class OpenstackOrchestrator(ContrailApi): def __init__(self, inputs, username, password, project_name, project_id, vnclib=None, logger=None, auth_server_ip=None): self.logger = logger or logging.getLogger(__name__) super(OpenstackOrchestrator, self).__init__(inputs, vnclib, self.logger) self.inputs = inputs self.quantum_h = None self.nova_h = None self.username = username self.password = password self.project_name = project_name self.project_id = project_id self.vnc_lib = vnclib self.auth_server_ip = auth_server_ip if not auth_server_ip: self.auth_server_ip = self.inputs.auth_ip def get_network_handler(self): if not self.quantum_h: self.quantum_h = QuantumHelper(username=self.username, password=self.password, project_id=self.project_id, auth_server_ip=self.auth_server_ip, logger=self.logger) self.quantum_h.setUp() return self.quantum_h def get_compute_handler(self): if not self.nova_h: self.nova_h = NovaHelper(inputs=self.inputs, project_name=self.project_name, username=self.username, password=self.password) return self.nova_h def get_image_account(self, image_name): return self.nova_h.get_image_account(image_name) def get_image_name_for_zone(self, image_name='ubuntu', zone='nova'): return self.nova_h.get_image_name_for_zone(image_name, zone) def get_hosts(self, zone=None): if not zone: return self.nova_h.get_hosts() else: return self.nova_h.get_hosts(zone) def get_zones(self): return self.nova_h.get_zones() def create_vm(self, vm_name, image_name, vn_objs, **kwargs): vn_ids = [vn['network']['id'] for vn in vn_objs] return self.nova_h.create_vm(vm_name=vm_name, image_name=image_name, vn_ids=vn_ids, **kwargs) def delete_vm(self, vm_obj, **kwargs): return self.nova_h.delete_vm(vm_obj) def is_vm_deleted(self, vm_obj, **kwargs): return self.nova_h.is_vm_deleted_in_nova_db(vm_obj, self._inputs.openstack_ip) def get_host_of_vm(self, vm_obj, **kwargs): return self.nova_h.get_nova_host_of_vm(vm_obj) def get_networks_of_vm(self, vm_obj, **kwargs): vm_obj.get() return vm_obj.networks.keys() def wait_till_vm_is_active(self, vm_obj, **kwargs): return self.nova_h.wait_till_vm_is_active(vm_obj) def wait_till_vm_status(self, vm_obj, status, **kwargs): return self.nova_h.wait_till_vm_status(vm_obj, status) def get_console_output(self, vm_obj, **kwargs): return self.nova_h.get_vm_console_output(vm_obj) def get_vm_by_id(self, vm_id, **kwargs): return self.nova_h.get_vm_by_id(vm_id) def get_vm_if_present(self, vm_name=None, **kwargs): return self.nova_h.get_vm_if_present(vm_name=vm_name, **kwargs) def get_vm_list(self, name_pattern='', **kwargs): return self.nova_h.get_vm_list(name_pattern=name_pattern, **kwargs) def get_vm_detail(self, vm_obj, **kwargs): return self.nova_h.get_vm_detail(vm_obj) def get_vm_ip(self, vm_obj, vn_name=None, **kwargs): return self.nova_h.get_vm_ip(vm_obj, vn_name) def get_key_file(self): return self.nova_h.get_key_file() def put_key_file_to_host(self, host_ip): self.nova_h.put_key_file_to_host(host_ip) def create_vn(self, name, subnets, option='orch', **kwargs): return self.quantum_h.create_network(name, subnets, **kwargs) def delete_vn(self, vn_obj, option='orch', **kwargs): return self.quantum_h.delete_vn(vn_obj['network']['id']) def get_vn_id(self, vn_obj, option='orch', **kwargs): return vn_obj['network']['id'] def get_vn_name(self, vn_obj, option='orch', **kwargs): return vn_obj['network']['name'] def get_vn_obj_if_present(self, vn_name, option='orch', **kwargs): return self.quantum_h.get_vn_obj_if_present(vn_name, **kwargs) def get_vn_list(self, **kwargs): return super(OpenstackOrchestrator, self).get_vn_list(**kwargs) def