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ruby bindings to libgit2. Contribute to libgit2/rugged development by creating an account on GitHub.
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ruby bindings to libgit2. Contribute to libgit2/rugged development by creating an account on GitHub.
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Rugged
libgit2 bindings in Ruby
Rugged is a library for accessing libgit2 in Ruby. It gives you the speed and portability of libgit2 with the beauty of the Ruby language.
libgit2
libgit2 is a pure C implementation of the Git core methods. It's designed to be fast and portable. For more information about libgit2, check out libgit2's website or browse the libgit2 organization on GitHub.
Install
Rugged is a self-contained gem. You can install it by running:
$ gem install rugged
Prerequisites
You need to have CMake and pkg-config
installed on your system to be able to build the included version of libgit2
.
Debian, Including Ubuntu
All Debian-derived Linux distros provide apt
:
$ sudo apt install libgit2-dev cmake pkg-config
Note that you only need libgit2-dev
if you want to build with the system
libgit2 rather than the vendored version. In this case, note that the major and
minor versions of libgit2 and rugged must match.
Mac
On OS X, after installing Homebrew, you can get the required packages with:
$ brew install cmake pkg-config
Please follow the above in case installation of the gem fails with ERROR: CMake is required to build Rugged.
.
Options
If you want to build Rugged with HTTPS and SSH support, check out the list of optional libgit2 dependencies.
To install rugged
with SSH support ensure you have the LibSSH2
library present, then pass the required CMAKE_FLAGS
:
CMAKE_FLAGS='-DUSE_SSH=ON' gem install rugged
Or pass the --with-ssh
build option:
gem install rugged -- --with-ssh
If you're using bundler and want to bundle libgit2
with Rugged, you can use the :submodules
option:
gem 'rugged', git: 'git://github.com/libgit2/rugged.git', submodules: true
If you would like to bundle rugged with SSH support add the --with-ssh
build option to the bundler config:
bundle config build.rugged --with-ssh
Usage
To load Rugged, you'll usually want to add something like this:
require 'rugged'
Use the system provided libgit2
By default, Rugged builds and uses a bundled version of libgit2. If you want to use the system library instead, you can install rugged as follows:
gem install rugged -- --use-system-libraries
Or if you are using bundler:
bundle config build.rugged --use-system-libraries
bundle install
However, note that Rugged does only support specific versions of libgit2.
Usage
Rugged gives you access to the many parts of a Git repository. You can read and write objects, walk a tree, access the staging area, and lots more. Let's look at each area individually.
Repositories
Instantiation
The repository is naturally central to Git. Rugged has a Repository
class that
you can instantiate with a path to open an existing repository :
repo = Rugged::Repository.new('path/to/my/repository')
# => #<Rugged::Repository:2228536260 {path: "path/to/my/repository/.git/"}>
You can create a new repository with init_at
. Add a second parameter :bare
to make a bare repository:
Rugged::Repository.init_at('.', :bare)
You can also let Rugged discover the path to the .git directory if you give it a subdirectory.
Rugged::Repository.discover("/Users/me/projects/repo/lib/subdir/")
# => "/Users/me/projects/repo/.git/"
Once your Repository instantiated (in the following examples, as repo
), you
can access or modify it.
Accessing a Repository
# Does the given SHA1 exist in this repository?
repo.exists?('07b44cbda23b726e5d54e2ef383495922c024202')
# => true
# Boolean repository state values:
repo.bare?
# => false
repo.empty?
# => true
repo.head_unborn?
# => false
repo.head_detached?
