/\\1 18446744073709551617/" \
<basis >bad-timestamp &&
new=$(git hash-object -t commit -w --stdin <bad-timestamp) &&
test_when_finished "remove_object $new" &&
git update-ref refs/heads/bogus "$new" &&
test_when_finished "git update-ref -d refs/heads/bogus" &&
test_must_fail git fsck 2>out &&
test_i18ngrep "error in commit $new.*integer overflow" out
'
test_expect_success 'commit with NUL in header' '
git cat-file commit HEAD >basis &&
sed "s/author ./author Q/" <basis | q_to_nul >commit-NUL-header &&
new=$(git hash-object -t commit -w --stdin <commit-NUL-header) &&
test_when_finished "remove_object $new" &&
git update-ref refs/heads/bogus "$new" &&
test_when_finished "git update-ref -d refs/heads/bogus" &&
test_must_fail git fsck 2>out &&
test_i18ngrep "error in commit $new.*unterminated header: NUL at offset" out
'
test_expect_success 'tree object with duplicate entries' '
test_when_finished "for i in \$T; do remove_object \$i; done" &&
T=$(
GIT_INDEX_FILE=test-index &&
export GIT_INDEX_FILE &&
rm -f test-index &&
>x &&
git add x &&
git rev-parse :x &&
T=$(git write-tree) &&
echo $T &&
(
git cat-file tree $T &&
git cat-file tree $T
) |
git hash-object -w -t tree --stdin
) &&
test_must_fail git fsck 2>out &&
test_i18ngrep "error in tree .*contains duplicate file entries" out
'
check_duplicate_names () {
expect=$1 &&
shift &&
names=$@ &&
test_expect_$expect "tree object with duplicate names: $names" '
test_when_finished "remove_object \$blob" &&
test_when_finished "remove_object \$tree" &&
test_when_finished "remove_object \$badtree" &&
blob=$(echo blob | git hash-object -w --stdin) &&
printf "100644 blob %s\t%s\n" $blob x.2 >tree &&
tree=$(git mktree <tree) &&
for name in $names
do
case "$name" in
*/) printf "040000 tree %s\t%s\n" $tree "${name%/}" ;;
*) printf "100644 blob %s\t%s\n" $blob "$name" ;;
esac
done >badtree &&
badtree=$(git mktree <badtree) &&
test_must_fail git fsck 2>out &&
test_i18ngrep "$badtree" out &&
test_i18ngrep "error in tree .*contains duplicate file entries" out
'
}
check_duplicate_names success x x.1 x/
check_duplicate_names success x x.1.2 x.1/ x/
check_duplicate_names success x x.1 x.1.2 x/
test_expect_success 'unparseable tree object' '
test_oid_cache <<-\EOF &&
junk sha1:twenty-bytes-of-junk
junk sha256:twenty-bytes-of-junk-twelve-more
EOF
test_when_finished "git update-ref -d refs/heads/wrong" &&
test_when_finished "remove_object \$tree_sha1" &&
test_when_finished "remove_object \$commit_sha1" &&
junk=$(test_oid junk) &&
tree_sha1=$(printf "100644 \0$junk" | git hash-object -t tree --stdin -w --literally) &&
commit_sha1=$(git commit-tree $tree_sha1) &&
git update-ref refs/heads/wrong $commit_sha1 &&
test_must_fail git fsck 2>out &&
test_i18ngrep "error: empty filename in tree entry" out &&
test_i18ngrep "$tree_sha1" out &&
test_i18ngrep ! "fatal: empty filename in tree entry" out
'
test_expect_success 'tree entry with type mismatch' '
test_when_finished "remove_object \$blob" &&
test_when_finished "remove_object \$tree" &&
test_when_finished "remove_object \$commit" &&
test_when_finished "git update-ref -d refs/heads/type_mismatch" &&
blob=$(echo blob | git hash-object -w --stdin) &&
blob_bin=$(echo $blob | hex2oct) &&
tree=$(
printf "40000 dir\0${blob_bin}100644 file\0${blob_bin}" |
git hash-object -t tree --stdin -w --literally
) &&
commit=$(git commit-tree $tree) &&
git update-ref refs/heads/type_mismatch $commit &&
test_must_fail git fsck >out 2>&1 &&
test_i18ngrep "is a blob, not a tree" out &&
test_i18ngrep ! "dangling blob" out
'
test_expect_success 'tag pointing to nonexistent' '
badoid=$(test_oid deadbeef) &&
cat >invalid-tag <<-EOF &&
object $badoid
type commit
tag invalid
tagger T A Gger <tagger@example.com> 1234567890 -0000
This is an invalid tag.
EOF
tag=$(git hash-object -t tag -w --stdin <invalid-tag) &&
test_when_finished "remove_object $tag" &&
echo $tag >.git/refs/tags/invalid &&
test_when_finished "git update-ref -d refs/tags/invalid" &&
test_must_fail git fsck --tags >out &&
test_i18ngrep "broken link" out
'
test_expect_success 'tag pointing to something else than its type' '
sha=$(echo blob | git hash-object -w --stdin) &&
test_when_finished "remove_object $sha" &&
cat >wrong-tag <<-EOF &&
object $sha
type commit
tag wrong
tagger T A Gger <tagger@example.com> 1234567890 -0000
This is an invalid tag.
EOF
tag=$(git hash-object -t tag -w --stdin <wrong-tag) &&
test_when_finished "remove_object $tag" &&
echo $tag >.git/refs/tags/wrong &&
test_when_finished "git update-ref -d refs/tags/wrong" &&
test_must_fail git fsck --tags
'
test_expect_success 'tag with incorrect tag name & missing tagger' '
sha=$(git rev-parse HEAD) &&
cat >wrong-tag <<-EOF &&
object $sha
type commit
tag wrong name format
This is an invalid tag.
