#!/usr/bin/python # 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. # Creates a tunnel mesh across xenserver hosts # Enforces broadcast drop rules on ingress GRE tunnels import cloudstack_pluginlib as lib import logging import commands import os import sys import subprocess import time import XenAPIPlugin sys.path.append("/opt/xensource/sm/") import util from time import localtime as _localtime, asctime as _asctime xePath = "/opt/xensource/bin/xe" lib.setup_logging("/var/log/cloud/ovstunnel.log") def block_ipv6_v5(bridge): lib.add_flow(bridge, priority=65000, dl_type='0x86dd', actions='drop') def block_ipv6_v6(bridge): lib.add_flow(bridge, priority=65000, proto='ipv6', actions='drop') block_ipv6_handlers = { '5': block_ipv6_v5, '6': block_ipv6_v6} def echo(fn): def wrapped(*v, **k): name = fn.__name__ logging.debug("#### VMOPS enter %s ####" % name) res = fn(*v, **k) logging.debug("#### VMOPS exit %s ####" % name) return res return wrapped @echo def setup_ovs_bridge(session, args): bridge = args.pop("bridge") key = args.pop("key") xs_nw_uuid = args.pop("xs_nw_uuid") cs_host_id = args.pop("cs_host_id") res = lib.check_switch() if res != "SUCCESS": return "FAILURE:%s" % res logging.debug("About to manually create the bridge:%s" % bridge) # create a bridge with the same name as the xapi network # also associate gre key in other config attribute res = lib.do_cmd([lib.VSCTL_PATH, "--", "--may-exist", "add-br", bridge, "--", "set", "bridge", bridge, "other_config:gre_key=%s" % key]) logging.debug("Bridge has been manually created:%s" % res) # TODO: Make sure xs-network-uuid is set into external_ids lib.do_cmd([lib.VSCTL_PATH, "set", "Bridge", bridge, "external_ids:xs-network-uuid=%s" % xs_nw_uuid]) # enable stp lib.do_cmd([lib.VSCTL_PATH, "set", "Bridge", bridge, "stp_enable=true"]) # Non empty result means something went wrong if res: result = "FAILURE:%s" % res else: # Verify the bridge actually exists, with the gre_key properly set res = lib.do_cmd([lib.VSCTL_PATH, "get", "bridge", bridge, "other_config:gre_key"]) if key in res: result = "SUCCESS:%s" % bridge else: result = "FAILURE:%s" % res lib.do_cmd([lib.XE_PATH, "network-param-set", "uuid=%s" % xs_nw_uuid, "other-config:is-ovs-tun-network=True"]) # Finally note in the xenapi network object that the network has # been configured xs_nw_uuid = lib.do_cmd([lib.XE_PATH, "network-list", "bridge=%s" % bridge, "--minimal"]) conf_hosts = lib.do_cmd([lib.XE_PATH, "network-param-get", "uuid=%s" % xs_nw_uuid, "param-name=other-config", "param-key=ovs-host-setup"]) host_found = False if conf_hosts: setup_hosts = conf_hosts.split(",") for host in setup_hosts: if host == cs_host_id: host_found = True if not host_found: conf_hosts = cs_host_id + (conf_hosts and ',%s' % conf_hosts or '') lib.do_cmd([lib.XE_PATH, "network-param-set", "uuid=%s" % xs_nw_uuid, "other-config:ovs-host-setup=%s" % conf_hosts]) # BLOCK IPv6 - Flow spec changes with ovs version # Temporarily no need BLOCK IPv6 # host_list_cmd = [lib.XE_PATH, 'host-list', '--minimal'] # host_list_str = lib.do_cmd(host_list_cmd) # host_uuid = host_list_str.split(',')[0].strip() # version_cmd = [lib.XE_PATH, 'host-param-get', 'uuid=%s' % host_uuid, # 'param-name=software-version', # 'param-key=product_version'] # version = lib.do_cmd(version_cmd).split('.')[0] # block_ipv6_handlers[version](bridge) logging.debug("Setup_ovs_bridge completed with result:%s" % result) return result @echo def setup_ovs_bridge_for_distributed_routing(session, args): bridge = args.pop("bridge") key = args.pop("key") xs_nw_uuid = args.pop("xs_nw_uuid") cs_host_id = args.pop("cs_host_id") res = lib.check_switch() if res != "SUCCESS": return "FAILURE:%s" % res logging.debug("About to manually create the bridge:%s" % bridge) # create a bridge with the same name as the xapi network res = lib.do_cmd([lib.VSCTL_PATH, "--", "--may-exist", "add-br", bridge]) logging.debug("Bridge has been manually created:%s" % res) # TODO: Make sure xs-network-uuid is set into external_ids lib.do_cmd([lib.VSCTL_PATH, "set", "Bridge", bridge, "external_ids:xs-network-uuid=%s" % xs_nw_uuid]) # Non