Infrastructure/Git/Configuration: Difference between revisions

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=== Quick Start ===
=== Quick Start ===


To quickly set up git to just build a copy of KDE you do not need to perform any git configuration, however the following steps will simplify using Git:
To quickly set up git to just build a copy of any KDE project, you do not need to perform any git configuration, however the following step will simplify using Git:


* [[../Configuration#URL_Renaming|URL Renaming]]
* [[../Configuration#URL_Renaming|URL Renaming]]
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To set a Git setting at User level (i.e. in ~/.gitconfig):
To set a Git setting at User level (i.e. in ~/.gitconfig):


git config --global <key> <value>
git config --global <key> <value>


To set a Git setting at repo level (i.e in <repo>/.git/config):
To set a Git setting at repo level (i.e in <repo>/.git/config):
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If you plan to commit to KDE Git, then you will need to set up git to use your identity.kde.org name and details to help identify your work:
If you plan to commit to KDE Git, then you will need to set up git to use your identity.kde.org name and details to help identify your work:


  git config --global user.name <Your Real Name>
  git config --global user.name "<Your Real Name>"
  git config --global user.email <Your identity.kde.org email>
  git config --global user.email <Your identity.kde.org email>
The name and email address you configure will be used as the author information for every commit you make. Note that in order for commit message keywords such as BUG and CCBUG to work, your Bugzilla account email address has to match the email address used in your commits.


To enable colored output when using git:
To enable colored output when using git:
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=== Commit Template ===
=== Commit Template ===


The Commit Template is a standard layout for commit messages, usually containing instructions for how a project expects messages to formatted and what details are to be included.  You can choose to set a User Level template as a default, then use any project level variations at a repo level.
The Commit Template is a standard layout for commit messages, usually containing instructions for how a project expects messages to be formatted and what details are to be included.  You can choose to set a User Level template as a default, then use any project level variations at a repo level.


It is recommended to use the kdelibs template as your default.  Once you have cloned kdelibs then set as follows to ensure you use the latest available version:
It is recommended to use the kdelibs template as your default.  Once you have cloned kdelibs then set as follows to ensure you use the latest available version:
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  git config --global commit.template <path/to/kdelibs/>.commit-template
  git config --global commit.template <path/to/kdelibs/>.commit-template


If you don't plan to have kdelibs cloned then download the kdelibs template from [https://projects.kde.org/projects/kde/kdelibs/repository/revisions/master/raw/.commit-template here], save as ~/.commit-template, and configure to use that copy:
If you don't plan to have kdelibs cloned then download the kdelibs template from [https://cgit.kde.org/kdelibs.git/plain/.commit-template?h=Active/Two&id=774b8e91d597f40d9402af7be3a6f5d675b14329 here], save as ~/.commit-template, and configure to use that copy:


  git config --global commit.template ~/.commit-template
  git config --global commit.template ~/.commit-template
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  cd <repo>
  cd <repo>
  git config commit.template .commit-template
  git config commit.template .commit-template
=== Exclusion rules ===
It's often necessary or desirable to limit the types of files that git will consider when commands like 'git status' and 'git add' or 'git add --all' are run. There are 2 types of exclusion rules.
The first, is a .gitignore in the repository. This text file will contain a list of wildcard expressions to ignore files and/or dirs. It can also contain bash-like comments (#) in addition to new lines.
The second method is similar to the first, except it is specified globally and will override (and add to) settings specified on a per-repository basis. This file can be named whatever, wherever, as long as it is specified in your ~/.gitconfig file.
An example .gitexcludes file can be found in kdelibs from [https://projects.kde.org/projects/kde/kdelibs/repository/revisions/master/raw/.gitexcludes here], save as ~/.gitexcludes, and configure to use that copy using:
git config --global core.excludesfile ~/.gitexcludes
or alternatively, edit ~/.gitconfig manually and specify:
[core]
    excludesfile = ~/.gitexcludes
Remember that this file is meant to be a global exclusion rule, so you probably shouldn't use it on a per-repo basis unless you really feel the need. The file excludes archive files (tar, gz, 7z, rar, etc.) as well as .directory, thumbs.db(Microsoft Windows file), .swp (swap file, used for vim and kate), as well as many many others.


