Top Related Projects
A framework for managing and maintaining multi-language pre-commit hooks.
Git hooks made easy 🐶 woof!
Fast and powerful Git hooks manager for any type of projects.
The commitizen command line utility. #BlackLivesMatter
📓 Lint commit messages
Quick Overview
Overcommit is a fully configurable and extendable Git hook manager written in Ruby. It allows developers to easily manage and share Git hooks across projects, ensuring consistent code quality and workflow practices. Overcommit provides a wide range of built-in hooks and supports custom hook creation.
Pros
- Highly configurable and customizable
- Large collection of built-in hooks for various tasks
- Easy to share and maintain consistent hooks across projects
- Supports parallel hook execution for improved performance
Cons
- Requires Ruby installation and knowledge
- Can potentially slow down Git operations if many hooks are enabled
- Learning curve for advanced configuration and custom hook creation
- May introduce additional complexity to the development workflow
Code Examples
- Basic Overcommit configuration (
.overcommit.yml
):
PreCommit:
RuboCop:
enabled: true
command: ['bundle', 'exec', 'rubocop']
TrailingWhitespace:
enabled: true
PrePush:
RSpec:
enabled: true
command: ['bundle', 'exec', 'rspec']
- Custom hook implementation:
module Overcommit::Hook::PreCommit
class CustomLinter < Base
def run
errors = []
applicable_files.each do |file|
if File.read(file).include?('TODO')
errors << Overcommit::Hook::Message.new(
:error,
file,
nil,
'TODO found in file'
)
end
end
errors
end
end
end
- Overcommit hook configuration with options:
PreCommit:
CustomLinter:
enabled: true
include: '**/*.rb'
exclude: 'vendor/**/*'
required: true
quiet: false
Getting Started
-
Install Overcommit:
gem install overcommit
-
Initialize Overcommit in your project:
cd /path/to/your/project overcommit --install
-
Configure hooks in
.overcommit.yml
:PreCommit: RuboCop: enabled: true TrailingWhitespace: enabled: true
-
Sign the configuration:
overcommit --sign
Now Overcommit will run the configured hooks when you commit changes.
Competitor Comparisons
A framework for managing and maintaining multi-language pre-commit hooks.
Pros of pre-commit
- Language-agnostic with support for multiple programming languages
- Extensive library of pre-built hooks and easy integration with custom hooks
- Active community and frequent updates
Cons of pre-commit
- Requires Python installation, which may not be ideal for non-Python projects
- Configuration can be more complex for advanced use cases
Code Comparison
pre-commit configuration (.pre-commit-config.yaml
):
repos:
- repo: https://github.com/pre-commit/pre-commit-hooks
rev: v4.1.0
hooks:
- id: trailing-whitespace
- id: end-of-file-fixer
Overcommit configuration (.overcommit.yml
):
PreCommit:
TrailingWhitespace:
enabled: true
EndOfFile:
enabled: true
Both pre-commit and Overcommit are powerful tools for managing Git hooks. pre-commit offers a more language-agnostic approach with a wide range of pre-built hooks, making it suitable for diverse projects. It has a larger community and more frequent updates. However, it requires Python installation and can have a steeper learning curve for complex configurations.
Overcommit, being Ruby-based, may be more appealing to Ruby developers and offers a simpler configuration syntax. It provides a good balance of features and ease of use but has a smaller ecosystem compared to pre-commit.
Git hooks made easy 🐶 woof!
Pros of husky
- Simpler setup and configuration process
- Lightweight and focused specifically on Git hooks
- Widely adopted in the JavaScript ecosystem
Cons of husky
- Limited to JavaScript projects and Node.js environments
- Less flexible and customizable compared to Overcommit
- Fewer built-in hooks and linters out of the box
Code comparison
Husky configuration (package.json):
{
"husky": {
"hooks": {
"pre-commit": "npm test",
"pre-push": "npm run lint"
}
}
}
Overcommit configuration (.overcommit.yml):
PreCommit:
RuboCop:
enabled: true
command: ['bundle', 'exec', 'rubocop']
TestUnit:
enabled: true
command: ['bundle', 'exec', 'rake', 'test']
Husky focuses on simplicity and ease of use, making it popular among JavaScript developers. It integrates seamlessly with npm scripts and requires minimal configuration. However, it lacks the extensive customization options and language-agnostic approach of Overcommit.
