commit | d2846cc8b2a831a089ee768a0475e64ec5b85519 | [log] [tgz] |
---|---|---|
author | Thomas Wolf <thomas.wolf@paranor.ch> | Tue Mar 02 09:53:08 2021 +0100 |
committer | Matthias Sohn <matthias.sohn@sap.com> | Tue May 18 17:23:34 2021 +0200 |
tree | e8b78a8aad0d93459045b7ee049a6d86a9bd7a28 | |
parent | c718e6059c0371dcde83d51f83f3031f934c34b7 [diff] |
ApplyCommand: convert to git internal format before applying patch Applying a patch on Windows failed if the patch had the (normal) single-LF line endings, but the file on disk had the usual Windows CR-LF line endings. Git (and JGit) compute diffs on the git-internal blob, i.e., after CR-LF transformation and clean filtering. Applying patches to files directly is thus incorrect and may fail if CR-LF settings don't match, or if clean/smudge filtering is involved. Change ApplyCommand to run the file content through the check-in filters before applying the patch, and run the result through the check-out filters. This makes patch application succeed even if the patch has single-LFs, but the file has CR-LF and core.autocrlf is true. Add tests for various combinations of line endings in the file and in the patch, and a test to verify the clean/smudge handling. See also [1]. Running the file though clean/smudge may give strange results with LFS-managed files. JGit's DiffFormatter has some extra code and applies the smudge filter again after having run the file through the check-in filters (CR-LF and clean). So JGit can actually produce a diff on LFS-managed files using the normal diff machinery. (If it doesn't run out of memory, that is. After all, LFS is intended for _large_ files.) How such a diff would be applied with either C git or JGit is entirely unclear; neither has any code for this special case. Compare also [2]. Note that C git just doesn't know about LFS and always diffs after the check-in filter chain, so for LFS files, it'll produce a diff of the LFS pointers. [1] https://github.com/git/git/commit/c24f3abac [2] https://github.com/git-lfs/git-lfs/issues/440 Bug: 571585 Change-Id: I8f71ff26313b5773ff1da612b0938ad2f18751f5 Signed-off-by: Thomas Wolf <thomas.wolf@paranor.ch>
An implementation of the Git version control system in pure Java.
This project is licensed under the EDL (Eclipse Distribution License).
JGit can be imported straight into Eclipse and built and tested from there. It can be built from the command line using Maven or Bazel. The CI builds use Maven and run on Jenkins.
org.eclipse.jgit
A pure Java library capable of being run standalone, with no additional support libraries. It provides classes to read and write a Git repository and operate on a working directory.
All portions of JGit are covered by the EDL. Absolutely no GPL, LGPL or EPL contributions are accepted within this package.
org.eclipse.jgit.ant
Ant tasks based on JGit.
org.eclipse.jgit.archive
Support for exporting to various archive formats (zip etc).
org.eclipse.jgit.http.apache
Apache httpclient support.
org.eclipse.jgit.http.server
Server for the smart and dumb Git HTTP protocol.
org.eclipse.jgit.lfs
Support for LFS (Large File Storage).
org.eclipse.jgit.lfs.server
Basic LFS server support.
org.eclipse.jgit.packaging
Production of Eclipse features and p2 repository for JGit. See the JGit Wiki on why and how to use this module.
org.eclipse.jgit.pgm
Command-line interface Git commands implemented using JGit (“pgm” stands for program).
org.eclipse.jgit.ssh.apache
Client support for the ssh protocol based on Apache Mina sshd.
org.eclipse.jgit.ui
Simple UI for displaying git log.
Native symbolic links are supported, provided the file system supports them. For Windows you must use a non-administrator account and have the SeCreateSymbolicLinkPrivilege.
Only the timestamp of the index is used by JGit if the index is dirty.
JGit requires at least a Java 8 JDK.
CRLF conversion is performed depending on the core.autocrlf
setting, however Git for Windows by default stores that setting during installation in the “system wide” configuration file. If Git is not installed, use the global or repository configuration for the core.autocrlf setting.
The system wide configuration file is located relative to where C Git is installed. Make sure Git can be found via the PATH environment variable. When installing Git for Windows check the “Run Git from the Windows Command Prompt” option. There are other options like Eclipse settings that can be used for pointing out where C Git is installed. Modifying PATH is the recommended option if C Git is installed.
We try to use the same notation of $HOME
as C Git does. On Windows this is often not the same value as the user.home
system property.
org.eclipse.jgit
Read loose and packed commits, trees, blobs, including deltafied objects.
Read objects from shared repositories
Write loose commits, trees, blobs.
Write blobs from local files or Java InputStreams.
Read blobs as Java InputStreams.
Copy trees to local directory, or local directory to a tree.
Lazily loads objects as necessary.
Read and write .git/config files.
Create a new repository.
Read and write refs, including walking through symrefs.
Read, update and write the Git index.
Checkout in dirty working directory if trivial.
Walk the history from a given set of commits looking for commits introducing changes in files under a specified path.
Object transport
Fetch via ssh, git, http, Amazon S3 and bundles. Push via ssh, git and Amazon S3. JGit does not yet deltify the pushed packs so they may be a lot larger than C Git packs.
Garbage collection
Merge
Rebase
And much more
org.eclipse.jgit.pgm
org.eclipse.jgit.ant
org.eclipse.jgit.archive
org.eclipse.http
There are some missing features:
Post questions, comments or discussions to the jgit-dev@eclipse.org mailing list. You need to be subscribed to post. File bugs and enhancement requests in Bugzilla.
See the EGit Contributor Guide.
More information about Git, its repository format, and the canonical C based implementation can be obtained from the Git website.