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|
// Copyright 2020 The gVisor Authors.
//
// 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 stack
import (
"encoding/binary"
"math"
"testing"
"time"
"gvisor.dev/gvisor/pkg/sync"
"gvisor.dev/gvisor/pkg/tcpip"
"gvisor.dev/gvisor/pkg/tcpip/buffer"
"gvisor.dev/gvisor/pkg/tcpip/header"
)
const (
fwdTestNetNumber tcpip.NetworkProtocolNumber = math.MaxUint32
fwdTestNetHeaderLen = 12
fwdTestNetDefaultPrefixLen = 8
// fwdTestNetDefaultMTU is the MTU, in bytes, used throughout the tests,
// except where another value is explicitly used. It is chosen to match
// the MTU of loopback interfaces on linux systems.
fwdTestNetDefaultMTU = 65536
dstAddrOffset = 0
srcAddrOffset = 1
protocolNumberOffset = 2
)
var _ LinkAddressResolver = (*fwdTestNetworkEndpoint)(nil)
var _ NetworkEndpoint = (*fwdTestNetworkEndpoint)(nil)
// fwdTestNetworkEndpoint is a network-layer protocol endpoint.
// Headers of this protocol are fwdTestNetHeaderLen bytes, but we currently only
// use the first three: destination address, source address, and transport
// protocol. They're all one byte fields to simplify parsing.
type fwdTestNetworkEndpoint struct {
AddressableEndpointState
nic NetworkInterface
proto *fwdTestNetworkProtocol
dispatcher TransportDispatcher
}
func (*fwdTestNetworkEndpoint) Enable() tcpip.Error {
return nil
}
func (*fwdTestNetworkEndpoint) Enabled() bool {
return true
}
func (*fwdTestNetworkEndpoint) Disable() {}
func (f *fwdTestNetworkEndpoint) MTU() uint32 {
return f.nic.MTU() - uint32(f.MaxHeaderLength())
}
func (*fwdTestNetworkEndpoint) DefaultTTL() uint8 {
return 123
}
func (f *fwdTestNetworkEndpoint) HandlePacket(pkt *PacketBuffer) {
netHdr := pkt.NetworkHeader().View()
_, dst := f.proto.ParseAddresses(netHdr)
addressEndpoint := f.AcquireAssignedAddress(dst, f.nic.Promiscuous(), CanBePrimaryEndpoint)
if addressEndpoint != nil {
addressEndpoint.DecRef()
// Dispatch the packet to the transport protocol.
f.dispatcher.DeliverTransportPacket(tcpip.TransportProtocolNumber(netHdr[protocolNumberOffset]), pkt)
return
}
r, err := f.proto.stack.FindRoute(0, "", dst, fwdTestNetNumber, false /* multicastLoop */)
if err != nil {
return
}
defer r.Release()
vv := buffer.NewVectorisedView(pkt.Size(), pkt.Views())
pkt = NewPacketBuffer(PacketBufferOptions{
ReserveHeaderBytes: int(r.MaxHeaderLength()),
Data: vv.ToView().ToVectorisedView(),
})
// TODO(b/143425874) Decrease the TTL field in forwarded packets.
_ = r.WriteHeaderIncludedPacket(pkt)
}
func (f *fwdTestNetworkEndpoint) MaxHeaderLength() uint16 {
return f.nic.MaxHeaderLength() + fwdTestNetHeaderLen
}
func (*fwdTestNetworkEndpoint) PseudoHeaderChecksum(protocol tcpip.TransportProtocolNumber, dstAddr tcpip.Address) uint16 {
return 0
}
func (f *fwdTestNetworkEndpoint) NetworkProtocolNumber() tcpip.NetworkProtocolNumber {
return f.proto.Number()
}
func (f *fwdTestNetworkEndpoint) WritePacket(r *Route, gso *GSO, params NetworkHeaderParams, pkt *PacketBuffer) tcpip.Error {
// Add the protocol's header to the packet and send it to the link
// endpoint.
b := pkt.NetworkHeader().Push(fwdTestNetHeaderLen)
b[dstAddrOffset] = r.RemoteAddress[0]
b[srcAddrOffset] = r.LocalAddress[0]
b[protocolNumberOffset] = byte(params.Protocol)
return f.nic.WritePacket(r, gso, fwdTestNetNumber, pkt)
}
// WritePackets implements LinkEndpoint.WritePackets.
