#!/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 . # from __future__ import absolute_import, division, print_function __metaclass__ = type ANSIBLE_METADATA = { "metadata_version": "1.1", "status": ["preview"], "supported_by": "community" } DOCUMENTATION = ''' --- module: fmgr_ha notes: - Full Documentation at U(https://ftnt-ansible-docs.readthedocs.io/en/latest/). author: - Luke Weighall (@lweighall) - Andrew Welsh (@Ghilli3) - Jim Huber (@p4r4n0y1ng) short_description: Manages the High-Availability State of FortiManager Clusters and Nodes. description: Change HA state or settings of FortiManager nodes (Standalone/Master/Slave). options: fmgr_ha_mode: description: - Sets the role of the FortiManager host for HA. required: false choices: ["standalone", "master", "slave"] fmgr_ha_peer_ipv4: description: - Sets the IPv4 address of a HA peer. required: false fmgr_ha_peer_ipv6: description: - Sets the IPv6 address of a HA peer. required: false fmgr_ha_peer_sn: description: - Sets the HA Peer Serial Number. required: false fmgr_ha_peer_status: description: - Sets the peer status to enable or disable. required: false choices: ["enable", "disable"] fmgr_ha_cluster_pw: description: - Sets the password for the HA cluster. Only required once. System remembers between HA mode switches. required: false fmgr_ha_cluster_id: description: - Sets the ID number of the HA cluster. Defaults to 1. required: false default: 1 fmgr_ha_hb_threshold: description: - Sets heartbeat lost threshold (1-255). required: false default: 3 fmgr_ha_hb_interval: description: - Sets the heartbeat interval (1-255). required: false default: 5 fmgr_ha_file_quota: description: - Sets the File quota in MB (2048-20480). required: false default: 4096 ''' EXAMPLES = ''' - name: SET FORTIMANAGER HA NODE TO MASTER fmgr_ha: fmgr_ha_mode: "master" fmgr_ha_cluster_pw: "fortinet" fmgr_ha_cluster_id: "1" - name: SET FORTIMANAGER HA NODE TO SLAVE fmgr_ha: fmgr_ha_mode: "slave" fmgr_ha_cluster_pw: "fortinet" fmgr_ha_cluster_id: "1" - name: SET FORTIMANAGER HA NODE TO STANDALONE fmgr_ha: fmgr_ha_mode: "standalone" - name: ADD FORTIMANAGER HA PEER fmgr_ha: fmgr_ha_peer_ipv4: "192.168.1.254" fmgr_ha_peer_sn: "FMG-VM1234567890" fmgr_ha_peer_status: "enable" - name: CREATE CLUSTER ON MASTER fmgr_ha: fmgr_ha_mode: "master" fmgr_ha_cluster_pw: "fortinet" fmgr_ha_cluster_id: "1" fmgr_ha_hb_threshold: "10" fmgr_ha_hb_interval: "15" fmgr_ha_file_quota: "2048" ''' RETURN = """ api_result: description: full API response, includes status code and message returned: always type: str """ from ansible.module_utils.basic import AnsibleModule from ansible.module_utils.connection import Connection from ansible_collections.fortinet.fortios.plugins.module_utils.network.fortimanager.fortimanager import FortiManagerHandler from ansible_collections.fortinet.fortios.plugins.module_utils.network.fortimanager.common import FMGBaseException from ansible_collections.fortinet.fortios.plugins.module_utils.network.fortimanager.common import FMGRCommon from ansible_collections.fortinet.fortios.plugins.module_utils.network.fortimanager.common import FMGRMethods from ansible_collections.fortinet.fortios.plugins.module_utils.network.fortimanager.common import DEFAULT_RESULT_OBJ from ansible_collections.fortinet.fortios.plugins.module_utils.network.fortimanager.common import FAIL_SOCKET_MSG def fmgr_set_ha_mode(fmgr, paramgram): """ :param fmgr: The fmgr object instance from fortimanager.py :type fmgr: class object :param paramgram: The formatted dictionary of options to process :type paramgram: dict :return: The response from the FortiManager :rtype: dict """ # INIT A BASIC