Example #1
0
// Install all flow actions
func (self *Flow) installFlowActions(flowMod *openflow13.FlowMod,
	instr openflow13.Instruction) error {
	var actInstr openflow13.Instruction
	var addActn bool = false

	// Create a apply_action instruction to be used if its not already created
	switch instr.(type) {
	case *openflow13.InstrActions:
		actInstr = instr
	default:
		actInstr = openflow13.NewInstrApplyActions()
	}

	// Loop thru all actions
	for _, flowAction := range self.flowActions {
		switch flowAction.actionType {
		case "setVlan":
			// Push Vlan Tag action
			pushVlanAction := openflow13.NewActionPushVlan(0x8100)

			// Set Outer vlan tag field
			vlanField := openflow13.NewVlanIdField(flowAction.vlanId, nil)
			setVlanAction := openflow13.NewActionSetField(*vlanField)

			// Prepend push vlan & setvlan actions to existing instruction
			actInstr.AddAction(setVlanAction, true)
			actInstr.AddAction(pushVlanAction, true)
			addActn = true

			log.Debugf("flow install. Added pushvlan action: %+v, setVlan actions: %+v",
				pushVlanAction, setVlanAction)

		case "popVlan":
			// Create pop vln action
			popVlan := openflow13.NewActionPopVlan()

			// Add it to instruction
			actInstr.AddAction(popVlan, true)
			addActn = true

			log.Debugf("flow install. Added popVlan action: %+v", popVlan)

		case "setMacDa":
			// Set Outer MacDA field
			macDaField := openflow13.NewEthDstField(flowAction.macAddr, nil)
			setMacDaAction := openflow13.NewActionSetField(*macDaField)

			// Add set macDa action to the instruction
			actInstr.AddAction(setMacDaAction, true)
			addActn = true

			log.Debugf("flow install. Added setMacDa action: %+v", setMacDaAction)

		case "setMacSa":
			// Set Outer MacSA field
			macSaField := openflow13.NewEthSrcField(flowAction.macAddr, nil)
			setMacSaAction := openflow13.NewActionSetField(*macSaField)

			// Add set macDa action to the instruction
			actInstr.AddAction(setMacSaAction, true)
			addActn = true

			log.Debugf("flow install. Added setMacSa Action: %+v", setMacSaAction)

		case "setTunnelId":
			// Set tunnelId field
			tunnelIdField := openflow13.NewTunnelIdField(flowAction.tunnelId)
			setTunnelAction := openflow13.NewActionSetField(*tunnelIdField)

			// Add set tunnel action to the instruction
			actInstr.AddAction(setTunnelAction, true)
			addActn = true

			log.Debugf("flow install. Added setTunnelId Action: %+v", setTunnelAction)

		case "setMetadata":
			// Set Metadata instruction
			metadataInstr := openflow13.NewInstrWriteMetadata(flowAction.metadata, flowAction.metadataMask)

			// Add the instruction to flowmod
			flowMod.AddInstruction(metadataInstr)

		case "setIPSa":
			// Set IP src
			ipSaField := openflow13.NewIpv4SrcField(flowAction.ipAddr, nil)
			setIPSaAction := openflow13.NewActionSetField(*ipSaField)

			// Add set action to the instruction
			actInstr.AddAction(setIPSaAction, true)
			addActn = true

			log.Debugf("flow install. Added setIPSa Action: %+v", setIPSaAction)

		case "setIPDa":
			// Set IP dst
			ipDaField := openflow13.NewIpv4DstField(flowAction.ipAddr, nil)
			setIPDaAction := openflow13.NewActionSetField(*ipDaField)

			// Add set action to the instruction
			actInstr.AddAction(setIPDaAction, true)
			addActn = true

			log.Debugf("flow install. Added setIPDa Action: %+v", setIPDaAction)

		case "setDscp":
			// Set DSCP field
			ipDscpField := openflow13.NewIpDscpField(flowAction.dscp)
			setIPDscpAction := openflow13.NewActionSetField(*ipDscpField)

			// Add set action to the instruction
			actInstr.AddAction(setIPDscpAction, true)
			addActn = true

			log.Debugf("flow install. Added setDscp Action: %+v", setIPDscpAction)

		case "setTCPSrc":
			// Set TCP src
			tcpSrcField := openflow13.NewTcpSrcField(flowAction.l4Port)
			setTCPSrcAction := openflow13.NewActionSetField(*tcpSrcField)

