git-commit-vandalism/t/t6102-rev-list-unexpected-objects.sh

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t: introduce tests for unexpected object types Call an object's type "unexpected" when the actual type of an object does not match Git's contextual expectation. For example, a tree entry whose mode differs from the object's actual type, or a commit's parent which is not another commit, and so on. This can manifest itself in various unfortunate ways, including Git SIGSEGV-ing under specific conditions. Consider the following example: Git traverses a blob (say, via `git rev-list`), and then tries to read out a tree-entry which lists that object as something other than a blob. In this case, `lookup_blob()` will return NULL, and the subsequent dereference will result in a SIGSEGV. Introduce tests that present objects of "unexpected" type in the above fashion to 'git rev-list'. Mark as failures the combinations that are already broken (i.e., they exhibit the segfault described above). In the cases that are not broken (i.e., they have NULL-ness checks or similar), mark these as expecting success. We might hit an unexpected type in two different ways (imagine we have a tree entry that claims to be a tree but actually points to a blob): - when we call lookup_tree(), we might find that we've already seen the object referenced as a blob, in which case we'd get NULL. We can exercise this with "git rev-list --objects $blob $tree", which guarantees that the blob will have been parsed before we look in the tree. These tests are marked as "seen" in the test script. - we call lookup_tree() successfully, but when we try to read the object, we find out it's something else. We construct our tests such that $blob is not otherwise mentioned in $tree. These tests are marked as "lone" in the script. We should check that we behave sensibly in both cases (especially because it is easy for a malicious actor to provoke one case or the other). Co-authored-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-04-10 04:13:14 +02:00
#!/bin/sh
test_description='git rev-list should handle unexpected object types'
TEST_PASSES_SANITIZE_LEAK=true
t: introduce tests for unexpected object types Call an object's type "unexpected" when the actual type of an object does not match Git's contextual expectation. For example, a tree entry whose mode differs from the object's actual type, or a commit's parent which is not another commit, and so on. This can manifest itself in various unfortunate ways, including Git SIGSEGV-ing under specific conditions. Consider the following example: Git traverses a blob (say, via `git rev-list`), and then tries to read out a tree-entry which lists that object as something other than a blob. In this case, `lookup_blob()` will return NULL, and the subsequent dereference will result in a SIGSEGV. Introduce tests that present objects of "unexpected" type in the above fashion to 'git rev-list'. Mark as failures the combinations that are already broken (i.e., they exhibit the segfault described above). In the cases that are not broken (i.e., they have NULL-ness checks or similar), mark these as expecting success. We might hit an unexpected type in two different ways (imagine we have a tree entry that claims to be a tree but actually points to a blob): - when we call lookup_tree(), we might find that we've already seen the object referenced as a blob, in which case we'd get NULL. We can exercise this with "git rev-list --objects $blob $tree", which guarantees that the blob will have been parsed before we look in the tree. These tests are marked as "seen" in the test script. - we call lookup_tree() successfully, but when we try to read the object, we find out it's something else. We construct our tests such that $blob is not otherwise mentioned in $tree. These tests are marked as "lone" in the script. We should check that we behave sensibly in both cases (especially because it is easy for a malicious actor to provoke one case or the other). Co-authored-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-04-10 04:13:14 +02:00
. ./test-lib.sh
test_expect_success 'setup well-formed objects' '
blob="$(printf "foo" | git hash-object -w --stdin)" &&
tree="$(printf "100644 blob $blob\tfoo" | git mktree)" &&
commit="$(git commit-tree $tree -m "first commit")" &&
git cat-file commit $commit >good-commit
'
test_expect_success 'setup unexpected non-blob entry' '
printf "100644 foo\0$(echo $tree | hex2oct)" >broken-tree &&
broken_tree="$(git hash-object -w --literally -t tree broken-tree)"
'
test_expect_success 'TODO (should fail!): traverse unexpected non-blob entry (lone)' '
sed "s/Z$//" >expect <<-EOF &&
$broken_tree Z
$tree foo
EOF
git rev-list --objects $broken_tree >actual &&
test_cmp expect actual
