This is a Vagrant plugin that adds an Libvirt provider to Vagrant, allowing Vagrant to control and provision machines via Libvirt toolkit.
Note: Actual version is still a development one. Feedback is welcome and can help a lot :-)
- Features
- Future work
- Installation
- Vagrant Project Preparation
- Networks
- Additional Disks
- CDROMs
- Input
- PCI device passthrough
- CPU Features
- No box and PXE boot
- SSH Access To VM
- Forwarded Ports
- Synced Folders
- Customized Graphics
- Box Format
- Create Box
- Development
- Contributing
- Control local Libvirt hypervisors.
- Vagrant
up
,destroy
,suspend
,resume
,halt
,ssh
,reload
,package
andprovision
commands. - Upload box image (qcow2 format) to Libvirt storage pool.
- Create volume as COW diff image for domains.
- Create private networks.
- Create and boot Libvirt domains.
- SSH into domains.
- Setup hostname and network interfaces.
- Provision domains with any built-in Vagrant provisioner.
- Synced folder support via
rsync
,nfs
or9p
. - Snapshots via sahara.
- Package caching via vagrant-cachier.
- Use boxes from other Vagrant providers via vagrant-mutate.
- Support VMs with no box for PXE boot purposes (Vagrant 1.6 and up)
- Take a look at open issues.
First, you should have both qemu and libvirt installed if you plan to run VMs on your local system. For instructions, refer to your linux distribution's documentation. Before you start using Vagrant-libvirt, please make sure your libvirt and qemu installation is working correctly and you are able to create qemu or kvm type virtual machines with virsh
or virt-manager
.
Next, you must have Vagrant installed. Vagrant-libvirt supports Vagrant 1.5, 1.6 and 1.7.
Now you're ready to install vagrant-libvirt using standard Vagrant plugin installation methods.
$ vagrant plugin install vagrant-libvirt
In case of problems with building nokogiri and ruby-libvirt gem, install missing development libraries for libxslt, libxml2 and libvirt.
In Ubuntu, Debian, ...
$ sudo apt-get install libxslt-dev libxml2-dev libvirt-dev zlib1g-dev ruby-dev
In RedHat, Centos, Fedora, ...
# yum install libxslt-devel libxml2-devel libvirt-devel libguestfs-tools-c ruby-devel
If have problem with installation - check your linker. It should be ld.gold:
sudo alternatives --set ld /usr/bin/ld.gold
# OR
sudo ln -fs /usr/bin/ld.gold /usr/bin/ld
After installing the plugin (instructions above), the quickest way to get
started is to add Libvirt box and specify all the details manually within
a config.vm.provider
block. So first, add Libvirt box using any name you
want. This is just an example of Libvirt CentOS 7 box available in
https://atlas.hashicorp.com :
vagrant init fedora/23-cloud-base
# or
vagrant init centos/7
And then make a Vagrantfile that looks like the following, filling in your information where necessary. In example below, VM named test_vm is created from centos64 box.
Vagrant.configure("2") do |config|
config.vm.define :test_vm do |test_vm|
test_vm.vm.box = "centos64"
end
end
In prepared project directory, run following command:
$ vagrant up --provider=libvirt
Vagrant needs to know that we want to use Libvirt and not default VirtualBox.
That's why there is --provider=libvirt
option specified. Other way to tell
Vagrant to use Libvirt provider is to setup environment variable
export VAGRANT_DEFAULT_PROVIDER=libvirt
.
Vagrant goes through steps below when creating new project:
- Connect to Libvirt localy or remotely via SSH.
- Check if box image is available in Libvirt storage pool. If not, upload it to remote Libvirt storage pool as new volume.
- Create COW diff image of base box image for new Libvirt domain.
- Create and start new domain on Libvirt host.
- Check for DHCP lease from dnsmasq server.
- Wait till SSH is available.
- Sync folders and run Vagrant provisioner on new domain if setup in Vagrantfile.
