pub struct Store {
pub write_reflog: WriteReflog,
pub namespace: Option<Namespace>,
pub precompose_unicode: bool,
/* private fields */
}
Expand description
A store for reference which uses plain files.
Each ref is represented as a single file on disk in a folder structure that follows the relative path used to identify references.
Fields§
§write_reflog: WriteReflog
The way to handle reflog edits
namespace: Option<Namespace>
The namespace to use for edits and reads
precompose_unicode: bool
If set, we will convert decomposed unicode like a\u308
into precomposed unicode like ä
when reading
ref names from disk.
Note that this is an internal operation that isn’t observable on the outside, but it’s needed for lookups
to packed-refs or symlinks to work correctly.
Iterated references will be returned verbatim, thus when sending them over the wire they have to be precomposed
as needed.
Implementations§
source§impl Store
impl Store
Mutation
sourcepub fn set_packed_buffer_mmap_threshold(&mut self, bytes: u64) -> u64
pub fn set_packed_buffer_mmap_threshold(&mut self, bytes: u64) -> u64
Set the amount of bytes
needed for the .git/packed-refs
file to be memory mapped.
Returns the previous value, which is always 32KB.
source§impl Store
impl Store
Access
sourcepub fn git_dir(&self) -> &Path
pub fn git_dir(&self) -> &Path
Return the .git
directory at which all references are loaded.
For worktrees, this is the linked work-tree private ref location,
then common_dir()
is Some(parent_git_dir)
.
sourcepub fn common_dir(&self) -> Option<&Path>
pub fn common_dir(&self) -> Option<&Path>
If this is a linked work tree, there will be Some(git_dir)
pointing to the parent repository,
while git_dir()
points to the location holding linked work-tree private references.
sourcepub fn common_dir_resolved(&self) -> &Path
pub fn common_dir_resolved(&self) -> &Path
Similar to common_dir()
, but it will produce either the common-dir, or the git-dir if the former
isn’t present.
This is also the directory in which the packed references file would be placed.
source§impl Store
impl Store
sourcepub fn reflog_exists<'a, Name, E>(&self, name: Name) -> Result<bool, E>
pub fn reflog_exists<'a, Name, E>(&self, name: Name) -> Result<bool, E>
Returns true if a reflog exists for the given reference name
.
Please note that this method shouldn’t be used to check if a log exists before trying to read it, but instead is meant to be the fastest possible way to determine if a log exists or not. If the caller needs to know if it’s readable, try to read the log instead with a reverse or forward iterator.
sourcepub fn reflog_iter_rev<'a, 'b, Name, E>(
&self,
name: Name,
buf: &'b mut [u8]
) -> Result<Option<Reverse<'b, File>>, Error>
pub fn reflog_iter_rev<'a, 'b, Name, E>( &self, name: Name, buf: &'b mut [u8] ) -> Result<Option<Reverse<'b, File>>, Error>
Return a reflog reverse iterator for the given fully qualified name
, reading chunks from the back into the fixed buffer buf
.
The iterator will traverse log entries from most recent to oldest, reading the underlying file in chunks from the back.
Return Ok(None)
if no reflog exists.
sourcepub fn reflog_iter<'a, 'b, Name, E>(
&self,
name: Name,
buf: &'b mut Vec<u8>
) -> Result<Option<Forward<'b>>, Error>
pub fn reflog_iter<'a, 'b, Name, E>( &self, name: Name, buf: &'b mut Vec<u8> ) -> Result<Option<Forward<'b>>, Error>
Return a reflog forward iterator for the given fully qualified name
and write its file contents into buf
.
The iterator will traverse log entries from oldest to newest.
Return Ok(None)
if no reflog exists.
source§impl Store
impl Store
sourcepub fn loose_iter(&self) -> Result<LooseThenPacked<'_, '_>>
pub fn loose_iter(&self) -> Result<LooseThenPacked<'_, '_>>
Return an iterator over all loose references, notably not including any packed ones, in lexical order. Each of the references may fail to parse and the iterator will not stop if parsing fails, allowing the caller to see all files that look like references whether valid or not.
