ansible-later/env_27/lib/python2.7/site-packages/ansible/modules/cloud/cloudstack/cs_instance.py

#!/usr/bin/python
# -*- coding: utf-8 -*-
#
# (c) 2015, René Moser <mail@renemoser.net>
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)

from __future__ import absolute_import, division, print_function
__metaclass__ = type


ANSIBLE_METADATA = {'metadata_version': '1.1',
                    'status': ['stableinterface'],
                    'supported_by': 'community'}


DOCUMENTATION = '''
---
module: cs_instance
short_description: Manages instances and virtual machines on Apache CloudStack based clouds.
description:
    - Deploy, start, update, scale, restart, restore, stop and destroy instances.
version_added: '2.0'
author: "René Moser (@resmo)"
options:
  name:
    description:
      - Host name of the instance. C(name) can only contain ASCII letters.
      - Name will be generated (UUID) by CloudStack if not specified and can not be changed afterwards.
      - Either C(name) or C(display_name) is required.
  display_name:
    description:
      - Custom display name of the instances.
      - Display name will be set to C(name) if not specified.
      - Either C(name) or C(display_name) is required.
  group:
    description:
      - Group in where the new instance should be in.
  state:
    description:
      - State of the instance.
    default: present
    choices: [ deployed, started, stopped, restarted, restored, destroyed, expunged, present, absent ]
  service_offering:
    description:
      - Name or id of the service offering of the new instance.
      - If not set, first found service offering is used.
  cpu:
    description:
      - The number of CPUs to allocate to the instance, used with custom service offerings
  cpu_speed:
    description:
      - The clock speed/shares allocated to the instance, used with custom service offerings
  memory:
    description:
      - The memory allocated to the instance, used with custom service offerings
  template:
    description:
      - Name, display text or id of the template to be used for creating the new instance.
      - Required when using I(state=present).
      - Mutually exclusive with C(ISO) option.
  iso:
    description:
      - Name or id of the ISO to be used for creating the new instance.
      - Required when using I(state=present).
      - Mutually exclusive with C(template) option.
  template_filter:
    description:
      - Name of the filter used to search for the template or iso.
      - Used for params C(iso) or C(template) on I(state=present).
      - The filter C(all) was added in 2.6.
    default: executable
    choices: [ all, featured, self, selfexecutable, sharedexecutable, executable, community ]
    aliases: [ iso_filter ]
    version_added: '2.1'
  hypervisor:
    description:
      - Name the hypervisor to be used for creating the new instance.
      - Relevant when using I(state=present), but only considered if not set on ISO/template.
      - If not set or found on ISO/template, first found hypervisor will be used.
    choices: [ KVM, kvm, VMware, vmware, BareMetal, baremetal, XenServer, xenserver, LXC, lxc, HyperV, hyperv, UCS, ucs, OVM, ovm, Simulator, simulator ]
  keyboard:
    description:
      - Keyboard device type for the instance.
    choices: [ 'de', 'de-ch', 'es', 'fi', 'fr', 'fr-be', 'fr-ch', 'is', 'it', 'jp', 'nl-be', 'no', 'pt', 'uk', 'us' ]
  networks:
    description:
      - List of networks to use for the new instance.
    aliases: [ network ]
  ip_address:
    description:
      - IPv4 address for default instance's network during creation.
  ip6_address:
    description:
      - IPv6 address for default instance's network.
  ip_to_networks:
    description:
      - "List of mappings in the form I({'network': NetworkName, 'ip': 1.2.3.4})"
      - Mutually exclusive with C(networks) option.
    aliases: [ ip_to_network ]
  disk_offering:
    description:
      - Name of the disk offering to be used.
  disk_size:
    description:
      - Disk size in GByte required if deploying instance from ISO.
  root_disk_size:
    description:
      - Root disk size in GByte required if deploying instance with KVM hypervisor and want resize the root disk size at startup
        (need CloudStack >= 4.4, cloud-initramfs-growroot installed and enabled in the template)
  security_groups:
    description:
      - List of security groups the instance to be applied to.
    aliases: [ security_group ]
  host:
    description:
      - Host on which an instance should be deployed or started on.
      - Only considered when I(state=started) or instance is running.
      - Requires root admin privileges.
    version_added: 2.6
  domain:
    description:
      - Domain the instance is related to.
  account:
    description:
      - Account the instance is related to.
  project:
    description:
      - Name of the project the instance to be deployed in.
  zone:
    description:
      - Name of the zone in which the instance should be deployed.
      - If not set, default zone is used.
  ssh_key:
    description:
      - Name of the SSH key to be deployed on the new instance.
  affinity_groups:
    description:
      - Affinity groups names to be applied to the new instance.
    aliases: [ affinity_group ]
  user_data:
    description:
      - Optional data (ASCII) that can be sent to the instance upon a successful deployment.
      - The data will be automatically base64 encoded.
      - Consider switching to HTTP_POST by using I(CLOUDSTACK_METHOD=post) to increase the HTTP_GET size limit of 2KB to 32 KB.
  force:
    description:
      - Force stop/start the instance if required to apply changes, otherwise a running instance will not be changed.
    type: bool
    default: no
  allow_root_disk_shrink:
    description:
      - Enables a volume shrinkage when the new size is smaller than the old one.
    type: bool
    default: no
    version_added: '2.7'
  tags:
    description:
      - List of tags. Tags are a list of dictionaries having keys C(key) and C(value).
      - "If you want to delete all tags, set a empty list e.g. I(tags: [])."
    aliases: [ tag ]
  poll_async:
    description:
      - Poll async jobs until job has finished.
    type: bool
    default: yes
  details:
    description:
      - Map to specify custom parameters.
    version_added: '2.6'
extends_documentation_fragment: cloudstack
'''

