#!/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 <http://www.gnu.org/licenses/>.
#
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'network'}
DOCUMENTATION = """
---
module: ios_vrf
version_added: "2.3"
author: "Peter Sprygada (@privateip)"
short_description: Manage the collection of VRF definitions on Cisco IOS devices
description:
- This module provides declarative management of VRF definitions on
Cisco IOS devices. It allows playbooks to manage individual or
the entire VRF collection. It also supports purging VRF definitions from
the configuration that are not explicitly defined.
extends_documentation_fragment: ios
notes:
- Tested against IOS 15.6
options:
vrfs:
description:
- The set of VRF definition objects to be configured on the remote
IOS device. Ths list entries can either be the VRF name or a hash
of VRF definitions and attributes. This argument is mutually
exclusive with the C(name) argument.
name:
description:
- The name of the VRF definition to be managed on the remote IOS
device. The VRF definition name is an ASCII string name used
to uniquely identify the VRF. This argument is mutually exclusive
with the C(vrfs) argument
description:
description:
- Provides a short description of the VRF definition in the
current active configuration. The VRF definition value accepts
alphanumeric characters used to provide additional information
about the VRF.
rd:
description:
- The router-distinguisher value uniquely identifies the VRF to
routing processes on the remote IOS system. The RD value takes
the form of C(A:B) where C(A) and C(B) are both numeric values.
interfaces:
description:
- Identifies the set of interfaces that
should be configured in the VRF. Interfaces must be routed
interfaces in order to be placed into a VRF.
associated_interfaces:
description:
- This is a intent option and checks the operational state of the for given vrf C(name)
for associated interfaces. If the value in the C(associated_interfaces) does not match with
the operational state of vrf interfaces on device it will result in failure.
version_added: "2.5"
delay:
description:
- Time in seconds to wait before checking for the operational state on remote
device.
version_added: "2.4"
default: 10
purge:
description:
- Instructs the module to consider the
VRF definition absolute. It will remove any previously configured
VRFs on the device.
default: false
type: bool
state:
description:
- Configures the state of the VRF definition
as it relates to the device operational configuration. When set
to I(present), the VRF should be configured in the device active
configuration and when set to I(absent) the VRF should not be
in the device active configuration
default: present
choices: ['present', 'absent']
route_both:
description:
- Adds an export and import list of extended route target communities to the VRF.
version_added: "2.5"
route_export:
description:
- Adds an export list of extended route target communities to the VRF.
version_added: "2.5"
route_import:
description:
- Adds an import list of extended route target communities to the VRF.
version_added: "2.5"
route_both_ipv4:
description:
- Adds an export and import list of extended route target communities in address-family configuration submode to the VRF.
version_added: "2.7"
route_export_ipv4:
description:
- Adds an export list of extended route target communities in address-family configuration submode to the VRF.
version_added: "2.7"
route_import_ipv4:
description:
- Adds an import list of extended route target communities in address-family configuration submode to the VRF.
version_added: "2.7"
route_both_ipv6:
description:
- Adds an export and import list of extended route target communities in address-family configuration submode to the VRF.
version_added: "2.7"
route_export_ipv6:
description:
- Adds an export list of extended route target communities in address-family configuration submode to the VRF.
version_added: "2.7"
route_import_ipv6:
description:
- Adds an import list of extended route target communities in address-family configuration submode to the VRF.
