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07b6287f24
th5/handshake_messages.go
Adam Langley 07b6287f24 crypto/tls: allow renegotiation to be handled by a client. 
This change adds Config.Renegotiation which controls whether a TLS
client will accept renegotiation requests from a server. This is used,
for example, by some web servers that wish to “add” a client certificate
to an HTTPS connection.

This is disabled by default because it significantly complicates the
state machine.

Originally, handshakeMutex was taken before locking either Conn.in or
Conn.out. However, if renegotiation is permitted then a handshake may
be triggered during a Read() call. If Conn.in were unlocked before
taking handshakeMutex then a concurrent Read() call could see an
intermediate state and trigger an error. Thus handshakeMutex is now
locked after Conn.in and the handshake functions assume that Conn.in is
locked for the duration of the handshake.

Additionally, handshakeMutex used to protect Conn.out also. With the
possibility of renegotiation that's no longer viable and so
writeRecordLocked has been split off.

Fixes #5742.

Change-Id: I935914db1f185d507ff39bba8274c148d756a1c8
Reviewed-on: https://go-review.googlesource.com/22475
Run-TryBot: Adam Langley <agl@golang.org>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Russ Cox <rsc@golang.org>
2016-04-28 17:56:28 +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"
type clientHelloMsg struct {
raw []byte
vers uint16
random []byte
sessionId []byte
cipherSuites []uint16
compressionMethods []uint8
nextProtoNeg bool
serverName string
ocspStapling bool
scts bool
supportedCurves []CurveID
supportedPoints []uint8
ticketSupported bool
sessionTicket []uint8
signatureAndHashes []signatureAndHash
secureRenegotiation []byte
secureRenegotiationSupported bool
alpnProtocols []string
}
func (m *clientHelloMsg) equal(i interface{}) bool {
m1, ok := i.(*clientHelloMsg)
if !ok {
return false
}
return bytes.Equal(m.raw, m1.raw) &&
m.vers == m1.vers &&
bytes.Equal(m.random, m1.random) &&
bytes.Equal(m.sessionId, m1.sessionId) &&
eqUint16s(m.cipherSuites, m1.cipherSuites) &&
bytes.Equal(m.compressionMethods, m1.compressionMethods) &&
m.nextProtoNeg == m1.nextProtoNeg &&
m.serverName == m1.serverName &&
m.ocspStapling == m1.ocspStapling &&
m.scts == m1.scts &&
eqCurveIDs(m.supportedCurves, m1.supportedCurves) &&
bytes.Equal(m.supportedPoints, m1.supportedPoints) &&
m.ticketSupported == m1.ticketSupported &&
bytes.Equal(m.sessionTicket, m1.sessionTicket) &&
eqSignatureAndHashes(m.signatureAndHashes, m1.signatureAndHashes) &&
m.secureRenegotiationSupported == m1.secureRenegotiationSupported &&
bytes.Equal(m.secureRenegotiation, m1.secureRenegotiation) &&
eqStrings(m.alpnProtocols, m1.alpnProtocols)
}
func (m *clientHelloMsg) marshal() []byte {
if m.raw != nil {
return m.raw
}
length := 2 + 32 + 1 + len(m.sessionId) + 2 + len(m.cipherSuites)*2 + 1 + len(m.compressionMethods)
numExtensions := 0
extensionsLength := 0
if m.nextProtoNeg {
numExtensions++
}
if m.ocspStapling {
extensionsLength += 1 + 2 + 2
numExtensions++
}
if len(m.serverName) > 0 {
extensionsLength += 5 + len(m.serverName)
numExtensions++
}
if len(m.supportedCurves) > 0 {
extensionsLength += 2 + 2*len(m.supportedCurves)
numExtensions++
}
if len(m.supportedPoints) > 0 {
extensionsLength += 1 + len(m.supportedPoints)
numExtensions++
}
if m.ticketSupported {
extensionsLength += len(m.sessionTicket)
numExtensions++
}
if len(m.signatureAndHashes) > 0 {
extensionsLength += 2 + 2*len(m.signatureAndHashes)
numExtensions++
}
if m.secureRenegotiationSupported {
extensionsLength += 1 + len(m.secureRenegotiation)
numExtensions++
}
if len(m.alpnProtocols) > 0 {
extensionsLength += 2
for _, s := range m.alpnProtocols {
if l := len(s); l == 0 || l > 255 {
panic("invalid ALPN protocol")
}
extensionsLength++
extensionsLength += len(s)
}
numExtensions++
}
if m.scts {
numExtensions++
}
if numExtensions > 0 {
extensionsLength += 4 * numExtensions
length += 2 + extensionsLength
}
x := make([]byte, 4+length)
x[0] = typeClientHello
x[1] = uint8(length >> 16)
x[2] = uint8(length >> 8)
x[3] = uint8(length)
x[4] = uint8(m.vers >> 8)
x[5] = uint8(m.vers)
copy(x[6:38], m.random)
x[38] = uint8(len(m.sessionId))
copy(x[39:39+len(m.sessionId)], m.sessionId)
y := x[39+len(m.sessionId):]
