• Stars
    star
    353
  • Rank 120,322 (Top 3 %)
  • Language
    Ruby
  • License
    MIT License
  • Created about 11 years ago
  • Updated almost 2 years ago

Reviews

There are no reviews yet. Be the first to send feedback to the community and the maintainers!

Repository Details

Use Vagrant to manage Proxmox virtual machines

Vagrant Proxmox Provider

This is a Vagrant plugin that adds a Proxmox provider to Vagrant, allowing Vagrant to manage and provision Proxmox virtual machines.

Features

  • Create/Destroy OpenVZ containers from specified templates
  • Start/Shutdown OpenVZ containers
  • Create/Destroy Qemu containers from specified templates or iso file
  • Start/Shutdown Qemu containers
  • SSH into virtual machine
  • Provision the virtual machine
  • Synced folder support via rsync

Limitations

  • For OpenVZ containers you need a Vagrant compatible OpenVZ template
  • For OpenVZ containers only routed network mode is currently supported
  • For KVM machines the ISO file needs to be a Vagrant compatible live system or automatic installation
  • For KVM machines the Qemu template has to be on the selected_node

Requirements

  • Vagrant 1.5+
  • Ruby 2+

Installation

Install using standard Vagrant plugin method:

$ vagrant plugin install vagrant-proxmox

This will install the plugin from RubGems.org.

Usage

First install the provided dummy vagrant box:

$ vagrant box add dummy dummy_box/dummy.box

Then for an openvz container create a Vagrantfile that looks like the following (note that you might have to add "@pam" to your username if you're getting a "401 Unauthorized" error):

Vagrant.configure('2') do |config|

    config.vm.provider :proxmox do |proxmox|
        proxmox.endpoint = 'https://your.proxmox.server:8006/api2/json'
        proxmox.user_name = 'proxmox_username@pam'
        proxmox.password = 'proxmox_password'
        proxmox.vm_id_range = 900..910
        proxmox.vm_name_prefix = 'vagrant_'
        proxmox.openvz_os_template = 'local:vztmpl/vagrant-proxmox-ubuntu-12.tar.gz'
        proxmox.vm_type = :openvz
        proxmox.vm_memory = 256
    end
    
    config.vm.define :box, primary: true do |box|
        box.vm.box = 'dummy'
        box.vm.network :public_network, ip: '192.168.0.1'
    end
    
end

If you want KVM the Vagrantfile could look as follows:

Vagrant.configure('2') do |config|

    config.vm.provider :proxmox do |proxmox|
        proxmox.endpoint = 'https://proxmox.example.com/api2/json'
        proxmox.user_name = 'vagrant'
        proxmox.password = 'password'
        proxmox.vm_id_range = 900..910
        proxmox.vm_type = :qemu
        proxmox.vm_name_prefix = 'vagrant_'
        proxmox.qemu_os = :l26
        proxmox.qemu_disk_size = '30G'
        proxmox.qemu_storage = 'local'
        proxmox.qemu_iso_file = '/home/user/system.iso'
        proxmox.vm_name_prefix = 'vagrant_test_'
        proxmox.qemu_cores = 1
        proxmox.qemu_sockets = 1
        proxmox.qemu_nic_model = 'virtio'
        proxmox.qemu_bridge = 'vmbr0'
        proxmox.vm_memory = 512
    end

    config.vm.define :box, primary: true do |box|
        box.vm.box = 'dummy'
        box.vm.network :public_network, ip: '192.168.0.1', macaddress: 'ff:aa:cc:dd:bb:ee'
    end

end

For the meaning of the various options, refer to the Options section below.

You need an OpenVZ template or KVM ISO that contains a vagrant user supplied with the default Vagrant SSH keys. You can download an example Ubuntu based template here.

Finally run vagrant up --provider=proxmox to create and start the new OpenVZ container.

Options

  • endpoint URL of the JSON API endpoint of your Proxmox installation
  • user_name The name of the Proxmox user that Vagrant should use
  • password The password of the above user
  • vm_id_range The possible range of machine ids. The smallest free one is chosen for a new machine
  • vm_name_prefix An optional string that is prepended before the vm name
  • vm_type The virtual machine type, e.g. :openvz or :qemu
  • openvz_os_template The name of the template from which the OpenVZ container should be created
  • openvz_template_file The openvz os template file to upload and use for the virtual machine (can be specified instead of openvz_os_template)
  • replace_openvz_template_file Set to true if the openvz os template file should be replaced on the server (default: false)
  • vm_memory The container's main memory size
  • task_timeout How long to wait for completion of a Proxmox API command (in seconds)
  • task_status_check_interval Interval in seconds between checking for completion of a Proxmox API command
  • ssh_timeout The maximum timeout for a ssh connection to a virtual machine (in seconds)
  • ssh_status_check_interval The interval between two ssh reachability status retrievals (in seconds)
  • imgcopy_timeout The maximum timeout for a proxmox server task in case it's an upload (in seconds)
  • qemu_os The qemu virtual machine operating system, e.g. :l26
  • qemu_iso The qemu iso file to use for the virtual machine
  • qemu_iso_file The qemu iso file to upload and use for the virtual machine (can be specified instead of qemu_iso)
  • replace_qemu_iso_file Set to true if the iso file should be replaced on the server (default: false)
  • replace_template Set to true if the iso file should be replaced on the server (default: false)
  • qemu_template The name of a qemu template which is used to create a clone (can be specified instead of qemu_iso[_file])
  • qemu_disk_size The qemu disk size to use for the virtual machine, e.g. '30G'
  • qemu_storage The storage pool to use, i.e. the value of the storage key of the hash returned by pvesh get /nodes/{node}/storage, e.g. 'raid', 'local', 'cephstore'
  • qemu_cores The number of cores per socket available to the VM
  • qemu_sockets The number of CPU sockets available to the VM
  • qemu_nic_model which model of network interface card to use, default 'e1000'
  • qemu_bridge connect automatically to this bridge, default 'vmbr0'
  • selected_node If specified, only this specific node is used to create machines

Build the plugin

Build the plugin gem with

$ rake build

Optionally run the rspec tests with

$ rake spec

About us

TELCAT MULTICOM GmbH is a Germany-wide system house for innovative solutions and services in the areas of information, communication and security technology.

We develop IP-based telecommunication systems (TELCAT-UC) and use Vagrant and Proxmox to automatically deploy and test the builds in our Jenkins jobs.