When a file is selected in the file list, the diff window scrolls to the
corresponding section. The administrative data needed for this purpose
is extracted from the 'rename from', 'rename to', and 'copy to' lines.
Escaped file names are unescaped for this purpose. However, the lines
shown in the diff window are left in the escaped form. This is not very
pleasing. Replace the escaped form by the unescaped form.
Add a section to treat the 'copy from' case.
Signed-off-by: Johannes Sixt <j6t@kdbg.org>
When 5de460a2cf (gitk: Refactor per-line part of getblobdiffline and
its support) moved the body of a loop into a separate function, several
'continue' statements were changed to 'return'. But one instance was
missed. Fix it now.
Signed-off-by: Johannes Sixt <j6t@kdbg.org>
The version of macos image used in GitHub CI has been updated to
macos-14, as the macos-13 that we have been using got deprecated.
* jc/ci-use-macos-14:
GitHub CI: macos-13 images are no more
The help text and manual page of "git bisect" command have been
made consistent with each other.
* rz/t0450-bisect-doc-update:
bisect: update usage and docs to match each other
Add a configuration variable to control the default behavior of git replay
for updating references. This allows users who prefer the traditional
pipeline output to set it once in their config instead of passing
--ref-action=print with every command.
The config variable uses string values that mirror the behavior modes:
* replay.refAction = update (default): atomic ref updates
* replay.refAction = print: output commands for pipeline
Helped-by: Junio C Hamano <gitster@pobox.com>
Helped-by: Elijah Newren <newren@gmail.com>
Helped-by: Christian Couder <christian.couder@gmail.com>
Helped-by: Phillip Wood <phillip.wood123@gmail.com>
Signed-off-by: Siddharth Asthana <siddharthasthana31@gmail.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
The git replay command currently outputs update commands that can be
piped to update-ref to achieve a rebase, e.g.
git replay --onto main topic1..topic2 | git update-ref --stdin
This separation had advantages for three special cases:
* it made testing easy (when state isn't modified from one step to
the next, you don't need to make temporary branches or have undo
commands, or try to track the changes)
* it provided a natural can-it-rebase-cleanly (and what would it
rebase to) capability without automatically updating refs, similar
to a --dry-run
* it provided a natural low-level tool for the suite of hash-object,
mktree, commit-tree, mktag, merge-tree, and update-ref, allowing
users to have another building block for experimentation and making
new tools
However, it should be noted that all three of these are somewhat
special cases; users, whether on the client or server side, would
almost certainly find it more ergonomic to simply have the updating
of refs be the default.
For server-side operations in particular, the pipeline architecture
creates process coordination overhead. Server implementations that need
to perform rebases atomically must maintain additional code to:
1. Spawn and manage a pipeline between git-replay and git-update-ref
2. Coordinate stdout/stderr streams across the pipe boundary
3. Handle partial failure states if the pipeline breaks mid-execution
4. Parse and validate the update-ref command output
Change the default behavior to update refs directly, and atomically (at
least to the extent supported by the refs backend in use). This
eliminates the process coordination overhead for the common case.
For users needing the traditional pipeline workflow, add a new
--ref-action=<mode> option that preserves the original behavior:
git replay --ref-action=print --onto main topic1..topic2 | git update-ref --stdin
The mode can be:
* update (default): Update refs directly using an atomic transaction
* print: Output update-ref commands for pipeline use
Test suite changes:
All existing tests that expected command output now use
--ref-action=print to preserve their original behavior. This keeps
the tests valid while allowing them to verify that the pipeline workflow
still works correctly.
New tests were added to verify:
- Default atomic behavior (no output, refs updated directly)
- Bare repository support (server-side use case)
- Equivalence between traditional pipeline and atomic updates
- Real atomicity using a lock file to verify all-or-nothing guarantee
- Test isolation using test_when_finished to clean up state
- Reflog messages include replay mode and target
A following commit will add a replay.refAction configuration
option for users who prefer the traditional pipeline output as their
default behavior.
Helped-by: Elijah Newren <newren@gmail.com>
Helped-by: Patrick Steinhardt <ps@pks.im>
Helped-by: Christian Couder <christian.couder@gmail.com>
Helped-by: Phillip Wood <phillip.wood123@gmail.com>
Signed-off-by: Siddharth Asthana <siddharthasthana31@gmail.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
In preparation for adding the --ref-action option, convert option
validation to use die_for_incompatible_opt2(). This helper provides
standardized error messages for mutually exclusive options.
