#!/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 . # ANSIBLE_METADATA = {'metadata_version': '1.1', 'status': ['preview'], 'supported_by': 'network'} DOCUMENTATION = ''' --- module: nxos_ospf_vrf extends_documentation_fragment: nxos version_added: "2.2" short_description: Manages a VRF for an OSPF router. description: - Manages a VRF for an OSPF router. author: Gabriele Gerbino (@GGabriele) notes: - Tested against NXOSv 7.3.(0)D1(1) on VIRL - Value I(default) restores params default value, if any. Otherwise it removes the existing param configuration. options: vrf: description: - Name of the resource instance. Valid value is a string. The name 'default' is a valid VRF representing the global OSPF. default: default ospf: description: - Name of the OSPF instance. required: true router_id: description: - Router Identifier (ID) of the OSPF router VRF instance. default_metric: description: - Specify the default Metric value. Valid values are an integer or the keyword 'default'. log_adjacency: description: - Controls the level of log messages generated whenever a neighbor changes state. Valid values are 'log', 'detail', and 'default'. choices: ['log','detail','default'] timer_throttle_lsa_start: description: - Specify the start interval for rate-limiting Link-State Advertisement (LSA) generation. Valid values are an integer, in milliseconds, or the keyword 'default'. timer_throttle_lsa_hold: description: - Specify the hold interval for rate-limiting Link-State Advertisement (LSA) generation. Valid values are an integer, in milliseconds, or the keyword 'default'. timer_throttle_lsa_max: description: - Specify the max interval for rate-limiting Link-State Advertisement (LSA) generation. Valid values are an integer, in milliseconds, or the keyword 'default'. timer_throttle_spf_start: description: - Specify initial Shortest Path First (SPF) schedule delay. Valid values are an integer, in milliseconds, or the keyword 'default'. timer_throttle_spf_hold: description: - Specify minimum hold time between Shortest Path First (SPF) calculations. Valid values are an integer, in milliseconds, or the keyword 'default'. timer_throttle_spf_max: description: - Specify the maximum wait time between Shortest Path First (SPF) calculations. Valid values are an integer, in milliseconds, or the keyword 'default'. auto_cost: description: - Specifies the reference bandwidth used to assign OSPF cost. Valid values are an integer, in Mbps, or the keyword 'default'. passive_interface: description: - Setting to C(yes) will suppress routing update on interface. version_added: "2.4" type: bool state: description: - State of ospf vrf configuration. default: present choices: ['present', 'absent'] ''' EXAMPLES = ''' - nxos_ospf_vrf: ospf: 1 timer_throttle_spf_start: 50 timer_throttle_spf_hold: 1000 timer_throttle_spf_max: 2000 timer_throttle_lsa_start: 60 timer_throttle_lsa_hold: 1100 timer_throttle_lsa_max: 3000 vrf: test state: present ''' RETURN = ''' commands: description: commands sent to the device returned: always type: list sample: ["router ospf 1", "vrf test", "timers throttle lsa 60 1100 3000", "ospf 1", "timers throttle spf 50 1000 2000", "vrf test"] ''' import re from ansible.module_utils.network.nxos.nxos import get_config, load_config from ansible.module_utils.network.nxos.nxos import nxos_argument_spec, check_args from ansible.module_utils.basic import AnsibleModule from ansible.module_utils.network.common.config import CustomNetworkConfig BOOL_PARAMS = [ 'passive_interface' ] PARAM_TO_COMMAND_KEYMAP = { 'vrf': 'vrf', 'router_id': 'router-id', 'default_metric': 'default-metric', 'log_adjacency': 'log-adjacency-changes', 'timer_throttle_lsa_start': 'timers throttle lsa', 'timer_throttle_lsa_max': 'timers throttle lsa', 'timer_throttle_lsa_hold': 'timers throttle lsa', 'timer_throttle_spf_max': 'timers throttle spf', 'timer_throttle_spf_start': 'timers throttle spf', 'timer_throttle_spf_hold': 'timers throttle spf', 'auto_cost': 'auto-cost reference-bandwidth', 'passive_interface': 'passive-interface default' } PARAM_TO_DEFAULT_KEYMAP = { 'timer_throttle_lsa_start': '0', 