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link_test.go
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link_test.go
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//go:build linux
// +build linux
package netlink
import (
"bytes"
"errors"
"fmt"
"net"
"os"
"os/exec"
"sort"
"strings"
"syscall"
"testing"
"time"
"github.com/vishvananda/netlink/nl"
"github.com/vishvananda/netns"
"golang.org/x/sys/unix"
)
const (
testTxQLen int = 100
defaultTxQLen int = 1000
testTxQueues int = 4
testRxQueues int = 8
)
func testLinkAddDel(t *testing.T, link Link) {
_, err := LinkList()
if err != nil {
t.Fatal(err)
}
if err := LinkAdd(link); err != nil {
t.Fatal(err)
}
base := link.Attrs()
result, err := LinkByName(base.Name)
if err != nil {
t.Fatal(err)
}
rBase := result.Attrs()
if base.Index != 0 {
if base.Index != rBase.Index {
t.Fatalf("index is %d, should be %d", rBase.Index, base.Index)
}
}
if base.Group > 0 {
if base.Group != rBase.Group {
t.Fatalf("group is %d, should be %d", rBase.Group, base.Group)
}
}
if vlan, ok := link.(*Vlan); ok {
other, ok := result.(*Vlan)
if !ok {
t.Fatal("Result of create is not a vlan")
}
if vlan.VlanId != other.VlanId {
t.Fatal("Link.VlanId id doesn't match")
}
}
if resultPrimary, ok := result.(*Netkit); ok {
if inputPrimary, ok := link.(*Netkit); ok {
if resultPrimary.Policy != inputPrimary.Policy {
t.Fatalf("Policy is %d, should be %d", int(resultPrimary.Policy), int(inputPrimary.Policy))
}
if resultPrimary.PeerPolicy != inputPrimary.PeerPolicy {
t.Fatalf("Peer Policy is %d, should be %d", int(resultPrimary.PeerPolicy), int(inputPrimary.PeerPolicy))
}
if resultPrimary.Mode != inputPrimary.Mode {
t.Fatalf("Mode is %d, should be %d", int(resultPrimary.Mode), int(inputPrimary.Mode))
}
if resultPrimary.SupportsScrub() && resultPrimary.Scrub != inputPrimary.Scrub {
t.Fatalf("Scrub is %d, should be %d", int(resultPrimary.Scrub), int(inputPrimary.Scrub))
}
if resultPrimary.SupportsScrub() && resultPrimary.PeerScrub != inputPrimary.PeerScrub {
t.Fatalf("Peer Scrub is %d, should be %d", int(resultPrimary.PeerScrub), int(inputPrimary.PeerScrub))
}
if inputPrimary.peerLinkAttrs.Name != "" {
var resultPeer *Netkit
pLink, err := LinkByName(inputPrimary.peerLinkAttrs.Name)
if err != nil {
t.Fatalf("Failed to get Peer netkit %s", inputPrimary.peerLinkAttrs.Name)
}
if resultPeer, ok = pLink.(*Netkit); !ok {
t.Fatalf("Peer %s is incorrect type", inputPrimary.peerLinkAttrs.Name)
}
if resultPrimary.PeerPolicy != resultPeer.Policy {
t.Fatalf("Peer Policy from primary is %d, should be %d", int(resultPrimary.PeerPolicy), int(resultPeer.Policy))
}
if resultPeer.PeerPolicy != resultPrimary.Policy {
t.Fatalf("PeerPolicy from peer is %d, should be %d", int(resultPeer.PeerPolicy), int(resultPrimary.Policy))
}
if resultPrimary.Mode != resultPeer.Mode {
t.Fatalf("Peer Mode from primary is %d, should be %d", int(resultPrimary.Mode), int(resultPeer.Mode))
}
if resultPrimary.IsPrimary() == resultPeer.IsPrimary() {