version_added: "2.7"
"""
EXAMPLES = """
- name: configure a vrf named management
ios_vrf:
name: management
description: oob mgmt vrf
interfaces:
- Management1
- name: remove a vrf named test
ios_vrf:
name: test
state: absent
- name: configure set of VRFs and purge any others
ios_vrf:
vrfs:
- red
- blue
- green
purge: yes
- name: Creates a list of import RTs for the VRF with the same parameters
ios_vrf:
name: test_import
rd: 1:100
route_import:
- 1:100
- 3:100
- name: Creates a list of import RTs in address-family configuration submode for the VRF with the same parameters
ios_vrf:
name: test_import_ipv4
rd: 1:100
route_import_ipv4:
- 1:100
- 3:100
- name: Creates a list of import RTs in address-family configuration submode for the VRF with the same parameters
ios_vrf:
name: test_import_ipv6
rd: 1:100
route_import_ipv6:
- 1:100
- 3:100
- name: Creates a list of export RTs for the VRF with the same parameters
ios_vrf:
name: test_export
rd: 1:100
route_export:
- 1:100
- 3:100
- name: Creates a list of export RTs in address-family configuration submode for the VRF with the same parameters
ios_vrf:
name: test_export_ipv4
rd: 1:100
route_export_ipv4:
- 1:100
- 3:100
- name: Creates a list of export RTs in address-family configuration submode for the VRF with the same parameters
ios_vrf:
name: test_export_ipv6
rd: 1:100
route_export_ipv6:
- 1:100
- 3:100
- name: Creates a list of import and export route targets for the VRF with the same parameters
ios_vrf:
name: test_both
rd: 1:100
route_both:
- 1:100
- 3:100
- name: Creates a list of import and export route targets in address-family configuration submode for the VRF with the same parameters
ios_vrf:
name: test_both_ipv4
rd: 1:100
route_both_ipv4:
- 1:100
- 3:100
- name: Creates a list of import and export route targets in address-family configuration submode for the VRF with the same parameters
ios_vrf:
name: test_both_ipv6
rd: 1:100
route_both_ipv6:
- 1:100
- 3:100
"""
RETURN = """
commands:
description: The list of configuration mode commands to send to the device
returned: always
type: list
sample:
- vrf definition ansible
- description management vrf
- rd: 1:100
start:
description: The time the job started
returned: always
type: str
sample: "2016-11-16 10:38:15.126146"
end:
description: The time the job ended
returned: always
type: str
sample: "2016-11-16 10:38:25.595612"
delta:
description: The time elapsed to perform all operations
returned: always
type: str
sample: "0:00:10.469466"
"""
import re
import time
from functools import partial
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.connection import exec_command
from ansible.module_utils.network.ios.ios import load_config, get_config
from ansible.module_utils.network.ios.ios import ios_argument_spec, check_args
from ansible.module_utils.network.common.config import NetworkConfig
from ansible.module_utils.six import iteritems
def get_interface_type(interface):
if interface.upper().startswith('ET'):
return 'ethernet'
elif interface.upper().startswith('VL'):
return 'svi'
elif interface.upper().startswith('LO'):
return 'loopback'
elif interface.upper().startswith('MG'):
return 'management'
elif interface.upper().startswith('MA'):
return 'management'
elif interface.upper().startswith('PO'):
return 'portchannel'
elif interface.upper().startswith('NV'):
return 'nve'
else:
return 'unknown'
def add_command_to_vrf(name, cmd, commands):
if 'vrf definition %s' % name not in commands:
commands.extend([
'vrf definition %s' % name,
'address-family ipv4', 'exit',
'address-family ipv6', 'exit',
])
commands.append(cmd)
def map_obj_to_commands(updates, module):
commands = list()
for update in updates:
want, have = update
def needs_update(want, have, x):
if isinstance(want.get(x), list) and isinstance(have.get(x), list):
return want.get(x) and (want.get(x) != have.get(x)) and not all(elem in have.get(x) for elem in want.get(x))
return want.get(x) and (want.get(x) != have.get(x))
if want['state'] == 'absent':
commands.append('no vrf definition %s' % want['name'])