Although it should work without any configuration for most people, this provider exposes quite a few provider-specific configuration options. The following options allow you to configure how vagrant-libvirt connects to libvirt, and are used to generate the libvirt connection URI:
driver
- A hypervisor name to access. For now only kvm and qemu are supported.host
- The name of the server, where libvirtd is running.connect_via_ssh
- If use ssh tunnel to connect to Libvirt. Absolutely needed to access libvirt on remote host. It will not be able to get the IP address of a started VM otherwise.username
- Username and password to access Libvirt.password
- Password to access Libvirt.id_ssh_key_file
- If not nil, uses this ssh private key to access Libvirt. Default is $HOME/.ssh/id_rsa. Prepends $HOME/.ssh/ if no directory.socket
- Path to the libvirt unix socket (eg: /var/run/libvirt/libvirt-sock)uri
- For advanced usage. Directly specifies what libvirt connection URI vagrant-libvirt should use. Overrides all other connection configuration options.
Connection-independent options:
storage_pool_name
- Libvirt storage pool name, where box image and instance snapshots will be stored.
Here is an example of how to set these options.
Vagrant.configure("2") do |config|
config.vm.provider :libvirt do |libvirt|
libvirt.host = "example.com"
end
end
disk_bus
- The type of disk device to emulate. Defaults to virtio if not set. Possible values are documented in libvirt's description for target.nic_model_type
- parameter specifies the model of the network adapter when you create a domain value by default virtio KVM believe possible values, see the documentation for libvirt.memory
- Amount of memory in MBytes. Defaults to 512 if not set.cpus
- Number of virtual cpus. Defaults to 1 if not set.nested
- Enable nested virtualization. Default is false.cpu_mode
- CPU emulation mode. Defaults to 'host-model' if not set. Allowed values: host-model, host-passthrough, custom.cpu_model
- CPU Model. Defaults to 'qemu64' if not set. This can really only be used when settingcpu_mode
tocustom
.cpu_fallback
- Whether to allow libvirt to fall back to a CPU model close to the specified model if features in the guest CPU are not supported on the host. Defaults to 'allow' if not set. Allowed values:allow
,forbid
.loader
- Sets path to custom UEFI loader.volume_cache
- Controls the cache mechanism. Possible values are "default", "none", "writethrough", "writeback", "directsync" and "unsafe". See driver->cache in libvirt documentation.kernel
- To launch the guest with a kernel residing on host filesystems. Equivalent to qemu-kernel
.initrd
- To specify the initramfs/initrd to use for the guest. Equivalent to qemu-initrd
.random_hostname
- To create a domain name with extra information on the end to prevent hostname conflicts.cmd_line
- Arguments passed on to the guest kernel initramfs or initrd to use. Equivalent to qemu-append
.graphics_type
- Sets the protocol used to expose the guest display. Defaults tovnc
. Possible values are "sdl", "curses", "none", "gtk", "vnc" or "spice".graphics_port
- Sets the port for the display protocol to bind to. Defaults to 5900.graphics_ip
- Sets the IP for the display protocol to bind to. Defaults to "127.0.0.1".graphics_passwd
- Sets the password for the display protocol. Working for vnc and spice. by default working without passsword.graphics_autoport
- Sets autoport for graphics, libvirt in this case ignores graphics_port value, Defaults to 'yes'. Possible value are "yes" and "no"keymap
- Set keymap for vm. default: en-uskvm_hidden
- Hide the hypervisor from the guest. Useful for GPU passthrough on stubborn drivers. Default is false.video_type
- Sets the graphics card type exposed to the guest. Defaults to "cirrus". Possible values are "vga", "cirrus", "vmvga", "xen", "vbox", or "qxl".video_vram
- Used by some graphics card types to vary the amount of RAM dedicated to video. Defaults to 9216.machine_type
- Sets machine type. Equivalent to qemu-machine
. Useqemu-system-x86_64 -machine help
to get a list of supported machines.machine_arch
- Sets machine architecture. This helps libvirt to determine the correct emulator type. Possible values depend on your version of qemu. For possible values, see which emulator executableqemu-system-*
