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util.go
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util.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
import (
"errors"
"fmt"
"hash/fnv"
"math/rand"
"net"
"strconv"
"strings"
"github.com/contiv/libOpenflow/openflow13"
"github.com/contiv/libOpenflow/protocol"
"github.com/contiv/ofnet/ofctrl"
"github.com/vishvananda/netlink"
log "github.com/Sirupsen/logrus"
)
// ParseCIDR parses a CIDR string into a gateway IP and length.
func ParseCIDR(cidrStr string) (string, uint, error) {
strs := strings.Split(cidrStr, "/")
if len(strs) != 2 {
return "", 0, errors.New("invalid cidr format")
}
subnetStr := strs[0]
subnetLen, err := strconv.Atoi(strs[1])
if subnetLen > 32 || err != nil {
return "", 0, errors.New("invalid mask in gateway/mask specification ")
}
return subnetStr, uint(subnetLen), nil
}
// ParseIPAddrMaskString Parse IP addr string
func ParseIPAddrMaskString(ipAddr string) (*net.IP, *net.IP, error) {
if strings.Contains(ipAddr, "/") {
ipDav, ipNet, err := net.ParseCIDR(ipAddr)
if err != nil {
log.Errorf("Error parsing ip %s. Err: %v", ipAddr, err)
return nil, nil, err
}
ipMask := net.ParseIP("255.255.255.255").Mask(ipNet.Mask)
return &ipDav, &ipMask, nil
}
ipDav := net.ParseIP(ipAddr)
if ipDav == nil {
log.Errorf("Error parsing ip %s.", ipAddr)
return nil, nil, errors.New("Error parsing ip address")
}
ipMask := net.ParseIP("255.255.255.255")
return &ipDav, &ipMask, nil
}
// BuildGarpPkt builds a Gratuitous ARP packet
func BuildGarpPkt(ip net.IP, mac net.HardwareAddr, vlanID uint16) *openflow13.PacketOut {
zMac, _ := net.ParseMAC("00:00:00:00:00:00")
bMac, _ := net.ParseMAC("FF:FF:FF:FF:FF:FF")
garpPkt, _ := protocol.NewARP(protocol.Type_Request)
garpPkt.HWSrc = mac
garpPkt.IPSrc = ip
garpPkt.HWDst = zMac
garpPkt.IPDst = ip
// Build the ethernet packet
ethPkt := protocol.NewEthernet()
ethPkt.VLANID.VID = vlanID
ethPkt.HWDst = bMac
ethPkt.HWSrc = mac
ethPkt.Ethertype = 0x0806
ethPkt.Data = garpPkt
// Construct Packet out
pktOut := openflow13.NewPacketOut()
pktOut.Data = ethPkt
return pktOut
}
func ipChecksum(data []byte) uint16 {
csum := uint32(0)
length := len(data) - 1
for i := 0; i < length; i += 2 {
csum += uint32(data[i]) << 8
csum += uint32(data[i+1])
}
if len(data)%2 == 1 {
csum += uint32(data[length]) << 8
}
for csum > 0xffff {
csum = (csum >> 16) + (csum & 0xffff)
}
return ^uint16(csum)
}
func buildDnsForwardPkt(ethInPkt *protocol.Ethernet) *protocol.Ethernet {
ipPkt := ethInPkt.Data.(*protocol.IPv4)
ethPkt := protocol.NewEthernet()
ethPkt.HWSrc = ethInPkt.HWSrc
ethPkt.HWDst = ethInPkt.HWDst
ethPkt.VLANID.VID = nameServerInternalVlanId
ethPkt.Ethertype = ethInPkt.Ethertype
ethPkt.Data = ipPkt
return ethPkt
}
func buildUDPRespPkt(inEth *protocol.Ethernet, uData []byte) (*protocol.Ethernet, error) {
inIp := inEth.Data.(*protocol.IPv4)
inUdp := inIp.Data.(*protocol.UDP)
outUdp := protocol.NewUDP()
outUdp.PortDst = inUdp.PortSrc
outUdp.PortSrc = inUdp.PortDst
outUdp.Length = uint16(8 + len(uData))
outUdp.Data = append(outUdp.Data, uData...)
