#!/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_bgp_af version_added: "2.2" short_description: Manages BGP Address-family configuration. description: - Manages BGP Address-family configurations on NX-OS switches. author: Gabriele Gerbino (@GGabriele) extends_documentation_fragment: nxos notes: - C(state=absent) removes the whole BGP ASN configuration - Default, where supported, restores params default value. options: asn: description: - BGP autonomous system number. Valid values are String, Integer in ASPLAIN or ASDOT notation. required: true vrf: description: - Name of the VRF. The name 'default' is a valid VRF representing the global bgp. required: true afi: description: - Address Family Identifier. required: true choices: ['ipv4','ipv6', 'vpnv4', 'vpnv6', 'l2vpn'] safi: description: - Sub Address Family Identifier. required: true choices: ['unicast','multicast', 'evpn'] additional_paths_install: description: - Install a backup path into the forwarding table and provide prefix independent convergence (PIC) in case of a PE-CE link failure. required: false choices: ['true','false'] default: null additional_paths_receive: description: - Enables the receive capability of additional paths for all of the neighbors under this address family for which the capability has not been disabled. required: false choices: ['true','false'] default: null additional_paths_selection: description: - Configures the capability of selecting additional paths for a prefix. Valid values are a string defining the name of the route-map. required: false default: null additional_paths_send: description: - Enables the send capability of additional paths for all of the neighbors under this address family for which the capability has not been disabled. required: false choices: ['true','false'] default: null advertise_l2vpn_evpn: description: - Advertise evpn routes. required: false choices: ['true','false'] default: null client_to_client: description: - Configure client-to-client route reflection. required: false choices: ['true','false'] default: null dampen_igp_metric: description: - Specify dampen value for IGP metric-related changes, in seconds. Valid values are integer and keyword 'default'. required: false default: null dampening_state: description: - Enable/disable route-flap dampening. required: false choices: ['true','false'] default: null dampening_half_time: description: - Specify decay half-life in minutes for route-flap dampening. Valid values are integer and keyword 'default'. required: false default: null dampening_max_suppress_time: description: - Specify max suppress time for route-flap dampening stable route. Valid values are integer and keyword 'default'. required: false default: null dampening_reuse_time: description: - Specify route reuse time for route-flap dampening. Valid values are integer and keyword 'default'. required: false dampening_routemap: description: - Specify route-map for route-flap dampening. Valid values are a string defining the name of the route-map. required: false default: null dampening_suppress_time: description: - Specify route suppress time for route-flap dampening. Valid values are integer and keyword 'default'. required: false default: null default_information_originate: description: - Default information originate. required: false choices: ['true','false'] default: null default_metric: description: - Sets default metrics for routes redistributed into BGP. Valid values are Integer or keyword 'default' required: false default: null distance_ebgp: description: - Sets the administrative distance for eBGP routes. Valid values are Integer or keyword 'default'. required: false default: null distance_ibgp: description: - Sets the administrative distance for iBGP routes. Valid values are Integer or keyword 'default'. required: false default: null distance_local: description: - Sets the administrative distance for local BGP routes. Valid values are Integer or keyword 'default'. required: false default: null inject_map: description: - An array of route-map names which will specify prefixes to inject. Each array entry must first specify the inject-map name, secondly an exist-map name, and optionally the