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icx: new module icx_interface (#60037)

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pull/52146/head
sushma-alethea 5 years ago committed by Ganesh Nalawade
parent 746acccc64
commit ee3e8704e8
3 changed files with 993 additions and 0 deletions
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694
lib/ansible/modules/network/icx/icx_interface.py
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#!/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_interface
version_added: "2.9"
author: "Ruckus Wireless (@Commscope)"
short_description: Manage Interface on Ruckus ICX 7000 series switches
description:
- This module provides declarative management of Interfaces
on ruckus icx 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 Interface.
type: str
description:
description:
- Name of the description.
type: str
enabled:
description:
- Interface link status
default: yes
type: bool
speed:
description:
- Interface link speed/duplex
choices: ['10-full', '10-half', '100-full', '100-half', '1000-full', '1000-full-master',
'1000-full-slave', '10g-full', '10g-full-master', '10g-full-slave', '2500-full', '2500-full-master',
'2500-full-slave', '5g-full', '5g-full-master', '5g-full-slave', 'auto']
type: str
stp:
description:
- enable/disable stp for the interface
type: bool
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)
type: str
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)
type: str
neighbors:
description:
- Check the operational state of given interface C(name) for CDP/LLDP neighbor.
- The following suboptions are available.
type: list
suboptions:
host:
description:
- "CDP/LLDP neighbor host for given interface C(name)."
type: str
port:
description:
- "CDP/LLDP neighbor port to which given interface C(name) is connected."
type: str
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).
type: int
default: 10
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
type: str
choices: ['present', 'absent', 'up', 'down']
power:
description:
- Inline power on Power over Ethernet (PoE) ports.
type: dict
suboptions:
by_class:
description:
- "The range is 0-4"
- "The power limit based on class value for given interface C(name)"
choices: ['0', '1', '2', '3', '4']
type: str
limit:
description:
- "The range is 1000-15400|30000mW. For PoH ports the range is 1000-95000mW"
- "The power limit based on actual power value for given interface C(name)"
type: str
priority:
description:
- "The range is 1 (highest) to 3 (lowest)"
- "The priority for power management or given interface C(name)"
choices: ['1', '2', '3']
type: str
enabled:
description:
- "enable/disable the poe of the given interface C(name)"
default: no
type: bool
aggregate:
description:
- List of Interfaces definitions.
type: list
suboptions:
name:
description:
- Name of the Interface.
type: str
description:
description:
- Name of the description.
type: str
enabled:
description:
- Interface link status
type: bool
speed:
description:
- Interface link speed/duplex
choices: ['10-full', '10-half', '100-full', '100-half', '1000-full', '1000-full-master',
'1000-full-slave', '10g-full', '10g-full-master', '10g-full-slave', '2500-full', '2500-full-master',
'2500-full-slave', '5g-full', '5g-full-master', '5g-full-slave', 'auto']
type: str
stp:
description:
- enable/disable stp for the interface
type: bool
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)
type: str
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)
type: str
neighbors:
description:
- Check the operational state of given interface C(name) for CDP/LLDP neighbor.
- The following suboptions are available.
type: list
suboptions:
host:
description:
- "CDP/LLDP neighbor host for given interface C(name)."
type: str
port:
description:
- "CDP/LLDP neighbor port to which given interface C(name) is connected."
type: str
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).
type: int
state:
description:
- State of the Interface configuration, C(up) means present and
operationally up and C(down) means present and operationally C(down)
type: str
choices: ['present', 'absent', 'up', 'down']
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 overriden, by specifying it as module parameter.
type: bool
power:
description:
- Inline power on Power over Ethernet (PoE) ports.
type: dict
suboptions:
by_class:
description:
- "The range is 0-4"
- "The power limit based on class value for given interface C(name)"
choices: ['0', '1', '2', '3', '4']
type: str
limit:
description:
- "The range is 1000-15400|30000mW. For PoH ports the range is 1000-95000mW"
- "The power limit based on actual power value for given interface C(name)"
type: str
priority:
description:
- "The range is 1 (highest) to 3 (lowest)"
- "The priority for power management or given interface C(name)"
choices: ['1', '2', '3']
type: str
enabled:
description:
- "enable/disable the poe of the given interface C(name)"
type: bool
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 overriden,
by specifying it as module parameter.