your system provides. Common examples areaarch64
,alpha
,arm
,cris
,i386
,lm32
,m68k
,microblaze
,microblazeel
,mips
,mips64
,mips64el
,mipsel
,moxie
,or32
,ppc
,ppc64
,ppcemb
,s390x
,sh4
,sh4eb
,sparc
,sparc64
,tricore
,unicore32
,x86_64
,xtensa
,xtensaeb
.machine_virtual_size
- Sets the disk size in GB for the machine overriding the default specified in the box. Allows boxes to defined with a minimal size disk by default and to be grown to a larger size at creation time. Will ignore sizes smaller than the size specified by the box metadata. Note that currently there is no support for automatically resizing the filesystem to take advantage of the larger disk.emulator_path
- Explicitly select which device model emulator to use by providing the path, e.g./usr/bin/qemu-system-x86_64
. This is especially useful on systems that fail to select it automatically based onmachine_arch
which then results in a capability error.boot
- Change the boot order and enables the boot menu. Possible options are "hd", "network", "cdrom". Defaults to "hd" with boot menu disabled. When "network" is set without "hd", only all NICs will be tried; see below for more detail.nic_adapter_count
- Defaults to '8'. Only use case for increasing this count is for VMs that virtualize switches such as Cumulus Linux. Max value for Cumulus Linux VMs is 33.uuid
- Force a domain UUID. Defaults to autogenerated value by libvirt if not set.suspend_mode
- What is done on vagrant suspend. Possible values: 'pause', 'managedsave'. Pause mode executes a lavirsh suspend
, which just pauses execution of a VM, not freeing resources. Managed save mode does a lavirsh managedsave
which frees resources suspending a domain.tpm_model
- The model of the TPM to which you wish to connect.tpm_type
- The type of TPM device to which you are connecting.tpm_path
- The path to the TPM device on the host system.dtb
- The device tree blob file, mostly used for non-x86 platforms. In case the device tree isn't added in-line to the kernel, it can be manually specified here.autostart
- Automatically start the domain when the host boots. Defaults to 'false'.
Specific domain settings can be set for each domain separately in multi-VM environment. Example below shows a part of Vagrantfile, where specific options are set for dbserver domain.
Vagrant.configure("2") do |config|
config.vm.define :dbserver do |dbserver|
dbserver.vm.box = "centos64"
dbserver.vm.provider :libvirt do |domain|
domain.memory = 2048
domain.cpus = 2
domain.nested = true
domain.volume_cache = 'none'
end
end
# ...
The following example shows part of a Vagrantfile that enables the VM to
boot from a network interface first and a hard disk second. This could be
used to run VMs that are meant to be a PXE booted machines. Be aware that
if hd
is not specified as a boot option, it will never be tried.
Vagrant.configure("2") do |config|
config.vm.define :pxeclient do |pxeclient|
pxeclient.vm.box = "centos64"
pxeclient.vm.provider :libvirt do |domain|
domain.boot 'network'
domain.boot 'hd'
end
end
# ...
On vagrant reload the following domain specific attributes are updated in defined domain:
disk_bus
- Is updated only on disks. It skips cdroms.nic_model_type
- Updated.memory
- Updated.cpus
- Updated.nested
- Updated.cpu_mode
- Updated. Pay attention that custom mode is not supported.graphics_type
- Updated.graphics_port
- Updated.graphics_ip
- Updated.graphics_passwd
- Updated.graphics_autoport
- Updated.keymap
- Updated.video_type
- Updated.video_vram
- Updated.tpm_model
- Updated.tpm_type
- Updated.tpm_path
- Updated.
Networking features in the form of config.vm.network
support private networks
concept. It supports both the virtual network switch routing types and the point to
point Guest OS to Guest OS setting using UDP/Mcast/TCP tunnel interfaces.
http://wiki.libvirt.org/page/VirtualNetworking
https://libvirt.org/formatdomain.html#elementsNICSTCP
http://libvirt.org/formatdomain.html#elementsNICSMulticast
http://libvirt.org/formatdomain.html#elementsNICSUDP (in libvirt v1.2.20 and higher)
Public Network interfaces are currently implemented using the macvtap driver. The macvtap driver is only available with the Linux Kernel version >= 2.6.24. See the following libvirt documentation for the details of the macvtap usage.
