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173
plugins/modules/network/ironware/ironware_command.py Normal file
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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: ironware_command
author: "Paul Baker (@paulquack)"
short_description: Run arbitrary commands on Extreme IronWare devices
description:
- Sends arbitrary commands to a Extreme Ironware node and returns the
results read from the device. This module includes a I(wait_for)
argument that will cause the module to wait for a specific condition
before returning or timing out if the condition is not met.
extends_documentation_fragment:
- community.general.ironware
options:
commands:
description:
- List of commands to send to the remote device over the
configured provider. The resulting output from the command
is returned. If the I(wait_for) argument is provided, the
module is not returned until the condition is satisfied or
the number of retires as expired.
required: true
wait_for:
description:
- List of conditions to evaluate against the output of the
command. The task will wait for each condition to be true
before moving forward. If the conditional is not true
within the configured number of retries, the task fails.
See examples.
match:
description:
- The I(match) argument is used in conjunction with the
I(wait_for) argument to specify the match policy. If the value
is set to C(all) then all conditionals in the I(wait_for) must be
satisfied. If the value is set to C(any) then only one of the
values must be satisfied.
default: all
choices: ['any', 'all']
retries:
description:
- Specifies the number of retries a command should by tried
before it is considered failed. The command is run on the
target device every retry and evaluated against the
I(wait_for) conditions.
default: 10
interval:
description:
- Configures the interval in seconds to wait between retries
of the command. If the command does not pass the specified
conditions, the interval indicates how long to wait before
trying the command again.
default: 1
'''
EXAMPLES = """
- ironware_command:
commands:
- show version
- ironware_command:
commands:
- show interfaces brief wide
- show mpls vll
"""
RETURN = """
stdout:
description: the set of responses from the commands
returned: always
type: list
sample: ['...', '...']
stdout_lines:
description: The value of stdout split into a list
returned: always
type: list
sample: [['...', '...'], ['...'], ['...']]
failed_conditions:
description: the conditionals that failed
returned: failed
type: list
sample: ['...', '...']
"""
import time
from ansible.module_utils.basic import AnsibleModule
from ansible_collections.community.general.plugins.module_utils.network.ironware.ironware import ironware_argument_spec, check_args
from ansible_collections.community.general.plugins.module_utils.network.ironware.ironware import run_commands
from ansible_collections.ansible.netcommon.plugins.module_utils.network.common.parsing import Conditional
from ansible.module_utils.six import string_types
def to_lines(stdout):
for item in stdout:
if isinstance(item, string_types):
item = str(item).split('\n')
yield item
def main():
spec = dict(
# { command: <str>, prompt: <str>, response: <str> }
commands=dict(type='list', required=True),
wait_for=dict(type='list'),
match=dict(default='all', choices=['all', 'any']),
retries=dict(default=10, type='int'),
interval=dict(default=1, type='int')
)
spec.update(ironware_argument_spec)
module = AnsibleModule(argument_spec=spec, supports_check_mode=True)
check_args(module)
result = {'changed': False}
wait_for = module.params['wait_for'] or list()
conditionals = [Conditional(c) for c in wait_for]
commands = module.params['commands']
retries = module.params['retries']
interval = module.params['interval']
match = module.params['match']
while retries > 0:
responses = run_commands(module, commands)
for item in list(conditionals):
if item(responses):
if match == 'any':
conditionals = list()
break
conditionals.remove(item)
if not conditionals:
break
time.sleep(interval)
retries -= 1
if conditionals:
failed_conditions = [item.raw for item in conditionals]
msg = 'One or more conditional statements have not been satisfied'
module.fail_json(msg=msg, failed_conditions=failed_conditions)
result.update({
'changed': False,
'stdout': responses,
'stdout_lines': list(to_lines(responses))
})
module.exit_json(**result)
if __name__ == '__main__':
main()

291
plugins/modules/network/ironware/ironware_config.py Normal file
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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: ironware_config
author: "Paul Baker (@paulquack)"
short_description: Manage configuration sections on Extreme Ironware devices
description:
- Extreme Ironware configurations use a simple block indent file syntax
for segmenting configuration into sections. This module provides
an implementation for working with Ironware configuration sections in
a deterministic way.
