Git is a distributed version control system, which means you can work locally but you can also share or "push" your changes to other servers. Before you can push your changes to a GitLab server you need a secure communication channel for sharing information.
The SSH protocol provides this security and allows you to authenticate to the GitLab remote server without supplying your username or password each time.
For a more detailed explanation of how the SSH protocol works, we advise you to read this nice tutorial by DigitalOcean.
Locating an existing SSH key pair
Before generating a new SSH key pair check if your system already has one at the default location by opening a shell, or Command Prompt on Windows, and running the following command:
Windows Command Prompt:
Git Bash on Windows / GNU/Linux / macOS / PowerShell:
If you see a string starting with
ssh-rsa you already have an SSH key pair
and you can skip the generate portion of the next section and skip to the copy
to clipboard step.
If you don't see the string or would like to generate a SSH key pair with a
custom name continue onto the next step.
Note: Public SSH key may also be named as follows:
Generating a new SSH key pair
To generate a new SSH key pair, use the following command:
Git Bash on Windows / GNU/Linux / macOS:
ssh-keygen -t rsa -C "firstname.lastname@example.org" -b 4096
Next, you will be prompted to input a file path to save your SSH key pair to.
If you don't already have an SSH key pair use the suggested path by pressing enter. Using the suggested path will normally allow your SSH client to automatically use the SSH key pair with no additional configuration.
If you already have a SSH key pair with the suggested file path, you will need to input a new file path and declare what host this SSH key pair will be used for in your
.ssh/configfile, see Working with non-default SSH key pair paths for more information.
Once you have input a file path you will be prompted to input a password to secure your SSH key pair. It is a best practice to use a password for an SSH key pair, but it is not required and you can skip creating a password by pressing enter.
Note: If you want to change the password of your SSH key pair, you can use
ssh-keygen -p <keyname>.
The next step is to copy the public SSH key as we will need it afterwards.
To copy your public SSH key to the clipboard, use the appropriate code below:
pbcopy < ~/.ssh/id_rsa.pub
GNU/Linux (requires the xclip package):
xclip -sel clip < ~/.ssh/id_rsa.pub
Windows Command Line:
type %userprofile%\.ssh\id_rsa.pub | clip
Git Bash on Windows / Windows PowerShell:
cat ~/.ssh/id_rsa.pub | clip
The final step is to add your public SSH key to GitLab.
Navigate to the 'SSH Keys' tab in your 'Profile Settings'. Paste your key in the 'Key' section and give it a relevant 'Title'. Use an identifiable title like 'Work Laptop - Windows 7' or 'Home MacBook Pro 15'.
If you manually copied your public SSH key make sure you copied the entire key starting with
ssh-rsaand ending with your email.
Optionally you can test your setup by running
ssh -T email@example.com(replacing
example.comwith your GitLab domain) and verifying that you receive a
Welcome to GitLabmessage.
Working with non-default SSH key pair paths
If you used a non-default file path for your GitLab SSH key pair,
you must configure your SSH client to find your GitLab private SSH key
for connections to your GitLab server (perhaps
For your current terminal session you can do so using the following commands
other_id_rsa with your private SSH key):
Git Bash on Windows / GNU/Linux / macOS:
eval $(ssh-agent -s) ssh-add ~/.ssh/other_id_rsa
To retain these settings you'll need to save them to a configuration file.
For OpenSSH clients this is configured in the
~/.ssh/config file for some
Below are two example host configurations using their own SSH key:
# GitLab.com server Host gitlab.com RSAAuthentication yes IdentityFile ~/.ssh/config/private-key-filename-01 # Private GitLab server Host gitlab.company.com RSAAuthentication yes IdentityFile ~/.ssh/config/private-key-filename
Due to the wide variety of SSH clients and their very large number of configuration options, further explanation of these topics is beyond the scope of this document.
Public SSH keys need to be unique, as they will bind to your account. Your SSH key is the only identifier you'll have when pushing code via SSH. That's why it needs to uniquely map to a single user.
Deploy keys allow read-only or read-write (if enabled) access to one or multiple projects with a single SSH key pair.
This is really useful for cloning repositories to your Continuous Integration (CI) server. By using deploy keys, you don't have to setup a dummy user account.
If you are a project master or owner, you can add a deploy key in the project settings under the section 'Deploy Keys'. Press the 'New Deploy Key' button and upload a public SSH key. After this, the machine that uses the corresponding private SSH key has read-only or read-write (if enabled) access to the project.
You can't add the same deploy key twice with the 'New Deploy Key' option. If you want to add the same key to another project, please enable it in the list that says 'Deploy keys from projects available to you'. All the deploy keys of all the projects you have access to are available. This project access can happen through being a direct member of the project, or through a group.
Deploy keys can be shared between projects, you just need to add them to each project.
How to add your SSH key to Eclipse: https://wiki.eclipse.org/EGit/User_Guide#Eclipse_SSH_Configuration
If on Git clone you are prompted for a password like
something is wrong with your SSH setup.
- Ensure that you generated your SSH key pair correctly and added the public SSH key to your GitLab profile
- Try manually registering your private SSH key using
ssh-agentas documented earlier in this document
- Try to debug the connection by running
ssh -Tv firstname.lastname@example.org(replacing
example.comwith your GitLab domain)