#!/usr/bin/python # # Copyright: Ansible Project # 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': ['preview'], 'supported_by': 'community'} DOCUMENTATION = ''' --- module: os_router short_description: Create or delete routers from OpenStack extends_documentation_fragment: openstack version_added: "2.0" author: "David Shrewsbury (@Shrews)" description: - Create or Delete routers from OpenStack. Although Neutron allows routers to share the same name, this module enforces name uniqueness to be more user friendly. options: state: description: - Indicate desired state of the resource choices: ['present', 'absent'] default: present name: description: - Name to be give to the router required: true admin_state_up: description: - Desired admin state of the created or existing router. type: bool default: 'yes' enable_snat: description: - Enable Source NAT (SNAT) attribute. type: bool default: 'yes' network: description: - Unique name or ID of the external gateway network. - required I(interfaces) or I(enable_snat) are provided. project: description: - Unique name or ID of the project. version_added: "2.2" external_fixed_ips: description: - The IP address parameters for the external gateway network. Each is a dictionary with the subnet name or ID (subnet) and the IP address to assign on the subnet (ip). If no IP is specified, one is automatically assigned from that subnet. interfaces: description: - List of subnets to attach to the router internal interface. Default gateway associated with the subnet will be automatically attached with the router's internal interface. In order to provide an ip address different from the default gateway,parameters are passed as dictionary with keys as network name or ID(net), subnet name or ID (subnet) and the IP of port (portip) from the network. User defined portip is often required when a multiple router need to be connected to a single subnet for which the default gateway has been already used. availability_zone: description: - Ignored. Present for backwards compatibility requirements: ["shade"] ''' EXAMPLES = ''' # Create a simple router, not attached to a gateway or subnets. - os_router: cloud: mycloud state: present name: simple_router # Create a simple router, not attached to a gateway or subnets for a given project. - os_router: cloud: mycloud state: present name: simple_router project: myproj # Creates a router attached to ext_network1 on an IPv4 subnet and one # internal subnet interface. - os_router: cloud: mycloud state: present name: router1 network: ext_network1 external_fixed_ips: - subnet: public-subnet ip: 172.24.4.2 interfaces: - private-subnet # Create another router with two internal subnet interfaces.One with user defined port # ip and another with default gateway. - os_router: cloud: mycloud state: present name: router2 network: ext_network1 interfaces: - net: private-net subnet: private-subnet portip: 10.1.1.10 - project-subnet # Create another router with two internal subnet interface.One with user defined port # ip and and another with default gateway. - os_router: cloud: mycloud state: present name: router2 network: ext_network1 interfaces: - net: private-net subnet: private-subnet portip: 10.1.1.10 - project-subnet # Create another router with two internal subnet interface. one with user defined port # ip and and another with default gateway. - os_router: cloud: mycloud state: present name: router2 network: ext_network1 interfaces: - net: private-net subnet: private-subnet portip: 10.1.1.10 - project-subnet # Update existing router1 external gateway to include the IPv6 subnet. # Note that since 'interfaces' is not provided, any existing internal # interfaces on an existing router will be left intact. - os_router: cloud: mycloud state: present name: router1 network: ext_network1 external_fixed_ips: - subnet: public-subnet ip: 172.24.4.2 - subnet: ipv6-public-subnet ip: 2001:db8::3 # Delete router1 - os_router: cloud: mycloud state: absent name: router1 ''' RETURN = ''' router: description: Dictionary describing the router. returned: On success when I(state) is 'present' type: complex contains: id: description: Router ID. type: string sample: "474acfe5-be34-494c-b339-50f06aa143e4" name: description: Router name. type: string sample: "router1" admin_state_up: description: Administrative state of the router. type: boolean sample: true status: description: The router status. type: string sample: "ACTIVE" tenant_id: description: The tenant ID. type: string sample: "861174b82b43463c9edc5202aadc60ef" external_gateway_info: description: The external gateway parameters. type: dictionary sample: { "enable_snat": true, "external_fixed_ips": [ { "ip_address": "10.6.6.99", "subnet_id": "4272cb52-a456-4c20-8f3c-c26024ecfa81" } ] } routes: description: The extra routes configuration for L3 router. type: list ''' from ansible.module_utils.basic import AnsibleModule from ansible.module_utils.openstack import openstack_full_argument_spec, openstack_module_kwargs, openstack_cloud_from_module ROUTER_INTERFACE_OWNERS = set([ 'network:router_interface', 'network:router_interface_distributed', 'network:ha_router_replicated_interface' ]) def _router_internal_interfaces(cloud, router): for port in cloud.list_router_interfaces(router, 'internal'): if port['device_owner'] in ROUTER_INTERFACE_OWNERS: yield port def _needs_update(cloud, module, router, network, internal_subnet_ids, internal_port_ids): """Decide if the given router needs an update. """ if router['admin_state_up'] != module.params['admin_state_up']: return True if router['external_gateway_info']: if router['external_gateway_info'].get('enable_snat', True) != module.params['enable_snat']: return True if network: if not router['external_gateway_info']: return True elif router['external_gateway_info']['network_id'] != network['id']: return True # check external interfaces if module.params['external_fixed_ips']: for new_iface in module.params['external_fixed_ips']: subnet = cloud.get_subnet(new_iface['subnet']) exists = False # compare the requested interface with existing, looking for an existing match for existing_iface in router['external_gateway_info']['external_fixed_ips']: if existing_iface['subnet_id'] == subnet['id']: if 'ip' in new_iface: if existing_iface['ip_address'] == new_iface['ip']: # both subnet id and ip address match exists = True break else: # only the subnet was given, so ip doesn't matter exists = True break # this interface isn't present on the existing router if not exists: return True # check internal interfaces if module.params['interfaces']: existing_subnet_ids = [] for port in _router_internal_interfaces(cloud, router): if 'fixed_ips' in port: for fixed_ip in port['fixed_ips']: existing_subnet_ids.append(fixed_ip['subnet_id']) for iface in module.params['interfaces']: if isinstance(iface, dict): for p_id in internal_port_ids: p = cloud.get_port(name_or_id=p_id) if 'fixed_ips' in p: for fip in p['fixed_ips']: internal_subnet_ids.append(fip['subnet_id']) if set(internal_subnet_ids) != set(existing_subnet_ids): internal_subnet_ids = [] return True return False def _system_state_change(cloud, module, router, network, internal_ids, internal_portids): """Check if the system state would be changed.""" state = module.params['state'] if state == 'absent' and router: return True if state == 'present': if not router: return True return _needs_update(cloud, module, router, network, internal_ids, internal_portids) return False def _build_kwargs(cloud, module, router, network): kwargs = { 'admin_state_up': module.params['admin_state_up'], } if router: kwargs['name_or_id'] = router['id'] else: kwargs['name'] = module.params['name'] if network: kwargs['ext_gateway_net_id'] = network['id'] # can't send enable_snat unless we have a network kwargs['enable_snat'] = module.params['enable_snat'] if module.params['external_fixed_ips']: kwargs['ext_fixed_ips'] = [] for iface in module.params['external_fixed_ips']: subnet = cloud.get_subnet(iface['subnet']) d = {'subnet_id': subnet['id']} if 'ip' in iface: d['ip_address'] = iface['ip'] kwargs['ext_fixed_ips'].append(d) return kwargs def _validate_subnets(module, cloud): external_subnet_ids = [] internal_subnet_ids = [] internal_port_ids = [] existing_port_ips = [] existing_port_ids = [] if module.params['external_fixed_ips']: for iface in module.params['external_fixed_ips']: subnet = cloud.get_subnet(iface['subnet']) if not subnet: module.fail_json(msg='subnet %s not found' % iface['subnet']) external_subnet_ids.append(subnet['id']) if module.params['interfaces']: for iface in module.params['interfaces']: if isinstance(iface, str): subnet = cloud.get_subnet(iface) if not subnet: module.fail_json(msg='subnet %s not found' % iface) internal_subnet_ids.append(subnet['id']) elif isinstance(iface, dict): subnet = cloud.get_subnet(iface['subnet']) if not subnet: module.fail_json(msg='subnet %s not