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-rw-r--r--test/packetimpact/testbench/connections.go330
-rw-r--r--test/packetimpact/testbench/dut.go358
-rw-r--r--test/packetimpact/testbench/rawsockets.go44
-rw-r--r--test/packetimpact/tests/fin_wait2_timeout_test.go26
-rw-r--r--test/packetimpact/tests/icmpv6_param_problem_test.go8
-rw-r--r--test/packetimpact/tests/ipv4_id_uniqueness_test.go34
-rw-r--r--test/packetimpact/tests/ipv6_fragment_reassembly_test.go10
-rw-r--r--test/packetimpact/tests/ipv6_unknown_options_action_test.go44
-rw-r--r--test/packetimpact/tests/tcp_close_wait_ack_test.go63
-rw-r--r--test/packetimpact/tests/tcp_cork_mss_test.go36
-rw-r--r--test/packetimpact/tests/tcp_handshake_window_size_test.go20
-rw-r--r--test/packetimpact/tests/tcp_network_unreachable_test.go28
-rw-r--r--test/packetimpact/tests/tcp_noaccept_close_rst_test.go10
-rw-r--r--test/packetimpact/tests/tcp_outside_the_window_test.go24
-rw-r--r--test/packetimpact/tests/tcp_paws_mechanism_test.go24
-rw-r--r--test/packetimpact/tests/tcp_queue_receive_in_syn_sent_test.go26
-rw-r--r--test/packetimpact/tests/tcp_reordering_test.go48
-rw-r--r--test/packetimpact/tests/tcp_retransmits_test.go28
-rw-r--r--test/packetimpact/tests/tcp_send_window_sizes_piggyback_test.go24
-rw-r--r--test/packetimpact/tests/tcp_synrcvd_reset_test.go16
-rw-r--r--test/packetimpact/tests/tcp_synsent_reset_test.go30
-rw-r--r--test/packetimpact/tests/tcp_user_timeout_test.go41
-rw-r--r--test/packetimpact/tests/tcp_window_shrink_test.go36
-rw-r--r--test/packetimpact/tests/tcp_zero_window_probe_retransmit_test.go39
-rw-r--r--test/packetimpact/tests/tcp_zero_window_probe_test.go44
-rw-r--r--test/packetimpact/tests/tcp_zero_window_probe_usertimeout_test.go40
-rw-r--r--test/packetimpact/tests/udp_discard_mcast_source_addr_test.go22
-rw-r--r--test/packetimpact/tests/udp_icmp_error_propagation_test.go130
-rw-r--r--test/packetimpact/tests/udp_recv_mcast_bcast_test.go9
-rw-r--r--test/packetimpact/tests/udp_send_recv_dgram_test.go28
30 files changed, 876 insertions, 744 deletions
diff --git a/test/packetimpact/testbench/connections.go b/test/packetimpact/testbench/connections.go
index 87ce58c24..3af5f83fd 100644
--- a/test/packetimpact/testbench/connections.go
+++ b/test/packetimpact/testbench/connections.go
@@ -429,7 +429,6 @@ type Connection struct {
layerStates []layerState
injector Injector
sniffer Sniffer
- t *testing.T
}
// Returns the default incoming frame against which to match. If received is
@@ -462,7 +461,9 @@ func (conn *Connection) match(override, received Layers) bool {
}
// Close frees associated resources held by the Connection.
-func (conn *Connection) Close() {
+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 {
@@ -470,7 +471,7 @@ func (conn *Connection) Close() {
}
}
if errs != nil {
- conn.t.Fatalf("unable to close %+v: %s", conn, errs)
+ t.Fatalf("unable to close %+v: %s", conn, errs)
}
}
@@ -482,7 +483,9 @@ func (conn *Connection) Close() {
// 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(overrideLayers Layers, additionalLayers ...Layer) Layers {
+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()
@@ -491,7 +494,7 @@ func (conn *Connection) CreateFrame(overrideLayers Layers, additionalLayers ...L
// end.
if j := len(overrideLayers) - (len(conn.layerStates) - i); j >= 0 {
if err := layer.merge(overrideLayers[j]); err != nil {
- conn.t.Fatalf("can't merge %+v into %+v: %s", layer, overrideLayers[j], err)
+ t.Fatalf("can't merge %+v into %+v: %s", layer, overrideLayers[j], err)
}
}
layersToSend = append(layersToSend, layer)
@@ -505,21 +508,25 @@ func (conn *Connection) CreateFrame(overrideLayers Layers, additionalLayers ...L
// 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(frame Layers) {
+func (conn *Connection) SendFrameStateless(t *testing.T, frame Layers) {
+ t.Helper()
+
outBytes, err := frame.ToBytes()
if err != nil {
- conn.t.Fatalf("can't build outgoing packet: %s", err)
+ t.Fatalf("can't build outgoing packet: %s", err)
}
- conn.injector.Send(outBytes)
+ conn.injector.Send(t, outBytes)
}
// SendFrame sends a frame on the wire and updates the state of all layers.
-func (conn *Connection) SendFrame(frame Layers) {
+func (conn *Connection) SendFrame(t *testing.T, frame Layers) {
+ t.Helper()
+
outBytes, err := frame.ToBytes()
if err != nil {
- conn.t.Fatalf("can't build outgoing packet: %s", err)
+ t.Fatalf("can't build outgoing packet: %s", err)
}
- conn.injector.Send(outBytes)
+ 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
@@ -528,7 +535,7 @@ func (conn *Connection) SendFrame(frame Layers) {
// 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 {
- conn.t.Fatalf("Unable to update the state of %+v with %s: %s", s, sentFrame[i], err)
+ t.Fatalf("Unable to update the state of %+v with %s: %s", s, sentFrame[i], err)
}
}
}
@@ -538,18 +545,22 @@ func (conn *Connection) SendFrame(frame Layers) {
//
// Types defined with Connection as the underlying type should expose
// type-safe versions of this method.
-func (conn *Connection) send(overrideLayers Layers, additionalLayers ...Layer) {
- conn.SendFrame(conn.CreateFrame(overrideLayers, additionalLayers...))
+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(timeout time.Duration) Layers {
+func (conn *Connection) recvFrame(t *testing.T, timeout time.Duration) Layers {
+ t.Helper()
+
if timeout <= 0 {
return nil
}
- b := conn.sniffer.Recv(timeout)
+ b := conn.sniffer.Recv(t, timeout)
if b == nil {
return nil
}
@@ -569,32 +580,36 @@ func (e *layersError) Error() string {
// 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(layer Layer, timeout time.Duration) (Layer, error) {
+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(layers, timeout)
+ 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
}
- conn.t.Fatal("the received frame should be at least as long as the expected layers")
+ 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(layers Layers, timeout time.Duration) (Layers, error) {
+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(timeout)
+ gotLayers = conn.recvFrame(t, timeout)
}
if gotLayers == nil {
if errs == nil {
@@ -605,7 +620,7 @@ func (conn *Connection) ExpectFrame(layers Layers, timeout time.Duration) (Layer
if conn.match(layers, gotLayers) {
for i, s := range conn.layerStates {
if err := s.received(gotLayers[i]); err != nil {
- conn.t.Fatal(err)
+ t.Fatalf("failed to update test connection's layer states based on received frame: %s", err)
}
}
return gotLayers, nil
@@ -616,8 +631,10 @@ func (conn *Connection) ExpectFrame(layers Layers, timeout time.Duration) (Layer
// Drain drains the sniffer's receive buffer by receiving packets until there's
// nothing else to receive.
-func (conn *Connection) Drain() {
- conn.sniffer.Drain()
+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.
@@ -625,6 +642,8 @@ 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)
@@ -650,57 +669,58 @@ func NewTCPIPv4(t *testing.T, outgoingTCP, incomingTCP TCP) TCPIPv4 {
layerStates: []layerState{etherState, ipv4State, tcpState},
injector: injector,
sniffer: sniffer,
- t: t,
}
}
// Connect performs a TCP 3-way handshake. The input Connection should have a
// final TCP Layer.
-func (conn *TCPIPv4) Connect() {
- conn.t.Helper()
+func (conn *TCPIPv4) Connect(t *testing.T) {
+ t.Helper()
// Send the SYN.
- conn.Send(TCP{Flags: Uint8(header.TCPFlagSyn)})
+ conn.Send(t, TCP{Flags: Uint8(header.TCPFlagSyn)})
// Wait for the SYN-ACK.
- synAck, err := conn.Expect(TCP{Flags: Uint8(header.TCPFlagSyn | header.TCPFlagAck)}, time.Second)
+ synAck, err := conn.Expect(t, TCP{Flags: Uint8(header.TCPFlagSyn | header.TCPFlagAck)}, time.Second)
if err != nil {
- conn.t.Fatalf("didn't get synack during handshake: %s", err)
+ t.Fatalf("didn't get synack during handshake: %s", err)
}
conn.layerStates[len(conn.layerStates)-1].(*tcpState).synAck = synAck
// Send an ACK.
- conn.Send(TCP{Flags: Uint8(header.TCPFlagAck)})
+ 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(options []byte) {
- conn.t.Helper()
+func (conn *TCPIPv4) ConnectWithOptions(t *testing.T, options []byte) {
+ t.Helper()
// Send the SYN.
- conn.Send(TCP{Flags: Uint8(header.TCPFlagSyn), Options: options})
+ conn.Send(t, TCP{Flags: Uint8(header.TCPFlagSyn), Options: options})
// Wait for the SYN-ACK.
- synAck, err := conn.Expect(TCP{Flags: Uint8(header.TCPFlagSyn | header.TCPFlagAck)}, time.Second)
+ synAck, err := conn.Expect(t, TCP{Flags: Uint8(header.TCPFlagSyn | header.TCPFlagAck)}, time.Second)
if err != nil {
- conn.t.Fatalf("didn't get synack during handshake: %s", err)
+ t.Fatalf("didn't get synack during handshake: %s", err)
}
conn.layerStates[len(conn.layerStates)-1].(*tcpState).synAck = synAck
// Send an ACK.
- conn.Send(TCP{Flags: Uint8(header.TCPFlagAck)})
+ 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(tcp *TCP, payload *Payload, timeout time.Duration) (Layers, error) {
+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(expected, timeout)
+ return (*Connection)(conn).ExpectFrame(t, expected, timeout)
}
// ExpectNextData attempts to receive the next incoming segment for the
@@ -709,9 +729,11 @@ func (conn *TCPIPv4) ExpectData(tcp *TCP, payload *Payload, timeout time.Duratio
// 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(tcp *TCP, payload *Payload, timeout time.Duration) (Layers, error) {
+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(&TCP{}, nil, timeout)
+ got, err := conn.ExpectData(t, &TCP{}, nil, timeout)
if err != nil {
return nil, err
}
@@ -720,7 +742,7 @@ func (conn *TCPIPv4) ExpectNextData(tcp *TCP, payload *Payload, timeout time.Dur
expected[len(expected)-1] = tcp
if payload != nil {
expected = append(expected, payload)
- tcp.SeqNum = Uint32(uint32(*conn.RemoteSeqNum()) - uint32(payload.Length()))
+ 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)
@@ -730,71 +752,91 @@ func (conn *TCPIPv4) ExpectNextData(tcp *TCP, payload *Payload, timeout time.Dur
// 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(tcp TCP, additionalLayers ...Layer) {
- (*Connection)(conn).send(Layers{&tcp}, additionalLayers...)
+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() {
- (*Connection)(conn).Close()
+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(tcp TCP, timeout time.Duration) (*TCP, error) {
- layer, err := (*Connection)(conn).Expect(&tcp, timeout)
+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 {
- conn.t.Fatalf("expected %s to be TCP", layer)
+ t.Fatalf("expected %s to be TCP", layer)
}
return gotTCP, err
}
-func (conn *TCPIPv4) tcpState() *tcpState {
+func (conn *TCPIPv4) tcpState(t *testing.T) *tcpState {
+ t.Helper()
+
state, ok := conn.layerStates[2].(*tcpState)
if !ok {
- conn.t.Fatalf("got transport-layer state type=%T, expected tcpState", conn.layerStates[2])
+ t.Fatalf("got transport-layer state type=%T, expected tcpState", conn.layerStates[2])
}
return state
}
-func (conn *TCPIPv4) ipv4State() *ipv4State {
+func (conn *TCPIPv4) ipv4State(t *testing.T) *ipv4State {
+ t.Helper()
+
state, ok := conn.layerStates[1].(*ipv4State)
if !ok {
- conn.t.Fatalf("expected network-layer state type=%T, expected ipv4State", conn.layerStates[1])
+ 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() *seqnum.Value {
- return conn.tcpState().remoteSeqNum
+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() *seqnum.Value {
- return conn.tcpState().localSeqNum
+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() *TCP {
- return conn.tcpState().synAck
+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() *unix.SockaddrInet4 {
- sa := &unix.SockaddrInet4{Port: int(*conn.tcpState().out.SrcPort)}
- copy(sa.Addr[:], *conn.ipv4State().out.SrcAddr)
+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() {
- conn.sniffer.Drain()
+func (conn *TCPIPv4) Drain(t *testing.T) {
+ t.Helper()
+
+ conn.sniffer.Drain(t)
}
// IPv6Conn maintains the state for all the layers in a IPv6 connection.
@@ -802,6 +844,8 @@ 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)
@@ -824,25 +868,30 @@ func NewIPv6Conn(t *testing.T, outgoingIPv6, incomingIPv6 IPv6) IPv6Conn {
layerStates: []layerState{etherState, ipv6State},
injector: injector,
sniffer: sniffer,
- t: t,
}
}
// Send sends a frame with ipv6 overriding the IPv6 layer defaults and
// additionalLayers added after it.
-func (conn *IPv6Conn) Send(ipv6 IPv6, additionalLayers ...Layer) {
- (*Connection)(conn).send(Layers{&ipv6}, additionalLayers...)
+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() {
- (*Connection)(conn).Close()
+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(frame Layers, timeout time.Duration) (Layers, error) {
- return (*Connection)(conn).ExpectFrame(frame, timeout)
+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.
@@ -850,6 +899,8 @@ 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)
@@ -875,81 +926,96 @@ func NewUDPIPv4(t *testing.T, outgoingUDP, incomingUDP UDP) UDPIPv4 {
layerStates: []layerState{etherState, ipv4State, udpState},
injector: injector,
sniffer: sniffer,
- t: t,
}
}
-func (conn *UDPIPv4) udpState() *udpState {
+func (conn *UDPIPv4) udpState(t *testing.T) *udpState {
+ t.Helper()
+
state, ok := conn.layerStates[2].(*udpState)
if !ok {
- conn.t.Fatalf("got transport-layer state type=%T, expected udpState", conn.layerStates[2])
+ t.Fatalf("got transport-layer state type=%T, expected udpState", conn.layerStates[2])
}
return state
}
-func (conn *UDPIPv4) ipv4State() *ipv4State {
+func (conn *UDPIPv4) ipv4State(t *testing.T) *ipv4State {
+ t.Helper()
+
state, ok := conn.layerStates[1].(*ipv4State)
if !ok {
- conn.t.Fatalf("got network-layer state type=%T, expected ipv4State", conn.layerStates[1])
+ 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() *unix.SockaddrInet4 {
- sa := &unix.SockaddrInet4{Port: int(*conn.udpState().out.SrcPort)}
- copy(sa.Addr[:], *conn.ipv4State().out.SrcAddr)
+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(udp UDP, additionalLayers ...Layer) {
- (*Connection)(conn).send(Layers{&udp}, additionalLayers...)
+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(ip IPv4, udp UDP, additionalLayers ...Layer) {
- (*Connection)(conn).send(Layers{&ip, &udp}, additionalLayers...)
+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(udp UDP, timeout time.Duration) (*UDP, error) {
- conn.t.Helper()
- layer, err := (*Connection)(conn).Expect(&udp, timeout)
+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 {
- conn.t.Fatalf("expected %s to be UDP", layer)
+ 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(udp UDP, payload Payload, timeout time.Duration) (Layers, error) {
- conn.t.Helper()
+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(expected, timeout)
+ return (*Connection)(conn).ExpectFrame(t, expected, timeout)
}
// Close frees associated resources held by the UDPIPv4 connection.
-func (conn *UDPIPv4) Close() {
- (*Connection)(conn).Close()
+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() {
- conn.sniffer.Drain()
+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.
@@ -957,6 +1023,8 @@ 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)
@@ -981,86 +1049,101 @@ func NewUDPIPv6(t *testing.T, outgoingUDP, incomingUDP UDP) UDPIPv6 {
layerStates: []layerState{etherState, ipv6State, udpState},
injector: injector,
sniffer: sniffer,
- t: t,
}
}
-func (conn *UDPIPv6) udpState() *udpState {
+func (conn *UDPIPv6) udpState(t *testing.T) *udpState {
+ t.Helper()
+
state, ok := conn.layerStates[2].(*udpState)
if !ok {
- conn.t.Fatalf("got transport-layer state type=%T, expected udpState", conn.layerStates[2])
+ t.Fatalf("got transport-layer state type=%T, expected udpState", conn.layerStates[2])
}
return state
}
-func (conn *UDPIPv6) ipv6State() *ipv6State {
+func (conn *UDPIPv6) ipv6State(t *testing.T) *ipv6State {
+ t.Helper()
+
state, ok := conn.layerStates[1].(*ipv6State)
if !ok {
- conn.t.Fatalf("got network-layer state type=%T, expected ipv6State", conn.layerStates[1])
+ 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() *unix.SockaddrInet6 {
+func (conn *UDPIPv6) LocalAddr(t *testing.T) *unix.SockaddrInet6 {
+ t.Helper()
+
sa := &unix.SockaddrInet6{
- Port: int(*conn.udpState().out.SrcPort),
+ 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().out.SrcAddr)
+ 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(udp UDP, additionalLayers ...Layer) {
- (*Connection)(conn).send(Layers{&udp}, additionalLayers...)
+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(ip IPv6, udp UDP, additionalLayers ...Layer) {
- (*Connection)(conn).send(Layers{&ip, &udp}, additionalLayers...)
+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(udp UDP, timeout time.Duration) (*UDP, error) {
- conn.t.Helper()
- layer, err := (*Connection)(conn).Expect(&udp, timeout)
+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 {
- conn.t.Fatalf("expected %s to be UDP", layer)
+ 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(udp UDP, payload Payload, timeout time.Duration) (Layers, error) {
- conn.t.Helper()
+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(expected, timeout)
+ return (*Connection)(conn).ExpectFrame(t, expected, timeout)
}
// Close frees associated resources held by the UDPIPv6 connection.
-func (conn *UDPIPv6) Close() {
- (*Connection)(conn).Close()
+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() {
- conn.sniffer.Drain()
+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.
@@ -1093,7 +1176,6 @@ func NewTCPIPv6(t *testing.T, outgoingTCP, incomingTCP TCP) TCPIPv6 {
layerStates: []layerState{etherState, ipv6State, tcpState},
injector: injector,
sniffer: sniffer,
- t: t,
}
}
@@ -1104,16 +1186,20 @@ func (conn *TCPIPv6) SrcPort() uint16 {
// 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(tcp *TCP, payload *Payload, timeout time.Duration) (Layers, error) {
+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(expected, timeout)
+ return (*Connection)(conn).ExpectFrame(t, expected, timeout)
}
// Close frees associated resources held by the TCPIPv6 connection.
