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-rw-r--r--test/packetimpact/testbench/BUILD46
-rw-r--r--test/packetimpact/testbench/connections.go1260
-rw-r--r--test/packetimpact/testbench/dut.go744
-rw-r--r--test/packetimpact/testbench/dut_client.go28
-rw-r--r--test/packetimpact/testbench/layers.go1530
-rw-r--r--test/packetimpact/testbench/layers_test.go728
-rw-r--r--test/packetimpact/testbench/rawsockets.go188
-rw-r--r--test/packetimpact/testbench/testbench.go133
8 files changed, 0 insertions, 4657 deletions
diff --git a/test/packetimpact/testbench/BUILD b/test/packetimpact/testbench/BUILD
deleted file mode 100644
index 5a0ee1367..000000000
--- a/test/packetimpact/testbench/BUILD
+++ /dev/null
@@ -1,46 +0,0 @@
-load("//tools:defs.bzl", "go_library", "go_test")
-
-package(
- default_visibility = ["//test/packetimpact:__subpackages__"],
- licenses = ["notice"],
-)
-
-go_library(
- name = "testbench",
- srcs = [
- "connections.go",
- "dut.go",
- "dut_client.go",
- "layers.go",
- "rawsockets.go",
- "testbench.go",
- ],
- deps = [
- "//pkg/tcpip",
- "//pkg/tcpip/buffer",
- "//pkg/tcpip/header",
- "//pkg/tcpip/seqnum",
- "//pkg/usermem",
- "//test/packetimpact/netdevs",
- "//test/packetimpact/proto:posix_server_go_proto",
- "@com_github_google_go_cmp//cmp:go_default_library",
- "@com_github_google_go_cmp//cmp/cmpopts:go_default_library",
- "@com_github_mohae_deepcopy//:go_default_library",
- "@org_golang_google_grpc//:go_default_library",
- "@org_golang_google_grpc//keepalive:go_default_library",
- "@org_golang_x_sys//unix:go_default_library",
- "@org_uber_go_multierr//:go_default_library",
- ],
-)
-
-go_test(
- name = "testbench_test",
- size = "small",
- srcs = ["layers_test.go"],
- library = ":testbench",
- deps = [
- "//pkg/tcpip",
- "//pkg/tcpip/header",
- "@com_github_mohae_deepcopy//:go_default_library",
- ],
-)
diff --git a/test/packetimpact/testbench/connections.go b/test/packetimpact/testbench/connections.go
deleted file mode 100644
index 8fa585804..000000000
--- a/test/packetimpact/testbench/connections.go
+++ /dev/null
@@ -1,1260 +0,0 @@
-// 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 testbench has utilities to send and receive packets and also command
-// the DUT to run POSIX functions.
-package testbench
-
-import (
- "fmt"
- "math/rand"
- "net"
- "testing"
- "time"
-
- "github.com/mohae/deepcopy"
- "go.uber.org/multierr"
- "golang.org/x/sys/unix"
- "gvisor.dev/gvisor/pkg/tcpip"
- "gvisor.dev/gvisor/pkg/tcpip/header"
- "gvisor.dev/gvisor/pkg/tcpip/seqnum"
-)
-
-func portFromSockaddr(sa unix.Sockaddr) (uint16, error) {
- switch sa := sa.(type) {
- case *unix.SockaddrInet4:
- return uint16(sa.Port), nil
- case *unix.SockaddrInet6:
- return uint16(sa.Port), nil
- }
- return 0, fmt.Errorf("sockaddr type %T does not contain port", sa)
-}
-
-// pickPort makes a new socket and returns the socket FD and port. The domain
-// should be AF_INET or AF_INET6. The caller must close the FD when done with
-// the port if there is no error.
-func pickPort(domain, typ int) (fd int, port uint16, err error) {
- fd, err = unix.Socket(domain, typ, 0)
- if err != nil {
- return -1, 0, fmt.Errorf("creating socket: %w", err)
- }
- defer func() {
- if err != nil {
- if cerr := unix.Close(fd); cerr != nil {
- err = multierr.Append(err, fmt.Errorf("failed to close socket %d: %w", fd, cerr))
- }
- }
- }()
- var sa unix.Sockaddr
- switch domain {
- case unix.AF_INET:
- var sa4 unix.SockaddrInet4
- copy(sa4.Addr[:], net.ParseIP(LocalIPv4).To4())
- sa = &sa4
- case unix.AF_INET6:
- sa6 := unix.SockaddrInet6{ZoneId: uint32(LocalInterfaceID)}
- copy(sa6.Addr[:], net.ParseIP(LocalIPv6).To16())
- sa = &sa6
- default:
- return -1, 0, fmt.Errorf("invalid domain %d, it should be one of unix.AF_INET or unix.AF_INET6", domain)
- }
- if err = unix.Bind(fd, sa); err != nil {
- return -1, 0, fmt.Errorf("binding to %+v: %w", sa, err)
- }
- sa, err = unix.Getsockname(fd)
- if err != nil {
- return -1, 0, fmt.Errorf("Getsocketname(%d): %w", fd, err)
- }
- port, err = portFromSockaddr(sa)
- if err != nil {
- return -1, 0, fmt.Errorf("extracting port from socket address %+v: %w", sa, err)
- }
- return fd, port, nil
-}
-
-// layerState stores the state of a layer of a connection.
-type layerState interface {
- // outgoing returns an outgoing layer to be sent in a frame. It should not
- // update layerState, that is done in layerState.sent.
- outgoing() Layer
-
- // incoming creates an expected Layer for comparing against a received Layer.
- // Because the expectation can depend on values in the received Layer, it is
- // an input to incoming. For example, the ACK number needs to be checked in a
- // TCP packet but only if the ACK flag is set in the received packet. It
- // should not update layerState, that is done in layerState.received. The
- // caller takes ownership of the returned Layer.
- incoming(received Layer) Layer
-
- // sent updates the layerState based on the Layer that was sent. The input is
- // a Layer with all prev and next pointers populated so that the entire frame
- // as it was sent is available.
- sent(sent Layer) error
-
- // received updates the layerState based on a Layer that is receieved. The
- // input is a Layer with all prev and next pointers populated so that the
- // entire frame as it was receieved is available.
- received(received Layer) error
-
- // close frees associated resources held by the LayerState.
- close() error
-}
-
-// etherState maintains state about an Ethernet connection.
-type etherState struct {
- out, in Ether
-}
-
-var _ layerState = (*etherState)(nil)
-
-// newEtherState creates a new etherState.
-func newEtherState(out, in Ether) (*etherState, error) {
- lMAC, err := tcpip.ParseMACAddress(LocalMAC)
- if err != nil {
- return nil, fmt.Errorf("parsing local MAC: %q: %w", LocalMAC, err)
- }
-
- rMAC, err := tcpip.ParseMACAddress(RemoteMAC)
- if err != nil {
- return nil, fmt.Errorf("parsing remote MAC: %q: %w", RemoteMAC, err)
- }
- s := etherState{
- out: Ether{SrcAddr: &lMAC, DstAddr: &rMAC},
- in: Ether{SrcAddr: &rMAC, DstAddr: &lMAC},
- }
- if err := s.out.merge(&out); err != nil {
- return nil, err
- }
- if err := s.in.merge(&in); err != nil {
- return nil, err
- }
- return &s, nil
-}
-
-func (s *etherState) outgoing() Layer {
- return deepcopy.Copy(&s.out).(Layer)
-}
-
-// incoming implements layerState.incoming.
-func (s *etherState) incoming(Layer) Layer {
- return deepcopy.Copy(&s.in).(Layer)
-}
-
-func (*etherState) sent(Layer) error {
- return nil
-}
-
-func (*etherState) received(Layer) error {
- return nil
-}
-
-func (*etherState) close() error {
- return nil
-}
-
-// ipv4State maintains state about an IPv4 connection.
-type ipv4State struct {
- out, in IPv4
-}
-
-var _ layerState = (*ipv4State)(nil)
-
-// newIPv4State creates a new ipv4State.
-func newIPv4State(out, in IPv4) (*ipv4State, error) {
- lIP := tcpip.Address(net.ParseIP(LocalIPv4).To4())
- rIP := tcpip.Address(net.ParseIP(RemoteIPv4).To4())
- s := ipv4State{
- out: IPv4{SrcAddr: &lIP, DstAddr: &rIP},
- in: IPv4{SrcAddr: &rIP, DstAddr: &lIP},
- }
- if err := s.out.merge(&out); err != nil {
- return nil, err
- }
- if err := s.in.merge(&in); err != nil {
- return nil, err
- }
- return &s, nil
-}
-
-func (s *ipv4State) outgoing() Layer {
- return deepcopy.Copy(&s.out).(Layer)
-}
-
-// incoming implements layerState.incoming.
-func (s *ipv4State) incoming(Layer) Layer {
- return deepcopy.Copy(&s.in).(Layer)
-}
-
-func (*ipv4State) sent(Layer) error {
- return nil
-}
-
-func (*ipv4State) received(Layer) error {
- return nil
-}
-
-func (*ipv4State) close() error {
- return nil
-}
-
-// ipv6State maintains state about an IPv6 connection.
-type ipv6State struct {
- out, in IPv6
-}
-
-var _ layerState = (*ipv6State)(nil)
-
-// newIPv6State creates a new ipv6State.
-func newIPv6State(out, in IPv6) (*ipv6State, error) {
- lIP := tcpip.Address(net.ParseIP(LocalIPv6).To16())
- rIP := tcpip.Address(net.ParseIP(RemoteIPv6).To16())
- s := ipv6State{
- out: IPv6{SrcAddr: &lIP, DstAddr: &rIP},
- in: IPv6{SrcAddr: &rIP, DstAddr: &lIP},
- }
- if err := s.out.merge(&out); err != nil {
- return nil, err
- }
- if err := s.in.merge(&in); err != nil {
- return nil, err
- }
- return &s, nil
-}
-
-// outgoing returns an outgoing layer to be sent in a frame.
-func (s *ipv6State) outgoing() Layer {
- return deepcopy.Copy(&s.out).(Layer)
-}
-
-func (s *ipv6State) incoming(Layer) Layer {
- return deepcopy.Copy(&s.in).(Layer)
-}
-
-func (s *ipv6State) sent(Layer) error {
- // Nothing to do.
- return nil
-}
-
-func (s *ipv6State) received(Layer) error {
- // Nothing to do.
- return nil
-}
-
-// close cleans up any resources held.
-func (s *ipv6State) close() error {
- return nil
-}
-
-// tcpState maintains state about a TCP connection.
-type tcpState struct {
- out, in TCP
- localSeqNum, remoteSeqNum *seqnum.Value
- synAck *TCP
- portPickerFD int
- finSent bool
-}
-
-var _ layerState = (*tcpState)(nil)
-
-// SeqNumValue is a helper routine that allocates a new seqnum.Value value to
-// store v and returns a pointer to it.
-func SeqNumValue(v seqnum.Value) *seqnum.Value {
- return &v
-}
-
-// newTCPState creates a new TCPState.
-func newTCPState(domain int, out, in TCP) (*tcpState, error) {
- portPickerFD, localPort, err := pickPort(domain, unix.SOCK_STREAM)
- if err != nil {
- return nil, err
- }
- s := tcpState{
- out: TCP{SrcPort: &localPort},
- in: TCP{DstPort: &localPort},
- localSeqNum: SeqNumValue(seqnum.Value(rand.Uint32())),
- portPickerFD: portPickerFD,
- finSent: false,
- }
- if err := s.out.merge(&out); err != nil {
- return nil, err
- }
- if err := s.in.merge(&in); err != nil {
- return nil, err
- }
- return &s, nil
-}
-
-func (s *tcpState) outgoing() Layer {
- newOutgoing := deepcopy.Copy(s.out).(TCP)
- if s.localSeqNum != nil {
- newOutgoing.SeqNum = Uint32(uint32(*s.localSeqNum))
- }
- if s.remoteSeqNum != nil {
- newOutgoing.AckNum = Uint32(uint32(*s.remoteSeqNum))
- }
- return &newOutgoing
-}
-
-// incoming implements layerState.incoming.
-func (s *tcpState) incoming(received Layer) Layer {
- tcpReceived, ok := received.(*TCP)
- if !ok {
- return nil
- }
- newIn := deepcopy.Copy(s.in).(TCP)
- if s.remoteSeqNum != nil {
- newIn.SeqNum = Uint32(uint32(*s.remoteSeqNum))
- }
- if s.localSeqNum != nil && (*tcpReceived.Flags&header.TCPFlagAck) != 0 {
- // The caller didn't specify an AckNum so we'll expect the calculated one,
- // but only if the ACK flag is set because the AckNum is not valid in a
- // header if ACK is not set.
- newIn.AckNum = Uint32(uint32(*s.localSeqNum))
- }
- return &newIn
-}
-
-func (s *tcpState) sent(sent Layer) error {
- tcp, ok := sent.(*TCP)
- if !ok {
- return fmt.Errorf("can't update tcpState with %T Layer", sent)
- }
- if !s.finSent {
- // update localSeqNum by the payload only when FIN is not yet sent by us
- for current := tcp.next(); current != nil; current = current.next() {
- s.localSeqNum.UpdateForward(seqnum.Size(current.length()))
- }
- }
- if tcp.Flags != nil && *tcp.Flags&(header.TCPFlagSyn|header.TCPFlagFin) != 0 {
- s.localSeqNum.UpdateForward(1)
- }
- if *tcp.Flags&(header.TCPFlagFin) != 0 {
- s.finSent = true
- }
- return nil
-}
-
-func (s *tcpState) received(l Layer) error {
- tcp, ok := l.(*TCP)
- if !ok {
- return fmt.Errorf("can't update tcpState with %T Layer", l)
- }
- s.remoteSeqNum = SeqNumValue(seqnum.Value(*tcp.SeqNum))
- if *tcp.Flags&(header.TCPFlagSyn|header.TCPFlagFin) != 0 {
- s.remoteSeqNum.UpdateForward(1)
- }
- for current := tcp.next(); current != nil; current = current.next() {
- s.remoteSeqNum.UpdateForward(seqnum.Size(current.length()))
- }
- return nil
-}
-
-// close frees the port associated with this connection.
-func (s *tcpState) close() error {
- if err := unix.Close(s.portPickerFD); err != nil {
- return err
- }
- s.portPickerFD = -1
- return nil
-}
-
-// udpState maintains state about a UDP connection.
-type udpState struct {
- out, in UDP
- portPickerFD int
-}
-
-var _ layerState = (*udpState)(nil)
-
-// newUDPState creates a new udpState.
-func newUDPState(domain int, out, in UDP) (*udpState, error) {
- portPickerFD, localPort, err := pickPort(domain, unix.SOCK_DGRAM)
- if err != nil {
- return nil, fmt.Errorf("picking port: %w", err)
- }
- s := udpState{
- out: UDP{SrcPort: &localPort},
- in: UDP{DstPort: &localPort},
- portPickerFD: portPickerFD,
- }
- if err := s.out.merge(&out); err != nil {
- return nil, err
- }
- if err := s.in.merge(&in); err != nil {
- return nil, err
- }
- return &s, nil
-}
-
-func (s *udpState) outgoing() Layer {
- return deepcopy.Copy(&s.out).(Layer)
-}
-
-// incoming implements layerState.incoming.
-func (s *udpState) incoming(Layer) Layer {
- return deepcopy.Copy(&s.in).(Layer)
-}
-
-func (*udpState) sent(l Layer) error {
- return nil
-}
-
-func (*udpState) received(l Layer) error {
- return nil
-}
-
-// close frees the port associated with this connection.
-func (s *udpState) close() error {
- if err := unix.Close(s.portPickerFD); err != nil {
- return err
- }
- s.portPickerFD = -1
- return nil
-}
-
-// Connection holds a collection of layer states for maintaining a connection
-// along with sockets for sniffer and injecting packets.
-type Connection struct {
- layerStates []layerState
- injector Injector
- sniffer Sniffer
-}
-
-// Returns the default incoming frame against which to match. If received is
-// longer than layerStates then that may still count as a match. The reverse is
-// never a match and nil is returned.
-func (conn *Connection) incoming(received Layers) Layers {
- if len(received) < len(conn.layerStates) {
- return nil
- }
- in := Layers{}
- for i, s := range conn.layerStates {
- toMatch := s.incoming(received[i])
- if toMatch == nil {
- return nil
- }
- in = append(in, toMatch)
- }
- return in
-}
-
-func (conn *Connection) match(override, received Layers) bool {
- toMatch := conn.incoming(received)
- if toMatch == nil {
- return false // Not enough layers in gotLayers for matching.
- }
- if err := toMatch.merge(override); err != nil {
- return false // Failing to merge is not matching.
- }
- return toMatch.match(received)
-}
-
-// Close frees associated resources held by the Connection.
-func (conn *Connection) Close(t *testing.T) {
- t.Helper()
-
- errs := multierr.Combine(conn.sniffer.close(), conn.injector.close())
- for _, s := range conn.layerStates {
- if err := s.close(); err != nil {
- errs = multierr.Append(errs, fmt.Errorf("unable to close %+v: %s", s, err))
- }
- }
- if errs != nil {
- t.Fatalf("unable to close %+v: %s", conn, errs)
- }
-}
-
-// CreateFrame builds a frame for the connection with defaults overriden
-// from the innermost layer out, and additionalLayers added after it.
-//
-// Note that overrideLayers can have a length that is less than the number
-// of layers in this connection, and in such cases the innermost layers are
-// overriden first. As an example, valid values of overrideLayers for a TCP-
-// over-IPv4-over-Ethernet connection are: nil, [TCP], [IPv4, TCP], and
-// [Ethernet, IPv4, TCP].
-func (conn *Connection) CreateFrame(t *testing.T, overrideLayers Layers, additionalLayers ...Layer) Layers {
- t.Helper()
-
- var layersToSend Layers
- for i, s := range conn.layerStates {
- layer := s.outgoing()
- // overrideLayers and conn.layerStates have their tails aligned, so
- // to find the index we move backwards by the distance i is to the
- // end.
- if j := len(overrideLayers) - (len(conn.layerStates) - i); j >= 0 {
- if err := layer.merge(overrideLayers[j]); err != nil {
- t.Fatalf("can't merge %+v into %+v: %s", layer, overrideLayers[j], err)
- }
- }
- layersToSend = append(layersToSend, layer)
- }
- layersToSend = append(layersToSend, additionalLayers...)
- return layersToSend
-}
-
-// SendFrameStateless sends a frame without updating any of the layer states.
-//
-// This method is useful for sending out-of-band control messages such as
-// ICMP packets, where it would not make sense to update the transport layer's
-// state using the ICMP header.
-func (conn *Connection) SendFrameStateless(t *testing.T, frame Layers) {
- t.Helper()
-
- outBytes, err := frame.ToBytes()
- if err != nil {
- t.Fatalf("can't build outgoing packet: %s", err)
- }
- conn.injector.Send(t, outBytes)
-}
-
-// SendFrame sends a frame on the wire and updates the state of all layers.
-func (conn *Connection) SendFrame(t *testing.T, frame Layers) {
- t.Helper()
-
- outBytes, err := frame.ToBytes()
- if err != nil {
- t.Fatalf("can't build outgoing packet: %s", err)
- }
- conn.injector.Send(t, outBytes)
-
- // frame might have nil values where the caller wanted to use default values.
- // sentFrame will have no nil values in it because it comes from parsing the
- // bytes that were actually sent.
- sentFrame := parse(parseEther, outBytes)
- // Update the state of each layer based on what was sent.
- for i, s := range conn.layerStates {
- if err := s.sent(sentFrame[i]); err != nil {
- t.Fatalf("Unable to update the state of %+v with %s: %s", s, sentFrame[i], err)
- }
- }
-}
-
-// send sends a packet, possibly with layers of this connection overridden and
-// additional layers added.
-//
-// Types defined with Connection as the underlying type should expose
-// type-safe versions of this method.
-func (conn *Connection) send(t *testing.T, overrideLayers Layers, additionalLayers ...Layer) {
- t.Helper()
-
- conn.SendFrame(t, conn.CreateFrame(t, overrideLayers, additionalLayers...))
-}
-
-// recvFrame gets the next successfully parsed frame (of type Layers) within the
-// timeout provided. If no parsable frame arrives before the timeout, it returns
-// nil.
-func (conn *Connection) recvFrame(t *testing.T, timeout time.Duration) Layers {
- t.Helper()
-
- if timeout <= 0 {
- return nil
- }
- b := conn.sniffer.Recv(t, timeout)
- if b == nil {
- return nil
- }
- return parse(parseEther, b)
-}
-
-// layersError stores the Layers that we got and the Layers that we wanted to
-// match.