y[0] = uint8(len(m.cipherSuites) >> 7)
y[1] = uint8(len(m.cipherSuites) << 1)
for i, suite := range m.cipherSuites {
y[2+i*2] = uint8(suite >> 8)
y[3+i*2] = uint8(suite)
}
z := y[2+len(m.cipherSuites)*2:]
z[0] = uint8(len(m.compressionMethods))
copy(z[1:], m.compressionMethods)
z = z[1+len(m.compressionMethods):]
if numExtensions > 0 {
z[0] = byte(extensionsLength >> 8)
z[1] = byte(extensionsLength)
z = z[2:]
}
if m.nextProtoNeg {
z[0] = byte(extensionNextProtoNeg >> 8)
z[1] = byte(extensionNextProtoNeg & 0xff)
// The length is always 0
z = z[4:]
}
if len(m.serverName) > 0 {
z[0] = byte(extensionServerName >> 8)
z[1] = byte(extensionServerName & 0xff)
l := len(m.serverName) + 5
z[2] = byte(l >> 8)
z[3] = byte(l)
z = z[4:]
// RFC 3546, section 3.1
//
// struct {
// NameType name_type;
// select (name_type) {
// case host_name: HostName;
// } name;
// } ServerName;
//
// enum {
// host_name(0), (255)
// } NameType;
//
// opaque HostName<1..2^16-1>;
//
// struct {
// ServerName server_name_list<1..2^16-1>
// } ServerNameList;
z[0] = byte((len(m.serverName) + 3) >> 8)
z[1] = byte(len(m.serverName) + 3)
z[3] = byte(len(m.serverName) >> 8)
z[4] = byte(len(m.serverName))
copy(z[5:], []byte(m.serverName))
z = z[l:]
}
if m.ocspStapling {
// RFC 4366, section 3.6
z[0] = byte(extensionStatusRequest >> 8)
z[1] = byte(extensionStatusRequest)
z[2] = 0
z[3] = 5
z[4] = 1 // OCSP type
// Two zero valued uint16s for the two lengths.
z = z[9:]
}
if len(m.supportedCurves) > 0 {
// http://tools.ietf.org/html/rfc4492#section-5.5.1
z[0] = byte(extensionSupportedCurves >> 8)
z[1] = byte(extensionSupportedCurves)
l := 2 + 2*len(m.supportedCurves)
z[2] = byte(l >> 8)
z[3] = byte(l)
l -= 2
z[4] = byte(l >> 8)
z[5] = byte(l)
z = z[6:]
for _, curve := range m.supportedCurves {
z[0] = byte(curve >> 8)
z[1] = byte(curve)
z = z[2:]
}
}
if len(m.supportedPoints) > 0 {
// http://tools.ietf.org/html/rfc4492#section-5.5.2
z[0] = byte(extensionSupportedPoints >> 8)
z[1] = byte(extensionSupportedPoints)
l := 1 + len(m.supportedPoints)
z[2] = byte(l >> 8)
z[3] = byte(l)
l--
z[4] = byte(l)
z = z[5:]
for _, pointFormat := range m.supportedPoints {
z[0] = pointFormat
z = z[1:]
}
}
if m.ticketSupported {
// http://tools.ietf.org/html/rfc5077#section-3.2
z[0] = byte(extensionSessionTicket >> 8)
z[1] = byte(extensionSessionTicket)
l := len(m.sessionTicket)
z[2] = byte(l >> 8)
z[3] = byte(l)
z = z[4:]
copy(z, m.sessionTicket)
z = z[len(m.sessionTicket):]
}
if len(m.signatureAndHashes) > 0 {
// https://tools.ietf.org/html/rfc5246#section-7.4.1.4.1
z[0] = byte(extensionSignatureAlgorithms >> 8)
z[1] = byte(extensionSignatureAlgorithms)
l := 2 + 2*len(m.signatureAndHashes)
z[2] = byte(l >> 8)
z[3] = byte(l)
z = z[4:]
l -= 2
z[0] = byte(l >> 8)
z[1] = byte(l)
z = z[2:]
for _, sigAndHash := range m.signatureAndHashes {
z[0] = sigAndHash.hash
z[1] = sigAndHash.signature
z = z[2:]
}
}
if m.secureRenegotiationSupported {
z[0] = byte(extensionRenegotiationInfo >> 8)
z[1] = byte(extensionRenegotiationInfo & 0xff)
z[2] = 0
z[3] = byte(len(m.secureRenegotiation) + 1)
z[4] = byte(len(m.secureRenegotiation))
z = z[5:]
copy(z, m.secureRenegotiation)
z = z[len(m.secureRenegotiation):]
}
if len(m.alpnProtocols) > 0 {
z[0] = byte(extensionALPN >> 8)
z[1] = byte(extensionALPN & 0xff)
lengths := z[2:]
z = z[6:]
stringsLength := 0
for _, s := range m.alpnProtocols {
l := len(s)
z[0] = byte(l)
copy(z[1:], s)
z = z[1+l:]
stringsLength += 1 + l
}
lengths[2] = byte(stringsLength >> 8)
lengths[3] = byte(stringsLength)
stringsLength += 2
lengths[0] = byte(stringsLength >> 8)
lengths[1] = byte(stringsLength)
}
if m.scts {
// https://tools.ietf.org/html/rfc6962#section-3.3.1
z[0] = byte(extensionSCT >> 8)
z[1] = byte(extensionSCT)
// zero uint16 for the zero-length extension_data
z = z[4:]
}
m.raw = x
return x
}
func (m *clientHelloMsg) unmarshal(data []byte) bool {
if len(data) < 42 {
return false
}
m.raw = data
m.vers = uint16(data[4])<<8 | uint16(data[5])
m.random = data[6:38]
sessionIdLen := int(data[38])
if sessionIdLen > 32 || len(data) < 39+sessionIdLen {
return false
}
m.sessionId = data[39 : 39+sessionIdLen]
data = data[39+sessionIdLen:]
if len(data) < 2 {
return false
}
// cipherSuiteLen is the number of bytes of cipher suite numbers. Since
// they are uint16s, the number must be even.