-func (conn *TCPIPv6) Close() {
- (*Connection)(conn).Close()
+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
index 51be13759..73c532e75 100644
--- a/test/packetimpact/testbench/dut.go
+++ b/test/packetimpact/testbench/dut.go
@@ -31,13 +31,14 @@ import (
// DUT communicates with the DUT to force it to make POSIX calls.
type DUT struct {
- t *testing.T
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)
@@ -50,7 +51,6 @@ func NewDUT(t *testing.T) DUT {
}
posixServer := NewPOSIXClient(conn)
return DUT{
- t: t,
conn: conn,
posixServer: posixServer,
}
@@ -61,8 +61,9 @@ func (dut *DUT) TearDown() {
dut.conn.Close()
}
-func (dut *DUT) sockaddrToProto(sa unix.Sockaddr) *pb.Sockaddr {
- dut.t.Helper()
+func (dut *DUT) sockaddrToProto(t *testing.T, sa unix.Sockaddr) *pb.Sockaddr {
+ t.Helper()
+
switch s := sa.(type) {
case *unix.SockaddrInet4:
return &pb.Sockaddr{
@@ -87,12 +88,13 @@ func (dut *DUT) sockaddrToProto(sa unix.Sockaddr) *pb.Sockaddr {
},
}
}
- dut.t.Fatalf("can't parse Sockaddr struct: %+v", sa)
+ t.Fatalf("can't parse Sockaddr struct: %+v", sa)
return nil
}
-func (dut *DUT) protoToSockaddr(sa *pb.Sockaddr) unix.Sockaddr {
- dut.t.Helper()
+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{
@@ -108,31 +110,32 @@ func (dut *DUT) protoToSockaddr(sa *pb.Sockaddr) unix.Sockaddr {
copy(ret.Addr[:], s.In6.GetAddr())
return &ret
}
- dut.t.Fatalf("can't parse Sockaddr proto: %+v", sa)
+ 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(typ, proto int32, addr net.IP) (int32, uint16) {
- dut.t.Helper()
+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(unix.AF_INET, typ, proto)
+ fd = dut.Socket(t, unix.AF_INET, typ, proto)
sa := unix.SockaddrInet4{}
copy(sa.Addr[:], addr.To4())
- dut.Bind(fd, &sa)
+ dut.Bind(t, fd, &sa)
} else if addr.To16() != nil {
- fd = dut.Socket(unix.AF_INET6, typ, proto)
+ fd = dut.Socket(t, unix.AF_INET6, typ, proto)
sa := unix.SockaddrInet6{}
copy(sa.Addr[:], addr.To16())
sa.ZoneId = uint32(RemoteInterfaceID)
- dut.Bind(fd, &sa)
+ dut.Bind(t, fd, &sa)
} else {
- dut.t.Fatalf("unknown ip addr type for remoteIP")
+ t.Fatalf("invalid IP address: %s", addr)
}
- sa := dut.GetSockName(fd)
+ sa := dut.GetSockName(t, fd)
var port int
switch s := sa.(type) {
case *unix.SockaddrInet4:
@@ -140,15 +143,17 @@ func (dut *DUT) CreateBoundSocket(typ, proto int32, addr net.IP) (int32, uint16)
case *unix.SockaddrInet6:
port = s.Port
default:
- dut.t.Fatalf("unknown sockaddr type from getsockname: %t", sa)
+ 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(typ, proto, backlog int32) (int32, uint16) {
- fd, remotePort := dut.CreateBoundSocket(typ, proto, net.ParseIP(RemoteIPv4))
- dut.Listen(fd, backlog)
+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
}
@@ -158,53 +163,57 @@ func (dut *DUT) CreateListener(typ, proto, backlog int32) (int32, uint16) {
// 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(sockfd int32) (int32, unix.Sockaddr) {
- dut.t.Helper()
+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, sockfd)
+ fd, sa, err := dut.AcceptWithErrno(ctx, t, sockfd)
if fd < 0 {
- dut.t.Fatalf("failed to accept: %s", err)
+ t.Fatalf("failed to accept: %s", err)
}
return fd, sa
}
// AcceptWithErrno calls accept on the DUT.
-func (dut *DUT) AcceptWithErrno(ctx context.Context, sockfd int32) (int32, unix.Sockaddr, error) {
- dut.t.Helper()
+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 {
- dut.t.Fatalf("failed to call Accept: %s", err)
+ t.Fatalf("failed to call Accept: %s", err)
}
- return resp.GetFd(), dut.protoToSockaddr(resp.GetAddr()), syscall.Errno(resp.GetErrno_())
+ 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(fd int32, sa unix.Sockaddr) {
- dut.t.Helper()
+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, fd, sa)
+ ret, err := dut.BindWithErrno(ctx, t, fd, sa)
if ret != 0 {
- dut.t.Fatalf("failed to bind socket: %s", err)
+ t.Fatalf("failed to bind socket: %s", err)
}
}
// BindWithErrno calls bind on the DUT.
-func (dut *DUT) BindWithErrno(ctx context.Context, fd int32, sa unix.Sockaddr) (int32, error) {
- dut.t.Helper()
+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(sa),
+ Addr: dut.sockaddrToProto(t, sa),
}
resp, err := dut.posixServer.Bind(ctx, &req)
if err != nil {
- dut.t.Fatalf("failed to call Bind: %s", err)
+ t.Fatalf("failed to call Bind: %s", err)
}
return resp.GetRet(), syscall.Errno(resp.GetErrno_())
}
@@ -212,25 +221,27 @@ func (dut *DUT) BindWithErrno(ctx context.Context, fd int32, sa unix.Sockaddr) (
// 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(fd int32) {
- dut.t.Helper()
+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, fd)
+ ret, err := dut.CloseWithErrno(ctx, t, fd)
if ret != 0 {
- dut.t.Fatalf("failed to close: %s", err)
+ t.Fatalf("failed to close: %s", err)
}
}
// CloseWithErrno calls close on the DUT.
-func (dut *DUT) CloseWithErrno(ctx context.Context, fd int32) (int32, error) {
- dut.t.Helper()
+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 {
- dut.t.Fatalf("failed to call Close: %s", err)
+ t.Fatalf("failed to call Close: %s", err)
}
return resp.GetRet(), syscall.Errno(resp.GetErrno_())
}
@@ -238,28 +249,30 @@ func (dut *DUT) CloseWithErrno(ctx context.Context, fd int32) (int32, error) {
// 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(fd int32, sa unix.Sockaddr) {
- dut.t.Helper()
+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, fd, sa)
+ 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 {
- dut.t.Fatalf("failed to connect socket: %s", err)
+ t.Fatalf("failed to connect socket: %s", err)
}
}
// ConnectWithErrno calls bind on the DUT.
-func (dut *DUT) ConnectWithErrno(ctx context.Context, fd int32, sa unix.Sockaddr) (int32, error) {
- dut.t.Helper()
+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(sa),
+ Addr: dut.sockaddrToProto(t, sa),
}
resp, err := dut.posixServer.Connect(ctx, &req)
if err != nil {
- dut.t.Fatalf("failed to call Connect: %s", err)
+ t.Fatalf("failed to call Connect: %s", err)
}
return resp.GetRet(), syscall.Errno(resp.GetErrno_())
}
@@ -267,20 +280,22 @@ func (dut *DUT) ConnectWithErrno(ctx context.Context, fd int32, sa unix.Sockaddr
// 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(fd, cmd, arg int32) int32 {
- dut.t.Helper()
+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, fd, cmd, arg)
+ ret, err := dut.FcntlWithErrno(ctx, t, fd, cmd, arg)
if ret == -1 {
- dut.t.Fatalf("failed to Fcntl: ret=%d, errno=%s", ret, err)
+ 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, fd, cmd, arg int32) (int32, error) {
- dut.t.Helper()
+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,
@@ -288,7 +303,7 @@ func (dut *DUT) FcntlWithErrno(ctx context.Context, fd, cmd, arg int32) (int32,
}
resp, err := dut.posixServer.Fcntl(ctx, &req)
if err != nil {
- dut.t.Fatalf("failed to call Fcntl: %s", err)
+ t.Fatalf("failed to call Fcntl: %s", err)
}
return resp.GetRet(), syscall.Errno(resp.GetErrno_())
}
@@ -296,32 +311,35 @@ func (dut *DUT) FcntlWithErrno(ctx context.Context, fd, cmd, arg int32) (int32,
// 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(sockfd int32) unix.Sockaddr {
- dut.t.Helper()
+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, sockfd)
+ ret, sa, err := dut.GetSockNameWithErrno(ctx, t, sockfd)
if ret != 0 {
- dut.t.Fatalf("failed to getsockname: %s", err)
+ t.Fatalf("failed to getsockname: %s", err)
}
return sa
}
// GetSockNameWithErrno calls getsockname on the DUT.
-func (dut *DUT) GetSockNameWithErrno(ctx context.Context, sockfd int32) (int32, unix.Sockaddr, error) {
- dut.t.Helper()
+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 {
- dut.t.Fatalf("failed to call Bind: %s", err)
+ t.Fatalf("failed to call Bind: %s", err)
}
- return resp.GetRet(), dut.protoToSockaddr(resp.GetAddr()), syscall.Errno(resp.GetErrno_())
+ return resp.GetRet(), dut.protoToSockaddr(t, resp.GetAddr()), syscall.Errno(resp.GetErrno_())
}
-func (dut *DUT) getSockOpt(ctx context.Context, sockfd, level, optname, optlen int32, typ pb.GetSockOptRequest_SockOptType) (int32, *pb.SockOptVal, error) {
- dut.t.Helper()
+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,
@@ -331,11 +349,11 @@ func (dut *DUT) getSockOpt(ctx context.Context, sockfd, level, optname, optlen i
}
resp, err := dut.posixServer.GetSockOpt(ctx, &req)
if err != nil {
- dut.t.Fatalf("failed to call GetSockOpt: %s", err)
+ t.Fatalf("failed to call GetSockOpt: %s", err)
}
optval := resp.GetOptval()
if optval == nil {
- dut.t.Fatalf("GetSockOpt response does not contain a value")
+ t.Fatalf("GetSockOpt response does not contain a value")
}
return resp.GetRet(), optval, syscall.Errno(resp.GetErrno_())
}
@@ -345,13 +363,14 @@ func (dut *DUT) getSockOpt(ctx context.Context, sockfd, level, optname, optlen i
// 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(sockfd, level, optname, optlen int32) []byte {
- dut.t.Helper()
+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, sockfd, level, optname, optlen)
+ ret, optval, err := dut.GetSockOptWithErrno(ctx, t, sockfd, level, optname, optlen)
if ret != 0 {
- dut.t.Fatalf("failed to GetSockOpt: %s", err)
+ t.Fatalf("failed to GetSockOpt: %s", err)
}
return optval
}
@@ -359,12 +378,13 @@ func (dut *DUT) GetSockOpt(sockfd, level, optname, optlen int32) []byte {
// 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, sockfd, level, optname, optlen int32) (int32, []byte, error) {
- dut.t.Helper()
- ret, optval, errno := dut.getSockOpt(ctx, sockfd, level, optname, optlen, pb.GetSockOptRequest_BYTES)
+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 {
- dut.t.Fatalf("GetSockOpt got value type: %T, want bytes", optval)
+ t.Fatalf("GetSockOpt got value type: %T, want bytes", optval.Val)
}
return ret, bytesval.Bytesval, errno
}
@@ -372,24 +392,26 @@ func (dut *DUT) GetSockOptWithErrno(ctx context.Context, sockfd, level, optname,
// 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(sockfd, level, optname int32) int32 {
- dut.t.Helper()
+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, sockfd, level, optname)
+ ret, intval, err := dut.GetSockOptIntWithErrno(ctx, t, sockfd, level, optname)
if ret != 0 {
- dut.t.Fatalf("failed to GetSockOptInt: %s", err)
+ t.Fatalf("failed to GetSockOptInt: %s", err)
}
return intval
}
// GetSockOptIntWithErrno calls getsockopt with an integer optval.
-func (dut *DUT) GetSockOptIntWithErrno(ctx context.Context, sockfd, level, optname int32) (int32, int32, error) {
- dut.t.Helper()
- ret, optval, errno := dut.getSockOpt(ctx, sockfd, level, optname, 0, pb.GetSockOptRequest_INT)
+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 {
- dut.t.Fatalf("GetSockOpt got value type: %T, want int", optval)
+ t.Fatalf("GetSockOpt got value type: %T, want int", optval.Val)
}
return ret, intval.Intval, errno
}
@@ -397,24 +419,26 @@ func (dut *DUT) GetSockOptIntWithErrno(ctx context.Context, sockfd, level, optna
// 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(sockfd, level, optname int32) unix.Timeval {
- dut.t.Helper()
+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, sockfd, level, optname)
+ ret, timeval, err := dut.GetSockOptTimevalWithErrno(ctx, t, sockfd, level, optname)
if ret != 0 {
- dut.t.Fatalf("failed to GetSockOptTimeval: %s", err)
+ t.Fatalf("failed to GetSockOptTimeval: %s", err)
}
return timeval
}
// GetSockOptTimevalWithErrno calls getsockopt and returns a timeval.
-func (dut *DUT) GetSockOptTimevalWithErrno(ctx context.Context, sockfd, level, optname int32) (int32, unix.Timeval, error) {
- dut.t.Helper()
- ret, optval, errno := dut.getSockOpt(ctx, sockfd, level, optname, 0, pb.GetSockOptRequest_TIME)
+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 {
- dut.t.Fatalf("GetSockOpt got value type: %T, want timeval", optval)
+ t.Fatalf("GetSockOpt got value type: %T, want timeval", optval.Val)
}
timeval := unix.Timeval{
Sec: tv.Timeval.Seconds,
@@ -426,26 +450,28 @@ func (dut *DUT) GetSockOptTimevalWithErrno(ctx context.Context, sockfd, level, o
// 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(sockfd, backlog int32) {
- dut.t.Helper()
+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, sockfd, backlog)
+ ret, err := dut.ListenWithErrno(ctx, t, sockfd, backlog)
if ret != 0 {
- dut.t.Fatalf("failed to listen: %s", err)
+ t.Fatalf("failed to listen: %s", err)
}
}
// ListenWithErrno calls listen on the DUT.
-func (dut *DUT) ListenWithErrno(ctx context.Context, sockfd, backlog int32) (int32, error) {
- dut.t.Helper()
+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 {
- dut.t.Fatalf("failed to call Listen: %s", err)
+ t.Fatalf("failed to call Listen: %s", err)
}
return resp.GetRet(), syscall.Errno(resp.GetErrno_())
}
@@ -453,20 +479,22 @@ func (dut *DUT) ListenWithErrno(ctx context.Context, sockfd, backlog int32) (int
// 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(sockfd int32, buf []byte, flags int32) int32 {
- dut.t.Helper()
+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, sockfd, buf, flags)
+ ret, err := dut.SendWithErrno(ctx, t, sockfd, buf, flags)
if ret == -1 {
- dut.t.Fatalf("failed to send: %s", err)
+ t.Fatalf("failed to send: %s", err)
}
return ret
}
// SendWithErrno calls send on the DUT.
-func (dut *DUT) SendWithErrno(ctx context.Context, sockfd int32, buf []byte, flags int32) (int32, error) {
- dut.t.Helper()
+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,
@@ -474,7 +502,7 @@ func (dut *DUT) SendWithErrno(ctx context.Context, sockfd int32, buf []byte, fla
}
resp, err := dut.posixServer.Send(ctx, &req)
if err != nil {
- dut.t.Fatalf("failed to call Send: %s", err)
+ t.Fatalf("failed to call Send: %s", err)
}
return resp.GetRet(), syscall.Errno(resp.GetErrno_())
}
@@ -482,48 +510,52 @@ func (dut *DUT) SendWithErrno(ctx context.Context, sockfd int32, buf []byte, fla
// 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(sockfd int32, buf []byte, flags int32, destAddr unix.Sockaddr) int32 {
- dut.t.Helper()
+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, sockfd, buf, flags, destAddr)
+ ret, err := dut.SendToWithErrno(ctx, t, sockfd, buf, flags, destAddr)
if ret == -1 {
- dut.t.Fatalf("failed to sendto: %s", err)
+ t.Fatalf("failed to sendto: %s", err)
}
return ret
}
// SendToWithErrno calls sendto on the DUT.
-func (dut *DUT) SendToWithErrno(ctx context.Context, sockfd int32, buf []byte, flags int32, destAddr unix.Sockaddr) (int32, error) {
- dut.t.Helper()
+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(destAddr),
+ DestAddr: dut.sockaddrToProto(t, destAddr),
}
resp, err := dut.posixServer.SendTo(ctx, &req)
if err != nil {
- dut.t.Fatalf("faled to call SendTo: %s", err)
+ 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(fd int32, nonblocking bool) {
- dut.t.Helper()
- flags := dut.Fcntl(fd, unix.F_GETFL, 0)
+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(fd, unix.F_SETFL, flags)
+ dut.Fcntl(t, fd, unix.F_SETFL, flags)
}
-func (dut *DUT) setSockOpt(ctx context.Context, sockfd, level, optname int32, optval *pb.SockOptVal) (int32, error) {
- dut.t.Helper()
+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,
@@ -532,7 +564,7 @@ func (dut *DUT) setSockOpt(ctx context.Context, sockfd, level, optname int32, op
}
resp, err := dut.posixServer.SetSockOpt(ctx, &req)
if err != nil {
- dut.t.Fatalf("failed to call SetSockOpt: %s", err)
+ t.Fatalf("failed to call SetSockOpt: %s", err)
}
return resp.GetRet(), syscall.Errno(resp.GetErrno_())
}
@@ -542,81 +574,89 @@ func (dut *DUT) setSockOpt(ctx context.Context, sockfd, level, optname int32, op
// 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(sockfd, level, optname int32, optval []byte) {
- dut.t.Helper()
+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, sockfd, level, optname, optval)
+ ret, err := dut.SetSockOptWithErrno(ctx, t, sockfd, level, optname, optval)
if ret != 0 {
- dut.t.Fatalf("failed to SetSockOpt: %s", err)
+ 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, sockfd, level, optname int32, optval []byte) (int32, error) {
- dut.t.Helper()
- return dut.setSockOpt(ctx, sockfd, level, optname, &pb.SockOptVal{Val: &pb.SockOptVal_Bytesval{optval}})
+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(sockfd, level, optname, optval int32) {
- dut.t.Helper()
+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, sockfd, level, optname, optval)
+ ret, err := dut.SetSockOptIntWithErrno(ctx, t, sockfd, level, optname, optval)
if ret != 0 {
- dut.t.Fatalf("failed to SetSockOptInt: %s", err)
+ t.Fatalf("failed to SetSockOptInt: %s", err)
}
}
// SetSockOptIntWithErrno calls setsockopt with an integer optval.
