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ansible/network/nxos/nxos_ospf_vrf.py

856 lines
28 KiB
Python

#!/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 <http://www.gnu.org/licenses/>.
#
DOCUMENTATION = '''
---
module: nxos_ospf_vrf
version_added: "2.2"
short_description: Manages a VRF for an OSPF router.
description:
- Manages a VRF for an OSPF router.
author: Gabriele Gerbino (@GGabriele)
extends_documentation_fragment: nxos
notes:
- Value I(default) restores params default value, if any.
Otherwise it removes the existing param configuration.
options:
vrf:
description:
- Name of the resource instance. Valid value is a string.
The name 'default' is a valid VRF representing the global OSPF.
required: false
default: default
ospf:
description:
- Name of the OSPF instance.
required: true
default: null
router_id:
description:
- Router Identifier (ID) of the OSPF router VRF instance.
required: false
default: null
default_metric:
description:
- Specify the default Metric value. Valid values are an integer
or the keyword 'default'.
required: false
default: null
log_adjacency:
description:
- Controls the level of log messages generated whenever a
neighbor changes state. Valid values are 'log', 'detail',
and 'default'.
required: false
choices: ['log','detail','default']
default: null
timer_throttle_lsa_start:
description:
- Specify the start interval for rate-limiting Link-State
Advertisement (LSA) generation. Valid values are an integer,
in milliseconds, or the keyword 'default'.
required: false
default: null
timer_throttle_lsa_hold:
description:
- Specify the hold interval for rate-limiting Link-State
Advertisement (LSA) generation. Valid values are an integer,
in milliseconds, or the keyword 'default'.
required: false
default: null
timer_throttle_lsa_max:
description:
- Specify the max interval for rate-limiting Link-State
Advertisement (LSA) generation. Valid values are an integer,
in milliseconds, or the keyword 'default'.
required: false
default: null
timer_throttle_spf_start:
description:
- Specify initial Shortest Path First (SPF) schedule delay.
Valid values are an integer, in milliseconds, or
the keyword 'default'.
required: false
default: null
timer_throttle_spf_hold:
description:
- Specify minimum hold time between Shortest Path First (SPF)
calculations. Valid values are an integer, in milliseconds,
or the keyword 'default'.
required: false
default: null
timer_throttle_spf_max:
description:
- Specify the maximum wait time between Shortest Path First (SPF)
calculations. Valid values are an integer, in milliseconds,
or the keyword 'default'.
required: false
default: null
auto_cost:
description:
- Specifies the reference bandwidth used to assign OSPF cost.
Valid values are an integer, in Mbps, or the keyword 'default'.
required: false
default: null
m_facts:
description:
- Used to print module facts
required: false
default: false
choices: ['true','false']
'''
EXAMPLES = '''
- nxos_ospf_vrf:
ospf: 1
timer_throttle_spf_start: 50
timer_throttle_spf_hold: 1000
timer_throttle_spf_max: 2000
timer_throttle_lsa_start: 60
timer_throttle_lsa_hold: 1100
timer_throttle_lsa_max: 3000
vrf: test
m_facts: true
state: present
username: "{{ un }}"
password: "{{ pwd }}"
host: "{{ inventory_hostname }}"
'''
RETURN = '''
proposed:
description: k/v pairs of parameters passed into module
returned: when I(m_facts)=true
type: dict
sample: {"ospf": "1", "timer_throttle_lsa_hold": "1100",
"timer_throttle_lsa_max": "3000", "timer_throttle_lsa_start": "60",
"timer_throttle_spf_hold": "1000",
"timer_throttle_spf_max": "2000", "timer_throttle_spf_start": "50",
"vrf": "test"}
existing:
description: k/v pairs of existing configuration
returned: when I(m_facts)=true
type: dict
sample: {"auto_cost": "40000", "default_metric": "", "log_adjacency": "",
"ospf": "1", "router_id": "", "timer_throttle_lsa_hold": "5000",
"timer_throttle_lsa_max": "5000", "timer_throttle_lsa_start": "0",
"timer_throttle_spf_hold": "1000",
"timer_throttle_spf_max": "5000",
"timer_throttle_spf_start": "200", "vrf": "test"}
end_state:
description: k/v pairs of configuration after module execution
returned: when I(m_facts)=true
type: dict
sample: {"auto_cost": "40000", "default_metric": "", "log_adjacency": "",
"ospf": "1", "router_id": "", "timer_throttle_lsa_hold": "1100",
"timer_throttle_lsa_max": "3000", "timer_throttle_lsa_start": "60",
"timer_throttle_spf_hold": "1000",
"timer_throttle_spf_max": "2000", "timer_throttle_spf_start": "50",
"vrf": "test"}
updates:
description: commands sent to the device
returned: always
type: list
sample: ["router ospf 1", "vrf test", "timers throttle lsa 60 1100 3000",
"timers throttle spf 50 1000 2000"]
changed:
description: check to see if a change was made on the device
returned: always
type: boolean
sample: true
'''
# COMMON CODE FOR MIGRATION
import re
import time
import collections
import itertools
import shlex
import itertools
from ansible.module_utils.basic import BOOLEANS_TRUE, BOOLEANS_FALSE
DEFAULT_COMMENT_TOKENS = ['#', '!']