found' % iface['subnet']) net = cloud.get_network(iface['net']) if not net: module.fail_json(msg='net %s not found' % iface['net']) if "portip" not in iface: internal_subnet_ids.append(subnet['id']) elif not iface['portip']: module.fail_json(msg='put an ip in portip or remove it from list to assign default port to router') else: for existing_port in cloud.list_ports(filters={'network_id': net.id}): for fixed_ip in existing_port['fixed_ips']: if iface['portip'] == fixed_ip['ip_address']: internal_port_ids.append(existing_port.id) existing_port_ips.append(fixed_ip['ip_address']) if iface['portip'] not in existing_port_ips: p = cloud.create_port(network_id=net.id, fixed_ips=[{'ip_address': iface['portip'], 'subnet_id': subnet.id}]) if p: internal_port_ids.append(p.id) return external_subnet_ids, internal_subnet_ids, internal_port_ids def main(): argument_spec = openstack_full_argument_spec( state=dict(default='present', choices=['absent', 'present']), name=dict(required=True), admin_state_up=dict(type='bool', default=True), enable_snat=dict(type='bool', default=True), network=dict(default=None), interfaces=dict(type='list', default=None), external_fixed_ips=dict(type='list', default=None), project=dict(default=None) ) module_kwargs = openstack_module_kwargs() module = AnsibleModule(argument_spec, supports_check_mode=True, **module_kwargs) if module.params['project']: min_version = '1.10.0' else: min_version = None state = module.params['state'] name = module.params['name'] network = module.params['network'] project = module.params['project'] if module.params['external_fixed_ips'] and not network: module.fail_json(msg='network is required when supplying external_fixed_ips') shade, cloud = openstack_cloud_from_module(module, min_version=min_version) try: if project is not None: proj = cloud.get_project(project) if proj is None: module.fail_json(msg='Project %s could not be found' % project) project_id = proj['id'] filters = {'tenant_id': project_id} else: project_id = None filters = None router = cloud.get_router(name, filters=filters) net = None if network: net = cloud.get_network(network) if not net: module.fail_json(msg='network %s not found' % network) # Validate and cache the subnet IDs so we can avoid duplicate checks # and expensive API calls. external_ids, subnet_internal_ids, internal_portids = _validate_subnets(module, cloud) if module.check_mode: module.exit_json( changed=_system_state_change(cloud, module, router, net, subnet_internal_ids, internal_portids) ) if state == 'present': changed = False if not router: kwargs = _build_kwargs(cloud, module, router, net) if project_id: kwargs['project_id'] = project_id router = cloud.create_router(**kwargs) for int_s_id in subnet_internal_ids: cloud.add_router_interface(router, subnet_id=int_s_id) changed = True # add interface by port id as well for int_p_id in internal_portids: cloud.add_router_interface(router, port_id=int_p_id) changed = True else: if _needs_update(cloud, module, router, net, subnet_internal_ids, internal_portids): kwargs = _build_kwargs(cloud, module, router, net) updated_router = cloud.update_router(**kwargs) # Protect against update_router() not actually # updating the router. if not updated_router: changed = False # On a router update, if any internal interfaces were supplied, # just detach all existing internal interfaces and attach the new. if internal_portids or subnet_internal_ids: router = updated_router ports = _router_internal_interfaces(cloud, router) for port in ports: cloud.remove_router_interface(router, port_id=port['id']) if internal_portids: external_ids, subnet_internal_ids, internal_portids = _validate_subnets(module, cloud) for int_p_id in internal_portids: cloud.add_router_interface(router, port_id=int_p_id) changed = True if subnet_internal_ids: for s_id in subnet_internal_ids: cloud.add_router_interface(router, subnet_id=s_id) changed = True module.exit_json(changed=changed, router=router, id=router['id']) elif state == 'absent': if not router: module.exit_json(changed=False) else: # We need to detach all internal interfaces on a router before # we will be allowed to delete it. ports = _router_internal_interfaces(cloud, router) router_id = router['id'] for port in ports: cloud.remove_router_interface(router, port_id=port['id']) cloud.delete_router(router_id) module.exit_json(changed=True) except shade.OpenStackCloudException as e: module.fail_json(msg=str(e)) if __name__ == '__main__': main()