#!/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 .
#
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'network'}
DOCUMENTATION = """
---
module: nxos_facts
extends_documentation_fragment: nxos
version_added: "2.1"
short_description: Gets facts about NX-OS switches
description:
- Collects facts from Cisco Nexus devices running the NX-OS operating
system. Fact collection is supported over both Cli and Nxapi
transports. This module prepends all of the base network fact keys
with C(ansible_net_). The facts module will always collect a
base set of facts from the device and can enable or disable
collection of additional facts.
author:
- Jason Edelman (@jedelman8)
- Gabriele Gerbino (@GGabriele)
notes:
- Tested against NXOSv 7.3.(0)D1(1) on VIRL
options:
gather_subset:
description:
- When supplied, this argument will restrict the facts collected
to a given subset. Possible values for this argument include
all, hardware, config, legacy, and interfaces. Can specify a
list of values to include a larger subset. Values can also be used
with an initial C(M(!)) to specify that a specific subset should
not be collected.
required: false
default: '!config'
version_added: "2.2"
"""
EXAMPLES = """
- nxos_facts:
gather_subset: all
# Collect only the config and default facts
- nxos_facts:
gather_subset:
- config
# Do not collect hardware facts
- nxos_facts:
gather_subset:
- "!hardware"
"""
RETURN = """
ansible_net_gather_subset:
description: The list of fact subsets collected from the device
returned: always
type: list
# default
ansible_net_model:
description: The model name returned from the device
returned: always
type: str
ansible_net_serialnum:
description: The serial number of the remote device
returned: always
type: str
ansible_net_version:
description: The operating system version running on the remote device
returned: always
type: str
ansible_net_hostname:
description: The configured hostname of the device
returned: always
type: string
ansible_net_image:
description: The image file the device is running
returned: always
type: string
# hardware
ansible_net_filesystems:
description: All file system names available on the device
returned: when hardware is configured
type: list
ansible_net_memfree_mb:
description: The available free memory on the remote device in Mb
returned: when hardware is configured
type: int
ansible_net_memtotal_mb:
description: The total memory on the remote device in Mb
returned: when hardware is configured
type: int
# config
ansible_net_config:
description: The current active config from the device
returned: when config is configured
type: str
# interfaces
ansible_net_all_ipv4_addresses:
description: All IPv4 addresses configured on the device
returned: when interfaces is configured
type: list
ansible_net_all_ipv6_addresses:
description: All IPv6 addresses configured on the device
returned: when interfaces is configured
type: list
ansible_net_interfaces:
description: A hash of all interfaces running on the system
returned: when interfaces is configured
type: dict
ansible_net_neighbors:
description: The list of LLDP/CDP neighbors from the remote device
returned: when interfaces is configured
type: dict
# legacy (pre Ansible 2.2)
fan_info:
description: A hash of facts about fans in the remote device
returned: when legacy is configured
type: dict
hostname:
description: The configured hostname of the remote device
returned: when legacy is configured
type: dict
interfaces_list:
description: The list of interface names on the remote device