cipherSuiteLen := int(data[0])<<8 | int(data[1])
if cipherSuiteLen%2 == 1 || len(data) < 2+cipherSuiteLen {
return false
}
numCipherSuites := cipherSuiteLen / 2
m.cipherSuites = make([]uint16, numCipherSuites)
for i := 0; i < numCipherSuites; i++ {
m.cipherSuites[i] = uint16(data[2+2*i])<<8 | uint16(data[3+2*i])
if m.cipherSuites[i] == scsvRenegotiation {
m.secureRenegotiationSupported = true
}
}
data = data[2+cipherSuiteLen:]
if len(data) < 1 {
return false
}
compressionMethodsLen := int(data[0])
if len(data) < 1+compressionMethodsLen {
return false
}
m.compressionMethods = data[1 : 1+compressionMethodsLen]
data = data[1+compressionMethodsLen:]
m.nextProtoNeg = false
m.serverName = ""
m.ocspStapling = false
m.ticketSupported = false
m.sessionTicket = nil
m.signatureAndHashes = nil
m.alpnProtocols = nil
m.scts = false
if len(data) == 0 {
// ClientHello is optionally followed by extension data
return true
}
if len(data) < 2 {
return false
}
extensionsLength := int(data[0])<<8 | int(data[1])
data = data[2:]
if extensionsLength != len(data) {
return false
}
for len(data) != 0 {
if len(data) < 4 {
return false
}
extension := uint16(data[0])<<8 | uint16(data[1])
length := int(data[2])<<8 | int(data[3])
data = data[4:]
if len(data) < length {
return false
}
switch extension {
case extensionServerName:
d := data[:length]
if len(d) < 2 {
return false
}
namesLen := int(d[0])<<8 | int(d[1])
d = d[2:]
if len(d) != namesLen {
return false
}
for len(d) > 0 {
if len(d) < 3 {
return false
}
nameType := d[0]
nameLen := int(d[1])<<8 | int(d[2])
d = d[3:]
if len(d) < nameLen {
return false
}
if nameType == 0 {
m.serverName = string(d[:nameLen])
break
}
d = d[nameLen:]
}
case extensionNextProtoNeg:
if length > 0 {
return false
}
m.nextProtoNeg = true
case extensionStatusRequest:
m.ocspStapling = length > 0 && data[0] == statusTypeOCSP
case extensionSupportedCurves:
// http://tools.ietf.org/html/rfc4492#section-5.5.1
if length < 2 {
return false
}
l := int(data[0])<<8 | int(data[1])
if l%2 == 1 || length != l+2 {
return false
}
numCurves := l / 2
m.supportedCurves = make([]CurveID, numCurves)
d := data[2:]
for i := 0; i < numCurves; i++ {
m.supportedCurves[i] = CurveID(d[0])<<8 | CurveID(d[1])
d = d[2:]
}
case extensionSupportedPoints:
// http://tools.ietf.org/html/rfc4492#section-5.5.2
if length < 1 {
return false
}
l := int(data[0])
if length != l+1 {
return false
}
m.supportedPoints = make([]uint8, l)
copy(m.supportedPoints, data[1:])
case extensionSessionTicket:
// http://tools.ietf.org/html/rfc5077#section-3.2
m.ticketSupported = true
m.sessionTicket = data[:length]
case extensionSignatureAlgorithms:
// https://tools.ietf.org/html/rfc5246#section-7.4.1.4.1
if length < 2 || length&1 != 0 {
return false
}
l := int(data[0])<<8 | int(data[1])
if l != length-2 {
return false
}
n := l / 2
d := data[2:]
m.signatureAndHashes = make([]signatureAndHash, n)
for i := range m.signatureAndHashes {
m.signatureAndHashes[i].hash = d[0]
m.signatureAndHashes[i].signature = d[1]
d = d[2:]
}
case extensionRenegotiationInfo:
if length == 0 {
return false
}
d := data[:length]
l := int(d[0])
d = d[1:]
if l != len(d) {
return false
}
m.secureRenegotiation = d
m.secureRenegotiationSupported = true
case extensionALPN:
if length < 2 {
return false
}
l := int(data[0])<<8 | int(data[1])
if l != length-2 {
return false
}
d := data[2:length]
for len(d) != 0 {
stringLen := int(d[0])
d = d[1:]
if stringLen == 0 || stringLen > len(d) {
return false
}
m.alpnProtocols = append(m.alpnProtocols, string(d[:stringLen]))
d = d[stringLen:]
}
case extensionSCT:
m.scts = true
if length != 0 {
return false
}
}
data = data[length:]
}
return true
}
type serverHelloMsg struct {
raw []byte
vers uint16
random []byte
sessionId []byte
cipherSuite uint16
compressionMethod uint8
nextProtoNeg bool
nextProtos []string