EXAMPLES = '''
# NOTE: Names of offerings and ISOs depending on the CloudStack configuration.
- name: create a instance from an ISO
  cs_instance:
    name: web-vm-1
    iso: Linux Debian 7 64-bit
    hypervisor: VMware
    project: Integration
    zone: ch-zrh-ix-01
    service_offering: 1cpu_1gb
    disk_offering: PerfPlus Storage
    disk_size: 20
    networks:
      - Server Integration
      - Sync Integration
      - Storage Integration
  delegate_to: localhost

- name: for changing a running instance, use the 'force' parameter
  cs_instance:
    name: web-vm-1
    display_name: web-vm-01.example.com
    iso: Linux Debian 7 64-bit
    service_offering: 2cpu_2gb
    force: yes
  delegate_to: localhost

# NOTE: user_data can be used to kickstart the instance using cloud-init yaml config.
- name: create or update a instance on Exoscale's public cloud using display_name.
  cs_instance:
    display_name: web-vm-1
    template: Linux Debian 7 64-bit
    service_offering: Tiny
    ssh_key: john@example.com
    tags:
      - key: admin
        value: john
      - key: foo
        value: bar
    user_data: |
        #cloud-config
        packages:
          - nginx
  delegate_to: localhost

- name: create an instance with multiple interfaces specifying the IP addresses
  cs_instance:
    name: web-vm-1
    template: Linux Debian 7 64-bit
    service_offering: Tiny
    ip_to_networks:
      - network: NetworkA
        ip: 10.1.1.1
      - network: NetworkB
        ip: 192.0.2.1
  delegate_to: localhost

- name: ensure an instance is stopped
  cs_instance:
    name: web-vm-1
    state: stopped
  delegate_to: localhost

- name: ensure an instance is running
  cs_instance:
    name: web-vm-1
    state: started
  delegate_to: localhost

- name: remove an instance
  cs_instance:
    name: web-vm-1
    state: absent
  delegate_to: localhost
'''