class ConfigLine(object):
def __init__(self, text):
self.text = text
self.children = list()
self.parents = list()
self.raw = None
@property
def line(self):
line = ['set']
line.extend([p.text for p in self.parents])
line.append(self.text)
return ' '.join(line)
def __str__(self):
return self.raw
def __eq__(self, other):
if self.text == other.text:
return self.parents == other.parents
def __ne__(self, other):
return not self.__eq__(other)
def ignore_line(text, tokens=None):
for item in (tokens or DEFAULT_COMMENT_TOKENS):
if text.startswith(item):
return True
def get_next(iterable):
item, next_item = itertools.tee(iterable, 2)
next_item = itertools.islice(next_item, 1, None)
return itertools.izip_longest(item, next_item)
def parse(lines, indent, comment_tokens=None):
toplevel = re.compile(r'\S')
childline = re.compile(r'^\s*(.+)$')
ancestors = list()
config = list()
for line in str(lines).split('\n'):
text = str(re.sub(r'([{};])', '', line)).strip()
cfg = ConfigLine(text)
cfg.raw = line
if not text or ignore_line(text, comment_tokens):
continue
# handle top level commands
if toplevel.match(line):
ancestors = [cfg]
# handle sub level commands
else:
match = childline.match(line)
line_indent = match.start(1)
level = int(line_indent / indent)
parent_level = level - 1
cfg.parents = ancestors[:level]
if level > len(ancestors):
config.append(cfg)
continue
for i in range(level, len(ancestors)):
ancestors.pop()
ancestors.append(cfg)
ancestors[parent_level].children.append(cfg)
config.append(cfg)
return config
class CustomNetworkConfig(object):
def __init__(self, indent=None, contents=None, device_os=None):
self.indent = indent or 1
self._config = list()
self._device_os = device_os
if contents:
self.load(contents)
@property
def items(self):
return self._config
@property
def lines(self):
lines = list()
for item, next_item in get_next(self.items):
if next_item is None:
lines.append(item.line)
elif not next_item.line.startswith(item.line):
lines.append(item.line)
return lines
def __str__(self):
text = ''
for item in self.items:
if not item.parents:
expand = self.get_section(item.text)
text += '%s\n' % self.get_section(item.text)
return str(text).strip()
def load(self, contents):
self._config = parse(contents, indent=self.indent)
def load_from_file(self, filename):
self.load(open(filename).read())
def get(self, path):
if isinstance(path, basestring):
path = [path]
for item in self._config:
if item.text == path[-1]:
parents = [p.text for p in item.parents]
if parents == path[:-1]:
return item
def search(self, regexp, path=None):
regex = re.compile(r'^%s' % regexp, re.M)
if path:
parent = self.get(path)
if not parent or not parent.children:
return
children = [c.text for c in parent.children]
data = '\n'.join(children)
else:
data = str(self)
match = regex.search(data)
if match:
if match.groups():
values = match.groupdict().values()
groups = list(set(match.groups()).difference(values))
return (groups, match.groupdict())
else:
return match.group()
def findall(self, regexp):
regexp = r'%s' % regexp
return re.findall(regexp, str(self))
def expand(self, obj, items):
block = [item.raw for item in obj.parents]
block.append(obj.raw)
current_level = items
for b in block:
if b not in current_level:
current_level[b] = collections.OrderedDict()
current_level = current_level[b]
for c in obj.children:
if c.raw not in current_level:
current_level[c.raw] = collections.OrderedDict()
def to_lines(self, section):
lines = list()
for entry in section[1:]:
line = ['set']
line.extend([p.text for p in entry.parents])
line.append(entry.text)
lines.append(' '.join(line))
return lines
def to_block(self, section):
return '\n'.join([item.raw for item in section])
def get_section(self, path):
try:
section = self.get_section_objects(path)
if self._device_os == 'junos':
return self.to_lines(section)
return self.to_block(section)
except ValueError:
return list()
def get_section_objects(self, path):