t: introduce tests for unexpected object types Call an object's type "unexpected" when the actual type of an object does not match Git's contextual expectation. For example, a tree entry whose mode differs from the object's actual type, or a commit's parent which is not another commit, and so on. This can manifest itself in various unfortunate ways, including Git SIGSEGV-ing under specific conditions. Consider the following example: Git traverses a blob (say, via `git rev-list`), and then tries to read out a tree-entry which lists that object as something other than a blob. In this case, `lookup_blob()` will return NULL, and the subsequent dereference will result in a SIGSEGV. Introduce tests that present objects of "unexpected" type in the above fashion to 'git rev-list'. Mark as failures the combinations that are already broken (i.e., they exhibit the segfault described above). In the cases that are not broken (i.e., they have NULL-ness checks or similar), mark these as expecting success. We might hit an unexpected type in two different ways (imagine we have a tree entry that claims to be a tree but actually points to a blob): - when we call lookup_tree(), we might find that we've already seen the object referenced as a blob, in which case we'd get NULL. We can exercise this with "git rev-list --objects $blob $tree", which guarantees that the blob will have been parsed before we look in the tree. These tests are marked as "seen" in the test script. - we call lookup_tree() successfully, but when we try to read the object, we find out it's something else. We construct our tests such that $blob is not otherwise mentioned in $tree. These tests are marked as "lone" in the script. We should check that we behave sensibly in both cases (especially because it is easy for a malicious actor to provoke one case or the other). Co-authored-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-04-10 04:13:14 +02:00
'
test_expect_success 'traverse unexpected non-blob entry (seen)' '
test_must_fail git rev-list --objects $tree $broken_tree >output 2>&1 &&
test_i18ngrep "is not a blob" output
t: introduce tests for unexpected object types Call an object's type "unexpected" when the actual type of an object does not match Git's contextual expectation. For example, a tree entry whose mode differs from the object's actual type, or a commit's parent which is not another commit, and so on. This can manifest itself in various unfortunate ways, including Git SIGSEGV-ing under specific conditions. Consider the following example: Git traverses a blob (say, via `git rev-list`), and then tries to read out a tree-entry which lists that object as something other than a blob. In this case, `lookup_blob()` will return NULL, and the subsequent dereference will result in a SIGSEGV. Introduce tests that present objects of "unexpected" type in the above fashion to 'git rev-list'. Mark as failures the combinations that are already broken (i.e., they exhibit the segfault described above). In the cases that are not broken (i.e., they have NULL-ness checks or similar), mark these as expecting success. We might hit an unexpected type in two different ways (imagine we have a tree entry that claims to be a tree but actually points to a blob): - when we call lookup_tree(), we might find that we've already seen the object referenced as a blob, in which case we'd get NULL. We can exercise this with "git rev-list --objects $blob $tree", which guarantees that the blob will have been parsed before we look in the tree. These tests are marked as "seen" in the test script. - we call lookup_tree() successfully, but when we try to read the object, we find out it's something else. We construct our tests such that $blob is not otherwise mentioned in $tree. These tests are marked as "lone" in the script. We should check that we behave sensibly in both cases (especially because it is easy for a malicious actor to provoke one case or the other). Co-authored-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-04-10 04:13:14 +02:00
'
test_expect_success 'setup unexpected non-tree entry' '
printf "40000 foo\0$(echo $blob | hex2oct)" >broken-tree &&
broken_tree="$(git hash-object -w --literally -t tree broken-tree)"
'
rev-list: let traversal die when --missing is not in use Commit 7c0fe330d5 (rev-list: handle missing tree objects properly, 2018-10-05) taught the traversal machinery used by git-rev-list to ignore missing trees, so that rev-list could handle them itself. However, it does so only by checking via oid_object_info_extended() that the object exists at all. This can miss several classes of errors that were previously detected by rev-list: - type mismatches (e.g., we expected a tree but got a blob) - failure to read the object data (e.g., due to bitrot on disk) This is especially important because we use "rev-list --objects" as our connectivity check to admit new objects to the repository, and it will now miss these cases (though the bitrot one is less important here, because we'd typically have just hashed and stored the object). There are a few options to fix this: 1. we could check these properties in rev-list when we do the existence check. This is probably too expensive in practice (perhaps even for a type check, but definitely for checking the whole content again, which implies loading each object into memory twice). 2. teach the traversal machinery to differentiate between a missing object, and one that could not be loaded as expected. This probably wouldn't be too hard to detect type mismatches, but detecting bitrot versus a truly missing object would require deep changes to the object-loading code. 3. have the traversal machinery communicate the failure to the caller, so that it can decide how to proceed without re-evaluting the object itself. Of those, I think (3) is probably the best path forward. However, this patch does none of them. In the name of expediently fixing the regression to a normal "rev-list --objects" that we use for connectivity checks, this simply restores the pre-7c0fe330d5 behavior of having the traversal die as soon as it fails to load a tree (when --missing is set to MA_ERROR, which is the default). Note that we can't get rid of the object-existence check in finish_object(), because this also handles blobs (which are not otherwise checked at all by the traversal code). Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-04-10 04:13:23 +02:00