The following commit introduces --ref-action which will be incompatible
with certain other options. Using die_for_incompatible_opt2() now means
that commit can cleanly add its validation using the same pattern,
keeping the validation logic consistent and maintainable.
This also aligns git-replay's option handling with how other Git commands
manage option conflicts, using the established die_for_incompatible_opt*()
helper family.
Signed-off-by: Siddharth Asthana <siddharthasthana31@gmail.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
As this image was deprecated on Sep 22nd, and will be dropped on Dec
4th, replace these jobs to use macos-14 images instead.
Signed-off-by: Junio C Hamano <gitster@pobox.com>
At this point in the code after running skip_prefix() on the
variable and receiving the result in the same variable, the contents
of the variable can never be NULL. The function either (1) updates
the variable to point at a later part of the string it originally
pointed at, or (2) leaves it intact if the string does not have the
prefix. (1) will never make the variable NULL, and (2) cannot be
the source of NULL, because the variable cannot be NULL before
calling skip_prefix(), which would die immediately by dereferencing
the NULL pointer in that case.
Helped-by: Phillip Wood <phillip.wood@dunelm.org.uk>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
This was unintentionally dropped in ccfcaf399f (parseopt: values of
pathname type can be prefixed with :(optional), 2025-09-28). Notably,
continue dropping the const qualifier when free'ing value; see
4049b9cfc0 (fix const issues with some functions, 2007-10-16) or
83838d5c1b (cast variable in call to free() in builtin/diff.c and
submodule.c, 2011-11-06) for more details on why.
Suggested-by: Phillip Wood <phillip.wood@dunelm.org.uk>
Signed-off-by: D. Ben Knoble <ben.knoble+github@gmail.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Unlike the configuration option magic, the parseopt code also ignores
empty files: compare implementations from ccfcaf399f (parseopt: values
of pathname type can be prefixed with :(optional), 2025-09-28) and
749d6d166d (config: values of pathname type can be prefixed with
:(optional), 2025-09-28).
Unify the 2 by not ignoring empty files, which is less surprising and
the intended semantics from the first patch for config.
Suggested-by: Phillip Wood <phillip.wood@dunelm.org.uk>
Signed-off-by: D. Ben Knoble <ben.knoble+github@gmail.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
The patterns used in the .gitignore files use backslash in the way
documented for fnmatch(3); document as such to reduce confusion.
* jk/doc-backslash-in-exclude:
doc: document backslash in gitignore patterns
The "debug" ref-backend was missing a method implementation, which
has been corrected.
* xr/ref-debug-remove-on-disk:
refs: add missing remove_on_disk implementation for debug backend
The "MyFirstContribution" tutorial tells the reader how to send out
their patches; the section gained a hint to verify the message
reached the mailing list.
* qj/doc-my1stcontrib-email-verify:
MyFirstContribution: add note on confirming patches
Tests did not set up GNUPGHOME correctly, which is fixed but some
flaky tests are exposed in t1016, which needs to be addressed
before this topic can move forward.
* tz/test-prepare-gnupghome:
t/lib-gpg: call prepare_gnupghome() in GPG2 prereq
t/lib-gpg: add prepare_gnupghome() to create GNUPGHOME dir
Contributed credential helpers (obviously in contrib/) now have "cd
$there && make install" target.
* tu/credential-install:
contrib/credential: add install target
* kn/refs-optim-cleanup:
t/pack-refs-tests: move the 'test_done' to callees
refs: rename 'pack_refs_opts' to 'refs_optimize_opts'
refs: move to using the '.optimize' functions
* ps/ref-peeled-tags: (23 commits)
t7004: do not chdir around in the main process
ref-filter: fix stale parsed objects
ref-filter: parse objects on demand
ref-filter: detect broken tags when dereferencing them
refs: don't store peeled object IDs for invalid tags
object: add flag to `peel_object()` to verify object type
refs: drop infrastructure to peel via iterators
refs: drop `current_ref_iter` hack
builtin/show-ref: convert to use `reference_get_peeled_oid()`
ref-filter: propagate peeled object ID
upload-pack: convert to use `reference_get_peeled_oid()`
refs: expose peeled object ID via the iterator
refs: refactor reference status flags
refs: fully reset `struct ref_iterator::ref` on iteration
refs: introduce `.ref` field for the base iterator
refs: introduce wrapper struct for `each_ref_fn`
builtin/repo: add progress meter for structure stats
builtin/repo: add keyvalue and nul format for structure stats
builtin/repo: add object counts in structure output
builtin/repo: introduce structure subcommand
...
