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|
// Copyright 2018 The gVisor Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Package context provides a test context for use in tcp tests. It also
// provides helper methods to assert/check certain behaviours.
package context
import (
"bytes"
"testing"
"time"
"gvisor.dev/gvisor/pkg/tcpip"
"gvisor.dev/gvisor/pkg/tcpip/buffer"
"gvisor.dev/gvisor/pkg/tcpip/checker"
"gvisor.dev/gvisor/pkg/tcpip/header"
"gvisor.dev/gvisor/pkg/tcpip/link/channel"
"gvisor.dev/gvisor/pkg/tcpip/link/sniffer"
"gvisor.dev/gvisor/pkg/tcpip/network/ipv4"
"gvisor.dev/gvisor/pkg/tcpip/network/ipv6"
"gvisor.dev/gvisor/pkg/tcpip/seqnum"
"gvisor.dev/gvisor/pkg/tcpip/stack"
"gvisor.dev/gvisor/pkg/tcpip/transport/tcp"
"gvisor.dev/gvisor/pkg/waiter"
)
const (
// StackAddr is the IPv4 address assigned to the stack.
StackAddr = "\x0a\x00\x00\x01"
// StackPort is used as the listening port in tests for passive
// connects.
StackPort = 1234
// TestAddr is the source address for packets sent to the stack via the
// link layer endpoint.
TestAddr = "\x0a\x00\x00\x02"
// TestPort is the TCP port used for packets sent to the stack
// via the link layer endpoint.
TestPort = 4096
// StackV6Addr is the IPv6 address assigned to the stack.
StackV6Addr = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x01"
// TestV6Addr is the source address for packets sent to the stack via
// the link layer endpoint.
TestV6Addr = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02"
// StackV4MappedAddr is StackAddr as a mapped v6 address.
StackV4MappedAddr = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xff\xff" + StackAddr
// TestV4MappedAddr is TestAddr as a mapped v6 address.
TestV4MappedAddr = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xff\xff" + TestAddr
// V4MappedWildcardAddr is the mapped v6 representation of 0.0.0.0.
V4MappedWildcardAddr = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xff\xff\x00\x00\x00\x00"
// testInitialSequenceNumber is the initial sequence number sent in packets that
// are sent in response to a SYN or in the initial SYN sent to the stack.
testInitialSequenceNumber = 789
)
// Headers is used to represent the TCP header fields when building a
// new packet.
type Headers struct {
// SrcPort holds the src port value to be used in the packet.
SrcPort uint16
// DstPort holds the destination port value to be used in the packet.
DstPort uint16
// SeqNum is the value of the sequence number field in the TCP header.
SeqNum seqnum.Value
// AckNum represents the acknowledgement number field in the TCP header.
AckNum seqnum.Value
// Flags are the TCP flags in the TCP header.
Flags int
// RcvWnd is the window to be advertised in the ReceiveWindow field of
// the TCP header.
RcvWnd seqnum.Size
// TCPOpts holds the options to be sent in the option field of the TCP
// header.
TCPOpts []byte
}
// Context provides an initialized Network stack and a link layer endpoint
// for use in TCP tests.
type Context struct {
t *testing.T
linkEP *channel.Endpoint
s *stack.Stack
// IRS holds the initial sequence number in the SYN sent by endpoint in
// case of an active connect or the sequence number sent by the endpoint
// in the SYN-ACK sent in response to a SYN when listening in passive
// mode.
IRS seqnum.Value
// Port holds the port bound by EP below in case of an active connect or
// the listening port number in case of a passive connect.
Port uint16
// EP is the test endpoint in the stack owned by this context. This endpoint
// is used in various tests to either initiate an active connect or is used
// as a passive listening endpoint to accept inbound connections.
EP tcpip.Endpoint
// Wq is the wait queue associated with EP and is used to block for events
// on EP.
WQ waiter.Queue
// TimeStampEnabled is true if ep is connected with the timestamp option
// enabled.
TimeStampEnabled bool
// WindowScale is the expected window scale in SYN packets sent by
// the stack.
WindowScale uint8
}
// New allocates and initializes a test context containing a new
// stack and a link-layer endpoint.
func New(t *testing.T, mtu uint32) *Context {
s := stack.New([]string{ipv4.ProtocolName, ipv6.ProtocolName}, []string{tcp.ProtocolName}, stack.Options{})
// Allow minimum send/receive buffer sizes to be 1 during tests.
if err := s.SetTransportProtocolOption(tcp.ProtocolNumber, tcp.SendBufferSizeOption{1, tcp.DefaultSendBufferSize, 10 * tcp.DefaultSendBufferSize}); err != nil {
t.Fatalf("SetTransportProtocolOption failed: %v", err)
}
if err := s.SetTransportProtocolOption(tcp.ProtocolNumber, tcp.ReceiveBufferSizeOption{1, tcp.DefaultReceiveBufferSize, 10 * tcp.DefaultReceiveBufferSize}); err != nil {
t.Fatalf("SetTransportProtocolOption failed: %v", err)
}
// Some of the congestion control tests send up to 640 packets, we so
// set the channel size to 1000.
