OpenShift Origin is an open source container application platform created by Red Hat, based on kubernetes and Docker. That means you can host your own PaaS for free and almost with no hassle.

In this tutorial, we will see how to deploy GitLab in OpenShift using GitLab's official Docker image while getting familiar with the web interface and CLI tools that will help us achieve our goal.

Prerequisites

OpenShift 3 is not yet deployed on Red Hat's offered Online platform (openshift.com), so in order to test it, we will use an all-in-one Virtualbox image that is offered by the OpenShift developers and managed by Vagrant. If you haven't done already, go ahead and install the following components as they are essential to test OpenShift easily:

It is also important to mention that for the purposes of this tutorial, the latest Origin release, which is currently on alpha, is used:

  • oc v1.3.0-alpha.1 (must be installed locally on your computer)
  • openshift v1.3.0-alpha.1-31-g81aecc8 (is pre-installed in the VM image)
  • kubernetes v1.3.0-alpha.1-331-g0522e63 (is pre-installed in the VM image)

Note: If you intend to deploy GitLab on a production OpenShift cluster, there are some limitations to bear in mind. Read on the limitations section for more information and follow the linked links for the relevant discussions.

Now that you have all batteries, let's see how easy it is to test OpenShift on your computer.

Getting familiar with OpenShift Origin

The environment we are about to use is based on CentOS 7 which comes with all the tools needed pre-installed: Docker, kubernetes, OpenShift, etcd.

Test OpenShift using Vagrant

As of this writing, the all-in-one VM is at version 1.2, whereas an alpha version 1.3 has been released. Since many bugs have been fixed in 1.3, that's what we will use in this tutorial.

In short:

  1. Download the Vagrantfile
  2. Edit it and replace thesteve0/openshift-origin with openshift/origin-all-in-one
  3. Open a terminal and in the same directory where you downloaded the Vagrantfile enter:
  vagrant up

This will download the VirtualBox image and fire up the VM with some preconfigured values as you can see in the Vagrantfile. As you may have noticed, you need plenty of RAM (4GB in our example), so make sure you have enough.

Now that OpenShift is setup, let's see how the web console looks like.

Explore the OpenShift web console

After Vagrant finishes its thing with the VM, you will be presented with a message which has some important information. One of them is the IP address of the deployed OpenShift platform and in particular https://10.2.2.2:8443/console/. Open this link with your browser and accept the self-signed certificate in order to proceed.

Let's login as admin with username/password admin/admin. This is what the landing page looks like:

image09

You can see that a number of projects are already created for testing purposes.

If you head over the openshift-infra project, a number of services with their respective pods are there to explore.

image11

We are not going to explore the whole interface, but if you want to learn about the key concepts of OpenShift, read the core concepts reference in the official documentation.

Explore OpenShift CLI

OpenShift Client (oc), is a powerful CLI tool that talks to the OpenShift API and performs pretty much everything you can do from the web UI and much more.

Assuming you have installed it, let's explore some of its main functionalities.

Let's first see the version of oc:

$ oc version

oc v1.3.0-alpha.1
kubernetes v1.3.0-alpha.1-331-g0522e63

With oc help you can see the top level arguments you can run with oc and interact with your cluster, kubernetes, run applications, create projects and much more.

Let's login to the all-in-one VM and see how to achieve the same results like when we visited the web console earlier. The username/password for the administrator user isadmin/admin. There is also a test user with username/ password user/user, with limited access. Let's login as admin for the moment:

$ oc login https://10.2.2.2:8443

Authentication required for https://10.2.2.2:8443 (openshift)
Username: admin
Password:
Login successful.

You have access to the following projects and can switch between them with 'oc project <projectname>':

  * cockpit
 * default (current)
 * delete
 * openshift
 * openshift-infra
 * sample

Using project "default".

Switch to the openshift-infra project with:

oc project openshift-infra

And finally, see its status:

oc status

The last command should spit a bunch of information about the statuses of the pods and the services, which if you look closely is what we encountered in the second image when we explored the web console.

You can always read more about oc in the OpenShift CLI documentation.

Troubleshooting the all-in-one VM

Using the all-in-one VM gives you the ability to test OpenShift whenever you want. That means you get to play with it, shutdown the VM, and pick up where you left off.

Sometimes though, you may encounter some issues, like OpenShift not running when booting up the VM. The web UI may not responding or you may see issues when trying to login with oc, like:

The connection to the server 10.2.2.2:8443 was refused - did you specify the right host or port?