Overcommit, on the other hand, offers a more comprehensive solution for managing Git hooks across various programming languages and environments. It provides a wider range of built-in hooks and linters, along with greater flexibility in configuration. However, this comes at the cost of a steeper learning curve and more complex setup process compared to husky.
Fast and powerful Git hooks manager for any type of projects.
Pros of Lefthook
- Written in Go, offering faster execution and easier installation across platforms
- Supports multiple languages and frameworks out of the box
- Provides parallel execution of hooks for improved performance
Cons of Lefthook
- Less mature project with fewer contributors and stars on GitHub
- Limited configuration options compared to Overcommit's extensive customization
- Smaller ecosystem and community support
Code Comparison
Lefthook configuration (.lefthook.yml
):
pre-commit:
parallel: true
commands:
linter:
run: rubocop {staged_files}
Overcommit configuration (.overcommit.yml
):
PreCommit:
RuboCop:
enabled: true
command: ['bundle', 'exec', 'rubocop']
on_warn: fail
Both tools aim to manage and execute Git hooks, but they differ in implementation and features. Lefthook focuses on simplicity and performance, while Overcommit offers more extensive customization options. The choice between the two depends on project requirements, team preferences, and the desired level of hook management complexity.
The commitizen command line utility. #BlackLivesMatter
Pros of cz-cli
- Focuses specifically on standardizing commit messages
- Provides an interactive CLI for creating structured commits
- Supports custom commit message formats and adapters
Cons of cz-cli
- Limited to commit message formatting, lacks broader Git hook functionality
- Requires additional setup and configuration for team adoption
- May not integrate as seamlessly with existing workflows
Code Comparison
cz-cli:
module.exports = {
types: [
{ value: 'feat', name: 'feat: A new feature' },
{ value: 'fix', name: 'fix: A bug fix' },
// ... more types
]
};
overcommit:
PreCommit:
RuboCop:
enabled: true
command: ['bundle', 'exec', 'rubocop']
TrailingWhitespace:
enabled: true
Key Differences
- overcommit is a more comprehensive Git hook manager, supporting various pre-commit, commit-msg, and other hooks
- cz-cli focuses solely on standardizing commit messages through an interactive CLI
- overcommit is written in Ruby, while cz-cli is JavaScript-based
- overcommit provides a wider range of out-of-the-box hooks and checks
- cz-cli offers more flexibility in customizing commit message formats
Both tools aim to improve Git workflow, but they address different aspects of the development process. The choice between them depends on whether you need broader Git hook management or specific focus on commit message standardization.
📓 Lint commit messages
Pros of commitlint
- Focuses specifically on commit message formatting, ensuring consistency
- Integrates well with Conventional Commits specification
- Supports custom configurations and plugins for extended functionality
Cons of commitlint
- Limited to commit message linting, unlike Overcommit's broader scope
- Requires additional setup for Git hooks, whereas Overcommit manages hooks directly
- May have a steeper learning curve for teams not familiar with Conventional Commits
Code Comparison
commitlint:
module.exports = {
extends: ['@commitlint/config-conventional'],
rules: {
'type-enum': [2, 'always', ['feat', 'fix', 'docs', 'style', 'refactor']]
}
};
Overcommit:
PreCommit:
RuboCop:
enabled: true
command: ['bundle', 'exec', 'rubocop']
EsLint:
enabled: true
command: ['yarn', 'run', 'eslint']
Summary
commitlint is a specialized tool for enforcing commit message conventions, particularly useful for teams following the Conventional Commits specification. It offers deep customization of commit message rules but focuses solely on this aspect.
Overcommit, on the other hand, is a more comprehensive Git hook manager that can handle various pre-commit, commit-msg, and other Git hooks. It provides a wider range of checks and actions beyond just commit messages, making it more versatile for overall project quality control.
The choice between the two depends on whether a team needs specific commit message formatting (commitlint) or a broader set of Git hooks and checks (Overcommit).
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overcommit
is a tool to manage and configure
Git hooks.
In addition to supporting a wide variety of hooks that can be used across multiple repositories, you can also define hooks specific to a repository which are stored in source control. You can also easily add your existing hook scripts without writing any Ruby code.
- Requirements
- Installation
- Usage
- Continuous Integration
- Configuration
- Built-In Hooks
- Repo-Specific hooks
- Security
- Contributing
- Community
- Changelog
- License
Requirements
This project aims to support the following Ruby runtimes on *nix (and best effort on Windows):
- Ruby 2.6+
Dependencies
Some hooks have third-party dependencies. For example, to lint your SCSS files, you're going to need the scss_lint gem.
