#!/usr/bin/python -tt # 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 . DOCUMENTATION = ''' --- module: rax_clb short_description: create / delete a load balancer in Rackspace Public Cloud description: - creates / deletes a Rackspace Public Cloud load balancer. version_added: "1.4" options: algorithm: description: - algorithm for the balancer being created choices: ['RANDOM', 'LEAST_CONNECTIONS', 'ROUND_ROBIN', 'WEIGHTED_LEAST_CONNECTIONS', 'WEIGHTED_ROUND_ROBIN'] default: LEAST_CONNECTIONS api_key: description: - Rackspace API key (overrides C(credentials)) credentials: description: - File to find the Rackspace credentials in (ignored if C(api_key) and C(username) are provided) default: null aliases: ['creds_file'] meta: description: - A hash of metadata to associate with the instance default: null name: description: - Name to give the load balancer default: null port: description: - Port for the balancer being created default: 80 protocol: description: - Protocol for the balancer being created choices: ['DNS_TCP', 'DNS_UDP' ,'FTP', 'HTTP', 'HTTPS', 'IMAPS', 'IMAPv4', 'LDAP', 'LDAPS', 'MYSQL', 'POP3', 'POP3S', 'SMTP', 'TCP', 'TCP_CLIENT_FIRST', 'UDP', 'UDP_STREAM', 'SFTP'] default: HTTP region: description: - Region to create the load balancer in default: DFW state: description: - Indicate desired state of the resource choices: ['present', 'absent'] default: present timeout: description: - timeout for communication between the balancer and the node default: 30 type: description: - type of interface for the balancer being created choices: ['PUBLIC', 'SERVICENET'] default: PUBLIC username: description: - Rackspace username (overrides C(credentials)) wait: description: - wait for the balancer to be in state 'running' before returning default: "no" choices: [ "yes", "no" ] wait_timeout: description: - how long before wait gives up, in seconds default: 300 requirements: [ "pyrax" ] author: Christopher H. Laco, Matt Martz notes: - The following environment variables can be used, C(RAX_USERNAME), C(RAX_API_KEY), C(RAX_CREDS_FILE), C(RAX_CREDENTIALS), C(RAX_REGION). - C(RAX_CREDENTIALS) and C(RAX_CREDS_FILE) points to a credentials file appropriate for pyrax. See U(https://github.com/rackspace/pyrax/blob/master/docs/getting_started.md#authenticating) - C(RAX_USERNAME) and C(RAX_API_KEY) obviate the use of a credentials file - C(RAX_REGION) defines a Rackspace Public Cloud region (DFW, ORD, LON, ...) ''' EXAMPLES = ''' - name: Build a Load Balancer gather_facts: False hosts: local connection: local tasks: - name: Load Balancer create request local_action: module: rax_clb credentials: ~/.raxpub name: my-lb port: 8080 protocol: HTTP type: SERVICENET timeout: 30 region: DFW wait: yes state: present meta: app: my-cool-app register: my_lb ''' import sys import os from types import NoneType try: import pyrax except ImportError: print("failed=True msg='pyrax required for this module'") sys.exit(1) NON_CALLABLES = (basestring, bool, dict, int, list, NoneType) ALGORITHMS = ['RANDOM', 'LEAST_CONNECTIONS', 'ROUND_ROBIN', 'WEIGHTED_LEAST_CONNECTIONS', 'WEIGHTED_ROUND_ROBIN'] PROTOCOLS = ['DNS_TCP', 'DNS_UDP', 'FTP', 'HTTP', 'HTTPS', 'IMAPS', 'IMAPv4', 'LDAP', 'LDAPS', 'MYSQL', 'POP3', 'POP3S', 'SMTP', 'TCP', 'TCP_CLIENT_FIRST', 'UDP', 'UDP_STREAM', 'SFTP'] def to_dict(obj): instance = {} for key in dir(obj): value = getattr(obj, key) if key == 'virtual_ips': virtual_ips = [] instance[key] = [] for vip in value: vip_dict = {} for vip_key, vip_value in vars(vip).iteritems(): if isinstance(vip_value, NON_CALLABLES): vip_dict[vip_key] = vip_value instance[key].append(vip_dict) elif key == 'nodes': instance[key] = [] for node in value: instance[key].append(node.to_dict()) elif (isinstance(value, NON_CALLABLES) and not key.startswith('_')): instance[key] = value return instance def cloud_load_balancer(module, state, name, meta, algorithm, port, protocol, vip_type, timeout, wait, wait_timeout): for arg in (state, name, port, protocol, vip_type): if not arg: module.fail_json(msg='%s is required for rax_clb' % arg) if int(timeout) < 30: module.fail_json(msg='"timeout" must be greater than or equal to 30') changed = False balancers = [] clb = pyrax.cloud_loadbalancers