ocspStapling bool
scts [][]byte
ticketSupported bool
secureRenegotiation []byte
secureRenegotiationSupported bool
alpnProtocol string
}
func (m *serverHelloMsg) equal(i interface{}) bool {
m1, ok := i.(*serverHelloMsg)
if !ok {
return false
}
if len(m.scts) != len(m1.scts) {
return false
}
for i, sct := range m.scts {
if !bytes.Equal(sct, m1.scts[i]) {
return false
}
}
return bytes.Equal(m.raw, m1.raw) &&
m.vers == m1.vers &&
bytes.Equal(m.random, m1.random) &&
bytes.Equal(m.sessionId, m1.sessionId) &&
m.cipherSuite == m1.cipherSuite &&
m.compressionMethod == m1.compressionMethod &&
m.nextProtoNeg == m1.nextProtoNeg &&
eqStrings(m.nextProtos, m1.nextProtos) &&
m.ocspStapling == m1.ocspStapling &&
m.ticketSupported == m1.ticketSupported &&
m.secureRenegotiationSupported == m1.secureRenegotiationSupported &&
bytes.Equal(m.secureRenegotiation, m1.secureRenegotiation) &&
m.alpnProtocol == m1.alpnProtocol
}
func (m *serverHelloMsg) marshal() []byte {
if m.raw != nil {
return m.raw
}
length := 38 + len(m.sessionId)
numExtensions := 0
extensionsLength := 0
nextProtoLen := 0
if m.nextProtoNeg {
numExtensions++
for _, v := range m.nextProtos {
nextProtoLen += len(v)
}
nextProtoLen += len(m.nextProtos)
extensionsLength += nextProtoLen
}
if m.ocspStapling {
numExtensions++
}
if m.ticketSupported {
numExtensions++
}
if m.secureRenegotiationSupported {
extensionsLength += 1 + len(m.secureRenegotiation)
numExtensions++
}
if alpnLen := len(m.alpnProtocol); alpnLen > 0 {
if alpnLen >= 256 {
panic("invalid ALPN protocol")
}
extensionsLength += 2 + 1 + alpnLen
numExtensions++
}
sctLen := 0
if len(m.scts) > 0 {
for _, sct := range m.scts {
sctLen += len(sct) + 2
}
extensionsLength += 2 + sctLen
numExtensions++
}
if numExtensions > 0 {
extensionsLength += 4 * numExtensions
length += 2 + extensionsLength
}
x := make([]byte, 4+length)
x[0] = typeServerHello
x[1] = uint8(length >> 16)
x[2] = uint8(length >> 8)
x[3] = uint8(length)
x[4] = uint8(m.vers >> 8)
x[5] = uint8(m.vers)
copy(x[6:38], m.random)
x[38] = uint8(len(m.sessionId))
copy(x[39:39+len(m.sessionId)], m.sessionId)
z := x[39+len(m.sessionId):]
z[0] = uint8(m.cipherSuite >> 8)
z[1] = uint8(m.cipherSuite)
z[2] = m.compressionMethod
z = z[3:]
if numExtensions > 0 {
z[0] = byte(extensionsLength >> 8)
z[1] = byte(extensionsLength)
z = z[2:]
}
if m.nextProtoNeg {
z[0] = byte(extensionNextProtoNeg >> 8)
z[1] = byte(extensionNextProtoNeg & 0xff)
z[2] = byte(nextProtoLen >> 8)
z[3] = byte(nextProtoLen)
z = z[4:]
for _, v := range m.nextProtos {
l := len(v)
if l > 255 {
l = 255
}
z[0] = byte(l)
copy(z[1:], []byte(v[0:l]))
z = z[1+l:]
}
}
if m.ocspStapling {
z[0] = byte(extensionStatusRequest >> 8)
z[1] = byte(extensionStatusRequest)
z = z[4:]
}
if m.ticketSupported {
z[0] = byte(extensionSessionTicket >> 8)
z[1] = byte(extensionSessionTicket)
z = z[4:]
}
if m.secureRenegotiationSupported {
z[0] = byte(extensionRenegotiationInfo >> 8)
z[1] = byte(extensionRenegotiationInfo & 0xff)
z[2] = 0
z[3] = byte(len(m.secureRenegotiation) + 1)
z[4] = byte(len(m.secureRenegotiation))
z = z[5:]
copy(z, m.secureRenegotiation)
z = z[len(m.secureRenegotiation):]
}
if alpnLen := len(m.alpnProtocol); alpnLen > 0 {
z[0] = byte(extensionALPN >> 8)
z[1] = byte(extensionALPN & 0xff)
l := 2 + 1 + alpnLen
z[2] = byte(l >> 8)
z[3] = byte(l)
l -= 2
z[4] = byte(l >> 8)
z[5] = byte(l)
l -= 1
z[6] = byte(l)
copy(z[7:], []byte(m.alpnProtocol))
z = z[7+alpnLen:]
}
if sctLen > 0 {
z[0] = byte(extensionSCT >> 8)
z[1] = byte(extensionSCT)
l := sctLen + 2
z[2] = byte(l >> 8)
z[3] = byte(l)
z[4] = byte(sctLen >> 8)
z[5] = byte(sctLen)
z = z[6:]
for _, sct := range m.scts {
z[0] = byte(len(sct) >> 8)
z[1] = byte(len(sct))
copy(z[2:], sct)
z = z[len(sct)+2:]
}
}
m.raw = x
return x
}
func (m *serverHelloMsg) unmarshal(data []byte) bool {
if len(data) < 42 {
