#!/usr/bin/python # -*- coding: utf-8 -*- # # Copyright: (c) 2018, F5 Networks 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': 'certified'} DOCUMENTATION = r''' --- module: bigip_firewall_rule short_description: Manage AFM Firewall rules description: - Manages firewall rules in an AFM firewall policy. New rules will always be added to the end of the policy. Rules can be re-ordered using the C(bigip_security_policy) module. Rules can also be pre-ordered using the C(bigip_security_policy) module and then later updated using the C(bigip_firewall_rule) module. version_added: 2.7 options: name: description: - Specifies the name of the rule. required: True parent_policy: description: - The policy which contains the rule to be managed. - One of either C(parent_policy) or C(parent_rule_list) is required. parent_rule_list: description: - The rule list which contains the rule to be managed. - One of either C(parent_policy) or C(parent_rule_list) is required. action: description: - Specifies the action for the firewall rule. - When C(accept), allows packets with the specified source, destination, and protocol to pass through the firewall. Packets that match the rule, and are accepted, traverse the system as if the firewall is not present. - When C(drop), drops packets with the specified source, destination, and protocol. Dropping a packet is a silent action with no notification to the source or destination systems. Dropping the packet causes the connection to be retried until the retry threshold is reached. - When C(reject), rejects packets with the specified source, destination, and protocol. When a packet is rejected the firewall sends a destination unreachable message to the sender. - When C(accept-decisively), allows packets with the specified source, destination, and protocol to pass through the firewall, and does not require any further processing by any of the further firewalls. Packets that match the rule, and are accepted, traverse the system as if the firewall is not present. If the Rule List is applied to a virtual server, management IP, or self IP firewall rule, then Accept Decisively is equivalent to Accept. - When creating a new rule, if this parameter is not provided, the default is C(reject). choices: - accept - drop - reject - accept-decisively status: description: - Indicates the activity state of the rule or rule list. - When C(disabled), specifies that the rule or rule list does not apply at all. - When C(enabled), specifies that the system applies the firewall rule or rule list to the given context and addresses. - When C(scheduled), specifies that the system applies the rule or rule list according to the specified schedule. - When creating a new rule, if this parameter is not provided, the default is C(enabled). choices: - enabled - disabled - scheduled schedule: description: - Specifies a schedule for the firewall rule. - You configure schedules to define days and times when the firewall rule is made active. description: description: - The rule description. irule: description: - Specifies an iRule that is applied to the rule. - An iRule can be started when the firewall rule matches traffic. protocol: description: - Specifies the protocol to which the rule applies. - Protocols may be specified by either their name or numeric value. - A special protocol value C(any) can be specified to match any protocol. The numeric equivalent of this protocol is C(255). source: description: - Specifies packet sources to which the rule applies. - Leaving this field blank applies the rule to all addresses and all ports. - You can specify the following source items. An IPv4 or IPv6 address, an IPv4 or IPv6 address range, geographic location, VLAN, address list, port, port range, port list or address list. - You can specify a mix of different types of items for the source address. suboptions: address: description: - Specifies a specific IP address. address_list: description: - Specifies an existing address list. address_range: description: - Specifies an address range. country: description: - Specifies a country code. port: description: - Specifies a single numeric port. - This option is only valid when C(protocol) is C(tcp)(6) or C(udp)(17). port_list: description: - Specifes an existing port list. - This option is only valid when C(protocol) is C(tcp)(6) or C(udp)(17). port_range: description: - Specifies a range of ports, which is two port values separated by a hyphen. The port to the left of the hyphen should be less than the port to the right. - This option is only valid when C(protocol) is C(tcp)(6) or C(udp)(17). destination: description: - Specifies packet destinations to which the rule applies. - Leaving this field blank applies the rule to all addresses and all ports. - You can specify the following destination items. An IPv4 or IPv6 address, an IPv4 or IPv6 address range, geographic location, VLAN, address