Reference files that do not constitute valid names will be silently ignored.
sourcepub fn loose_iter_prefixed(
&self,
prefix: &Path
) -> Result<LooseThenPacked<'_, '_>>
pub fn loose_iter_prefixed( &self, prefix: &Path ) -> Result<LooseThenPacked<'_, '_>>
Return an iterator over all loose references that start with the given prefix
.
Otherwise it’s similar to loose_iter()
.
source§impl Store
impl Store
sourcepub fn at(
git_dir: PathBuf,
write_reflog: WriteReflog,
object_hash: Kind,
precompose_unicode: bool
) -> Self
pub fn at( git_dir: PathBuf, write_reflog: WriteReflog, object_hash: Kind, precompose_unicode: bool ) -> Self
Create a new instance at the given git_dir
, which commonly is a standard git repository with a
refs/
subdirectory.
The object_hash
defines which kind of hash we should recognize.
Note that if precompose_unicode
is set, the git_dir
is also expected to use precomposed unicode,
or else some operations that strip prefixes will fail.
sourcepub fn for_linked_worktree(
git_dir: PathBuf,
common_dir: PathBuf,
write_reflog: WriteReflog,
object_hash: Kind,
precompose_unicode: bool
) -> Self
pub fn for_linked_worktree( git_dir: PathBuf, common_dir: PathBuf, write_reflog: WriteReflog, object_hash: Kind, precompose_unicode: bool ) -> Self
Like at()
, but for linked work-trees which use git_dir
as private ref store and common_dir
for
shared references.
Note that if precompose_unicode
is set, the git_dir
and common_dir
are also expected to use precomposed unicode,
or else some operations that strip prefixes will fail.
source§impl Store
impl Store
sourcepub fn iter(&self) -> Result<Platform<'_>, Error>
pub fn iter(&self) -> Result<Platform<'_>, Error>
Return a platform to obtain iterator over all references, or prefixed ones, loose or packed, sorted by their name.
Errors are returned similarly to what would happen when loose and packed refs where iterated by themselves.
Note that since packed-refs are storing refs as precomposed unicode if Self::precompose_unicode
is true, for consistency
we also return loose references as precomposed unicode.
source§impl Store
impl Store
sourcepub fn iter_packed<'s, 'p>(
&'s self,
packed: Option<&'p Buffer>
) -> Result<LooseThenPacked<'p, 's>>
pub fn iter_packed<'s, 'p>( &'s self, packed: Option<&'p Buffer> ) -> Result<LooseThenPacked<'p, 's>>
Return an iterator over all references, loose or packed
, sorted by their name.
Errors are returned similarly to what would happen when loose and packed refs where iterated by themselves.
sourcepub fn iter_prefixed_packed<'s, 'p>(
&'s self,
prefix: &Path,
packed: Option<&'p Buffer>
) -> Result<LooseThenPacked<'p, 's>>
pub fn iter_prefixed_packed<'s, 'p>( &'s self, prefix: &Path, packed: Option<&'p Buffer> ) -> Result<LooseThenPacked<'p, 's>>
As iter(…)
, but filters by prefix
, i.e. “refs/heads”.
Please note that “refs/heads” or “refs\heads” is equivalent to “refs/heads/”
source§impl Store
impl Store
sourcepub fn find<'a, Name, E>(&self, partial: Name) -> Result<Reference, Error>
pub fn find<'a, Name, E>(&self, partial: Name) -> Result<Reference, Error>
Similar to file::Store::try_find()
but a non-existing ref is treated as error.
sourcepub fn find_packed<'a, Name, E>(
&self,
partial: Name,
packed: Option<&Buffer>
) -> Result<Reference, Error>
pub fn find_packed<'a, Name, E>( &self, partial: Name, packed: Option<&Buffer> ) -> Result<Reference, Error>
Similar to file::Store::find()
, but supports a stable packed buffer.
sourcepub fn find_loose<'a, Name, E>(&self, partial: Name) -> Result<Reference, Error>
pub fn find_loose<'a, Name, E>(&self, partial: Name) -> Result<Reference, Error>
Similar to file::Store::find()
won’t handle packed-refs.
source§impl Store
impl Store
Finding References - notes about precomposed unicode.