extends_documentation_fragment:
- community.general.ironware
options:
lines:
description:
- The ordered set of commands that should be configured in the
section. The commands must be the exact same commands as found
in the device running-config. Be sure to note the configuration
command syntax as some commands are automatically modified by the
device config parser.
aliases: ['commands']
parents:
description:
- The ordered set of parents that uniquely identify the section
the commands should be checked against. If the parents argument
is omitted, the commands are checked against the set of top
level or global commands.
src:
description:
- Specifies the source path to the file that contains the configuration
or configuration template to load. The path to the source file can
either be the full path on the Ansible control host or a relative
path from the playbook or role root directory. This argument is mutually
exclusive with I(lines), I(parents).
before:
description:
- The ordered set of commands to push on to the command stack if
a change needs to be made. This allows the playbook designer
the opportunity to perform configuration commands prior to pushing
any changes without affecting how the set of commands are matched
against the system
after:
description:
- The ordered set of commands to append to the end of the command
stack if a change needs to be made. Just like with I(before) this
allows the playbook designer to append a set of commands to be
executed after the command set.
match:
description:
- Instructs the module on the way to perform the matching of
the set of commands against the current device config. If
match is set to I(line), commands are matched line by line. If
match is set to I(strict), command lines are matched with respect
to position. If match is set to I(exact), command lines
must be an equal match. Finally, if match is set to I(none), the
module will not attempt to compare the source configuration with
the running configuration on the remote device.
default: line
choices: ['line', 'strict', 'exact', 'none']
replace:
description:
- Instructs the module on the way to perform the configuration
on the device. If the replace argument is set to I(line) then
the modified lines are pushed to the device in configuration
mode. If the replace argument is set to I(block) then the entire
command block is pushed to the device in configuration mode if any
line is not correct
default: line
choices: ['line', 'block']
update:
description:
- The I(update) argument controls how the configuration statements
are processed on the remote device. Valid choices for the I(update)
argument are I(merge) and I(check). When the argument is set to
I(merge), the configuration changes are merged with the current
device running configuration. When the argument is set to I(check)
the configuration updates are determined but not actually configured
on the remote device.
default: merge
choices: ['merge', 'check']
commit:
description:
- This argument specifies the update method to use when applying the
configuration changes to the remote node. If the value is set to
I(merge) the configuration updates are merged with the running-
config. If the value is set to I(check), no changes are made to
the remote host.
default: merge
choices: ['merge', 'check']
backup:
description:
- This argument will cause the module to create a full backup of
the current C(running-config) from the remote device before any
changes are made. If the C(backup_options) value is not given,
the backup file is written to the C(backup) folder in the playbook
root directory. If the directory does not exist, it is created.
type: bool
default: 'no'
config:
description:
- The C(config) argument allows the playbook designer to supply
the base configuration to be used to validate configuration
changes necessary. If this argument is provided, the module
will not download the running-config from the remote node.
save_when:
description:
- When changes are made to the device running-configuration, the
changes are not copied to non-volatile storage by default. Using
this argument will change that before. If the argument is set to
I(always), then the running-config will always be copied to the
startup-config and the I(modified) flag will always be set to
True. If the argument is set to I(modified), then the running-config
will only be copied to the startup-config if it has changed since
the last save to startup-config. If the argument is set to
I(never), the running-config will never be copied to the
startup-config
default: never
choices: ['always', 'never', 'modified']
backup_options:
description:
- This is a dict object containing configurable options related to backup file path.
The value of this option is read only when C(backup) is set to I(yes), if C(backup) is set
to I(no) this option will be silently ignored.
suboptions:
filename:
description:
- The filename to be used to store the backup configuration. If the filename
is not given it will be generated based on the hostname, current time and date
in format defined by <hostname>_config.<current-date>@<current-time>
dir_path:
description:
- This option provides the path ending with directory name in which the backup
configuration file will be stored. If the directory does not exist it will be first
created and the filename is either the value of C(filename) or default filename
as described in C(filename) options description. If the path value is not given
in that case a I(backup) directory will be created in the current working directory
and backup configuration will be copied in C(filename) within I(backup) directory.
type: path
type: dict
'''
EXAMPLES = """
- ironware_config:
lines:
- port-name test
- enable
- load-interval 30
- rate-limit input broadcast unknown-unicast multicast 521216 64000
parents: ['interface ethernet 1/2']
"""
RETURN = """
updates:
description: The set of commands that will be pushed to the remote device
returned: always
type: list
sample: ['...', '...']
