ansible/library/virt_boot

#!/usr/bin/env python
# -*- coding: utf-8 -*-

# (c) 2012, Jeroen Hoekx <jeroen@hoekx.be>
#
# This file is part of Ansible
#
# Ansible is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# Ansible is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with Ansible.  If not, see <http://www.gnu.org/licenses/>.

DOCUMENTATION = '''
---
author: Jeroen Hoekx
module: virt_boot
short_description: Define libvirt boot parameters
description:
  - "This module configures the boot order or boot media of a libvirt virtual
     machine. A guest can be configured to boot from network, hard disk, floppy,
     cdrom or a direct kernel boot. Specific media can be attached for cdrom, 
     floppy and direct kernel boot."
  - This module requires the libvirt module.
version_added: "0.8"
options:
  domain:
    description:
    - The name of the libvirt domain.
    required: true
  boot:
    description:
    - "Specify the boot order of the virtual machine. This is a comma-separated 
      list of: I(fd), I(hd), I(cdrom) and I(network)."
    required: false
  bootmenu:
    description:
    - Enable or disable the boot menu.
    required: false
    choices: [ "yes", "no" ]
  kernel:
    description:
    - The path of the kernel to boot.
    required: false
  initrd:
    description:
    - The path of the initrd to boot.
    required: false
  cmdline:
    description:
    - The command line to boot the kernel with.
    required: false
  device:
    default: hdc
    description:
    - The libvirt device name of the cdrom/floppy.
    required: false
  image:
    description:
    - The image to connect to the cdrom/floppy device.
    required: false
examples:
  - description: Boot from a cdrom image.
    code: virt_boot domain=archrear image=/srv/rear/archrear/rear-archrear.iso boot=cdrom
  - description: Boot from the local disk.
    code: virt_boot domain=archrear boot=hd
  - description: Boot a specific kernel with a special command line.
    code: virt_boot domain=archrear kernel=$storage/kernel-archrear initrd=$storage/initramfs-archrear.img cmdline="root=/dev/ram0 vga=normal rw"
  - description: Boot from the harddisk and if that fails from the network.
    code: virt_boot domain=archrear boot=hd,network
  - description: Enable the boot menu.
    code: virt_boot domain=archrear bootmenu=yes
requirements: [ "libvirt" ]
notes:
  - Run this on the libvirt host.
  - I(kernel) and I(boot) are mutually exclusive.
  - This module can not change a running system.
  - Using direct kernel boot will always result in a I(changed) state due to libvirt internals.
'''

from xml.dom.minidom import parseString

try:
    import libvirt
except ImportError:
    print "failed=True msg='libvirt python module unavailable'"
    sys.exit(1)

def get_domain(name):
    conn = libvirt.open("qemu:///system")
    domain = conn.lookupByName(name)

    return domain, conn

def get_xml(domain):
    domain_data = domain.XMLDesc(libvirt.VIR_DOMAIN_XML_INACTIVE)
    tree = parseString(domain_data)

    return tree

def write_xml(tree, conn):
    conn.defineXML( tree.toxml() )

def element_text(element, data=None):
    if data:
        to_be_removed = []
        for node in element.childNodes:
            to_be_removed.append(node)
        for node in to_be_removed:
            element.removeChild(node)
        element.appendChild( element.ownerDocument.createTextNode(data) )
    if element.firstChild and element.firstChild.nodeType==element.TEXT_NODE:
        return element.firstChild.data

def get_disk(tree, device):
    for target in tree.getElementsByTagName('target'):
        if target.getAttribute("dev") == device:
            return target

def attach_disk(domain, tree, device, image):
    disk = get_disk(tree, device)
    if disk:
        source = disk.parentNode.getElementsByTagName('source').item(0)
        if source and source.getAttribute("file") == image:
            return False

    CDROM_TEMPLATE='''<disk type="file" device="disk">
                        <driver name="qemu" type="raw"/>
                        <source file="{path}"/>
                        <target bus="virtio" dev="{dev}"/>
                      </disk>'''
    xml = CDROM_TEMPLATE.format(path=image, dev=device)
    domain.updateDeviceFlags(xml, libvirt.VIR_DOMAIN_AFFECT_CONFIG)
    return True

def detach_disk(domain, tree, device):
    disk = get_disk(tree, device)
    if disk:
        source = disk.parentNode.getElementsByTagName('source').item(0)
        if source and source.hasAttribute("file"):
            source.removeAttribute("file")
            xml = disk.parentNode.toxml()
            domain.updateDeviceFlags(xml, libvirt.VIR_DOMAIN_AFFECT_CONFIG)
            return True
    return False

def main():

