# vim: tabstop=4 shiftwidth=4 softtabstop=4 # Copyright 2012 Big Switch Networks, Inc. # All Rights Reserved. # # Licensed 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. # # @author: Mandeep Dhami, Big Switch Networks, Inc. # @author: Sumit Naiksatam, sumitnaiksatam@gmail.com, Big Switch Networks, Inc. """ Neutron REST Proxy Plug-in for Big Switch and FloodLight Controllers. NeutronRestProxy provides a generic neutron plugin that translates all plugin function calls to equivalent authenticated REST calls to a set of redundant external network controllers. It also keeps persistent store for all neutron state to allow for re-sync of the external controller(s), if required. The local state on the plugin also allows for local response and fast-fail semantics where it can be determined based on the local persistent store. Network controller specific code is decoupled from this plugin and expected to reside on the controller itself (via the REST interface). This allows for: - independent authentication and redundancy schemes between neutron and the network controller - independent upgrade/development cycles between neutron and the controller as it limits the proxy code upgrade requirement to neutron release cycle and the controller specific code upgrade requirement to controller code - ability to sync the controller with neutron for independent recovery/reset External REST API used by proxy is the same API as defined for neutron (JSON subset) with some additional parameters (gateway on network-create and macaddr on port-attach) on an additional PUT to do a bulk dump of all persistent data. """ import base64 import copy import httplib import json import os import socket from oslo.config import cfg from neutron.api.rpc.agentnotifiers import dhcp_rpc_agent_api from neutron.common import constants as const from neutron.common import exceptions from neutron.common import rpc as q_rpc from neutron.common import topics from neutron.common import utils from neutron import context as qcontext from neutron.db import api as db from neutron.db import db_base_plugin_v2 from neutron.db import dhcp_rpc_base from neutron.db import external_net_db from neutron.db import extradhcpopt_db from neutron.db import l3_db from neutron.extensions import external_net from neutron.extensions import extra_dhcp_opt as edo_ext from neutron.extensions import l3 from neutron.extensions import portbindings from neutron.openstack.common import excutils from neutron.openstack.common import log as logging from neutron.openstack.common import rpc from neutron.plugins.bigswitch.db import porttracker_db from neutron.plugins.bigswitch import routerrule_db from neutron.plugins.bigswitch.version import version_string_with_vcs LOG = logging.getLogger(__name__) # Include the BigSwitch Extensions path in the api_extensions EXTENSIONS_PATH = os.path.join(os.path.dirname(__file__), 'extensions') if not cfg.CONF.api_extensions_path: cfg.CONF.set_override('api_extensions_path', EXTENSIONS_PATH) restproxy_opts = [ cfg.StrOpt('servers', default='localhost:8800', help=_("A comma separated list of BigSwitch or Floodlight " "servers and port numbers. The plugin proxies the " "requests to the BigSwitch/Floodlight server, " "which performs the networking configuration. Note that " "only one server is needed per deployment, but you may " "wish to deploy multiple servers to support failover.")), cfg.StrOpt('server_auth', default='username:password', secret=True, help=_("The username and password for authenticating against " " the BigSwitch or Floodlight controller.")), cfg.BoolOpt('server_ssl', default=False, help=_("If True, Use SSL when connecting to the BigSwitch or " "Floodlight controller.")), cfg.BoolOpt('sync_data', default=False, help=_("Sync data on connect")), cfg.IntOpt('server_timeout', default=10, help=_("Maximum number of seconds to wait for proxy request " "to connect and complete.")), cfg.StrOpt('neutron_id', default='neutron-' + utils.get_hostname(), deprecated_name='quantum_id', help=_("User defined identifier for this Neutron deployment")), cfg.BoolOpt('add_meta_server_route', default=True, help=_("Flag to decide if a route to the metadata server " "should be injected into the VM")), ] cfg.CONF.register_opts(restproxy_opts, "RESTPROXY") router_opts = [ cfg.MultiStrOpt('tenant_default_router_rule', default=['*:any:any:permit'], help=_("The default router rules installed in new tenant " "routers. Repeat the config option for each rule. " "Format is :::" " Use an * to specify default for all tenants.")), cfg.IntOpt('max_router_rules', default=200, help=_("Maximum number of router rules")), ] cfg.CONF.register_opts(router_opts, "ROUTER") nova_opts = [ cfg.StrOpt('vif_type', default='ovs', help=_("Virtual interface type to configure on " "Nova compute nodes")), ] # Each VIF Type can have a list of nova host IDs that are fixed to that type for i in portbindings.VIF_TYPES: opt = cfg.ListOpt('node_override_vif_' + i, default=[], help=_("Nova compute nodes to manually set VIF " "type to %s") % i) nova_opts.append(opt) # Add the vif types for reference later nova_opts.append(cfg.ListOpt('vif_types', default=portbindings.VIF_TYPES, help=_('List