Depending on the hooks you enable/disable for your repository, you'll need to ensure your development environment already has those dependencies installed. Most hooks will display a warning if a required executable isn't available.
If you are using Bundler to manage your Ruby gem dependencies, you'll likely
want to use the gemfile
option to control which gem versions are
available during your hook runs.
Installation
overcommit
is installed via RubyGems. It is strongly
recommended that your environment support running gem install
without
requiring root user privileges via sudo
or otherwise. Using a Ruby version
manager like rbenv
or
rvm
is recommended.
Once you have an environment that allows you to install gems without sudo
,
run:
gem install overcommit
You can then run the overcommit
command to install hooks into repositories.
mkdir important-project
cd important-project
git init
overcommit --install
After running overcommit --install
, any existing hooks for your repository
which Overcommit will replace will be backed up. You can restore everything to
the way it was by running overcommit --uninstall
.
Automatically Install Overcommit Hooks
If you want to use overcommit
for all repositories you create/clone going
forward, add the following to automatically run in your shell environment:
export GIT_TEMPLATE_DIR="$(overcommit --template-dir)"
The GIT_TEMPLATE_DIR
provides a directory for Git to use as a template
for automatically populating the .git
directory. If you have your own
template directory, you might just want to copy the contents of
overcommit --template-dir
to that directory.
Usage
Once you've installed the hooks via overcommit --install
, they will
automatically run when the appropriate hook is triggered.
The overcommit
executable supports the following command-line flags:
Command Line Flag | Description |
---|---|
-i /--install | Install Overcommit hooks in a repository |
-u /--uninstall | Remove Overcommit hooks from a repository |
-f /--force | Don't bail on install if other hooks already exist--overwrite them |
-l /--list-hooks | Display all available hooks in the current repository |
-r /--run | Run pre-commit hook against all tracked files in repository |
-t /--template-dir | Print location of template directory |
-h /--help | Show command-line flag documentation |
-v /--version | Show version |
Skipping Hooks
Sometimes a hook will report an error that for one reason or another you'll want
to ignore. To prevent these errors from blocking your commit, you can include
the name of the relevant hook in the SKIP
environment variable, e.g.
SKIP=RuboCop git commit
If you would prefer to specify a whitelist of hooks rather than a blacklist, use
the ONLY
environment variable instead.
ONLY=RuboCop git commit
Use this feature sparingly, as there is no point to having the hook in the first
place if you're just going to ignore it. If you want to ensure a hook is never
skipped, set the required
option to true
in its configuration. If you
attempt to skip it, you'll see a warning telling you that the hook is required,
and the hook will still run.
Disabling Overcommit
If you have scripts that execute git
commands where you don't want Overcommit
hooks to run, you can disable Overcommit entirely by setting the
OVERCOMMIT_DISABLE
environment variable.
OVERCOMMIT_DISABLE=1 ./my-custom-script
Disabling Colorized Output
Overcommit automatically colorizes its output based on whether it is outputting
to a TTY. However, you can manually enable/disable color by setting the
OVERCOMMIT_COLOR
environment variable.
OVERCOMMIT_COLOR=0 git commit
Continuous Integration
You can run the same set of hooks that would be executed in a pre-commit hook
against your entire repository by running overcommit --run
. This makes it
easy to have the checks verified by a CI service such as
Travis CI, including custom hooks you've written
yourself.
The --run
flag works by creating a pre-commit context that assumes all the
files in your repository have changed, and follows the same rules as a normal
pre-commit check. If any hook fails with an error, it will return a non-zero
exit code.
Configuration
Overcommit provides a flexible configuration system that allows you to tailor
the built-in hooks to suit your workflow. All configuration specific to a
repository is stored in .overcommit.yml
in the top-level directory of the
repository.
When writing your own configuration, it will automatically extend the default configuration, so you only need to specify your configuration with respect to the default. In order to enable/disable hooks, you can add the following to your repo-specific configuration file:
PreCommit:
RuboCop:
enabled: true
command: ['bundle', 'exec', 'rubocop'] # Invoke within Bundler context
Additionally, you may wish to have repo-specific configurations that are local to your computer that are not part of the shared repo config.
Adding a .local-overcommit.yml
file in the top-level directory of the repository adds another configuration file. This file works the same as .overcommit.yml
.