func (*fwdTestNetworkEndpoint) WritePackets(r *Route, gso *GSO, pkts PacketBufferList, params NetworkHeaderParams) (int, tcpip.Error) {
panic("not implemented")
}
func (f *fwdTestNetworkEndpoint) WriteHeaderIncludedPacket(r *Route, pkt *PacketBuffer) tcpip.Error {
// The network header should not already be populated.
if _, ok := pkt.NetworkHeader().Consume(fwdTestNetHeaderLen); !ok {
return &tcpip.ErrMalformedHeader{}
}
return f.nic.WritePacket(r, nil /* gso */, fwdTestNetNumber, pkt)
}
func (f *fwdTestNetworkEndpoint) Close() {
f.AddressableEndpointState.Cleanup()
}
// Stats implements stack.NetworkEndpoint.
func (*fwdTestNetworkEndpoint) Stats() NetworkEndpointStats {
return &fwdTestNetworkEndpointStats{}
}
var _ NetworkEndpointStats = (*fwdTestNetworkEndpointStats)(nil)
type fwdTestNetworkEndpointStats struct{}
// IsNetworkEndpointStats implements stack.NetworkEndpointStats.
func (*fwdTestNetworkEndpointStats) IsNetworkEndpointStats() {}
var _ NetworkProtocol = (*fwdTestNetworkProtocol)(nil)
// fwdTestNetworkProtocol is a network-layer protocol that implements Address
// resolution.
type fwdTestNetworkProtocol struct {
stack *Stack
neighborTable neighborTable
addrResolveDelay time.Duration
onLinkAddressResolved func(neighborTable, tcpip.Address, tcpip.LinkAddress)
onResolveStaticAddress func(tcpip.Address) (tcpip.LinkAddress, bool)
mu struct {
sync.RWMutex
forwarding bool
}
}
func (*fwdTestNetworkProtocol) Number() tcpip.NetworkProtocolNumber {
return fwdTestNetNumber
}
func (*fwdTestNetworkProtocol) MinimumPacketSize() int {
return fwdTestNetHeaderLen
}
func (*fwdTestNetworkProtocol) DefaultPrefixLen() int {
return fwdTestNetDefaultPrefixLen
}
func (*fwdTestNetworkProtocol) ParseAddresses(v buffer.View) (src, dst tcpip.Address) {
return tcpip.Address(v[srcAddrOffset : srcAddrOffset+1]), tcpip.Address(v[dstAddrOffset : dstAddrOffset+1])
}
func (*fwdTestNetworkProtocol) Parse(pkt *PacketBuffer) (tcpip.TransportProtocolNumber, bool, bool) {
netHeader, ok := pkt.NetworkHeader().Consume(fwdTestNetHeaderLen)
if !ok {
return 0, false, false
}
return tcpip.TransportProtocolNumber(netHeader[protocolNumberOffset]), true, true
}
func (f *fwdTestNetworkProtocol) NewEndpoint(nic NetworkInterface, dispatcher TransportDispatcher) NetworkEndpoint {
e := &fwdTestNetworkEndpoint{
nic: nic,
proto: f,
dispatcher: dispatcher,
}
e.AddressableEndpointState.Init(e)
return e
}
func (*fwdTestNetworkProtocol) SetOption(tcpip.SettableNetworkProtocolOption) tcpip.Error {
return &tcpip.ErrUnknownProtocolOption{}
}
func (*fwdTestNetworkProtocol) Option(tcpip.GettableNetworkProtocolOption) tcpip.Error {
return &tcpip.ErrUnknownProtocolOption{}
}
func (*fwdTestNetworkProtocol) Close() {}
func (*fwdTestNetworkProtocol) Wait() {}
func (f *fwdTestNetworkEndpoint) LinkAddressRequest(addr, _ tcpip.Address, remoteLinkAddr tcpip.LinkAddress) tcpip.Error {
if fn := f.proto.onLinkAddressResolved; fn != nil {
time.AfterFunc(f.proto.addrResolveDelay, func() {
fn(f.proto.neighborTable, addr, remoteLinkAddr)
})
}
return nil
}
func (f *fwdTestNetworkEndpoint) ResolveStaticAddress(addr tcpip.Address) (tcpip.LinkAddress, bool) {
if fn := f.proto.onResolveStaticAddress; fn != nil {
return fn(addr)
}
return "", false
}
func (*fwdTestNetworkEndpoint) LinkAddressProtocol() tcpip.NetworkProtocolNumber {
return fwdTestNetNumber
}
// Forwarding implements stack.ForwardingNetworkProtocol.