of allowed vif_type values.'))) cfg.CONF.register_opts(nova_opts, "NOVA") # The following are used to invoke the API on the external controller NET_RESOURCE_PATH = "/tenants/%s/networks" PORT_RESOURCE_PATH = "/tenants/%s/networks/%s/ports" ROUTER_RESOURCE_PATH = "/tenants/%s/routers" ROUTER_INTF_OP_PATH = "/tenants/%s/routers/%s/interfaces" NETWORKS_PATH = "/tenants/%s/networks/%s" PORTS_PATH = "/tenants/%s/networks/%s/ports/%s" ATTACHMENT_PATH = "/tenants/%s/networks/%s/ports/%s/attachment" ROUTERS_PATH = "/tenants/%s/routers/%s" ROUTER_INTF_PATH = "/tenants/%s/routers/%s/interfaces/%s" SUCCESS_CODES = range(200, 207) FAILURE_CODES = [0, 301, 302, 303, 400, 401, 403, 404, 500, 501, 502, 503, 504, 505] SYNTAX_ERROR_MESSAGE = _('Syntax error in server config file, aborting plugin') BASE_URI = '/networkService/v1.1' ORCHESTRATION_SERVICE_ID = 'Neutron v2.0' METADATA_SERVER_IP = '169.254.169.254' class RemoteRestError(exceptions.NeutronException): def __init__(self, message): if message is None: message = "None" self.message = _("Error in REST call to remote network " "controller") + ": " + message super(RemoteRestError, self).__init__() class ServerProxy(object): """REST server proxy to a network controller.""" def __init__(self, server, port, ssl, auth, neutron_id, timeout, base_uri, name): self.server = server self.port = port self.ssl = ssl self.base_uri = base_uri self.timeout = timeout self.name = name self.success_codes = SUCCESS_CODES self.auth = None self.neutron_id = neutron_id self.failed = False if auth: self.auth = 'Basic ' + base64.encodestring(auth).strip() def rest_call(self, action, resource, data, headers): uri = self.base_uri + resource body = json.dumps(data) if not headers: headers = {} headers['Content-type'] = 'application/json' headers['Accept'] = 'application/json' headers['NeutronProxy-Agent'] = self.name headers['Instance-ID'] = self.neutron_id headers['Orchestration-Service-ID'] = ORCHESTRATION_SERVICE_ID if self.auth: headers['Authorization'] = self.auth LOG.debug(_("ServerProxy: server=%(server)s, port=%(port)d, " "ssl=%(ssl)r, action=%(action)s"), {'server': self.server, 'port': self.port, 'ssl': self.ssl, 'action': action}) LOG.debug(_("ServerProxy: resource=%(resource)s, data=%(data)r, " "headers=%(headers)r"), {'resource': resource, 'data': data, 'headers': headers}) conn = None if self.ssl: conn = httplib.HTTPSConnection( self.server, self.port, timeout=self.timeout) if conn is None: LOG.error(_('ServerProxy: Could not establish HTTPS ' 'connection')) return 0, None, None, None else: conn = httplib.HTTPConnection( self.server, self.port, timeout=self.timeout) if conn is None: LOG.error(_('ServerProxy: Could not establish HTTP ' 'connection')) return 0, None, None, None try: conn.request(action, uri, body, headers) response = conn.getresponse() respstr = response.read() respdata = respstr if response.status in self.success_codes: try: respdata = json.loads(respstr) except ValueError: # response was not JSON, ignore the exception pass ret = (response.status, response.reason, respstr, respdata) except (socket.timeout, socket.error) as e: LOG.error(_('ServerProxy: %(action)s failure, %(e)r'), {'action': action, 'e': e}) ret = 0, None, None, None conn.close() LOG.debug(_("ServerProxy: status=%(status)d, reason=%(reason)r, " "ret=%(ret)s, data=%(data)r"), {'status': ret[0], 'reason': ret[1], 'ret': ret[2], 'data': ret[3]}) return ret class ServerPool(object): def __init__(self, servers, ssl, auth, neutron_id, timeout=10, base_uri='/quantum/v1.0', name='NeutronRestProxy'): self.base_uri = base_uri self.timeout = timeout self.name = name self.auth = auth self.ssl = ssl self.neutron_id = neutron_id self.servers = [] for server_port in servers: self.servers.append(self.server_proxy_for(*server_port)) def server_proxy_for(self, server, port): return ServerProxy(server, port, self.ssl, self.auth, self.neutron_id, self.timeout, self.base_uri, self.name) def server_failure(self, resp, ignore_codes=[]): """Define failure codes as required. Note: We assume 301-303 is a failure, and try the next server in the server pool. """ return (resp[0] in FAILURE_CODES and resp[0] not in ignore_codes) def action_success(self, resp): """Defining success codes as required. Note: We assume any valid 2xx as being successful response. """ return resp[0] in SUCCESS_CODES @utils.synchronized('bsn-rest-call', external=True) def rest_call(self, action, resource, data, headers, ignore_codes): good_first = sorted(self.servers, key=lambda x: x.failed) for active_server in good_first: ret = active_server.rest_call(action, resource, data, headers) if not self.server_failure(ret, ignore_codes): active_server.failed = False return ret else: LOG.error(_('ServerProxy: %(action)s failure for servers: ' '%(server)r Response: %(response)s'), {'action': action, 'server': (active_server.server, active_server.port), 'response': ret[3]}) LOG.error(_("ServerProxy: Error details: status=%(status)d, " "reason=%(reason)r, ret=%(ret)s, data=%(data)r"), {'status': ret[0], 'reason': ret[1], 'ret': ret[2], 'data': ret[3]}) active_server.failed = True # All servers failed, reset