EOF
tag=$(git hash-object -t tag -w --stdin <wrong-tag) &&
test_when_finished "remove_object $tag" &&
echo $tag >.git/refs/tags/wrong &&
test_when_finished "git update-ref -d refs/tags/wrong" &&
git fsck --tags 2>out &&
cat >expect <<-EOF &&
warning in tag $tag: badTagName: invalid '\''tag'\'' name: wrong name format
warning in tag $tag: missingTaggerEntry: invalid format - expected '\''tagger'\'' line
EOF
test_cmp expect out
'
test_expect_success 'tag with bad tagger' '
sha=$(git rev-parse HEAD) &&
cat >wrong-tag <<-EOF &&
object $sha
type commit
tag not-quite-wrong
tagger Bad Tagger Name
This is an invalid tag.
EOF
tag=$(git hash-object --literally -t tag -w --stdin <wrong-tag) &&
test_when_finished "remove_object $tag" &&
echo $tag >.git/refs/tags/wrong &&
test_when_finished "git update-ref -d refs/tags/wrong" &&
test_must_fail git fsck --tags 2>out &&
test_i18ngrep "error in tag .*: invalid author/committer" out
'
test_expect_success 'tag with NUL in header' '
sha=$(git rev-parse HEAD) &&
q_to_nul >tag-NUL-header <<-EOF &&
object $sha
type commit
tag contains-Q-in-header
tagger T A Gger <tagger@example.com> 1234567890 -0000
This is an invalid tag.
EOF
tag=$(git hash-object --literally -t tag -w --stdin <tag-NUL-header) &&
test_when_finished "remove_object $tag" &&
echo $tag >.git/refs/tags/wrong &&
test_when_finished "git update-ref -d refs/tags/wrong" &&
test_must_fail git fsck --tags 2>out &&
test_i18ngrep "error in tag $tag.*unterminated header: NUL at offset" out
'
test_expect_success 'cleaned up' '
git fsck >actual 2>&1 &&
tests: use 'test_must_be_empty' instead of 'test_cmp <empty> <out>' Using 'test_must_be_empty' is shorter and more idiomatic than >empty && test_cmp empty out as it saves the creation of an empty file. Furthermore, sometimes the expected empty file doesn't have such a descriptive name like 'empty', and its creation is far away from the place where it's finally used for comparison (e.g. in 't7600-merge.sh', where two expected empty files are created in the 'setup' test, but are used only about 500 lines later). These cases were found by instrumenting 'test_cmp' to error out the test script when it's used to compare empty files, and then converted manually. Note that even after this patch there still remain a lot of cases where we use 'test_cmp' to check empty files: - Sometimes the expected output is not hard-coded in the test, but 'test_cmp' is used to ensure that two similar git commands produce the same output, and that output happens to be empty, e.g. the test 'submodule update --merge - ignores --merge for new submodules' in 't7406-submodule-update.sh'. - Repetitive common tasks, including preparing the expected results and running 'test_cmp', are often extracted into a helper function, and some of this helper's callsites expect no output. - For the same reason as above, the whole 'test_expect_success' block is within a helper function, e.g. in 't3070-wildmatch.sh'. - Or 'test_cmp' is invoked in a loop, e.g. the test 'cvs update (-p)' in 't9400-git-cvsserver-server.sh'. Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-08-19 23:57:25 +02:00
test_must_be_empty actual
'
test_expect_success 'rev-list --verify-objects' '
git rev-list --verify-objects --all >/dev/null 2>out &&
tests: use 'test_must_be_empty' instead of 'test_cmp <empty> <out>' Using 'test_must_be_empty' is shorter and more idiomatic than >empty && test_cmp empty out as it saves the creation of an empty file. Furthermore, sometimes the expected empty file doesn't have such a descriptive name like 'empty', and its creation is far away from the place where it's finally used for comparison (e.g. in 't7600-merge.sh', where two expected empty files are created in the 'setup' test, but are used only about 500 lines later). These cases were found by instrumenting 'test_cmp' to error out the test script when it's used to compare empty files, and then converted manually. Note that even after this patch there still remain a lot of cases where we use 'test_cmp' to check empty files: - Sometimes the expected output is not hard-coded in the test, but 'test_cmp' is used to ensure that two similar git commands produce the same output, and that output happens to be empty, e.g. the test 'submodule update --merge - ignores --merge for new submodules' in 't7406-submodule-update.sh'. - Repetitive common tasks, including preparing the expected results and running 'test_cmp', are often extracted into a helper function, and some of this helper's callsites expect no output. - For the same reason as above, the whole 'test_expect_success' block is within a helper function, e.g. in 't3070-wildmatch.sh'. - Or 'test_cmp' is invoked in a loop, e.g. the test 'cvs update (-p)' in 't9400-git-cvsserver-server.sh'. Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-08-19 23:57:25 +02:00
test_must_be_empty out
'
test_expect_success 'rev-list --verify-objects with bad sha1' '
sha=$(echo blob | git hash-object -w --stdin) &&
old=$(test_oid_to_path $sha) &&
new=$(dirname $old)/$(test_oid ff_2) &&
sha="$(dirname $new)$(basename $new)" &&
mv .git/objects/$old .git/objects/$new &&
test_when_finished "remove_object $sha" &&
git update-index --add --cacheinfo 100644 $sha foo &&
test_when_finished "git read-tree -u --reset HEAD" &&
tree=$(git write-tree) &&
test_when_finished "remove_object $tree" &&
cmt=$(echo bogus | git commit-tree $tree) &&
test_when_finished "remove_object $cmt" &&
git update-ref refs/heads/bogus $cmt &&
test_when_finished "git update-ref -d refs/heads/bogus" &&
test_might_fail git rev-list --verify-objects refs/heads/bogus >/dev/null 2>out &&
test_i18ngrep -q "error: hash mismatch $(dirname $new)$(test_oid ff_2)" out
'
test_expect_success 'force fsck to ignore double author' '
git cat-file commit HEAD >basis &&
sed "s/^author .*/&,&/" <basis | tr , \\n >multiple-authors &&
new=$(git hash-object -t commit -w --stdin <multiple-authors) &&
test_when_finished "remove_object $new" &&
git update-ref refs/heads/bogus "$new" &&
test_when_finished "git update-ref -d refs/heads/bogus" &&
test_must_fail git fsck &&
git -c fsck.multipleAuthors=ignore fsck
'
_bz='\0'
_bzoid=$(printf $ZERO_OID | sed -e 's/00/\\0/g')
test_expect_success 'fsck notices blob entry pointing to null sha1' '
(git init null-blob &&
cd null-blob &&
sha=$(printf "100644 file$_bz$_bzoid" |
git hash-object -w --stdin -t tree) &&
git fsck 2>out &&
test_i18ngrep "warning.*null sha1" out
)
'
test_expect_success 'fsck notices submodule entry pointing to null sha1' '
(git init null-commit &&
cd null-commit &&
sha=$(printf "160000 submodule$_bz$_bzoid" |
git hash-object -w --stdin -t tree) &&
git fsck 2>out &&
test_i18ngrep "warning.*null sha1" out
)
'
while read name path pretty; do
while read mode type; do
: ${pretty:=$path}
test_expect_success "fsck notices $pretty as $type" '
(
git init $name-$type &&
cd $name-$type &&
git config core.protectNTFS false &&
echo content >file &&
git add file &&
git commit -m base &&
blob=$(git rev-parse :file) &&
tree=$(git rev-parse HEAD^{tree}) &&
value=$(eval "echo \$$type") &&
printf "$mode $type %s\t%s" "$value" "$path" >bad &&
bad_tree=$(git mktree <bad) &&
git fsck 2>out &&
test_i18ngrep "warning.*tree $bad_tree" out
)'
done <<-\EOF
100644 blob
040000 tree
EOF
done <<-EOF
dot .