list, port, port range, port list or address list. - You can specify a mix of different types of items for the source address. suboptions: address: description: - Specifies a specific IP address. address_list: description: - Specifies an existing address list. address_range: description: - Specifies an address range. country: description: - Specifies a country code. port: description: - Specifies a single numeric port. - This option is only valid when C(protocol) is C(tcp)(6) or C(udp)(17). port_list: description: - Specifes an existing port list. - This option is only valid when C(protocol) is C(tcp)(6) or C(udp)(17). port_range: description: - Specifies a range of ports, which is two port values separated by a hyphen. The port to the left of the hyphen should be less than the port to the right. - This option is only valid when C(protocol) is C(tcp)(6) or C(udp)(17). logging: description: - Specifies whether logging is enabled or disabled for the firewall rule. - When creating a new rule, if this parameter is not specified, the default if C(no). type: bool rule_list: description: - Specifies an existing rule list to use in the rule. - This parameter is mutually exclusive with many of the other individual-rule specific settings. This includes C(logging), C(action), C(source), C(destination), C(irule'), C(protocol) and C(logging). icmp_message: description: - Specifies the Internet Control Message Protocol (ICMP) or ICMPv6 message C(type) and C(code) that the rule uses. - This parameter is only relevant when C(protocol) is either C(icmp)(1) or C(icmpv6)(58). suboptions: type: description: - Specifies the type of ICMP message. - You can specify control messages, such as Echo Reply (0) and Destination Unreachable (3), or you can specify C(any) to indicate that the system applies the rule for all ICMP messages. - You can also specify an arbitrary ICMP message. - The ICMP protocol contains definitions for the existing message type and number pairs. code: description: - Specifies the code returned in response to the specified ICMP message type. - You can specify codes, each set appropriate to the associated type, such as No Code (0) (associated with Echo Reply (0)) and Host Unreachable (1) (associated with Destination Unreachable (3)), or you can specify C(any) to indicate that the system applies the rule for all codes in response to that specific ICMP message. - You can also specify an arbitrary code. - The ICMP protocol contains definitions for the existing message code and number pairs. partition: description: - Device partition to manage resources on. default: Common state: description: - When C(state) is C(present), ensures that the rule exists. - When C(state) is C(absent), ensures that the rule is removed. choices: - present - absent default: present extends_documentation_fragment: f5 author: - Tim Rupp (@caphrim007) ''' EXAMPLES = r''' - name: Create a new rule in the foo firewall policy bigip_firewall_rule: name: foo parent_policy: policy1 protocol: tcp source: - address: 1.2.3.4 - address: "::1" - address_list: foo-list1 - address_range: 1.1.1.1-2.2.2.2 - vlan: vlan1 - country: US - port: 22 - port_list: port-list1 - port_range: 80-443 destination: - address: 1.2.3.4 - address: "::1" - address_list: foo-list1 - address_range: 1.1.1.1-2.2.2.2 - country: US - port: 22 - port_list: port-list1 - port_range: 80-443 irule: irule1 action: accept logging: yes provider: password: secret server: lb.mydomain.com user: admin delegate_to: localhost - name: Create an ICMP specific rule bigip_firewall_rule: name: foo protocol: icmp icmp_message: type: 0 source: - country: US action: drop logging: yes provider: password: secret server: lb.mydomain.com user: admin delegate_to: localhost - name: Add a new rule that is uses an existing rule list bigip_firewall_rule: name: foo rule_list: rule-list1 provider: password: secret server: lb.mydomain.com user: admin delegate_to: localhost ''' RETURN = r''' param1: description: The new param1 value of the resource. returned: changed type: bool sample: true param2: description: The new param2 value of the resource. returned: changed type: string sample: Foo is bar ''' from ansible.module_utils.basic import AnsibleModule from ansible.module_utils.basic import env_fallback try: from library.module_utils.network.f5.bigip import F5RestClient from library.module_utils.network.f5.common import F5ModuleError from library.module_utils.network.f5.common import AnsibleF5Parameters from library.module_utils.network.f5.common import cleanup_tokens from library.module_utils.network.f5.common import fq_name from library.module_utils.network.f5.common import f5_argument_spec from library.module_utils.network.f5.common import exit_json from library.module_utils.network.f5.common import fail_json from library.module_utils.network.f5.common import transform_name from library.module_utils.network.f5.common import