t.Fatalf("Both primary and peer device has the same value in IsPrimary() %t", resultPrimary.IsPrimary())
}
if resultPrimary.SupportsScrub() != resultPeer.SupportsScrub() {
t.Fatalf("Peer SupportsScrub() should return %v", resultPrimary.SupportsScrub())
}
if resultPrimary.PeerScrub != resultPeer.Scrub {
t.Fatalf("Scrub from peer is %d, should be %d", int(resultPeer.Scrub), int(resultPrimary.PeerScrub))
}
if resultPrimary.Scrub != resultPeer.PeerScrub {
t.Fatalf("PeerScrub from peer is %d, should be %d", int(resultPeer.PeerScrub), int(resultPrimary.Scrub))
}
}
}
}
if veth, ok := result.(*Veth); ok {
if rBase.TxQLen != base.TxQLen {
t.Fatalf("qlen is %d, should be %d", rBase.TxQLen, base.TxQLen)
}
if rBase.NumTxQueues != base.NumTxQueues {
t.Fatalf("txQueues is %d, should be %d", rBase.NumTxQueues, base.NumTxQueues)
}
if rBase.NumRxQueues != base.NumRxQueues {
t.Fatalf("rxQueues is %d, should be %d", rBase.NumRxQueues, base.NumRxQueues)
}
if rBase.MTU != base.MTU {
t.Fatalf("MTU is %d, should be %d", rBase.MTU, base.MTU)
}
if original, ok := link.(*Veth); ok {
if original.PeerName != "" {
var peer *Veth
other, err := LinkByName(original.PeerName)
if err != nil {
t.Fatalf("Peer %s not created", veth.PeerName)
}
if peer, ok = other.(*Veth); !ok {
t.Fatalf("Peer %s is incorrect type", veth.PeerName)
}
if peer.TxQLen != testTxQLen {
t.Fatalf("TxQLen of peer is %d, should be %d", peer.TxQLen, testTxQLen)
}
if peer.NumTxQueues != testTxQueues {
t.Fatalf("NumTxQueues of peer is %d, should be %d", peer.NumTxQueues, testTxQueues)
}
if peer.NumRxQueues != testRxQueues {
t.Fatalf("NumRxQueues of peer is %d, should be %d", peer.NumRxQueues, testRxQueues)
}
if !bytes.Equal(peer.Attrs().HardwareAddr, original.PeerHardwareAddr) {
t.Fatalf("Peer MAC addr is %s, should be %s", peer.Attrs().HardwareAddr, original.PeerHardwareAddr)
}
}
}
}
if _, ok := result.(*Veth); !ok {
if _, ok := result.(*Netkit); !ok {
// recent kernels set the parent index for veths/netkit in the response
if rBase.ParentIndex == 0 && base.ParentIndex != 0 {
t.Fatalf("Created link doesn't have parent %d but it should", base.ParentIndex)
} else if rBase.ParentIndex != 0 && base.ParentIndex == 0 {
t.Fatalf("Created link has parent %d but it shouldn't", rBase.ParentIndex)
} else if rBase.ParentIndex != 0 && base.ParentIndex != 0 {
if rBase.ParentIndex != base.ParentIndex {
t.Fatalf("Link.ParentIndex doesn't match %d != %d", rBase.ParentIndex, base.ParentIndex)
}
}
}
}
if _, ok := link.(*Wireguard); ok {
_, ok := result.(*Wireguard)
if !ok {
t.Fatal("Result of create is not a wireguard")
}
}
if vxlan, ok := link.(*Vxlan); ok {
other, ok := result.(*Vxlan)
if !ok {
t.Fatal("Result of create is not a vxlan")
}
compareVxlan(t, vxlan, other)
}
if ipv, ok := link.(*IPVlan); ok {
other, ok := result.(*IPVlan)
if !ok {
t.Fatal("Result of create is not a ipvlan")
}
if ipv.Mode != other.Mode {
t.Fatalf("Got unexpected mode: %d, expected: %d", other.Mode, ipv.Mode)
}
if ipv.Flag != other.Flag {
t.Fatalf("Got unexpected flag: %d, expected: %d", other.Flag, ipv.Flag)
}
}