outIp := protocol.NewIPv4()
outIp.Version = inIp.Version
outIp.IHL = 5
outIp.DSCP = inIp.DSCP
outIp.ECN = inIp.ECN
outIp.Length = uint16(20 + outUdp.Len())
outIp.Id = inIp.Id
outIp.Flags = inIp.Flags
outIp.FragmentOffset = inIp.FragmentOffset
outIp.TTL = 64
outIp.Protocol = protocol.Type_UDP
outIp.NWSrc = inIp.NWDst
outIp.NWDst = inIp.NWSrc
if d, e := outIp.MarshalBinary(); e != nil {
return nil, e
} else {
outIp.Checksum = ipChecksum(d)
}
outIp.Data = outUdp
outEth := protocol.NewEthernet()
outEth.VLANID.VID = inEth.VLANID.VID
outEth.HWDst = inEth.HWSrc
outEth.HWSrc = inEth.HWDst
outEth.Ethertype = inEth.Ethertype
outEth.Data = outIp
return outEth, nil
}
// createPortVlanFlow creates port vlan flow based on endpoint metadata
func createPortVlanFlow(agent *OfnetAgent, vlanTable, nextTable *ofctrl.Table, endpoint *OfnetEndpoint) (*ofctrl.Flow, error) {
// Install a flow entry for vlan mapping
portVlanFlow, err := vlanTable.NewFlow(ofctrl.FlowMatch{
Priority: FLOW_FLOOD_PRIORITY,
InputPort: endpoint.PortNo,
})
if err != nil {
log.Errorf("Error creating portvlan entry. Err: %v", err)
return nil, err
}
//set vrf id as METADATA
vrfid := agent.getvrfId(endpoint.Vrf)
metadata, metadataMask := Vrfmetadata(*vrfid)
// set source EPG id if required
if endpoint.EndpointGroup != 0 {
srcMetadata, srcMetadataMask := SrcGroupMetadata(endpoint.EndpointGroup)
metadata = metadata | srcMetadata
metadataMask = metadataMask | srcMetadataMask
}
// set vlan if required
if agent.dpName == "vxlan" {
portVlanFlow.SetVlan(endpoint.Vlan)
}
// set metedata
portVlanFlow.SetMetadata(metadata, metadataMask)
// Point it to next table
err = portVlanFlow.Next(nextTable)
if err != nil {
log.Errorf("Error installing portvlan entry. Err: %v", err)
return nil, err
}
return portVlanFlow, nil
}
// createDscpFlow creates DSCP v4/v6 flows
func createDscpFlow(agent *OfnetAgent, vlanTable, nextTable *ofctrl.Table, endpoint *OfnetEndpoint) (*ofctrl.Flow, *ofctrl.Flow, error) {
// if endpoint has no DSCP value, we are done..
if endpoint.Dscp == 0 {
return nil, nil, nil
}
// Install a flow entry for DSCP v4
dscpV4Flow, err := vlanTable.NewFlow(ofctrl.FlowMatch{
Priority: FLOW_MATCH_PRIORITY,
InputPort: endpoint.PortNo,
Ethertype: 0x0800,
})
if err != nil {
log.Errorf("Error creating DSCP v4 entry. Err: %v", err)
return nil, nil, err
}
// Install a flow entry for DSCP v6
dscpV6Flow, err := vlanTable.NewFlow(ofctrl.FlowMatch{
Priority: FLOW_MATCH_PRIORITY,
InputPort: endpoint.PortNo,
Ethertype: 0x86DD,
})
if err != nil {
log.Errorf("Error creating DSCP v6 entry. Err: %v", err)
return nil, nil, err
}
//set vrf id as METADATA
vrfid := agent.getvrfId(endpoint.Vrf)
metadata, metadataMask := Vrfmetadata(*vrfid)
// set source EPG id if required
if endpoint.EndpointGroup != 0 {
srcMetadata, srcMetadataMask := SrcGroupMetadata(endpoint.EndpointGroup)
metadata = metadata | srcMetadata
metadataMask = metadataMask | srcMetadataMask
}
// set vlan if required
if agent.dpName == "vxlan" {
dscpV4Flow.SetVlan(endpoint.Vlan)
dscpV6Flow.SetVlan(endpoint.Vlan)
}
// set dscp and metadata on the flow
