#!/usr/bin/python # -*- coding: utf-8 -*- # # Copyright (C) 2017 Lenovo, Inc. # (c) 2017, Ansible by Red Hat, inc # 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 . # # Module to work on Interfaces with Lenovo Switches # Lenovo Networking # from __future__ import absolute_import, division, print_function __metaclass__ = type ANSIBLE_METADATA = {'metadata_version': '1.1', 'status': ['preview'], 'supported_by': 'community'} DOCUMENTATION = ''' --- module: cnos_interface author: "Anil Kumar Muraleedharan(@amuraleedhar)" short_description: Manage Interface on Lenovo CNOS network devices description: - This module provides declarative management of Interfaces on Lenovo CNOS network devices. notes: - Tested against CNOS 10.8.1 options: name: description: - Name of the Interface. required: true description: description: - Description of Interface. enabled: description: - Interface link status. type: bool default: True speed: description: - Interface link speed. mtu: description: - Maximum size of transmit packet. duplex: description: - Interface link status default: auto choices: ['full', 'half', 'auto'] tx_rate: description: - Transmit rate in bits per second (bps). - This is state check parameter only. - Supports conditionals, see L(Conditionals in Networking Modules, ../network/user_guide/network_working_with_command_output.html) rx_rate: description: - Receiver rate in bits per second (bps). - This is state check parameter only. - Supports conditionals, see L(Conditionals in Networking Modules, ../network/user_guide/network_working_with_command_output.html) neighbors: description: - Check operational state of given interface C(name) for LLDP neighbor. - The following suboptions are available. suboptions: host: description: - "LLDP neighbor host for given interface C(name)." port: description: - "LLDP neighbor port to which interface C(name) is connected." aggregate: description: List of Interfaces definitions. delay: description: - Time in seconds to wait before checking for the operational state on remote device. This wait is applicable for operational state argument which are I(state) with values C(up)/C(down), I(tx_rate) and I(rx_rate) default: 20 state: description: - State of the Interface configuration, C(up) means present and operationally up and C(down) means present and operationally C(down) default: present choices: ['present', 'absent', 'up', 'down'] provider: description: - B(Deprecated) - "Starting with Ansible 2.5 we recommend using C(connection: network_cli)." - For more information please see the L(CNOS Platform Options guide, ../network/user_guide/platform_cnos.html). - HORIZONTALLINE - A dict object containing connection details. suboptions: host: description: - Specifies the DNS host name or address for connecting to the remote device over the specified transport. The value of host is used as the destination address for the transport. required: true port: description: - Specifies the port to use when building the connection to the remote device. default: 22 username: description: - Configures the username to use to authenticate the connection to the remote device. This value is used to authenticate the SSH session. If the value is not specified in the task, the value of environment variable C(ANSIBLE_NET_USERNAME) will be used instead. password: description: - Specifies the password to use to authenticate the connection to the remote device. This value is used to authenticate the SSH session. If the value is not specified in the task, the value of environment variable C(ANSIBLE_NET_PASSWORD) will be used instead. timeout: description: - Specifies the timeout in seconds for communicating with the network device for either connecting or sending commands. If the timeout is exceeded before the operation is completed, the module will error. default: 10 ssh_keyfile: description: - Specifies the SSH key to use to authenticate the connection to the remote device. This value is the path to the key used to authenticate the SSH session. If the value is not specified in the task, the value of environment variable C(ANSIBLE_NET_SSH_KEYFILE) will be used instead. authorize: description: - Instructs the module to enter privileged mode on the remote device before sending any commands. If not specified, the device will attempt to execute all commands in non-privileged mode. If the value is not specified in the task, the value of environment variable C(ANSIBLE_NET_AUTHORIZE) will be used instead. type: bool default: 'no' auth_pass: description: - Specifies the password to use if required to enter privileged mode on the remote device. If I(authorize) is false, then this argument does nothing. If the value is not specified in the task, the value of environment variable C(ANSIBLE_NET_AUTH_PASS) will be used instead. ''' EXAMPLES = """ - name: configure interface cnos_interface: name: Ethernet1/33 description: test-interface speed: 100 duplex: half mtu: 999 - name: remove interface cnos_interface: name: loopback3 state: absent - name: make interface up cnos_interface: name: Ethernet1/33 enabled: True - name: make interface down cnos_interface: name: Ethernet1/33 enabled: False - name: Check intent arguments cnos_interface: name: Ethernet1/33 state: up tx_rate: ge(0) rx_rate: le(0) - name: Check neighbors intent arguments cnos_interface: name: Ethernet1/33 neighbors: - port: eth0 host: netdev - name: Config + intent cnos_interface: name: Ethernet1/33 enabled: False state: down - name: Add interface using aggregate cnos_interface: aggregate: - { name: Ethernet1/33, mtu: 256, description: test-interface-1 } - { name: Ethernet1/44, mtu: 516, description: test-interface-2 } duplex: full speed: 100 state: present - name: Delete interface using aggregate cnos_interface: aggregate: - name: loopback3 - name: loopback6 state: absent """ RETURN = """ commands: description: The list of configuration mode commands to send to the device. returned: always, except for the platforms that use Netconf transport to manage the device. type: list sample: - interface Ethernet1/33 - description test-interface - duplex half - mtu 512 """ import re from copy import deepcopy from time import sleep from ansible.module_utils._text import to_text from ansible.module_utils.basic import AnsibleModule from ansible.module_utils.connection import exec_command from ansible_collections.community.general.plugins.module_utils.network.cnos.cnos import get_config, load_config from ansible_collections.community.general.plugins.module_utils.network.cnos.cnos import cnos_argument_spec from ansible_collections.community.general.plugins.module_utils.network.cnos.cnos import debugOutput, check_args from ansible_collections.ansible.netcommon.plugins.module_utils.network.common.config import NetworkConfig from ansible_collections.ansible.netcommon.plugins.module_utils.network.common.utils import conditional from ansible_collections.ansible.netcommon.plugins.module_utils.network.common.utils import remove_default_spec def validate_mtu(value, module): if value and not 64 <= int(value) <= 9216: module.fail_json(msg='mtu must be between 64 and 9216') def validate_param_values(module, obj, param=None): if param is None: param = module.params for key in obj: # validate the param value (if validator func exists) validator = globals().get('validate_%s' % key) if callable(validator): validator(param.get(key), module) def parse_shutdown(configobj, name): cfg = configobj['interface %s' % name] cfg = '\n'.join(cfg.children) match = re.search(r'^shutdown', cfg, re.M) if match: return True else: return False def parse_config_argument(configobj, name, arg=None): cfg = configobj['interface %s' % name] cfg = '\n'.join(cfg.children) match = re.search(r'%s (.+)$' % arg, cfg, re.M) if match: return match.group(1) def search_obj_in_list(name, lst): for o in lst: if o['name'] == name: return o return None def add_command_to_interface(interface, cmd, commands): if interface not in commands: commands.append(interface) commands.append(cmd) def map_config_to_obj(module): config = get_config(module) configobj = NetworkConfig(indent=1, contents=config) match = re.findall(r'^interface (\S+)', config, re.M) if not match: return list() instances = list() for item in set(match): obj = { 'name': item, 'description': parse_config_argument(configobj, item, 'description'), 'speed': parse_config_argument(configobj, item, 'speed'), 'duplex': parse_config_argument(configobj, item, 'duplex'), 'mtu': parse_config_argument(configobj, item, 'mtu'), 'disable': True if parse_shutdown(configobj, item) else False, 'state': 'present' } instances.append(obj) return instances def map_params_to_obj(module): obj = [] aggregate = module.params.get('aggregate') if aggregate: for item in aggregate: for key in item: if item.get(key) is None: item[key] = module.params[key] validate_param_values(module, item, item) d = item.copy() if d['enabled']: d['disable'] = False else: d['disable'] = True obj.append(d) else: params = { 'name': module.params['name'], 'description': module.params['description'], 'speed': module.params['speed'], 'mtu': module.params['mtu'], 'duplex': module.params['duplex'], 'state': module.params['state'], 'delay': module.params['delay'], 'tx_rate': module.params['tx_rate'], 'rx_rate': module.params['rx_rate'], 'neighbors': module.params['neighbors'] } validate_param_values(module, params) if module.params['enabled']: params.update({'disable': False}) else: params.update({'disable': True}) obj.append(params) return obj def map_obj_to_commands(updates): commands = list() want, have = updates args = ('speed', 'description', 'duplex', 'mtu') for w in want: name = w['name'] disable = w['disable'] state = w['state'] obj_in_have = search_obj_in_list(name, have) interface = 'interface ' + name if state == 'absent' and obj_in_have: commands.append('no ' + interface) elif state in ('present', 'up', 'down'): if obj_in_have: for item in args: candidate = w.get(item) running = obj_in_have.get(item) if candidate != running: if candidate: cmd = item + ' ' + str(candidate) add_command_to_interface(interface, cmd, commands) if disable and not obj_in_have.get('disable', False): add_command_to_interface(interface, 'shutdown', commands) elif not disable and obj_in_have.get('disable', False): add_command_to_interface(interface, 'no shutdown', commands) else: commands.append(interface) for item in args: value = w.get(item) if value: commands.append(item + ' ' + str(value)) if disable: commands.append('no shutdown') return commands def check_declarative_intent_params(module, want, result): failed_conditions = [] have_neighbors_lldp = None for w in want: want_state = w.get('state') want_tx_rate = w.get('tx_rate') want_rx_rate = w.get('rx_rate') want_neighbors = w.get('neighbors') if want_state not in ('up', 'down') and not want_tx_rate and not want_rx_rate and not want_neighbors: continue if result['changed']: sleep(w['delay']) command = 'show interface %s brief' % w['name'] rc, out, err = exec_command(module, command) if rc != 0: module.fail_json(msg=to_text(err, errors='surrogate_then_replace'), command=command, rc=rc) if want_state in ('up', 'down'): state_data = out.strip().lower().split(w['name']) have_state = None have_state = state_data[1].split()[3] if have_state is None or not conditional(want_state, have_state.strip()): failed_conditions.append('state ' + 'eq(%s)' % want_state) command = 'show interface %s' % w['name'] rc, out, err = exec_command(module, command) have_tx_rate = None have_rx_rate = None rates = out.splitlines() for s in rates: s = s.strip() if 'output rate' in s and 'input rate' in s: sub = s.split() if want_tx_rate: have_tx_rate = sub[8] if have_tx_rate is None or not conditional(want_tx_rate, have_tx_rate.strip(), cast=int): failed_conditions.append('tx_rate ' + want_tx_rate) if want_rx_rate: have_rx_rate = sub[2] if have_rx_rate is None or not conditional(want_rx_rate, have_rx_rate.strip(), cast=int): failed_conditions.append('rx_rate ' + want_rx_rate) if want_neighbors: have_host = [] have_port = [] # Process LLDP neighbors if have_neighbors_lldp is None: rc, have_neighbors_lldp, err = exec_command(module, 'show lldp neighbors detail') if rc != 0: module.fail_json(msg=to_text(err, errors='surrogate_then_replace'), command=command, rc=rc) if have_neighbors_lldp: lines = have_neighbors_lldp.strip().split('Local Port ID: ') for line in lines: field = line.split('\n') if field[0].strip() == w['name']: for item in field: if item.startswith('System Name:'): have_host.append(item.split(':')[1].strip()) if item.startswith('Port Description:'): have_port.append(item.split(':')[1].strip()) for item in want_neighbors: host = item.get('host') port = item.get('port') if host and host not in have_host: failed_conditions.append('host ' + host) if port and port not in have_port: failed_conditions.append('port ' + port) return failed_conditions def main(): """ main entry point for module execution """ neighbors_spec = dict( host=dict(), port=dict() ) element_spec = dict( name=dict(), description=dict(), speed=dict(), mtu=dict(), duplex=dict(default='auto', choices=['full', 'half', 'auto']), enabled=dict(default=True, type='bool'), tx_rate=dict(), rx_rate=dict(), neighbors=dict(type='list', elements='dict', options=neighbors_spec), delay=dict(default=20, type='int'), state=dict(default='present', choices=['present', 'absent', 'up', 'down']) ) aggregate_spec = deepcopy(element_spec) aggregate_spec['name'] = dict(required=True) # remove default in aggregate spec, to handle common arguments remove_default_spec(aggregate_spec) argument_spec = dict( aggregate=dict(type='list', elements='dict', options=aggregate_spec), ) argument_spec.update(element_spec) argument_spec.update(cnos_argument_spec) required_one_of = [['name', 'aggregate']] mutually_exclusive = [['name', 'aggregate']] module = AnsibleModule(argument_spec=argument_spec, required_one_of=required_one_of, mutually_exclusive=mutually_exclusive, supports_check_mode=True) warnings = list() check_args(module, warnings) result = {'changed': False} if warnings: result['warnings'] = warnings want = map_params_to_obj(module) have = map_config_to_obj(module) commands = map_obj_to_commands((want, have)) result['commands'] = commands if commands: if not module.check_mode: load_config(module, commands) result['changed'] = True failed_conditions = check_declarative_intent_params(module, want, result) if failed_conditions: msg = 'One or more conditional statements have not been satisfied' module.fail_json(msg=msg, failed_conditions=failed_conditions) module.exit_json(**result) if __name__ == '__main__': main()