if macv, ok := link.(*Macvlan); ok {
other, ok := result.(*Macvlan)
if !ok {
t.Fatal("Result of create is not a macvlan")
}
if macv.Mode != other.Mode {
t.Fatalf("Got unexpected mode: %d, expected: %d", other.Mode, macv.Mode)
}
if other.BCQueueLen > 0 || other.UsedBCQueueLen > 0 {
if other.UsedBCQueueLen < other.BCQueueLen {
t.Fatalf("UsedBCQueueLen (%d) is smaller than BCQueueLen (%d)", other.UsedBCQueueLen, other.BCQueueLen)
}
}
if macv.BCQueueLen > 0 {
if macv.BCQueueLen != other.BCQueueLen {
t.Fatalf("BCQueueLen not set correctly: %d, expected: %d", other.BCQueueLen, macv.BCQueueLen)
}
}
}
if macv, ok := link.(*Macvtap); ok {
other, ok := result.(*Macvtap)
if !ok {
t.Fatal("Result of create is not a macvtap")
}
if macv.Mode != other.Mode {
t.Fatalf("Got unexpected mode: %d, expected: %d", other.Mode, macv.Mode)
}
if other.BCQueueLen > 0 || other.UsedBCQueueLen > 0 {
if other.UsedBCQueueLen < other.BCQueueLen {
t.Fatalf("UsedBCQueueLen (%d) is smaller than BCQueueLen (%d)", other.UsedBCQueueLen, other.BCQueueLen)
}
}
if macv.BCQueueLen > 0 {
if macv.BCQueueLen != other.BCQueueLen {
t.Fatalf("BCQueueLen not set correctly: %d, expected: %d", other.BCQueueLen, macv.BCQueueLen)
}
}
}
if _, ok := link.(*Vti); ok {
_, ok := result.(*Vti)
if !ok {
t.Fatal("Result of create is not a vti")
}
}
if bond, ok := link.(*Bond); ok {
other, ok := result.(*Bond)
if !ok {
t.Fatal("Result of create is not a bond")
}
if bond.Mode != other.Mode {
t.Fatalf("Got unexpected mode: %d, expected: %d", other.Mode, bond.Mode)
}
if bond.ArpIpTargets != nil {
if other.ArpIpTargets == nil {
t.Fatalf("Got unexpected ArpIpTargets: nil")
}
if len(bond.ArpIpTargets) != len(other.ArpIpTargets) {
t.Fatalf("Got unexpected ArpIpTargets len: %d, expected: %d",
len(other.ArpIpTargets), len(bond.ArpIpTargets))
}
for i := range bond.ArpIpTargets {
if !bond.ArpIpTargets[i].Equal(other.ArpIpTargets[i]) {
t.Fatalf("Got unexpected ArpIpTargets: %s, expected: %s",
other.ArpIpTargets[i], bond.ArpIpTargets[i])
}
}
}
switch mode := bondModeToString[bond.Mode]; mode {
case "802.3ad":
if bond.AdSelect != other.AdSelect {
t.Fatalf("Got unexpected AdSelect: %d, expected: %d", other.AdSelect, bond.AdSelect)
}
if bond.AdActorSysPrio != other.AdActorSysPrio {
t.Fatalf("Got unexpected AdActorSysPrio: %d, expected: %d", other.AdActorSysPrio, bond.AdActorSysPrio)
}
if bond.AdUserPortKey != other.AdUserPortKey {
t.Fatalf("Got unexpected AdUserPortKey: %d, expected: %d", other.AdUserPortKey, bond.AdUserPortKey)
}
if !bytes.Equal(bond.AdActorSystem, other.AdActorSystem) {
t.Fatalf("Got unexpected AdActorSystem: %d, expected: %d", other.AdActorSystem, bond.AdActorSystem)
}
case "balance-tlb":
if bond.TlbDynamicLb != other.TlbDynamicLb {
t.Fatalf("Got unexpected TlbDynamicLb: %d, expected: %d", other.TlbDynamicLb, bond.TlbDynamicLb)
}
}
}
if iptun, ok := link.(*Iptun); ok {
other, ok := result.(*Iptun)
if !ok {
t.Fatal("Result of create is not a iptun")
}
if iptun.FlowBased != other.FlowBased {
t.Fatal("Iptun.FlowBased doesn't match")
}
}