-type layersError struct {
- got, want Layers
-}
-
-func (e *layersError) Error() string {
- return e.got.diff(e.want)
-}
-
-// Expect expects a frame with the final layerStates layer matching the
-// provided Layer within the timeout specified. If it doesn't arrive in time,
-// an error is returned.
-func (conn *Connection) Expect(t *testing.T, layer Layer, timeout time.Duration) (Layer, error) {
- t.Helper()
-
- // Make a frame that will ignore all but the final layer.
- layers := make([]Layer, len(conn.layerStates))
- layers[len(layers)-1] = layer
-
- gotFrame, err := conn.ExpectFrame(t, layers, timeout)
- if err != nil {
- return nil, err
- }
- if len(conn.layerStates)-1 < len(gotFrame) {
- return gotFrame[len(conn.layerStates)-1], nil
- }
- t.Fatalf("the received frame should be at least as long as the expected layers, got %d layers, want at least %d layers, got frame: %#v", len(gotFrame), len(conn.layerStates), gotFrame)
- panic("unreachable")
-}
-
-// ExpectFrame expects a frame that matches the provided Layers within the
-// timeout specified. If one arrives in time, the Layers is returned without an
-// error. If it doesn't arrive in time, it returns nil and error is non-nil.
-func (conn *Connection) ExpectFrame(t *testing.T, layers Layers, timeout time.Duration) (Layers, error) {
- t.Helper()
-
- deadline := time.Now().Add(timeout)
- var errs error
- for {
- var gotLayers Layers
- if timeout = time.Until(deadline); timeout > 0 {
- gotLayers = conn.recvFrame(t, timeout)
- }
- if gotLayers == nil {
- if errs == nil {
- return nil, fmt.Errorf("got no frames matching %v during %s", layers, timeout)
- }
- return nil, fmt.Errorf("got frames %w want %v during %s", errs, layers, timeout)
- }
- if conn.match(layers, gotLayers) {
- for i, s := range conn.layerStates {
- if err := s.received(gotLayers[i]); err != nil {
- t.Fatalf("failed to update test connection's layer states based on received frame: %s", err)
- }
- }
- return gotLayers, nil
- }
- errs = multierr.Combine(errs, &layersError{got: gotLayers, want: conn.incoming(gotLayers)})
- }
-}
-
-// Drain drains the sniffer's receive buffer by receiving packets until there's
-// nothing else to receive.
-func (conn *Connection) Drain(t *testing.T) {
- t.Helper()
-
- conn.sniffer.Drain(t)
-}
-
-// TCPIPv4 maintains the state for all the layers in a TCP/IPv4 connection.
-type TCPIPv4 Connection
-
-// NewTCPIPv4 creates a new TCPIPv4 connection with reasonable defaults.
-func NewTCPIPv4(t *testing.T, outgoingTCP, incomingTCP TCP) TCPIPv4 {
- t.Helper()
-
- etherState, err := newEtherState(Ether{}, Ether{})
- if err != nil {
- t.Fatalf("can't make etherState: %s", err)
- }
- ipv4State, err := newIPv4State(IPv4{}, IPv4{})
- if err != nil {
- t.Fatalf("can't make ipv4State: %s", err)
- }
- tcpState, err := newTCPState(unix.AF_INET, outgoingTCP, incomingTCP)
- if err != nil {
- t.Fatalf("can't make tcpState: %s", err)
- }
- injector, err := NewInjector(t)
- if err != nil {
- t.Fatalf("can't make injector: %s", err)
- }
- sniffer, err := NewSniffer(t)
- if err != nil {
- t.Fatalf("can't make sniffer: %s", err)
- }
-
- return TCPIPv4{
- layerStates: []layerState{etherState, ipv4State, tcpState},
- injector: injector,
- sniffer: sniffer,
- }
-}
-
-// Connect performs a TCP 3-way handshake. The input Connection should have a
-// final TCP Layer.
-func (conn *TCPIPv4) Connect(t *testing.T) {
- t.Helper()
-
- // Send the SYN.
- conn.Send(t, TCP{Flags: Uint8(header.TCPFlagSyn)})
-
- // Wait for the SYN-ACK.
- synAck, err := conn.Expect(t, TCP{Flags: Uint8(header.TCPFlagSyn | header.TCPFlagAck)}, time.Second)
- if err != nil {
- t.Fatalf("didn't get synack during handshake: %s", err)
- }
- conn.layerStates[len(conn.layerStates)-1].(*tcpState).synAck = synAck
-
- // Send an ACK.
- conn.Send(t, TCP{Flags: Uint8(header.TCPFlagAck)})
-}
-
-// ConnectWithOptions performs a TCP 3-way handshake with given TCP options.
-// The input Connection should have a final TCP Layer.
-func (conn *TCPIPv4) ConnectWithOptions(t *testing.T, options []byte) {
- t.Helper()
-
- // Send the SYN.
- conn.Send(t, TCP{Flags: Uint8(header.TCPFlagSyn), Options: options})
-
- // Wait for the SYN-ACK.
- synAck, err := conn.Expect(t, TCP{Flags: Uint8(header.TCPFlagSyn | header.TCPFlagAck)}, time.Second)
- if err != nil {
- t.Fatalf("didn't get synack during handshake: %s", err)
- }
- conn.layerStates[len(conn.layerStates)-1].(*tcpState).synAck = synAck
-
- // Send an ACK.
- conn.Send(t, TCP{Flags: Uint8(header.TCPFlagAck)})
-}
-
-// ExpectData is a convenient method that expects a Layer and the Layer after
-// it. If it doens't arrive in time, it returns nil.
-func (conn *TCPIPv4) ExpectData(t *testing.T, tcp *TCP, payload *Payload, timeout time.Duration) (Layers, error) {
- t.Helper()
-
- expected := make([]Layer, len(conn.layerStates))
- expected[len(expected)-1] = tcp
- if payload != nil {
- expected = append(expected, payload)
- }
- return (*Connection)(conn).ExpectFrame(t, expected, timeout)
-}
-
-// ExpectNextData attempts to receive the next incoming segment for the
-// connection and expects that to match the given layers.
-//
-// It differs from ExpectData() in that here we are only interested in the next
-// received segment, while ExpectData() can receive multiple segments for the
-// connection until there is a match with given layers or a timeout.
-func (conn *TCPIPv4) ExpectNextData(t *testing.T, tcp *TCP, payload *Payload, timeout time.Duration) (Layers, error) {
- t.Helper()
-
- // Receive the first incoming TCP segment for this connection.
- got, err := conn.ExpectData(t, &TCP{}, nil, timeout)
- if err != nil {
- return nil, err
- }
-
- expected := make([]Layer, len(conn.layerStates))
- expected[len(expected)-1] = tcp
- if payload != nil {
- expected = append(expected, payload)
- tcp.SeqNum = Uint32(uint32(*conn.RemoteSeqNum(t)) - uint32(payload.Length()))
- }
- if !(*Connection)(conn).match(expected, got) {
- return nil, fmt.Errorf("next frame is not matching %s during %s: got %s", expected, timeout, got)
- }
- return got, nil
-}
-
-// Send a packet with reasonable defaults. Potentially override the TCP layer in
-// the connection with the provided layer and add additionLayers.
-func (conn *TCPIPv4) Send(t *testing.T, tcp TCP, additionalLayers ...Layer) {
- t.Helper()
-
- (*Connection)(conn).send(t, Layers{&tcp}, additionalLayers...)
-}
-
-// Close frees associated resources held by the TCPIPv4 connection.
-func (conn *TCPIPv4) Close(t *testing.T) {
- t.Helper()
-
- (*Connection)(conn).Close(t)
-}
-
-// Expect expects a frame with the TCP layer matching the provided TCP within
-// the timeout specified. If it doesn't arrive in time, an error is returned.
-func (conn *TCPIPv4) Expect(t *testing.T, tcp TCP, timeout time.Duration) (*TCP, error) {
- t.Helper()
-
- layer, err := (*Connection)(conn).Expect(t, &tcp, timeout)
- if layer == nil {
- return nil, err
- }
- gotTCP, ok := layer.(*TCP)
- if !ok {
- t.Fatalf("expected %s to be TCP", layer)
- }
- return gotTCP, err
-}
-
-func (conn *TCPIPv4) tcpState(t *testing.T) *tcpState {
- t.Helper()
-
- state, ok := conn.layerStates[2].(*tcpState)
- if !ok {
- t.Fatalf("got transport-layer state type=%T, expected tcpState", conn.layerStates[2])
- }
- return state
-}
-
-func (conn *TCPIPv4) ipv4State(t *testing.T) *ipv4State {
- t.Helper()
-
- state, ok := conn.layerStates[1].(*ipv4State)
- if !ok {
- t.Fatalf("expected network-layer state type=%T, expected ipv4State", conn.layerStates[1])
- }
- return state
-}
-
-// RemoteSeqNum returns the next expected sequence number from the DUT.
-func (conn *TCPIPv4) RemoteSeqNum(t *testing.T) *seqnum.Value {
- t.Helper()
-
- return conn.tcpState(t).remoteSeqNum
-}
-
-// LocalSeqNum returns the next sequence number to send from the testbench.
-func (conn *TCPIPv4) LocalSeqNum(t *testing.T) *seqnum.Value {
- t.Helper()
-
- return conn.tcpState(t).localSeqNum
-}
-
-// SynAck returns the SynAck that was part of the handshake.
-func (conn *TCPIPv4) SynAck(t *testing.T) *TCP {
- t.Helper()
-
- return conn.tcpState(t).synAck
-}
-
-// LocalAddr gets the local socket address of this connection.
-func (conn *TCPIPv4) LocalAddr(t *testing.T) *unix.SockaddrInet4 {
- t.Helper()
-
- sa := &unix.SockaddrInet4{Port: int(*conn.tcpState(t).out.SrcPort)}
- copy(sa.Addr[:], *conn.ipv4State(t).out.SrcAddr)
- return sa
-}
-
-// Drain drains the sniffer's receive buffer by receiving packets until there's
-// nothing else to receive.
-func (conn *TCPIPv4) Drain(t *testing.T) {
- t.Helper()
-
- conn.sniffer.Drain(t)
-}
-
-// IPv4Conn maintains the state for all the layers in a IPv4 connection.
-type IPv4Conn Connection
-
-// NewIPv4Conn creates a new IPv4Conn connection with reasonable defaults.
-func NewIPv4Conn(t *testing.T, outgoingIPv4, incomingIPv4 IPv4) IPv4Conn {
- t.Helper()
-
- etherState, err := newEtherState(Ether{}, Ether{})
- if err != nil {
- t.Fatalf("can't make EtherState: %s", err)
- }
- ipv4State, err := newIPv4State(outgoingIPv4, incomingIPv4)
- if err != nil {
- t.Fatalf("can't make IPv4State: %s", err)
- }
-
- injector, err := NewInjector(t)
- if err != nil {
- t.Fatalf("can't make injector: %s", err)
- }
- sniffer, err := NewSniffer(t)
- if err != nil {
- t.Fatalf("can't make sniffer: %s", err)
- }
-
- return IPv4Conn{
- layerStates: []layerState{etherState, ipv4State},
- injector: injector,
- sniffer: sniffer,
- }
-}
-
-// Send sends a frame with ipv4 overriding the IPv4 layer defaults and
-// additionalLayers added after it.
-func (c *IPv4Conn) Send(t *testing.T, ipv4 IPv4, additionalLayers ...Layer) {
- t.Helper()
-
- (*Connection)(c).send(t, Layers{&ipv4}, additionalLayers...)
-}
-
-// Close cleans up any resources held.
-func (c *IPv4Conn) Close(t *testing.T) {
- t.Helper()
-
- (*Connection)(c).Close(t)
-}
-
-// ExpectFrame expects a frame that matches the provided Layers within the
-// timeout specified. If it doesn't arrive in time, an error is returned.
-func (c *IPv4Conn) ExpectFrame(t *testing.T, frame Layers, timeout time.Duration) (Layers, error) {
- t.Helper()
-
- return (*Connection)(c).ExpectFrame(t, frame, timeout)
-}
-
-// IPv6Conn maintains the state for all the layers in a IPv6 connection.
-type IPv6Conn Connection
-
-// NewIPv6Conn creates a new IPv6Conn connection with reasonable defaults.
-func NewIPv6Conn(t *testing.T, outgoingIPv6, incomingIPv6 IPv6) IPv6Conn {
- t.Helper()
-
- etherState, err := newEtherState(Ether{}, Ether{})
- if err != nil {
- t.Fatalf("can't make EtherState: %s", err)
- }
- ipv6State, err := newIPv6State(outgoingIPv6, incomingIPv6)
- if err != nil {
- t.Fatalf("can't make IPv6State: %s", err)
- }
-
- injector, err := NewInjector(t)
- if err != nil {
- t.Fatalf("can't make injector: %s", err)
- }
- sniffer, err := NewSniffer(t)
- if err != nil {
- t.Fatalf("can't make sniffer: %s", err)
- }
-
- return IPv6Conn{
- layerStates: []layerState{etherState, ipv6State},
- injector: injector,
- sniffer: sniffer,
- }
-}
-
-// Send sends a frame with ipv6 overriding the IPv6 layer defaults and
-// additionalLayers added after it.
-func (conn *IPv6Conn) Send(t *testing.T, ipv6 IPv6, additionalLayers ...Layer) {
- t.Helper()
-
- (*Connection)(conn).send(t, Layers{&ipv6}, additionalLayers...)
-}
-
-// Close to clean up any resources held.
-func (conn *IPv6Conn) Close(t *testing.T) {
- t.Helper()
-
- (*Connection)(conn).Close(t)
-}
-
-// ExpectFrame expects a frame that matches the provided Layers within the
-// timeout specified. If it doesn't arrive in time, an error is returned.
-func (conn *IPv6Conn) ExpectFrame(t *testing.T, frame Layers, timeout time.Duration) (Layers, error) {
- t.Helper()
-
- return (*Connection)(conn).ExpectFrame(t, frame, timeout)
-}
-
-// UDPIPv4 maintains the state for all the layers in a UDP/IPv4 connection.
-type UDPIPv4 Connection
-
-// NewUDPIPv4 creates a new UDPIPv4 connection with reasonable defaults.
-func NewUDPIPv4(t *testing.T, outgoingUDP, incomingUDP UDP) UDPIPv4 {
- t.Helper()
-
- etherState, err := newEtherState(Ether{}, Ether{})
- if err != nil {
- t.Fatalf("can't make etherState: %s", err)
- }
- ipv4State, err := newIPv4State(IPv4{}, IPv4{})
- if err != nil {
- t.Fatalf("can't make ipv4State: %s", err)
- }
- udpState, err := newUDPState(unix.AF_INET, outgoingUDP, incomingUDP)
- if err != nil {
- t.Fatalf("can't make udpState: %s", err)
- }
- injector, err := NewInjector(t)
- if err != nil {
- t.Fatalf("can't make injector: %s", err)
- }
- sniffer, err := NewSniffer(t)
- if err != nil {
- t.Fatalf("can't make sniffer: %s", err)
- }
-
- return UDPIPv4{
- layerStates: []layerState{etherState, ipv4State, udpState},
- injector: injector,
- sniffer: sniffer,
- }
-}
-
-func (conn *UDPIPv4) udpState(t *testing.T) *udpState {
- t.Helper()
-
- state, ok := conn.layerStates[2].(*udpState)
- if !ok {
- t.Fatalf("got transport-layer state type=%T, expected udpState", conn.layerStates[2])
- }
- return state
-}
-
-func (conn *UDPIPv4) ipv4State(t *testing.T) *ipv4State {
- t.Helper()
-
- state, ok := conn.layerStates[1].(*ipv4State)
- if !ok {
- t.Fatalf("got network-layer state type=%T, expected ipv4State", conn.layerStates[1])
- }
- return state
-}
-
-// LocalAddr gets the local socket address of this connection.
-func (conn *UDPIPv4) LocalAddr(t *testing.T) *unix.SockaddrInet4 {
- t.Helper()
-
- sa := &unix.SockaddrInet4{Port: int(*conn.udpState(t).out.SrcPort)}
- copy(sa.Addr[:], *conn.ipv4State(t).out.SrcAddr)
- return sa
-}
-
-// Send sends a packet with reasonable defaults, potentially overriding the UDP
-// layer and adding additionLayers.
-func (conn *UDPIPv4) Send(t *testing.T, udp UDP, additionalLayers ...Layer) {
- t.Helper()
-
- (*Connection)(conn).send(t, Layers{&udp}, additionalLayers...)
-}
-
-// SendIP sends a packet with reasonable defaults, potentially overriding the
-// UDP and IPv4 headers and adding additionLayers.
-func (conn *UDPIPv4) SendIP(t *testing.T, ip IPv4, udp UDP, additionalLayers ...Layer) {
- t.Helper()
-
- (*Connection)(conn).send(t, Layers{&ip, &udp}, additionalLayers...)
-}
-
-// Expect expects a frame with the UDP layer matching the provided UDP within
-// the timeout specified. If it doesn't arrive in time, an error is returned.
-func (conn *UDPIPv4) Expect(t *testing.T, udp UDP, timeout time.Duration) (*UDP, error) {
- t.Helper()
-
- layer, err := (*Connection)(conn).Expect(t, &udp, timeout)
- if err != nil {
- return nil, err
- }
- gotUDP, ok := layer.(*UDP)
- if !ok {
- t.Fatalf("expected %s to be UDP", layer)
- }
- return gotUDP, nil
-}
-
-// ExpectData is a convenient method that expects a Layer and the Layer after
-// it. If it doens't arrive in time, it returns nil.
-func (conn *UDPIPv4) ExpectData(t *testing.T, udp UDP, payload Payload, timeout time.Duration) (Layers, error) {
- t.Helper()
-
- expected := make([]Layer, len(conn.layerStates))
- expected[len(expected)-1] = &udp
- if payload.length() != 0 {
- expected = append(expected, &payload)
- }
- return (*Connection)(conn).ExpectFrame(t, expected, timeout)
-}
-
-// Close frees associated resources held by the UDPIPv4 connection.
-func (conn *UDPIPv4) Close(t *testing.T) {
- t.Helper()
-
- (*Connection)(conn).Close(t)
-}
-
-// Drain drains the sniffer's receive buffer by receiving packets until there's
-// nothing else to receive.
-func (conn *UDPIPv4) Drain(t *testing.T) {
- t.Helper()
-
- conn.sniffer.Drain(t)
-}
-
-// UDPIPv6 maintains the state for all the layers in a UDP/IPv6 connection.
-type UDPIPv6 Connection
-
-// NewUDPIPv6 creates a new UDPIPv6 connection with reasonable defaults.
-func NewUDPIPv6(t *testing.T, outgoingUDP, incomingUDP UDP) UDPIPv6 {
- t.Helper()
-
- etherState, err := newEtherState(Ether{}, Ether{})
- if err != nil {
- t.Fatalf("can't make etherState: %s", err)
- }
- ipv6State, err := newIPv6State(IPv6{}, IPv6{})
- if err != nil {
- t.Fatalf("can't make IPv6State: %s", err)
- }
- udpState, err := newUDPState(unix.AF_INET6, outgoingUDP, incomingUDP)
- if err != nil {
- t.Fatalf("can't make udpState: %s", err)
- }
- injector, err := NewInjector(t)
- if err != nil {
- t.Fatalf("can't make injector: %s", err)
- }
- sniffer, err := NewSniffer(t)
- if err != nil {
- t.Fatalf("can't make sniffer: %s", err)
- }
- return UDPIPv6{
- layerStates: []layerState{etherState, ipv6State, udpState},
- injector: injector,
- sniffer: sniffer,
- }
-}
-
-func (conn *UDPIPv6) udpState(t *testing.T) *udpState {
- t.Helper()
-
- state, ok := conn.layerStates[2].(*udpState)
- if !ok {
- t.Fatalf("got transport-layer state type=%T, expected udpState", conn.layerStates[2])
- }
- return state
-}
-
-func (conn *UDPIPv6) ipv6State(t *testing.T) *ipv6State {
- t.Helper()
-
- state, ok := conn.layerStates[1].(*ipv6State)
- if !ok {
- t.Fatalf("got network-layer state type=%T, expected ipv6State", conn.layerStates[1])
- }
- return state
-}
-
-// LocalAddr gets the local socket address of this connection.
-func (conn *UDPIPv6) LocalAddr(t *testing.T) *unix.SockaddrInet6 {
- t.Helper()
-
- sa := &unix.SockaddrInet6{
- Port: int(*conn.udpState(t).out.SrcPort),
- // Local address is in perspective to the remote host, so it's scoped to the
- // ID of the remote interface.
