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libvirt
Libvirt: libvirt_domain
docs-libvirt-domain
Manages a virtual machine (domain) in libvirt

libvirt_domain

Manages a VM domain resource within libvirt. For more information see the official documentation.

Example Usage

resource "libvirt_domain" "default" {
  name = "test"
}

Argument Reference

The following arguments are supported:

  • name - (Required) A unique name for the resource, required by libvirt. Changing this forces a new resource to be created.
  • description - (Optional) The description for domain. Changing this forces a new resource to be created. This data is not used by libvirt in any way, it can contain any information the user wants.
  • cpu - (Optional) Configures CPU mode. See below for more details.
  • vcpu - (Optional) The amount of virtual CPUs. If not specified, a single CPU will be created.
  • memory - (Optional) The amount of memory in MiB. If not specified the domain will be created with 512 MiB of memory be used.
  • running - (Optional) Use false to turn off the instance. If not specified, true is assumed and the instance, if stopped, will be started at next apply.
  • disk - (Optional) An array of one or more disks to attach to the domain. The disk object structure is documented below.
  • network_interface - (Optional) An array of one or more network interfaces to attach to the domain. The network_interface object structure is documented below.
  • cloudinit - (Optional) The libvirt_cloudinit_disk disk that has to be used by the domain. This is going to be attached as a CDROM ISO. Changing the cloud-init won't cause the domain to be recreated, however the change will have effect on the next reboot.
  • autostart - (Optional) Set to true to start the domain on host boot up. If not specified false is assumed.
  • filesystem - (Optional) An array of one or more host filesystems to attach to the domain. The filesystem object structure is documented below.
  • coreos_ignition - (Optional) The libvirt_ignition resource that is to be used by the CoreOS domain.
  • fw_cfg_name - (Optional) The name of the firmware config path where ignition file is stored: default is opt/com.coreos/config. If you are using Flatcar Linux, the value is opt/org.flatcar-linux/config.
  • arch - (Optional) The architecture for the VM (probably x86_64 or i686), you normally won't need to set this unless you are building a special VM
  • machine - (Optional) The machine type, you normally won't need to set this unless you are running on a platform that defaults to the wrong machine type for your template
  • boot_device - (Optional) A list of devices (dev) which defines boot order. Example below.
  • emulator - (Optional) The path of the emulator to use
  • qemu_agent (Optional) By default is disabled, set to true for enabling it. More info qemu-agent.

Kernel and boot arguments

  • kernel - (Optional) The path of the kernel to boot

If you are using a qcow2 volume, you can pass the id of the volume (eg. ${libvirt_volume.kernel.id}) as they are local to the hypervisor.

Given that you can define a volume from a remote http file, this means, you can also have remote kernels.

resource "libvirt_volume" "kernel" {
  source = "http://download.opensuse.org/tumbleweed/repo/oss/boot/x86_64/loader/linux"
  name   = "kernel"
  pool   = "default"
  format = "raw"
}

resource "libvirt_domain" "domain-suse" {
  name   = "suse"
  memory = "1024"
  vcpu   = 1

  kernel = libvirt_volume.kernel.id

  // ...
}
  • initrd - (Optional) The path of the initrd to boot.

You can use it in the same way as the kernel.

  • cmdline - (Optional) Arguments to the kernel
resource "libvirt_domain" "domain-suse" {
  name   = "suse"
  memory = "1024"
  vcpu   = 1

  kernel = libvirt_volume.kernel.id

  cmdline = [
   {
    arg1 = "value1"
    arg2 = "value2"
    "_" = "rw nosplash"
   }
  ]
}

Kernel params that don't have a keyword identifier can be specified using the special "_" keyword. Multiple keyword-less params have to be specified using the same "_" keyword, like in the example above.

Also note that the cmd block is actually a list of maps, so it is possible to declare several of them by using either the literal list and map syntax as in the following examples:

resource "libvirt_domain" "my_machine" {
  //...
		cmdline = [
			{
				foo = "1"
				bar = "bye"
			},
			{
				foo = "2"
			}
		]
resource "libvirt_domain" "my_machine" {
  ...
		cmdline = [
			{
				foo = "1"
				bar = "bye"
			},
			{
				foo = "2"
			}
		]
}

UEFI images

Some extra arguments are also provided for using UEFI images:

  • firmware - (Optional) The UEFI rom images for exercising UEFI secure boot in a qemu environment. Users should usually specify one of the standard Open Virtual Machine Firmware (OVMF) images available for their distributions. The file will be opened read-only.
  • nvram - (Optional) this block allows specifying the following attributes related to the nvram:
    • file - path to the file backing the NVRAM store for non-volatile variables. When provided, this file must be writable and specific to this domain, as it will be updated when running the domain. However, libvirt can manage this automatically (and this is the recommended solution) if a mapping for the firmware to a variables file exists in /etc/libvirt/qemu.conf:nvram. In that case, libvirt will copy that variables file into a file specific for this domain.
    • template - (Optional) path to the file used to override variables from the master NVRAM store.