server list and try again next time LOG.error(_('ServerProxy: %(action)s failure for all servers: ' '%(server)r'), {'action': action, 'server': tuple((s.server, s.port) for s in self.servers)}) return (0, None, None, None) def rest_action(self, action, resource, data='', errstr='%s', ignore_codes=[], headers=None): """ Wrapper for rest_call that verifies success and raises a RemoteRestError on failure with a provided error string By default, 404 errors on DELETE calls are ignored because they already do not exist on the backend. """ if not ignore_codes and action == 'DELETE': ignore_codes = [404] resp = self.rest_call(action, resource, data, headers, ignore_codes) if self.server_failure(resp, ignore_codes): LOG.error(_("NeutronRestProxyV2: ") + errstr, resp[2]) raise RemoteRestError(resp[2]) if resp[0] in ignore_codes: LOG.warning(_("NeutronRestProxyV2: Received and ignored error " "code %(code)s on %(action)s action to resource " "%(resource)s"), {'code': resp[2], 'action': action, 'resource': resource}) return resp def rest_create_router(self, tenant_id, router): resource = ROUTER_RESOURCE_PATH % tenant_id data = {"router": router} errstr = _("Unable to create remote router: %s") self.rest_action('POST', resource, data, errstr) def rest_update_router(self, tenant_id, router, router_id): resource = ROUTERS_PATH % (tenant_id, router_id) data = {"router": router} errstr = _("Unable to update remote router: %s") self.rest_action('PUT', resource, data, errstr) def rest_delete_router(self, tenant_id, router_id): resource = ROUTERS_PATH % (tenant_id, router_id) errstr = _("Unable to delete remote router: %s") self.rest_action('DELETE', resource, errstr=errstr) def rest_add_router_interface(self, tenant_id, router_id, intf_details): resource = ROUTER_INTF_OP_PATH % (tenant_id, router_id) data = {"interface": intf_details} errstr = _("Unable to add router interface: %s") self.rest_action('POST', resource, data, errstr) def rest_remove_router_interface(self, tenant_id, router_id, interface_id): resource = ROUTER_INTF_PATH % (tenant_id, router_id, interface_id) errstr = _("Unable to delete remote intf: %s") self.rest_action('DELETE', resource, errstr=errstr) def rest_create_network(self, tenant_id, network): resource = NET_RESOURCE_PATH % tenant_id data = {"network": network} errstr = _("Unable to create remote network: %s") self.rest_action('POST', resource, data, errstr) def rest_update_network(self, tenant_id, net_id, network): resource = NETWORKS_PATH % (tenant_id, net_id) data = {"network": network} errstr = _("Unable to update remote network: %s") self.rest_action('PUT', resource, data, errstr) def rest_delete_network(self, tenant_id, net_id): resource = NETWORKS_PATH % (tenant_id, net_id) errstr = _("Unable to update remote network: %s") self.rest_action('DELETE', resource, errstr=errstr) def rest_create_port(self, net, port): resource = PORT_RESOURCE_PATH % (net["tenant_id"], net["id"]) data = {"port": port} errstr = _("Unable to create remote port: %s") self.rest_action('POST', resource, data, errstr) def rest_update_port(self, tenant_id, network_id, port, port_id): resource = PORTS_PATH % (tenant_id, network_id, port_id) data = {"port": port} errstr = _("Unable to update remote port: %s") self.rest_action('PUT', resource, data, errstr) def rest_delete_port(self, tenant_id, network_id, port_id): resource = PORTS_PATH % (tenant_id, network_id, port_id) errstr = _("Unable to delete remote port: %s") self.rest_action('DELETE', resource, errstr=errstr) def rest_plug_interface(self, tenant_id, net_id, port, remote_interface_id): if port["mac_address"] is not None: resource = ATTACHMENT_PATH % (tenant_id, net_id, port["id"]) data = {"attachment": {"id": remote_interface_id, "mac": port["mac_address"], } } errstr = _("Unable to plug in interface: %s") self.rest_action('PUT', resource, data, errstr) def rest_unplug_interface(self, tenant_id, net_id, port_id): resource = ATTACHMENT_PATH % (tenant_id, net_id, port_id) errstr = _("Unable to unplug interface: %s") self.rest_action('DELETE', resource, errstr=errstr) class RpcProxy(dhcp_rpc_base.DhcpRpcCallbackMixin): RPC_API_VERSION = '1.1' def create_rpc_dispatcher(self): return q_rpc.PluginRpcDispatcher([self]) class NeutronRestProxyV2(db_base_plugin_v2.NeutronDbPluginV2, external_net_db.External_net_db_mixin, routerrule_db.RouterRule_db_mixin, extradhcpopt_db.ExtraDhcpOptMixin): supported_extension_aliases = ["external-net", "router", "binding", "router_rules", "extra_dhcp_opt"] def __init__(self, server_timeout=None): LOG.info(_('NeutronRestProxy: Starting plugin. Version=%s'), version_string_with_vcs()) # init DB, proxy's persistent store defaults to in-memory sql-lite DB db.configure_db() # 'servers' is the list of network controller REST end-points # (used in order specified till one suceeds, and it is sticky # till next failure). Use 'server_auth' to encode api-key servers = cfg.CONF.RESTPROXY.servers server_auth = cfg.CONF.RESTPROXY.server_auth server_ssl = cfg.CONF.RESTPROXY.server_ssl sync_data = cfg.CONF.RESTPROXY.sync_data neutron_id = cfg.CONF.RESTPROXY.neutron_id self.add_meta_server_route = cfg.CONF.RESTPROXY.add_meta_server_route