// 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 runner import ( "bytes" "encoding/binary" "fmt" ) func writeLen(buf []byte, v, size int) { for i := 0; i < size; i++ { buf[size-i-1] = byte(v) v >>= 8 } if v != 0 { panic("length is too long") } } type byteBuilder struct { buf *[]byte start int prefixLen int child *byteBuilder } func newByteBuilder() *byteBuilder { buf := make([]byte, 0, 32) return &byteBuilder{buf: &buf} } func (bb *byteBuilder) len() int { return len(*bb.buf) - bb.start - bb.prefixLen } func (bb *byteBuilder) data() []byte { bb.flush() return (*bb.buf)[bb.start+bb.prefixLen:] } func (bb *byteBuilder) flush() { if bb.child == nil { return } bb.child.flush() writeLen((*bb.buf)[bb.child.start:], bb.child.len(), bb.child.prefixLen) bb.child = nil return } func (bb *byteBuilder) finish() []byte { bb.flush() return *bb.buf } func (bb *byteBuilder) addU8(u uint8) { bb.flush() *bb.buf = append(*bb.buf, u) } func (bb *byteBuilder) addU16(u uint16) { bb.flush() *bb.buf = append(*bb.buf, byte(u>>8), byte(u)) } func (bb *byteBuilder) addU24(u int) { bb.flush() *bb.buf = append(*bb.buf, byte(u>>16), byte(u>>8), byte(u)) } func (bb *byteBuilder) addU32(u uint32) { bb.flush() *bb.buf = append(*bb.buf, byte(u>>24), byte(u>>16), byte(u>>8), byte(u)) } func (bb *byteBuilder) addU64(u uint64) { bb.flush() var b [8]byte binary.BigEndian.PutUint64(b[:], u) *bb.buf = append(*bb.buf, b[:]...) } func (bb *byteBuilder) addU8LengthPrefixed() *byteBuilder { return bb.createChild(1) } func (bb *byteBuilder) addU16LengthPrefixed() *byteBuilder { return bb.createChild(2) } func (bb *byteBuilder) addU24LengthPrefixed() *byteBuilder { return bb.createChild(3) } func (bb *byteBuilder) addU32LengthPrefixed() *byteBuilder { return bb.createChild(4) } func (bb *byteBuilder) addBytes(b []byte) { bb.flush() *bb.buf = append(*bb.buf, b...) } func (bb *byteBuilder) createChild(lengthPrefixSize int) *byteBuilder { bb.flush() bb.child = &byteBuilder{ buf: bb.buf, start: len(*bb.buf), prefixLen: lengthPrefixSize, } for i := 0; i < lengthPrefixSize; i++ { *bb.buf = append(*bb.buf, 0) } return bb.child } func (bb *byteBuilder) discardChild() { if bb.child == nil { return } *bb.buf = (*bb.buf)[:bb.child.start] bb.child = nil } type keyShareEntry struct { group CurveID keyExchange []byte } type pskIdentity struct { ticket []uint8 obfuscatedTicketAge uint32 } type clientHelloMsg struct { raw []byte isDTLS bool vers uint16 random []byte sessionId []byte cookie []byte cipherSuites []uint16 compressionMethods []uint8 nextProtoNeg bool serverName string ocspStapling bool supportedCurves []CurveID supportedPoints []uint8 hasKeyShares bool keyShares []keyShareEntry trailingKeyShareData bool pskIdentities []pskIdentity pskKEModes []byte pskBinders [][]uint8 hasEarlyData bool tls13Cookie []byte ticketSupported bool sessionTicket []uint8 signatureAlgorithms []signatureAlgorithm supportedVersions []uint16 secureRenegotiation []byte alpnProtocols []string duplicateExtension bool channelIDSupported bool npnAfterAlpn bool extendedMasterSecret bool srtpProtectionProfiles []uint16 srtpMasterKeyIdentifier string sctListSupported bool customExtension string hasGREASEExtension bool pskBinderFirst bool omitExtensions bool emptyExtensions bool } func (m *clientHelloMsg) equal(i interface{}) bool { m1, ok := i.(*clientHelloMsg) if !ok { return false } return bytes.Equal(m.raw, m1.raw) && m.isDTLS == m1.isDTLS && m.vers == m1.vers && bytes.Equal(m.random, m1.random) && bytes.Equal(m.sessionId, m1.sessionId) && bytes.Equal(m.cookie, m1.cookie) && eqUint16s(m.cipherSuites, m1.cipherSuites) && bytes.Equal(m.compressionMethods, m1.compressionMethods) && m.nextProtoNeg == m1.nextProtoNeg && m.serverName == m1.serverName && m.ocspStapling == m1.ocspStapling && eqCurveIDs(m.supportedCurves, m1.supportedCurves) && bytes.Equal(m.supportedPoints, m1.supportedPoints) && m.hasKeyShares == m1.hasKeyShares && eqKeyShareEntryLists(m.keyShares, m1.keyShares) && m.trailingKeyShareData == m1.trailingKeyShareData && eqPSKIdentityLists(m.pskIdentities, m1.pskIdentities) && bytes.Equal(m.pskKEModes, m1.pskKEModes) && eqByteSlices(m.pskBinders, m1.pskBinders) && m.hasEarlyData == m1.hasEarlyData && bytes.Equal(m.tls13Cookie, m1.tls13Cookie) && m.ticketSupported == m1.ticketSupported && bytes.Equal(m.sessionTicket, m1.sessionTicket) && eqSignatureAlgorithms(m.signatureAlgorithms, m1.signatureAlgorithms) && eqUint16s(m.supportedVersions, m1.supportedVersions) && bytes.Equal(m.secureRenegotiation, m1.secureRenegotiation) && (m.secureRenegotiation == nil) == (m1.secureRenegotiation == nil) && eqStrings(m.alpnProtocols, m1.alpnProtocols) && m.duplicateExtension == m1.duplicateExtension && m.channelIDSupported == m1.channelIDSupported && m.npnAfterAlpn == m1.npnAfterAlpn && m.extendedMasterSecret == m1.extendedMasterSecret && eqUint16s(m.srtpProtectionProfiles, m1.srtpProtectionProfiles) && m.srtpMasterKeyIdentifier == m1.srtpMasterKeyIdentifier && m.sctListSupported == m1.sctListSupported && m.customExtension == m1.customExtension && m.hasGREASEExtension == m1.hasGREASEExtension && m.pskBinderFirst == m1.pskBinderFirst && m.omitExtensions == m1.omitExtensions && m.emptyExtensions == m1.emptyExtensions } func (m *clientHelloMsg) marshal() []byte { if m.raw != nil { return m.raw } handshakeMsg := newByteBuilder() handshakeMsg.addU8(typeClientHello) hello := handshakeMsg.addU24LengthPrefixed() hello.addU16(m.vers) hello.addBytes(m.random) sessionId := hello.addU8LengthPrefixed() sessionId.addBytes(m.sessionId) if m.isDTLS { cookie := hello.addU8LengthPrefixed() cookie.addBytes(m.cookie) } cipherSuites := hello.addU16LengthPrefixed() for _, suite := range m.cipherSuites { cipherSuites.addU16(suite) } compressionMethods := hello.addU8LengthPrefixed() compressionMethods.addBytes(m.compressionMethods) extensions := hello.addU16LengthPrefixed() if len(m.pskIdentities) > 0 && m.pskBinderFirst { extensions.addU16(extensionPreSharedKey) pskExtension := extensions.addU16LengthPrefixed() pskIdentities := pskExtension.addU16LengthPrefixed() for _, psk := range m.pskIdentities { pskIdentities.addU16LengthPrefixed().addBytes(psk.ticket) pskIdentities.addU32(psk.obfuscatedTicketAge) } pskBinders := pskExtension.addU16LengthPrefixed() for _, binder := range m.pskBinders { pskBinders.addU8LengthPrefixed().addBytes(binder) } } if m.duplicateExtension { // Add a duplicate bogus extension at the beginning and end. extensions.addU16(0xffff) extensions.addU16(0) // 0-length for empty extension } if m.nextProtoNeg && !m.npnAfterAlpn { extensions.addU16(extensionNextProtoNeg) extensions.addU16(0) // The length is always 0 } if len(m.serverName) > 0 { extensions.addU16(extensionServerName) serverNameList := extensions.addU16LengthPrefixed() // 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; serverName := serverNameList.addU16LengthPrefixed() serverName.addU8(0) // NameType host_name(0) hostName := serverName.addU16LengthPrefixed() hostName.addBytes([]byte(m.serverName)) } if m.ocspStapling { extensions.addU16(extensionStatusRequest) certificateStatusRequest := extensions.addU16LengthPrefixed() // RFC 4366, section 3.6 certificateStatusRequest.addU8(1) // OCSP type // Two zero valued uint16s for the two lengths. certificateStatusRequest.addU16(0) // ResponderID length certificateStatusRequest.addU16(0) // Extensions length } if len(m.supportedCurves) > 0 { // http://tools.ietf.org/html/rfc4492#section-5.1.1 extensions.addU16(extensionSupportedCurves) supportedCurvesList := extensions.addU16LengthPrefixed() supportedCurves := supportedCurvesList.addU16LengthPrefixed() for _, curve := range m.supportedCurves { supportedCurves.addU16(uint16(curve)) } } if len(m.supportedPoints) > 0 { // http://tools.ietf.org/html/rfc4492#section-5.1.2 extensions.addU16(extensionSupportedPoints) supportedPointsList := extensions.addU16LengthPrefixed() supportedPoints := supportedPointsList.addU8LengthPrefixed() supportedPoints.addBytes(m.supportedPoints) } if m.hasKeyShares { extensions.addU16(extensionKeyShare) keyShareList := extensions.addU16LengthPrefixed() keyShares := keyShareList.addU16LengthPrefixed() for _, keyShare := range m.keyShares { keyShares.addU16(uint16(keyShare.group)) keyExchange := keyShares.addU16LengthPrefixed() keyExchange.addBytes(keyShare.keyExchange) } if m.trailingKeyShareData { keyShares.addU8(0) } } if len(m.pskKEModes) > 0 { extensions.addU16(extensionPSKKeyExchangeModes) pskModesExtension := extensions.addU16LengthPrefixed() pskModesExtension.addU8LengthPrefixed().addBytes(m.pskKEModes) } if m.hasEarlyData { extensions.addU16(extensionEarlyData) extensions.addU16(0) // The length is zero. } if len(m.tls13Cookie) > 0 { extensions.addU16(extensionCookie) body := extensions.addU16LengthPrefixed() body.addU16LengthPrefixed().addBytes(m.tls13Cookie) } if m.ticketSupported { // http://tools.ietf.org/html/rfc5077#section-3.2 extensions.addU16(extensionSessionTicket) sessionTicketExtension := extensions.addU16LengthPrefixed() sessionTicketExtension.addBytes(m.sessionTicket) } if len(m.signatureAlgorithms) > 0 { // https://tools.ietf.org/html/rfc5246#section-7.4.1.4.1 extensions.addU16(extensionSignatureAlgorithms) signatureAlgorithmsExtension := extensions.addU16LengthPrefixed() signatureAlgorithms := signatureAlgorithmsExtension.addU16LengthPrefixed() for _, sigAlg := range m.signatureAlgorithms { signatureAlgorithms.addU16(uint16(sigAlg)) } } if len(m.supportedVersions) > 0 { extensions.addU16(extensionSupportedVersions) supportedVersionsExtension := extensions.addU16LengthPrefixed() supportedVersions := supportedVersionsExtension.addU8LengthPrefixed() for _, version := range m.supportedVersions { supportedVersions.addU16(uint16(version)) } } if m.secureRenegotiation != nil { extensions.addU16(extensionRenegotiationInfo) secureRenegoExt := extensions.addU16LengthPrefixed() secureRenego := secureRenegoExt.addU8LengthPrefixed() secureRenego.addBytes(m.secureRenegotiation) } if len(m.alpnProtocols) > 0 { // https://tools.ietf.org/html/rfc7301#section-3.1 extensions.addU16(extensionALPN) alpnExtension := extensions.addU16LengthPrefixed() protocolNameList := alpnExtension.addU16LengthPrefixed() for _, s := range m.alpnProtocols { protocolName := protocolNameList.addU8LengthPrefixed() protocolName.addBytes([]byte(s)) } } if m.channelIDSupported { extensions.addU16(extensionChannelID) extensions.addU16(0) // Length is always 0 } if m.nextProtoNeg && m.npnAfterAlpn { extensions.addU16(extensionNextProtoNeg) extensions.addU16(0) // Length is always 0 } if m.duplicateExtension { // Add a duplicate bogus extension at the beginning and end. extensions.addU16(0xffff) extensions.addU16(0) } if m.extendedMasterSecret { // https://tools.ietf.org/html/rfc7627 extensions.addU16(extensionExtendedMasterSecret) extensions.addU16(0) // Length is always 0 } if len(m.srtpProtectionProfiles) > 0 { // https://tools.ietf.org/html/rfc5764#section-4.1.1 extensions.addU16(extensionUseSRTP) useSrtpExt := extensions.addU16LengthPrefixed() srtpProtectionProfiles := useSrtpExt.addU16LengthPrefixed() for _, p := range m.srtpProtectionProfiles { // An SRTPProtectionProfile is defined as uint8[2], // not uint16. For some reason, we're storing it // as a uint16. srtpProtectionProfiles.addU8(byte(p >> 8)) srtpProtectionProfiles.addU8(byte(p)) } srtpMki := useSrtpExt.addU8LengthPrefixed() srtpMki.addBytes([]byte(m.srtpMasterKeyIdentifier)) } if m.sctListSupported { extensions.addU16(extensionSignedCertificateTimestamp) extensions.addU16(0) // Length is always 0 } if l := len(m.customExtension); l > 0 { extensions.addU16(extensionCustom) customExt := extensions.addU16LengthPrefixed() customExt.addBytes([]byte(m.customExtension)) } // The PSK extension must be last (draft-ietf-tls-tls13-18 section 4.2.6). if len(m.pskIdentities) > 0 && !m.pskBinderFirst { extensions.addU16(extensionPreSharedKey) pskExtension := extensions.addU16LengthPrefixed() pskIdentities := pskExtension.addU16LengthPrefixed() for _, psk := range m.pskIdentities { pskIdentities.addU16LengthPrefixed().addBytes(psk.ticket) pskIdentities.addU32(psk.obfuscatedTicketAge) } pskBinders := pskExtension.addU16LengthPrefixed() for _, binder := range m.pskBinders { pskBinders.addU8LengthPrefixed().addBytes(binder) } } if m.omitExtensions || m.emptyExtensions { // Silently erase any extensions which were sent. hello.discardChild() if m.emptyExtensions { hello.addU16(0) } } m.raw = handshakeMsg.finish() return m.raw } 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 m.isDTLS { if len(data) < 1 { return false } cookieLen := int(data[0]) if cookieLen > 32 || len(data) < 1+cookieLen { return false } m.cookie = data[1 : 1+cookieLen] data = data[1+cookieLen:] } 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.secureRenegotiation = []byte{} } } 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.keyShares = nil m.pskIdentities = nil m.hasEarlyData = false m.ticketSupported = false m.sessionTicket = nil m.signatureAlgorithms = nil m.supportedVersions = nil m.alpnProtocols = nil m.extendedMasterSecret = false m.customExtension = "" 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: if length < 2 { return false } numNames := int(data[0])<<8 | int(data[1]) d := data[2:] for i := 0; i < numNames; i++ { 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[0: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 = data[1 : 1+l] case extensionSessionTicket: // http://tools.ietf.org/html/rfc5077#section-3.2 m.ticketSupported = true m.sessionTicket = data[:length] case extensionKeyShare: // draft-ietf-tls-tls13 section 6.3.2.3 if length < 2 { return false } l := int(data[0])<<8 | int(data[1]) if l != length-2 { return false } d := data[2:length] m.hasKeyShares = true for len(d) > 0 { // The next KeyShareEntry contains a NamedGroup (2 bytes) and a // key_exchange (2-byte length prefix with at least 1 byte of content). if len(d) < 5 { return false } entry := keyShareEntry{} entry.group = CurveID(d[0])<<8 | CurveID(d[1]) keyExchLen := int(d[2])<<8 | int(d[3]) d = d[4:] if len(d) < keyExchLen { return false } entry.keyExchange = d[:keyExchLen] d = d[keyExchLen:] m.keyShares = append(m.keyShares, entry) } case extensionPreSharedKey: // draft-ietf-tls-tls13-18 section 4.2.6 if length < 2 { return false } l := int(data[0])<<8 | int(data[1]) d := data[2 : l+2] // Parse PSK identities. for len(d) > 0 { if len(d) < 2 { return false } pskLen := int(d[0])<<8 | int(d[1]) d = d[2:] if len(d) < pskLen+4 { return false } ticket := d[:pskLen] obfuscatedTicketAge := uint32(d[pskLen])<<24 | uint32(d[pskLen+1])<<16 | uint32(d[pskLen+2])<<8 | uint32(d[pskLen+3]) psk := pskIdentity{ ticket: ticket, obfuscatedTicketAge: obfuscatedTicketAge, } m.pskIdentities = append(m.pskIdentities, psk) d = d[pskLen+4:] } d = data[l+2:] if len(d) < 2 { return false } l = int(d[0])<<8 | int(d[1]) d = d[2:] if l != len(d) { return false } // Parse PSK binders. for len(d) > 0 { if len(d) < 1 { return false } binderLen := int(d[0]) d = d[1:] if binderLen > len(d) { return false } m.pskBinders = append(m.pskBinders, d[:binderLen]) d = d[binderLen:] } // There must be the same number of identities as binders. if len(m.pskIdentities) != len(m.pskBinders) { return false } case extensionPSKKeyExchangeModes: // draft-ietf-tls-tls13-18 section 4.2.7 if length < 1 { return false } l := int(data[0]) if l != length-1 { return false } m.pskKEModes = data[1:length] case extensionEarlyData: // draft-ietf-tls-tls13 section 6.3.2.5 if length != 0 { return false } m.hasEarlyData = true case extensionCookie: if length < 2 { return false } l := int(data[0])<<8 | int(data[1]) if l != length-2 || l == 0 { return false } m.tls13Cookie = data[2 : 2+l] 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.signatureAlgorithms = make([]signatureAlgorithm, n) for i := range m.signatureAlgorithms { m.signatureAlgorithms[i] = signatureAlgorithm(d[0])<<8 | signatureAlgorithm(d[1]) d = d[2:] } case extensionSupportedVersions: if length < 1+2 { return false } l := int(data[0]) if l != length-1 || l%2 == 1 || l < 2 { return false } n := l / 2 d := data[1:] m.supportedVersions = make([]uint16, n) for i := range m.supportedVersions { m.supportedVersions[i] = uint16(d[0])<<8 | uint16(d[1]) d = d[2:] } case extensionRenegotiationInfo: if length < 1 || length != int(data[0])+1 { return false } m.secureRenegotiation = data[1:length] 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 extensionChannelID: if length > 0 { return false } m.channelIDSupported = true case