if not isinstance(path, list):
path = [path]
obj = self.get_object(path)
if not obj:
raise ValueError('path does not exist in config')
return self.expand_section(obj)
def expand_section(self, configobj, S=None):
if S is None:
S = list()
S.append(configobj)
for child in configobj.children:
if child in S:
continue
self.expand_section(child, S)
return S
def flatten(self, data, obj=None):
if obj is None:
obj = list()
for k, v in data.items():
obj.append(k)
self.flatten(v, obj)
return obj
def get_object(self, path):
for item in self.items:
if item.text == path[-1]:
parents = [p.text for p in item.parents]
if parents == path[:-1]:
return item
def get_children(self, path):
obj = self.get_object(path)
if obj:
return obj.children
def difference(self, other, path=None, match='line', replace='line'):
updates = list()
config = self.items
if path:
config = self.get_children(path) or list()
if match == 'line':
for item in config:
if item not in other.items:
updates.append(item)
elif match == 'strict':
if path:
current = other.get_children(path) or list()
else:
current = other.items
for index, item in enumerate(config):
try:
if item != current[index]:
updates.append(item)
except IndexError:
updates.append(item)
elif match == 'exact':
if path:
current = other.get_children(path) or list()
else:
current = other.items
if len(current) != len(config):
updates.extend(config)
else:
for ours, theirs in itertools.izip(config, current):
if ours != theirs:
updates.extend(config)
break
if self._device_os == 'junos':
return updates
diffs = collections.OrderedDict()
for update in updates:
if replace == 'block' and update.parents:
update = update.parents[-1]
self.expand(update, diffs)
return self.flatten(diffs)
def replace(self, replace, text=None, regex=None, parents=None,
add_if_missing=False, ignore_whitespace=False):
match = None
parents = parents or list()
if text is None and regex is None:
raise ValueError('missing required arguments')
if not regex:
regex = ['^%s$' % text]
patterns = [re.compile(r, re.I) for r in to_list(regex)]
for item in self.items:
for regexp in patterns:
if ignore_whitespace is True:
string = item.text
else:
string = item.raw
if regexp.search(item.text):
if item.text != replace:
if parents == [p.text for p in item.parents]:
match = item
break
if match:
match.text = replace
indent = len(match.raw) - len(match.raw.lstrip())
match.raw = replace.rjust(len(replace) + indent)
elif add_if_missing:
self.add(replace, parents=parents)
def add(self, lines, parents=None):
"""Adds one or lines of configuration
"""
ancestors = list()
offset = 0
obj = None
## global config command
if not parents:
for line in to_list(lines):
item = ConfigLine(line)
item.raw = line
if item not in self.items:
self.items.append(item)
else:
for index, p in enumerate(parents):
try:
i = index + 1
obj = self.get_section_objects(parents[:i])[0]
ancestors.append(obj)
except ValueError:
# add parent to config
offset = index * self.indent
obj = ConfigLine(p)
obj.raw = p.rjust(len(p) + offset)
if ancestors:
obj.parents = list(ancestors)
ancestors[-1].children.append(obj)
self.items.append(obj)
ancestors.append(obj)
# add child objects
for line in to_list(lines):
# check if child already exists
for child in ancestors[-1].children:
if child.text == line:
break
else:
offset = len(parents) * self.indent
item = ConfigLine(line)
item.raw = line.rjust(len(line) + offset)
item.parents = ancestors
ancestors[-1].children.append(item)
self.items.append(item)
def argument_spec():
return dict(
# config options
running_config=dict(aliases=['config']),
save_config=dict(type='bool', default=False, aliases=['save'])
)
nxos_argument_spec = argument_spec()
def get_config(module):
config = module.params['running_config']
if not config:
config = module.get_config()
return CustomNetworkConfig(indent=2, contents=config)
def load_config(module, candidate):
config = get_config(module)
commands = candidate.difference(config)
