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community.general/plugins/modules/network/icx/icx_vlan.py
Ansible Core Team aebc1b03fd Initial commit
2020-03-09 09:11:07 +00:00

783 lines
26 KiB
Python

#!/usr/bin/python
# Copyright: Ansible Project
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
from __future__ import absolute_import, division, print_function
__metaclass__ = type
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'community'}
DOCUMENTATION = '''
---
module: icx_vlan
author: "Ruckus Wireless (@Commscope)"
short_description: Manage VLANs on Ruckus ICX 7000 series switches
description:
- This module provides declarative management of VLANs
on ICX network devices.
notes:
- Tested against ICX 10.1.
- For information on using ICX platform, see L(the ICX OS Platform Options guide,../network/user_guide/platform_icx.html).
options:
name:
description:
- Name of the VLAN.
type: str
vlan_id:
description:
- ID of the VLAN. Range 1-4094.
required: true
type: int
interfaces:
description:
- List of ethernet ports or LAGS to be added as access(untagged) ports to the vlan.
To add a range of ports use 'to' keyword. See the example.
suboptions:
name:
description:
- Name of the interface or lag
type: list
purge:
description:
- Purge interfaces not defined in the I(name)
type: bool
type: dict
tagged:
description:
- List of ethernet ports or LAGS to be added as trunk(tagged) ports to the vlan.
To add a range of ports use 'to' keyword. See the example.
suboptions:
name:
description:
- Name of the interface or lag
type: list
purge:
description:
- Purge interfaces not defined in the I(name)
type: bool
type: dict
ip_dhcp_snooping:
description:
- Enables DHCP snooping on a VLAN.
type: bool
ip_arp_inspection:
description:
- Enables dynamic ARP inspection on a VLAN.
type: bool
associated_interfaces:
description:
- This is a intent option and checks the operational state of the for given vlan C(name)
for associated interfaces. If the value in the C(associated_interfaces) does not match with
the operational state of vlan interfaces on device it will result in failure.
type: list
associated_tagged:
description:
- This is a intent option and checks the operational state of given vlan C(name)
for associated tagged ports and lags. If the value in the C(associated_tagged) does not match with
the operational state of vlan interfaces on device it will result in failure.
type: list
delay:
description:
- Delay the play should wait to check for declarative intent params values.
default: 10
type: int
stp:
description:
- Enable spanning-tree 802-1w/rstp for this vlan.
suboptions:
type:
description:
- Specify the type of spanning-tree
type: str
default: 802-1w
choices: ['802-1w','rstp']
priority:
description:
- Configures the priority of the bridge. The value ranges from
0 through 65535. A lower numerical value means the bridge has
a higher priority. Thus, the highest priority is 0. The default is 32768.
type: str
enabled:
description:
- Manage the state(Enable/Disable) of the spanning_tree_802_1w in the current vlan
type: bool
type: dict
aggregate:
description:
- List of VLANs definitions.
type: list
suboptions:
name:
description:
- Name of the VLAN.
type: str
vlan_id:
description:
- ID of the VLAN. Range 1-4094.
required: true
type: str
ip_dhcp_snooping:
description:
- Enables DHCP snooping on a VLAN.
type: bool
ip_arp_inspection:
description:
- Enables dynamic ARP inspection on a VLAN.
type: bool
tagged:
description:
- List of ethernet ports or LAGS to be added as trunk(tagged) ports to the vlan.
To add a range of ports use 'to' keyword. See the example.
suboptions:
name:
description:
- Name of the interface or lag
type: list
purge:
description:
- Purge interfaces not defined in the I(name)
type: bool
type: dict
interfaces:
description:
- List of ethernet ports or LAGS to be added as access(untagged) ports to the vlan.
To add a range of ports use 'to' keyword. See the example.
suboptions:
name:
description:
- Name of the interface or lag
type: list
purge:
description:
- Purge interfaces not defined in the I(name)
type: bool
type: dict
delay:
description:
- Delay the play should wait to check for declarative intent params values.
type: int
stp:
description:
- Enable spanning-tree 802-1w/rstp for this vlan.
suboptions:
type:
description:
- Specify the type of spanning-tree
type: str
default: 802-1w
choices: ['802-1w','rstp']
priority:
description:
- Configures the priority of the bridge. The value ranges from
0 through 65535. A lower numerical value means the bridge has
a higher priority. Thus, the highest priority is 0. The default is 32768.
type: str
enabled:
description:
- Manage the state(Enable/Disable) of the spanning_tree_802_1w in the current vlan
type: bool
type: dict
state:
description:
- State of the VLAN configuration.
type: str
choices: ['present', 'absent']
check_running_config:
description:
- Check running configuration. This can be set as environment variable.