id, linkEP := channel.New(1000, mtu, "")
if testing.Verbose() {
id = sniffer.New(id)
}
if err := s.CreateNIC(1, id); err != nil {
t.Fatalf("CreateNIC failed: %v", err)
}
if err := s.AddAddress(1, ipv4.ProtocolNumber, StackAddr); err != nil {
t.Fatalf("AddAddress failed: %v", err)
}
if err := s.AddAddress(1, ipv6.ProtocolNumber, StackV6Addr); err != nil {
t.Fatalf("AddAddress failed: %v", err)
}
s.SetRouteTable([]tcpip.Route{
{
Destination: "\x00\x00\x00\x00",
Mask: "\x00\x00\x00\x00",
Gateway: "",
NIC: 1,
},
{
Destination: "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00",
Mask: "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00",
Gateway: "",
NIC: 1,
},
})
return &Context{
t: t,
s: s,
linkEP: linkEP,
WindowScale: uint8(tcp.FindWndScale(tcp.DefaultReceiveBufferSize)),
}
}
// Cleanup closes the context endpoint if required.
func (c *Context) Cleanup() {
if c.EP != nil {
c.EP.Close()
}
}
// Stack returns a reference to the stack in the Context.
func (c *Context) Stack() *stack.Stack {
return c.s
}
// CheckNoPacketTimeout verifies that no packet is received during the time
// specified by wait.
func (c *Context) CheckNoPacketTimeout(errMsg string, wait time.Duration) {
c.t.Helper()
select {
case <-c.linkEP.C:
c.t.Fatal(errMsg)
case <-time.After(wait):
}
}
// CheckNoPacket verifies that no packet is received for 1 second.
func (c *Context) CheckNoPacket(errMsg string) {
c.CheckNoPacketTimeout(errMsg, 1*time.Second)
}
// GetPacket reads a packet from the link layer endpoint and verifies
// that it is an IPv4 packet with the expected source and destination
// addresses. It will fail with an error if no packet is received for
// 2 seconds.
func (c *Context) GetPacket() []byte {
select {
case p := <-c.linkEP.C:
if p.Proto != ipv4.ProtocolNumber {
c.t.Fatalf("Bad network protocol: got %v, wanted %v", p.Proto, ipv4.ProtocolNumber)
}
b := make([]byte, len(p.Header)+len(p.Payload))
copy(b, p.Header)
copy(b[len(p.Header):], p.Payload)
if p.GSO != nil && p.GSO.L3HdrLen != header.IPv4MinimumSize {
c.t.Errorf("L3HdrLen %v (expected %v)", p.GSO.L3HdrLen, header.IPv4MinimumSize)
}
checker.IPv4(c.t, b, checker.SrcAddr(StackAddr), checker.DstAddr(TestAddr))
return b
case <-time.After(2 * time.Second):
c.t.Fatalf("Packet wasn't written out")
}
return nil
}
// GetPacketNonBlocking reads a packet from the link layer endpoint
// and verifies that it is an IPv4 packet with the expected source
// and destination address. If no packet is available it will return
// nil immediately.
func (c *Context) GetPacketNonBlocking() []byte {
select {
case p := <-c.linkEP.C:
if p.Proto != ipv4.ProtocolNumber {
c.t.Fatalf("Bad network protocol: got %v, wanted %v", p.Proto, ipv4.ProtocolNumber)
}
b := make([]byte, len(p.Header)+len(p.Payload))
copy(b, p.Header)
copy(b[len(p.Header):], p.Payload)
checker.IPv4(c.t, b, checker.SrcAddr(StackAddr), checker.DstAddr(TestAddr))
return b
default:
return nil
}
}
// SendICMPPacket builds and sends an ICMPv4 packet via the link layer endpoint.
func (c *Context) SendICMPPacket(typ header.ICMPv4Type, code uint8, p1, p2 []byte, maxTotalSize int) {
// Allocate a buffer data and headers.
buf := buffer.NewView(header.IPv4MinimumSize + header.ICMPv4PayloadOffset + len(p1) + len(p2))
if len(buf) > maxTotalSize {
buf = buf[:maxTotalSize]
}
ip := header.IPv4(buf)
ip.Encode(&header.IPv4Fields{
IHL: header.IPv4MinimumSize,
TotalLength: uint16(len(buf)),
TTL: 65,
Protocol: uint8(header.ICMPv4ProtocolNumber),
SrcAddr: TestAddr,
DstAddr: StackAddr,
})
ip.SetChecksum(^ip.CalculateChecksum())
icmp := header.ICMPv4(buf[header.IPv4MinimumSize:])
icmp.SetType(typ)
icmp.SetCode(code)
copy(icmp[header.ICMPv4PayloadOffset:], p1)
copy(icmp[header.ICMPv4PayloadOffset+len(p1):], p2)
// Inject packet.
c.linkEP.Inject(ipv4.ProtocolNumber, buf.ToVectorisedView())
}
// BuildSegment builds a TCP segment based on the given Headers and payload.