get_policy(self, fq_name, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).get_policy(fq_name=fq_name, **kwargs) return self.quantum_h.get_policy_if_present(fq_name[1], fq_name[2]) def get_floating_ip(self, fip_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).get_floating_ip(fip_id=fip_id, **kwargs) fip = self.quantum_h.get_floatingip(fip_id) return fip['floating_ip_address'] def create_floating_ip(self, pool_vn_id, project_obj, option='orch', **kwargs): fip_resp = self.quantum_h.create_floatingip( pool_vn_id, project_obj.uuid) return (fip_resp['floatingip']['floating_ip_address'], fip_resp['floatingip']['id']) def delete_floating_ip(self, fip_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).delete_floating_ip(fip_id=fip_id, **kwargs) self.quantum_h.delete_floatingip(fip_id) def assoc_floating_ip(self, fip_id, vm_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).assoc_floating_ip(fip_id=fip_id, vm_id=vm_id, **kwargs) update_dict = {} update_dict['port_id'] = self.quantum_h.get_port_id(vm_id) self.logger.debug('Associating FIP ID %s with Port ID %s' %(fip_id, update_dict['port_id'])) if update_dict['port_id']: fip_resp = self.quantum_h.update_floatingip(fip_id, {'floatingip': update_dict}) return fip_resp else: return None def disassoc_floating_ip(self, fip_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).disassoc_floating_ip(fip_id=fip_id, **kwargs) update_dict = {} update_dict['port_id'] = None self.logger.debug('Disassociating port from FIP ID : %s' %(fip_id)) fip_resp = self.quantum_h.update_floatingip(fip_id, {'floatingip': update_dict}) return fip_resp def get_image_name_for_zone(self, image_name='ubuntu', zone='nova'): return self.nova_h.get_image_name_for_zone(image_name, zone) def get_vm_tap_interface(self,obj): return obj['name'] def add_security_group(self, vm_id, sg_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).add_security_group(vm_id=vm_id, sg_id=sg_id, **kwargs) return self.nova_h.add_security_group(vm_id, sg_id) def remove_security_group(self, vm_id, sg_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).remove_security_group(vm_id=vm_id, sg_id=sg_id, **kwargs) return self.nova_h.remove_security_group(vm_id, sg_id) def create_security_group(self, sg_name, parent_fqname, sg_entries, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).create_security_group(sg_name=sg_name, parent_fqname=parent_fqname, sg_entries=sg_entries, **kwargs) sg = self.quantum_h.create_security_group(sg_name) if not sg: self.logger.error("security group creation failed through quantum") return False self.quantum_h.delete_default_egress_rule(sg['id']) self._create_rules_in_quantum(sg['id'],secgrp_rules=sg_entries) return sg['id'] def delete_security_group(self, sg_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).delete_security_group(sg_id=sg_id, **kwargs) self.quantum_h.delete_security_group(sg_id) def get_security_group_rules(self, sg_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).get_security_group_rules(sg_id=sg_id, **kwargs) sg_info = self.quantum_h.show_security_group(sg_id) return sg_info['security_group']['security_group_rules'] def delete_security_group_rules(self, sg_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).delete_security_group_rules(sg_id=sg_id, **kwargs) rules = self.quantum_h.list_security_group_rules(tenant_id=self.quantum_h.project_id) for rule in rules['security_group_rules']: if rule['security_group_id'] == sg_id: self.quantum_h.delete_security_group_rule(rule['id']) def set_security_group_rules(self, sg_id, sg_entries, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).set_security_group_rules(sg_id=sg_id, sg_entries=sg_entries, **kwargs) self.delete_security_group_rules(sg_id, option=option, **kwargs) return