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vlrouter.go
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vlrouter.go
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/***
Copyright 2014 Cisco Systems 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.
*/
package ofnet
// This file implements the virtual router functionality using Vxlan overlay
// VXLAN tables are structured as follows
//
// +-------+ +-------------------+
// | Valid +---------------------------------------->| ARP to Controller |
// | Pkts +-->+-------+ +-------------------+
// +-------+ | Vlan | +---------+
// | Table +------->| IP Dst | +--------------+
// +-------+ | Lookup +--------->| Ucast Output |
// +---------- +--------------+
//
//
import (
"errors"
"fmt"
"net"
"net/rpc"
"strings"
log "github.com/Sirupsen/logrus"
"github.com/contiv/libOpenflow/openflow13"
"github.com/contiv/libOpenflow/protocol"
"github.com/contiv/ofnet/ofctrl"
cmap "github.com/streamrail/concurrent-map"
)
// Vlrouter state.
// One Vlrouter instance exists on each host
type Vlrouter struct {
agent *OfnetAgent // Pointer back to ofnet agent that owns this
ofSwitch *ofctrl.OFSwitch // openflow switch we are talking to
policyAgent *PolicyAgent // Policy agent
svcProxy *ServiceProxy // Service proxy
// Fgraph tables
inputTable *ofctrl.Table // Packet lookup starts here
vlanTable *ofctrl.Table // Vlan Table. map port or VNI to vlan
ipTable *ofctrl.Table // IP lookup table
// Flow Database
flowDb map[string]*ofctrl.Flow // Database of flow entries
portVlanFlowDb map[uint32]*ofctrl.Flow // Database of flow entries
dscpFlowDb map[uint32][]*ofctrl.Flow // Database of flow entries
portDnsFlowDb cmap.ConcurrentMap // Database of flow entries
uplinkPortDb cmap.ConcurrentMap // Database of uplink ports
myRouterMac net.HardwareAddr //Router mac used for external proxy
anycastMac net.HardwareAddr //Anycast mac used for local endpoints
myBgpPeer string // bgp neighbor
unresolvedEPs cmap.ConcurrentMap // unresolved endpoint map
uplinkOfp uint32 // uplink intf portno mapping
}
// GetUplink API gets the uplink port with uplinkID from uplink DB
func (vl *Vlrouter) GetUplink(uplinkID string) *PortInfo {
uplink, ok := vl.uplinkPortDb.Get(uplinkID)
if !ok {
return nil
}
return uplink.(*PortInfo)
}
// NewVlrouter creates a new vlrouter instance
func NewVlrouter(agent *OfnetAgent, rpcServ *rpc.Server) *Vlrouter {
vlrouter := new(Vlrouter)
// Keep a reference to the agent
vlrouter.agent = agent
// Create policy agent
vlrouter.policyAgent = NewPolicyAgent(agent, rpcServ)
vlrouter.svcProxy = NewServiceProxy(agent)
// Create a flow dbs and my router mac
vlrouter.flowDb = make(map[string]*ofctrl.Flow)
vlrouter.portVlanFlowDb = make(map[uint32]*ofctrl.Flow)
vlrouter.dscpFlowDb = make(map[uint32][]*ofctrl.Flow)
vlrouter.portDnsFlowDb = cmap.New()
vlrouter.anycastMac, _ = net.ParseMAC("00:00:11:11:11:11")
vlrouter.unresolvedEPs = cmap.New()
vlrouter.uplinkPortDb = cmap.New()
return vlrouter
}
// MasterAdded handles new master added event
func (vl *Vlrouter) MasterAdded(master *OfnetNode) error {
return nil
}
// Handle switch connected notification
func (vl *Vlrouter) SwitchConnected(sw *ofctrl.OFSwitch) {