copy-attributes keyword which indicates that attributes should be copied from the aggregate. For example [['lax_inject_map', 'lax_exist_map'], ['nyc_inject_map', 'nyc_exist_map', 'copy-attributes'], ['fsd_inject_map', 'fsd_exist_map']]. required: false default: null maximum_paths: description: - Configures the maximum number of equal-cost paths for load sharing. Valid value is an integer in the range 1-64. default: null maximum_paths_ibgp: description: - Configures the maximum number of ibgp equal-cost paths for load sharing. Valid value is an integer in the range 1-64. required: false default: null networks: description: - Networks to configure. Valid value is a list of network prefixes to advertise. The list must be in the form of an array. Each entry in the array must include a prefix address and an optional route-map. For example [['10.0.0.0/16', 'routemap_LA'], ['192.168.1.1', 'Chicago'], ['192.168.2.0/24], ['192.168.3.0/24', 'routemap_NYC']]. required: false default: null next_hop_route_map: description: - Configure a route-map for valid nexthops. Valid values are a string defining the name of the route-map. required: false default: null redistribute: description: - A list of redistribute directives. Multiple redistribute entries are allowed. The list must be in the form of a nested array. the first entry of each array defines the source-protocol to redistribute from; the second entry defines a route-map name. A route-map is highly advised but may be optional on some platforms, in which case it may be omitted from the array list. For example [['direct', 'rm_direct'], ['lisp', 'rm_lisp']]. required: false default: null suppress_inactive: description: - Advertises only active routes to peers. required: false choices: ['true','false'] default: null table_map: description: - Apply table-map to filter routes downloaded into URIB. Valid values are a string. required: false default: null table_map_filter: description: - Filters routes rejected by the route-map and does not download them to the RIB. required: false choices: ['true','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 = ''' # configure a simple address-family - nxos_bgp_af: asn: 65535 vrf: TESTING afi: ipv4 safi: unicast advertise_l2vpn_evpn: true state: present ''' RETURN = ''' proposed: description: k/v pairs of parameters passed into module returned: verbose mode type: dict sample: {"advertise_l2vpn_evpn": true, "afi": "ipv4", "asn": "65535", "safi": "unicast", "vrf": "TESTING"} existing: description: k/v pairs of existing BGP AF configuration returned: verbose mode type: dict sample: {} end_state: description: k/v pairs of BGP AF configuration after module execution returned: verbose mode type: dict sample: {"additional_paths_install": false, "additional_paths_receive": false, "additional_paths_selection": "", "additional_paths_send": false, "advertise_l2vpn_evpn": true, "afi": "ipv4", "asn": "65535", "client_to_client": true, "dampen_igp_metric": "600", "dampening_half_time": "", "dampening_max_suppress_time": "", "dampening_reuse_time": "", "dampening_routemap": "", "dampening_state": false, "dampening_suppress_time": "", "default_information_originate": false, "default_metric": "", "distance_ebgp": "20", "distance_ibgp": "200", "distance_local": "220", "inject_map": [], "maximum_paths": "1", "maximum_paths_ibgp": "1", "networks": [], "next_hop_route_map": "", "redistribute": [], "safi": "unicast", "suppress_inactive": false, "table_map": "", "table_map_filter": false, "vrf": "TESTING"} updates: description: commands sent to the device returned: always type: list sample: ["router bgp 65535", "vrf TESTING", "address-family ipv4 unicast", "advertise l2vpn evpn"] 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 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 WARNINGS = [] BOOL_PARAMS = [ 'additional_paths_install', 'additional_paths_receive', 'additional_paths_send', 'advertise_l2vpn_evpn', 'client_to_client', 'dampening_state', 'default_information_originate', 'suppress_inactive', ] PARAM_TO_DEFAULT_KEYMAP = { 'maximum_paths': '1', 'maximum_paths_ibgp': '1', 'client_to_client': True, 'distance_ebgp': '20', 'distance_ibgp': '200', 'distance_local': '220', 