self._create_rules_in_quantum(sg_id, sg_entries) def _create_rules_in_quantum(self, sg_id, secgrp_rules): ret = False for rule in secgrp_rules: remote_group_id=None;remote_ip_prefix=None if rule['protocol'] == 'any': proto = None else: proto = rule['protocol'] if rule['src_addresses'][0].has_key('security_group'): if rule['src_addresses'][0]['security_group'] == 'local': direction = 'egress' port_range_min = rule['src_ports'][0]['start_port'] port_range_max = rule['src_ports'][0]['end_port'] else: if rule['dst_addresses'][0]['security_group'] != None: remote_group_id = self.get_security_group(sg_id=rule['src_addresses'][0]['security_group'].split(':')).uuid if rule['dst_addresses'][0].has_key('security_group'): if rule['dst_addresses'][0]['security_group'] == 'local': direction = 'ingress' port_range_min = rule['dst_ports'][0]['start_port'] port_range_max = rule['dst_ports'][0]['end_port'] else: if rule['dst_addresses'][0]['security_group'] != None: remote_group_id = self.get_security_group(sg_id=rule['dst_addresses'][0]['security_group'].split(':')).uuid if (port_range_min == 0 and port_range_max == -1) \ or (port_range_min == 0 and port_range_max == 65535): port_range_min = None;port_range_max = None if direction == 'ingress': try: for addr in rule['src_addresses']: if addr.has_key('subnet') and addr['subnet'] != None: remote_ip_prefix = addr['subnet']['ip_prefix'] + '/' + str(addr['subnet']['ip_prefix_len']) ret = self.quantum_h.create_security_group_rule( sg_id,direction=direction, port_range_min=port_range_min, port_range_max=port_range_max, protocol=proto, remote_group_id=remote_group_id, remote_ip_prefix=remote_ip_prefix) except: self.logger.error("error while creating sg rule through quantum") return False if direction == 'egress': try: for addr in rule['dst_addresses']: if addr.has_key('subnet') and addr['subnet'] != None: remote_ip_prefix = addr['subnet']['ip_prefix'] + '/' + str(addr['subnet']['ip_prefix_len']) ret = self.quantum_h.create_security_group_rule( sg_id,direction=direction, port_range_min=port_range_min, port_range_max=port_range_max, protocol=proto, remote_group_id=remote_group_id, remote_ip_prefix=remote_ip_prefix) except: self.logger.error("error while creating sg rule through quantum") return False #when remote is security group if remote_group_id: if not self.quantum_h.create_security_group_rule( sg_id,direction=direction, port_range_min=port_range_min, port_range_max=port_range_max, protocol=proto, remote_group_id=remote_group_id, remote_ip_prefix=remote_ip_prefix): return False return ret
class OpenstackOrchestrator(Orchestrator): def __init__(self, inputs, username, password, project_name, project_id, vnclib=None, logger=None, auth_server_ip=None): self.logger = logger or contrail_logging.getLogger(__name__) super(OpenstackOrchestrator, self).__init__(inputs, vnclib, self.logger) self.inputs = inputs self.quantum_h = None self.nova_h = None self.username = username self.password = password self.project_name = project_name self.project_id = project_id self.vnc_lib = vnclib self.auth_server_ip = auth_server_ip self.region_name = inputs.region_name if not auth_server_ip: self.auth_server_ip = self.inputs.auth_ip #for vcenter as compute self.vcntr_handle = self.get_vcenter_handle() def get_vcenter_handle(self): if self.inputs.vcenter_dc: vcntr = VcenterOrchestrator(user=self.inputs.vcenter_username, pwd=self.inputs.vcenter_password, host=self.inputs.vcenter_server, port=self.inputs.vcenter_port, dc_name=self.inputs.vcenter_dc, vnc=self.vnc_lib, inputs=self.inputs, logger=self.logger) else: vcntr = None return vcntr def