backup_path:
description: The full path to the backup file
returned: when backup is yes
type: str
sample: /playbooks/ansible/backup/ironware_config.2016-07-16@22:28:34
"""
from ansible.module_utils.basic import AnsibleModule
from ansible_collections.community.general.plugins.module_utils.network.ironware.ironware import ironware_argument_spec, check_args
from ansible_collections.community.general.plugins.module_utils.network.ironware.ironware import get_config, load_config, run_commands
from ansible_collections.ansible.netcommon.plugins.module_utils.network.common.config import NetworkConfig, dumps
def get_candidate(module):
candidate = NetworkConfig(indent=1)
if module.params['src']:
candidate.load(module.params['src'])
elif module.params['lines']:
parents = module.params['parents'] or list()
candidate.add(module.params['lines'], parents=parents)
return candidate
def run(module, result):
match = module.params['match']
replace = module.params['replace']
path = module.params['parents']
configobjs = None
candidate = get_candidate(module)
if match != 'none':
contents = module.params['config']
if not contents:
contents = get_config(module)
config = NetworkConfig(indent=1, contents=contents)
configobjs = candidate.difference(config, path=path, match=match,
replace=replace)
else:
configobjs = candidate.items
if configobjs:
commands = dumps(configobjs, 'commands').split('\n')
if module.params['lines']:
if module.params['before']:
commands[:0] = module.params['before']
if module.params['after']:
commands.extend(module.params['after'])
result['updates'] = commands
# send the configuration commands to the device and merge
# them with the current running config
if not module.check_mode:
load_config(module, commands)
result['changed'] = True
if result['changed'] or module.params['save_when'] == 'always':
result['changed'] = True
if not module.check_mode:
cmd = {'command': 'write memory'}
run_commands(module, [cmd])
def main():
""" main entry point for module execution
"""
backup_spec = dict(
filename=dict(),
dir_path=dict(type='path')
)
argument_spec = dict(
src=dict(type='path'),
lines=dict(aliases=['commands'], type='list'),
parents=dict(type='list'),
before=dict(type='list'),
after=dict(type='list'),
match=dict(default='line', choices=['line', 'strict', 'exact', 'none']),
replace=dict(default='line', choices=['line', 'block']),
config=dict(),
backup=dict(type='bool', default=False),
backup_options=dict(type='dict', options=backup_spec),
save_when=dict(choices=['always', 'never', 'modified'], default='never')
)
argument_spec.update(ironware_argument_spec)
mutually_exclusive = [('lines', 'src'),
('parents', 'src')]
required_if = [('match', 'strict', ['lines']),
('match', 'exact', ['lines']),
('replace', 'block', ['lines'])]
module = AnsibleModule(argument_spec=argument_spec,
mutually_exclusive=mutually_exclusive,
required_if=required_if,
supports_check_mode=True)
result = {'changed': False}
check_args(module)
if module.params['backup']:
result['__backup__'] = get_config(module)
run(module, result)
module.exit_json(**result)
if __name__ == '__main__':
main()

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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: ironware_facts
author: "Paul Baker (@paulquack)"
short_description: Collect facts from devices running Extreme Ironware
description:
- Collects a base set of device facts from a remote device that
is running Ironware. 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:
- community.general.ironware
notes:
- Tested against Ironware 5.8e
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, mpls 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','!mpls']
'''
EXAMPLES = """
# Collect all facts from the device
- ironware_facts:
gather_subset: all
# Collect only the config and default facts
- ironware_facts:
gather_subset:
- config