func (f *fwdTestNetworkProtocol) Forwarding() bool {
f.mu.RLock()
defer f.mu.RUnlock()
return f.mu.forwarding
}
// SetForwarding implements stack.ForwardingNetworkProtocol.
func (f *fwdTestNetworkProtocol) SetForwarding(v bool) {
f.mu.Lock()
defer f.mu.Unlock()
f.mu.forwarding = v
}
// fwdTestPacketInfo holds all the information about an outbound packet.
type fwdTestPacketInfo struct {
RemoteLinkAddress tcpip.LinkAddress
LocalLinkAddress tcpip.LinkAddress
Pkt *PacketBuffer
}
type fwdTestLinkEndpoint struct {
dispatcher NetworkDispatcher
mtu uint32
linkAddr tcpip.LinkAddress
// C is where outbound packets are queued.
C chan fwdTestPacketInfo
}
// InjectInbound injects an inbound packet.
func (e *fwdTestLinkEndpoint) InjectInbound(protocol tcpip.NetworkProtocolNumber, pkt *PacketBuffer) {
e.InjectLinkAddr(protocol, "", pkt)
}
// InjectLinkAddr injects an inbound packet with a remote link address.
func (e *fwdTestLinkEndpoint) InjectLinkAddr(protocol tcpip.NetworkProtocolNumber, remote tcpip.LinkAddress, pkt *PacketBuffer) {
e.dispatcher.DeliverNetworkPacket(remote, "" /* local */, protocol, pkt)
}
// Attach saves the stack network-layer dispatcher for use later when packets
// are injected.
func (e *fwdTestLinkEndpoint) Attach(dispatcher NetworkDispatcher) {
e.dispatcher = dispatcher
}
// IsAttached implements stack.LinkEndpoint.IsAttached.
func (e *fwdTestLinkEndpoint) IsAttached() bool {
return e.dispatcher != nil
}
// MTU implements stack.LinkEndpoint.MTU. It returns the value initialized
// during construction.
func (e *fwdTestLinkEndpoint) MTU() uint32 {
return e.mtu
}
// Capabilities implements stack.LinkEndpoint.Capabilities.
func (e fwdTestLinkEndpoint) Capabilities() LinkEndpointCapabilities {
caps := LinkEndpointCapabilities(0)
return caps | CapabilityResolutionRequired
}
// GSOMaxSize returns the maximum GSO packet size.
func (*fwdTestLinkEndpoint) GSOMaxSize() uint32 {
return 1 << 15
}
// MaxHeaderLength returns the maximum size of the link layer header. Given it
// doesn't have a header, it just returns 0.
func (*fwdTestLinkEndpoint) MaxHeaderLength() uint16 {
return 0
}
// LinkAddress returns the link address of this endpoint.
func (e *fwdTestLinkEndpoint) LinkAddress() tcpip.LinkAddress {
return e.linkAddr
}
func (e fwdTestLinkEndpoint) WritePacket(r RouteInfo, gso *GSO, protocol tcpip.NetworkProtocolNumber, pkt *PacketBuffer) tcpip.Error {
p := fwdTestPacketInfo{
RemoteLinkAddress: r.RemoteLinkAddress,
LocalLinkAddress: r.LocalLinkAddress,
Pkt: pkt,
}
select {
case e.C <- p:
default:
}
return nil
}
// WritePackets stores outbound packets into the channel.
func (e *fwdTestLinkEndpoint) WritePackets(r RouteInfo, gso *GSO, pkts PacketBufferList, protocol tcpip.NetworkProtocolNumber) (int, tcpip.Error) {
n := 0
for pkt := pkts.Front(); pkt != nil; pkt = pkt.Next() {
e.WritePacket(r, gso, protocol, pkt)
n++
}
return n, nil
}
// Wait implements stack.LinkEndpoint.Wait.
func (*fwdTestLinkEndpoint) Wait() {}
// ARPHardwareType implements stack.LinkEndpoint.ARPHardwareType.