Module will use environment variable value(default:True), unless it is overridden, by specifying it as module parameter.
type: bool
associated_interfaces:
description:
- This is a intent option and checks the operational state of the for given vlan C(name)
for associated interfaces. If the value in the C(associated_interfaces) does not match with
the operational state of vlan interfaces on device it will result in failure.
type: list
associated_tagged:
description:
- This is a intent option and checks the operational state of given vlan C(name)
for associated tagged ports and lags. If the value in the C(associated_tagged) does not match with
the operational state of vlan interfaces on device it will result in failure.
type: list
purge:
description:
- Purge VLANs not defined in the I(aggregate) parameter.
default: no
type: bool
state:
description:
- State of the VLAN configuration.
type: str
default: present
choices: ['present', 'absent']
check_running_config:
description:
- Check running configuration. This can be set as environment variable.
Module will use environment variable value(default:True), unless it is overridden, by specifying it as module parameter.
type: bool
default: yes
'''
EXAMPLES = """
- name: Add a single ethernet 1/1/48 as access(untagged) port to vlan 20
icx_vlan:
name: test-vlan
vlan_id: 20
interfaces:
name:
- ethernet 1/1/48
- name: Add a single LAG 10 as access(untagged) port to vlan 20
icx_vlan:
vlan_id: 20
interfaces:
name:
- lag 10
- name: Add a range of ethernet ports as trunk(tagged) ports to vlan 20 by port
icx_vlan:
vlan_id: 20
tagged:
name:
- ethernet 1/1/40 to 1/1/48
- name: Add discontinuous lags, ethernet ports as access(untagged) and trunk(tagged) port to vlan 20.
icx_vlan:
vlan_id: 20
interfaces:
name:
- ethernet 1/1/40 to 1/1/48
- ethernet 2/1/1
- lag 1
- lag 3 to 5
tagged:
name:
- ethernet 1/1/20 to 1/1/25
- lag 1 to 3
- name: Remove an access and range of trunk ports from vlan
icx_vlan:
vlan_id: 20
interfaces:
name:
- ethernet 1/1/40
tagged:
name:
- ethernet 1/1/39 to 1/1/70
- name: Enable dhcp snooping, disable arp inspection in vlan
icx_vlan:
vlan_id: 20
ip_dhcp_snooping: present
ip_arp_inspection: absent
- name: Create vlan 20. Enable arp inspection in vlan. Purge all other vlans.
icx_vlan:
vlan_id: 20
ip_arp_inspection: present
purge: present
- name: Remove vlan 20.
icx_vlan:
vlan_id: 20
state: absent
"""
RETURN = """
commands:
description: The list of configuration mode commands to send to the device
returned: always
type: list
sample:
- vlan 100
- name test-vlan
"""
import re
from time import sleep
import itertools
from copy import deepcopy
from time import sleep
from ansible.module_utils._text import to_text
from ansible.module_utils.basic import AnsibleModule, env_fallback
from ansible_collections.ansible.netcommon.plugins.module_utils.network.common.config import NetworkConfig
from ansible_collections.community.general.plugins.module_utils.network.icx.icx import load_config, get_config
from ansible.module_utils.connection import Connection, ConnectionError, exec_command
from ansible_collections.ansible.netcommon.plugins.module_utils.network.common.utils import conditional, remove_default_spec
def search_obj_in_list(vlan_id, lst):
obj = list()
for o in lst:
if str(o['vlan_id']) == vlan_id:
return o
def parse_vlan_brief(module, vlan_id):
command = 'show run vlan %s' % vlan_id
rc, out, err = exec_command(module, command)
lines = out.split('\n')
untagged_ports = list()
untagged_lags = list()
tagged_ports = list()
tagged_lags = list()
for line in lines:
if 'tagged' in line.split():
lags = line.split(" lag ")
ports = lags[0].split(" ethe ")
del ports[0]
del lags[0]
for port in ports:
if "to" in port:
p = port.split(" to ")
pr = int(p[1].split('/')[2]) - int(p[0].split('/')[2])
for i in range(0, pr + 1):