func (c *Context) BuildSegment(payload []byte, h *Headers) buffer.VectorisedView {
// Allocate a buffer for data and headers.
buf := buffer.NewView(header.TCPMinimumSize + header.IPv4MinimumSize + len(h.TCPOpts) + len(payload))
copy(buf[len(buf)-len(payload):], payload)
copy(buf[len(buf)-len(payload)-len(h.TCPOpts):], h.TCPOpts)
// Initialize the IP header.
ip := header.IPv4(buf)
ip.Encode(&header.IPv4Fields{
IHL: header.IPv4MinimumSize,
TotalLength: uint16(len(buf)),
TTL: 65,
Protocol: uint8(tcp.ProtocolNumber),
SrcAddr: TestAddr,
DstAddr: StackAddr,
})
ip.SetChecksum(^ip.CalculateChecksum())
// Initialize the TCP header.
t := header.TCP(buf[header.IPv4MinimumSize:])
t.Encode(&header.TCPFields{
SrcPort: h.SrcPort,
DstPort: h.DstPort,
SeqNum: uint32(h.SeqNum),
AckNum: uint32(h.AckNum),
DataOffset: uint8(header.TCPMinimumSize + len(h.TCPOpts)),
Flags: uint8(h.Flags),
WindowSize: uint16(h.RcvWnd),
})
// Calculate the TCP pseudo-header checksum.
xsum := header.PseudoHeaderChecksum(tcp.ProtocolNumber, TestAddr, StackAddr, uint16(len(t)))
// Calculate the TCP checksum and set it.
xsum = header.Checksum(payload, xsum)
t.SetChecksum(^t.CalculateChecksum(xsum))
// Inject packet.
return buf.ToVectorisedView()
}
// SendSegment sends a TCP segment that has already been built and written to a
// buffer.VectorisedView.
func (c *Context) SendSegment(s buffer.VectorisedView) {
c.linkEP.Inject(ipv4.ProtocolNumber, s)
}
// SendPacket builds and sends a TCP segment(with the provided payload & TCP
// headers) in an IPv4 packet via the link layer endpoint.
func (c *Context) SendPacket(payload []byte, h *Headers) {
c.linkEP.Inject(ipv4.ProtocolNumber, c.BuildSegment(payload, h))
}
// SendAck sends an ACK packet.
func (c *Context) SendAck(seq seqnum.Value, bytesReceived int) {
c.SendAckWithSACK(seq, bytesReceived, nil)
}
// SendAckWithSACK sends an ACK packet which includes the sackBlocks specified.
func (c *Context) SendAckWithSACK(seq seqnum.Value, bytesReceived int, sackBlocks []header.SACKBlock) {
options := make([]byte, 40)
offset := 0
if len(sackBlocks) > 0 {
offset += header.EncodeNOP(options[offset:])
offset += header.EncodeNOP(options[offset:])
offset += header.EncodeSACKBlocks(sackBlocks, options[offset:])
}
c.SendPacket(nil, &Headers{
SrcPort: TestPort,
DstPort: c.Port,
Flags: header.TCPFlagAck,
SeqNum: seq,
AckNum: c.IRS.Add(1 + seqnum.Size(bytesReceived)),
RcvWnd: 30000,
TCPOpts: options[:offset],
})
}
// ReceiveAndCheckPacket reads a packet from the link layer endpoint and
// verifies that the packet packet payload of packet matches the slice
// of data indicated by offset & size.
func (c *Context) ReceiveAndCheckPacket(data []byte, offset, size int) {
c.ReceiveAndCheckPacketWithOptions(data, offset, size, 0)
}
// ReceiveAndCheckPacketWithOptions reads a packet from the link layer endpoint
// and verifies that the packet packet payload of packet matches the slice of
// data indicated by offset & size and skips optlen bytes in addition to the IP
// TCP headers when comparing the data.
func (c *Context) ReceiveAndCheckPacketWithOptions(data []byte, offset, size, optlen int) {
b := c.GetPacket()
checker.IPv4(c.t, b,
checker.PayloadLen(size+header.TCPMinimumSize+optlen),
checker.TCP(
checker.DstPort(TestPort),
checker.SeqNum(uint32(c.IRS.Add(seqnum.Size(1+offset)))),
checker.AckNum(uint32(seqnum.Value(testInitialSequenceNumber).Add(1))),
checker.TCPFlagsMatch(header.TCPFlagAck, ^uint8(header.TCPFlagPsh)),
),
)
pdata := data[offset:][:size]
if p := b[header.IPv4MinimumSize+header.TCPMinimumSize+optlen:]; bytes.Compare(pdata, p) != 0 {
c.t.Fatalf("Data is different: expected %v, got %v", pdata, p)
}
}
// ReceiveNonBlockingAndCheckPacket reads a packet from the link layer endpoint
// and verifies that the packet packet payload of packet matches the slice of
// data indicated by offset & size. It returns true if a packet was received and
// processed.
