Vagrant: Difference between revisions
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* By connecting to a '''Puppymaster''' to retrieve configuration information. A Puppetmaster is a server that is a centroalized location for systems to retrieve system configurations. | * By connecting to a '''Puppymaster''' to retrieve configuration information. A Puppetmaster is a server that is a centroalized location for systems to retrieve system configurations. | ||
* By executing a '''puppy apply''' command to interpret and apply configurations locally. This is often referred to as the ''masterless Puppet'' approach. | * By executing a '''puppy apply''' command to interpret and apply configurations locally. This is often referred to as the ''masterless Puppet'' approach. | ||
=== Install Puppet === | |||
* [https://docs.puppetlabs.com/puppetserver/2.2/install_from_packages.html Puppet Server] | |||
* [https://docs.puppetlabs.com/puppet/latest/reference/install_linux.html Install Puppet Agent in Linux] | |||
* How to install Puppet master and client in Ubuntu 14.04 https://www.howtoforge.com/puppet-ubuntu-14.04 | |||
* http://www.bogotobogo.com/DevOps/Puppet/puppet_install_on_ubuntu_14_04_trusty.php | |||
* https://help.ubuntu.com/lts/serverguide/puppet.html | |||
* https://www.digitalocean.com/community/tutorials/how-to-install-puppet-to-manage-your-server-infrastructure | |||
=== Masterless approach === | === Masterless approach === |
Revision as of 20:50, 1 January 2016
Official website https://www.vagrantup.com/
Resources
Download
The version available now is 1.8.1.
Use vagrant -v to see the vagrant version currently installed in your machine.
Documentation
https://docs.vagrantup.com/v2/
Books
- Vagrant Virtual Development Environment Cookbook (2015)
- Creating Development Environments with Vagrant (2015, 2nd Ed)
- Pro Vagrant (2015)
- Vagrant: Up and Running (2013)
Some commands
vagrant up vagrant halt # gracefully shut down vagrant suspend vagrant resume vagrant destroy # stops the running machine Vagrant is managing and destroys all resources vagrant box SUBCOMMANDS vagrant box remove ubuntu/trusty32 vagrant ssh vagrant package # This packages a currently running VirtualBox environment into a re-usable box.
Examples
A simple example
$ mkdir precise32 $ cd precise32 $ vagrant init hashcorp/precise32 A `Vagrantfile` has been placed in this directory. You are now ready to `vagrant up` your first virtual environment! Please read the comments in the Vagrantfile as well as documentation on `vagrantup.com` for more information on using Vagrant. $ cat Vagrant VAGRANTFILE_API_VERSION = "2" Vagrant.configure(VAGRANTFILE_API_VERSION) do |config| config.vm.box = "hashcorp/precise32" end $ vagrant up vm * The box 'hashcorp/precise32' could not be found.
The solution from stackoverflow works.
If we open VirtualBox GUI, we will see a new guest machine called precise32_default_XXXXXXXX is created and running though we do not see Ubuntu precise 32 desktop application in a new window.
A web server
VAGRANTFILE_API_VERSION = "2" Vagrant.configure(VAGRANTFILE_API_VERSION) do |config| config.vm.define "web", primary: true do |web| web.vm.box = "ubuntu/trusty64" web.vm.network "forwarded_port", guest:80, host:8888 web.vm.provision "shell", inline: "apt-get install -y nginx" end end
Start the machine with the vagrant up command. Open a web browser on your host machine at http://localhost:8888. This will present the nginx Welcome page.
See my gist for the output.
A GUI example
Go to
- https://atlas.hashicorp.com/boxes/search. Type 'GUI' to search
- https://atlas.hashicorp.com/chad-thompson/boxes/ubuntu-trusty64-gui
Run vagrant init chad-thompson/ubuntu-trusty64-gui. Edit Vagrantfile.
Vagrant.configure(2) do |config| config.vm.box = "chad-thompson/ubuntu-trusty64-gui" config.vm.provider "virtualbox" do |vbox| vbox.gui = true end end
Then run vagrant up (1.5GB download).