return false
}
m.raw = data
m.vers = uint16(data[4])<<8 | uint16(data[5])
m.random = data[6:38]
sessionIdLen := int(data[38])
if sessionIdLen > 32 || len(data) < 39+sessionIdLen {
return false
}
m.sessionId = data[39 : 39+sessionIdLen]
data = data[39+sessionIdLen:]
if len(data) < 3 {
return false
}
m.cipherSuite = uint16(data[0])<<8 | uint16(data[1])
m.compressionMethod = data[2]
data = data[3:]
m.nextProtoNeg = false
m.nextProtos = nil
m.ocspStapling = false
m.scts = nil
m.ticketSupported = false
m.alpnProtocol = ""
if len(data) == 0 {
// ServerHello is optionally followed by extension data
return true
}
if len(data) < 2 {
return false
}
extensionsLength := int(data[0])<<8 | int(data[1])
data = data[2:]
if len(data) != extensionsLength {
return false
}
for len(data) != 0 {
if len(data) < 4 {
return false
}
extension := uint16(data[0])<<8 | uint16(data[1])
length := int(data[2])<<8 | int(data[3])
data = data[4:]
if len(data) < length {
return false
}
switch extension {
case extensionNextProtoNeg:
m.nextProtoNeg = true
d := data[:length]
for len(d) > 0 {
l := int(d[0])
d = d[1:]
if l == 0 || l > len(d) {
return false
}
m.nextProtos = append(m.nextProtos, string(d[:l]))
d = d[l:]
}
case extensionStatusRequest:
if length > 0 {
return false
}
m.ocspStapling = true
case extensionSessionTicket:
if length > 0 {
return false
}
m.ticketSupported = true
case extensionRenegotiationInfo:
if length == 0 {
return false
}
d := data[:length]
l := int(d[0])
d = d[1:]
if l != len(d) {
return false
}
m.secureRenegotiation = d
m.secureRenegotiationSupported = true
case extensionALPN:
d := data[:length]
if len(d) < 3 {
return false
}
l := int(d[0])<<8 | int(d[1])
if l != len(d)-2 {
return false
}
d = d[2:]
l = int(d[0])
if l != len(d)-1 {
return false
}
d = d[1:]
if len(d) == 0 {
// ALPN protocols must not be empty.
return false
}
m.alpnProtocol = string(d)
case extensionSCT:
d := data[:length]
if len(d) < 2 {
return false
}
l := int(d[0])<<8 | int(d[1])
d = d[2:]
if len(d) != l {
return false
}
if l == 0 {
continue
}
m.scts = make([][]byte, 0, 3)
for len(d) != 0 {
if len(d) < 2 {
return false
}
sctLen := int(d[0])<<8 | int(d[1])
d = d[2:]
if len(d) < sctLen {
return false
}
m.scts = append(m.scts, d[:sctLen])
d = d[sctLen:]
}
}
data = data[length:]
}
return true
}
type certificateMsg struct {
raw []byte
certificates [][]byte
}
func (m *certificateMsg) equal(i interface{}) bool {
m1, ok := i.(*certificateMsg)
if !ok {
return false
}
return bytes.Equal(m.raw, m1.raw) &&
eqByteSlices(m.certificates, m1.certificates)
}
func (m *certificateMsg) marshal() (x []byte) {
if m.raw != nil {
return m.raw
}
var i int
for _, slice := range m.certificates {
i += len(slice)
}
length := 3 + 3*len(m.certificates) + i
x = make([]byte, 4+length)
x[0] = typeCertificate
x[1] = uint8(length >> 16)
x[2] = uint8(length >> 8)
x[3] = uint8(length)
certificateOctets := length - 3
x[4] = uint8(certificateOctets >> 16)
x[5] = uint8(certificateOctets >> 8)
x[6] = uint8(certificateOctets)
y := x[7:]
for _, slice := range m.certificates {
y[0] = uint8(len(slice) >> 16)
y[1] = uint8(len(slice) >> 8)
y[2] = uint8(len(slice))
copy(y[3:], slice)
y = y[3+len(slice):]
}
m.raw = x
return
}
func (m *certificateMsg) unmarshal(data []byte) bool {
if len(data) < 7 {
return false
}
m.raw = data
certsLen := uint32(data[4])<<16 | uint32(data[5])<<8 | uint32(data[6])
if uint32(len(data)) != certsLen+7 {
return false
}
numCerts := 0
d := data[7:]
for certsLen > 0 {
if len(d) < 4 {
return false
}
certLen := uint32(d[0])<<16 | uint32(d[1])<<8 | uint32(d[2])
if uint32(len(d)) < 3+certLen {
return false
}
d = d[3+certLen:]
certsLen -= 3 + certLen
numCerts++
}
m.certificates = make([][]byte, numCerts)
d = data[7:]
for i := 0; i < numCerts; i++ {
certLen := uint32(d[0])<<16 | uint32(d[1])<<8 | uint32(d[2])
