#!/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_interface_ospf version_added: "2.2" short_description: Manages configuration of an OSPF interface instance. description: - Manages configuration of an OSPF interface instance. author: Gabriele Gerbino (@GGabriele) extends_documentation_fragment: nxos notes: - default, where supported, restores params default value - To remove an existing authentication configuration you should use message_digest_key_id=default plus all other options matching their existing values. - State absent remove the whole OSPF interface configuration options: interface: description: - Name of this cisco_interface resource. Valid value is a string. required: true ospf: description: - Name of the ospf instance. required: true area: description: - Ospf area associated with this cisco_interface_ospf instance. Valid values are a string, formatted as an IP address (i.e. "0.0.0.0") or as an integer. required: true cost: description: - The cost associated with this cisco_interface_ospf instance. required: false default: null hello_interval: description: - Time between sending successive hello packets. Valid values are an integer or the keyword 'default'. required: false default: null dead_interval: description: - Time interval an ospf neighbor waits for a hello packet before tearing down adjacencies. Valid values are an integer or the keyword 'default'. required: false default: null passive_interface: description: - Setting to true will prevent this interface from receiving HELLO packets. Valid values are 'true' and 'false'. required: false choices: ['true','false'] default: null message_digest: description: - Enables or disables the usage of message digest authentication. Valid values are 'true' and 'false'. required: false choices: ['true','false'] default: null message_digest_key_id: description: - md5 authentication key-id associated with the ospf instance. If this is present, message_digest_encryption_type, message_digest_algorithm_type and message_digest_password are mandatory. Valid value is an integer and 'default'. required: false default: null message_digest_algorithm_type: description: - Algorithm used for authentication among neighboring routers within an area. Valid values is 'md5'. required: false choices: ['md5'] default: null message_digest_encryption_type: description: - Specifies the scheme used for encrypting message_digest_password. Valid values are '3des' or 'cisco_type_7' encryption. required: false choices: ['cisco_type_7','3des'] default: null message_digest_password: description: - Specifies the message_digest password. Valid value is a string. required: false default: null state: description: - Determines whether the config should be present or not on the device. required: false default: present choices: ['present','absent'] ''' EXAMPLES = ''' - nxos_interface_ospf: interface=ethernet1/32 ospf=1 area=1 cost=default username: "{{ un }}" password: "{{ pwd }}" host: "{{ inventory_hostname }}" ''' RETURN = ''' proposed: description: k/v pairs of parameters passed into module returned: verbose mode type: dict sample: {"area": "1", "interface": "ethernet1/32", "ospf": "1"} existing: description: k/v pairs of existing OSPF configuration returned: verbose mode type: dict sample: {"area": "", "cost": "", "dead_interval": "", "hello_interval": "", "interface": "ethernet1/32", "message_digest": false, "message_digest_algorithm_type": "", "message_digest_encryption_type": "", "message_digest_key_id": "", "message_digest_password": "", "ospf": "", "passive_interface": false} end_state: description: k/v pairs of OSPF configuration after module execution returned: verbose mode type: dict sample: {"area": "0.0.0.1", "cost": "", "dead_interval": "", "hello_interval": "", "interface": "ethernet1/32", "message_digest": false, "message_digest_algorithm_type": "", "message_digest_encryption_type": "", "message_digest_key_id": "", "message_digest_password": "", "ospf": "1", "passive_interface": false} updates: description: commands sent to the device returned: always type: list sample: ["interface Ethernet1/32", "ip router ospf 1 area 0.0.0.1"] changed: description: check to see if a change was made on the device returned: always type: boolean sample: true ''' # 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 BOOL_PARAMS = [ 'passive_interface', 'message_digest' ] PARAM_TO_COMMAND_KEYMAP = { 'cost': 'ip ospf cost', 'ospf': 'ip router ospf', 'area': 'ip router ospf', 'hello_interval': 'ip ospf hello-interval', 'dead_interval': 'ip ospf dead-interval', 'passive_interface': 'ip ospf passive-interface', 'message_digest': 'ip ospf authentication message-digest', 'message_digest_key_id': 'ip ospf message-digest-key', 'message_digest_algorithm_type': 'ip ospf message-digest-key options', 'message_digest_encryption_type': 'ip ospf message-digest-key options', 'message_digest_password': 'ip ospf message-digest-key options', } PARAM_TO_DEFAULT_KEYMAP = { } def invoke(name, *args, **kwargs): func = globals().get(name) if func: return func(*args, **kwargs) def get_custom_value(arg, config, module): value = '' if arg == 'ospf': REGEX = re.compile(r'(?:ip router ospf\s)(?P.