returned: when legacy is configured
type: dict
kickstart:
description: The software version used to boot the system
returned: when legacy is configured
type: str
module:
description: A hash of facts about the modules in a remote device
returned: when legacy is configured
type: dict
platform:
description: The hardware platform reported by the remote device
returned: when legacy is configured
type: str
power_supply_info:
description: A hash of facts about the power supplies in the remote device
returned: when legacy is configured
type: str
vlan_list:
description: The list of VLAN IDs configured on the remote device
returned: when legacy is configured
type: list
"""
import re
from ansible.module_utils.network.nxos.nxos import run_commands, get_config
from ansible.module_utils.network.nxos.nxos import get_capabilities, get_interface_type
from ansible.module_utils.network.nxos.nxos import nxos_argument_spec, check_args
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.connection import ConnectionError
from ansible.module_utils.six import string_types, iteritems
class FactsBase(object):
def __init__(self, module):
self.module = module
self.warnings = list()
self.facts = dict()
def populate(self):
pass
def run(self, command, output='text'):
command_string = command
command = {
'command': command,
'output': output
}
resp = run_commands(self.module, [command], check_rc=False)
try:
return resp[0]
except IndexError:
self.warnings.append('command %s failed, facts for this command will not be populated' % command_string)
return None
def transform_dict(self, data, keymap):
transform = dict()
for key, fact in keymap:
if key in data:
transform[fact] = data[key]
return transform
def transform_iterable(self, iterable, keymap):
for item in iterable:
yield self.transform_dict(item, keymap)
class Default(FactsBase):
VERSION_MAP_7K = frozenset([
('sys_ver_str', 'version'),
('proc_board_id', 'serialnum'),
('chassis_id', 'model'),
('isan_file_name', 'image'),
('host_name', 'hostname')
])
VERSION_MAP = frozenset([
('kickstart_ver_str', 'version'),
('proc_board_id', 'serialnum'),
('chassis_id', 'model'),
('kick_file_name', 'image'),
('host_name', 'hostname')
])
def populate(self):
data = None
try:
data = self.run('show version', output='json')
except ConnectionError:
data = self.run('show version')
if data:
if isinstance(data, dict):
if data.get('sys_ver_str'):
self.facts.update(self.transform_dict(data, self.VERSION_MAP_7K))
else:
self.facts.update(self.transform_dict(data, self.VERSION_MAP))
else:
self.facts['version'] = self.parse_version(data)
self.facts['serialnum'] = self.parse_serialnum(data)
self.facts['model'] = self.parse_model(data)
self.facts['image'] = self.parse_image(data)
self.facts['hostname'] = self.parse_hostname(data)
def parse_version(self, data):
match = re.search(r'\s+system:\s+version\s*(\S+)', data, re.M)
if match:
return match.group(1)
else:
match = re.search(r'\s+kickstart:\s+version\s*(\S+)', data, re.M)
if match:
return match.group(1)
def parse_serialnum(self, data):
match = re.search(r'Processor Board ID\s*(\S+)', data, re.M)
if match:
return match.group(1)
def parse_model(self, data):
match = re.search(r'Hardware\n\s+cisco\s*(\S+\s+\S+)', data, re.M)
if match:
return match.group(1)
def parse_image(self, data):
match = re.search(r'\s+system image file is:\s*(\S+)', data, re.M)
if match:
return match.group(1)
else:
match = re.search(r'\s+kickstart image file is:\s*(\S+)', data, re.M)
if match:
return match.group(1)
def parse_hostname(self, data):
