git-commit-vandalism/t/t5312-prune-corruption.sh

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t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
#!/bin/sh
test_description='
Test pruning of repositories with minor corruptions. The goal
here is that we should always be erring on the side of safety. So
if we see, for example, a ref with a bogus name, it is OK either to
bail out or to proceed using it as a reachable tip, but it is _not_
OK to proceed as if it did not exist. Otherwise we might silently
delete objects that cannot be recovered.
Note that we do assert command failure in these cases, because that is
what currently happens. If that changes, these tests should be revisited.
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
'
GIT_TEST_DEFAULT_INITIAL_BRANCH_NAME=main
tests: mark tests relying on the current default for `init.defaultBranch` In addition to the manual adjustment to let the `linux-gcc` CI job run the test suite with `master` and then with `main`, this patch makes sure that GIT_TEST_DEFAULT_INITIAL_BRANCH_NAME is set in all test scripts that currently rely on the initial branch name being `master by default. To determine which test scripts to mark up, the first step was to force-set the default branch name to `master` in - all test scripts that contain the keyword `master`, - t4211, which expects `t/t4211/history.export` with a hard-coded ref to initialize the default branch, - t5560 because it sources `t/t556x_common` which uses `master`, - t8002 and t8012 because both source `t/annotate-tests.sh` which also uses `master`) This trick was performed by this command: $ sed -i '/^ *\. \.\/\(test-lib\|lib-\(bash\|cvs\|git-svn\)\|gitweb-lib\)\.sh$/i\ GIT_TEST_DEFAULT_INITIAL_BRANCH_NAME=master\ export GIT_TEST_DEFAULT_INITIAL_BRANCH_NAME\ ' $(git grep -l master t/t[0-9]*.sh) \ t/t4211*.sh t/t5560*.sh t/t8002*.sh t/t8012*.sh After that, careful, manual inspection revealed that some of the test scripts containing the needle `master` do not actually rely on a specific default branch name: either they mention `master` only in a comment, or they initialize that branch specificially, or they do not actually refer to the current default branch. Therefore, the aforementioned modification was undone in those test scripts thusly: $ git checkout HEAD -- \ t/t0027-auto-crlf.sh t/t0060-path-utils.sh \ t/t1011-read-tree-sparse-checkout.sh \ t/t1305-config-include.sh t/t1309-early-config.sh \ t/t1402-check-ref-format.sh t/t1450-fsck.sh \ t/t2024-checkout-dwim.sh \ t/t2106-update-index-assume-unchanged.sh \ t/t3040-subprojects-basic.sh t/t3301-notes.sh \ t/t3308-notes-merge.sh t/t3423-rebase-reword.sh \ t/t3436-rebase-more-options.sh \ t/t4015-diff-whitespace.sh t/t4257-am-interactive.sh \ t/t5323-pack-redundant.sh t/t5401-update-hooks.sh \ t/t5511-refspec.sh t/t5526-fetch-submodules.sh \ t/t5529-push-errors.sh t/t5530-upload-pack-error.sh \ t/t5548-push-porcelain.sh \ t/t5552-skipping-fetch-negotiator.sh \ t/t5572-pull-submodule.sh t/t5608-clone-2gb.sh \ t/t5614-clone-submodules-shallow.sh \ t/t7508-status.sh t/t7606-merge-custom.sh \ t/t9302-fast-import-unpack-limit.sh We excluded one set of test scripts in these commands, though: the range of `git p4` tests. The reason? `git p4` stores the (foreign) remote branch in the branch called `p4/master`, which is obviously not the default branch. Manual analysis revealed that only five of these tests actually require a specific default branch name to pass; They were modified thusly: $ sed -i '/^ *\. \.\/lib-git-p4\.sh$/i\ GIT_TEST_DEFAULT_INITIAL_BRANCH_NAME=master\ export GIT_TEST_DEFAULT_INITIAL_BRANCH_NAME\ ' t/t980[0167]*.sh t/t9811*.sh Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-11-19 00:44:19 +01:00
export GIT_TEST_DEFAULT_INITIAL_BRANCH_NAME
TEST_PASSES_SANITIZE_LEAK=true
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
. ./test-lib.sh
test_expect_success 'disable reflogs' '
git config core.logallrefupdates false &&
git reflog expire --expire=all --all
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
'
create_bogus_ref () {
test-tool ref-store main update-ref msg "refs/heads/bogus..name" $bogus $ZERO_OID REF_SKIP_REFNAME_VERIFICATION &&
test_when_finished "test-tool ref-store main delete-refs REF_NO_DEREF msg refs/heads/bogus..name"
}
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
test_expect_success 'create history reachable only from a bogus-named ref' '
test_tick && git commit --allow-empty -m main &&
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
base=$(git rev-parse HEAD) &&
test_tick && git commit --allow-empty -m bogus &&
bogus=$(git rev-parse HEAD) &&
git cat-file commit $bogus >saved &&
git reset --hard HEAD^
'
test_expect_success 'pruning does not drop bogus object' '
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
test_when_finished "git hash-object -w -t commit saved" &&
create_bogus_ref &&
test_must_fail git prune --expire=now &&
git cat-file -e $bogus
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
'
test_expect_success 'put bogus object into pack' '
git tag reachable $bogus &&
git repack -ad &&
git tag -d reachable &&
git cat-file -e $bogus
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
'