RETURN = '''
---
id:
  description: UUID of the instance.
  returned: success
  type: string
  sample: 04589590-ac63-4ffc-93f5-b698b8ac38b6
name:
  description: Name of the instance.
  returned: success
  type: string
  sample: web-01
display_name:
  description: Display name of the instance.
  returned: success
  type: string
  sample: web-01
group:
  description: Group name of the instance is related.
  returned: success
  type: string
  sample: web
created:
  description: Date of the instance was created.
  returned: success
  type: string
  sample: 2014-12-01T14:57:57+0100
password_enabled:
  description: True if password setting is enabled.
  returned: success
  type: boolean
  sample: true
password:
  description: The password of the instance if exists.
  returned: success
  type: string
  sample: Ge2oe7Do
ssh_key:
  description: Name of SSH key deployed to instance.
  returned: success
  type: string
  sample: key@work
domain:
  description: Domain the instance is related to.
  returned: success
  type: string
  sample: example domain
account:
  description: Account the instance is related to.
  returned: success
  type: string
  sample: example account
project:
  description: Name of project the instance is related to.
  returned: success
  type: string
  sample: Production
default_ip:
  description: Default IP address of the instance.
  returned: success
  type: string
  sample: 10.23.37.42
default_ip6:
  description: Default IPv6 address of the instance.
  returned: success
  type: string
  sample: 2a04:c43:c00:a07:4b4:beff:fe00:74
  version_added: '2.6'
public_ip:
  description: Public IP address with instance via static NAT rule.
  returned: success
  type: string
  sample: 1.2.3.4
iso:
  description: Name of ISO the instance was deployed with.
  returned: success
  type: string
  sample: Debian-8-64bit
template:
  description: Name of template the instance was deployed with.
  returned: success
  type: string
  sample: Linux Debian 9 64-bit
template_display_text:
  description: Display text of template the instance was deployed with.
  returned: success
  type: string
  sample: Linux Debian 9 64-bit 200G Disk (2017-10-08-622866)
  version_added: 2.6
service_offering:
  description: Name of the service offering the instance has.
  returned: success
  type: string
  sample: 2cpu_2gb
zone:
  description: Name of zone the instance is in.
  returned: success
  type: string
  sample: ch-gva-2
state:
  description: State of the instance.
  returned: success
  type: string
  sample: Running
security_groups:
  description: Security groups the instance is in.
  returned: success
  type: list
  sample: '[ "default" ]'
affinity_groups:
  description: Affinity groups the instance is in.
  returned: success
  type: list
  sample: '[ "webservers" ]'
tags:
  description: List of resource tags associated with the instance.
  returned: success
  type: dict
  sample: '[ { "key": "foo", "value": "bar" } ]'
hypervisor:
  description: Hypervisor related to this instance.
  returned: success
  type: string
  sample: KVM
host:
  description: Hostname of hypervisor an instance is running on.
  returned: success and instance is running
  type: string
  sample: host-01.example.com
  version_added: 2.6
instance_name:
  description: Internal name of the instance (ROOT admin only).
  returned: success
  type: string
  sample: i-44-3992-VM
'''

import base64
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils._text import to_bytes, to_text
from ansible.module_utils.cloudstack import (
    AnsibleCloudStack,
    CS_HYPERVISORS,
    cs_argument_spec,
    cs_required_together
)


class AnsibleCloudStackInstance(AnsibleCloudStack):

    def __init__(self, module):
        super(AnsibleCloudStackInstance, self).__init__(module)
        self.returns = {
            'group': 'group',
            'hypervisor': 'hypervisor',
            'instancename': 'instance_name',
            'publicip': 'public_ip',
            'passwordenabled': 'password_enabled',
            'password': 'password',
            'serviceofferingname': 'service_offering',
            'isoname': 'iso',
            'templatename': 'template',
            'templatedisplaytext': 'template_display_text',
            'keypair': 'ssh_key',
            'hostname': 'host',
        }
        self.instance = None
        self.template = None
        self.iso = None

    def get_service_offering_id(self):
        service_offering = self.module.params.get('service_offering')

        service_offerings = self.query_api('listServiceOfferings')
        if service_offerings:
            if not service_offering:
                return service_offerings['serviceoffering'][0]['id']

            for s in service_offerings['serviceoffering']:
                if service_offering in [s['name'], s['id']]:
                    return s['id']
        self.fail_json(msg="Service offering '%s' not found" % service_offering)

    def get_host_id(self):
        host_name = self.module.params.get('host')
        if not host_name:
            return None

        args = {
            'type': 'routing',
            'zoneid': self.get_zone(key='id'),
        }
        hosts = self.query_api('listHosts', **args)
        if hosts:
            for h in hosts['host']:
                if h['name'] == host_name:
                    return h['id']

        self.fail_json(msg="Host '%s' not found" % host_name)

