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utls/handshake_messages_test.go
Russ Cox 503cd752b4 all: gofmt -w -r 'interface{} -> any' src 
And then revert the bootstrap cmd directories and certain testdata.
And adjust tests as needed.

Not reverting the changes in std that are bootstrapped,
because some of those changes would appear in API docs,
and we want to use any consistently.
Instead, rewrite 'any' to 'interface{}' in cmd/dist for those directories
when preparing the bootstrap copy.

A few files changed as a result of running gofmt -w
not because of interface{} -> any but because they
hadn't been updated for the new //go:build lines.

Fixes #49884.

Change-Id: Ie8045cba995f65bd79c694ec77a1b3d1fe01bb09
Reviewed-on: https://go-review.googlesource.com/c/go/+/368254
Trust: Russ Cox <rsc@golang.org>
Run-TryBot: Russ Cox <rsc@golang.org>
Reviewed-by: Robert Griesemer <gri@golang.org>
TryBot-Result: Gopher Robot <gobot@golang.org>
2021-12-13 18:45:54 +00:00

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// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package tls
import (
"bytes"
"math/rand"
"reflect"
"strings"
"testing"
"testing/quick"
"time"
)
var tests = []any{
&clientHelloMsg{},
&serverHelloMsg{},
&finishedMsg{},
&certificateMsg{},
&certificateRequestMsg{},
&certificateVerifyMsg{
hasSignatureAlgorithm: true,
},
&certificateStatusMsg{},
&clientKeyExchangeMsg{},
&newSessionTicketMsg{},
&sessionState{},
&sessionStateTLS13{},
&encryptedExtensionsMsg{},
&endOfEarlyDataMsg{},
&keyUpdateMsg{},
&newSessionTicketMsgTLS13{},
&certificateRequestMsgTLS13{},
&certificateMsgTLS13{},
}
func TestMarshalUnmarshal(t *testing.T) {
rand := rand.New(rand.NewSource(time.Now().UnixNano()))
for i, iface := range tests {
ty := reflect.ValueOf(iface).Type()
n := 100
if testing.Short() {
n = 5
}
for j := 0; j < n; j++ {
v, ok := quick.Value(ty, rand)
if !ok {
t.Errorf("#%d: failed to create value", i)
break
}
m1 := v.Interface().(handshakeMessage)
marshaled := m1.marshal()
m2 := iface.(handshakeMessage)
if !m2.unmarshal(marshaled) {
t.Errorf("#%d failed to unmarshal %#v %x", i, m1, marshaled)
break
}
m2.marshal() // to fill any marshal cache in the message
if !reflect.DeepEqual(m1, m2) {
t.Errorf("#%d got:%#v want:%#v %x", i, m2, m1, marshaled)
break
}
if i >= 3 {
// The first three message types (ClientHello,
// ServerHello and Finished) are allowed to
// have parsable prefixes because the extension
// data is optional and the length of the
// Finished varies across versions.
for j := 0; j < len(marshaled); j++ {
if m2.unmarshal(marshaled[0:j]) {
t.Errorf("#%d unmarshaled a prefix of length %d of %#v", i, j, m1)
break
}
}
}
}
}
}
func TestFuzz(t *testing.T) {
rand := rand.New(rand.NewSource(0))
for _, iface := range tests {
m := iface.(handshakeMessage)
for j := 0; j < 1000; j++ {
len := rand.Intn(100)
bytes := randomBytes(len, rand)
// This just looks for crashes due to bounds errors etc.