// Keep a reference to the switch
vl.ofSwitch = sw
log.Infof("Switch connected(vlrouter). installing flows")
vl.svcProxy.SwitchConnected(sw)
// Tell the policy agent about the switch
vl.policyAgent.SwitchConnected(sw)
// Init the Fgraph
vl.initFgraph()
}
// Handle switch disconnected notification
func (vl *Vlrouter) SwitchDisconnected(sw *ofctrl.OFSwitch) {
vl.policyAgent.SwitchDisconnected(sw)
vl.ofSwitch = nil
}
// Handle incoming packet
func (vl *Vlrouter) PacketRcvd(sw *ofctrl.OFSwitch, pkt *ofctrl.PacketIn) {
if pkt.TableId == SRV_PROXY_SNAT_TBL_ID || pkt.TableId == SRV_PROXY_DNAT_TBL_ID {
// these are destined to service proxy
vl.svcProxy.HandlePkt(pkt)
return
}
switch pkt.Data.Ethertype {
case 0x0806:
if (pkt.Match.Type == openflow13.MatchType_OXM) &&
(pkt.Match.Fields[0].Class == openflow13.OXM_CLASS_OPENFLOW_BASIC) &&
(pkt.Match.Fields[0].Field == openflow13.OXM_FIELD_IN_PORT) {
// Get the input port number
switch t := pkt.Match.Fields[0].Value.(type) {
case *openflow13.InPortField:
var inPortFld openflow13.InPortField
inPortFld = *t
vl.processArp(pkt.Data, inPortFld.InPort)
}
}
case protocol.IPv4_MSG:
var inPort uint32
if (pkt.TableId == 0) && (pkt.Match.Type == openflow13.MatchType_OXM) &&
(pkt.Match.Fields[0].Class == openflow13.OXM_CLASS_OPENFLOW_BASIC) &&
(pkt.Match.Fields[0].Field == openflow13.OXM_FIELD_IN_PORT) {
// Get the input port number
switch t := pkt.Match.Fields[0].Value.(type) {
case *openflow13.InPortField:
inPort = t.InPort
default:
log.Debugf("unknown match type %v for ipv4 pkt", t)
return
}
}
ipPkt := pkt.Data.Data.(*protocol.IPv4)
switch ipPkt.Protocol {
case protocol.Type_UDP:
udpPkt := ipPkt.Data.(*protocol.UDP)
switch udpPkt.PortDst {
case 53:
if pkt.Data.VLANID.VID != 0 {
vl.agent.incrErrStats("dnsPktUplink")
return
}
if dnsResp, err := processDNSPkt(vl.agent, inPort, udpPkt.Data); err == nil {
if respPkt, err := buildUDPRespPkt(&pkt.Data, dnsResp); err == nil {
vl.agent.incrStats("dnsPktReply")
pktOut := openflow13.NewPacketOut()
pktOut.Data = respPkt
pktOut.AddAction(openflow13.NewActionOutput(inPort))
vl.ofSwitch.Send(pktOut)
return
}
}
// re-inject DNS packet
ethPkt := buildDnsForwardPkt(&pkt.Data)
pktOut := openflow13.NewPacketOut()
pktOut.Data = ethPkt
pktOut.InPort = inPort
pktOut.AddAction(openflow13.NewActionOutput(openflow13.P_TABLE))
vl.agent.incrStats("dnsPktForward")
vl.ofSwitch.Send(pktOut)
return
}
}
default:
log.Errorf("Received unknown ethertype: %x", pkt.Data.Ethertype)
}
}
// InjectGARPs not implemented
func (vl *Vlrouter) InjectGARPs(epgID int) {
}
// GlobalConfigUpdate not implemented
func (vl *Vlrouter) GlobalConfigUpdate(cfg OfnetGlobalConfig) error {
return nil
}
/*AddLocalEndpoint does the following:
1) Adds endpoint to the OVS and the associated flows
2) Populates BGP RIB with local route to be propogated to neighbor
*/
func (vl *Vlrouter) AddLocalEndpoint(endpoint OfnetEndpoint) error {
log.Infof("Received add Local Endpoint for %v", endpoint)
if vl.agent.ctrler == nil {
return nil
}
dNATTbl := vl.ofSwitch.GetTable(SRV_PROXY_DNAT_TBL_ID)
// Install a flow entry for vlan mapping and point it to next table
portVlanFlow, err := createPortVlanFlow(vl.agent, vl.vlanTable, dNATTbl, &endpoint)
