Reduce system overhead "git upload-pack" spends on relaying "git
pack-objects" output to the "git fetch" running on the other end of
the connection.
* ps/upload-pack-buffer-more-writes:
builtin/pack-objects: reduce lock contention when writing packfile data
csum-file: drop `hashfd_throughput()`
csum-file: introduce `hashfd_ext()`
sideband: use writev(3p) to send pktlines
wrapper: introduce writev(3p) wrappers
compat/posix: introduce writev(3p) wrapper
upload-pack: reduce lock contention when writing packfile data
upload-pack: prefer flushing data over sending keepalive
upload-pack: adapt keepalives based on buffering
upload-pack: fix debug statement when flushing packfile data
Every compilation unit in Git is expected to include "git-compat-util.h"
first, either directly or indirectly via "builtin.h". This header papers
over differences between platforms so that we can expect the typical
POSIX functions to exist. Furthermore, it provides functionality that we
end up using everywhere.
This header is thus quite heavy as a consequence. Preprocessing it as a
standalone unit via `clang -E git-compat-util.h` yields over 23,000
lines of code overall. Naturally, it takes quite some time to compile
all of this.
Luckily, this is exactly the kind of use case that precompiled headers
aim to solve: instead of recompiling it every single time, we compile it
once and then link the result into the executable. If include guards are
set up properly it means that the file won't need to be reprocessed.
Set up such a precompiled header for "git-compat-util.h" and wire it up
via Meson. This causes Meson to implicitly include the precompiled
header in all compilation units. With GCC and Clang for example this is
done via the "-include" statement [1].
This leads to a significant speedup when performing full builds:
Benchmark 1: ninja (rev = HEAD~)
Time (mean ± σ): 14.467 s ± 0.126 s [User: 248.133 s, System: 31.298 s]
Range (min … max): 14.195 s … 14.633 s 10 runs
Benchmark 2: ninja (rev = HEAD)
Time (mean ± σ): 10.307 s ± 0.111 s [User: 173.290 s, System: 23.998 s]
Range (min … max): 10.030 s … 10.433 s 10 runs
Summary
ninja (rev = HEAD) ran
1.40 ± 0.02 times faster than ninja (rev = HEAD~)
[1]: https://gcc.gnu.org/onlinedocs/gcc/Precompiled-Headers.html
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
In the next commit we're about to introduce a precompiled header for
"git-compat-util.h". The consequence of this change is that we'll
implicitly include that header for every compilation unit that uses the
precompiled headers.
This is okay for our "normal" library sources and our builtins. But some
of our compatibility sources do not include the header on purpose, and
doing so would cause compilation errors.
Prepare for this change by splitting out compatibility sources into
their static library. Like this, we can selectively enable precompiled
headers for the library sources.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
We have a bunch of scripts used by our different build systems that are
all located in the top-level directory. Now that we have introduced the
new "tools/" directory though we have a better home for them.
Move the scripts into the "tools/" directory.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
According to its readme, the "contrib/" directory's main intent is to
collect stuff that is not an official part of Git, either because it is
too specialized or because it is still considered experimental. The
reality tells a bit of a different story though: while it _does_ contain
such things, it also contains other things:
- Our credential helpers, which are being distributed by many
packagers nowadays and which can be considered "stable".
- A bunch of tooling that relates to our build and test
infrastructure.
Especially the second category is somewhat of a sore spot. You really
wouldn't expect build-related tooling to be considered an optional part
of Git. Quite the opposite.
Create a new top-level "tools/" directory to fix this discrepancy. This
directory will contain all kind of tools that are related to our build
infrastructure and that Git developers are likely to use day to day.
For now, this directory doesn't contain anything yet except for a
readme and a Meson skeleton. This will change in subsequent commits.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Plug a few leaks where mmap'ed memory regions are not unmapped.
* jk/unleak-mmap:
meson: turn on NO_MMAP when building with LSan
Makefile: turn on NO_MMAP when building with LSan
object-file: fix mmap() leak in odb_source_loose_read_object_stream()
pack-revindex: avoid double-loading .rev files
check_connected(): fix leak of pack-index mmap
check_connected(): delay opening new_pack
The object source API is getting restructured to allow plugging new
backends.