tagged_ports.append((int(p[0].split('/')[2]) + i))
else:
tagged_ports.append(int(port.split('/')[2]))
for lag in lags:
if "to" in lag:
l = lag.split(" to ")
lr = int(l[1]) - int(l[0])
for i in range(0, lr + 1):
tagged_lags.append((int(l[0]) + i))
else:
tagged_lags.append(int(lag))
if 'untagged' in line.split():
lags = line.split(" lag ")
ports = lags[0].split(" ethe ")
del ports[0]
del lags[0]
for port in ports:
if "to" in port:
p = port.split(" to ")
pr = int(p[1].split('/')[2]) - int(p[0].split('/')[2])
for i in range(0, pr + 1):
untagged_ports.append((int(p[0].split('/')[2]) + i))
else:
untagged_ports.append(int(port.split('/')[2]))
for lag in lags:
if "to" in lag:
l = lag.split(" to ")
lr = int(l[1]) - int(l[0])
for i in range(0, lr + 1):
untagged_lags.append((int(l[0]) + i))
else:
untagged_lags.append(int(lag))
return untagged_ports, untagged_lags, tagged_ports, tagged_lags
def extract_list_from_interface(interface):
if 'ethernet' in interface:
if 'to' in interface:
s = re.search(r"\d+\/\d+/(?P<low>\d+)\sto\s+\d+\/\d+/(?P<high>\d+)", interface)
low = int(s.group('low'))
high = int(s.group('high'))
else:
s = re.search(r"\d+\/\d+/(?P<low>\d+)", interface)
low = int(s.group('low'))
high = int(s.group('low'))
elif 'lag' in interface:
if 'to' in interface:
s = re.search(r"(?P<low>\d+)\sto\s(?P<high>\d+)", interface)
low = int(s.group('low'))
high = int(s.group('high'))
else:
s = re.search(r"(?P<low>\d+)", interface)
low = int(s.group('low'))
high = int(s.group('low'))
return low, high
def parse_vlan_id(module):
vlans = []
command = 'show vlan brief'
rc, out, err = exec_command(module, command)
lines = out.split('\n')
for line in lines:
if 'VLANs Configured :' in line:
values = line.split(':')[1]
vlans = [s for s in values.split() if s.isdigit()]
s = re.findall(r"(?P<low>\d+)\sto\s(?P<high>\d+)", values)
for ranges in s:
low = int(ranges[0]) + 1
high = int(ranges[1])
while(high > low):
vlans.append(str(low))
low = low + 1
return vlans
def spanning_tree(module, stp):
stp_cmd = list()
if stp.get('enabled') is False:
if stp.get('type') == '802-1w':
stp_cmd.append('no spanning-tree' + ' ' + stp.get('type'))
stp_cmd.append('no spanning-tree')
elif stp.get('type'):
stp_cmd.append('spanning-tree' + ' ' + stp.get('type'))
if stp.get('priority') and stp.get('type') == 'rstp':
module.fail_json(msg='spanning-tree 802-1w only can have priority')
elif stp.get('priority'):
stp_cmd.append('spanning-tree' + ' ' + stp.get('type') + ' ' + 'priority' + ' ' + stp.get('priority'))
return stp_cmd
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]
stp = item.get('stp')
if stp:
stp_cmd = spanning_tree(module, stp)
item.update({'stp': stp_cmd})
d = item.copy()
obj.append(d)
else:
params = {
'name': module.params['name'],
'vlan_id': module.params['vlan_id'],
'interfaces': module.params['interfaces'],
'tagged': module.params['tagged'],
'associated_interfaces': module.params['associated_interfaces'],
'associated_tagged': module.params['associated_tagged'],
'delay': module.params['delay'],
'ip_dhcp_snooping': module.params['ip_dhcp_snooping'],
'ip_arp_inspection': module.params['ip_arp_inspection'],
'state': module.params['state'],
}
stp = module.params.get('stp')
if stp:
stp_cmd = spanning_tree(module, stp)
params.update({'stp': stp_cmd})
obj.append(params)
return obj
def map_obj_to_commands(updates, module):
commands = list()
want, have = updates
purge = module.params['purge']
for w in want:
vlan_id = w['vlan_id']
state = w['state']
name = w['name']
interfaces = w.get('interfaces')
tagged = w.get('tagged')
dhcp = w.get('ip_dhcp_snooping')
arp = w.get('ip_arp_inspection')
stp = w.get('stp')
obj_in_have = search_obj_in_list(str(vlan_id), have)
if state == 'absent':
if have == []:
commands.append('no vlan {0}'.format(vlan_id))
if obj_in_have:
commands.append('no vlan {0}'.format(vlan_id))
