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# Licensed to the Apache Software Foundation (ASF) under one or more # contributor license agreements. See the NOTICE file distributed with # this work for additional information regarding copyright ownership. # The ASF licenses this file to You under the Apache License, Version 2.0 # (the "License"); you may not use this file except in compliance with # the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. __all__ = [ 'ElasticLBDriver' ] from libcloud.utils.py3 import httplib from libcloud.utils.xml import findtext, findall from libcloud.loadbalancer.types import State from libcloud.loadbalancer.base import Driver, LoadBalancer, Member from libcloud.common.aws import AWSGenericResponse, SignedAWSConnection VERSION = '2012-06-01' HOST = 'elasticloadbalancing.%s.amazonaws.com' ROOT = '/%s/' % (VERSION) NS = 'http://elasticloadbalancing.amazonaws.com/doc/%s/' % (VERSION, ) class ELBResponse(AWSGenericResponse): """ Amazon ELB response class. """ namespace = NS exceptions = {} xpath = 'Error' class ELBConnection(SignedAWSConnection): version = VERSION host = HOST responseCls = ELBResponse service_name = 'elasticloadbalancing' class ElasticLBDriver(Driver): name = 'Amazon Elastic Load Balancing' website = 'http://aws.amazon.com/elasticloadbalancing/' connectionCls = ELBConnection signature_version = '4' def __init__(self, access_id, secret, region, token=None): self.token = token self.region = region self.region_name = region super(ElasticLBDriver, self).__init__( access_id, secret, token=token, host=HOST % region, region=region ) def list_protocols(self): return ['tcp', 'ssl', 'http', 'https'] def list_balancers(self, ex_fetch_tags=False): params = {'Action': 'DescribeLoadBalancers'} data = self.connection.request(ROOT, params=params).object balancers = self._to_balancers(data) if ex_fetch_tags: for balancer in balancers: self._ex_populate_balancer_tags(balancer) return balancers def create_balancer(self, name, port, protocol, algorithm, members, ex_members_availability_zones=None): if ex_members_availability_zones is None: ex_members_availability_zones = ['a'] params = { 'Action': 'CreateLoadBalancer', 'LoadBalancerName': name, 'Listeners.member.1.InstancePort': str(port), 'Listeners.member.1.InstanceProtocol': protocol.upper(), 'Listeners.member.1.LoadBalancerPort': str(port), 'Listeners.member.1.Protocol': protocol.upper(), } for i, z in enumerate(ex_members_availability_zones): zone = ''.join((self.region, z)) params['AvailabilityZones.member.%d' % (i + 1)] = zone data = self.connection.request(ROOT, params=params).object balancer = LoadBalancer( id=name, name=name, state=State.PENDING, ip=findtext(element=data, xpath='DNSName', namespace=NS), port=port, driver=self.connection.driver ) balancer._members = [] return balancer def destroy_balancer(self, balancer): params = { 'Action': 'DeleteLoadBalancer', 'LoadBalancerName': balancer.id } self.connection.request(ROOT, params=params) return True def get_balancer(self, balancer_id, ex_fetch_tags=False): params = { 'Action': 'DescribeLoadBalancers', 'LoadBalancerNames.member.1': balancer_id } data = self.connection.request(ROOT, params=params).object balancer = self._to_balancers(data)[0] if ex_fetch_tags: balancer = self._ex_populate_balancer_tags(balancer) return balancer def balancer_attach_compute_node(self, balancer, node): params = { 'Action': 'RegisterInstancesWithLoadBalancer', 'LoadBalancerName': balancer.id, 'Instances.member.1.InstanceId': node.id } self.connection.request(ROOT, params=params) balancer._members.append(Member(node.id, None, None, balancer=self)) def balancer_detach_member(self, balancer, member): params = { 'Action': 'DeregisterInstancesFromLoadBalancer', 'LoadBalancerName': balancer.id, 'Instances.member.1.InstanceId': member.id } self.connection.request(ROOT, params=params) balancer._members = [m for m in balancer._members if m.id != member.id] return True def balancer_list_members(self, balancer): return balancer._members def ex_list_balancer_policies(self, balancer): """ Return a list of policy description string. :rtype: ``list`` of ``str`` """ params = { 'Action': 'DescribeLoadBalancerPolicies', 'LoadBalancerName': balancer.id } data = self.connection.request(ROOT, params=params).object return self._to_policies(data) def ex_list_balancer_policy_types(self): """ Return a list of policy type description string. :rtype: ``list`` of ``str`` """ params = {'Action': 'DescribeLoadBalancerPolicyTypes'} data = self.connection.request(ROOT, params=params).object return self._to_policy_types(data) def ex_create_balancer_policy(self, name, policy_name, policy_type, policy_attributes=None): """ Create a new load balancer policy :param name: Balancer name to create the policy for :type name: ``str`` :param policy_name: policy to be created :type policy_name: ``str`` :param policy_type: policy type being used to create policy. :type policy_type: ``str`` :param policy_attributes: Each list contain values, ['AttributeName', 'value'] :type policy_attributes: ``PolicyAttribute list`` """ params = { 'Action': 'CreateLoadBalancerPolicy', 'LoadBalancerName': name, 'PolicyName': policy_name, 'PolicyTypeName': policy_type } if policy_attributes is not None: for index, (name, value) in enumerate( policy_attributes.iteritems(), 1): params['PolicyAttributes.member.%d. \ AttributeName' % (index)] = name params['PolicyAttributes.member.