m.certificates[i] = d[3 : 3+certLen]
d = d[3+certLen:]
}
return true
}
type serverKeyExchangeMsg struct {
raw []byte
key []byte
}
func (m *serverKeyExchangeMsg) equal(i interface{}) bool {
m1, ok := i.(*serverKeyExchangeMsg)
if !ok {
return false
}
return bytes.Equal(m.raw, m1.raw) &&
bytes.Equal(m.key, m1.key)
}
func (m *serverKeyExchangeMsg) marshal() []byte {
if m.raw != nil {
return m.raw
}
length := len(m.key)
x := make([]byte, length+4)
x[0] = typeServerKeyExchange
x[1] = uint8(length >> 16)
x[2] = uint8(length >> 8)
x[3] = uint8(length)
copy(x[4:], m.key)
m.raw = x
return x
}
func (m *serverKeyExchangeMsg) unmarshal(data []byte) bool {
m.raw = data
if len(data) < 4 {
return false
}
m.key = data[4:]
return true
}
type certificateStatusMsg struct {
raw []byte
statusType uint8
response []byte
}
func (m *certificateStatusMsg) equal(i interface{}) bool {
m1, ok := i.(*certificateStatusMsg)
if !ok {
return false
}
return bytes.Equal(m.raw, m1.raw) &&
m.statusType == m1.statusType &&
bytes.Equal(m.response, m1.response)
}
func (m *certificateStatusMsg) marshal() []byte {
if m.raw != nil {
return m.raw
}
var x []byte
if m.statusType == statusTypeOCSP {
x = make([]byte, 4+4+len(m.response))
x[0] = typeCertificateStatus
l := len(m.response) + 4
x[1] = byte(l >> 16)
x[2] = byte(l >> 8)
x[3] = byte(l)
x[4] = statusTypeOCSP
l -= 4
x[5] = byte(l >> 16)
x[6] = byte(l >> 8)
x[7] = byte(l)
copy(x[8:], m.response)
} else {
x = []byte{typeCertificateStatus, 0, 0, 1, m.statusType}
}
m.raw = x
return x
}
func (m *certificateStatusMsg) unmarshal(data []byte) bool {
m.raw = data
if len(data) < 5 {
return false
}
m.statusType = data[4]
m.response = nil
if m.statusType == statusTypeOCSP {
if len(data) < 8 {
return false
}
respLen := uint32(data[5])<<16 | uint32(data[6])<<8 | uint32(data[7])
if uint32(len(data)) != 4+4+respLen {
return false
}
m.response = data[8:]
}
return true
}
type serverHelloDoneMsg struct{}
func (m *serverHelloDoneMsg) equal(i interface{}) bool {
_, ok := i.(*serverHelloDoneMsg)
return ok
}
func (m *serverHelloDoneMsg) marshal() []byte {
x := make([]byte, 4)
x[0] = typeServerHelloDone
return x
}
func (m *serverHelloDoneMsg) unmarshal(data []byte) bool {
return len(data) == 4
}
type clientKeyExchangeMsg struct {
raw []byte
ciphertext []byte
}
func (m *clientKeyExchangeMsg) equal(i interface{}) bool {
m1, ok := i.(*clientKeyExchangeMsg)
if !ok {
return false
}
return bytes.Equal(m.raw, m1.raw) &&
bytes.Equal(m.ciphertext, m1.ciphertext)
}
func (m *clientKeyExchangeMsg) marshal() []byte {
if m.raw != nil {
return m.raw
}
length := len(m.ciphertext)
x := make([]byte, length+4)
x[0] = typeClientKeyExchange
x[1] = uint8(length >> 16)
x[2] = uint8(length >> 8)
x[3] = uint8(length)
copy(x[4:], m.ciphertext)
m.raw = x
return x
}
func (m *clientKeyExchangeMsg) unmarshal(data []byte) bool {
m.raw = data
if len(data) < 4 {
return false
}
l := int(data[1])<<16 | int(data[2])<<8 | int(data[3])
if l != len(data)-4 {
return false
}
m.ciphertext = data[4:]
return true
}
type finishedMsg struct {
raw []byte
verifyData []byte
}
func (m *finishedMsg) equal(i interface{}) bool {
m1, ok := i.(*finishedMsg)
if !ok {
return false
}
return bytes.Equal(m.raw, m1.raw) &&
bytes.Equal(m.verifyData, m1.verifyData)
}
func (m *finishedMsg) marshal() (x []byte) {
if m.raw != nil {
return m.raw
}
x = make([]byte, 4+len(m.verifyData))
x[0] = typeFinished
x[3] = byte(len(m.verifyData))
copy(x[4:], m.verifyData)
m.raw = x
return
}
func (m *finishedMsg) unmarshal(data []byte) bool {
m.raw = data
if len(data) < 4 {
return false
}
m.verifyData = data[4:]
return true
}
type nextProtoMsg struct {
raw []byte
proto string
}
func (m *nextProtoMsg) equal(i interface{}) bool {
m1, ok := i.(*nextProtoMsg)
if !ok {
return false
}
return bytes.Equal(m.raw, m1.raw) &&
m.proto == m1.proto
}