func (*fwdTestLinkEndpoint) ARPHardwareType() header.ARPHardwareType {
panic("not implemented")
}
// AddHeader implements stack.LinkEndpoint.AddHeader.
func (e *fwdTestLinkEndpoint) AddHeader(local, remote tcpip.LinkAddress, protocol tcpip.NetworkProtocolNumber, pkt *PacketBuffer) {
panic("not implemented")
}
func fwdTestNetFactory(t *testing.T, proto *fwdTestNetworkProtocol, useNeighborCache bool) (ep1, ep2 *fwdTestLinkEndpoint) {
// Create a stack with the network protocol and two NICs.
s := New(Options{
NetworkProtocols: []NetworkProtocolFactory{func(s *Stack) NetworkProtocol {
proto.stack = s
return proto
}},
UseNeighborCache: useNeighborCache,
})
// Enable forwarding.
s.SetForwarding(proto.Number(), true)
// NIC 1 has the link address "a", and added the network address 1.
ep1 = &fwdTestLinkEndpoint{
C: make(chan fwdTestPacketInfo, 300),
mtu: fwdTestNetDefaultMTU,
linkAddr: "a",
}
if err := s.CreateNIC(1, ep1); err != nil {
t.Fatal("CreateNIC #1 failed:", err)
}
if err := s.AddAddress(1, fwdTestNetNumber, "\x01"); err != nil {
t.Fatal("AddAddress #1 failed:", err)
}
// NIC 2 has the link address "b", and added the network address 2.
ep2 = &fwdTestLinkEndpoint{
C: make(chan fwdTestPacketInfo, 300),
mtu: fwdTestNetDefaultMTU,
linkAddr: "b",
}
if err := s.CreateNIC(2, ep2); err != nil {
t.Fatal("CreateNIC #2 failed:", err)
}
if err := s.AddAddress(2, fwdTestNetNumber, "\x02"); err != nil {
t.Fatal("AddAddress #2 failed:", err)
}
nic, ok := s.nics[2]
if !ok {
t.Fatal("NIC 2 does not exist")
}
if l, ok := nic.linkAddrResolvers[fwdTestNetNumber]; ok {
proto.neighborTable = l.neighborTable
}
// Route all packets to NIC 2.
{
subnet, err := tcpip.NewSubnet("\x00", "\x00")
if err != nil {
t.Fatal(err)
}
s.SetRouteTable([]tcpip.Route{{Destination: subnet, NIC: 2}})
}
return ep1, ep2
}
func TestForwardingWithStaticResolver(t *testing.T) {
tests := []struct {
name string
useNeighborCache bool
}{
{
name: "linkAddrCache",
useNeighborCache: false,
},
{
name: "neighborCache",
useNeighborCache: true,
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
// Create a network protocol with a static resolver.
proto := &fwdTestNetworkProtocol{
onResolveStaticAddress:
// The network address 3 is resolved to the link address "c".
func(addr tcpip.Address) (tcpip.LinkAddress, bool) {
if addr == "\x03" {
return "c", true
}
return "", false
},
}
ep1, ep2 := fwdTestNetFactory(t, proto, test.useNeighborCache)
// Inject an inbound packet to address 3 on NIC 1, and see if it is
// forwarded to NIC 2.
buf := buffer.NewView(30)
buf[dstAddrOffset] = 3
ep1.InjectInbound(fwdTestNetNumber, NewPacketBuffer(PacketBufferOptions{
Data: buf.ToVectorisedView(),
}))
var p fwdTestPacketInfo
select {
case p = <-ep2.C:
default:
t.Fatal("packet not forwarded")
}
// Test that the static address resolution happened correctly.
if p.RemoteLinkAddress != "c" {
t.Fatalf("got p.RemoteLinkAddress = %s, want = c", p.RemoteLinkAddress)
}
if p.LocalLinkAddress != "b" {
t.Fatalf("got p.LocalLinkAddress = %s, want = b", p.LocalLinkAddress)
}
})
}
}
func TestForwardingWithFakeResolver(t *testing.T) {
tests := []struct {
name string
useNeighborCache bool
}{
{
name: "linkAddrCache",
useNeighborCache: false,
},
{
name: "neighborCache",
useNeighborCache: true,
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
proto := fwdTestNetworkProtocol{
addrResolveDelay: 500 * time.Millisecond,
onLinkAddressResolved: func(neigh neighborTable, addr tcpip.Address, linkAddr tcpip.LinkAddress) {
t.Helper()
if len(linkAddr) != 0 {
t.Fatalf("got linkAddr=%q, want unspecified", linkAddr)
}
// Any address will be resolved to the link address "c".