* ps/odb-sources:
odb/source: make `begin_transaction()` function pluggable
odb/source: make `write_alternate()` function pluggable
odb/source: make `read_alternates()` function pluggable
odb/source: make `write_object_stream()` function pluggable
odb/source: make `write_object()` function pluggable
odb/source: make `freshen_object()` function pluggable
odb/source: make `for_each_object()` function pluggable
odb/source: make `read_object_stream()` function pluggable
odb/source: make `read_object_info()` function pluggable
odb/source: make `close()` function pluggable
odb/source: make `reprepare()` function pluggable
odb/source: make `free()` function pluggable
odb/source: introduce source type for robustness
odb: move reparenting logic into respective subsystems
odb: embed base source in the "files" backend
odb: introduce "files" source
odb: split `struct odb_source` into separate header
Move gitlab CI from macOS 14 images that are being deprecated.
* ps/ci-gitlab-prepare-for-macos-14-deprecation:
gitlab-ci: update to macOS 15 images
meson: detect broken iconv that requires ICONV_RESTART_RESET
meson: simplify iconv-emits-BOM check
The previous commit taught the Makefile to turn on NO_MMAP in this
instance. We should do the same with meson for consistency. We already
do this for ASan builds, so we can just tweak one conditional.
Signed-off-by: Jeff King <peff@peff.net>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Introduce a new "files" object database source. This source encapsulates
access to both loose object files and the packfile store, similar to how
the "files" backend for refs encapsulates access to loose refs and the
packed-refs file.
Note that for now the "files" source is still a direct member of a
`struct odb_source`. This architecture will be reversed in the next
commit so that the files source contains a `struct odb_source`.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Subsequent commits will expand the `struct odb_source` to become a
generic interface for accessing an object database source. As part of
these refactorings we'll add a set of function pointers that will
significantly expand the structure overall.
Prepare for this by splitting out the `struct odb_source` into a
separate header. This keeps the high-level object database interface
detached from the low-level object database sources.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
In d0cec08d70 (utf8.c: prepare workaround for iconv under macOS 14/15,
2026-01-12) we have introduced a new workaround for a broken version of
libiconv on macOS. This workaround has for now only been wired up for
our Makefile, so using Meson with such a broken version will fail.
We can rather easily detect the broken behaviour. Some encodings have
different modes that can be switched to via an escape sequence. In the
case of ISO-2022-JP this can be done via "<Esc>$B" and "<Esc>(J" to
switch between ASCII and JIS modes. The bug now triggers when one does
multiple calls to iconv(3p) to convert a string piece by piece, where
the first call enters JIS mode. The second call forgets about the fact
that it is still in JIS mode, and consequently it will incorrectly treat
the input as ASCII, and thus the produced output is of course garbage.
Wire up a test that exercises this in Meson and, if it fails, set the
`ICONV_RESTART_RESET` define.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Simplify the iconv-emits-BOM check that we have in Meson a bit by:
- Dropping useless variables.
- Casting the `inpos` pointer to `void *` instead of using a typedef
that depends on whether or not we use an old iconv library.
This overall condenses the code signficantly and makes it easier to
follow.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Add process ancestry data to trace2 on macOS to match what we
already do on Linux and Windows. Also adjust the way Windows
implementation reports this information to match the other two.
* mc/tr2-process-ancestry-cleanup:
t0213: add trace2 cmd_ancestry tests
test-tool: extend trace2 helper with 400ancestry
trace2: emit cmd_ancestry data for Windows
trace2: refactor Windows process ancestry trace2 event
build: include procinfo.c impl for macOS
trace2: add macOS process ancestry tracing
The Meson-based build doesn't know when to rebuild config-list.h, so the
header is sometimes stale.
For example, an old build directory might have config-list.h from before
4173df5187 (submodule: introduce extensions.submodulePathConfig,
2026-01-12), which added submodule.<name>.gitdir to the list. Without
it, t9902-completion.sh fails. Regenerating the config-list.h artifact
from sources fixes the artifact and the test.
Since Meson does not have (or want) builtin support for globbing like
Make, teach generate-configlist.sh to also generate a list of
Documentation files its output depends on, and incorporate that into the
Meson build. We honor the undocumented GCC/Clang contract of outputting
empty targets for all the dependencies (like they do with -MP). That is,
generate lines like
build/config-list.h: $SOURCE_DIR/Documentation/config.adoc
$SOURCE_DIR/Documentation/config.adoc:
We assume that if a user adds a new file under
Documentation/config then they will also edit one of the existing files
to include that new file, and that will trigger a rebuild. Also mark the
generator script as a dependency.