if ip6tnl, ok := link.(*Ip6tnl); ok {
other, ok := result.(*Ip6tnl)
if !ok {
t.Fatal("Result of create is not a ip6tnl")
}
if ip6tnl.FlowBased != other.FlowBased {
t.Fatal("Ip6tnl.FlowBased doesn't match")
}
}
if _, ok := link.(*Sittun); ok {
_, ok := result.(*Sittun)
if !ok {
t.Fatal("Result of create is not a sittun")
}
}
if geneve, ok := link.(*Geneve); ok {
other, ok := result.(*Geneve)
if !ok {
t.Fatal("Result of create is not a Geneve")
}
compareGeneve(t, geneve, other)
}
if gretap, ok := link.(*Gretap); ok {
other, ok := result.(*Gretap)
if !ok {
t.Fatal("Result of create is not a Gretap")
}
compareGretap(t, gretap, other)
}
if gretun, ok := link.(*Gretun); ok {
other, ok := result.(*Gretun)
if !ok {
t.Fatal("Result of create is not a Gretun")
}
compareGretun(t, gretun, other)
}
if xfrmi, ok := link.(*Xfrmi); ok {
other, ok := result.(*Xfrmi)
if !ok {
t.Fatal("Result of create is not a xfrmi")
}
compareXfrmi(t, xfrmi, other)
}
if tuntap, ok := link.(*Tuntap); ok {
other, ok := result.(*Tuntap)
if !ok {
t.Fatal("Result of create is not a tuntap")
}
compareTuntap(t, tuntap, other)
}
if bareudp, ok := link.(*BareUDP); ok {
other, ok := result.(*BareUDP)
if !ok {
t.Fatal("Result of create is not a BareUDP")
}
compareBareUDP(t, bareudp, other)
}
if err = LinkDel(link); err != nil {
t.Fatal(err)
}
links, err := LinkList()
if err != nil {
t.Fatal(err)
}
for _, l := range links {
if l.Attrs().Name == link.Attrs().Name {
t.Fatal("Link not removed properly")
}
}
}
func compareGeneve(t *testing.T, expected, actual *Geneve) {
if actual.ID != expected.ID {
t.Fatalf("Geneve.ID doesn't match: %d %d", actual.ID, expected.ID)
}
// set the Dport to 6081 (the linux default) if it wasn't specified at creation
if expected.Dport == 0 {
expected.Dport = 6081
}
if actual.Dport != expected.Dport {
t.Fatal("Geneve.Dport doesn't match")
}
if actual.Ttl != expected.Ttl {
t.Fatal("Geneve.Ttl doesn't match")
}
if actual.Tos != expected.Tos {
t.Fatal("Geneve.Tos doesn't match")
}
if !actual.Remote.Equal(expected.Remote) {
t.Fatalf("Geneve.Remote is not equal: %s!=%s", actual.Remote, expected.Remote)
}
if actual.FlowBased != expected.FlowBased {
t.Fatal("Geneve.FlowBased doesn't match")
}
if actual.InnerProtoInherit != expected.InnerProtoInherit {
t.Fatal("Geneve.InnerProtoInherit doesn't match")
}
// TODO: we should implement the rest of the geneve methods
}
func compareGretap(t *testing.T, expected, actual *Gretap) {
if actual.IKey != expected.IKey {
t.Fatal("Gretap.IKey doesn't match")
}
if actual.OKey != expected.OKey {
t.Fatal("Gretap.OKey doesn't match")
}
if actual.EncapSport != expected.EncapSport {
t.Fatal("Gretap.EncapSport doesn't match")
}
if actual.EncapDport != expected.EncapDport {
t.Fatal("Gretap.EncapDport doesn't match")
}
if expected.Local != nil && !actual.Local.Equal(expected.Local) {
t.Fatal("Gretap.Local doesn't match")
}
if expected.Remote != nil && !actual.Remote.Equal(expected.Remote) {
t.Fatal("Gretap.Remote doesn't match")
}
if actual.IFlags != expected.IFlags {