default: yes
type: bool
"""
EXAMPLES = """
- name: enable ethernet port and set name
icx_interface:
name: ethernet 1/1/1
description: interface-1
stp: true
enabled: true
- name: disable ethernet port 1/1/1
icx_interface:
name: ethernet 1/1/1
enabled: false
- name: enable ethernet port range, set name and speed.
icx_interface:
name: ethernet 1/1/1 to 1/1/10
description: interface-1
speed: 100-full
enabled: true
- name: enable poe. Set class.
icx_interface:
name: ethernet 1/1/1
power:
by_class: 2
- name: configure poe limit of interface
icx_interface:
name: ethernet 1/1/1
power:
limit: 10000
- name: disable poe of interface
icx_interface:
name: ethernet 1/1/1
power:
enabled: false
- name: set lag name for a range of lags
icx_interface:
name: lag 1 to 10
description: test lags
- name: Disable lag
icx_interface:
name: lag 1
enabled: false
- name: enable management interface
icx_interface:
name: management 1
enabled: true
- name: enable loopback interface
icx_interface:
name: loopback 10
enabled: true
- name: Add interface using aggregate
icx_interface:
aggregate:
- { name: ethernet 1/1/1, description: test-interface-1, power: { by_class: 2 } }
- { name: ethernet 1/1/3, description: test-interface-3}
speed: 10-full
enabled: true
- name: Check tx_rate, rx_rate intent arguments
icx_interface:
name: ethernet 1/1/10
state: up
tx_rate: ge(0)
rx_rate: le(0)
- name: Check neighbors intent arguments
icx_interface:
name: ethernet 1/1/10
neighbors:
- port: 1/1/5
host: netdev
"""
RETURN = """
commands:
description: The list of configuration mode commands to send to the device.
returned: always
type: list
sample:
- interface ethernet 1/1/1
- port-name interface-1
- state present
- speed-duplex 100-full
- inline power priority 1
"""
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, env_fallback
from ansible.module_utils.network.common.config import NetworkConfig
from ansible.module_utils.network.icx.icx import load_config, get_config
from ansible.module_utils.connection import Connection, ConnectionError, exec_command
from ansible.module_utils.network.common.utils import conditional, remove_default_spec
def parse_enable(configobj, name):
cfg = configobj['interface %s' % name]
cfg = '\n'.join(cfg.children)
match = re.search(r'^disable', cfg, re.M)
if match:
return True
else:
return False
def parse_power_argument(configobj, name):
cfg = configobj['interface %s' % name]
cfg = '\n'.join(cfg.children)
match = re.search(r'(^inline power|^inline power(.*))+$', cfg, re.M)
if match:
return match.group(1)
def parse_config_argument(configobj, name, arg=None):
cfg = configobj['interface %s' % name]
cfg = '\n'.join(cfg.children)
match = re.search(r'%s (.+)$' % arg, cfg, re.M)
if match:
return match.group(1)
def parse_stp_arguments(module, item):
rc, out, err = exec_command(module, 'show interfaces ' + item)
match = re.search(r'STP configured to (\S+),', out, re.S)
if match:
return True if match.group(1) == "ON" else False
def search_obj_in_list(name, lst):
for o in lst:
if o['name'] == name:
return o
return None
def validate_power(module, power):
count = 0
for item in power:
if power.get(item) is not None:
count += 1
if count > 1:
module.fail_json(msg='power parameters are mutually exclusive: class,limit,priority,enabled')
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):
compare = module.params['check_running_config']
config = get_config(module, None, compare)
configobj = NetworkConfig(indent=1, contents=config)
match = re.findall(r'^interface (.+)$', config, re.M)
if not match:
return list()
instances = list()
for item in set(match):
obj = {
'name': item,
'port-name': parse_config_argument(configobj, item, 'port-name'),
'speed-duplex': parse_config_argument(configobj, item, 'speed-duplex'),