Note that when I run df -h in the VM, it shows
Filesystem Size Used Avail Mounted on /dev/sda1 21G 3.1G 17G / /vagrant 1.8T 445G 1.4T /vagrant
The /vagrant partition contains the Vagrantfile.
We can also make the Vagrantfile a bit more general by including multiple providers in the same Vagrantfile.
Vagrant.configure(2) do |config| config.vm.box = "chad-thompson/ubuntu-trusty64-gui" config.vm.provider "virtualbox" do |vbox| vbox.gui = true end config.vm.provider "vmware_fusion" do |fusion| fusion.gui = true end end
Default implementation from providers
Suppose we want to set up a web server to develop html files. We share a source folder that contains html documentation with the guest.
- In the working directory, create a new dir called vagrantsite.
- In the vagrantsite dir, create a file named index.html.
- Create a new Vagrantfile in the working directory.
- Add a synced_folder directive to the web server configuration.
- Create an additional command to the web.vm.provision line to create a symbolic link from this directory to a directory in the nginx default web directory.
VAGRANTFILE_API_VERSION = "2" Vagrant.configure(VAGRANTFILE_API_VERSION) do |config| config.vm.define "web", primary: true do |web| web.vm.box = "ubuntu/trusty64" web.vm.network "forwarded_port", guest:80, host:8888 web.vm.synced_folder "vagrantsite/", "/opt/vagrantsite" web.vm.provision "shell", inline, "apt-get install -y nginx; ln -s /opt/vagrantsite /usr/share/nginx/html/vagrantsite" end end
Now executing vagrant up command and open the page http://localhost:8888/vagrantsite/ in a web browser.
Note
- Vagrant shares the working directory of the Vagrantfile in the root vagrant directory by default. Executing ls /vagrant command should return this information.
- Sharing folders will require proper tools to be installed in the host machine. For VirtualBox, this means having the guest additions installed. For VMware, this means VMware tools installed.
Shared folders can also be implemented in different ways
- Using networked file systems such as NFS (Linux, OS X) and SMB (Windows). These options might offer significantly better file-sharing performance than shared folder functionality of the hypervisor; i.e. NFS is better than using the guest additions method in VirtualBox. See http://mitchellh.com/comparing-filesystem-performance-in-virtual-machines.
- A Vagrant machine executing on a remote hypervisor (eg a cloud service) will usually not have shared filesystems available. Vagrant provides methods to copy files from host ot guest using the rsync protocol.
Sharing directories from the host machine will require the host system to export a directory for use by the guest machine. When using NFS, this means that Vagrant will add an entry to the native /etc/exports file to define the rule to export the specified directory to the guest box.
Prior to starting, make sure that Network File Share Daemon (nfsd) is installed on your host machine.
Notice the type option in the synced_folder line.
VAGRANTFILE_API_VERSION = "2" Vagrant.configure(VAGRANTFILE_API_VERSION) do |config| config.vm.define "web", primary: true do |web| web.vm.box = "ubuntu/trusty64" web.vm.network "forwarded_port", guest:80, host:8888 web.vm.synced_folder "vagrantsite/", "/opt/vagrantsite", type: "nfs" web.vm.provision "shell", inline, "apt-get install -y nginx; ln -s /opt/vagrantsite /usr/share/nginx/html/vagrantsite" end end
You can verify the shared folder is from NFS by typing vagrant ssh and executing the mount command. The mount command should contain an entry that shows type nfs for one partition.
For Windows Server Message Block (SMB) protocol, modify the synced_folder to
web.vm.synced_folder "vagrantsite/", "/opt/vagrantsite", type:" smb"
rsync
'rsync method is useful when
- NFS or VirtualBox shared folders aren't available in the guest machine.
- Processes that generate significant disk activity (I/O) on shared folders
- Vagrant can be used to control vm in remote locations (even in remote data centers over the public internet)
Pay attention to the synced_folder line.