neigh.handleConfirmation(addr, "c", ReachabilityConfirmationFlags{
Solicited: true,
Override: false,
IsRouter: false,
})
},
}
ep1, ep2 := fwdTestNetFactory(t, &proto, test.useNeighborCache)
// Inject an inbound packet to address 3 on NIC 1, and see if it is
// forwarded to NIC 2.
buf := buffer.NewView(30)
buf[dstAddrOffset] = 3
ep1.InjectInbound(fwdTestNetNumber, NewPacketBuffer(PacketBufferOptions{
Data: buf.ToVectorisedView(),
}))
var p fwdTestPacketInfo
select {
case p = <-ep2.C:
case <-time.After(time.Second):
t.Fatal("packet not forwarded")
}
// Test that the address resolution happened correctly.
if p.RemoteLinkAddress != "c" {
t.Fatalf("got p.RemoteLinkAddress = %s, want = c", p.RemoteLinkAddress)
}
if p.LocalLinkAddress != "b" {
t.Fatalf("got p.LocalLinkAddress = %s, want = b", p.LocalLinkAddress)
}
})
}
}
func TestForwardingWithNoResolver(t *testing.T) {
// Create a network protocol without a resolver.
proto := &fwdTestNetworkProtocol{}
// Whether or not we use the neighbor cache here does not matter since
// neither linkAddrCache nor neighborCache will be used.
ep1, ep2 := fwdTestNetFactory(t, proto, false /* useNeighborCache */)
// inject an inbound packet to address 3 on NIC 1, and see if it is
// forwarded to NIC 2.
buf := buffer.NewView(30)
buf[dstAddrOffset] = 3
ep1.InjectInbound(fwdTestNetNumber, NewPacketBuffer(PacketBufferOptions{
Data: buf.ToVectorisedView(),
}))
select {
case <-ep2.C:
t.Fatal("Packet should not be forwarded")
case <-time.After(time.Second):
}
}
func TestForwardingResolutionFailsForQueuedPackets(t *testing.T) {
proto := &fwdTestNetworkProtocol{
addrResolveDelay: 50 * time.Millisecond,
onLinkAddressResolved: func(neighborTable, tcpip.Address, tcpip.LinkAddress) {
// Don't resolve the link address.
},
}
ep1, ep2 := fwdTestNetFactory(t, proto, true /* useNeighborCache */)
const numPackets int = 5
// These packets will all be enqueued in the packet queue to wait for link
// address resolution.
for i := 0; i < numPackets; i++ {
buf := buffer.NewView(30)
buf[dstAddrOffset] = 3
ep1.InjectInbound(fwdTestNetNumber, NewPacketBuffer(PacketBufferOptions{
Data: buf.ToVectorisedView(),
}))
}
// All packets should fail resolution.
// TODO(gvisor.dev/issue/5141): Use a fake clock.
for i := 0; i < numPackets; i++ {
select {
case got := <-ep2.C:
t.Fatalf("got %#v; packets should have failed resolution and not been forwarded", got)
case <-time.After(100 * time.Millisecond):
}
}
}
func TestForwardingWithFakeResolverPartialTimeout(t *testing.T) {
tests := []struct {
name string
useNeighborCache bool
}{
{
name: "linkAddrCache",
useNeighborCache: false,
},
{
name: "neighborCache",
useNeighborCache: true,
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
proto := fwdTestNetworkProtocol{
addrResolveDelay: 500 * time.Millisecond,
onLinkAddressResolved: func(neigh neighborTable, addr tcpip.Address, linkAddr tcpip.LinkAddress) {
t.Helper()
if len(linkAddr) != 0 {
t.Fatalf("got linkAddr=%q, want unspecified", linkAddr)
}
// Only packets to address 3 will be resolved to the
// link address "c".
if addr == "\x03" {
neigh.handleConfirmation(addr, "c", ReachabilityConfirmationFlags{
Solicited: true,
Override: false,
IsRouter: false,
})
}
},
}
ep1, ep2 := fwdTestNetFactory(t, &proto, test.useNeighborCache)
// Inject an inbound packet to address 4 on NIC 1. This packet should
// not be forwarded.