    def get_template_or_iso(self, key=None):
        template = self.module.params.get('template')
        iso = self.module.params.get('iso')

        if not template and not iso:
            return None

        args = {
            'account': self.get_account(key='name'),
            'domainid': self.get_domain(key='id'),
            'projectid': self.get_project(key='id'),
            'zoneid': self.get_zone(key='id'),
            'isrecursive': True,
            'fetch_list': True,
        }

        if template:
            if self.template:
                return self._get_by_key(key, self.template)

            rootdisksize = self.module.params.get('root_disk_size')
            args['templatefilter'] = self.module.params.get('template_filter')
            args['fetch_list'] = True
            templates = self.query_api('listTemplates', **args)
            if templates:
                for t in templates:
                    if template in [t['displaytext'], t['name'], t['id']]:
                        if rootdisksize and t['size'] > rootdisksize * 1024 ** 3:
                            continue
                        self.template = t
                        return self._get_by_key(key, self.template)

            if rootdisksize:
                more_info = " (with size <= %s)" % rootdisksize
            else:
                more_info = ""

            self.module.fail_json(msg="Template '%s' not found%s" % (template, more_info))

        elif iso:
            if self.iso:
                return self._get_by_key(key, self.iso)

            args['isofilter'] = self.module.params.get('template_filter')
            args['fetch_list'] = True
            isos = self.query_api('listIsos', **args)
            if isos:
                for i in isos:
                    if iso in [i['displaytext'], i['name'], i['id']]:
                        self.iso = i
                        return self._get_by_key(key, self.iso)

            self.module.fail_json(msg="ISO '%s' not found" % iso)

    def get_instance(self):
        instance = self.instance
        if not instance:
            instance_name = self.get_or_fallback('name', 'display_name')
            args = {
                'account': self.get_account(key='name'),
                'domainid': self.get_domain(key='id'),
                'projectid': self.get_project(key='id'),
                'fetch_list': True,
            }
            # Do not pass zoneid, as the instance name must be unique across zones.
            instances = self.query_api('listVirtualMachines', **args)
            if instances:
                for v in instances:
                    if instance_name.lower() in [v['name'].lower(), v['displayname'].lower(), v['id']]:
                        self.instance = v
                        break
        return self.instance

    def _get_instance_user_data(self, instance):
        # Query the user data if we need to
        if 'userdata' in instance:
            return instance['userdata']

        user_data = ""
        if self.get_user_data() is not None and instance.get('id'):
            res = self.query_api('getVirtualMachineUserData', virtualmachineid=instance['id'])
            user_data = res['virtualmachineuserdata'].get('userdata', "")
        return user_data

    def get_iptonetwork_mappings(self):
        network_mappings = self.module.params.get('ip_to_networks')
        if network_mappings is None:
            return

        if network_mappings and self.module.params.get('networks'):
            self.module.fail_json(msg="networks and ip_to_networks are mutually exclusive.")

        network_names = [n['network'] for n in network_mappings]
        ids = self.get_network_ids(network_names)
        res = []
        for i, data in enumerate(network_mappings):
            res.append({'networkid': ids[i], 'ip': data['ip']})
        return res

    def get_ssh_keypair(self, key=None, name=None, fail_on_missing=True):
        ssh_key_name = name or self.module.params.get('ssh_key')
        if ssh_key_name is None:
            return

        args = {
            'domainid': self.get_domain('id'),
            'account': self.get_account('name'),
            'projectid': self.get_project('id'),
            'name': ssh_key_name,
        }
        ssh_key_pairs = self.query_api('listSSHKeyPairs', **args)
        if 'sshkeypair' in ssh_key_pairs:
            return self._get_by_key(key=key, my_dict=ssh_key_pairs['sshkeypair'][0])

        elif fail_on_missing:
            self.module.fail_json(msg="SSH key not found: %s" % ssh_key_name)

    def ssh_key_has_changed(self):
        ssh_key_name = self.module.params.get('ssh_key')
        if ssh_key_name is None:
            return False

        # Fails if keypair for param is inexistent
        param_ssh_key_fp = self.get_ssh_keypair(key='fingerprint')

        # CloudStack 4.5 does return keypair on instance for a non existent key.
        instance_ssh_key_name = self.instance.get('keypair')
        if instance_ssh_key_name is None:
            return True

