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Refactoring code of cnos_portchannel as cnos_linkagg in tune with other vendors. (#49467)

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* Refactoring code of cnos_portchannel as cnos_linkagg in tune with other vendors.
This commit is contained in:
Anil Kumar Muraleedharan 2018-12-05 21:33:42 +05:30 committed by Nathaniel Case
commit dd004321d4
16 changed files with 783 additions and 825 deletions
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393
lib/ansible/modules/network/cnos/cnos_linkagg.py Normal file
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#!/usr/bin/python
# -*- coding: utf-8 -*-
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
#
# 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 <http://www.gnu.org/licenses/>.
#
# Module to work on Link Aggregation with Lenovo Switches
# Lenovo Networking
#
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'network'}
DOCUMENTATION = """
---
module: cnos_linkagg
version_added: "2.8"
author: "Anil Kumar Muraleedharan (@auraleedhar)"
short_description: Manage link aggregation groups on Lenovo CNOS devices
description:
- This module provides declarative management of link aggregation groups
on Lenovo CNOS network devices.
notes:
- Tested against CNOS 10.8.1
options:
group:
description:
- Channel-group number for the port-channel
Link aggregation group. Range 1-255.
mode:
description:
- Mode of the link aggregation group.
choices: ['active', 'on', 'passive']
members:
description:
- List of members of the link aggregation group.
aggregate:
description: List of link aggregation definitions.
state:
description:
- State of the link aggregation group.
default: present
choices: ['present', 'absent']
purge:
description:
- Purge links not defined in the I(aggregate) parameter.
type: bool
default: no
provider:
description:
- B(Deprecated)
- "Starting with Ansible 2.5 we recommend using C(connection: network_cli)."
- For more information please see the L(IOS Platform Options guide, ../network/user_guide/platform_ios.html).
- HORIZONTALLINE
- A dict object containing connection details.
version_added: "2.8"
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: create link aggregation group
cnos_linkagg:
group: 10
state: present
- name: delete link aggregation group
cnos_linkagg:
group: 10
state: absent
- name: set link aggregation group to members
cnos_linkagg:
group: 200
mode: active
members:
- Ethernet1/33
- Ethernet1/44
- name: remove link aggregation group from GigabitEthernet0/0
cnos_linkagg:
group: 200
mode: active
members:
- Ethernet1/33
- name: Create aggregate of linkagg definitions
cnos_linkagg:
aggregate:
- { group: 3, mode: on, members: [Ethernet1/33] }
- { group: 100, mode: passive, members: [Ethernet1/44] }
"""
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 port-channel 30
- interface Ethernet1/33
- channel-group 30 mode on
- no interface port-channel 30
"""
import re
from copy import deepcopy
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.network.common.config import CustomNetworkConfig
from ansible.module_utils.network.common.utils import remove_default_spec
from ansible.module_utils.network.cnos.cnos import get_config, load_config
from ansible.module_utils.network.cnos.cnos import cnos_argument_spec
def search_obj_in_list(group, lst):
for o in lst:
if o['group'] == group:
return o
def map_obj_to_commands(updates, module):
commands = list()
want, have = updates
purge = module.params['purge']
for w in want:
group = w['group']
mode = w['mode']
members = w.get('members') or []
state = w['state']
del w['state']
obj_in_have = search_obj_in_list(group, have)
if state == 'absent':
if obj_in_have:
commands.append('no interface port-channel {0}'.format(group))
elif state == 'present':
cmd = ['interface port-channel {0}'.format(group),
'exit']
if not obj_in_have:
if not group:
module.fail_json(msg='group is a required option')
commands.extend(cmd)
if members:
for m in members:
commands.append('interface {0}'.format(m))
commands.append('channel-group {0} mode {1}'.format(group, mode))
else:
if members:
if 'members' not in obj_in_have.keys():
for m in members:
commands.extend(cmd)
commands.append('interface {0}'.format(m))
commands.append('channel-group {0} mode {1}'.format(group, mode))
elif set(members) != set(obj_in_have['members']):
missing_members = list(set(members) - set(obj_in_have['members']))
for m in missing_members:
commands.extend(cmd)
commands.append('interface {0}'.format(m))
commands.append('channel-group {0} mode {1}'.format(group, mode))
superfluous_members = list(set(obj_in_have['members']) - set(members))
for m in superfluous_members:
commands.extend(cmd)
commands.append('interface {0}'.format(m))
commands.append('no channel-group')
if purge:
for h in have:
obj_in_want = search_obj_in_list(h['group'], want)
if not obj_in_want:
commands.append('no interface port-channel {0}'.format(h['group']))
return commands
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]