func (m *nextProtoMsg) marshal() []byte {
if m.raw != nil {
return m.raw
}
l := len(m.proto)
if l > 255 {
l = 255
}
padding := 32 - (l+2)%32
length := l + padding + 2
x := make([]byte, length+4)
x[0] = typeNextProtocol
x[1] = uint8(length >> 16)
x[2] = uint8(length >> 8)
x[3] = uint8(length)
y := x[4:]
y[0] = byte(l)
copy(y[1:], []byte(m.proto[0:l]))
y = y[1+l:]
y[0] = byte(padding)
m.raw = x
return x
}
func (m *nextProtoMsg) unmarshal(data []byte) bool {
m.raw = data
if len(data) < 5 {
return false
}
data = data[4:]
protoLen := int(data[0])
data = data[1:]
if len(data) < protoLen {
return false
}
m.proto = string(data[0:protoLen])
data = data[protoLen:]
if len(data) < 1 {
return false
}
paddingLen := int(data[0])
data = data[1:]
if len(data) != paddingLen {
return false
}
return true
}
type certificateRequestMsg struct {
raw []byte
// hasSignatureAndHash indicates whether this message includes a list
// of signature and hash functions. This change was introduced with TLS
// 1.2.
hasSignatureAndHash bool
certificateTypes []byte
signatureAndHashes []signatureAndHash
certificateAuthorities [][]byte
}
func (m *certificateRequestMsg) equal(i interface{}) bool {
m1, ok := i.(*certificateRequestMsg)
if !ok {
return false
}
return bytes.Equal(m.raw, m1.raw) &&
bytes.Equal(m.certificateTypes, m1.certificateTypes) &&
eqByteSlices(m.certificateAuthorities, m1.certificateAuthorities) &&
eqSignatureAndHashes(m.signatureAndHashes, m1.signatureAndHashes)
}
func (m *certificateRequestMsg) marshal() (x []byte) {
if m.raw != nil {
return m.raw
}
// See http://tools.ietf.org/html/rfc4346#section-7.4.4
length := 1 + len(m.certificateTypes) + 2
casLength := 0
for _, ca := range m.certificateAuthorities {
casLength += 2 + len(ca)
}
length += casLength
if m.hasSignatureAndHash {
length += 2 + 2*len(m.signatureAndHashes)
}
x = make([]byte, 4+length)
x[0] = typeCertificateRequest
x[1] = uint8(length >> 16)
x[2] = uint8(length >> 8)
x[3] = uint8(length)
x[4] = uint8(len(m.certificateTypes))
copy(x[5:], m.certificateTypes)
y := x[5+len(m.certificateTypes):]
if m.hasSignatureAndHash {
n := len(m.signatureAndHashes) * 2
y[0] = uint8(n >> 8)
y[1] = uint8(n)
y = y[2:]
for _, sigAndHash := range m.signatureAndHashes {
y[0] = sigAndHash.hash
y[1] = sigAndHash.signature
y = y[2:]
}
}
y[0] = uint8(casLength >> 8)
y[1] = uint8(casLength)
y = y[2:]
for _, ca := range m.certificateAuthorities {
y[0] = uint8(len(ca) >> 8)
y[1] = uint8(len(ca))
y = y[2:]
copy(y, ca)
y = y[len(ca):]
}
m.raw = x
return
}
func (m *certificateRequestMsg) unmarshal(data []byte) bool {
m.raw = data
if len(data) < 5 {
return false
}
length := uint32(data[1])<<16 | uint32(data[2])<<8 | uint32(data[3])
if uint32(len(data))-4 != length {
return false
}
numCertTypes := int(data[4])
data = data[5:]
if numCertTypes == 0 || len(data) <= numCertTypes {
return false
}
m.certificateTypes = make([]byte, numCertTypes)
if copy(m.certificateTypes, data) != numCertTypes {
return false
}
data = data[numCertTypes:]
if m.hasSignatureAndHash {
if len(data) < 2 {
return false
}
sigAndHashLen := uint16(data[0])<<8 | uint16(data[1])
data = data[2:]
if sigAndHashLen&1 != 0 {
return false
}
if len(data) < int(sigAndHashLen) {
return false
}
numSigAndHash := sigAndHashLen / 2
m.signatureAndHashes = make([]signatureAndHash, numSigAndHash)
for i := range m.signatureAndHashes {
m.signatureAndHashes[i].hash = data[0]
m.signatureAndHashes[i].signature = data[1]
data = data[2:]
}
}
if len(data) < 2 {
return false
}
casLength := uint16(data[0])<<8 | uint16(data[1])
data = data[2:]
if len(data) < int(casLength) {
return false
}
cas := make([]byte, casLength)
copy(cas, data)
data = data[casLength:]
m.certificateAuthorities = nil
for len(cas) > 0 {
if len(cas) < 2 {
return false
}
caLen := uint16(cas[0])<<8 | uint16(cas[1])
cas = cas[2:]
if len(cas) < int(caLen) {