m.unmarshal(bytes)
}
}
}
func randomBytes(n int, rand *rand.Rand) []byte {
r := make([]byte, n)
if _, err := rand.Read(r); err != nil {
panic("rand.Read failed: " + err.Error())
}
return r
}
func randomString(n int, rand *rand.Rand) string {
b := randomBytes(n, rand)
return string(b)
}
func (*clientHelloMsg) Generate(rand *rand.Rand, size int) reflect.Value {
m := &clientHelloMsg{}
m.vers = uint16(rand.Intn(65536))
m.random = randomBytes(32, rand)
m.sessionId = randomBytes(rand.Intn(32), rand)
m.cipherSuites = make([]uint16, rand.Intn(63)+1)
for i := 0; i < len(m.cipherSuites); i++ {
cs := uint16(rand.Int31())
if cs == scsvRenegotiation {
cs += 1
}
m.cipherSuites[i] = cs
}
m.compressionMethods = randomBytes(rand.Intn(63)+1, rand)
if rand.Intn(10) > 5 {
m.serverName = randomString(rand.Intn(255), rand)
for strings.HasSuffix(m.serverName, ".") {
m.serverName = m.serverName[:len(m.serverName)-1]
}
}
m.ocspStapling = rand.Intn(10) > 5
m.supportedPoints = randomBytes(rand.Intn(5)+1, rand)
m.supportedCurves = make([]CurveID, rand.Intn(5)+1)
for i := range m.supportedCurves {
m.supportedCurves[i] = CurveID(rand.Intn(30000) + 1)
}
if rand.Intn(10) > 5 {
m.ticketSupported = true
if rand.Intn(10) > 5 {
m.sessionTicket = randomBytes(rand.Intn(300), rand)
} else {
m.sessionTicket = make([]byte, 0)
}
}
if rand.Intn(10) > 5 {
m.supportedSignatureAlgorithms = supportedSignatureAlgorithms
}
if rand.Intn(10) > 5 {
m.supportedSignatureAlgorithmsCert = supportedSignatureAlgorithms
}
for i := 0; i < rand.Intn(5); i++ {
m.alpnProtocols = append(m.alpnProtocols, randomString(rand.Intn(20)+1, rand))
}
if rand.Intn(10) > 5 {
m.scts = true
}
if rand.Intn(10) > 5 {
m.secureRenegotiationSupported = true
m.secureRenegotiation = randomBytes(rand.Intn(50)+1, rand)
}
for i := 0; i < rand.Intn(5); i++ {
m.supportedVersions = append(m.supportedVersions, uint16(rand.Intn(0xffff)+1))
}
if rand.Intn(10) > 5 {
m.cookie = randomBytes(rand.Intn(500)+1, rand)
}
for i := 0; i < rand.Intn(5); i++ {
var ks keyShare
ks.group = CurveID(rand.Intn(30000) + 1)
ks.data = randomBytes(rand.Intn(200)+1, rand)
m.keyShares = append(m.keyShares, ks)
}
switch rand.Intn(3) {
case 1:
m.pskModes = []uint8{pskModeDHE}
case 2:
m.pskModes = []uint8{pskModeDHE, pskModePlain}
}
for i := 0; i < rand.Intn(5); i++ {
var psk pskIdentity
psk.obfuscatedTicketAge = uint32(rand.Intn(500000))
psk.label = randomBytes(rand.Intn(500)+1, rand)
m.pskIdentities = append(m.pskIdentities, psk)
m.pskBinders = append(m.pskBinders, randomBytes(rand.Intn(50)+32, rand))
}
if rand.Intn(10) > 5 {
m.earlyData = true
}
return reflect.ValueOf(m)
}
func (*serverHelloMsg) Generate(rand *rand.Rand, size int) reflect.Value {
m := &serverHelloMsg{}
m.vers = uint16(rand.Intn(65536))
m.random = randomBytes(32, rand)
m.sessionId = randomBytes(rand.Intn(32), rand)
m.cipherSuite = uint16(rand.Int31())
m.compressionMethod = uint8(rand.Intn(256))
m.supportedPoints = randomBytes(rand.Intn(5)+1, rand)
if rand.Intn(10) > 5 {
m.ocspStapling = true
}
if rand.Intn(10) > 5 {
m.ticketSupported = true
}
if rand.Intn(10) > 5 {
m.alpnProtocol = randomString(rand.Intn(32)+1, rand)
}
for i := 0; i < rand.Intn(4); i++ {
m.scts = append(m.scts, randomBytes(rand.Intn(500)+1, rand))
}
if rand.Intn(10) > 5 {
m.secureRenegotiationSupported = true
m.secureRenegotiation = randomBytes(rand.Intn(50)+1, rand)
}
if rand.Intn(10) > 5 {
m.supportedVersion = uint16(rand.Intn(0xffff) + 1)
}
if rand.Intn(10) > 5 {
m.cookie = randomBytes(rand.Intn(500)+1, rand)
}
if rand.Intn(10) > 5 {