Adding this to ignored files in a git repo will allow you to have a local configuration per repo.
Hook Options
Individual hooks expose both built-in configuration options as well as their own custom options unique to each hook. The following table lists all built-in configuration options:
Option | Description |
---|---|
enabled | If false , this hook will never be run |
required | If true , this hook cannot be skipped via the SKIP environment variable |
quiet | If true , this hook does not display any output unless it warns/fails |
description | Message displayed while hook is running. |
requires_files | If true , this hook runs only if files that are applicable to it have been modified. See include and exclude for how to specify applicable files. |
include | File paths or glob patterns of files that apply to this hook. The hook will only run on the applicable files when they have been modified. Note that the concept of modified varies for different types of hooks. By default, include matches every file until you specify a list of patterns. |
exclude | File paths or glob patterns of files that do not apply to this hook. This is used to exclude any files that would have been matched by include . |
exclude_branches | List of branch names or glob patterns of branches that this hook should not run against. |
exclude_remotes | PrePush hooks only. List of remote names that the hook should not run against. |
include_remote_ref_deletions | PrePush hooks only. By default, PrePush hooks will not run for pushes that delete a remote ref (i.e. branches or tags). Set to true to have the hook run even for deleted remote ref. |
problem_on_unmodified_line | How to treat errors reported on lines that weren't modified during the action captured by this hook (e.g. for pre-commit hooks, warnings/errors reported on lines that were not staged with git add may not be warnings/errors you care about). Valid values are report : report errors/warnings as-is regardless of line location (default); warn : report errors as warnings if they are on lines you didn't modify; and ignore : don't display errors/warnings at all if they are on lines you didn't modify (ignore is not recommended). |
on_fail | Change the status of a failed hook to warn or pass . This allows you to treat failures as warnings or potentially ignore them entirely, but you should use caution when doing so as you might be hiding important information. |
on_warn | Similar to on_fail , change the status of a hook that returns a warning status to either pass (you wish to silence warnings entirely) or fail (you wish to treat all warnings as errors). |
required_executable | Name of an executable that must exist in order for the hook to run. If this is a path (e.g. ./bin/ruby ), ensures that the executable file exists at the given location relative to the repository root. Otherwise, if it just the name of an executable (e.g. ruby ) checks if the executable can be found in one of the directories in the PATH environment variable. Set this to a specific path if you want to always use an executable that is stored in your repository. (e.g. RubyGems bin stubs, Node.js binaries, etc.) |
required_library /required_libraries | List of Ruby libraries to load with Kernel.require before the hook runs. This is specifically for hooks that integrate with external Ruby libraries. |
command | Array of arguments to use as the command. How each hook uses this is different, but it allows hooks to change the context with which they run. For example, you can change the command to be ['bundle', 'exec', 'rubocop'] instead of just rubocop so that you can use the gem versions specified in your local Gemfile.lock . This defaults to the name of the required_executable . |
flags | Array of arguments to append to the command . This is useful for customizing the behavior of a tool. It's also useful when a newer version of a tool removes/renames existing flags, so you can update the flags via your .overcommit.yml instead of waiting for an upstream fix in Overcommit. |
env | Hash of environment variables the hook should be run with. This is intended to be used as a last resort when an executable a hook runs is configured only via an environment variable. Any pre-existing environment variables with the same names as ones defined in env will have their original values restored after the hook runs. NOTE: Currently, only strings are accepted values. Boolean values will raise an error. WARNING: If you set the same environment variable for multiple hooks and you've enabled parallel hook runs, since the environment is shared across all threads you could accidentally have these separate hooks trample on each other. In this case, you should disable parallelization for the hook using the parallelize option. |
parallelize | Whether to allow this hook to be run concurrently with other hooks. Disable this if the hook requires access to a shared resource that other hooks may also access and modify (e.g. files, the git index, process environment variables, etc). |
processors | The number of processing units to reserve for this hook. This does not reserve CPUs, but indicates that out of the total number of possible concurrent hooks allowed by the global concurrency option, this hook requires the specified number. Thus in the typical case where concurrency is set to the number of available cores (default), and you have a hook that executes an application which itself creates 2 threads (or is otherwise scheduled on 2 cores), you can indicate that Overcommit should allocate 2 processors to the hook. Ideally this means your hooks won't put undue load on your available cores. |
install_command | Command the user can run to install the required_executable (or alternately the specified required_libraries ). This is intended for documentation purposes, as Overcommit does not install software on your behalf since there are too many edge cases where such behavior would result in incorrectly configured installations (e.g. installing a Python package in the global package space instead of in a virtual environment). |
skip_file_checkout | Whether to skip this hook for file checkouts (e.g. git checkout some-ref -- file ). Only applicable to PostCheckout hooks. |
skip_if | Array of arguments to be executed to determine whether or not the hook should run. For example, setting this to a value of ['bash', '-c', '! which my-executable'] would allow you to skip running this hook if my-executable was not in the bin path. |
In addition to the built-in configuration options, each hook can expose its
own unique configuration options. The AuthorEmail
hook, for example, allows
you to customize the regex used to check commit author emails via the pattern
option—useful if you want to enforce that developers use a company
email address for their commits. This provides incredible flexibility for hook
authors as you can make your hooks sufficiently generic and then customize them
on a per-project basis.