test_expect_success 'traverse unexpected non-tree entry (lone)' '
t: introduce tests for unexpected object types Call an object's type "unexpected" when the actual type of an object does not match Git's contextual expectation. For example, a tree entry whose mode differs from the object's actual type, or a commit's parent which is not another commit, and so on. This can manifest itself in various unfortunate ways, including Git SIGSEGV-ing under specific conditions. Consider the following example: Git traverses a blob (say, via `git rev-list`), and then tries to read out a tree-entry which lists that object as something other than a blob. In this case, `lookup_blob()` will return NULL, and the subsequent dereference will result in a SIGSEGV. Introduce tests that present objects of "unexpected" type in the above fashion to 'git rev-list'. Mark as failures the combinations that are already broken (i.e., they exhibit the segfault described above). In the cases that are not broken (i.e., they have NULL-ness checks or similar), mark these as expecting success. We might hit an unexpected type in two different ways (imagine we have a tree entry that claims to be a tree but actually points to a blob): - when we call lookup_tree(), we might find that we've already seen the object referenced as a blob, in which case we'd get NULL. We can exercise this with "git rev-list --objects $blob $tree", which guarantees that the blob will have been parsed before we look in the tree. These tests are marked as "seen" in the test script. - we call lookup_tree() successfully, but when we try to read the object, we find out it's something else. We construct our tests such that $blob is not otherwise mentioned in $tree. These tests are marked as "lone" in the script. We should check that we behave sensibly in both cases (especially because it is easy for a malicious actor to provoke one case or the other). Co-authored-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-04-10 04:13:14 +02:00
test_must_fail git rev-list --objects $broken_tree
'
test_expect_success 'traverse unexpected non-tree entry (seen)' '
test_must_fail git rev-list --objects $blob $broken_tree >output 2>&1 &&
test_i18ngrep "is not a tree" output
t: introduce tests for unexpected object types Call an object's type "unexpected" when the actual type of an object does not match Git's contextual expectation. For example, a tree entry whose mode differs from the object's actual type, or a commit's parent which is not another commit, and so on. This can manifest itself in various unfortunate ways, including Git SIGSEGV-ing under specific conditions. Consider the following example: Git traverses a blob (say, via `git rev-list`), and then tries to read out a tree-entry which lists that object as something other than a blob. In this case, `lookup_blob()` will return NULL, and the subsequent dereference will result in a SIGSEGV. Introduce tests that present objects of "unexpected" type in the above fashion to 'git rev-list'. Mark as failures the combinations that are already broken (i.e., they exhibit the segfault described above). In the cases that are not broken (i.e., they have NULL-ness checks or similar), mark these as expecting success. We might hit an unexpected type in two different ways (imagine we have a tree entry that claims to be a tree but actually points to a blob): - when we call lookup_tree(), we might find that we've already seen the object referenced as a blob, in which case we'd get NULL. We can exercise this with "git rev-list --objects $blob $tree", which guarantees that the blob will have been parsed before we look in the tree. These tests are marked as "seen" in the test script. - we call lookup_tree() successfully, but when we try to read the object, we find out it's something else. We construct our tests such that $blob is not otherwise mentioned in $tree. These tests are marked as "lone" in the script. We should check that we behave sensibly in both cases (especially because it is easy for a malicious actor to provoke one case or the other). Co-authored-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-04-10 04:13:14 +02:00
'
test_expect_success 'setup unexpected non-commit parent' '
sed "/^author/ { h; s/.*/parent $blob/; G; }" <good-commit \
>broken-commit &&
broken_commit="$(git hash-object -w --literally -t commit \
broken-commit)"
'
test_expect_success 'traverse unexpected non-commit parent (lone)' '