t.Fatal("Gretap.IFlags doesn't match")
}
if actual.OFlags != expected.OFlags {
t.Fatal("Gretap.OFlags doesn't match")
}
if actual.PMtuDisc != expected.PMtuDisc {
t.Fatal("Gretap.PMtuDisc doesn't match")
}
if actual.Ttl != expected.Ttl {
t.Fatal("Gretap.Ttl doesn't match")
}
if actual.Tos != expected.Tos {
t.Fatal("Gretap.Tos doesn't match")
}
if actual.EncapType != expected.EncapType {
t.Fatal("Gretap.EncapType doesn't match")
}
if actual.EncapFlags != expected.EncapFlags {
t.Fatal("Gretap.EncapFlags doesn't match")
}
if actual.Link != expected.Link {
t.Fatal("Gretap.Link doesn't match")
}
if actual.FlowBased != expected.FlowBased {
t.Fatal("Gretap.FlowBased doesn't match")
}
}
func compareGretun(t *testing.T, expected, actual *Gretun) {
if actual.Link != expected.Link {
t.Fatal("Gretun.Link doesn't match")
}
if actual.IFlags != expected.IFlags {
t.Fatal("Gretun.IFlags doesn't match")
}
if actual.OFlags != expected.OFlags {
t.Fatal("Gretun.OFlags doesn't match")
}
if actual.IKey != expected.IKey {
t.Fatal("Gretun.IKey doesn't match")
}
if actual.OKey != expected.OKey {
t.Fatal("Gretun.OKey doesn't match")
}
if expected.Local != nil && !actual.Local.Equal(expected.Local) {
t.Fatal("Gretun.Local doesn't match")
}
if expected.Remote != nil && !actual.Remote.Equal(expected.Remote) {
t.Fatal("Gretun.Remote doesn't match")
}
if actual.Ttl != expected.Ttl {
t.Fatal("Gretun.Ttl doesn't match")
}
if actual.Tos != expected.Tos {
t.Fatal("Gretun.Tos doesn't match")
}
if actual.PMtuDisc != expected.PMtuDisc {
t.Fatal("Gretun.PMtuDisc doesn't match")
}
if actual.EncapType != expected.EncapType {
t.Fatal("Gretun.EncapType doesn't match")
}
if actual.EncapFlags != expected.EncapFlags {
t.Fatal("Gretun.EncapFlags doesn't match")
}
if actual.EncapSport != expected.EncapSport {
t.Fatal("Gretun.EncapSport doesn't match")
}
if actual.EncapDport != expected.EncapDport {
t.Fatal("Gretun.EncapDport doesn't match")
}
if actual.FlowBased != expected.FlowBased {
t.Fatal("Gretun.FlowBased doesn't match")
}
}
func compareVxlan(t *testing.T, expected, actual *Vxlan) {
if actual.VxlanId != expected.VxlanId {
t.Fatal("Vxlan.VxlanId doesn't match")
}
if expected.SrcAddr != nil && !actual.SrcAddr.Equal(expected.SrcAddr) {
t.Fatal("Vxlan.SrcAddr doesn't match")
}
if expected.Group != nil && !actual.Group.Equal(expected.Group) {
t.Fatal("Vxlan.Group doesn't match")
}
if expected.TTL != -1 && actual.TTL != expected.TTL {
t.Fatal("Vxlan.TTL doesn't match")
}
if expected.TOS != -1 && actual.TOS != expected.TOS {
t.Fatal("Vxlan.TOS doesn't match")
}
if actual.Learning != expected.Learning {
t.Fatal("Vxlan.Learning doesn't match")
}
if actual.Proxy != expected.Proxy {
t.Fatal("Vxlan.Proxy doesn't match")
}
if actual.RSC != expected.RSC {
t.Fatal("Vxlan.RSC doesn't match")
}
if actual.L2miss != expected.L2miss {
t.Fatal("Vxlan.L2miss doesn't match")
}
if actual.L3miss != expected.L3miss {
t.Fatal("Vxlan.L3miss doesn't match")
}
if actual.GBP != expected.GBP {
t.Fatal("Vxlan.GBP doesn't match")
}