continue
if not have.get('state'):
commands.extend([
'vrf definition %s' % want['name'],
'address-family ipv4', 'exit',
'address-family ipv6', 'exit',
])
if needs_update(want, have, 'description'):
cmd = 'description %s' % want['description']
add_command_to_vrf(want['name'], cmd, commands)
if needs_update(want, have, 'rd'):
cmd = 'rd %s' % want['rd']
add_command_to_vrf(want['name'], cmd, commands)
if needs_update(want, have, 'route_import'):
for route in want['route_import']:
cmd = 'route-target import %s' % route
add_command_to_vrf(want['name'], cmd, commands)
if needs_update(want, have, 'route_export'):
for route in want['route_export']:
cmd = 'route-target export %s' % route
add_command_to_vrf(want['name'], cmd, commands)
if needs_update(want, have, 'route_import_ipv4'):
cmd = 'address-family ipv4'
add_command_to_vrf(want['name'], cmd, commands)
for route in want['route_import_ipv4']:
cmd = 'route-target import %s' % route
add_command_to_vrf(want['name'], cmd, commands)
cmd = 'exit-address-family'
add_command_to_vrf(want['name'], cmd, commands)
if needs_update(want, have, 'route_export_ipv4'):
cmd = 'address-family ipv4'
add_command_to_vrf(want['name'], cmd, commands)
for route in want['route_export_ipv4']:
cmd = 'route-target export %s' % route
add_command_to_vrf(want['name'], cmd, commands)
cmd = 'exit-address-family'
add_command_to_vrf(want['name'], cmd, commands)
if needs_update(want, have, 'route_import_ipv6'):
cmd = 'address-family ipv6'
add_command_to_vrf(want['name'], cmd, commands)
for route in want['route_import_ipv6']:
cmd = 'route-target import %s' % route
add_command_to_vrf(want['name'], cmd, commands)
cmd = 'exit-address-family'
add_command_to_vrf(want['name'], cmd, commands)
if needs_update(want, have, 'route_export_ipv6'):
cmd = 'address-family ipv6'
add_command_to_vrf(want['name'], cmd, commands)
for route in want['route_export_ipv6']:
cmd = 'route-target export %s' % route
add_command_to_vrf(want['name'], cmd, commands)
cmd = 'exit-address-family'
add_command_to_vrf(want['name'], cmd, commands)
if want['interfaces'] is not None:
# handle the deletes
for intf in set(have.get('interfaces', [])).difference(want['interfaces']):
commands.extend(['interface %s' % intf,
'no vrf forwarding %s' % want['name']])
# handle the adds
for intf in set(want['interfaces']).difference(have.get('interfaces', [])):
cfg = get_config(module)
configobj = NetworkConfig(indent=1, contents=cfg)
children = configobj['interface %s' % intf].children
intf_config = '\n'.join(children)
commands.extend(['interface %s' % intf,
'vrf forwarding %s' % want['name']])
match = re.search('ip address .+', intf_config, re.M)
if match:
commands.append(match.group())
return commands
def parse_description(configobj, name):
cfg = configobj['vrf definition %s' % name]
cfg = '\n'.join(cfg.children)
match = re.search(r'description (.+)$', cfg, re.M)
if match:
return match.group(1)
def parse_rd(configobj, name):
cfg = configobj['vrf definition %s' % name]
cfg = '\n'.join(cfg.children)
match = re.search(r'rd (.+)$', cfg, re.M)
if match:
return match.group(1)
def parse_interfaces(configobj):
vrf_cfg = 'vrf forwarding'
interfaces = dict()
for intf in set(re.findall('^interface .+', str(configobj), re.M)):
for line in configobj[intf].children:
if vrf_cfg in line:
try:
interfaces[line.split()[-1]].append(intf.split(' ')[1])
except KeyError:
interfaces[line.split()[-1]] = [intf.split(' ')[1]]
return interfaces
def parse_import(configobj, name):
cfg = configobj['vrf definition %s' % name]
cfg = '\n'.join(cfg.children)
matches = re.findall(r'route-target\s+import\s+(.+)', cfg, re.M)
return matches
def parse_export(configobj, name):
cfg = configobj['vrf definition %s' % name]
cfg = '\n'.join(cfg.children)
matches = re.findall(r'route-target\s+export\s+(.+)', cfg, re.M)
return matches
def parse_both(configobj, name, address_family='global'):
rd_pattern = re.compile('(?P<rd>.+:.+)')
matches = list()
export_match = None
import_match = None