Hook Categories
Hook configurations are organized into categories based on the type of hook. So
pre-commit
hooks are located under the PreCommit
option, and post-commit
hooks are located under PostCommit
. See the
default configuration for a thorough example.
The ALL
Hook
Within a hook category, there is a special type of hook configuration that
applies to all hooks in the category. This configuration looks like a normal
hook configuration, except it has the name ALL
:
PreCommit:
ALL:
problem_on_unmodified_line: warn
requires_files: true
required: false
quiet: false
SomeHook:
enabled: true
...
The ALL
configuration is useful for when you want to
DRY up your
configuration, or when you want to apply changes across an entire category of
hooks.
Note that array configuration options (like include
/exclude
) in the
special ALL
hook section are not merged with individual hook configurations
if custom ones are defined for the hook.
Any custom configuration option for include
/exclude
will replace the ALL
hook's configuration. If you want to have a global list of default exclusions
and extend them with a custom list, you can use YAML references, e.g.
PreCommit:
ALL:
exclude: &default_excludes
- 'node_modules/**/*'
- 'vendor/**/*'
MyHook:
exclude:
- *default_excludes
- 'another/directory/in/addition/to/default/excludes/**/*'
Again, you can consult the default configuration for
detailed examples of how the ALL
hook can be used.
Gemfile
You may want to enforce the version of Overcommit or other gems that you use in
your git hooks. This can be done by specifying the gemfile
option in your
.overcommit.yml
.
The gemfile
option tells Overcommit to load the specified file with
Bundler, the standard gem dependency manager for Ruby.
This is useful if you would like to:
- Enforce a specific version of Overcommit to use for all hook runs (or to use a version from the master branch that has not been released yet)
- Enforce a specific version or unreleased branch is used for a gem you want to use in your git hooks
Loading a Bundler context necessarily adds a startup delay to your hook runs
as Bundler parses the specified Gemfile
and checks that the dependencies are
satisfied. Thus for projects with many gems this can introduce a noticeable
delay.
The recommended workaround is to create a separate Gemfile
in the root of
your repository (call it .overcommit_gems.rb
), and include only the gems that
your Overcommit hooks need in order to run. Generate the associated lock file
by running:
bundle install --gemfile=.overcommit_gems.rb
...and commit .overcommit_gems.rb
and the resulting
.overcommit_gems.rb.lock
file to your repository. Set your gemfile
option
to .overcommit_gems.rb
, and you're all set.
Using a smaller Gemfile containing only the gems used by your Overcommit hooks
significantly reduces the startup delay in your hook runs. It is thus the
recommended approach unless your project has a relatively small number of gems
in your Gemfile
.
Plugin Directory
You can change the directory that project-specific hooks are loaded from via
the plugin_directory
option. The default directory is .git-hooks
.
Quiet Hook Runs
If you prefer to have your hooks be completely silent unless there is a
problem, you can set the top-level quiet
option to true
. Note that if you
have many hooks or slow hooks this may not be desirable, as you don't get
visual feedback indicating the general progress of the hook run.
Concurrency
Overcommit runs hooks in parallel by default, with a number of concurrent
workers equal to the number of logical cores on your machine. If you know your
particular set of hooks would benefit from higher/lower number of workers, you
can adjust the global concurrency
option. You can define single-operator
mathematical expressions, e.g. %{processors} * 2
, or %{processors} / 2
.
concurrency: '%{processors} / 4'
Note that individual hooks can specify the number of processors they require
with the processors
hook option. See the hook options
section for more details.