func (c *Context) ReceiveNonBlockingAndCheckPacket(data []byte, offset, size int) bool {
b := c.GetPacketNonBlocking()
if b == nil {
return false
}
checker.IPv4(c.t, b,
checker.PayloadLen(size+header.TCPMinimumSize),
checker.TCP(
checker.DstPort(TestPort),
checker.SeqNum(uint32(c.IRS.Add(seqnum.Size(1+offset)))),
checker.AckNum(uint32(seqnum.Value(testInitialSequenceNumber).Add(1))),
checker.TCPFlagsMatch(header.TCPFlagAck, ^uint8(header.TCPFlagPsh)),
),
)
pdata := data[offset:][:size]
if p := b[header.IPv4MinimumSize+header.TCPMinimumSize:]; bytes.Compare(pdata, p) != 0 {
c.t.Fatalf("Data is different: expected %v, got %v", pdata, p)
}
return true
}
// CreateV6Endpoint creates and initializes c.ep as a IPv6 Endpoint. If v6Only
// is true then it sets the IP_V6ONLY option on the socket to make it a IPv6
// only endpoint instead of a default dual stack socket.
func (c *Context) CreateV6Endpoint(v6only bool) {
var err *tcpip.Error
c.EP, err = c.s.NewEndpoint(tcp.ProtocolNumber, ipv6.ProtocolNumber, &c.WQ)
if err != nil {
c.t.Fatalf("NewEndpoint failed: %v", err)
}
var v tcpip.V6OnlyOption
if v6only {
v = 1
}
if err := c.EP.SetSockOpt(v); err != nil {
c.t.Fatalf("SetSockOpt failed failed: %v", err)
}
}
// GetV6Packet reads a single packet from the link layer endpoint of the context
// and asserts that it is an IPv6 Packet with the expected src/dest addresses.
func (c *Context) GetV6Packet() []byte {
select {
case p := <-c.linkEP.C:
if p.Proto != ipv6.ProtocolNumber {
c.t.Fatalf("Bad network protocol: got %v, wanted %v", p.Proto, ipv6.ProtocolNumber)
}
b := make([]byte, len(p.Header)+len(p.Payload))
copy(b, p.Header)
copy(b[len(p.Header):], p.Payload)
checker.IPv6(c.t, b, checker.SrcAddr(StackV6Addr), checker.DstAddr(TestV6Addr))
return b
case <-time.After(2 * time.Second):
c.t.Fatalf("Packet wasn't written out")
}
return nil
}
// SendV6Packet builds and sends an IPv6 Packet via the link layer endpoint of
// the context.
func (c *Context) SendV6Packet(payload []byte, h *Headers) {
// Allocate a buffer for data and headers.
buf := buffer.NewView(header.TCPMinimumSize + header.IPv6MinimumSize + len(payload))
copy(buf[len(buf)-len(payload):], payload)
// Initialize the IP header.
ip := header.IPv6(buf)
ip.Encode(&header.IPv6Fields{
PayloadLength: uint16(header.TCPMinimumSize + len(payload)),
NextHeader: uint8(tcp.ProtocolNumber),
HopLimit: 65,
SrcAddr: TestV6Addr,
DstAddr: StackV6Addr,
})
// Initialize the TCP header.
t := header.TCP(buf[header.IPv6MinimumSize:])
t.Encode(&header.TCPFields{
SrcPort: h.SrcPort,
DstPort: h.DstPort,
SeqNum: uint32(h.SeqNum),
AckNum: uint32(h.AckNum),
DataOffset: header.TCPMinimumSize,
Flags: uint8(h.Flags),
WindowSize: uint16(h.RcvWnd),
})
// Calculate the TCP pseudo-header checksum.
xsum := header.PseudoHeaderChecksum(tcp.ProtocolNumber, TestV6Addr, StackV6Addr, uint16(len(t)))
// Calculate the TCP checksum and set it.
xsum = header.Checksum(payload, xsum)
t.SetChecksum(^t.CalculateChecksum(xsum))
// Inject packet.
c.linkEP.Inject(ipv6.ProtocolNumber, buf.ToVectorisedView())
}
// CreateConnected creates a connected TCP endpoint.
func (c *Context) CreateConnected(iss seqnum.Value, rcvWnd seqnum.Size, epRcvBuf *tcpip.ReceiveBufferSizeOption) {
c.CreateConnectedWithRawOptions(iss, rcvWnd, epRcvBuf, nil)
}
// Connect performs the 3-way handshake for c.EP with the provided Initial
// Sequence Number (iss) and receive window(rcvWnd) and any options if
// specified.
//
// It also sets the receive buffer for the endpoint to the specified
// value in epRcvBuf.