match = re.search(r'\s+Device name:\s*(\S+)', data, re.M)
if match:
return match.group(1)
class Config(FactsBase):
def populate(self):
super(Config, self).populate()
self.facts['config'] = get_config(self.module)
class Hardware(FactsBase):
def populate(self):
data = self.run('dir')
if data:
self.facts['filesystems'] = self.parse_filesystems(data)
data = None
try:
data = self.run('show system resources', output='json')
except ConnectionError:
data = self.run('show system resources')
if data:
if isinstance(data, dict):
self.facts['memtotal_mb'] = int(data['memory_usage_total']) / 1024
self.facts['memfree_mb'] = int(data['memory_usage_free']) / 1024
else:
self.facts['memtotal_mb'] = self.parse_memtotal_mb(data)
self.facts['memfree_mb'] = self.parse_memfree_mb(data)
def parse_filesystems(self, data):
return re.findall(r'^Usage for (\S+)//', data, re.M)
def parse_memtotal_mb(self, data):
match = re.search(r'(\S+)K(\s+|)total', data, re.M)
if match:
memtotal = match.group(1)
return int(memtotal) / 1024
def parse_memfree_mb(self, data):
match = re.search(r'(\S+)K(\s+|)free', data, re.M)
if match:
memfree = match.group(1)
return int(memfree) / 1024
class Interfaces(FactsBase):
INTERFACE_MAP = frozenset([
('state', 'state'),
('desc', 'description'),
('eth_bw', 'bandwidth'),
('eth_duplex', 'duplex'),
('eth_speed', 'speed'),
('eth_mode', 'mode'),
('eth_hw_addr', 'macaddress'),
('eth_mtu', 'mtu'),
('eth_hw_desc', 'type')
])
INTERFACE_SVI_MAP = frozenset([
('svi_line_proto', 'state'),
('svi_bw', 'bandwidth'),
('svi_mac', 'macaddress'),
('svi_mtu', 'mtu'),
('type', 'type')
])
INTERFACE_IPV4_MAP = frozenset([
('eth_ip_addr', 'address'),
('eth_ip_mask', 'masklen')
])
INTERFACE_SVI_IPV4_MAP = frozenset([
('svi_ip_addr', 'address'),
('svi_ip_mask', 'masklen')
])
INTERFACE_IPV6_MAP = frozenset([
('addr', 'address'),
('prefix', 'subnet')
])
def ipv6_structure_op_supported(self):
data = get_capabilities(self.module)
if data:
nxos_os_version = data['device_info']['network_os_version']
unsupported_versions = ['I2', 'F1', 'A8']
for ver in unsupported_versions:
if ver in nxos_os_version:
return False
return True
def populate(self):
self.facts['all_ipv4_addresses'] = list()
self.facts['all_ipv6_addresses'] = list()
data = None
try:
data = self.run('show interface', output='json')
except ConnectionError:
data = self.run('show interface')
if data:
if isinstance(data, dict):
self.facts['interfaces'] = self.populate_structured_interfaces(data)
else:
interfaces = self.parse_interfaces(data)
self.facts['interfaces'] = self.populate_interfaces(interfaces)
if self.ipv6_structure_op_supported():
try:
data = self.run('show ipv6 interface', output='json')
except ConnectionError:
data = self.run('show ipv6 interface')
else:
data = None
if data:
if isinstance(data, dict):
self.populate_structured_ipv6_interfaces(data)
else:
interfaces = self.parse_interfaces(data)
self.populate_ipv6_interfaces(interfaces)
data = self.run('show lldp neighbors')
if data:
self.facts['neighbors'] = self.populate_neighbors(data)
try:
data = self.run('show cdp neighbors detail', output='json')
except ConnectionError:
data = self.run('show cdp neighbors detail')
if data:
if isinstance(data, dict):
self.facts['neighbors'] = self.populate_structured_neighbors_cdp(data)
else:
self.facts['neighbors'] = self.populate_neighbors_cdp(data)
def populate_structured_interfaces(self, data):
interfaces = dict()
for item in data['TABLE_interface']['ROW_interface']:
name = item['interface']
intf = dict()
if 'type' in item:
intf.update(self.transform_dict(item, self.INTERFACE_SVI_MAP))
