#!/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 . DOCUMENTATION = ''' --- module: rax_clb_nodes short_description: add, modify and remove nodes from a Rackspace Cloud Load Balancer description: - Adds, modifies and removes nodes from a Rackspace Cloud Load Balancer version_added: "1.4" options: address: required: false description: - IP address or domain name of the node api_key: required: false description: - Rackspace API key (overrides C(credentials)) condition: required: false choices: [ "enabled", "disabled", "draining" ] description: - Condition for the node, which determines its role within the load balancer credentials: required: false description: - File to find the Rackspace credentials in (ignored if C(api_key) and C(username) are provided) load_balancer_id: required: true type: integer description: - Load balancer id node_id: required: false type: integer description: - Node id port: required: false type: integer description: - Port number of the load balanced service on the node region: required: false description: - Region to authenticate in state: required: false default: "present" choices: [ "present", "absent" ] description: - Indicate desired state of the node type: required: false choices: [ "primary", "secondary" ] description: - Type of node username: required: false description: - Rackspace username (overrides C(credentials)) virtualenv: required: false description: - Path to a virtualenv that should be activated before doing anything. The virtualenv has to already exist. Useful if installing pyrax globally is not an option. wait: required: false default: "no" choices: [ "yes", "no" ] description: - Wait for the load balancer to become active before returning wait_timeout: required: false type: integer default: 30 description: - How long to wait before giving up and returning an error weight: required: false description: - Weight of node requirements: [ "pyrax" ] author: Lukasz Kawczynski notes: - "The following environment variables can be used: C(RAX_USERNAME), C(RAX_API_KEY), C(RAX_CREDENTIALS) and C(RAX_REGION)." ''' EXAMPLES = ''' # Add a new node to the load balancer - local_action: module: rax_clb_nodes load_balancer_id: 71 address: 10.2.2.3 port: 80 condition: enabled type: primary wait: yes credentials: /path/to/credentials # Drain connections from a node - local_action: module: rax_clb_nodes load_balancer_id: 71 node_id: 410 condition: draining wait: yes credentials: /path/to/credentials # Remove a node from the load balancer - local_action: module: rax_clb_nodes load_balancer_id: 71 node_id: 410 state: absent wait: yes credentials: /path/to/credentials ''' import os def _activate_virtualenv(path): path = os.path.expanduser(path) activate_this = os.path.join(path, 'bin', 'activate_this.py') execfile(activate_this, dict(__file__=activate_this)) def _get_node(lb, node_id): """Return a node with the given `node_id`""" for node in lb.nodes: if node.id == node_id: return node return None def _is_primary(node): """Return True if node is primary and enabled""" return (node.type.lower() == 'primary' and node.condition.lower() == 'enabled') def _get_primary_nodes(lb): """Return a list of primary and enabled nodes""" nodes = [] for node in lb.nodes: if _is_primary(node): nodes.append(node) return nodes def _node_to_dict(node): """Return a dictionary containing node details""" if not node: return {} return { 'address': node.address, 'condition': node.condition, 'id': node.id, 'port': node.port, 'type': node.type, 'weight': node.weight, } def main(): module = AnsibleModule( argument_spec=dict( address=dict(), api_key=dict(), condition=dict(choices=['enabled', 'disabled', 'draining']), credentials=dict(), load_balancer_id=dict(required=True, type='int'), node_id=dict(type='int'), port=dict(type='int'), region=dict(), state=dict(default='present', choices=['present', 'absent']), type=dict(choices=['primary', 'secondary']), username=dict(), virtualenv=dict(), wait=dict(default=False, type='bool'), wait_timeout=dict(default=30, type='int'), weight=dict(type='int'), ), required_together=[ ['api_key', 'username'] ], ) address = module.params['address'] api_key = module.params['api_key'] condition = (module.params['condition'] and module.params['condition'].upper()) credentials = module.params['credentials'] load_balancer_id = module.params['load_balancer_id'] node_id = module.params['node_id'] port = module.params['port'] region = module.params['region'] state = module.params['state'] typ = module.params['type'] and module.params['type'].upper() username = module.params['username'] virtualenv = module.params['virtualenv'] wait = module.params['wait'] wait_timeout = module.params['wait_timeout'] or 1 weight = module.params['weight'] if virtualenv: try: _activate_virtualenv(virtualenv) except IOError, e: module.fail_json(msg='Failed to activate virtualenv %s (%s)' % ( virtualenv, e)) try: import pyrax except ImportError: module.fail_json(msg='pyrax is not installed') 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') region = region or os.environ.get('RAX_REGION') pyrax.set_setting("identity_type", "rackspace") try: 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: module.fail_json(msg='Credentials not set') except pyrax.exc.PyraxException, e: module.fail_json(msg='%s' % e.message) if not pyrax.cloud_loadbalancers: module.fail_json(msg='Failed to instantiate load balancer client ' '(possibly incorrect region)') try: lb = pyrax.cloud_loadbalancers.get(load_balancer_id) except pyrax.exc.PyraxException, e: module.fail_json(msg='%s' % e.message) if node_id: node = _get_node(lb, node_id) else: node = None result = _node_to_dict(node) if state == 'absent': if not node: # Removing a non-existent node module.exit_json(changed=False, state=state) # The API detects this as well but currently pyrax does not return a # meaningful error message if _is_primary(node) and len(_get_primary_nodes(lb)) == 1: module.fail_json( msg='At least one primary node has to be enabled') try: lb.delete_node(node) result = {} except pyrax.exc.NotFound: module.exit_json(changed=False, state=state) except pyrax.exc.PyraxException, e: module.fail_json(msg='%s' % e.message) else: # present if not node: if node_id: # Updating a non-existent node msg = 'Node %d not found' % node_id if lb.nodes: msg += (' (available nodes: %s)' % ', '.join([str(x.id) for x in lb.nodes])) module.fail_json(msg=msg) else: # Creating a new node try: node = pyrax.cloudloadbalancers.Node( address=address, port=port, condition=condition, weight=weight, type=typ) resp, body = lb.add_nodes([node]) result.update(body['nodes'][0]) except pyrax.exc.PyraxException, e: module.fail_json(msg='%s' % e.message) else: # Updating an existing node immutable = { 'address': address, 'port': port, } mutable = { 'condition': condition, 'type': typ, 'weight': weight, } for name, value in immutable.items(): if value: module.fail_json( msg='Attribute %s cannot be modified' % name) for name, value in mutable.items(): if value is None or value == getattr(node, name): mutable.pop(name) if not mutable: module.exit_json(changed=False, state=state, node=result) try: # The diff has to be set explicitly to update node's weight and # type; this should probably be fixed in pyrax lb.update_node(node, diff=mutable) result.update(mutable) except pyrax.exc.PyraxException, e: module.fail_json(msg='%s' % e.message) if wait: pyrax.utils.wait_until(lb, "status", "ACTIVE", interval=1, attempts=wait_timeout) if lb.status != 'ACTIVE': module.fail_json( msg='Load balancer not active after %ds (current status: %s)' % (wait_timeout, lb.status.lower())) kwargs = {'node': result} if result else {} module.exit_json(changed=True, state=state, **kwargs) # this is magic, see lib/ansible/module_common.py #<> main()