-func (dut *DUT) SetSockOptIntWithErrno(ctx context.Context, sockfd, level, optname, optval int32) (int32, error) {
- dut.t.Helper()
- return dut.setSockOpt(ctx, sockfd, level, optname, &pb.SockOptVal{Val: &pb.SockOptVal_Intval{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(sockfd, level, optname int32, tv *unix.Timeval) {
- dut.t.Helper()
+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, sockfd, level, optname, tv)
+ ret, err := dut.SetSockOptTimevalWithErrno(ctx, t, sockfd, level, optname, tv)
if ret != 0 {
- dut.t.Fatalf("failed to SetSockOptTimeval: %s", err)
+ t.Fatalf("failed to SetSockOptTimeval: %s", err)
}
}
// SetSockOptTimevalWithErrno calls setsockopt with the timeval converted to
// bytes.
-func (dut *DUT) SetSockOptTimevalWithErrno(ctx context.Context, sockfd, level, optname int32, tv *unix.Timeval) (int32, error) {
- dut.t.Helper()
+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, sockfd, level, optname, &pb.SockOptVal{Val: &pb.SockOptVal_Timeval{&timeval}})
+ 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(domain, typ, proto int32) int32 {
- dut.t.Helper()
- fd, err := dut.SocketWithErrno(domain, typ, proto)
+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 {
- dut.t.Fatalf("failed to create socket: %s", err)
+ 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(domain, typ, proto int32) (int32, error) {
- dut.t.Helper()
+func (dut *DUT) SocketWithErrno(t *testing.T, domain, typ, proto int32) (int32, error) {
+ t.Helper()
+
req := pb.SocketRequest{
Domain: domain,
Type: typ,
@@ -625,7 +665,7 @@ func (dut *DUT) SocketWithErrno(domain, typ, proto int32) (int32, error) {
ctx := context.Background()
resp, err := dut.posixServer.Socket(ctx, &req)
if err != nil {
- dut.t.Fatalf("failed to call Socket: %s", err)
+ t.Fatalf("failed to call Socket: %s", err)
}
return resp.GetFd(), syscall.Errno(resp.GetErrno_())
}
@@ -633,20 +673,22 @@ func (dut *DUT) SocketWithErrno(domain, typ, proto int32) (int32, error) {
// 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(sockfd, len, flags int32) []byte {
- dut.t.Helper()
+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, sockfd, len, flags)
+ ret, buf, err := dut.RecvWithErrno(ctx, t, sockfd, len, flags)
if ret == -1 {
- dut.t.Fatalf("failed to recv: %s", err)
+ t.Fatalf("failed to recv: %s", err)
}
return buf
}
// RecvWithErrno calls recv on the DUT.
-func (dut *DUT) RecvWithErrno(ctx context.Context, sockfd, len, flags int32) (int32, []byte, error) {
- dut.t.Helper()
+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,
@@ -654,7 +696,7 @@ func (dut *DUT) RecvWithErrno(ctx context.Context, sockfd, len, flags int32) (in
}
resp, err := dut.posixServer.Recv(ctx, &req)
if err != nil {
- dut.t.Fatalf("failed to call Recv: %s", err)
+ t.Fatalf("failed to call Recv: %s", err)
}
return resp.GetRet(), resp.GetBuf(), syscall.Errno(resp.GetErrno_())
}
diff --git a/test/packetimpact/testbench/rawsockets.go b/test/packetimpact/testbench/rawsockets.go
index 278229b7e..57e822725 100644
--- a/test/packetimpact/testbench/rawsockets.go
+++ b/test/packetimpact/testbench/rawsockets.go
@@ -28,7 +28,6 @@ import (
// Sniffer can sniff raw packets on the wire.
type Sniffer struct {
- t *testing.T
fd int
}
@@ -40,6 +39,8 @@ func htons(x uint16) uint16 {
// 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
@@ -51,7 +52,6 @@ func NewSniffer(t *testing.T) (Sniffer, error) {
t.Fatalf("can't setsockopt SO_RCVBUF to 10M: %s", err)
}
return Sniffer{
- t: t,
fd: snifferFd,
}, nil
}
@@ -61,7 +61,9 @@ func NewSniffer(t *testing.T) (Sniffer, error) {
const maxReadSize int = 65536
// Recv tries to read one frame until the timeout is up.
-func (s *Sniffer) Recv(timeout time.Duration) []byte {
+func (s *Sniffer) Recv(t *testing.T, timeout time.Duration) []byte {
+ t.Helper()
+
deadline := time.Now().Add(timeout)
for {
timeout = deadline.Sub(time.Now())
@@ -75,7 +77,7 @@ func (s *Sniffer) Recv(timeout time.Duration) []byte {
}
if err := unix.SetsockoptTimeval(s.fd, unix.SOL_SOCKET, unix.SO_RCVTIMEO, &tv); err != nil {
- s.t.Fatalf("can't setsockopt SO_RCVTIMEO: %s", err)
+ t.Fatalf("can't setsockopt SO_RCVTIMEO: %s", err)
}
buf := make([]byte, maxReadSize)
@@ -85,10 +87,10 @@ func (s *Sniffer) Recv(timeout time.Duration) []byte {
continue
}
if err != nil {
- s.t.Fatalf("can't read: %s", err)
+ t.Fatalf("can't read: %s", err)
}
if nread > maxReadSize {
- s.t.Fatalf("received a truncated frame of %d bytes", nread)
+ t.Fatalf("received a truncated frame of %d bytes, want at most %d bytes", nread, maxReadSize)
}
return buf[:nread]
}
@@ -96,14 +98,16 @@ func (s *Sniffer) Recv(timeout time.Duration) []byte {
// Drain drains the Sniffer's socket receive buffer by receiving until there's
// nothing else to receive.
-func (s *Sniffer) Drain() {
- s.t.Helper()
+func (s *Sniffer) Drain(t *testing.T) {
+ t.Helper()
+
flags, err := unix.FcntlInt(uintptr(s.fd), unix.F_GETFL, 0)
if err != nil {
- s.t.Fatalf("failed to get sniffer socket fd flags: %s", err)
+ t.Fatalf("failed to get sniffer socket fd flags: %s", err)
}
- if _, err := unix.FcntlInt(uintptr(s.fd), unix.F_SETFL, flags|unix.O_NONBLOCK); err != nil {
- s.t.Fatalf("failed to make sniffer socket non-blocking: %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)
@@ -113,7 +117,7 @@ func (s *Sniffer) Drain() {
}
}
if _, err := unix.FcntlInt(uintptr(s.fd), unix.F_SETFL, flags); err != nil {
- s.t.Fatalf("failed to restore sniffer socket fd flags: %s", err)
+ t.Fatalf("failed to restore sniffer socket fd flags to %b: %s", flags, err)
}
}
@@ -128,12 +132,13 @@ func (s *Sniffer) close() error {
// Injector can inject raw frames.
type Injector struct {
- t *testing.T
fd int
}
// NewInjector creates a new injector on *device.
func NewInjector(t *testing.T) (Injector, error) {
+ t.Helper()
+
ifInfo, err := net.InterfaceByName(Device)
if err != nil {
return Injector{}, err
@@ -156,15 +161,20 @@ func NewInjector(t *testing.T) (Injector, error) {
return Injector{}, err
}
return Injector{
- t: t,
fd: injectFd,
}, nil
}
// Send a raw frame.
-func (i *Injector) Send(b []byte) {
- if _, err := unix.Write(i.fd, b); err != nil {
- i.t.Fatalf("can't write: %s of len %d", err, len(b))
+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))
}
}
diff --git a/test/packetimpact/tests/fin_wait2_timeout_test.go b/test/packetimpact/tests/fin_wait2_timeout_test.go
index 407565078..a61054c2c 100644
--- a/test/packetimpact/tests/fin_wait2_timeout_test.go
+++ b/test/packetimpact/tests/fin_wait2_timeout_test.go
@@ -39,34 +39,34 @@ func TestFinWait2Timeout(t *testing.T) {
t.Run(tt.description, func(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFd, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFd)
+ listenFd, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFd)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
- conn.Connect()
+ defer conn.Close(t)
+ conn.Connect(t)
- acceptFd, _ := dut.Accept(listenFd)
+ acceptFd, _ := dut.Accept(t, listenFd)
if tt.linger2 {
tv := unix.Timeval{Sec: 1, Usec: 0}
- dut.SetSockOptTimeval(acceptFd, unix.SOL_TCP, unix.TCP_LINGER2, &tv)
+ dut.SetSockOptTimeval(t, acceptFd, unix.SOL_TCP, unix.TCP_LINGER2, &tv)
}
- dut.Close(acceptFd)
+ dut.Close(t, acceptFd)
- if _, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagFin | header.TCPFlagAck)}, time.Second); err != nil {
+ if _, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagFin | header.TCPFlagAck)}, time.Second); err != nil {
t.Fatalf("expected a FIN-ACK within 1 second but got none: %s", err)
}
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
time.Sleep(5 * time.Second)
- conn.Drain()
+ conn.Drain(t)
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
if tt.linger2 {
- if _, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst)}, time.Second); err != nil {
+ if _, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst)}, time.Second); err != nil {
t.Fatalf("expected a RST packet within a second but got none: %s", err)
}
} else {
- if got, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst)}, 10*time.Second); got != nil || err == nil {
+ if got, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst)}, 10*time.Second); got != nil || err == nil {
t.Fatalf("expected no RST packets within ten seconds but got one: %s", got)
}
}
diff --git a/test/packetimpact/tests/icmpv6_param_problem_test.go b/test/packetimpact/tests/icmpv6_param_problem_test.go
index 8dfd26ee8..2d59d552d 100644
--- a/test/packetimpact/tests/icmpv6_param_problem_test.go
+++ b/test/packetimpact/tests/icmpv6_param_problem_test.go
@@ -34,7 +34,7 @@ func TestICMPv6ParamProblemTest(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
conn := testbench.NewIPv6Conn(t, testbench.IPv6{}, testbench.IPv6{})
- defer conn.Close()
+ defer conn.Close(t)
ipv6 := testbench.IPv6{
// 254 is reserved and used for experimentation and testing. This should
// cause an error.
@@ -45,8 +45,8 @@ func TestICMPv6ParamProblemTest(t *testing.T) {
Payload: []byte("hello world"),
}
- toSend := (*testbench.Connection)(&conn).CreateFrame(testbench.Layers{&ipv6}, &icmpv6)
- (*testbench.Connection)(&conn).SendFrame(toSend)
+ toSend := (*testbench.Connection)(&conn).CreateFrame(t, testbench.Layers{&ipv6}, &icmpv6)
+ (*testbench.Connection)(&conn).SendFrame(t, toSend)
// Build the expected ICMPv6 payload, which includes an index to the
// problematic byte and also the problematic packet as described in
@@ -72,7 +72,7 @@ func TestICMPv6ParamProblemTest(t *testing.T) {
&expectedICMPv6,
}
timeout := time.Second
- if _, err := conn.ExpectFrame(paramProblem, timeout); err != nil {
+ if _, err := conn.ExpectFrame(t, paramProblem, timeout); err != nil {
t.Errorf("expected %s within %s but got none: %s", paramProblem, timeout, err)
}
}
diff --git a/test/packetimpact/tests/ipv4_id_uniqueness_test.go b/test/packetimpact/tests/ipv4_id_uniqueness_test.go
index 70f6df5e0..cf881418c 100644
--- a/test/packetimpact/tests/ipv4_id_uniqueness_test.go
+++ b/test/packetimpact/tests/ipv4_id_uniqueness_test.go
@@ -31,8 +31,8 @@ func init() {
testbench.RegisterFlags(flag.CommandLine)
}
-func recvTCPSegment(conn *testbench.TCPIPv4, expect *testbench.TCP, expectPayload *testbench.Payload) (uint16, error) {
- layers, err := conn.ExpectData(expect, expectPayload, time.Second)
+func recvTCPSegment(t *testing.T, conn *testbench.TCPIPv4, expect *testbench.TCP, expectPayload *testbench.Payload) (uint16, error) {
+ layers, err := conn.ExpectData(t, expect, expectPayload, time.Second)
if err != nil {
return 0, fmt.Errorf("failed to receive TCP segment: %s", err)
}
@@ -69,17 +69,17 @@ func TestIPv4RetransmitIdentificationUniqueness(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFD, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFD)
+ listenFD, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFD)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
- conn.Connect()
- remoteFD, _ := dut.Accept(listenFD)
- defer dut.Close(remoteFD)
+ conn.Connect(t)
+ remoteFD, _ := dut.Accept(t, listenFD)
+ defer dut.Close(t, remoteFD)
- dut.SetSockOptInt(remoteFD, unix.IPPROTO_TCP, unix.TCP_NODELAY, 1)
+ dut.SetSockOptInt(t, remoteFD, unix.IPPROTO_TCP, unix.TCP_NODELAY, 1)
// TODO(b/129291778) The following socket option clears the DF bit on
// IP packets sent over the socket, and is currently not supported by
@@ -87,30 +87,30 @@ func TestIPv4RetransmitIdentificationUniqueness(t *testing.T) {
// socket option being not supported does not affect the operation of
// this test. Once the socket option is supported, the following call
// can be changed to simply assert success.
- ret, errno := dut.SetSockOptIntWithErrno(context.Background(), remoteFD, unix.IPPROTO_IP, linux.IP_MTU_DISCOVER, linux.IP_PMTUDISC_DONT)
+ ret, errno := dut.SetSockOptIntWithErrno(context.Background(), t, remoteFD, unix.IPPROTO_IP, linux.IP_MTU_DISCOVER, linux.IP_PMTUDISC_DONT)
if ret == -1 && errno != unix.ENOTSUP {
t.Fatalf("failed to set IP_MTU_DISCOVER socket option to IP_PMTUDISC_DONT: %s", errno)
}
samplePayload := &testbench.Payload{Bytes: tc.payload}
- dut.Send(remoteFD, tc.payload, 0)
- if _, err := conn.ExpectData(&testbench.TCP{}, samplePayload, time.Second); err != nil {
+ dut.Send(t, remoteFD, tc.payload, 0)
+ if _, err := conn.ExpectData(t, &testbench.TCP{}, samplePayload, time.Second); err != nil {
t.Fatalf("failed to receive TCP segment sent for RTT calculation: %s", err)
}
// Let the DUT estimate RTO with RTT from the DATA-ACK.
// TODO(gvisor.dev/issue/2685) Estimate RTO during handshake, after which
// we can skip sending this ACK.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
- dut.Send(remoteFD, tc.payload, 0)
- expectTCP := &testbench.TCP{SeqNum: testbench.Uint32(uint32(*conn.RemoteSeqNum()))}
- originalID, err := recvTCPSegment(&conn, expectTCP, samplePayload)
+ dut.Send(t, remoteFD, tc.payload, 0)
+ expectTCP := &testbench.TCP{SeqNum: testbench.Uint32(uint32(*conn.RemoteSeqNum(t)))}
+ originalID, err := recvTCPSegment(t, &conn, expectTCP, samplePayload)
if err != nil {
t.Fatalf("failed to receive TCP segment: %s", err)
}
- retransmitID, err := recvTCPSegment(&conn, expectTCP, samplePayload)
+ retransmitID, err := recvTCPSegment(t, &conn, expectTCP, samplePayload)
if err != nil {
t.Fatalf("failed to receive retransmitted TCP segment: %s", err)
}
diff --git a/test/packetimpact/tests/ipv6_fragment_reassembly_test.go b/test/packetimpact/tests/ipv6_fragment_reassembly_test.go
index 7b462c8e2..b5f94ad4b 100644
--- a/test/packetimpact/tests/ipv6_fragment_reassembly_test.go
+++ b/test/packetimpact/tests/ipv6_fragment_reassembly_test.go
@@ -48,7 +48,7 @@ func TestIPv6FragmentReassembly(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
conn := testbench.NewIPv6Conn(t, testbench.IPv6{}, testbench.IPv6{})
- defer conn.Close()
+ defer conn.Close(t)
firstPayloadToSend := make([]byte, firstPayloadLength)
for i := range firstPayloadToSend {
@@ -81,7 +81,7 @@ func TestIPv6FragmentReassembly(t *testing.T) {
buffer.NewVectorisedView(len(secondPayloadToSend), []buffer.View{secondPayloadToSend}),
)
- conn.Send(testbench.IPv6{},
+ conn.Send(t, testbench.IPv6{},
&testbench.IPv6FragmentExtHdr{
FragmentOffset: testbench.Uint16(0),
MoreFragments: testbench.Bool(true),
@@ -96,7 +96,7 @@ func TestIPv6FragmentReassembly(t *testing.T) {
icmpv6ProtoNum := header.IPv6ExtensionHeaderIdentifier(header.ICMPv6ProtocolNumber)
- conn.Send(testbench.IPv6{},
+ conn.Send(t, testbench.IPv6{},
&testbench.IPv6FragmentExtHdr{
NextHeader: &icmpv6ProtoNum,
FragmentOffset: testbench.Uint16((firstPayloadLength + header.ICMPv6EchoMinimumSize) / 8),
@@ -107,7 +107,7 @@ func TestIPv6FragmentReassembly(t *testing.T) {
Bytes: secondPayloadToSend,
})
- gotEchoReplyFirstPart, err := conn.ExpectFrame(testbench.Layers{
+ gotEchoReplyFirstPart, err := conn.ExpectFrame(t, testbench.Layers{
&testbench.Ether{},
&testbench.IPv6{},
&testbench.IPv6FragmentExtHdr{
@@ -142,7 +142,7 @@ func TestIPv6FragmentReassembly(t *testing.T) {
hex.Dump(wantFirstPayload))
}
- gotEchoReplySecondPart, err := conn.ExpectFrame(testbench.Layers{
+ gotEchoReplySecondPart, err := conn.ExpectFrame(t, testbench.Layers{
&testbench.Ether{},
&testbench.IPv6{},
&testbench.IPv6FragmentExtHdr{
diff --git a/test/packetimpact/tests/ipv6_unknown_options_action_test.go b/test/packetimpact/tests/ipv6_unknown_options_action_test.go
index 100b30ad7..d7d63cbd2 100644
--- a/test/packetimpact/tests/ipv6_unknown_options_action_test.go
+++ b/test/packetimpact/tests/ipv6_unknown_options_action_test.go
@@ -23,21 +23,21 @@ import (
"gvisor.dev/gvisor/pkg/tcpip"
"gvisor.dev/gvisor/pkg/tcpip/header"
- tb "gvisor.dev/gvisor/test/packetimpact/testbench"
+ "gvisor.dev/gvisor/test/packetimpact/testbench"
)
func init() {
- tb.RegisterFlags(flag.CommandLine)
+ testbench.RegisterFlags(flag.CommandLine)
}
-func mkHopByHopOptionsExtHdr(optType byte) tb.Layer {
- return &tb.IPv6HopByHopOptionsExtHdr{
+func mkHopByHopOptionsExtHdr(optType byte) testbench.Layer {
+ return &testbench.IPv6HopByHopOptionsExtHdr{
Options: []byte{optType, 0x04, 0x00, 0x00, 0x00, 0x00},
}
}
-func mkDestinationOptionsExtHdr(optType byte) tb.Layer {
- return &tb.IPv6DestinationOptionsExtHdr{
+func mkDestinationOptionsExtHdr(optType byte) testbench.Layer {
+ return &testbench.IPv6DestinationOptionsExtHdr{
Options: []byte{optType, 0x04, 0x00, 0x00, 0x00, 0x00},
}
}
@@ -49,7 +49,7 @@ func optionTypeFromAction(action header.IPv6OptionUnknownAction) byte {
func TestIPv6UnknownOptionAction(t *testing.T) {
for _, tt := range []struct {
description string
- mkExtHdr func(optType byte) tb.Layer
+ mkExtHdr func(optType byte) testbench.Layer
action header.IPv6OptionUnknownAction
multicastDst bool
wantICMPv6 bool
@@ -140,21 +140,21 @@ func TestIPv6UnknownOptionAction(t *testing.T) {
},
} {
t.Run(tt.description, func(t *testing.T) {
- dut := tb.NewDUT(t)
+ dut := testbench.NewDUT(t)
defer dut.TearDown()
- ipv6Conn := tb.NewIPv6Conn(t, tb.IPv6{}, tb.IPv6{})
- conn := (*tb.Connection)(&ipv6Conn)
- defer ipv6Conn.Close()
+ ipv6Conn := testbench.NewIPv6Conn(t, testbench.IPv6{}, testbench.IPv6{})
+ conn := (*testbench.Connection)(&ipv6Conn)
+ defer ipv6Conn.Close(t)
- outgoingOverride := tb.Layers{}
+ outgoingOverride := testbench.Layers{}
if tt.multicastDst {
- outgoingOverride = tb.Layers{&tb.IPv6{
- DstAddr: tb.Address(tcpip.Address(net.ParseIP("ff02::1"))),
+ outgoingOverride = testbench.Layers{&testbench.IPv6{
+ DstAddr: testbench.Address(tcpip.Address(net.ParseIP("ff02::1"))),
}}
}
- outgoing := conn.CreateFrame(outgoingOverride, tt.mkExtHdr(optionTypeFromAction(tt.action)))
- conn.SendFrame(outgoing)
+ outgoing := conn.CreateFrame(t, outgoingOverride, tt.mkExtHdr(optionTypeFromAction(tt.action)))
+ conn.SendFrame(t, outgoing)
ipv6Sent := outgoing[1:]
invokingPacket, err := ipv6Sent.ToBytes()
if err != nil {
@@ -167,12 +167,12 @@ func TestIPv6UnknownOptionAction(t *testing.T) {
// after the IPv6 header (after NextHeader and ExtHdrLen).