In ac0bad0af4 (t0601: refactor tests to be shareable, 2025-09-19), we
refactored 't/t0601-reffiles-pack-refs.sh' to move all of the tests to
't/pack-refs-tests.sh', which became a common test suite which was also
used by 't/t1463-refs-optimize.sh'.
This also moved the 'test_done' directive to 't/pack-refs-tests.sh'.
Which inhibits additional tests from being added to either of the tests.
Let's move the directive out to both the tests, so that we can add
additional specific tests to them. Also the test flow logic shouldn't be
part of tests which can be embedded in other test scripts.
Signed-off-by: Karthik Nayak <karthik.188@gmail.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
The previous commit removed all references to 'pack_refs()' within
the refs subsystem. Continue this cleanup by also renaming
'pack_refs_opts' to 'refs_optimize_opts' and the respective flags
accordingly. Keeping the naming consistent will make the code easier to
maintain.
Signed-off-by: Karthik Nayak <karthik.188@gmail.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
The `struct ref_store` variable exposes two ways to optimize a reftable
backend:
1. pack_refs
2. optimize
The former was specific to the 'files' + 'packed' refs backend. The
latter is more generic and covers all backends. While the naming is
different, both of these functions perform the same functionality.
Consolidate this code to only maintain the 'optimize' functions. Do this
by modifying the backends so that they exclusively implement the
`optimize` callback, only. All users of the refs subsystem already use
the 'optimize' function so there is no changes needed on the callee
side. Finally, cleanup all references to the 'pack_refs' field of the
structure and code around it.
Signed-off-by: Karthik Nayak <karthik.188@gmail.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
* ps/ref-peeled-tags: (92 commits)
t7004: do not chdir around in the main process
ref-filter: fix stale parsed objects
ref-filter: parse objects on demand
ref-filter: detect broken tags when dereferencing them
refs: don't store peeled object IDs for invalid tags
object: add flag to `peel_object()` to verify object type
refs: drop infrastructure to peel via iterators
refs: drop `current_ref_iter` hack
builtin/show-ref: convert to use `reference_get_peeled_oid()`
ref-filter: propagate peeled object ID
upload-pack: convert to use `reference_get_peeled_oid()`
refs: expose peeled object ID via the iterator
refs: refactor reference status flags
refs: fully reset `struct ref_iterator::ref` on iteration
refs: introduce `.ref` field for the base iterator
refs: introduce wrapper struct for `each_ref_fn`
builtin/repo: add progress meter for structure stats
builtin/repo: add keyvalue and nul format for structure stats
builtin/repo: add object counts in structure output
builtin/repo: introduce structure subcommand
...
Move down to no-contains subdirectory inside a subshell, just like
the previous step that created and used it does.
Signed-off-by: Junio C Hamano <gitster@pobox.com>
In 054f5f457e (ref-filter: parse objects on demand, 2025-10-23) we have
started to skip parsing some objects in case we don't need to access
their values in the first place. This was done by introducing a new
member `struct expand_data::maybe_object` that gets populated on demand
via `get_or_parse_object()`.
This has led to a regression though where the object now gets reused
because we don't reset it properly. The `oi` structure is declared in
global scope, and there is no single place where we reset it before
invoking `get_object()`. The consequence is that the `maybe_object`
member doesn't get reset across calls, so subsequent calls will end up
reusing the same object.
This is only an issue for a subset of retrieved values, as not all of
the infrastructure ends up calling `get_or_parse_object()`. So the
effect is limited, which is probably why the issue wasn't detected
earlier.
Fix the issue by resetting `maybe_object` in `get_object()`.