extensionExtendedMasterSecret: if length != 0 { return false } m.extendedMasterSecret = true case extensionUseSRTP: if length < 2 { return false } l := int(data[0])<<8 | int(data[1]) if l > length-2 || l%2 != 0 { return false } n := l / 2 m.srtpProtectionProfiles = make([]uint16, n) d := data[2:length] for i := 0; i < n; i++ { m.srtpProtectionProfiles[i] = uint16(d[0])<<8 | uint16(d[1]) d = d[2:] } if len(d) < 1 || int(d[0]) != len(d)-1 { return false } m.srtpMasterKeyIdentifier = string(d[1:]) case extensionSignedCertificateTimestamp: if length != 0 { return false } m.sctListSupported = true case extensionCustom: m.customExtension = string(data[:length]) } data = data[length:] if isGREASEValue(extension) { m.hasGREASEExtension = true } } return true } type serverHelloMsg struct { raw []byte isDTLS bool vers uint16 versOverride uint16 supportedVersOverride uint16 random []byte sessionId []byte cipherSuite uint16 hasKeyShare bool keyShare keyShareEntry hasPSKIdentity bool pskIdentity uint16 compressionMethod uint8 customExtension string unencryptedALPN string omitExtensions bool emptyExtensions bool extensions serverExtensions } func (m *serverHelloMsg) marshal() []byte { if m.raw != nil { return m.raw } handshakeMsg := newByteBuilder() handshakeMsg.addU8(typeServerHello) hello := handshakeMsg.addU24LengthPrefixed() // m.vers is used both to determine the format of the rest of the // ServerHello and to override the value, so include a second version // field. vers, ok := wireToVersion(m.vers, m.isDTLS) if !ok { panic("unknown version") } if m.versOverride != 0 { hello.addU16(m.versOverride) } else if m.vers == tls13ExperimentVersion { hello.addU16(VersionTLS12) } else { hello.addU16(m.vers) } hello.addBytes(m.random) if vers < VersionTLS13 || m.vers == tls13ExperimentVersion { sessionId := hello.addU8LengthPrefixed() sessionId.addBytes(m.sessionId) } hello.addU16(m.cipherSuite) if vers < VersionTLS13 || m.vers == tls13ExperimentVersion { hello.addU8(m.compressionMethod) } extensions := hello.addU16LengthPrefixed() if vers >= VersionTLS13 { if m.hasKeyShare { extensions.addU16(extensionKeyShare) keyShare := extensions.addU16LengthPrefixed() keyShare.addU16(uint16(m.keyShare.group)) keyExchange := keyShare.addU16LengthPrefixed() keyExchange.addBytes(m.keyShare.keyExchange) } if m.hasPSKIdentity { extensions.addU16(extensionPreSharedKey) extensions.addU16(2) // Length extensions.addU16(m.pskIdentity) } if m.vers == tls13ExperimentVersion || m.supportedVersOverride != 0 { extensions.addU16(extensionSupportedVersions) extensions.addU16(2) // Length if m.supportedVersOverride != 0 { extensions.addU16(m.supportedVersOverride) } else { extensions.addU16(m.vers) } } if len(m.customExtension) > 0 { extensions.addU16(extensionCustom) customExt := extensions.addU16LengthPrefixed() customExt.addBytes([]byte(m.customExtension)) } if len(m.unencryptedALPN) > 0 { extensions.addU16(extensionALPN) extension := extensions.addU16LengthPrefixed() protocolNameList := extension.addU16LengthPrefixed() protocolName := protocolNameList.addU8LengthPrefixed() protocolName.addBytes([]byte(m.unencryptedALPN)) } } else { m.extensions.marshal(extensions) if m.omitExtensions || m.emptyExtensions { // Silently erasing server extensions will break the handshake. Instead, // assert that tests which use this field also disable all features which // would write an extension. if extensions.len() != 0 { panic(fmt.Sprintf("ServerHello unexpectedly contained extensions: %x, %+v", extensions.data(), m)) } hello.discardChild() if m.emptyExtensions { hello.addU16(0) } } } m.raw = handshakeMsg.finish() return m.raw } 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]) vers, ok := wireToVersion(m.vers, m.isDTLS) if !ok { return false } m.random = data[6:38] data = data[38:] if vers < VersionTLS13 || m.vers == tls13ExperimentVersion { sessionIdLen := int(data[0]) if sessionIdLen > 32 || len(data) < 1+sessionIdLen { return false } m.sessionId = data[1 : 1+sessionIdLen] data = data[1+sessionIdLen:] } if len(data) < 2 { return false } m.cipherSuite = uint16(data[0])<<8 | uint16(data[1]) data = data[2:] if vers < VersionTLS13 || m.vers == tls13ExperimentVersion { if len(data) < 1 { return false } m.compressionMethod = data[0] data = data[1:] } if len(data) == 0 && m.vers < VersionTLS13 { // Extension data is optional before TLS 1.3. m.extensions = serverExtensions{} 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 } // Parse out the version from supported_versions if available. if m.vers == VersionTLS12 { vdata := data for len(vdata) != 0 { if len(vdata) < 4 { return false } extension := uint16(vdata[0])<<8 | uint16(vdata[1]) length := int(vdata[2])<<8 | int(vdata[3]) vdata = vdata[4:] if len(vdata) < length { return false } d := vdata[:length] vdata = vdata[length:] if extension == extensionSupportedVersions { if len(d) < 2 { return false } m.vers = uint16(d[0])<<8 | uint16(d[1]) vers, ok = wireToVersion(m.vers, m.isDTLS) if !ok { return false } } } } if vers >= VersionTLS13 { 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 } d := data[:length] data = data[length:] switch extension { case extensionKeyShare: m.hasKeyShare = true if len(d) < 4 { return false } m.keyShare.group = CurveID(uint16(d[0])<<8 | uint16(d[1])) keyExchLen := int(d[2])<<8 | int(d[3]) if keyExchLen != len(d)-4 { return false } m.keyShare.keyExchange = make([]byte, keyExchLen) copy(m.keyShare.keyExchange, d[4:]) case extensionPreSharedKey: if len(d) != 2 { return false } m.pskIdentity = uint16(d[0])<<8 | uint16(d[1]) m.hasPSKIdentity = true case extensionSupportedVersions: if m.vers != tls13ExperimentVersion { return false } default: // Only allow the 3 extensions that are sent in // the clear in TLS 1.3. return false } } } else if !m.extensions.unmarshal(data, vers) { return false } return true } type encryptedExtensionsMsg struct { raw []byte extensions serverExtensions empty bool } func (m *encryptedExtensionsMsg) marshal() []byte { if m.raw != nil { return m.raw } encryptedExtensionsMsg := newByteBuilder() encryptedExtensionsMsg.addU8(typeEncryptedExtensions) encryptedExtensions := encryptedExtensionsMsg.addU24LengthPrefixed() if !m.empty { extensions := encryptedExtensions.addU16LengthPrefixed() m.extensions.marshal(extensions) } m.raw = encryptedExtensionsMsg.finish() return m.raw } func (m *encryptedExtensionsMsg) unmarshal(data []byte) bool { m.raw = data if len(data) < 6 { return false } if data[0] != typeEncryptedExtensions { return false } msgLen := int(data[1])<<16 | int(data[2])<<8 | int(data[3]) data = data[4:] if len(data) != msgLen { return false } extLen := int(data[0])<<8 | int(data[1]) data = data[2:] if extLen != len(data) { return false } return m.extensions.unmarshal(data, VersionTLS13) } type serverExtensions struct { nextProtoNeg bool nextProtos []string ocspStapling bool ticketSupported bool secureRenegotiation []byte alpnProtocol string alpnProtocolEmpty bool duplicateExtension bool channelIDRequested bool extendedMasterSecret bool srtpProtectionProfile uint16 srtpMasterKeyIdentifier string sctList []byte customExtension string npnAfterAlpn bool hasKeyShare bool hasEarlyData bool keyShare keyShareEntry supportedVersion uint16 supportedPoints []uint8 serverNameAck bool } func (m *serverExtensions) marshal(extensions *byteBuilder) { if m.duplicateExtension { // Add a duplicate bogus extension at the beginning and end. extensions.addU16(0xffff) extensions.addU16(0) // length = 0 for empty extension } if m.nextProtoNeg && !m.npnAfterAlpn { extensions.addU16(extensionNextProtoNeg) extension := extensions.addU16LengthPrefixed() for _, v := range m.nextProtos { if len(v) > 255 { v = v[:255] } npn := extension.addU8LengthPrefixed() npn.addBytes([]byte(v)) } } if m.ocspStapling { extensions.addU16(extensionStatusRequest) extensions.addU16(0) } if m.ticketSupported { extensions.addU16(extensionSessionTicket) extensions.addU16(0) } if m.secureRenegotiation != nil { extensions.addU16(extensionRenegotiationInfo) extension := extensions.addU16LengthPrefixed() secureRenego := extension.addU8LengthPrefixed() secureRenego.addBytes(m.secureRenegotiation) } if len(m.alpnProtocol) > 0 || m.alpnProtocolEmpty { extensions.addU16(extensionALPN) extension := extensions.addU16LengthPrefixed() protocolNameList := extension.addU16LengthPrefixed() protocolName := protocolNameList.addU8LengthPrefixed() protocolName.addBytes([]byte(m.alpnProtocol)) } if m.channelIDRequested { extensions.addU16(extensionChannelID) extensions.addU16(0) } if m.duplicateExtension { // Add a duplicate bogus extension at the beginning and end. extensions.addU16(0xffff) extensions.addU16(0) } if m.extendedMasterSecret { extensions.addU16(extensionExtendedMasterSecret) extensions.addU16(0) } if m.srtpProtectionProfile != 0 { extensions.addU16(extensionUseSRTP) extension := extensions.addU16LengthPrefixed() srtpProtectionProfiles := extension.addU16LengthPrefixed() srtpProtectionProfiles.addU8(byte(m.srtpProtectionProfile >> 8)) srtpProtectionProfiles.addU8(byte(m.srtpProtectionProfile)) srtpMki := extension.addU8LengthPrefixed() srtpMki.addBytes([]byte(m.srtpMasterKeyIdentifier)) } if m.sctList != nil { extensions.addU16(extensionSignedCertificateTimestamp) extension := extensions.addU16LengthPrefixed() extension.addBytes(m.sctList) } if l := len(m.customExtension); l > 0 { extensions.addU16(extensionCustom) customExt := extensions.addU16LengthPrefixed() customExt.addBytes([]byte(m.customExtension)) } if m.nextProtoNeg && m.npnAfterAlpn { extensions.addU16(extensionNextProtoNeg) extension := extensions.addU16LengthPrefixed() for _, v := range m.nextProtos { if len(v) > 255 { v = v[0:255] } npn := extension.addU8LengthPrefixed() npn.addBytes([]byte(v)) } } if m.hasKeyShare { extensions.addU16(extensionKeyShare) keyShare := extensions.addU16LengthPrefixed() keyShare.addU16(uint16(m.keyShare.group)) keyExchange := keyShare.addU16LengthPrefixed() keyExchange.addBytes(m.keyShare.keyExchange) } if m.supportedVersion != 0 { extensions.addU16(extensionSupportedVersions) extensions.addU16(2) // Length extensions.addU16(m.supportedVersion) } if len(m.supportedPoints) > 0 { // http://tools.ietf.org/html/rfc4492#section-5.1.2 extensions.addU16(extensionSupportedPoints) supportedPointsList := extensions.addU16LengthPrefixed() supportedPoints := supportedPointsList.addU8LengthPrefixed() supportedPoints.addBytes(m.supportedPoints) } if m.hasEarlyData { extensions.addU16(extensionEarlyData) extensions.addBytes([]byte{0, 0}) } if m.serverNameAck { extensions.addU16(extensionServerName) extensions.addU16(0) // zero length } } func (m *serverExtensions) unmarshal(data []byte, version uint16) bool { // Reset all fields. *m = serverExtensions{} 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 < 1 || length != int(data[0])+1 { return false } m.secureRenegotiation = data[1:length] 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:] m.alpnProtocol = string(d) m.alpnProtocolEmpty = len(d) == 0 case extensionChannelID: if length > 0 { return false } m.channelIDRequested = true case extensionExtendedMasterSecret: if length != 0 { return false } m.extendedMasterSecret = true case extensionUseSRTP: if length < 2+2+1 { return false } if data[0] != 0 || data[1] != 2 { return false } m.srtpProtectionProfile = uint16(data[2])<<8 | uint16(data[3]) d := data[4:length] l := int(d[0]) if l != len(d)-1 { return false } m.srtpMasterKeyIdentifier = string(d[1:]) case extensionSignedCertificateTimestamp: m.sctList = data[:length] case extensionCustom: m.customExtension = string(data[:length]) case extensionServerName: if length != 0 { return false } m.serverNameAck = true case extensionSupportedPoints: // supported_points is illegal in TLS 1.3. if version >= VersionTLS13 { return false } // 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 = data[1 : 1+l] case extensionSupportedCurves: // The server can only send supported_curves in TLS 1.3. if version < VersionTLS13 { return false } case extensionEarlyData: if version < VersionTLS13 || length != 0 { return false } m.hasEarlyData = true default: // Unknown extensions are illegal from the server. return false } data = data[length:] } return true } type helloRetryRequestMsg struct { raw []byte vers uint16 hasSelectedGroup bool selectedGroup CurveID cookie []byte customExtension string duplicateExtensions bool } func (m *helloRetryRequestMsg) marshal() []byte { if