if actual.FlowBased != expected.FlowBased {
t.Fatal("Vxlan.FlowBased doesn't match")
}
if actual.UDP6ZeroCSumTx != expected.UDP6ZeroCSumTx {
t.Fatal("Vxlan.UDP6ZeroCSumTx doesn't match")
}
if actual.UDP6ZeroCSumRx != expected.UDP6ZeroCSumRx {
t.Fatal("Vxlan.UDP6ZeroCSumRx doesn't match")
}
if expected.NoAge {
if !actual.NoAge {
t.Fatal("Vxlan.NoAge doesn't match")
}
} else if expected.Age > 0 && actual.Age != expected.Age {
t.Fatal("Vxlan.Age doesn't match")
}
if expected.Limit > 0 && actual.Limit != expected.Limit {
t.Fatal("Vxlan.Limit doesn't match")
}
if expected.Port > 0 && actual.Port != expected.Port {
t.Fatal("Vxlan.Port doesn't match")
}
if expected.PortLow > 0 || expected.PortHigh > 0 {
if actual.PortLow != expected.PortLow {
t.Fatal("Vxlan.PortLow doesn't match")
}
if actual.PortHigh != expected.PortHigh {
t.Fatal("Vxlan.PortHigh doesn't match")
}
}
}
func compareXfrmi(t *testing.T, expected, actual *Xfrmi) {
if expected.Ifid != actual.Ifid {
t.Fatal("Xfrmi.Ifid doesn't match")
}
}
func compareTuntap(t *testing.T, expected, actual *Tuntap) {
if expected.Mode != actual.Mode {
t.Fatalf("Tuntap.Mode doesn't match: expected : %+v, got %+v", expected.Mode, actual.Mode)
}
if expected.Owner != actual.Owner {
t.Fatal("Tuntap.Owner doesn't match")
}
if expected.Group != actual.Group {
t.Fatal("Tuntap.Group doesn't match")
}
if expected.NonPersist != actual.NonPersist {
t.Fatal("Tuntap.Group doesn't match")
}
}
func compareBareUDP(t *testing.T, expected, actual *BareUDP) {
// set the Port to 6635 (the linux default) if it wasn't specified at creation
if expected.Port == 0 {
expected.Port = 6635
}
if actual.Port != expected.Port {
t.Fatalf("BareUDP.Port doesn't match: %d %d", actual.Port, expected.Port)
}
if actual.EtherType != expected.EtherType {
t.Fatalf("BareUDP.EtherType doesn't match: %x %x", actual.EtherType, expected.EtherType)
}
if actual.SrcPortMin != expected.SrcPortMin {
t.Fatalf("BareUDP.SrcPortMin doesn't match: %d %d", actual.SrcPortMin, expected.SrcPortMin)
}
if actual.MultiProto != expected.MultiProto {
t.Fatal("BareUDP.MultiProto doesn't match")
}
}
func TestLinkAddDelWithIndex(t *testing.T) {
tearDown := setUpNetlinkTest(t)
defer tearDown()
testLinkAddDel(t, &Dummy{LinkAttrs{Index: 1000, Name: "foo"}})
}
func TestLinkAddDelDummy(t *testing.T) {
tearDown := setUpNetlinkTest(t)
defer tearDown()
testLinkAddDel(t, &Dummy{LinkAttrs{Name: "foo"}})
}
func TestLinkAddDelDummyWithGroup(t *testing.T) {
tearDown := setUpNetlinkTest(t)
defer tearDown()
testLinkAddDel(t, &Dummy{LinkAttrs{Name: "foo", Group: 42}})
}
func TestLinkModify(t *testing.T) {
tearDown := setUpNetlinkTest(t)
defer tearDown()
linkName := "foo"
originalMTU := 1500
updatedMTU := 1442
link := &Dummy{LinkAttrs{Name: linkName, MTU: originalMTU}}
base := link.Attrs()
if err := LinkAdd(link); err != nil {
t.Fatal(err)
}
link.MTU = updatedMTU
if err := LinkModify(link); err != nil {
t.Fatal(err)
}
result, err := LinkByName(linkName)
if err != nil {
t.Fatal(err)
}
rBase := result.Attrs()
if rBase.MTU != updatedMTU {