- ZoneId: uint32(RemoteInterfaceID),
- }
- copy(sa.Addr[:], *conn.ipv6State(t).out.SrcAddr)
- return sa
-}
-
-// Send sends a packet with reasonable defaults, potentially overriding the UDP
-// layer and adding additionLayers.
-func (conn *UDPIPv6) Send(t *testing.T, udp UDP, additionalLayers ...Layer) {
- t.Helper()
-
- (*Connection)(conn).send(t, Layers{&udp}, additionalLayers...)
-}
-
-// SendIPv6 sends a packet with reasonable defaults, potentially overriding the
-// UDP and IPv6 headers and adding additionLayers.
-func (conn *UDPIPv6) SendIPv6(t *testing.T, ip IPv6, udp UDP, additionalLayers ...Layer) {
- t.Helper()
-
- (*Connection)(conn).send(t, Layers{&ip, &udp}, additionalLayers...)
-}
-
-// Expect expects a frame with the UDP layer matching the provided UDP within
-// the timeout specified. If it doesn't arrive in time, an error is returned.
-func (conn *UDPIPv6) Expect(t *testing.T, udp UDP, timeout time.Duration) (*UDP, error) {
- t.Helper()
-
- layer, err := (*Connection)(conn).Expect(t, &udp, timeout)
- if err != nil {
- return nil, err
- }
- gotUDP, ok := layer.(*UDP)
- if !ok {
- t.Fatalf("expected %s to be UDP", layer)
- }
- return gotUDP, nil
-}
-
-// ExpectData is a convenient method that expects a Layer and the Layer after
-// it. If it doens't arrive in time, it returns nil.
-func (conn *UDPIPv6) ExpectData(t *testing.T, udp UDP, payload Payload, timeout time.Duration) (Layers, error) {
- t.Helper()
-
- expected := make([]Layer, len(conn.layerStates))
- expected[len(expected)-1] = &udp
- if payload.length() != 0 {
- expected = append(expected, &payload)
- }
- return (*Connection)(conn).ExpectFrame(t, expected, timeout)
-}
-
-// Close frees associated resources held by the UDPIPv6 connection.
-func (conn *UDPIPv6) Close(t *testing.T) {
- t.Helper()
-
- (*Connection)(conn).Close(t)
-}
-
-// Drain drains the sniffer's receive buffer by receiving packets until there's
-// nothing else to receive.
-func (conn *UDPIPv6) Drain(t *testing.T) {
- t.Helper()
-
- conn.sniffer.Drain(t)
-}
-
-// TCPIPv6 maintains the state for all the layers in a TCP/IPv6 connection.
-type TCPIPv6 Connection
-
-// NewTCPIPv6 creates a new TCPIPv6 connection with reasonable defaults.
-func NewTCPIPv6(t *testing.T, outgoingTCP, incomingTCP TCP) TCPIPv6 {
- etherState, err := newEtherState(Ether{}, Ether{})
- if err != nil {
- t.Fatalf("can't make etherState: %s", err)
- }
- ipv6State, err := newIPv6State(IPv6{}, IPv6{})
- if err != nil {
- t.Fatalf("can't make ipv6State: %s", err)
- }
- tcpState, err := newTCPState(unix.AF_INET6, outgoingTCP, incomingTCP)
- if err != nil {
- t.Fatalf("can't make tcpState: %s", err)
- }
- injector, err := NewInjector(t)
- if err != nil {
- t.Fatalf("can't make injector: %s", err)
- }
- sniffer, err := NewSniffer(t)
- if err != nil {
- t.Fatalf("can't make sniffer: %s", err)
- }
-
- return TCPIPv6{
- layerStates: []layerState{etherState, ipv6State, tcpState},
- injector: injector,
- sniffer: sniffer,
- }
-}
-
-func (conn *TCPIPv6) SrcPort() uint16 {
- state := conn.layerStates[2].(*tcpState)
- return *state.out.SrcPort
-}
-
-// ExpectData is a convenient method that expects a Layer and the Layer after
-// it. If it doens't arrive in time, it returns nil.
-func (conn *TCPIPv6) ExpectData(t *testing.T, tcp *TCP, payload *Payload, timeout time.Duration) (Layers, error) {
- t.Helper()
-
- expected := make([]Layer, len(conn.layerStates))
- expected[len(expected)-1] = tcp
- if payload != nil {
- expected = append(expected, payload)
- }
- return (*Connection)(conn).ExpectFrame(t, expected, timeout)
-}
-
-// Close frees associated resources held by the TCPIPv6 connection.
-func (conn *TCPIPv6) Close(t *testing.T) {
- t.Helper()
-
- (*Connection)(conn).Close(t)
-}
diff --git a/test/packetimpact/testbench/dut.go b/test/packetimpact/testbench/dut.go
deleted file mode 100644
index 6165ab293..000000000
--- a/test/packetimpact/testbench/dut.go
+++ /dev/null
@@ -1,744 +0,0 @@
-// 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 testbench
-
-import (
- "context"
- "encoding/binary"
- "flag"
- "net"
- "strconv"
- "syscall"
- "testing"
- "time"
-
- pb "gvisor.dev/gvisor/test/packetimpact/proto/posix_server_go_proto"
-
- "golang.org/x/sys/unix"
- "google.golang.org/grpc"
- "google.golang.org/grpc/keepalive"
-)
-
-// DUT communicates with the DUT to force it to make POSIX calls.
-type DUT struct {
- conn *grpc.ClientConn
- posixServer POSIXClient
-}
-
-// NewDUT creates a new connection with the DUT over gRPC.
-func NewDUT(t *testing.T) DUT {
- t.Helper()
-
- flag.Parse()
- if err := genPseudoFlags(); err != nil {
- t.Fatal("generating psuedo flags:", err)
- }
-
- posixServerAddress := POSIXServerIP + ":" + strconv.Itoa(POSIXServerPort)
- conn, err := grpc.Dial(posixServerAddress, grpc.WithInsecure(), grpc.WithKeepaliveParams(keepalive.ClientParameters{Timeout: RPCKeepalive}))
- if err != nil {
- t.Fatalf("failed to grpc.Dial(%s): %s", posixServerAddress, err)
- }
- posixServer := NewPOSIXClient(conn)
- return DUT{
- conn: conn,
- posixServer: posixServer,
- }
-}
-
-// TearDown closes the underlying connection.
-func (dut *DUT) TearDown() {
- dut.conn.Close()
-}
-
-func (dut *DUT) sockaddrToProto(t *testing.T, sa unix.Sockaddr) *pb.Sockaddr {
- t.Helper()
-
- switch s := sa.(type) {
- case *unix.SockaddrInet4:
- return &pb.Sockaddr{
- Sockaddr: &pb.Sockaddr_In{
- In: &pb.SockaddrIn{
- Family: unix.AF_INET,
- Port: uint32(s.Port),
- Addr: s.Addr[:],
- },
- },
- }
- case *unix.SockaddrInet6:
- return &pb.Sockaddr{
- Sockaddr: &pb.Sockaddr_In6{
- In6: &pb.SockaddrIn6{
- Family: unix.AF_INET6,
- Port: uint32(s.Port),
- Flowinfo: 0,
- ScopeId: s.ZoneId,
- Addr: s.Addr[:],
- },
- },
- }
- }
- t.Fatalf("can't parse Sockaddr struct: %+v", sa)
- return nil
-}
-
-func (dut *DUT) protoToSockaddr(t *testing.T, sa *pb.Sockaddr) unix.Sockaddr {
- t.Helper()
-
- switch s := sa.Sockaddr.(type) {
- case *pb.Sockaddr_In:
- ret := unix.SockaddrInet4{
- Port: int(s.In.GetPort()),
- }
- copy(ret.Addr[:], s.In.GetAddr())
- return &ret
- case *pb.Sockaddr_In6:
- ret := unix.SockaddrInet6{
- Port: int(s.In6.GetPort()),
- ZoneId: s.In6.GetScopeId(),
- }
- copy(ret.Addr[:], s.In6.GetAddr())
- return &ret
- }
- t.Fatalf("can't parse Sockaddr proto: %#v", sa)
- return nil
-}
-
-// CreateBoundSocket makes a new socket on the DUT, with type typ and protocol
-// proto, and bound to the IP address addr. Returns the new file descriptor and
-// the port that was selected on the DUT.
-func (dut *DUT) CreateBoundSocket(t *testing.T, typ, proto int32, addr net.IP) (int32, uint16) {
- t.Helper()
-
- var fd int32
- if addr.To4() != nil {
- fd = dut.Socket(t, unix.AF_INET, typ, proto)
- sa := unix.SockaddrInet4{}
- copy(sa.Addr[:], addr.To4())
- dut.Bind(t, fd, &sa)
- } else if addr.To16() != nil {
- fd = dut.Socket(t, unix.AF_INET6, typ, proto)
- sa := unix.SockaddrInet6{}
- copy(sa.Addr[:], addr.To16())
- sa.ZoneId = uint32(RemoteInterfaceID)
- dut.Bind(t, fd, &sa)
- } else {
- t.Fatalf("invalid IP address: %s", addr)
- }
- sa := dut.GetSockName(t, fd)
- var port int
- switch s := sa.(type) {
- case *unix.SockaddrInet4:
- port = s.Port
- case *unix.SockaddrInet6:
- port = s.Port
- default:
- t.Fatalf("unknown sockaddr type from getsockname: %T", sa)
- }
- return fd, uint16(port)
-}
-
-// CreateListener makes a new TCP connection. If it fails, the test ends.
-func (dut *DUT) CreateListener(t *testing.T, typ, proto, backlog int32) (int32, uint16) {
- t.Helper()
-
- fd, remotePort := dut.CreateBoundSocket(t, typ, proto, net.ParseIP(RemoteIPv4))
- dut.Listen(t, fd, backlog)
- return fd, remotePort
-}
-
-// All the functions that make gRPC calls to the POSIX service are below, sorted
-// alphabetically.
-
-// Accept calls accept on the DUT and causes a fatal test failure if it doesn't
-// succeed. If more control over the timeout or error handling is needed, use
-// AcceptWithErrno.
-func (dut *DUT) Accept(t *testing.T, sockfd int32) (int32, unix.Sockaddr) {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- fd, sa, err := dut.AcceptWithErrno(ctx, t, sockfd)
- if fd < 0 {
- t.Fatalf("failed to accept: %s", err)
- }
- return fd, sa
-}
-
-// AcceptWithErrno calls accept on the DUT.
-func (dut *DUT) AcceptWithErrno(ctx context.Context, t *testing.T, sockfd int32) (int32, unix.Sockaddr, error) {
- t.Helper()
-
- req := pb.AcceptRequest{
- Sockfd: sockfd,
- }
- resp, err := dut.posixServer.Accept(ctx, &req)
- if err != nil {
- t.Fatalf("failed to call Accept: %s", err)
- }
- return resp.GetFd(), dut.protoToSockaddr(t, resp.GetAddr()), syscall.Errno(resp.GetErrno_())
-}
-
-// Bind calls bind on the DUT and causes a fatal test failure if it doesn't
-// succeed. If more control over the timeout or error handling is
-// needed, use BindWithErrno.
-func (dut *DUT) Bind(t *testing.T, fd int32, sa unix.Sockaddr) {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, err := dut.BindWithErrno(ctx, t, fd, sa)
- if ret != 0 {
- t.Fatalf("failed to bind socket: %s", err)
- }
-}
-
-// BindWithErrno calls bind on the DUT.
-func (dut *DUT) BindWithErrno(ctx context.Context, t *testing.T, fd int32, sa unix.Sockaddr) (int32, error) {
- t.Helper()
-
- req := pb.BindRequest{
- Sockfd: fd,
- Addr: dut.sockaddrToProto(t, sa),
- }
- resp, err := dut.posixServer.Bind(ctx, &req)
- if err != nil {
- t.Fatalf("failed to call Bind: %s", err)
- }
- return resp.GetRet(), syscall.Errno(resp.GetErrno_())
-}
-
-// Close calls close on the DUT and causes a fatal test failure if it doesn't
-// succeed. If more control over the timeout or error handling is needed, use
-// CloseWithErrno.
-func (dut *DUT) Close(t *testing.T, fd int32) {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, err := dut.CloseWithErrno(ctx, t, fd)
- if ret != 0 {
- t.Fatalf("failed to close: %s", err)
- }
-}
-
-// CloseWithErrno calls close on the DUT.
-func (dut *DUT) CloseWithErrno(ctx context.Context, t *testing.T, fd int32) (int32, error) {
- t.Helper()
-
- req := pb.CloseRequest{
- Fd: fd,
- }
- resp, err := dut.posixServer.Close(ctx, &req)
- if err != nil {
- t.Fatalf("failed to call Close: %s", err)
- }
- return resp.GetRet(), syscall.Errno(resp.GetErrno_())
-}
-
-// Connect calls connect on the DUT and causes a fatal test failure if it
-// doesn't succeed. If more control over the timeout or error handling is
-// needed, use ConnectWithErrno.
-func (dut *DUT) Connect(t *testing.T, fd int32, sa unix.Sockaddr) {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, err := dut.ConnectWithErrno(ctx, t, fd, sa)
- // Ignore 'operation in progress' error that can be returned when the socket
- // is non-blocking.
- if err != syscall.Errno(unix.EINPROGRESS) && ret != 0 {
- t.Fatalf("failed to connect socket: %s", err)
- }
-}
-
-// ConnectWithErrno calls bind on the DUT.
-func (dut *DUT) ConnectWithErrno(ctx context.Context, t *testing.T, fd int32, sa unix.Sockaddr) (int32, error) {
- t.Helper()
-
- req := pb.ConnectRequest{
- Sockfd: fd,
- Addr: dut.sockaddrToProto(t, sa),
- }
- resp, err := dut.posixServer.Connect(ctx, &req)
- if err != nil {
- t.Fatalf("failed to call Connect: %s", err)
- }
- return resp.GetRet(), syscall.Errno(resp.GetErrno_())
-}
-
-// Fcntl calls fcntl on the DUT and causes a fatal test failure if it
-// doesn't succeed. If more control over the timeout or error handling is
-// needed, use FcntlWithErrno.
-func (dut *DUT) Fcntl(t *testing.T, fd, cmd, arg int32) int32 {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, err := dut.FcntlWithErrno(ctx, t, fd, cmd, arg)
- if ret == -1 {
- t.Fatalf("failed to Fcntl: ret=%d, errno=%s", ret, err)
- }
- return ret
-}
-
-// FcntlWithErrno calls fcntl on the DUT.
-func (dut *DUT) FcntlWithErrno(ctx context.Context, t *testing.T, fd, cmd, arg int32) (int32, error) {
- t.Helper()
-
- req := pb.FcntlRequest{
- Fd: fd,
- Cmd: cmd,
- Arg: arg,
- }
- resp, err := dut.posixServer.Fcntl(ctx, &req)
- if err != nil {
- t.Fatalf("failed to call Fcntl: %s", err)
- }
- return resp.GetRet(), syscall.Errno(resp.GetErrno_())
-}
-
-// GetSockName calls getsockname on the DUT and causes a fatal test failure if
-// it doesn't succeed. If more control over the timeout or error handling is
-// needed, use GetSockNameWithErrno.
-func (dut *DUT) GetSockName(t *testing.T, sockfd int32) unix.Sockaddr {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, sa, err := dut.GetSockNameWithErrno(ctx, t, sockfd)
- if ret != 0 {
- t.Fatalf("failed to getsockname: %s", err)
- }
- return sa
-}
-
-// GetSockNameWithErrno calls getsockname on the DUT.
-func (dut *DUT) GetSockNameWithErrno(ctx context.Context, t *testing.T, sockfd int32) (int32, unix.Sockaddr, error) {
- t.Helper()
-
- req := pb.GetSockNameRequest{
- Sockfd: sockfd,
- }
- resp, err := dut.posixServer.GetSockName(ctx, &req)
- if err != nil {
- t.Fatalf("failed to call Bind: %s", err)
- }
- return resp.GetRet(), dut.protoToSockaddr(t, resp.GetAddr()), syscall.Errno(resp.GetErrno_())
-}
-
-func (dut *DUT) getSockOpt(ctx context.Context, t *testing.T, sockfd, level, optname, optlen int32, typ pb.GetSockOptRequest_SockOptType) (int32, *pb.SockOptVal, error) {
- t.Helper()
-
- req := pb.GetSockOptRequest{
- Sockfd: sockfd,
- Level: level,
- Optname: optname,
- Optlen: optlen,
- Type: typ,
- }
- resp, err := dut.posixServer.GetSockOpt(ctx, &req)
- if err != nil {
- t.Fatalf("failed to call GetSockOpt: %s", err)
- }
- optval := resp.GetOptval()
- if optval == nil {
- t.Fatalf("GetSockOpt response does not contain a value")
- }
- return resp.GetRet(), optval, syscall.Errno(resp.GetErrno_())
-}
-
-// GetSockOpt calls getsockopt on the DUT and causes a fatal test failure if it
-// doesn't succeed. If more control over the timeout or error handling is
-// needed, use GetSockOptWithErrno. Because endianess and the width of values
-// might differ between the testbench and DUT architectures, prefer to use a
-// more specific GetSockOptXxx function.
-func (dut *DUT) GetSockOpt(t *testing.T, sockfd, level, optname, optlen int32) []byte {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, optval, err := dut.GetSockOptWithErrno(ctx, t, sockfd, level, optname, optlen)
- if ret != 0 {
- t.Fatalf("failed to GetSockOpt: %s", err)
- }
- return optval
-}
-
-// GetSockOptWithErrno calls getsockopt on the DUT. Because endianess and the
-// width of values might differ between the testbench and DUT architectures,
-// prefer to use a more specific GetSockOptXxxWithErrno function.
-func (dut *DUT) GetSockOptWithErrno(ctx context.Context, t *testing.T, sockfd, level, optname, optlen int32) (int32, []byte, error) {
- t.Helper()
-
- ret, optval, errno := dut.getSockOpt(ctx, t, sockfd, level, optname, optlen, pb.GetSockOptRequest_BYTES)
- bytesval, ok := optval.Val.(*pb.SockOptVal_Bytesval)
- if !ok {
- t.Fatalf("GetSockOpt got value type: %T, want bytes", optval.Val)
- }
- return ret, bytesval.Bytesval, errno
-}
-
-// GetSockOptInt calls getsockopt on the DUT and causes a fatal test failure
-// if it doesn't succeed. If more control over the int optval or error handling
-// is needed, use GetSockOptIntWithErrno.
-func (dut *DUT) GetSockOptInt(t *testing.T, sockfd, level, optname int32) int32 {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, intval, err := dut.GetSockOptIntWithErrno(ctx, t, sockfd, level, optname)
- if ret != 0 {
- t.Fatalf("failed to GetSockOptInt: %s", err)
- }
- return intval
-}
-
-// GetSockOptIntWithErrno calls getsockopt with an integer optval.
-func (dut *DUT) GetSockOptIntWithErrno(ctx context.Context, t *testing.T, sockfd, level, optname int32) (int32, int32, error) {
- t.Helper()
-
- ret, optval, errno := dut.getSockOpt(ctx, t, sockfd, level, optname, 0, pb.GetSockOptRequest_INT)
- intval, ok := optval.Val.(*pb.SockOptVal_Intval)
- if !ok {
- t.Fatalf("GetSockOpt got value type: %T, want int", optval.Val)
- }
- return ret, intval.Intval, errno
-}
-
-// GetSockOptTimeval calls getsockopt on the DUT and causes a fatal test failure
-// if it doesn't succeed. If more control over the timeout or error handling is
-// needed, use GetSockOptTimevalWithErrno.
-func (dut *DUT) GetSockOptTimeval(t *testing.T, sockfd, level, optname int32) unix.Timeval {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, timeval, err := dut.GetSockOptTimevalWithErrno(ctx, t, sockfd, level, optname)
- if ret != 0 {
- t.Fatalf("failed to GetSockOptTimeval: %s", err)
- }
- return timeval
-}
-
-// GetSockOptTimevalWithErrno calls getsockopt and returns a timeval.
-func (dut *DUT) GetSockOptTimevalWithErrno(ctx context.Context, t *testing.T, sockfd, level, optname int32) (int32, unix.Timeval, error) {
- t.Helper()
-
- ret, optval, errno := dut.getSockOpt(ctx, t, sockfd, level, optname, 0, pb.GetSockOptRequest_TIME)
- tv, ok := optval.Val.(*pb.SockOptVal_Timeval)
- if !ok {
- t.Fatalf("GetSockOpt got value type: %T, want timeval", optval.Val)
- }
- timeval := unix.Timeval{
- Sec: tv.Timeval.Seconds,
- Usec: tv.Timeval.Microseconds,
- }
- return ret, timeval, errno
-}
-
-// Listen calls listen on the DUT and causes a fatal test failure if it doesn't
-// succeed. If more control over the timeout or error handling is needed, use
-// ListenWithErrno.