Reported-by: Junio C Hamano <gitster@pobox.com>
Based-on-patch-by: Jeff King <peff@peff.net>
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
When formatting an arbitrary object we parse that object regardless of
whether or not we actually need any parsed data. In fact, many of the
atoms we have don't require any.
Refactor the code so that we parse the data on demand when we see an
atom that wants to access the objects. This leads to a small speedup,
for example in the Chromium repository with around 40000 refs:
Benchmark 1: for-each-ref --format='%(raw)' (HEAD~)
Time (mean ± σ): 388.7 ms ± 1.1 ms [User: 322.2 ms, System: 65.0 ms]
Range (min … max): 387.3 ms … 390.8 ms 10 runs
Benchmark 2: for-each-ref --format='%(raw)' (HEAD)
Time (mean ± σ): 344.7 ms ± 0.7 ms [User: 287.8 ms, System: 55.1 ms]
Range (min … max): 343.9 ms … 345.7 ms 10 runs
Summary
for-each-ref --format='%(raw)' (HEAD) ran
1.13 ± 0.00 times faster than for-each-ref --format='%(raw)' (HEAD~)
With this change, we now spend ~90% of the time decompressing objects,
which is almost as good as it gets regarding git-for-each-ref(1)'s own
infrastructure.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Users can ask git-for-each-ref(1) to peel tags and return information of
the tagged object by adding an asterisk to the format, like for example
"%(*$objectname)". If so, git-for-each-ref(1) peels that object to the
first non-tag object and then returns its values.
As mentioned in preceding commits, it can happen that the tagged object
type and the claimed object type differ, effectively resulting in a
corrupt tag. git-for-each-ref(1) would notice this mismatch, print an
error and then bail out when trying to peel the tag.
But we only notice this corruption in some very specific edge cases!
While we have a test in "t/for-each-ref-tests.sh" that verifies the
above scenario, this test is specifically crafted to detect the issue at
hand. Namely, we create two tags:
- One tag points to a specific object with the correct type.
- The other tag points to the *same* object with a different type.
The fact that both tags point to the same object is important here:
`peel_object()` wouldn't notice the corruption if the tagged objects
were different.
The root cause is that `peel_object()` calls `lookup_${type}()`
eventually, where the type is the same type declared in the tag object.
Consequently, when we have two tags pointing to the same object but with
different declared types we'll call two different lookup functions. The
first lookup will store the object with an unverified type A, whereas
the second lookup will try to look up the object with a different
unverified type B. And it is only now that we notice the discrepancy in
object types, even though type A could've already been the wrong type.
Fix the issue by verifying the object type in `populate_value()`. With
this change we'll also notice type mismatches when only dereferencing a
tag once.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Both the "files" and "reftable" backend store peeled object IDs for
references that point to tags:
- The "files" backend stores the value when packing refs, where each
peeled object ID is prefixed with "^".
- The "reftable" backend stores the value whenever writing a new
reference that points to a tag via a special ref record type.
Both of these backends use `peel_object()` to find the peeled object ID.
But as explained in the preceding commit, that function does not detect
the case where the tag's tagged object and its claimed type mismatch.
The consequence of storing these bogus peeled object IDs is that we're
less likely to detect such corruption in other parts of Git.
git-for-each-ref(1) for example does not notice anymore that the tag is
broken when using "--format=%(*objectname)" to dereference tags.
One could claim that this is good, because it still allows us to mostly
use the tag as intended. But the biggest problem here is that we now
have different behaviour for such a broken tag depending on whether or
not we have its peeled value in the refdb.
Fix the issue by verifying the object type when peeling the object. If
that verification fails we simply skip storing the peeled value in
either of the reference formats.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
When peeling a tag to a non-tag object we repeatedly call
`parse_object()` on the tagged object until we find the first object
that isn't a tag. While this feels sensible at first, there is a big
catch here: `parse_object()` doesn't actually verify the type of the
tagged object.
The relevant code path here eventually ends up in `parse_tag_buffer()`.
Here, we parse the various fields of the tag, including the "type". Once
we've figured out the type and the tagged object ID, we call one of the
`lookup_${type}()` functions for whatever type we have found. There is
two possible outcomes in the successful case:
1. The object is already part of our cached objects. In that case we
double-check whether the type we're trying to look up matches the
type that was cached.