refs: turn on GIT_REF_PARANOIA by default The original point of the GIT_REF_PARANOIA flag was to include broken refs in iterations, so that possibly-destructive operations would not silently ignore them (and would generally instead try to operate on the oids and fail when the objects could not be accessed). We already turned this on by default for some dangerous operations, like "repack -ad" (where missing a reachability tip would mean dropping the associated history). But it was not on for general use, even though it could easily result in the spreading of corruption (e.g., imagine cloning a repository which simply omits some of its refs because their objects are missing; the result quietly succeeds even though you did not clone everything!). This patch turns on GIT_REF_PARANOIA by default. So a clone as mentioned above would actually fail (upload-pack tells us about the broken ref, and when we ask for the objects, pack-objects fails to deliver them). This may be inconvenient when working with a corrupted repository, but: - we are better off to err on the side of complaining about corruption, and then provide mechanisms for explicitly loosening safety. - this is only one type of corruption anyway. If we are missing any other objects in the history that _aren't_ ref tips, then we'd behave similarly (happily show the ref, but then barf when we started traversing). We retain the GIT_REF_PARANOIA variable, but simply default it to "1" instead of "0". That gives the user an escape hatch for loosening this when working with a corrupt repository. It won't work across a remote connection to upload-pack (because we can't necessarily set environment variables on the remote), but there the client has other options (e.g., choosing which refs to fetch). As a bonus, this also makes ref iteration faster in general (because we don't have to call has_object_file() for each ref), though probably not noticeably so in the general case. In a repo with a million refs, it shaved a few hundred milliseconds off of upload-pack's advertisement; that's noticeable, but most repos are not nearly that large. The possible downside here is that any operation which iterates refs but doesn't ever open their objects may now quietly claim to have X when the object is corrupted (e.g., "git rev-list new-branch --not --all" will treat a broken ref as uninteresting). But again, that's not really any different than corruption below the ref level. We might have refs/heads/old-branch as non-corrupt, but we are not actively checking that we have the entire reachable history. Or the pointed-to object could even be corrupted on-disk (but our "do we have it" check would still succeed). In that sense, this is merely bringing ref-corruption in line with general object corruption. One alternative implementation would be to actually check for broken refs, and then _immediately die_ if we see any. That would cause the "rev-list --not --all" case above to abort immediately. But in many ways that's the worst of all worlds: - it still spends time looking up the objects an extra time - it still doesn't catch corruption below the ref level - it's even more inconvenient; with the current implementation of GIT_REF_PARANOIA for something like upload-pack, we can make the advertisement and let the client choose a non-broken piece of history. If we bail as soon as we see a broken ref, they cannot even see the advertisement. The test changes here show some of the fallout. A non-destructive "git repack -adk" now fails by default (but we can override it). Deleting a broken ref now actually tells the hooks the correct "before" state, rather than a confusing null oid. Signed-off-by: Jeff King <peff@peff.net> Reviewed-by: Jonathan Tan <jonathantanmy@google.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-09-24 20:46:13 +02:00
test_expect_success 'non-destructive repack bails on bogus ref' '
create_bogus_ref &&
refs: turn on GIT_REF_PARANOIA by default The original point of the GIT_REF_PARANOIA flag was to include broken refs in iterations, so that possibly-destructive operations would not silently ignore them (and would generally instead try to operate on the oids and fail when the objects could not be accessed). We already turned this on by default for some dangerous operations, like "repack -ad" (where missing a reachability tip would mean dropping the associated history). But it was not on for general use, even though it could easily result in the spreading of corruption (e.g., imagine cloning a repository which simply omits some of its refs because their objects are missing; the result quietly succeeds even though you did not clone everything!). This patch turns on GIT_REF_PARANOIA by default. So a clone as mentioned above would actually fail (upload-pack tells us about the broken ref, and when we ask for the objects, pack-objects fails to deliver them). This may be inconvenient when working with a corrupted repository, but: - we are better off to err on the side of complaining about corruption, and then provide mechanisms for explicitly loosening safety. - this is only one type of corruption anyway. If we are missing any other objects in the history that _aren't_ ref tips, then we'd behave similarly (happily show the ref, but then barf when we started traversing). We retain the GIT_REF_PARANOIA variable, but simply default it to "1" instead of "0". That gives the user an escape hatch for loosening this when working with a corrupt repository. It won't work across a remote connection to upload-pack (because we can't necessarily set environment variables on the remote), but there the client has other options (e.g., choosing which refs to fetch). As a bonus, this also makes ref iteration faster in general (because we don't have to call has_object_file() for each ref), though probably not noticeably so in the general case. In a repo with a million refs, it shaved a few hundred milliseconds off of upload-pack's advertisement; that's noticeable, but most repos are not nearly that large. The possible downside here is that any operation which iterates refs but doesn't ever open their objects may now quietly claim to have X when the object is corrupted (e.g., "git rev-list new-branch --not --all" will treat a broken ref as uninteresting). But again, that's not really any different than corruption below the ref level. We might have refs/heads/old-branch as non-corrupt, but we are not actively