So you should typically use the firmware as this,

resource "libvirt_domain" "my_machine" {
  name     = "my_machine"
  firmware = "/usr/share/qemu/ovmf-x86_64-code.bin"
  memory   = "2048"

  disk {
    volume_id = libvirt_volume.volume.id
  }
  ...
}

and /etc/libvirt/qemu.conf should contain:

nvram = [
   "/usr/share/qemu/ovmf-x86_64-code.bin:/usr/share/qemu/ovmf-x86_64-vars.bin"
]

In case you need (or want) to specify the path for the NVRAM store, the domain definition should look like this:

resource "libvirt_domain" "my_machine" {
  name     = "my_machine"
  firmware = "/usr/share/qemu/ovmf-x86_64-code.bin"
  nvram {
    file = "/usr/local/share/qemu/custom-vars.bin"
  }
  memory = "2048"

  disk {
    volume_id = libvirt_volume.volume.id
  }
  ...
}

Finally, if you want the initial values for the NVRAM to be overridden by custom initial values coming from a template, the domain definition should look like this:

resource "libvirt_domain" "my_machine" {
  name     = "my_machine"
  firmware = "/usr/share/qemu/ovmf-x86_64-code.bin"
  nvram {
    file = "/usr/local/share/qemu/custom-vars.bin"
    template = "/usr/local/share/qemu/template-vars.bin"
  }
  memory = "2048"

  disk {
    volume_id = libvirt_volume.volume.id
  }
  ...
}

Handling disks

The disk block supports:

  • volume_id - (Optional) The volume id to use for this disk.
  • url - (Optional) The http url to use as the block device for this disk (read-only)
  • file - (Optional) The filename to use as the block device for this disk (read-only)
  • block_device - (Optional) The path to the host device to use as the block device for this disk.

While volume_id, url, file and block_device are optional, it is intended that you use one of them.

  • scsi - (Optional, Boolean) Use a scsi controller for this disk. The controller model is set to virtio-scsi
  • wwn - (Optional) Specify a WWN to use for the disk if the disk is using a scsi controller, if not specified then a random wwn is generated for the disk
resource "libvirt_volume" "leap" {
  name   = "leap"
  source = "http://someurl/openSUSE_Leap-42.1.qcow2"
}

resource "libvirt_volume" "mydisk" {
  name           = "mydisk"
  base_volume_id = libvirt_volume.leap.id
}

resource "libvirt_domain" "domain1" {
  name = "domain1"
  disk {
    volume_id = libvirt_volume.mydisk.id
    scsi      = "true"
  }

  disk {
    url = "http://foo.com/install.iso"
  }

  disk {
    file = "/absolute/path/to/disk.iso"
  }

  disk {
    block_device = "/dev/mapper/36005076802810e55400000000000145f"
  }
}

Also note that the disk block is actually a list of maps, so it is possible to declare several of them by using either the literal list and map syntax as in the following examples:

resource "libvirt_domain" "my_machine" {
  ...
  disk {
    volume_id = libvirt_volume.volume1.id
  }
  disk {
    volume_id = libvirt_volume.volume2.id
  }
}
resource "libvirt_domain" "my_machine" {
  ...
  disk = [
    {
      volume_id = libvirt_volume.volume1.id
    },
    {
      volume_id = libvirt_volume.volume2.id
    }
  ]
}
resource "libvirt_domain" "my_machine" {
  ...
  disk = [var.disk_map_list]
}

Handling network interfaces

The network_interface specifies a network interface that can be connected either to a virtual network (the preferred method on hosts with dynamic / wireless networking configs) or directly to a LAN.

resource "libvirt_domain" "domain1" {
  name = "domain1"

  network_interface {
    network_id     = libvirt_network.net1.id
    hostname       = "master"
    addresses      = ["10.17.3.3"]
    mac            = "AA:BB:CC:11:22:22"
    wait_for_lease = true
  }
}

When using a virtual network, users can specify:

  • network_name - (Optional) The name of an existing network to attach this interface to. The network will NOT be managed by the Terraform libvirt provider.
  • network_id - (Optional) The ID of a network resource to attach this interface to. This is a network resource managed by the Terraform libvirt provider.
  • mac - (Optional) The specific MAC address to use for this interface.
  • addresses - (Optional) An IP address for this domain in this network.
  • hostname - (Optional) A hostname that will be assigned to this domain resource in this network.
  • wait_for_lease- (Optional boolean) When creating the domain resource, wait until the network interface gets a DHCP lease from libvirt, so that the computed IP addresses will be available when the domain is up and the plan applied.

When connecting to a LAN, users can specify a target device with:

  • bridge - Provides a bridge from the VM directly to the LAN. This assumes there is a bridge device on the host which has one or more of the hosts physical NICs enslaved. The guest VM will have an associated tun device created and enslaved to the bridge. The IP range / network configuration is whatever is used on the LAN. This provides the guest VM full incoming & outgoing net access just like a physical machine.
  • vepa - All VMs' packets are sent to the external bridge. Packets whose destination is a VM on the same host as where the packet originates from are sent back to the host by the VEPA capable bridge (today's bridges are typically not VEPA capable).
  • macvtap - Packets whose destination is on the same host as where they originate from are directly delivered to the target macvtap device. Both origin and destination devices need to be in bridge mode for direct delivery. If either one of them is in vepa mode, a VEPA capable bridge is required.
  • passthrough - This feature attaches a virtual function of a SRIOV capable NIC directly to a VM without losing the migration capability. All packets are sent to the VF/IF of the configured network device. Depending on the capabilities of the device additional prerequisites or limitations may apply; for example, on Linux this requires kernel 2.6.38 or newer.