get_network_handler(self): if not self.quantum_h: self.quantum_h = QuantumHelper(username=self.username, password=self.password, project_id=self.project_id, inputs=self.inputs) self.quantum_h.setUp() return self.quantum_h def get_compute_handler(self): if not self.nova_h: self.nova_h = NovaHelper(inputs=self.inputs, project_name=self.project_name, username=self.username, password=self.password) return self.nova_h def get_image_account(self, image_name): return self.nova_h.get_image_account(image_name) def get_image_name_for_zone(self, image_name='ubuntu', zone='nova'): return self.nova_h.get_image_name_for_zone(image_name, zone) def get_image(self, image_name): return self.nova_h.get_image(image_name) def get_default_image_flavor(self, image_name): return self.nova_h.get_default_image_flavor(image_name) def get_flavor(self, flavor): return self.nova_h.get_flavor(flavor) def get_hosts(self, zone=None): if not zone: return self.nova_h.get_hosts() else: return self.nova_h.get_hosts(zone) def get_zones(self): return self.nova_h.get_zones() def create_vm(self, vm_name, image_name, vn_objs, **kwargs): vn_ids = [vn['network']['id'] for vn in vn_objs] return self.nova_h.create_vm(vm_name=vm_name, image_name=image_name, vn_ids=vn_ids, **kwargs) def delete_vm(self, vm_obj, **kwargs): return self.nova_h.delete_vm(vm_obj) def is_vm_deleted(self, vm_obj, **kwargs): return self.nova_h.is_vm_deleted_in_nova_db(vm_obj, self.inputs.openstack_ip) def get_host_of_vm(self, vm_obj, **kwargs): return self.nova_h.get_nova_host_of_vm(vm_obj) def get_networks_of_vm(self, vm_obj, **kwargs): vm_obj.get() return vm_obj.networks.keys() def wait_till_vm_is_active(self, vm_obj, **kwargs): return self.nova_h.wait_till_vm_is_active(vm_obj) def wait_till_vm_status(self, vm_obj, status, **kwargs): return self.nova_h.wait_till_vm_status(vm_obj, status) def get_console_output(self, vm_obj, **kwargs): return self.nova_h.get_vm_console_output(vm_obj) def get_vm_by_id(self, vm_id, **kwargs): return self.nova_h.get_vm_by_id(vm_id) def get_vm_if_present(self, vm_name=None, **kwargs): return self.nova_h.get_vm_if_present(vm_name=vm_name, **kwargs) def get_vm_list(self, name_pattern='', **kwargs): return self.nova_h.get_vm_list(name_pattern=name_pattern, **kwargs) def get_vm_detail(self, vm_obj, **kwargs): return self.nova_h.get_vm_detail(vm_obj) def get_vm_ip(self, vm_obj, vn_name=None, **kwargs): return self.nova_h.get_vm_ip(vm_obj, vn_name) def get_key_file(self): return self.nova_h.get_key_file() def put_key_file_to_host(self, host_ip): self.nova_h.put_key_file_to_host(host_ip) def create_vn(self, name, subnets, option='orch', **kwargs): return self.quantum_h.create_network(name, subnets, **kwargs) def delete_vn(self, vn_obj, option='orch', **kwargs): return self.quantum_h.delete_vn(vn_obj['network']['id']) def get_vn_id(self, vn_obj, option='orch', **kwargs): return vn_obj['network']['id'] def get_vn_name(self, vn_obj, option='orch', **kwargs): return vn_obj['network']['name'] def get_vn_obj_if_present(self, vn_name, option='orch', **kwargs): return self.quantum_h.get_vn_obj_if_present(vn_name, **kwargs) def get_vn_obj_from_id(self, vn_id): return self.quantum_h.get_vn_obj_from_id(vn_id) def get_vn_list(self, **kwargs): return super(OpenstackOrchestrator, self).get_vn_list(**kwargs) def get_policy(self, fq_name, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).get_policy(fq_name=fq_name, **kwargs) return self.quantum_h.get_policy_if_present(fq_name[1], fq_name[2]) def get_floating_ip(self, fip_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).get_floating_ip(fip_id=fip_id, **kwargs) fip = self.quantum_h.get_floatingip(fip_id) return