Generally, ref names and the target of symbolic refs are stored as-is if Self::precompose_unicode
is false
.
If true
, refs are stored as precomposed unicode in packed-refs
, but stored as is on disk as it is then assumed
to be indifferent, i.e. "a\u{308}"
is the same as "ä"
.
This also means that when refs are packed for transmission to another machine, both their names and the target of symbolic references need to be precomposed.
Namespaces are left as is as they never get past the particular repository that uses them.
sourcepub fn try_find<'a, Name, E>(
&self,
partial: Name
) -> Result<Option<Reference>, Error>
pub fn try_find<'a, Name, E>( &self, partial: Name ) -> Result<Option<Reference>, Error>
Find a single reference by the given path
which is required to be a valid reference name.
Returns Ok(None)
if no such ref exists.
Note
- The lookup algorithm follows the one in the git documentation.
- The packed buffer is checked for modifications each time the method is called. See
file::Store::try_find_packed()
for a version with more control.
sourcepub fn try_find_loose<'a, Name, E>(
&self,
partial: Name
) -> Result<Option<Reference>, Error>
pub fn try_find_loose<'a, Name, E>( &self, partial: Name ) -> Result<Option<Reference>, Error>
Similar to file::Store::find()
but a non-existing ref is treated as error.
Find only loose references, that is references that aren’t in the packed-refs buffer.
All symbolic references are loose references.
HEAD
is always a loose reference.
sourcepub fn try_find_packed<'a, Name, E>(
&self,
partial: Name,
packed: Option<&Buffer>
) -> Result<Option<Reference>, Error>
pub fn try_find_packed<'a, Name, E>( &self, partial: Name, packed: Option<&Buffer> ) -> Result<Option<Reference>, Error>
Similar to file::Store::find()
, but allows to pass a snapshotted packed buffer instead.
source§impl Store
impl Store
Edits
sourcepub fn transaction(&self) -> Transaction<'_, '_>
pub fn transaction(&self) -> Transaction<'_, '_>
Open a transaction with the given edits
, and determine how to fail if a lock
cannot be obtained.
A snapshot of packed references will be obtained automatically if needed to fulfill this transaction
and will be provided as result of a successful transaction. Note that upon transaction failure, packed-refs
will never have been altered.
The transaction inherits the parent namespace.
source§impl Store
impl Store
sourcepub fn open_packed_buffer(&self) -> Result<Option<Buffer>, Error>
pub fn open_packed_buffer(&self) -> Result<Option<Buffer>, Error>
Try to open a new packed buffer. It’s not an error if it doesn’t exist, but yields Ok(None)
.
Note that it will automatically be memory mapped if it exceeds the default threshold of 32KB. Change the threshold with file::Store::set_packed_buffer_mmap_threshold().
sourcepub fn cached_packed_buffer(
&self
) -> Result<Option<SharedBufferSnapshot>, Error>
pub fn cached_packed_buffer( &self ) -> Result<Option<SharedBufferSnapshot>, Error>
Return a possibly cached packed buffer with shared ownership. At retrieval it will assure it’s up to date, but after that it can be considered a snapshot as it cannot change anymore.
Use this to make successive calls to file::Store::try_find_packed()
or obtain iterators using file::Store::iter_packed()
in a way that assures the packed-refs content won’t change.
sourcepub fn packed_refs_path(&self) -> PathBuf
pub fn packed_refs_path(&self) -> PathBuf
Return the path at which packed-refs would usually be stored