# Do not collect hardware facts
- ironware_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
# 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
# mpls
ansible_net_mpls_lsps:
description: All MPLS LSPs configured on the device
returned: When LSP is configured
type: dict
ansible_net_mpls_vll:
description: All VLL instances configured on the device
returned: When MPLS VLL is configured
type: dict
ansible_net_mpls_vll_local:
description: All VLL-LOCAL instances configured on the device
returned: When MPLS VLL-LOCAL is configured
type: dict
ansible_net_mpls_vpls:
description: All VPLS instances configured on the device
returned: When MPLS VPLS is configured
type: dict
# 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
from ansible_collections.community.general.plugins.module_utils.network.ironware.ironware import run_commands
from ansible_collections.community.general.plugins.module_utils.network.ironware.ironware import ironware_argument_spec, check_args
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.six import iteritems
class FactsBase(object):
COMMANDS = list()
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',
'show chassis'
]
def populate(self):
super(Default, self).populate()
data = self.responses[0]
if data:
self.facts['version'] = self.parse_version(data)
self.facts['serialnum'] = self.parse_serialnum(data)
data = self.responses[1]
if data:
self.facts['model'] = self.parse_model(data)
def parse_version(self, data):
match = re.search(r'IronWare : Version (\S+)', data)
if match:
return match.group(1)
def parse_model(self, data):
match = re.search(r'^\*\*\* (.+) \*\*\*$', data, re.M)
if match:
return match.group(1)
def parse_serialnum(self, data):
match = re.search(r'Serial #: (\S+),', data)
if match:
return match.group(1)
class Hardware(FactsBase):
COMMANDS = [
'dir | include Directory',
'show memory'
]
def populate(self):
super(Hardware, self).populate()
data = self.responses[0]
if data:
self.facts['filesystems'] = self.parse_filesystems(data)
data = self.responses[1]
if data:
self.facts['memtotal_mb'] = int(round(int(self.parse_memtotal(data)) / 1024 / 1024, 0))
self.facts['memfree_mb'] = int(round(int(self.parse_memfree(data)) / 1024 / 1024, 0))
def parse_filesystems(self, data):
return re.findall(r'^Directory of (\S+)', data, re.M)
def parse_memtotal(self, data):
match = re.search(r'Total SDRAM\D*(\d+)\s', data, re.M)
if match:
return match.group(1)
def parse_memfree(self, data):
match = re.search(r'(Total Free Memory|Available Memory)\D*(\d+)\s', data, re.M)
if match:
return match.group(2)
class Config(FactsBase):
COMMANDS = ['show running-config']
def populate(self):
super(Config, self).populate()
data = self.responses[0]
if data:
self.facts['config'] = data
class MPLS(FactsBase):
COMMANDS = [
'show mpls lsp detail',
'show mpls vll-local detail',
'show mpls vll detail',
'show mpls vpls detail'
]
def populate(self):
super(MPLS, self).populate()
data = self.responses[0]
if data:
data = self.parse_mpls(data)
self.facts['mpls_lsps'] = self.populate_lsps(data)
data = self.responses[1]
if data:
data = self.parse_mpls(data)
self.facts['mpls_vll_local'] = self.populate_vll_local(data)
data = self.responses[2]
if data:
data = self.parse_mpls(data)
self.facts['mpls_vll'] = self.populate_vll(data)
data = self.responses[3]
if data:
data = self.parse_mpls(data)
self.facts['mpls_vpls'] = self.populate_vpls(data)
def parse_mpls(self, data):
parsed = dict()
for line in data.split('\n'):
if not line:
continue
elif line[0] == ' ':
parsed[key] += '\n%s' % line
else:
match = re.match(r'^(LSP|VLL|VPLS) ([^\s,]+)', line)
if match:
key = match.group(2)
parsed[key] = line
return parsed
def populate_vpls(self, vpls):
facts = dict()
for key, value in iteritems(vpls):
vpls = dict()
vpls['endpoints'] = self.parse_vpls_endpoints(value)
vpls['vc-id'] = self.parse_vpls_vcid(value)
facts[key] = vpls
return facts
def populate_vll_local(self, vll_locals):