if err != nil {
log.Errorf("Error creating portvlan entry. Err: %v", err)
return err
}
// save the flow entry
vl.portVlanFlowDb[endpoint.PortNo] = portVlanFlow
// install DSCP flow entries if required
if endpoint.Dscp != 0 {
dscpV4Flow, dscpV6Flow, err := createDscpFlow(vl.agent, vl.vlanTable, dNATTbl, &endpoint)
if err != nil {
log.Errorf("Error installing DSCP flows. Err: %v", err)
return err
}
// save it for tracking
vl.dscpFlowDb[endpoint.PortNo] = []*ofctrl.Flow{dscpV4Flow, dscpV6Flow}
}
// get output flow
outPort, err := vl.ofSwitch.OutputPort(endpoint.PortNo)
if err != nil {
log.Errorf("Error creating output port %d. Err: %v", endpoint.PortNo, err)
return err
}
// Install the IP address
ipFlow, err := vl.ipTable.NewFlow(ofctrl.FlowMatch{
Priority: LOCAL_ENDPOINT_FLOW_TAGGED_PRIORITY,
Ethertype: 0x0800,
VlanId: endpoint.Vlan,
IpDa: &endpoint.IpAddr,
})
if err != nil {
log.Errorf("Error creating flow for endpoint: %+v. Err: %v", endpoint, err)
return err
}
ipFlow.PopVlan()
ipFlow2, err := vl.ipTable.NewFlow(ofctrl.FlowMatch{
Priority: LOCAL_ENDPOINT_FLOW_PRIORITY,
Ethertype: 0x0800,
IpDa: &endpoint.IpAddr,
})
if err != nil {
log.Errorf("Error creating flow for endpoint: %+v. Err: %v", endpoint, err)
return err
}
destMacAddr, _ := net.ParseMAC(endpoint.MacAddrStr)
// Set Mac addresses
ipFlow.SetMacDa(destMacAddr)
ipFlow.SetMacSa(vl.anycastMac)
ipFlow2.SetMacDa(destMacAddr)
ipFlow2.SetMacSa(vl.anycastMac)
// Point the route at output port
err = ipFlow2.Next(outPort)
if err != nil {
log.Errorf("Error installing IP flow for endpoint: %+v. Err: %v", endpoint, err)
return err
}
// Store the flow
flowId := vl.agent.getEndpointIdByIpVlan(endpoint.IpAddr, endpoint.Vlan)
vl.flowDb[flowId+"vlan"] = ipFlow2
// Point the route at output port
err = ipFlow.Next(outPort)
if err != nil {
log.Errorf("Error installing IP flow for endpoint: %+v. Err: %v", endpoint, err)
return err
}
// Store the flow
flowId = vl.agent.getEndpointIdByIpVlan(endpoint.IpAddr, endpoint.Vlan)
vl.flowDb[flowId] = ipFlow
if !vl.agent.isInternalBgp(&endpoint) {
// Install dst group entry for the endpoint
err = vl.policyAgent.AddEndpoint(&endpoint)
if err != nil {
log.Errorf("Error adding endpoint to policy agent{%+v}. Err: %v", endpoint, err)
return err
}
path := &OfnetProtoRouteInfo{
ProtocolType: "bgp",
localEpIP: endpoint.IpAddr.String(),
nextHopIP: "",
}
if vl.agent.GetRouterInfo() != nil {
path.nextHopIP = vl.agent.GetRouterInfo().RouterIP
}
vl.agent.AddLocalProtoRoute([]*OfnetProtoRouteInfo{path})
}
if endpoint.Ipv6Addr != nil && endpoint.Ipv6Addr.String() != "" {
err = vl.AddLocalIpv6Flow(endpoint)
if err != nil {
return err
}
}
return nil
}
/* RemoveLocalEndpoint does the following
1) Removes the local endpoint and associated flows from OVS
2) Withdraws the route from BGP RIB
*/
func (vl *Vlrouter) RemoveLocalEndpoint(endpoint OfnetEndpoint) error {
log.Infof("Received Remove Local Endpoint for endpoint:{%+v}", endpoint)
// Remove the port vlan flow.
portVlanFlow := vl.portVlanFlowDb[endpoint.PortNo]
if portVlanFlow != nil {
err := portVlanFlow.Delete()
if err != nil {
log.Errorf("Error deleting portvlan flow. Err: %v", err)
}
}
// Remove dscp flows.