for i := 0; i < rand.Intn(5); i++ {
m.serverShare.group = CurveID(rand.Intn(30000) + 1)
m.serverShare.data = randomBytes(rand.Intn(200)+1, rand)
}
} else if rand.Intn(10) > 5 {
m.selectedGroup = CurveID(rand.Intn(30000) + 1)
}
if rand.Intn(10) > 5 {
m.selectedIdentityPresent = true
m.selectedIdentity = uint16(rand.Intn(0xffff))
}
return reflect.ValueOf(m)
}
func (*encryptedExtensionsMsg) Generate(rand *rand.Rand, size int) reflect.Value {
m := &encryptedExtensionsMsg{}
if rand.Intn(10) > 5 {
m.alpnProtocol = randomString(rand.Intn(32)+1, rand)
}
return reflect.ValueOf(m)
}
func (*certificateMsg) Generate(rand *rand.Rand, size int) reflect.Value {
m := &certificateMsg{}
numCerts := rand.Intn(20)
m.certificates = make([][]byte, numCerts)
for i := 0; i < numCerts; i++ {
m.certificates[i] = randomBytes(rand.Intn(10)+1, rand)
}
return reflect.ValueOf(m)
}
func (*certificateRequestMsg) Generate(rand *rand.Rand, size int) reflect.Value {
m := &certificateRequestMsg{}
m.certificateTypes = randomBytes(rand.Intn(5)+1, rand)
for i := 0; i < rand.Intn(100); i++ {
m.certificateAuthorities = append(m.certificateAuthorities, randomBytes(rand.Intn(15)+1, rand))
}
return reflect.ValueOf(m)
}
func (*certificateVerifyMsg) Generate(rand *rand.Rand, size int) reflect.Value {
m := &certificateVerifyMsg{}
m.hasSignatureAlgorithm = true
m.signatureAlgorithm = SignatureScheme(rand.Intn(30000))
m.signature = randomBytes(rand.Intn(15)+1, rand)
return reflect.ValueOf(m)
}
func (*certificateStatusMsg) Generate(rand *rand.Rand, size int) reflect.Value {
m := &certificateStatusMsg{}
m.response = randomBytes(rand.Intn(10)+1, rand)
return reflect.ValueOf(m)
}
func (*clientKeyExchangeMsg) Generate(rand *rand.Rand, size int) reflect.Value {
m := &clientKeyExchangeMsg{}
m.ciphertext = randomBytes(rand.Intn(1000)+1, rand)
return reflect.ValueOf(m)
}
func (*finishedMsg) Generate(rand *rand.Rand, size int) reflect.Value {
m := &finishedMsg{}
m.verifyData = randomBytes(12, rand)
return reflect.ValueOf(m)
}
func (*newSessionTicketMsg) Generate(rand *rand.Rand, size int) reflect.Value {
m := &newSessionTicketMsg{}
m.ticket = randomBytes(rand.Intn(4), rand)
return reflect.ValueOf(m)
}
func (*sessionState) Generate(rand *rand.Rand, size int) reflect.Value {
s := &sessionState{}
s.vers = uint16(rand.Intn(10000))
s.cipherSuite = uint16(rand.Intn(10000))
s.masterSecret = randomBytes(rand.Intn(100)+1, rand)
s.createdAt = uint64(rand.Int63())
for i := 0; i < rand.Intn(20); i++ {
s.certificates = append(s.certificates, randomBytes(rand.Intn(500)+1, rand))
}
return reflect.ValueOf(s)
}
func (*sessionStateTLS13) Generate(rand *rand.Rand, size int) reflect.Value {
s := &sessionStateTLS13{}
s.cipherSuite = uint16(rand.Intn(10000))
s.resumptionSecret = randomBytes(rand.Intn(100)+1, rand)
s.createdAt = uint64(rand.Int63())
for i := 0; i < rand.Intn(2)+1; i++ {
s.certificate.Certificate = append(
s.certificate.Certificate, randomBytes(rand.Intn(500)+1, rand))
}
if rand.Intn(10) > 5 {
s.certificate.OCSPStaple = randomBytes(rand.Intn(100)+1, rand)
}
if rand.Intn(10) > 5 {
for i := 0; i < rand.Intn(2)+1; i++ {
s.certificate.SignedCertificateTimestamps = append(
s.certificate.SignedCertificateTimestamps, randomBytes(rand.Intn(500)+1, rand))
}
}
return reflect.ValueOf(s)
}
func (*endOfEarlyDataMsg) Generate(rand *rand.Rand, size int) reflect.Value {
m := &endOfEarlyDataMsg{}
return reflect.ValueOf(m)
}
func (*keyUpdateMsg) Generate(rand *rand.Rand, size int) reflect.Value {
m := &keyUpdateMsg{}