t.Fatalf("MTU is %d, should be %d", rBase.MTU, base.MTU)
}
}
func TestLinkAddDelIfb(t *testing.T) {
tearDown := setUpNetlinkTest(t)
defer tearDown()
testLinkAddDel(t, &Ifb{LinkAttrs{Name: "foo"}})
}
func TestLinkAddDelBridge(t *testing.T) {
tearDown := setUpNetlinkTest(t)
defer tearDown()
testLinkAddDel(t, &Bridge{LinkAttrs: LinkAttrs{Name: "foo", MTU: 1400}})
}
func TestLinkAddDelGeneve(t *testing.T) {
tearDown := setUpNetlinkTest(t)
defer tearDown()
testLinkAddDel(t, &Geneve{
LinkAttrs: LinkAttrs{Name: "foo4", EncapType: "geneve"},
ID: 0x1000,
Remote: net.IPv4(127, 0, 0, 1)})
testLinkAddDel(t, &Geneve{
LinkAttrs: LinkAttrs{Name: "foo6", EncapType: "geneve"},
ID: 0x1000,
Remote: net.ParseIP("2001:db8:ef33::2")})
}
func TestLinkAddDelGeneveFlowBased(t *testing.T) {
tearDown := setUpNetlinkTest(t)
defer tearDown()
testLinkAddDel(t, &Geneve{
LinkAttrs: LinkAttrs{Name: "foo"},
Dport: 1234,
FlowBased: true})
}
func TestGeneveCompareToIP(t *testing.T) {
ns, tearDown := setUpNamedNetlinkTest(t)
defer tearDown()
expected := &Geneve{
ID: 0x764332, // 23 bits
Remote: net.ParseIP("1.2.3.4"),
Dport: 6081,
}
// Create interface
cmd := exec.Command("ip", "netns", "exec", ns,
"ip", "link", "add", "gen0",
"type", "geneve",
"vni", fmt.Sprint(expected.ID),
"remote", expected.Remote.String(),
// TODO: unit tests are currently done on ubuntu 16, and the version of iproute2 there doesn't support dstport
// We can still do most of the testing by verifying that we do read the default port
// "dstport", fmt.Sprint(expected.Dport),
)
out := &bytes.Buffer{}
cmd.Stdout = out
cmd.Stderr = out
if rc := cmd.Run(); rc != nil {
t.Fatal("failed creating link:", rc, out.String())
}
link, err := LinkByName("gen0")
if err != nil {
t.Fatal("Failed getting link: ", err)
}
actual, ok := link.(*Geneve)
if !ok {
t.Fatalf("resulted interface is not geneve: %T", link)
}
compareGeneve(t, expected, actual)
}
func TestLinkAddDelGretap(t *testing.T) {
tearDown := setUpNetlinkTest(t)
defer tearDown()
testLinkAddDel(t, &Gretap{
LinkAttrs: LinkAttrs{Name: "foo4"},
IKey: 0x101,
OKey: 0x101,
PMtuDisc: 1,
Local: net.IPv4(127, 0, 0, 1),
Remote: net.IPv4(127, 0, 0, 1)})
testLinkAddDel(t, &Gretap{
LinkAttrs: LinkAttrs{Name: "foo6"},
IKey: 0x101,
OKey: 0x101,
Local: net.ParseIP("2001:db8:abcd::1"),
Remote: net.ParseIP("2001:db8:ef33::2")})
}
func TestLinkAddDelGretun(t *testing.T) {
tearDown := setUpNetlinkTest(t)
defer tearDown()
testLinkAddDel(t, &Gretun{
LinkAttrs: LinkAttrs{Name: "foo4"},
Local: net.IPv4(127, 0, 0, 1),
Remote: net.IPv4(127, 0, 0, 1)})
testLinkAddDel(t, &Gretun{
LinkAttrs: LinkAttrs{Name: "foo6"},
Local: net.ParseIP("2001:db8:abcd::1"),
Remote: net.ParseIP("2001:db8:ef33::2")})
}
func TestLinkAddDelGretunPointToMultiPoint(t *testing.T) {
tearDown := setUpNetlinkTest(t)
defer tearDown()
testLinkAddDel(t, &Gretun{
LinkAttrs: LinkAttrs{Name: "foo"},
Local: net.IPv4(127, 0, 0, 1),
IKey: 1234,
OKey: 1234})
testLinkAddDel(t, &Gretun{
LinkAttrs: LinkAttrs{Name: "foo6"},
Local: net.ParseIP("2001:db8:1234::4"),