dscpFlows, found := vl.dscpFlowDb[endpoint.PortNo]
if found {
for _, dflow := range dscpFlows {
err := dflow.Delete()
if err != nil {
log.Errorf("Error deleting dscp flow {%+v}. Err: %v", dflow, err)
}
}
}
// Find the flow entry
flowId := endpoint.EndpointID
ipFlow := vl.flowDb[flowId]
if ipFlow == nil {
log.Errorf("Error finding the flow for endpoint: %+v", endpoint)
return errors.New("Flow not found")
}
// Delete the Fgraph entry
err := ipFlow.Delete()
if err != nil {
log.Errorf("Error deleting the endpoint: %+v. Err: %v", endpoint, err)
}
flowId = endpoint.EndpointID + "vlan"
ipFlow = vl.flowDb[flowId]
if ipFlow == nil {
log.Errorf("Error finding the tagged flow for endpoint: %+v", endpoint)
return errors.New("Flow not found")
}
// Delete the Fgraph entry
err = ipFlow.Delete()
if err != nil {
log.Errorf("Error deleting the endpoint: %+v. Err: %v", endpoint, err)
}
vl.svcProxy.DelEndpoint(&endpoint)
// Remove the endpoint from policy tables
if !vl.agent.isInternalBgp(&endpoint) {
err = vl.policyAgent.DelEndpoint(&endpoint)
if err != nil {
log.Errorf("Error deleting endpoint to policy agent{%+v}. Err: %v", endpoint, err)
return err
}
}
path := &OfnetProtoRouteInfo{
ProtocolType: "bgp",
localEpIP: endpoint.IpAddr.String(),
nextHopIP: "",
}
if vl.agent.GetRouterInfo() != nil {
path.nextHopIP = vl.agent.GetRouterInfo().RouterIP
}
vl.agent.DeleteLocalProtoRoute([]*OfnetProtoRouteInfo{path})
if endpoint.Ipv6Addr != nil && endpoint.Ipv6Addr.String() != "" {
err = vl.RemoveLocalIpv6Flow(endpoint)
if err != nil {
return err
}
}
return nil
}
// UpdateLocalEndpoint update local endpoint state
func (vl *Vlrouter) UpdateLocalEndpoint(endpoint *OfnetEndpoint, epInfo EndpointInfo) error {
oldDscp := endpoint.Dscp
// Remove existing DSCP flows if required
if epInfo.Dscp == 0 || epInfo.Dscp != endpoint.Dscp {
// remove old DSCP flows
dscpFlows, found := vl.dscpFlowDb[endpoint.PortNo]
if found {
for _, dflow := range dscpFlows {
err := dflow.Delete()
if err != nil {
log.Errorf("Error deleting dscp flow {%+v}. Err: %v", dflow, err)
return err
}
}
}
}
// change DSCP value
endpoint.Dscp = epInfo.Dscp
// Add new DSCP flows if required
if epInfo.Dscp != 0 && epInfo.Dscp != oldDscp {
dNATTbl := vl.ofSwitch.GetTable(SRV_PROXY_DNAT_TBL_ID)
// add new dscp flows
dscpV4Flow, dscpV6Flow, err := createDscpFlow(vl.agent, vl.vlanTable, dNATTbl, endpoint)
if err != nil {
log.Errorf("Error installing DSCP flows. Err: %v", err)
return err
}
// save it for tracking
vl.dscpFlowDb[endpoint.PortNo] = []*ofctrl.Flow{dscpV4Flow, dscpV6Flow}
}
return nil
}
// Add IPv6 flows
func (vl *Vlrouter) AddLocalIpv6Flow(endpoint OfnetEndpoint) error {
outPort, err := vl.ofSwitch.OutputPort(endpoint.PortNo)
if err != nil {
log.Errorf("Error creating output port %d. Err: %v", endpoint.PortNo, err)
return err
}
// Install the IPv6 address
ipv6Flow, err := vl.ipTable.NewFlow(ofctrl.FlowMatch{
Priority: FLOW_MATCH_PRIORITY,
Ethertype: 0x86DD,
Ipv6Da: &endpoint.Ipv6Addr,
})
if err != nil {
log.Errorf("Error creating IPv6 flow for endpoint: %+v. Err: %v", endpoint, err)
return err
}
destMacAddr, _ := net.ParseMAC(endpoint.MacAddrStr)
// Set Mac addresses
ipv6Flow.SetMacDa(destMacAddr)
ipv6Flow.SetMacSa(vl.anycastMac)
// Point the route at output port
err = ipv6Flow.Next(outPort)
if err != nil {
log.Errorf("Error installing IPv6 flow for endpoint: %+v. Err: %v", endpoint, err)
return err
}
// Store the flow
