#!/usr/bin/python # -*- coding: utf-8 -*- # 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': 'certified'} DOCUMENTATION = r''' --- module: aci_interface_policy_l2 short_description: Manage Layer 2 interface policies (l2:IfPol) description: - Manage Layer 2 interface policies on Cisco ACI fabrics. author: - Dag Wieers (@dagwieers) version_added: '2.4' notes: - More information about the internal APIC class B(l2:IfPol) from L(the APIC Management Information Model reference,https://developer.cisco.com/docs/apic-mim-ref/). options: l2_policy: description: - The name of the Layer 2 interface policy. required: yes aliases: [ name ] description: description: - The description of the Layer 2 interface policy. aliases: [ descr ] qinq: description: - Determines if QinQ is disabled or if the port should be considered a core or edge port. - The APIC defaults to C(disabled) when unset during creation. choices: [ core, disabled, edge ] vepa: description: - Determines if Virtual Ethernet Port Aggregator is disabled or enabled. - The APIC defaults to C(no) when unset during creation. type: bool vlan_scope: description: - The scope of the VLAN. - The APIC defaults to C(global) when unset during creation. choices: [ global, portlocal ] state: description: - Use C(present) or C(absent) for adding or removing. - Use C(query) for listing an object or multiple objects. choices: [ absent, present, query ] default: present extends_documentation_fragment: aci ''' EXAMPLES = r''' - aci_interface_policy_l2: host: '{{ hostname }}' username: '{{ username }}' password: '{{ password }}' l2_policy: '{{ l2_policy }}' vlan_scope: '{{ vlan_policy }}' description: '{{ description }}' delegate_to: localhost ''' RETURN = r''' current: description: The existing configuration from the APIC after the module has finished returned: success type: list sample: [ { "fvTenant": { "attributes": { "descr": "Production environment", "dn": "uni/tn-production", "name": "production", "nameAlias": "", "ownerKey": "", "ownerTag": "" } } } ] error: description: The error information as returned from the APIC returned: failure type: dict sample: { "code": "122", "text": "unknown managed object class foo" } raw: description: The raw output returned by the APIC REST API (xml or json) returned: parse error type: string sample: '' sent: description: The actual/minimal configuration pushed to the APIC returned: info type: list sample: { "fvTenant": { "attributes": { "descr": "Production environment" } } } previous: description: The original configuration from the APIC before the module has started returned: info type: list sample: [ { "fvTenant": { "attributes": { "descr": "Production", "dn": "uni/tn-production", "name": "production", "nameAlias": "", "ownerKey": "", "ownerTag": "" } } } ] proposed: description: The assembled configuration from the user-provided parameters returned: info type: dict sample: { "fvTenant": { "attributes": { "descr": "Production environment", "name": "production" } } } filter_string: description: The filter string used for the request returned: failure or debug type: string sample: ?rsp-prop-include=config-only method: description: The HTTP method used for the request to the APIC returned: failure or debug type: string sample: POST response: description: The HTTP response from the APIC returned: failure or debug type: string sample: OK (30 bytes) status: description: The HTTP status from the APIC returned: failure or debug type: int sample: 200 url: description: The HTTP url used for the request to the APIC returned: failure or debug type: string sample: https://10.11.12.13/api/mo/uni/tn-production.json ''' from ansible.module_utils.network.aci.aci import ACIModule, aci_argument_spec from ansible.module_utils.basic import AnsibleModule # Mapping dicts are used to normalize the proposed data to what the APIC expects, which will keep diffs accurate QINQ_MAPPING = dict(core='corePort', disabled='disabled', edge='edgePort') def main(): argument_spec = aci_argument_spec() argument_spec.update( l2_policy=dict(type='str', required=False, aliases=['name']), # Not required for querying all policies description=dict(type='str', aliases=['descr']), vlan_scope=dict(type='str', choices=['global', 'portlocal']), # No default provided on purpose qinq=dict(type='str', choices=['core', 'disabled', 'edge']), vepa=dict(type='raw'), # Turn into a boolean in v2.9 state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['l2_policy']], ['state', 'present', ['l2_policy']], ], ) aci = ACIModule(module) l2_policy = module.params['l2_policy'] vlan_scope = module.params['vlan_scope'] qinq = module.params['qinq'] if qinq is not None: qinq = QINQ_MAPPING[qinq] vepa = aci.boolean(module.params['vepa'], 'enabled', 'disabled') description = module.params['description'] state = module.params['state'] aci.construct_url( root_class=dict( aci_class='l2IfPol', aci_rn='infra/l2IfP-{0}'.format(l2_policy), module_object=l2_policy, target_filter={'name': l2_policy}, ), ) aci.get_existing() if state == 'present': aci.payload( aci_class='l2IfPol', class_config=dict( name=l2_policy, descr=description, vlanScope=vlan_scope, qinq=qinq, vepa=vepa, ), ) aci.get_diff(aci_class='l2IfPol') aci.post_config() elif state == 'absent': aci.delete_config() aci.exit_json() if __name__ == "__main__": main()