//
// PreCondition: c.EP must already be created.
func (c *Context) Connect(iss seqnum.Value, rcvWnd seqnum.Size, options []byte) {
// Start connection attempt.
waitEntry, notifyCh := waiter.NewChannelEntry(nil)
c.WQ.EventRegister(&waitEntry, waiter.EventOut)
defer c.WQ.EventUnregister(&waitEntry)
if err := c.EP.Connect(tcpip.FullAddress{Addr: TestAddr, Port: TestPort}); err != tcpip.ErrConnectStarted {
c.t.Fatalf("Unexpected return value from Connect: %v", err)
}
// Receive SYN packet.
b := c.GetPacket()
checker.IPv4(c.t, b,
checker.TCP(
checker.DstPort(TestPort),
checker.TCPFlags(header.TCPFlagSyn),
),
)
if got, want := tcp.EndpointState(c.EP.State()), tcp.StateSynSent; got != want {
c.t.Fatalf("Unexpected endpoint state: want %v, got %v", want, got)
}
tcpHdr := header.TCP(header.IPv4(b).Payload())
c.IRS = seqnum.Value(tcpHdr.SequenceNumber())
c.SendPacket(nil, &Headers{
SrcPort: tcpHdr.DestinationPort(),
DstPort: tcpHdr.SourcePort(),
Flags: header.TCPFlagSyn | header.TCPFlagAck,
SeqNum: iss,
AckNum: c.IRS.Add(1),
RcvWnd: rcvWnd,
TCPOpts: options,
})
// Receive ACK packet.
checker.IPv4(c.t, c.GetPacket(),
checker.TCP(
checker.DstPort(TestPort),
checker.TCPFlags(header.TCPFlagAck),
checker.SeqNum(uint32(c.IRS)+1),
checker.AckNum(uint32(iss)+1),
),
)
// Wait for connection to be established.
select {
case <-notifyCh:
if err := c.EP.GetSockOpt(tcpip.ErrorOption{}); err != nil {
c.t.Fatalf("Unexpected error when connecting: %v", err)
}
case <-time.After(1 * time.Second):
c.t.Fatalf("Timed out waiting for connection")
}
if got, want := tcp.EndpointState(c.EP.State()), tcp.StateEstablished; got != want {
c.t.Fatalf("Unexpected endpoint state: want %v, got %v", want, got)
}
c.Port = tcpHdr.SourcePort()
}
// CreateConnectedWithRawOptions creates a connected TCP endpoint and sends
// the specified option bytes as the Option field in the initial SYN packet.
//
// It also sets the receive buffer for the endpoint to the specified
// value in epRcvBuf.
func (c *Context) CreateConnectedWithRawOptions(iss seqnum.Value, rcvWnd seqnum.Size, epRcvBuf *tcpip.ReceiveBufferSizeOption, options []byte) {
// Create TCP endpoint.
var err *tcpip.Error
c.EP, err = c.s.NewEndpoint(tcp.ProtocolNumber, ipv4.ProtocolNumber, &c.WQ)
if err != nil {
c.t.Fatalf("NewEndpoint failed: %v", err)
}
if epRcvBuf != nil {
if err := c.EP.SetSockOpt(*epRcvBuf); err != nil {
c.t.Fatalf("SetSockOpt failed failed: %v", err)
}
}
c.Connect(iss, rcvWnd, options)
}
// RawEndpoint is just a small wrapper around a TCP endpoint's state to make
// sending data and ACK packets easy while being able to manipulate the sequence
// numbers and timestamp values as needed.
type RawEndpoint struct {
C *Context
SrcPort uint16
DstPort uint16
Flags int
NextSeqNum seqnum.Value
AckNum seqnum.Value
WndSize seqnum.Size
RecentTS uint32 // Stores the latest timestamp to echo back.
TSVal uint32 // TSVal stores the last timestamp sent by this endpoint.
// SackPermitted is true if SACKPermitted option was negotiated for this endpoint.
SACKPermitted bool
}
// SendPacketWithTS embeds the provided tsVal in the Timestamp option
// for the packet to be sent out.
func (r *RawEndpoint) SendPacketWithTS(payload []byte, tsVal uint32) {
r.TSVal = tsVal
tsOpt := [12]byte{header.TCPOptionNOP, header.TCPOptionNOP}
header.EncodeTSOption(r.TSVal, r.RecentTS, tsOpt[2:])
r.SendPacket(payload, tsOpt[:])
}
// SendPacket is a small wrapper function to build and send packets.
func (r *RawEndpoint) SendPacket(payload []byte, opts []byte) {
packetHeaders := &Headers{
SrcPort: r.SrcPort,
DstPort: r.DstPort,
Flags: r.Flags,
SeqNum: r.NextSeqNum,
AckNum: r.AckNum,
RcvWnd: r.WndSize,
TCPOpts: opts,
}
r.C.SendPacket(payload, packetHeaders)
r.NextSeqNum = r.NextSeqNum.Add(seqnum.Size(len(payload)))
}
// VerifyACKWithTS verifies that the tsEcr field in the ack matches the provided
// tsVal.
func (r *RawEndpoint) VerifyACKWithTS(tsVal uint32) {
// Read ACK and verify that tsEcr of ACK packet is [1,2,3,4]
ackPacket := r.C.GetPacket()
checker.IPv4(r.C.t, ackPacket,
checker.TCP(
checker.DstPort(r.SrcPort),
checker.TCPFlags(header.TCPFlagAck),
checker.SeqNum(uint32(r.AckNum)),
checker.AckNum(uint32(r.NextSeqNum)),
checker.TCPTimestampChecker(true, 0, tsVal),
),
)
// Store the parsed TSVal from the ack as recentTS.