buf := buffer.NewView(30)
buf[dstAddrOffset] = 4
ep1.InjectInbound(fwdTestNetNumber, NewPacketBuffer(PacketBufferOptions{
Data: buf.ToVectorisedView(),
}))
// Inject an inbound packet to address 3 on NIC 1, and see if it is
// forwarded to NIC 2.
buf = buffer.NewView(30)
buf[dstAddrOffset] = 3
ep1.InjectInbound(fwdTestNetNumber, NewPacketBuffer(PacketBufferOptions{
Data: buf.ToVectorisedView(),
}))
var p fwdTestPacketInfo
select {
case p = <-ep2.C:
case <-time.After(time.Second):
t.Fatal("packet not forwarded")
}
if nh := PayloadSince(p.Pkt.NetworkHeader()); nh[dstAddrOffset] != 3 {
t.Fatalf("got p.Pkt.NetworkHeader[dstAddrOffset] = %d, want = 3", nh[dstAddrOffset])
}
// Test that the address resolution happened correctly.
if p.RemoteLinkAddress != "c" {
t.Fatalf("got p.RemoteLinkAddress = %s, want = c", p.RemoteLinkAddress)
}
if p.LocalLinkAddress != "b" {
t.Fatalf("got p.LocalLinkAddress = %s, want = b", p.LocalLinkAddress)
}
})
}
}
func TestForwardingWithFakeResolverTwoPackets(t *testing.T) {
tests := []struct {
name string
useNeighborCache bool
}{
{
name: "linkAddrCache",
useNeighborCache: false,
},
{
name: "neighborCache",
useNeighborCache: true,
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
proto := fwdTestNetworkProtocol{
addrResolveDelay: 500 * time.Millisecond,
onLinkAddressResolved: func(neigh neighborTable, addr tcpip.Address, linkAddr tcpip.LinkAddress) {
t.Helper()
if len(linkAddr) != 0 {
t.Fatalf("got linkAddr=%q, want unspecified", linkAddr)
}
// Any packets will be resolved to the link address "c".
neigh.handleConfirmation(addr, "c", ReachabilityConfirmationFlags{
Solicited: true,
Override: false,
IsRouter: false,
})
},
}
ep1, ep2 := fwdTestNetFactory(t, &proto, test.useNeighborCache)
// Inject two inbound packets to address 3 on NIC 1.
for i := 0; i < 2; i++ {
buf := buffer.NewView(30)
buf[dstAddrOffset] = 3
ep1.InjectInbound(fwdTestNetNumber, NewPacketBuffer(PacketBufferOptions{
Data: buf.ToVectorisedView(),
}))
}
for i := 0; i < 2; i++ {
var p fwdTestPacketInfo
select {
case p = <-ep2.C:
case <-time.After(time.Second):
t.Fatal("packet not forwarded")
}
if nh := PayloadSince(p.Pkt.NetworkHeader()); nh[dstAddrOffset] != 3 {
t.Fatalf("got p.Pkt.NetworkHeader[dstAddrOffset] = %d, want = 3", nh[dstAddrOffset])
}
// Test that the address resolution happened correctly.
if p.RemoteLinkAddress != "c" {
t.Fatalf("got p.RemoteLinkAddress = %s, want = c", p.RemoteLinkAddress)
}
if p.LocalLinkAddress != "b" {
t.Fatalf("got p.LocalLinkAddress = %s, want = b", p.LocalLinkAddress)
}
}
})
}
}
func TestForwardingWithFakeResolverManyPackets(t *testing.T) {
tests := []struct {
name string
useNeighborCache bool
}{
{
name: "linkAddrCache",
useNeighborCache: false,
},
{
name: "neighborCache",
useNeighborCache: true,
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
proto := fwdTestNetworkProtocol{
addrResolveDelay: 500 * time.Millisecond,
onLinkAddressResolved: func(neigh neighborTable, addr tcpip.Address, linkAddr tcpip.LinkAddress) {
t.Helper()
if len(linkAddr) != 0 {
t.Fatalf("got linkAddr=%q, want unspecified", linkAddr)
}
// Any packets will be resolved to the link address "c".