facts = dict()
for key, value in iteritems(vll_locals):
vll = dict()
vll['endpoints'] = self.parse_vll_endpoints(value)
facts[key] = vll
return facts
def populate_vll(self, vlls):
facts = dict()
for key, value in iteritems(vlls):
vll = dict()
vll['endpoints'] = self.parse_vll_endpoints(value)
vll['vc-id'] = self.parse_vll_vcid(value)
vll['cos'] = self.parse_vll_cos(value)
facts[key] = vll
return facts
def parse_vll_vcid(self, data):
match = re.search(r'VC-ID (\d+),', data, re.M)
if match:
return match.group(1)
def parse_vll_cos(self, data):
match = re.search(r'COS +: +(\d+)', data, re.M)
if match:
return match.group(1)
def parse_vll_endpoints(self, data):
facts = list()
regex = r'End-point[0-9 ]*: +(?P<tagged>tagged|untagged) +(vlan +(?P<vlan>[0-9]+) +)?(inner- vlan +(?P<innervlan>[0-9]+) +)?(?P<port>e [0-9/]+|--)'
matches = re.finditer(regex, data, re.IGNORECASE | re.DOTALL)
for match in matches:
f = match.groupdict()
f['type'] = 'local'
facts.append(f)
regex = r'Vll-Peer +: +(?P<vllpeer>[0-9\.]+).*Tunnel LSP +: +(?P<lsp>\S+)'
matches = re.finditer(regex, data, re.IGNORECASE | re.DOTALL)
for match in matches:
f = match.groupdict()
f['type'] = 'remote'
facts.append(f)
return facts
def parse_vpls_vcid(self, data):
match = re.search(r'Id (\d+),', data, re.M)
if match:
return match.group(1)
def parse_vpls_endpoints(self, data):
facts = list()
regex = r'Vlan (?P<vlanid>[0-9]+)\s(?: +(?:L2.*)\s| +Tagged: (?P<tagged>.+)+\s| +Untagged: (?P<untagged>.+)\s)*'
matches = re.finditer(regex, data, re.IGNORECASE)
for match in matches:
f = match.groupdict()
f['type'] = 'local'
facts.append(f)
regex = r'Peer address: (?P<vllpeer>[0-9\.]+)'
matches = re.finditer(regex, data, re.IGNORECASE)
for match in matches:
f = match.groupdict()
f['type'] = 'remote'
facts.append(f)
return facts
def populate_lsps(self, lsps):
facts = dict()
for key, value in iteritems(lsps):
lsp = dict()
lsp['to'] = self.parse_lsp_to(value)
lsp['from'] = self.parse_lsp_from(value)
lsp['adminstatus'] = self.parse_lsp_adminstatus(value)
lsp['operstatus'] = self.parse_lsp_operstatus(value)
lsp['pri_path'] = self.parse_lsp_pripath(value)
lsp['sec_path'] = self.parse_lsp_secpath(value)
lsp['frr'] = self.parse_lsp_frr(value)
facts[key] = lsp
return facts
def parse_lsp_to(self, data):
match = re.search(r'^LSP .* to (\S+)', data, re.M)
if match:
return match.group(1)
def parse_lsp_from(self, data):
match = re.search(r'From: ([^\s,]+),', data, re.M)
if match:
return match.group(1)
def parse_lsp_adminstatus(self, data):
match = re.search(r'admin: (\w+),', data, re.M)
if match:
return match.group(1)
def parse_lsp_operstatus(self, data):
match = re.search(r'From: .* status: (\w+)', data, re.M)
if match:
return match.group(1)
def parse_lsp_pripath(self, data):
match = re.search(r'Pri\. path: ([^\s,]+), up: (\w+), active: (\w+)', data, re.M)
if match:
path = dict()
path['name'] = match.group(1) if match.group(1) != 'NONE' else None
path['up'] = True if match.group(2) == 'yes' else False
path['active'] = True if match.group(3) == 'yes' else False
return path
def parse_lsp_secpath(self, data):
match = re.search(r'Sec\. path: ([^\s,]+), active: (\w+).*\n.* status: (\w+)', data, re.M)
if match:
path = dict()
path['name'] = match.group(1) if match.group(1) != 'NONE' else None
path['up'] = True if match.group(3) == 'up' else False
path['active'] = True if match.group(2) == 'yes' else False
return path
def parse_lsp_frr(self, data):
match = re.search(r'Backup LSP: (\w+)', data, re.M)
if match:
path = dict()
path['up'] = True if match.group(1) == 'UP' else False
path['name'] = None
if path['up']:
match = re.search(r'bypass_lsp: (\S)', data, re.M)
path['name'] = match.group(1) if match else None
return path
class Interfaces(FactsBase):
COMMANDS = [
'show interfaces',
'show ipv6 interface',
'show lldp neighbors'
]
def populate(self):
super(Interfaces, self).populate()