Signature Verification
You can disable manual verification of signatures by setting
verify_signatures
to false
. See the Security section for more
information on this option and what exactly it controls.
Built-In Hooks
Currently, Overcommit supports the following hooks out of the box—simply
enable them in your .overcommit.yml
.
Note: Hooks with a *
are enabled by default.
Warning: This list represents the list of hooks available on the master
branch. Please consult the change log to view which hooks have
not been released yet.
CommitMsg
commit-msg
hooks are run against every commit message you write before a
commit is created. A failed hook prevents a commit from being created. These
hooks are useful for enforcing policies on your commit messages, e.g. ensuring
a task ID is included for tracking purposes, or ensuring your commit messages
follow proper formatting guidelines.
*
CapitalizedSubject*
EmptyMessage- GerritChangeId
- HardTabs
- MessageFormat
- RussianNovel
*
SingleLineSubject- SpellCheck
*
TextWidth*
TrailingPeriod
PostCheckout
post-checkout
hooks run after a successful git checkout
, or in other words
any time your HEAD
changes or a file is explicitly checked out.
PostCommit
post-commit
hooks run after a commit is successfully created. A hook failing
in this case does not prevent the commit since it has already occurred;
however, it can be used to alert the user to some issue.
- BowerInstall
- BundleInstall
- Commitplease
- ComposerInstall
- GitGuilt
- IndexTags
- NpmInstall
- SubmoduleStatus
- YarnInstall
PostMerge
post-merge
hooks run after a git merge
executes successfully with no merge
conflicts. A hook failing in this case does not prevent the merge since it has
already occurred; however, it can be used to alert the user to some issue.
PostRewrite
post-rewrite
hooks run after a commit is modified by a git commit --amend
or git rebase
. A hook failing in this case does not prevent the rewrite since
it has already occurred; however, it can be used to alert the user to some
issue.
PreCommit
pre-commit
hooks are run after git commit
is executed, but before the
commit message editor is displayed. If a hook fails, the commit will not be
created. These hooks are ideal for syntax checkers, linters, and other checks
that you want to run before you allow a commit to even be created.
WARNING: pre-commit hooks cannot have side effects
pre-commit
hooks currently do not support hooks with side effects (such as
modifying files and adding them to the index with git add
). This is a
consequence of Overcommit's pre-commit hook stashing behavior to ensure hooks
are run against only the changes you are about to commit.
Without Overcommit, the proper way to write a pre-commit
hook would be to
extract the staged changes into temporary files and lint those files
instead of whatever contents are in your working tree (as you don't want
unstaged changes to taint your results). Overcommit takes care
of this for you, but to do it in a generalized way introduces this
limitation. See the thread tracking this
issue for more details.
*
AuthorEmail*
AuthorName- BerksfileCheck
*
BrokenSymlinks- BundleAudit
- BundleCheck
- BundleOutdated
*
CaseConflicts- ChamberSecurity
- CodeSpellCheck
- CoffeeLint
- Credo
- CssLint
- DartAnalyzer
- Dogma
- ErbLint
- EsLint
- ExecutePermissions
- Fasterer
- FileSize
- FixMe
- Flay
- Foodcritic
- ForbiddenBranches
- GoLint
- GoVet
- Hadolint
- LicenseFinder
- HamlLint
- HardTabs
- Hlint
- HtmlHint
- HtmlTidy
- ImageOptim
- JavaCheckstyle
- Jscs
- JsHint
- JsLint
- Jsl
- JsonSyntax
- KtLint
- LicenseHeader
- LineEndings
- LocalPathsInGemfile
- Mdl
*
MergeConflicts- NginxTest
- PhpCs
- PhpCsFixer
- PhpLint
- PhpStan
- Pronto
- PuppetLint
- PuppetMetadataJsonLint
- Pycodestyle
- Pydocstyle
- Pyflakes
- Pylint
- PythonFlake8
- RakeTarget
- RailsBestPractices
- RailsSchemaUpToDate
- Reek
- RuboCop
- RubyLint
- RubySyntax
- SwiftLint
- Scalariform
- Scalastyle
- ScssLint
- SemiStandard
- ShellCheck
- SlimLint
- Sorbet
- Sqlint
- Standard
- Stylelint
- TrailingWhitespace
- TravisLint
- TsLint
- Vint
- W3cCss
- W3cHtml
- XmlLint
- XmlSyntax
- YamlLint
- YamlSyntax
- YardCoverage
- YarnCheck
PrePush
pre-push
hooks are run during git push
, after remote refs have been updated
but before any objects have been transferred. If a hook fails, the push is
aborted.