m.updateRequested = rand.Intn(10) > 5
return reflect.ValueOf(m)
}
func (*newSessionTicketMsgTLS13) Generate(rand *rand.Rand, size int) reflect.Value {
m := &newSessionTicketMsgTLS13{}
m.lifetime = uint32(rand.Intn(500000))
m.ageAdd = uint32(rand.Intn(500000))
m.nonce = randomBytes(rand.Intn(100), rand)
m.label = randomBytes(rand.Intn(1000), rand)
if rand.Intn(10) > 5 {
m.maxEarlyData = uint32(rand.Intn(500000))
}
return reflect.ValueOf(m)
}
func (*certificateRequestMsgTLS13) Generate(rand *rand.Rand, size int) reflect.Value {
m := &certificateRequestMsgTLS13{}
if rand.Intn(10) > 5 {
m.ocspStapling = true
}
if rand.Intn(10) > 5 {
m.scts = true
}
if rand.Intn(10) > 5 {
m.supportedSignatureAlgorithms = supportedSignatureAlgorithms
}
if rand.Intn(10) > 5 {
m.supportedSignatureAlgorithmsCert = supportedSignatureAlgorithms
}
if rand.Intn(10) > 5 {
m.certificateAuthorities = make([][]byte, 3)
for i := 0; i < 3; i++ {
m.certificateAuthorities[i] = randomBytes(rand.Intn(10)+1, rand)
}
}
return reflect.ValueOf(m)
}
func (*certificateMsgTLS13) Generate(rand *rand.Rand, size int) reflect.Value {
m := &certificateMsgTLS13{}
for i := 0; i < rand.Intn(2)+1; i++ {
m.certificate.Certificate = append(
m.certificate.Certificate, randomBytes(rand.Intn(500)+1, rand))
}
if rand.Intn(10) > 5 {
m.ocspStapling = true
m.certificate.OCSPStaple = randomBytes(rand.Intn(100)+1, rand)
}
if rand.Intn(10) > 5 {
m.scts = true
for i := 0; i < rand.Intn(2)+1; i++ {
m.certificate.SignedCertificateTimestamps = append(
m.certificate.SignedCertificateTimestamps, randomBytes(rand.Intn(500)+1, rand))
}
}
return reflect.ValueOf(m)
}
func TestRejectEmptySCTList(t *testing.T) {
// RFC 6962, Section 3.3.1 specifies that empty SCT lists are invalid.
var random [32]byte
sct := []byte{0x42, 0x42, 0x42, 0x42}
serverHello := serverHelloMsg{
vers: VersionTLS12,
random: random[:],
scts: [][]byte{sct},
}
serverHelloBytes := serverHello.marshal()
var serverHelloCopy serverHelloMsg
if !serverHelloCopy.unmarshal(serverHelloBytes) {
t.Fatal("Failed to unmarshal initial message")
}
// Change serverHelloBytes so that the SCT list is empty
i := bytes.Index(serverHelloBytes, sct)
if i < 0 {
t.Fatal("Cannot find SCT in ServerHello")
}
var serverHelloEmptySCT []byte
serverHelloEmptySCT = append(serverHelloEmptySCT, serverHelloBytes[:i-6]...)
// Append the extension length and SCT list length for an empty list.
serverHelloEmptySCT = append(serverHelloEmptySCT, []byte{0, 2, 0, 0}...)
serverHelloEmptySCT = append(serverHelloEmptySCT, serverHelloBytes[i+4:]...)
// Update the handshake message length.
serverHelloEmptySCT[1] = byte((len(serverHelloEmptySCT) - 4) >> 16)
serverHelloEmptySCT[2] = byte((len(serverHelloEmptySCT) - 4) >> 8)
serverHelloEmptySCT[3] = byte(len(serverHelloEmptySCT) - 4)
// Update the extensions length
serverHelloEmptySCT[42] = byte((len(serverHelloEmptySCT) - 44) >> 8)
serverHelloEmptySCT[43] = byte((len(serverHelloEmptySCT) - 44))
if serverHelloCopy.unmarshal(serverHelloEmptySCT) {
t.Fatal("Unmarshaled ServerHello with empty SCT list")
}
}
func TestRejectEmptySCT(t *testing.T) {
// Not only must the SCT list be non-empty, but the SCT elements must
// not be zero length.
var random [32]byte
serverHello := serverHelloMsg{
vers: VersionTLS12,
random: random[:],
scts: [][]byte{nil},
}
serverHelloBytes := serverHello.marshal()
var serverHelloCopy serverHelloMsg
if serverHelloCopy.unmarshal(serverHelloBytes) {
t.Fatal("Unmarshaled ServerHello with zero-length SCT")
}
}
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