else:
intf.update(self.transform_dict(item, self.INTERFACE_MAP))
if 'eth_ip_addr' in item:
intf['ipv4'] = self.transform_dict(item, self.INTERFACE_IPV4_MAP)
self.facts['all_ipv4_addresses'].append(item['eth_ip_addr'])
if 'svi_ip_addr' in item:
intf['ipv4'] = self.transform_dict(item, self.INTERFACE_SVI_IPV4_MAP)
self.facts['all_ipv4_addresses'].append(item['svi_ip_addr'])
interfaces[name] = intf
return interfaces
def populate_structured_ipv6_interfaces(self, data):
try:
data = data['TABLE_intf']
if data:
if isinstance(data, dict):
data = [data]
for item in data:
name = item['ROW_intf']['intf-name']
intf = self.facts['interfaces'][name]
intf['ipv6'] = self.transform_dict(item, self.INTERFACE_IPV6_MAP)
try:
addr = item['ROW_intf']['addr']
except KeyError:
addr = item['ROW_intf']['TABLE_addr']['ROW_addr']['addr']
self.facts['all_ipv6_addresses'].append(addr)
else:
return ""
except TypeError:
return ""
def populate_structured_neighbors_cdp(self, data):
objects = dict()
data = data['TABLE_cdp_neighbor_detail_info']['ROW_cdp_neighbor_detail_info']
if isinstance(data, dict):
data = [data]
for item in data:
local_intf = item['intf_id']
objects[local_intf] = list()
nbor = dict()
nbor['port'] = item['port_id']
nbor['sysname'] = item['device_id']
objects[local_intf].append(nbor)
return objects
def parse_interfaces(self, data):
parsed = dict()
key = ''
for line in data.split('\n'):
if len(line) == 0:
continue
elif line.startswith('admin') or line[0] == ' ':
parsed[key] += '\n%s' % line
else:
match = re.match(r'^(\S+)', line)
if match:
key = match.group(1)
if not key.startswith('admin') or not key.startswith('IPv6 Interface'):
parsed[key] = line
return parsed
def populate_interfaces(self, interfaces):
facts = dict()
for key, value in iteritems(interfaces):
intf = dict()
if get_interface_type(key) == 'svi':
intf['state'] = self.parse_state(key, value, intf_type='svi')
intf['macaddress'] = self.parse_macaddress(value, intf_type='svi')
intf['mtu'] = self.parse_mtu(value, intf_type='svi')
intf['bandwidth'] = self.parse_bandwidth(value, intf_type='svi')
intf['type'] = self.parse_type(value, intf_type='svi')
if 'Internet Address' in value:
intf['ipv4'] = self.parse_ipv4_address(value, intf_type='svi')
facts[key] = intf
else:
intf['state'] = self.parse_state(key, value)
intf['description'] = self.parse_description(value)
intf['macaddress'] = self.parse_macaddress(value)
intf['mode'] = self.parse_mode(value)
intf['mtu'] = self.parse_mtu(value)
intf['bandwidth'] = self.parse_bandwidth(value)
intf['duplex'] = self.parse_duplex(value)
intf['speed'] = self.parse_speed(value)
intf['type'] = self.parse_type(value)
if 'Internet Address' in value:
intf['ipv4'] = self.parse_ipv4_address(value)
facts[key] = intf
return facts
def parse_state(self, key, value, intf_type='ethernet'):
match = None
if intf_type == 'svi':
match = re.search(r'line protocol is\s*(\S+)', value, re.M)
else:
match = re.search(r'%s is\s*(\S+)' % key, value, re.M)
if match:
return match.group(1)
def parse_macaddress(self, value, intf_type='ethernet'):
match = None
if intf_type == 'svi':
match = re.search(r'address is\s*(\S+)', value, re.M)
else:
match = re.search(r'address:\s*(\S+)', value, re.M)
if match:
return match.group(1)
def parse_mtu(self, value, intf_type='ethernet'):
match = re.search(r'MTU\s*(\S+)', value, re.M)
if match:
return match.group(1)
def parse_bandwidth(self, value, intf_type='ethernet'):
match = re.search(r'BW\s*(\S+)', value, re.M)
if match:
return match.group(1)
