Fast lookup of authorized SSH keys in the database

noteThis document describes a drop-in replacement for the authorized_keys file. For normal (non-deploy key) users, consider using SSH certificates. They are even faster, but are not a drop-in replacement.

Regular SSH operations become slow as the number of users grows because OpenSSH searches for a key to authorize a user via a linear search. In the worst case, such as when the user is not authorized to access GitLab, OpenSSH will scan the entire file to search for a key. This can take significant time and disk I/O, which delays users attempting to push or pull to a repository. Making matters worse, if users add or remove keys frequently, the operating system may not be able to cache the authorized_keys file, which causes the disk to be accessed repeatedly.

GitLab Shell solves this by providing a way to authorize SSH users via a fast, indexed lookup in the GitLab database. This page describes how to enable the fast lookup of authorized SSH keys.

cautionOpenSSH version 6.9+ is required because AuthorizedKeysCommand must be able to accept a fingerprint. These instructions break installations that use older versions of OpenSSH, such as those included with CentOS 6 as of September 2017. If you want to use this feature for CentOS 6, follow the instructions on how to build and install a custom OpenSSH package before continuing.

Fast lookup is required for Geo

By default, GitLab manages an authorized_keys file that is located in the git user’s home directory. For most installations, this will be located under /var/opt/gitlab/.ssh/authorized_keys, but you can use the following command to locate the authorized_keys on your system.:

getent passwd git | cut -d: -f6 | awk '{print $1"/.ssh/authorized_keys"}'

The authorized_keys file contains all the public SSH keys for users allowed to access GitLab. However, to maintain a single source of truth, Geo needs to be configured to perform SSH fingerprint lookups via database lookup.

As part of setting up Geo, you are required to follow the steps outlined below for both the primary and secondary nodes, but note that the Write to "authorized keys" file checkbox only needs to be unchecked on the primary node since it is reflected automatically on the secondary if database replication is working.

Setting up fast lookup via GitLab Shell

GitLab Shell provides a way to authorize SSH users via a fast, indexed lookup to the GitLab database. GitLab Shell uses the fingerprint of the SSH key to check whether the user is authorized to access GitLab.

Add the following to your sshd_config file. This is usually located at /etc/ssh/sshd_config, but it will be /assets/sshd_config if you’re using Omnibus Docker:

Match User git    # Apply the AuthorizedKeysCommands to the git user only
  AuthorizedKeysCommand /opt/gitlab/embedded/service/gitlab-shell/bin/gitlab-shell-authorized-keys-check git %u %k
  AuthorizedKeysCommandUser git
Match all    # End match, settings apply to all users again

Reload OpenSSH:

# Debian or Ubuntu installations
sudo service ssh reload

# CentOS installations
sudo service sshd reload

Confirm that SSH is working by commenting out your user’s key in the authorized_keys file (start the line with a # to comment it), and attempting to pull a repository.

A successful pull would mean that GitLab was able to find the key in the database, since it is not present in the file anymore.

noteFor Omnibus Docker, AuthorizedKeysCommand is setup by default in GitLab 11.11 and later.
noteFor Installations from source, the command would be located at /home/git/gitlab-shell/bin/gitlab-shell-authorized-keys-check if the install from source instructions were followed. You might want to consider creating a wrapper script somewhere else since this command needs to be owned by root and not be writable by group or others. You could also consider changing the ownership of this command as required, but that might require temporary ownership changes during gitlab-shell upgrades.
cautionDo not disable writes until SSH is confirmed to be working perfectly; otherwise, the file quickly becomes out-of-date.

In the case of lookup failures (which are common), the authorized_keys file is still scanned. So Git SSH performance would still be slow for many users as long as a large file exists.

To disable any more writes to the authorized_keys file:

  1. On the top bar, select Menu > Admin.
  2. On the left sidebar, select Settings > Network.
  3. Expand Performance optimization.
  4. Clear the Write to “authorized_keys” file checkbox.
  5. Select Save changes.

Again, confirm that SSH is working by removing your user’s SSH key in the UI, adding a new one, and attempting to pull a repository.

Then you can backup and delete your authorized_keys file for best performance. The current users’ keys are already present in the database, so there is no need for migration or for asking users to re-add their keys.

How to go back to using the authorized_keys file

This is a brief overview. Please refer to the above instructions for more context.