flowId := vl.agent.getEndpointIdByIpVlan(endpoint.Ipv6Addr, endpoint.Vlan)
vl.flowDb[flowId] = ipv6Flow
if !vl.agent.isInternalBgp(&endpoint) {
// Install dst group entry for IPv6 endpoint
err = vl.policyAgent.AddIpv6Endpoint(&endpoint)
if err != nil {
log.Errorf("Error adding IPv6 endpoint to policy agent{%+v}. Err: %v", endpoint, err)
return err
}
// Add IPv6 route in BGP
path := &OfnetProtoRouteInfo{
ProtocolType: "bgp",
localEpIP: endpoint.Ipv6Addr.String(),
nextHopIP: "",
}
if vl.agent.GetRouterInfo() != nil {
path.nextHopIP = vl.agent.GetRouterInfo().RouterIP
}
vl.agent.AddLocalProtoRoute([]*OfnetProtoRouteInfo{path})
}
return nil
}
// Remove the IPv6 flow
func (vl *Vlrouter) RemoveLocalIpv6Flow(endpoint OfnetEndpoint) error {
// Find the IPv6 flow entry
flowId := vl.agent.getEndpointIdByIpVlan(endpoint.Ipv6Addr, endpoint.Vlan)
ipv6Flow := vl.flowDb[flowId]
if ipv6Flow == nil {
log.Errorf("Error finding the flow for endpoint: %+v", endpoint)
return errors.New("Flow not found")
}
// Delete the Fgraph entry
err := ipv6Flow.Delete()
if err != nil {
log.Errorf("Error deleting IPv6 endpoint: %+v. Err: %v", endpoint, err)
}
// Remove the endpoint from policy tables
if !vl.agent.isInternalBgp(&endpoint) {
err = vl.policyAgent.DelIpv6Endpoint(&endpoint)
if err != nil {
log.Errorf("Error deleting IPv6 endpoint from policy agent{%+v}. Err: %v", endpoint, err)
return err
}
}
path := &OfnetProtoRouteInfo{
ProtocolType: "bgp",
localEpIP: endpoint.Ipv6Addr.String(),
nextHopIP: "",
}
if vl.agent.GetRouterInfo() != nil {
path.nextHopIP = vl.agent.GetRouterInfo().RouterIP
}
vl.agent.DeleteLocalProtoRoute([]*OfnetProtoRouteInfo{path})
return nil
}
// Add a vlan.
// This is mainly used for mapping vlan id to Vxlan VNI
func (vl *Vlrouter) AddVlan(vlanId uint16, vni uint32, vrf string) error {
log.Infof("Received Add Vlan for vlanid :%d,vni %d", vlanId, vni)
vrf = "default"
vl.agent.vlanVrfMutex.Lock()
vl.agent.vlanVrf[vlanId] = &vrf
vl.agent.vlanVrfMutex.Unlock()
vl.agent.createVrf(vrf)
return nil
}
// Remove a vlan
func (vl *Vlrouter) RemoveVlan(vlanId uint16, vni uint32, vrf string) error {
// FIXME: Add this for multiple VRF support
vl.agent.vlanVrfMutex.Lock()
delete(vl.agent.vlanVrf, vlanId)
vl.agent.vlanVrfMutex.Unlock()
vl.agent.deleteVrf(vrf)
return nil
}
/* AddEndpoint does the following :
1)Adds a remote endpoint and associated flows to OVS
2)The remotes routes can be 3 endpoint types :
a) internal - json rpc based learning from peer netplugins/ofnetagents in the cluster
b) external - remote endpoint learn via BGP
c) external-bgp - endpoint of BGP peer
*/
func (vl *Vlrouter) AddEndpoint(endpoint *OfnetEndpoint) error {
priority := uint16(FLOW_MATCH_PRIORITY)
log.Infof("Received AddEndpoint for endpoint: %+v", endpoint)
if endpoint.Vni != 0 {
return nil
}
flowId := vl.agent.getEndpointIdByIpVlan(endpoint.IpAddr, endpoint.Vlan)
//nexthopEp := vl.agent.getEndpointByIpVrf(net.ParseIP(vl.agent.GetNeighbor()), "default")
if vl.agent.isExternal(endpoint) {
endpoint.Vlan = 0
priority = EXTERNAL_FLOW_PRIORITY
flowId = flowId + "external"
} else {
//All Contiv endpoints will be stamped with originator host mac
if endpoint.OriginatorMac != "" {
endpoint.PortNo = vl.uplinkOfp
endpoint.MacAddrStr = endpoint.OriginatorMac
}
if endpoint.PortNo == 0 {
if !vl.agent.isExternalBgp(endpoint) {
//for the remote endpoints maintain a cache of
//routes that need to be resolved to next hop.