self.facts['all_ipv4_addresses'] = list()
self.facts['all_ipv6_addresses'] = list()
data = self.responses[0]
if data:
interfaces = self.parse_interfaces(data)
self.facts['interfaces'] = self.populate_interfaces(interfaces)
data = self.responses[1]
if data:
data = self.parse_interfaces(data)
self.populate_ipv6_interfaces(data)
data = self.responses[2]
if data and 'LLDP is not running' not in data:
self.facts['neighbors'] = self.parse_neighbors(data)
def populate_interfaces(self, interfaces):
facts = dict()
for key, value in iteritems(interfaces):
intf = dict()
intf['description'] = self.parse_description(value)
intf['macaddress'] = self.parse_macaddress(value)
ipv4 = self.parse_ipv4(value)
intf['ipv4'] = self.parse_ipv4(value)
if ipv4:
self.add_ip_address(ipv4['address'], 'ipv4')
intf['mtu'] = self.parse_mtu(value)
intf['bandwidth'] = self.parse_bandwidth(value)
intf['duplex'] = self.parse_duplex(value)
intf['lineprotocol'] = self.parse_lineprotocol(value)
intf['operstatus'] = self.parse_operstatus(value)
intf['type'] = self.parse_type(value)
facts[key] = intf
return facts
def populate_ipv6_interfaces(self, data):
for key, value in iteritems(data):
self.facts['interfaces'][key]['ipv6'] = list()
addresses = re.findall(r'\s([0-9a-f]+:+[0-9a-f:]+\/\d+)\s', value, re.M)
for addr in addresses:
address, masklen = addr.split('/')
ipv6 = dict(address=address, masklen=int(masklen))
self.add_ip_address(ipv6['address'], 'ipv6')
self.facts['interfaces'][key]['ipv6'].append(ipv6)
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_neighbors(self, neighbors):
facts = dict()
for line in neighbors.split('\n'):
if line == '':
continue
match = re.search(r'([\d\/]+)\s+(\S+)\s+(\S+)\s+(\S+)\s+(\S+)', line, re.M)
if match:
intf = match.group(1)
if intf not in facts:
facts[intf] = list()
fact = dict()
fact['host'] = match.group(5)
fact['port'] = match.group(3)
facts[intf].append(fact)
return facts
def parse_interfaces(self, data):
parsed = dict()
for line in data.split('\n'):
if not line:
continue
elif line[0] == ' ':
parsed[key] += '\n%s' % line
else:
match = re.match(r'^(\S+Ethernet|eth )(\S+)', line)
if match:
key = match.group(2)
parsed[key] = line
return parsed
def parse_description(self, data):
match = re.search(r'Port name is (.+)$', data, re.M)
if match:
return match.group(1)
def parse_macaddress(self, data):
match = re.search(r'address is (\S+)', data)
if match:
return match.group(1)
def parse_ipv4(self, data):
match = re.search(r'Internet address is ([^\s,]+)', data)
if match:
addr, masklen = match.group(1).split('/')
return dict(address=addr, masklen=int(masklen))
def parse_mtu(self, data):
match = re.search(r'MTU (\d+)', data)
if match:
return int(match.group(1))
def parse_bandwidth(self, data):
match = re.search(r'BW is (\d+)', data)
if match:
return int(match.group(1))
def parse_duplex(self, data):
match = re.search(r'configured duplex \S+ actual (\S+)', data, re.M)
if match:
return match.group(1)
def parse_mediatype(self, data):
match = re.search(r'Type\s*:\s*(.+)$', data, re.M)
if match:
return match.group(1)
def parse_type(self, data):
match = re.search(r'Hardware is (.+),', data, re.M)
if match:
return match.group(1)
def parse_lineprotocol(self, data):
match = re.search(r'line protocol is (\S+)', data, re.M)
if match:
return match.group(1)
def parse_operstatus(self, data):
match = re.search(r'^(?:.+) is (.+),', data, re.M)
if match:
return match.group(1)
FACT_SUBSETS = dict(
default=Default,
hardware=Hardware,
interfaces=Interfaces,
config=Config,
mpls=MPLS,
)
VALID_SUBSETS = frozenset(FACT_SUBSETS.keys())
def main():
"""main entry point for module execution
"""
argument_spec = dict(
gather_subset=dict(default=["!config", "!mpls"], type='list')
)
argument_spec.update(ironware_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
check_args(module)
module.exit_json(ansible_facts=ansible_facts)
if __name__ == '__main__':
main()