Template Manager is a lightweight application (API + Dashboard) which helps to create, manage and maintain I-Tee virtual learning spaces (custom Virtualbox virtual machines) without hassle. This solution makes it possible to keep multiple lab templates up-to-date within few mouseclicks, without any need to enter the container one-by-one to make changes.
Please keep in mind that this application is still under heavy development and should not be used as of now.
Template Manager has the following abilities to manipulate with VBox containers:
- Manage state of VM
- Create/Delete snapshots of VMs
- Modify NICs and DMIDECODE properties of VM
- Modify RDP access credentials
- Clone machines
- Automatic SSH key deployment (wip)
- Guest additions updating (wip)
- Custom script deployment (wip)
Template Manager is developed and tested in headless Ubuntu 16.04 environment. It has few dependencies that must be installed beforehand, we will cover them at "Installation" section later:
- Virtualbox 5.x installation
- Docker
- MongoDB
- NodeJS
- Nginx
This section walks you through the process of actually setting Template Manager up and running. Please keep in mind that tutorial was written with Ubuntu 16.04 LTS as a template, so few steps may vary in case you're using another distribution.
If you have I-Tee deployed, chances are that Virtualbox 5.x is already installed and configured aswell. In that case you can skip this step and proceed to XXX, otherwise please follow the Virtualbox 5.x setup process in I-Tee's documentation, which is described here: https://github.com/magavdraakon/i-tee#installing-virtualbox-headless
Template Manager's API component is written in Node.JS, which means we have to obtain it, too. If you are already familiar with NodeJS and have atleast v8.4.0 installed, you may skip this step. We're going to install NodeJS via NVM to keep maintainability of our project as convenient as possible.
Let's download nvm and install it somewhere global, for example:
sudo -i
apt-get install git
wget -qO- https://raw.githubusercontent.com/creationix/nvm/v0.33.2/install.sh | NVM_DIR=/usr/local/nvm bash
Now, close and reopen terminal to start using nvm. If you are lazy:
export NVM_DIR="/usr/local/nvm"
[ -s "$NVM_DIR/nvm.sh" ] && \. "$NVM_DIR/nvm.sh" # This loads nvm
[ -s "$NVM_DIR/bash_completion" ] && \. "$NVM_DIR/bash_completion" # This loads nvm bash_completion
to bypass terminal reopening.
Run command -v nvm
to test nvm installation. If it returns "nvm", everything turned out well. Otherwise please refer to nvm's documentation.
To install Node.JS via nvm, run command nvm install v8.4.0
. If which node
returns path in /usr/local, then NodeJS is installed correctly.
I-tee-Virtualbox API is the component which connects Dashboard to actual Virtualbox services. API endpoints are described and can be found from here: https://github.com/K43GFX/i-tee-virtualbox
Let's start off by cloning I-Tee-Virtualbox instance with
sudo -i
cd /opt
git clone https://github.com/K43GFX/i-tee-virtualbox
Great. Now we need to install required node modules for our application, which can be done with:
cd /opt/i-tee-virtualbox
npm -g install
npm -g install babel-cli
NodeJS with all needed dependencies is now installed.
I-tee-virtualbox has a default configuration file named config_sample.json
at it's root, which consists default port for API service. By default it's 3030, if you wish to, you can change it. After you're done, rename it to config.json
.
Now, let's prepare our systemctl service file. Open i-tee-virtualbox.service with your preferred text editor, eg
nano /opt/i-tee-virtualbox/i-tee-virtualbox.service
and verify that everything is pointing where it should be. Now, let's move it to correct place, /etc/systemd/system
by mv /opt/i-tee-virtualbox/i-tee-virtualbox.service /etc/systemd/system
I-Tee-Virtualbox API is now installed. Start the application with systemctl start i-tee-virtualbox
. To check the status: systemctl status i-tee-virtualbox
. If services started successfully, you may want to add it to autostart, too, with systemctl enable i-tee-virtualbox
Template Manager keeps it's initial configuration, RDP connection data, Snapshot names ... basically everything in MongoDB database. For the moment, MongoDB should be installed in host machine.
Let's get started by importing MongoDB's public key:
sudo apt-key adv --keyserver hkp://keyserver.ubuntu.com:80 --recv EA312927
... and then adding their repository to our APT list:
echo "deb http://repo.mongodb.org/apt/ubuntu xenial/mongodb-org/3.2 multiverse" | sudo tee /etc/apt/sources.list.d/mongodb-org-3.2.list
Now, we have to install MongoDB with:
sudo apt-get update
sudo apt-get install -y mongodb-org
Create unit file to manage MongoDB service:
sudo nano /etc/systemd/system/mongodb.service
... and paste the following bits into the file:
[Unit]
Description=High-performance, schema-free document-oriented database
After=network.target
[Service]
User=mongodb
ExecStart=/usr/bin/mongod --quiet --config /etc/mongod.conf
[Install]
WantedBy=multi-user.target
Now, open /etc/mongod.conf
and change bind_ip
to 0.0.0.0
. Save changes.