VAGRANTFILE_API_VERSION = "2" Vagrant.configure(VAGRANTFILE_API_VERSION) do |config| config.vm.define "web", primary: true do |web| web.vm.box = "ubuntu/trusty64" web.vm.network "forwarded_port", guest:80, host:8888 web.vm.synced_folder "vagrantsite/", "/opt/vagrantsite", type: "rsync" web.vm.provision "shell", inline, "apt-get install -y nginx; ln -s /opt/vagrantsite /usr/share/nginx/html/vagrantsite" end end
When the files in the host machine are changed, we need to run vagrant rsync command on the host to synchronize the /opt/vagrantsite directory.
Customizing virtual machine settings in VirtualBox
The primary example is changing the settings of the virtual machine to use more (or less) system memory (2GB in the following example) and virtual processors (2 cpus).
Vagrant.configure(2) do |config| config.vm.define "web", primary: true do |web| web.vm.box = "ubuntu/trusty64" web.vm.network "forwarded_port", guest:80, host:8888 web.vm.provision "shell", inline: "apt-get install -y nginx" web.vm.provider "virtualbox" do |vbox| vbox.memory = 2048 vbox.cpus = 2 end end end
Start the vm with the vagrant up command. Verify the system has the amount of memory allocated by issuing the command head /proc/meminfo.
If we like to start a GUI on the vm, just add vbox.gui = true in the vbox block.
web.vm.provider "virtualbox" do |vbox| vbox.memory = 2048 vbox.cpus = 2 vbox.gui = true vbox.customize ["modifyvm", :id, "--bioslogofadein", "off"] end
The last line use the VBoxManage command to fade the VirtualBox startup logo immediately.
A full listing of available options to modify the runtime is available in the VirtualBox documentation http://www.virtualbox.org/manual/ch08.html.
Where is vagrant saving boxes files
http://stackoverflow.com/questions/10155708/where-does-vagrant-download-its-box-files-to
- Windows: C:/Users/USERNAME/.vagrant.d/boxes
- Linux and Mac: ~/.vagrant.d/boxes/
We can change the default directory by modifying the VAGRANT_HOME variable. See https://docs.vagrantup.com/v2/other/environmental-variables.html.
Vagrantfile
Vagrantfile is just Ruby.
Vagrantfile template
If we run vagrant init, we will get the following vagrantfile.
VAGRANTFILE_API_VERSION = "2" Vagrant.configure(VAGRANTFILE_API_VERSION) do |config| # ... end
Precise32
VAGRANTFILE_API_VERSION = "2" Vagrant.configure(VAGRANTFILE_API_VERSION) do |config| config.vm.box = "hashcorp/precise32" end
config.vm
Config namespace: config.vm
The settings within config.vm modify the configuration of the machine that Vagrant manages.
- config.vm.boot_timeout
- config.vm.box
- config.vm.box_url
- config.vm.communicator
- config.vm.hostname
- config.vm.provider
- config.vm.synced_folder
config.ssh
Boxes
Download a box w/ initializing an env
vagrant box add ubuntu/trusty64
You can also quickly initialize a Vagrant environment with vagrant init ubuntu/trusty64.
We can also specify an URL to add/download a box.
vagrant box add http://servername/boxes/environment.box
Remove a box
Something like
vagrant box remove ubuntu/trusty32
List downloaded boxes
vagrant box list
Create a new box/Package a VirtualBox machine
Suppose we use vagrant to create a new box based on ubuntu/trusty64. We ssh to the box and install some software (eg r-base-core). We use vagrant halt to shut down the box. Now we can package this new box.
$ VBoxManage list vms # find out the vm name (vm is created by Vagrant) $ vagrant package --base=trusty64_default_1451665747284_29528 --output=mytest.box
To test the new box, we can copy the box to your local Vagrant cache.