tcpSeg := header.TCP(header.IPv4(ackPacket).Payload())
opts := tcpSeg.ParsedOptions()
r.RecentTS = opts.TSVal
}
// VerifyACKRcvWnd verifies that the window advertised by the incoming ACK
// matches the provided rcvWnd.
func (r *RawEndpoint) VerifyACKRcvWnd(rcvWnd uint16) {
ackPacket := r.C.GetPacket()
checker.IPv4(r.C.t, ackPacket,
checker.TCP(
checker.DstPort(r.SrcPort),
checker.TCPFlags(header.TCPFlagAck),
checker.SeqNum(uint32(r.AckNum)),
checker.AckNum(uint32(r.NextSeqNum)),
checker.Window(rcvWnd),
),
)
}
// VerifyACKNoSACK verifies that the ACK does not contain a SACK block.
func (r *RawEndpoint) VerifyACKNoSACK() {
r.VerifyACKHasSACK(nil)
}
// VerifyACKHasSACK verifies that the ACK contains the specified SACKBlocks.
func (r *RawEndpoint) VerifyACKHasSACK(sackBlocks []header.SACKBlock) {
// Read ACK and verify that the TCP options in the segment do
// not contain a SACK block.
ackPacket := r.C.GetPacket()
checker.IPv4(r.C.t, ackPacket,
checker.TCP(
checker.DstPort(r.SrcPort),
checker.TCPFlags(header.TCPFlagAck),
checker.SeqNum(uint32(r.AckNum)),
checker.AckNum(uint32(r.NextSeqNum)),
checker.TCPSACKBlockChecker(sackBlocks),
),
)
}
// CreateConnectedWithOptions creates and connects c.ep with the specified TCP
// options enabled and returns a RawEndpoint which represents the other end of
// the connection.
//
// It also verifies where required(eg.Timestamp) that the ACK to the SYN-ACK
// does not carry an option that was not requested.
func (c *Context) CreateConnectedWithOptions(wantOptions header.TCPSynOptions) *RawEndpoint {
var err *tcpip.Error
c.EP, err = c.s.NewEndpoint(tcp.ProtocolNumber, ipv4.ProtocolNumber, &c.WQ)
if err != nil {
c.t.Fatalf("c.s.NewEndpoint(tcp, ipv4...) = %v", err)
}
if got, want := tcp.EndpointState(c.EP.State()), tcp.StateInitial; got != want {
c.t.Fatalf("Unexpected endpoint state: want %v, got %v", want, got)
}
// Start connection attempt.
waitEntry, notifyCh := waiter.NewChannelEntry(nil)
c.WQ.EventRegister(&waitEntry, waiter.EventOut)
defer c.WQ.EventUnregister(&waitEntry)
testFullAddr := tcpip.FullAddress{Addr: TestAddr, Port: TestPort}
err = c.EP.Connect(testFullAddr)
if err != tcpip.ErrConnectStarted {
c.t.Fatalf("c.ep.Connect(%v) = %v", testFullAddr, err)
}
// Receive SYN packet.
b := c.GetPacket()
// Validate that the syn has the timestamp option and a valid
// TS value.
mss := uint16(c.linkEP.MTU() - header.IPv4MinimumSize - header.TCPMinimumSize)
checker.IPv4(c.t, b,
checker.TCP(
checker.DstPort(TestPort),
checker.TCPFlags(header.TCPFlagSyn),
checker.TCPSynOptions(header.TCPSynOptions{
MSS: mss,
TS: true,
WS: int(c.WindowScale),
SACKPermitted: c.SACKEnabled(),
}),
),
)
if got, want := tcp.EndpointState(c.EP.State()), tcp.StateSynSent; got != want {
c.t.Fatalf("Unexpected endpoint state: want %v, got %v", want, got)
}
tcpSeg := header.TCP(header.IPv4(b).Payload())
synOptions := header.ParseSynOptions(tcpSeg.Options(), false)
// Build options w/ tsVal to be sent in the SYN-ACK.
synAckOptions := make([]byte, header.TCPOptionsMaximumSize)
offset := 0
if wantOptions.WS != -1 {
offset += header.EncodeWSOption(wantOptions.WS, synAckOptions[offset:])
}
if wantOptions.TS {
offset += header.EncodeTSOption(wantOptions.TSVal, synOptions.TSVal, synAckOptions[offset:])
}
if wantOptions.SACKPermitted {
offset += header.EncodeSACKPermittedOption(synAckOptions[offset:])
}
offset += header.AddTCPOptionPadding(synAckOptions, offset)
// Build SYN-ACK.
c.IRS = seqnum.Value(tcpSeg.SequenceNumber())
iss := seqnum.Value(testInitialSequenceNumber)
c.SendPacket(nil, &Headers{
SrcPort: tcpSeg.DestinationPort(),
DstPort: tcpSeg.SourcePort(),
Flags: header.TCPFlagSyn | header.TCPFlagAck,
SeqNum: iss,
AckNum: c.IRS.Add(1),
RcvWnd: 30000,
TCPOpts: synAckOptions[:offset],
})
// Read ACK.