# => false
# Path accessors
repo.path
# => "path/to/my/repository/.git/"
repo.workdir
# => "path/to/my/repository/"
# The HEAD of the repository.
ref = repo.head
# => #<Rugged::Reference:2228467240 {name: "refs/heads/master", target: #<Rugged::Commit:2228467250 {message: "helpful message", tree: #<Rugged::Tree:2228467260 {oid: 5d6f29220a0783b8085134df14ec4d960b6c3bf2}>}>
# From the returned ref, you can also access the `name`, `target`, and target SHA:
ref.name
# => "refs/heads/master"
ref.target
# => #<Rugged::Commit:2228467250 {message: "helpful message", tree: #<Rugged::Tree:2228467260 {oid: 5d6f29220a0783b8085134df14ec4d960b6c3bf2}>}>
ref.target_id
# => "2bc6a70483369f33f641ca44873497f13a15cde5"
# Reading an object
object = repo.read('a0ae5566e3c8a3bddffab21022056f0b5e03ef07')
# => #<Rugged::OdbObject:0x109a64780>
object.len
# => 237
object.data
# => "tree 76f23f186076fc291742816721ea8c3e95567241\nparent 8e3c5c52b8f29da0adc7e8be8a037cbeaea6de6b\nauthor Vicent Mart\303\255 <[email protected]> 1333859005 +0200\ncommitter Vicent Mart\303\255 <[email protected]> 1333859005 +0200\n\nAdd `Repository#blob_at`\n"
object.type
# => :commit
Writing to a Repository
There's a few ways to write to a repository. To write directly from your instantiated repository object:
sha = repo.write(content, type)
You can also use the Commit
object directly to craft a commit; this is a bit
more high-level, so it may be preferable:
oid = repo.write("This is a blob.", :blob)
index = repo.index
index.read_tree(repo.head.target.tree)
index.add(:path => "README.md", :oid => oid, :mode => 0100644)
options = {}
options[:tree] = index.write_tree(repo)
options[:author] = { :email => "[email protected]", :name => 'Test Author', :time => Time.now }
options[:committer] = { :email => "[email protected]", :name => 'Test Author', :time => Time.now }
options[:message] ||= "Making a commit via Rugged!"
options[:parents] = repo.empty? ? [] : [ repo.head.target ].compact
options[:update_ref] = 'HEAD'
Rugged::Commit.create(repo, options)
Objects
Object
is the main object class - it shouldn't be created directly, but all of
these methods should be useful in their derived classes.
obj = repo.lookup(sha)
obj.oid # object sha
obj.type # One of :commit, :tree, :blob or :tag
robj = obj.read_raw
str = robj.data
int = robj.len
There are four base object types in Git: blobs, commits, tags, and trees. Each of these object types have a corresponding class within Rugged.
Commit Objects
commit = repo.lookup('a0ae5566e3c8a3bddffab21022056f0b5e03ef07')
# => #<Rugged::Commit:2245304380>
commit.message
# => "Add `Repository#blob_at`\n"
commit.time
# => Sat Apr 07 21:23:25 -0700 2012
commit.author
# => {:email=>"[email protected]", :name=>"Vicent Mart\303\255", :time=>Sun Apr 08 04:23:25 UTC 2012}
commit.tree
# => #<Rugged::Tree:2245269740>
commit.parents
# => [#<Rugged::Commit:2245264600 {message: "Merge pull request #47 from isaac/remotes\n\nAdd Rugged::Repository#remotes", tree: #<Rugged::Tree:2245264240 {oid: 6a2aee58a41fa007d07aa55565e2231f9b39b4a9}>]
You can also write new objects to the database this way:
author = {:email=>"[email protected]", :time=>Time.now, :name=>"Vicent Mart\303\255"}
Rugged::Commit.create(r,
:author => author,
:message => "Hello world\n\n",
:committer => author,
:parents => ["2cb831a8aea28b2c1b9c63385585b864e4d3bad1"],
:tree => some_tree,
:update_ref => "HEAD") #=> "f148106ca58764adc93ad4e2d6b1d168422b9796"
Tag Objects
tag = repo.lookup(tag_sha)
object = tag.target
sha = tag.target.oid
str = tag.target_type # :commit, :tag, :blob
str = tag.name # "v1.0"
str = tag.message
person = tag.tagger
Tree Objects
tree = repo.lookup('779fbb1e17e666832773a9825875300ea736c2da')
# => #<Rugged::Tree:2245194360>
# number of tree entries
tree.count
tree[0] # or...