d = item.copy()
d['group'] = str(d['group'])
obj.append(d)
else:
obj.append({
'group': str(module.params['group']),
'mode': module.params['mode'],
'members': module.params['members'],
'state': module.params['state']
})
return obj
def parse_mode(module, config, group, member):
mode = None
netcfg = CustomNetworkConfig(indent=1, contents=config)
parents = ['interface {0}'.format(member)]
body = netcfg.get_section(parents)
match_int = re.findall(r'interface {0}\n'.format(member), body, re.M)
if match_int:
match = re.search(r'channel-group {0} mode (\S+)'.format(group),
body, re.M)
if match:
mode = match.group(1)
return mode
def parse_members(module, config, group):
members = []
for line in config.strip().split('!'):
l = line.strip()
if l.startswith('interface'):
match_group = re.findall(r'channel-group {0} mode'.format(group), l, re.M)
if match_group:
match = re.search(r'interface (\S+)', l, re.M)
if match:
members.append(match.group(1))
return members
def get_channel(module, config, group):
match = re.findall(r'^interface (\S+)', config, re.M)
if not match:
return {}
channel = {}
for item in set(match):
member = item
channel['mode'] = parse_mode(module, config, group, member)
channel['members'] = parse_members(module, config, group)
return channel
def map_config_to_obj(module):
objs = list()
config = get_config(module)
for line in config.split('\n'):
l = line.strip()
match = re.search(r'interface port-channel(\S+)', l, re.M)
if match:
obj = {}
group = match.group(1)
obj['group'] = group
obj.update(get_channel(module, config, group))
objs.append(obj)
return objs
def main():
""" main entry point for module execution
"""
element_spec = dict(
group=dict(type='int'),
mode=dict(choices=['active', 'on', 'passive']),
members=dict(type='list'),
state=dict(default='present',
choices=['present', 'absent'])
)
aggregate_spec = deepcopy(element_spec)
aggregate_spec['group'] = dict(required=True)
required_one_of = [['group', 'aggregate']]
required_together = [['members', 'mode']]
mutually_exclusive = [['group', 'aggregate']]
# 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,
required_together=required_together),
purge=dict(default=False, type='bool')
)
argument_spec.update(element_spec)
argument_spec.update(cnos_argument_spec)
module = AnsibleModule(argument_spec=argument_spec,
required_one_of=required_one_of,
required_together=required_together,
mutually_exclusive=mutually_exclusive,
supports_check_mode=True)
warnings = list()
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), module)
result['commands'] = commands
if commands:
if not module.check_mode:
load_config(module, commands)
result['changed'] = True
module.exit_json(**result)
if __name__ == '__main__':
main()

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lib/ansible/modules/network/cnos/cnos_portchannel.py
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#!/usr/bin/python
# -*- coding: utf-8 -*-
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
#
# Copyright (C) 2017 Lenovo, 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 <http://www.gnu.org/licenses/>.
#
# Module to send Port channel commands to Lenovo Switches
# Lenovo Networking
#
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'community'}
DOCUMENTATION = '''
---
module: cnos_portchannel
author: "Anil Kumar Muraleedharan (@amuraleedhar)"
short_description: Manage portchannel (port channel) configuration on devices
running Lenovo CNOS
description:
- This module allows you to work with port channel related configurations.
The operators used are overloaded to ensure control over switch port
channel configurations. Apart from the regular device connection related
attributes, there are five LAG arguments which are overloaded variables
that will perform further configurations. They are interfaceArg1,
interfaceArg2, interfaceArg3, interfaceArg4, and interfaceArg5.
For more details on how to use these arguments, see[Overloaded Variables].
This module uses SSH to manage network device configuration.
The results of the operation will be placed in a directory named 'results'
that must be created by the user in their local directory to where the
playbook is run.
version_added: "2.3"
extends_documentation_fragment: cnos
options:
interfaceRange:
description:
- This specifies the interface range in which the port channel is
envisaged
required: Yes
default: Null
interfaceArg1:
description:
- This is an overloaded Port Channel first argument. Usage of this
argument can be found is the User Guide referenced above.
required: Yes
default: Null
choices: [channel-group, bfd, bridgeport, description, duplex,
flowcontrol, ip, ipv6, lacp, lldp,load-interval, mac,
mac-address, mac-learn, microburst-detection, mtu, service,
service-policy, shutdown, snmp, spanning-tree, speed,
storm-control, vlan, vrrp, port-channel]
interfaceArg2:
description:
- This is an overloaded Port Channel second argument. Usage of this
argument can be found is the User Guide referenced above.