fq_name except ImportError: from ansible.module_utils.network.f5.bigip import F5RestClient from ansible.module_utils.network.f5.common import F5ModuleError from ansible.module_utils.network.f5.common import AnsibleF5Parameters from ansible.module_utils.network.f5.common import cleanup_tokens from ansible.module_utils.network.f5.common import fq_name from ansible.module_utils.network.f5.common import f5_argument_spec from ansible.module_utils.network.f5.common import exit_json from ansible.module_utils.network.f5.common import fail_json from ansible.module_utils.network.f5.common import transform_name from ansible.module_utils.network.f5.common import fq_name class Parameters(AnsibleF5Parameters): api_map = { 'ipProtocol': 'protocol', 'log': 'logging', 'icmp': 'icmp_message', } api_attributes = [ 'irule', 'ipProtocol', 'log', 'schedule', 'status', 'destination', 'source', 'icmp', 'action', 'description', ] returnables = [ 'logging', 'protocol', 'irule', 'source', 'destination', 'action', 'status', 'schedule', 'description', 'icmp_message', ] updatables = [ 'logging', 'protocol', 'irule', 'source', 'destination', 'action', 'status', 'schedule', 'description', 'icmp_message', ] protocol_map = { '1': 'icmp', '6': 'tcp', '17': 'udp', '58': 'icmpv6', '255': 'any', } class ApiParameters(Parameters): @property def logging(self): if self._values['logging'] is None: return None if self._values['logging'] == 'yes': return True return False @property def protocol(self): if self._values['protocol'] is None: return None if self._values['protocol'] in self.protocol_map: return self.protocol_map[self._values['protocol']] return self._values['protocol'] @property def source(self): result = [] if self._values['source'] is None: return None v = self._values['source'] if 'addressLists' in v: result += [('address_list', x) for x in v['addressLists']] if 'vlans' in v: result += [('vlan', x) for x in v['vlans']] if 'geo' in v: result += [('geo', x['name']) for x in v['geo']] if 'addresses' in v: result += [('address', x['name']) for x in v['addresses']] if 'ports' in v: result += [('port', str(x['name'])) for x in v['ports']] if 'portLists' in v: result += [('port_list', x) for x in v['portLists']] if result: return result return None @property def destination(self): result = [] if self._values['destination'] is None: return None v = self._values['destination'] if 'addressLists' in v: result += [('address_list', x) for x in v['addressLists']] if 'geo' in v: result += [('geo', x['name']) for x in v['geo']] if 'addresses' in v: result += [('address', x['name']) for x in v['addresses']] if 'ports' in v: result += [('port', x['name']) for x in v['ports']] if 'portLists' in v: result += [('port_list', x) for x in v['portLists']] if result: return result return None @property def icmp_message(self): if self._values['icmp_message'] is None: return None result = [x['name'] for x in self._values['icmp_message']] return result class ModuleParameters(Parameters): @property def irule(self): if self._values['irule'] is None: return None if self._values['irule'] == '': return '' return fq_name(self.partition, self._values['irule']) @property def description(self): if self._values['description'] is None: return None if self._values['description'] == '': return '' return self._values['description'] @property def schedule(self): if self._values['schedule'] is None: return None if self._values['schedule'] == '': return '' return fq_name(self.partition, self._values['schedule']) @property def source(self): result = [] if self._values['source'] is None: return None for x in self._values['source']: if 'address' in x and x['address'] is not None: result += [('address', x['address'])] elif 'address_range' in x and x['address_range'] is not None: result += [('address', x['address_range'])] elif 'address_list' in x and x['address_list'] is not None: result += [('address_list', x['address_list'])] elif 'country' in x and x['country'] is not None: result += [('geo', x['country'])] elif 'vlan' in x and x['vlan'] is not None: result += [('vlan', fq_name(self.partition, x['vlan']))] elif 'port' in x and x['port'] is not None: result += [('port', str(x['port']))] elif 'port_range' in x and x['port_range'] is not None: result += [('port', x['port_range'])] elif 'port_list' in x and x['port_list'] is not None: result += [('port_list', fq_name(self.partition, x['port_list']))] if result: return result return None @property def destination(self): result = [] if self._values['destination'] is None: return None for x in self._values['destination']: if 'address' in x and x['address'] is not None: result += [('address', x['address'])] elif 'address_range' in x and x['address_range'] is not None: result += [('address', x['address_range'])] elif 'address_list' in x and x['address_list'] is not None: result += [('address_list', x['address_list'])] elif 'country' in x and x['country'] is