tree.first # or...
tree.get_entry(0)
# => {:type=>:blob, :oid=>"99e7edb53db9355f10c6f2dfaa5a183f205d93bf", :filemode=>33188, :name=>".gitignore"}
The tree object is an Enumerable, so you can also do stuff like this:
tree.each { |e| puts e[:oid] }
tree.sort { |a, b| a[:oid] <=> b[:oid] }.map { |e| e[:name] }.join(':')
And there are some Rugged-specific methods, too:
tree.each_tree { |entry| puts entry[:name] } # list subdirs
tree.each_blob { |entry| puts entry[:name] } # list only files
You can also write trees with the TreeBuilder
:
oid = repo.write("This is a blob.", :blob)
builder = Rugged::Tree::Builder.new(repo)
builder << { :type => :blob, :name => "README.md", :oid => oid, :filemode => 0100644 }
options = {}
options[:tree] = builder.write
options[:author] = { :email => "[email protected]", :name => 'Test Author', :time => Time.now }
options[:committer] = { :email => "[email protected]", :name => 'Test Author', :time => Time.now }
options[:message] ||= "Making a commit via Rugged!"
options[:parents] = repo.empty? ? [] : [ repo.head.target ].compact
options[:update_ref] = 'HEAD'
Rugged::Commit.create(repo, options)
Blob Objects
Blob objects represent the data in the files of a Tree Object.
blob = repo.lookup('e1253910439ea902cf49be8a9f02f3c08d89ac73')
blob.content # => Gives you the content of the blob.
Streaming Blob Objects
There is currently no way to stream data from a blob, because libgit2
itself does not (yet) support
streaming blobs out of the git object database. While there are hooks and interfaces for supporting it,
the default file system backend always loads the entire blob contents into memory.
If you need to access a Blob object through an IO-like API, you can wrap it with the StringIO
class.
Note that the only advantage here is a stream-compatible interface, the complete blob object will still
be loaded into memory. Below is an example for streaming a Blob using the Sinatra framework:
# Sinatra endpoint
get "/blobs/:sha" do
repo = Rugged::Repository.new(my_repo_path)
blob = repo.lookup params[:sha]
headers({
"Vary" => "Accept",
"Connection" => "keep-alive",
"Transfer-Encoding" => "chunked",
"Content-Type" => "application/octet-stream",
})
stream do |out|
StringIO.new(blob.content).each(8000) do |chunk|
out << chunk
end
end
end
Commit Walker
Rugged::Walker
is a class designed to help you traverse a set of commits over
a repository.
You first push head SHAs onto the walker, and then call next to get a list of
the reachable commit objects one at a time. You can also hide()
commits if you
are not interested in anything beneath them (useful in situations like when
you're running something like git log master ^origin/master
).
walker = Rugged::Walker.new(repo)
walker.sorting(Rugged::SORT_TOPO | Rugged::SORT_REVERSE) # optional
walker.push(hex_sha_interesting)
walker.hide(hex_sha_uninteresting)
walker.each { |c| puts c.inspect }
walker.reset
Index ("staging") area
We can inspect and manipulate the Git Index as well. To work with the index
inside an existing repository, instantiate it by using the Repository.index
method instead of manually opening the Index by its path.
index = Rugged::Index.new(path)
# Re-read the index file from disk.
index.reload
# Count up index entries.
count = index.count
# The collection of index entries.
index.entries
# Iterating over index entries.
index.each { |i| puts i.inspect }
# Get a particular entry in the index.
index[path]
# Unstage.
index.remove(path)
# Stage. Also updates existing entry if there is one.
index.add(ientry)
# Stage. Create ientry from file in path, updates the index.
index.add(path)
Refs
You can access references through the Rugged::ReferenceCollection
object returned by Repository#references
.