dotdot ..
dotgit .git
dotgit-case .GIT
dotgit-unicode .gI${u200c}T .gI{u200c}T
dotgit-case2 .Git
git-tilde1 git~1
dotgitdot .git.
dot-backslash-case .\\\\.GIT\\\\foobar
dotgit-case-backslash .git\\\\foobar
EOF
test_expect_success 'fsck allows .Ňit' '
(
git init not-dotgit &&
cd not-dotgit &&
echo content >file &&
git add file &&
git commit -m base &&
blob=$(git rev-parse :file) &&
printf "100644 blob $blob\t.\\305\\207it" >tree &&
tree=$(git mktree <tree) &&
git fsck 2>err &&
test_line_count = 0 err
)
'
test_expect_success 'NUL in commit' '
rm -fr nul-in-commit &&
git init nul-in-commit &&
(
cd nul-in-commit &&
git commit --allow-empty -m "initial commitQNUL after message" &&
git cat-file commit HEAD >original &&
q_to_nul <original >munged &&
git hash-object -w -t commit --stdin <munged >name &&
git branch bad $(cat name) &&
test_must_fail git -c fsck.nulInCommit=error fsck 2>warn.1 &&
test_i18ngrep nulInCommit warn.1 &&
git fsck 2>warn.2 &&
test_i18ngrep nulInCommit warn.2
)
'
# create a static test repo which is broken by omitting
# one particular object ($1, which is looked up via rev-parse
# in the new repository).
create_repo_missing () {
rm -rf missing &&
git init missing &&
(
cd missing &&
git commit -m one --allow-empty &&
mkdir subdir &&
echo content >subdir/file &&
git add subdir/file &&
git commit -m two &&
unrelated=$(echo unrelated | git hash-object --stdin -w) &&
git tag -m foo tag $unrelated &&
sha1=$(git rev-parse --verify "$1") &&
path=$(echo $sha1 | sed 's|..|&/|') &&
rm .git/objects/$path
)
}
test_expect_success 'fsck notices missing blob' '
create_repo_missing HEAD:subdir/file &&
test_must_fail git -C missing fsck
'
test_expect_success 'fsck notices missing subtree' '
create_repo_missing HEAD:subdir &&
test_must_fail git -C missing fsck
'
test_expect_success 'fsck notices missing root tree' '
create_repo_missing HEAD^{tree} &&
test_must_fail git -C missing fsck
'
test_expect_success 'fsck notices missing parent' '
create_repo_missing HEAD^ &&
test_must_fail git -C missing fsck
'
test_expect_success 'fsck notices missing tagged object' '
create_repo_missing tag^{blob} &&
test_must_fail git -C missing fsck
'
test_expect_success 'fsck notices ref pointing to missing commit' '
create_repo_missing HEAD &&
test_must_fail git -C missing fsck
'
test_expect_success 'fsck notices ref pointing to missing tag' '
create_repo_missing tag &&
test_must_fail git -C missing fsck
'
test_expect_success 'fsck --connectivity-only' '
rm -rf connectivity-only &&
git init connectivity-only &&
(
cd connectivity-only &&
touch empty &&
git add empty &&
test_commit empty &&
fsck: prepare dummy objects for --connectivity-check Normally fsck makes a pass over all objects to check their integrity, and then follows up with a reachability check to make sure we have all of the referenced objects (and to know which ones are dangling). The latter checks for the HAS_OBJ flag in obj->flags to see if we found the object in the first pass. Commit 02976bf85 (fsck: introduce `git fsck --connectivity-only`, 2015-06-22) taught fsck to skip the initial pass, and to fallback to has_sha1_file() instead of the HAS_OBJ check. However, it converted only one HAS_OBJ check to use has_sha1_file(). But there are many other places in builtin/fsck.c that assume that the flag is set (or that lookup_object() will return an object at all). This leads to several bugs with --connectivity-only: 1. mark_object() will not queue objects for examination, so recursively following links from commits to trees, etc, did nothing. I.e., we were checking the reachability of hardly anything at all. 2. When a set of heads is given on the command-line, we use lookup_object() to see if they exist. But without the initial pass, we assume nothing exists. 3. When loading reflog entries, we do a similar lookup_object() check, and complain that the reflog is broken if the object doesn't exist in our hash. So in short, --connectivity-only is broken pretty badly, and will claim that your repository is fine when it's not. Presumably nobody noticed for a few reasons. One is that the embedded test does not actually test the recursive nature of the reachability check. All of the missing objects are still in the index, and we directly check items from the index. This patch modifies the test to delete the index, which shows off breakage (1). Another is that --connectivity-only just skips the initial pass for loose objects. So on a real repository, the packed objects were still checked correctly. But on the flipside, it means that "git fsck --connectivity-only" still checks the sha1 of all of the packed objects, nullifying its original purpose of being a faster git-fsck. And of course the final problem is that the bug only shows up when there _is_ corruption, which is rare. So anybody running "git fsck --connectivity-only" proactively would assume it was being thorough, when it was not. One possibility for fixing this is to find all of the spots that rely on HAS_OBJ and tweak them for the connectivity-only case. But besides the risk that we might miss a spot (and I found three already, corresponding to the three bugs above), there are other parts of fsck that _can't_ work without a full list of objects. E.g., the list of dangling objects. Instead, let's make the connectivity-only case look more like the normal case. Rather than skip the initial pass completely, we'll do an abbreviated one that sets up the HAS_OBJ flag for each object, without actually loading the object data. That's simple and fast, and we don't have to care about the connectivity_only flag in the rest of the code at all. While we're at it, let's make sure we treat loose and packed objects the same (i.e., setting up dummy objects for both and skipping the actual sha1 check). That makes the connectivity-only check actually fast on a real repo (40 seconds versus 180 seconds on my copy of linux.git). Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2017-01-17 22:32:57 +01:00