OBJECTS response = DEFAULT_RESULT_OBJ url = "" datagram = {} if paramgram["fmgr_ha_cluster_pw"] is not None and str(paramgram["fmgr_ha_mode"].lower()) != "standalone": datagram = { "mode": paramgram["fmgr_ha_mode"], "file-quota": paramgram["fmgr_ha_file_quota"], "hb-interval": paramgram["fmgr_ha_hb_interval"], "hb-lost-threshold": paramgram["fmgr_ha_hb_threshold"], "password": paramgram["fmgr_ha_cluster_pw"], "clusterid": paramgram["fmgr_ha_cluster_id"] } elif str(paramgram["fmgr_ha_mode"].lower()) == "standalone": datagram = { "mode": paramgram["fmgr_ha_mode"], "file-quota": paramgram["fmgr_ha_file_quota"], "hb-interval": paramgram["fmgr_ha_hb_interval"], "hb-lost-threshold": paramgram["fmgr_ha_hb_threshold"], "clusterid": paramgram["fmgr_ha_cluster_id"] } url = '/cli/global/system/ha' response = fmgr.process_request(url, datagram, FMGRMethods.SET) return response def fmgr_get_ha_peer_list(fmgr): """ :param fmgr: The fmgr object instance from fortimanager.py :type fmgr: class object :param paramgram: The formatted dictionary of options to process :type paramgram: dict :return: The response from the FortiManager :rtype: dict """ # INIT A BASIC OBJECTS response = DEFAULT_RESULT_OBJ datagram = {} paramgram = {} url = '/cli/global/system/ha/peer/' response = fmgr.process_request(url, datagram, FMGRMethods.GET) return response def fmgr_set_ha_peer(fmgr, paramgram): """ :param fmgr: The fmgr object instance from fortimanager.py :type fmgr: class object :param paramgram: The formatted dictionary of options to process :type paramgram: dict :return: The response from the FortiManager :rtype: dict """ datagram = { "ip": paramgram["fmgr_ha_peer_ipv4"], "ip6": paramgram["fmgr_ha_peer_ipv6"], "serial-number": paramgram["fmgr_ha_peer_sn"], "status": paramgram["fmgr_ha_peer_status"], "id": paramgram["peer_id"] } url = '/cli/global/system/ha/peer/' response = fmgr.process_request(url, datagram, FMGRMethods.SET) return response def main(): argument_spec = dict( fmgr_ha_mode=dict(required=False, type="str", choices=["standalone", "master", "slave"]), fmgr_ha_cluster_pw=dict(required=False, type="str", no_log=True), fmgr_ha_peer_status=dict(required=False, type="str", choices=["enable", "disable"]), fmgr_ha_peer_sn=dict(required=False, type="str"), fmgr_ha_peer_ipv4=dict(required=False, type="str"), fmgr_ha_peer_ipv6=dict(required=False, type="str"), fmgr_ha_hb_threshold=dict(required=False, type="int", default=3), fmgr_ha_hb_interval=dict(required=False, type="int", default=5), fmgr_ha_file_quota=dict(required=False, type="int", default=4096), fmgr_ha_cluster_id=dict(required=False, type="int", default=1) ) required_if = [ ['fmgr_ha_peer_ipv4', 'present', ['fmgr_ha_peer_sn', 'fmgr_ha_peer_status']], ['fmgr_ha_peer_ipv6', 'present', ['fmgr_ha_peer_sn', 'fmgr_ha_peer_status']], ['fmgr_ha_mode', 'master', ['fmgr_ha_cluster_pw', 'fmgr_ha_cluster_id']], ['fmgr_ha_mode', 'slave', ['fmgr_ha_cluster_pw', 'fmgr_ha_cluster_id']], ] module = AnsibleModule(argument_spec=argument_spec, supports_check_mode=False, required_if=required_if) paramgram = { "fmgr_ha_mode": module.params["fmgr_ha_mode"], "fmgr_ha_cluster_pw": module.params["fmgr_ha_cluster_pw"], "fmgr_ha_peer_status": module.params["fmgr_ha_peer_status"], "fmgr_ha_peer_sn": module.params["fmgr_ha_peer_sn"], "fmgr_ha_peer_ipv4": module.params["fmgr_ha_peer_ipv4"], "fmgr_ha_peer_ipv6": module.params["fmgr_ha_peer_ipv6"], "fmgr_ha_hb_threshold": module.params["fmgr_ha_hb_threshold"], "fmgr_ha_hb_interval": module.params["fmgr_ha_hb_interval"], "fmgr_ha_file_quota": module.params["fmgr_ha_file_quota"], "fmgr_ha_cluster_id": module.params["fmgr_ha_cluster_id"], } module.paramgram = paramgram fmgr = None if module._socket_path: connection = Connection(module._socket_path) fmgr = FortiManagerHandler(connection, module) fmgr.tools = FMGRCommon() else: module.fail_json(**FAIL_SOCKET_MSG) # INIT FLAGS AND COUNTERS get_ha_peers = 0 results = DEFAULT_RESULT_OBJ try: if any(v is not None for v in (paramgram["fmgr_ha_peer_sn"], paramgram["fmgr_ha_peer_ipv4"], paramgram["fmgr_ha_peer_ipv6"], paramgram["fmgr_ha_peer_status"])): get_ha_peers = 1 except Exception as err: raise FMGBaseException(err) try: # IF HA MODE IS NOT NULL, SWITCH THAT if paramgram["fmgr_ha_mode"] is not None: if (str.lower(paramgram["fmgr_ha_mode"]) != "standalone" and paramgram["fmgr_ha_cluster_pw"] is not None)\ or str.lower(paramgram["fmgr_ha_mode"]) == "standalone": results = fmgr_set_ha_mode(fmgr, paramgram) fmgr.govern_response(module=module, results=results, stop_on_success=False, ansible_facts=fmgr.construct_ansible_facts(results, module.params, paramgram)) elif str.lower(paramgram["fmgr_ha_mode"]) != "standalone" and\ paramgram["fmgr_ha_mode"] is not None and\ paramgram["fmgr_ha_cluster_pw"] is None: module.exit_json(msg="If setting HA Mode of MASTER or SLAVE, you must specify a cluster password") except Exception as err: raise FMGBaseException(err) # IF GET_HA_PEERS IS ENABLED, LETS PROCESS THE PEERS try: if get_ha_peers == 1: # GET THE CURRENT LIST OF PEERS FROM THE NODE peers = fmgr_get_ha_peer_list(fmgr) # GET LENGTH OF RETURNED PEERS LIST AND ADD ONE FOR THE NEXT ID paramgram["next_peer_id"] = len(peers[1]) + 1 # SET THE ACTUAL NUMBER OF PEERS num_of_peers = len(peers[1]) # SET THE PEER ID FOR DISABLE METHOD paramgram["peer_id"] = len(peers) - 1 # SET THE PEER LOOPCOUNT TO 1 TO START THE LOOP peer_loopcount = 1 # LOOP THROUGH PEERS TO FIND THE SERIAL NUMBER MATCH TO GET THE RIGHT PEER ID # IDEA BEING WE DON'T WANT TO SUBMIT A BAD peer_id THAT DOESN'T JIVE WITH CURRENT DB ON FMG # SO LETS SEARCH FOR IT, AND IF WE FIND IT, WE WILL CHANGE THE PEER ID VARIABLES TO MATCH # IF NOT FOUND, LIFE GOES ON AND WE ASSUME THAT WE'RE ADDING A PEER # AT WHICH POINT THE next_peer_id VARIABLE WILL HAVE THE RIGHT PRIMARY KEY if paramgram["fmgr_ha_peer_sn"] is not None: while peer_loopcount <= num_of_peers: # GET THE SERIAL NUMBER FOR CURRENT PEER IN LOOP TO COMPARE TO SN IN PLAYBOOK try: sn_compare = peers[1][peer_loopcount - 1]["serial-number"] # IF THE SN IN THE PEERS MATCHES THE PLAYBOOK SN, SET THE IDS if sn_compare == paramgram["fmgr_ha_peer_sn"]: paramgram["peer_id"] = peer_loopcount paramgram["next_peer_id"] = paramgram["peer_id"] except Exception as err: raise FMGBaseException(err) # ADVANCE THE LOOP AND REPEAT UNTIL DONE peer_loopcount += 1 # IF THE PEER STATUS ISN'T IN THE PLAYBOOK, ASSUME ITS ENABLE if paramgram["fmgr_ha_peer_status"] is None: paramgram["fmgr_ha_peer_status"] = "enable" # IF THE PEER STATUS IS ENABLE, USE THE next_peer_id IN THE API CALL FOR THE ID if paramgram["fmgr_ha_peer_status"] == "enable": results = fmgr_set_ha_peer(fmgr, paramgram) fmgr.govern_response(module=module, results=results, stop_on_success=True, ansible_facts=fmgr.construct_ansible_facts(results, module.params, paramgram)) # IF THE PEER STATUS IS DISABLE, WE HAVE TO HANDLE THAT A BIT DIFFERENTLY # JUST USING TWO DIFFERENT peer_id 's HERE if paramgram["fmgr_ha_peer_status"] == "disable": results = fmgr_set_ha_peer(fmgr, paramgram) fmgr.govern_response(module=module, results=results, stop_on_success=True, ansible_facts=fmgr.construct_ansible_facts(results, module.params, paramgram)) except Exception as err: raise FMGBaseException(err) return module.exit_json(**results[1]) if __name__ == "__main__": main()