Example of a macvtap interface:

resource "libvirt_domain" "my-domain" {
  name = "master"
  ...
  network_interface {
    macvtap = "eth0"
  }
}

Warning: the Qemu guest agent must be installed and running inside of the domain in order to discover the IP addresses of all the network interfaces attached to a LAN.

Graphics devices and Video Card

The optional graphics block allows you to override the default graphics settings.

The block supports:

  • type - the type of graphics emulation (default is "spice")
  • autoport - defaults to "yes"
  • listen_type - "listen type", defaults to "none"
  • listen_address - (Optional) IP Address where the VNC listener should be started if listen_type is set to address. Defaults to 127.0.0.1

On occasion we have found it necessary to set a type of vnc and a listen_type of address with certain builds of QEMU.

With listen_address it is possible to specify a listener address for the virtual machines VNC server. Usually this is an IP of the host system.

The graphics block will look as follows:

resource "libvirt_domain" "my_machine" {
  ...
  graphics {
    type        = "vnc"
    listen_type = "address"
  }
}

The video card type can be changed from libvirt default cirrus to vga or others as described in Video Card Elements

resource "libvirt_domain" "my_machine" {
  ...
  video {
    type = "vga"
  }
}

~> Note well: the graphics block is ignored for the architectures s390x and ppc64.

Console devices

The optional console block allows you to define a console for the domain.

The block looks as follows:

resource "libvirt_domain" "my_machine" {
  ...
  console {
    type        = "pty"
    target_port = "0"
    target_type = <"serial" or "virtio">
    source_path = "/dev/pts/4"
  }
}

Attributes:

  • type - Console device type. Valid values are "pty" and "tcp".
  • target_port - Target port
  • target_type - (Optional) for the first console and defaults to serial. Subsequent console blocks must have a different type - usually virtio.

Additional attributes when type is "pty":

  • source_path - (Optional) Source path

Additional attributes when type is "tcp":

  • source_host - (Optional) IP address to listen on. Defaults to 127.0.0.1.
  • source_service - (Optional) Port number or a service name. Defaults to a random port.

Note that you can repeat the console block to create more than one console. This works the same way as with the disk blocks (see above).

See libvirt Domain XML Console element for more information.

CPU mode

The optional cpu block allows to configure CPU mode. Example:

resource "libvirt_domain" "my_machine" {
  ...
  cpu = {
    mode = "host-passthrough"
  }
}

To start the domain on host boot up set autostart to true like so:

resource "libvirt_domain" "my_machine" {
  ...
  autostart = true
}

Sharing filesystem between libvirt host and guest

The optional filesystem block allows to define one or more filesytem entries to be added to the domain. This allows to share a directory of the libvirtd host with the guest.

Currently the following attributes are supported:

  • accessmode: specifies the security mode for accessing the source. By default the mapped mode is chosen.
  • source: the directory of the host to be shared with the guest.
  • target: an arbitrary string tag that is exported to the guest as a hint for where to mount the source.
  • readonly: enables exporting filesystem as a readonly mount for guest, by default read-only access is given.

Example:

filesystem {
  source   = "/tmp"
  target   = "tmp"
  readonly = false
}
filesystem {
  source   = "/proc"
  target   = "proc"
  readonly = true
}

The exported filesystems can be mounted inside of the guest in this way:

sudo mount -t 9p -o trans=virtio,version=9p2000.L,rw tmp /host/tmp
sudo mount -t 9p -o trans=virtio,version=9p2000.L,r proc /host/proc

This can be automated inside of /etc/fstab:

tmp /host/tmp 9p  trans=virtio,version=9p2000.L,rw  0 0
proc /host/proc  9p  trans=virtio,version=9p2000.L,r  0 0

Define Boot Device Order

Set hd as default and fallback to network.

boot_device {
  dev = [ "hd", "network"]
}

Altering libvirt's generated domain XML definition

The optional xml block relates to the generated domain XML.

Currently the following attributes are supported:

  • xslt: specifies a XSLT stylesheet to transform the generated XML definition before creating the domain. This is used to support features the provider does not allow to set from the schema. It is not recommended to alter properties and settings that are exposed to the schema, as terraform will insist in changing them back to the known state.

See https://github.com/dmacvicar/terraform-provider-libvirt/blob/master/examples/xslt/main.tf and https://github.com/dmacvicar/terraform-provider-libvirt/blob/master/examples/xslt/nicmodel.xsl for a working example that changes the NIC model.

Attributes Reference

  • id - a unique identifier for the resource.
  • network_interface.<N>.addresses.<M> - M-th IP address assigned to the N-th network interface.