=== Push Default ===
=== Push Default ===
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Instead of having to remember and type in the different full git addresses for pulling and pushing, we recommend you manually add the following to your Git User Configuration (~/.gitconfig):
Instead of having to remember and type in the different full git addresses for pulling and pushing, we recommend you manually add the following to your Git User Configuration (~/.gitconfig):


  [url "git://anongit.kde.org/"]
  <nowiki>[url "git://anongit.kde.org/"]</nowiki>
     insteadOf = kde:
     insteadOf = kde:
  [url "[email protected]:"]
  [url "[email protected]:"]
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=== Multiple Work Branches ===
=== Multiple Work Branches ===


If you need to regularly work on two or more different branches (e.g. master and the most recent stable release) then you will find that switching between the branches can trigger a lot of rebuilding.
You will often want to have more than one build environment in parallel, for example if you want to work on both stable and unstable branches at the same time.


One solution is to have a separate clone of the repository for each branch you want to regularly work on, however this will use a lot of space and each clone will have to be kept up to date separatelyIf choosing this method then you should make each new clone from your initial local clone rather than from the main repo as this will be quicker.
With Git you can easily have many work branches in your repository and easily switch between them.  The problem here however is that you can only work on the one branch at a time, and switching branches will usually trigger a massive rebuild of the entire repository.   


A better solution is to use the git-new-workdir script from git contrib which uses sym-links to create what appears as a new clone in a separate folder but actually uses the same local clone.
One solution would be to have a separate repository clone for each branch you wish to work on in parallel, but this takes up more disk space, the clones and branches can easily get out-of-sync, and it makes forward/back porting bug fixes between branches more difficult.  If choosing this method then you should make each new clone from your initial local clone rather than from the main repo as this will be quicker.


The git-new-workdir script may be installed as part of your system git.  If not download the script from [https://github.com/git/git/raw/master/contrib/workdir/git-new-workdir the git repo] and install in your ~/.bin.
The ideal solution is for a single git repository clone to provide separate source directories for each branch you wish to work on, without performing full clone (what consumes disk space and requires fetching each clone separately). This can be achieved using the '''git-new-workdir''' script provided in the Git contrib directory.  This script uses symbolic links to create what appears as a new clone in a separate folder but actually uses the same local clone.
 
The git-new-workdir script may be installed as part of your system git.  If not download the script from [https://github.com/git/git/raw/master/contrib/workdir/git-new-workdir the git repo] and install in your ~/bin.


For example, assuming your have a kdelibs.git clone living in ~/kde/src/master/kdelibs, then the following command will create a 4.6 work branch in ~/kde/src/4.6/kdelibs:
For example, assuming your have a kdelibs.git clone living in ~/kde/src/master/kdelibs, then the following command will create a 4.6 work branch in ~/kde/src/4.6/kdelibs:


  git-new-workdir ~/kde/src/master/kdelibs ~/kde/src/4.6/kdelibs KDE/4.6
  git-new-workdir ~/kde/src/master/kdelibs ~/kde/src/4.6/kdelibs KDE/4.6
== RSA Key fingerprint for git.kde.org==
c8:45:ba:89:85:11:78:b5:a4:09:d9:31:f6:7f:7c:79

Latest revision as of 13:36, 14 August 2018

Git Configuration

How to set up Git for use in KDE.

Quick Start

To quickly set up git to just build a copy of any KDE project, you do not need to perform any git configuration, however the following step will simplify using Git:

If you plan to commit to a KDE repository using Git then you should follow all the steps on this page.

Configuration Levels

Your Git configuration operates at 3 levels:

  • System
  • User
  • Repository

The System Level sets up global Git configuration defaults for every User and Repository on your system. We will ignore these for our purposes as they are usually blank.