def parse_type(self, value, intf_type='ethernet'):
match = None
if intf_type == 'svi':
match = re.search(r'Hardware is\s*(\S+)', value, re.M)
else:
match = re.search(r'Hardware:\s*(.+),', value, re.M)
if match:
return match.group(1)
def parse_description(self, value, intf_type='ethernet'):
match = re.search(r'Description: (.+)$', value, re.M)
if match:
return match.group(1)
def parse_mode(self, value, intf_type='ethernet'):
match = re.search(r'Port mode is (\S+)', value, re.M)
if match:
return match.group(1)
def parse_duplex(self, value, intf_type='ethernet'):
match = re.search(r'(\S+)-duplex', value, re.M)
if match:
return match.group(1)
def parse_speed(self, value, intf_type='ethernet'):
match = re.search(r'duplex, (.+)$', value, re.M)
if match:
return match.group(1)
def parse_ipv4_address(self, value, intf_type='ethernet'):
ipv4 = {}
match = re.search(r'Internet Address is (.+)$', value, re.M)
if match:
address = match.group(1)
addr = address.split('/')[0]
ipv4['address'] = address.split('/')[0]
ipv4['masklen'] = address.split('/')[1]
self.facts['all_ipv4_addresses'].append(addr)
return ipv4
def populate_neighbors(self, data):
objects = dict()
if isinstance(data, str):
# if there are no neighbors the show command returns
# ERROR: No neighbour information
if data.startswith('ERROR'):
return dict()
regex = re.compile(r'(\S+)\s+(\S+)\s+\d+\s+\w+\s+(\S+)')
for item in data.split('\n')[4:-1]:
match = regex.match(item)
if match:
nbor = {'host': match.group(1), 'port': match.group(3)}
if match.group(2) not in objects:
objects[match.group(2)] = []
objects[match.group(2)].append(nbor)
elif isinstance(data, dict):
data = data['TABLE_nbor']['ROW_nbor']
if isinstance(data, dict):
data = [data]
for item in data:
local_intf = item['l_port_id']
if local_intf not in objects:
objects[local_intf] = list()
nbor = dict()
nbor['port'] = item['port_id']
nbor['host'] = item['chassis_id']
objects[local_intf].append(nbor)
return objects
def populate_neighbors_cdp(self, data):
facts = dict()
for item in data.split('----------------------------------------'):
if item == '':
continue
local_intf = self.parse_lldp_intf(item)
if local_intf not in facts:
facts[local_intf] = list()
fact = dict()
fact['port'] = self.parse_lldp_port(item)
fact['sysname'] = self.parse_lldp_sysname(item)
facts[local_intf].append(facts)
return facts
def parse_lldp_intf(self, data):
match = re.search(r'Interface:\s*(\S+)', data, re.M)
if match:
return match.group(1)
def parse_lldp_port(self, data):
match = re.search(r'Port ID \(outgoing port\):\s*(\S+)', data, re.M)
if match:
return match.group(1)
def parse_lldp_sysname(self, data):
match = re.search(r'Device ID:(.+)$', data, re.M)
if match:
return match.group(1)
def populate_ipv6_interfaces(self, interfaces):
facts = dict()
for key, value in iteritems(interfaces):
intf = dict()
intf['ipv6'] = self.parse_ipv6_address(value)
facts[key] = intf
def parse_ipv6_address(self, value):
ipv6 = {}
match_addr = re.search(r'IPv6 address:\s*(\S+)', value, re.M)
if match_addr:
addr = match_addr.group(1)
ipv6['address'] = addr
self.facts['all_ipv6_addresses'].append(addr)
match_subnet = re.search(r'IPv6 subnet:\s*(\S+)', value, re.M)
if match_subnet:
ipv6['subnet'] = match_subnet.group(1)
return ipv6
class Legacy(FactsBase):
# facts from nxos_facts 2.1
VERSION_MAP = frozenset([
('host_name', '_hostname'),
('kickstart_ver_str', '_os'),
('chassis_id', '_platform')
])
MODULE_MAP = frozenset([
('model', 'model'),
('modtype', 'type'),
('ports', 'ports'),
('status', 'status')
])
FAN_MAP = frozenset([