In that case, the OpenShift service might not be running, so in order to fix it:

    1. SSH into the VM by going to the directory where the Vagrantfile is and then run:
  vagrant ssh
    1. Run systemctl and verify by the output that the openshift service is not running (it will be in red color). If that's the case start the service with:
  sudo systemctl start open shift
    1. Verify the service is up with:
  systemctl status openshift -l

Now you will be able to login using oc and visit the web console.

Deploy GitLab

Now that you got a taste of what OpenShift looks like, let's deploy GitLab!

Create a new project

First, we will create a new project to host our application. You can do this either by running the CLI client:

$ oc new-project gitlab

or by using the web interface:

image13

If you used the command line, oc automatically uses the new project and you can see its status with:

$ oc status

In project gitlab on server https://10.2.2.2:8443

You have no services, deployment configs, or build configs.
Run 'oc new-app' to create an application.

If you visit the web console, you can now see gitlab listed in the projects list.

The next step is to import the OpenShift template for GitLab.

Import the template

The template is basically a JSON file which describes a set of related object definitions to be created together, as well as a set of parameters for those objects.

The template for GitLab resides in the Omnibus GitLab repository under the docker directory. Let's download it locally with wget :

wget https://gitlab.com/gitlab-org/omnibus-gitlab/raw/master/docker/openshift-template.json

And then let's import it in OpenShift:

oc create -f openshift-template.json -n open shift

The -n openshift namespace flag is a trick to make the template available to all projects. If you recall from when we created the gitlab project, oc switched to it automatically, and that can be verified by the oc status
command. If you omit the namespace flag, the application will be available only to the current project, in our case gitlab. The openshift namespace is a global one that the administrators should use if they want the application to be available to all users.

We are now ready to finally deploy GitLab!

Create a new application

The next step is to use the template we previously imported. Head over to the gitlab project and hit the Add to Project button.

image12

This will bring you to the catalog where you can find all the pre-defined applications ready to deploy with the click of a button. Search for gitlab and you will see the previously imported template:

image06

Select it, and in the following screen you will be presented with the predefined values used with the GitLab template:

image08

Notice at the top that there are three resources to be created with this template:

  • gitlab-ce
  • gitlab-ce-redis
  • gitlab-ce-postgresql

While PostgreSQL and Redis are bundled in Omnibus GitLab, the template is using separate images as you can see from this line in the template.

The predefined values have been calculated for the purposes of testing out GitLab in the all-in-one VM. You don't need to change anything here, hit Create to start the deployment.

If you are deploying to production you will want to change the GitLab instance hostname and use greater values for the volume sizes. If you don't provide a password for PostgreSQL, it will be created automatically.

Note: The gitlab.apps.10.2.2.2.xip.io hostname that is used by default will resolve to the host with IP 10.2.2.2 which is the IP our VM uses. It is a trick to have distinct FQDNs pointing to services that are on our local network. Read more on how this works in http://xip.io.

As a last step, we need to edit the /etc/exports file in the VM.

Edit the NFS exports file

Before you deploy GitLab, you need to change a setting in the NFS shares configuration. The rationale is explained in Current limitations.

Navigate to Browse > Storage and take a note of the volume names. We need all names except for the gitlab-ce-postgresql one.

image01

In our example, these are:

  • pv02
  • pv03
  • pv05
  • pv10

Here are the steps:

    1. First, ssh into the VM using the following command (it must be issued from the same directory you saved the Vagrantfile):
  vagrant ssh
    1. Next, edit the /etc/exports file and change the volumes you noted before from root_squash to no_root_squash.

Ultimately, /etc/exports should look like this:

  /nfsvolumes/pv01 *(rw,root_squash)
/nfsvolumes/pv02 *(rw,no_root_squash)
/nfsvolumes/pv03 *(rw,no_root_squash)
/nfsvolumes/pv04 *(rw,root_squash)
/nfsvolumes/pv05 *(rw,no_root_squash)
/nfsvolumes/pv06 *(rw,root_squash)
/nfsvolumes/pv07 *(rw,root_squash)
/nfsvolumes/pv08 *(rw,root_squash)
/nfsvolumes/pv09 *(rw,root_squash)
/nfsvolumes/pv10 *(rw,no_root_squash)
    1. Run sudo exportfs -f for the changes to take effect.

Now that we configured this, let's see how to manage and scale GitLab.

Manage and scale GitLab

Setting up GitLab for the first time might take a while depending on your internet connection and the resources you have attached to the all-in-one VM. GitLab's docker image is quite big (~400MB), so you'll have to wait until it's downloaded and configured before you use it.