ref = repo.references["refs/heads/master"]
sha = ref.target_id
str = ref.type # :direct
str = ref.name # "refs/heads/master"
You can also easily iterate over all references:
repo.references.each do |ref|
puts ref.name
end
Or only over references that match the given pattern (glob):
repo.references.each("refs/tags/*") do |ref|
puts ref.name
end
It is also easy to create, update, rename or delete a reference:
ref = repo.references.create("refs/heads/unit_test", some_commit_sha)
repo.references.update(ref, new_sha) # or...
repo.references.update("refs/heads/unit_test", new_sha)
repo.references.rename(ref, "refs/heads/blead") # or...
repo.references.rename("refs/heads/unit_test", "refs/heads/blead")
repo.references.delete(ref) # or...
repo.references.delete("refs/heads/unit_test") # or...
Finally, you can access the reflog for any branch:
ref = repo.references["refs/heads/master"]
entry = ref.log.first
sha = entry[:id_old]
sha = entry[:id_new]
str = entry[:message]
prsn = entry[:committer]
Branches
The Rugged::BranchCollection
object returned by Repository#branches
will help
you with all of your branch-related needs.
Iterate over all branches:
repo.branches.each_name().sort
# => ["master", "origin/HEAD", "origin/master", "origin/packed"]
repo.branches.each_name(:local).sort
# => ["master"]
repo.branches.each_name(:remote).sort
# => ["origin/HEAD", "origin/master", "origin/packed"]
Look up branches and get attributes:
branch = repo.branches["master"]
branch.name # => 'master'
branch.canonical_name # => 'refs/heads/master'
Look up the id for the target of a branch:
repo.branches["master"].target_id
# => "36060c58702ed4c2a40832c51758d5344201d89a"
Creation and deletion:
branch = repo.branches.create("test_branch", "HEAD")
repo.branches.rename("test_branch", "new_branch") # or...
repo.branches.rename("refs/heads/test_branch", "new_branch") # or...
repo.branches.rename(ref, "new_branch") # or...
repo.branches.delete("test_branch") # or...
repo.branches.delete("refs/heads/test_branch") # or...
repo.branches.delete(ref) # or...
Diffs
There are various ways to get hands on diffs:
# Diff between two subsequent commits
diff_commits = commit_object.parents[0].diff(commit_object)
# Diff between two tree objects
diff_trees = tree_object_a.diff(tree_object_b)
# Diff between index/staging and current working directory
diff_index = repository.index.diff
# Diff between index/staging and another diffable (commit/tree/index)
diff_index_diffable = repository.index.diff(some_diffable)
When you already have a diff object, you can examine it:
# Get patch
diff.patch
=> "diff --git a/foo1 b/foo1\nnew file mode 100644\nindex 0000000..81b68f0\n--- /dev/null\n+++ b/foo1\n@@ -0,0 +1,2 @@\n+abc\n+add line1\ndiff --git a/txt1 b/txt1\ndeleted file mode 100644\nindex 81b68f0..0000000\n--- a/txt1\n+++ /dev/null\n@@ -1,2 +0,0 @@\n-abc\n-add line1\ndiff --git a/txt2 b/txt2\nindex a7bb42f..a357de7 100644\n--- a/txt2\n+++ b/txt2\n@@ -1,2 +1,3 @@\n abc2\n add line2-1\n+add line2-2\n"
# Get delta (faster, if you only need information on what files changed)
diff.each_delta{ |d| puts d.inspect }
#<Rugged::Diff::Delta:70144372137380 {old_file: {:oid=>"0000000000000000000000000000000000000000", :path=>"foo1", :size=>0, :flags=>6, :mode=>0}, new_file: {:oid=>"81b68f040b120c9627518213f7fc317d1ed18e1c", :path=>"foo1", :size=>14, :flags=>6, :mode=>33188}, similarity: 0, status: :added>
#<Rugged::Diff::Delta:70144372136540 {old_file: {:oid=>"81b68f040b120c9627518213f7fc317d1ed18e1c", :path=>"txt1", :size=>14, :flags=>6, :mode=>33188}, new_file: {:oid=>"0000000000000000000000000000000000000000", :path=>"txt1", :size=>0, :flags=>6, :mode=>0}, similarity: 0, status: :deleted>
#<Rugged::Diff::Delta:70144372135780 {old_file: {:oid=>"a7bb42f71183c162efea5e4c80597437d716c62b", :path=>"txt2", :size=>17, :flags=>6, :mode=>33188}, new_file: {:oid=>"a357de7d870823acc3953f1b2471f9c18d0d56ea", :path=>"txt2", :size=>29, :flags=>6, :mode=>33188}, similarity: 0, status: :modified>
# Detect renamed files
# Note that the status field changed from :added/:deleted to :renamed
diff.find_similar!