http://www.libvirt.org/formatdomain.html#elementsNICSDirect
An examples of network interface definitions:
# Private network using virtual network switching
config.vm.define :test_vm1 do |test_vm1|
test_vm1.vm.network :private_network, :ip => "10.20.30.40"
end
# Private network. Point to Point between 2 Guest OS using a TCP tunnel
# Guest 1
config.vm.define :test_vm1 do |test_vm1|
test_vm1.vm.network :private_network,
:libvirt__tunnel_type => 'server',
# default is 127.0.0.1 if omitted
# :libvirt__tunnel_ip => '127.0.0.1',
:libvirt__tunnel_port => '11111'
# Guest 2
config.vm.define :test_vm2 do |test_vm2|
test_vm2.vm.network :private_network,
:libvirt__tunnel_type => 'client',
# default is 127.0.0.1 if omitted
# :libvirt__tunnel_ip => '127.0.0.1',
:libvirt__tunnel_port => '11111'
# Public Network
config.vm.define :test_vm1 do |test_vm1|
test_vm1.vm.network :public_network,
:dev => "virbr0",
:mode => "bridge",
:type => "bridge"
end
In example below, one network interface is configured for VM test_vm1. After
you run vagrant up
, VM will be accessible on IP address 10.20.30.40. So if
you install a web server via provisioner, you will be able to access your
testing server on http://10.20.30.40 URL. But beware that this address is
private to libvirt host only. It's not visible outside of the hypervisor box.
If network 10.20.30.0/24 doesn't exist, provider will create it. By default created networks are NATed to outside world, so your VM will be able to connect to the internet (if hypervisor can). And by default, DHCP is offering addresses on newly created networks.
The second interface is created and bridged into the physical device 'eth0'. This mechanism uses the macvtap Kernel driver and therefore does not require an existing bridge device. This configuration assumes that DHCP and DNS services are being provided by the public network. This public interface should be reachable by anyone with access to the public network.
Note: These options are not applicable to public network interfaces.
There is a way to pass specific options for libvirt provider when using
config.vm.network
to configure new network interface. Each parameter name
starts with 'libvirt__' string. Here is a list of those options:
:libvirt__network_name
- Name of libvirt network to connect to. By default, network 'default' is used.:libvirt__netmask
- Used only together with:ip
option. Default is '255.255.255.0'.:libvirt__host_ip
- Adress to use for the host (not guest). Default is first possible address (after network address).:libvirt__dhcp_enabled
- If DHCP will offer addresses, or not. Used only when creating new network. Default is true.:libvirt__dhcp_start
- First address given out via DHCP. Default is third address in range (after network name and gateway).:libvirt__dhcp_stop
- Last address given out via DHCP. Default is last possible address in range (before broadcast address).:libvirt__dhcp_bootp_file
- The file to be used for the boot image. Used only when dhcp is enabled.:libvirt__dhcp_bootp_server
- The server that runs the DHCP server. Used only when dhcp is enabled.By default is the same host that runs the DHCP server.:libvirt__adapter
- Number specifiyng sequence number of interface.:libvirt__forward_mode
- Specify one ofveryisolated
,none
,nat
orroute
options. This option is used only when creating new network. Modenone
will create isolated network without NATing or routing outside. You will want to use NATed forwarding typically to reach networks outside of hypervisor. Routed forwarding is typically useful to reach other networks within hypervisor.veryisolated
described here. By default, optionnat
is used.:libvirt__forward_device
- Name of interface/device, where network should be forwarded (NATed or routed). Used only when creating new network. By default, all physical interfaces are used.:libvirt__tunnel_type
- Set to 'udp' if using UDP unicast tunnel mode (libvirt v1.2.20 or higher). Set this to either "server" or "client" for tcp tunneling. Set this to 'mcast' if using multicast tunneling. This configuration type uses tunnels to generate point to point connections between Guests. Useful for Switch VMs like Cumulus Linux. No virtual switch setting like "libvirt__network_name" applies with tunnel interfaces and will be ignored if configured.:libvirt__tunnel_ip
- Sets the source IP of the libvirt tunnel interface. By default this is127.0.0.1
for TCP and UDP tunnels and239.255.1.1
for Multicast tunnels. It populates the address field in the<source address="XXX">
of the interface xml configuration.:libvirt__tunnel_port
- Sets the source port the tcp/udp/mcast tunnel with use. This port information is placed in the<source port=XXX/>
section of interface xml configuration.:libvirt__tunnel_local_port
- Sets the local port used by the udp tunnel interface type. It populates the port field in the<local port=XXX">
section of the interface xml configuration. (This feature only works in libvirt 1.2.20 and higher):libvirt__tunnel_local_ip
- Sets the local IP used by the udp tunnel interface type. It populates the ip entry of the<local address=XXX">
section of the interface xml configuration. (This feature only works in libvirt 1.2.20 and higher):libvirt__guest_ipv6
- Enable or disable guest-to-guest IPv6 communication. See here, and here for for more information.:libvirt__iface_name
- Define a name for the private network interface. With this feature one can simulate physical link failures:mac
- MAC address for the interface.:model_type
- parameter specifies the model of the network adapter when you create a domain value by default virtio KVM believe possible values, see the documentation for libvirt
When the option :libvirt__dhcp_enabled
is to to 'false' it shouldn't matter
whether the virtual network contains a DHCP server or not and vagrant-libvirt
should not fail on it. The only situation where vagrant-libvirt should fail
is when DHCP is requested but isn't configured on a matching already existing
virtual network.