timeout = cfg.CONF.RESTPROXY.server_timeout if server_timeout is not None: timeout = server_timeout # validate config assert servers is not None, _('Servers not defined. Aborting plugin') servers = tuple(s.rsplit(':', 1) for s in servers.split(',')) servers = tuple((server, int(port)) for server, port in servers) assert all(len(s) == 2 for s in servers), SYNTAX_ERROR_MESSAGE # init network ctrl connections self.servers = ServerPool(servers, server_ssl, server_auth, neutron_id, timeout, BASE_URI) # init dhcp support self.topic = topics.PLUGIN self.conn = rpc.create_connection(new=True) self.callbacks = RpcProxy() self.dispatcher = self.callbacks.create_rpc_dispatcher() self.conn.create_consumer(self.topic, self.dispatcher, fanout=False) # Consume from all consumers in a thread self.conn.consume_in_thread() if sync_data: self._send_all_data() self._dhcp_agent_notifier = dhcp_rpc_agent_api.DhcpAgentNotifyAPI() LOG.debug(_("NeutronRestProxyV2: initialization done")) def create_network(self, context, network): """Create a network. Network represents an L2 network segment which can have a set of subnets and ports associated with it. :param context: neutron api request context :param network: dictionary describing the network :returns: a sequence of mappings with the following signature: { "id": UUID representing the network. "name": Human-readable name identifying the network. "tenant_id": Owner of network. NOTE: only admin user can specify a tenant_id other than its own. "admin_state_up": Sets admin state of network. if down, network does not forward packets. "status": Indicates whether network is currently operational (values are "ACTIVE", "DOWN", "BUILD", and "ERROR") "subnets": Subnets associated with this network. } :raises: RemoteRestError """ LOG.debug(_("NeutronRestProxyV2: create_network() called")) self._warn_on_state_status(network['network']) with context.session.begin(subtransactions=True): # Validate args tenant_id = self._get_tenant_id_for_create(context, network["network"]) # create network in DB new_net = super(NeutronRestProxyV2, self).create_network(context, network) self._process_l3_create(context, new_net, network['network']) mapped_network = self._get_mapped_network_with_subnets(new_net, context) # create network on the network controller self.servers.rest_create_network(tenant_id, mapped_network) # return created network return new_net def update_network(self, context, net_id, network): """Updates the properties of a particular Virtual Network. :param context: neutron api request context :param net_id: uuid of the network to update :param network: dictionary describing the updates :returns: a sequence of mappings with the following signature: { "id": UUID representing the network. "name": Human-readable name identifying the network. "tenant_id": Owner of network. NOTE: only admin user can specify a tenant_id other than its own. "admin_state_up": Sets admin state of network. if down, network does not forward packets. "status": Indicates whether network is currently operational (values are "ACTIVE", "DOWN", "BUILD", and "ERROR") "subnets": Subnets associated with this network. } :raises: exceptions.NetworkNotFound :raises: RemoteRestError """ LOG.debug(_("NeutronRestProxyV2.update_network() called")) self._warn_on_state_status(network['network']) session = context.session with session.begin(subtransactions=True): new_net = super(NeutronRestProxyV2, self).update_network( context, net_id, network) self._process_l3_update(context, new_net, network['network']) # update network on network controller self._send_update_network(new_net, context) return new_net def delete_network(self, context, net_id): """Delete a network. :param context: neutron api request context :param id: UUID representing the network to delete. :returns: None :raises: exceptions.NetworkInUse :raises: exceptions.NetworkNotFound :raises: RemoteRestError """ LOG.debug(_("NeutronRestProxyV2: delete_network() called")) # Validate args orig_net = super(NeutronRestProxyV2, self).get_network(context, net_id) tenant_id = orig_net["tenant_id"] filter = {'network_id': [net_id]} ports = self.get_ports(context, filters=filter) # check if there are any tenant owned ports in-use auto_delete_port_owners = db_base_plugin_v2.AUTO_DELETE_PORT_OWNERS only_auto_del = all(p['device_owner'] in auto_delete_port_owners for p in ports) if not only_auto_del: raise exceptions.NetworkInUse(net_id=net_id) with context.session.begin(subtransactions=True): ret_val = super(NeutronRestProxyV2, self).delete_network(context, net_id) self.servers.rest_delete_network(tenant_id, net_id) return ret_val def create_port(self, context, port): """Create a port, which is a connection point of a device (e.g., a VM NIC) to attach to a L2 Neutron network. :param context: neutron api request context :param port: dictionary describing the port :returns: { "id": uuid represeting the port. "network_id": uuid of network. "tenant_id": tenant_id "mac_address": mac address to use on this port. "admin_state_up": Sets admin state of port. if down, port does not forward packets. "status": dicates whether port is currently operational (limit values to "ACTIVE", "DOWN", "BUILD", and "ERROR") "fixed_ips": list of subnet ID"s and IP addresses to be used on this port "device_id": identifies the device (e.g., virtual server) using this port. } :raises: exceptions.NetworkNotFound :raises: exceptions.StateInvalid :raises: RemoteRestError """ LOG.debug(_("NeutronRestProxyV2: create_port() called")) # Update DB in new session so exceptions rollback changes with context.session.begin(subtransactions=True): port["port"]["admin_state_up"] = False dhcp_opts = port['port'].get(edo_ext.EXTRADHCPOPTS, []) new_port = super(NeutronRestProxyV2, self).create_port(context, port) if (portbindings.HOST_ID in port['port'] and 'id' in new_port): host_id = port['port'][portbindings.HOST_ID] porttracker_db.put_port_hostid(context, new_port['id'], host_id) self._process_port_create_extra_dhcp_opts(context, new_port, dhcp_opts) new_port = self._extend_port_dict_binding(context, new_port) net = super(NeutronRestProxyV2, self).get_network(context, new_port["network_id"]) if self.add_meta_server_route: if new_port['device_owner'] == 'network:dhcp': destination = METADATA_SERVER_IP + '/32' self._add_host_route(context, destination, new_port) # create on network ctrl mapped_port = self._map_state_and_status(new_port) self.servers.rest_create_port(net, mapped_port) # connect device to network, if present device_id = port["port"].get("device_id") if device_id: try: self.servers.rest_plug_interface(net["tenant_id"], net["id"], new_port, device_id) except RemoteRestError: with excutils.save_and_reraise_exception(): port_update = {"port": {"status": "ERROR"}} super(NeutronRestProxyV2, self).update_port( context, new_port["id"], port_update ) # Set port state up and return that port port_update = {"port": {"admin_state_up": True}} new_port = super(NeutronRestProxyV2, self).update_port(context, new_port["id"], port_update) return self._extend_port_dict_binding(context, new_port) def get_port(self, context, id, fields=None): with context.session.begin(subtransactions=True): port = super(NeutronRestProxyV2, self).get_port(context, id, fields) self._extend_port_dict_binding(context, port) return self._fields(port, fields) def get_ports(self, context, filters=None, fields=None): with context.session.begin(subtransactions=True): ports = super(NeutronRestProxyV2, self).get_ports(context, filters, fields) for port in ports: self._extend_port_dict_binding(context, port) return [self._fields(port, fields) for port in ports] def update_port(self, context, port_id, port): """Update values of a port. :param context: neutron api request context :param id: UUID representing the port to update. :param port: dictionary with keys indicating fields to update. :returns: a mapping sequence with the following signature: { "id": uuid represeting the port. "network_id": uuid of network. "tenant_id": tenant_id "mac_address": mac address to use on this port. "admin_state_up": sets admin state of port. if down, port does not forward packets. "status": dicates whether port is currently operational (limit values to "ACTIVE", "DOWN", "BUILD", and "ERROR") "fixed_ips": list of subnet ID's and IP addresses to be used on this port "device_id": identifies the device (e.g., virtual server) using this port. } :raises: exceptions.StateInvalid :raises: exceptions.PortNotFound :raises: RemoteRestError """ LOG.debug(_("NeutronRestProxyV2: update_port() called")) self._warn_on_state_status(port['port']) # Validate Args orig_port = super(NeutronRestProxyV2, self).get_port(context, port_id) with context.session.begin(subtransactions=True): # Update DB new_port = super(NeutronRestProxyV2, self).update_port(context, port_id, port) self._update_extra_dhcp_opts_on_port(context, port_id, port, new_port) if (portbindings.HOST_ID in port['port'] and 'id' in new_port): host_id = port['port'][portbindings.HOST_ID] porttracker_db.put_port_hostid(context, new_port['id'], host_id) new_port = self._extend_port_dict_binding(context, new_port) # update on networl ctrl mapped_port = self._map_state_and_status(new_port) self.servers.rest_update_port(orig_port["tenant_id"], orig_port["network_id"], mapped_port, port_id) if (new_port.get("device_id") != orig_port.get("device_id") and orig_port.get("device_id")): try: self.servers.rest_unplug_interface(orig_port["tenant_id"], orig_port["network_id"], orig_port["id"]) device_id = new_port.get("device_id") if device_id: self.rest_plug_interface(new_port["tenant_id"], new_port["network_id"], new_port, device_id) except RemoteRestError: with excutils.save_and_reraise_exception(): port_update = {"port": {"status": "ERROR"}} super(NeutronRestProxyV2, self).update_port( context, new_port["id"], port_update ) # return new_port return new_port def delete_port(self, context, port_id, l3_port_check=True): """Delete a port. :param context: neutron api request context :param id: UUID representing the port to delete. :raises: exceptions.PortInUse :raises: exceptions.PortNotFound :raises: exceptions.NetworkNotFound :raises: RemoteRestError """ LOG.debug(_("NeutronRestProxyV2: delete_port() called")) # if needed, check to see if this is a port owned by # and