fip['floating_ip_address'] def create_floating_ip(self, pool_vn_id, project_obj, option='orch', **kwargs): fip_resp = self.quantum_h.create_floatingip(pool_vn_id, project_obj.uuid) return (fip_resp['floatingip']['floating_ip_address'], fip_resp['floatingip']['id']) def delete_floating_ip(self, fip_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).delete_floating_ip(fip_id=fip_id, **kwargs) self.quantum_h.delete_floatingip(fip_id) def assoc_floating_ip(self, fip_id, vm_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).assoc_floating_ip(fip_id=fip_id, vm_id=vm_id, **kwargs) update_dict = {} update_dict['port_id'] = self.quantum_h.get_port_id(vm_id) self.logger.debug('Associating FIP ID %s with Port ID %s' % (fip_id, update_dict['port_id'])) if update_dict['port_id']: fip_resp = self.quantum_h.update_floatingip( fip_id, {'floatingip': update_dict}) return fip_resp else: return None def disassoc_floating_ip(self, fip_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).disassoc_floating_ip(fip_id=fip_id, **kwargs) update_dict = {} update_dict['port_id'] = None self.logger.debug('Disassociating port from FIP ID : %s' % (fip_id)) fip_resp = self.quantum_h.update_floatingip( fip_id, {'floatingip': update_dict}) return fip_resp def get_image_name_for_zone(self, image_name='ubuntu', zone='nova'): return self.nova_h.get_image_name_for_zone(image_name, zone) def get_vm_tap_interface(self, obj): return obj['name'] def add_security_group(self, vm_id, sg_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).add_security_group(vm_id=vm_id, sg_id=sg_id, **kwargs) return self.nova_h.add_security_group(vm_id, sg_id) def remove_security_group(self, vm_id, sg_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).remove_security_group(vm_id=vm_id, sg_id=sg_id, **kwargs) return self.nova_h.remove_security_group(vm_id, sg_id) def create_security_group(self, sg_name, parent_fqname, sg_entries, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).create_security_group( sg_name=sg_name, parent_fqname=parent_fqname, sg_entries=sg_entries, **kwargs) sg = self.quantum_h.create_security_group(sg_name) if not sg: self.logger.error("security group creation failed through quantum") return False self.quantum_h.delete_default_egress_rule(sg['id']) self._create_rules_in_quantum(sg['id'], secgrp_rules=sg_entries) return sg['id'] def delete_security_group(self, sg_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).delete_security_group(sg_id=sg_id, **kwargs) self.quantum_h.delete_security_group(sg_id) def get_security_group_rules(self, sg_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).get_security_group_rules(sg_id=sg_id, **kwargs) sg_info = self.quantum_h.show_security_group(sg_id) return sg_info['security_group']['security_group_rules'] def delete_security_group_rules(self, sg_id, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).delete_security_group_rules(sg_id=sg_id, **kwargs) rules = self.quantum_h.list_security_group_rules( tenant_id=self.quantum_h.project_id) for rule in rules['security_group_rules']: if rule['security_group_id'] == sg_id: self.quantum_h.delete_security_group_rule(rule['id']) def set_security_group_rules(self, sg_id, sg_entries, option='orch', **kwargs): if option == 'contrail': return super(OpenstackOrchestrator, self).set_security_group_rules(sg_id=sg_id, sg_entries=sg_entries, **kwargs) self.delete_security_group_rules(sg_id, option=option, **kwargs) return self._create_rules_in_quantum(sg_id, sg_entries) def _create_rules_in_quantum(self, sg_id, secgrp_rules): ret = False for rule in secgrp_rules: remote_group_id = None remote_ip_prefix = None if rule['protocol'] == 