			// Add set action to the instruction
			actInstr.AddAction(setTCPSrcAction, true)
			addActn = true

			log.Debugf("flow install. Added setTCPSrc Action: %+v", setTCPSrcAction)

		case "setTCPDst":
			// Set TCP dst
			tcpDstField := openflow13.NewTcpDstField(flowAction.l4Port)
			setTCPDstAction := openflow13.NewActionSetField(*tcpDstField)

			// Add set action to the instruction
			actInstr.AddAction(setTCPDstAction, true)
			addActn = true

			log.Debugf("flow install. Added setTCPDst Action: %+v", setTCPDstAction)

		case "setUDPSrc":
			// Set UDP src
			udpSrcField := openflow13.NewUdpSrcField(flowAction.l4Port)
			setUDPSrcAction := openflow13.NewActionSetField(*udpSrcField)

			// Add set action to the instruction
			actInstr.AddAction(setUDPSrcAction, true)
			addActn = true

			log.Debugf("flow install. Added setUDPSrc Action: %+v", setUDPSrcAction)

		case "setUDPDst":
			// Set UDP dst
			udpDstField := openflow13.NewUdpDstField(flowAction.l4Port)
			setUDPDstAction := openflow13.NewActionSetField(*udpDstField)

			// Add set action to the instruction
			actInstr.AddAction(setUDPDstAction, true)
			addActn = true

			log.Debugf("flow install. Added setUDPDst Action: %+v", setUDPDstAction)

		default:
			log.Fatalf("Unknown action type %s", flowAction.actionType)
		}
	}

	// Add the instruction to flow if its not already added
	if (addActn) && (actInstr != instr) {
		// Add the instrction to flowmod
		flowMod.AddInstruction(actInstr)
	}

	return nil
}
Example #2
0
// Translate our match fields into openflow 1.3 match fields
func (self *Flow) xlateMatch() openflow13.Match {
	ofMatch := openflow13.NewMatch()

	// Handle input poty
	if self.Match.InputPort != 0 {
		inportField := openflow13.NewInPortField(self.Match.InputPort)
		ofMatch.AddField(*inportField)
	}

	// Handle mac DA field
	if self.Match.MacDa != nil {
		if self.Match.MacDaMask != nil {
			macDaField := openflow13.NewEthDstField(*self.Match.MacDa, self.Match.MacDaMask)
			ofMatch.AddField(*macDaField)
		} else {
			macDaField := openflow13.NewEthDstField(*self.Match.MacDa, nil)
			ofMatch.AddField(*macDaField)
		}
	}

	// Handle MacSa field
	if self.Match.MacSa != nil {
		if self.Match.MacSaMask != nil {
			macSaField := openflow13.NewEthSrcField(*self.Match.MacSa, self.Match.MacSaMask)
			ofMatch.AddField(*macSaField)
		} else {
			macSaField := openflow13.NewEthSrcField(*self.Match.MacSa, nil)
			ofMatch.AddField(*macSaField)
		}
	}

	// Handle ethertype
	if self.Match.Ethertype != 0 {
		etypeField := openflow13.NewEthTypeField(self.Match.Ethertype)
		ofMatch.AddField(*etypeField)
	}

	// Handle Vlan id
	if self.Match.VlanId != 0 {
		vidField := openflow13.NewVlanIdField(self.Match.VlanId)
		ofMatch.AddField(*vidField)
	}

	// Handle IP Dst
	if self.Match.IpDa != nil {
		if self.Match.IpDaMask != nil {
			ipDaField := openflow13.NewIpv4DstField(*self.Match.IpDa, self.Match.IpDaMask)
			ofMatch.AddField(*ipDaField)
		} else {
			ipDaField := openflow13.NewIpv4DstField(*self.Match.IpDa, nil)
			ofMatch.AddField(*ipDaField)
		}
	}

	// Handle IP Src
	if self.Match.IpSa != nil {
		if self.Match.IpSaMask != nil {
			ipSaField := openflow13.NewIpv4SrcField(*self.Match.IpSa, self.Match.IpSaMask)
			ofMatch.AddField(*ipSaField)
		} else {
			ipSaField := openflow13.NewIpv4SrcField(*self.Match.IpSa, nil)
			ofMatch.AddField(*ipSaField)
		}
	}