test_must_fail git rev-list --objects $broken_commit >output 2>&1 &&
test_i18ngrep "not a commit" output
'
test_expect_success 'traverse unexpected non-commit parent (seen)' '
test_must_fail git rev-list --objects $blob $broken_commit \
t: introduce tests for unexpected object types Call an object's type "unexpected" when the actual type of an object does not match Git's contextual expectation. For example, a tree entry whose mode differs from the object's actual type, or a commit's parent which is not another commit, and so on. This can manifest itself in various unfortunate ways, including Git SIGSEGV-ing under specific conditions. Consider the following example: Git traverses a blob (say, via `git rev-list`), and then tries to read out a tree-entry which lists that object as something other than a blob. In this case, `lookup_blob()` will return NULL, and the subsequent dereference will result in a SIGSEGV. Introduce tests that present objects of "unexpected" type in the above fashion to 'git rev-list'. Mark as failures the combinations that are already broken (i.e., they exhibit the segfault described above). In the cases that are not broken (i.e., they have NULL-ness checks or similar), mark these as expecting success. We might hit an unexpected type in two different ways (imagine we have a tree entry that claims to be a tree but actually points to a blob): - when we call lookup_tree(), we might find that we've already seen the object referenced as a blob, in which case we'd get NULL. We can exercise this with "git rev-list --objects $blob $tree", which guarantees that the blob will have been parsed before we look in the tree. These tests are marked as "seen" in the test script. - we call lookup_tree() successfully, but when we try to read the object, we find out it's something else. We construct our tests such that $blob is not otherwise mentioned in $tree. These tests are marked as "lone" in the script. We should check that we behave sensibly in both cases (especially because it is easy for a malicious actor to provoke one case or the other). Co-authored-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-04-10 04:13:14 +02:00
>output 2>&1 &&
test_i18ngrep "not a commit" output
'
test_expect_success 'setup unexpected non-tree root' '
sed -e "s/$tree/$blob/" <good-commit >broken-commit &&
broken_commit="$(git hash-object -w --literally -t commit \
broken-commit)"
'
rev-list: let traversal die when --missing is not in use Commit 7c0fe330d5 (rev-list: handle missing tree objects properly, 2018-10-05) taught the traversal machinery used by git-rev-list to ignore missing trees, so that rev-list could handle them itself. However, it does so only by checking via oid_object_info_extended() that the object exists at all. This can miss several classes of errors that were previously detected by rev-list: - type mismatches (e.g., we expected a tree but got a blob) - failure to read the object data (e.g., due to bitrot on disk) This is especially important because we use "rev-list --objects" as our connectivity check to admit new objects to the repository, and it will now miss these cases (though the bitrot one is less important here, because we'd typically have just hashed and stored the object). There are a few options to fix this: 1. we could check these properties in rev-list when we do the existence check. This is probably too expensive in practice (perhaps even for a type check, but definitely for checking the whole content again, which implies loading each object into memory twice). 2. teach the traversal machinery to differentiate between a missing object, and one that could not be loaded as expected. This probably wouldn't be too hard to detect type mismatches, but detecting bitrot versus a truly missing object would require deep changes to the object-loading code. 3. have the traversal machinery communicate the failure to the caller, so that it can decide how to proceed without re-evaluting the object itself. Of those, I think (3) is probably the best path forward. However, this patch does none of them. In the name of expediently fixing the regression to a normal "rev-list --objects" that we use for connectivity checks, this simply restores the pre-7c0fe330d5 behavior of having the traversal die as soon as it fails to load a tree (when --missing is set to MA_ERROR, which is the default). Note that we can't get rid of the object-existence check in finish_object(), because this also handles blobs (which are not otherwise checked at all by the traversal code). Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-04-10 04:13:23 +02:00
test_expect_success 'traverse unexpected non-tree root (lone)' '