The User Level (aka Global) sets up the default configuration for a particular User to apply to all repositories used by that User. Settings made at this level will always override any matching System Level settings. The User Configuration is stored in your ~/.gitconfig file.

The Repository Level sets up the configuration for a particular Repository clone. Settings made at this level will always override any matching User or System Level settings. The Repository Configuration is stored in the repository .git/config file.

The recommended KDE Git Configuration will set some settings at a user level and some at a repository level. You may wish to change the level some settings apply at however as we will assume you only or mostly use Git for developing KDE.

You can set Git settings either by directly editing the config files, but it is far safer to use the git config command.

To set a Git setting at User level (i.e. in ~/.gitconfig):

git config --global <key> <value>

To set a Git setting at repo level (i.e in <repo>/.git/config):

cd <repo>
git config <key> <value>

Basic Settings

If you plan to commit to KDE Git, then you will need to set up git to use your identity.kde.org name and details to help identify your work:

git config --global user.name "<Your Real Name>"
git config --global user.email <Your identity.kde.org email>

The name and email address you configure will be used as the author information for every commit you make. Note that in order for commit message keywords such as BUG and CCBUG to work, your Bugzilla account email address has to match the email address used in your commits.

To enable colored output when using git:

git config --global color.ui true

Commit Template

The Commit Template is a standard layout for commit messages, usually containing instructions for how a project expects messages to be formatted and what details are to be included. You can choose to set a User Level template as a default, then use any project level variations at a repo level.

It is recommended to use the kdelibs template as your default. Once you have cloned kdelibs then set as follows to ensure you use the latest available version:

git config --global commit.template <path/to/kdelibs/>.commit-template

If you don't plan to have kdelibs cloned then download the kdelibs template from here, save as ~/.commit-template, and configure to use that copy:

git config --global commit.template ~/.commit-template

When cloning other KDE repositories, you should check to see if they have a project specific commit template, and if so you should set that at a repo level:

cd <repo>
git config commit.template .commit-template

Exclusion rules

It's often necessary or desirable to limit the types of files that git will consider when commands like 'git status' and 'git add' or 'git add --all' are run. There are 2 types of exclusion rules.

The first, is a .gitignore in the repository. This text file will contain a list of wildcard expressions to ignore files and/or dirs. It can also contain bash-like comments (#) in addition to new lines.

The second method is similar to the first, except it is specified globally and will override (and add to) settings specified on a per-repository basis. This file can be named whatever, wherever, as long as it is specified in your ~/.gitconfig file.

An example .gitexcludes file can be found in kdelibs from here, save as ~/.gitexcludes, and configure to use that copy using:

git config --global core.excludesfile ~/.gitexcludes

or alternatively, edit ~/.gitconfig manually and specify:

[core]
   excludesfile = ~/.gitexcludes

Remember that this file is meant to be a global exclusion rule, so you probably shouldn't use it on a per-repo basis unless you really feel the need. The file excludes archive files (tar, gz, 7z, rar, etc.) as well as .directory, thumbs.db(Microsoft Windows file), .swp (swap file, used for vim and kate), as well as many many others.

Push Default

It is recommended for new Git users to set the push default to nothing:

git config --global push.default nothing

This option forces you to always enter the name of the remote branch you wish to push to, rather than using a default value. This is good practice as it ensures you push to the correct remote branch and avoid accidentally pushing all local branches to the remote.

More experienced users may wish to set the option to tracking:

git config --global push.default tracking

This will default to push to the remote branch your local branch is tracking, but if you setup your local branch incorrectly you may still accidentally push to the wrong remote.

URL Renaming

Instead of having to remember and type in the different full git addresses for pulling and pushing, we recommend you manually add the following to your Git User Configuration (~/.gitconfig):

[url "git://anongit.kde.org/"]
    insteadOf = kde:
[url "[email protected]:"]
    pushInsteadOf = kde:

Bash Auto-Completion

Bash auto-completion for Git commands and branches may or may not work out-of-the-box for you depending on how Git is installed on your system. To see if you have auto-completion already working type git on your command line followed by a space and hit the tab key twice. If you see a list of available git commands then you have Git auto-completion enabled.