# Drop the index now; we want to be sure that we
# recursively notice the broken objects
# because they are reachable from refs, not because
# they are in the index.
rm -f .git/index &&
# corrupt the blob, but in a way that we can still identify
# its type. That lets us see that --connectivity-only is
# not actually looking at the contents, but leaves it
# free to examine the type if it chooses.
empty=.git/objects/$(test_oid_to_path $EMPTY_BLOB) &&
fsck: prepare dummy objects for --connectivity-check Normally fsck makes a pass over all objects to check their integrity, and then follows up with a reachability check to make sure we have all of the referenced objects (and to know which ones are dangling). The latter checks for the HAS_OBJ flag in obj->flags to see if we found the object in the first pass. Commit 02976bf85 (fsck: introduce `git fsck --connectivity-only`, 2015-06-22) taught fsck to skip the initial pass, and to fallback to has_sha1_file() instead of the HAS_OBJ check. However, it converted only one HAS_OBJ check to use has_sha1_file(). But there are many other places in builtin/fsck.c that assume that the flag is set (or that lookup_object() will return an object at all). This leads to several bugs with --connectivity-only: 1. mark_object() will not queue objects for examination, so recursively following links from commits to trees, etc, did nothing. I.e., we were checking the reachability of hardly anything at all. 2. When a set of heads is given on the command-line, we use lookup_object() to see if they exist. But without the initial pass, we assume nothing exists. 3. When loading reflog entries, we do a similar lookup_object() check, and complain that the reflog is broken if the object doesn't exist in our hash. So in short, --connectivity-only is broken pretty badly, and will claim that your repository is fine when it's not. Presumably nobody noticed for a few reasons. One is that the embedded test does not actually test the recursive nature of the reachability check. All of the missing objects are still in the index, and we directly check items from the index. This patch modifies the test to delete the index, which shows off breakage (1). Another is that --connectivity-only just skips the initial pass for loose objects. So on a real repository, the packed objects were still checked correctly. But on the flipside, it means that "git fsck --connectivity-only" still checks the sha1 of all of the packed objects, nullifying its original purpose of being a faster git-fsck. And of course the final problem is that the bug only shows up when there _is_ corruption, which is rare. So anybody running "git fsck --connectivity-only" proactively would assume it was being thorough, when it was not. One possibility for fixing this is to find all of the spots that rely on HAS_OBJ and tweak them for the connectivity-only case. But besides the risk that we might miss a spot (and I found three already, corresponding to the three bugs above), there are other parts of fsck that _can't_ work without a full list of objects. E.g., the list of dangling objects. Instead, let's make the connectivity-only case look more like the normal case. Rather than skip the initial pass completely, we'll do an abbreviated one that sets up the HAS_OBJ flag for each object, without actually loading the object data. That's simple and fast, and we don't have to care about the connectivity_only flag in the rest of the code at all. While we're at it, let's make sure we treat loose and packed objects the same (i.e., setting up dummy objects for both and skipping the actual sha1 check). That makes the connectivity-only check actually fast on a real repo (40 seconds versus 180 seconds on my copy of linux.git). Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2017-01-17 22:32:57 +01:00
blob=$(echo unrelated | git hash-object -w --stdin) &&
mv -f $(sha1_file $blob) $empty &&
fsck: prepare dummy objects for --connectivity-check Normally fsck makes a pass over all objects to check their integrity, and then follows up with a reachability check to make sure we have all of the referenced objects (and to know which ones are dangling). The latter checks for the HAS_OBJ flag in obj->flags to see if we found the object in the first pass. Commit 02976bf85 (fsck: introduce `git fsck --connectivity-only`, 2015-06-22) taught fsck to skip the initial pass, and to fallback to has_sha1_file() instead of the HAS_OBJ check. However, it converted only one HAS_OBJ check to use has_sha1_file(). But there are many other places in builtin/fsck.c that assume that the flag is set (or that lookup_object() will return an object at all). This leads to several bugs with --connectivity-only: 1. mark_object() will not queue objects for examination, so recursively following links from commits to trees, etc, did nothing. I.e., we were checking the reachability of hardly anything at all. 2. When a set of heads is given on the command-line, we use lookup_object() to see if they exist. But without the initial pass, we assume nothing exists. 3. When loading reflog entries, we do a similar lookup_object() check, and complain that the reflog is broken if the object doesn't exist in our hash. So in short, --connectivity-only is broken pretty badly, and will claim that your repository is fine when it's not. Presumably nobody noticed for a few reasons. One is that the embedded test does not actually test the recursive nature of the reachability check. All of the missing objects are still in the index, and we directly check items from the index. This patch modifies the test to delete the index, which shows off breakage (1). Another is that --connectivity-only just skips the initial pass for loose objects. So on a real repository, the packed objects were still checked correctly. But on the flipside, it means that "git fsck --connectivity-only" still checks the sha1 of all of the packed objects, nullifying its original purpose of being a faster git-fsck. And of course the final problem is that the bug only shows up when there _is_ corruption, which is rare. So anybody running "git fsck --connectivity-only" proactively would assume it was being thorough, when it was not. One possibility for fixing this is to find all of the spots that rely on HAS_OBJ and tweak them for the connectivity-only case. But besides the risk that we might miss a spot (and I found three already, corresponding to the three bugs above), there are other parts of fsck that _can't_ work without a full list of objects. E.g., the list of dangling objects. Instead, let's make the connectivity-only case look more like the normal case. Rather than skip the initial pass completely, we'll do an abbreviated one that sets up the HAS_OBJ flag for each object, without actually loading the object data. That's simple and fast, and we don't have to care about the connectivity_only flag in the rest of the code at all. While we're at it, let's make sure we treat loose and packed objects the same (i.e., setting up dummy objects for both and skipping the actual sha1 check). That makes the connectivity-only check actually fast on a real repo (40 seconds versus 180 seconds on my copy of linux.git). Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2017-01-17 22:32:57 +01:00