ackPacket := c.GetPacket()
// Verify TCP header fields.
tcpCheckers := []checker.TransportChecker{
checker.DstPort(TestPort),
checker.TCPFlags(header.TCPFlagAck),
checker.SeqNum(uint32(c.IRS) + 1),
checker.AckNum(uint32(iss) + 1),
}
// Verify that tsEcr of ACK packet is wantOptions.TSVal if the
// timestamp option was enabled, if not then we verify that
// there is no timestamp in the ACK packet.
if wantOptions.TS {
tcpCheckers = append(tcpCheckers, checker.TCPTimestampChecker(true, 0, wantOptions.TSVal))
} else {
tcpCheckers = append(tcpCheckers, checker.TCPTimestampChecker(false, 0, 0))
}
checker.IPv4(c.t, ackPacket, checker.TCP(tcpCheckers...))
ackSeg := header.TCP(header.IPv4(ackPacket).Payload())
ackOptions := ackSeg.ParsedOptions()
// Wait for connection to be established.
select {
case <-notifyCh:
err = c.EP.GetSockOpt(tcpip.ErrorOption{})
if err != nil {
c.t.Fatalf("Unexpected error when connecting: %v", err)
}
case <-time.After(1 * time.Second):
c.t.Fatalf("Timed out waiting for connection")
}
if got, want := tcp.EndpointState(c.EP.State()), tcp.StateEstablished; got != want {
c.t.Fatalf("Unexpected endpoint state: want %v, got %v", want, got)
}
// Store the source port in use by the endpoint.
c.Port = tcpSeg.SourcePort()
// Mark in context that timestamp option is enabled for this endpoint.
c.TimeStampEnabled = true
return &RawEndpoint{
C: c,
SrcPort: tcpSeg.DestinationPort(),
DstPort: tcpSeg.SourcePort(),
Flags: header.TCPFlagAck | header.TCPFlagPsh,
NextSeqNum: iss + 1,
AckNum: c.IRS.Add(1),
WndSize: 30000,
RecentTS: ackOptions.TSVal,
TSVal: wantOptions.TSVal,
SACKPermitted: wantOptions.SACKPermitted,
}
}
// AcceptWithOptions initializes a listening endpoint and connects to it with the
// provided options enabled. It also verifies that the SYN-ACK has the expected
// values for the provided options.
//
// The function returns a RawEndpoint representing the other end of the accepted
// endpoint.
func (c *Context) AcceptWithOptions(wndScale int, synOptions header.TCPSynOptions) *RawEndpoint {
// Create EP and start listening.
wq := &waiter.Queue{}
ep, err := c.s.NewEndpoint(tcp.ProtocolNumber, ipv4.ProtocolNumber, wq)
if err != nil {
c.t.Fatalf("NewEndpoint failed: %v", err)
}
defer ep.Close()
if err := ep.Bind(tcpip.FullAddress{Port: StackPort}); err != nil {
c.t.Fatalf("Bind failed: %v", err)
}
if got, want := tcp.EndpointState(ep.State()), tcp.StateBound; got != want {
c.t.Errorf("Unexpected endpoint state: want %v, got %v", want, got)
}
if err := ep.Listen(10); err != nil {
c.t.Fatalf("Listen failed: %v", err)
}
if got, want := tcp.EndpointState(ep.State()), tcp.StateListen; got != want {
c.t.Errorf("Unexpected endpoint state: want %v, got %v", want, got)
}
rep := c.PassiveConnectWithOptions(100, wndScale, synOptions)
// Try to accept the connection.
we, ch := waiter.NewChannelEntry(nil)
wq.EventRegister(&we, waiter.EventIn)
defer wq.EventUnregister(&we)
c.EP, _, err = ep.Accept()
if err == tcpip.ErrWouldBlock {
// Wait for connection to be established.
select {
case <-ch:
c.EP, _, err = ep.Accept()
if err != nil {
c.t.Fatalf("Accept failed: %v", err)
}
case <-time.After(1 * time.Second):
c.t.Fatalf("Timed out waiting for accept")
}
}
if got, want := tcp.EndpointState(c.EP.State()), tcp.StateEstablished; got != want {
c.t.Errorf("Unexpected endpoint state: want %v, got %v", want, got)
}
return rep
}
// PassiveConnect just disables WindowScaling and delegates the call to
// PassiveConnectWithOptions.
func (c *Context) PassiveConnect(maxPayload, wndScale int, synOptions header.TCPSynOptions) {
synOptions.WS = -1
c.PassiveConnectWithOptions(maxPayload, wndScale, synOptions)
}
// PassiveConnectWithOptions initiates a new connection (with the specified TCP
// options enabled) to the port on which the Context.ep is listening for new
// connections. It also validates that the SYN-ACK has the expected values for
// the enabled options.
//
// NOTE: MSS is not a negotiated option and it can be asymmetric
// in each direction. This function uses the maxPayload to set the MSS to be
// sent to the peer on a connect and validates that the MSS in the SYN-ACK
// response is equal to the MTU - (tcphdr len + iphdr len).