2. The object is _not_ part of our cached objects. In that case, we
simply create a new object with the expected type, but we don't
parse that object.
In the first case we might notice type mismatches, but only in the case
where our cache has the object with the correct type. In the second
case, we'll blindly assume that the type is correct and then go with it.
We'll only notice that the type might be wrong when we try to parse the
object at a later point.
Now arguably, we could change `parse_tag_buffer()` to verify the tagged
object's type for us. But that would have the effect that such a tag
cannot be parsed at all anymore, and we have a small bunch of tests for
exactly this case that assert we still can open such tags. So this
change does not feel like something we can retroactively tighten, even
though one shouldn't ever hit such corrupted tags.
Instead, add a new `flags` field to `peel_object()` that allows the
caller to opt in to strict object verification. This will be wired up at
a subset of callsites over the next few commits.
Note that this change also inlines `deref_tag_noverify()`. There's only
been two callsites of that function, the one we're changing and one in
our test helpers. The latter callsite can trivially use `deref_tag()`
instead, so by inlining the function we avoid having to pass down the
flag.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Now that the peeled object ID gets propagated via the `struct reference`
there is no need anymore to call into the reference iterator itself to
dereference an object. Remove this infrastructure.
Most of the changes are straight-forward deletions of code. There is one
exception though in `refs/packed-backend.c::write_with_updates()`. Here
we stop peeling the iterator and instead just pass the peeled object ID
of that iterator directly.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
In preceding commits we have refactored all callers of
`peel_iterated_oid()` to instead use `reference_get_peeled_oid()`. This
allows us to thus get rid of the former function.
Getting rid of that function is nice, but even nicer is that this also
allows us to get rid of the `current_ref_iter` hack. This global
variable tracked the currently-active ref iterator so that we can use it
to peel an object ID. Now that the peeled object ID is propagated via
`struct reference` though we don't have to depend on this hack anymore,
which makes for a more robust and easier-to-understand infrastructure.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
The git-show-ref(1) command has multiple different modes:
- It knows to show all references matching a pattern.
- It knows to list all references that are an exact match to whatever
the user has provided.
- It knows to check for reference existence.
The first two commands use mostly the same infrastructure to print the
references via `show_one()`. But while the former mode uses a proper
iterator and thus has a `struct reference` available in its context, the
latter calls `refs_read_ref()` and thus doesn't. Consequently, we cannot
easily use `reference_get_peeled_oid()` to print the peeled value.
Adapt the code so that we manually construct a `struct reference` when
verifying refs. We wouldn't ever have the peeled value available anyway
as we're not using an iterator here, so we can simply plug in the values
we _do_ have.
With this change we now have a `struct reference` available at both
callsites of `show_one()` and can thus pass it, which allows us to use
`reference_get_peeled_oid()` instead of `peel_iterated_oid()`.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
When queueing a reference in the "ref-filter" subsystem we end up
creating a new ref array item that contains the reference's info. One
bit of info that we always discard though is the peeled object ID, and
because of that we are forced to use `peel_iterated_oid()`.
Refactor the code to propagate the peeled object ID via the ref array,
if available. This allows us to manually peel tags without having to go
through the object database.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
The `write_v0_ref()` callback is invoked from two callsites:
- Once via `send_ref()` which is a callback passed to
`for_each_namespaced_ref_1()` and `refs_head_ref_namespaced()`.
- Once manually to announce capabilities.
When sending references to the client we also send the peeled value of
tags. As we don't have a `struct reference` available in the second
case, we cannot easily peel by calling `reference_get_peeled_oid()`, but
we instead have to depend on on global state via `peel_iterated_oid()`.
We do have a reference available though in the first case, it's only the
second case that keeps us from using `reference_get_peeled_oid()`. But
that second case only announces capabilities anyway, so we're not really
handling a reference at all here.
Adapt that case to construct a reference manually and pass that to
`write_v0_ref()`. Start to use `reference_get_peeled_oid()` now that we
always have a `struct reference` available.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Both the "files" and "reftable" backend are able to store peeled values
for tags in the respective formats. This allows for a more efficient
lookup of the target object of such a tag without having to manually
peel via the object database.