checking that we have the entire reachable history. Or the pointed-to object could even be corrupted on-disk (but our "do we have it" check would still succeed). In that sense, this is merely bringing ref-corruption in line with general object corruption. One alternative implementation would be to actually check for broken refs, and then _immediately die_ if we see any. That would cause the "rev-list --not --all" case above to abort immediately. But in many ways that's the worst of all worlds: - it still spends time looking up the objects an extra time - it still doesn't catch corruption below the ref level - it's even more inconvenient; with the current implementation of GIT_REF_PARANOIA for something like upload-pack, we can make the advertisement and let the client choose a non-broken piece of history. If we bail as soon as we see a broken ref, they cannot even see the advertisement. The test changes here show some of the fallout. A non-destructive "git repack -adk" now fails by default (but we can override it). Deleting a broken ref now actually tells the hooks the correct "before" state, rather than a confusing null oid. Signed-off-by: Jeff King <peff@peff.net> Reviewed-by: Jonathan Tan <jonathantanmy@google.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-09-24 20:46:13 +02:00
test_must_fail git repack -adk
'
refs: turn on GIT_REF_PARANOIA by default The original point of the GIT_REF_PARANOIA flag was to include broken refs in iterations, so that possibly-destructive operations would not silently ignore them (and would generally instead try to operate on the oids and fail when the objects could not be accessed). We already turned this on by default for some dangerous operations, like "repack -ad" (where missing a reachability tip would mean dropping the associated history). But it was not on for general use, even though it could easily result in the spreading of corruption (e.g., imagine cloning a repository which simply omits some of its refs because their objects are missing; the result quietly succeeds even though you did not clone everything!). This patch turns on GIT_REF_PARANOIA by default. So a clone as mentioned above would actually fail (upload-pack tells us about the broken ref, and when we ask for the objects, pack-objects fails to deliver them). This may be inconvenient when working with a corrupted repository, but: - we are better off to err on the side of complaining about corruption, and then provide mechanisms for explicitly loosening safety. - this is only one type of corruption anyway. If we are missing any other objects in the history that _aren't_ ref tips, then we'd behave similarly (happily show the ref, but then barf when we started traversing). We retain the GIT_REF_PARANOIA variable, but simply default it to "1" instead of "0". That gives the user an escape hatch for loosening this when working with a corrupt repository. It won't work across a remote connection to upload-pack (because we can't necessarily set environment variables on the remote), but there the client has other options (e.g., choosing which refs to fetch). As a bonus, this also makes ref iteration faster in general (because we don't have to call has_object_file() for each ref), though probably not noticeably so in the general case. In a repo with a million refs, it shaved a few hundred milliseconds off of upload-pack's advertisement; that's noticeable, but most repos are not nearly that large. The possible downside here is that any operation which iterates refs but doesn't ever open their objects may now quietly claim to have X when the object is corrupted (e.g., "git rev-list new-branch --not --all" will treat a broken ref as uninteresting). But again, that's not really any different than corruption below the ref level. We might have refs/heads/old-branch as non-corrupt, but we are not actively checking that we have the entire reachable history. Or the pointed-to object could even be corrupted on-disk (but our "do we have it" check would still succeed). In that sense, this is merely bringing ref-corruption in line with general object corruption. One alternative implementation would be to actually check for broken refs, and then _immediately die_ if we see any. That would cause the "rev-list --not --all" case above to abort immediately. But in many ways that's the worst of all worlds: - it still spends time looking up the objects an extra time - it still doesn't catch corruption below the ref level - it's even more inconvenient; with the current implementation of GIT_REF_PARANOIA for something like upload-pack, we can make the advertisement and let the client choose a non-broken piece of history. If we bail as soon as we see a broken ref, they cannot even see the advertisement. The test changes here show some of the fallout. A non-destructive "git repack -adk" now fails by default (but we can override it). Deleting a broken ref now actually tells the hooks the correct "before" state, rather than a confusing null oid. Signed-off-by: Jeff King <peff@peff.net> Reviewed-by: Jonathan Tan <jonathantanmy@google.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-09-24 20:46:13 +02:00
test_expect_success 'GIT_REF_PARANOIA=0 overrides safety' '
create_bogus_ref &&
GIT_REF_PARANOIA=0 git repack -adk
'
test_expect_success 'destructive repack keeps packed object' '
create_bogus_ref &&
test_must_fail git repack -Ad --unpack-unreachable=now &&
git cat-file -e $bogus &&
test_must_fail git repack -ad &&
git cat-file -e $bogus
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
'
test_expect_success 'destructive repack not confused by dangling symref' '
test_when_finished "git symbolic-ref -d refs/heads/dangling" &&
git symbolic-ref refs/heads/dangling refs/heads/does-not-exist &&
git repack -ad &&
test_must_fail git cat-file -e $bogus
'