binary.BigEndian.PutUint32(icmpv6Payload, header.IPv6MinimumSize+2)
icmpv6Payload = append(icmpv6Payload, invokingPacket...)
- gotICMPv6, err := ipv6Conn.ExpectFrame(tb.Layers{
- &tb.Ether{},
- &tb.IPv6{},
- &tb.ICMPv6{
- Type: tb.ICMPv6Type(header.ICMPv6ParamProblem),
- Code: tb.Byte(2),
+ gotICMPv6, err := ipv6Conn.ExpectFrame(t, testbench.Layers{
+ &testbench.Ether{},
+ &testbench.IPv6{},
+ &testbench.ICMPv6{
+ Type: testbench.ICMPv6Type(header.ICMPv6ParamProblem),
+ Code: testbench.Byte(2),
Payload: icmpv6Payload,
},
}, time.Second)
diff --git a/test/packetimpact/tests/tcp_close_wait_ack_test.go b/test/packetimpact/tests/tcp_close_wait_ack_test.go
index 6e7ff41d7..e6a96f214 100644
--- a/test/packetimpact/tests/tcp_close_wait_ack_test.go
+++ b/test/packetimpact/tests/tcp_close_wait_ack_test.go
@@ -33,39 +33,39 @@ func init() {
func TestCloseWaitAck(t *testing.T) {
for _, tt := range []struct {
description string
- makeTestingTCP func(conn *testbench.TCPIPv4, seqNumOffset seqnum.Size, windowSize seqnum.Size) testbench.TCP
+ makeTestingTCP func(t *testing.T, conn *testbench.TCPIPv4, seqNumOffset, windowSize seqnum.Size) testbench.TCP
seqNumOffset seqnum.Size
expectAck bool
}{
- {"OTW", GenerateOTWSeqSegment, 0, false},
- {"OTW", GenerateOTWSeqSegment, 1, true},
- {"OTW", GenerateOTWSeqSegment, 2, true},
- {"ACK", GenerateUnaccACKSegment, 0, false},
- {"ACK", GenerateUnaccACKSegment, 1, true},
- {"ACK", GenerateUnaccACKSegment, 2, true},
+ {"OTW", generateOTWSeqSegment, 0, false},
+ {"OTW", generateOTWSeqSegment, 1, true},
+ {"OTW", generateOTWSeqSegment, 2, true},
+ {"ACK", generateUnaccACKSegment, 0, false},
+ {"ACK", generateUnaccACKSegment, 1, true},
+ {"ACK", generateUnaccACKSegment, 2, true},
} {
t.Run(fmt.Sprintf("%s%d", tt.description, tt.seqNumOffset), func(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFd, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFd)
+ listenFd, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFd)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
- conn.Connect()
- acceptFd, _ := dut.Accept(listenFd)
+ conn.Connect(t)
+ acceptFd, _ := dut.Accept(t, listenFd)
// Send a FIN to DUT to intiate the active close
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagFin)})
- gotTCP, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, time.Second)
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagFin)})
+ gotTCP, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, time.Second)
if err != nil {
t.Fatalf("expected an ACK for our fin and DUT should enter CLOSE_WAIT: %s", err)
}
windowSize := seqnum.Size(*gotTCP.WindowSize)
// Send a segment with OTW Seq / unacc ACK and expect an ACK back
- conn.Send(tt.makeTestingTCP(&conn, tt.seqNumOffset, windowSize), &testbench.Payload{Bytes: []byte("Sample Data")})
- gotAck, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, time.Second)
+ conn.Send(t, tt.makeTestingTCP(t, &conn, tt.seqNumOffset, windowSize), &testbench.Payload{Bytes: []byte("Sample Data")})
+ gotAck, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, time.Second)
if tt.expectAck && err != nil {
t.Fatalf("expected an ack but got none: %s", err)
}
@@ -74,35 +74,36 @@ func TestCloseWaitAck(t *testing.T) {
}
// Now let's verify DUT is indeed in CLOSE_WAIT
- dut.Close(acceptFd)
- if _, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagFin)}, time.Second); err != nil {
+ dut.Close(t, acceptFd)
+ if _, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagFin)}, time.Second); err != nil {
t.Fatalf("expected DUT to send a FIN: %s", err)
}
// Ack the FIN from DUT
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
// Send some extra data to DUT
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, &testbench.Payload{Bytes: []byte("Sample Data")})
- if _, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst)}, time.Second); err != nil {
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, &testbench.Payload{Bytes: []byte("Sample Data")})
+ if _, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst)}, time.Second); err != nil {
t.Fatalf("expected DUT to send an RST: %s", err)
}
})
}
}
-// This generates an segment with seqnum = RCV.NXT + RCV.WND + seqNumOffset, the
-// generated segment is only acceptable when seqNumOffset is 0, otherwise an ACK
-// is expected from the receiver.
-func GenerateOTWSeqSegment(conn *testbench.TCPIPv4, seqNumOffset seqnum.Size, windowSize seqnum.Size) testbench.TCP {
- lastAcceptable := conn.LocalSeqNum().Add(windowSize)
+// generateOTWSeqSegment generates an segment with
+// seqnum = RCV.NXT + RCV.WND + seqNumOffset, the generated segment is only
+// acceptable when seqNumOffset is 0, otherwise an ACK is expected from the
+// receiver.
+func generateOTWSeqSegment(t *testing.T, conn *testbench.TCPIPv4, seqNumOffset seqnum.Size, windowSize seqnum.Size) testbench.TCP {
+ lastAcceptable := conn.LocalSeqNum(t).Add(windowSize)
otwSeq := uint32(lastAcceptable.Add(seqNumOffset))
return testbench.TCP{SeqNum: testbench.Uint32(otwSeq), Flags: testbench.Uint8(header.TCPFlagAck)}
}
-// This generates an segment with acknum = SND.NXT + seqNumOffset, the generated
-// segment is only acceptable when seqNumOffset is 0, otherwise an ACK is
-// expected from the receiver.
-func GenerateUnaccACKSegment(conn *testbench.TCPIPv4, seqNumOffset seqnum.Size, windowSize seqnum.Size) testbench.TCP {
- lastAcceptable := conn.RemoteSeqNum()
+// generateUnaccACKSegment generates an segment with
+// acknum = SND.NXT + seqNumOffset, the generated segment is only acceptable
+// when seqNumOffset is 0, otherwise an ACK is expected from the receiver.
+func generateUnaccACKSegment(t *testing.T, conn *testbench.TCPIPv4, seqNumOffset seqnum.Size, windowSize seqnum.Size) testbench.TCP {
+ lastAcceptable := conn.RemoteSeqNum(t)
unaccAck := uint32(lastAcceptable.Add(seqNumOffset))
return testbench.TCP{AckNum: testbench.Uint32(unaccAck), Flags: testbench.Uint8(header.TCPFlagAck)}
}
diff --git a/test/packetimpact/tests/tcp_cork_mss_test.go b/test/packetimpact/tests/tcp_cork_mss_test.go
index fb8f48629..8feea4a82 100644
--- a/test/packetimpact/tests/tcp_cork_mss_test.go
+++ b/test/packetimpact/tests/tcp_cork_mss_test.go
@@ -32,53 +32,53 @@ func init() {
func TestTCPCorkMSS(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFD, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFD)
+ listenFD, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFD)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
const mss = uint32(header.TCPDefaultMSS)
options := make([]byte, header.TCPOptionMSSLength)
header.EncodeMSSOption(mss, options)
- conn.ConnectWithOptions(options)
+ conn.ConnectWithOptions(t, options)
- acceptFD, _ := dut.Accept(listenFD)
- defer dut.Close(acceptFD)
+ acceptFD, _ := dut.Accept(t, listenFD)
+ defer dut.Close(t, acceptFD)
- dut.SetSockOptInt(acceptFD, unix.IPPROTO_TCP, unix.TCP_CORK, 1)
+ dut.SetSockOptInt(t, acceptFD, unix.IPPROTO_TCP, unix.TCP_CORK, 1)
// Let the dut application send 2 small segments to be held up and coalesced
// until the application sends a larger segment to fill up to > MSS.
sampleData := []byte("Sample Data")
- dut.Send(acceptFD, sampleData, 0)
- dut.Send(acceptFD, sampleData, 0)
+ dut.Send(t, acceptFD, sampleData, 0)
+ dut.Send(t, acceptFD, sampleData, 0)
expectedData := sampleData
expectedData = append(expectedData, sampleData...)
largeData := make([]byte, mss+1)
expectedData = append(expectedData, largeData...)
- dut.Send(acceptFD, largeData, 0)
+ dut.Send(t, acceptFD, largeData, 0)
// Expect the segments to be coalesced and sent and capped to MSS.
expectedPayload := testbench.Payload{Bytes: expectedData[:mss]}
- if _, err := conn.ExpectData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, &expectedPayload, time.Second); err != nil {
+ if _, err := conn.ExpectData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, &expectedPayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
// Expect the coalesced segment to be split and transmitted.
expectedPayload = testbench.Payload{Bytes: expectedData[mss:]}
- if _, err := conn.ExpectData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}, &expectedPayload, time.Second); err != nil {
+ if _, err := conn.ExpectData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}, &expectedPayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
// Check for segments to *not* be held up because of TCP_CORK when
// the current send window is less than MSS.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(uint16(2 * len(sampleData)))})
- dut.Send(acceptFD, sampleData, 0)
- dut.Send(acceptFD, sampleData, 0)
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(uint16(2 * len(sampleData)))})
+ dut.Send(t, acceptFD, sampleData, 0)
+ dut.Send(t, acceptFD, sampleData, 0)
expectedPayload = testbench.Payload{Bytes: append(sampleData, sampleData...)}
- if _, err := conn.ExpectData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}, &expectedPayload, time.Second); err != nil {
+ if _, err := conn.ExpectData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}, &expectedPayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
}
diff --git a/test/packetimpact/tests/tcp_handshake_window_size_test.go b/test/packetimpact/tests/tcp_handshake_window_size_test.go
index 652b530d0..22937d92f 100644
--- a/test/packetimpact/tests/tcp_handshake_window_size_test.go
+++ b/test/packetimpact/tests/tcp_handshake_window_size_test.go
@@ -33,14 +33,14 @@ func init() {
func TestTCPHandshakeWindowSize(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFD, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFD)
+ listenFD, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFD)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
// Start handshake with zero window size.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn), WindowSize: testbench.Uint16(uint16(0))})
- if _, err := conn.ExpectData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn | header.TCPFlagAck)}, nil, time.Second); err != nil {
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn), WindowSize: testbench.Uint16(uint16(0))})
+ if _, err := conn.ExpectData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn | header.TCPFlagAck)}, nil, time.Second); err != nil {
t.Fatalf("expected SYN-ACK: %s", err)
}
// Update the advertised window size to a non-zero value with the ACK that
@@ -48,10 +48,10 @@ func TestTCPHandshakeWindowSize(t *testing.T) {
//
// Set the window size with MSB set and expect the dut to treat it as
// an unsigned value.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(uint16(1 << 15))})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(uint16(1 << 15))})
- acceptFd, _ := dut.Accept(listenFD)
- defer dut.Close(acceptFd)
+ acceptFd, _ := dut.Accept(t, listenFD)
+ defer dut.Close(t, acceptFd)
sampleData := []byte("Sample Data")
samplePayload := &testbench.Payload{Bytes: sampleData}
@@ -59,8 +59,8 @@ func TestTCPHandshakeWindowSize(t *testing.T) {
// Since we advertised a zero window followed by a non-zero window,
// expect the dut to honor the recently advertised non-zero window
// and actually send out the data instead of probing for zero window.
- dut.Send(acceptFd, sampleData, 0)
- if _, err := conn.ExpectNextData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}, samplePayload, time.Second); err != nil {
+ dut.Send(t, acceptFd, sampleData, 0)
+ if _, err := conn.ExpectNextData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}, samplePayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
}
diff --git a/test/packetimpact/tests/tcp_network_unreachable_test.go b/test/packetimpact/tests/tcp_network_unreachable_test.go
index 868a08da8..900352fa1 100644
--- a/test/packetimpact/tests/tcp_network_unreachable_test.go
+++ b/test/packetimpact/tests/tcp_network_unreachable_test.go
@@ -38,29 +38,29 @@ func TestTCPSynSentUnreachable(t *testing.T) {
// Create the DUT and connection.
dut := testbench.NewDUT(t)
defer dut.TearDown()
- clientFD, clientPort := dut.CreateBoundSocket(unix.SOCK_STREAM|unix.SOCK_NONBLOCK, unix.IPPROTO_TCP, net.ParseIP(testbench.RemoteIPv4))
+ clientFD, clientPort := dut.CreateBoundSocket(t, unix.SOCK_STREAM|unix.SOCK_NONBLOCK, unix.IPPROTO_TCP, net.ParseIP(testbench.RemoteIPv4))
port := uint16(9001)
conn := testbench.NewTCPIPv4(t, testbench.TCP{SrcPort: &port, DstPort: &clientPort}, testbench.TCP{SrcPort: &clientPort, DstPort: &port})
- defer conn.Close()
+ defer conn.Close(t)
// Bring the DUT to SYN-SENT state with a non-blocking connect.
ctx, cancel := context.WithTimeout(context.Background(), testbench.RPCTimeout)
defer cancel()
sa := unix.SockaddrInet4{Port: int(port)}
copy(sa.Addr[:], net.IP(net.ParseIP(testbench.LocalIPv4)).To4())
- if _, err := dut.ConnectWithErrno(ctx, clientFD, &sa); err != syscall.Errno(unix.EINPROGRESS) {
+ if _, err := dut.ConnectWithErrno(ctx, t, clientFD, &sa); err != syscall.Errno(unix.EINPROGRESS) {
t.Errorf("expected connect to fail with EINPROGRESS, but got %v", err)
}
// Get the SYN.
- tcpLayers, err := conn.ExpectData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn)}, nil, time.Second)
+ tcpLayers, err := conn.ExpectData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn)}, nil, time.Second)
if err != nil {
t.Fatalf("expected SYN: %s", err)
}
// Send a host unreachable message.
rawConn := (*testbench.Connection)(&conn)
- layers := rawConn.CreateFrame(nil)
+ layers := rawConn.CreateFrame(t, nil)
layers = layers[:len(layers)-1]
const ipLayer = 1
const tcpLayer = ipLayer + 1
@@ -74,9 +74,9 @@ func TestTCPSynSentUnreachable(t *testing.T) {
}
var icmpv4 testbench.ICMPv4 = testbench.ICMPv4{Type: testbench.ICMPv4Type(header.ICMPv4DstUnreachable), Code: testbench.Uint8(header.ICMPv4HostUnreachable)}
layers = append(layers, &icmpv4, ip, tcp)
- rawConn.SendFrameStateless(layers)
+ rawConn.SendFrameStateless(t, layers)
- if _, err = dut.ConnectWithErrno(ctx, clientFD, &sa); err != syscall.Errno(unix.EHOSTUNREACH) {
+ if _, err = dut.ConnectWithErrno(ctx, t, clientFD, &sa); err != syscall.Errno(unix.EHOSTUNREACH) {
t.Errorf("expected connect to fail with EHOSTUNREACH, but got %v", err)
}
}
@@ -88,9 +88,9 @@ func TestTCPSynSentUnreachable6(t *testing.T) {
// Create the DUT and connection.
dut := testbench.NewDUT(t)
defer dut.TearDown()
- clientFD, clientPort := dut.CreateBoundSocket(unix.SOCK_STREAM|unix.SOCK_NONBLOCK, unix.IPPROTO_TCP, net.ParseIP(testbench.RemoteIPv6))
+ clientFD, clientPort := dut.CreateBoundSocket(t, unix.SOCK_STREAM|unix.SOCK_NONBLOCK, unix.IPPROTO_TCP, net.ParseIP(testbench.RemoteIPv6))
conn := testbench.NewTCPIPv6(t, testbench.TCP{DstPort: &clientPort}, testbench.TCP{SrcPort: &clientPort})
- defer conn.Close()
+ defer conn.Close(t)
// Bring the DUT to SYN-SENT state with a non-blocking connect.
ctx, cancel := context.WithTimeout(context.Background(), testbench.RPCTimeout)
@@ -100,19 +100,19 @@ func TestTCPSynSentUnreachable6(t *testing.T) {
ZoneId: uint32(testbench.RemoteInterfaceID),
}
copy(sa.Addr[:], net.IP(net.ParseIP(testbench.LocalIPv6)).To16())
- if _, err := dut.ConnectWithErrno(ctx, clientFD, &sa); err != syscall.Errno(unix.EINPROGRESS) {
+ if _, err := dut.ConnectWithErrno(ctx, t, clientFD, &sa); err != syscall.Errno(unix.EINPROGRESS) {
t.Errorf("expected connect to fail with EINPROGRESS, but got %v", err)
}
// Get the SYN.
