#!/usr/bin/python # -*- coding: utf-8 -*- # # Copyright: (c) 2015, René Moser # 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': ['stableinterface'], 'supported_by': 'community'} DOCUMENTATION = ''' --- module: cs_firewall short_description: Manages firewall rules on Apache CloudStack based clouds. description: - Creates and removes firewall rules. author: René Moser (@resmo) options: ip_address: description: - Public IP address the ingress rule is assigned to. - Required if I(type=ingress). type: str network: description: - Network the egress rule is related to. - Required if I(type=egress). type: str state: description: - State of the firewall rule. type: str default: present choices: [ present, absent ] type: description: - Type of the firewall rule. type: str default: ingress choices: [ ingress, egress ] protocol: description: - Protocol of the firewall rule. - C(all) is only available if I(type=egress). type: str default: tcp choices: [ tcp, udp, icmp, all ] cidrs: description: - List of CIDRs (full notation) to be used for firewall rule. - Since version 2.5, it is a list of CIDR. type: list default: 0.0.0.0/0 aliases: [ cidr ] start_port: description: - Start port for this rule. - Considered if I(protocol=tcp) or I(protocol=udp). type: int aliases: [ port ] end_port: description: - End port for this rule. Considered if I(protocol=tcp) or I(protocol=udp). - If not specified, equal I(start_port). type: int icmp_type: description: - Type of the icmp message being sent. - Considered if I(protocol=icmp). type: int icmp_code: description: - Error code for this icmp message. - Considered if I(protocol=icmp). type: int domain: description: - Domain the firewall rule is related to. type: str account: description: - Account the firewall rule is related to. type: str project: description: - Name of the project the firewall rule is related to. type: str zone: description: - Name of the zone in which the virtual machine is in. - If not set, default zone is used. type: str poll_async: description: - Poll async jobs until job has finished. type: bool default: yes tags: description: - List of tags. Tags are a list of dictionaries having keys I(key) and I(value). - "To delete all tags, set an empty list e.g. I(tags: [])." type: list aliases: [ tag ] extends_documentation_fragment: - community.general.cloudstack ''' EXAMPLES = ''' - name: Allow inbound port 80/tcp from 1.2.3.4 to 4.3.2.1 cs_firewall: ip_address: 4.3.2.1 port: 80 cidr: 1.2.3.4/32 delegate_to: localhost - name: Allow inbound tcp/udp port 53 to 4.3.2.1 cs_firewall: ip_address: 4.3.2.1 port: 53 protocol: '{{ item }}' with_items: - tcp - udp delegate_to: localhost - name: Ensure firewall rule is removed cs_firewall: ip_address: 4.3.2.1 start_port: 8000 end_port: 8888 cidr: 17.0.0.0/8 state: absent delegate_to: localhost - name: Allow all outbound traffic cs_firewall: network: my_network type: egress protocol: all delegate_to: localhost - name: Allow only HTTP outbound traffic for an IP cs_firewall: network: my_network type: egress port: 80 cidr: 10.101.1.20 delegate_to: localhost ''' RETURN = ''' --- id: description: UUID of the rule. returned: success type: str sample: 04589590-ac63-4ffc-93f5-b698b8ac38b6 ip_address: description: IP address of the rule if C(type=ingress) returned: success type: str sample: 10.100.212.10 type: description: Type of the rule. returned: success type: str sample: ingress cidr: description: CIDR string of the rule. returned: success type: str sample: 0.0.0.0/0 cidrs: description: CIDR list of the rule. returned: success type: list sample: [ '0.0.0.0/0' ] protocol: description: Protocol of the rule. returned: success type: str sample: tcp start_port: description: Start port of the rule. returned: success type: int sample: 80 end_port: description: End port of the rule. returned: success type: int sample: 80 icmp_code: description: ICMP code of the rule. returned: success type: int sample: 1 icmp_type: description: ICMP type of the rule. returned: success type: int sample: 1 network: description: Name of the network if C(type=egress) returned: success type: str sample: my_network ''' from ansible.module_utils.basic import AnsibleModule from ansible_collections.community.general.plugins.module_utils.cloudstack import ( AnsibleCloudStack, cs_argument_spec, cs_required_together ) class AnsibleCloudStackFirewall(AnsibleCloudStack): def __init__(self, module): super(AnsibleCloudStackFirewall, self).__init__(module) self.returns = { 'cidrlist': 'cidr', 'startport': 'start_port', 'endport': 'end_port', 'protocol': 'protocol', 'ipaddress': 'ip_address', 'icmpcode': 'icmp_code', 'icmptype': 'icmp_type', } self.firewall_rule = None self.network = None def get_firewall_rule(self): if not self.firewall_rule: cidrs = self.module.params.get('cidrs') protocol = self.module.params.get('protocol') start_port = self.module.params.get('start_port') end_port = self.get_or_fallback('end_port', 'start_port') icmp_code = self.module.params.get('icmp_code') icmp_type = self.module.params.get('icmp_type') fw_type = self.module.params.get('type') if protocol in ['tcp', 'udp'] and not (start_port and end_port): self.module.fail_json(msg="missing required argument for protocol '%s': start_port or end_port" % protocol) if protocol == 'icmp' and not icmp_type: self.module.fail_json(msg="missing required argument for protocol 