- Brakeman
- FlutterTest
- Minitest
- PhpUnit
- Pronto
- ProtectedBranches
- PubTest
- Pytest
- PythonNose
- RakeTarget
- RSpec
- TestUnit
PreRebase
pre-rebase
hooks are run during git rebase
, before any commits are rebased.
If a hook fails, the rebase is aborted.
Repo-Specific hooks
Out of the box, overcommit
comes with a set of hooks that enforce a variety of
styles and lints. However, some hooks only make sense in the context of a
specific repository.
For example, you can have a number of simple checks that run
against your code to catch common errors. For example, if you use
RSpec, you can make sure all spec files contain the
line require 'spec_helper'
.
Inside our repository, we can add the file
.git-hooks/pre_commit/ensure_spec_helper.rb
in order to automatically check
our spec files:
module Overcommit::Hook::PreCommit
class EnsureSpecHelper < Base
def run
errors = []
applicable_files.each do |file|
if File.read(file) !~ /^require 'spec_helper'/
errors << "#{file}: missing `require 'spec_helper'`"
end
end
return :fail, errors.join("\n") if errors.any?
:pass
end
end
end
The corresponding configuration for this hook would look like:
PreCommit:
EnsureSpecHelper:
enabled: true
description: 'Checking for missing inclusion of spec_helper'
include: '**/*_spec.rb'
Adding Existing Git Hooks
You might already have hook scripts written which you'd like to integrate with Overcommit right away. To make this easy, Overcommit allows you to include your hook script in your configuration without writing any Ruby code. For example:
PostCheckout:
CustomScript:
enabled: true
required_executable: './bin/custom-script'
So long as a command is given (either by specifying the command
option
directly or specifying required_executable
) a special hook is created that
executes the command and appends any arguments and standard input stream that
would have been passed to the regular hook. The hook passes or fails based
on the exit status of the command.
The script is executed as if Git were calling the hook directly. If you want to understand which arguments are passed to the script depending on the type of hook, see the git-hooks documentation.
Security
While Overcommit can make managing Git hooks easier and more convenient, this convenience can come at a cost of being less secure.
Since installing Overcommit hooks will allow arbitrary plugin code in your repository to be executed, you expose yourself to an attack where checking out code from a third party can result in malicious code being executed on your system.
As an example, consider the situation where you have an open source project.
An attacker could submit a pull request which adds a post-checkout
hook
that executes some malicious code. When you fetch and checkout this pull
request, the post-checkout
hook will be run on your machine, along with
the malicious code that you just checked out.
Overcommit attempts to address this problem by storing a signature of your configuration and all hook plugin code since the last time it ran. When the signature changes, a warning is displayed alerting you to which plugins have changed. It is then up to you to manually verify that the changes are not malicious, and then continue running the hooks.
The signature is derived from the contents of the plugin's source code itself
and any configuration for the plugin. Thus a change to the plugin's source
code or your local repo's .overcommit.yml
file could result in a signature
change.
Disabling Signature Checking
In typical usage, your plugins usually don't change too often, so this warning shouldn't become a nuisance. However, users who work within proprietary repositories where all developers who can push changes to the repository already have a minimum security clearance may wish to disable this check.
While not recommended, you can disable signature verification by setting
verify_signatures
to false
in your .overcommit.yml
file.
Regardless of whether you have verify_signatures
disabled for your project,
if you are running Overcommit for the first time you will need to sign your
configuration with overcommit --sign
. This needs to happen once so
Overcommit can record in your local git repo's configuration (outside of source
control) that you intend to enable/disable verification. This way if someone
else changes verify_signatures
you'll be asked to confirm the change.
Contributing
We love contributions to Overcommit, be they bug reports, feature ideas, or pull requests. See our guidelines for contributing to best ensure your thoughts, ideas, or code get merged.
Community
All major discussion surrounding Overcommit happens on the GitHub issues list.
Changelog
If you're interested in seeing the changes and bug fixes between each version
of overcommit
, read the Overcommit Changelog.
License
This project is released under the MIT license.
The Overcommit logo is adapted from the Git Logo by Jason Long, and is licensed under the Creative Commons Attribution 3.0 Unported License.
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