- tcpLayers, err := conn.ExpectData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn)}, nil, time.Second)
+ tcpLayers, err := conn.ExpectData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn)}, nil, time.Second)
if err != nil {
t.Fatalf("expected SYN: %s", err)
}
// Send a host unreachable message.
rawConn := (*testbench.Connection)(&conn)
- layers := rawConn.CreateFrame(nil)
+ layers := rawConn.CreateFrame(t, nil)
layers = layers[:len(layers)-1]
const ipLayer = 1
const tcpLayer = ipLayer + 1
@@ -131,9 +131,9 @@ func TestTCPSynSentUnreachable6(t *testing.T) {
Payload: []byte{0, 0, 0, 0},
}
layers = append(layers, &icmpv6, ip, tcp)
- rawConn.SendFrameStateless(layers)
+ rawConn.SendFrameStateless(t, layers)
- if _, err = dut.ConnectWithErrno(ctx, clientFD, &sa); err != syscall.Errno(unix.ENETUNREACH) {
+ if _, err = dut.ConnectWithErrno(ctx, t, clientFD, &sa); err != syscall.Errno(unix.ENETUNREACH) {
t.Errorf("expected connect to fail with ENETUNREACH, but got %v", err)
}
}
diff --git a/test/packetimpact/tests/tcp_noaccept_close_rst_test.go b/test/packetimpact/tests/tcp_noaccept_close_rst_test.go
index b9b3e91d3..82b7a85ff 100644
--- a/test/packetimpact/tests/tcp_noaccept_close_rst_test.go
+++ b/test/packetimpact/tests/tcp_noaccept_close_rst_test.go
@@ -31,12 +31,12 @@ func init() {
func TestTcpNoAcceptCloseReset(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFd, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ listenFd, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- conn.Connect()
- defer conn.Close()
- dut.Close(listenFd)
- if _, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst | header.TCPFlagAck)}, 1*time.Second); err != nil {
+ conn.Connect(t)
+ defer conn.Close(t)
+ dut.Close(t, listenFd)
+ if _, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst | header.TCPFlagAck)}, 1*time.Second); err != nil {
t.Fatalf("expected a RST-ACK packet but got none: %s", err)
}
}
diff --git a/test/packetimpact/tests/tcp_outside_the_window_test.go b/test/packetimpact/tests/tcp_outside_the_window_test.go
index ad8c74234..08f759f7c 100644
--- a/test/packetimpact/tests/tcp_outside_the_window_test.go
+++ b/test/packetimpact/tests/tcp_outside_the_window_test.go
@@ -63,25 +63,25 @@ func TestTCPOutsideTheWindow(t *testing.T) {
t.Run(fmt.Sprintf("%s%d", tt.description, tt.seqNumOffset), func(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFD, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFD)
+ listenFD, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFD)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
- conn.Connect()
- acceptFD, _ := dut.Accept(listenFD)
- defer dut.Close(acceptFD)
+ defer conn.Close(t)
+ conn.Connect(t)
+ acceptFD, _ := dut.Accept(t, listenFD)
+ defer dut.Close(t, acceptFD)
- windowSize := seqnum.Size(*conn.SynAck().WindowSize) + tt.seqNumOffset
- conn.Drain()
+ windowSize := seqnum.Size(*conn.SynAck(t).WindowSize) + tt.seqNumOffset
+ conn.Drain(t)
// Ignore whatever incrementing that this out-of-order packet might cause
// to the AckNum.
- localSeqNum := testbench.Uint32(uint32(*conn.LocalSeqNum()))
- conn.Send(testbench.TCP{
+ localSeqNum := testbench.Uint32(uint32(*conn.LocalSeqNum(t)))
+ conn.Send(t, testbench.TCP{
Flags: testbench.Uint8(tt.tcpFlags),
- SeqNum: testbench.Uint32(uint32(conn.LocalSeqNum().Add(windowSize))),
+ SeqNum: testbench.Uint32(uint32(conn.LocalSeqNum(t).Add(windowSize))),
}, tt.payload...)
timeout := 3 * time.Second
- gotACK, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), AckNum: localSeqNum}, timeout)
+ gotACK, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), AckNum: localSeqNum}, timeout)
if tt.expectACK && err != nil {
t.Fatalf("expected an ACK packet within %s but got none: %s", timeout, err)
}
diff --git a/test/packetimpact/tests/tcp_paws_mechanism_test.go b/test/packetimpact/tests/tcp_paws_mechanism_test.go
index 55db4ece6..37f3b56dd 100644
--- a/test/packetimpact/tests/tcp_paws_mechanism_test.go
+++ b/test/packetimpact/tests/tcp_paws_mechanism_test.go
@@ -32,15 +32,15 @@ func init() {
func TestPAWSMechanism(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFD, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFD)
+ listenFD, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFD)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
options := make([]byte, header.TCPOptionTSLength)
header.EncodeTSOption(currentTS(), 0, options)
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn), Options: options})
- synAck, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn | header.TCPFlagAck)}, time.Second)
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn), Options: options})
+ synAck, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn | header.TCPFlagAck)}, time.Second)
if err != nil {
t.Fatalf("didn't get synack during handshake: %s", err)
}
@@ -50,9 +50,9 @@ func TestPAWSMechanism(t *testing.T) {
}
tsecr := parsedSynOpts.TSVal
header.EncodeTSOption(currentTS(), tsecr, options)
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), Options: options})
- acceptFD, _ := dut.Accept(listenFD)
- defer dut.Close(acceptFD)
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), Options: options})
+ acceptFD, _ := dut.Accept(t, listenFD)
+ defer dut.Close(t, acceptFD)
sampleData := []byte("Sample Data")
sentTSVal := currentTS()
@@ -61,9 +61,9 @@ func TestPAWSMechanism(t *testing.T) {
// every time we send one, it should not cause any flakiness because timestamps
// only need to be non-decreasing.
time.Sleep(3 * time.Millisecond)
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), Options: options}, &testbench.Payload{Bytes: sampleData})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), Options: options}, &testbench.Payload{Bytes: sampleData})
- gotTCP, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, time.Second)
+ gotTCP, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, time.Second)
if err != nil {
t.Fatalf("expected an ACK but got none: %s", err)
}
@@ -86,9 +86,9 @@ func TestPAWSMechanism(t *testing.T) {
// 3ms here is chosen arbitrarily and this time.Sleep() should not cause flakiness
// due to the exact same reasoning discussed above.
time.Sleep(3 * time.Millisecond)
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), Options: options}, &testbench.Payload{Bytes: sampleData})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), Options: options}, &testbench.Payload{Bytes: sampleData})
- gotTCP, err = conn.Expect(testbench.TCP{AckNum: lastAckNum, Flags: testbench.Uint8(header.TCPFlagAck)}, time.Second)
+ gotTCP, err = conn.Expect(t, testbench.TCP{AckNum: lastAckNum, Flags: testbench.Uint8(header.TCPFlagAck)}, time.Second)
if err != nil {
t.Fatalf("expected segment with AckNum %d but got none: %s", lastAckNum, err)
}
diff --git a/test/packetimpact/tests/tcp_queue_receive_in_syn_sent_test.go b/test/packetimpact/tests/tcp_queue_receive_in_syn_sent_test.go
index 8fbec893b..d9f3ea0f2 100644
--- a/test/packetimpact/tests/tcp_queue_receive_in_syn_sent_test.go
+++ b/test/packetimpact/tests/tcp_queue_receive_in_syn_sent_test.go
@@ -52,26 +52,26 @@ func TestQueueReceiveInSynSent(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- socket, remotePort := dut.CreateBoundSocket(unix.SOCK_STREAM, unix.IPPROTO_TCP, net.ParseIP(testbench.RemoteIPv4))
+ socket, remotePort := dut.CreateBoundSocket(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, net.ParseIP(testbench.RemoteIPv4))
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
sampleData := []byte("Sample Data")
- dut.SetNonBlocking(socket, true)
- if _, err := dut.ConnectWithErrno(context.Background(), socket, conn.LocalAddr()); !errors.Is(err, syscall.EINPROGRESS) {
+ dut.SetNonBlocking(t, socket, true)
+ if _, err := dut.ConnectWithErrno(context.Background(), t, socket, conn.LocalAddr(t)); !errors.Is(err, syscall.EINPROGRESS) {
t.Fatalf("failed to bring DUT to SYN-SENT, got: %s, want EINPROGRESS", err)
}
- if _, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn)}, time.Second); err != nil {
+ if _, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn)}, time.Second); err != nil {
t.Fatalf("expected a SYN from DUT, but got none: %s", err)
}
- if _, _, err := dut.RecvWithErrno(context.Background(), socket, int32(len(sampleData)), 0); err != syscall.Errno(unix.EWOULDBLOCK) {
+ if _, _, err := dut.RecvWithErrno(context.Background(), t, socket, int32(len(sampleData)), 0); err != syscall.Errno(unix.EWOULDBLOCK) {
t.Fatalf("expected error %s, got %s", syscall.Errno(unix.EWOULDBLOCK), err)
}
// Test blocking read.
- dut.SetNonBlocking(socket, false)
+ dut.SetNonBlocking(t, socket, false)
var wg sync.WaitGroup
defer wg.Wait()
@@ -86,7 +86,7 @@ func TestQueueReceiveInSynSent(t *testing.T) {
block.Done()
// Issue RECEIVE call in SYN-SENT, this should be queued for
// process until the connection is established.
- n, buff, err := dut.RecvWithErrno(ctx, socket, int32(len(sampleData)), 0)
+ n, buff, err := dut.RecvWithErrno(ctx, t, socket, int32(len(sampleData)), 0)
if tt.reset {
if err != syscall.Errno(unix.ECONNREFUSED) {
t.Errorf("expected error %s, got %s", syscall.Errno(unix.ECONNREFUSED), err)
@@ -112,19 +112,19 @@ func TestQueueReceiveInSynSent(t *testing.T) {
time.Sleep(100 * time.Millisecond)
if tt.reset {
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst | header.TCPFlagAck)})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst | header.TCPFlagAck)})
return
}
// Bring the connection to Established.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn | header.TCPFlagAck)})
- if _, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, time.Second); err != nil {
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn | header.TCPFlagAck)})
+ if _, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, time.Second); err != nil {
t.Fatalf("expected an ACK from DUT, but got none: %s", err)
}
// Send sample payload and expect an ACK.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, &testbench.Payload{Bytes: sampleData})
- if _, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, time.Second); err != nil {
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, &testbench.Payload{Bytes: sampleData})
+ if _, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, time.Second); err != nil {
t.Fatalf("expected an ACK from DUT, but got none: %s", err)
}
})
diff --git a/test/packetimpact/tests/tcp_reordering_test.go b/test/packetimpact/tests/tcp_reordering_test.go
index a5378a9dd..8742819ca 100644
--- a/test/packetimpact/tests/tcp_reordering_test.go
+++ b/test/packetimpact/tests/tcp_reordering_test.go
@@ -32,10 +32,10 @@ func init() {
func TestReorderingWindow(t *testing.T) {
dut := tb.NewDUT(t)
defer dut.TearDown()
- listenFd, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFd)
+ listenFd, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFd)
conn := tb.NewTCPIPv4(t, tb.TCP{DstPort: &remotePort}, tb.TCP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
// Enable SACK.
opts := make([]byte, 40)
@@ -49,17 +49,17 @@ func TestReorderingWindow(t *testing.T) {
const mss = minMTU - header.IPv4MinimumSize - header.TCPMinimumSize
optsOff += header.EncodeMSSOption(mss, opts[optsOff:])
- conn.ConnectWithOptions(opts[:optsOff])
+ conn.ConnectWithOptions(t, opts[:optsOff])
- acceptFd, _ := dut.Accept(listenFd)
- defer dut.Close(acceptFd)
+ acceptFd, _ := dut.Accept(t, listenFd)
+ defer dut.Close(t, acceptFd)
if tb.DUTType == "linux" {
// Linux has changed its handling of reordering, force the old behavior.
- dut.SetSockOpt(acceptFd, unix.IPPROTO_TCP, unix.TCP_CONGESTION, []byte("reno"))
+ dut.SetSockOpt(t, acceptFd, unix.IPPROTO_TCP, unix.TCP_CONGESTION, []byte("reno"))
}
- pls := dut.GetSockOptInt(acceptFd, unix.IPPROTO_TCP, unix.TCP_MAXSEG)
+ pls := dut.GetSockOptInt(t, acceptFd, unix.IPPROTO_TCP, unix.TCP_MAXSEG)
if tb.DUTType == "netstack" {
// netstack does not impliment TCP_MAXSEG correctly. Fake it
// here. Netstack uses the max SACK size which is 32. The MSS
@@ -69,13 +69,13 @@ func TestReorderingWindow(t *testing.T) {
payload := make([]byte, pls)
- seqNum1 := *conn.RemoteSeqNum()
+ seqNum1 := *conn.RemoteSeqNum(t)
const numPkts = 10
// Send some packets, checking that we receive each.
for i, sn := 0, seqNum1; i < numPkts; i++ {
- dut.Send(acceptFd, payload, 0)
+ dut.Send(t, acceptFd, payload, 0)
- gotOne, err := conn.Expect(tb.TCP{SeqNum: tb.Uint32(uint32(sn))}, time.Second)
+ gotOne, err := conn.Expect(t, tb.TCP{SeqNum: tb.Uint32(uint32(sn))}, time.Second)
sn.UpdateForward(seqnum.Size(len(payload)))
if err != nil {
t.Errorf("Expect #%d: %s", i+1, err)
@@ -86,7 +86,7 @@ func TestReorderingWindow(t *testing.T) {
}
}
- seqNum2 := *conn.RemoteSeqNum()
+ seqNum2 := *conn.RemoteSeqNum(t)
// SACK packets #2-4.
sackBlock := make([]byte, 40)
@@ -97,13 +97,13 @@ func TestReorderingWindow(t *testing.T) {
seqNum1.Add(seqnum.Size(len(payload))),
seqNum1.Add(seqnum.Size(4 * len(payload))),
}}, sackBlock[sbOff:])
- conn.Send(tb.TCP{Flags: tb.Uint8(header.TCPFlagAck), AckNum: tb.Uint32(uint32(seqNum1)), Options: sackBlock[:sbOff]})
+ conn.Send(t, tb.TCP{Flags: tb.Uint8(header.TCPFlagAck), AckNum: tb.Uint32(uint32(seqNum1)), Options: sackBlock[:sbOff]})
// ACK first packet.
- conn.Send(tb.TCP{Flags: tb.Uint8(header.TCPFlagAck), AckNum: tb.Uint32(uint32(seqNum1) + uint32(len(payload)))})
+ conn.Send(t, tb.TCP{Flags: tb.Uint8(header.TCPFlagAck), AckNum: tb.Uint32(uint32(seqNum1) + uint32(len(payload)))})
// Check for retransmit.
- gotOne, err := conn.Expect(tb.TCP{SeqNum: tb.Uint32(uint32(seqNum1))}, time.Second)
+ gotOne, err := conn.Expect(t, tb.TCP{SeqNum: tb.Uint32(uint32(seqNum1))}, time.Second)
if err != nil {
t.Error("Expect for retransmit:", err)
}
@@ -123,14 +123,14 @@ func TestReorderingWindow(t *testing.T) {
seqNum1.Add(seqnum.Size(4 * len(payload))),
}}, dsackBlock[dsbOff:])
- conn.Send(tb.TCP{Flags: tb.Uint8(header.TCPFlagAck), AckNum: tb.Uint32(uint32(seqNum2)), Options: dsackBlock[:dsbOff]})
+ conn.Send(t, tb.TCP{Flags: tb.Uint8(header.TCPFlagAck), AckNum: tb.Uint32(uint32(seqNum2)), Options: dsackBlock[:dsbOff]})
// Send half of the original window of packets, checking that we
// received each.
for i, sn := 0, seqNum2; i < numPkts/2; i++ {
- dut.Send(acceptFd, payload, 0)
+ dut.Send(t, acceptFd, payload, 0)
- gotOne, err := conn.Expect(tb.TCP{SeqNum: tb.Uint32(uint32(sn))}, time.Second)
+ gotOne, err := conn.Expect(t, tb.TCP{SeqNum: tb.Uint32(uint32(sn))}, time.Second)
sn.UpdateForward(seqnum.Size(len(payload)))
if err != nil {
t.Errorf("Expect #%d: %s", i+1, err)
@@ -144,8 +144,8 @@ func TestReorderingWindow(t *testing.T) {
if tb.DUTType == "netstack" {
// The window should now be halved, so we should receive any
// more, even if we send them.
- dut.Send(acceptFd, payload, 0)
- if got, err := conn.Expect(tb.TCP{}, 100*time.Millisecond); got != nil || err == nil {
+ dut.Send(t, acceptFd, payload, 0)
+ if got, err := conn.Expect(t, tb.TCP{}, 100*time.Millisecond); got != nil || err == nil {
t.Fatalf("expected no packets within 100 millisecond, but got one: %s", got)
}
return
@@ -153,9 +153,9 @@ func TestReorderingWindow(t *testing.T) {
// Linux reduces the window by three. Check that we can receive the rest.
for i, sn := 0, seqNum2.Add(seqnum.Size(numPkts/2*len(payload))); i < 2; i++ {
- dut.Send(acceptFd, payload, 0)
+ dut.Send(t, acceptFd, payload, 0)
- gotOne, err := conn.Expect(tb.TCP{SeqNum: tb.Uint32(uint32(sn))}, time.Second)
+ gotOne, err := conn.Expect(t, tb.TCP{SeqNum: tb.Uint32(uint32(sn))}, time.Second)
sn.UpdateForward(seqnum.Size(len(payload)))
if err != nil {
t.Errorf("Expect #%d: %s", i+1, err)
@@ -167,8 +167,8 @@ func TestReorderingWindow(t *testing.T) {
}
// The window should now be full.