'any': proto = None else: proto = rule['protocol'] if rule['src_addresses'][0].has_key('security_group'): if rule['src_addresses'][0]['security_group'] == 'local': direction = 'egress' port_range_min = rule['src_ports'][0]['start_port'] port_range_max = rule['src_ports'][0]['end_port'] else: if rule['dst_addresses'][0]['security_group'] != None: remote_group_id = self.get_security_group( sg_id=rule['src_addresses'][0] ['security_group'].split(':')).uuid if rule['dst_addresses'][0].has_key('security_group'): if rule['dst_addresses'][0]['security_group'] == 'local': direction = 'ingress' port_range_min = rule['dst_ports'][0]['start_port'] port_range_max = rule['dst_ports'][0]['end_port'] else: if rule['dst_addresses'][0]['security_group'] != None: remote_group_id = self.get_security_group( sg_id=rule['dst_addresses'][0] ['security_group'].split(':')).uuid if (port_range_min == 0 and port_range_max == -1) \ or (port_range_min == 0 and port_range_max == 65535): port_range_min = None port_range_max = None if direction == 'ingress': try: for addr in rule['src_addresses']: if addr.has_key('subnet') and addr['subnet'] != None: remote_ip_prefix = addr['subnet'][ 'ip_prefix'] + '/' + str( addr['subnet']['ip_prefix_len']) ret = self.quantum_h.create_security_group_rule( sg_id, direction=direction, port_range_min=port_range_min, port_range_max=port_range_max, protocol=proto, remote_group_id=remote_group_id, remote_ip_prefix=remote_ip_prefix) except: self.logger.error( "error while creating sg rule through quantum") return False if direction == 'egress': try: for addr in rule['dst_addresses']: if addr.has_key('subnet') and addr['subnet'] != None: remote_ip_prefix = addr['subnet'][ 'ip_prefix'] + '/' + str( addr['subnet']['ip_prefix_len']) ret = self.quantum_h.create_security_group_rule( sg_id, direction=direction, port_range_min=port_range_min, port_range_max=port_range_max, protocol=proto, remote_group_id=remote_group_id, remote_ip_prefix=remote_ip_prefix) except: self.logger.error( "error while creating sg rule through quantum") return False #when remote is security group if remote_group_id: if not self.quantum_h.create_security_group_rule( sg_id, direction=direction, port_range_min=port_range_min, port_range_max=port_range_max, protocol=proto, remote_group_id=remote_group_id, remote_ip_prefix=remote_ip_prefix): return False return ret
class OpenstackOrchestrator(Orchestrator): def __init__(self, inputs, username, password, project_name, logger): self.inputs = inputs self.logger = logger self.quantum_h = QuantumHelper(username=username, password=password, inputs=inputs, project_name=project_name, openstack_ip=inputs.openstack_ip) self.nova_h = NovaHelper(inputs=inputs, project_name=project_name, username=username, password=password,update_ssh_key=False) def get_compute_h(self): return self.nova_h def get_network_h(self): return self.quantum_h def get_image_account(self, image_name): return self.nova_h.get_image_account(image_name) def get_hosts(self, zone=None): if not zone: return self.nova_h.get_hosts() else: return self.nova_h.get_hosts(zone) def get_zones(self): return self.nova_h.get_zones() def host_aggregates(self): #import pdb;pdb.set_trace() self.nova_h.obj.aggregates.AggregateManager.create('AG1','AZ') def create_vm(self, vm_name, image_name, vn_objs, count=1, zone=None, node_name=None, **kwargs): vn_ids = kwargs.pop('vn_ids',[]) if not vn_ids: vn_ids = [vn['network']['id'] for vn in vn_objs] return self.nova_h.create_vm(vm_name=vm_name, image_name=image_name, vn_ids=vn_ids, zone=zone, node_name=node_name, count=count, **kwargs) def delete_vm(self, vm_obj): return self.nova_h.delete_vm(vm_obj) def