required: No
default: Null
choices: [channel-group number, access or mode or trunk, description,
auto or full or half, receive or send, port-priority,
suspend-individual, timeout,
receive or transmit or trap-notification, tlv-select,
Load interval delay in seconds, counter,
Name for the MAC Access List,
mac-address in HHHH.HHHH.HHHH format,
THRESHOLD Value in unit of buffer cell,
<64-9216> MTU in bytes-<64-9216> for L2 packet,
<576-9216> for L3 IPv4 packet, <1280-9216> L3 IPv6 packet,
enter the instance id, input or output, copp-system-policy,
type, 1000 or 10000 or 40000 or auto, broadcast or
multicast or unicast, disable or enable or egress-only,
Virtual router identifier,
destination-ip or destination-mac or destination-port or
source-dest-ip or source-dest-mac or source-dest-port or
source-interface or source-ip or source-mac or source-port]
interfaceArg3:
description:
- This is an overloaded Port Channel third argument. Usage of this
argument can be found is the User Guide referenced above.
required: No
default: Null
choices: [active or on or passive, on or off, LACP port priority,
long or short, link-aggregation or mac-phy-status or management-address
or max-frame-size or port-description or port-protocol-vlan or
port-vlan or power-mdi or protocol-identity or system-capabilities or
system-description or system-name or vid-management or vlan-name,
counter for load interval, policy input name,
all or Copp class name to attach, qos, queueing,
Enter the allowed traffic level, ipv6]
interfaceArg4:
description:
- This is an overloaded Port Channel fourth argument. Usage of this
argument can be found is the User Guide referenced above.
required: No
default: Null
choices: [key-chain, key-id, keyed-md5 or keyed-sha1 or
meticulous-keyed-md5 or meticulous-keyed-sha1 or simple,
Interval value in milliseconds,
Destination IP (Both IPV4 and IPV6),in or out, MAC address,
Time-out value in seconds, class-id, request,
Specify the IPv4 address, OSPF area ID as a decimal value,
OSPF area ID in IP address format, anycast or secondary,
ethernet, vlan,
MAC (hardware) address in HHHH.HHHH.HHHH format,
Load interval delay in seconds, Specify policy input name,
input or output, cost, port-priority,
BFD minimum receive interval,source-interface]
interfaceArg5:
description:
- This is an overloaded Port Channel fifth argument. Usage of this
argument can be found is the User Guide referenced above.
required: No
default: Null
choices: [name of key-chain, key-Id Value, key-chain , key-id,
BFD minimum receive interval, Value of Hello Multiplier,
admin-down or multihop or non-persistent,
Vendor class-identifier name,
bootfile-name or host-name or log-server or ntp-server or
tftp-server-name, Slot/chassis number, Vlan interface,
Specify policy input name, Port path cost or auto,
Port priority increments of 32]
interfaceArg6:
description:
- This is an overloaded Port Channel sixth argument. Usage of this
argument can be found is the User Guide referenced above.
required: No
default: Null
choices: [Authentication key string, name of key-chain, key-Id Value,
Value of Hello Multiplier, admin-down or non-persistent]
interfaceArg7:
description:
- This is an overloaded Port Channel seventh argument. Usage of
this argument can be found is the User Guide referenced above.
required: No
default: Null
choices: [Authentication key string, admin-down]
'''
EXAMPLES = '''
Tasks : The following are examples of using the module cnos_portchannel. These
are written in the main.yml file of the tasks directory.