for balancer in clb.list(): if name != balancer.name and name != balancer.id: continue balancers.append(balancer) if len(balancers) > 1: module.fail_json(msg='Multiple Load Balancers were matched by name, ' 'try using the Load Balancer ID instead') if state == 'present': if isinstance(meta, dict): metadata = [dict(key=k, value=v) for k, v in meta.items()] if not balancers: try: virtual_ips = [clb.VirtualIP(type=vip_type)] balancer = clb.create(name, metadata=metadata, port=port, algorithm=algorithm, protocol=protocol, timeout=timeout, virtual_ips=virtual_ips) changed = True except Exception, e: module.fail_json(msg='%s' % e.message) else: balancer = balancers[0] setattr(balancer, 'metadata', [dict(key=k, value=v) for k, v in balancer.get_metadata().items()]) atts = { 'name': name, 'algorithm': algorithm, 'port': port, 'protocol': protocol, 'timeout': timeout } for att, value in atts.iteritems(): current = getattr(balancer, att) if current != value: changed = True if changed: balancer.update(**atts) if balancer.metadata != metadata: balancer.set_metadata(meta) changed = True virtual_ips = [clb.VirtualIP(type=vip_type)] current_vip_types = set([v.type for v in balancer.virtual_ips]) vip_types = set([v.type for v in virtual_ips]) if current_vip_types != vip_types: module.fail_json(msg='Load balancer Virtual IP type cannot ' 'be changed') if wait: attempts = wait_timeout / 5 print attempts pyrax.utils.wait_for_build(balancer, interval=5, attempts=attempts) balancer.get() instance = to_dict(balancer) result = dict(changed=changed, balancer=instance) if balancer.status == 'ERROR': result['msg'] = '%s failed to build' % balancer.id elif wait and balancer.status not in ('ACTIVE', 'ERROR'): result['msg'] = 'Timeout waiting on %s' % balancer.id if 'msg' in result: module.fail_json(**result) else: module.exit_json(**result) elif state == 'absent': if balancers: balancer = balancers[0] try: balancer.delete() changed = True except Exception, e: module.fail_json(msg='%s' % e.message) instance = to_dict(balancer) if wait: attempts = wait_timeout / 5 pyrax.utils.wait_until(balancer, 'status', ('DELETED'), interval=5, attempts=attempts) else: instance = {} module.exit_json(changed=changed, balancer=instance) def main(): module = AnsibleModule( argument_spec=dict( algorithm=dict(choices=ALGORITHMS, default='LEAST_CONNECTIONS'), api_key=dict(), credentials=dict(aliases=['creds_file']), meta=dict(type='dict', default={}), name=dict(), port=dict(type='int', default=80), protocol=dict(choices=PROTOCOLS, default='HTTP'), region=dict(), state=dict(default='present', choices=['present', 'absent']), timeout=dict(type='int', default=30), type=dict(choices=['PUBLIC', 'SERVICENET'], default='PUBLIC'), username=dict(), wait=dict(type='bool'), wait_timeout=dict(default=300), ), ) algorithm = module.params.get('algorithm') api_key = module.params.get('api_key') credentials = module.params.get('credentials') meta = module.params.get('meta') name = module.params.get('name') port = module.params.get('port') protocol = module.params.get('protocol') region = module.params.get('region') state = module.params.get('state') timeout = int(module.params.get('timeout')) username = module.params.get('username') vip_type = module.params.get('type') wait = module.params.get('wait') wait_timeout = int(module.params.get('wait_timeout')) try: username = username or os.environ.get('RAX_USERNAME') api_key = api_key or os.environ.get('RAX_API_KEY') credentials = (credentials or os.environ.get('RAX_CREDENTIALS') or os.environ.get('RAX_CREDS_FILE')) region = region or os.environ.get('RAX_REGION') except KeyError, e: module.fail_json(msg='Unable to load %s' % e.message) try: pyrax.set_setting('identity_type', 'rackspace') if api_key and username: pyrax.set_credentials(username, api_key=api_key, region=region) elif credentials: credentials = os.path.expanduser(credentials) pyrax.set_credential_file(credentials, region=region) else: raise Exception('No credentials supplied!') except Exception, e: module.fail_json(msg='%s' % e.message) cloud_load_balancer(module, state, name, meta, algorithm, port, protocol, vip_type, timeout, wait, wait_timeout) from ansible.module_utils.basic import * main()