:dev
- Physical device that the public interface should use. Default is 'eth0'.:mode
- The mode in which the public interface should operate in. Supported modes are available from the libvirt documentation. Default mode is 'bridge'.:type
- is type of interface.(<interface type="#{@type}">
):mac
- MAC address for the interface.:ovs
- Support to connect to an open vSwitch bridge device. Default is 'false'.
Vagrant-libvirt uses a private network to perform some management operations on VMs. All VMs will have an interface connected to this network and an IP address dynamically assigned by libvirt. This is in addition to any networks you configure. The name and address used by this network are configurable at the provider level.
management_network_name
- Name of libvirt network to which all VMs will be connected. If not specified the default is 'vagrant-libvirt'.management_network_address
- Address of network to which all VMs will be connected. Must include the address and subnet mask. If not specified the default is '192.168.121.0/24'.management_network_guest_ipv6
- Enable or disable guest-to-guest IPv6 communication. See here, and here for for more information.
You may wonder how vagrant-libvirt knows the IP address a VM received.
Libvirt doesn't provide a standard way to find out the IP address of a running
domain. But we do know the MAC address of the virtual machine's interface on
the management network. Libvirt is closely connected with dnsmasq, which acts as
a DHCP server. dnsmasq writes lease information in the /var/lib/libvirt/dnsmasq
directory. Vagrant-libvirt looks for the MAC address in this file and extracts
the corresponding IP address.
You can create and attach additional disks to a VM via libvirt.storage :file
. It has a number of options:
path
- Location of the disk image. If unspecified, a path is automtically chosen in the same storage pool as the VMs primary disk.device
- Name of the device node the disk image will have in the VM, e.g. vdb. If unspecified, the next available device is chosen.size
- Size of the disk image. If unspecified, defaults to 10G.type
- Type of disk image to create. Defaults to qcow2.bus
- Type of bus to connect device to. Defaults to virtio.cache
- Cache mode to use, e.g.none
,writeback
,writethrough
(see the libvirt documentation for possible values or here for a fuller explanation). Defaults to default.allow_existing
- Set to true if you want to allow the VM to use a pre-existing disk. This is useful for sharing disks between VMs, e.g. in order to simulate shared SAN storage. Shared disks removed only manually. If not exists - will created. If exists - using existed.
The following example creates two additional disks.
Vagrant.configure("2") do |config|
config.vm.provider :libvirt do |libvirt|
libvirt.storage :file, :size => '20G'
libvirt.storage :file, :size => '40G', :type => 'raw'
end
end
On vagrant reload the following additional disk attributes are updated in defined domain:
bus
- Updated. Usesdevice
as a search marker. It is not required to definedevice
, but it's recommended. Ifdevice
is defined then the order of addtitional disk definition becomes irrelevant.