not None: result += [('geo', x['country'])] elif 'port' in x and x['port'] is not None: result += [('port', str(x['port']))] elif 'port_range' in x and x['port_range'] is not None: result += [('port', x['port_range'])] elif 'port_list' in x and x['port_list'] is not None: result += [('port_list', fq_name(self.partition, x['port_list']))] if result: return result return None @property def icmp_message(self): if self._values['icmp_message'] is None: return None result = [] for x in self._values['icmp_message']: type = x.get('type', '255') code = x.get('code', '255') if type is None or type == 'any': type = '255' if code is None or code == 'any': code = '255' if type == '255' and code == '255': result.append("255") elif type == '255' and code != '255': raise F5ModuleError( "A type of 'any' (255) requires a code of 'any'." ) elif code == '255': result.append(type) else: result.append('{0}:{1}'.format(type, code)) result = list(set(result)) return result class Changes(Parameters): def to_return(self): result = {} try: for returnable in self.returnables: result[returnable] = getattr(self, returnable) result = self._filter_params(result) except Exception: pass return result class UsableChanges(Changes): @property def logging(self): if self._values['logging'] is None: return None if self._values['logging'] is True: return "yes" return "no" @property def source(self): if self._values['source'] is None: return None result = dict( addresses=[], addressLists=[], vlans=[], geo=[], ports=[], portLists=[] ) for x in self._values['source']: if x[0] == 'address': result['addresses'].append({'name': x[1]}) elif x[0] == 'address_list': result['addressLists'].append(x[1]) elif x[0] == 'vlan': result['vlans'].append(x[1]) elif x[0] == 'geo': result['geo'].append({'name': x[1]}) elif x[0] == 'port': result['ports'].append({'name': str(x[1])}) elif x[0] == 'port_list': result['portLists'].append(x[1]) return result @property def destination(self): if self._values['destination'] is None: return None result = dict( addresses=[], addressLists=[], vlans=[], geo=[], ports=[], portLists=[] ) for x in self._values['destination']: if x[0] == 'address': result['addresses'].append({'name': x[1]}) elif x[0] == 'address_list': result['addressLists'].append(x[1]) elif x[0] == 'geo': result['geo'].append({'name': x[1]}) elif x[0] == 'port': result['ports'].append({'name': str(x[1])}) elif x[0] == 'port_list': result['portLists'].append(x[1]) return result @property def icmp_message(self): if self._values['icmp_message'] is None: return None result = [] for x in self._values['icmp_message']: result.append({'name': x}) return result class ReportableChanges(Changes): @property def source(self): if self._values['source'] is None: return None result = [] v = self._values['source'] if v['addressLists']: result += [('address_list', x) for x in v['addressLists']] if v['vlans']: result += [('vlan', x) for x in v['vlans']] if v['geo']: result += [('geo', x['name']) for x in v['geo']] if v['addresses']: result += [('address', x['name']) for x in v['addresses']] if v['ports']: result += [('port', str(x)) for x in v['ports']] if v['portLists']: result += [('port_list', x['name']) for x in v['portLists']] if result: return dict(result) return None @property def destination(self): if self._values['destination'] is None: return None result = [] v = self._values['destination'] if v['addressLists']: result += [('address_list', x) for x in v['addressLists']] if v['geo']: result += [('geo', x['name']) for x in v['geo']] if v['addresses']: result += [('address', x['name']) for x in v['addresses']] if v['ports']: result += [('port', str(x)) for x in v['ports']] if v['portLists']: result += [('port_list', x['name']) for x in v['portLists']] if result: return dict(result) return None class Difference(object): def __init__(self, want, have=None): self.want = want self.have = have def compare(self, param): try: result = getattr(self, param) return result except AttributeError: return self.__default(param) def __default(self, param): attr1 = getattr(self.want, param) try: attr2 = getattr(self.have, param) if attr1 != attr2: return attr1 except AttributeError: return attr1 @property def irule(self): if self.want.irule is None: return None if self.have.irule is None and self.want.irule == '': return None if self.have.irule is None: return self.want.irule if self.want.irule != self.have.irule: return self.want.irule @property def description(self): if self.want.description is None: return None if self.have.description is None and self.want.description == '': return None if self.have.description is None: return self.want.description if self.want.description != self.have.description: return self.want.description @property def source(self): if self.want.source is None: return None if self.want.source is None and self.have.source is None: return None if self.have.source is None: return