Watch while GitLab gets deployed

Navigate to the gitlab project at Overview. You can notice that the deployment is in progress by the orange color. The Docker images are being downloaded and soon they will be up and running.

image02

Switch to the Browse > Pods and you will eventually see all 3 pods in a running status. Remember the 3 resources that were to be created when we first created the GitLab app? This is where you can see them in action.

image07

You can see GitLab being reconfigured by taking look at the logs in realtime. Click on gitlab-ce-2-j7ioe (your ID will be different) and go to the Logs tab.

image05

At a point you should see a gitlab Reconfigured! message in the logs. Navigate back to the Overview and hopefully all pods will be up and running.

image00

Congratulations! You can now navigate to your new shinny GitLab instance by visiting http://gitlab.apps.10.2.2.2.xip.io where you will be asked to change the root user password. Login and start using GitLab!

Scale GitLab with the push of a button

If you reach to a point where your GitLab instance could benefit from a boost of resources, you'd be happy to know that you can scale up with the push of a button.

In the Overview page just click the up arrow button in the pod where GitLab is. The change is instant and you can see the number of replicas now running scaled to 2.

image03

Upping the GitLab pods is actually like adding new application servers to your cluster. You can see how that would work if you didn't use GitLab with OpenShift by following the HA documentation for the application servers.

Bare in mind that you may need more resources (CPU, RAM, disk space) when you scale up. If a pod is in pending state for too long, you can navigate to Browse > Events and see the reason and message of the state.

image10

Scale GitLab using the oc CLI

Using oc is super easy to scale up the replicas of a pod. You may want to skim through the basic CLI operations to get a taste how the CLI commands are used. Pay extra attention to the object types as we will use some of them and their abbreviated versions below.

In order to scale up, we need to find out the name of the replication controller. Let's see how to do that using the following steps.

    1. Make sure you are in the gitlab project:
oc project gitlab
    1. See what services are used for this project:
oc get sac
    1. The output will be similar to:
       NAME                   CLUSTER-IP       EXTERNAL-IP   PORT(S)         AGE
gitlab-ce 172.30.243.177 <none> 22/TCP,80/TCP 5d
gitlab-ce-postgresql 172.30.116.75 <none> 5432/TCP 5d
gitlab-ce-redis 172.30.105.88 <none> 6379/TCP 5d
    1. We need to see the replication controllers of the gitlab-ce service. Get a detailed view of the current ones:
oc describe rc gitlab-ce
    1. This will return a large detailed list of the current replication controllers. Search for the name of the GitLab controller, usually gitlab-ce-1 or if that failed at some point and you spawned spawned another one, it will be named gitlab-ce-2.
    2. Scale GitLab using the previous information:
oc scale --replicas=2 replicationcontrollers gitlab-ce-2
    1. Get the new replicas number to make sure scaling worked:
oc get rc gitlab-ce-2

which will return something like:

  NAME          DESIRED   CURRENT   AGE
gitlab-ce-2 2 2 5d

And that's it! We successfully scaled the replicas to 2 using the CLI.

As always, you can find the name of the controller using the web console. Just click on the service you are interested in and you will see the details in the right sidebar.

image04

Autoscaling GitLab

In case you were wondering whether there is an option to autoscale a pod based on the resources of your server, the answer is yes, of course there is.

We will not expand on this matter, but feel free to read the documentation on OpenShift's website about autoscaling.

Current limitations

As stated in the all-in-one VM page:

By default, OpenShift will not allow a container to run as root or even a non-random container assigned userid. Most Docker images in the Docker Hub do not follow this best practice and instead run as root.

The all-in-one VM we are using has this security turned off so it will not bother us. In any case, it is something to keep in mind when deploying GitLab on a production cluster.

This is the reason we had to alter the NFS settings, since GitLab's docker image requires root privileges to run.

This is a known issue to both parties and is being worked on. This is the same case for the Redis image, that's why we need to also alter its NFS volume. Current Redis images may have this issue resolved.

Here are some issues which are currently being worked on in order to provide full OpenShift support without the need to edit any configuration files in the OS level. Feel free to subscribe to follow their status:

  • Support running GitLab in OpenShift without the need for a privileged container (1251)
  • Support running gitlab-ctl reconfigure as non-root user (1324)

Conclusion

By now, you should have an understanding of the basic OpenShift Origin concepts and a sense of how things work using the web console or the CLI.

GitLab was challenging to install on previous versions of OpenShift, but now that belongs to the past. Upload a template, create a project, add an application and you are done. You are ready to login to your new GitLab instance.

And remember that in this tutorial we just scratched the surface of what Origin is capable of. As always, you can refer to the detailed documentation to learn more about deploying your own OpenShift cluster and managing your applications with the ease of containers.