Almost done. Let's launch MongoDB with sudo systemctl start mongodb
. Did it launched successfully? You can check the status of the service with sudo systemctl status mongodb
.
MongoDB is now installed.
Docker is a platform which allows to run any application basically everywhere without compatibility issues. Docker is required by our Dashboard application.
To get started, we need to install packages to allow apt to use a repository over HTTPS:
sudo apt-get update
sudo apt-get install \
apt-transport-https \
ca-certificates \
curl \
software-properties-common
... and now we have to add docker's GPG key by:
curl -fsSL https://download.docker.com/linux/ubuntu/gpg | sudo apt-key add -
Now, let's add Docker's repo. Choose the one that fits your system's arch:
amd64:
sudo add-apt-repository \
"deb [arch=amd64] https://download.docker.com/linux/ubuntu \
$(lsb_release -cs) \
stable"
armhf:
sudo add-apt-repository \
"deb [arch=armhf] https://download.docker.com/linux/ubuntu \
$(lsb_release -cs) \
stable"
s390x:
sudo add-apt-repository \
"deb [arch=s390x] https://download.docker.com/linux/ubuntu \
$(lsb_release -cs) \
stable"
Let's update packages again with sudo apt-get update
and install docker with sudo apt-get install docker-ce
Verify that Docker CE is installed correctly by running the hello-world image by sudo docker run hello-world
Docker is now installed.
In a nutshell, Template Manager's dashboard is a front-end for our API service. This component holds the magic which translates API calls into something visual that an end-user can understand and interact with. Dashboard is written in RoR and dockerized.
Since dashboard is dockerized and we have Docker installed, all we have to do is to pull docker image and create a system init file to get it running.
Gain root access with sudo -i
and pull docker image with docker pull karlerikounapuu/tplmgr:dev
.
Now, create an init file /etc/systemd/system/tplmgr.service
Populate the freshly-made init file with following data and match it with your system's configuration:
[Unit]
Requires=docker.service
After=docker.service
[Install]
WantedBy=multi-user.target
[Service]
ExecStartPre=-/usr/bin/env docker rm -f tplmgr
ExecStartPre=/bin/sh -c "docker create \
--name tplmgr \
--publish "172.17.0.1:3040:3000" \
--env "MONGO_SERVER=172.17.0.1:27017" \
-t \
karlerikounapuu/tplmgr:dev"
ExecStart=/usr/bin/env docker start -a tplmgr
ExecStop=/usr/bin/env docker stop tplmgr
SuccessExitStatus=143
Restart=always
RestartSec=3
--publish "172.17.0.1:3040:3000" \
is used to port container's port 3000 to host machine's port 3040.
--env "MONGO_SERVER=172.17.0.1:27017" \
is used to preconfigure database's credentials. You may check MongoDB's socket with netstat-tpln | grep mongo
By default, 172.17.0.1
is a docker0
interface IP address where docker can reach host machine and it's services. Make sure your docker service uses the same IP: ifconfig docker0
. If it doesn't, edit the init file.
Save the file and initialize it with systemctl enable tplmgr
. Start the dashboard service with systemctl start tplmgr
. Verify it launched by inspecting log file: systemctl status tplmgr
.
Dashboard is now in place and listening at 172.17.0.1:3040
You may discover that when you navigate to http://172.17.0.1:3040
it returns Not Found: /
. That's fine because actual application lives under http://172.17.0.1:3040/templatemanager
. It's a monkey-patch to manipulate with Nginx (which we are going to cover in next section).
By default, our Dashboard is accessible from http://172.17.0.1:3040/templatemanager
, therefore it isn't accessible from external sources. To make dashboard accessible from external web, we have to use proxy service such as Nginx.
Install nginx with sudo apt-get install nginx
.
Now, let's edit Nginx config file with sudo nano /etc/nginx/sites-enabled/default
and add this section inside main server{}
section:
location /templatemanager {
proxy_pass http://172.17.0.1:3040;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Forwarded-For $remote_addr;
proxy_set_header Host $host;
proxy_set_header X-Forwarded-Proto https;
}
...where http://172.17.0.1:3040
is your Dashboard's address which you were able to access before. Save the file.
Reload nginx with nginx -s reload
. Try to navigate to http://<your-machine>/templatemanager
. Dashboard should greet you with Setup Wizard.
Dashboard is now installed.