*)$', re.M) value = '' if 'ip router ospf' in config: parsed = REGEX.search(config).group('value').split() value = parsed[0] elif arg == 'area': REGEX = re.compile(r'(?:ip router ospf\s)(?P.*)$', re.M) value = '' if 'ip router ospf' in config: parsed = REGEX.search(config).group('value').split() value = parsed[2] elif arg.startswith('message_digest_'): REGEX = re.compile(r'(?:ip ospf message-digest-key\s)(?P.*)$', re.M) value = '' if 'ip ospf message-digest-key' in config: value_list = REGEX.search(config).group('value').split() if arg == 'message_digest_key_id': value = value_list[0] elif arg == 'message_digest_algorithm_type': value = value_list[1] elif arg == 'message_digest_encryption_type': value = value_list[2] if value == '3': value = '3des' elif value == '7': value = 'cisco_type_7' elif arg == 'message_digest_password': value = value_list[3] elif arg == 'passive_interface': REGEX = re.compile(r'\s+{0}\s*$'.format(PARAM_TO_COMMAND_KEYMAP[arg]), re.M) NO_REGEX = re.compile(r'\s+no\s+{0}\s*$'.format(PARAM_TO_COMMAND_KEYMAP[arg]), re.M) value = False try: if NO_REGEX.search(config): value = False elif REGEX.search(config): value = True except TypeError: value = False return value def get_value(arg, config, module): custom = [ 'ospf', 'area', 'message_digest_key_id', 'message_digest_algorithm_type', 'message_digest_encryption_type', 'message_digest_password', 'passive_interface' ] if arg in custom: value = get_custom_value(arg, config, module) elif arg in BOOL_PARAMS: REGEX = re.compile(r'\s+{0}\s*$'.format(PARAM_TO_COMMAND_KEYMAP[arg]), re.M) value = False try: if REGEX.search(config): value = True except TypeError: value = False else: REGEX = re.compile(r'(?:{0}\s)(?P.*)$'.format(PARAM_TO_COMMAND_KEYMAP[arg]), re.M) value = '' if PARAM_TO_COMMAND_KEYMAP[arg] in config: value = REGEX.search(config).group('value') return value def get_existing(module, args): existing = {} netcfg = get_config(module) parents = ['interface {0}'.format(module.params['interface'].capitalize())] config = netcfg.get_section(parents) if 'ospf' in config: for arg in args: if arg not in ['interface']: existing[arg] = get_value(arg, config, module) existing['interface'] = module.params['interface'] return existing 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] = value else: new_dict[new_key] = value return new_dict def get_default_commands(existing, proposed, existing_commands, key, module): commands = list() existing_value = existing_commands.get(key) if key.startswith('ip ospf message-digest-key'): check = False for param in ['message_digest_encryption_type', 'message_digest_algorithm_type', 'message_digest_password']: if existing[param] == proposed[param]: check = True if check: if existing['message_digest_encryption_type'] == '3des': encryption_type = '3' elif existing['message_digest_encryption_type'] == 'cisco_type_7': encryption_type = '7' command = 'no {0} {1} {2} {3} {4}'.format( key, existing['message_digest_key_id'], existing['message_digest_algorithm_type'], encryption_type, existing['message_digest_password']) commands.append(command) else: commands.append('no {0} {1}'.format(key, existing_value)) return commands def get_custom_command(existing_cmd, proposed, key, module): commands = list() if key == 'ip router ospf': command = '{0} {1} area {2}'.format(key, proposed['ospf'], proposed['area']) if command not in existing_cmd: commands.append(command) elif key.startswith('ip ospf message-digest-key'): if (proposed['message_digest_key_id'] != 'default' and 'options' not in key): if proposed['message_digest_encryption_type'] == '3des': encryption_type = '3' elif proposed['message_digest_encryption_type'] == 'cisco_type_7': encryption_type = '7' command = '{0} {1} {2} {3} {4}'.format( key, proposed['message_digest_key_id'], proposed['message_digest_algorithm_type'], encryption_type, proposed['message_digest_password']) commands.append(command) return commands 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.iteritems(): if value is True: commands.append(key) elif value is False: commands.append('no {0}'.format(key)) elif value == 'default': if existing_commands.get(key): commands.extend(get_default_commands(existing, proposed, existing_commands, key, module)) else: if (key == 'ip router ospf' or key.startswith('ip ospf message-digest-key')): commands.extend(get_custom_command(commands, proposed, key, module)) else: command = '{0} {1}'.format(key, value.lower()) commands.append(command) if commands: parents = ['interface {0}'.format(module.params['interface'].capitalize())] candidate.add(commands, parents=parents) def state_absent(module, existing, proposed, candidate): commands = [] parents = ['interface {0}'.format(module.params['interface'].capitalize())] existing_commands = apply_key_map(PARAM_TO_COMMAND_KEYMAP, existing) for key, value in existing_commands.iteritems(): if value: if key.startswith('ip ospf message-digest-key'): if 'options' not in key: if existing['message_digest_encryption_type'] == '3des': encryption_type = '3' elif existing['message_digest_encryption_type'] == 'cisco_type_7': encryption_type = '7' command = 'no {0} {1} {2} {3} {4}'.format( key, existing['message_digest_key_id'], existing['message_digest_algorithm_type'], encryption_type, existing['message_digest_password']) commands.append(command) elif key in ['ip ospf authentication message-digest', 'ip ospf passive-interface']: if value: commands.append('no {0}'.format(key)) elif key == 'ip router ospf': command = 'no {0} {1} area {2}'.format(key, proposed['ospf'], proposed['area']) if command not in commands: commands.append(command) else: existing_value = existing_commands.get(key) commands.append('no {0} {1}'.format(key, existing_value)) candidate.add(commands, parents=parents) def normalize_area(area, module): try: area = int(area) area = '0.0.0.{0}'.format(area) except ValueError: splitted_area = area.split('.') if len(splitted_area) != 4: module.fail_json(msg='Incorrect Area ID format', area=area) return area def main(): argument_spec = dict( interface=dict(required=True, type='str'), ospf=dict(required=True, type='str'), area=dict(required=True, type='str'), cost=dict(required=False, type='str'), hello_interval=dict(required=False, type='str'), dead_interval=dict(required=False, type='str'), passive_interface=dict(required=False, type='bool'), message_digest=dict(required=False, type='bool'), message_digest_key_id=dict(required=False, type='str'), message_digest_algorithm_type=dict(required=False, type='str', choices=['md5']), message_digest_encryption_type=dict(required=False, type='str', choices=['cisco_type_7','3des']), message_digest_password=dict(required=False, type='str'), state=dict(choices=['present', 'absent'], default='present', required=False), include_defaults=dict(default=True), config=dict(), save=dict(type='bool', default=False) ) module = get_network_module(argument_spec=argument_spec, required_together=[['message_digest_key_id', 'message_digest_algorithm_type', 'message_digest_encryption_type', 'message_digest_password']], supports_check_mode=True) for param in ['message_digest_encryption_type', 'message_digest_algorithm_type', 'message_digest_password']: if module.params[param] == 'default': module.exit_json(msg='Use message_digest_key_id=default to remove' ' an existing authentication configuration') state = module.params['state'] args = [ 'interface', 'ospf', 'area', 'cost', 'hello_interval', 'dead_interval', 'passive_interface', 'message_digest', 'message_digest_key_id', 'message_digest_algorithm_type', 'message_digest_encryption_type', 'message_digest_password' ] existing = invoke('get_existing', module, args) end_state = existing proposed_args = dict((k, v) for k, v in module.params.iteritems() if v is not None and k in args) proposed = {} for key, value in proposed_args.iteritems(): 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) or (not existing.get(key) and value): proposed[key] = value proposed['area'] = normalize_area(proposed['area'], module) result = {} if (state == 'present' or (state == 'absent' and existing.get('ospf') == proposed['ospf'] and existing.get('area') == proposed['area'])): candidate = CustomNetworkConfig(indent=3) invoke('state_%s' % state, module, existing, proposed, candidate) try: response = load_config(module, candidate) result.update(response) except ShellError: exc = get_exception() module.fail_json(msg=str(exc)) else: result['updates'] = [] result['connected'] = module.connected if module._verbosity > 0: end_state = invoke('get_existing', module, args) result['end_state'] = end_state result['existing'] = existing result['proposed'] = proposed_args module.exit_json(**result) if __name__ == '__main__': main()