return false
}
m.certificateAuthorities = append(m.certificateAuthorities, cas[:caLen])
cas = cas[caLen:]
}
return len(data) == 0
}
type certificateVerifyMsg struct {
raw []byte
hasSignatureAndHash bool
signatureAndHash signatureAndHash
signature []byte
}
func (m *certificateVerifyMsg) equal(i interface{}) bool {
m1, ok := i.(*certificateVerifyMsg)
if !ok {
return false
}
return bytes.Equal(m.raw, m1.raw) &&
m.hasSignatureAndHash == m1.hasSignatureAndHash &&
m.signatureAndHash.hash == m1.signatureAndHash.hash &&
m.signatureAndHash.signature == m1.signatureAndHash.signature &&
bytes.Equal(m.signature, m1.signature)
}
func (m *certificateVerifyMsg) marshal() (x []byte) {
if m.raw != nil {
return m.raw
}
// See http://tools.ietf.org/html/rfc4346#section-7.4.8
siglength := len(m.signature)
length := 2 + siglength
if m.hasSignatureAndHash {
length += 2
}
x = make([]byte, 4+length)
x[0] = typeCertificateVerify
x[1] = uint8(length >> 16)
x[2] = uint8(length >> 8)
x[3] = uint8(length)
y := x[4:]
if m.hasSignatureAndHash {
y[0] = m.signatureAndHash.hash
y[1] = m.signatureAndHash.signature
y = y[2:]
}
y[0] = uint8(siglength >> 8)
y[1] = uint8(siglength)
copy(y[2:], m.signature)
m.raw = x
return
}
func (m *certificateVerifyMsg) unmarshal(data []byte) bool {
m.raw = data
if len(data) < 6 {
return false
}
length := uint32(data[1])<<16 | uint32(data[2])<<8 | uint32(data[3])
if uint32(len(data))-4 != length {
return false
}
data = data[4:]
if m.hasSignatureAndHash {
m.signatureAndHash.hash = data[0]
m.signatureAndHash.signature = data[1]
data = data[2:]
}
if len(data) < 2 {
return false
}
siglength := int(data[0])<<8 + int(data[1])
data = data[2:]
if len(data) != siglength {
return false
}
m.signature = data
return true
}
type newSessionTicketMsg struct {
raw []byte
ticket []byte
}
func (m *newSessionTicketMsg) equal(i interface{}) bool {
m1, ok := i.(*newSessionTicketMsg)
if !ok {
return false
}
return bytes.Equal(m.raw, m1.raw) &&
bytes.Equal(m.ticket, m1.ticket)
}
func (m *newSessionTicketMsg) marshal() (x []byte) {
if m.raw != nil {
return m.raw
}
// See http://tools.ietf.org/html/rfc5077#section-3.3
ticketLen := len(m.ticket)
length := 2 + 4 + ticketLen
x = make([]byte, 4+length)
x[0] = typeNewSessionTicket
x[1] = uint8(length >> 16)
x[2] = uint8(length >> 8)
x[3] = uint8(length)
x[8] = uint8(ticketLen >> 8)
x[9] = uint8(ticketLen)
copy(x[10:], m.ticket)
m.raw = x
return
}
func (m *newSessionTicketMsg) unmarshal(data []byte) bool {
m.raw = data
if len(data) < 10 {
return false
}
length := uint32(data[1])<<16 | uint32(data[2])<<8 | uint32(data[3])
if uint32(len(data))-4 != length {
return false
}
ticketLen := int(data[8])<<8 + int(data[9])
if len(data)-10 != ticketLen {
return false
}
m.ticket = data[10:]
return true
}
type helloRequestMsg struct {
}
func (*helloRequestMsg) marshal() []byte {
return []byte{typeHelloRequest, 0, 0, 0}
}
func (*helloRequestMsg) unmarshal(data []byte) bool {
return len(data) == 4
}
func eqUint16s(x, y []uint16) bool {
if len(x) != len(y) {
return false
}
for i, v := range x {
if y[i] != v {
return false
}
}
return true
}
func eqCurveIDs(x, y []CurveID) bool {
if len(x) != len(y) {
return false
}
for i, v := range x {
if y[i] != v {
return false
}
}
return true
}
func eqStrings(x, y []string) bool {
if len(x) != len(y) {
return false
}
for i, v := range x {
if y[i] != v {
return false
}
}
return true
}
func eqByteSlices(x, y [][]byte) bool {
if len(x) != len(y) {
return false
}
for i, v := range x {
if !bytes.Equal(v, y[i]) {
return false
}
}
return true
}
func eqSignatureAndHashes(x, y []signatureAndHash) bool {
if len(x) != len(y) {
return false
}
for i, v := range x {
v2 := y[i]
if v.hash != v2.hash || v.signature != v2.signature {
return false
}
}
return true
}
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