//
// wndScale is the expected window scale in the SYN-ACK and synOptions.WS is the
// value of the window scaling option to be sent in the SYN. If synOptions.WS >
// 0 then we send the WindowScale option.
func (c *Context) PassiveConnectWithOptions(maxPayload, wndScale int, synOptions header.TCPSynOptions) *RawEndpoint {
opts := make([]byte, header.TCPOptionsMaximumSize)
offset := 0
offset += header.EncodeMSSOption(uint32(maxPayload), opts)
if synOptions.WS >= 0 {
offset += header.EncodeWSOption(3, opts[offset:])
}
if synOptions.TS {
offset += header.EncodeTSOption(synOptions.TSVal, synOptions.TSEcr, opts[offset:])
}
if synOptions.SACKPermitted {
offset += header.EncodeSACKPermittedOption(opts[offset:])
}
paddingToAdd := 4 - offset%4
// Now add any padding bytes that might be required to quad align the
// options.
for i := offset; i < offset+paddingToAdd; i++ {
opts[i] = header.TCPOptionNOP
}
offset += paddingToAdd
// Send a SYN request.
iss := seqnum.Value(testInitialSequenceNumber)
c.SendPacket(nil, &Headers{
SrcPort: TestPort,
DstPort: StackPort,
Flags: header.TCPFlagSyn,
SeqNum: iss,
RcvWnd: 30000,
TCPOpts: opts[:offset],
})
// Receive the SYN-ACK reply. Make sure MSS and other expected options
// are present.
b := c.GetPacket()
tcp := header.TCP(header.IPv4(b).Payload())
c.IRS = seqnum.Value(tcp.SequenceNumber())
tcpCheckers := []checker.TransportChecker{
checker.SrcPort(StackPort),
checker.DstPort(TestPort),
checker.TCPFlags(header.TCPFlagAck | header.TCPFlagSyn),
checker.AckNum(uint32(iss) + 1),
checker.TCPSynOptions(header.TCPSynOptions{MSS: synOptions.MSS, WS: wndScale, SACKPermitted: synOptions.SACKPermitted && c.SACKEnabled()}),
}
// If TS option was enabled in the original SYN then add a checker to
// validate the Timestamp option in the SYN-ACK.
if synOptions.TS {
tcpCheckers = append(tcpCheckers, checker.TCPTimestampChecker(synOptions.TS, 0, synOptions.TSVal))
} else {
tcpCheckers = append(tcpCheckers, checker.TCPTimestampChecker(false, 0, 0))
}
checker.IPv4(c.t, b, checker.TCP(tcpCheckers...))
rcvWnd := seqnum.Size(30000)
ackHeaders := &Headers{
SrcPort: TestPort,
DstPort: StackPort,
Flags: header.TCPFlagAck,
SeqNum: iss + 1,
AckNum: c.IRS + 1,
RcvWnd: rcvWnd,
}
// If WS was expected to be in effect then scale the advertised window
// correspondingly.
if synOptions.WS > 0 {
ackHeaders.RcvWnd = rcvWnd >> byte(synOptions.WS)
}
parsedOpts := tcp.ParsedOptions()
if synOptions.TS {
// Echo the tsVal back to the peer in the tsEcr field of the
// timestamp option.
// Increment TSVal by 1 from the value sent in the SYN and echo
// the TSVal in the SYN-ACK in the TSEcr field.
opts := [12]byte{header.TCPOptionNOP, header.TCPOptionNOP}
header.EncodeTSOption(synOptions.TSVal+1, parsedOpts.TSVal, opts[2:])
ackHeaders.TCPOpts = opts[:]
}
// Send ACK.
c.SendPacket(nil, ackHeaders)
c.Port = StackPort
return &RawEndpoint{
C: c,
SrcPort: TestPort,
DstPort: StackPort,
Flags: header.TCPFlagPsh | header.TCPFlagAck,
NextSeqNum: iss + 1,
AckNum: c.IRS + 1,
WndSize: rcvWnd,
SACKPermitted: synOptions.SACKPermitted && c.SACKEnabled(),
RecentTS: parsedOpts.TSVal,
TSVal: synOptions.TSVal + 1,
}
}
// SACKEnabled returns true if the TCP Protocol option SACKEnabled is set to true
// for the Stack in the context.
func (c *Context) SACKEnabled() bool {
var v tcp.SACKEnabled
if err := c.Stack().TransportProtocolOption(tcp.ProtocolNumber, &v); err != nil {
// Stack doesn't support SACK. So just return.
return false
}
return bool(v)
}
// SetGSOEnabled enables or disables generic segmentation offload.
func (c *Context) SetGSOEnabled(enable bool) {
c.linkEP.GSO = enable
}
// MSSWithoutOptions returns the value for the MSS used by the stack when no
// options are in use.
func (c *Context) MSSWithoutOptions() uint16 {
return uint16(c.linkEP.MTU() - header.IPv4MinimumSize - header.TCPMinimumSize)
}
|