While we're at it, teach the Makefile to use the same "the script knows
it's dependencies" logic.
For Meson, combining the following commands helps debug dependencies:
ninja -C <builddir> -t deps config-list.h
ninja -C <builddir> -t browse config-list.h
The former lists all the dependencies discovered from our output ".d"
file (the config documentation) and the latter shows the dependency on
the script itself, among other useful edges in the dependency graph.
Helped-by: Patrick Steinhardt <ps@pks.im>
Helped-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>
Include an implementation of trace2_collect_process_info for macOS.
Signed-off-by: Matthew John Cheetham <mjcheetham@outlook.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Wire up both gitk and git-gui in Meson as subprojects. These two
programs should be the last missing pieces for feature compatibility
with our Makefile for distributors.
Note that Meson expects subprojects to live in the "subprojects/"
directory. Create symlinks to fulfill this requirement.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
When rewriting history via git-rebase(1) there are a few very common use
cases:
- The ordering of two commits should be reversed.
- A commit should be split up into two commits.
- A commit should be dropped from the history completely.
- Multiple commits should be squashed into one.
- Editing an existing commit that is not the tip of the current
branch.
While these operations are all doable, it often feels needlessly kludgey
to do so by doing an interactive rebase, using the editor to say what
one wants, and then perform the actions. Also, some operations like
splitting up a commit into two are way more involved than that and
require a whole series of commands.
Rebases also do not update dependent branches. The use of stacked
branches has grown quite common with competing version control systems
like Jujutsu though, so it clearly is a need that users have. While
rebases _can_ serve this use case if one always works on the latest
stacked branch, it is somewhat awkward and very easy to get wrong.
Add a new "history" command to plug these gaps. This command will have
several different subcommands to imperatively rewrite history for common
use cases like the above.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Move the core logic used to replay commits into "libgit.a" so that it
can be easily reused by other commands. It will be used in a subsequent
commit where we're about to introduce a new git-history(1) command.
Note that with this change we have no sign-comparison warnings anymore,
and neither do we depend on `the_repository`.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Rewrite the only use of "mktemp()" that is subject to TOCTOU race
and Stop using the insecure "mktemp()" function.
* rs/ban-mktemp:
compat: remove gitmkdtemp()
banned.h: ban mktemp(3)
compat: remove mingw_mktemp()
compat: use git_mkdtemp()
wrapper: add git_mkdtemp()
The "git_istream" abstraction has been revamped to make it easier
to interface with pluggable object database design.
* ps/object-read-stream:
streaming: drop redundant type and size pointers
streaming: move into object database subsystem
streaming: refactor interface to be object-database-centric
streaming: move logic to read packed objects streams into backend
streaming: move logic to read loose objects streams into backend
streaming: make the `odb_read_stream` definition public
streaming: get rid of `the_repository`
streaming: rely on object sources to create object stream
packfile: introduce function to read object info from a store
streaming: move zlib stream into backends
streaming: create structure for filtered object streams
streaming: create structure for packed object streams
streaming: create structure for loose object streams
streaming: create structure for in-core object streams
streaming: allocate stream inside the backend-specific logic
streaming: explicitly pass packfile info when streaming a packed object
streaming: propagate final object type via the stream
streaming: drop the `open()` callback function
streaming: rename `git_istream` into `odb_read_stream`
gitmkdtemp() has become a trivial wrapper around git_mkdtemp(). Remove
this now unnecessary layer of indirection.
Signed-off-by: René Scharfe <l.s.r@web.de>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
In previous commit the first use of meson.can_run_host_binaries() was
introduced. This is a guard around compiler.run() to ensure it's
actually possible to execute the provided.
In other places we've been having the same issue, but here `not
meson.is_cross_build()` is used as guard. This does the trick, but it
also prevents the code from running even when an exe_wrapper is
configured.
Switch to using meson.can_run_host_binaries() here as well.
There is another place left that still uses `not
meson.is_cross_build()`, but here it's a guard around fs.exists(). That
function will always run on the build machine, so checking for
cross-compilation is still in place here.
Signed-off-by: Toon Claes <toon@iotcl.com>
Acked-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
In our Meson setup it automatically detects whether ICONV_OMITS_BOM
should be defined. To check this, a piece of code is compiled and ran.
When cross-compiling, it's not possible to run this piece of code. Guard
this test with a can_run_host_binaries() check to ensure it can run.