neigh.handleConfirmation(addr, "c", ReachabilityConfirmationFlags{
Solicited: true,
Override: false,
IsRouter: false,
})
},
}
ep1, ep2 := fwdTestNetFactory(t, &proto, test.useNeighborCache)
for i := 0; i < maxPendingPacketsPerResolution+5; i++ {
// Inject inbound 'maxPendingPacketsPerResolution + 5' packets on NIC 1.
buf := buffer.NewView(30)
buf[dstAddrOffset] = 3
// Set the packet sequence number.
binary.BigEndian.PutUint16(buf[fwdTestNetHeaderLen:], uint16(i))
ep1.InjectInbound(fwdTestNetNumber, NewPacketBuffer(PacketBufferOptions{
Data: buf.ToVectorisedView(),
}))
}
for i := 0; i < maxPendingPacketsPerResolution; i++ {
var p fwdTestPacketInfo
select {
case p = <-ep2.C:
case <-time.After(time.Second):
t.Fatal("packet not forwarded")
}
b := PayloadSince(p.Pkt.NetworkHeader())
if b[dstAddrOffset] != 3 {
t.Fatalf("got b[dstAddrOffset] = %d, want = 3", b[dstAddrOffset])
}
if len(b) < fwdTestNetHeaderLen+2 {
t.Fatalf("packet is too short to hold a sequence number: len(b) = %d", b)
}
seqNumBuf := b[fwdTestNetHeaderLen:]
// The first 5 packets should not be forwarded so the sequence number should
// start with 5.
want := uint16(i + 5)
if n := binary.BigEndian.Uint16(seqNumBuf); n != want {
t.Fatalf("got the packet #%d, want = #%d", n, want)
}
// Test that the address resolution happened correctly.
if p.RemoteLinkAddress != "c" {
t.Fatalf("got p.RemoteLinkAddress = %s, want = c", p.RemoteLinkAddress)
}
if p.LocalLinkAddress != "b" {
t.Fatalf("got p.LocalLinkAddress = %s, want = b", p.LocalLinkAddress)
}
}
})
}
}
func TestForwardingWithFakeResolverManyResolutions(t *testing.T) {
tests := []struct {
name string
useNeighborCache bool
proto *fwdTestNetworkProtocol
}{
{
name: "linkAddrCache",
useNeighborCache: false,
},
{
name: "neighborCache",
useNeighborCache: true,
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
proto := fwdTestNetworkProtocol{
addrResolveDelay: 500 * time.Millisecond,
onLinkAddressResolved: func(neigh neighborTable, addr tcpip.Address, linkAddr tcpip.LinkAddress) {
t.Helper()
if len(linkAddr) != 0 {
t.Fatalf("got linkAddr=%q, want unspecified", linkAddr)
}
// Any packets will be resolved to the link address "c".
neigh.handleConfirmation(addr, "c", ReachabilityConfirmationFlags{
Solicited: true,
Override: false,
IsRouter: false,
})
},
}
ep1, ep2 := fwdTestNetFactory(t, &proto, test.useNeighborCache)
for i := 0; i < maxPendingResolutions+5; i++ {
// Inject inbound 'maxPendingResolutions + 5' packets on NIC 1.
// Each packet has a different destination address (3 to
// maxPendingResolutions + 7).
buf := buffer.NewView(30)
buf[dstAddrOffset] = byte(3 + i)
ep1.InjectInbound(fwdTestNetNumber, NewPacketBuffer(PacketBufferOptions{
Data: buf.ToVectorisedView(),
}))
}
for i := 0; i < maxPendingResolutions; i++ {
var p fwdTestPacketInfo
select {
case p = <-ep2.C:
case <-time.After(time.Second):
t.Fatal("packet not forwarded")
}
// The first 5 packets (address 3 to 7) should not be forwarded
// because their address resolutions are interrupted.
if nh := PayloadSince(p.Pkt.NetworkHeader()); nh[dstAddrOffset] < 8 {
t.Fatalf("got p.Pkt.NetworkHeader[dstAddrOffset] = %d, want p.Pkt.NetworkHeader[dstAddrOffset] >= 8", nh[dstAddrOffset])
}
// Test that the address resolution happened correctly.
if p.RemoteLinkAddress != "c" {
t.Fatalf("got p.RemoteLinkAddress = %s, want = c", p.RemoteLinkAddress)
}
if p.LocalLinkAddress != "b" {
t.Fatalf("got p.LocalLinkAddress = %s, want = b", p.LocalLinkAddress)
}
}
})
}
}
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