$ vagrant box add mytest.box --name=mytestbox $ vagrant box list mytestbox (virtualbox, 0) ubuntu/trusty64 (virtualbox, 20151217.0.0)
Create a new directory so we can test the new box.
cd .. mkdir mytestbox cd mytestbox vagrant init mytestbox # create Vagrantfile
Note that we can not use vagrant up to start the box now. If we try to run it, we will get the following error about the SSH authentication.
default: SSH username: vagrant default: SSH auth method: private key default: Warning: Remote connection disconnect. Retrying... default: Warning: Authentication failure. Retrying...
I have to use Ctrl+C to stop the process and then use vagrant destroy to destroy the (unsuccessfully) running virtual machine.
Go ahead to modify the Vagrantfile created by vagrant init mytestbox command to use the correct SSH username/password. By default, Vagrant relies on a common public key that is used by most box publishers that allows access to an account called vagrant. After the first login, Vagrant will place a key in the appropriate account; so, if desired, the password can be removed from the Vagrantfile after the first boot. (verified!)
Vagrant.configure(2) do |config| config.vm.box = "mytestbox" config.ssh.username="ubuntu" config.ssh.password="ubuntu" end
Strangely, though I can run vagrant up, I cannot use the password I created when I try the vagrant ssh command. I found the solution is to make sure the username and password used in the Vagrantfile the same as the virtual machine; in this case since I am using the ubuntu/trusty64 box, I should use the vagrant/vagrant as the username/password in the Vagrantfile. That is the correct Vagrantfile should be
Vagrant.configure(2) do |config| config.vm.box = "mytestbox" config.ssh.username="vagrant" config.ssh.password="vagrant" end
Now we can run vagrant up and vagrant ssh commands. We could check R should be available in the virtual machine.
Provisioning
Running basic shell commands
Pay attention to the line containing config.vm.provision.
VAGRANTFILE_API_VERSION = "2" Vagrant.configure(VAGRANTFILE_API_VERSION) do |config| config.vm.box = "ubuntu/trusty64" config.vm.provision "shell", inline: "echo 'Knock Knock!' > /etc/motd" end
Once the machine is booted, access the machine with vagrant ssh command. The login shell will display the message created with the inline shell script.
Executing shell scripts in a Vagrantfile
VAGRANTFILE_API_VERSION = "2" $nginx_install = <<SCRIPT if [ ! -x /usr/sbin/nginx ]; then apt-get install -y nginx; fi # Default NGINX directory: /usr/share/nginx/html # Replace this with symbolic link to vagrant directory. if [ ! -L /usr/share/nginx/html ]; then rm -rf /usr/share/nginx/html ln -s /vagrant/html /usr/share/nginx/html fi SCRIPT Vagrant.configure(VAGRANTFILE_API_VERSION) do |config| config.vm.box = "puppetlabs/ubuntu-14.04-32-nocm" config.vm.provision "shell", inline: $nginx_install config.vm.network "forwarded_port", guest:80, host:8080 end
External shell scripts
The working directory should contain both Vagrantfile and the shell script file.
Pay attention to the line containing config.vm.provision.
VAGRANTFILE_API_VERSION = "2" Vagrant.configure(VAGRANTFILE_API_VERSION) do |config| config.vm.box = "ubuntu/trusty64" config.vm.provision "shell", path: "nginx-install.sh" config.vm.network "forwarded_port", guest:80, host:8080 end
The script file <nginx-install.sh> looks like
#!/bin/bash if [ ! -x /usr/sbin/nginx ]; then apt-get install -y nginx; fi # Default NGINX directory: /usr/share/nginx/html # Replace this with symbolic link to vagrant directory. if [ ! -L /usr/share/nginx/html ]; then rm -rf /usr/share/nginx/html ln -s /vagrant/html /usr/share/nginx/html fi
Execute the vagrant up command and open the browser at http://localhost:8080 in the local machine.
As a test of idempotency, execute the vagrant provision command. You shall see this command will exit quickly as all conditions within the script should be satisfied.
