func (fastdp *FastDatapath) getVxlanVportID(udpPort int) (odp.VportID, error) {
fastdp.lock.Lock()
defer fastdp.lock.Unlock()
if vxlanVportID, present := fastdp.vxlanVportIDs[udpPort]; present {
return vxlanVportID, nil
}
vxlanVportID, err := fastdp.dp.CreateVport(
odp.NewVxlanVportSpec(fmt.Sprintf("vxlan-%d", udpPort), uint16(udpPort)))
if err != nil {
return 0, err
}
fastdp.vxlanVportIDs[udpPort] = vxlanVportID
fastdp.missHandlers[vxlanVportID] = func(fks odp.FlowKeys, lock *fastDatapathLock) FlowOp {
tunnel := fks[odp.OVS_KEY_ATTR_TUNNEL].(odp.TunnelFlowKey)
tunKey := tunnel.Key()
lock.relock()
consumer := fastdp.overlayConsumer
if consumer == nil {
return vetoFlowCreationFlowOp{}
}
srcPeer, dstPeer := fastdp.extractPeers(tunKey.TunnelId)
if srcPeer == nil || dstPeer == nil {
return vetoFlowCreationFlowOp{}
}
lock.unlock()
pk := flowKeysToPacketKey(fks)
var zeroMAC MAC
if pk.SrcMAC == zeroMAC && pk.DstMAC == zeroMAC {
return vxlanSpecialPacketFlowOp{
fastdp: fastdp,
srcPeer: srcPeer,
sender: &net.UDPAddr{
IP: net.IP(tunKey.Ipv4Src[:]),
Port: udpPort,
},
}
}
key := ForwardPacketKey{
SrcPeer: srcPeer,
DstPeer: dstPeer,
PacketKey: pk,
}
var tunnelFlowKey odp.TunnelFlowKey
tunnelFlowKey.SetTunnelId(tunKey.TunnelId)
tunnelFlowKey.SetIpv4Src(tunKey.Ipv4Src)
tunnelFlowKey.SetIpv4Dst(tunKey.Ipv4Dst)
return NewMultiFlowOp(false, odpFlowKey(tunnelFlowKey), consumer(key))
}
return vxlanVportID, nil
}
func printSetTunnelOptions(a odp.SetTunnelAction) {
var fk odp.TunnelFlowKey
if a.Present.TunnelId {
fk.SetTunnelId(a.TunnelId)
}
if a.Present.Ipv4Src {
fk.SetIpv4Src(a.Ipv4Src)
}
if a.Present.Ipv4Dst {
fk.SetIpv4Dst(a.Ipv4Dst)
}
if a.Present.Tos {
fk.SetTos(a.Tos)
}
if a.Present.Ttl {
fk.SetTtl(a.Ttl)
}
if a.Present.Df {
fk.SetDf(a.Df)
}
if a.Present.Csum {
fk.SetCsum(a.Csum)
}
if a.Present.TpSrc {
fk.SetTpSrc(a.TpSrc)
}
if a.Present.TpDst {
fk.SetTpDst(a.TpDst)
}
printTunnelOptions(fk, "set-tunnel-")
}
func parseTunnelFlags(tf *tunnelFlags) (odp.TunnelFlowKey, error) {
var fk odp.TunnelFlowKey
if tf.id != "" {
tunnelId, err := parseTunnelId(tf.id)
if err != nil {
return fk, err
}
fk.SetTunnelId(tunnelId)
}
if tf.ipv4Src != "" {
addr, err := parseIpv4(tf.ipv4Src)
if err != nil {
return fk, err
}
fk.SetIpv4Src(addr)
}
if tf.ipv4Dst != "" {
addr, err := parseIpv4(tf.ipv4Dst)
if err != nil {
return fk, err
}
fk.SetIpv4Dst(addr)
}
if tf.tos >= 0 {
fk.SetTos(uint8(tf.tos))
}
if tf.ttl >= 0 {
fk.SetTtl(uint8(tf.ttl))
}
if tf.df != "" {
df, err := parseBool(tf.df)
if err != nil {
return fk, err
}
fk.SetDf(df)
}
if tf.csum != "" {
csum, err := parseBool(tf.csum)
if err != nil {
return fk, err
}
fk.SetCsum(csum)
}
return fk, nil
}
func (fastdp *FastDatapath) getVxlanVportID(udpPort int) (odp.VportID, error) {
fastdp.lock.Lock()
defer fastdp.lock.Unlock()
if vxlanVportID, present := fastdp.vxlanVportIDs[udpPort]; present {
return vxlanVportID, nil
}
name := fmt.Sprintf("vxlan-%d", udpPort)
vxlanVportID, err := fastdp.dp.CreateVport(
odp.NewVxlanVportSpec(name, uint16(udpPort)))
if err != nil {
return 0, err
}
// If a netdev for the vxlan vport exists, we need to do an extra check
// to bypass the kernel bug which makes the vxlan creation to complete
// successfully regardless whether there were any errors when binding
// to the given UDP port.
if link, err := netlink.LinkByName(name); err == nil {
if link.Attrs().Flags&net.FlagUp == 0 {
// The netdev interface is down, so most likely bringing it up
// has failed due to the UDP port being in use.
if err := fastdp.dp.DeleteVport(vxlanVportID); err != nil {
log.Warning("Unable to remove vxlan vport %d: %s", vxlanVportID, err)
}
return 0, odp.NetlinkError(syscall.EADDRINUSE)
}
}
fastdp.vxlanVportIDs[udpPort] = vxlanVportID
fastdp.missHandlers[vxlanVportID] = func(fks odp.FlowKeys, lock *fastDatapathLock) FlowOp {
log.Debug("ODP miss: ", fks, " on port ", vxlanVportID)
tunnel := fks[odp.OVS_KEY_ATTR_TUNNEL].(odp.TunnelFlowKey)
tunKey := tunnel.Key()
lock.relock()
consumer := fastdp.overlayConsumer
if consumer == nil {
return vetoFlowCreationFlowOp{}
}
srcPeer, dstPeer := fastdp.extractPeers(tunKey.TunnelId)
if srcPeer == nil || dstPeer == nil {
return vetoFlowCreationFlowOp{}
}
lock.unlock()
pk := flowKeysToPacketKey(fks)
var zeroMAC MAC
if pk.SrcMAC == zeroMAC && pk.DstMAC == zeroMAC {
return vxlanSpecialPacketFlowOp{
fastdp: fastdp,
srcPeer: srcPeer,
sender: &net.UDPAddr{
IP: net.IP(tunKey.Ipv4Src[:]),
Port: udpPort,
},
}
}
key := ForwardPacketKey{
SrcPeer: srcPeer,
DstPeer: dstPeer,
PacketKey: pk,
}
var tunnelFlowKey odp.TunnelFlowKey
tunnelFlowKey.SetTunnelId(tunKey.TunnelId)
tunnelFlowKey.SetIpv4Src(tunKey.Ipv4Src)
tunnelFlowKey.SetIpv4Dst(tunKey.Ipv4Dst)
return NewMultiFlowOp(false, odpFlowKey(tunnelFlowKey), consumer(key))
}
return vxlanVportID, nil
}