empty result means something went wrong if res: result = "FAILURE:%s" % res else: # Verify the bridge actually exists, with the gre_key properly set res = lib.do_cmd([lib.VSCTL_PATH, "list", "bridge", bridge]) # Finally note in the xenapi network object that the network has # been configured xs_nw_uuid = lib.do_cmd([lib.XE_PATH, "network-list", "bridge=%s" % bridge, "--minimal"]) lib.do_cmd([lib.XE_PATH, "network-param-set", "uuid=%s" % xs_nw_uuid, "other-config:is-ovs-vpc-distributed-vr-network=True"]) conf_hosts = lib.do_cmd([lib.XE_PATH, "network-param-get", "uuid=%s" % xs_nw_uuid, "param-name=other-config", "param-key=ovs-host-setup"]) host_found = False if conf_hosts: setup_hosts = conf_hosts.split(",") for host in setup_hosts: if host == cs_host_id: host_found = True if not host_found: conf_hosts = cs_host_id + (conf_hosts and ',%s' % conf_hosts or '') lib.do_cmd([lib.XE_PATH, "network-param-set", "uuid=%s" % xs_nw_uuid, "other-config:ovs-host-setup=%s" % conf_hosts]) # first clear the default rule (rule for 'NORMAL' processing which makes a bridge simple L2 learn & flood switch) lib.del_flows(bridge, table=0) # add a default flow rule to send broadcast and multi-cast packets to L2 flooding table lib.add_flow(bridge, priority=1200, dl_dst='ff:ff:ff:ff:ff:ff', table=lib.CLASSIFIER_TABLE, actions='resubmit(,%s)'%lib.L2_FLOOD_TABLE) lib.add_flow(bridge, priority=1200, nw_dst='224.0.0.0/24', table=lib.CLASSIFIER_TABLE, actions='resubmit(,%s)'%lib.L2_FLOOD_TABLE) # add a default flow rule to send uni-cast traffic to L2 lookup table lib.add_flow(bridge, priority=0, table=lib.CLASSIFIER_TABLE, actions='resubmit(,%s)'%lib.L2_LOOKUP_TABLE) # add a default rule to send unknown mac address to L2 flooding table lib.add_flow(bridge, priority=0, table=lib.L2_LOOKUP_TABLE, actions='resubmit(,%s)'%lib.L2_FLOOD_TABLE) # add a default rule in L2 flood table to drop packet lib.add_flow(bridge, priority=0, table=lib.L2_FLOOD_TABLE, actions='drop') # add a default rule in egress ACL table to forward packet to L3 lookup table lib.add_flow(bridge, priority=0, table=lib.EGRESS_ACL_TABLE, actions='resubmit(,%s)'%lib.L3_LOOKUP_TABLE) # add a default rule in L3 lookup table to forward packet to L2 lookup table lib.add_flow(bridge, priority=0, table=lib.L3_LOOKUP_TABLE, actions='resubmit(,%s)'%lib.L2_LOOKUP_TABLE) # add a default rule in ingress table to drop in bound packets lib.add_flow(bridge, priority=0, table=lib.INGRESS_ACL_TABLE, actions='drop') # initialize the sequence number for the bridge lib.do_cmd([lib.VSCTL_PATH, "set", "bridge", bridge, "other-config:topology-update-sequence-number=0"]) lib.do_cmd([lib.VSCTL_PATH, "set", "bridge", bridge, "other-config:route-policy-update-sequence-number=0"]) result = "SUCCESS: successfully setup bridge with flow rules" logging.debug("Setup_ovs_bridge completed with result:%s" % result) return result @echo def destroy_ovs_bridge(session, args): bridge = args.pop("bridge") this_host_id = args.pop("cs_host_id") res = lib.check_switch() if res != "SUCCESS": return res res = lib.do_cmd([lib.VSCTL_PATH, "del-br", bridge]) logging.debug("Bridge has been manually removed:%s" % res) if res: result = "FAILURE:%s" % res else: # Note that the bridge has been removed on xapi network object xs_nw_uuid = lib.do_cmd([lib.XE_PATH, "network-list", "bridge=%s" % bridge, "--minimal"]) conf_hosts = lib.do_cmd([lib.XE_PATH, "network-param-get", "uuid=%s" % xs_nw_uuid, "param-name=other-config", "param-key=ovs-host-setup"]) new_conf_hosts = "" hosts = conf_hosts.split(',') for host in hosts: if str(host) == str(this_host_id): continue new_conf_hosts = host + "," + new_conf_hosts new_conf_hosts = new_conf_hosts[:-1] lib.do_cmd([lib.XE_PATH, "network-param-set", "uuid=%s" % xs_nw_uuid, "other-config:ovs-host-setup=%s" % new_conf_hosts]) result = "SUCCESS:%s" % bridge logging.debug("Destroy_ovs_bridge completed with result:%s" % result) return result @echo def create_tunnel(session, args): bridge = args.pop("bridge") remote_ip = args.pop("remote_ip") gre_key = args.pop("key") src_host = args.pop("from") dst_host = args.pop("to") network_uuid = args.pop("cloudstack-network-id") return lib.create_tunnel(bridge, remote_ip, gre_key, src_host, dst_host, network_uuid) @echo def destroy_tunnel(session, args): bridge = args.pop("bridge") iface_name = args.pop("in_port") logging.debug("Destroying tunnel at port %s for bridge %s" % (iface_name, bridge)) ofport = get_field_of_interface(iface_name, "ofport") lib.del_flows(bridge, in_port=ofport) lib.del_port(bridge, iface_name) return "SUCCESS" def get_field_of_interface(iface_name, field): get_iface_cmd = [lib.VSCTL_PATH, "get", "interface", iface_name, field] res = lib.do_cmd(get_iface_cmd) return res def is_xcp(session, args): host_list_cmd = [lib.XE_PATH, 'host-list', '--minimal'] host_list_str = lib.do_cmd(host_list_cmd) host_uuid = host_list_str.split(',')[0].strip() status, output = commands.getstatusoutput("xe host-param-list uuid="+host_uuid+" | grep platform_name") if (status != 0): return "FALSE" platform_cmd = [lib.XE_PATH, 'host-param-get', 'uuid=%s' % host_uuid, 'param-name=software-version', 'param-key=platform_name'] platform = lib.do_cmd(platform_cmd).split('.')[0] return platform def getLabel(session, args): i = 0 pif_list_cmd = [lib.XE_PATH, 'pif-list', '--minimal'] pif_list_str = lib.do_cmd(pif_list_cmd) while True: pif_uuid = pif_list_str.split(',')[i].strip() network_cmd = [lib.XE_PATH, 'pif-param-get', 'uuid=%s' % pif_uuid, 'param-name=network-uuid'] network_uuid = lib.do_cmd(network_cmd).split('.')[0] iface_cmd = [lib.XE_PATH, 'network-param-get', 'uuid=%s' % network_uuid, 'param-name=bridge'] iface = lib.do_cmd(iface_cmd) status,output = commands.getstatusoutput("ifconfig "+iface+" | grep inet") if (status != 0): i += 1 continue label_cmd = [lib.XE_PATH, 'network-param-get', 'uuid=%s' % network_uuid, 'param-name=name-label'] label = lib.do_cmd(label_cmd).split('.')[0] return label return False @echo def configure_ovs_bridge_for_network_topology(session, args): bridge = args.pop("bridge") json_config = args.pop("config") this_host_id = args.pop("host-id") sequence_no = args.pop("seq-no") # get the last update sequence number last_seq_no = lib.do_cmd([lib.VSCTL_PATH, "get", "bridge", bridge, "other-config:topology-update-sequence-number"]) last_seq_no = last_seq_no[1:-1] if long(sequence_no) > long(last_seq_no): lib.do_cmd([lib.VSCTL_PATH, "set", "bridge", bridge, "other-config:topology-update-sequence-number=%s"%sequence_no]) return lib.configure_vpc_bridge_for_network_topology(bridge, this_host_id, json_config, sequence_no) else: return "SUCCESS: Ignoring the update with the sequence number %s" %sequence_no + " as there is already recent" \ " update received and applied with sequence number %s" %last_seq_no @echo def configure_ovs_bridge_for_routing_policies(session, args): bridge = args.pop("bridge") json_config = args.pop("config") sequence_no = args.pop("seq-no") # get the last update sequence number last_seq_no = lib.do_cmd([lib.VSCTL_PATH, "get", "bridge", bridge, "other-config:route-policy-update-sequence-number"]) last_seq_no = last_seq_no[1:-1] if long(sequence_no) > long(last_seq_no): lib.do_cmd([lib.VSCTL_PATH, "set", "bridge", bridge, "other-config:route-policy-update-sequence-number=%s"%sequence_no]) return lib.configure_vpc_bridge_for_routing_policies(bridge, json_config, sequence_no) else: return "SUCCESS: Ignoring the update with the sequence number %s" %sequence_no + " as there is already recent" \ " update received and applied with sequence number %s" %last_seq_no if __name__ == "__main__": XenAPIPlugin.dispatch({"create_tunnel": create_tunnel, "destroy_tunnel": destroy_tunnel, "setup_ovs_bridge": setup_ovs_bridge, "destroy_ovs_bridge": destroy_ovs_bridge, "is_xcp": is_xcp, "getLabel": getLabel, "setup_ovs_bridge_for_distributed_routing": setup_ovs_bridge_for_distributed_routing, "configure_ovs_bridge_for_network_topology": configure_ovs_bridge_for_network_topology, "configure_ovs_bridge_for_routing_policies": configure_ovs_bridge_for_routing_policies})