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#!/usr/bin/python
#
# (c) 2020 Peter Sprygada, <psprygada@ansible.com>
# Copyright (c) 2020 Dell Inc.
# 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: os10_facts
author: "Senthil Kumar Ganesan (@skg-net)"
short_description: Collect facts from devices running Dell EMC SmartFabric OS10
description:
- Collects a base set of device facts from a remote device that
is running OS10. This module prepends all of the
base network fact keys with C(ansible_net_<fact>). The facts
module will always collect a base set of facts from the device
and can enable or disable collection of additional facts.
extends_documentation_fragment: dellemc.os10.os10
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, 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.
type: list
default: [ '!config' ]
"""
EXAMPLES = """
# Collect all facts from the device
- os10_facts:
gather_subset: all
# Collect only the config and default facts
- os10_facts:
gather_subset:
- config
# Do not collect hardware facts
- os10_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_name:
description: The name of the OS that is running.
returned: Always.
type: str
ansible_net_version:
description: The operating system version running on the remote device
returned: always
type: str
ansible_net_servicetag:
description: The service tag number of the remote device.
returned: always
type: str
ansible_net_model:
description: The model name returned from the device.
returned: always
type: str
ansible_net_hostname:
description: The configured hostname of the device
returned: always
type: str
# hardware
ansible_net_cpu_arch:
description: CPU Architecture of the remote device.
returned: when hardware is configured
type: str
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 neighbors from the remote device
returned: when interfaces is configured
type: dict
"""
import re
try:
from lxml import etree as ET
except ImportError:
import xml.etree.ElementTree as ET
from ansible_collections.dellemc.os10.plugins.module_utils.network.os10 import run_commands
from ansible_collections.dellemc.os10.plugins.module_utils.network.os10 import os10_argument_spec, check_args
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.six import iteritems
class FactsBase(object):
COMMANDS = []
def __init__(self, module):
self.module = module
self.facts = dict()
self.responses = None
def populate(self):
self.responses = run_commands(self.module, self.COMMANDS, check_rc=False)
def run(self, cmd):
return run_commands(self.module, cmd, check_rc=False)
class Default(FactsBase):
COMMANDS = [
'show version | display-xml',
'show system | display-xml',
]
def populate(self):
super(Default, self).populate()
data = self.responses[0]
xml_data = ET.fromstring(data.encode('utf8'))
self.facts['name'] = self.parse_name(xml_data)
self.facts['version'] = self.parse_version(xml_data)
self.facts['model'] = self.parse_model(xml_data)
self.facts['hostname'] = self.parse_hostname(xml_data)
data = self.responses[1]
xml_data = ET.fromstring(data.encode('utf8'))
self.facts['servicetag'] = self.parse_servicetag(xml_data)
def parse_name(self, data):
sw_name = data.find('./data/system-sw-state/sw-version/sw-name')
if sw_name is not None:
return sw_name.text
else:
return ""
def parse_version(self, data):
sw_ver = data.find('./data/system-sw-state/sw-version/sw-version')
if sw_ver is not None:
return sw_ver.text
else:
return ""
def parse_hostname(self, data):
hostname = data.find('./data/system-state/system-status/hostname')
if hostname is not None:
return hostname.text
else:
return ""
def parse_model(self, data):
prod_name = data.find('./data/system-sw-state/sw-version/sw-platform')
if prod_name is not None:
return prod_name.text
else:
return ""
def parse_servicetag(self, data):
svc_tag = data.find('./data/system/node/unit/mfg-info/service-tag')
if svc_tag is not None:
return svc_tag.text
else:
return ""
class Hardware(FactsBase):
COMMANDS = [
'show version | display-xml',
'show processes node-id 1 | grep "Mem :"'
]
def populate(self):
super(Hardware, self).populate()
data = self.responses[0]
xml_data = ET.fromstring(data.encode('utf8'))
self.facts['cpu_arch'] = self.parse_cpu_arch(xml_data)
data = self.responses[1]
match = self.parse_memory(data)
if match:
self.facts['memtotal_mb'] = int(match[0]) // 1024
self.facts['memfree_mb'] = int(match[1]) // 1024
def parse_cpu_arch(self, data):
cpu_arch = data.find('./data/system-sw-state/sw-version/cpu-arch')
if cpu_arch is not None:
return cpu_arch.text
else:
return ""
def parse_memory(self, data):
return re.findall(r'(\d+)', data, re.M)
class Config(FactsBase):
COMMANDS = ['show running-config']
def populate(self):
super(Config, self).populate()
self.facts['config'] = self.responses[0]
class Interfaces(FactsBase):
COMMANDS = [
'show interface | display-xml',
'show lldp neighbors | display-xml'
]
def __init__(self, module):
self.intf_facts = dict()
self.lldp_facts = dict()
super(Interfaces, self).__init__(module)
def populate(self):
super(Interfaces, self).populate()
self.facts['all_ipv4_addresses'] = list()
self.facts['all_ipv6_addresses'] = list()
int_show_data = (self.responses[0]).splitlines()
pattern = '?xml version'
data = ''