('fanname', 'name'),
('fanmodel', 'model'),
('fanhwver', 'hw_ver'),
('fandir', 'direction'),
('fanstatus', 'status')
])
POWERSUP_MAP = frozenset([
('psmodel', 'model'),
('psnum', 'number'),
('ps_status', 'status'),
('actual_out', 'actual_output'),
('actual_in', 'actual_in'),
('total_capa', 'total_capacity')
])
def populate(self):
data = None
try:
data = self.run('show version')
except ConnectionError:
data = self.run('show version', output='json')
if data:
if isinstance(data, dict):
self.facts.update(self.transform_dict(data, self.VERSION_MAP))
else:
self.facts['_hostname'] = self.parse_hostname(data)
self.facts['_os'] = self.parse_os(data)
self.facts['_platform'] = self.parse_platform(data)
try:
data = self.run('show interface', output='json')
except ConnectionError:
data = self.run('show interface')
if data:
if isinstance(data, dict):
self.facts['_interfaces_list'] = self.parse_structured_interfaces(data)
else:
self.facts['_interfaces_list'] = self.parse_interfaces(data)
try:
data = self.run('show vlan brief', output='json')
except ConnectionError:
data = self.run('show vlan brief')
if data:
if isinstance(data, dict):
self.facts['_vlan_list'] = self.parse_structured_vlans(data)
else:
self.facts['_vlan_list'] = self.parse_vlans(data)
try:
data = self.run('show module', output='json')
except ConnectionError:
data = self.run('show module')
if data:
if isinstance(data, dict):
self.facts['_module'] = self.parse_structured_module(data)
else:
self.facts['_module'] = self.parse_module(data)
try:
data = self.run('show environment fan', output='json')
except ConnectionError:
data = self.run('show environment fan')
if data:
if isinstance(data, dict):
self.facts['_fan_info'] = self.parse_structured_fan_info(data)
else:
self.facts['_fan_info'] = self.parse_fan_info(data)
try:
data = self.run('show environment power', output='json')
except ConnectionError:
data = self.run('show environment power')
if data:
if isinstance(data, dict):
self.facts['_power_supply_info'] = self.parse_structured_power_supply_info(data)
else:
self.facts['_power_supply_info'] = self.parse_power_supply_info(data)
def parse_structured_interfaces(self, data):
objects = list()
for item in data['TABLE_interface']['ROW_interface']:
objects.append(item['interface'])
return objects
def parse_structured_vlans(self, data):
objects = list()
data = data['TABLE_vlanbriefxbrief']['ROW_vlanbriefxbrief']
if isinstance(data, dict):
objects.append(data['vlanshowbr-vlanid-utf'])
elif isinstance(data, list):
for item in data:
objects.append(item['vlanshowbr-vlanid-utf'])
return objects
def parse_structured_module(self, data):
data = data['TABLE_modinfo']['ROW_modinfo']
if isinstance(data, dict):
data = [data]
objects = list(self.transform_iterable(data, self.MODULE_MAP))
return objects
def parse_structured_fan_info(self, data):
objects = list()
if data.get('fandetails'):
data = data['fandetails']['TABLE_faninfo']['ROW_faninfo']
elif data.get('fandetails_3k'):
data = data['fandetails_3k']['TABLE_faninfo']['ROW_faninfo']
else:
return objects
objects = list(self.transform_iterable(data, self.FAN_MAP))
return objects
def parse_structured_power_supply_info(self, data):
if data.get('powersup').get('TABLE_psinfo_n3k'):
data = data['powersup']['TABLE_psinfo_n3k']['ROW_psinfo_n3k']
else:
data = data['powersup']['TABLE_psinfo']['ROW_psinfo']
objects = list(self.transform_iterable(data, self.POWERSUP_MAP))
return objects
def parse_hostname(self, data):
match = re.search(r'\s+Device name:\s+(\S+)', data, re.M)
if match:
return match.group(1)