// bgp peer resolution happens via ARP and hence not
//maintained in cache.
log.Infof("Storing endpoint info in cache")
//vl.unresolvedEPs.Set(endpoint.EndpointID, endpoint.EndpointID)
return nil
}
}
}
if vl.agent.isExternalBgp(endpoint) {
endpoint.Vlan = 0
if endpoint.PortNo == 0 {
return nil
}
flowId = flowId + "external"
}
vrfid := vl.agent.getvrfId(endpoint.Vrf)
if *vrfid == 0 {
log.Errorf("Invalid vrf name:%v", endpoint.Vrf)
return errors.New("Invalid vrf name")
}
//set vrf id as METADATA
//metadata, metadataMask := Vrfmetadata(*vrfid)
outPort, err := vl.ofSwitch.OutputPort(endpoint.PortNo)
if err != nil {
log.Errorf("Error creating output port %d. Err: %v", endpoint.PortNo, err)
return err
}
// Install the IP address
ipFlow, err := vl.ipTable.NewFlow(ofctrl.FlowMatch{
Priority: priority,
Ethertype: 0x0800,
IpDa: &endpoint.IpAddr,
IpDaMask: &endpoint.IpMask,
})
if err != nil {
log.Errorf("Error creating flow for endpoint: %+v. Err: %v", endpoint, err)
return err
}
// Set Mac addresses
if endpoint.Vlan != 0 {
ipFlow.SetVlan(endpoint.Vlan)
}
DAMac, _ := net.ParseMAC(endpoint.MacAddrStr)
ipFlow.SetMacDa(DAMac)
ipFlow.SetMacSa(vl.myRouterMac)
// Point it to output port
err = ipFlow.Next(outPort)
if err != nil {
log.Errorf("Error installing flow for endpoint: %+v. Err: %v", endpoint, err)
return err
}
// Install dst group entry for the endpoint
if vl.agent.isInternal(endpoint) {
err = vl.policyAgent.AddEndpoint(endpoint)
if err != nil {
log.Errorf("Error adding endpoint to policy agent{%+v}. Err: %v", endpoint, err)
return err
}
}
// Store it in flow db
vl.flowDb[flowId] = ipFlow
if endpoint.Ipv6Addr != nil && endpoint.Ipv6Addr.String() != "" {
err = vl.AddRemoteIpv6Flow(endpoint)
if err != nil {
log.Errorf("Error adding IPv6 flow for remote endpoint {%+v}. Err: %v", endpoint, err)
return err
}
}
return nil
}
// RemoveEndpoint removes an endpoint from the datapath
func (vl *Vlrouter) RemoveEndpoint(endpoint *OfnetEndpoint) error {
log.Infof("Received Remove endpoint for endpoint: %+v", endpoint)
if endpoint.Vni != 0 {
return nil
}
flowId := endpoint.EndpointID
if vl.agent.isExternalBgp(endpoint) {
flowId = flowId + "external"
vl.myBgpPeer = ""
}
//Delete the endpoint if it is in the cache
//if _, ok := vl.unresolvedEPs.Get(endpoint.EndpointID); ok {
// vl.unresolvedEPs.Remove(endpoint.EndpointID)
// return nil
//}
// Find the flow entry
if vl.agent.isExternal(endpoint) {
//This scenrio occurs when bgp unsets the external endpointtype
if _, ok := vl.flowDb[flowId+"external"]; ok {
flowId = flowId + "external"
}
}
ipFlow := vl.flowDb[flowId]
if ipFlow == nil {
log.Errorf("Error finding the flow for endpoint: %+v", endpoint)
return errors.New("Flow not found")
}
// Delete the Fgraph entry
err := ipFlow.Delete()
if err != nil {
log.Errorf("Error deleting the endpoint: %+v. Err: %v", endpoint, err)
}
//Remove the endpoint from policy tables
if vl.agent.isInternal(endpoint) {
err = vl.policyAgent.DelEndpoint(endpoint)
if err != nil {
log.Errorf("Error deleting endpoint to policy agent{%+v}. Err: %v", endpoint, err)
return err
}
}
if endpoint.Ipv6Addr != nil && endpoint.Ipv6Addr.String() != "" {
err = vl.RemoveRemoteIpv6Flow(endpoint)
if err != nil {
log.Errorf("Error deleting IPv6 endpoint from policy agent{%+v}. Err: %v", endpoint, err)
return err
}
}
return nil
}
// Add IPv6 flow for the remote endpoint
func (vl *Vlrouter) AddRemoteIpv6Flow(endpoint *OfnetEndpoint) error {
ipv6EpId := vl.agent.getEndpointIdByIpVlan(endpoint.Ipv6Addr, endpoint.Vlan)
if vl.agent.isExternal(endpoint) { //nexthopEp != nil && nexthopEp.PortNo != 0 {
// endpoint.MacAddrStr = nexthopEp.MacAddrStr
// endpoint.PortNo = nexthopEp.PortNo
} else {
if endpoint.OriginatorMac != "" {
endpoint.PortNo = vl.uplinkOfp
endpoint.MacAddrStr = endpoint.OriginatorMac
} else {
endpoint.PortNo = 0
endpoint.MacAddrStr = " "
//for the remote endpoints maintain a cache of
//routes that need to be resolved to next hop.