'stp': parse_stp_arguments(module, item),
'disable': True if parse_enable(configobj, item) else False,
'power': parse_power_argument(configobj, item),
'state': 'present'
}
instances.append(obj)
return instances
def parse_poe_config(poe, power):
if poe.get('by_class') is not None:
power += 'power-by-class %s' % poe.get('by_class')
elif poe.get('limit') is not None:
power += 'power-limit %s' % poe.get('limit')
elif poe.get('priority') is not None:
power += 'priority %s' % poe.get('priority')
elif poe.get('enabled'):
power = 'inline power'
elif poe.get('enabled') is False:
power = 'no inline power'
return power
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]
item['port-name'] = item.pop('description')
item['speed-duplex'] = item.pop('speed')
poe = item.get('power')
if poe:
validate_power(module, poe)
power = 'inline power' + ' '
power_arg = parse_poe_config(poe, power)
item.update({'power': power_arg})
d = item.copy()
if d['enabled']:
d['disable'] = False
else:
d['disable'] = True
obj.append(d)
else:
params = {
'name': module.params['name'],
'port-name': module.params['description'],
'speed-duplex': module.params['speed'],
'stp': module.params['stp'],
'delay': module.params['delay'],
'state': module.params['state'],
'tx_rate': module.params['tx_rate'],
'rx_rate': module.params['rx_rate'],
'neighbors': module.params['neighbors']
}
poe = module.params.get('power')
if poe:
validate_power(module, poe)
power = 'inline power' + ' '
power_arg = parse_poe_config(poe, power)
params.update({'power': power_arg})
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-duplex', 'port-name', 'power', 'stp')
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 have == []:
commands.append('no ' + interface)
elif 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 == 'no inline power' and running is None:
candidate = None
if candidate != running:
if candidate:
if item == 'power':
cmd = str(candidate)
elif item == 'stp':
cmd = 'spanning-tree' if candidate else 'no spanning-tree'
else:
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, 'disable', commands)
elif not disable and obj_in_have.get('disable', False):
add_command_to_interface(interface, 'enable', commands)
else:
commands.append(interface)
for item in args:
value = w.get(item)
if value:
if item == 'power':
commands.append(str(value))
elif item == 'stp':
cmd = 'spanning-tree' if item else 'no spanning-tree'
else:
commands.append(item + ' ' + str(value))
if disable:
commands.append('disable')
if disable is False:
commands.append('enable')
return commands
def check_declarative_intent_params(module, want, result):
failed_conditions = []
have_neighbors_lldp = None
have_neighbors_cdp = 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 interfaces %s' % 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'):
match = re.search(r'%s (\w+)' % 'line protocol is', out, re.M)
have_state = None
if match:
have_state = match.group(1)
if have_state is None or not conditional(want_state, have_state.strip()):
failed_conditions.append('state ' + 'eq(%s)' % want_state)
if want_tx_rate:
match = re.search(r'%s (\d+)' % 'output rate:', out, re.M)
have_tx_rate = None
if match:
have_tx_rate = match.group(1)
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:
match = re.search(r'%s (\d+)' % 'input rate:', out, re.M)
have_rx_rate = None
if match:
have_rx_rate = match.group(1)
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 = []
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: ')
for line in lines:
field = line.split('\n')
if field[0].strip() == w['name'].split(' ')[1]:
for item in field:
match = re.search(r'\s*\+\s+System name\s+:\s+"(.*)"', item, re.M)
if match:
have_host.append(match.group(1))
match = re.search(r'\s*\+\s+Port description\s+:\s+"(.*)"', item, re.M)