'dampen_igp_metric': '600' } PARAM_TO_COMMAND_KEYMAP = { 'asn': 'router bgp', 'afi': 'address-family', 'safi': 'address-family', 'additional_paths_install': 'additional-paths install backup', 'additional_paths_receive': 'additional-paths receive', 'additional_paths_selection': 'additional-paths selection route-map', 'additional_paths_send': 'additional-paths send', 'advertise_l2vpn_evpn': 'advertise l2vpn evpn', 'client_to_client': 'client-to-client reflection', 'dampen_igp_metric': 'dampen-igp-metric', 'dampening_state': 'dampening', 'dampening_half_time': 'dampening', 'dampening_max_suppress_time': 'dampening', 'dampening_reuse_time': 'dampening', 'dampening_routemap': 'dampening route-map', 'dampening_suppress_time': 'dampening', 'default_information_originate': 'default-information originate', 'default_metric': 'default-metric', 'distance_ebgp': 'distance', 'distance_ibgp': 'distance', 'distance_local': 'distance', 'inject_map': 'inject-map', 'maximum_paths': 'maximum-paths', 'maximum_paths_ibgp': 'maximum-paths ibgp', 'networks': 'network', 'redistribute': 'redistribute', 'next_hop_route_map': 'nexthop route-map', 'suppress_inactive': 'suppress-inactive', 'table_map': 'table-map', 'table_map_filter': 'table-map-filter', 'vrf': 'vrf' } DAMPENING_PARAMS = [ 'dampening_half_time', 'dampening_suppress_time', 'dampening_reuse_time', 'dampening_max_suppress_time' ] def invoke(name, *args, **kwargs): func = globals().get(name) if func: return func(*args, **kwargs) def get_custom_list_value(config, arg, module): value_list = [] splitted_config = config.splitlines() if arg == 'inject_map': REGEX_INJECT = ('.*inject-map\s(?P\S+)' '\sexist-map\s(?P\S+)-*') for line in splitted_config: value = [] inject_group = {} try: match_inject = re.match(REGEX_INJECT, line, re.DOTALL) inject_group = match_inject.groupdict() inject_map = inject_group['inject_map'] exist_map = inject_group['exist_map'] value.append(inject_map) value.append(exist_map) except AttributeError: value = [] if value: copy_attributes = False inject_map_command = ('inject-map {0} exist-map {1} ' 'copy-attributes'.format( inject_group['inject_map'], inject_group['exist_map'])) REGEX = re.compile(r'\s+{0}\s*$'.format( inject_map_command), re.M) try: if REGEX.search(config): copy_attributes = True except TypeError: copy_attributes = False if copy_attributes: value.append('copy_attributes') value_list.append(value) elif arg == 'networks': REGEX_NETWORK = re.compile(r'(?:network\s)(?P.*)$') for line in splitted_config: value = [] network_group = {} if 'network' in line: value = REGEX_NETWORK.search(line).group('value').split() if value: if len(value) == 3: value.pop(1) value_list.append(value) elif arg == 'redistribute': RED_REGEX = re.compile(r'(?:{0}\s)(?P.*)$'.format( PARAM_TO_COMMAND_KEYMAP[arg]), re.M) for line in splitted_config: value = [] redistribute_group = {} if 'redistribute' in line: value = RED_REGEX.search(line).group('value').split() if value: if len(value) == 3: value.pop(1) elif len(value) == 4: value = ['{0} {1}'.format( value[0], value[1]), value[3]] value_list.append(value) return value_list def get_custom_string_value(config, arg, module): value = '' if arg.startswith('distance'): REGEX_DISTANCE = ('.*distance\s(?P\w+)\s(?P\w+)' '\s(?P\w+)') try: match_distance = re.match(REGEX_DISTANCE, config, re.DOTALL) distance_group = match_distance.groupdict() except AttributeError: distance_group = {} if distance_group: if arg == 'distance_ebgp': value = distance_group['d_ebgp'] elif arg == 'distance_ibgp': value = distance_group['d_ibgp'] elif arg == 'distance_local': value = distance_group['d_local'] elif arg.startswith('dampening'): REGEX = re.compile(r'(?:{0}\s)(?P.*)$'.format( PARAM_TO_COMMAND_KEYMAP[arg]), re.M) if arg == 'dampen_igp_metric' or arg == 'dampening_routemap': value = '' if PARAM_TO_COMMAND_KEYMAP[arg] in config: value = REGEX.search(config).group('value') else: REGEX_DAMPENING = ('.