t: introduce tests for unexpected object types Call an object's type "unexpected" when the actual type of an object does not match Git's contextual expectation. For example, a tree entry whose mode differs from the object's actual type, or a commit's parent which is not another commit, and so on. This can manifest itself in various unfortunate ways, including Git SIGSEGV-ing under specific conditions. Consider the following example: Git traverses a blob (say, via `git rev-list`), and then tries to read out a tree-entry which lists that object as something other than a blob. In this case, `lookup_blob()` will return NULL, and the subsequent dereference will result in a SIGSEGV. Introduce tests that present objects of "unexpected" type in the above fashion to 'git rev-list'. Mark as failures the combinations that are already broken (i.e., they exhibit the segfault described above). In the cases that are not broken (i.e., they have NULL-ness checks or similar), mark these as expecting success. We might hit an unexpected type in two different ways (imagine we have a tree entry that claims to be a tree but actually points to a blob): - when we call lookup_tree(), we might find that we've already seen the object referenced as a blob, in which case we'd get NULL. We can exercise this with "git rev-list --objects $blob $tree", which guarantees that the blob will have been parsed before we look in the tree. These tests are marked as "seen" in the test script. - we call lookup_tree() successfully, but when we try to read the object, we find out it's something else. We construct our tests such that $blob is not otherwise mentioned in $tree. These tests are marked as "lone" in the script. We should check that we behave sensibly in both cases (especially because it is easy for a malicious actor to provoke one case or the other). Co-authored-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-04-10 04:13:14 +02:00
test_must_fail git rev-list --objects $broken_commit
'
test_expect_success 'traverse unexpected non-tree root (seen)' '
test_must_fail git rev-list --objects $blob $broken_commit \
>output 2>&1 &&
test_i18ngrep "not a tree" output
t: introduce tests for unexpected object types Call an object's type "unexpected" when the actual type of an object does not match Git's contextual expectation. For example, a tree entry whose mode differs from the object's actual type, or a commit's parent which is not another commit, and so on. This can manifest itself in various unfortunate ways, including Git SIGSEGV-ing under specific conditions. Consider the following example: Git traverses a blob (say, via `git rev-list`), and then tries to read out a tree-entry which lists that object as something other than a blob. In this case, `lookup_blob()` will return NULL, and the subsequent dereference will result in a SIGSEGV. Introduce tests that present objects of "unexpected" type in the above fashion to 'git rev-list'. Mark as failures the combinations that are already broken (i.e., they exhibit the segfault described above). In the cases that are not broken (i.e., they have NULL-ness checks or similar), mark these as expecting success. We might hit an unexpected type in two different ways (imagine we have a tree entry that claims to be a tree but actually points to a blob): - when we call lookup_tree(), we might find that we've already seen the object referenced as a blob, in which case we'd get NULL. We can exercise this with "git rev-list --objects $blob $tree", which guarantees that the blob will have been parsed before we look in the tree. These tests are marked as "seen" in the test script. - we call lookup_tree() successfully, but when we try to read the object, we find out it's something else. We construct our tests such that $blob is not otherwise mentioned in $tree. These tests are marked as "lone" in the script. We should check that we behave sensibly in both cases (especially because it is easy for a malicious actor to provoke one case or the other). Co-authored-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-04-10 04:13:14 +02:00
'
test_expect_success 'setup unexpected non-commit tag' '
git tag -a -m "tagged commit" tag $commit &&
git cat-file tag tag >good-tag &&
test_when_finished "git tag -d tag" &&
sed -e "s/$commit/$blob/" <good-tag >broken-tag &&
tag=$(git hash-object -w --literally -t tag broken-tag)
'
test_expect_success 'traverse unexpected non-commit tag (lone)' '
test_must_fail git rev-list --objects $tag
'
test_expect_success 'traverse unexpected non-commit tag (seen)' '
test_must_fail git rev-list --objects $blob $tag >output 2>&1 &&
test_i18ngrep "not a commit" output
'
test_expect_success 'setup unexpected non-tree tag' '
git tag -a -m "tagged tree" tag $tree &&
git cat-file tag tag >good-tag &&
test_when_finished "git tag -d tag" &&
sed -e "s/$tree/$blob/" <good-tag >broken-tag &&
tag=$(git hash-object -w --literally -t tag broken-tag)
'
test_expect_success 'traverse unexpected non-tree tag (lone)' '
test_must_fail git rev-list --objects $tag
'
test_expect_success 'traverse unexpected non-tree tag (seen)' '
test_must_fail git rev-list --objects $blob $tag >output 2>&1 &&
test_i18ngrep "not a tree" output
'
test_expect_success 'setup unexpected non-blob tag' '
git tag -a -m "tagged blob" tag $blob &&
git cat-file tag tag >good-tag &&
test_when_finished "git tag -d tag" &&
sed -e "s/$blob/$commit/" <good-tag >broken-tag &&
tag=$(git hash-object -w --literally -t tag broken-tag)
'