elif state == 'present':
if not obj_in_have:
commands.append('vlan {0}'.format(vlan_id))
if name:
commands.append('vlan {0} name {1}'.format(vlan_id, name))
if interfaces:
if interfaces['name']:
for item in interfaces['name']:
commands.append('untagged {0}'.format(item))
if tagged:
if tagged['name']:
for item in tagged['name']:
commands.append('tagged {0}'.format(item))
if dhcp is True:
commands.append('ip dhcp snooping vlan {0}'.format(vlan_id))
elif dhcp is False:
commands.append('no ip dhcp snooping vlan {0}'.format(vlan_id))
if arp is True:
commands.append('ip arp inspection vlan {0}'.format(vlan_id))
elif dhcp is False:
commands.append('no ip arp inspection vlan {0}'.format(vlan_id))
if stp:
if w.get('stp'):
[commands.append(cmd) for cmd in w['stp']]
else:
commands.append('vlan {0}'.format(vlan_id))
if name:
if name != obj_in_have['name']:
commands.append('vlan {0} name {1}'.format(vlan_id, name))
if interfaces:
if interfaces['name']:
have_interfaces = list()
for interface in interfaces['name']:
low, high = extract_list_from_interface(interface)
while(high >= low):
if 'ethernet' in interface:
have_interfaces.append('ethernet 1/1/{0}'.format(low))
if 'lag' in interface:
have_interfaces.append('lag {0}'.format(low))
low = low + 1
if interfaces['purge'] is True:
remove_interfaces = list(set(obj_in_have['interfaces']) - set(have_interfaces))
for item in remove_interfaces:
commands.append('no untagged {0}'.format(item))
if interfaces['name']:
add_interfaces = list(set(have_interfaces) - set(obj_in_have['interfaces']))
for item in add_interfaces:
commands.append('untagged {0}'.format(item))
if tagged:
if tagged['name']:
have_tagged = list()
for tag in tagged['name']:
low, high = extract_list_from_interface(tag)
while(high >= low):
if 'ethernet' in tag:
have_tagged.append('ethernet 1/1/{0}'.format(low))
if 'lag' in tag:
have_tagged.append('lag {0}'.format(low))
low = low + 1
if tagged['purge'] is True:
remove_tagged = list(set(obj_in_have['tagged']) - set(have_tagged))
for item in remove_tagged:
commands.append('no tagged {0}'.format(item))
if tagged['name']:
add_tagged = list(set(have_tagged) - set(obj_in_have['tagged']))
for item in add_tagged:
commands.append('tagged {0}'.format(item))
if dhcp != obj_in_have['ip_dhcp_snooping']:
if dhcp is True:
commands.append('ip dhcp snooping vlan {0}'.format(vlan_id))
elif dhcp is False:
commands.append('no ip dhcp snooping vlan {0}'.format(vlan_id))
if arp != obj_in_have['ip_arp_inspection']:
if arp is True:
commands.append('ip arp inspection vlan {0}'.format(vlan_id))
elif arp is False:
commands.append('no ip arp inspection vlan {0}'.format(vlan_id))
if stp:
if w.get('stp'):
[commands.append(cmd) for cmd in w['stp']]
if len(commands) == 1 and 'vlan ' + str(vlan_id) in commands:
commands = []
if purge:
commands = []
vlans = parse_vlan_id(module)
for h in vlans:
obj_in_want = search_obj_in_list(h, want)
if not obj_in_want and h != '1':
commands.append('no vlan {0}'.format(h))
return commands
def parse_name_argument(module, item):
command = 'show vlan {0}'.format(item)
rc, out, err = exec_command(module, command)
match = re.search(r"Name (\S+),", out)
if match:
return match.group(1)
def parse_interfaces_argument(module, item, port_type):
untagged_ports, untagged_lags, tagged_ports, tagged_lags = parse_vlan_brief(module, item)
ports = list()
if port_type == "interfaces":
if untagged_ports:
for port in untagged_ports:
ports.append('ethernet 1/1/' + str(port))
if untagged_lags:
for port in untagged_lags:
ports.append('lag ' + str(port))
elif port_type == "tagged":
if tagged_ports:
for port in tagged_ports:
ports.append('ethernet 1/1/' + str(port))
if tagged_lags:
for port in tagged_lags:
ports.append('lag ' + str(port))
return ports
def parse_config_argument(config, arg):
match = re.search(arg, config, re.M)