---
- name: Test Port Channel - channel-group
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{inventory_hostname}}_output.txt"
interfaceRange: 33
interfaceArg1: "channel-group"
interfaceArg2: 33
interfaceArg3: "on"
- name: Test Port Channel - channel-group - Interface Range
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: "1/1-2"
interfaceArg1: "channel-group"
interfaceArg2: 33
interfaceArg3: "on"
- name: Test Port Channel - bridge-port
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "bridge-port"
interfaceArg2: "access"
interfaceArg3: 33
- name: Test Port Channel - bridgeport mode
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "bridge-port"
interfaceArg2: "mode"
interfaceArg3: "access"
- name: Test Port Channel - Description
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "description"
interfaceArg2: "Hentammoo "
- name: Test Port Channel - Duplex
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "duplex"
interfaceArg2: "auto"
- name: Test Port Channel - flowcontrol
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "flowcontrol"
interfaceArg2: "send"
interfaceArg3: "off"
- name: Test Port Channel - lacp
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "lacp"
interfaceArg2: "port-priority"
interfaceArg3: 33
- name: Test Port Channel - lldp
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "lldp"
interfaceArg2: "tlv-select"
interfaceArg3: "max-frame-size"
- name: Test Port Channel - load-interval
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "load-interval"
interfaceArg2: "counter"
interfaceArg3: 2
interfaceArg4: 33
- name: Test Port Channel - microburst-detection
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "microburst-detection"
interfaceArg2: 25
- name: Test Port Channel - mtu
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "mtu"
interfaceArg2: 66
- name: Test Port Channel - service-policy
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "service-policy"
interfaceArg2: "input"
interfaceArg3: "Anil"
- name: Test Port Channel - speed
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "speed"
interfaceArg2: "auto"
- name: Test Port Channel - storm
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "storm-control"
interfaceArg2: "broadcast"
interfaceArg3: 12.5
- name: Test Port Channel - vlan
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "vlan"
interfaceArg2: "disable"
- name: Test Port Channel - vrrp
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "vrrp"
interfaceArg2: 33
- name: Test Port Channel - spanning tree1
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "spanning-tree"
interfaceArg2: "bpduguard"
interfaceArg3: "enable"
- name: Test Port Channel - spanning tree 2
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "spanning-tree"
interfaceArg2: "mst"
interfaceArg3: "33-35"
interfaceArg4: "cost"
interfaceArg5: 33
- name: Test Port Channel - ip1
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "ip"
interfaceArg2: "access-group"
interfaceArg3: "anil"
interfaceArg4: "in"
- name: Test Port Channel - ip2
cnos_portchannel:
deviceType: "{{ hostvars[inventory_hostname]['deviceType'] }}"
outputfile: "./results/test_portchannel_{{ inventory_hostname }}_output.txt"
interfaceRange: 33
interfaceArg1: "ip"
interfaceArg2: "port"
interfaceArg3: "anil"
'''
RETURN = '''
msg:
description: Success or failure message
returned: always
type: string
sample: "Port Channel configurations accomplished"
'''
import sys
import time
import socket
import array
import json
import time
import re
import os
try:
from ansible.module_utils.network.cnos import cnos
HAS_LIB = True
except:
HAS_LIB = False
from ansible.module_utils.basic import AnsibleModule
from collections import defaultdict
def portChannelConfig(module, prompt, answer):
retVal = ''
command = ''
portChArg1 = module.params['interfaceArg1']
portChArg2 = module.params['interfaceArg2']
portChArg3 = module.params['interfaceArg3']
if(portChArg1 == "port-channel" and prompt == "(config)#"):
command = command + portChArg1 + " load-balance ethernet "
if(portChArg2 == "destination-ip" or
portChArg2 == "destination-mac" or
portChArg2 == "destination-port" or
portChArg2 == "source-dest-ip" or
portChArg2 == "source-dest-mac" or
portChArg2 == "source-dest-port" or
portChArg2 == "source-interface" or
portChArg2 == "source-ip" or
portChArg2 == "source-mac" or
portChArg2 == "source-port"):
# debugOutput(portChArg2)
command = command + portChArg2 + " "
if(portChArg3 is None):
command = command + ""
elif(portChArg3 == "source-interface"):
command = command + portChArg3
cmd = [{'command': command, 'prompt': None, 'answer': None}]
retVal = retVal + str(cnos.run_cnos_commands(module, cmd))
else:
retVal = "Error-231"
return retVal
else:
retVal = "Error-232"
return retVal
# EOM
def main():
module = AnsibleModule(
argument_spec=dict(
outputfile=dict(required=True),
host=dict(required=False),
username=dict(required=False),
password=dict(required=False, no_log=True),
enablePassword=dict(required=False, no_log=True),
deviceType=dict(required=True),
interfaceRange=dict(required=False),
interfaceArg1=dict(required=True),
interfaceArg2=dict(required=False),
interfaceArg3=dict(required=False),
interfaceArg4=dict(required=False),
interfaceArg5=dict(required=False),
interfaceArg6=dict(required=False),
interfaceArg7=dict(required=False),),
supports_check_mode=False)
outputfile = module.params['outputfile']
output = ''
# Send the CLi command
if(module.params['interfaceArg1'] == "port-channel"):
output = output + portChannelConfig(module, "(config)#", None)
else:
output = output + cnos.interfaceConfig(module, "(config)#",
"port-channel", None)
# Save it into the file
file = open(outputfile, "a")
file.write(output)
file.close()
# Logic to check when changes occur or not
errorMsg = cnos.checkOutputForError(output)
if(errorMsg is None):
module.exit_json(changed=True,
msg="Port Channel Configuration is done")
else:
module.fail_json(msg=errorMsg)
if __name__ == '__main__':
main()