- dut.Send(acceptFd, payload, 0)
- if got, err := conn.Expect(tb.TCP{}, 100*time.Millisecond); got != nil || err == nil {
+ dut.Send(t, acceptFd, payload, 0)
+ if got, err := conn.Expect(t, tb.TCP{}, 100*time.Millisecond); got != nil || err == nil {
t.Fatalf("expected no packets within 100 millisecond, but got one: %s", got)
}
}
diff --git a/test/packetimpact/tests/tcp_retransmits_test.go b/test/packetimpact/tests/tcp_retransmits_test.go
index 6940eb7fb..072014ff8 100644
--- a/test/packetimpact/tests/tcp_retransmits_test.go
+++ b/test/packetimpact/tests/tcp_retransmits_test.go
@@ -33,41 +33,41 @@ func init() {
func TestRetransmits(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFd, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFd)
+ listenFd, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFd)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
- conn.Connect()
- acceptFd, _ := dut.Accept(listenFd)
- defer dut.Close(acceptFd)
+ conn.Connect(t)
+ acceptFd, _ := dut.Accept(t, listenFd)
+ defer dut.Close(t, acceptFd)
- dut.SetSockOptInt(acceptFd, unix.IPPROTO_TCP, unix.TCP_NODELAY, 1)
+ dut.SetSockOptInt(t, acceptFd, unix.IPPROTO_TCP, unix.TCP_NODELAY, 1)
sampleData := []byte("Sample Data")
samplePayload := &testbench.Payload{Bytes: sampleData}
- dut.Send(acceptFd, sampleData, 0)
- if _, err := conn.ExpectData(&testbench.TCP{}, samplePayload, time.Second); err != nil {
+ dut.Send(t, acceptFd, sampleData, 0)
+ if _, err := conn.ExpectData(t, &testbench.TCP{}, samplePayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
// Give a chance for the dut to estimate RTO with RTT from the DATA-ACK.
// TODO(gvisor.dev/issue/2685) Estimate RTO during handshake, after which
// we can skip sending this ACK.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
startRTO := time.Second
current := startRTO
first := time.Now()
- dut.Send(acceptFd, sampleData, 0)
- seq := testbench.Uint32(uint32(*conn.RemoteSeqNum()))
- if _, err := conn.ExpectData(&testbench.TCP{SeqNum: seq}, samplePayload, startRTO); err != nil {
+ dut.Send(t, acceptFd, sampleData, 0)
+ seq := testbench.Uint32(uint32(*conn.RemoteSeqNum(t)))
+ if _, err := conn.ExpectData(t, &testbench.TCP{SeqNum: seq}, samplePayload, startRTO); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
// Expect retransmits of the same segment.
for i := 0; i < 5; i++ {
start := time.Now()
- if _, err := conn.ExpectData(&testbench.TCP{SeqNum: seq}, samplePayload, 2*current); err != nil {
+ if _, err := conn.ExpectData(t, &testbench.TCP{SeqNum: seq}, samplePayload, 2*current); err != nil {
t.Fatalf("expected payload was not received: %s loop %d", err, i)
}
if i == 0 {
diff --git a/test/packetimpact/tests/tcp_send_window_sizes_piggyback_test.go b/test/packetimpact/tests/tcp_send_window_sizes_piggyback_test.go
index 90ab85419..f91b06ba1 100644
--- a/test/packetimpact/tests/tcp_send_window_sizes_piggyback_test.go
+++ b/test/packetimpact/tests/tcp_send_window_sizes_piggyback_test.go
@@ -61,23 +61,23 @@ func TestSendWindowSizesPiggyback(t *testing.T) {
t.Run(fmt.Sprintf("%s%d", tt.description, tt.windowSize), func(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFd, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFd)
+ listenFd, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFd)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort, WindowSize: testbench.Uint16(tt.windowSize)}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
- conn.Connect()
- acceptFd, _ := dut.Accept(listenFd)
- defer dut.Close(acceptFd)
+ conn.Connect(t)
+ acceptFd, _ := dut.Accept(t, listenFd)
+ defer dut.Close(t, acceptFd)
- dut.SetSockOptInt(acceptFd, unix.IPPROTO_TCP, unix.TCP_NODELAY, 1)
+ dut.SetSockOptInt(t, acceptFd, unix.IPPROTO_TCP, unix.TCP_NODELAY, 1)
expectedTCP := testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}
- dut.Send(acceptFd, sampleData, 0)
+ dut.Send(t, acceptFd, sampleData, 0)
expectedPayload := testbench.Payload{Bytes: tt.expectedPayload1}
- if _, err := conn.ExpectData(&expectedTCP, &expectedPayload, time.Second); err != nil {
+ if _, err := conn.ExpectData(t, &expectedTCP, &expectedPayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
@@ -86,18 +86,18 @@ func TestSendWindowSizesPiggyback(t *testing.T) {
if tt.enqueue {
// Enqueue a segment for the dut to transmit.
- dut.Send(acceptFd, sampleData, 0)
+ dut.Send(t, acceptFd, sampleData, 0)
}
// Send ACK for the previous segment along with data for the dut to
// receive and ACK back. Sending this ACK would make room for the dut
// to transmit any enqueued segment.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh), WindowSize: testbench.Uint16(tt.windowSize)}, &testbench.Payload{Bytes: sampleData})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh), WindowSize: testbench.Uint16(tt.windowSize)}, &testbench.Payload{Bytes: sampleData})
// Expect the dut to piggyback the ACK for received data along with
// the segment enqueued for transmit.
expectedPayload = testbench.Payload{Bytes: tt.expectedPayload2}
- if _, err := conn.ExpectData(&expectedTCP, &expectedPayload, time.Second); err != nil {
+ if _, err := conn.ExpectData(t, &expectedTCP, &expectedPayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
})
diff --git a/test/packetimpact/tests/tcp_synrcvd_reset_test.go b/test/packetimpact/tests/tcp_synrcvd_reset_test.go
index 7d5deab01..57d034dd1 100644
--- a/test/packetimpact/tests/tcp_synrcvd_reset_test.go
+++ b/test/packetimpact/tests/tcp_synrcvd_reset_test.go
@@ -32,21 +32,21 @@ func init() {
func TestTCPSynRcvdReset(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFD, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFD)
+ listenFD, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFD)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
// Expect dut connection to have transitioned to SYN-RCVD state.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn)})
- if _, err := conn.ExpectData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn | header.TCPFlagAck)}, nil, time.Second); err != nil {
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn)})
+ if _, err := conn.ExpectData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagSyn | header.TCPFlagAck)}, nil, time.Second); err != nil {
t.Fatalf("expected SYN-ACK %s", err)
}
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst)})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst)})
// Expect the connection to have transitioned SYN-RCVD to CLOSED.
// TODO(gvisor.dev/issue/478): Check for TCP_INFO on the dut side.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
- if _, err := conn.ExpectData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst)}, nil, time.Second); err != nil {
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
+ if _, err := conn.ExpectData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst)}, nil, time.Second); err != nil {
t.Fatalf("expected a TCP RST %s", err)
}
}
diff --git a/test/packetimpact/tests/tcp_synsent_reset_test.go b/test/packetimpact/tests/tcp_synsent_reset_test.go
index 6898a2239..eac8eb19d 100644
--- a/test/packetimpact/tests/tcp_synsent_reset_test.go
+++ b/test/packetimpact/tests/tcp_synsent_reset_test.go
@@ -31,17 +31,19 @@ func init() {
// dutSynSentState sets up the dut connection in SYN-SENT state.
func dutSynSentState(t *testing.T) (*tb.DUT, *tb.TCPIPv4, uint16, uint16) {
+ t.Helper()
+
dut := tb.NewDUT(t)
- clientFD, clientPort := dut.CreateBoundSocket(unix.SOCK_STREAM|unix.SOCK_NONBLOCK, unix.IPPROTO_TCP, net.ParseIP(tb.RemoteIPv4))
+ clientFD, clientPort := dut.CreateBoundSocket(t, unix.SOCK_STREAM|unix.SOCK_NONBLOCK, unix.IPPROTO_TCP, net.ParseIP(tb.RemoteIPv4))
port := uint16(9001)
conn := tb.NewTCPIPv4(t, tb.TCP{SrcPort: &port, DstPort: &clientPort}, tb.TCP{SrcPort: &clientPort, DstPort: &port})
sa := unix.SockaddrInet4{Port: int(port)}
copy(sa.Addr[:], net.IP(net.ParseIP(tb.LocalIPv4)).To4())
// Bring the dut to SYN-SENT state with a non-blocking connect.
- dut.Connect(clientFD, &sa)
- if _, err := conn.ExpectData(&tb.TCP{Flags: tb.Uint8(header.TCPFlagSyn)}, nil, time.Second); err != nil {
+ dut.Connect(t, clientFD, &sa)
+ if _, err := conn.ExpectData(t, &tb.TCP{Flags: tb.Uint8(header.TCPFlagSyn)}, nil, time.Second); err != nil {
t.Fatalf("expected SYN\n")
}
@@ -51,13 +53,13 @@ func dutSynSentState(t *testing.T) (*tb.DUT, *tb.TCPIPv4, uint16, uint16) {
// TestTCPSynSentReset tests RFC793, p67: SYN-SENT to CLOSED transition.
func TestTCPSynSentReset(t *testing.T) {
dut, conn, _, _ := dutSynSentState(t)
- defer conn.Close()
+ defer conn.Close(t)
defer dut.TearDown()
- conn.Send(tb.TCP{Flags: tb.Uint8(header.TCPFlagRst | header.TCPFlagAck)})
+ conn.Send(t, tb.TCP{Flags: tb.Uint8(header.TCPFlagRst | header.TCPFlagAck)})
// Expect the connection to have closed.
// TODO(gvisor.dev/issue/478): Check for TCP_INFO on the dut side.
- conn.Send(tb.TCP{Flags: tb.Uint8(header.TCPFlagAck)})
- if _, err := conn.ExpectData(&tb.TCP{Flags: tb.Uint8(header.TCPFlagRst)}, nil, time.Second); err != nil {
+ conn.Send(t, tb.TCP{Flags: tb.Uint8(header.TCPFlagAck)})
+ if _, err := conn.ExpectData(t, &tb.TCP{Flags: tb.Uint8(header.TCPFlagRst)}, nil, time.Second); err != nil {
t.Fatalf("expected a TCP RST")
}
}
@@ -67,22 +69,22 @@ func TestTCPSynSentReset(t *testing.T) {
func TestTCPSynSentRcvdReset(t *testing.T) {
dut, c, remotePort, clientPort := dutSynSentState(t)
defer dut.TearDown()
- defer c.Close()
+ defer c.Close(t)
conn := tb.NewTCPIPv4(t, tb.TCP{SrcPort: &remotePort, DstPort: &clientPort}, tb.TCP{SrcPort: &clientPort, DstPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
// Initiate new SYN connection with the same port pair
// (simultaneous open case), expect the dut connection to move to
// SYN-RCVD state
- conn.Send(tb.TCP{Flags: tb.Uint8(header.TCPFlagSyn)})
- if _, err := conn.ExpectData(&tb.TCP{Flags: tb.Uint8(header.TCPFlagSyn | header.TCPFlagAck)}, nil, time.Second); err != nil {
+ conn.Send(t, tb.TCP{Flags: tb.Uint8(header.TCPFlagSyn)})
+ if _, err := conn.ExpectData(t, &tb.TCP{Flags: tb.Uint8(header.TCPFlagSyn | header.TCPFlagAck)}, nil, time.Second); err != nil {
t.Fatalf("expected SYN-ACK %s\n", err)
}
- conn.Send(tb.TCP{Flags: tb.Uint8(header.TCPFlagRst)})
+ conn.Send(t, tb.TCP{Flags: tb.Uint8(header.TCPFlagRst)})
// Expect the connection to have transitioned SYN-RCVD to CLOSED.
// TODO(gvisor.dev/issue/478): Check for TCP_INFO on the dut side.
- conn.Send(tb.TCP{Flags: tb.Uint8(header.TCPFlagAck)})
- if _, err := conn.ExpectData(&tb.TCP{Flags: tb.Uint8(header.TCPFlagRst)}, nil, time.Second); err != nil {
+ conn.Send(t, tb.TCP{Flags: tb.Uint8(header.TCPFlagAck)})
+ if _, err := conn.ExpectData(t, &tb.TCP{Flags: tb.Uint8(header.TCPFlagRst)}, nil, time.Second); err != nil {
t.Fatalf("expected a TCP RST")
}
}
diff --git a/test/packetimpact/tests/tcp_user_timeout_test.go b/test/packetimpact/tests/tcp_user_timeout_test.go
index 87e45d765..551dc78e7 100644
--- a/test/packetimpact/tests/tcp_user_timeout_test.go
+++ b/test/packetimpact/tests/tcp_user_timeout_test.go
@@ -16,7 +16,6 @@ package tcp_user_timeout_test
import (
"flag"
- "fmt"
"testing"
"time"
@@ -29,22 +28,20 @@ func init() {
testbench.RegisterFlags(flag.CommandLine)
}
-func sendPayload(conn *testbench.TCPIPv4, dut *testbench.DUT, fd int32) error {
+func sendPayload(t *testing.T, conn *testbench.TCPIPv4, dut *testbench.DUT, fd int32) {
sampleData := make([]byte, 100)
for i := range sampleData {
sampleData[i] = uint8(i)
}
- conn.Drain()
- dut.Send(fd, sampleData, 0)
- if _, err := conn.ExpectData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}, &testbench.Payload{Bytes: sampleData}, time.Second); err != nil {
- return fmt.Errorf("expected data but got none: %w", err)
+ conn.Drain(t)
+ dut.Send(t, fd, sampleData, 0)
+ if _, err := conn.ExpectData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}, &testbench.Payload{Bytes: sampleData}, time.Second); err != nil {
+ t.Fatalf("expected data but got none: %w", err)
}
- return nil
}
-func sendFIN(conn *testbench.TCPIPv4, dut *testbench.DUT, fd int32) error {
- dut.Close(fd)
- return nil
+func sendFIN(t *testing.T, conn *testbench.TCPIPv4, dut *testbench.DUT, fd int32) {
+ dut.Close(t, fd)
}
func TestTCPUserTimeout(t *testing.T) {
@@ -59,7 +56,7 @@ func TestTCPUserTimeout(t *testing.T) {
} {
for _, ttf := range []struct {
description string
- f func(conn *testbench.TCPIPv4, dut *testbench.DUT, fd int32) error
+ f func(_ *testing.T, _ *testbench.TCPIPv4, _ *testbench.DUT, fd int32)
}{
{"AfterPayload", sendPayload},
{"AfterFIN", sendFIN},
@@ -68,31 +65,29 @@ func TestTCPUserTimeout(t *testing.T) {
// Create a socket, listen, TCP handshake, and accept.
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFD, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFD)
+ listenFD, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFD)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
- conn.Connect()
- acceptFD, _ := dut.Accept(listenFD)
+ defer conn.Close(t)
+ conn.Connect(t)
+ acceptFD, _ := dut.Accept(t, listenFD)
if tt.userTimeout != 0 {
- dut.SetSockOptInt(acceptFD, unix.SOL_TCP, unix.TCP_USER_TIMEOUT, int32(tt.userTimeout.Milliseconds()))
+ dut.SetSockOptInt(t, acceptFD, unix.SOL_TCP, unix.TCP_USER_TIMEOUT, int32(tt.userTimeout.Milliseconds()))
}
- if err := ttf.f(&conn, &dut, acceptFD); err != nil {
- t.Fatal(err)
- }
+ ttf.f(t, &conn, &dut, acceptFD)
time.Sleep(tt.sendDelay)
- conn.Drain()
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
+ conn.Drain(t)
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
// If TCP_USER_TIMEOUT was set and the above delay was longer than the
// TCP_USER_TIMEOUT then the DUT should send a RST in response to the
// testbench's packet.
expectRST := tt.userTimeout != 0 && tt.sendDelay > tt.userTimeout
expectTimeout := 5 * time.Second
- got, err := conn.Expect(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst)}, expectTimeout)
+ got, err := conn.Expect(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst)}, expectTimeout)
if expectRST && err != nil {
t.Errorf("expected RST packet within %s but got none: %s", expectTimeout, err)
}
diff --git a/test/packetimpact/tests/tcp_window_shrink_test.go b/test/packetimpact/tests/tcp_window_shrink_test.go
index e78d04756..5b001fbec 100644
--- a/test/packetimpact/tests/tcp_window_shrink_test.go
+++ b/test/packetimpact/tests/tcp_window_shrink_test.go
@@ -31,43 +31,43 @@ func init() {
func TestWindowShrink(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFd, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFd)
+ listenFd, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFd)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
- conn.Connect()
- acceptFd, _ := dut.Accept(listenFd)
- defer dut.Close(acceptFd)
+ conn.Connect(t)
+ acceptFd, _ := dut.Accept(t, listenFd)
+ defer dut.Close(t, acceptFd)
- dut.SetSockOptInt(acceptFd, unix.IPPROTO_TCP, unix.TCP_NODELAY, 1)
+ dut.SetSockOptInt(t, acceptFd, unix.IPPROTO_TCP, unix.TCP_NODELAY, 1)
sampleData := []byte("Sample Data")
samplePayload := &testbench.Payload{Bytes: sampleData}
- dut.Send(acceptFd, sampleData, 0)
- if _, err := conn.ExpectData(&testbench.TCP{}, samplePayload, time.Second); err != nil {
+ dut.Send(t, acceptFd, sampleData, 0)
+ if _, err := conn.ExpectData(t, &testbench.TCP{}, samplePayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
- dut.Send(acceptFd, sampleData, 0)
- dut.Send(acceptFd, sampleData, 0)
- if _, err := conn.ExpectData(&testbench.TCP{}, samplePayload, time.Second); err != nil {
+ dut.Send(t, acceptFd, sampleData, 0)
+ dut.Send(t, acceptFd, sampleData, 0)
+ if _, err := conn.ExpectData(t, &testbench.TCP{}, samplePayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
- if _, err := conn.ExpectData(&testbench.TCP{}, samplePayload, time.Second); err != nil {
+ if _, err := conn.ExpectData(t, &testbench.TCP{}, samplePayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
// We close our receiving window here
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(0)})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(0)})
- dut.Send(acceptFd, []byte("Sample Data"), 0)
+ dut.Send(t, acceptFd, []byte("Sample Data"), 0)
// Note: There is another kind of zero-window probing which Windows uses (by sending one
// new byte at `RemoteSeqNum`), if netstack wants to go that way, we may want to change
// the following lines.
- expectedRemoteSeqNum := *conn.RemoteSeqNum() - 1
- if _, err := conn.ExpectData(&testbench.TCP{SeqNum: testbench.Uint32(uint32(expectedRemoteSeqNum))}, nil, time.Second); err != nil {
+ expectedRemoteSeqNum := *conn.RemoteSeqNum(t) - 1
+ if _, err := conn.ExpectData(t, &testbench.TCP{SeqNum: testbench.Uint32(uint32(expectedRemoteSeqNum))}, nil, time.Second); err != nil {
t.Fatalf("expected a packet with sequence number %d: %s", expectedRemoteSeqNum, err)
}
}
diff --git a/test/packetimpact/tests/tcp_zero_window_probe_retransmit_test.go b/test/packetimpact/tests/tcp_zero_window_probe_retransmit_test.go
index 8c89d57c9..da93267d6 100644
--- a/test/packetimpact/tests/tcp_zero_window_probe_retransmit_test.go
+++ b/test/packetimpact/tests/tcp_zero_window_probe_retransmit_test.go
@@ -33,27 +33,27 @@ func init() {
func TestZeroWindowProbeRetransmit(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFd, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFd)
+ listenFd, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFd)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
- conn.Connect()
- acceptFd, _ := dut.Accept(listenFd)
- defer dut.Close(acceptFd)
+ conn.Connect(t)
+ acceptFd, _ := dut.Accept(t, listenFd)
+ defer dut.Close(t, acceptFd)
- dut.SetSockOptInt(acceptFd, unix.IPPROTO_TCP, unix.TCP_NODELAY, 1)
+ dut.SetSockOptInt(t, acceptFd, unix.IPPROTO_TCP, unix.TCP_NODELAY, 1)
sampleData := []byte("Sample Data")
samplePayload := &testbench.Payload{Bytes: sampleData}
// Send and receive sample data to the dut.