def parse_os(self, data):
match = re.search(r'\s+system:\s+version\s*(\S+)', data, re.M)
if match:
return match.group(1)
else:
match = re.search(r'\s+kickstart:\s+version\s*(\S+)', data, re.M)
if match:
return match.group(1)
def parse_platform(self, data):
match = re.search(r'Hardware\n\s+cisco\s+(\S+\s+\S+)', data, re.M)
if match:
return match.group(1)
def parse_interfaces(self, data):
objects = list()
for line in data.split('\n'):
if len(line) == 0:
continue
elif line.startswith('admin') or line[0] == ' ':
continue
else:
match = re.match(r'^(\S+)', line)
if match:
intf = match.group(1)
if get_interface_type(intf) != 'unknown':
objects.append(intf)
return objects
def parse_vlans(self, data):
objects = list()
for line in data.splitlines():
if line == '':
continue
if line[0].isdigit():
vlan = line.split()[0]
objects.append(vlan)
return objects
def parse_module(self, data):
objects = list()
for line in data.splitlines():
if line == '':
break
if line[0].isdigit():
obj = {}
match_port = re.search(r'\d\s*(\d*)', line, re.M)
if match_port:
obj['ports'] = match_port.group(1)
match = re.search(r'\d\s*\d*\s*(.+)$', line, re.M)
if match:
l = match.group(1).split(' ')
items = list()
for item in l:
if item == '':
continue
items.append(item.strip())
if items:
obj['type'] = items[0]
obj['model'] = items[1]
obj['status'] = items[2]
objects.append(obj)
return objects
def parse_fan_info(self, data):
objects = list()
for l in data.splitlines():
if '-----------------' in l or 'Status' in l:
continue
line = l.split()
if len(line) > 1:
obj = {}
obj['name'] = line[0]
obj['model'] = line[1]
obj['hw_ver'] = line[-2]
obj['status'] = line[-1]
objects.append(obj)
return objects
def parse_power_supply_info(self, data):
objects = list()
for l in data.splitlines():
if l == '':
break
if l[0].isdigit():
obj = {}
line = l.split()
obj['model'] = line[1]
obj['number'] = line[0]
obj['status'] = line[-1]
objects.append(obj)
return objects
FACT_SUBSETS = dict(
default=Default,
legacy=Legacy,
hardware=Hardware,
interfaces=Interfaces,
config=Config,
)
VALID_SUBSETS = frozenset(FACT_SUBSETS.keys())
def main():
spec = dict(
gather_subset=dict(default=['!config'], type='list')
)
spec.update(nxos_argument_spec)
module = AnsibleModule(argument_spec=spec, supports_check_mode=True)
warnings = list()
check_args(module, warnings)
gather_subset = module.params['gather_subset']
runable_subsets = set()
exclude_subsets = set()
for subset in gather_subset:
if subset == 'all':
runable_subsets.update(VALID_SUBSETS)
continue
if subset.startswith('!'):
subset = subset[1:]
if subset == 'all':
exclude_subsets.update(VALID_SUBSETS)
continue
exclude = True
else:
exclude = False
if subset not in VALID_SUBSETS:
module.fail_json(msg='Bad subset')
if exclude:
exclude_subsets.add(subset)
else:
runable_subsets.add(subset)
if not runable_subsets:
runable_subsets.update(VALID_SUBSETS)
runable_subsets.difference_update(exclude_subsets)
runable_subsets.add('default')
facts = dict()
facts['gather_subset'] = list(runable_subsets)
instances = list()
for key in runable_subsets:
instances.append(FACT_SUBSETS[key](module))
for inst in instances:
inst.populate()
facts.update(inst.facts)
warnings.extend(inst.warnings)
ansible_facts = dict()
for key, value in iteritems(facts):
# this is to maintain capability with nxos_facts 2.1
if key.startswith('_'):
ansible_facts[key[1:]] = value
else:
key = 'ansible_net_%s' % key
ansible_facts[key] = value
module.exit_json(ansible_facts=ansible_facts, warnings=warnings)
if __name__ == '__main__':
main()