        # Get fingerprint for keypair of instance but do not fail if inexistent.
        instance_ssh_key_fp = self.get_ssh_keypair(key='fingerprint', name=instance_ssh_key_name, fail_on_missing=False)
        if not instance_ssh_key_fp:
            return True

        # Compare fingerprints to ensure the keypair changed
        if instance_ssh_key_fp != param_ssh_key_fp:
            return True
        return False

    def security_groups_has_changed(self):
        security_groups = self.module.params.get('security_groups')
        if security_groups is None:
            return False

        security_groups = [s.lower() for s in security_groups]
        instance_security_groups = self.instance.get('securitygroup') or []

        instance_security_group_names = []
        for instance_security_group in instance_security_groups:
            if instance_security_group['name'].lower() not in security_groups:
                return True
            else:
                instance_security_group_names.append(instance_security_group['name'].lower())

        for security_group in security_groups:
            if security_group not in instance_security_group_names:
                return True
        return False

    def get_network_ids(self, network_names=None):
        if network_names is None:
            network_names = self.module.params.get('networks')

        if not network_names:
            return None

        args = {
            'account': self.get_account(key='name'),
            'domainid': self.get_domain(key='id'),
            'projectid': self.get_project(key='id'),
            'zoneid': self.get_zone(key='id'),
            'fetch_list': True,
        }
        networks = self.query_api('listNetworks', **args)
        if not networks:
            self.module.fail_json(msg="No networks available")

        network_ids = []
        network_displaytexts = []
        for network_name in network_names:
            for n in networks:
                if network_name in [n['displaytext'], n['name'], n['id']]:
                    network_ids.append(n['id'])
                    network_displaytexts.append(n['name'])
                    break

        if len(network_ids) != len(network_names):
            self.module.fail_json(msg="Could not find all networks, networks list found: %s" % network_displaytexts)

        return network_ids

    def present_instance(self, start_vm=True):
        instance = self.get_instance()

        if not instance:
            instance = self.deploy_instance(start_vm=start_vm)
        else:
            instance = self.recover_instance(instance=instance)
            instance = self.update_instance(instance=instance, start_vm=start_vm)

        # In check mode, we do not necessarily have an instance
        if instance:
            instance = self.ensure_tags(resource=instance, resource_type='UserVm')
            # refresh instance data
            self.instance = instance

        return instance

    def get_user_data(self):
        user_data = self.module.params.get('user_data')
        if user_data is not None:
            user_data = to_text(base64.b64encode(to_bytes(user_data)))
        return user_data

    def get_details(self):
        details = self.module.params.get('details')
        cpu = self.module.params.get('cpu')
        cpu_speed = self.module.params.get('cpu_speed')
        memory = self.module.params.get('memory')
        if all([cpu, cpu_speed, memory]):
            details.extends({
                'cpuNumber': cpu,
                'cpuSpeed': cpu_speed,
                'memory': memory,
            })

        return details

    def deploy_instance(self, start_vm=True):
        self.result['changed'] = True
        networkids = self.get_network_ids()
        if networkids is not None:
            networkids = ','.join(networkids)

        args = {}
        args['templateid'] = self.get_template_or_iso(key='id')
        if not args['templateid']:
            self.module.fail_json(msg="Template or ISO is required.")

        args['zoneid'] = self.get_zone(key='id')
        args['serviceofferingid'] = self.get_service_offering_id()
        args['account'] = self.get_account(key='name')
        args['domainid'] = self.get_domain(key='id')
        args['projectid'] = self.get_project(key='id')
        args['diskofferingid'] = self.get_disk_offering(key='id')
        args['networkids'] = networkids
        args['iptonetworklist'] = self.get_iptonetwork_mappings()
        args['userdata'] = self.get_user_data()
        args['keyboard'] = self.module.params.get('keyboard')
        args['ipaddress'] = self.module.params.get('ip_address')
        args['ip6address'] = self.module.params.get('ip6_address')
        args['name'] = self.module.params.get('name')
        args['displayname'] = self.get_or_fallback('display_name', 'name')
        args['group'] = self.module.params.get('group')
        args['keypair'] = self.get_ssh_keypair(key='name')
        args['size'] = self.module.params.get('disk_size')
        args['startvm'] = start_vm
        args['rootdisksize'] = self.module.params.get('root_disk_size')
        args['affinitygroupnames'] = self.module.params.get('affinity_groups')
        args['details'] = self.get_details()
        args['securitygroupnames'] = self.module.params.get('security_groups')
        args['hostid'] = self.get_host_id()