- dut.Send(acceptFd, sampleData, 0)
- if _, err := conn.ExpectData(&testbench.TCP{}, samplePayload, time.Second); err != nil {
+ dut.Send(t, acceptFd, sampleData, 0)
+ if _, err := conn.ExpectData(t, &testbench.TCP{}, samplePayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}, samplePayload)
- if _, err := conn.ExpectData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, nil, time.Second); err != nil {
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}, samplePayload)
+ if _, err := conn.ExpectData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, nil, time.Second); err != nil {
t.Fatalf("expected packet was not received: %s", err)
}
@@ -63,15 +63,15 @@ func TestZeroWindowProbeRetransmit(t *testing.T) {
// of the recorded first zero probe transmission duration.
//
// Advertize zero receive window again.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(0)})
- probeSeq := testbench.Uint32(uint32(*conn.RemoteSeqNum() - 1))
- ackProbe := testbench.Uint32(uint32(*conn.RemoteSeqNum()))
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(0)})
+ probeSeq := testbench.Uint32(uint32(*conn.RemoteSeqNum(t) - 1))
+ ackProbe := testbench.Uint32(uint32(*conn.RemoteSeqNum(t)))
startProbeDuration := time.Second
current := startProbeDuration
first := time.Now()
// Ask the dut to send out data.
- dut.Send(acceptFd, sampleData, 0)
+ dut.Send(t, acceptFd, sampleData, 0)
// Expect the dut to keep the connection alive as long as the remote is
// acknowledging the zero-window probes.
for i := 0; i < 5; i++ {
@@ -79,7 +79,7 @@ func TestZeroWindowProbeRetransmit(t *testing.T) {
// Expect zero-window probe with a timeout which is a function of the typical
// first retransmission time. The retransmission times is supposed to
// exponentially increase.
- if _, err := conn.ExpectData(&testbench.TCP{SeqNum: probeSeq}, nil, 2*current); err != nil {
+ if _, err := conn.ExpectData(t, &testbench.TCP{SeqNum: probeSeq}, nil, 2*current); err != nil {
t.Fatalf("expected a probe with sequence number %d: loop %d", probeSeq, i)
}
if i == 0 {
@@ -92,14 +92,13 @@ func TestZeroWindowProbeRetransmit(t *testing.T) {
t.Errorf("got zero probe %d after %s, want >= %s", i, got, want)
}
// Acknowledge the zero-window probes from the dut.
- conn.Send(testbench.TCP{AckNum: ackProbe, Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(0)})
+ conn.Send(t, testbench.TCP{AckNum: ackProbe, Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(0)})
current *= 2
}
// Advertize non-zero window.
- conn.Send(testbench.TCP{AckNum: ackProbe, Flags: testbench.Uint8(header.TCPFlagAck)})
+ conn.Send(t, testbench.TCP{AckNum: ackProbe, Flags: testbench.Uint8(header.TCPFlagAck)})
// Expect the dut to recover and transmit data.
- if _, err := conn.ExpectData(&testbench.
- TCP{SeqNum: ackProbe}, samplePayload, time.Second); err != nil {
+ if _, err := conn.ExpectData(t, &testbench.TCP{SeqNum: ackProbe}, samplePayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
}
diff --git a/test/packetimpact/tests/tcp_zero_window_probe_test.go b/test/packetimpact/tests/tcp_zero_window_probe_test.go
index 649fd5699..44cac42f8 100644
--- a/test/packetimpact/tests/tcp_zero_window_probe_test.go
+++ b/test/packetimpact/tests/tcp_zero_window_probe_test.go
@@ -33,29 +33,29 @@ func init() {
func TestZeroWindowProbe(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFd, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFd)
+ listenFd, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFd)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
- conn.Connect()
- acceptFd, _ := dut.Accept(listenFd)
- defer dut.Close(acceptFd)
+ conn.Connect(t)
+ acceptFd, _ := dut.Accept(t, listenFd)
+ defer dut.Close(t, acceptFd)
- dut.SetSockOptInt(acceptFd, unix.IPPROTO_TCP, unix.TCP_NODELAY, 1)
+ dut.SetSockOptInt(t, acceptFd, unix.IPPROTO_TCP, unix.TCP_NODELAY, 1)
sampleData := []byte("Sample Data")
samplePayload := &testbench.Payload{Bytes: sampleData}
start := time.Now()
// Send and receive sample data to the dut.
- dut.Send(acceptFd, sampleData, 0)
- if _, err := conn.ExpectData(&testbench.TCP{}, samplePayload, time.Second); err != nil {
+ dut.Send(t, acceptFd, sampleData, 0)
+ if _, err := conn.ExpectData(t, &testbench.TCP{}, samplePayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
sendTime := time.Now().Sub(start)
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}, samplePayload)
- if _, err := conn.ExpectData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, nil, time.Second); err != nil {
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}, samplePayload)
+ if _, err := conn.ExpectData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, nil, time.Second); err != nil {
t.Fatalf("expected packet was not received: %s", err)
}
@@ -63,24 +63,24 @@ func TestZeroWindowProbe(t *testing.T) {
// probe to be sent.
//
// Advertize zero window to the dut.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(0)})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(0)})
// Expected sequence number of the zero window probe.
- probeSeq := testbench.Uint32(uint32(*conn.RemoteSeqNum() - 1))
+ probeSeq := testbench.Uint32(uint32(*conn.RemoteSeqNum(t) - 1))
// Expected ack number of the ACK for the probe.
- ackProbe := testbench.Uint32(uint32(*conn.RemoteSeqNum()))
+ ackProbe := testbench.Uint32(uint32(*conn.RemoteSeqNum(t)))
// Expect there are no zero-window probes sent until there is data to be sent out
// from the dut.
- if _, err := conn.ExpectData(&testbench.TCP{SeqNum: probeSeq}, nil, 2*time.Second); err == nil {
+ if _, err := conn.ExpectData(t, &testbench.TCP{SeqNum: probeSeq}, nil, 2*time.Second); err == nil {
t.Fatalf("unexpected packet with sequence number %d: %s", probeSeq, err)
}
start = time.Now()
// Ask the dut to send out data.
- dut.Send(acceptFd, sampleData, 0)
+ dut.Send(t, acceptFd, sampleData, 0)
// Expect zero-window probe from the dut.
- if _, err := conn.ExpectData(&testbench.TCP{SeqNum: probeSeq}, nil, time.Second); err != nil {
+ if _, err := conn.ExpectData(t, &testbench.TCP{SeqNum: probeSeq}, nil, time.Second); err != nil {
t.Fatalf("expected a packet with sequence number %d: %s", probeSeq, err)
}
// Expect the probe to be sent after some time. Compare against the previous
@@ -94,9 +94,9 @@ func TestZeroWindowProbe(t *testing.T) {
// and sends out the sample payload after the send window opens.
//
// Advertize non-zero window to the dut and ack the zero window probe.
- conn.Send(testbench.TCP{AckNum: ackProbe, Flags: testbench.Uint8(header.TCPFlagAck)})
+ conn.Send(t, testbench.TCP{AckNum: ackProbe, Flags: testbench.Uint8(header.TCPFlagAck)})
// Expect the dut to recover and transmit data.
- if _, err := conn.ExpectData(&testbench.TCP{SeqNum: ackProbe}, samplePayload, time.Second); err != nil {
+ if _, err := conn.ExpectData(t, &testbench.TCP{SeqNum: ackProbe}, samplePayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
@@ -104,9 +104,9 @@ func TestZeroWindowProbe(t *testing.T) {
// Check if the dut responds as we do for a similar probe sent to it.
// Basically with sequence number to one byte behind the unacknowledged
// sequence number.
- p := testbench.Uint32(uint32(*conn.LocalSeqNum()))
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), SeqNum: testbench.Uint32(uint32(*conn.LocalSeqNum() - 1))})
- if _, err := conn.ExpectData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), AckNum: p}, nil, time.Second); err != nil {
+ p := testbench.Uint32(uint32(*conn.LocalSeqNum(t)))
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), SeqNum: testbench.Uint32(uint32(*conn.LocalSeqNum(t) - 1))})
+ if _, err := conn.ExpectData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), AckNum: p}, nil, time.Second); err != nil {
t.Fatalf("expected a packet with ack number: %d: %s", p, err)
}
}
diff --git a/test/packetimpact/tests/tcp_zero_window_probe_usertimeout_test.go b/test/packetimpact/tests/tcp_zero_window_probe_usertimeout_test.go
index 3c467b14f..09a1c653f 100644
--- a/test/packetimpact/tests/tcp_zero_window_probe_usertimeout_test.go
+++ b/test/packetimpact/tests/tcp_zero_window_probe_usertimeout_test.go
@@ -33,27 +33,27 @@ func init() {
func TestZeroWindowProbeUserTimeout(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- listenFd, remotePort := dut.CreateListener(unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
- defer dut.Close(listenFd)
+ listenFd, remotePort := dut.CreateListener(t, unix.SOCK_STREAM, unix.IPPROTO_TCP, 1)
+ defer dut.Close(t, listenFd)
conn := testbench.NewTCPIPv4(t, testbench.TCP{DstPort: &remotePort}, testbench.TCP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
- conn.Connect()
- acceptFd, _ := dut.Accept(listenFd)
- defer dut.Close(acceptFd)
+ conn.Connect(t)
+ acceptFd, _ := dut.Accept(t, listenFd)
+ defer dut.Close(t, acceptFd)
- dut.SetSockOptInt(acceptFd, unix.IPPROTO_TCP, unix.TCP_NODELAY, 1)
+ dut.SetSockOptInt(t, acceptFd, unix.IPPROTO_TCP, unix.TCP_NODELAY, 1)
sampleData := []byte("Sample Data")
samplePayload := &testbench.Payload{Bytes: sampleData}
// Send and receive sample data to the dut.
- dut.Send(acceptFd, sampleData, 0)
- if _, err := conn.ExpectData(&testbench.TCP{}, samplePayload, time.Second); err != nil {
+ dut.Send(t, acceptFd, sampleData, 0)
+ if _, err := conn.ExpectData(t, &testbench.TCP{}, samplePayload, time.Second); err != nil {
t.Fatalf("expected payload was not received: %s", err)
}
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}, samplePayload)
- if _, err := conn.ExpectData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, nil, time.Second); err != nil {
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck | header.TCPFlagPsh)}, samplePayload)
+ if _, err := conn.ExpectData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)}, nil, time.Second); err != nil {
t.Fatalf("expected packet was not received: %s", err)
}
@@ -61,15 +61,15 @@ func TestZeroWindowProbeUserTimeout(t *testing.T) {
// probe to be sent.
//
// Advertize zero window to the dut.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(0)})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(0)})
// Expected sequence number of the zero window probe.
- probeSeq := testbench.Uint32(uint32(*conn.RemoteSeqNum() - 1))
+ probeSeq := testbench.Uint32(uint32(*conn.RemoteSeqNum(t) - 1))
start := time.Now()
// Ask the dut to send out data.
- dut.Send(acceptFd, sampleData, 0)
+ dut.Send(t, acceptFd, sampleData, 0)
// Expect zero-window probe from the dut.
- if _, err := conn.ExpectData(&testbench.TCP{SeqNum: probeSeq}, nil, time.Second); err != nil {
+ if _, err := conn.ExpectData(t, &testbench.TCP{SeqNum: probeSeq}, nil, time.Second); err != nil {
t.Fatalf("expected a packet with sequence number %d: %s", probeSeq, err)
}
// Record the duration for first probe, the dut sends the zero window probe after
@@ -80,19 +80,19 @@ func TestZeroWindowProbeUserTimeout(t *testing.T) {
// when the dut is sending zero-window probes.
//
// Reduce the retransmit timeout.
- dut.SetSockOptInt(acceptFd, unix.IPPROTO_TCP, unix.TCP_USER_TIMEOUT, int32(startProbeDuration.Milliseconds()))
+ dut.SetSockOptInt(t, acceptFd, unix.IPPROTO_TCP, unix.TCP_USER_TIMEOUT, int32(startProbeDuration.Milliseconds()))
// Advertize zero window again.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(0)})
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck), WindowSize: testbench.Uint16(0)})
// Ask the dut to send out data that would trigger zero window probe retransmissions.
- dut.Send(acceptFd, sampleData, 0)
+ dut.Send(t, acceptFd, sampleData, 0)
// Wait for the connection to timeout after multiple zero-window probe retransmissions.
time.Sleep(8 * startProbeDuration)
// Expect the connection to have timed out and closed which would cause the dut
// to reply with a RST to the ACK we send.
- conn.Send(testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
- if _, err := conn.ExpectData(&testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst)}, nil, time.Second); err != nil {
+ conn.Send(t, testbench.TCP{Flags: testbench.Uint8(header.TCPFlagAck)})
+ if _, err := conn.ExpectData(t, &testbench.TCP{Flags: testbench.Uint8(header.TCPFlagRst)}, nil, time.Second); err != nil {
t.Fatalf("expected a TCP RST")
}
}
diff --git a/test/packetimpact/tests/udp_discard_mcast_source_addr_test.go b/test/packetimpact/tests/udp_discard_mcast_source_addr_test.go
index b0315e67c..d30177e64 100644
--- a/test/packetimpact/tests/udp_discard_mcast_source_addr_test.go
+++ b/test/packetimpact/tests/udp_discard_mcast_source_addr_test.go
@@ -36,11 +36,11 @@ func init() {
func TestDiscardsUDPPacketsWithMcastSourceAddressV4(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- remoteFD, remotePort := dut.CreateBoundSocket(unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.ParseIP(testbench.RemoteIPv4))
- defer dut.Close(remoteFD)
- dut.SetSockOptTimeval(remoteFD, unix.SOL_SOCKET, unix.SO_RCVTIMEO, &oneSecond)
+ remoteFD, remotePort := dut.CreateBoundSocket(t, unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.ParseIP(testbench.RemoteIPv4))
+ defer dut.Close(t, remoteFD)
+ dut.SetSockOptTimeval(t, remoteFD, unix.SOL_SOCKET, unix.SO_RCVTIMEO, &oneSecond)
conn := testbench.NewUDPIPv4(t, testbench.UDP{DstPort: &remotePort}, testbench.UDP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
for _, mcastAddr := range []net.IP{
net.IPv4allsys,
@@ -50,11 +50,12 @@ func TestDiscardsUDPPacketsWithMcastSourceAddressV4(t *testing.T) {
} {
t.Run(fmt.Sprintf("srcaddr=%s", mcastAddr), func(t *testing.T) {
conn.SendIP(
+ t,
testbench.IPv4{SrcAddr: testbench.Address(tcpip.Address(mcastAddr.To4()))},
testbench.UDP{},
)
- ret, payload, errno := dut.RecvWithErrno(context.Background(), remoteFD, 100, 0)
+ ret, payload, errno := dut.RecvWithErrno(context.Background(), t, remoteFD, 100, 0)
if errno != syscall.EAGAIN || errno != syscall.EWOULDBLOCK {
t.Errorf("Recv got unexpected result, ret=%d, payload=%q, errno=%s", ret, payload, errno)
}
@@ -65,11 +66,11 @@ func TestDiscardsUDPPacketsWithMcastSourceAddressV4(t *testing.T) {
func TestDiscardsUDPPacketsWithMcastSourceAddressV6(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- remoteFD, remotePort := dut.CreateBoundSocket(unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.ParseIP(testbench.RemoteIPv6))
- defer dut.Close(remoteFD)
- dut.SetSockOptTimeval(remoteFD, unix.SOL_SOCKET, unix.SO_RCVTIMEO, &oneSecond)
+ remoteFD, remotePort := dut.CreateBoundSocket(t, unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.ParseIP(testbench.RemoteIPv6))
+ defer dut.Close(t, remoteFD)
+ dut.SetSockOptTimeval(t, remoteFD, unix.SOL_SOCKET, unix.SO_RCVTIMEO, &oneSecond)
conn := testbench.NewUDPIPv6(t, testbench.UDP{DstPort: &remotePort}, testbench.UDP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
for _, mcastAddr := range []net.IP{
net.IPv6interfacelocalallnodes,
@@ -80,10 +81,11 @@ func TestDiscardsUDPPacketsWithMcastSourceAddressV6(t *testing.T) {
} {
t.Run(fmt.Sprintf("srcaddr=%s", mcastAddr), func(t *testing.T) {
conn.SendIPv6(
+ t,
testbench.IPv6{SrcAddr: testbench.Address(tcpip.Address(mcastAddr.To16()))},
testbench.UDP{},
)
- ret, payload, errno := dut.RecvWithErrno(context.Background(), remoteFD, 100, 0)
+ ret, payload, errno := dut.RecvWithErrno(context.Background(), t, remoteFD, 100, 0)
if errno != syscall.EAGAIN || errno != syscall.EWOULDBLOCK {
t.Errorf("Recv got unexpected result, ret=%d, payload=%q, errno=%s", ret, payload, errno)
}
diff --git a/test/packetimpact/tests/udp_icmp_error_propagation_test.go b/test/packetimpact/tests/udp_icmp_error_propagation_test.go
index b754918f6..715e8f5b5 100644
--- a/test/packetimpact/tests/udp_icmp_error_propagation_test.go
+++ b/test/packetimpact/tests/udp_icmp_error_propagation_test.go
@@ -72,7 +72,7 @@ func (e icmpError) ToICMPv4() *testbench.ICMPv4 {
type errorDetection struct {
name string
useValidConn bool
- f func(context.Context, testData) error
+ f func(context.Context, *testing.T, testData)
}
type testData struct {
@@ -95,12 +95,14 @@ func wantErrno(c connectionMode, icmpErr icmpError) syscall.Errno {
}
// sendICMPError sends an ICMP error message in response to a UDP datagram.
