# # -*- coding: utf-8 -*- # Copyright 2019 Red Hat # GNU General Public License v3.0+ # (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt) """ The nxos_l2_interfaces class It is in this file where the current configuration (as dict) is compared to the provided configuration (as dict) and the command set necessary to bring the current configuration to it's desired end-state is created """ from __future__ import absolute_import, division, print_function __metaclass__ = type from ansible.module_utils.network.common.cfg.base import ConfigBase from ansible.module_utils.network.common.utils import dict_diff, to_list, remove_empties from ansible.module_utils.network.nxos.facts.facts import Facts from ansible.module_utils.network.nxos.utils.utils import flatten_dict, normalize_interface, search_obj_in_list, vlan_range_to_list class L2_interfaces(ConfigBase): """ The nxos_l2_interfaces class """ gather_subset = [ '!all', '!min', ] gather_network_resources = [ 'l2_interfaces', ] exclude_params = [ 'vlan', 'allowed_vlans', 'native_vlans', ] def __init__(self, module): super(L2_interfaces, self).__init__(module) def get_l2_interfaces_facts(self): """ Get the 'facts' (the current configuration) :rtype: A dictionary :returns: The current configuration as a dictionary """ facts, _warnings = Facts(self._module).get_facts(self.gather_subset, self.gather_network_resources) l2_interfaces_facts = facts['ansible_network_resources'].get('l2_interfaces') if not l2_interfaces_facts: return [] return l2_interfaces_facts def execute_module(self): """ Execute the module :rtype: A dictionary :returns: The result from module execution """ result = {'changed': False} commands = list() warnings = list() existing_l2_interfaces_facts = self.get_l2_interfaces_facts() commands.extend(self.set_config(existing_l2_interfaces_facts)) if commands: if not self._module.check_mode: self._connection.edit_config(commands) result['changed'] = True result['commands'] = commands changed_l2_interfaces_facts = self.get_l2_interfaces_facts() result['before'] = existing_l2_interfaces_facts if result['changed']: result['after'] = changed_l2_interfaces_facts result['warnings'] = warnings return result def set_config(self, existing_l2_interfaces_facts): """ Collect the configuration from the args passed to the module, collect the current configuration (as a dict from facts) :rtype: A list :returns: the commands necessary to migrate the current configuration to the desired configuration """ config = self._module.params.get('config') want = [] if config: for w in config: w.update({'name': normalize_interface(w['name'])}) self.expand_trunk_allowed_vlans(w) want.append(remove_empties(w)) have = existing_l2_interfaces_facts for h in have: self.expand_trunk_allowed_vlans(h) resp = self.set_state(want, have) return to_list(resp) def expand_trunk_allowed_vlans(self, d): if not d: return None if 'trunk' in d and d['trunk']: if 'allowed_vlans' in d['trunk']: allowed_vlans = vlan_range_to_list(d['trunk']['allowed_vlans']) vlans_list = [str(l) for l in sorted(allowed_vlans)] d['trunk']['allowed_vlans'] = ",".join(vlans_list) def set_state(self, want, have): """ Select the appropriate function based on the state provided :param want: the desired configuration as a dictionary :param have: the current configuration as a dictionary :rtype: A list :returns: the commands necessary to migrate the current configuration to the desired configuration """ state = self._module.params['state'] if state in ('overridden', 'merged', 'replaced') and not want: self._module.fail_json(msg='config is required for state {0}'.format(state)) commands = list() if state == 'overridden': commands.extend(self._state_overridden(want, have)) elif state == 'deleted': commands.extend(self._state_deleted(want, have)) else: for w in want: if state == 'merged': commands.extend(self._state_merged(flatten_dict(w), have)) elif state == 'replaced': commands.extend(self._state_replaced(flatten_dict(w), have)) return commands def _state_replaced(self, w, have): """ The command generator when state is replaced :rtype: A list :returns: the commands necessary to migrate the current configuration to the desired configuration """ commands = [] obj_in_have = flatten_dict(search_obj_in_list(w['name'], have, 'name')) if obj_in_have: diff = dict_diff(w, obj_in_have) else: diff = w merged_commands = self.set_commands(w, have) if 'name' not in diff: diff['name'] = w['name'] wkeys = w.keys() dkeys = diff.keys() for k in wkeys: if k in self.exclude_params and k in dkeys: del diff[k] replaced_commands = self.del_attribs(diff) if merged_commands: cmds = set(replaced_commands).intersection(set(merged_commands)) for cmd in cmds: merged_commands.remove(cmd) commands.extend(replaced_commands) commands.extend(merged_commands) return commands def _state_overridden(self, want, have): """ The command generator when state is overridden :rtype: A list :returns: the commands necessary to migrate the current configuration to the desired configuration """ commands = [] for h in have: h = flatten_dict(h) obj_in_want = flatten_dict(search_obj_in_list(h['name'], want, 'name')) if h == obj_in_want: continue for w in want: w = flatten_dict(w) if h['name'] == w['name']: wkeys = w.keys() hkeys = h.keys() for k in wkeys: if k in self.exclude_params and k in hkeys: del h[k] commands.extend(self.del_attribs(h)) for w in want: commands.extend(self.set_commands(flatten_dict(w), have)) return commands def _state_merged(self, w, have): """ The command generator when state is merged :rtype: A list :returns: the commands necessary to merge the provided into the current configuration """ return self.set_commands(w, have) def _state_deleted(self, want, have): """ The command generator when state is deleted :rtype: A list :returns: the commands necessary to remove the current configuration of the provided objects """ commands = [] if want: for w in want: obj_in_have = flatten_dict(search_obj_in_list(w['name'], have, 'name')) commands.extend(self.del_attribs(obj_in_have)) else: if not have: return commands for h in have: commands.extend(self.del_attribs(flatten_dict(h))) return commands def del_attribs(self, obj): commands = [] if not obj or len(obj.keys()) == 1: return commands cmd = 'no switchport ' if 'vlan' in obj: commands.append(cmd + 'access vlan') if 'allowed_vlans' in obj: commands.append(cmd + 'trunk allowed vlan') if 'native_vlan' in obj: commands.append(cmd + 'trunk native vlan') if commands: commands.insert(0, 'interface ' + obj['name']) return commands def diff_of_dicts(self, w, obj): diff = set(w.items()) - set(obj.items()) diff = dict(diff) if diff and w['name'] == obj['name']: diff.update({'name': w['name']}) return diff def add_commands(self, d): commands = [] if not d: return commands cmd = 'switchport ' if 'vlan' in d: commands.append(cmd + 'access vlan ' + str(d['vlan'])) if 'allowed_vlans' in d: commands.append(cmd + 'trunk allowed vlan ' + str(d['allowed_vlans'])) if 'native_vlan' in d: commands.append(cmd + 'trunk native vlan ' + str(d['native_vlan'])) if commands: commands.insert(0, 'interface ' + d['name']) return commands def set_commands(self, w, have): commands = [] obj_in_have = flatten_dict(search_obj_in_list(w['name'], have, 'name')) if not obj_in_have: commands = self.add_commands(w) else: diff = self.diff_of_dicts(w, obj_in_have) commands = self.add_commands(diff) return commands