test_must_fail git fsck --strict &&
git fsck --strict --connectivity-only &&
tree=$(git rev-parse HEAD:) &&
suffix=${tree#??} &&
tree=.git/objects/${tree%$suffix}/$suffix &&
rm -f $tree &&
echo invalid >$tree &&
test_must_fail git fsck --strict --connectivity-only
)
'
fsck: prepare dummy objects for --connectivity-check Normally fsck makes a pass over all objects to check their integrity, and then follows up with a reachability check to make sure we have all of the referenced objects (and to know which ones are dangling). The latter checks for the HAS_OBJ flag in obj->flags to see if we found the object in the first pass. Commit 02976bf85 (fsck: introduce `git fsck --connectivity-only`, 2015-06-22) taught fsck to skip the initial pass, and to fallback to has_sha1_file() instead of the HAS_OBJ check. However, it converted only one HAS_OBJ check to use has_sha1_file(). But there are many other places in builtin/fsck.c that assume that the flag is set (or that lookup_object() will return an object at all). This leads to several bugs with --connectivity-only: 1. mark_object() will not queue objects for examination, so recursively following links from commits to trees, etc, did nothing. I.e., we were checking the reachability of hardly anything at all. 2. When a set of heads is given on the command-line, we use lookup_object() to see if they exist. But without the initial pass, we assume nothing exists. 3. When loading reflog entries, we do a similar lookup_object() check, and complain that the reflog is broken if the object doesn't exist in our hash. So in short, --connectivity-only is broken pretty badly, and will claim that your repository is fine when it's not. Presumably nobody noticed for a few reasons. One is that the embedded test does not actually test the recursive nature of the reachability check. All of the missing objects are still in the index, and we directly check items from the index. This patch modifies the test to delete the index, which shows off breakage (1). Another is that --connectivity-only just skips the initial pass for loose objects. So on a real repository, the packed objects were still checked correctly. But on the flipside, it means that "git fsck --connectivity-only" still checks the sha1 of all of the packed objects, nullifying its original purpose of being a faster git-fsck. And of course the final problem is that the bug only shows up when there _is_ corruption, which is rare. So anybody running "git fsck --connectivity-only" proactively would assume it was being thorough, when it was not. One possibility for fixing this is to find all of the spots that rely on HAS_OBJ and tweak them for the connectivity-only case. But besides the risk that we might miss a spot (and I found three already, corresponding to the three bugs above), there are other parts of fsck that _can't_ work without a full list of objects. E.g., the list of dangling objects. Instead, let's make the connectivity-only case look more like the normal case. Rather than skip the initial pass completely, we'll do an abbreviated one that sets up the HAS_OBJ flag for each object, without actually loading the object data. That's simple and fast, and we don't have to care about the connectivity_only flag in the rest of the code at all. While we're at it, let's make sure we treat loose and packed objects the same (i.e., setting up dummy objects for both and skipping the actual sha1 check). That makes the connectivity-only check actually fast on a real repo (40 seconds versus 180 seconds on my copy of linux.git). Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2017-01-17 22:32:57 +01:00
test_expect_success 'fsck --connectivity-only with explicit head' '
rm -rf connectivity-only &&
git init connectivity-only &&
(
cd connectivity-only &&
test_commit foo &&
rm -f .git/index &&
tree=$(git rev-parse HEAD^{tree}) &&
remove_object $(git rev-parse HEAD:foo.t) &&
test_must_fail git fsck --connectivity-only $tree
)
'
test_expect_success 'fsck --name-objects' '
rm -rf name-objects &&
git init name-objects &&
(
cd name-objects &&
git config core.logAllRefUpdates false &&
test_commit julius caesar.t &&
test_commit augustus44 &&
test_commit caesar &&
remove_object $(git rev-parse julius:caesar.t) &&
tree=$(git rev-parse --verify julius:) &&
git tag -d julius &&
test_must_fail git fsck --name-objects >out &&
test_i18ngrep "$tree (refs/tags/augustus44\\^:" out
)
'
test_expect_success 'alternate objects are correctly blamed' '
test_when_finished "rm -rf alt.git .git/objects/info/alternates" &&
name=$(test_oid numeric) &&
path=$(test_oid_to_path "$name") &&
git init --bare alt.git &&
echo "../../alt.git/objects" >.git/objects/info/alternates &&
mkdir alt.git/objects/$(dirname $path) &&
>alt.git/objects/$(dirname $path)/$(basename $path) &&
test_must_fail git fsck >out 2>&1 &&
test_i18ngrep alt.git out
'
test_expect_success 'fsck errors in packed objects' '
git cat-file commit HEAD >basis &&
sed "s/</one/" basis >one &&
sed "s/</foo/" basis >two &&
one=$(git hash-object -t commit -w one) &&
two=$(git hash-object -t commit -w two) &&
pack=$(
{
echo $one &&
echo $two
} | git pack-objects .git/objects/pack/pack
) &&
test_when_finished "rm -f .git/objects/pack/pack-$pack.*" &&
remove_object $one &&
remove_object $two &&
test_must_fail git fsck 2>out &&
test_i18ngrep "error in commit $one.* - bad name" out &&
test_i18ngrep "error in commit $two.* - bad name" out &&
! grep corrupt out
'
test_expect_success 'fsck fails on corrupt packfile' '