	// Handle IP protocol
	if self.Match.IpProto != 0 {
		protoField := openflow13.NewIpProtoField(self.Match.IpProto)
		ofMatch.AddField(*protoField)
	}

	// Handle port numbers
	if self.Match.IpProto == IP_PROTO_TCP && self.Match.TcpSrcPort != 0 {
		portField := openflow13.NewTcpSrcField(self.Match.TcpSrcPort)
		ofMatch.AddField(*portField)
	}
	if self.Match.IpProto == IP_PROTO_TCP && self.Match.TcpDstPort != 0 {
		portField := openflow13.NewTcpDstField(self.Match.TcpDstPort)
		ofMatch.AddField(*portField)
	}
	if self.Match.IpProto == IP_PROTO_UDP && self.Match.UdpSrcPort != 0 {
		portField := openflow13.NewUdpSrcField(self.Match.UdpSrcPort)
		ofMatch.AddField(*portField)
	}
	if self.Match.IpProto == IP_PROTO_UDP && self.Match.UdpDstPort != 0 {
		portField := openflow13.NewUdpDstField(self.Match.UdpDstPort)
		ofMatch.AddField(*portField)
	}

	// Handle metadata
	if self.Match.Metadata != nil {
		if self.Match.MetadataMask != nil {
			metadataField := openflow13.NewMetadataField(*self.Match.Metadata, self.Match.MetadataMask)
			ofMatch.AddField(*metadataField)
		} else {
			metadataField := openflow13.NewMetadataField(*self.Match.Metadata, nil)
			ofMatch.AddField(*metadataField)
		}
	}

	// Handle Vxlan tunnel id
	if self.Match.TunnelId != 0 {
		tunnelIdField := openflow13.NewTunnelIdField(self.Match.TunnelId)
		ofMatch.AddField(*tunnelIdField)
	}

	return *ofMatch
}
Example #3
0
// Translate our match fields into openflow 1.3 match fields
func (self *Flow) xlateMatch() openflow13.Match {
	ofMatch := openflow13.NewMatch()

	// Handle input poty
	if self.Match.InputPort != 0 {
		inportField := openflow13.NewInPortField(self.Match.InputPort)
		ofMatch.AddField(*inportField)
	}

	// Handle mac DA field
	if self.Match.MacDa != nil {
		if self.Match.MacDaMask != nil {
			macDaField := openflow13.NewEthDstField(*self.Match.MacDa, self.Match.MacDaMask)
			ofMatch.AddField(*macDaField)
		} else {
			macDaField := openflow13.NewEthDstField(*self.Match.MacDa, nil)
			ofMatch.AddField(*macDaField)
		}
	}

	// Handle MacSa field
	if self.Match.MacSa != nil {
		if self.Match.MacSaMask != nil {
			macSaField := openflow13.NewEthSrcField(*self.Match.MacSa, self.Match.MacSaMask)
			ofMatch.AddField(*macSaField)
		} else {
			macSaField := openflow13.NewEthSrcField(*self.Match.MacSa, nil)
			ofMatch.AddField(*macSaField)
		}
	}

	// Handle ethertype
	if self.Match.Ethertype != 0 {
		etypeField := openflow13.NewEthTypeField(self.Match.Ethertype)
		ofMatch.AddField(*etypeField)
	}

	// Handle Vlan id
	if self.Match.VlanId != 0 {
		if self.Match.VlanIdMask != nil {
			vidField := openflow13.NewVlanIdField(self.Match.VlanId, self.Match.VlanIdMask)
			ofMatch.AddField(*vidField)
		} else {
			vidField := openflow13.NewVlanIdField(self.Match.VlanId, nil)
			ofMatch.AddField(*vidField)
		}
	}

	// Handle MPLS Label -SRTE
	if self.Match.MplsLabel != 0 {
		mplsLabelField := openflow13.NewMplsLabelField(self.Match.MplsLabel)
		ofMatch.AddField(*mplsLabelField)
	}

	// Handle MPLS Bos -SRTE
	if self.Match.MplsBos != 0 {
		mplsBosField := openflow13.NewMplsBosField(self.Match.MplsBos)
		ofMatch.AddField(*mplsBosField)
	}