-func (dut *DUT) Listen(t *testing.T, sockfd, backlog int32) {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, err := dut.ListenWithErrno(ctx, t, sockfd, backlog)
- if ret != 0 {
- t.Fatalf("failed to listen: %s", err)
- }
-}
-
-// ListenWithErrno calls listen on the DUT.
-func (dut *DUT) ListenWithErrno(ctx context.Context, t *testing.T, sockfd, backlog int32) (int32, error) {
- t.Helper()
-
- req := pb.ListenRequest{
- Sockfd: sockfd,
- Backlog: backlog,
- }
- resp, err := dut.posixServer.Listen(ctx, &req)
- if err != nil {
- t.Fatalf("failed to call Listen: %s", err)
- }
- return resp.GetRet(), syscall.Errno(resp.GetErrno_())
-}
-
-// Send calls send on the DUT and causes a fatal test failure if it doesn't
-// succeed. If more control over the timeout or error handling is needed, use
-// SendWithErrno.
-func (dut *DUT) Send(t *testing.T, sockfd int32, buf []byte, flags int32) int32 {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, err := dut.SendWithErrno(ctx, t, sockfd, buf, flags)
- if ret == -1 {
- t.Fatalf("failed to send: %s", err)
- }
- return ret
-}
-
-// SendWithErrno calls send on the DUT.
-func (dut *DUT) SendWithErrno(ctx context.Context, t *testing.T, sockfd int32, buf []byte, flags int32) (int32, error) {
- t.Helper()
-
- req := pb.SendRequest{
- Sockfd: sockfd,
- Buf: buf,
- Flags: flags,
- }
- resp, err := dut.posixServer.Send(ctx, &req)
- if err != nil {
- t.Fatalf("failed to call Send: %s", err)
- }
- return resp.GetRet(), syscall.Errno(resp.GetErrno_())
-}
-
-// SendTo calls sendto on the DUT and causes a fatal test failure if it doesn't
-// succeed. If more control over the timeout or error handling is needed, use
-// SendToWithErrno.
-func (dut *DUT) SendTo(t *testing.T, sockfd int32, buf []byte, flags int32, destAddr unix.Sockaddr) int32 {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, err := dut.SendToWithErrno(ctx, t, sockfd, buf, flags, destAddr)
- if ret == -1 {
- t.Fatalf("failed to sendto: %s", err)
- }
- return ret
-}
-
-// SendToWithErrno calls sendto on the DUT.
-func (dut *DUT) SendToWithErrno(ctx context.Context, t *testing.T, sockfd int32, buf []byte, flags int32, destAddr unix.Sockaddr) (int32, error) {
- t.Helper()
-
- req := pb.SendToRequest{
- Sockfd: sockfd,
- Buf: buf,
- Flags: flags,
- DestAddr: dut.sockaddrToProto(t, destAddr),
- }
- resp, err := dut.posixServer.SendTo(ctx, &req)
- if err != nil {
- t.Fatalf("faled to call SendTo: %s", err)
- }
- return resp.GetRet(), syscall.Errno(resp.GetErrno_())
-}
-
-// SetNonBlocking will set O_NONBLOCK flag for fd if nonblocking
-// is true, otherwise it will clear the flag.
-func (dut *DUT) SetNonBlocking(t *testing.T, fd int32, nonblocking bool) {
- t.Helper()
-
- flags := dut.Fcntl(t, fd, unix.F_GETFL, 0)
- if nonblocking {
- flags |= unix.O_NONBLOCK
- } else {
- flags &= ^unix.O_NONBLOCK
- }
- dut.Fcntl(t, fd, unix.F_SETFL, flags)
-}
-
-func (dut *DUT) setSockOpt(ctx context.Context, t *testing.T, sockfd, level, optname int32, optval *pb.SockOptVal) (int32, error) {
- t.Helper()
-
- req := pb.SetSockOptRequest{
- Sockfd: sockfd,
- Level: level,
- Optname: optname,
- Optval: optval,
- }
- resp, err := dut.posixServer.SetSockOpt(ctx, &req)
- if err != nil {
- t.Fatalf("failed to call SetSockOpt: %s", err)
- }
- return resp.GetRet(), syscall.Errno(resp.GetErrno_())
-}
-
-// SetSockOpt calls setsockopt on the DUT and causes a fatal test failure if it
-// doesn't succeed. If more control over the timeout or error handling is
-// needed, use SetSockOptWithErrno. Because endianess and the width of values
-// might differ between the testbench and DUT architectures, prefer to use a
-// more specific SetSockOptXxx function.
-func (dut *DUT) SetSockOpt(t *testing.T, sockfd, level, optname int32, optval []byte) {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, err := dut.SetSockOptWithErrno(ctx, t, sockfd, level, optname, optval)
- if ret != 0 {
- t.Fatalf("failed to SetSockOpt: %s", err)
- }
-}
-
-// SetSockOptWithErrno calls setsockopt on the DUT. Because endianess and the
-// width of values might differ between the testbench and DUT architectures,
-// prefer to use a more specific SetSockOptXxxWithErrno function.
-func (dut *DUT) SetSockOptWithErrno(ctx context.Context, t *testing.T, sockfd, level, optname int32, optval []byte) (int32, error) {
- t.Helper()
-
- return dut.setSockOpt(ctx, t, sockfd, level, optname, &pb.SockOptVal{Val: &pb.SockOptVal_Bytesval{optval}})
-}
-
-// SetSockOptInt calls setsockopt on the DUT and causes a fatal test failure
-// if it doesn't succeed. If more control over the int optval or error handling
-// is needed, use SetSockOptIntWithErrno.
-func (dut *DUT) SetSockOptInt(t *testing.T, sockfd, level, optname, optval int32) {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, err := dut.SetSockOptIntWithErrno(ctx, t, sockfd, level, optname, optval)
- if ret != 0 {
- t.Fatalf("failed to SetSockOptInt: %s", err)
- }
-}
-
-// SetSockOptIntWithErrno calls setsockopt with an integer optval.
-func (dut *DUT) SetSockOptIntWithErrno(ctx context.Context, t *testing.T, sockfd, level, optname, optval int32) (int32, error) {
- t.Helper()
-
- return dut.setSockOpt(ctx, t, sockfd, level, optname, &pb.SockOptVal{Val: &pb.SockOptVal_Intval{optval}})
-}
-
-// SetSockOptTimeval calls setsockopt on the DUT and causes a fatal test failure
-// if it doesn't succeed. If more control over the timeout or error handling is
-// needed, use SetSockOptTimevalWithErrno.
-func (dut *DUT) SetSockOptTimeval(t *testing.T, sockfd, level, optname int32, tv *unix.Timeval) {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, err := dut.SetSockOptTimevalWithErrno(ctx, t, sockfd, level, optname, tv)
- if ret != 0 {
- t.Fatalf("failed to SetSockOptTimeval: %s", err)
- }
-}
-
-// SetSockOptTimevalWithErrno calls setsockopt with the timeval converted to
-// bytes.
-func (dut *DUT) SetSockOptTimevalWithErrno(ctx context.Context, t *testing.T, sockfd, level, optname int32, tv *unix.Timeval) (int32, error) {
- t.Helper()
-
- timeval := pb.Timeval{
- Seconds: int64(tv.Sec),
- Microseconds: int64(tv.Usec),
- }
- return dut.setSockOpt(ctx, t, sockfd, level, optname, &pb.SockOptVal{Val: &pb.SockOptVal_Timeval{&timeval}})
-}
-
-// Socket calls socket on the DUT and returns the file descriptor. If socket
-// fails on the DUT, the test ends.
-func (dut *DUT) Socket(t *testing.T, domain, typ, proto int32) int32 {
- t.Helper()
-
- fd, err := dut.SocketWithErrno(t, domain, typ, proto)
- if fd < 0 {
- t.Fatalf("failed to create socket: %s", err)
- }
- return fd
-}
-
-// SocketWithErrno calls socket on the DUT and returns the fd and errno.
-func (dut *DUT) SocketWithErrno(t *testing.T, domain, typ, proto int32) (int32, error) {
- t.Helper()
-
- req := pb.SocketRequest{
- Domain: domain,
- Type: typ,
- Protocol: proto,
- }
- ctx := context.Background()
- resp, err := dut.posixServer.Socket(ctx, &req)
- if err != nil {
- t.Fatalf("failed to call Socket: %s", err)
- }
- return resp.GetFd(), syscall.Errno(resp.GetErrno_())
-}
-
-// Recv calls recv on the DUT and causes a fatal test failure if it doesn't
-// succeed. If more control over the timeout or error handling is needed, use
-// RecvWithErrno.
-func (dut *DUT) Recv(t *testing.T, sockfd, len, flags int32) []byte {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- ret, buf, err := dut.RecvWithErrno(ctx, t, sockfd, len, flags)
- if ret == -1 {
- t.Fatalf("failed to recv: %s", err)
- }
- return buf
-}
-
-// RecvWithErrno calls recv on the DUT.
-func (dut *DUT) RecvWithErrno(ctx context.Context, t *testing.T, sockfd, len, flags int32) (int32, []byte, error) {
- t.Helper()
-
- req := pb.RecvRequest{
- Sockfd: sockfd,
- Len: len,
- Flags: flags,
- }
- resp, err := dut.posixServer.Recv(ctx, &req)
- if err != nil {
- t.Fatalf("failed to call Recv: %s", err)
- }
- return resp.GetRet(), resp.GetBuf(), syscall.Errno(resp.GetErrno_())
-}
-
-// SetSockLingerOption sets SO_LINGER socket option on the DUT.
-func (dut *DUT) SetSockLingerOption(t *testing.T, sockfd int32, timeout time.Duration, enable bool) {
- var linger unix.Linger
- if enable {
- linger.Onoff = 1
- }
- linger.Linger = int32(timeout / time.Second)
-
- buf := make([]byte, 8)
- binary.LittleEndian.PutUint32(buf, uint32(linger.Onoff))
- binary.LittleEndian.PutUint32(buf[4:], uint32(linger.Linger))
- dut.SetSockOpt(t, sockfd, unix.SOL_SOCKET, unix.SO_LINGER, buf)
-}
-
-// Shutdown calls shutdown on the DUT and causes a fatal test failure if it doesn't
-// succeed. If more control over the timeout or error handling is needed, use
-// ShutdownWithErrno.
-func (dut *DUT) Shutdown(t *testing.T, fd, how int32) error {
- t.Helper()
-
- ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
- defer cancel()
- return dut.ShutdownWithErrno(ctx, t, fd, how)
-}
-
-// ShutdownWithErrno calls shutdown on the DUT.
-func (dut *DUT) ShutdownWithErrno(ctx context.Context, t *testing.T, fd, how int32) error {
- t.Helper()
-
- req := pb.ShutdownRequest{
- Fd: fd,
- How: how,
- }
- resp, err := dut.posixServer.Shutdown(ctx, &req)
- if err != nil {
- t.Fatalf("failed to call Shutdown: %s", err)
- }
- return syscall.Errno(resp.GetErrno_())
-}
diff --git a/test/packetimpact/testbench/dut_client.go b/test/packetimpact/testbench/dut_client.go
deleted file mode 100644
index 0fc3d97b4..000000000
--- a/test/packetimpact/testbench/dut_client.go
+++ /dev/null
@@ -1,28 +0,0 @@
-// 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 testbench
-
-import (
- "google.golang.org/grpc"
- pb "gvisor.dev/gvisor/test/packetimpact/proto/posix_server_go_proto"
-)
-
-// POSIXClient is a gRPC client for the Posix service.
-type POSIXClient pb.PosixClient
-
-// NewPOSIXClient makes a new gRPC client for the POSIX service.
-func NewPOSIXClient(c grpc.ClientConnInterface) POSIXClient {
- return pb.NewPosixClient(c)
-}
diff --git a/test/packetimpact/testbench/layers.go b/test/packetimpact/testbench/layers.go
deleted file mode 100644
index af7a2ba4e..000000000
--- a/test/packetimpact/testbench/layers.go
+++ /dev/null
@@ -1,1530 +0,0 @@
-// 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 testbench
-
-import (
- "encoding/binary"
- "encoding/hex"
- "fmt"
- "reflect"
- "strings"
-
- "github.com/google/go-cmp/cmp"
- "github.com/google/go-cmp/cmp/cmpopts"
- "go.uber.org/multierr"
- "gvisor.dev/gvisor/pkg/tcpip"
- "gvisor.dev/gvisor/pkg/tcpip/buffer"
- "gvisor.dev/gvisor/pkg/tcpip/header"
-)
-
-// Layer is the interface that all encapsulations must implement.
-//
-// A Layer is an encapsulation in a packet, such as TCP, IPv4, IPv6, etc. A
-// Layer contains all the fields of the encapsulation. Each field is a pointer
-// and may be nil.
-type Layer interface {
- fmt.Stringer
-
- // ToBytes converts the Layer into bytes. In places where the Layer's field
- // isn't nil, the value that is pointed to is used. When the field is nil, a
- // reasonable default for the Layer is used. For example, "64" for IPv4 TTL
- // and a calculated checksum for TCP or IP. Some layers require information
- // from the previous or next layers in order to compute a default, such as
- // TCP's checksum or Ethernet's type, so each Layer has a doubly-linked list
- // to the layer's neighbors.
- ToBytes() ([]byte, error)
-
- // match checks if the current Layer matches the provided Layer. If either
- // Layer has a nil in a given field, that field is considered matching.
- // Otherwise, the values pointed to by the fields must match. The LayerBase is
- // ignored.
- match(Layer) bool
-
- // length in bytes of the current encapsulation
- length() int
-
- // next gets a pointer to the encapsulated Layer.
- next() Layer
-
- // prev gets a pointer to the Layer encapsulating this one.
- Prev() Layer
-
- // setNext sets the pointer to the encapsulated Layer.
- setNext(Layer)
-
- // setPrev sets the pointer to the Layer encapsulating this one.
- setPrev(Layer)
-
- // merge overrides the values in the interface with the provided values.
- merge(Layer) error
-}
-
-// LayerBase is the common elements of all layers.
-type LayerBase struct {
- nextLayer Layer
- prevLayer Layer
-}
-
-func (lb *LayerBase) next() Layer {
- return lb.nextLayer
-}
-
-// Prev returns the previous layer.
-func (lb *LayerBase) Prev() Layer {
- return lb.prevLayer
-}
-
-func (lb *LayerBase) setNext(l Layer) {
- lb.nextLayer = l
-}
-
-func (lb *LayerBase) setPrev(l Layer) {
- lb.prevLayer = l
-}
-
-// equalLayer compares that two Layer structs match while ignoring field in
-// which either input has a nil and also ignoring the LayerBase of the inputs.
-func equalLayer(x, y Layer) bool {
- if x == nil || y == nil {
- return true
- }
- // opt ignores comparison pairs where either of the inputs is a nil.
- opt := cmp.FilterValues(func(x, y interface{}) bool {
- for _, l := range []interface{}{x, y} {
- v := reflect.ValueOf(l)
- if (v.Kind() == reflect.Ptr || v.Kind() == reflect.Slice) && v.IsNil() {
- return true
- }
- }
- return false
- }, cmp.Ignore())
- return cmp.Equal(x, y, opt, cmpopts.IgnoreTypes(LayerBase{}))
-}
-
-// mergeLayer merges y into x. Any fields for which y has a non-nil value, that
-// value overwrite the corresponding fields in x.
-func mergeLayer(x, y Layer) error {
- if y == nil {
- return nil
- }
- if reflect.TypeOf(x) != reflect.TypeOf(y) {
- return fmt.Errorf("can't merge %T into %T", y, x)
- }
- vx := reflect.ValueOf(x).Elem()
- vy := reflect.ValueOf(y).Elem()
- t := vy.Type()
- for i := 0; i < vy.NumField(); i++ {
- t := t.Field(i)
- if t.Anonymous {
- // Ignore the LayerBase in the Layer struct.
- continue
- }
- v := vy.Field(i)
- if v.IsNil() {
- continue
- }
- vx.Field(i).Set(v)
- }
- return nil
-}
-
-func stringLayer(l Layer) string {
- v := reflect.ValueOf(l).Elem()
- t := v.Type()
- var ret []string
- for i := 0; i < v.NumField(); i++ {
- t := t.Field(i)
- if t.Anonymous {
- // Ignore the LayerBase in the Layer struct.
- continue
- }
- v := v.Field(i)
- if v.IsNil() {
- continue
- }
- v = reflect.Indirect(v)
- if v.Kind() == reflect.Slice && v.Type().Elem().Kind() == reflect.Uint8 {
- ret = append(ret, fmt.Sprintf("%s:\n%v", t.Name, hex.Dump(v.Bytes())))
- } else {
- ret = append(ret, fmt.Sprintf("%s:%v", t.Name, v))
- }
- }
- return fmt.Sprintf("&%s{%s}", t, strings.Join(ret, " "))
-}
-
-// Ether can construct and match an ethernet encapsulation.
-type Ether struct {
- LayerBase
- SrcAddr *tcpip.LinkAddress
- DstAddr *tcpip.LinkAddress
- Type *tcpip.NetworkProtocolNumber
-}
-
-func (l *Ether) String() string {
- return stringLayer(l)
-}
-
-// ToBytes implements Layer.ToBytes.
-func (l *Ether) ToBytes() ([]byte, error) {
- b := make([]byte, header.EthernetMinimumSize)
- h := header.Ethernet(b)
- fields := &header.EthernetFields{}
- if l.SrcAddr != nil {
- fields.SrcAddr = *l.SrcAddr
- }
- if l.DstAddr != nil {
- fields.DstAddr = *l.DstAddr
- }
- if l.Type != nil {
- fields.Type = *l.Type
- } else {
- switch n := l.next().(type) {
- case *IPv4:
- fields.Type = header.IPv4ProtocolNumber
- case *IPv6:
- fields.Type = header.IPv6ProtocolNumber
- default:
- return nil, fmt.Errorf("ethernet header's next layer is unrecognized: %#v", n)
- }
- }
- h.Encode(fields)
- return h, nil
-}
-
-// LinkAddress is a helper routine that allocates a new tcpip.LinkAddress value
-// to store v and returns a pointer to it.
-func LinkAddress(v tcpip.LinkAddress) *tcpip.LinkAddress {
- return &v
-}
-
-// NetworkProtocolNumber is a helper routine that allocates a new
-// tcpip.NetworkProtocolNumber value to store v and returns a pointer to it.
-func NetworkProtocolNumber(v tcpip.NetworkProtocolNumber) *tcpip.NetworkProtocolNumber {
- return &v
-}
-
-// layerParser parses the input bytes and returns a Layer along with the next
-// layerParser to run. If there is no more parsing to do, the returned
-// layerParser is nil.
-type layerParser func([]byte) (Layer, layerParser)
-
-// parse parses bytes starting with the first layerParser and using successive
-// layerParsers until all the bytes are parsed.
-func parse(parser layerParser, b []byte) Layers {
- var layers Layers
- for {
- var layer Layer
- layer, parser = parser(b)
- layers = append(layers, layer)
- if parser == nil {
- break
- }
- b = b[layer.length():]
- }
- layers.linkLayers()
- return layers
-}
-
-// parseEther parses the bytes assuming that they start with an ethernet header
-// and continues parsing further encapsulations.
-func parseEther(b []byte) (Layer, layerParser) {
- h := header.Ethernet(b)
- ether := Ether{
- SrcAddr: LinkAddress(h.SourceAddress()),
- DstAddr: LinkAddress(h.DestinationAddress()),
- Type: NetworkProtocolNumber(h.Type()),
- }
- var nextParser layerParser
- switch h.Type() {
- case header.IPv4ProtocolNumber:
- nextParser = parseIPv4
- case header.IPv6ProtocolNumber:
- nextParser = parseIPv6
- default:
- // Assume that the rest is a payload.
- nextParser = parsePayload
- }
- return &ether, nextParser
-}
-
-func (l *Ether) match(other Layer) bool {
- return equalLayer(l, other)
-}
-
-func (l *Ether) length() int {
- return header.EthernetMinimumSize
-}
-
-// merge implements Layer.merge.
-func (l *Ether) merge(other Layer) error {
- return mergeLayer(l, other)
-}
-
-// IPv4 can construct and match an IPv4 encapsulation.