commands = [str(c).strip() for c in commands]
save_config = module.params['save_config']
result = dict(changed=False)
if commands:
if not module.check_mode:
module.configure(commands)
if save_config:
module.config.save_config()
result['changed'] = True
result['updates'] = commands
return result
# END OF COMMON CODE
PARAM_TO_COMMAND_KEYMAP = {
'router_id': 'router-id',
'default_metric': 'default-metric',
'log_adjacency': 'log-adjacency-changes',
'timer_throttle_lsa_start': 'timers throttle lsa',
'timer_throttle_lsa_max': 'timers throttle lsa',
'timer_throttle_lsa_hold': 'timers throttle lsa',
'timer_throttle_spf_max': 'timers throttle spf',
'timer_throttle_spf_start': 'timers throttle spf',
'timer_throttle_spf_hold': 'timers throttle spf',
'auto_cost': 'auto-cost reference-bandwidth'
}
PARAM_TO_DEFAULT_KEYMAP = {
'timer_throttle_lsa_start': '0',
'timer_throttle_lsa_max': '5000',
'timer_throttle_lsa_hold': '5000',
'timer_throttle_spf_start': '200',
'timer_throttle_spf_max': '5000',
'timer_throttle_spf_hold': '1000',
'auto_cost': '40000'
}
def invoke(name, *args, **kwargs):
func = globals().get(name)
if func:
return func(*args, **kwargs)
def get_value(arg, config, module):
REGEX = re.compile(r'(?:{0}\s)(?P<value>.*)$'.format(PARAM_TO_COMMAND_KEYMAP[arg]), re.M)
value = ''
if PARAM_TO_COMMAND_KEYMAP[arg] in config:
if arg == 'log_adjacency':
if 'log-adjacency-changes detail' in config:
value = 'detail'
else:
value = 'log'
else:
value_list = REGEX.search(config).group('value').split()
if 'hold' in arg:
value = value_list[1]
elif 'max' in arg:
value = value_list[2]
elif 'auto' in arg:
if 'Gbps' in value_list:
value = str(int(value_list[0]) * 1000)
else:
value = value_list[0]
else:
value = value_list[0]
return value
def get_existing(module, args):
existing = {}
netcfg = get_config(module)
parents = ['router ospf {0}'.format(module.params['ospf'])]
if module.params['vrf'] != 'default':
parents.append('vrf {0}'.format(module.params['vrf']))
config = netcfg.get_section(parents)
if config:
if module.params['vrf'] == 'default':
splitted_config = config.splitlines()
vrf_index = False
for index in range(0, len(splitted_config) - 1):
if 'vrf' in splitted_config[index].strip():
vrf_index = index
break
if vrf_index:
config = '\n'.join(splitted_config[0:vrf_index])
for arg in args:
if arg not in ['ospf', 'vrf']:
existing[arg] = get_value(arg, config, module)
existing['vrf'] = module.params['vrf']
existing['ospf'] = module.params['ospf']
return existing
def apply_key_map(key_map, table):
new_dict = {}
for key, value in table.items():
new_key = key_map.get(key)
if new_key:
value = table.get(key)
if value:
new_dict[new_key] = value
else:
new_dict[new_key] = value
return new_dict
def state_present(module, existing, proposed, candidate):
commands = list()
proposed_commands = apply_key_map(PARAM_TO_COMMAND_KEYMAP, proposed)
existing_commands = apply_key_map(PARAM_TO_COMMAND_KEYMAP, existing)
for key, value in proposed_commands.iteritems():
if value is True:
commands.append(key)
elif value is False:
commands.append('no {0}'.format(key))
elif value == 'default':
if existing_commands.get(key):
existing_value = existing_commands.get(key)
commands.append('no {0} {1}'.format(key, existing_value))
else:
if key == 'timers throttle lsa':
command = '{0} {1} {2} {3}'.format(
key,
proposed['timer_throttle_lsa_start'],
proposed['timer_throttle_lsa_hold'],
proposed['timer_throttle_lsa_max'])
elif key == 'timers throttle spf':
command = '{0} {1} {2} {3}'.format(
key,
proposed['timer_throttle_spf_start'],
proposed['timer_throttle_spf_hold'],
proposed['timer_throttle_spf_max'])
elif key == 'log-adjacency-changes':
if value == 'log':
command = key
elif value == 'detail':
command = '{0} {1}'.format(key, value)
elif key == 'auto-cost reference-bandwidth':
if len(value) < 5:
command = '{0} {1} Mbps'.format(key, value)
else:
value = str(int(value) / 1000)