If auto-completion does not work for you then you can download the git-completion.bash script and follow the instructions inside it.

Bash Prompt

If you have git-completion.bash installed, you can also add details like the branch name and dirty status to your command prompt, which will save repeated uses of git branch and git status.

To activate this, you need to add the following to your $PS1 environment variable:

$(__git_ps1 " (%s)")

Note that in the " (%s)" part the %s variable is replaced with the branch name, the rest of the text between the quotes is up to you.

If you have not set a PS1 value yourself, then you are likely to be using your distro default value which you can find out by typing:

echo $PS1

To change this for your user, edit your .bashrc and copy the result of the echo command into there, then change it to add the Git branch.

For example, if echo $PS1 shows:

$(ppwd \l)\u@\h:\w>

then add the following to your .bashrc:

PS1='$(ppwd \l)\u@\h:\w$(__git_ps1 " (%s)")> ' 

which will show your prompt as follows:

odysseus@argo:~/kde/src/trunk/KDE/kdelibs (master + u+2)>

You can learn more about customizing your bash prompt at http://www.tldp.org/HOWTO/Bash-Prompt-HOWTO/.

You can also have the prompt show the 'dirty' status of your repo, i.e. if you have uncommited changes, and whether your branch differs from upstream HEAD:

  • * = unstaged changes
  • + = staged changes
  • $ = stashed changes
  • % = untracked files
  • u-1 = behind upstream by 1 commit
  • u+2 = ahead of upstream by 2 commits
  • u= = same as upstream

To enable showing the dirty (unstaged/staged) state, add the following line to your .bashrc 'before' your PS1 setting:

export GIT_PS1_SHOWDIRTYSTATE=1

To enable showing the stashed state, add the following line to your .bashrc before your PS1 setting:

export GIT_PS1_SHOWSTASHSTATE=1

To enable showing the untracked state, add the following line to your .bashrc before your PS1 setting:

export GIT_PS1_SHOWUNTRACKEDFILES=1

To enable showing the upstream state, add the following line to your .bashrc before your PS1 setting:

export GIT_PS1_SHOWUPSTREAM="auto verbose"

To not show the number of commits ahead or behind remove the "verbose" flag.

To disable showing the dirty state for any one repo:

cd <repo>
git config bash.showDirtyState false

To disable showing the upstream state for any one repo:

cd <repo>
git config bash.showUpstream false

Multiple Work Branches

You will often want to have more than one build environment in parallel, for example if you want to work on both stable and unstable branches at the same time.

With Git you can easily have many work branches in your repository and easily switch between them. The problem here however is that you can only work on the one branch at a time, and switching branches will usually trigger a massive rebuild of the entire repository.

One solution would be to have a separate repository clone for each branch you wish to work on in parallel, but this takes up more disk space, the clones and branches can easily get out-of-sync, and it makes forward/back porting bug fixes between branches more difficult. If choosing this method then you should make each new clone from your initial local clone rather than from the main repo as this will be quicker.

The ideal solution is for a single git repository clone to provide separate source directories for each branch you wish to work on, without performing full clone (what consumes disk space and requires fetching each clone separately). This can be achieved using the git-new-workdir script provided in the Git contrib directory. This script uses symbolic links to create what appears as a new clone in a separate folder but actually uses the same local clone.

The git-new-workdir script may be installed as part of your system git. If not download the script from the git repo and install in your ~/bin.

For example, assuming your have a kdelibs.git clone living in ~/kde/src/master/kdelibs, then the following command will create a 4.6 work branch in ~/kde/src/4.6/kdelibs:

git-new-workdir ~/kde/src/master/kdelibs ~/kde/src/4.6/kdelibs KDE/4.6