  1. Rebuild the authorized_keys file
  2. Enable writes to the authorized_keys file in Application Settings
  3. Remove the AuthorizedKeysCommand lines from /etc/ssh/sshd_config or from /assets/sshd_config if you are using Omnibus Docker.
  4. Reload sshd: sudo service sshd reload

Compiling a custom version of OpenSSH for CentOS 6

Building a custom version of OpenSSH is not necessary for Ubuntu 16.04 users, since Ubuntu 16.04 ships with OpenSSH 7.2.

It is also unnecessary for CentOS 7.4 users, as that version ships with OpenSSH 7.4. If you are using CentOS 7.0 - 7.3, we strongly recommend that you upgrade to CentOS 7.4 instead of following this procedure. This should be as simple as running yum update.

CentOS 6 users must build their own OpenSSH package to enable SSH lookups via the database. The following instructions can be used to build OpenSSH 7.5:

  1. First, download the package and install the required packages:

    sudo su -
    cd /tmp
    curl --remote-name "https://cdn.openbsd.org/pub/OpenBSD/OpenSSH/portable/openssh-7.5p1.tar.gz"
    tar xzvf openssh-7.5p1.tar.gz
    yum install rpm-build gcc make wget openssl-devel krb5-devel pam-devel libX11-devel xmkmf libXt-devel
    
  2. Prepare the build by copying files to the right place:

    mkdir -p /root/rpmbuild/{SOURCES,SPECS}
    cp ./openssh-7.5p1/contrib/redhat/openssh.spec /root/rpmbuild/SPECS/
    cp openssh-7.5p1.tar.gz /root/rpmbuild/SOURCES/
    cd /root/rpmbuild/SPECS
    
  3. Next, set the spec settings properly:

    sed -i -e "s/%define no_gnome_askpass 0/%define no_gnome_askpass 1/g" openssh.spec
    sed -i -e "s/%define no_x11_askpass 0/%define no_x11_askpass 1/g" openssh.spec
    sed -i -e "s/BuildPreReq/BuildRequires/g" openssh.spec
    
  4. Build the RPMs:

    rpmbuild -bb openssh.spec
    
  5. Ensure the RPMs were built:

    ls -al /root/rpmbuild/RPMS/x86_64/
    

    You should see something as the following:

    total 1324
    drwxr-xr-x. 2 root root   4096 Jun 20 19:37 .
    drwxr-xr-x. 3 root root     19 Jun 20 19:37 ..
    -rw-r--r--. 1 root root 470828 Jun 20 19:37 openssh-7.5p1-1.x86_64.rpm
    -rw-r--r--. 1 root root 490716 Jun 20 19:37 openssh-clients-7.5p1-1.x86_64.rpm
    -rw-r--r--. 1 root root  17020 Jun 20 19:37 openssh-debuginfo-7.5p1-1.x86_64.rpm
    -rw-r--r--. 1 root root 367516 Jun 20 19:37 openssh-server-7.5p1-1.x86_64.rpm
    
  6. Install the packages. OpenSSH packages replace /etc/pam.d/sshd with their own versions, which may prevent users from logging in, so be sure that the file is backed up and restored after installation:

    timestamp=$(date +%s)
    cp /etc/pam.d/sshd pam-ssh-conf-$timestamp
    rpm -Uvh /root/rpmbuild/RPMS/x86_64/*.rpm
    yes | cp pam-ssh-conf-$timestamp /etc/pam.d/sshd
    
  7. Verify the installed version. In another window, attempt to sign in to the server:

    ssh -v <your-centos-machine>
    

    You should see a line that reads: “debug1: Remote protocol version 2.0, remote software version OpenSSH_7.5”

    If not, you may need to restart sshd (for example, systemctl restart sshd.service).

  8. IMPORTANT! Open a new SSH session to your server before exiting to make sure everything is working! If you need to downgrade, simple install the older package:

    # Only run this if you run into a problem logging in
    yum downgrade openssh-server openssh openssh-clients
    

SELinux support and limitations

GitLab supports authorized_keys database lookups with SELinux.

Because the SELinux policy is static, GitLab doesn’t support the ability to change internal webserver ports at the moment. Administrators would have to create a special .te file for the environment, since it isn’t generated dynamically.