command = '{0} {1} Gbps'.format(key, value)
else:
command = '{0} {1}'.format(key, value.lower())
if command not in commands:
commands.append(command)
if commands:
parents = ['router ospf {0}'.format(module.params['ospf'])]
if module.params['vrf'] != 'default':
parents.append('vrf {0}'.format(module.params['vrf']))
candidate.add(commands, parents=parents)
def state_absent(module, existing, proposed, candidate):
commands = []
parents = ['router ospf {0}'.format(module.params['ospf'])]
if module.params['vrf'] == 'default':
existing_commands = apply_key_map(PARAM_TO_COMMAND_KEYMAP, existing)
for key, value in existing_commands.iteritems():
if value:
if key == 'timers throttle lsa':
command = 'no {0} {1} {2} {3}'.format(
key,
existing['timer_throttle_lsa_start'],
existing['timer_throttle_lsa_hold'],
existing['timer_throttle_lsa_max'])
elif key == 'timers throttle spf':
command = 'no {0} {1} {2} {3}'.format(
key,
existing['timer_throttle_spf_start'],
existing['timer_throttle_spf_hold'],
existing['timer_throttle_spf_max'])
else:
existing_value = existing_commands.get(key)
command = 'no {0} {1}'.format(key, existing_value)
if command not in commands:
commands.append(command)
else:
commands = ['no vrf {0}'.format(module.params['vrf'])]
candidate.add(commands, parents=parents)
def main():
argument_spec = dict(
vrf=dict(required=False, type='str', default='default'),
ospf=dict(required=True, type='str'),
router_id=dict(required=False, type='str'),
default_metric=dict(required=False, type='str'),
log_adjacency=dict(required=False, type='str',
choices=['log', 'detail', 'default']),
timer_throttle_lsa_start=dict(required=False, type='str'),
timer_throttle_lsa_hold=dict(required=False, type='str'),
timer_throttle_lsa_max=dict(required=False, type='str'),
timer_throttle_spf_start=dict(required=False, type='str'),
timer_throttle_spf_hold=dict(required=False, type='str'),
timer_throttle_spf_max=dict(required=False, type='str'),
auto_cost=dict(required=False, type='str'),
m_facts=dict(required=False, default=False, type='bool'),
state=dict(choices=['present', 'absent'], default='present',
required=False),
include_defaults=dict(default=True)
)
argument_spec.update(nxos_argument_spec)
module = get_module(argument_spec=argument_spec,
supports_check_mode=True)
state = module.params['state']
args = [
'vrf',
'ospf',
'router_id',
'default_metric',
'log_adjacency',
'timer_throttle_lsa_start',
'timer_throttle_lsa_hold',
'timer_throttle_lsa_max',
'timer_throttle_spf_start',
'timer_throttle_spf_hold',
'timer_throttle_spf_max',
'auto_cost'
]
existing = invoke('get_existing', module, args)
end_state = existing
proposed_args = dict((k, v) for k, v in module.params.iteritems()
if v is not None and k in args)
proposed = {}
for key, value in proposed_args.iteritems():
if key != 'interface':
if str(value).lower() == 'true':
value = True
elif str(value).lower() == 'false':
value = False
elif str(value).lower() == 'default':
value = PARAM_TO_DEFAULT_KEYMAP.get(key)
if value is None:
value = 'default'
if existing.get(key) or (not existing.get(key) and value):
proposed[key] = value
result = {}
if state == 'present' or (state == 'absent' and existing):
candidate = CustomNetworkConfig(indent=3)
invoke('state_%s' % state, module, existing, proposed, candidate)
try:
response = load_config(module, candidate)
result.update(response)
except ShellError:
exc = get_exception()
module.fail_json(msg=str(exc))
else:
result['updates'] = []
result['connected'] = module.connected
if module.params['m_facts']:
end_state = invoke('get_existing', module, args)
result['end_state'] = end_state
result['existing'] = existing
result['proposed'] = proposed_args
module.exit_json(**result)
from ansible.module_utils.basic import *
from ansible.module_utils.urls import *
from ansible.module_utils.shell import *
from ansible.module_utils.netcfg import *
from ansible.module_utils.nxos import *
if __name__ == '__main__':
main()