'icmp': icmp_type") if protocol == 'all' and fw_type != 'egress': self.module.fail_json(msg="protocol 'all' could only be used for type 'egress'") args = { 'account': self.get_account('name'), 'domainid': self.get_domain('id'), 'projectid': self.get_project('id'), 'fetch_list': True, } if fw_type == 'egress': args['networkid'] = self.get_network(key='id') if not args['networkid']: self.module.fail_json(msg="missing required argument for type egress: network") # CloudStack 4.11 use the network cidr for 0.0.0.0/0 in egress # That is why we need to replace it. network_cidr = self.get_network(key='cidr') egress_cidrs = [network_cidr if cidr == '0.0.0.0/0' else cidr for cidr in cidrs] firewall_rules = self.query_api('listEgressFirewallRules', **args) else: args['ipaddressid'] = self.get_ip_address('id') if not args['ipaddressid']: self.module.fail_json(msg="missing required argument for type ingress: ip_address") egress_cidrs = None firewall_rules = self.query_api('listFirewallRules', **args) if firewall_rules: for rule in firewall_rules: type_match = self._type_cidrs_match(rule, cidrs, egress_cidrs) protocol_match = ( self._tcp_udp_match(rule, protocol, start_port, end_port) or self._icmp_match(rule, protocol, icmp_code, icmp_type) or self._egress_all_match(rule, protocol, fw_type) ) if type_match and protocol_match: self.firewall_rule = rule break return self.firewall_rule def _tcp_udp_match(self, rule, protocol, start_port, end_port): return ( protocol in ['tcp', 'udp'] and protocol == rule['protocol'] and start_port == int(rule['startport']) and end_port == int(rule['endport']) ) def _egress_all_match(self, rule, protocol, fw_type): return ( protocol in ['all'] and protocol == rule['protocol'] and fw_type == 'egress' ) def _icmp_match(self, rule, protocol, icmp_code, icmp_type): return ( protocol == 'icmp' and protocol == rule['protocol'] and icmp_code == rule['icmpcode'] and icmp_type == rule['icmptype'] ) def _type_cidrs_match(self, rule, cidrs, egress_cidrs): if egress_cidrs is not None: return ",".join(egress_cidrs) == rule['cidrlist'] or ",".join(cidrs) == rule['cidrlist'] else: return ",".join(cidrs) == rule['cidrlist'] def create_firewall_rule(self): firewall_rule = self.get_firewall_rule() if not firewall_rule: self.result['changed'] = True args = { 'cidrlist': self.module.params.get('cidrs'), 'protocol': self.module.params.get('protocol'), 'startport': self.module.params.get('start_port'), 'endport': self.get_or_fallback('end_port', 'start_port'), 'icmptype': self.module.params.get('icmp_type'), 'icmpcode': self.module.params.get('icmp_code') } fw_type = self.module.params.get('type') if not self.module.check_mode: if fw_type == 'egress': args['networkid'] = self.get_network(key='id') res = self.query_api('createEgressFirewallRule', **args) else: args['ipaddressid'] = self.get_ip_address('id') res = self.query_api('createFirewallRule', **args) poll_async = self.module.params.get('poll_async') if poll_async: firewall_rule = self.poll_job(res, 'firewallrule') if firewall_rule: firewall_rule = self.ensure_tags(resource=firewall_rule, resource_type='Firewallrule') self.firewall_rule = firewall_rule return firewall_rule def remove_firewall_rule(self): firewall_rule = self.get_firewall_rule() if firewall_rule: self.result['changed'] = True args = { 'id': firewall_rule['id'] } fw_type = self.module.params.get('type') if not self.module.check_mode: if fw_type == 'egress': res = self.query_api('deleteEgressFirewallRule', **args) else: res = self.query_api('deleteFirewallRule', **args) poll_async = self.module.params.get('poll_async') if poll_async: self.poll_job(res, 'firewallrule') return firewall_rule def get_result(self, firewall_rule): super(AnsibleCloudStackFirewall, self).get_result(firewall_rule) if firewall_rule: self.result['type'] = self.module.params.get('type') if self.result['type'] == 'egress': self.result['network'] = self.get_network(key='displaytext') if 'cidrlist' in firewall_rule: self.result['cidrs'] = firewall_rule['cidrlist'].split(',') or [firewall_rule['cidrlist']] return self.result def main(): argument_spec = cs_argument_spec() argument_spec.update(dict( ip_address=dict(), network=dict(), cidrs=dict(type='list', default='0.0.0.0/0', aliases=['cidr']), protocol=dict(choices=['tcp', 'udp', 'icmp', 'all'], default='tcp'), type=dict(choices=['ingress', 'egress'], default='ingress'), icmp_type=dict(type='int'), icmp_code=dict(type='int'), start_port=dict(type='int', aliases=['port']), end_port=dict(type='int'), state=dict(choices=['present', 'absent'], default='present'), zone=dict(), domain=dict(), account=dict(), project=dict(), poll_async=dict(type='bool', default=True), tags=dict(type='list', aliases=['tag'], default=None), )) required_together = cs_required_together() required_together.extend([ ['icmp_type', 'icmp_code'], ]) module = AnsibleModule( argument_spec=argument_spec, required_together=required_together, required_one_of=( ['ip_address', 'network'], ), mutually_exclusive=( ['icmp_type', 'start_port'], ['icmp_type', 'end_port'], ['ip_address', 'network'], ), supports_check_mode=True ) acs_fw = AnsibleCloudStackFirewall(module) state = module.params.get('state') if state in ['absent']: fw_rule = acs_fw.remove_firewall_rule() else: fw_rule = acs_fw.create_firewall_rule() result = acs_fw.get_result(fw_rule) module.exit_json(**result) if __name__ == '__main__': main()