*dampening\s(?P\w+)\s(?P\w+)' '\s(?P\w+)\s(?P\w+)') try: match_dampening = re.match(REGEX_DAMPENING, config, re.DOTALL) dampening_group = match_dampening.groupdict() except AttributeError: dampening_group = {} if dampening_group: if arg == 'dampening_half_time': value = dampening_group['half'] elif arg == 'dampening_reuse_time': value = dampening_group['reuse'] elif arg == 'dampening_suppress_time': value = dampening_group['suppress'] elif arg == 'dampening_max_suppress_time': value = dampening_group['max_suppress'] elif arg == 'table_map_filter': TMF_REGEX = re.compile(r'\s+table-map.*filter$', re.M) value = False try: if TMF_REGEX.search(config): value = True except TypeError: value = False elif arg == 'table_map': TM_REGEX = re.compile(r'(?:table-map\s)(?P\S+)(\sfilter)?$', re.M) value = '' if PARAM_TO_COMMAND_KEYMAP[arg] in config: value = TM_REGEX.search(config).group('value') return value def get_value(arg, config, module): custom = [ 'inject_map', 'networks', 'redistribute' ] if arg in BOOL_PARAMS: REGEX = re.compile(r'\s+{0}\s*$'.format(PARAM_TO_COMMAND_KEYMAP[arg]), re.M) value = False try: if REGEX.search(config): value = True except TypeError: value = False elif arg in custom: value = get_custom_list_value(config, arg, module) elif (arg.startswith('distance') or arg.startswith('dampening') or arg.startswith('table_map')): value = get_custom_string_value(config, arg, module) else: REGEX = re.compile(r'(?:{0}\s)(?P.*)$'.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) try: asn_regex = '.*router\sbgp\s(?P\d+).*' match_asn = re.match(asn_regex, str(netcfg), re.DOTALL) existing_asn_group = match_asn.groupdict() existing_asn = existing_asn_group['existing_asn'] except AttributeError: existing_asn = '' if existing_asn: parents = ["router bgp {0}".format(existing_asn)] if module.params['vrf'] != 'default': parents.append('vrf {0}'.format(module.params['vrf'])) parents.append('address-family {0} {1}'.format(module.params['afi'], module.params['safi'])) config = netcfg.get_section(parents) if config: for arg in args: if arg not in ['asn', 'afi', 'safi', 'vrf']: existing[arg] = get_value(arg, config, module) existing['asn'] = existing_asn existing['afi'] = module.params['afi'] existing['safi'] = module.params['safi'] existing['vrf'] = module.params['vrf'] else: WARNINGS.append("The BGP process {0} didn't exist but the task" " just created it.".format(module.params['asn'])) 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 fix_proposed(module, proposed, existing): commands = list() command = '' fixed_proposed = {} for key, value in proposed.iteritems(): if key in DAMPENING_PARAMS: if value != 'default': command = 'dampening {0} {1} {2} {3}'.format( proposed.get('dampening_half_time'), proposed.get('dampening_reuse_time'), proposed.get('dampening_suppress_time'), proposed.get('dampening_max_suppress_time')) else: if existing.get(key): command = ('no dampening {0} {1} {2} {3}'.format( existing['dampening_half_time'], existing['dampening_reuse_time'], existing['dampening_suppress_time'], existing['dampening_max_suppress_time'])) if 'default' in command: command = '' elif key.startswith('distance'): command = 'distance {0} {1} {2}'.format( proposed.get('distance_ebgp'), proposed.get('distance_ibgp'), proposed.get('distance_local')) else: fixed_proposed[key] = value if command: if command not in commands: commands.append(command) return fixed_proposed, commands def default_existing(existing_value, key, value): commands = [] if key == 'network': for network in existing_value: if len(network) == 2: commands.append('no network {0} route-map {1}'.format( network[0], network[1])) elif len(network) == 1: commands.append('no network {0}'.format( network[0])) elif key == 'inject-map': for maps in existing_value: if len(maps) == 2: commands.append('no inject-map {0} exist-map {1}'.format( maps[0], maps[1])) elif len(maps) == 3: commands.append('no inject-map {0} exist-map {1} ' 'copy-attributes'.format( maps[0], maps[1])) else: commands.append('no {0} {1}'.format(key, existing_value)) return commands def get_network_command(existing, key, value): commands = [] existing_networks = existing.get('networks', []) for inet in value: if not isinstance(inet, list): inet = [inet] if inet not in existing_networks: if len(inet) == 1: command = '{0} {1}'.format(key, inet[0]) elif len(inet) == 2: command = '{0} {1} route-map {2}'.format(key, inet[0], inet[1]) commands.append(command) return