if match:
have_port.append(match.group(1))
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
"""
power_spec = dict(
by_class=dict(choices=['0', '1', '2', '3', '4']),
limit=dict(type='str'),
priority=dict(choices=['1', '2', '3']),
enabled=dict(type='bool')
)
neighbors_spec = dict(
host=dict(),
port=dict()
)
element_spec = dict(
name=dict(),
description=dict(),
enabled=dict(default=True, type='bool'),
speed=dict(type='str', choices=['10-full', '10-half', '100-full', '100-half', '1000-full', '1000-full-master',
'1000-full-slave', '10g-full', '10g-full-master', '10g-full-slave', '2500-full', '2500-full-master',
'2500-full-slave', '5g-full', '5g-full-master', '5g-full-slave', 'auto']),
stp=dict(type='bool'),
tx_rate=dict(),
rx_rate=dict(),
neighbors=dict(type='list', elements='dict', options=neighbors_spec),
delay=dict(default=10, type='int'),
state=dict(default='present',
choices=['present', 'absent', 'up', 'down']),
power=dict(type='dict', options=power_spec),
check_running_config=dict(default=True, type='bool', fallback=(env_fallback, ['ANSIBLE_CHECK_ICX_RUNNING_CONFIG']))
)
aggregate_spec = deepcopy(element_spec)
aggregate_spec['name'] = dict(required=True)
remove_default_spec(aggregate_spec)
argument_spec = dict(
aggregate=dict(type='list', elements='dict', options=aggregate_spec),
)
argument_spec.update(element_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()
result = {}
result['changed'] = False
if warnings:
result['warnings'] = warnings
exec_command(module, 'skip')
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()

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test/units/modules/network/icx/fixtures/icx_interface_config.cfg
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lag blue static id 11
ports ethe 1/1/1
port-name test-interface-1 ethernet 1/1/1
!
interface ethernet 1/1/1
port-name test-interface-1
speed-duplex 10-full
!
interface ethernet 1/1/2
port-name test-interface-2
speed-duplex 10-full
inline power power-limit 2000
!
interface ethernet 1/1/48
inline power power-by-class 2
!
interface ethernet 1/1/3
speed-duplex 10-full
inline power power-limit 3000
!
interface loopback 10
port-name loopback10
disable
!
interface lag 11
port-name lag ports
speed-duplex 10-full
!
GigabitEthernet1/1/1 is up, line protocol is up
Port up for 18 hour(s) 40 minute(s) 16 second(s)
Hardware is GigabitEthernet, address is 609c.9fe7.d130 (bia 609c.9fe7.d130)
Configured speed 10Mbit, actual 10Mbit, configured duplex fdx, actual fdx
Configured mdi mode AUTO, actual MDI
Member of L2 VLAN ID 1, port is untagged, port state is FORWARDING
BPDU guard is Disabled, ROOT protect is Disabled, Designated protect is Disabled
Link Error Dampening is Disabled
STP configured to ON, priority is level0, mac-learning is enabled
Openflow is Disabled, Openflow Hybrid mode is Disabled, Flow Control is config enabled, oper enabled, negotiation disabled
Mirror disabled, Monitor disabled
Mac-notification is disabled
Member of active trunk ports 1/1/1,1/1/2,1/1/4,lg11, Lag Interface is lg11
Member of configured trunk ports 1/1/1,1/1/2,1/1/4,lg11, Lag Interface is lg11
Port name is test-interface-1
IPG MII 0 bits-time, IPG GMII 0 bits-time
MTU 1500 bytes, encapsulation ethernet
MMU Mode is Store-and-forward
300 second input rate: 88 bits/sec, 0 packets/sec, 0.00% utilization
300 second output rate: 616 bits/sec, 0 packets/sec, 0.00% utilization
14836 packets input, 2695975 bytes, 0 no buffer
Received 3223 broadcasts, 11613 multicasts, 0 unicasts
2 input errors, 2 CRC, 0 frame, 0 ignored
0 runts, 0 giants
64676 packets output, 5181136 bytes, 0 underruns
Transmitted 28724 broadcasts, 35952 multicasts, 0 unicasts
0 output errors, 0 collisions
Relay Agent Information option: Disabled
Protected: No
