#!/usr/bin/python # # 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 . # DOCUMENTATION = ''' --- module: nxos_vrf version_added: "2.1" short_description: Manages global VRF configuration description: - Manages global VRF configuration extends_documentation_fragment: nxos author: Jason Edelman (@jedelman8), Gabriele Gerbino (@GGabriele) notes: - Cisco NX-OS creates the default VRF by itself. Therefore, you're not allowed to use default as I(vrf) name in this module. - I(vrf) name must be shorter than 32 chars. - VRF names are not case sensible in NX-OS. Anyway, the name is stored just like it's inserted by the user and it'll not be changed again unless the VRF is removed and re-created. i.e. I(vrf=NTC) will create a VRF named NTC, but running it again with I(vrf=ntc) will not cause a configuration change. options: vrf: description: - Name of VRF to be managed required: true admin_state: description: - Administrative state of the VRF required: false default: up choices: ['up','down'] state: description: - Manages desired state of the resource required: false default: present choices: ['present','absent'] description: description: - Description of the VRF required: false default: null ''' EXAMPLES = ''' # ensure ntc VRF exists on switch - nxos_vrf: vrf=ntc host={{ inventory_hostname }} # ensure ntc VRF does not exist on switch - nxos_vrf: vrf=ntc host={{ inventory_hostname }} state=absent ''' RETURN = ''' proposed: description: k/v pairs of parameters passed into module returned: always type: dict sample: {"admin_state": "Up", "description": "Test test", "vrf": "ntc"} existing: description: k/v pairs of existing vrf type: dict sample: {"admin_state": "Up", "description": "Old test", "vrf": "old_ntc"} end_state: description: k/v pairs of vrf info after module execution returned: always type: dict sample: {"admin_state": "Up", "description": "Test test", "vrf": "ntc"} state: description: state as sent in from the playbook returned: always type: string sample: "present" updates: description: commands sent to the device returned: always type: list sample: ["vrf context ntc", "shutdown"] changed: description: check to see if a change was made on the device returned: always type: boolean sample: true ''' def execute_config_command(commands, module): try: module.configure(commands) except ShellError, clie: module.fail_json(msg='Error sending CLI commands', error=str(clie), commands=commands) def get_cli_body_ssh_vrf(command, response): """Get response for when transport=cli. This is kind of a hack and mainly needed because these modules were originally written for NX-API. And not every command supports "| json" when using cli/ssh. As such, we assume if | json returns an XML string, it is a valid command, but that the resource doesn't exist yet. Instead, the output will be a raw string when using multiple |. """ command_splitted = command.split('|') if len(command_splitted) > 2: body = response elif 'xml' in response[0]: body = [] else: body = [json.loads(response[0])] return body def execute_show(cmds, module, command_type=None): try: if command_type: response = module.execute(cmds, command_type=command_type) else: response = module.execute(cmds) except ShellError, clie: module.fail_json(msg='Error sending {0}'.format(cmds), error=str(clie)) return response def execute_show_command(command, module, command_type='cli_show'): if module.params['transport'] == 'cli': command += ' | json' cmds = [command] response = execute_show(cmds, module) body = get_cli_body_ssh_vrf(command, response) elif module.params['transport'] == 'nxapi': cmds = [command] body = execute_show(cmds, module, command_type=command_type) return body def apply_key_map(key_map, table): new_dict = {} for key, value in table.items(): new_key = key_map.get(key) if new_key: value = table.get(key) if value: new_dict[new_key] = str(value) else: new_dict[new_key] = value return new_dict def get_commands_to_config_vrf(delta, vrf): commands = [] for param, value in delta.iteritems(): command = '' if param == 'description': command = 'description {0}'.format(value) elif param == 'admin_state': if value.lower() == 'up': command = 'no shutdown' elif value.lower() == 'down': command = 'shutdown' if command: commands.append(command) if commands: commands.insert(0, 'vrf context {0}'.format(vrf)) return commands def get_vrf_description(vrf, module): cmd_type = 'cli_show_ascii' command = ('show run section vrf | begin ^vrf\scontext\s{0} ' '| end ^vrf.*'.format(vrf)) description = '' descr_regex = ".*description\s(?P[\S+\s]+).*" body = execute_show_command(command, module, cmd_type) try: body = body[0] splitted_body = body.split('\n') except (AttributeError, IndexError): return description for element in splitted_body: if 'description' in element: match_description = re.match(descr_regex, element, re.DOTALL) group_description = match_description.groupdict() description = group_description["descr"] return description def get_vrf(vrf, module): command = 'show vrf {0}'.format(vrf) vrf_key = { 'vrf_name': 'vrf', 'vrf_state': 'admin_state' } body = execute_show_command(command, module) try: vrf_table = body[0]['TABLE_vrf']['ROW_vrf'] except (TypeError, IndexError): return {} parsed_vrf = apply_key_map(vrf_key, vrf_table) parsed_vrf['description'] = get_vrf_description( parsed_vrf['vrf'], module) return parsed_vrf def main(): argument_spec = dict( vrf=dict(required=True), description=dict(default=None, required=False), admin_state=dict(default='up', choices=['up', 'down'], required=False), state=dict(default='present', choices=['present', 'absent'], required=False), ) module = get_module(argument_spec=argument_spec, supports_check_mode=True) vrf = module.params['vrf'] admin_state = module.params['admin_state'].lower() description = module.params['description'] state = module.params['state'] if vrf == 'default': module.fail_json(msg='cannot use default as name of a VRF') elif len(vrf) > 32: module.fail_json(msg='VRF name exceeded max length of 32', vrf=vrf) existing = get_vrf(vrf, module) args = dict(vrf=vrf, description=description, admin_state=admin_state) end_state = existing changed = False proposed = dict((k, v) for k, v in args.iteritems() if v is not None) """Since 'admin_state' is either 'Up' or 'Down' from outputs, we use the following to make sure right letter case is used so that delta results will be consistent to the actual configuration.""" if existing: if existing['admin_state'].lower() == admin_state: proposed['admin_state'] = existing['admin_state'] delta = dict(set(proposed.iteritems()).difference(existing.iteritems())) changed = False end_state = existing commands = [] if state == 'absent': if existing: command = ['no vrf context {0}'.format(vrf)] commands.extend(command) elif state == 'present': if not existing: command = get_commands_to_config_vrf(delta, vrf) commands.extend(command) elif delta: command = get_commands_to_config_vrf(delta, vrf) commands.extend(command) if commands: if module.check_mode: module.exit_json(changed=True, commands=cmds) else: execute_config_command(commands, module) changed = True end_state = get_vrf(vrf, module) results = {} results['proposed'] = proposed results['existing'] = existing results['end_state'] = end_state results['state'] = state results['updates'] = commands results['changed'] = changed module.exit_json(**results) from ansible.module_utils.basic import * from ansible.module_utils.urls import * from ansible.module_utils.shell import * from ansible.module_utils.netcfg import * from ansible.module_utils.nxos import * if __name__ == '__main__': main()