diff.each_delta{ |d| puts d.inspect }
#<Rugged::Diff::Delta:70144372230920 {old_file: {:oid=>"81b68f040b120c9627518213f7fc317d1ed18e1c", :path=>"txt1", :size=>14, :flags=>6, :mode=>33188}, new_file: {:oid=>"81b68f040b120c9627518213f7fc317d1ed18e1c", :path=>"foo1", :size=>14, :flags=>6, :mode=>33188}, similarity: 100, status: :renamed>
#<Rugged::Diff::Delta:70144372230140 {old_file: {:oid=>"a7bb42f71183c162efea5e4c80597437d716c62b", :path=>"txt2", :size=>17, :flags=>6, :mode=>33188}, new_file: {:oid=>"a357de7d870823acc3953f1b2471f9c18d0d56ea", :path=>"txt2", :size=>29, :flags=>6, :mode=>33188}, similarity: 0, status: :modified>
# Merge one diff into another (mutating the first one)
diff1.merge!(diff2)
# Write a patch into a file (or any other object responding to write)
# Note that the patch as in diff.patch will be written, it won't be applied
file = File.open('/some/file', 'w')
diff.write_patch(file)
file.close
Config files
It's also easy to read and manipulate the Git config file data with Rugged.
# Read values
repo.config['core.bare']
# Set values
repo.config['user.name'] = true
# Delete values
repo.config.delete('user.name')
General methods
Rugged also includes a general library for handling basic Git operations. One of these is converting a raw sha (20 bytes) into a readable hex sha (40 characters).
Rugged.hex_to_raw('bfde59cdd0dfac1d892814f66a95641abd8a1faf')
# => "\277\336Y\315\320\337\254\035\211(\024\366j\225d\032\275\212\037\257"
Rugged.raw_to_hex("\277\336Y\315\320\337\254\035\211(\024\366j\225d\032\275\212\037\257")
=> "bfde59cdd0dfac1d892814f66a95641abd8a1faf"
Alternative backends
You can store bare repositories in alternative backends instead of storing on disk. (see
redbadger/rugged-redis
for an example of how a rugged backend works).
a_backend = MyProject::CustomObjectDB(opt1: 'setting', opt2: 'setting')
repo = Rugged::Repository.init_at('repo_name', :bare, backend: a_backend)
# or
repo = Rugged::Repository.bare('repo_name', backend: a_backend)
Contributing
Fork libgit2/rugged on GitHub, make it awesomer (preferably in a branch named for the topic), send a pull request.
Development
Simply clone and install:
$ git clone https://github.com/libgit2/rugged.git
$ cd rugged
$ bundle install
$ rake compile
$ rake test
Support
We encourage you to use StackOverflow for any questions or concerns regarding Rugged. Please tag your questions with the rugged keyword.
For bug reports, please open a ticket on the GitHub issue tracker.
Authors
- Vicent Marti [email protected]
- Scott Chacon [email protected]
- Arthur Schreiber [email protected]
License
MIT. See LICENSE file.
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