-type IPv4 struct {
- LayerBase
- IHL *uint8
- TOS *uint8
- TotalLength *uint16
- ID *uint16
- Flags *uint8
- FragmentOffset *uint16
- TTL *uint8
- Protocol *uint8
- Checksum *uint16
- SrcAddr *tcpip.Address
- DstAddr *tcpip.Address
-}
-
-func (l *IPv4) String() string {
- return stringLayer(l)
-}
-
-// ToBytes implements Layer.ToBytes.
-func (l *IPv4) ToBytes() ([]byte, error) {
- b := make([]byte, header.IPv4MinimumSize)
- h := header.IPv4(b)
- fields := &header.IPv4Fields{
- IHL: 20,
- TOS: 0,
- TotalLength: 0,
- ID: 0,
- Flags: 0,
- FragmentOffset: 0,
- TTL: 64,
- Protocol: 0,
- Checksum: 0,
- SrcAddr: tcpip.Address(""),
- DstAddr: tcpip.Address(""),
- }
- if l.TOS != nil {
- fields.TOS = *l.TOS
- }
- if l.TotalLength != nil {
- fields.TotalLength = *l.TotalLength
- } else {
- fields.TotalLength = uint16(l.length())
- current := l.next()
- for current != nil {
- fields.TotalLength += uint16(current.length())
- current = current.next()
- }
- }
- if l.ID != nil {
- fields.ID = *l.ID
- }
- if l.Flags != nil {
- fields.Flags = *l.Flags
- }
- if l.FragmentOffset != nil {
- fields.FragmentOffset = *l.FragmentOffset
- }
- if l.TTL != nil {
- fields.TTL = *l.TTL
- }
- if l.Protocol != nil {
- fields.Protocol = *l.Protocol
- } else {
- switch n := l.next().(type) {
- case *TCP:
- fields.Protocol = uint8(header.TCPProtocolNumber)
- case *UDP:
- fields.Protocol = uint8(header.UDPProtocolNumber)
- case *ICMPv4:
- fields.Protocol = uint8(header.ICMPv4ProtocolNumber)
- default:
- // TODO(b/150301488): Support more protocols as needed.
- return nil, fmt.Errorf("ipv4 header's next layer is unrecognized: %#v", n)
- }
- }
- if l.SrcAddr != nil {
- fields.SrcAddr = *l.SrcAddr
- }
- if l.DstAddr != nil {
- fields.DstAddr = *l.DstAddr
- }
- if l.Checksum != nil {
- fields.Checksum = *l.Checksum
- }
- h.Encode(fields)
- if l.Checksum == nil {
- h.SetChecksum(^h.CalculateChecksum())
- }
- return h, nil
-}
-
-// Uint16 is a helper routine that allocates a new
-// uint16 value to store v and returns a pointer to it.
-func Uint16(v uint16) *uint16 {
- return &v
-}
-
-// Uint8 is a helper routine that allocates a new
-// uint8 value to store v and returns a pointer to it.
-func Uint8(v uint8) *uint8 {
- return &v
-}
-
-// Address is a helper routine that allocates a new tcpip.Address value to store
-// v and returns a pointer to it.
-func Address(v tcpip.Address) *tcpip.Address {
- return &v
-}
-
-// parseIPv4 parses the bytes assuming that they start with an ipv4 header and
-// continues parsing further encapsulations.
-func parseIPv4(b []byte) (Layer, layerParser) {
- h := header.IPv4(b)
- tos, _ := h.TOS()
- ipv4 := IPv4{
- IHL: Uint8(h.HeaderLength()),
- TOS: &tos,
- TotalLength: Uint16(h.TotalLength()),
- ID: Uint16(h.ID()),
- Flags: Uint8(h.Flags()),
- FragmentOffset: Uint16(h.FragmentOffset()),
- TTL: Uint8(h.TTL()),
- Protocol: Uint8(h.Protocol()),
- Checksum: Uint16(h.Checksum()),
- SrcAddr: Address(h.SourceAddress()),
- DstAddr: Address(h.DestinationAddress()),
- }
- var nextParser layerParser
- switch h.TransportProtocol() {
- case header.TCPProtocolNumber:
- nextParser = parseTCP
- case header.UDPProtocolNumber:
- nextParser = parseUDP
- case header.ICMPv4ProtocolNumber:
- nextParser = parseICMPv4
- default:
- // Assume that the rest is a payload.
- nextParser = parsePayload
- }
- return &ipv4, nextParser
-}
-
-func (l *IPv4) match(other Layer) bool {
- return equalLayer(l, other)
-}
-
-func (l *IPv4) length() int {
- if l.IHL == nil {
- return header.IPv4MinimumSize
- }
- return int(*l.IHL)
-}
-
-// merge implements Layer.merge.
-func (l *IPv4) merge(other Layer) error {
- return mergeLayer(l, other)
-}
-
-// IPv6 can construct and match an IPv6 encapsulation.
-type IPv6 struct {
- LayerBase
- TrafficClass *uint8
- FlowLabel *uint32
- PayloadLength *uint16
- NextHeader *uint8
- HopLimit *uint8
- SrcAddr *tcpip.Address
- DstAddr *tcpip.Address
-}
-
-func (l *IPv6) String() string {
- return stringLayer(l)
-}
-
-// ToBytes implements Layer.ToBytes.
-func (l *IPv6) ToBytes() ([]byte, error) {
- b := make([]byte, header.IPv6MinimumSize)
- h := header.IPv6(b)
- fields := &header.IPv6Fields{
- HopLimit: 64,
- }
- if l.TrafficClass != nil {
- fields.TrafficClass = *l.TrafficClass
- }
- if l.FlowLabel != nil {
- fields.FlowLabel = *l.FlowLabel
- }
- if l.PayloadLength != nil {
- fields.PayloadLength = *l.PayloadLength
- } else {
- for current := l.next(); current != nil; current = current.next() {
- fields.PayloadLength += uint16(current.length())
- }
- }
- if l.NextHeader != nil {
- fields.NextHeader = *l.NextHeader
- } else {
- nh, err := nextHeaderByLayer(l.next())
- if err != nil {
- return nil, err
- }
- fields.NextHeader = nh
- }
- if l.HopLimit != nil {
- fields.HopLimit = *l.HopLimit
- }
- if l.SrcAddr != nil {
- fields.SrcAddr = *l.SrcAddr
- }
- if l.DstAddr != nil {
- fields.DstAddr = *l.DstAddr
- }
- h.Encode(fields)
- return h, nil
-}
-
-// nextIPv6PayloadParser finds the corresponding parser for nextHeader.
-func nextIPv6PayloadParser(nextHeader uint8) layerParser {
- switch tcpip.TransportProtocolNumber(nextHeader) {
- case header.TCPProtocolNumber:
- return parseTCP
- case header.UDPProtocolNumber:
- return parseUDP
- case header.ICMPv6ProtocolNumber:
- return parseICMPv6
- }
- switch header.IPv6ExtensionHeaderIdentifier(nextHeader) {
- case header.IPv6HopByHopOptionsExtHdrIdentifier:
- return parseIPv6HopByHopOptionsExtHdr
- case header.IPv6DestinationOptionsExtHdrIdentifier:
- return parseIPv6DestinationOptionsExtHdr
- case header.IPv6FragmentExtHdrIdentifier:
- return parseIPv6FragmentExtHdr
- }
- return parsePayload
-}
-
-// parseIPv6 parses the bytes assuming that they start with an ipv6 header and
-// continues parsing further encapsulations.
-func parseIPv6(b []byte) (Layer, layerParser) {
- h := header.IPv6(b)
- tos, flowLabel := h.TOS()
- ipv6 := IPv6{
- TrafficClass: &tos,
- FlowLabel: &flowLabel,
- PayloadLength: Uint16(h.PayloadLength()),
- NextHeader: Uint8(h.NextHeader()),
- HopLimit: Uint8(h.HopLimit()),
- SrcAddr: Address(h.SourceAddress()),
- DstAddr: Address(h.DestinationAddress()),
- }
- nextParser := nextIPv6PayloadParser(h.NextHeader())
- return &ipv6, nextParser
-}
-
-func (l *IPv6) match(other Layer) bool {
- return equalLayer(l, other)
-}
-
-func (l *IPv6) length() int {
- return header.IPv6MinimumSize
-}
-
-// merge overrides the values in l with the values from other but only in fields
-// where the value is not nil.
-func (l *IPv6) merge(other Layer) error {
- return mergeLayer(l, other)
-}
-
-// IPv6HopByHopOptionsExtHdr can construct and match an IPv6HopByHopOptions
-// Extension Header.
-type IPv6HopByHopOptionsExtHdr struct {
- LayerBase
- NextHeader *header.IPv6ExtensionHeaderIdentifier
- Options []byte
-}
-
-// IPv6DestinationOptionsExtHdr can construct and match an IPv6DestinationOptions
-// Extension Header.
-type IPv6DestinationOptionsExtHdr struct {
- LayerBase
- NextHeader *header.IPv6ExtensionHeaderIdentifier
- Options []byte
-}
-
-// IPv6FragmentExtHdr can construct and match an IPv6 Fragment Extension Header.
-type IPv6FragmentExtHdr struct {
- LayerBase
- NextHeader *header.IPv6ExtensionHeaderIdentifier
- FragmentOffset *uint16
- MoreFragments *bool
- Identification *uint32
-}
-
-// nextHeaderByLayer finds the correct next header protocol value for layer l.
-func nextHeaderByLayer(l Layer) (uint8, error) {
- if l == nil {
- return uint8(header.IPv6NoNextHeaderIdentifier), nil
- }
- switch l.(type) {
- case *TCP:
- return uint8(header.TCPProtocolNumber), nil
- case *UDP:
- return uint8(header.UDPProtocolNumber), nil
- case *ICMPv6:
- return uint8(header.ICMPv6ProtocolNumber), nil
- case *Payload:
- return uint8(header.IPv6NoNextHeaderIdentifier), nil
- case *IPv6HopByHopOptionsExtHdr:
- return uint8(header.IPv6HopByHopOptionsExtHdrIdentifier), nil
- case *IPv6DestinationOptionsExtHdr:
- return uint8(header.IPv6DestinationOptionsExtHdrIdentifier), nil
- case *IPv6FragmentExtHdr:
- return uint8(header.IPv6FragmentExtHdrIdentifier), nil
- default:
- // TODO(b/161005083): Support more protocols as needed.
- return 0, fmt.Errorf("failed to deduce the IPv6 header's next protocol: %T", l)
- }
-}
-
-// ipv6OptionsExtHdrToBytes serializes an options extension header into bytes.
-func ipv6OptionsExtHdrToBytes(nextHeader *header.IPv6ExtensionHeaderIdentifier, nextLayer Layer, options []byte) ([]byte, error) {
- length := len(options) + 2
- if length%8 != 0 {
- return nil, fmt.Errorf("IPv6 extension headers must be a multiple of 8 octets long, but the length given: %d, options: %s", length, hex.Dump(options))
- }
- bytes := make([]byte, length)
- if nextHeader != nil {
- bytes[0] = byte(*nextHeader)
- } else {
- nh, err := nextHeaderByLayer(nextLayer)
- if err != nil {
- return nil, err
- }
- bytes[0] = nh
- }
- // ExtHdrLen field is the length of the extension header
- // in 8-octet unit, ignoring the first 8 octets.
- // https://tools.ietf.org/html/rfc2460#section-4.3
- // https://tools.ietf.org/html/rfc2460#section-4.6
- bytes[1] = uint8((length - 8) / 8)
- copy(bytes[2:], options)
- return bytes, nil
-}
-
-// IPv6ExtHdrIdent is a helper routine that allocates a new
-// header.IPv6ExtensionHeaderIdentifier value to store v and returns a pointer
-// to it.
-func IPv6ExtHdrIdent(id header.IPv6ExtensionHeaderIdentifier) *header.IPv6ExtensionHeaderIdentifier {
- return &id
-}
-
-// ToBytes implements Layer.ToBytes.
-func (l *IPv6HopByHopOptionsExtHdr) ToBytes() ([]byte, error) {
- return ipv6OptionsExtHdrToBytes(l.NextHeader, l.next(), l.Options)
-}
-
-// ToBytes implements Layer.ToBytes.
-func (l *IPv6DestinationOptionsExtHdr) ToBytes() ([]byte, error) {
- return ipv6OptionsExtHdrToBytes(l.NextHeader, l.next(), l.Options)
-}
-
-// ToBytes implements Layer.ToBytes.
-func (l *IPv6FragmentExtHdr) ToBytes() ([]byte, error) {
- var offset, mflag uint16
- var ident uint32
- bytes := make([]byte, header.IPv6FragmentExtHdrLength)
- if l.NextHeader != nil {
- bytes[0] = byte(*l.NextHeader)
- } else {
- nh, err := nextHeaderByLayer(l.next())
- if err != nil {
- return nil, err
- }
- bytes[0] = nh
- }
- bytes[1] = 0 // reserved
- if l.MoreFragments != nil && *l.MoreFragments {
- mflag = 1
- }
- if l.FragmentOffset != nil {
- offset = *l.FragmentOffset
- }
- if l.Identification != nil {
- ident = *l.Identification
- }
- offsetAndMflag := offset<<3 | mflag
- binary.BigEndian.PutUint16(bytes[2:], offsetAndMflag)
- binary.BigEndian.PutUint32(bytes[4:], ident)
-
- return bytes, nil
-}
-
-// parseIPv6ExtHdr parses an IPv6 extension header and returns the NextHeader
-// field, the rest of the payload and a parser function for the corresponding
-// next extension header.
-func parseIPv6ExtHdr(b []byte) (header.IPv6ExtensionHeaderIdentifier, []byte, layerParser) {
- nextHeader := b[0]
- // For HopByHop and Destination options extension headers,
- // This field is the length of the extension header in
- // 8-octet units, not including the first 8 octets.
- // https://tools.ietf.org/html/rfc2460#section-4.3
- // https://tools.ietf.org/html/rfc2460#section-4.6
- length := b[1]*8 + 8
- data := b[2:length]
- nextParser := nextIPv6PayloadParser(nextHeader)
- return header.IPv6ExtensionHeaderIdentifier(nextHeader), data, nextParser
-}
-
-// parseIPv6HopByHopOptionsExtHdr parses the bytes assuming that they start
-// with an IPv6 HopByHop Options Extension Header.
-func parseIPv6HopByHopOptionsExtHdr(b []byte) (Layer, layerParser) {
- nextHeader, options, nextParser := parseIPv6ExtHdr(b)
- return &IPv6HopByHopOptionsExtHdr{NextHeader: &nextHeader, Options: options}, nextParser
-}
-
-// parseIPv6DestinationOptionsExtHdr parses the bytes assuming that they start
-// with an IPv6 Destination Options Extension Header.
-func parseIPv6DestinationOptionsExtHdr(b []byte) (Layer, layerParser) {
- nextHeader, options, nextParser := parseIPv6ExtHdr(b)
- return &IPv6DestinationOptionsExtHdr{NextHeader: &nextHeader, Options: options}, nextParser
-}
-
-// Bool is a helper routine that allocates a new
-// bool value to store v and returns a pointer to it.
-func Bool(v bool) *bool {
- return &v
-}
-
-// parseIPv6FragmentExtHdr parses the bytes assuming that they start
-// with an IPv6 Fragment Extension Header.
-func parseIPv6FragmentExtHdr(b []byte) (Layer, layerParser) {
- nextHeader := b[0]
- var extHdr header.IPv6FragmentExtHdr
- copy(extHdr[:], b[2:])
- return &IPv6FragmentExtHdr{
- NextHeader: IPv6ExtHdrIdent(header.IPv6ExtensionHeaderIdentifier(nextHeader)),
- FragmentOffset: Uint16(extHdr.FragmentOffset()),
- MoreFragments: Bool(extHdr.More()),
- Identification: Uint32(extHdr.ID()),
- }, nextIPv6PayloadParser(nextHeader)
-}
-
-func (l *IPv6HopByHopOptionsExtHdr) length() int {
- return len(l.Options) + 2
-}
-
-func (l *IPv6HopByHopOptionsExtHdr) match(other Layer) bool {
- return equalLayer(l, other)
-}
-
-// merge overrides the values in l with the values from other but only in fields
-// where the value is not nil.
-func (l *IPv6HopByHopOptionsExtHdr) merge(other Layer) error {
- return mergeLayer(l, other)
-}
-
-func (l *IPv6HopByHopOptionsExtHdr) String() string {
- return stringLayer(l)
-}
-
-func (l *IPv6DestinationOptionsExtHdr) length() int {
- return len(l.Options) + 2
-}
-
-func (l *IPv6DestinationOptionsExtHdr) match(other Layer) bool {
- return equalLayer(l, other)
-}
-
-// merge overrides the values in l with the values from other but only in fields
-// where the value is not nil.
-func (l *IPv6DestinationOptionsExtHdr) merge(other Layer) error {
- return mergeLayer(l, other)
-}
-
-func (l *IPv6DestinationOptionsExtHdr) String() string {
- return stringLayer(l)
-}
-
-func (*IPv6FragmentExtHdr) length() int {
- return header.IPv6FragmentExtHdrLength
-}
-
-func (l *IPv6FragmentExtHdr) match(other Layer) bool {
- return equalLayer(l, other)
-}
-
-// merge overrides the values in l with the values from other but only in fields
-// where the value is not nil.
-func (l *IPv6FragmentExtHdr) merge(other Layer) error {
- return mergeLayer(l, other)
-}
-
-func (l *IPv6FragmentExtHdr) String() string {
- return stringLayer(l)
-}
-
-// ICMPv6 can construct and match an ICMPv6 encapsulation.
-type ICMPv6 struct {
- LayerBase
- Type *header.ICMPv6Type
- Code *header.ICMPv6Code
- Checksum *uint16
- Payload []byte
-}
-
-func (l *ICMPv6) String() string {
- // TODO(eyalsoha): Do something smarter here when *l.Type is ParameterProblem?
- // We could parse the contents of the Payload as if it were an IPv6 packet.
- return stringLayer(l)
-}
-
-// ToBytes implements Layer.ToBytes.
-func (l *ICMPv6) ToBytes() ([]byte, error) {
- b := make([]byte, header.ICMPv6HeaderSize+len(l.Payload))
- h := header.ICMPv6(b)
- if l.Type != nil {
- h.SetType(*l.Type)
- }
- if l.Code != nil {
- h.SetCode(*l.Code)
- }
- copy(h.NDPPayload(), l.Payload)
- if l.Checksum != nil {
- h.SetChecksum(*l.Checksum)
- } else {
- // It is possible that the ICMPv6 header does not follow the IPv6 header
- // immediately, there could be one or more extension headers in between.
- // We need to search forward to find the IPv6 header.
- for prev := l.Prev(); prev != nil; prev = prev.Prev() {
- if ipv6, ok := prev.(*IPv6); ok {
- payload, err := payload(l)
- if err != nil {
- return nil, err
- }
- h.SetChecksum(header.ICMPv6Checksum(h, *ipv6.SrcAddr, *ipv6.DstAddr, payload))
- break
- }
- }
- }
- return h, nil
-}
-
-// ICMPv6Type is a helper routine that allocates a new ICMPv6Type value to store
-// v and returns a pointer to it.
-func ICMPv6Type(v header.ICMPv6Type) *header.ICMPv6Type {
- return &v
-}
-
-// ICMPv6Code is a helper routine that allocates a new ICMPv6Type value to store
-// v and returns a pointer to it.
-func ICMPv6Code(v header.ICMPv6Code) *header.ICMPv6Code {
- return &v
-}
-
-// Byte is a helper routine that allocates a new byte value to store
-// v and returns a pointer to it.
-func Byte(v byte) *byte {
- return &v
-}
-
-// parseICMPv6 parses the bytes assuming that they start with an ICMPv6 header.
-func parseICMPv6(b []byte) (Layer, layerParser) {
- h := header.ICMPv6(b)
- icmpv6 := ICMPv6{
- Type: ICMPv6Type(h.Type()),
- Code: ICMPv6Code(h.Code()),
- Checksum: Uint16(h.Checksum()),
- Payload: h.NDPPayload(),
- }
- return &icmpv6, nil
-}
-
-func (l *ICMPv6) match(other Layer) bool {
- return equalLayer(l, other)
-}
-
-func (l *ICMPv6) length() int {
- return header.ICMPv6HeaderSize + len(l.Payload)
-}
-
-// merge overrides the values in l with the values from other but only in fields
-// where the value is not nil.
-func (l *ICMPv6) merge(other Layer) error {
- return mergeLayer(l, other)
-}
-
-// ICMPv4Type is a helper routine that allocates a new header.ICMPv4Type value
-// to store t and returns a pointer to it.
-func ICMPv4Type(t header.ICMPv4Type) *header.ICMPv4Type {
- return &t
-}
-
-// ICMPv4Code is a helper routine that allocates a new header.ICMPv4Code value
-// to store t and returns a pointer to it.