You can attach up to four (4) CDROMs to a VM via libvirt.storage :file, :device => :cdrom
. Available options are:
path
- The path to the iso to be used for the CDROM drive.dev
- The device to use (hda
,hdb
,hdc
, orhdd
). This will be automatically determined if unspecified.bus
- The bus to use for the CDROM drive. Defaults toide
The following example creates three CDROM drives in the VM:
Vagrant.configure("2") do |config|
config.vm.provider :libvirt do |libvirt|
libvirt.storage :file, :device => :cdrom, :path => '/path/to/iso1.iso'
libvirt.storage :file, :device => :cdrom, :path => '/path/to/iso2.iso'
libvirt.storage :file, :device => :cdrom, :path => '/path/to/iso3.iso'
end
end
You can specify multiple inputs to the VM via libvirt.input
. Available options are
listed below. Note that both options are required:
type
- The type of the inputbus
- The bust of the input
Vagrant.configure("2") do |config|
config.vm.provider :libvirt do |libvirt|
# this is the default
# libvirt.input :type => "mouse", :bus => "ps2"
# very useful when having mouse issues when viewing VM via VNC
libvirt.input :type => "tablet", :bus => "usb"
end
end
You can specify multiple PCI devices to passthrough to the VM via libvirt.pci
. Available options are listed below. Note that all options are required:
bus
- The bus of the PCI deviceslot
- The slot of the PCI devicefunction
- The function of the PCI device
You can extract that information from output of lspci
command. First characters of each line are in format [<bus>]:[<slot>].[<func>]
. Example
$ lspci| grep NVIDIA
03:00.0 VGA compatible controller: NVIDIA Corporation GK110B [GeForce GTX TITAN Black] (rev a1)
In that case bus
is 0x03
, slot
is 0x00
and function
is 0x0
.
Vagrant.configure("2") do |config|
config.vm.provider :libvirt do |libvirt|
libvirt.pci :bus => '0x06', :slot => '0x12', :function => '0x5'
# Add another one if it is neccessary
libvirt.pci :bus => '0x03', :slot => '0x00', :function => '0x0'
end
end
You can specify CPU feature policies via libvirt.cpu_feature
. Available options are
listed below. Note that both options are required:
name
- The name of the feature for the chosen CPU (see libvirtscpu_map.xml
)policy
- The policy for this feature (one offorce
,require
,optional
,disable
andforbid
- see libvirt documentation)
Vagrant.configure("2") do |config|
config.vm.provider :libvirt do |libvirt|
# The feature will not be supported by virtual CPU.
libvirt.cpu_feature :name => 'hypervisor', :policy => 'disable'
# Guest creation will fail unless the feature is supported by host CPU.
libvirt.cpu_feature :name => 'vmx', :policy => 'require'
# The virtual CPU will claim the feature is supported regardless of it being supported by host CPU.
libvirt.cpu_feature :name => 'pdpe1gb', :policy => 'force'
end
end
You can specify multiple USB devices to passthrough to the VM via libvirt.usb
. The device can be specified by the following options:
bus
- The USB bus ID, e.g. "1"device
- The USB device ID, e.g. "2"vendor
- The USB devices vendor ID (VID), e.g. "0x1234"product
- The USB devices product ID (PID), e.g. "0xabcd"
At least one of these has to be specified, and bus
and device
may only be used together.
The example values above match the device from the following output of lsusb
:
Bus 001 Device 002: ID 1234:abcd Example device
Additionally, the following options can be used:
startupPolicy
- Is passed through to libvirt and controls if the device has to exist. libvirt currently allows the following values: "mandatory", "requisite", "optional".
There is support for PXE booting VMs with no disks as well as PXE booting VMs with blank disks. There are some limitations:
- Requires Vagrant 1.6.0 or newer
- No provisioning scripts are ran
- No network configuration is being applied to the VM
- No SSH connection can be made
vagrant halt
will only work cleanly if the VM handles ACPI shutdown signals
In short, VMs without a box can be created, halted and destroyed but all other functionality cannot be used.
An example for a PXE booted VM with no disks whatsoever:
Vagrant.configure("2") do |config|
config.vm.define :pxeclient do |pxeclient|
pxeclient.vm.provider :libvirt do |domain|
domain.boot 'network'
end
end
end
And an example for a PXE booted VM with no box but a blank disk which will boot from this HD if the NICs fail to PXE boot:
Vagrant.configure("2") do |config|
config.vm.define :pxeclient do |pxeclient|
pxeclient.vm.provider :libvirt do |domain|
domain.storage :file, :size => '100G', :type => 'qcow2'
domain.boot 'network'
domain.boot 'hd'
end
end
end
vagrant-libvirt supports vagrant's standard ssh settings.
vagrant-libvirt supports Forwarded Ports via ssh port forwarding. Please note that due to a well known limitation only the TCP protocol is supported. For each forwarded_port
directive you specify in your Vagrantfile, vagrant-libvirt will maintain an active ssh process for the lifetime of the VM.
vagrant-libvirt supports an additional forwarded_port
option
gateway_ports
which defaults to false
, but can be set to true
if
you want the forwarded port to be accessible from outside the Vagrant
host. In this case you should also set the host_ip
option to '*'
since it defaults to 'localhost'
.