skip = True
# The output returns multiple xml trees
# parse them before handling.
for line in int_show_data:
if pattern in line:
if skip is False:
xml_data = ET.fromstring(data.encode('utf8'))
self.populate_interfaces(xml_data)
data = ''
else:
skip = False
data += line
if skip is False:
xml_data = ET.fromstring(data.encode('utf8'))
self.populate_interfaces(xml_data)
self.facts['interfaces'] = self.intf_facts
lldp_data = (self.responses[1]).splitlines()
data = ''
skip = True
# The output returns multiple xml trees
# parse them before handling.
for line in lldp_data:
if pattern in line:
if skip is False:
xml_data = ET.fromstring(data.encode('utf8'))
self.populate_neighbors(xml_data)
data = ''
else:
skip = False
data += line
if skip is False:
xml_data = ET.fromstring(data.encode('utf8'))
self.populate_neighbors(xml_data)
self.facts['neighbors'] = self.lldp_facts
def populate_interfaces(self, interfaces):
for interface in interfaces.findall('./data/interfaces/interface'):
intf = dict()
name = self.parse_item(interface, 'name')
intf['description'] = self.parse_item(interface, 'description')
intf['duplex'] = self.parse_item(interface, 'duplex')
intf['primary_ipv4'] = self.parse_primary_ipv4(interface)
intf['secondary_ipv4'] = self.parse_secondary_ipv4(interface)
intf['ipv6'] = self.parse_ipv6_address(interface)
intf['mtu'] = self.parse_item(interface, 'mtu')
intf['type'] = self.parse_item(interface, 'type')
self.intf_facts[name] = intf
for interface in interfaces.findall('./bulk/data/interface'):
name = self.parse_item(interface, 'name')
try:
intf = self.intf_facts[name]
intf['bandwidth'] = self.parse_item(interface, 'speed')
intf['adminstatus'] = self.parse_item(interface, 'admin-status')
intf['operstatus'] = self.parse_item(interface, 'oper-status')
intf['macaddress'] = self.parse_item(interface, 'phys-address')
except KeyError:
# skip the reserved interfaces
pass
for interface in interfaces.findall('./data/ports/ports-state/port'):
name = self.parse_item(interface, 'name')
# media-type name interface name format phy-eth 1/1/1
mediatype = self.parse_item(interface, 'media-type')
typ, sname = name.split('-eth')
name = "ethernet" + sname
try:
intf = self.intf_facts[name]
intf['mediatype'] = mediatype
except Exception:
# fanout
for subport in range(1, 5):
name = "ethernet" + sname + ":" + str(subport)
try:
intf = self.intf_facts[name]
intf['mediatype'] = mediatype
except Exception:
# valid case to handle 2x50G
pass
def add_ip_address(self, address, family):
if family == 'ipv4':
self.facts['all_ipv4_addresses'].append(address)
else:
self.facts['all_ipv6_addresses'].append(address)
def parse_item(self, interface, item):
elem = interface.find(item)
if elem is not None:
return elem.text
else:
return ""
def parse_primary_ipv4(self, interface):
ipv4 = interface.find('ipv4')
ip_address = ""
if ipv4 is not None:
prim_ipaddr = ipv4.find('./address/primary-addr')
if prim_ipaddr is not None:
ip_address = prim_ipaddr.text
self.add_ip_address(ip_address, 'ipv4')
return ip_address
def parse_secondary_ipv4(self, interface):
ipv4 = interface.find('ipv4')
ip_address = ""
if ipv4 is not None:
sec_ipaddr = ipv4.find('./address/secondary-addr')
if sec_ipaddr is not None:
ip_address = sec_ipaddr.text
self.add_ip_address(ip_address, 'ipv4')
return ip_address
def parse_ipv6_address(self, interface):
ip_address = list()
for addr in interface.findall('./ipv6/ipv6-addresses/address'):
ipv6_addr = addr.find('./ipv6-address')
if ipv6_addr is not None:
ip_address.append(ipv6_addr.text)
self.add_ip_address(ipv6_addr.text, 'ipv6')
return ip_address
def populate_neighbors(self, interfaces):
for interface in interfaces.findall('./bulk/data/interface'):
name = interface.find('name').text
rem_sys_name = interface.find('./lldp-rem-neighbor-info/info/rem-system-name')
if rem_sys_name is not None:
self.lldp_facts[name] = list()
fact = dict()
fact['host'] = rem_sys_name.text
rem_sys_port = interface.find('./lldp-rem-neighbor-info/info/rem-lldp-port-id')
fact['port'] = rem_sys_port.text
self.lldp_facts[name].append(fact)
FACT_SUBSETS = dict(
default=Default,
hardware=Hardware,
interfaces=Interfaces,
config=Config,
)
VALID_SUBSETS = frozenset(FACT_SUBSETS.keys())
def main():
"""main entry point for module execution
"""
argument_spec = dict(
gather_subset=dict(default=['!config'], type='list')
)
argument_spec.update(os10_argument_spec)
module = AnsibleModule(argument_spec=argument_spec,
supports_check_mode=True)
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)
ansible_facts = dict()
for key, value in iteritems(facts):
key = 'ansible_net_%s' % key
ansible_facts[key] = value
warnings = list()
check_args(module, warnings)
module.exit_json(ansible_facts=ansible_facts, warnings=warnings)
if __name__ == '__main__':
main()