if address_family == "global":
export_match = parse_export(configobj, name)
import_match = parse_import(configobj, name)
elif address_family == "ipv4":
export_match = parse_export_ipv4(configobj, name)
import_match = parse_import_ipv4(configobj, name)
elif address_family == "ipv6":
export_match = parse_export_ipv6(configobj, name)
import_match = parse_import_ipv6(configobj, name)
if import_match and export_match:
for ex in export_match:
exrd = rd_pattern.search(ex)
exrd = exrd.groupdict().get('rd')
for im in import_match:
imrd = rd_pattern.search(im)
imrd = imrd.groupdict().get('rd')
if exrd == imrd:
matches.extend([exrd]) if exrd not in matches else None
matches.extend([imrd]) if imrd not in matches else None
return matches
def parse_import_ipv4(configobj, name):
cfg = configobj['vrf definition %s' % name]
try:
subcfg = cfg['address-family ipv4']
subcfg = '\n'.join(subcfg.children)
matches = re.findall(r'route-target\s+import\s+(.+)', subcfg, re.M)
return matches
except KeyError:
pass
def parse_export_ipv4(configobj, name):
cfg = configobj['vrf definition %s' % name]
try:
subcfg = cfg['address-family ipv4']
subcfg = '\n'.join(subcfg.children)
matches = re.findall(r'route-target\s+export\s+(.+)', subcfg, re.M)
return matches
except KeyError:
pass
def parse_import_ipv6(configobj, name):
cfg = configobj['vrf definition %s' % name]
try:
subcfg = cfg['address-family ipv6']
subcfg = '\n'.join(subcfg.children)
matches = re.findall(r'route-target\s+import\s+(.+)', subcfg, re.M)
return matches
except KeyError:
pass
def parse_export_ipv6(configobj, name):
cfg = configobj['vrf definition %s' % name]
try:
subcfg = cfg['address-family ipv6']
subcfg = '\n'.join(subcfg.children)
matches = re.findall(r'route-target\s+export\s+(.+)', subcfg, re.M)
return matches
except KeyError:
pass
def map_config_to_obj(module):
config = get_config(module)
configobj = NetworkConfig(indent=1, contents=config)
match = re.findall(r'^vrf definition (\S+)', config, re.M)
if not match:
return list()
instances = list()
interfaces = parse_interfaces(configobj)
for item in set(match):
obj = {
'name': item,
'state': 'present',
'description': parse_description(configobj, item),
'rd': parse_rd(configobj, item),
'interfaces': interfaces.get(item),
'route_import': parse_import(configobj, item),
'route_export': parse_export(configobj, item),
'route_both': parse_both(configobj, item),
'route_import_ipv4': parse_import_ipv4(configobj, item),
'route_export_ipv4': parse_export_ipv4(configobj, item),
'route_both_ipv4': parse_both(configobj, item, address_family='ipv4'),
'route_import_ipv6': parse_import_ipv6(configobj, item),
'route_export_ipv6': parse_export_ipv6(configobj, item),
'route_both_ipv6': parse_both(configobj, item, address_family='ipv6'),
}
instances.append(obj)
return instances
def get_param_value(key, item, module):
# if key doesn't exist in the item, get it from module.params
if not item.get(key):
value = module.params[key]
# if key does exist, do a type check on it to validate it
else:
value_type = module.argument_spec[key].get('type', 'str')
type_checker = module._CHECK_ARGUMENT_TYPES_DISPATCHER[value_type]
type_checker(item[key])
value = item[key]
# validate the param value (if validator func exists)
validator = globals().get('validate_%s' % key)
if validator:
validator(value, module)
return value
def map_params_to_obj(module):
vrfs = module.params.get('vrfs')
if not vrfs:
if not module.params['name'] and module.params['purge']:
return list()
elif not module.params['name']:
module.fail_json(msg='name is required')
collection = [{'name': module.params['name']}]
else:
collection = list()
for item in vrfs:
if not isinstance(item, dict):
collection.append({'name': item})
elif 'name' not in item:
module.fail_json(msg='name is required')
else:
collection.append(item)
objects = list()
for item in collection:
get_value = partial(get_param_value, item=item, module=module)
item['description'] = get_value('description')
item['rd'] = get_value('rd')
