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New module - meraki_mr_l3_firewall (#42328)

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* Initial commit for meraki_mr_l3_firewall module

- CRUD functionality for layer 3 firewall rules on the Meraki MR access points
- Complimentary integration test
- Need to add support for SSID lookup

* Added support for specifying SSID name and improved documentation

* Added examples to documentation

* Removed whitespace
This commit is contained in:
Kevin Breit 2018-07-09 04:17:14 -05:00 committed by Dag Wieers
parent 3d3d919c11
commit 132943cac5
3 changed files with 364 additions and 0 deletions
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#!/usr/bin/python
# -*- coding: utf-8 -*-
# Copyright: (c) 2018, Kevin Breit (@kbreit) <kevin.breit@kevinbreit.net>
# 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 = r'''
---
module: meraki_mr_l3_firewall
short_description: Manage MR access point layer 3 firewalls in the Meraki cloud
version_added: "2.7"
description:
- Allows for creation, management, and visibility into layer 3 firewalls implemented on Meraki MR access points.
options:
state:
description:
- Create or modify an organization.
default: present
choices: [present, query]
org_name:
description:
- Name of organization.
org_id:
description:
- ID of organization.
net_name:
description:
- Name of network containing access points.
net_id:
description:
- ID of network containing access points.
number:
description:
- Number of SSID to apply firewall rule to.
aliases: [ssid_number]
ssid_name:
description:
- Name of SSID to apply firewall rule to.
aliases: [ssid]
allow_lan_access:
description:
- Sets whether devices can talk to other devices on the same LAN.
type: bool
default: yes
rules:
description:
- List of firewall rules.
suboptions:
policy:
description:
- Specifies the action that should be taken when rule is hit.
choices: [allow, deny]
protocol:
description:
- Specifies protocol to match against.
choices: [any, icmp, tcp, udp]
dest_port:
description:
- Comma separated list of destination ports to match.
dest_cidr:
description:
- Comma separated list of CIDR notation networks to match.
comment:
description:
- Optional comment describing the firewall rule.
author:
- Kevin Breit (@kbreit)
extends_documentation_fragment: meraki
'''
EXAMPLES = r'''
- name: Create single firewall rule
meraki_mr_l3_firewall:
auth_key: abc123
state: present
org_name: YourOrg
net_id: 12345
number: 1
rules:
- comment: Integration test rule
policy: allow
protocol: tcp
dest_port: 80
dest_cidr: 192.0.2.0/24
allow_lan_access: no
delegate_to: localhost
- name: Enable local LAN access
meraki_mr_l3_firewall:
auth_key: abc123
state: present
org_name: YourOrg
net_id: 123
number: 1
rules:
allow_lan_access: yes
delegate_to: localhost
- name: Query firewall rules
meraki_mr_l3_firewall:
auth_key: abc123
state: query
org_name: YourOrg
net_name: YourNet
number: 1
delegate_to: localhost
'''
RETURN = r'''
'''
import os
from ansible.module_utils.basic import AnsibleModule, json, env_fallback
from ansible.module_utils.urls import fetch_url
from ansible.module_utils._text import to_native
from ansible.module_utils.network.meraki.meraki import MerakiModule, meraki_argument_spec
def assemble_payload(meraki):
params_map = {'policy': 'policy',
'protocol': 'protocol',
'dest_port': 'destPort',
'dest_cidr': 'destCidr',
'comment': 'comment',
}
rules = []
for rule in meraki.params['rules']:
proposed_rule = dict()
for k, v in rule.items():
proposed_rule[params_map[k]] = v
rules.append(proposed_rule)
payload = {'rules': rules}
return payload
def get_rules(meraki, net_id, number):
path = meraki.construct_path('get_all', net_id=net_id)
path = path + number + '/l3FirewallRules'
response = meraki.request(path, method='GET')
if meraki.status == 200:
return response
def get_ssid_number(name, data):
for ssid in data:
if name == ssid['name']:
return ssid['number']
return False
def get_ssids(meraki, net_id):
path = meraki.construct_path('get_all', net_id=net_id)
return meraki.request(path, method='GET')
def main():
# define the available arguments/parameters that a user can pass to
# the module
fw_rules = dict(policy=dict(type='str', choices=['allow', 'deny']),
protocol=dict(type='str', choices=['tcp', 'udp', 'icmp', 'any']),
dest_port=dict(type='str'),
dest_cidr=dict(type='str'),
comment=dict(type='str'),
)
argument_spec = meraki_argument_spec()
argument_spec.update(state=dict(type='str', choices=['present', 'query'], default='present'),
net_name=dict(type='str'),
net_id=dict(type='str'),
number=dict(type='str', aliases=['ssid_number']),
ssid_name=dict(type='str', aliases=['ssid']),
rules=dict(type='list', default=None, elements='dict', options=fw_rules),
allow_lan_access=dict(type='bool', default=True),
)
# seed the result dict in the object
# we primarily care about changed and state
# change is if this module effectively modified the target
# state will include any data that you want your module to pass back
# for consumption, for example, in a subsequent task
result = dict(
changed=False,
)
# the AnsibleModule object will be our abstraction working with Ansible
# this includes instantiation, a couple of common attr would be the
# args/params passed to the execution, as well as if the module
# supports check mode
module = AnsibleModule(argument_spec=argument_spec,
supports_check_mode=True,
)
meraki = MerakiModule(module, function='mr_l3_firewall')
meraki.params['follow_redirects'] = 'all'
query_urls = {'mr_l3_firewall': '/networks/{net_id}/ssids/'}
update_urls = {'mr_l3_firewall': '/networks/{net_id}/ssids/'}
meraki.url_catalog['get_all'].update(query_urls)
meraki.url_catalog['update'] = update_urls
payload = None
# if the user is working with this module in only check mode we do not
# want to make any changes to the environment, just return the current
# state with no modifications
# FIXME: Work with Meraki so they can implement a check mode
if module.check_mode:
meraki.exit_json(**meraki.result)
# execute checks for argument completeness
# manipulate or modify the state as needed (this is going to be the
# part where your module will do what it needs to do)
org_id = meraki.params['org_id']
orgs = None
if org_id is None:
orgs = meraki.get_orgs()
for org in orgs:
if org['name'] == meraki.params['org_name']:
org_id = org['id']
net_id = meraki.params['net_id']
if net_id is None:
if orgs is None:
orgs = meraki.get_orgs()
net_id = meraki.get_net_id(net_name=meraki.params['net_name'],
data=meraki.get_nets(org_id=org_id))
number = meraki.params['number']
if meraki.params['ssid_name']:
number = get_ssid_number(meraki.params['ssid_name'], get_ssids(meraki, net_id))
if meraki.params['state'] == 'query':
meraki.result['data'] = get_rules(meraki, net_id, number)
elif meraki.params['state'] == 'present':
rules = get_rules(meraki, net_id, number)
path = meraki.construct_path('get_all', net_id=net_id)
path = path + number + '/l3FirewallRules'
if meraki.params['rules']:
payload = assemble_payload(meraki)
else:
payload = dict()
update = False
try:
if len(rules) != len(payload['rules']): # Quick and simple check to avoid more processing
update = True
if update is False:
for r in range(len(rules) - 2):
if meraki.is_update_required(rules[r], payload[r]) is True:
update = True
except KeyError:
pass
if rules[len(rules) - 2] != meraki.params['allow_lan_access']:
update = True
if update is True:
payload['allowLanAccess'] = meraki.params['allow_lan_access']
response = meraki.request(path, method='PUT', payload=json.dumps(payload))
if meraki.status == 200:
meraki.result['data'] = response
meraki.result['changed'] = True
# in the event of a successful module execution, you will want to
# simple AnsibleModule.exit_json(), passing the key/value results
meraki.exit_json(**meraki.result)
if __name__ == '__main__':
main()