Signed-off-by: Toon Claes <toon@iotcl.com>
Acked-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Various issues detected by Asan have been corrected.
* jk/asan-bonanza:
t: enable ASan's strict_string_checks option
fsck: avoid parse_timestamp() on buffer that isn't NUL-terminated
fsck: remove redundant date timestamp check
fsck: avoid strcspn() in fsck_ident()
fsck: assert newline presence in fsck_ident()
cache-tree: avoid strtol() on non-string buffer
Makefile: turn on NO_MMAP when building with ASan
pack-bitmap: handle name-hash lookups in incremental bitmaps
compat/mmap: mark unused argument in git_munmap()
The "streaming" terminology is somewhat generic, so it may not be
immediately obvious that "streaming.{c,h}" is specific to the object
database. Rectify this by moving it into the "odb/" directory so that it
can be immediately attributed to the object subsystem.
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Git often uses mmap() to access on-disk files. This leaves a blind spot
in our SANITIZE=address builds, since ASan does not seem to handle mmap
at all. Nor does the OS notice most out-of-bounds access, since it tends
to round up to the nearest page size (so depending on how big the map
is, you might have to overrun it by up to 4095 bytes to trigger a
segfault).
The previous commit demonstrates a memory bug that we missed. We could
have made a new test where the out-of-bounds access was much larger, or
where the mapped file ended closer to a page boundary. But the point of
running the test suite with sanitizers is to catch these problems
without having to construct specific tests.
Let's enable NO_MMAP for our ASan builds by default, which should give
us better coverage. This does increase the memory usage of Git, since
we're copying from the filesystem into heap. But the repositories in the
test suite tend to be small, so the overhead isn't really noticeable
(and ASan already has quite a performance penalty).
There are a few other known bugs that this patch will help flush out.
However, they aren't directly triggered in the test suite (yet). So
it's safe to turn this on now without breaking the test suite, which
will help us add new tests to demonstrate those other bugs as we fix
them.
Signed-off-by: Jeff King <peff@peff.net>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Makefile-based builds can configure Git's internal HTML_PATH by defining
htmldir, which is useful for packagers that put documentation in
different locations. Gentoo, for example, uses version-suffixed
directories like ${prefix}/share/doc/git-2.51 and puts the HTML
documentation in an 'html' subdirectory of the same.
Propagate the same configuration knob to Meson-based builds so that
"git --html-path" on such systems can be configured to output the
correct directory.
Signed-off-by: D. Ben Knoble <ben.knoble+github@gmail.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Clean-up "git repack" machinery to prepare for incremental update
of midx files.
* tb/incremental-midx-part-3.1: (49 commits)
builtin/repack.c: clean up unused `#include`s
repack: move `write_cruft_pack()` out of the builtin
repack: move `write_filtered_pack()` out of the builtin
repack: move `pack_kept_objects` to `struct pack_objects_args`
repack: move `finish_pack_objects_cmd()` out of the builtin
builtin/repack.c: pass `write_pack_opts` to `finish_pack_objects_cmd()`
repack: extract `write_pack_opts_is_local()`
repack: move `find_pack_prefix()` out of the builtin
builtin/repack.c: use `write_pack_opts` within `write_cruft_pack()`
builtin/repack.c: introduce `struct write_pack_opts`
repack: 'write_midx_included_packs' API from the builtin
builtin/repack.c: inline packs within `write_midx_included_packs()`
builtin/repack.c: pass `repack_write_midx_opts` to `midx_included_packs`
builtin/repack.c: inline `remove_redundant_bitmaps()`
builtin/repack.c: reorder `remove_redundant_bitmaps()`
repack: keep track of MIDX pack names using existing_packs
builtin/repack.c: use a string_list for 'midx_pack_names'
builtin/repack.c: extract opts struct for 'write_midx_included_packs()'
builtin/repack.c: remove ref snapshotting from builtin
repack: remove pack_geometry API from the builtin
...
CI improvements to handle the recent Rust integration better.
* ps/ci-rust:
rust: support for Windows
ci: verify minimum supported Rust version
ci: check for common Rust mistakes via Clippy
rust/varint: add safety comments
ci: check formatting of our Rust code
ci: deduplicate calls to `apt-get update`
In an identical fashion as the previous commit, move the function
`write_cruft_pack()` into its own compilation unit, and make the
function visible through the repack.h API.
Signed-off-by: Taylor Blau <me@ttaylorr.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
In a similar fashion as in previous commits, move the function
`write_filtered_pack()` out of the builtin and into its own compilation
unit.