self.want.source if set(self.want.source) != set(self.have.source): return self.want.source @property def destination(self): if self.want.destination is None: return None if self.want.destination is None and self.have.destination is None: return None if self.have.destination is None: return self.want.destination if set(self.want.destination) != set(self.have.destination): return self.want.destination @property def icmp_message(self): if self.want.icmp_message is None: return None if self.want.icmp_message is None and self.have.icmp_message is None: return None if self.have.icmp_message is None: return self.want.icmp_message if set(self.want.icmp_message) != set(self.have.icmp_message): return self.want.icmp_message class ModuleManager(object): def __init__(self, *args, **kwargs): self.module = kwargs.get('module', None) self.client = kwargs.get('client', None) self.want = ModuleParameters(params=self.module.params) self.have = ApiParameters() self.changes = UsableChanges() def _set_changed_options(self): changed = {} for key in Parameters.returnables: if getattr(self.want, key) is not None: changed[key] = getattr(self.want, key) if changed: self.changes = UsableChanges(params=changed) def _update_changed_options(self): diff = Difference(self.want, self.have) updatables = Parameters.updatables changed = dict() for k in updatables: change = diff.compare(k) if change is None: continue else: if isinstance(change, dict): changed.update(change) else: changed[k] = change if changed: self.changes = UsableChanges(params=changed) return True return False def should_update(self): result = self._update_changed_options() if result: return True return False def exec_module(self): changed = False result = dict() state = self.want.state if state == "present": changed = self.present() elif state == "absent": changed = self.absent() reportable = ReportableChanges(params=self.changes.to_return()) changes = reportable.to_return() result.update(**changes) result.update(dict(changed=changed)) self._announce_deprecations(result) return result def _announce_deprecations(self, result): warnings = result.pop('__warnings', []) for warning in warnings: self.client.module.deprecate( msg=warning['msg'], version=warning['version'] ) def present(self): if self.exists(): return self.update() else: return self.create() def exists(self): if self.want.parent_policy: uri = "https://{0}:{1}/mgmt/tm/security/firewall/policy/{2}/rules/{3}".format( self.client.provider['server'], self.client.provider['server_port'], transform_name(self.want.partition, self.want.parent_policy), self.want.name ) else: uri = "https://{0}:{1}/mgmt/tm/security/firewall/rule-list/{2}/rules/{3}".format( self.client.provider['server'], self.client.provider['server_port'], transform_name(self.want.partition, self.want.parent_rule_list), self.want.name ) resp = self.client.api.get(uri) if resp.ok: return True return False def update(self): self.have = self.read_current_from_device() if not self.should_update(): return False if self.module.check_mode: return True self.update_on_device() return True def remove(self): if self.module.check_mode: return True self.remove_from_device() if self.exists(): raise F5ModuleError("Failed to delete the resource.") return True def create(self): self._set_changed_options() if self.want.rule_list is None and self.want.parent_rule_list is None: if self.want.action is None: self.changes.update({'action': 'reject'}) if self.want.logging is None: self.changes.update({'logging': False}) if self.want.status is None: self.changes.update({'status': 'enabled'}) if self.want.status == 'scheduled' and self.want.schedule is None: raise F5ModuleError( "A 'schedule' must be specified when 'status' is 'scheduled'." ) if self.module.check_mode: return True self.create_on_device() return True def create_on_device(self): params = self.changes.api_params() params['name'] = self.want.name params['partition'] = self.want.partition params['placeAfter'] = 'last' if self.want.parent_policy: uri = "https://{0}:{1}/mgmt/tm/security/firewall/policy/{2}/rules/".format( self.client.provider['server'], self.client.provider['server_port'], transform_name(self.want.partition, self.want.parent_policy), ) else: uri = "https://{0}:{1}/mgmt/tm/security/firewall/rule-list/{2}/rules/".format( self.client.provider['server'], self.client.provider['server_port'], transform_name(self.want.partition, self.want.parent_rule_list), ) if self.changes.protocol not in ['icmp', 'icmpv6']: if self.changes.icmp_message is not None: raise F5ModuleError( "The 'icmp_message' can only be specified when 'protocol' is 'icmp' or 'icmpv6'." ) resp = self.client.api.post(uri, json=params) try: response = resp.json() except ValueError as ex: raise F5ModuleError(str(ex)) if 'code' in response and response['code'] in [400, 403]: if 'message' in response: raise F5ModuleError(response['message']) else: raise