-func ICMPv4Code(t header.ICMPv4Code) *header.ICMPv4Code {
- return &t
-}
-
-// ICMPv4 can construct and match an ICMPv4 encapsulation.
-type ICMPv4 struct {
- LayerBase
- Type *header.ICMPv4Type
- Code *header.ICMPv4Code
- Checksum *uint16
- Ident *uint16
- Sequence *uint16
- Payload []byte
-}
-
-func (l *ICMPv4) String() string {
- return stringLayer(l)
-}
-
-// ToBytes implements Layer.ToBytes.
-func (l *ICMPv4) ToBytes() ([]byte, error) {
- b := make([]byte, header.ICMPv4MinimumSize+len(l.Payload))
- h := header.ICMPv4(b)
- if l.Type != nil {
- h.SetType(*l.Type)
- }
- if l.Code != nil {
- h.SetCode(*l.Code)
- }
- if copied := copy(h.Payload(), l.Payload); copied != len(l.Payload) {
- panic(fmt.Sprintf("wrong number of bytes copied into h.Payload(): got = %d, want = %d", len(h.Payload()), len(l.Payload)))
- }
- if l.Ident != nil {
- h.SetIdent(*l.Ident)
- }
- if l.Sequence != nil {
- h.SetSequence(*l.Sequence)
- }
-
- // The checksum must be handled last because the ICMPv4 header fields are
- // included in the computation.
- if l.Checksum != nil {
- h.SetChecksum(*l.Checksum)
- } else {
- // Compute the checksum based on the ICMPv4.Payload and also the subsequent
- // layers.
- payload, err := payload(l)
- if err != nil {
- return nil, err
- }
- var vv buffer.VectorisedView
- vv.AppendView(buffer.View(l.Payload))
- vv.Append(payload)
- h.SetChecksum(header.ICMPv4Checksum(h, vv))
- }
-
- return h, nil
-}
-
-// parseICMPv4 parses the bytes as an ICMPv4 header, returning a Layer and a
-// parser for the encapsulated payload.
-func parseICMPv4(b []byte) (Layer, layerParser) {
- h := header.ICMPv4(b)
- icmpv4 := ICMPv4{
- Type: ICMPv4Type(h.Type()),
- Code: ICMPv4Code(h.Code()),
- Checksum: Uint16(h.Checksum()),
- Ident: Uint16(h.Ident()),
- Sequence: Uint16(h.Sequence()),
- Payload: h.Payload(),
- }
- return &icmpv4, nil
-}
-
-func (l *ICMPv4) match(other Layer) bool {
- return equalLayer(l, other)
-}
-
-func (l *ICMPv4) length() int {
- return header.ICMPv4MinimumSize
-}
-
-// merge overrides the values in l with the values from other but only in fields
-// where the value is not nil.
-func (l *ICMPv4) merge(other Layer) error {
- return mergeLayer(l, other)
-}
-
-// TCP can construct and match a TCP encapsulation.
-type TCP struct {
- LayerBase
- SrcPort *uint16
- DstPort *uint16
- SeqNum *uint32
- AckNum *uint32
- DataOffset *uint8
- Flags *uint8
- WindowSize *uint16
- Checksum *uint16
- UrgentPointer *uint16
- Options []byte
-}
-
-func (l *TCP) String() string {
- return stringLayer(l)
-}
-
-// ToBytes implements Layer.ToBytes.
-func (l *TCP) ToBytes() ([]byte, error) {
- b := make([]byte, l.length())
- h := header.TCP(b)
- if l.SrcPort != nil {
- h.SetSourcePort(*l.SrcPort)
- }
- if l.DstPort != nil {
- h.SetDestinationPort(*l.DstPort)
- }
- if l.SeqNum != nil {
- h.SetSequenceNumber(*l.SeqNum)
- }
- if l.AckNum != nil {
- h.SetAckNumber(*l.AckNum)
- }
- if l.DataOffset != nil {
- h.SetDataOffset(*l.DataOffset)
- } else {
- h.SetDataOffset(uint8(l.length()))
- }
- if l.Flags != nil {
- h.SetFlags(*l.Flags)
- }
- if l.WindowSize != nil {
- h.SetWindowSize(*l.WindowSize)
- } else {
- h.SetWindowSize(32768)
- }
- if l.UrgentPointer != nil {
- h.SetUrgentPoiner(*l.UrgentPointer)
- }
- copy(b[header.TCPMinimumSize:], l.Options)
- header.AddTCPOptionPadding(b[header.TCPMinimumSize:], len(l.Options))
- if l.Checksum != nil {
- h.SetChecksum(*l.Checksum)
- return h, nil
- }
- if err := setTCPChecksum(&h, l); err != nil {
- return nil, err
- }
- return h, nil
-}
-
-// totalLength returns the length of the provided layer and all following
-// layers.
-func totalLength(l Layer) int {
- var totalLength int
- for ; l != nil; l = l.next() {
- totalLength += l.length()
- }
- return totalLength
-}
-
-// payload returns a buffer.VectorisedView of l's payload.
-func payload(l Layer) (buffer.VectorisedView, error) {
- var payloadBytes buffer.VectorisedView
- for current := l.next(); current != nil; current = current.next() {
- payload, err := current.ToBytes()
- if err != nil {
- return buffer.VectorisedView{}, fmt.Errorf("can't get bytes for next header: %s", payload)
- }
- payloadBytes.AppendView(payload)
- }
- return payloadBytes, nil
-}
-
-// layerChecksum calculates the checksum of the Layer header, including the
-// peusdeochecksum of the layer before it and all the bytes after it.
-func layerChecksum(l Layer, protoNumber tcpip.TransportProtocolNumber) (uint16, error) {
- totalLength := uint16(totalLength(l))
- var xsum uint16
- switch p := l.Prev().(type) {
- case *IPv4:
- xsum = header.PseudoHeaderChecksum(protoNumber, *p.SrcAddr, *p.DstAddr, totalLength)
- case *IPv6:
- xsum = header.PseudoHeaderChecksum(protoNumber, *p.SrcAddr, *p.DstAddr, totalLength)
- default:
- // TODO(b/161246171): Support more protocols.
- return 0, fmt.Errorf("checksum for protocol %d is not supported when previous layer is %T", protoNumber, p)
- }
- payloadBytes, err := payload(l)
- if err != nil {
- return 0, err
- }
- xsum = header.ChecksumVV(payloadBytes, xsum)
- return xsum, nil
-}
-
-// setTCPChecksum calculates the checksum of the TCP header and sets it in h.
-func setTCPChecksum(h *header.TCP, tcp *TCP) error {
- h.SetChecksum(0)
- xsum, err := layerChecksum(tcp, header.TCPProtocolNumber)
- if err != nil {
- return err
- }
- h.SetChecksum(^h.CalculateChecksum(xsum))
- return nil
-}
-
-// Uint32 is a helper routine that allocates a new
-// uint32 value to store v and returns a pointer to it.
-func Uint32(v uint32) *uint32 {
- return &v
-}
-
-// parseTCP parses the bytes assuming that they start with a tcp header and
-// continues parsing further encapsulations.
-func parseTCP(b []byte) (Layer, layerParser) {
- h := header.TCP(b)
- tcp := TCP{
- SrcPort: Uint16(h.SourcePort()),
- DstPort: Uint16(h.DestinationPort()),
- SeqNum: Uint32(h.SequenceNumber()),
- AckNum: Uint32(h.AckNumber()),
- DataOffset: Uint8(h.DataOffset()),
- Flags: Uint8(h.Flags()),
- WindowSize: Uint16(h.WindowSize()),
- Checksum: Uint16(h.Checksum()),
- UrgentPointer: Uint16(h.UrgentPointer()),
- Options: b[header.TCPMinimumSize:h.DataOffset()],
- }
- return &tcp, parsePayload
-}
-
-func (l *TCP) match(other Layer) bool {
- return equalLayer(l, other)
-}
-
-func (l *TCP) length() int {
- if l.DataOffset == nil {
- // TCP header including the options must end on a 32-bit
- // boundary; the user could potentially give us a slice
- // whose length is not a multiple of 4 bytes, so we have
- // to do the alignment here.
- optlen := (len(l.Options) + 3) & ^3
- return header.TCPMinimumSize + optlen
- }
- return int(*l.DataOffset)
-}
-
-// merge implements Layer.merge.
-func (l *TCP) merge(other Layer) error {
- return mergeLayer(l, other)
-}
-
-// UDP can construct and match a UDP encapsulation.
-type UDP struct {
- LayerBase
- SrcPort *uint16
- DstPort *uint16
- Length *uint16
- Checksum *uint16
-}
-
-func (l *UDP) String() string {
- return stringLayer(l)
-}
-
-// ToBytes implements Layer.ToBytes.
-func (l *UDP) ToBytes() ([]byte, error) {
- b := make([]byte, header.UDPMinimumSize)
- h := header.UDP(b)
- if l.SrcPort != nil {
- h.SetSourcePort(*l.SrcPort)
- }
- if l.DstPort != nil {
- h.SetDestinationPort(*l.DstPort)
- }
- if l.Length != nil {
- h.SetLength(*l.Length)
- } else {
- h.SetLength(uint16(totalLength(l)))
- }
- if l.Checksum != nil {
- h.SetChecksum(*l.Checksum)
- return h, nil
- }
- if err := setUDPChecksum(&h, l); err != nil {
- return nil, err
- }
- return h, nil
-}
-
-// setUDPChecksum calculates the checksum of the UDP header and sets it in h.
-func setUDPChecksum(h *header.UDP, udp *UDP) error {
- h.SetChecksum(0)
- xsum, err := layerChecksum(udp, header.UDPProtocolNumber)
- if err != nil {
- return err
- }
- h.SetChecksum(^h.CalculateChecksum(xsum))
- return nil
-}
-
-// parseUDP parses the bytes assuming that they start with a udp header and
-// returns the parsed layer and the next parser to use.
-func parseUDP(b []byte) (Layer, layerParser) {
- h := header.UDP(b)
- udp := UDP{
- SrcPort: Uint16(h.SourcePort()),
- DstPort: Uint16(h.DestinationPort()),
- Length: Uint16(h.Length()),
- Checksum: Uint16(h.Checksum()),
- }
- return &udp, parsePayload
-}
-
-func (l *UDP) match(other Layer) bool {
- return equalLayer(l, other)
-}
-
-func (l *UDP) length() int {
- return header.UDPMinimumSize
-}
-
-// merge implements Layer.merge.
-func (l *UDP) merge(other Layer) error {
- return mergeLayer(l, other)
-}
-
-// Payload has bytes beyond OSI layer 4.
-type Payload struct {
- LayerBase
- Bytes []byte
-}
-
-func (l *Payload) String() string {
- return stringLayer(l)
-}
-
-// parsePayload parses the bytes assuming that they start with a payload and
-// continue to the end. There can be no further encapsulations.
-func parsePayload(b []byte) (Layer, layerParser) {
- payload := Payload{
- Bytes: b,
- }
- return &payload, nil
-}
-
-// ToBytes implements Layer.ToBytes.
-func (l *Payload) ToBytes() ([]byte, error) {
- return l.Bytes, nil
-}
-
-// Length returns payload byte length.
-func (l *Payload) Length() int {
- return l.length()
-}
-
-func (l *Payload) match(other Layer) bool {
- return equalLayer(l, other)
-}
-
-func (l *Payload) length() int {
- return len(l.Bytes)
-}
-
-// merge implements Layer.merge.
-func (l *Payload) merge(other Layer) error {
- return mergeLayer(l, other)
-}
-
-// Layers is an array of Layer and supports similar functions to Layer.
-type Layers []Layer
-
-// linkLayers sets the linked-list ponters in ls.
-func (ls *Layers) linkLayers() {
- for i, l := range *ls {
- if i > 0 {
- l.setPrev((*ls)[i-1])
- } else {
- l.setPrev(nil)
- }
- if i+1 < len(*ls) {
- l.setNext((*ls)[i+1])
- } else {
- l.setNext(nil)
- }
- }
-}
-
-// ToBytes converts the Layers into bytes. It creates a linked list of the Layer
-// structs and then concatentates the output of ToBytes on each Layer.
-func (ls *Layers) ToBytes() ([]byte, error) {
- ls.linkLayers()
- outBytes := []byte{}
- for _, l := range *ls {
- layerBytes, err := l.ToBytes()
- if err != nil {
- return nil, err
- }
- outBytes = append(outBytes, layerBytes...)
- }
- return outBytes, nil
-}
-
-func (ls *Layers) match(other Layers) bool {
- if len(*ls) > len(other) {
- return false
- }
- for i, l := range *ls {
- if !equalLayer(l, other[i]) {
- return false
- }
- }
- return true
-}
-
-// layerDiff stores the diffs for each field along with the label for the Layer.
-// If rows is nil, that means that there was no diff.
-type layerDiff struct {
- label string
- rows []layerDiffRow
-}
-
-// layerDiffRow stores the fields and corresponding values for two got and want
-// layers. If the value was nil then the string stored is the empty string.
-type layerDiffRow struct {
- field, got, want string
-}
-
-// diffLayer extracts all differing fields between two layers.
-func diffLayer(got, want Layer) []layerDiffRow {
- vGot := reflect.ValueOf(got).Elem()
- vWant := reflect.ValueOf(want).Elem()
- if vGot.Type() != vWant.Type() {
- return nil
- }
- t := vGot.Type()
- var result []layerDiffRow
- for i := 0; i < t.NumField(); i++ {
- t := t.Field(i)
- if t.Anonymous {
- // Ignore the LayerBase in the Layer struct.
- continue
- }
- vGot := vGot.Field(i)
- vWant := vWant.Field(i)
- gotString := ""
- if !vGot.IsNil() {
- gotString = fmt.Sprint(reflect.Indirect(vGot))
- }
- wantString := ""
- if !vWant.IsNil() {
- wantString = fmt.Sprint(reflect.Indirect(vWant))
- }
- result = append(result, layerDiffRow{t.Name, gotString, wantString})
- }
- return result
-}
-
-// layerType returns a concise string describing the type of the Layer, like
-// "TCP", or "IPv6".
-func layerType(l Layer) string {
- return reflect.TypeOf(l).Elem().Name()
-}
-
-// diff compares Layers and returns a representation of the difference. Each
-// Layer in the Layers is pairwise compared. If an element in either is nil, it
-// is considered a match with the other Layer. If two Layers have differing
-// types, they don't match regardless of the contents. If two Layers have the
-// same type then the fields in the Layer are pairwise compared. Fields that are
-// nil always match. Two non-nil fields only match if they point to equal
-// values. diff returns an empty string if and only if *ls and other match.
-func (ls *Layers) diff(other Layers) string {
- var allDiffs []layerDiff
- // Check the cases where one list is longer than the other, where one or both
- // elements are nil, where the sides have different types, and where the sides
- // have the same type.
- for i := 0; i < len(*ls) || i < len(other); i++ {
- if i >= len(*ls) {
- // Matching ls against other where other is longer than ls. missing
- // matches everything so we just include a label without any rows. Having
- // no rows is a sign that there was no diff.
- allDiffs = append(allDiffs, layerDiff{
- label: "missing matches " + layerType(other[i]),
- })
- continue
- }
-
- if i >= len(other) {
- // Matching ls against other where ls is longer than other. missing
- // matches everything so we just include a label without any rows. Having
- // no rows is a sign that there was no diff.
- allDiffs = append(allDiffs, layerDiff{
- label: layerType((*ls)[i]) + " matches missing",
- })
- continue
- }
-
- if (*ls)[i] == nil && other[i] == nil {
- // Matching ls against other where both elements are nil. nil matches
- // everything so we just include a label without any rows. Having no rows
- // is a sign that there was no diff.
- allDiffs = append(allDiffs, layerDiff{
- label: "nil matches nil",
- })
- continue
- }
-
- if (*ls)[i] == nil {
- // Matching ls against other where the element in ls is nil. nil matches
- // everything so we just include a label without any rows. Having no rows
- // is a sign that there was no diff.
- allDiffs = append(allDiffs, layerDiff{
- label: "nil matches " + layerType(other[i]),
- })
- continue
- }
-
- if other[i] == nil {
- // Matching ls against other where the element in other is nil. nil
- // matches everything so we just include a label without any rows. Having
- // no rows is a sign that there was no diff.
- allDiffs = append(allDiffs, layerDiff{
- label: layerType((*ls)[i]) + " matches nil",
- })
- continue
- }
-
- if reflect.TypeOf((*ls)[i]) == reflect.TypeOf(other[i]) {
- // Matching ls against other where both elements have the same type. Match
- // each field pairwise and only report a diff if there is a mismatch,
- // which is only when both sides are non-nil and have differring values.
- diff := diffLayer((*ls)[i], other[i])
- var layerDiffRows []layerDiffRow
- for _, d := range diff {
- if d.got == "" || d.want == "" || d.got == d.want {
- continue
- }
- layerDiffRows = append(layerDiffRows, layerDiffRow{
- d.field,
- d.got,
- d.want,
- })
- }
- if len(layerDiffRows) > 0 {
- allDiffs = append(allDiffs, layerDiff{
- label: layerType((*ls)[i]),
- rows: layerDiffRows,
- })
- } else {
- allDiffs = append(allDiffs, layerDiff{
- label: layerType((*ls)[i]) + " matches " + layerType(other[i]),
- // Having no rows is a sign that there was no diff.
- })
- }
- continue
- }
- // Neither side is nil and the types are different, so we'll display one
- // side then the other.
- allDiffs = append(allDiffs, layerDiff{
- label: layerType((*ls)[i]) + " doesn't match " + layerType(other[i]),
- })
- diff := diffLayer((*ls)[i], (*ls)[i])
- layerDiffRows := []layerDiffRow{}
- for _, d := range diff {
- if len(d.got) == 0 {
- continue
- }
- layerDiffRows = append(layerDiffRows, layerDiffRow{
- d.field,
- d.got,
- "",
- })
- }
- allDiffs = append(allDiffs, layerDiff{
- label: layerType((*ls)[i]),
- rows: layerDiffRows,
- })
-
- layerDiffRows = []layerDiffRow{}
- diff = diffLayer(other[i], other[i])
- for _, d := range diff {
- if len(d.want) == 0 {
- continue
- }
- layerDiffRows = append(layerDiffRows, layerDiffRow{
- d.field,
- "",
- d.want,
- })
- }
- allDiffs = append(allDiffs, layerDiff{
- label: layerType(other[i]),
- rows: layerDiffRows,
- })
- }
-
- output := ""
- // These are for output formatting.
- maxLabelLen, maxFieldLen, maxGotLen, maxWantLen := 0, 0, 0, 0
- foundOne := false
- for _, l := range allDiffs {
- if len(l.label) > maxLabelLen && len(l.rows) > 0 {
- maxLabelLen = len(l.label)
- }
- if l.rows != nil {
- foundOne = true
- }
- for _, r := range l.rows {
- if len(r.field) > maxFieldLen {
- maxFieldLen = len(r.field)
- }
- if l := len(fmt.Sprint(r.got)); l > maxGotLen {
- maxGotLen = l
- }
- if l := len(fmt.Sprint(r.want)); l > maxWantLen {
- maxWantLen = l
- }
- }
- }
- if !foundOne {
- return ""
- }
- for _, l := range allDiffs {
- if len(l.rows) == 0 {
- output += "(" + l.label + ")\n"
- continue
- }
- for i, r := range l.rows {
- var label string
- if i == 0 {
- label = l.label + ":"
- }
- output += fmt.Sprintf(
- "%*s %*s %*v %*v\n",
- maxLabelLen+1, label,
- maxFieldLen+1, r.field+":",
- maxGotLen, r.got,
- maxWantLen, r.want,
- )
- }
- }
- return output
-}
-
-// merge merges the other Layers into ls. If the other Layers is longer, those
-// additional Layer structs are added to ls. The errors from merging are
-// collected and returned.