IKey: 5678,
OKey: 7890})
}
func TestLinkAddDelGretunFlowBased(t *testing.T) {
minKernelRequired(t, 4, 3)
tearDown := setUpNetlinkTest(t)
defer tearDown()
testLinkAddDel(t, &Gretun{
LinkAttrs: LinkAttrs{Name: "foo"},
FlowBased: true})
}
func TestLinkAddDelGretapFlowBased(t *testing.T) {
minKernelRequired(t, 4, 3)
tearDown := setUpNetlinkTest(t)
defer tearDown()
testLinkAddDel(t, &Gretap{
LinkAttrs: LinkAttrs{Name: "foo"},
FlowBased: true})
}
func TestLinkAddDelVlan(t *testing.T) {
tearDown := setUpNetlinkTest(t)
defer tearDown()
parent := &Dummy{LinkAttrs{Name: "foo"}}
if err := LinkAdd(parent); err != nil {
t.Fatal(err)
}
testLinkAddDel(t, &Vlan{LinkAttrs{Name: "bar", ParentIndex: parent.Attrs().Index}, 900, VLAN_PROTOCOL_8021Q})
if err := LinkDel(parent); err != nil {
t.Fatal(err)
}
}
func TestLinkAddDelMacvlan(t *testing.T) {
tearDown := setUpNetlinkTest(t)
defer tearDown()
parent := &Dummy{LinkAttrs{Name: "foo"}}
if err := LinkAdd(parent); err != nil {
t.Fatal(err)
}
testLinkAddDel(t, &Macvlan{
LinkAttrs: LinkAttrs{Name: "bar", ParentIndex: parent.Attrs().Index},
Mode: MACVLAN_MODE_PRIVATE,
})
testLinkAddDel(t, &Macvlan{
LinkAttrs: LinkAttrs{Name: "bar", ParentIndex: parent.Attrs().Index},
Mode: MACVLAN_MODE_BRIDGE,
})
testLinkAddDel(t, &Macvlan{
LinkAttrs: LinkAttrs{Name: "bar", ParentIndex: parent.Attrs().Index},
Mode: MACVLAN_MODE_VEPA,
})
if err := LinkDel(parent); err != nil {
t.Fatal(err)
}
}
func TestLinkAddDelMacvtap(t *testing.T) {
tearDown := setUpNetlinkTest(t)
defer tearDown()
parent := &Dummy{LinkAttrs{Name: "foo"}}
if err := LinkAdd(parent); err != nil {
t.Fatal(err)
}
testLinkAddDel(t, &Macvtap{
Macvlan: Macvlan{
LinkAttrs: LinkAttrs{Name: "bar", ParentIndex: parent.Attrs().Index},
Mode: MACVLAN_MODE_PRIVATE,
},
})
testLinkAddDel(t, &Macvtap{
Macvlan: Macvlan{
LinkAttrs: LinkAttrs{Name: "bar", ParentIndex: parent.Attrs().Index},
Mode: MACVLAN_MODE_BRIDGE,
},
})
testLinkAddDel(t, &Macvtap{
Macvlan: Macvlan{
LinkAttrs: LinkAttrs{Name: "bar", ParentIndex: parent.Attrs().Index},
Mode: MACVLAN_MODE_VEPA,
},
})
if err := LinkDel(parent); err != nil {
t.Fatal(err)
}
}
func TestLinkMacvBCQueueLen(t *testing.T) {
minKernelRequired(t, 5, 11)
tearDown := setUpNetlinkTest(t)
defer tearDown()
parent := &Dummy{LinkAttrs{Name: "foo"}}
if err := LinkAdd(parent); err != nil {
t.Fatal(err)
}
testLinkAddDel(t, &Macvlan{
LinkAttrs: LinkAttrs{Name: "bar", ParentIndex: parent.Attrs().Index},
Mode: MACVLAN_MODE_PRIVATE,
BCQueueLen: 10000,
})
testLinkAddDel(t, &Macvtap{
Macvlan: Macvlan{
LinkAttrs: LinkAttrs{Name: "bar", ParentIndex: parent.Attrs().Index},
Mode: MACVLAN_MODE_PRIVATE,
BCQueueLen: 10000,
},
})
if err := LinkDel(parent); err != nil {
t.Fatal(err)
}
}
func TestNetkitPeerNs(t *testing.T) {
minKernelRequired(t, 6, 7)
tearDown := setUpNetlinkTest(t)
defer tearDown()
basens, err := netns.Get()
if err != nil {
t.Fatal("Failed to get basens")
}
defer basens.Close()
nsOne, err := netns.New()
if err != nil {
t.Fatal("Failed to create nsOne")
}
defer nsOne.Close()