F5ModuleError(resp.content) def update_on_device(self): if self.want.parent_policy: uri = "https://{0}:{1}/mgmt/tm/security/firewall/policy/{2}/rules/{3}".format( self.client.provider['server'], self.client.provider['server_port'], transform_name(self.want.partition, self.want.parent_policy), self.want.name ) else: uri = "https://{0}:{1}/mgmt/tm/security/firewall/rule-list/{2}/rules/{3}".format( self.client.provider['server'], self.client.provider['server_port'], transform_name(self.want.partition, self.want.parent_rule_list), self.want.name ) if self.have.protocol not in ['icmp', 'icmpv6'] and self.changes.protocol not in ['icmp', 'icmpv6']: if self.changes.icmp_message is not None: raise F5ModuleError( "The 'icmp_message' can only be specified when 'protocol' is 'icmp' or 'icmpv6'." ) if self.changes.protocol in ['icmp', 'icmpv6']: self.changes.update({'source': {}}) self.changes.update({'destination': {}}) params = self.changes.api_params() resp = self.client.api.patch(uri, json=params) try: response = resp.json() except ValueError as ex: raise F5ModuleError(str(ex)) if 'code' in response and response['code'] == 400: if 'message' in response: raise F5ModuleError(response['message']) else: raise F5ModuleError(resp.content) def absent(self): if self.exists(): return self.remove() return False def remove_from_device(self): if self.want.parent_policy: uri = "https://{0}:{1}/mgmt/tm/security/firewall/policy/{2}/rules/{3}".format( self.client.provider['server'], self.client.provider['server_port'], transform_name(self.want.partition, self.want.parent_policy), self.want.name ) else: uri = "https://{0}:{1}/mgmt/tm/security/firewall/rule-list/{2}/rules/{3}".format( self.client.provider['server'], self.client.provider['server_port'], transform_name(self.want.partition, self.want.parent_rule_list), self.want.name ) resp = self.client.api.delete(uri) if resp.status == 200: return True def read_current_from_device(self): if self.want.parent_policy: uri = "https://{0}:{1}/mgmt/tm/security/firewall/policy/{2}/rules/{3}".format( self.client.provider['server'], self.client.provider['server_port'], transform_name(self.want.partition, self.want.parent_policy), self.want.name ) else: uri = "https://{0}:{1}/mgmt/tm/security/firewall/rule-list/{2}/rules/{3}".format( self.client.provider['server'], self.client.provider['server_port'], transform_name(self.want.partition, self.want.parent_rule_list), self.want.name ) resp = self.client.api.get(uri) try: response = resp.json() except ValueError as ex: raise F5ModuleError(str(ex)) if 'code' in response and response['code'] == 400: if 'message' in response: raise F5ModuleError(response['message']) else: raise F5ModuleError(resp.content) return ApiParameters(params=response) class ArgumentSpec(object): def __init__(self): self.supports_check_mode = True argument_spec = dict( name=dict(required=True), parent_policy=dict(), parent_rule_list=dict(), logging=dict(type='bool'), protocol=dict(), irule=dict(), description=dict(), source=dict( type='list', elements='dict', options=dict( address=dict(), address_list=dict(), address_range=dict(), country=dict(), port=dict(type='int'), port_list=dict(), port_range=dict(), vlan=dict(), ), mutually_exclusive=[[ 'address', 'address_list', 'address_range', 'country', 'vlan', 'port', 'port_range', 'port_list' ]] ), destination=dict( type='list', elements='dict', options=dict( address=dict(), address_list=dict(), address_range=dict(), country=dict(), port=dict(type='int'), port_list=dict(), port_range=dict(), ), mutually_exclusive=[[ 'address', 'address_list', 'address_range', 'country', 'port', 'port_range', 'port_list' ]] ), action=dict( choices=['accept', 'drop', 'reject', 'accept-decisively'] ), status=dict( choices=['enabled', 'disabled', 'scheduled'] ), schedule=dict(), rule_list=dict(), icmp_message=dict( type='list', elements='dict', options=dict( type=dict(), code=dict(), ) ), partition=dict( default='Common', fallback=(env_fallback, ['F5_PARTITION']) ), state=dict( default='present', choices=['present', 'absent'] ) ) self.argument_spec = {} self.argument_spec.update(f5_argument_spec) self.argument_spec.update(argument_spec) self.mutually_exclusive = [ ['rule_list', 'action'], ['rule_list', 'source'], ['rule_list', 'destination'], ['rule_list', 'irule'], ['rule_list', 'protocol'], ['rule_list', 'logging'], ['parent_policy', 'parent_rule_list'] ] self.required_one_of = [ ['parent_policy', 'parent_rule_list'] ] def main(): spec = ArgumentSpec() module = AnsibleModule( argument_spec=spec.argument_spec, supports_check_mode=spec.supports_check_mode, mutually_exclusive=spec.mutually_exclusive, required_one_of=spec.required_one_of ) try: client = F5RestClient(**module.params) mm = ModuleManager(module=module, client=client) results = mm.exec_module() exit_json(module, results, client) except F5ModuleError as ex: fail_json(module, ex, client) if __name__ == '__main__': main()