    module = AnsibleModule(
        argument_spec = dict(
            domain=dict(required=True, aliases=['guest']),
            boot=dict(),
            bootmenu=dict(choices=BOOLEANS),
            kernel=dict(),
            initrd=dict(),
            cmdline=dict(),
            device=dict(default='hdc'),
            image=dict(),
        ),
        required_one_of = [['boot','kernel','image','bootmenu']],
        mutually_exclusive = [['boot','kernel']]
    )

    params = module.params

    domain_name = params['domain']

    boot = params['boot']
    bootmenu = module.boolean(params['bootmenu'])
    kernel = params['kernel']
    initrd = params['initrd']
    cmdline = params['cmdline']

    device = params['device']
    image = params['image']

    changed = False

    domain, conn = get_domain(domain_name)
    if domain.isActive():
        module.fail_json(msg="Domain %s is still running."%(domain_name))
    tree = get_xml(domain)

    ### Connect image
    if image:
        changed = changed or attach_disk(domain, tree, device, image)
        if not boot and not kernel:
            module.exit_json(changed=changed, image=image, device=device)
    else:
        changed = changed or detach_disk(domain, tree, device)

    if changed:
        tree = get_xml(domain)

    ### Boot ordering
    os = tree.getElementsByTagName('os').item(0)
    boot_list = os.getElementsByTagName('boot')
    kernel_el = os.getElementsByTagName('kernel').item(0)
    initrd_el = os.getElementsByTagName('initrd').item(0)
    cmdline_el = os.getElementsByTagName('cmdline').item(0)
    if boot:
        if kernel_el:
            changed = True
            kernel_el.parentNode.removeChild(kernel_el)
        if initrd_el:
            changed = True
            initrd_el.parentNode.removeChild(initrd_el)
        if cmdline_el:
            changed = True
            cmdline_el.parentNode.removeChild(cmdline_el)

        items = boot.split(',')
        if boot_list:
            needs_change = False
            if len(items) == len(boot_list):
                for (boot_el, dev) in zip(boot_list, items):
                    if boot_el.getAttribute('dev') != dev:
                        needs_change = True
            else:
                needs_change = True

            if needs_change:
                changed = True
                to_be_removed = []
                for boot_el in boot_list:
                    to_be_removed.append(boot_el)
                for boot_el in to_be_removed:
                    os.removeChild(boot_el)
                for item in items:
                    boot_el = tree.createElement('boot')
                    boot_el.setAttribute('dev', item)
                    os.appendChild(boot_el)
        else:
            changed = True
            for item in items:
                boot_el = tree.createElement('boot')
                boot_el.setAttribute('dev', item)
                os.appendChild(boot_el)

    elif kernel:
        if boot_list:
            changed = True
            to_be_removed = []
            for boot_el in boot_list:
                to_be_removed.append(boot_el)
            for boot_el in to_be_removed:
                os.removeChild(boot_el)
        if kernel_el:
            if element_text(kernel_el) != kernel:
                changed = True
                element_text(kernel_el, kernel)
        else:
            changed = True
            kernel_el = tree.createElement('kernel')
            kernel_el.appendChild( tree.createTextNode(kernel) )
            os.appendChild(kernel_el)

        if initrd_el:
            if element_text(initrd_el) != initrd:
                changed = True
                element_text(initrd_el, initrd)
        else:
            changed = True
            initrd_el = tree.createElement('initrd')
            initrd_el.appendChild( tree.createTextNode(initrd) )
            os.appendChild(initrd_el)

        if cmdline_el:
            if element_text(cmdline_el) != cmdline:
                changed = True
                element_text(cmdline_el, cmdline)
        else:
            changed = True
            cmdline_el = tree.createElement('cmdline')
            cmdline_el.appendChild( tree.createTextNode(cmdline) )
            os.appendChild(cmdline_el)

    ### Enable/disable bootmenu
    bootmenu_state = tree.getElementsByTagName('bootmenu').item(0)
    if bootmenu and bootmenu_state:
        bootmenu_enabled = bootmenu_state.getAttribute('enable')
        if bootmenu_enabled != 'yes':
            changed = True
            bootmenu_state.setAttribute('enable', 'yes')
    elif bootmenu:
        os = tree.getElementsByTagName('os').item(0)
        bootmenu_state = tree.createElement('bootmenu')
        bootmenu_state.setAttribute('enable', 'yes')
        changed = True
        os.appendChild(bootmenu_state)
    elif bootmenu_state:
        bootmenu_state.parentNode.removeChild(bootmenu_state)
        changed = True

    ### save back
    write_xml(tree, conn)

    module.exit_json(changed=changed)

# this is magic, see lib/ansible/module_common.py
#<<INCLUDE_ANSIBLE_MODULE_COMMON>>
main()