        template_iso = self.get_template_or_iso()
        if 'hypervisor' not in template_iso:
            args['hypervisor'] = self.get_hypervisor()

        instance = None
        if not self.module.check_mode:
            instance = self.query_api('deployVirtualMachine', **args)

            poll_async = self.module.params.get('poll_async')
            if poll_async:
                instance = self.poll_job(instance, 'virtualmachine')
        return instance

    def update_instance(self, instance, start_vm=True):
        # Service offering data
        args_service_offering = {
            'id': instance['id'],
        }
        if self.module.params.get('service_offering'):
            args_service_offering['serviceofferingid'] = self.get_service_offering_id()
        service_offering_changed = self.has_changed(args_service_offering, instance)

        # Instance data
        args_instance_update = {
            'id': instance['id'],
            'userdata': self.get_user_data(),
        }
        instance['userdata'] = self._get_instance_user_data(instance)
        args_instance_update['ostypeid'] = self.get_os_type(key='id')
        if self.module.params.get('group'):
            args_instance_update['group'] = self.module.params.get('group')
        if self.module.params.get('display_name'):
            args_instance_update['displayname'] = self.module.params.get('display_name')
        instance_changed = self.has_changed(args_instance_update, instance)

        ssh_key_changed = self.ssh_key_has_changed()

        security_groups_changed = self.security_groups_has_changed()

        # Volume data

        args_volume_update = {}
        root_disk_size = self.module.params.get('root_disk_size')
        root_disk_size_changed = False

        if root_disk_size is not None:
            res = self.query_api('listVolumes', type='ROOT', virtualmachineid=instance['id'])
            [volume] = res['volume']

            size = volume['size'] >> 30

            args_volume_update['id'] = volume['id']
            args_volume_update['size'] = root_disk_size

            shrinkok = self.module.params.get('allow_root_disk_shrink')
            if shrinkok:
                args_volume_update['shrinkok'] = shrinkok

            root_disk_size_changed = root_disk_size != size

        changed = [
            service_offering_changed,
            instance_changed,
            security_groups_changed,
            ssh_key_changed,
            root_disk_size_changed,
        ]

        if any(changed):
            force = self.module.params.get('force')
            instance_state = instance['state'].lower()
            if instance_state == 'stopped' or force:
                self.result['changed'] = True
                if not self.module.check_mode:

                    # Ensure VM has stopped
                    instance = self.stop_instance()
                    instance = self.poll_job(instance, 'virtualmachine')
                    self.instance = instance

                    # Change service offering
                    if service_offering_changed:
                        res = self.query_api('changeServiceForVirtualMachine', **args_service_offering)
                        instance = res['virtualmachine']
                        self.instance = instance

                    # Update VM
                    if instance_changed or security_groups_changed:
                        if security_groups_changed:
                            args_instance_update['securitygroupnames'] = ','.join(self.module.params.get('security_groups'))
                        res = self.query_api('updateVirtualMachine', **args_instance_update)
                        instance = res['virtualmachine']
                        self.instance = instance

                    # Reset SSH key
                    if ssh_key_changed:
                        # SSH key data
                        args_ssh_key = {}
                        args_ssh_key['id'] = instance['id']
                        args_ssh_key['projectid'] = self.get_project(key='id')
                        args_ssh_key['keypair'] = self.module.params.get('ssh_key')
                        instance = self.query_api('resetSSHKeyForVirtualMachine', **args_ssh_key)
                        instance = self.poll_job(instance, 'virtualmachine')
                        self.instance = instance

                    # Root disk size
                    if root_disk_size_changed:
                        async_result = self.query_api('resizeVolume', **args_volume_update)
                        self.poll_job(async_result, 'volume')

                    # Start VM again if it was running before
                    if instance_state == 'running' and start_vm:
                        instance = self.start_instance()
            else:
                self.module.warn("Changes won't be applied to running instances. " +
                                 "Use force=true to allow the instance %s to be stopped/started." % instance['name'])