parse_object(): check on-disk type of suspected blob In parse_object(), we try to handle blobs by streaming rather than loading them entirely into memory. The most common case here will be that we haven't seen the object yet and check oid_object_info(), which tells us we have a blob. But we trigger this code on one other case: when we have an in-memory object struct with type OBJ_BLOB (and without its "parsed" flag set, since otherwise we'd return early from the function). This indicates that some other part of the code suspected we have a blob (e.g., it was mentioned by a tree or tag) but we haven't yet looked at the on-disk copy. In this case before hitting the streaming path, we check if we have the object on-disk at all. This is mostly pointless extra work, as the streaming path would complain if it couldn't open the object (albeit with the message "hash mismatch", which is a little misleading). But it's also insufficient to catch all problems. The streaming code will only tell us "yes, the on-disk object matches the oid". But it doesn't actually confirm that what we found was indeed a blob, and neither does repo_has_object_file(). One way to improve this would be to teach stream_object_signature() to check the type (either by returning it to us to check, or taking an "expected" type). But there's an even simpler fix here: if we suspect the object is a blob, just call oid_object_info() to confirm that we have it on-disk, and that it really is a blob. This is slightly less efficient than teaching stream_object_signature() to do it (since it has to open the object already). But this case very rarely comes up. In practice, we usually don't have any clue what the type is, in which case we already call oid_object_info(). This "suspected" case happens only when some other code created an object struct but didn't actually parse the blob, which is actually tricky to trigger at all (see the discussion of the test below). I reworked the conditional a bit so that instead of: if ((suspected_blob && oid_object_info() == OBJ_BLOB) (no_clue && oid_object_info() == OBJ_BLOB) we have the simpler: if ((suspected_blob || no_clue) && oid_object_info() == OBJ_BLOB) This is shorter, but also reflects what we really want say, which is "have we ruled out this being a blob; if not, check it on-disk". In either case, if oid_object_info() fails to tell us it's a blob, we'll skip the streaming code path and call repo_read_object_file(), just as before. And if we really do have a mismatch with the existing object struct, we'll eventually call lookup_commit(), etc, via parse_object_buffer(), which will complain that it doesn't match our existing obj->type. So this fixes one of the lingering expect_failure cases from 0616617c7e (t: introduce tests for unexpected object types, 2019-04-09). That test works by peeling a tag that claims to point to a blob (triggering us to create the struct), but really points to something else, which we later discover when we call parse_object() as part of the actual traversal). Prior to this commit, we'd quietly check the sha1 and mark the blob as "parsed". Now we correctly complain about the mismatch. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com>
2022-11-17 23:41:16 +01:00
test_expect_success 'traverse unexpected non-blob tag (lone)' '
test_must_fail git rev-list --objects $tag
t: introduce tests for unexpected object types Call an object's type "unexpected" when the actual type of an object does not match Git's contextual expectation. For example, a tree entry whose mode differs from the object's actual type, or a commit's parent which is not another commit, and so on. This can manifest itself in various unfortunate ways, including Git SIGSEGV-ing under specific conditions. Consider the following example: Git traverses a blob (say, via `git rev-list`), and then tries to read out a tree-entry which lists that object as something other than a blob. In this case, `lookup_blob()` will return NULL, and the subsequent dereference will result in a SIGSEGV. Introduce tests that present objects of "unexpected" type in the above fashion to 'git rev-list'. Mark as failures the combinations that are already broken (i.e., they exhibit the segfault described above). In the cases that are not broken (i.e., they have NULL-ness checks or similar), mark these as expecting success. We might hit an unexpected type in two different ways (imagine we have a tree entry that claims to be a tree but actually points to a blob): - when we call lookup_tree(), we might find that we've already seen the object referenced as a blob, in which case we'd get NULL. We can exercise this with "git rev-list --objects $blob $tree", which guarantees that the blob will have been parsed before we look in the tree. These tests are marked as "seen" in the test script. - we call lookup_tree() successfully, but when we try to read the object, we find out it's something else. We construct our tests such that $blob is not otherwise mentioned in $tree. These tests are marked as "lone" in the script. We should check that we behave sensibly in both cases (especially because it is easy for a malicious actor to provoke one case or the other). Co-authored-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-04-10 04:13:14 +02:00
'
test_expect_success 'traverse unexpected non-blob tag (seen)' '
test_must_fail git rev-list --objects $commit $tag >output 2>&1 &&
test_i18ngrep "not a blob" output
'
test_done