item['interfaces'] = get_value('interfaces')
item['state'] = get_value('state')
item['route_import'] = get_value('route_import')
item['route_export'] = get_value('route_export')
item['route_both'] = get_value('route_both')
item['route_import_ipv4'] = get_value('route_import_ipv4')
item['route_export_ipv4'] = get_value('route_export_ipv4')
item['route_both_ipv4'] = get_value('route_both_ipv4')
item['route_import_ipv6'] = get_value('route_import_ipv6')
item['route_export_ipv6'] = get_value('route_export_ipv6')
item['route_both_ipv6'] = get_value('route_both_ipv6')
both_addresses_family = ["", "_ipv6", "_ipv4"]
for address_family in both_addresses_family:
if item["route_both%s" % address_family]:
if not item["route_export%s" % address_family]:
item["route_export%s" % address_family] = list()
if not item["route_import%s" % address_family]:
item["route_import%s" % address_family] = list()
item["route_export%s" % address_family].extend(get_value("route_both%s" % address_family))
item["route_import%s" % address_family].extend(get_value("route_both%s" % address_family))
item['associated_interfaces'] = get_value('associated_interfaces')
objects.append(item)
return objects
def update_objects(want, have):
updates = list()
for entry in want:
item = next((i for i in have if i['name'] == entry['name']), None)
if all((item is None, entry['state'] == 'present')):
updates.append((entry, {}))
else:
for key, value in iteritems(entry):
if value:
try:
if isinstance(value, list):
if sorted(value) != sorted(item[key]):
if (entry, item) not in updates:
updates.append((entry, item))
elif value != item[key]:
if (entry, item) not in updates:
updates.append((entry, item))
except TypeError:
pass
return updates
def check_declarative_intent_params(want, module, result):
if module.params['associated_interfaces']:
if result['changed']:
time.sleep(module.params['delay'])
name = module.params['name']
rc, out, err = exec_command(module, 'show vrf | include {0}'.format(name))
if rc == 0:
data = out.strip().split()
# data will be empty if the vrf was just added
if not data:
return
vrf = data[0]
interface = data[-1]
for w in want:
if w['name'] == vrf:
if w.get('associated_interfaces') is None:
continue
for i in w['associated_interfaces']:
if get_interface_type(i) is not get_interface_type(interface):
module.fail_json(msg="Interface %s not configured on vrf %s" % (interface, name))
def main():
""" main entry point for module execution
"""
argument_spec = dict(
vrfs=dict(type='list'),
name=dict(),
description=dict(),
rd=dict(),
route_export=dict(type='list'),
route_import=dict(type='list'),
route_both=dict(type='list'),
route_export_ipv4=dict(type='list'),
route_import_ipv4=dict(type='list'),
route_both_ipv4=dict(type='list'),
route_export_ipv6=dict(type='list'),
route_import_ipv6=dict(type='list'),
route_both_ipv6=dict(type='list'),
interfaces=dict(type='list'),
associated_interfaces=dict(type='list'),
delay=dict(default=10, type='int'),
purge=dict(type='bool', default=False),
state=dict(default='present', choices=['present', 'absent'])
)
argument_spec.update(ios_argument_spec)
mutually_exclusive = [('name', 'vrfs')]
module = AnsibleModule(argument_spec=argument_spec,
mutually_exclusive=mutually_exclusive,
supports_check_mode=True)
result = {'changed': False}
warnings = list()
check_args(module, warnings)
result['warnings'] = warnings
want = map_params_to_obj(module)
have = map_config_to_obj(module)
commands = map_obj_to_commands(update_objects(want, have), module)
if module.params['purge']:
want_vrfs = [x['name'] for x in want]
have_vrfs = [x['name'] for x in have]
for item in set(have_vrfs).difference(want_vrfs):
cmd = 'no vrf definition %s' % item
if cmd not in commands:
commands.append(cmd)
result['commands'] = commands
if commands:
if not module.check_mode:
load_config(module, commands)
result['changed'] = True
check_declarative_intent_params(want, module, result)
module.exit_json(**result)
if __name__ == '__main__':
main()
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