-func (ls *Layers) merge(other Layers) error {
- var errs error
- for i, o := range other {
- if i < len(*ls) {
- errs = multierr.Combine(errs, (*ls)[i].merge(o))
- } else {
- *ls = append(*ls, o)
- }
- }
- return errs
-}
diff --git a/test/packetimpact/testbench/layers_test.go b/test/packetimpact/testbench/layers_test.go
deleted file mode 100644
index eca0780b5..000000000
--- a/test/packetimpact/testbench/layers_test.go
+++ /dev/null
@@ -1,728 +0,0 @@
-// 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 testbench
-
-import (
- "bytes"
- "net"
- "testing"
-
- "github.com/mohae/deepcopy"
- "gvisor.dev/gvisor/pkg/tcpip"
- "gvisor.dev/gvisor/pkg/tcpip/header"
-)
-
-func TestLayerMatch(t *testing.T) {
- var nilPayload *Payload
- noPayload := &Payload{}
- emptyPayload := &Payload{Bytes: []byte{}}
- fullPayload := &Payload{Bytes: []byte{1, 2, 3}}
- emptyTCP := &TCP{SrcPort: Uint16(1234), LayerBase: LayerBase{nextLayer: emptyPayload}}
- fullTCP := &TCP{SrcPort: Uint16(1234), LayerBase: LayerBase{nextLayer: fullPayload}}
- for _, tt := range []struct {
- a, b Layer
- want bool
- }{
- {nilPayload, nilPayload, true},
- {nilPayload, noPayload, true},
- {nilPayload, emptyPayload, true},
- {nilPayload, fullPayload, true},
- {noPayload, noPayload, true},
- {noPayload, emptyPayload, true},
- {noPayload, fullPayload, true},
- {emptyPayload, emptyPayload, true},
- {emptyPayload, fullPayload, false},
- {fullPayload, fullPayload, true},
- {emptyTCP, fullTCP, true},
- } {
- if got := tt.a.match(tt.b); got != tt.want {
- t.Errorf("%s.match(%s) = %t, want %t", tt.a, tt.b, got, tt.want)
- }
- if got := tt.b.match(tt.a); got != tt.want {
- t.Errorf("%s.match(%s) = %t, want %t", tt.b, tt.a, got, tt.want)
- }
- }
-}
-
-func TestLayerMergeMismatch(t *testing.T) {
- tcp := &TCP{}
- otherTCP := &TCP{}
- ipv4 := &IPv4{}
- ether := &Ether{}
- for _, tt := range []struct {
- a, b Layer
- success bool
- }{
- {tcp, tcp, true},
- {tcp, otherTCP, true},
- {tcp, ipv4, false},
- {tcp, ether, false},
- {tcp, nil, true},
-
- {otherTCP, otherTCP, true},
- {otherTCP, ipv4, false},
- {otherTCP, ether, false},
- {otherTCP, nil, true},
-
- {ipv4, ipv4, true},
- {ipv4, ether, false},
- {ipv4, nil, true},
-
- {ether, ether, true},
- {ether, nil, true},
- } {
- if err := tt.a.merge(tt.b); (err == nil) != tt.success {
- t.Errorf("%s.merge(%s) got %s, wanted the opposite", tt.a, tt.b, err)
- }
- if tt.b != nil {
- if err := tt.b.merge(tt.a); (err == nil) != tt.success {
- t.Errorf("%s.merge(%s) got %s, wanted the opposite", tt.b, tt.a, err)
- }
- }
- }
-}
-
-func TestLayerMerge(t *testing.T) {
- zero := Uint32(0)
- one := Uint32(1)
- two := Uint32(2)
- empty := []byte{}
- foo := []byte("foo")
- bar := []byte("bar")
- for _, tt := range []struct {
- a, b Layer
- want Layer
- }{
- {&TCP{AckNum: nil}, &TCP{AckNum: nil}, &TCP{AckNum: nil}},
- {&TCP{AckNum: nil}, &TCP{AckNum: zero}, &TCP{AckNum: zero}},
- {&TCP{AckNum: nil}, &TCP{AckNum: one}, &TCP{AckNum: one}},
- {&TCP{AckNum: nil}, &TCP{AckNum: two}, &TCP{AckNum: two}},
- {&TCP{AckNum: nil}, nil, &TCP{AckNum: nil}},
-
- {&TCP{AckNum: zero}, &TCP{AckNum: nil}, &TCP{AckNum: zero}},
- {&TCP{AckNum: zero}, &TCP{AckNum: zero}, &TCP{AckNum: zero}},
- {&TCP{AckNum: zero}, &TCP{AckNum: one}, &TCP{AckNum: one}},
- {&TCP{AckNum: zero}, &TCP{AckNum: two}, &TCP{AckNum: two}},
- {&TCP{AckNum: zero}, nil, &TCP{AckNum: zero}},
-
- {&TCP{AckNum: one}, &TCP{AckNum: nil}, &TCP{AckNum: one}},
- {&TCP{AckNum: one}, &TCP{AckNum: zero}, &TCP{AckNum: zero}},
- {&TCP{AckNum: one}, &TCP{AckNum: one}, &TCP{AckNum: one}},
- {&TCP{AckNum: one}, &TCP{AckNum: two}, &TCP{AckNum: two}},
- {&TCP{AckNum: one}, nil, &TCP{AckNum: one}},
-
- {&TCP{AckNum: two}, &TCP{AckNum: nil}, &TCP{AckNum: two}},
- {&TCP{AckNum: two}, &TCP{AckNum: zero}, &TCP{AckNum: zero}},
- {&TCP{AckNum: two}, &TCP{AckNum: one}, &TCP{AckNum: one}},
- {&TCP{AckNum: two}, &TCP{AckNum: two}, &TCP{AckNum: two}},
- {&TCP{AckNum: two}, nil, &TCP{AckNum: two}},
-
- {&Payload{Bytes: nil}, &Payload{Bytes: nil}, &Payload{Bytes: nil}},
- {&Payload{Bytes: nil}, &Payload{Bytes: empty}, &Payload{Bytes: empty}},
- {&Payload{Bytes: nil}, &Payload{Bytes: foo}, &Payload{Bytes: foo}},
- {&Payload{Bytes: nil}, &Payload{Bytes: bar}, &Payload{Bytes: bar}},
- {&Payload{Bytes: nil}, nil, &Payload{Bytes: nil}},
-
- {&Payload{Bytes: empty}, &Payload{Bytes: nil}, &Payload{Bytes: empty}},
- {&Payload{Bytes: empty}, &Payload{Bytes: empty}, &Payload{Bytes: empty}},
- {&Payload{Bytes: empty}, &Payload{Bytes: foo}, &Payload{Bytes: foo}},
- {&Payload{Bytes: empty}, &Payload{Bytes: bar}, &Payload{Bytes: bar}},
- {&Payload{Bytes: empty}, nil, &Payload{Bytes: empty}},
-
- {&Payload{Bytes: foo}, &Payload{Bytes: nil}, &Payload{Bytes: foo}},
- {&Payload{Bytes: foo}, &Payload{Bytes: empty}, &Payload{Bytes: empty}},
- {&Payload{Bytes: foo}, &Payload{Bytes: foo}, &Payload{Bytes: foo}},
- {&Payload{Bytes: foo}, &Payload{Bytes: bar}, &Payload{Bytes: bar}},
- {&Payload{Bytes: foo}, nil, &Payload{Bytes: foo}},
-
- {&Payload{Bytes: bar}, &Payload{Bytes: nil}, &Payload{Bytes: bar}},
- {&Payload{Bytes: bar}, &Payload{Bytes: empty}, &Payload{Bytes: empty}},
- {&Payload{Bytes: bar}, &Payload{Bytes: foo}, &Payload{Bytes: foo}},
- {&Payload{Bytes: bar}, &Payload{Bytes: bar}, &Payload{Bytes: bar}},
- {&Payload{Bytes: bar}, nil, &Payload{Bytes: bar}},
- } {
- a := deepcopy.Copy(tt.a).(Layer)
- if err := a.merge(tt.b); err != nil {
- t.Errorf("%s.merge(%s) = %s, wanted nil", tt.a, tt.b, err)
- continue
- }
- if a.String() != tt.want.String() {
- t.Errorf("%s.merge(%s) merge result got %s, want %s", tt.a, tt.b, a, tt.want)
- }
- }
-}
-
-func TestLayerStringFormat(t *testing.T) {
- for _, tt := range []struct {
- name string
- l Layer
- want string
- }{
- {
- name: "TCP",
- l: &TCP{
- SrcPort: Uint16(34785),
- DstPort: Uint16(47767),
- SeqNum: Uint32(3452155723),
- AckNum: Uint32(2596996163),
- DataOffset: Uint8(5),
- Flags: Uint8(20),
- WindowSize: Uint16(64240),
- Checksum: Uint16(0x2e2b),
- },
- want: "&testbench.TCP{" +
- "SrcPort:34785 " +
- "DstPort:47767 " +
- "SeqNum:3452155723 " +
- "AckNum:2596996163 " +
- "DataOffset:5 " +
- "Flags:20 " +
- "WindowSize:64240 " +
- "Checksum:11819" +
- "}",
- },
- {
- name: "UDP",
- l: &UDP{
- SrcPort: Uint16(34785),
- DstPort: Uint16(47767),
- Length: Uint16(12),
- },
- want: "&testbench.UDP{" +
- "SrcPort:34785 " +
- "DstPort:47767 " +
- "Length:12" +
- "}",
- },
- {
- name: "IPv4",
- l: &IPv4{
- IHL: Uint8(5),
- TOS: Uint8(0),
- TotalLength: Uint16(44),
- ID: Uint16(0),
- Flags: Uint8(2),
- FragmentOffset: Uint16(0),
- TTL: Uint8(64),
- Protocol: Uint8(6),
- Checksum: Uint16(0x2e2b),
- SrcAddr: Address(tcpip.Address([]byte{197, 34, 63, 10})),
- DstAddr: Address(tcpip.Address([]byte{197, 34, 63, 20})),
- },
- want: "&testbench.IPv4{" +
- "IHL:5 " +
- "TOS:0 " +
- "TotalLength:44 " +
- "ID:0 " +
- "Flags:2 " +
- "FragmentOffset:0 " +
- "TTL:64 " +
- "Protocol:6 " +
- "Checksum:11819 " +
- "SrcAddr:197.34.63.10 " +
- "DstAddr:197.34.63.20" +
- "}",
- },
- {
- name: "Ether",
- l: &Ether{
- SrcAddr: LinkAddress(tcpip.LinkAddress([]byte{0x02, 0x42, 0xc5, 0x22, 0x3f, 0x0a})),
- DstAddr: LinkAddress(tcpip.LinkAddress([]byte{0x02, 0x42, 0xc5, 0x22, 0x3f, 0x14})),
- Type: NetworkProtocolNumber(4),
- },
- want: "&testbench.Ether{" +
- "SrcAddr:02:42:c5:22:3f:0a " +
- "DstAddr:02:42:c5:22:3f:14 " +
- "Type:4" +
- "}",
- },
- {
- name: "Payload",
- l: &Payload{
- Bytes: []byte("Hooray for packetimpact."),
- },
- want: "&testbench.Payload{Bytes:\n" +
- "00000000 48 6f 6f 72 61 79 20 66 6f 72 20 70 61 63 6b 65 |Hooray for packe|\n" +
- "00000010 74 69 6d 70 61 63 74 2e |timpact.|\n" +
- "}",
- },
- } {
- t.Run(tt.name, func(t *testing.T) {
- if got := tt.l.String(); got != tt.want {
- t.Errorf("%s.String() = %s, want: %s", tt.name, got, tt.want)
- }
- })
- }
-}
-
-func TestConnectionMatch(t *testing.T) {
- conn := Connection{
- layerStates: []layerState{&etherState{}},
- }
- protoNum0 := tcpip.NetworkProtocolNumber(0)
- protoNum1 := tcpip.NetworkProtocolNumber(1)
- for _, tt := range []struct {
- description string
- override, received Layers
- wantMatch bool
- }{
- {
- description: "shorter override",
- override: []Layer{&Ether{}},
- received: []Layer{&Ether{}, &Payload{Bytes: []byte("hello")}},
- wantMatch: true,
- },
- {
- description: "longer override",
- override: []Layer{&Ether{}, &Payload{Bytes: []byte("hello")}},
- received: []Layer{&Ether{}},
- wantMatch: false,
- },
- {
- description: "ether layer mismatch",
- override: []Layer{&Ether{Type: &protoNum0}},
- received: []Layer{&Ether{Type: &protoNum1}},
- wantMatch: false,
- },
- {
- description: "both nil",
- override: nil,
- received: nil,
- wantMatch: false,
- },
- {
- description: "nil override",
- override: nil,
- received: []Layer{&Ether{}},
- wantMatch: true,
- },
- } {
- t.Run(tt.description, func(t *testing.T) {
- if gotMatch := conn.match(tt.override, tt.received); gotMatch != tt.wantMatch {
- t.Fatalf("conn.match(%s, %s) = %t, want %t", tt.override, tt.received, gotMatch, tt.wantMatch)
- }
- })
- }
-}
-
-func TestLayersDiff(t *testing.T) {
- for _, tt := range []struct {
- x, y Layers
- want string
- }{
- {
- Layers{&Ether{Type: NetworkProtocolNumber(12)}, &TCP{DataOffset: Uint8(5), SeqNum: Uint32(5)}},
- Layers{&Ether{Type: NetworkProtocolNumber(13)}, &TCP{DataOffset: Uint8(7), SeqNum: Uint32(6)}},
- "Ether: Type: 12 13\n" +
- " TCP: SeqNum: 5 6\n" +
- " DataOffset: 5 7\n",
- },
- {
- Layers{&Ether{Type: NetworkProtocolNumber(12)}, &UDP{SrcPort: Uint16(123)}},
- Layers{&Ether{Type: NetworkProtocolNumber(13)}, &TCP{DataOffset: Uint8(7), SeqNum: Uint32(6)}},
- "Ether: Type: 12 13\n" +
- "(UDP doesn't match TCP)\n" +
- " UDP: SrcPort: 123 \n" +
- " TCP: SeqNum: 6\n" +
- " DataOffset: 7\n",
- },
- {
- Layers{&UDP{SrcPort: Uint16(123)}},
- Layers{&Ether{Type: NetworkProtocolNumber(13)}, &TCP{DataOffset: Uint8(7), SeqNum: Uint32(6)}},
- "(UDP doesn't match Ether)\n" +
- " UDP: SrcPort: 123 \n" +
- "Ether: Type: 13\n" +
- "(missing matches TCP)\n",
- },
- {
- Layers{nil, &UDP{SrcPort: Uint16(123)}},
- Layers{&Ether{Type: NetworkProtocolNumber(13)}, &TCP{DataOffset: Uint8(7), SeqNum: Uint32(6)}},
- "(nil matches Ether)\n" +
- "(UDP doesn't match TCP)\n" +
- "UDP: SrcPort: 123 \n" +
- "TCP: SeqNum: 6\n" +
- " DataOffset: 7\n",
- },
- {
- Layers{&Ether{Type: NetworkProtocolNumber(13)}, &IPv4{IHL: Uint8(4)}, &TCP{DataOffset: Uint8(7), SeqNum: Uint32(6)}},
- Layers{&Ether{Type: NetworkProtocolNumber(13)}, &IPv4{IHL: Uint8(6)}, &TCP{DataOffset: Uint8(7), SeqNum: Uint32(6)}},
- "(Ether matches Ether)\n" +
- "IPv4: IHL: 4 6\n" +
- "(TCP matches TCP)\n",
- },
- {
- Layers{&Payload{Bytes: []byte("foo")}},
- Layers{&Payload{Bytes: []byte("bar")}},
- "Payload: Bytes: [102 111 111] [98 97 114]\n",
- },
- {
- Layers{&Payload{Bytes: []byte("")}},
- Layers{&Payload{}},
- "",
- },
- {
- Layers{&Payload{Bytes: []byte("")}},
- Layers{&Payload{Bytes: []byte("")}},
- "",
- },
- {
- Layers{&UDP{}},
- Layers{&TCP{}},
- "(UDP doesn't match TCP)\n" +
- "(UDP)\n" +
- "(TCP)\n",
- },
- } {
- if got := tt.x.diff(tt.y); got != tt.want {
- t.Errorf("%s.diff(%s) = %q, want %q", tt.x, tt.y, got, tt.want)
- }
- if tt.x.match(tt.y) != (tt.x.diff(tt.y) == "") {
- t.Errorf("match and diff of %s and %s disagree", tt.x, tt.y)
- }
- if tt.y.match(tt.x) != (tt.y.diff(tt.x) == "") {
- t.Errorf("match and diff of %s and %s disagree", tt.y, tt.x)
- }
- }
-}
-
-func TestTCPOptions(t *testing.T) {
- for _, tt := range []struct {
- description string
- wantBytes []byte
- wantLayers Layers
- }{
- {
- description: "without payload",
- wantBytes: []byte{
- // IPv4 Header
- 0x45, 0x00, 0x00, 0x2c, 0x00, 0x01, 0x00, 0x00, 0x40, 0x06,
- 0xf9, 0x77, 0xc0, 0xa8, 0x00, 0x02, 0xc0, 0xa8, 0x00, 0x01,
- // TCP Header
- 0x30, 0x39, 0xd4, 0x31, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x60, 0x02, 0x20, 0x00, 0xf5, 0x1c, 0x00, 0x00,
- // WindowScale Option
- 0x03, 0x03, 0x02,
- // NOP Option
- 0x00,
- },
- wantLayers: []Layer{
- &IPv4{
- IHL: Uint8(20),
- TOS: Uint8(0),
- TotalLength: Uint16(44),
- ID: Uint16(1),
- Flags: Uint8(0),
- FragmentOffset: Uint16(0),
- TTL: Uint8(64),
- Protocol: Uint8(uint8(header.TCPProtocolNumber)),
- Checksum: Uint16(0xf977),
- SrcAddr: Address(tcpip.Address(net.ParseIP("192.168.0.2").To4())),
- DstAddr: Address(tcpip.Address(net.ParseIP("192.168.0.1").To4())),
- },
- &TCP{
- SrcPort: Uint16(12345),
- DstPort: Uint16(54321),
- SeqNum: Uint32(0),
- AckNum: Uint32(0),
- Flags: Uint8(header.TCPFlagSyn),
- WindowSize: Uint16(8192),
- Checksum: Uint16(0xf51c),
- UrgentPointer: Uint16(0),
- Options: []byte{3, 3, 2, 0},
- },
- &Payload{Bytes: nil},
- },
- },
- {
- description: "with payload",
- wantBytes: []byte{
- // IPv4 header
- 0x45, 0x00, 0x00, 0x37, 0x00, 0x01, 0x00, 0x00, 0x40, 0x06,
- 0xf9, 0x6c, 0xc0, 0xa8, 0x00, 0x02, 0xc0, 0xa8, 0x00, 0x01,
- // TCP header
- 0x30, 0x39, 0xd4, 0x31, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x60, 0x02, 0x20, 0x00, 0xe5, 0x21, 0x00, 0x00,
- // WindowScale Option
- 0x03, 0x03, 0x02,
- // NOP Option
- 0x00,
- // Payload: "Sample Data"
- 0x53, 0x61, 0x6d, 0x70, 0x6c, 0x65, 0x20, 0x44, 0x61, 0x74, 0x61,
- },
- wantLayers: []Layer{
- &IPv4{
- IHL: Uint8(20),
- TOS: Uint8(0),
- TotalLength: Uint16(55),
- ID: Uint16(1),
- Flags: Uint8(0),
- FragmentOffset: Uint16(0),
- TTL: Uint8(64),
- Protocol: Uint8(uint8(header.TCPProtocolNumber)),
- Checksum: Uint16(0xf96c),
- SrcAddr: Address(tcpip.Address(net.ParseIP("192.168.0.2").To4())),
- DstAddr: Address(tcpip.Address(net.ParseIP("192.168.0.1").To4())),
- },
- &TCP{
- SrcPort: Uint16(12345),
- DstPort: Uint16(54321),
- SeqNum: Uint32(0),
- AckNum: Uint32(0),
- Flags: Uint8(header.TCPFlagSyn),
- WindowSize: Uint16(8192),
- Checksum: Uint16(0xe521),
- UrgentPointer: Uint16(0),
- Options: []byte{3, 3, 2, 0},
- },
- &Payload{Bytes: []byte("Sample Data")},
- },
- },
- } {
- t.Run(tt.description, func(t *testing.T) {
- layers := parse(parseIPv4, tt.wantBytes)
- if !layers.match(tt.wantLayers) {
- t.Fatalf("match failed with diff: %s", layers.diff(tt.wantLayers))
- }
- gotBytes, err := layers.ToBytes()
- if err != nil {
- t.Fatalf("ToBytes() failed on %s: %s", &layers, err)
- }
- if !bytes.Equal(tt.wantBytes, gotBytes) {
- t.Fatalf("mismatching bytes, gotBytes: %x, wantBytes: %x", gotBytes, tt.wantBytes)
- }
- })
- }
-}
-
-func TestIPv6ExtHdrOptions(t *testing.T) {
- for _, tt := range []struct {
- description string
- wantBytes []byte
- wantLayers Layers
- }{
- {
- description: "IPv6/HopByHop",
- wantBytes: []byte{
- // IPv6 Header
- 0x60, 0x00, 0x00, 0x00, 0x00, 0x08, 0x00, 0x40, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x01, 0xfe, 0x80, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xde, 0xad, 0xbe, 0xef,
- // HopByHop Options
- 0x3b, 0x00, 0x05, 0x02, 0x00, 0x00, 0x01, 0x00,
- },
- wantLayers: []Layer{
- &IPv6{
- SrcAddr: Address(tcpip.Address(net.ParseIP("::1"))),
- DstAddr: Address(tcpip.Address(net.ParseIP("fe80::dead:beef"))),
- },
- &IPv6HopByHopOptionsExtHdr{
- NextHeader: IPv6ExtHdrIdent(header.IPv6NoNextHeaderIdentifier),
- Options: []byte{0x05, 0x02, 0x00, 0x00, 0x01, 0x00},
- },
- &Payload{
- Bytes: nil,
- },
- },
- },
- {