The infrastructure to access these peeled object IDs is somewhat funky
though. When iterating through objects, we store a pointer reference to
the current iterator in a global variable. The callbacks invoked by that
iterator are then expected to call `peel_iterated_oid()`, which checks
whether the globally-stored iterator's current reference refers to the
one handed into that function. If so, we ask the iterator to peel the
object, otherwise we manually peel the object via the object database.
Depending on global state like this is somewhat weird and also quite
fragile.
Introduce a new `struct reference::peeled_oid` field that can be
populated by the reference backends. This field can be accessed via a
new function `reference_get_peeled_oid()` that either uses that value,
if set, or alternatively peels via the ODB. With this change we don't
have to rely on global state anymore, but make the peeled object ID
available to the callback functions directly.
Adjust trivial callers that already have a `struct reference` available.
Remaining callers will be adjusted in subsequent commits.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
The reference flags encode information like whether or not a reference
is a symbolic reference or whether it may be broken. This information is
stored in a `int flags` bitfield, which is in conflict with our modern
best practices; we tend to use an unsigned integer to store flags.
Change the type of the field to be `unsigned`. While at it, refactor the
individual flags to be part of an `enum` instead of using preprocessor
defines.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
With the introduction of the `struct ref_iterator::ref` field it now is
a whole lot easier to introduce new fields that become accessible to the
caller without having to adapt every single callsite. But there's a
downside: when a new field is introduced we always have to adapt all
backends to set that field.
This isn't something we can avoid in the general case: when the new
field is expected to be populated by all backends we of course cannot
avoid doing so. But new fields may be entirely optional, in which case
we'd still have such churn. And furthermore, it is very easy right now
to leak state from a previous iteration into the next iteration.
Address this issue by ensuring that the reference backends all fully
reset the field on every single iteration. This ensures that no state
from previous iterations can leak into the next one. And it ensures that
any newly introduced fields will be zeroed out by default.
Note that we don't have to explicitly adapt the "files" backend, as it
uses the `cache_ref_iterator` internally. Furthermore, other "wrapping"
iterators like for example the `prefix_ref_iterator` copy around the
whole reference, so these don't need to be adapted either.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
The base iterator has a couple of fields that tracks the name, target,
object ID and flags for the current reference. Due to this design we
have to create a new `struct reference` whenever we want to hand over
that reference to the callback function, which is tedious and not very
efficient.
Convert the structure to instead contain a `struct reference` as member.
This member is expected to be populated by the implementations of the
iterator and is handed over to the callback directly.
While at it, simplify `should_pack_ref()` to take a `struct reference`
directly instead of passing its respective fields.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
The `each_ref_fn` callback function type is used across our code base
for several different functions that iterate through reference. There's
a bunch of callbacks implementing this type, which makes any changes to
the callback signature extremely noisy. An example of the required churn
is e8207717f1 (refs: add referent to each_ref_fn, 2024-08-09): adding a
single argument required us to change 48 files.
It was already proposed back then [1] that we might want to introduce a
wrapper structure to alleviate the pain going forward. While this of
course requires the same kind of global refactoring as just introducing
a new parameter, it at least allows us to more change the callback type
afterwards by just extending the wrapper structure.
One counterargument to this refactoring is that it makes the structure
more opaque. While it is obvious which callsites need to be fixed up
when we change the function type, it's not obvious anymore once we use
a structure. That being said, we only have a handful of sites that
actually need to populate this wrapper structure: our ref backends,
"refs/iterator.c" as well as very few sites that invoke the iterator
callback functions directly.
Introduce this wrapper structure so that we can adapt the iterator
interfaces more readily.
[1]: <ZmarVcF5JjsZx0dl@tanuki>
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
We have two different ways to write an object into the database:
- We either provide the full buffer and write the object all at once.
- Or we provide an input stream that has a `read()` function so that
we can chunk the object.
The latter is especially used for large objects, where it may be too
expensive to hold the complete object in memory all at once.
While we already have `odb_write_object()` at the ODB-layer, we don't
have an equivalent for streaming an object. Introduce a new function
`odb_write_object_stream()` to address this gap so that callers don't
have to be aware of the inner workings of how to stream an object to
disk with a specific object source.
Rename `stream_loose_object()` to `odb_source_loose_write_stream()` to
clarify its scope. This matches our modern best practices around how to
name functions.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