l3-router. If so, we should prevent deletion. if l3_port_check: self.prevent_l3_port_deletion(context, port_id) with context.session.begin(subtransactions=True): self.disassociate_floatingips(context, port_id) self._unplug_port(context, port_id) # Separate transaction for delete in case unplug passes # but delete fails on controller with context.session.begin(subtransactions=True): super(NeutronRestProxyV2, self).delete_port(context, port_id) def _unplug_port(self, context, port_id): port = super(NeutronRestProxyV2, self).get_port(context, port_id) tenant_id = port['tenant_id'] net_id = port['network_id'] if tenant_id == '': net = super(NeutronRestProxyV2, self).get_network(context, net_id) tenant_id = net['tenant_id'] if port.get("device_id"): self.servers.rest_unplug_interface(tenant_id, net_id, port_id) # Port should transition to error state now that it's unplugged # but not yet deleted port_update = {"port": {"status": "ERROR"}} super(NeutronRestProxyV2, self).update_port(context, port_id, port_update) def _delete_port(self, context, port_id): port = super(NeutronRestProxyV2, self).get_port(context, port_id) tenant_id = port['tenant_id'] net_id = port['network_id'] if tenant_id == '': net = super(NeutronRestProxyV2, self).get_network(context, net_id) tenant_id = net['tenant_id'] # Delete from DB ret_val = super(NeutronRestProxyV2, self)._delete_port(context, port_id) self.servers.rest_delete_port(tenant_id, net_id, port_id) return ret_val def create_subnet(self, context, subnet): LOG.debug(_("NeutronRestProxyV2: create_subnet() called")) self._warn_on_state_status(subnet['subnet']) with context.session.begin(subtransactions=True): # create subnet in DB new_subnet = super(NeutronRestProxyV2, self).create_subnet(context, subnet) net_id = new_subnet['network_id'] orig_net = super(NeutronRestProxyV2, self).get_network(context, net_id) # update network on network controller self._send_update_network(orig_net, context) return new_subnet def update_subnet(self, context, id, subnet): LOG.debug(_("NeutronRestProxyV2: update_subnet() called")) self._warn_on_state_status(subnet['subnet']) with context.session.begin(subtransactions=True): # update subnet in DB new_subnet = super(NeutronRestProxyV2, self).update_subnet(context, id, subnet) net_id = new_subnet['network_id'] orig_net = super(NeutronRestProxyV2, self).get_network(context, net_id) # update network on network controller self._send_update_network(orig_net, context) return new_subnet def delete_subnet(self, context, id): LOG.debug(_("NeutronRestProxyV2: delete_subnet() called")) orig_subnet = super(NeutronRestProxyV2, self).get_subnet(context, id) net_id = orig_subnet['network_id'] with context.session.begin(subtransactions=True): # delete subnet in DB super(NeutronRestProxyV2, self).delete_subnet(context, id) orig_net = super(NeutronRestProxyV2, self).get_network(context, net_id) # update network on network controller - exception will rollback self._send_update_network(orig_net, context) def _get_tenant_default_router_rules(self, tenant): rules = cfg.CONF.ROUTER.tenant_default_router_rule defaultset = [] tenantset = [] for rule in rules: items = rule.split(':') if len(items) == 5: (tenantid, source, destination, action, nexthops) = items elif len(items) == 4: (tenantid, source, destination, action) = items nexthops = '' else: continue parsedrule = {'source': source, 'destination': destination, 'action': action, 'nexthops': nexthops.split(',')} if parsedrule['nexthops'][0] == '': parsedrule['nexthops'] = [] if tenantid == '*': defaultset.append(parsedrule) if tenantid == tenant: tenantset.append(parsedrule) if tenantset: return tenantset return defaultset def create_router(self, context, router): LOG.debug(_("NeutronRestProxyV2: create_router() called")) self._warn_on_state_status(router['router']) tenant_id = self._get_tenant_id_for_create(context, router["router"]) # set default router rules rules = self._get_tenant_default_router_rules(tenant_id) router['router']['router_rules'] = rules with context.session.begin(subtransactions=True): # create router in DB new_router = super(NeutronRestProxyV2, self).create_router(context, router) mapped_router = self._map_state_and_status(new_router) self.servers.rest_create_router(tenant_id, mapped_router) # return created router return new_router def update_router(self, context, router_id, router): LOG.debug(_("NeutronRestProxyV2.update_router() called")) self._warn_on_state_status(router['router']) orig_router = super(NeutronRestProxyV2, self).get_router(context, router_id) tenant_id = orig_router["tenant_id"] with context.session.begin(subtransactions=True): new_router = super(NeutronRestProxyV2, self).update_router(context, router_id, router) router = self._map_state_and_status(new_router) # update router on network controller self.servers.rest_update_router(tenant_id, router, router_id) # return updated router return new_router def delete_router(self, context, router_id): LOG.debug(_("NeutronRestProxyV2: delete_router() called")) with context.session.begin(subtransactions=True): orig_router = self._get_router(context, router_id) tenant_id = orig_router["tenant_id"] # Ensure that