- description: "IPv6/HopByHop/Payload",
- wantBytes: []byte{
- // IPv6 Header
- 0x60, 0x00, 0x00, 0x00, 0x00, 0x13, 0x00, 0x40, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x01, 0xfe, 0x80, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xde, 0xad, 0xbe, 0xef,
- // HopByHop Options
- 0x3b, 0x00, 0x05, 0x02, 0x00, 0x00, 0x01, 0x00,
- // Sample Data
- 0x53, 0x61, 0x6d, 0x70, 0x6c, 0x65, 0x20, 0x44, 0x61, 0x74, 0x61,
- },
- wantLayers: []Layer{
- &IPv6{
- SrcAddr: Address(tcpip.Address(net.ParseIP("::1"))),
- DstAddr: Address(tcpip.Address(net.ParseIP("fe80::dead:beef"))),
- },
- &IPv6HopByHopOptionsExtHdr{
- NextHeader: IPv6ExtHdrIdent(header.IPv6NoNextHeaderIdentifier),
- Options: []byte{0x05, 0x02, 0x00, 0x00, 0x01, 0x00},
- },
- &Payload{
- Bytes: []byte("Sample Data"),
- },
- },
- },
- {
- description: "IPv6/HopByHop/Destination/ICMPv6",
- wantBytes: []byte{
- // IPv6 Header
- 0x60, 0x00, 0x00, 0x00, 0x00, 0x18, 0x00, 0x40, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x01, 0xfe, 0x80, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xde, 0xad, 0xbe, 0xef,
- // HopByHop Options
- 0x3c, 0x00, 0x05, 0x02, 0x00, 0x00, 0x01, 0x00,
- // Destination Options
- 0x3a, 0x00, 0x05, 0x02, 0x00, 0x00, 0x01, 0x00,
- // ICMPv6 Param Problem
- 0x04, 0x00, 0x5f, 0x98, 0x00, 0x00, 0x00, 0x06,
- },
- wantLayers: []Layer{
- &IPv6{
- SrcAddr: Address(tcpip.Address(net.ParseIP("::1"))),
- DstAddr: Address(tcpip.Address(net.ParseIP("fe80::dead:beef"))),
- },
- &IPv6HopByHopOptionsExtHdr{
- NextHeader: IPv6ExtHdrIdent(header.IPv6DestinationOptionsExtHdrIdentifier),
- Options: []byte{0x05, 0x02, 0x00, 0x00, 0x01, 0x00},
- },
- &IPv6DestinationOptionsExtHdr{
- NextHeader: IPv6ExtHdrIdent(header.IPv6ExtensionHeaderIdentifier(header.ICMPv6ProtocolNumber)),
- Options: []byte{0x05, 0x02, 0x00, 0x00, 0x01, 0x00},
- },
- &ICMPv6{
- Type: ICMPv6Type(header.ICMPv6ParamProblem),
- Code: ICMPv6Code(header.ICMPv6ErroneousHeader),
- Checksum: Uint16(0x5f98),
- Payload: []byte{0x00, 0x00, 0x00, 0x06},
- },
- },
- },
- {
- description: "IPv6/HopByHop/Fragment",
- wantBytes: []byte{
- // IPv6 Header
- 0x60, 0x00, 0x00, 0x00, 0x00, 0x10, 0x00, 0x40, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x01, 0xfe, 0x80, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xde, 0xad, 0xbe, 0xef,
- // HopByHop Options
- 0x2c, 0x00, 0x05, 0x02, 0x00, 0x00, 0x01, 0x00,
- // Fragment ExtHdr
- 0x3b, 0x00, 0x03, 0x20, 0x00, 0x00, 0x00, 0x2a,
- },
- wantLayers: []Layer{
- &IPv6{
- SrcAddr: Address(tcpip.Address(net.ParseIP("::1"))),
- DstAddr: Address(tcpip.Address(net.ParseIP("fe80::dead:beef"))),
- },
- &IPv6HopByHopOptionsExtHdr{
- NextHeader: IPv6ExtHdrIdent(header.IPv6FragmentExtHdrIdentifier),
- Options: []byte{0x05, 0x02, 0x00, 0x00, 0x01, 0x00},
- },
- &IPv6FragmentExtHdr{
- NextHeader: IPv6ExtHdrIdent(header.IPv6NoNextHeaderIdentifier),
- FragmentOffset: Uint16(100),
- MoreFragments: Bool(false),
- Identification: Uint32(42),
- },
- &Payload{
- Bytes: nil,
- },
- },
- },
- {
- description: "IPv6/DestOpt/Fragment/Payload",
- wantBytes: []byte{
- // IPv6 Header
- 0x60, 0x00, 0x00, 0x00, 0x00, 0x1b, 0x3c, 0x40, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x01, 0xfe, 0x80, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xde, 0xad, 0xbe, 0xef,
- // Destination Options
- 0x2c, 0x00, 0x05, 0x02, 0x00, 0x00, 0x01, 0x00,
- // Fragment ExtHdr
- 0x3b, 0x00, 0x03, 0x21, 0x00, 0x00, 0x00, 0x2a,
- // Sample Data
- 0x53, 0x61, 0x6d, 0x70, 0x6c, 0x65, 0x20, 0x44, 0x61, 0x74, 0x61,
- },
- wantLayers: []Layer{
- &IPv6{
- SrcAddr: Address(tcpip.Address(net.ParseIP("::1"))),
- DstAddr: Address(tcpip.Address(net.ParseIP("fe80::dead:beef"))),
- },
- &IPv6DestinationOptionsExtHdr{
- NextHeader: IPv6ExtHdrIdent(header.IPv6FragmentExtHdrIdentifier),
- Options: []byte{0x05, 0x02, 0x00, 0x00, 0x01, 0x00},
- },
- &IPv6FragmentExtHdr{
- NextHeader: IPv6ExtHdrIdent(header.IPv6NoNextHeaderIdentifier),
- FragmentOffset: Uint16(100),
- MoreFragments: Bool(true),
- Identification: Uint32(42),
- },
- &Payload{
- Bytes: []byte("Sample Data"),
- },
- },
- },
- {
- description: "IPv6/Fragment/Payload",
- wantBytes: []byte{
- // IPv6 Header
- 0x60, 0x00, 0x00, 0x00, 0x00, 0x13, 0x2c, 0x40, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x01, 0xfe, 0x80, 0x00, 0x00, 0x00, 0x00,
- 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xde, 0xad, 0xbe, 0xef,
- // Fragment ExtHdr
- 0x3b, 0x00, 0x03, 0x21, 0x00, 0x00, 0x00, 0x2a,
- // Sample Data
- 0x53, 0x61, 0x6d, 0x70, 0x6c, 0x65, 0x20, 0x44, 0x61, 0x74, 0x61,
- },
- wantLayers: []Layer{
- &IPv6{
- SrcAddr: Address(tcpip.Address(net.ParseIP("::1"))),
- DstAddr: Address(tcpip.Address(net.ParseIP("fe80::dead:beef"))),
- },
- &IPv6FragmentExtHdr{
- NextHeader: IPv6ExtHdrIdent(header.IPv6NoNextHeaderIdentifier),
- FragmentOffset: Uint16(100),
- MoreFragments: Bool(true),
- Identification: Uint32(42),
- },
- &Payload{
- Bytes: []byte("Sample Data"),
- },
- },
- },
- } {
- t.Run(tt.description, func(t *testing.T) {
- layers := parse(parseIPv6, tt.wantBytes)
- if !layers.match(tt.wantLayers) {
- t.Fatalf("match failed with diff: %s", layers.diff(tt.wantLayers))
- }
- // Make sure we can generate correct next header values and checksums
- for _, layer := range layers {
- switch layer := layer.(type) {
- case *IPv6HopByHopOptionsExtHdr:
- layer.NextHeader = nil
- case *IPv6DestinationOptionsExtHdr:
- layer.NextHeader = nil
- case *IPv6FragmentExtHdr:
- layer.NextHeader = nil
- case *ICMPv6:
- layer.Checksum = nil
- }
- }
- gotBytes, err := layers.ToBytes()
- if err != nil {
- t.Fatalf("ToBytes() failed on %s: %s", &layers, err)
- }
- if !bytes.Equal(tt.wantBytes, gotBytes) {
- t.Fatalf("mismatching bytes, gotBytes: %x, wantBytes: %x", gotBytes, tt.wantBytes)
- }
- })
- }
-}
diff --git a/test/packetimpact/testbench/rawsockets.go b/test/packetimpact/testbench/rawsockets.go
deleted file mode 100644
index 193bb2dc8..000000000
--- a/test/packetimpact/testbench/rawsockets.go
+++ /dev/null
@@ -1,188 +0,0 @@
-// 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 testbench
-
-import (
- "encoding/binary"
- "fmt"
- "math"
- "net"
- "testing"
- "time"
-
- "golang.org/x/sys/unix"
- "gvisor.dev/gvisor/pkg/usermem"
-)
-
-// Sniffer can sniff raw packets on the wire.
-type Sniffer struct {
- fd int
-}
-
-func htons(x uint16) uint16 {
- buf := [2]byte{}
- binary.BigEndian.PutUint16(buf[:], x)
- return usermem.ByteOrder.Uint16(buf[:])
-}
-
-// NewSniffer creates a Sniffer connected to *device.
-func NewSniffer(t *testing.T) (Sniffer, error) {
- t.Helper()
-
- snifferFd, err := unix.Socket(unix.AF_PACKET, unix.SOCK_RAW, int(htons(unix.ETH_P_ALL)))
- if err != nil {
- return Sniffer{}, err
- }
- if err := unix.SetsockoptInt(snifferFd, unix.SOL_SOCKET, unix.SO_RCVBUFFORCE, 1); err != nil {
- t.Fatalf("can't set sockopt SO_RCVBUFFORCE to 1: %s", err)
- }
- if err := unix.SetsockoptInt(snifferFd, unix.SOL_SOCKET, unix.SO_RCVBUF, 1e7); err != nil {
- t.Fatalf("can't setsockopt SO_RCVBUF to 10M: %s", err)
- }
- return Sniffer{
- fd: snifferFd,
- }, nil
-}
-
-// maxReadSize should be large enough for the maximum frame size in bytes. If a
-// packet too large for the buffer arrives, the test will get a fatal error.
-const maxReadSize int = 65536
-
-// Recv tries to read one frame until the timeout is up.
-func (s *Sniffer) Recv(t *testing.T, timeout time.Duration) []byte {
- t.Helper()
-
- deadline := time.Now().Add(timeout)
- for {
- timeout = deadline.Sub(time.Now())
- if timeout <= 0 {
- return nil
- }
- whole, frac := math.Modf(timeout.Seconds())
- tv := unix.Timeval{
- Sec: int64(whole),
- Usec: int64(frac * float64(time.Microsecond/time.Second)),
- }
-
- if err := unix.SetsockoptTimeval(s.fd, unix.SOL_SOCKET, unix.SO_RCVTIMEO, &tv); err != nil {
- t.Fatalf("can't setsockopt SO_RCVTIMEO: %s", err)
- }
-
- buf := make([]byte, maxReadSize)
- nread, _, err := unix.Recvfrom(s.fd, buf, unix.MSG_TRUNC)
- if err == unix.EINTR || err == unix.EAGAIN {
- // There was a timeout.
- continue
- }
- if err != nil {
- t.Fatalf("can't read: %s", err)
- }
- if nread > maxReadSize {
- t.Fatalf("received a truncated frame of %d bytes, want at most %d bytes", nread, maxReadSize)
- }
- return buf[:nread]
- }
-}
-
-// Drain drains the Sniffer's socket receive buffer by receiving until there's
-// nothing else to receive.
-func (s *Sniffer) Drain(t *testing.T) {
- t.Helper()
-
- flags, err := unix.FcntlInt(uintptr(s.fd), unix.F_GETFL, 0)
- if err != nil {
- t.Fatalf("failed to get sniffer socket fd flags: %s", err)
- }
- nonBlockingFlags := flags | unix.O_NONBLOCK
- if _, err := unix.FcntlInt(uintptr(s.fd), unix.F_SETFL, nonBlockingFlags); err != nil {
- t.Fatalf("failed to make sniffer socket non-blocking with flags %b: %s", nonBlockingFlags, err)
- }
- for {
- buf := make([]byte, maxReadSize)
- _, _, err := unix.Recvfrom(s.fd, buf, unix.MSG_TRUNC)
- if err == unix.EINTR || err == unix.EAGAIN || err == unix.EWOULDBLOCK {
- break
- }
- }
- if _, err := unix.FcntlInt(uintptr(s.fd), unix.F_SETFL, flags); err != nil {
- t.Fatalf("failed to restore sniffer socket fd flags to %b: %s", flags, err)
- }
-}
-
-// close the socket that Sniffer is using.
-func (s *Sniffer) close() error {
- if err := unix.Close(s.fd); err != nil {
- return fmt.Errorf("can't close sniffer socket: %w", err)
- }
- s.fd = -1
- return nil
-}
-
-// Injector can inject raw frames.
-type Injector struct {
- fd int
-}
-
-// NewInjector creates a new injector on *device.
-func NewInjector(t *testing.T) (Injector, error) {
- t.Helper()
-
- ifInfo, err := net.InterfaceByName(LocalDevice)
- if err != nil {
- return Injector{}, err
- }
-
- var haddr [8]byte
- copy(haddr[:], ifInfo.HardwareAddr)
- sa := unix.SockaddrLinklayer{
- Protocol: unix.ETH_P_IP,
- Ifindex: ifInfo.Index,
- Halen: uint8(len(ifInfo.HardwareAddr)),
- Addr: haddr,
- }
-
- injectFd, err := unix.Socket(unix.AF_PACKET, unix.SOCK_RAW, int(htons(unix.ETH_P_ALL)))
- if err != nil {
- return Injector{}, err
- }
- if err := unix.Bind(injectFd, &sa); err != nil {
- return Injector{}, err
- }
- return Injector{
- fd: injectFd,
- }, nil
-}
-
-// Send a raw frame.
-func (i *Injector) Send(t *testing.T, b []byte) {
- t.Helper()
-
- n, err := unix.Write(i.fd, b)
- if err != nil {
- t.Fatalf("can't write bytes of len %d: %s", len(b), err)
- }
- if n != len(b) {
- t.Fatalf("got %d bytes written, want %d", n, len(b))
- }
-}
-
-// close the underlying socket.
-func (i *Injector) close() error {
- if err := unix.Close(i.fd); err != nil {
- return fmt.Errorf("can't close sniffer socket: %w", err)
- }
- i.fd = -1
- return nil
-}
diff --git a/test/packetimpact/testbench/testbench.go b/test/packetimpact/testbench/testbench.go
deleted file mode 100644
index 3c85ebbee..000000000
--- a/test/packetimpact/testbench/testbench.go
+++ /dev/null
@@ -1,133 +0,0 @@
-// 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 testbench is the packetimpact test API.
-package testbench
-
-import (
- "flag"
- "fmt"
- "math/rand"
- "net"
- "os/exec"
- "testing"
- "time"
-
- "gvisor.dev/gvisor/test/packetimpact/netdevs"
-)
-
-var (
- // Native indicates that the test is being run natively.
- Native = false
- // LocalDevice is the device that testbench uses to inject traffic.
- LocalDevice = ""
- // RemoteDevice is the device name on the DUT, individual tests can
- // use the name to construct tests.
- RemoteDevice = ""
-
- // LocalIPv4 is the local IPv4 address on the test network.
- LocalIPv4 = ""
- // RemoteIPv4 is the DUT's IPv4 address on the test network.
- RemoteIPv4 = ""
- // IPv4PrefixLength is the network prefix length of the IPv4 test network.
- IPv4PrefixLength = 0
-
- // LocalIPv6 is the local IPv6 address on the test network.
- LocalIPv6 = ""
- // RemoteIPv6 is the DUT's IPv6 address on the test network.
- RemoteIPv6 = ""
-
- // LocalInterfaceID is the ID of the local interface on the test network.
- LocalInterfaceID uint32
- // RemoteInterfaceID is the ID of the remote interface on the test network.
- //
- // Not using uint32 because package flag does not support uint32.
- RemoteInterfaceID uint64
-
- // LocalMAC is the local MAC address on the test network.
- LocalMAC = ""
- // RemoteMAC is the DUT's MAC address on the test network.
- RemoteMAC = ""
-
- // POSIXServerIP is the POSIX server's IP address on the control network.
- POSIXServerIP = ""
- // POSIXServerPort is the UDP port the POSIX server is bound to on the
- // control network.
- POSIXServerPort = 40000
-
- // RPCKeepalive is the gRPC keepalive.
- RPCKeepalive = 10 * time.Second
- // RPCTimeout is the gRPC timeout.
- RPCTimeout = 100 * time.Millisecond
-)
-
-// RegisterFlags defines flags and associates them with the package-level
-// exported variables above. It should be called by tests in their init
-// functions.
-func RegisterFlags(fs *flag.FlagSet) {
- fs.StringVar(&POSIXServerIP, "posix_server_ip", POSIXServerIP, "ip address to listen to for UDP commands")
- fs.IntVar(&POSIXServerPort, "posix_server_port", POSIXServerPort, "port to listen to for UDP commands")
- fs.DurationVar(&RPCTimeout, "rpc_timeout", RPCTimeout, "gRPC timeout")
- fs.DurationVar(&RPCKeepalive, "rpc_keepalive", RPCKeepalive, "gRPC keepalive")
- fs.StringVar(&LocalIPv4, "local_ipv4", LocalIPv4, "local IPv4 address for test packets")
- fs.StringVar(&RemoteIPv4, "remote_ipv4", RemoteIPv4, "remote IPv4 address for test packets")
- fs.StringVar(&RemoteIPv6, "remote_ipv6", RemoteIPv6, "remote IPv6 address for test packets")
- fs.StringVar(&RemoteMAC, "remote_mac", RemoteMAC, "remote mac address for test packets")
- fs.StringVar(&LocalDevice, "local_device", LocalDevice, "local device to inject traffic")
- fs.StringVar(&RemoteDevice, "remote_device", RemoteDevice, "remote device on the DUT")
- fs.BoolVar(&Native, "native", Native, "whether the test is running natively")
- fs.Uint64Var(&RemoteInterfaceID, "remote_interface_id", RemoteInterfaceID, "remote interface ID for test packets")
-}
-
-// genPseudoFlags populates flag-like global config based on real flags.
-//
-// genPseudoFlags must only be called after flag.Parse.
-func genPseudoFlags() error {
- out, err := exec.Command("ip", "addr", "show").CombinedOutput()
- if err != nil {
- return fmt.Errorf("listing devices: %q: %w", string(out), err)
- }
- devs, err := netdevs.ParseDevices(string(out))
- if err != nil {
- return fmt.Errorf("parsing devices: %w", err)
- }
-
- _, deviceInfo, err := netdevs.FindDeviceByIP(net.ParseIP(LocalIPv4), devs)
- if err != nil {
- return fmt.Errorf("can't find deviceInfo: %w", err)
- }
-
- LocalMAC = deviceInfo.MAC.String()
- LocalIPv6 = deviceInfo.IPv6Addr.String()
- LocalInterfaceID = deviceInfo.ID
-
- if deviceInfo.IPv4Net != nil {
- IPv4PrefixLength, _ = deviceInfo.IPv4Net.Mask.Size()
- } else {
- IPv4PrefixLength, _ = net.ParseIP(LocalIPv4).DefaultMask().Size()
- }
-
- return nil
-}
-
-// GenerateRandomPayload generates a random byte slice of the specified length,
-// causing a fatal test failure if it is unable to do so.
-func GenerateRandomPayload(t *testing.T, n int) []byte {
- t.Helper()
- buf := make([]byte, n)
- if _, err := rand.Read(buf); err != nil {
- t.Fatalf("rand.Read(buf) failed: %s", err)
- }
- return buf
-}