#!/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_vpc version_added: "2.2" short_description: Manages global VPC configuration description: - Manages global VPC configuration extends_documentation_fragment: nxos author: - Jason Edelman (@jedelman8) - Gabriele Gerbino (@GGabriele) notes: - The feature vpc must be enabled before this module can be used - If not using management vrf, vrf must be globally on the device before using in the pkl config - Although source IP isn't required on the command line it is required when using this module. The PKL VRF must also be configured prior to using this module. - Both pkl_src and pkl_dest are needed when changing PKL VRF. options: domain: description: - VPC domain required: true role_priority: description: - Role priority for device. Remember lower is better. required: false default: null system_priority: description: - System priority device. Remember they must match between peers. required: false default: null pkl_src: description: - Source IP address used for peer keepalive link required: false default: null pkl_dest: description: - Destination (remote) IP address used for peer keepalive link required: false default: null pkl_vrf: description: - VRF used for peer keepalive link required: false default: management peer_gw: description: - Enables/Disables peer gateway required: true choices: ['true','false'] auto_recovery: description: - Enables/Disables auto recovery required: true choices: ['true','false'] delay_restore: description: - manages delay restore command and config value in seconds required: false default: null state: description: - Manages desired state of the resource required: true choices: ['present','absent'] ''' EXAMPLES = ''' # configure a simple asn - nxos_vpc: domain=100 role_priority=1000 system_priority=2000 pkl_dest=192.168.100.4 pkl_src=10.1.100.20 peer_gw=true auto_recovery=true username: "{{ un }}" password: "{{ pwd }}" host: "{{ inventory_hostname }}" ''' RETURN = ''' proposed: description: k/v pairs of parameters passed into module returned: always type: dict sample: {"auto_recovery": true, "domain": "100", "peer_gw": true, "pkl_dest": "192.168.100.4", "pkl_src": "10.1.100.20", "pkl_vrf": "management", "role_priority": "1000", "system_priority": "2000"} existing: description: k/v pairs of existing VPC configuration type: dict sample: {"auto_recovery": true, "delay_restore": null, "domain": "100", "peer_gw": true, "pkl_dest": "192.168.100.2", "pkl_src": "10.1.100.20", "pkl_vrf": "management", "role_priority": "1000", "system_priority": "2000"} end_state: description: k/v pairs of VPC configuration after module execution returned: always type: dict sample: {"auto_recovery": true, "domain": "100", "peer_gw": true, "pkl_dest": "192.168.100.4", "pkl_src": "10.1.100.20", "pkl_vrf": "management", "role_priority": "1000", "system_priority": "2000"} updates: description: commands sent to the device returned: always type: list sample: ["vpc domain 100", "peer-keepalive destination 192.168.100.4 source 10.1.100.20 vrf management", "auto-recovery", "peer-gateway"] changed: description: check to see if a change was made on the device returned: always type: boolean sample: true ''' import json import collections # COMMON CODE FOR MIGRATION import re from ansible.module_utils.basic import get_exception from ansible.module_utils.netcfg import NetworkConfig, ConfigLine from ansible.module_utils.shell import ShellError try: from ansible.module_utils.nxos import get_module except ImportError: from ansible.module_utils.nxos import NetworkModule def to_list(val): if isinstance(val, (list, tuple)): return list(val) elif val is not None: return [val] else: return list() class CustomNetworkConfig(NetworkConfig): def expand_section(self, configobj, S=None): if S is None: S = list() S.append(configobj) for child in configobj.children: if child in S: continue self.expand_section(child, S) return S def get_object(self, path): for item in self.items: if item.text == path[-1]: parents = [p.text for p in item.parents] if parents == path[:-1]: return item def to_block(self, section): return '\n'.join([item.raw for item in section]) def get_section(self, path): try: section = self.get_section_objects(path) return self.to_block(section) except ValueError: return list() def get_section_objects(self, path): if not isinstance(path, list): path = [path] obj = self.get_object(path) if not obj: raise ValueError('path does not exist in config') return self.expand_section(obj) def add(self, lines, parents=None): """Adds one or lines of configuration """ ancestors = list() offset = 0 obj = None ## global config command if not parents: for line in to_list(lines): item = ConfigLine(line) item.raw = line if item not in self.items: self.items.append(item) else: for index, p in enumerate(parents): try: i = index + 1 obj = self.get_section_objects(parents[:i])[0] ancestors.append(obj) except ValueError: # add parent to config offset = index * self.indent obj = ConfigLine(p) obj.raw = p.rjust(len(p) + offset) if ancestors: obj.parents = list(ancestors) ancestors[-1].children.append(obj) self.items.append(obj) ancestors.append(obj) # add child objects for line in to_list(lines): # check if child already exists for child in ancestors[-1].children: if child.text == line: break else: offset = len(parents) * self.indent item = ConfigLine(line) item.raw = line.rjust(len(line) + offset) item.parents = ancestors ancestors[-1].children.append(item) self.items.append(item) def get_network_module(**kwargs): try: return get_module(**kwargs) except NameError: return NetworkModule(**kwargs) def get_config(module, include_defaults=False): config = module.params['config'] if not config: try: config = module.get_config() except AttributeError: defaults = module.params['include_defaults'] config = module.config.get_config(include_defaults=defaults) return CustomNetworkConfig(indent=2, contents=config) def load_config(module, candidate): config = get_config(module) commands = candidate.difference(config) commands = [str(c).strip() for c in commands] save_config = module.params['save'] result = dict(changed=False) if commands: if not module.check_mode: try: module.configure(commands) except AttributeError: module.config(commands) if save_config: try: module.config.save_config() except AttributeError: module.execute(['copy running-config startup-config']) result['changed'] = True result['updates'] = commands return result # END OF COMMON CODE def execute_config_command(commands, module): try: module.configure(commands) except ShellError: clie = get_exception() module.fail_json(msg='Error sending CLI commands', error=str(clie), commands=commands) except AttributeError: try: commands.insert(0, 'configure') module.cli.add_commands(commands, output='config') module.cli.run_commands() except ShellError: clie = get_exception() module.fail_json(msg='Error sending CLI commands', error=str(clie), commands=commands) def get_cli_body_ssh(command, response, module): """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. """ if '^' == response[0]: body = [] elif 'running' in command: body = response else: if command in response[0]: response = [response[0].split(command)[1]] try: body = [json.loads(response[0])] except ValueError: module.fail_json(msg='Command does not support JSON output', command=command) return body def execute_show(cmds, module, command_type=None): command_type_map = { 'cli_show': 'json', 'cli_show_ascii': 'text' } try: if command_type: response = module.execute(cmds, command_type=command_type) else: response = module.execute(cmds) except ShellError: clie = get_exception() module.fail_json(msg='Error sending {0}'.format(cmds), error=str(clie)) except AttributeError: try: if command_type: command_type = command_type_map.get(command_type) module.cli.add_commands(cmds, output=command_type) response = module.cli.run_commands() else: module.cli.add_commands(cmds, output=command_type) response = module.cli.run_commands() except ShellError: clie = get_exception() 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': if "section" not in command: command += ' | json' cmds = [command] response = execute_show(cmds, module) body = get_cli_body_ssh(command, response, module) elif module.params['transport'] == 'nxapi': cmds = [command] body = execute_show(cmds, module, command_type=command_type) return body def flatten_list(command_lists): flat_command_list = [] for command in command_lists: if isinstance(command, list): flat_command_list.extend(command) else: flat_command_list.append(command) return flat_command_list def get_vrf_list(module): command = 'show vrf all' vrf_table = None body = execute_show_command(command, module) try: vrf_table = body[0]['TABLE_vrf']['ROW_vrf'] except (KeyError, AttributeError): return [] vrf_list = [] if vrf_table: for each in vrf_table: vrf_list.append(str(each['vrf_name'].lower())) return vrf_list def get_autorecovery(auto): auto_recovery = auto.split(' ')[0] if 'enabled' in auto_recovery.lower(): return True else: return False def get_vpc_running_config(module): command = 'show running section vpc' body = execute_show_command(command, module, command_type='cli_show_ascii') return body def get_vpc(module): vpc = {} command = 'show vpc' body = execute_show_command(command, module)[0] domain = str(body['vpc-domain-id']) auto_recovery = get_autorecovery(str( body['vpc-auto-recovery-status'])) if domain != 'not configured': delay_restore = None pkl_src = None role_priority = None system_priority = None pkl_dest = None pkl_vrf = None peer_gw = False run = get_vpc_running_config(module)[0] if run: vpc_list = run.split('\n') for each in vpc_list: if 'delay restore' in each: line = each.split() if len(line) == 5: delay_restore = line[-1] if 'peer-keepalive destination' in each: line = each.split() pkl_dest = line[2] for word in line: if 'source' in word: index = line.index(word) pkl_src = line[index + 1] if 'role priority' in each: line = each.split() role_priority = line[-1] if 'system-priority' in each: line = each.split() system_priority = line[-1] if 'peer-gateway' in each: peer_gw = True command = 'show vpc peer-keepalive' body = execute_show_command(command, module)[0] if body: pkl_dest = body['vpc-keepalive-dest'] if 'N/A' in pkl_dest: pkl_dest = None elif len(pkl_dest) == 2: pkl_dest = pkl_dest[0] pkl_vrf = str(body['vpc-keepalive-vrf']) vpc['domain'] = domain vpc['auto_recovery'] = auto_recovery vpc['delay_restore'] = delay_restore vpc['pkl_src'] = pkl_src vpc['role_priority'] = role_priority vpc['system_priority'] = system_priority vpc['pkl_dest'] = pkl_dest vpc['pkl_vrf'] = pkl_vrf vpc['peer_gw'] = peer_gw else: vpc = {} return vpc def get_commands_to_config_vpc(module, vpc, domain, existing): vpc = dict(vpc) domain_only = vpc.get('domain') pkl_src = vpc.get('pkl_src') pkl_dest = vpc.get('pkl_dest') pkl_vrf = vpc.get('pkl_vrf') or existing.get('pkl_vrf') vpc['pkl_vrf'] = pkl_vrf commands = [] if pkl_src or pkl_dest: if pkl_src is None: vpc['pkl_src'] = existing.get('pkl_src') elif pkl_dest is None: vpc['pkl_dest'] = existing.get('pkl_dest') pkl_command = 'peer-keepalive destination {pkl_dest}'.format(**vpc) \ + ' source {pkl_src} vrf {pkl_vrf}'.format(**vpc) commands.append(pkl_command) elif pkl_vrf: pkl_src = existing.get('pkl_src') pkl_dest = existing.get('pkl_dest') if pkl_src and pkl_dest: pkl_command = ('peer-keepalive destination {0}' ' source {1} vrf {2}'.format(pkl_dest, pkl_src, pkl_vrf)) commands.append(pkl_command) if vpc.get('auto_recovery') == False: vpc['auto_recovery'] = 'no' else: vpc['auto_recovery'] = '' if vpc.get('peer_gw') == False: vpc['peer_gw'] = 'no' else: vpc['peer_gw'] = '' CONFIG_ARGS = { 'role_priority': 'role priority {role_priority}', 'system_priority': 'system-priority {system_priority}', 'delay_restore': 'delay restore {delay_restore}', 'peer_gw': '{peer_gw} peer-gateway', 'auto_recovery': '{auto_recovery} auto-recovery', } for param, value in vpc.iteritems(): command = CONFIG_ARGS.get(param, 'DNE').format(**vpc) if command and command != 'DNE': commands.append(command.strip()) command = None if commands or domain_only: commands.insert(0, 'vpc domain {0}'.format(domain)) return commands def get_commands_to_remove_vpc_interface(portchannel, config_value): commands = [] command = 'no vpc {0}'.format(config_value) commands.append(command) commands.insert(0, 'interface port-channel{0}'.format(portchannel)) return commands def main(): argument_spec = dict( domain=dict(required=True, type='str'), role_priority=dict(required=False, type='str'), system_priority=dict(required=False, type='str'), pkl_src=dict(required=False), pkl_dest=dict(required=False), pkl_vrf=dict(required=False, default='management'), peer_gw=dict(required=True, type='bool'), auto_recovery=dict(required=True, type='bool'), delay_restore=dict(required=False, type='str'), state=dict(choices=['absent', 'present'], default='present'), include_defaults=dict(default=False), config=dict(), save=dict(type='bool', default=False) ) module = get_network_module(argument_spec=argument_spec, supports_check_mode=True) domain = module.params['domain'] role_priority = module.params['role_priority'] system_priority = module.params['system_priority'] pkl_src = module.params['pkl_src'] pkl_dest = module.params['pkl_dest'] pkl_vrf = module.params['pkl_vrf'] peer_gw = module.params['peer_gw'] auto_recovery = module.params['auto_recovery'] delay_restore = module.params['delay_restore'] state = module.params['state'] args = dict(domain=domain, role_priority=role_priority, system_priority=system_priority, pkl_src=pkl_src, pkl_dest=pkl_dest, pkl_vrf=pkl_vrf, peer_gw=peer_gw, auto_recovery=auto_recovery, delay_restore=delay_restore) if not (pkl_src and pkl_dest and pkl_vrf): # if only the source or dest is set, it'll fail and ask to set the # other if pkl_src or pkl_dest: module.fail_json(msg='source AND dest IP for pkl are required at ' 'this time (although source is technically not ' ' required by the device.)') args.pop('pkl_src') args.pop('pkl_dest') args.pop('pkl_vrf') if pkl_vrf: if pkl_vrf.lower() not in get_vrf_list(module): module.fail_json(msg='The VRF you are trying to use for the peer ' 'keepalive link is not on device yet. Add it' ' first, please.') proposed = dict((k, v) for k, v in args.iteritems() if v is not None) changed = False existing = get_vpc(module) end_state = existing commands = [] if state == 'present': delta = set(proposed.iteritems()).difference(existing.iteritems()) if delta: command = get_commands_to_config_vpc(module, delta, domain, existing) commands.append(command) elif state == 'absent': if existing: if domain != existing['domain']: module.fail_json(msg="You are trying to remove a domain that " "does not exist on the device") else: commands.append('no vpc domain {0}'.format(domain)) cmds = flatten_list(commands) if cmds: if module.check_mode: module.exit_json(changed=True, commands=cmds) else: changed = True execute_config_command(cmds, module) end_state = get_vpc(module) results = {} results['proposed'] = proposed results['existing'] = existing results['end_state'] = end_state results['updates'] = cmds results['changed'] = changed module.exit_json(**results) if __name__ == '__main__': main()