is_vm_deleted(self, vm_obj): return self.nova_h.is_vm_deleted_in_nova_db(vm_obj, self.inputs.openstack_ip) def get_host_of_vm(self, vm_obj): return self.nova_h.get_nova_host_of_vm(vm_obj) def get_networks_of_vm(self, vm_obj): return vm_obj.networks.keys() def wait_till_vm_is_active(self, vm_obj): return self.nova_h.wait_till_vm_is_active(vm_obj) def get_vm_if_present(self, vm_name=None, **kwargs): return self.nova_h.get_vm_if_present(vm_name=vm_name, **kwargs) def get_vm_list(self, name_pattern='', **kwargs): return self.nova_h.get_vm_list(name_pattern=name_pattern, **kwargs) def get_vm_detail(self, vm_obj): return self.nova_h.get_vm_detail(vm_obj) def get_vm_by_id(self, vm_id): return self.nova_h.get_vm_by_id(vm_id) def get_vm_ip(self, vm_obj, vn_name): return self.nova_h.get_vm_ip(vm_obj, vn_name) def get_key_file(self): return self.nova_h.get_key_file() def put_key_file_to_host(self, host_ip): self.nova_h.put_key_file_to_host(host_ip) def get_tmp_key_file(self): return self.nova_h.tmp_key_file def create_vn(self, name, subnets, **kwargs): return self.quantum_h.create_network(name, subnets, **kwargs) def delete_vn(self, vn_obj): return self.quantum_h.delete_vn(vn_obj['network']['id']) def get_vn_id(self, vn_obj): return vn_obj['network']['id'] def get_vn_name(self, vn_obj): return vn_obj['network']['name'] def get_vn_obj_if_present(self, vn_name, **kwargs): return self.quantum_h.get_vn_obj_if_present(vn_name, **kwargs) def add_security_group(self, vm_obj, secgrp): return self.nova_h.add_security_group(vm_obj.id, secgrp) def remove_security_group(self, vm_obj, secgrp): return self.nova_h.remove_security_group(vm_obj.id, secgrp) def get_console_output(self, vm_obj): return self.nova_h.get_vm_console_output(vm_obj) def wait_till_vm_status(self, vm_obj, status): return self.nova_h.wait_till_vm_status(vm_obj, status) def get_policy(self, fq_name): return self.quantum_h.get_policy_if_present(fq_name[1], fq_name[2]) def get_floating_ip(self, fip_id): fip = self.quantum_h.get_floatingip(fip_id) return fip['floatingip']['floating_ip_address'] def create_floating_ip(self, pool_vn_id, project_obj, **kwargs): fip_resp = self.quantum_h.create_floatingip( pool_vn_id, project_obj.uuid) return (fip_resp['floatingip']['floating_ip_address'], fip_resp['floatingip']['id']) def delete_floating_ip(self, fip_id): self.quantum_h.delete_floatingip(fip_id) def assoc_floating_ip(self, fip_id, vm_id,vn_id=None): update_dict = {} update_dict['port_id'] = self.quantum_h.get_port_id(vm_id,vn_id) self.logger.debug('Associating FIP ID %s with Port ID %s' %(fip_id, update_dict['port_id'])) if update_dict['port_id']: fip_resp = self.quantum_h.update_floatingip(fip_id, {'floatingip': update_dict}) return fip_resp else: return None def disassoc_floating_ip(self, fip_id): update_dict = {} update_dict['port_id'] = None self.logger.debug('Disassociating port from FIP ID : %s' %(fip_id)) fip_resp = self.quantum_h.update_floatingip(fip_id, {'floatingip': update_dict}) return fip_resp
class OpenstackOrchestrator(Orchestrator): def __init__(self, inputs, username, password, project_name, logger): self.inputs = inputs self.logger = logger self.quantum_h = QuantumHelper(username=username, password=password, inputs=inputs, project_name=project_name, openstack_ip=inputs.openstack_ip) self.nova_h = NovaHelper(inputs=inputs, project_name=project_name, username=username, password=password, update_ssh_key=False) def get_compute_h(self): return self.nova_h def get_network_h(self): return self.quantum_h def get_image_account(self, image_name): return self.nova_h.get_image_account(image_name) def get_hosts(self, zone=None): if not