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
# We create two new objects here, "one" and "two". Our
# main branch points to "two", which is deleted,
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
# corrupting the repository. But we'd like to make sure
# that the otherwise unreachable "one" is not pruned
# (since it is the user's best bet for recovering
# from the corruption).
#
# Note that we also point HEAD somewhere besides "two",
# as we want to make sure we test the case where we
# pick up the reference to "two" by iterating the refs,
# not by resolving HEAD.
test_expect_success 'create history with missing tip commit' '
test_tick && git commit --allow-empty -m one &&
recoverable=$(git rev-parse HEAD) &&
git cat-file commit $recoverable >saved &&
test_tick && git commit --allow-empty -m two &&
missing=$(git rev-parse HEAD) &&
git checkout --detach $base &&
rm .git/objects/$(echo $missing | sed "s,..,&/,") &&
test_must_fail git cat-file -e $missing
'
test_expect_success 'pruning with a corrupted tip does not drop history' '
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
test_when_finished "git hash-object -w -t commit saved" &&
test_must_fail git prune --expire=now &&
git cat-file -e $recoverable
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
'
test_expect_success 'pack-refs does not silently delete broken loose ref' '
git pack-refs --all --prune &&
echo $missing >expect &&
git rev-parse refs/heads/main >actual &&
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
test_cmp expect actual
'
# we do not want to count on running pack-refs to
# actually pack it, as it is perfectly reasonable to
# skip processing a broken ref
test_expect_success REFFILES 'create packed-refs file with broken ref' '
rm -f .git/refs/heads/main &&
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
cat >.git/packed-refs <<-EOF &&
$missing refs/heads/main
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
$recoverable refs/heads/other
EOF
echo $missing >expect &&
git rev-parse refs/heads/main >actual &&
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
test_cmp expect actual
'
test_expect_success REFFILES 'pack-refs does not silently delete broken packed ref' '
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
git pack-refs --all --prune &&
git rev-parse refs/heads/main >actual &&
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
test_cmp expect actual
'
test_expect_success REFFILES 'pack-refs does not drop broken refs during deletion' '
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
git update-ref -d refs/heads/other &&
git rev-parse refs/heads/main >actual &&
t5312: test object deletion code paths in a corrupted repository When we are doing a destructive operation like "git prune", we want to be extra careful that the set of reachable tips we compute is valid. If there is any corruption or oddity, we are better off aborting the operation and letting the user figure things out rather than plowing ahead and possibly deleting some data that cannot be recovered. The tests here include: 1. Pruning objects mentioned only be refs with invalid names. This used to abort prior to d0f810f (refs.c: allow listing and deleting badly named refs, 2014-09-03), but since then we silently ignore the tip. Likewise, we test repacking that can drop objects (either "-ad", which drops anything unreachable, or "-Ad --unpack-unreachable=<time>", which tries to optimize out a loose object write that would be directly pruned). 2. Pruning objects when some refs point to missing objects. We don't know whether any dangling objects would have been reachable from the missing objects. We are better to keep them around, as they are better than nothing for helping the user recover history. 3. Packed refs that point to missing objects can sometimes be dropped. By itself, this is more of an annoyance (you do not have the object anyway; even if you can recover it from elsewhere, all you are losing is a placeholder for your state at the time of corruption). But coupled with (2), if we drop the ref and then go on to prune, we may lose unrecoverable objects. Note that we use test_might_fail for some of the operations. In some cases, it would be appropriate to abort the operation, and in others, it might be acceptable to continue but taking the information into account. The tests don't care either way, and check only for data loss. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2015-03-20 19:43:02 +01:00
test_cmp expect actual
'
test_done