hsh=$(git commit-tree -m mycommit HEAD^{tree}) &&
pack=$(echo $hsh | git pack-objects .git/objects/pack/pack) &&
# Corrupt the first byte of the first object. (It contains 3 type bits,
# at least one of which is not zero, so setting the first byte to 0 is
# sufficient.)
chmod a+w .git/objects/pack/pack-$pack.pack &&
printf "\0" | dd of=.git/objects/pack/pack-$pack.pack bs=1 conv=notrunc seek=12 &&
test_when_finished "rm -f .git/objects/pack/pack-$pack.*" &&
remove_object $hsh &&
test_must_fail git fsck 2>out &&
test_i18ngrep "checksum mismatch" out
'
test_expect_success 'fsck finds problems in duplicate loose objects' '
rm -rf broken-duplicate &&
git init broken-duplicate &&
(
cd broken-duplicate &&
test_commit duplicate &&
# no "-d" here, so we end up with duplicates
git repack &&
# now corrupt the loose copy
file=$(sha1_file "$(git rev-parse HEAD)") &&
rm "$file" &&
echo broken >"$file" &&
test_must_fail git fsck
)
'
test_expect_success 'fsck detects trailing loose garbage (commit)' '
git cat-file commit HEAD >basis &&
echo bump-commit-sha1 >>basis &&
commit=$(git hash-object -w -t commit basis) &&
file=$(sha1_file $commit) &&
test_when_finished "remove_object $commit" &&
chmod +w "$file" &&
echo garbage >>"$file" &&
test_must_fail git fsck 2>out &&
test_i18ngrep "garbage.*$commit" out
'
test_expect_success 'fsck detects trailing loose garbage (large blob)' '
blob=$(echo trailing | git hash-object -w --stdin) &&
file=$(sha1_file $blob) &&
test_when_finished "remove_object $blob" &&
chmod +w "$file" &&
echo garbage >>"$file" &&
test_must_fail git -c core.bigfilethreshold=5 fsck 2>out &&
test_i18ngrep "garbage.*$blob" out
'
check_stream_sha1(): handle input underflow This commit fixes an infinite loop when fscking large truncated loose objects. The check_stream_sha1() function takes an mmap'd loose object buffer and streams 4k of output at a time, checking its sha1. The loop quits when we've output enough bytes (we know the size from the object header), or when zlib tells us anything except Z_OK or Z_BUF_ERROR. The latter is expected because zlib may run out of room in our 4k buffer, and that is how it tells us to process the output and loop again. But Z_BUF_ERROR also covers another case: one in which zlib cannot make forward progress because it needs more _input_. This should never happen in this loop, because though we're streaming the output, we have the entire deflated input available in the mmap'd buffer. But since we don't check this case, we'll just loop infinitely if we do see a truncated object, thinking that zlib is asking for more output space. It's tempting to fix this by checking stream->avail_in as part of the loop condition (and quitting if all of our bytes have been consumed). But that assumes that once zlib has consumed the input, there is nothing left to do. That's not necessarily the case: it may have read our input into its internal state, but still have bytes to output. Instead, let's continue on Z_BUF_ERROR only when we see the case we're expecting: the previous round filled our output buffer completely. If it didn't (and we still saw Z_BUF_ERROR), we know something is wrong and should break out of the loop. The bug comes from commit f6371f9210 (sha1_file: add read_loose_object() function, 2017-01-13), which reimplemented some of the existing loose object functions. So it's worth checking if this bug was inherited from any of those. The answers seems to be no. The two obvious candidates are both OK: 1. unpack_sha1_rest(); this doesn't need to loop on Z_BUF_ERROR at all, since it allocates the expected output buffer in advance (which we can't do since we're explicitly streaming here) 2. check_object_signature(); the streaming path relies on the istream interface, which uses read_istream_loose() for this case. That function uses a similar "is our output buffer full" check with Z_BUF_ERROR (which is where I stole it from for this patch!) Reported-by: Ævar Arnfjörð Bjarmason <avarab@gmail.com> Helped-by: Junio C Hamano <gitster@pobox.com> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-10-31 00:23:12 +01:00
test_expect_success 'fsck detects truncated loose object' '
# make it big enough that we know we will truncate in the data
# portion, not the header
test-tool genrandom truncate 4096 >file &&
check_stream_sha1(): handle input underflow This commit fixes an infinite loop when fscking large truncated loose objects. The check_stream_sha1() function takes an mmap'd loose object buffer and streams 4k of output at a time, checking its sha1. The loop quits when we've output enough bytes (we know the size from the object header), or when zlib tells us anything except Z_OK or Z_BUF_ERROR. The latter is expected because zlib may run out of room in our 4k buffer, and that is how it tells us to process the output and loop again. But Z_BUF_ERROR also covers another case: one in which zlib cannot make forward progress because it needs more _input_. This should never happen in this loop, because though we're streaming the output, we have the entire deflated input available in the mmap'd buffer. But since we don't check this case, we'll just loop infinitely if we do see a truncated object, thinking that zlib is asking for more output space. It's tempting to fix this by checking stream->avail_in as part of the loop condition (and quitting if all of our bytes have been consumed). But that assumes that once zlib has consumed the input, there is nothing left to do. That's not necessarily the case: it may have read our input into its internal state, but still have bytes to output. Instead, let's continue on Z_BUF_ERROR only when we see the case we're expecting: the previous round filled our output buffer completely. If it didn't (and we still saw Z_BUF_ERROR), we know something is wrong and should break out of the loop. The bug comes from commit f6371f9210 (sha1_file: add read_loose_object() function, 2017-01-13), which reimplemented some of the existing loose object functions. So it's worth checking if this bug was inherited from any of those. The answers seems to be no. The two obvious candidates are both OK: 1. unpack_sha1_rest(); this doesn't need to loop on Z_BUF_ERROR at all, since it allocates the expected output buffer in advance (which we can't do since we're explicitly streaming here) 2. check_object_signature(); the streaming path relies on the istream interface, which uses read_istream_loose() for this case. That function uses a similar "is our output buffer full" check with Z_BUF_ERROR (which is where I stole it from for this patch!) Reported-by: Ævar Arnfjörð Bjarmason <avarab@gmail.com> Helped-by: Junio C Hamano <gitster@pobox.com> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-10-31 00:23:12 +01:00
blob=$(git hash-object -w file) &&
file=$(sha1_file $blob) &&
test_when_finished "remove_object $blob" &&
test_copy_bytes 1024 <"$file" >tmp &&
rm "$file" &&
mv -f tmp "$file" &&
# check both regular and streaming code paths
test_must_fail git fsck 2>out &&
test_i18ngrep corrupt.*$blob out &&
test_must_fail git -c core.bigfilethreshold=128 fsck 2>out &&
test_i18ngrep corrupt.*$blob out
'