You can also provide a custom adapter to forward from by 'adapter' option. Default is 'eth0'.
vagrant-libvirt supports bidirectional synced folders via nfs or 9p and unidirectional via rsync. The default is nfs. Vagrant automatically syncs the project folder on the host to /vagrant in the guest. You can also configure additional synced folders.
You can change the synced folder type for /vagrant by explicity configuring it an setting the type, e.g.
config.vm.synced_folder './', '/vagrant', type: 'rsync'
or
config.vm.synced_folder './', '/vagrant', type: '9p', disabled: false, accessmode: "squash", owner: "vagrant"
or
config.vm.synced_folder './', '/vagrant', type: '9p', disabled: false, accessmode: "mapped", mount: false
For 9p shares, a mount: false
option allows to define synced folders without mounting them at boot.
SECURITY NOTE: for remote libvirt, nfs synced folders requires a bridged public network interface and you must connect to libvirt via ssh.
vagrant-libvirt supports customizing the display and video settings of the managed guest. This is probably most useful for VNC-type displays with multiple guests. It lets you specify the exact port for each guest to use deterministically.
Here is an example of using custom display options:
Vagrant.configure("2") do |config|
config.vm.provider :libvirt do |libvirt|
libvirt.graphics_port = 5901
libvirt.graphics_ip = '0.0.0.0'
libvirt.video_type = 'qxl'
end
end
Modern versions of Libvirt support connecting to TPM devices on the host system. This allows you to enable Trusted Boot Extensions, among other features, on your guest VMs.
In general, you will only need to modify the tpm_path
variable in your guest
configuration. However, advanced usage, such as the application of a Software
TPM, may require modifying the tpm_model
and tpm_type
variables.
The TPM options will only be used if you specify a TPM path. Declarations of any TPM options without specifying a path will result in those options being ignored.
Here is an example of using the TPM options:
Vagrant.configure("2") do |config|
config.vm.provider :libvirt do |libvirt|
libvirt.tpm_model = 'tpm-tis'
libvirt.tpm_type = 'passthrough'
libvirt.tpm_path = '/dev/tpm0'
end
end
You can view an example box in the example_box/directory. That directory also contains instructions on how to build a box.
The box is a tarball containing:
- qcow2 image file named
box.img
. metadata.json
file describing box image (provider, virtual_size, format).Vagrantfile
that does default settings for the provider-specific configuration for this provider.
To create a vagrant-libvirt box from a qcow2 image, run create_box.sh
(located in the tools directory):
$ create_box.sh ubuntu14.qcow2
You can also create a box by using Packer. Packer templates for use with vagrant-libvirt are available at https://github.com/jakobadam/packer-qemu-templates. After cloning that project you can build a vagrant-libvirt box by running:
~/packer-qemu-templates/ubuntu$ packer build ubuntu-14.04-server-amd64-vagrant.json
To work on the vagrant-libvirt
plugin, clone this repository out, and use
Bundler to get the dependencies:
$ git clone https://github.com/vagrant-libvirt/vagrant-libvirt.git
$ cd vagrant-libvirt
$ bundle install
Once you have the dependencies, verify the unit tests pass with rspec
:
$ bundle exec rspec spec/
If those pass, you're ready to start developing the plugin. You can test
the plugin without installing it into your Vagrant environment by just
creating a Vagrantfile
in the top level of this directory (it is gitignored)
that uses it. Don't forget to add following line at the beginning of your
Vagrantfile
while in development mode:
Vagrant.require_plugin "vagrant-libvirt"
Now you can use bundler to execute Vagrant:
$ bundle exec vagrant up --provider=libvirt
IMPORTANT NOTE: bundle is crucial. You need to use bundled vagrant.
- Fork it.
- Create your feature branch (
git checkout -b my-new-feature
). - Commit your changes (
git commit -am 'Add some feature'
). - Push to the branch (
git push origin my-new-feature
). - Create new Pull Request.