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# Test code for the Meraki modules
# Copyright: (c) 2018, Kevin Breit (@kbreit)
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
---
- name: Create wireless network
meraki_network:
auth_key: '{{ auth_key }}'
state: present
org_name: '{{test_org_name}}'
net_name: TestNetWireless
type: wireless
delegate_to: localhost
register: new_net
- set_fact:
net: '{{new_net.data.id}}'
- name: Create single firewall rule
meraki_mr_l3_firewall:
auth_key: '{{ auth_key }}'
state: present
org_name: '{{test_org_name}}'
net_id: '{{net}}'
number: 1
rules:
- comment: Integration test rule
policy: allow
protocol: tcp
dest_port: 80
dest_cidr: 192.0.2.0/24
allow_lan_access: no
delegate_to: localhost
register: create_one
- debug:
msg: '{{create_one}}'
- assert:
that:
- create_one.data.0.comment == 'Integration test rule'
- create_one.data.1.policy == 'deny'
- name: Enable local LAN access
meraki_mr_l3_firewall:
auth_key: '{{ auth_key }}'
state: present
org_name: '{{test_org_name}}'
net_id: '{{net}}'
number: 1
rules:
allow_lan_access: yes
delegate_to: localhost
register: enable_lan
- assert:
that:
- enable_lan.data.1.policy == 'allow'
- name: Query firewall rules
meraki_mr_l3_firewall:
auth_key: '{{ auth_key }}'
state: query
org_name: '{{test_org_name}}'
net_id: '{{net}}'
number: 1
delegate_to: localhost
register: query
- debug:
msg: '{{query}}'
- assert:
that:
- query.data.1.comment == 'Wireless clients accessing LAN'
- query.data.2.comment == 'Default rule'
- query.changed == False
- name: Delete wireless network
meraki_network:
auth_key: '{{ auth_key }}'
state: absent
org_name: '{{test_org_name}}'
net_id: '{{net}}'
number: 1
delegate_to: localhost