# for each of type, we have one version which is referenced by another object
# (and so while unreachable, not dangling), and another variant which really is
# dangling.
fsck: always compute USED flags for unreachable objects The --connectivity-only option avoids opening every object, and instead just marks reachable objects with a flag and compares this to the set of all objects. This strategy is discussed in more detail in 3e3f8bd608 (fsck: prepare dummy objects for --connectivity-check, 2017-01-17). This means that we report _every_ unreachable object as dangling. Whereas in a full fsck, we'd have actually opened and parsed each of those unreachable objects, marking their child objects with the USED flag, to mean "this was mentioned by another object". And thus we can report only the tip of an unreachable segment of the object graph as dangling. You can see this difference with a trivial example: tree=$(git hash-object -t tree -w /dev/null) one=$(echo one | git commit-tree $tree) two=$(echo two | git commit-tree -p $one $tree) Running `git fsck` will report only $two as dangling, but with --connectivity-only, both commits (and the tree) are reported. Likewise, using --lost-found would write all three objects. We can make --connectivity-only work like the normal case by taking a separate pass over the unreachable objects, parsing them and marking objects they refer to as USED. That still avoids parsing any blobs, though we do pay the cost to access any unreachable commits and trees (which may or may not be noticeable, depending on how many you have). If neither --dangling nor --lost-found is in effect, then we can skip this step entirely, just like we do now. That makes "--connectivity-only --no-dangling" just as fast as the current "--connectivity-only". I.e., we do the correct thing always, but you can still tweak the options to make it faster if you don't care about dangling objects. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-03-05 05:47:39 +01:00
test_expect_success 'create dangling-object repository' '
git init dangling &&
(
cd dangling &&
blob=$(echo not-dangling | git hash-object -w --stdin) &&
dblob=$(echo dangling | git hash-object -w --stdin) &&
tree=$(printf "100644 blob %s\t%s\n" $blob one | git mktree) &&
dtree=$(printf "100644 blob %s\t%s\n" $blob two | git mktree) &&
commit=$(git commit-tree $tree) &&
dcommit=$(git commit-tree -p $commit $tree) &&
fsck: always compute USED flags for unreachable objects The --connectivity-only option avoids opening every object, and instead just marks reachable objects with a flag and compares this to the set of all objects. This strategy is discussed in more detail in 3e3f8bd608 (fsck: prepare dummy objects for --connectivity-check, 2017-01-17). This means that we report _every_ unreachable object as dangling. Whereas in a full fsck, we'd have actually opened and parsed each of those unreachable objects, marking their child objects with the USED flag, to mean "this was mentioned by another object". And thus we can report only the tip of an unreachable segment of the object graph as dangling. You can see this difference with a trivial example: tree=$(git hash-object -t tree -w /dev/null) one=$(echo one | git commit-tree $tree) two=$(echo two | git commit-tree -p $one $tree) Running `git fsck` will report only $two as dangling, but with --connectivity-only, both commits (and the tree) are reported. Likewise, using --lost-found would write all three objects. We can make --connectivity-only work like the normal case by taking a separate pass over the unreachable objects, parsing them and marking objects they refer to as USED. That still avoids parsing any blobs, though we do pay the cost to access any unreachable commits and trees (which may or may not be noticeable, depending on how many you have). If neither --dangling nor --lost-found is in effect, then we can skip this step entirely, just like we do now. That makes "--connectivity-only --no-dangling" just as fast as the current "--connectivity-only". I.e., we do the correct thing always, but you can still tweak the options to make it faster if you don't care about dangling objects. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-03-05 05:47:39 +01:00
cat >expect <<-EOF
dangling blob $dblob
dangling commit $dcommit
dangling tree $dtree
EOF
fsck: always compute USED flags for unreachable objects The --connectivity-only option avoids opening every object, and instead just marks reachable objects with a flag and compares this to the set of all objects. This strategy is discussed in more detail in 3e3f8bd608 (fsck: prepare dummy objects for --connectivity-check, 2017-01-17). This means that we report _every_ unreachable object as dangling. Whereas in a full fsck, we'd have actually opened and parsed each of those unreachable objects, marking their child objects with the USED flag, to mean "this was mentioned by another object". And thus we can report only the tip of an unreachable segment of the object graph as dangling. You can see this difference with a trivial example: tree=$(git hash-object -t tree -w /dev/null) one=$(echo one | git commit-tree $tree) two=$(echo two | git commit-tree -p $one $tree) Running `git fsck` will report only $two as dangling, but with --connectivity-only, both commits (and the tree) are reported. Likewise, using --lost-found would write all three objects. We can make --connectivity-only work like the normal case by taking a separate pass over the unreachable objects, parsing them and marking objects they refer to as USED. That still avoids parsing any blobs, though we do pay the cost to access any unreachable commits and trees (which may or may not be noticeable, depending on how many you have). If neither --dangling nor --lost-found is in effect, then we can skip this step entirely, just like we do now. That makes "--connectivity-only --no-dangling" just as fast as the current "--connectivity-only". I.e., we do the correct thing always, but you can still tweak the options to make it faster if you don't care about dangling objects. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-03-05 05:47:39 +01:00
)
'