// bgp peer resolution happens via ARP and hence not
//maintainer in cache.
log.Debugf("Storing endpoint info in cache")
//vl.unresolvedEPs.Set(ipv6EpId, ipv6EpId)
}
}
if vl.agent.isExternalBgp(endpoint) {
//vl.myBgpPeer = endpoint.IpAddr.String()
}
log.Infof("AddRemoteIpv6Flow for endpoint: %+v", endpoint)
vrfid := vl.agent.getvrfId(endpoint.Vrf)
if *vrfid == 0 {
log.Errorf("Invalid vrf name:%v", endpoint.Vrf)
return errors.New("Invalid vrf name")
}
//set vrf id as METADATA
//metadata, metadataMask := Vrfmetadata(*vrfid)
outPort, err := vl.ofSwitch.OutputPort(endpoint.PortNo)
if err != nil {
log.Errorf("Error creating output port %d. Err: %v", endpoint.PortNo, err)
return err
}
// Install the IP address
ipv6Flow, err := vl.ipTable.NewFlow(ofctrl.FlowMatch{
Priority: FLOW_MATCH_PRIORITY,
Ethertype: 0x86DD,
Ipv6Da: &endpoint.Ipv6Addr,
Ipv6DaMask: &endpoint.Ipv6Mask,
})
if err != nil {
log.Errorf("Error creating flow for endpoint: %+v. Err: %v", endpoint, err)
return err
}
// Set Mac addresses
DAMac, _ := net.ParseMAC(endpoint.MacAddrStr)
ipv6Flow.SetMacDa(DAMac)
ipv6Flow.SetMacSa(vl.myRouterMac)
// Point it to output port
err = ipv6Flow.Next(outPort)
if err != nil {
log.Errorf("Error installing flow for endpoint: %+v. Err: %v", endpoint, err)
return err
}
// Install dst group entry for the endpoint
if vl.agent.isInternal(endpoint) {
err = vl.policyAgent.AddIpv6Endpoint(endpoint)
if err != nil {
log.Errorf("Error adding IPv6 endpoint to policy agent{%+v}. Err: %v", endpoint, err)
return err
}
}
// Store it in flow db
vl.flowDb[ipv6EpId] = ipv6Flow
return nil
}
// Remove IPv6 flow for the remote endpoint
func (vl *Vlrouter) RemoveRemoteIpv6Flow(endpoint *OfnetEndpoint) error {
//Delete the endpoint if it is in the cache
ipv6EpId := vl.agent.getEndpointIdByIpVlan(endpoint.Ipv6Addr, endpoint.Vlan)
//vl.unresolvedEPs.Remove(ipv6EpId)
// Find the flow entry
ipv6Flow := vl.flowDb[ipv6EpId]
if ipv6Flow == nil {
log.Errorf("Error finding the flow for endpoint: %+v", endpoint)
return errors.New("Flow not found")
}
// Delete the Fgraph entry
err := ipv6Flow.Delete()
if err != nil {
log.Errorf("Error deleting the endpoint: %+v. Err: %v", endpoint, err)
}
//Remove the endpoint from policy tables
if vl.agent.isInternal(endpoint) {
err = vl.policyAgent.DelIpv6Endpoint(endpoint)
if err != nil {
log.Errorf("Error deleting IPv6 endpoint from policy agent{%+v}. Err: %v", endpoint, err)
return err
}
}
return nil
}
// initialize Fgraph on the switch
func (vl *Vlrouter) initFgraph() error {
sw := vl.ofSwitch
// Create all tables
vl.inputTable = sw.DefaultTable()
vl.vlanTable, _ = sw.NewTable(VLAN_TBL_ID)
vl.ipTable, _ = sw.NewTable(IP_TBL_ID)
// setup SNAT table
// Matches in SNAT table (i.e. incoming) go to IP look up
vl.svcProxy.InitSNATTable(IP_TBL_ID)
// Init policy tables
err := vl.policyAgent.InitTables(SRV_PROXY_SNAT_TBL_ID)
if err != nil {
log.Fatalf("Error installing policy table. Err: %v", err)
return err
}
// Matches in DNAT go to Policy
vl.svcProxy.InitDNATTable(DST_GRP_TBL_ID)
//Create all drop entries
// Drop mcast source mac
bcastMac, _ := net.ParseMAC("01:00:00:00:00:00")