	// Handle ARP Oper type
	if self.Match.ArpOper != 0 {
		arpOperField := openflow13.NewArpOperField(self.Match.ArpOper)
		ofMatch.AddField(*arpOperField)
	}

	// Handle IP Dst
	if self.Match.IpDa != nil {
		if self.Match.IpDaMask != nil {
			ipDaField := openflow13.NewIpv4DstField(*self.Match.IpDa, self.Match.IpDaMask)
			ofMatch.AddField(*ipDaField)
		} else {
			ipDaField := openflow13.NewIpv4DstField(*self.Match.IpDa, nil)
			ofMatch.AddField(*ipDaField)
		}
	}

	// Handle IP Src
	if self.Match.IpSa != nil {
		if self.Match.IpSaMask != nil {
			ipSaField := openflow13.NewIpv4SrcField(*self.Match.IpSa, self.Match.IpSaMask)
			ofMatch.AddField(*ipSaField)
		} else {
			ipSaField := openflow13.NewIpv4SrcField(*self.Match.IpSa, nil)
			ofMatch.AddField(*ipSaField)
		}
	}

	// Handle IPv6 Dst
	if self.Match.Ipv6Da != nil {
		if self.Match.Ipv6DaMask != nil {
			ipv6DaField := openflow13.NewIpv6DstField(*self.Match.Ipv6Da, self.Match.Ipv6DaMask)
			ofMatch.AddField(*ipv6DaField)
		} else {
			ipv6DaField := openflow13.NewIpv6DstField(*self.Match.Ipv6Da, nil)
			ofMatch.AddField(*ipv6DaField)
		}
	}

	// Handle IPv6 Src
	if self.Match.Ipv6Sa != nil {
		if self.Match.Ipv6SaMask != nil {
			ipv6SaField := openflow13.NewIpv6SrcField(*self.Match.Ipv6Sa, self.Match.Ipv6SaMask)
			ofMatch.AddField(*ipv6SaField)
		} else {
			ipv6SaField := openflow13.NewIpv6SrcField(*self.Match.Ipv6Sa, nil)
			ofMatch.AddField(*ipv6SaField)
		}
	}

	// Handle IP protocol
	if self.Match.IpProto != 0 {
		protoField := openflow13.NewIpProtoField(self.Match.IpProto)
		ofMatch.AddField(*protoField)
	}

	// Handle port numbers
	if self.Match.IpProto == IP_PROTO_TCP && self.Match.TcpSrcPort != 0 {
		portField := openflow13.NewTcpSrcField(self.Match.TcpSrcPort)
		ofMatch.AddField(*portField)
	}
	if self.Match.IpProto == IP_PROTO_TCP && self.Match.TcpDstPort != 0 {
		portField := openflow13.NewTcpDstField(self.Match.TcpDstPort)
		ofMatch.AddField(*portField)
	}
	if self.Match.IpProto == IP_PROTO_UDP && self.Match.UdpSrcPort != 0 {
		portField := openflow13.NewUdpSrcField(self.Match.UdpSrcPort)
		ofMatch.AddField(*portField)
	}
	if self.Match.IpProto == IP_PROTO_UDP && self.Match.UdpDstPort != 0 {
		portField := openflow13.NewUdpDstField(self.Match.UdpDstPort)
		ofMatch.AddField(*portField)
	}

	// Handle tcp flags
	if self.Match.IpProto == IP_PROTO_TCP && self.Match.TcpFlags != nil {
		tcpFlagField := openflow13.NewTcpFlagsField(*self.Match.TcpFlags, self.Match.TcpFlagsMask)
		ofMatch.AddField(*tcpFlagField)
	}

	// Handle metadata
	if self.Match.Metadata != nil {
		if self.Match.MetadataMask != nil {
			metadataField := openflow13.NewMetadataField(*self.Match.Metadata, self.Match.MetadataMask)
			ofMatch.AddField(*metadataField)
		} else {
			metadataField := openflow13.NewMetadataField(*self.Match.Metadata, nil)
			ofMatch.AddField(*metadataField)
		}
	}

	// Handle Vxlan tunnel id
	if self.Match.TunnelId != 0 {
		tunnelIdField := openflow13.NewTunnelIdField(self.Match.TunnelId)
		ofMatch.AddField(*tunnelIdField)
	}

	return *ofMatch
}