        # migrate to other host
        host_changed = all([
            instance['state'].lower() == 'running',
            self.module.params.get('host'),
            self.module.params.get('host') != instance.get('hostname')
        ])
        if host_changed:
            self.result['changed'] = True
            args_host = {
                'virtualmachineid': instance['id'],
                'hostid': self.get_host_id(),
            }
            if not self.module.check_mode:
                res = self.query_api('migrateVirtualMachine', **args_host)
                instance = self.poll_job(res, 'virtualmachine')

        return instance

    def recover_instance(self, instance):
        if instance['state'].lower() in ['destroying', 'destroyed']:
            self.result['changed'] = True
            if not self.module.check_mode:
                res = self.query_api('recoverVirtualMachine', id=instance['id'])
                instance = res['virtualmachine']
        return instance

    def absent_instance(self):
        instance = self.get_instance()
        if instance:
            if instance['state'].lower() not in ['expunging', 'destroying', 'destroyed']:
                self.result['changed'] = True
                if not self.module.check_mode:
                    res = self.query_api('destroyVirtualMachine', id=instance['id'])

                    poll_async = self.module.params.get('poll_async')
                    if poll_async:
                        instance = self.poll_job(res, 'virtualmachine')
        return instance

    def expunge_instance(self):
        instance = self.get_instance()
        if instance:
            res = {}
            if instance['state'].lower() in ['destroying', 'destroyed']:
                self.result['changed'] = True
                if not self.module.check_mode:
                    res = self.query_api('destroyVirtualMachine', id=instance['id'], expunge=True)

            elif instance['state'].lower() not in ['expunging']:
                self.result['changed'] = True
                if not self.module.check_mode:
                    res = self.query_api('destroyVirtualMachine', id=instance['id'], expunge=True)

            poll_async = self.module.params.get('poll_async')
            if poll_async:
                res = self.poll_job(res, 'virtualmachine')
        return instance

    def stop_instance(self):
        instance = self.get_instance()
        # in check mode instance may not be instanciated
        if instance:
            if instance['state'].lower() in ['stopping', 'stopped']:
                return instance

            if instance['state'].lower() in ['starting', 'running']:
                self.result['changed'] = True
                if not self.module.check_mode:
                    instance = self.query_api('stopVirtualMachine', id=instance['id'])

                    poll_async = self.module.params.get('poll_async')
                    if poll_async:
                        instance = self.poll_job(instance, 'virtualmachine')
        return instance

    def start_instance(self):
        instance = self.get_instance()
        # in check mode instance may not be instanciated
        if instance:
            if instance['state'].lower() in ['starting', 'running']:
                return instance

            if instance['state'].lower() in ['stopped', 'stopping']:
                self.result['changed'] = True
                if not self.module.check_mode:
                    args = {
                        'id': instance['id'],
                        'hostid': self.get_host_id(),
                    }
                    instance = self.query_api('startVirtualMachine', **args)

                    poll_async = self.module.params.get('poll_async')
                    if poll_async:
                        instance = self.poll_job(instance, 'virtualmachine')
        return instance

    def restart_instance(self):
        instance = self.get_instance()
        # in check mode instance may not be instanciated
        if instance:
            if instance['state'].lower() in ['running', 'starting']:
                self.result['changed'] = True
                if not self.module.check_mode:
                    instance = self.query_api('rebootVirtualMachine', id=instance['id'])

                    poll_async = self.module.params.get('poll_async')
                    if poll_async:
                        instance = self.poll_job(instance, 'virtualmachine')

            elif instance['state'].lower() in ['stopping', 'stopped']:
                instance = self.start_instance()
        return instance

    def restore_instance(self):
        instance = self.get_instance()
        self.result['changed'] = True
        # in check mode instance may not be instanciated
        if instance:
            args = {}
            args['templateid'] = self.get_template_or_iso(key='id')
            args['virtualmachineid'] = instance['id']
            res = self.query_api('restoreVirtualMachine', **args)

            poll_async = self.module.params.get('poll_async')
            if poll_async:
                instance = self.poll_job(res, 'virtualmachine')
        return instance