This function is now part of the repack.h API, but implemented in its
own "repack-filtered.c" unit as it is a separate component from other
kinds of repacking operations.
Signed-off-by: Taylor Blau <me@ttaylorr.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
When writing a MIDX, 'git repack' takes a snapshot of the repository's
references and writes the result out to a file, which it then passes to
'git multi-pack-index write' via the '--refs-snapshot'.
This is done in order to make bitmap selections with respect to what we
are packing, thus avoiding a race where an incoming reference update
causes us to try and write a bitmap for a commit not present in the
MIDX.
Extract this functionality out into a new repack-midx.c compilation
unit, and expose the necessary functions via the repack.h API.
Signed-off-by: Taylor Blau <me@ttaylorr.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Now that the pack_geometry API is fully factored and isolated from the
rest of the builtin, declare it within repack.h and move its
implementation to "repack-geometry.c" as a separate component.
Signed-off-by: Taylor Blau <me@ttaylorr.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Now that we have properly factored the portion of the builtin which is
responsible for repacking promisor objects, we can move that function
(and associated dependencies) out of the builtin entirely.
Similar to previous extractions, this function is declared in repack.h,
but implemented in a separate repack-promisor.c file. This is done to
separate promisor-specific repacking functionality from generic repack
utilities (like "existing_packs", and "generated_pack" APIs).
Signed-off-by: Taylor Blau <me@ttaylorr.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Over the years, builtin/repack.c has turned into a grab-bag of
functionality powering the 'git repack' builtin. Among its many
capabilities, it:
- can build and spawn 'git pack-objects' commands, which in turn
generate new packs
- has infrastructure to manage the set of existing packs in a
repository
- has infrastructure to split a sequence of packs into a geometric
progression based on object size
- can manage both generating and combining cruft packs together
- can write new MIDXs
to name a few.
As a result, this builtin has accumulated a lot of code, making adding
new functionality difficult. In the future, 'repack' will learn how to
manage a chain of incremental MIDXs, adding yet more functionality into
the builtin.
As a prerequisite step, let's first move some of the functionality in
the builtin into its own repack.[ch].
This will be done over the course of many steps, since there are many
individual components, some of which will end up in other, yet-to-exist
compilation units of their own. Some of the code movement here is also
non-trivial, so performing it in individual steps will make it easier to
verify.
Let's start by migrating 'struct pack_objects_args' (and the related
corresponding pack_objects_args_release() function) into repack.h, and
teach both the Makefile and Meson how to build the new compilation unit.
Signed-off-by: Taylor Blau <me@ttaylorr.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
The initial patch series that introduced Rust into the core of Git only
cared about macOS and Linux. This specifically leaves out Windows, which
indeed fails to build right now due to two issues:
- The Rust runtime requires `GetUserProfileDirectoryW()`, but we don't
link against "userenv.dll".
- The path of the Rust library built on Windows is different than on
most other systems systems.
Fix both of these issues to support Windows.
Note that this commit fixes the Meson-based job in GitHub's CI. Meson
auto-detects the availability of Rust, and as the Windows runner has
Rust installed by default it already enabled Rust support there. But due
to the above issues that job fails consistently.
Install Rust on GitLab CI, as well, to improve test coverage there.
Based-on-patch-by: Johannes Schindelin <johannes.schindelin@gmx.de>
Based-on-patch-by: Ezekiel Newren <ezekielnewren@gmail.com>
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
The reftable backend learned to sanity check its on-disk data more
carefully.
* kn/reftable-consistency-checks:
refs/reftable: add fsck check for checking the table name
reftable: add code to facilitate consistency checks
fsck: order 'fsck_msg_type' alphabetically
Documentation/fsck-msgids: remove duplicate msg id
reftable: check for trailing newline in 'tables.list'
refs: move consistency check msg to generic layer
refs: remove unused headers
Dip our toes a bit to (optionally) use Rust implemented helper
called from our C code.