dscpV4Flow.SetDscp(uint8(endpoint.Dscp))
dscpV6Flow.SetDscp(uint8(endpoint.Dscp))
dscpV4Flow.SetMetadata(metadata, metadataMask)
dscpV6Flow.SetMetadata(metadata, metadataMask)
// Point it to next table
err = dscpV4Flow.Next(nextTable)
if err != nil {
log.Errorf("Error installing dscp v4 entry. Err: %v", err)
return nil, nil, err
}
err = dscpV6Flow.Next(nextTable)
if err != nil {
log.Errorf("Error installing dscp v6 entry. Err: %v", err)
return nil, nil, err
}
return dscpV4Flow, dscpV6Flow, nil
}
// getActiveLink returns an active member link
func (port *PortInfo) getActiveLink(hashParams ...string) *LinkInfo {
if len(port.ActiveLinks) == 0 {
return nil
}
if len(hashParams) == 0 {
// If no hash parameters are specified, pick a random link
return port.ActiveLinks[rand.Intn(len(port.ActiveLinks))]
} else {
// Pick an active link based on the hash parameters specified
var hashBytes []byte
h := fnv.New32a()
for _, param := range hashParams {
hashBytes = append(hashBytes, []byte(param)...)
}
h.Write(hashBytes)
return port.ActiveLinks[h.Sum32()%uint32(len(port.ActiveLinks))]
}
}
func (port *PortInfo) checkLinkStatus() error {
port.LinkStatus = linkDown
for _, link := range port.MbrLinks {
linkInfo, err := netlink.LinkByName(link.Name)
if err != nil {
err := fmt.Errorf("Error getting link information for %+v", link)
log.Errorf("%+v", err)
return err
}
if linkInfo.Attrs().Flags&net.FlagUp != 0 {
link.setLinkStatus(linkUp)
port.LinkStatus = linkUp
} else {
link.setLinkStatus(linkDown)
}
}
return nil
}
// handleLacpUpdate
func (link *LinkInfo) handleLacpUpdate(lacpActive bool) {
log.Infof("Handling LACP update for link: %s, Lacp status: %+v", link.Name, lacpActive)
port := link.Port
if !lacpActive {
for idx, activeLink := range port.ActiveLinks {
if link == activeLink {
if idx == (len(port.ActiveLinks) - 1) {
port.ActiveLinks = port.ActiveLinks[:idx]
} else {
port.ActiveLinks = append(port.ActiveLinks[:idx], port.ActiveLinks[idx+1:]...)
}
break
}
}
} else {
for _, activeLink := range port.ActiveLinks {
if link == activeLink {
// Link already part of port
return
}
}
port.ActiveLinks = append(port.ActiveLinks, link)
}
}
// setLinkStatus sets interface link status and updates active links of the port
func (link *LinkInfo) setLinkStatus(status linkStatus) {
if link.LinkStatus == status {
// Duplicate link notification. Nothing to do
return
}
link.LinkStatus = status
port := link.Port
if status == linkUp {
linkExists := false
for _, activeLink := range port.ActiveLinks {
if link == activeLink {
linkExists = true
break
}
}
if !linkExists {
port.ActiveLinks = append(port.ActiveLinks, link)
}
port.LinkStatus = linkUp
log.Debugf("Added %+v to port's active links: %+v", link, port)
} else {
for idx, activeLink := range port.ActiveLinks {
if link == activeLink {
if idx == (len(port.ActiveLinks) - 1) {
port.ActiveLinks = port.ActiveLinks[:idx]
} else {
port.ActiveLinks = append(port.ActiveLinks[:idx], port.ActiveLinks[idx+1:]...)
}
if len(port.ActiveLinks) == 0 {
port.LinkStatus = linkDown
}
log.Debugf("Removed %+v from active links in port: %+v", link, port)
return
}
}
}
}