    def get_result(self, instance):
        super(AnsibleCloudStackInstance, self).get_result(instance)
        if instance:
            self.result['user_data'] = self._get_instance_user_data(instance)
            if 'securitygroup' in instance:
                security_groups = []
                for securitygroup in instance['securitygroup']:
                    security_groups.append(securitygroup['name'])
                self.result['security_groups'] = security_groups
            if 'affinitygroup' in instance:
                affinity_groups = []
                for affinitygroup in instance['affinitygroup']:
                    affinity_groups.append(affinitygroup['name'])
                self.result['affinity_groups'] = affinity_groups
            if 'nic' in instance:
                for nic in instance['nic']:
                    if nic['isdefault']:
                        if 'ipaddress' in nic:
                            self.result['default_ip'] = nic['ipaddress']
                        if 'ip6address' in nic:
                            self.result['default_ip6'] = nic['ip6address']
        return self.result


def main():
    argument_spec = cs_argument_spec()
    argument_spec.update(dict(
        name=dict(),
        display_name=dict(),
        group=dict(),
        state=dict(choices=['present', 'deployed', 'started', 'stopped', 'restarted', 'restored', 'absent', 'destroyed', 'expunged'], default='present'),
        service_offering=dict(),
        cpu=dict(type='int'),
        cpu_speed=dict(type='int'),
        memory=dict(type='int'),
        template=dict(),
        iso=dict(),
        template_filter=dict(
            default="executable",
            aliases=['iso_filter'],
            choices=['all', 'featured', 'self', 'selfexecutable', 'sharedexecutable', 'executable', 'community']
        ),
        networks=dict(type='list', aliases=['network']),
        ip_to_networks=dict(type='list', aliases=['ip_to_network']),
        ip_address=dict(defaul=None),
        ip6_address=dict(defaul=None),
        disk_offering=dict(),
        disk_size=dict(type='int'),
        root_disk_size=dict(type='int'),
        keyboard=dict(type='str', choices=['de', 'de-ch', 'es', 'fi', 'fr', 'fr-be', 'fr-ch', 'is', 'it', 'jp', 'nl-be', 'no', 'pt', 'uk', 'us']),
        hypervisor=dict(choices=CS_HYPERVISORS),
        host=dict(),
        security_groups=dict(type='list', aliases=['security_group']),
        affinity_groups=dict(type='list', aliases=['affinity_group']),
        domain=dict(),
        account=dict(),
        project=dict(),
        user_data=dict(),
        zone=dict(),
        ssh_key=dict(),
        force=dict(type='bool', default=False),
        tags=dict(type='list', aliases=['tag']),
        details=dict(type='dict'),
        poll_async=dict(type='bool', default=True),
        allow_root_disk_shrink=dict(type='bool', default=False),
    ))

    required_together = cs_required_together()
    required_together.extend([
        ['cpu', 'cpu_speed', 'memory'],
    ])

    module = AnsibleModule(
        argument_spec=argument_spec,
        required_together=required_together,
        required_one_of=(
            ['display_name', 'name'],
        ),
        mutually_exclusive=(
            ['template', 'iso'],
        ),
        supports_check_mode=True
    )

    acs_instance = AnsibleCloudStackInstance(module)

    state = module.params.get('state')

    if state in ['absent', 'destroyed']:
        instance = acs_instance.absent_instance()

    elif state in ['expunged']:
        instance = acs_instance.expunge_instance()

    elif state in ['restored']:
        acs_instance.present_instance()
        instance = acs_instance.restore_instance()

    elif state in ['present', 'deployed']:
        instance = acs_instance.present_instance()

    elif state in ['stopped']:
        acs_instance.present_instance(start_vm=False)
        instance = acs_instance.stop_instance()

    elif state in ['started']:
        acs_instance.present_instance()
        instance = acs_instance.start_instance()

    elif state in ['restarted']:
        acs_instance.present_instance()
        instance = acs_instance.restart_instance()

    if instance and 'state' in instance and instance['state'].lower() == 'error':
        module.fail_json(msg="Instance named '%s' in error state." % module.params.get('name'))

    result = acs_instance.get_result(instance)
    module.exit_json(**result)


if __name__ == '__main__':
    main()