Using management tools/languages: Puppet
- https://docs.vagrantup.com/v2/provisioning/puppet_apply.html
- https://docs.vagrantup.com/v2/provisioning/puppet_agent.html
Vagrant machines use the Puppet agent infrastructure to perform provisioning operations on a machine. Puppet agents can function in one of two ways.
- By connecting to a Puppymaster to retrieve configuration information. A Puppetmaster is a server that is a centroalized location for systems to retrieve system configurations.
- By executing a puppy apply command to interpret and apply configurations locally. This is often referred to as the masterless Puppet approach.
Install Puppet
- Puppet Server
- Install Puppet Agent in Linux
- How to install Puppet master and client in Ubuntu 14.04 https://www.howtoforge.com/puppet-ubuntu-14.04
- http://www.bogotobogo.com/DevOps/Puppet/puppet_install_on_ubuntu_14_04_trusty.php
- https://help.ubuntu.com/lts/serverguide/puppet.html
- https://www.digitalocean.com/community/tutorials/how-to-install-puppet-to-manage-your-server-infrastructure
Masterless approach
We apply Puppet configurations locally with some reusable code (a Puppet module) that is obtained from the Puppet Forget repository.
- Vagrant box: it is necessary to use a Vagrant box that either has the Puppet agent installed or creates a bootstrapping script that configures packages repositories and installs the Puppet agent in the virtual machine. For simplicity, we can use a box provided by Puppet Labs.
- Host machine: the host machine also needs to install the Puppet agent. Having the agent installed on the host will allow for management of Puppet modules and resources by the host for Vagrant guests to be provisioned. A common example is to use the puppet module utility to manage and use modules.
The working directory has the following file structure
|-- Vagrantfile |-- puppet |-- manifests |-- modules
The Vagrantfile looks like (pay attention to the line containing config.vm.provision. The Puppet provisioner requires parameters to be set that define paths to our manifest and modules directories, as well as a manifest filename <site.pp> in this case).
VAGRANTFILE_API_VERSION = "2" Vagrant.configure(VAGRANTFILE_API_VERSION) do |config| # A Vagrant box with puppet pre-installed. config.vm.define "web", :primary => true do |web| web.vm.box = "ubuntu/trusty64" web.vm.hostname = "web" web.vm.network "forwarded_port", guest: 80, host: 8080 web.vm.provision "puppet" do |puppet| puppet.manifests_path = "puppet/manifests" puppet.manifest_file = "site.pp" puppet.module_path = "puppet/modules" end end end
With the Puppet provisioner configured, we can write the Puppet code.
Configure Puppet We use code downloaded from the Puppet Forget to install the Apache web server
- Open Puppet Forget (http://forge.puppetlabs.com)
- Search for 'apache'
- Select the puppetlabs/apache module. There are 2 ways you can do this:
- If you have puppet installed on your host, install the module with the puppet module command: puppet module install --modulepath=puppet/modules puppetlabs-apache. This approach will resolve dependencies and download them as well as the specified module itself.
- Download the tar.gz file and extract it into the modules directory. As this method does not resolve dependencies, this is something that need to be done manually. For this apache example, as we can see from the metadata.json file, the module dependencies are concat and stdlib.
- With the module dependencies installed, we need to create a manifest file <site.pp> that will govern how resources and modules are used.
node web { class{"apache": default_vhost => false, } apache::vhost{"default-host": docroot => "/var/www/html", docroot_owner => 'www-data', docroot_group => 'www-data', default_vhost => true, logroot => '/var/log/apache2', port => 80, } }
This manifest file does 3 things: specifies an action for the web node, calls the apache class to install the Apache web server, and defines an apache::vhost type that will create a default virtual host for our web server.
The working directory now has a structure
|-- Vagrantfile |-- puppet |-- manifests -- site.pp |-- modules |-- apache -- lots of files and subdirectories |-- concat -- lots of files and subdirectories |-- stdlib -- lots of files and subdirectories
Run the vagrant up command in the working directory. Open http://localhost:8080 in a web browser.