You cannot select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
ansible/network/nxos/nxos_vrf_interface.py

308 lines
9.8 KiB
Python

#!/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/>.
#
DOCUMENTATION = '''
---
module: nxos_vrf_interface
version_added: "2.1"
short_description: Manages interface specific VRF configuration
description:
- Manages interface specific VRF configuration
extends_documentation_fragment: nxos
author: Jason Edelman (@jedelman8), Gabriele Gerbino (@GGabriele)
notes:
- VRF needs to be added globally with M(nxos_vrf) before
adding a VRF to an interface
- Remove a VRF from an interface will still remove
all L3 attributes just as it does from CLI
- VRF is not read from an interface until IP address is
configured on that interface
options:
vrf:
description:
- Name of VRF to be managed
required: true
interface:
description:
- Full name of interface to be managed, i.e. Ethernet1/1
required: true
state:
description:
- Manages desired state of the resource
required: false
default: present
choices: ['present','absent']
'''
EXAMPLES = '''
# ensure vrf ntc exists on Eth1/1
- nxos_vrf_interface: vrf=ntc interface=Ethernet1/1 host={{ inventory_hostname }} state=present
# ensure ntc VRF does not exist on Eth1/1
- nxos_vrf_interface: vrf=ntc interface=Ethernet1/1 host={{ inventory_hostname }} state=absent
'''
RETURN = '''
proposed:
description: k/v pairs of parameters passed into module
returned: always
type: dict
sample: {"interface": "loopback16", "vrf": "ntc"}
existing:
description: k/v pairs of existing vrf on the interface
type: dict
sample: {"interface": "loopback16", "vrf": ""}
end_state:
description: k/v pairs of vrf after module execution
returned: always
type: dict
sample: {"interface": "loopback16", "vrf": "ntc"}
state:
description: state as sent in from the playbook
returned: always
type: string
sample: "present"
commands:
description: command string sent to the device
returned: always
type: string
sample: "interface loopback16 ; vrf member ntc ;"
changed:
description: check to see if a change was made on the device
returned: always
type: boolean
sample: true
'''
def execute_config_command(commands, module):
try:
module.configure(commands)
except ShellError, clie:
module.fail_json(msg='Error sending CLI commands',
error=str(clie), commands=commands)
def get_cli_body_ssh_vrf_interface(command, response, module):
"""Get response for when transport=cli. This is kind of a hack and mainly
needed because these modules were originally written for NX-API. As such,
we assume if '^' is found in response, it is an invalid command. Instead,
the output will be a raw string when issuing commands containing 'show run'.
"""
if '^' in response[0]:
body = []
elif 'show run' in command:
body = response
else:
body = [json.loads(response[0])]
return body
def execute_show(cmds, module, command_type=None):
try:
response = module.execute(cmds,
command_type=command_type) if command_type else module.execute(cmds)
except ShellError, clie:
module.fail_json(msg='Error sending {0}'.format(command),
error=str(clie))
return response
def execute_show_command(command, module, command_type='cli_show'):
if module.params['transport'] == 'cli':
command += ' | json'
cmds = [command]
response = execute_show(cmds, module)
body = get_cli_body_ssh_vrf_interface(command, response, module)
elif module.params['transport'] == 'nxapi':
cmds = [command]
body = execute_show(cmds, module, command_type=command_type)
return body
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'
else:
return 'unknown'
def get_interface_mode(interface, intf_type, module):
command = 'show interface {0}'.format(interface)
interface = {}
mode = 'unknown'
if intf_type in ['ethernet', 'portchannel']:
body = execute_show_command(command, module)[0]
interface_table = body['TABLE_interface']['ROW_interface']
mode = str(interface_table.get('eth_mode', 'layer3'))
if mode == 'access' or mode == 'trunk':
mode = 'layer2'
elif intf_type == 'loopback' or intf_type == 'svi':
mode = 'layer3'
return mode
def get_vrf_list(module):
command = 'show vrf all'
vrf_list = []
body = execute_show_command(command, module)[0]
try:
vrf_table = body['TABLE_vrf']['ROW_vrf']
except (KeyError, AttributeError):
return vrf_list
for each in vrf_table:
vrf_list.append(str(each['vrf_name']))
return vrf_list
def get_interface_info(interface, module):
command = 'show run interface {0}'.format(interface)
vrf_regex = ".*vrf\s+member\s+(?P<vrf>\S+).*"
try:
body = execute_show_command(command, module,
command_type='cli_show_ascii')[0]
match_vrf = re.match(vrf_regex, body, re.DOTALL)
group_vrf = match_vrf.groupdict()
vrf = group_vrf["vrf"]
except AttributeError:
return ""
return vrf
def is_default(interface, module):
command = 'show run interface {0}'.format(interface)
try:
body = execute_show_command(command, module,
command_type='cli_show_ascii')[0]
raw_list = body.split('\n')
if raw_list[-1].startswith('interface'):
return True
else:
return False
except (KeyError, IndexError):
return 'DNE'
def main():
argument_spec = dict(
vrf=dict(required=True),
interface=dict(type='str', required=True),
state=dict(default='present', choices=['present', 'absent'],
required=False),
)
module = get_module(argument_spec=argument_spec,
supports_check_mode=True)
vrf = module.params['vrf']
interface = module.params['interface'].lower()
state = module.params['state']
current_vrfs = get_vrf_list(module)
if vrf not in current_vrfs:
module.fail_json(msg="Ensure the VRF you're trying to config/remove on"
" an interface is created globally on the device"
" first.")
intf_type = get_interface_type(interface)
if (intf_type != 'ethernet' and module.params['transport'] == 'cli'):
if is_default(interface, module) == 'DNE':
module.fail_json(msg="interface does not exist on switch. Verify "
"switch platform or create it first with "
"nxos_interface if it's a logical interface")
mode = get_interface_mode(interface, intf_type, module)
if mode == 'layer2':
module.fail_json(msg='Ensure interface is a Layer 3 port before '
'configuring a VRF on an interface. You can '
'use nxos_interface')
proposed = dict(interface=interface, vrf=vrf)
current_vrf = get_interface_info(interface, module)
existing = dict(interface=interface, vrf=current_vrf)
changed = False
end_state = existing
if vrf != existing['vrf'] and state == 'absent':
module.fail_json(msg='The VRF you are trying to remove '
'from the interface does not exist '
'on that interface.',
interface=interface, proposed_vrf=vrf,
existing_vrf=existing['vrf'])
commands = []
if existing:
if state == 'absent':
if existing and vrf == existing['vrf']:
command = 'no vrf member {0}'.format(vrf)
commands.append(command)
elif state == 'present':
if existing['vrf'] != vrf:
command = 'vrf member {0}'.format(vrf)
commands.append(command)
if commands:
commands.insert(0, 'interface {0}'.format(interface))
if commands:
if module.check_mode:
module.exit_json(changed=True, commands=commands)
else:
execute_config_command(commands, module)
changed = True
changed_vrf = get_interface_info(interface, module)
end_state = dict(interface=interface, vrf=changed_vrf)
results = {}
results['proposed'] = proposed
results['existing'] = existing
results['end_state'] = end_state
results['state'] = state
results['updates'] = commands
results['changed'] = changed
module.exit_json(**results)
from ansible.module_utils.basic import *
from ansible.module_utils.urls import *
from ansible.module_utils.shell import *
from ansible.module_utils.netcfg import *
from ansible.module_utils.nxos import *
if __name__ == '__main__':
main()