MAC Port Security: Disabled
This port is not being monitored for queue drops
Egress queues:
Queue counters Queued packets Dropped Packets
0 6682 0
1 0 0
2 0 0
3 0 0
4 22042 0
5 20 0
6 33680 0
7 2252 0
Local port: 1/1/48
Neighbor: 609c.9fe7.d15f, TTL 95 seconds
+ Chassis ID (MAC address): 609c.9fe7.d130
+ Port ID (MAC address): 609c.9fe7.d15f
+ Time to live: 120 seconds
+ System name : "ICX7150-48 Router"
+ Port description : "GigabitEthernet1/1/48"
+ System capabilities : bridge, router
Enabled capabilities: bridge, router
+ 802.3 MAC/PHY : auto-negotiation enabled
Advertised capabilities: 10BaseT-HD, 10BaseT-FD, 100BaseTX-HD,
100BaseTX-FD, fdxSPause, fdxBPause,
1000BaseT-HD, 1000BaseT-FD
Operational MAU type : 1000BaseT-FD
+ Link aggregation: not capable
+ Maximum frame size: 1522 octets
+ Port VLAN ID: 1
+ Management address (IPv4): 172.16.10.182

208
test/units/modules/network/icx/test_icx_interface.py
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# Copyright: (c) 2019, 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
from units.compat.mock import patch
from ansible.modules.network.icx import icx_interface
from units.modules.utils import set_module_args
from .icx_module import TestICXModule, load_fixture
class TestICXInterfaceModule(TestICXModule):
module = icx_interface
def setUp(self):
super(TestICXInterfaceModule, self).setUp()
self.mock_exec_command = patch('ansible.modules.network.icx.icx_interface.exec_command')
self.exec_command = self.mock_exec_command.start()
self.mock_load_config = patch('ansible.modules.network.icx.icx_interface.load_config')
self.load_config = self.mock_load_config.start()
self.mock_get_config = patch('ansible.modules.network.icx.icx_interface.get_config')
self.get_config = self.mock_get_config.start()
self.set_running_config()
def tearDown(self):
super(TestICXInterfaceModule, self).tearDown()
self.mock_exec_command.stop()
self.mock_load_config.stop()
self.mock_get_config.stop()
def load_fixtures(self, commands=None):
compares = None
def load_file(*args, **kwargs):
module, commands, val = args
for arg in args:
if arg.params['check_running_config'] is True:
self.exec_command.return_value = (0, load_fixture('icx_interface_config.cfg').strip(), None)
return load_fixture('icx_interface_config.cfg').strip()
else:
self.exec_command.return_value = 0, '', None
return ''
self.get_config.side_effect = load_file
self.load_config.return_value = None
def test_icx_interface_set_config(self):
power = dict(dict(enabled='True'))
set_module_args(dict(name='ethernet 1/1/1', description='welcome port', speed='1000-full', power=power))
if not self.ENV_ICX_USE_DIFF:
result = self.execute_module(changed=True)
expected_commands = [
'interface ethernet 1/1/1',
'speed-duplex 1000-full',
'port-name welcome port',
'inline power',
'enable'
]
self.assertEqual(result['commands'], expected_commands)
else:
result = self.execute_module(changed=True)
expected_commands = [
'interface ethernet 1/1/1',
'speed-duplex 1000-full',
'port-name welcome port',
'inline power'
]
self.assertEqual(result['commands'], expected_commands)
def test_icx_interface_remove(self):
set_module_args(dict(name='ethernet 1/1/1', state='absent'))
if not self.ENV_ICX_USE_DIFF:
result = self.execute_module(changed=True)
self.assertEqual(result['commands'], ['no interface ethernet 1/1/1'])
else:
result = self.execute_module(changed=True)
self.assertEqual(result['commands'], ['no interface ethernet 1/1/1'])
def test_icx_interface_disable(self):
set_module_args(dict(name='ethernet 1/1/1', enabled=False))
if not self.ENV_ICX_USE_DIFF:
result = self.execute_module(changed=True)
self.assertEqual(result['commands'], ['interface ethernet 1/1/1', 'disable'])
else:
result = self.execute_module(changed=True)