if match:
return True
else:
return False
def map_config_to_obj(module):
config = get_config(module)
vlans = parse_vlan_id(module)
instance = list()
for item in set(vlans):
obj = {
'vlan_id': item,
'name': parse_name_argument(module, item),
'interfaces': parse_interfaces_argument(module, item, 'interfaces'),
'tagged': parse_interfaces_argument(module, item, 'tagged'),
'ip_dhcp_snooping': parse_config_argument(config, 'ip dhcp snooping vlan {0}'.format(item)),
'ip_arp_inspection': parse_config_argument(config, 'ip arp inspection vlan {0}'.format(item)),
}
instance.append(obj)
return instance
def check_fail(module, output):
error = [
re.compile(r"^error", re.I)
]
for x in output:
for regex in error:
if regex.search(x):
module.fail_json(msg=x)
def check_declarative_intent_params(want, module, result):
def parse_ports(interfaces, ports, lags):
for interface in interfaces:
low, high = extract_list_from_interface(interface)
while(high >= low):
if 'ethernet' in interface:
if not (low in ports):
module.fail_json(msg='One or more conditional statements have not been satisfied ' + interface)
if 'lag' in interface:
if not (low in lags):
module.fail_json(msg='One or more conditional statements have not been satisfied ' + interface)
low = low + 1
is_delay = False
low = 0
high = 0
for w in want:
if w.get('associated_interfaces') is None and w.get('associated_tagged') is None:
continue
if result['changed'] and not is_delay:
sleep(module.params['delay'])
is_delay = True
untagged_ports, untagged_lags, tagged_ports, tagged_lags = parse_vlan_brief(module, w['vlan_id'])
if w['associated_interfaces']:
parse_ports(w.get('associated_interfaces'), untagged_ports, untagged_lags)
if w['associated_tagged']:
parse_ports(w.get('associated_tagged'), tagged_ports, tagged_lags)
def main():
""" main entry point for module execution
"""
stp_spec = dict(
type=dict(default='802-1w', choices=['802-1w', 'rstp']),
priority=dict(),
enabled=dict(type='bool'),
)
inter_spec = dict(
name=dict(type='list'),
purge=dict(type='bool')
)
tagged_spec = dict(
name=dict(type='list'),
purge=dict(type='bool')
)
element_spec = dict(
vlan_id=dict(type='int'),
name=dict(),
interfaces=dict(type='dict', options=inter_spec),
tagged=dict(type='dict', options=tagged_spec),
ip_dhcp_snooping=dict(type='bool'),
ip_arp_inspection=dict(type='bool'),
associated_interfaces=dict(type='list'),
associated_tagged=dict(type='list'),
delay=dict(default=10, type='int'),
stp=dict(type='dict', options=stp_spec),
state=dict(default='present', choices=['present', 'absent']),
check_running_config=dict(default=True, type='bool', fallback=(env_fallback, ['ANSIBLE_CHECK_ICX_RUNNING_CONFIG']))
)
aggregate_spec = deepcopy(element_spec)
aggregate_spec['vlan_id'] = dict(required=True)
remove_default_spec(aggregate_spec)
argument_spec = dict(
aggregate=dict(type='list', elements='dict', options=aggregate_spec),
purge=dict(default=False, type='bool')
)
argument_spec.update(element_spec)
required_one_of = [['vlan_id', 'aggregate']]
mutually_exclusive = [['vlan_id', 'aggregate']]
module = AnsibleModule(argument_spec=argument_spec,
required_one_of=required_one_of,
mutually_exclusive=mutually_exclusive,
supports_check_mode=True)
warnings = list()
result = {}
result['changed'] = False
if warnings:
result['warnings'] = warnings
exec_command(module, 'skip')
want = map_params_to_obj(module)
if module.params['check_running_config'] is False:
have = []
else:
have = map_config_to_obj(module)
commands = map_obj_to_commands((want, have), module)
result['commands'] = commands
if commands:
if not module.check_mode:
output = load_config(module, commands)
if output:
check_fail(module, output)
result['output'] = output
result['changed'] = True
check_declarative_intent_params(want, module, result)
module.exit_json(**result)
if __name__ == '__main__':
main()