commands def get_inject_map_command(existing, key, value): commands = [] existing_maps = existing.get('inject_map', []) for maps in value: if not isinstance(maps, list): maps = [maps] if maps not in existing_maps: if len(maps) == 2: command = ('inject-map {0} exist-map {1}'.format( maps[0], maps[1])) elif len(maps) == 3: command = ('inject-map {0} exist-map {1} ' 'copy-attributes'.format(maps[0], maps[1])) commands.append(command) return commands def get_redistribute_command(existing, key, value): commands = [] for rule in value: if rule[1] == 'default': existing_rule = existing.get('redistribute', []) for each_rule in existing_rule: if rule[0] in each_rule: command = 'no {0} {1} route-map {2}'.format( key, each_rule[0], each_rule[1]) commands.append(command) else: command = '{0} {1} route-map {2}'.format(key, rule[0], rule[1]) commands.append(command) return commands def get_table_map_command(module, existing, key, value): commands = [] if key == 'table-map': if value != 'default': command = '{0} {1}'.format(key, module.params['table_map']) if (module.params['table_map_filter'] is not None and module.params['table_map_filter'] != 'default'): command += ' filter' commands.append(command) else: if existing.get('table_map'): command = 'no {0} {1}'.format(key, existing.get('table_map')) commands.append(command) return commands def get_default_table_map_filter(existing): commands = [] existing_table_map_filter = existing.get('table_map_filter') if existing_table_map_filter: existing_table_map = existing.get('table_map') if existing_table_map: command = 'table-map {0}'.format(existing_table_map) commands.append(command) return commands def state_present(module, existing, proposed, candidate): fixed_proposed, commands = fix_proposed(module, proposed, existing) proposed_commands = apply_key_map(PARAM_TO_COMMAND_KEYMAP, fixed_proposed) existing_commands = apply_key_map(PARAM_TO_COMMAND_KEYMAP, existing) for key, value in proposed_commands.iteritems(): if key == 'address-family': addr_family_command = "address-family {0} {1}".format( module.params['afi'], module.params['safi']) if addr_family_command not in commands: commands.append(addr_family_command) elif key.startswith('table-map'): table_map_commands = get_table_map_command(module, existing, key, value) if table_map_commands: commands.extend(table_map_commands) elif value is True: commands.append(key) elif value is False: commands.append('no {0}'.format(key)) elif value == 'default': if key in PARAM_TO_DEFAULT_KEYMAP.keys(): commands.append('{0} {1}'.format(key, PARAM_TO_DEFAULT_KEYMAP[key])) elif existing_commands.get(key): if key == 'table-map-filter': default_tmf_command = get_default_table_map_filter(existing) if default_tmf_command: commands.extend(default_tmf_command) else: existing_value = existing_commands.get(key) default_command = default_existing(existing_value, key, value) if default_command: commands.extend(default_command) else: if key == 'network': network_commands = get_network_command(existing, key, value) if network_commands: commands.extend(network_commands) elif key == 'inject-map': inject_map_commands = get_inject_map_command(existing, key, value) if inject_map_commands: commands.extend(inject_map_commands) elif key == 'redistribute': redistribute_commands = get_redistribute_command(existing, key, value) if redistribute_commands: commands.extend(redistribute_commands) else: command = '{0} {1}'.format(key, value) commands.append(command) if commands: parents = ["router bgp {0}".format(module.params['asn'])] if module.params['vrf'] != 'default': parents.append('vrf {0}'.format(module.params['vrf'])) if len(commands) == 1: candidate.add(commands, parents=parents) elif len(commands) > 1: parents.append('address-family {0} {1}'.format(module.params['afi'], module.params['safi'])) if addr_family_command in commands: commands.remove(addr_family_command) candidate.add(commands, parents=parents) def state_absent(module, existing, proposed, candidate): commands = [] parents = ["router bgp {0}".format(module.params['asn'])] if module.params['vrf'] != 'default': parents.append('vrf {0}'.format(module.params['vrf'])) commands.append('no address-family {0} {1}'.format( module.params['afi'], module.params['safi'])) candidate.add(commands, parents=parents) def main(): argument_spec = dict( asn=dict(required=True, type='str'), vrf=dict(required=False, type='str', default='default'), safi=dict(required=True, type='str', choices=['unicast','multicast', 'evpn']), afi=dict(required=True, type='str', choices=['ipv4','ipv6', 'vpnv4', 'vpnv6', 'l2vpn']), additional_paths_install=dict(required=False, type='bool'), additional_paths_receive=dict(required=False, type='bool'), additional_paths_selection=dict(required=False, type='str'), additional_paths_send=dict(required=False, ype='bool'), advertise_l2vpn_evpn=dict(required=False, type='bool'), client_to_client=dict(required=False, type='bool'), dampen_igp_metric=dict(required=False, type='str'), dampening_state=dict(required=False, type='bool'), dampening_half_time=dict(required=False, type='str'), dampening_max_suppress_time=dict(required=False, type='str'), dampening_reuse_time=dict(required=False, type='str'), dampening_routemap=dict(required=False, type='str'), dampening_suppress_time=dict(required=False, type='str'), default_information_originate=dict(required=False, type='bool'), default_metric=dict(required=False, type='str'), distance_ebgp=dict(required=False, type='str'), distance_ibgp=dict(required=False, type='str'), distance_local=dict(required=False, type='str'), inject_map=dict(required=False, type='list'), maximum_paths=dict(required=False, type='str'), maximum_paths_ibgp=dict(required=False, type='str'), networks=dict(required=False, type='list'), next_hop_route_map=dict(required=False, type='str'), redistribute=dict(required=False, type='list'), suppress_inactive=dict(required=False, type='bool'), table_map=dict(required=False, type='str'), table_map_filter=dict(required=False, type='bool'), 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=[DAMPENING_PARAMS, ['distance_ibgp', 'distance_ebgp', 'distance_local']], supports_check_mode=True) state = module.params['state'] if module.params['dampening_routemap']: for param in DAMPENING_PARAMS: if module.params[param]: module.fail_json(msg='dampening_routemap cannot be used with' ' the {0} param'.format(param)) if module.params['advertise_l2vpn_evpn']: if module.params['vrf'] == 'default': module.fail_json(msg='It is not possible to advertise L2VPN ' 'EVPN in the default VRF. Please specify ' 'another one.', vrf=module.params['vrf']) if module.params['table_map_filter'] and not module.params['table_map']: module.fail_json(msg='table_map param is needed when using' ' table_map_filter filter.') args = [ "additional_paths_install", "additional_paths_receive", "additional_paths_selection", "additional_paths_send", "advertise_l2vpn_evpn", "afi", "asn", "client_to_client", "dampen_igp_metric", "dampening_half_time", "dampening_max_suppress_time", "dampening_reuse_time", "dampening_suppress_time", "dampening_routemap", "dampening_state", "default_information_originate", "default_metric", "distance_ebgp", "distance_ibgp", "distance_local", "inject_map", "maximum_paths", "maximum_paths_ibgp", "networks", "next_hop_route_map", "redistribute", "safi", "suppress_inactive", "table_map", "table_map_filter", "vrf" ] existing = invoke('get_existing', module, args) if existing.get('asn'): if (existing.get('asn') != module.params['asn'] and state == 'present'): module.fail_json(msg='Another BGP ASN already exists.', proposed_asn=module.params['asn'], existing_asn=existing.get('asn')) end_state = existing proposed_args = dict((k, v) for k, v in module.params.iteritems() if v is not None and k in args) if proposed_args.get('networks'): if proposed_args['networks'][0] == 'default': proposed_args['networks'] = 'default' if proposed_args.get('inject_map'): if proposed_args['inject_map'][0] == 'default': proposed_args['inject_map'] = 'default' proposed = {} for key, value in proposed_args.iteritems(): if key not in ['asn', 'vrf']: if 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 result = {} if state == 'present' or (state == 'absent' and existing): 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 if WARNINGS: result['warnings'] = WARNINGS module.exit_json(**result) if __name__ == '__main__': main()