self.assertEqual(result['commands'], ['interface ethernet 1/1/1', 'disable'])
def test_icx_interface_set_power(self):
power = dict(by_class='2')
set_module_args(dict(name='ethernet 1/1/2', power=dict(power)))
if not self.ENV_ICX_USE_DIFF:
result = self.execute_module(changed=True)
expected_commands = [
'interface ethernet 1/1/2',
'inline power power-by-class 2',
'enable'
]
self.assertEqual(result['commands'], expected_commands)
else:
result = self.execute_module(changed=True)
expected_commands = [
'interface ethernet 1/1/2',
'inline power power-by-class 2'
]
self.assertEqual(result['commands'], expected_commands)
def test_icx_interface_aggregate(self):
power = dict(dict(enabled='True'))
aggregate = [
dict(name='ethernet 1/1/9', description='welcome port9', speed='1000-full', power=power),
dict(name='ethernet 1/1/10', description='welcome port10', speed='1000-full', power=power)
]
set_module_args(dict(aggregate=aggregate))
if not self.ENV_ICX_USE_DIFF:
result = self.execute_module(changed=True)
expected_commands = [
'interface ethernet 1/1/9',
'speed-duplex 1000-full',
'port-name welcome port9',
'inline power',
'enable',
'interface ethernet 1/1/10',
'speed-duplex 1000-full',
'port-name welcome port10',
'inline power',
'enable'
]
self.assertEqual(result['commands'], expected_commands)
else:
result = self.execute_module(changed=True)
expected_commands = [
'interface ethernet 1/1/9',
'speed-duplex 1000-full',
'port-name welcome port9',
'inline power',
'enable',
'interface ethernet 1/1/10',
'speed-duplex 1000-full',
'port-name welcome port10',
'inline power',
'enable'
]
self.assertEqual(result['commands'], expected_commands)
def test_icx_interface_lag_config(self):
set_module_args(dict(name='lag 11', description='lag ports of id 11', speed='auto'))
if not self.ENV_ICX_USE_DIFF:
result = self.execute_module(changed=True)
expected_commands = [
'interface lag 11',
'speed-duplex auto',
'port-name lag ports of id 11',
'enable'
]
self.assertEqual(result['commands'], expected_commands)
else:
result = self.execute_module(changed=True)
expected_commands = [
'interface lag 11',
'speed-duplex auto',
'port-name lag ports of id 11'
]
self.assertEqual(result['commands'], expected_commands)
def test_icx_interface_loopback_config(self):
set_module_args(dict(name='loopback 10', description='loopback ports', enabled=True))
if not self.ENV_ICX_USE_DIFF:
result = self.execute_module(changed=True)
expected_commands = [
'interface loopback 10',
'port-name loopback ports',
'enable'
]
self.assertEqual(result['commands'], expected_commands)
else:
result = self.execute_module(changed=True)
expected_commands = [
'interface loopback 10',
'port-name loopback ports',
'enable'
]
self.assertEqual(result['commands'], expected_commands)
def test_icx_interface_state_up_cndt(self):
set_module_args(dict(name='ethernet 1/1/1', state='up', tx_rate='ge(0)'))
if not self.ENV_ICX_USE_DIFF:
self.assertTrue(self.execute_module(failed=True))
else:
self.assertTrue(self.execute_module(failed=False))
def test_icx_interface_lldp_neighbors_cndt(self):
set_module_args(dict(name='ethernet 1/1/48', neighbors=[dict(port='GigabitEthernet1/1/48', host='ICX7150-48 Router')]))
if not self.ENV_ICX_USE_DIFF:
self.assertTrue(self.execute_module(changed=False, failed=True))
else:
self.assertTrue(self.execute_module(changed=False, failed=False))
def test_icx_interface_disable_compare(self):
set_module_args(dict(name='ethernet 1/1/1', enabled=True, check_running_config='True'))
if self.get_running_config(compare=True):
if not self.ENV_ICX_USE_DIFF:
result = self.execute_module(changed=False)
self.assertEqual(result['commands'], [])
else:
result = self.execute_module(changed=False)
self.assertEqual(result['commands'], [])
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