%d. \ AttributeValue' % (index)] = value response = self.connection.request(ROOT, params=params) return response.status == httplib.OK def ex_delete_balancer_policy(self, name, policy_name): """ Delete a load balancer policy :param name: balancer name for which policy will be deleted :type name: ``str`` :param policy_name: The Mnemonic name for the policy being deleted :type policy_name: ``str`` """ params = { 'Action': 'DeleteLoadBalancerPolicy', 'LoadBalancerName': name, 'PolicyName': policy_name } response = self.connection.request(ROOT, params=params) return response.status == httplib.OK def ex_set_balancer_policies_listener(self, name, port, policies): """ Associates, updates, or disables a policy with a listener on the load balancer :param name: balancer name to set policies for listerner :type name: ``str`` :param port: port to use :type port: ``str`` :param policies: List of policies to be associated with the balancer :type policies: ``string list`` """ params = { 'Action': 'SetLoadBalancerPoliciesOfListener', 'LoadBalancerName': name, 'LoadBalancerPort': str(port) } if policies: params = self._create_list_params(params, policies, 'PolicyNames.member.%d') response = self.connection.request(ROOT, params=params) return response.status == httplib.OK def ex_set_balancer_policies_backend_server(self, name, instance_port, policies): """ Replaces the current set of policies associated with a port on which the back-end server is listening with a new set of policies :param name: balancer name to set policies of backend server :type name: ``str`` :param instance_port: Instance Port :type instance_port: ``int`` :param policies: List of policies to be associated with the balancer :type policies: ``string list` """ params = { 'Action': 'SetLoadBalancerPoliciesForBackendServer', 'LoadBalancerName': name, 'InstancePort': str(instance_port) } if policies: params = self._create_list_params(params, policies, 'PolicyNames.member.%d') response = self.connection.request(ROOT, params=params) return response.status == httplib.OK def ex_create_balancer_listeners(self, name, listeners=None): """ Creates one or more listeners on a load balancer for the specified port :param name: The mnemonic name associated with the load balancer :type name: ``str`` :param listeners: Each tuple contain values, (LoadBalancerPortNumber, InstancePortNumber, Protocol,[SSLCertificateId]) :type listeners: ``list of tuple` """ params = { 'Action': 'CreateLoadBalancerListeners', 'LoadBalancerName': name } for index, listener in enumerate(listeners): i = index + 1 protocol = listener[2].upper() params['Listeners.member.%d.LoadBalancerPort' % i] = listener[0] params['Listeners.member.%d.InstancePort' % i] = listener[1] params['Listeners.member.%d.Protocol' % i] = listener[2] if protocol == 'HTTPS' or protocol == 'SSL': params['Listeners.member.%d. \ SSLCertificateId' % i] = listener[3] else: return False response = self.connection.request(ROOT, params=params) return response.status == httplib.OK def _to_policies(self, data): xpath = 'DescribeLoadBalancerPoliciesResult/PolicyDescriptions/member' return [findtext(element=el, xpath='PolicyName', namespace=NS) for el in findall(element=data, xpath=xpath, namespace=NS)] def _to_policy_types(self, data): xpath = 'DescribeLoadBalancerPolicyTypesResult/' xpath += 'PolicyTypeDescriptions/member' return [findtext(element=el, xpath='PolicyTypeName', namespace=NS) for el in findall(element=data, xpath=xpath, namespace=NS)] def _to_balancers(self, data): xpath = 'DescribeLoadBalancersResult/LoadBalancerDescriptions/member' return [self._to_balancer(el) for el in findall(element=data, xpath=xpath, namespace=NS)] def _to_balancer(self, el): name = findtext(element=el, xpath='LoadBalancerName', namespace=NS) dns_name = findtext(el, xpath='DNSName', namespace=NS) port = findtext(el, xpath='LoadBalancerPort', namespace=NS) balancer = LoadBalancer( id=name, name=name, state=State.UNKNOWN, ip=dns_name, port=port, driver=self.connection.driver ) xpath = 'Instances/member/InstanceId' members = findall(element=el, xpath=xpath, namespace=NS) balancer._members = [] for m in members: balancer._members.append(Member(m.text, None, None, balancer=balancer)) return balancer def _to_tags(self, data): """ return tags dict """ tags = {} xpath = 'DescribeTagsResult/TagDescriptions/member/Tags/member' for el in findall(element=data, xpath=xpath, namespace=NS): key = findtext(element=el, xpath='Key', namespace=NS) value = findtext(element=el, xpath='Value', namespace=NS) if key: tags[key] = value return tags def _create_list_params(self, params, items, label): """ return parameter list """ if isinstance(items, str): items = [items] for index, item in enumerate(items): params[label % (index + 1)] = item return params def _ex_connection_class_kwargs(self): kwargs = super(ElasticLBDriver, self)._ex_connection_class_kwargs() if hasattr(self, 'token') and self.token is not None: kwargs['token'] = self.token kwargs['signature_version'] = '4' else: kwargs['signature_version'] = self.signature_version return kwargs def _ex_list_balancer_tags(self, balancer_id): params = { 'Action': 'DescribeTags', 'LoadBalancerNames.member.1': balancer_id } data = self.connection.request(ROOT, params=params).object return self._to_tags(data) def _ex_populate_balancer_tags(self, balancer): tags = balancer.extra.get('tags', {}) tags.update(self._ex_list_balancer_tags(balancer.id)) if tags: balancer.extra['tags'] = tags return balancer