* ps/rust-balloon:
ci: enable Rust for breaking-changes jobs
ci: convert "pedantic" job into full build with breaking changes
BreakingChanges: announce Rust becoming mandatory
varint: reimplement as test balloon for Rust
varint: use explicit width for integers
help: report on whether or not Rust is enabled
Makefile: introduce infrastructure to build internal Rust library
Makefile: reorder sources after includes
meson: add infrastructure to build internal Rust library
* ps/rust-balloon:
ci: enable Rust for breaking-changes jobs
ci: convert "pedantic" job into full build with breaking changes
BreakingChanges: announce Rust becoming mandatory
varint: reimplement as test balloon for Rust
varint: use explicit width for integers
help: report on whether or not Rust is enabled
Makefile: introduce infrastructure to build internal Rust library
Makefile: reorder sources after includes
meson: add infrastructure to build internal Rust library
The `git refs verify` command is used to run consistency checks on the
reference backends. This command is also invoked when users run 'git
fsck'. While the files-backend has some fsck checks added, the reftable
backend lacks such checks. Let's add the required infrastructure and a
check to test for the files present in the reftable directory.
Since the reftable library is treated as an independent library we
should ensure that the library code works independently without
knowledge about Git's internals. To do this, add both 'reftable/fsck.c'
and 'reftable/reftable-fsck.h'. Which provide an entry point
'reftable_fsck_check' for running fsck checks over a provided reftable
stack. The callee provides the function with callbacks to handle issue
and information reporting.
The added check, goes over all tables in the reftable stack validates
that they have a valid name. It not, it raises an error.
While here, move 'reftable/error.o' in the Makefile to retain
lexicographic ordering.
Signed-off-by: Karthik Nayak <karthik.188@gmail.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
The build procedure based on meson learned a target to only build
documentation, similar to "make doc".
* ps/meson-build-docs:
ci: don't compile whole project when testing docs with Meson
meson: print docs backend as part of the summary
meson: introduce a "docs" alias to compile documentation only
"git refs optimize" is added for not very well explained reason
despite it does the same thing as "git pack-refs"...
* ms/refs-optimize:
t: add test for git refs optimize subcommand
t0601: refactor tests to be shareable
builtin/refs: add optimize subcommand
doc: pack-refs: factor out common options
builtin/pack-refs: factor out core logic into a shared library
builtin/pack-refs: convert to use the generic refs_optimize() API
reftable-backend: implement 'optimize' action
files-backend: implement 'optimize' action
refs: add a generic 'optimize' API
Implement a trivial test balloon for our Rust build infrastructure by
reimplementing the "varint.c" subsystem in Rust. This subsystem is
chosen because it is trivial to convert and because it doesn't have any
dependencies to other components of Git.
If support for Rust is enabled, we stop compiling "varint.c" and instead
compile and use "src/varint.rs".
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
Add the infrastructure into Meson to build an internal Rust library.
Building the Rust parts of Git are for now entirely optional, as they
are mostly intended as a test balloon for both Git developers, but also
for distributors of Git. So for now, they may contain:
- New features that are not mission critical to Git and that users can
easily live without.
- Alternative implementations of small subsystems.
If these test balloons are successful, we will eventually make Rust a
mandatory dependency for our build process in Git 3.0.
The availability of a Rust toolchain will be auto-detected by Meson at
setup time. This behaviour can be tweaked via the `-Drust=` feature
toggle.
Next to the linkable Rust library, also wire up tests that can be
executed via `meson test`. This allows us to use the native unit testing
capabilities of Rust.
Note that the Rust edition is currently set to 2018. This edition is
supported by Rust 1.49, which is the target for the upcoming gcc-rs
backend. For now we don't use any features of Rust that would require a
newer version, so settling on this old version makes sense so that
gcc-rs may become an alternative backend for compiling Git. If we _do_
want to introduce features that were added in more recent editions of
Rust though we should reevaluate that choice.
Inspired-by: Ezekiel Newren <ezekielnewren@gmail.com>
Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
The implementation of `git pack-refs` is monolithic within
`cmd_pack_refs()`, making it impossible to share its logic with other
commands. To enable code reuse for the upcoming `git refs optimize`
subcommand, refactor the core logic into a shared helper function.
Split the original `builtin/pack-refs.c` file into two parts:
- A new shared library file, `pack-refs.c`, which contains the
core option parsing and packing logic in a new `pack_refs_core()`
helper function.
- The original `builtin/pack-refs.c`, which is now a thin wrapper
responsible only for defining the `git pack-refs` command and
calling the shared helper.
A new `pack-refs.h` header is also introduced to define the public
interface for this shared logic.
Mentored-by: Patrick Steinhardt <ps@pks.im>
Mentored-by: shejialuo <shejialuo@gmail.com>
Signed-off-by: Meet Soni <meetsoni3017@gmail.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