-func sendICMPError(conn *testbench.UDPIPv4, icmpErr icmpError, udp *testbench.UDP) error {
- layers := (*testbench.Connection)(conn).CreateFrame(nil)
+func sendICMPError(t *testing.T, conn *testbench.UDPIPv4, icmpErr icmpError, udp *testbench.UDP) {
+ t.Helper()
+
+ layers := (*testbench.Connection)(conn).CreateFrame(t, nil)
layers = layers[:len(layers)-1]
ip, ok := udp.Prev().(*testbench.IPv4)
if !ok {
- return fmt.Errorf("expected %s to be IPv4", udp.Prev())
+ t.Fatalf("expected %s to be IPv4", udp.Prev())
}
if icmpErr == timeToLiveExceeded {
*ip.TTL = 1
@@ -114,84 +116,82 @@ func sendICMPError(conn *testbench.UDPIPv4, icmpErr icmpError, udp *testbench.UD
// resulting in a mal-formed packet.
layers = append(layers, icmpErr.ToICMPv4(), ip, udp)
- (*testbench.Connection)(conn).SendFrameStateless(layers)
- return nil
+ (*testbench.Connection)(conn).SendFrameStateless(t, layers)
}
// testRecv tests observing the ICMP error through the recv syscall. A packet
// is sent to the DUT, and if wantErrno is non-zero, then the first recv should
// fail and the second should succeed. Otherwise if wantErrno is zero then the
// first recv should succeed immediately.
-func testRecv(ctx context.Context, d testData) error {
+func testRecv(ctx context.Context, t *testing.T, d testData) {
+ t.Helper()
+
// Check that receiving on the clean socket works.
- d.conn.Send(testbench.UDP{DstPort: &d.cleanPort})
- d.dut.Recv(d.cleanFD, 100, 0)
+ d.conn.Send(t, testbench.UDP{DstPort: &d.cleanPort})
+ d.dut.Recv(t, d.cleanFD, 100, 0)
- d.conn.Send(testbench.UDP{})
+ d.conn.Send(t, testbench.UDP{})
if d.wantErrno != syscall.Errno(0) {
ctx, cancel := context.WithTimeout(ctx, time.Second)
defer cancel()
- ret, _, err := d.dut.RecvWithErrno(ctx, d.remoteFD, 100, 0)
+ ret, _, err := d.dut.RecvWithErrno(ctx, t, d.remoteFD, 100, 0)
if ret != -1 {
- return fmt.Errorf("recv after ICMP error succeeded unexpectedly, expected (%[1]d) %[1]v", d.wantErrno)
+ t.Fatalf("recv after ICMP error succeeded unexpectedly, expected (%[1]d) %[1]v", d.wantErrno)
}
if err != d.wantErrno {
- return fmt.Errorf("recv after ICMP error resulted in error (%[1]d) %[1]v, expected (%[2]d) %[2]v", err, d.wantErrno)
+ t.Fatalf("recv after ICMP error resulted in error (%[1]d) %[1]v, expected (%[2]d) %[2]v", err, d.wantErrno)
}
}
- d.dut.Recv(d.remoteFD, 100, 0)
- return nil
+ d.dut.Recv(t, d.remoteFD, 100, 0)
}
// testSendTo tests observing the ICMP error through the send syscall. If
// wantErrno is non-zero, the first send should fail and a subsequent send
// should suceed; while if wantErrno is zero then the first send should just
// succeed.
-func testSendTo(ctx context.Context, d testData) error {
+func testSendTo(ctx context.Context, t *testing.T, d testData) {
// Check that sending on the clean socket works.
- d.dut.SendTo(d.cleanFD, nil, 0, d.conn.LocalAddr())
- if _, err := d.conn.Expect(testbench.UDP{SrcPort: &d.cleanPort}, time.Second); err != nil {
- return fmt.Errorf("did not receive UDP packet from clean socket on DUT: %s", err)
+ d.dut.SendTo(t, d.cleanFD, nil, 0, d.conn.LocalAddr(t))
+ if _, err := d.conn.Expect(t, testbench.UDP{SrcPort: &d.cleanPort}, time.Second); err != nil {
+ t.Fatalf("did not receive UDP packet from clean socket on DUT: %s", err)
}
if d.wantErrno != syscall.Errno(0) {
ctx, cancel := context.WithTimeout(ctx, time.Second)
defer cancel()
- ret, err := d.dut.SendToWithErrno(ctx, d.remoteFD, nil, 0, d.conn.LocalAddr())
+ ret, err := d.dut.SendToWithErrno(ctx, t, d.remoteFD, nil, 0, d.conn.LocalAddr(t))
if ret != -1 {
- return fmt.Errorf("sendto after ICMP error succeeded unexpectedly, expected (%[1]d) %[1]v", d.wantErrno)
+ t.Fatalf("sendto after ICMP error succeeded unexpectedly, expected (%[1]d) %[1]v", d.wantErrno)
}
if err != d.wantErrno {
- return fmt.Errorf("sendto after ICMP error resulted in error (%[1]d) %[1]v, expected (%[2]d) %[2]v", err, d.wantErrno)
+ t.Fatalf("sendto after ICMP error resulted in error (%[1]d) %[1]v, expected (%[2]d) %[2]v", err, d.wantErrno)
}
}
- d.dut.SendTo(d.remoteFD, nil, 0, d.conn.LocalAddr())
- if _, err := d.conn.Expect(testbench.UDP{}, time.Second); err != nil {
- return fmt.Errorf("did not receive UDP packet as expected: %s", err)
+ d.dut.SendTo(t, d.remoteFD, nil, 0, d.conn.LocalAddr(t))
+ if _, err := d.conn.Expect(t, testbench.UDP{}, time.Second); err != nil {
+ t.Fatalf("did not receive UDP packet as expected: %s", err)
}
- return nil
}
-func testSockOpt(_ context.Context, d testData) error {
+func testSockOpt(_ context.Context, t *testing.T, d testData) {
// Check that there's no pending error on the clean socket.
- if errno := syscall.Errno(d.dut.GetSockOptInt(d.cleanFD, unix.SOL_SOCKET, unix.SO_ERROR)); errno != syscall.Errno(0) {
- return fmt.Errorf("unexpected error (%[1]d) %[1]v on clean socket", errno)
+ if errno := syscall.Errno(d.dut.GetSockOptInt(t, d.cleanFD, unix.SOL_SOCKET, unix.SO_ERROR)); errno != syscall.Errno(0) {
+ t.Fatalf("unexpected error (%[1]d) %[1]v on clean socket", errno)
}
- if errno := syscall.Errno(d.dut.GetSockOptInt(d.remoteFD, unix.SOL_SOCKET, unix.SO_ERROR)); errno != d.wantErrno {
- return fmt.Errorf("SO_ERROR sockopt after ICMP error is (%[1]d) %[1]v, expected (%[2]d) %[2]v", errno, d.wantErrno)
+ if errno := syscall.Errno(d.dut.GetSockOptInt(t, d.remoteFD, unix.SOL_SOCKET, unix.SO_ERROR)); errno != d.wantErrno {
+ t.Fatalf("SO_ERROR sockopt after ICMP error is (%[1]d) %[1]v, expected (%[2]d) %[2]v", errno, d.wantErrno)
}
// Check that after clearing socket error, sending doesn't fail.
- d.dut.SendTo(d.remoteFD, nil, 0, d.conn.LocalAddr())
- if _, err := d.conn.Expect(testbench.UDP{}, time.Second); err != nil {
- return fmt.Errorf("did not receive UDP packet as expected: %s", err)
+ d.dut.SendTo(t, d.remoteFD, nil, 0, d.conn.LocalAddr(t))
+ if _, err := d.conn.Expect(t, testbench.UDP{}, time.Second); err != nil {
+ t.Fatalf("did not receive UDP packet as expected: %s", err)
}
- return nil
}
// TestUDPICMPErrorPropagation tests that ICMP error messages in response to
@@ -227,31 +227,29 @@ func TestUDPICMPErrorPropagation(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- remoteFD, remotePort := dut.CreateBoundSocket(unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.ParseIP("0.0.0.0"))
- defer dut.Close(remoteFD)
+ remoteFD, remotePort := dut.CreateBoundSocket(t, unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.ParseIP("0.0.0.0"))
+ defer dut.Close(t, remoteFD)
// Create a second, clean socket on the DUT to ensure that the ICMP
// error messages only affect the sockets they are intended for.
- cleanFD, cleanPort := dut.CreateBoundSocket(unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.ParseIP("0.0.0.0"))
- defer dut.Close(cleanFD)
+ cleanFD, cleanPort := dut.CreateBoundSocket(t, unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.ParseIP("0.0.0.0"))
+ defer dut.Close(t, cleanFD)
conn := testbench.NewUDPIPv4(t, testbench.UDP{DstPort: &remotePort}, testbench.UDP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
if connect {
- dut.Connect(remoteFD, conn.LocalAddr())
- dut.Connect(cleanFD, conn.LocalAddr())
+ dut.Connect(t, remoteFD, conn.LocalAddr(t))
+ dut.Connect(t, cleanFD, conn.LocalAddr(t))
}
- dut.SendTo(remoteFD, nil, 0, conn.LocalAddr())
- udp, err := conn.Expect(testbench.UDP{}, time.Second)
+ dut.SendTo(t, remoteFD, nil, 0, conn.LocalAddr(t))
+ udp, err := conn.Expect(t, testbench.UDP{}, time.Second)
if err != nil {
t.Fatalf("did not receive message from DUT: %s", err)
}
- if err := sendICMPError(&conn, icmpErr, udp); err != nil {
- t.Fatal(err)
- }
+ sendICMPError(t, &conn, icmpErr, udp)
errDetectConn := &conn
if errDetect.useValidConn {
@@ -260,14 +258,12 @@ func TestUDPICMPErrorPropagation(t *testing.T) {
// interactions between it and the the DUT should be independent of
// the ICMP error at least at the port level.
connClean := testbench.NewUDPIPv4(t, testbench.UDP{DstPort: &remotePort}, testbench.UDP{SrcPort: &remotePort})
- defer connClean.Close()
+ defer connClean.Close(t)
errDetectConn = &connClean
}
- if err := errDetect.f(context.Background(), testData{&dut, errDetectConn, remoteFD, remotePort, cleanFD, cleanPort, wantErrno}); err != nil {
- t.Fatal(err)
- }
+ errDetect.f(context.Background(), t, testData{&dut, errDetectConn, remoteFD, remotePort, cleanFD, cleanPort, wantErrno})
})
}
}
@@ -285,24 +281,24 @@ func TestICMPErrorDuringUDPRecv(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- remoteFD, remotePort := dut.CreateBoundSocket(unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.ParseIP("0.0.0.0"))
- defer dut.Close(remoteFD)
+ remoteFD, remotePort := dut.CreateBoundSocket(t, unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.ParseIP("0.0.0.0"))
+ defer dut.Close(t, remoteFD)
// Create a second, clean socket on the DUT to ensure that the ICMP
// error messages only affect the sockets they are intended for.
- cleanFD, cleanPort := dut.CreateBoundSocket(unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.ParseIP("0.0.0.0"))
- defer dut.Close(cleanFD)
+ cleanFD, cleanPort := dut.CreateBoundSocket(t, unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.ParseIP("0.0.0.0"))
+ defer dut.Close(t, cleanFD)
conn := testbench.NewUDPIPv4(t, testbench.UDP{DstPort: &remotePort}, testbench.UDP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
if connect {
- dut.Connect(remoteFD, conn.LocalAddr())
- dut.Connect(cleanFD, conn.LocalAddr())
+ dut.Connect(t, remoteFD, conn.LocalAddr(t))
+ dut.Connect(t, cleanFD, conn.LocalAddr(t))
}
- dut.SendTo(remoteFD, nil, 0, conn.LocalAddr())
- udp, err := conn.Expect(testbench.UDP{}, time.Second)
+ dut.SendTo(t, remoteFD, nil, 0, conn.LocalAddr(t))
+ udp, err := conn.Expect(t, testbench.UDP{}, time.Second)
if err != nil {
t.Fatalf("did not receive message from DUT: %s", err)
}
@@ -316,7 +312,7 @@ func TestICMPErrorDuringUDPRecv(t *testing.T) {
ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second)
defer cancel()
- ret, _, err := dut.RecvWithErrno(ctx, remoteFD, 100, 0)
+ ret, _, err := dut.RecvWithErrno(ctx, t, remoteFD, 100, 0)
if ret != -1 {
t.Errorf("recv during ICMP error succeeded unexpectedly, expected (%[1]d) %[1]v", wantErrno)
return
@@ -330,7 +326,7 @@ func TestICMPErrorDuringUDPRecv(t *testing.T) {
ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second)
defer cancel()
- if ret, _, err := dut.RecvWithErrno(ctx, remoteFD, 100, 0); ret == -1 {
+ if ret, _, err := dut.RecvWithErrno(ctx, t, remoteFD, 100, 0); ret == -1 {
t.Errorf("recv after ICMP error failed with (%[1]d) %[1]", err)
}
}()
@@ -341,7 +337,7 @@ func TestICMPErrorDuringUDPRecv(t *testing.T) {
ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second)
defer cancel()
- if ret, _, err := dut.RecvWithErrno(ctx, cleanFD, 100, 0); ret == -1 {
+ if ret, _, err := dut.RecvWithErrno(ctx, t, cleanFD, 100, 0); ret == -1 {
t.Errorf("recv on clean socket failed with (%[1]d) %[1]", err)
}
}()
@@ -352,12 +348,10 @@ func TestICMPErrorDuringUDPRecv(t *testing.T) {
// alternative is available.
time.Sleep(2 * time.Second)
- if err := sendICMPError(&conn, icmpErr, udp); err != nil {
- t.Fatal(err)
- }
+ sendICMPError(t, &conn, icmpErr, udp)
- conn.Send(testbench.UDP{DstPort: &cleanPort})
- conn.Send(testbench.UDP{})
+ conn.Send(t, testbench.UDP{DstPort: &cleanPort})
+ conn.Send(t, testbench.UDP{})
wg.Wait()
})
}
diff --git a/test/packetimpact/tests/udp_recv_mcast_bcast_test.go b/test/packetimpact/tests/udp_recv_mcast_bcast_test.go
index 263a54291..fcd202643 100644
--- a/test/packetimpact/tests/udp_recv_mcast_bcast_test.go
+++ b/test/packetimpact/tests/udp_recv_mcast_bcast_test.go
@@ -31,10 +31,10 @@ func init() {
func TestUDPRecvMulticastBroadcast(t *testing.T) {
dut := testbench.NewDUT(t)
defer dut.TearDown()
- boundFD, remotePort := dut.CreateBoundSocket(unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.IPv4(0, 0, 0, 0))
- defer dut.Close(boundFD)
+ boundFD, remotePort := dut.CreateBoundSocket(t, unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.IPv4(0, 0, 0, 0))
+ defer dut.Close(t, boundFD)
conn := testbench.NewUDPIPv4(t, testbench.UDP{DstPort: &remotePort}, testbench.UDP{SrcPort: &remotePort})
- defer conn.Close()
+ defer conn.Close(t)
for _, bcastAddr := range []net.IP{
broadcastAddr(net.ParseIP(testbench.RemoteIPv4), net.CIDRMask(testbench.IPv4PrefixLength, 32)),
@@ -43,12 +43,13 @@ func TestUDPRecvMulticastBroadcast(t *testing.T) {
} {
payload := testbench.GenerateRandomPayload(t, 1<<10)
conn.SendIP(
+ t,
testbench.IPv4{DstAddr: testbench.Address(tcpip.Address(bcastAddr.To4()))},
testbench.UDP{},
&testbench.Payload{Bytes: payload},
)
t.Logf("Receiving packet sent to address: %s", bcastAddr)
- if got, want := string(dut.Recv(boundFD, int32(len(payload)), 0)), string(payload); got != want {
+ if got, want := string(dut.Recv(t, boundFD, int32(len(payload)), 0)), string(payload); got != want {
t.Errorf("received payload does not match sent payload got: %s, want: %s", got, want)
}
}
diff --git a/test/packetimpact/tests/udp_send_recv_dgram_test.go b/test/packetimpact/tests/udp_send_recv_dgram_test.go
index bd53ad90b..dc20275d6 100644
--- a/test/packetimpact/tests/udp_send_recv_dgram_test.go
+++ b/test/packetimpact/tests/udp_send_recv_dgram_test.go
@@ -29,10 +29,10 @@ func init() {
}
type udpConn interface {
- Send(testbench.UDP, ...testbench.Layer)
- ExpectData(testbench.UDP, testbench.Payload, time.Duration) (testbench.Layers, error)
- Drain()
- Close()
+ Send(*testing.T, testbench.UDP, ...testbench.Layer)
+ ExpectData(*testing.T, testbench.UDP, testbench.Payload, time.Duration) (testbench.Layers, error)
+ Drain(*testing.T)
+ Close(*testing.T)
}
func TestUDP(t *testing.T) {
@@ -51,21 +51,21 @@ func TestUDP(t *testing.T) {
} else {
addr = testbench.RemoteIPv6
}
- boundFD, remotePort := dut.CreateBoundSocket(unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.ParseIP(addr))
- defer dut.Close(boundFD)
+ boundFD, remotePort := dut.CreateBoundSocket(t, unix.SOCK_DGRAM, unix.IPPROTO_UDP, net.ParseIP(addr))
+ defer dut.Close(t, boundFD)
var conn udpConn
var localAddr unix.Sockaddr
if isIPv4 {
v4Conn := testbench.NewUDPIPv4(t, testbench.UDP{DstPort: &remotePort}, testbench.UDP{SrcPort: &remotePort})
- localAddr = v4Conn.LocalAddr()
+ localAddr = v4Conn.LocalAddr(t)
conn = &v4Conn
} else {
v6Conn := testbench.NewUDPIPv6(t, testbench.UDP{DstPort: &remotePort}, testbench.UDP{SrcPort: &remotePort})
- localAddr = v6Conn.LocalAddr()
+ localAddr = v6Conn.LocalAddr(t)
conn = &v6Conn
}
- defer conn.Close()
+ defer conn.Close(t)
testCases := []struct {
name string
@@ -81,17 +81,17 @@ func TestUDP(t *testing.T) {
for _, tc := range testCases {
t.Run(tc.name, func(t *testing.T) {
t.Run("Send", func(t *testing.T) {
- conn.Send(testbench.UDP{}, &testbench.Payload{Bytes: tc.payload})
- if got, want := string(dut.Recv(boundFD, int32(len(tc.payload)), 0)), string(tc.payload); got != want {
+ conn.Send(t, testbench.UDP{}, &testbench.Payload{Bytes: tc.payload})
+ if got, want := string(dut.Recv(t, boundFD, int32(len(tc.payload)), 0)), string(tc.payload); got != want {
t.Fatalf("received payload does not match sent payload got: %s, want: %s", got, want)
}
})
t.Run("Recv", func(t *testing.T) {
- conn.Drain()
- if got, want := int(dut.SendTo(boundFD, tc.payload, 0, localAddr)), len(tc.payload); got != want {
+ conn.Drain(t)
+ if got, want := int(dut.SendTo(t, boundFD, tc.payload, 0, localAddr)), len(tc.payload); got != want {
t.Fatalf("short write got: %d, want: %d", got, want)
}
- if _, err := conn.ExpectData(testbench.UDP{SrcPort: &remotePort}, testbench.Payload{Bytes: tc.payload}, time.Second); err != nil {
+ if _, err := conn.ExpectData(t, testbench.UDP{SrcPort: &remotePort}, testbench.Payload{Bytes: tc.payload}, time.Second); err != nil {
t.Fatal(err)
}
})