zone: return self.nova_h.get_hosts() else: return self.nova_h.get_hosts(zone) def get_zones(self): return self.nova_h.get_zones() def host_aggregates(self): #import pdb;pdb.set_trace() self.nova_h.obj.aggregates.AggregateManager.create('AG1', 'AZ') def create_vm(self, vm_name, image_name, vn_objs, count=1, zone=None, node_name=None, **kwargs): vn_ids = kwargs.pop('vn_ids', []) if not vn_ids: vn_ids = [vn['network']['id'] for vn in vn_objs] return self.nova_h.create_vm(vm_name=vm_name, image_name=image_name, vn_ids=vn_ids, zone=zone, node_name=node_name, count=count, **kwargs) def delete_vm(self, vm_obj): return self.nova_h.delete_vm(vm_obj) def is_vm_deleted(self, vm_obj): return self.nova_h.is_vm_deleted_in_nova_db(vm_obj, self.inputs.openstack_ip) def get_host_of_vm(self, vm_obj): return self.nova_h.get_nova_host_of_vm(vm_obj) def get_networks_of_vm(self, vm_obj): return vm_obj.networks.keys() def wait_till_vm_is_active(self, vm_obj): return self.nova_h.wait_till_vm_is_active(vm_obj) def get_vm_if_present(self, vm_name=None, **kwargs): return self.nova_h.get_vm_if_present(vm_name=vm_name, **kwargs) def get_vm_list(self, name_pattern='', **kwargs): return self.nova_h.get_vm_list(name_pattern=name_pattern, **kwargs) def get_vm_detail(self, vm_obj): return self.nova_h.get_vm_detail(vm_obj) def get_vm_by_id(self, vm_id): return self.nova_h.get_vm_by_id(vm_id) def get_vm_ip(self, vm_obj, vn_name): return self.nova_h.get_vm_ip(vm_obj, vn_name) def get_key_file(self): return self.nova_h.get_key_file() def put_key_file_to_host(self, host_ip): self.nova_h.put_key_file_to_host(host_ip) def get_tmp_key_file(self): return self.nova_h.tmp_key_file def create_vn(self, name, subnets, **kwargs): return self.quantum_h.create_network(name, subnets, **kwargs) def delete_vn(self, vn_obj): return self.quantum_h.delete_vn(vn_obj['network']['id']) def get_vn_id(self, vn_obj): return vn_obj['network']['id'] def get_vn_name(self, vn_obj): return vn_obj['network']['name'] def get_vn_obj_if_present(self, vn_name, **kwargs): return self.quantum_h.get_vn_obj_if_present(vn_name, **kwargs) def add_security_group(self, vm_obj, secgrp): return self.nova_h.add_security_group(vm_obj.id, secgrp) def remove_security_group(self, vm_obj, secgrp): return self.nova_h.remove_security_group(vm_obj.id, secgrp) def get_console_output(self, vm_obj): return self.nova_h.get_vm_console_output(vm_obj) def wait_till_vm_status(self, vm_obj, status): return self.nova_h.wait_till_vm_status(vm_obj, status) def get_policy(self, fq_name): return self.quantum_h.get_policy_if_present(fq_name[1], fq_name[2]) def get_floating_ip(self, fip_id): fip = self.quantum_h.get_floatingip(fip_id) return fip['floatingip']['floating_ip_address'] def create_floating_ip(self, pool_vn_id, project_obj, **kwargs): fip_resp = self.quantum_h.create_floatingip(pool_vn_id, project_obj.uuid) return (fip_resp['floatingip']['floating_ip_address'], fip_resp['floatingip']['id']) def delete_floating_ip(self, fip_id): self.quantum_h.delete_floatingip(fip_id) def assoc_floating_ip(self, fip_id, vm_id, vn_id=None): update_dict = {} update_dict['port_id'] = self.quantum_h.get_port_id(vm_id, vn_id) self.logger.debug('Associating FIP ID %s with Port ID %s' % (fip_id, update_dict['port_id'])) if update_dict['port_id']: fip_resp = self.quantum_h.update_floatingip( fip_id, {'floatingip': update_dict}) return fip_resp else: return None def disassoc_floating_ip(self, fip_id): update_dict = {} update_dict['port_id'] = None self.logger.debug('Disassociating port from FIP ID : %s' % (fip_id)) fip_resp = self.quantum_h.update_floatingip( fip_id, {'floatingip': update_dict}) return fip_resp