fsck: always compute USED flags for unreachable objects The --connectivity-only option avoids opening every object, and instead just marks reachable objects with a flag and compares this to the set of all objects. This strategy is discussed in more detail in 3e3f8bd608 (fsck: prepare dummy objects for --connectivity-check, 2017-01-17). This means that we report _every_ unreachable object as dangling. Whereas in a full fsck, we'd have actually opened and parsed each of those unreachable objects, marking their child objects with the USED flag, to mean "this was mentioned by another object". And thus we can report only the tip of an unreachable segment of the object graph as dangling. You can see this difference with a trivial example: tree=$(git hash-object -t tree -w /dev/null) one=$(echo one | git commit-tree $tree) two=$(echo two | git commit-tree -p $one $tree) Running `git fsck` will report only $two as dangling, but with --connectivity-only, both commits (and the tree) are reported. Likewise, using --lost-found would write all three objects. We can make --connectivity-only work like the normal case by taking a separate pass over the unreachable objects, parsing them and marking objects they refer to as USED. That still avoids parsing any blobs, though we do pay the cost to access any unreachable commits and trees (which may or may not be noticeable, depending on how many you have). If neither --dangling nor --lost-found is in effect, then we can skip this step entirely, just like we do now. That makes "--connectivity-only --no-dangling" just as fast as the current "--connectivity-only". I.e., we do the correct thing always, but you can still tweak the options to make it faster if you don't care about dangling objects. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-03-05 05:47:39 +01:00
test_expect_success 'fsck notices dangling objects' '
(
cd dangling &&
git fsck >actual &&
# the output order is non-deterministic, as it comes from a hash
sort <actual >actual.sorted &&
test_cmp expect actual.sorted
)
'
fsck: always compute USED flags for unreachable objects The --connectivity-only option avoids opening every object, and instead just marks reachable objects with a flag and compares this to the set of all objects. This strategy is discussed in more detail in 3e3f8bd608 (fsck: prepare dummy objects for --connectivity-check, 2017-01-17). This means that we report _every_ unreachable object as dangling. Whereas in a full fsck, we'd have actually opened and parsed each of those unreachable objects, marking their child objects with the USED flag, to mean "this was mentioned by another object". And thus we can report only the tip of an unreachable segment of the object graph as dangling. You can see this difference with a trivial example: tree=$(git hash-object -t tree -w /dev/null) one=$(echo one | git commit-tree $tree) two=$(echo two | git commit-tree -p $one $tree) Running `git fsck` will report only $two as dangling, but with --connectivity-only, both commits (and the tree) are reported. Likewise, using --lost-found would write all three objects. We can make --connectivity-only work like the normal case by taking a separate pass over the unreachable objects, parsing them and marking objects they refer to as USED. That still avoids parsing any blobs, though we do pay the cost to access any unreachable commits and trees (which may or may not be noticeable, depending on how many you have). If neither --dangling nor --lost-found is in effect, then we can skip this step entirely, just like we do now. That makes "--connectivity-only --no-dangling" just as fast as the current "--connectivity-only". I.e., we do the correct thing always, but you can still tweak the options to make it faster if you don't care about dangling objects. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-03-05 05:47:39 +01:00
test_expect_success 'fsck --connectivity-only notices dangling objects' '
(
cd dangling &&
git fsck --connectivity-only >actual &&
# the output order is non-deterministic, as it comes from a hash
sort <actual >actual.sorted &&
test_cmp expect actual.sorted
fsck: always compute USED flags for unreachable objects The --connectivity-only option avoids opening every object, and instead just marks reachable objects with a flag and compares this to the set of all objects. This strategy is discussed in more detail in 3e3f8bd608 (fsck: prepare dummy objects for --connectivity-check, 2017-01-17). This means that we report _every_ unreachable object as dangling. Whereas in a full fsck, we'd have actually opened and parsed each of those unreachable objects, marking their child objects with the USED flag, to mean "this was mentioned by another object". And thus we can report only the tip of an unreachable segment of the object graph as dangling. You can see this difference with a trivial example: tree=$(git hash-object -t tree -w /dev/null) one=$(echo one | git commit-tree $tree) two=$(echo two | git commit-tree -p $one $tree) Running `git fsck` will report only $two as dangling, but with --connectivity-only, both commits (and the tree) are reported. Likewise, using --lost-found would write all three objects. We can make --connectivity-only work like the normal case by taking a separate pass over the unreachable objects, parsing them and marking objects they refer to as USED. That still avoids parsing any blobs, though we do pay the cost to access any unreachable commits and trees (which may or may not be noticeable, depending on how many you have). If neither --dangling nor --lost-found is in effect, then we can skip this step entirely, just like we do now. That makes "--connectivity-only --no-dangling" just as fast as the current "--connectivity-only". I.e., we do the correct thing always, but you can still tweak the options to make it faster if you don't care about dangling objects. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-03-05 05:47:39 +01:00
)
'
test_expect_success 'fsck $name notices bogus $name' '
test_must_fail git fsck bogus &&
test_must_fail git fsck $ZERO_OID
'
test_expect_success 'bogus head does not fallback to all heads' '
# set up a case that will cause a reachability complaint
echo to-be-deleted >foo &&
git add foo &&
blob=$(git rev-parse :foo) &&
test_when_finished "git rm --cached foo" &&
remove_object $blob &&
test_must_fail git fsck $ZERO_OID >out 2>&1 &&
! grep $blob out
'
# Corrupt the checksum on the index.
# Add 1 to the last byte in the SHA.
corrupt_index_checksum () {
perl -w -e '
use Fcntl ":seek";
open my $fh, "+<", ".git/index" or die "open: $!";
binmode $fh;
seek $fh, -1, SEEK_END or die "seek: $!";
read $fh, my $in_byte, 1 or die "read: $!";
$in_value = unpack("C", $in_byte);
$out_value = ($in_value + 1) & 255;
$out_byte = pack("C", $out_value);
seek $fh, -1, SEEK_END or die "seek: $!";
print $fh $out_byte;
close $fh or die "close: $!";
'
}
# Corrupt the checksum on the index and then
# verify that only fsck notices.
test_expect_success 'detect corrupt index file in fsck' '
cp .git/index .git/index.backup &&
test_when_finished "mv .git/index.backup .git/index" &&
corrupt_index_checksum &&
test_must_fail git fsck --cache 2>errors &&
test_i18ngrep "bad index file" errors
'
test_expect_success 'fsck hard errors on an invalid object type' '
git init --bare garbage-type &&
(
cd garbage-type &&
git hash-object --stdin -w -t garbage --literally </dev/null &&
cat >err.expect <<-\EOF &&
fatal: invalid object type
EOF
test_must_fail git fsck >out 2>err &&
test_cmp err.expect err &&
test_must_be_empty out
)
'
test_done