the router is not used router_filter = {'router_id': [router_id]} fips = self.get_floatingips_count(context.elevated(), filters=router_filter) if fips: raise l3.RouterInUse(router_id=router_id) device_owner = l3_db.DEVICE_OWNER_ROUTER_INTF device_filter = {'device_id': [router_id], 'device_owner': [device_owner]} ports = self.get_ports_count(context.elevated(), filters=device_filter) if ports: raise l3.RouterInUse(router_id=router_id) ret_val = super(NeutronRestProxyV2, self).delete_router(context, router_id) # delete from network ctrl self.servers.rest_delete_router(tenant_id, router_id) return ret_val def add_router_interface(self, context, router_id, interface_info): LOG.debug(_("NeutronRestProxyV2: add_router_interface() called")) # Validate args router = self._get_router(context, router_id) tenant_id = router['tenant_id'] with context.session.begin(subtransactions=True): # create interface in DB new_intf_info = super(NeutronRestProxyV2, self).add_router_interface(context, router_id, interface_info) port = self._get_port(context, new_intf_info['port_id']) net_id = port['network_id'] subnet_id = new_intf_info['subnet_id'] # we will use the port's network id as interface's id interface_id = net_id intf_details = self._get_router_intf_details(context, interface_id, subnet_id) # create interface on the network controller self.servers.rest_add_router_interface(tenant_id, router_id, intf_details) return new_intf_info def remove_router_interface(self, context, router_id, interface_info): LOG.debug(_("NeutronRestProxyV2: remove_router_interface() called")) # Validate args router = self._get_router(context, router_id) tenant_id = router['tenant_id'] # we will first get the interface identifier before deleting in the DB if not interface_info: msg = _("Either subnet_id or port_id must be specified") raise exceptions.BadRequest(resource='router', msg=msg) if 'port_id' in interface_info: port = self._get_port(context, interface_info['port_id']) interface_id = port['network_id'] elif 'subnet_id' in interface_info: subnet = self._get_subnet(context, interface_info['subnet_id']) interface_id = subnet['network_id'] else: msg = _("Either subnet_id or port_id must be specified") raise exceptions.BadRequest(resource='router', msg=msg) with context.session.begin(subtransactions=True): # remove router in DB del_ret = super(NeutronRestProxyV2, self).remove_router_interface(context, router_id, interface_info) # create router on the network controller self.servers.rest_remove_router_interface(tenant_id, router_id, interface_id) return del_ret def create_floatingip(self, context, floatingip): LOG.debug(_("NeutronRestProxyV2: create_floatingip() called")) with context.session.begin(subtransactions=True): # create floatingip in DB new_fl_ip = super(NeutronRestProxyV2, self).create_floatingip(context, floatingip) net_id = new_fl_ip['floating_network_id'] orig_net = super(NeutronRestProxyV2, self).get_network(context, net_id) # create floatingip on the network controller try: self._send_update_network(orig_net, context) except RemoteRestError as e: with excutils.save_and_reraise_exception(): LOG.error( _("NeutronRestProxyV2: Unable to create remote " "floating IP: %s"), e) # return created floating IP return new_fl_ip def update_floatingip(self, context, id, floatingip): LOG.debug(_("NeutronRestProxyV2: update_floatingip() called")) with context.session.begin(subtransactions=True): # update floatingip in DB new_fl_ip = super(NeutronRestProxyV2, self).update_floatingip(context, id, floatingip) net_id = new_fl_ip['floating_network_id'] orig_net = super(NeutronRestProxyV2, self).get_network(context, net_id) # update network on network controller self._send_update_network(orig_net, context) return new_fl_ip def delete_floatingip(self, context, id): LOG.debug(_("NeutronRestProxyV2: delete_floatingip() called")) orig_fl_ip = super(NeutronRestProxyV2, self).get_floatingip(context, id) with context.session.begin(subtransactions=True): # delete floating IP in DB net_id = orig_fl_ip['floating_network_id'] super(NeutronRestProxyV2, self).delete_floatingip(context, id) orig_net = super(NeutronRestProxyV2, self).get_network(context, net_id) # update network on network controller self._send_update_network(orig_net, context) def _send_all_data(self): """Pushes all data to network ctrl (networks/ports, ports/attachments). This gives the controller an option to re-sync it's persistent store with neutron's current view of that data. """ admin_context = qcontext.get_admin_context() networks = [] routers = [] all_networks = super(NeutronRestProxyV2, self).get_networks(admin_context) or [] for net in all_networks: mapped_network = self._get_mapped_network_with_subnets(net) net_fl_ips = self._get_network_with_floatingips(mapped_network) ports = [] net_filter = {'network_id': [net.get('id')]} net_ports = super(NeutronRestProxyV2, self).get_ports(admin_context, filters=net_filter) or [] for port in net_ports: mapped_port = self._map_state_and_status(port) mapped_port['attachment'] = { 'id': port.get('device_id'), 'mac': port.get('mac_address'), } ports.append(mapped_port) net_fl_ips['ports'] = ports