bcastSrcFlow, _ := vl.inputTable.NewFlow(ofctrl.FlowMatch{
Priority: FLOW_MATCH_PRIORITY,
MacSa: &bcastMac,
MacSaMask: &bcastMac,
})
bcastSrcFlow.Next(sw.DropAction())
// redirect dns requests from containers (oui 02:02:xx) to controller
macSaMask := net.HardwareAddr{0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00}
macSa := net.HardwareAddr{0x02, 0x02, 0x00, 0x00, 0x00, 0x00}
dnsRedirectFlow, _ := vl.inputTable.NewFlow(ofctrl.FlowMatch{
Priority: DNS_FLOW_MATCH_PRIORITY,
MacSa: &macSa,
MacSaMask: &macSaMask,
Ethertype: protocol.IPv4_MSG,
IpProto: protocol.Type_UDP,
UdpDstPort: 53,
})
dnsRedirectFlow.Next(sw.SendToController())
// re-inject dns requests
dnsReinjectFlow, _ := vl.inputTable.NewFlow(ofctrl.FlowMatch{
Priority: DNS_FLOW_MATCH_PRIORITY + 1,
MacSa: &macSa,
MacSaMask: &macSaMask,
VlanId: nameServerInternalVlanId,
Ethertype: protocol.IPv4_MSG,
IpProto: protocol.Type_UDP,
UdpDstPort: 53,
})
dnsReinjectFlow.PopVlan()
dnsReinjectFlow.Next(vl.vlanTable)
// Redirect ARP packets to controller
arpFlow, _ := vl.inputTable.NewFlow(ofctrl.FlowMatch{
Priority: FLOW_MATCH_PRIORITY,
Ethertype: 0x0806,
})
arpFlow.Next(sw.SendToController())
//All ARP replies will need IP table lookup
Mac, _ := net.ParseMAC("00:00:11:11:11:11")
arpFlow, _ = vl.inputTable.NewFlow(ofctrl.FlowMatch{
Priority: 300,
Ethertype: 0x0806,
MacSa: &Mac,
})
arpFlow.Next(vl.ipTable)
// Send all valid packets to vlan table
// This is installed at lower priority so that all packets that miss above
// flows will match entry
validPktFlow, _ := vl.inputTable.NewFlow(ofctrl.FlowMatch{
Priority: FLOW_MISS_PRIORITY,
})
validPktFlow.Next(vl.vlanTable)
// Drop all packets that miss Vlan lookup
vlanMissFlow, _ := vl.vlanTable.NewFlow(ofctrl.FlowMatch{
Priority: FLOW_MISS_PRIORITY,
})
vlanMissFlow.Next(sw.DropAction())
// Drop all packets that miss IP lookup
ipMissFlow, _ := vl.ipTable.NewFlow(ofctrl.FlowMatch{
Priority: FLOW_MISS_PRIORITY,
})
ipMissFlow.Next(sw.DropAction())
return nil
}
/*processArp does the following :
1) Process incoming ARP packets
2) Proxy with Router mac if arp request is from local internal endpoint
3) Proxy with interface mac is arp request is from remote endpoint
4) Learn MAC,Port of the source if its not learnt and it is bgp peer endpoint
*/
func (vl *Vlrouter) processArp(pkt protocol.Ethernet, inPort uint32) {
log.Infof("processing ARP packet on port %d", inPort)
switch t := pkt.Data.(type) {
case *protocol.ARP:
log.Infof("ARP packet: %+v", *t)
var arpHdr protocol.ARP = *t
var srcMac net.HardwareAddr
var intf *net.Interface
var err error
vl.agent.incrStats("ArpPktRcvd")
switch arpHdr.Operation {
case protocol.Type_Request:
vl.agent.incrStats("ArpReqRcvd")
// Lookup the Dest IP in the endpoint table
endpoint := vl.agent.getEndpointByIpVrf(arpHdr.IPDst, "default")
if endpoint == nil {
// Look for a service entry for the target IP
proxyMac := vl.svcProxy.GetSvcProxyMAC(arpHdr.IPDst)
if proxyMac == "" {
// If we dont know the IP address, dont send an ARP response
log.Debugf("Received ARP request for unknown IP: %v", arpHdr.IPDst)
vl.agent.incrStats("ArpReqUnknownDest")
return
}
srcMac, _ = net.ParseMAC(proxyMac)
} else {