'timer_throttle_lsa_max': '5000', 'timer_throttle_lsa_hold': '5000', 'timer_throttle_spf_start': '200', 'timer_throttle_spf_max': '5000', 'timer_throttle_spf_hold': '1000', 'auto_cost': '40000', 'default_metric': '', 'passive_interface': False, 'router_id': '', 'log_adjacency': '', } def get_existing(module, args): existing = {} netcfg = CustomNetworkConfig(indent=2, contents=get_config(module)) parents = ['router ospf {0}'.format(module.params['ospf'])] if module.params['vrf'] != 'default': parents.append('vrf {0}'.format(module.params['vrf'])) config = netcfg.get_section(parents) for arg in args: if arg not in ['ospf', 'vrf']: existing[arg] = PARAM_TO_DEFAULT_KEYMAP.get(arg) if config: if module.params['vrf'] == 'default': splitted_config = config.splitlines() vrf_index = False for index in range(0, len(splitted_config) - 1): if 'vrf' in splitted_config[index].strip(): vrf_index = index break if vrf_index: config = '\n'.join(splitted_config[0:vrf_index]) splitted_config = config.splitlines() for line in splitted_config: if 'passive' in line: existing['passive_interface'] = True elif 'router-id' in line: existing['router_id'] = re.search(r'router-id (\S+)', line).group(1) elif 'metric' in line: existing['default_metric'] = re.search(r'default-metric (\S+)', line).group(1) elif 'adjacency' in line: log = re.search(r'log-adjacency-changes(?: (\S+))?', line).group(1) if log: existing['log_adjacency'] = log else: existing['log_adjacency'] = 'log' elif 'auto' in line: cost = re.search(r'auto-cost reference-bandwidth (\d+) (\S+)', line).group(1) if 'Gbps' in line: cost *= 1000 existing['auto_cost'] = str(cost) elif 'timers throttle lsa' in line: tmp = re.search(r'timers throttle lsa (\S+) (\S+) (\S+)', line) existing['timer_throttle_lsa_start'] = tmp.group(1) existing['timer_throttle_lsa_hold'] = tmp.group(2) existing['timer_throttle_lsa_max'] = tmp.group(3) elif 'timers throttle spf' in line: tmp = re.search(r'timers throttle spf (\S+) (\S+) (\S+)', line) existing['timer_throttle_spf_start'] = tmp.group(1) existing['timer_throttle_spf_hold'] = tmp.group(2) existing['timer_throttle_spf_max'] = tmp.group(3) existing['vrf'] = module.params['vrf'] existing['ospf'] = module.params['ospf'] return existing def apply_key_map(key_map, table): new_dict = {} for key in table: new_key = key_map.get(key) if new_key: new_dict[new_key] = table.get(key) return new_dict def get_timer_prd(key, proposed): if proposed.get(key): return proposed.get(key) else: return PARAM_TO_DEFAULT_KEYMAP.get(key) def state_present(module, existing, proposed, candidate): commands = list() proposed_commands = apply_key_map(PARAM_TO_COMMAND_KEYMAP, proposed) existing_commands = apply_key_map(PARAM_TO_COMMAND_KEYMAP, existing) for key, value in proposed_commands.items(): if value is True: commands.append(key) elif value is False: if key == 'passive-interface default': if existing_commands.get(key): commands.append('no {0}'.format(key)) else: commands.append('no {0}'.format(key)) elif value == 'default' or value == '': if key == 'log-adjacency-changes': commands.append('no {0}'.format(key)) elif existing_commands.get(key): existing_value = existing_commands.get(key) commands.append('no {0} {1}'.format(key, existing_value)) else: if key == 'timers throttle lsa': command = '{0} {1} {2} {3}'.format( key, get_timer_prd('timer_throttle_lsa_start', proposed), get_timer_prd('timer_throttle_lsa_hold', proposed), get_timer_prd('timer_throttle_lsa_max', proposed)) elif key == 'timers throttle spf': command = '{0} {1} {2} {3}'.format( key, get_timer_prd('timer_throttle_spf_start', proposed), get_timer_prd('timer_throttle_spf_hold', proposed), get_timer_prd('timer_throttle_spf_max', proposed)) elif key == 'log-adjacency-changes': if value == 'log': command = key elif value == 'detail': command = '{0} {1}'.format(key, value) elif key == 'auto-cost reference-bandwidth': if len(value) < 5: command = '{0} {1} Mbps'.format(key, value) else: value = str(int(value) / 1000) command = '{0} {1} Gbps'.format(key, value) else: command = '{0} {1}'.format(key, value.lower()) if command not in commands: commands.append(command) if commands: parents = ['router ospf {0}'.format(module.params['ospf'])] if module.params['vrf'] != 'default': parents.append('vrf {0}'.format(module.params['vrf'])) candidate.add(commands, parents=parents) def state_absent(module, existing, proposed, candidate): commands = [] parents = ['router ospf {0}'.format(module.params['ospf'])] if module.params['vrf'] == 'default': existing_commands = apply_key_map(PARAM_TO_COMMAND_KEYMAP, existing) for key, value in existing_commands.items(): if value and key != 'vrf': if key == 'passive-interface default': command = 'no {0}'.format(key) elif key == 'timers throttle lsa': if (existing['timer_throttle_lsa_start'] != PARAM_TO_DEFAULT_KEYMAP.get('timer_throttle_lsa_start') or existing['timer_throttle_lsa_hold'] != PARAM_TO_DEFAULT_KEYMAP.get('timer_throttle_lsa_hold') or existing['timer_throttle_lsa_max'] != PARAM_TO_DEFAULT_KEYMAP.get('timer_throttle_lsa_max')): command = 'no {0} {1} {2} {3}'.format( key, existing['timer_throttle_lsa_start'], existing['timer_throttle_lsa_hold'], existing['timer_throttle_lsa_max']) elif key == 'timers throttle spf': if (existing['timer_throttle_spf_start'] != PARAM_TO_DEFAULT_KEYMAP.get('timer_throttle_spf_start') or existing['timer_throttle_spf_hold'] != PARAM_TO_DEFAULT_KEYMAP.get('timer_throttle_spf_hold') or existing['timer_throttle_spf_max'] != PARAM_TO_DEFAULT_KEYMAP.get('timer_throttle_spf_max')): command = 'no {0} {1} {2} {3}'.format( key, existing['timer_throttle_spf_start'], existing['timer_throttle_spf_hold'], existing['timer_throttle_spf_max']) elif key == 'log-adjacency-changes': command = 'no {0}'.format(key) elif key == 'auto-cost reference-bandwidth': if value != PARAM_TO_DEFAULT_KEYMAP.get('auto_cost'): command = 'no {0}'.format(key) else: command = None else: existing_value = existing_commands.get(key) command = 'no {0} {1}'.format(key, existing_value) if command: if command not in commands: commands.append(command) else: if (existing.get('vrf') and existing.get('vrf') == module.params['vrf']): commands = ['no vrf {0}'.format(module.params['vrf'])] if commands: candidate.add(commands, parents=parents) def main(): argument_spec = dict( vrf=dict(required=False, type='str', default='default'), ospf=dict(required=True, type='str'), router_id=dict(required=False, type='str'), default_metric=dict(required=False, type='str'), log_adjacency=dict(required=False, type='str', choices=['log', 'detail', 'default']), timer_throttle_lsa_start=dict(required=False, type='str'), timer_throttle_lsa_hold=dict(required=False, type='str'), timer_throttle_lsa_max=dict(required=False, type='str'), timer_throttle_spf_start=dict(required=False, type='str'), timer_throttle_spf_hold=dict(required=False, type='str'), timer_throttle_spf_max=dict(required=False, type='str'), auto_cost=dict(required=False, type='str'), passive_interface=dict(required=False, type='bool'), state=dict(choices=['present', 'absent'], default='present', required=False) ) argument_spec.update(nxos_argument_spec) module = AnsibleModule(argument_spec=argument_spec, supports_check_mode=True) warnings = list() check_args(module, warnings) result = dict(changed=False, warnings=warnings) state = module.params['state'] args = PARAM_TO_COMMAND_KEYMAP.keys() existing = get_existing(module, args) proposed_args = dict((k, v) for k, v in module.params.items() if v is not None and k in args) proposed = {} for key, value in proposed_args.items(): if key != 'interface': if str(value).lower() == 'true': value = True elif str(value).lower() == 'false': value = False elif str(value).lower() == 'default': value = PARAM_TO_DEFAULT_KEYMAP.get(key) if value is None: value = 'default' if existing.get(key) != value: proposed[key] = value candidate = CustomNetworkConfig(indent=3) if state == 'present': state_present(module, existing, proposed, candidate) if state == 'absent' and existing: state_absent(module, existing, proposed, candidate) if candidate: candidate = candidate.items_text() load_config(module, candidate) result['changed'] = True result['commands'] = candidate else: result['commands'] = [] module.exit_json(**result) if __name__ == '__main__': main()