networks.append(net_fl_ips) all_routers = super(NeutronRestProxyV2, self).get_routers(admin_context) or [] for router in all_routers: interfaces = [] mapped_router = self._map_state_and_status(router) router_filter = { 'device_owner': ["network:router_interface"], 'device_id': [router.get('id')] } router_ports = super(NeutronRestProxyV2, self).get_ports(admin_context, filters=router_filter) or [] for port in router_ports: net_id = port.get('network_id') subnet_id = port['fixed_ips'][0]['subnet_id'] intf_details = self._get_router_intf_details(admin_context, net_id, subnet_id) interfaces.append(intf_details) mapped_router['interfaces'] = interfaces routers.append(mapped_router) resource = '/topology' data = { 'networks': networks, 'routers': routers, } errstr = _("Unable to update remote topology: %s") return self.servers.rest_action('PUT', resource, data, errstr) def _add_host_route(self, context, destination, port): subnet = {} for fixed_ip in port['fixed_ips']: subnet_id = fixed_ip['subnet_id'] nexthop = fixed_ip['ip_address'] subnet['host_routes'] = [{'destination': destination, 'nexthop': nexthop}] updated_subnet = self.update_subnet(context, subnet_id, {'subnet': subnet}) payload = {'subnet': updated_subnet} self._dhcp_agent_notifier.notify(context, payload, 'subnet.update.end') LOG.debug(_("Adding host route: ")) LOG.debug(_("Destination:%(dst)s nexthop:%(next)s"), {'dst': destination, 'next': nexthop}) def _get_network_with_floatingips(self, network, context=None): if context is None: context = qcontext.get_admin_context() net_id = network['id'] net_filter = {'floating_network_id': [net_id]} fl_ips = super(NeutronRestProxyV2, self).get_floatingips(context, filters=net_filter) or [] network['floatingips'] = fl_ips return network def _get_all_subnets_json_for_network(self, net_id, context=None): if context is None: context = qcontext.get_admin_context() # start a sub-transaction to avoid breaking parent transactions with context.session.begin(subtransactions=True): subnets = self._get_subnets_by_network(context, net_id) subnets_details = [] if subnets: for subnet in subnets: subnet_dict = self._make_subnet_dict(subnet) mapped_subnet = self._map_state_and_status(subnet_dict) subnets_details.append(mapped_subnet) return subnets_details def _get_mapped_network_with_subnets(self, network, context=None): # if context is not provided, admin context is used if context is None: context = qcontext.get_admin_context() network = self._map_state_and_status(network) subnets = self._get_all_subnets_json_for_network(network['id'], context) network['subnets'] = subnets for subnet in (subnets or []): if subnet['gateway_ip']: # FIX: For backward compatibility with wire protocol network['gateway'] = subnet['gateway_ip'] break else: network['gateway'] = '' network[external_net.EXTERNAL] = self._network_is_external( context, network['id']) return network def _send_update_network(self, network, context): net_id = network['id'] tenant_id = network['tenant_id'] # update network on network controller mapped_network = self._get_mapped_network_with_subnets(network, context) net_fl_ips = self._get_network_with_floatingips(mapped_network, context) self.servers.rest_update_network(tenant_id, net_id, net_fl_ips) def _map_state_and_status(self, resource): resource = copy.copy(resource) resource['state'] = ('UP' if resource.pop('admin_state_up', True) else 'DOWN') if 'status' in resource: del resource['status'] return resource def _warn_on_state_status(self, resource): if resource.get('admin_state_up', True) is False: LOG.warning(_("Setting admin_state_up=False is not supported" " in this plugin version. Ignoring setting for " "resource: %s"), resource) if 'status' in resource: if resource['status'] is not const.NET_STATUS_ACTIVE: LOG.warning(_("Operational status is internally set by the" " plugin. Ignoring setting status=%s."), resource['status']) def _get_router_intf_details(self, context, intf_id, subnet_id): # we will use the network id as interface's id net_id = intf_id network = super(NeutronRestProxyV2, self).get_network(context, net_id) subnet = super(NeutronRestProxyV2, self).get_subnet(context, subnet_id) mapped_network = self._get_mapped_network_with_subnets(network) mapped_subnet = self._map_state_and_status(subnet) data = { 'id': intf_id, "network": mapped_network, "subnet": mapped_subnet } return data def _extend_port_dict_binding(self, context, port): cfg_vif_type = cfg.CONF.NOVA.vif_type.lower() if not cfg_vif_type in (portbindings.VIF_TYPE_OVS, portbindings.VIF_TYPE_IVS): LOG.warning(_("Unrecognized vif_type in configuration " "[%s]. Defaulting to ovs. "), cfg_vif_type) cfg_vif_type = portbindings.VIF_TYPE_OVS hostid = porttracker_db.get_port_hostid(context, port['id']) if hostid: override = self._check_hostvif_override(hostid) if override: cfg_vif_type = override port[portbindings.VIF_TYPE] = cfg_vif_type port[portbindings.CAPABILITIES] = { portbindings.CAP_PORT_FILTER: 'security-group' in self.supported_extension_aliases} return port def _check_hostvif_override(self, hostid): for v in cfg.CONF.NOVA.vif_types: if hostid in getattr(cfg.CONF.NOVA, "node_override_vif_" + v, []): return v return False