m.raw != nil { return m.raw } retryRequestMsg := newByteBuilder() retryRequestMsg.addU8(typeHelloRetryRequest) retryRequest := retryRequestMsg.addU24LengthPrefixed() retryRequest.addU16(m.vers) extensions := retryRequest.addU16LengthPrefixed() count := 1 if m.duplicateExtensions { count = 2 } for i := 0; i < count; i++ { if m.hasSelectedGroup { extensions.addU16(extensionKeyShare) extensions.addU16(2) // length extensions.addU16(uint16(m.selectedGroup)) } if len(m.cookie) > 0 { extensions.addU16(extensionCookie) body := extensions.addU16LengthPrefixed() body.addU16LengthPrefixed().addBytes(m.cookie) } if len(m.customExtension) > 0 { extensions.addU16(extensionCustom) extensions.addU16LengthPrefixed().addBytes([]byte(m.customExtension)) } } m.raw = retryRequestMsg.finish() return m.raw } func (m *helloRetryRequestMsg) unmarshal(data []byte) bool { m.raw = data if len(data) < 8 { return false } m.vers = uint16(data[4])<<8 | uint16(data[5]) extLen := int(data[6])<<8 | int(data[7]) data = data[8:] if len(data) != extLen || len(data) == 0 { 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 extensionKeyShare: if length != 2 { return false } m.hasSelectedGroup = true m.selectedGroup = CurveID(data[0])<<8 | CurveID(data[1]) case extensionCookie: if length < 2 { return false } cookieLen := int(data[0])<<8 | int(data[1]) if 2+cookieLen != length { return false } m.cookie = data[2 : 2+cookieLen] default: // Unknown extensions are illegal from the server. return false } data = data[length:] } return true } type certificateEntry struct { data []byte ocspResponse []byte sctList []byte duplicateExtensions bool extraExtension []byte } type certificateMsg struct { raw []byte hasRequestContext bool requestContext []byte certificates []certificateEntry } func (m *certificateMsg) marshal() (x []byte) { if m.raw != nil { return m.raw } certMsg := newByteBuilder() certMsg.addU8(typeCertificate) certificate := certMsg.addU24LengthPrefixed() if m.hasRequestContext { context := certificate.addU8LengthPrefixed() context.addBytes(m.requestContext) } certificateList := certificate.addU24LengthPrefixed() for _, cert := range m.certificates { certEntry := certificateList.addU24LengthPrefixed() certEntry.addBytes(cert.data) if m.hasRequestContext { extensions := certificateList.addU16LengthPrefixed() count := 1 if cert.duplicateExtensions { count = 2 } for i := 0; i < count; i++ { if cert.ocspResponse != nil { extensions.addU16(extensionStatusRequest) body := extensions.addU16LengthPrefixed() body.addU8(statusTypeOCSP) response := body.addU24LengthPrefixed() response.addBytes(cert.ocspResponse) } if cert.sctList != nil { extensions.addU16(extensionSignedCertificateTimestamp) extension := extensions.addU16LengthPrefixed() extension.addBytes(cert.sctList) } } if cert.extraExtension != nil { extensions.addBytes(cert.extraExtension) } } } m.raw = certMsg.finish() return m.raw } func (m *certificateMsg) unmarshal(data []byte) bool { if len(data) < 4 { return false } m.raw = data data = data[4:] if m.hasRequestContext { if len(data) == 0 { return false } contextLen := int(data[0]) if len(data) < 1+contextLen { return false } m.requestContext = make([]byte, contextLen) copy(m.requestContext, data[1:]) data = data[1+contextLen:] } if len(data) < 3 { return false } certsLen := int(data[0])<<16 | int(data[1])<<8 | int(data[2]) data = data[3:] if len(data) != certsLen { return false } m.certificates = nil for len(data) != 0 { if len(data) < 3 { return false } certLen := int(data[0])<<16 | int(data[1])<<8 | int(data[2]) if len(data) < 3+certLen { return false } cert := certificateEntry{ data: data[3 : 3+certLen], } data = data[3+certLen:] if m.hasRequestContext { if len(data) < 2 { return false } extensionsLen := int(data[0])<<8 | int(data[1]) if len(data) < 2+extensionsLen { return false } extensions := data[2 : 2+extensionsLen] data = data[2+extensionsLen:] for len(extensions) != 0 { if len(extensions) < 4 { return false } extension := uint16(extensions[0])<<8 | uint16(extensions[1]) length := int(extensions[2])<<8 | int(extensions[3]) if len(extensions) < 4+length { return false } contents := extensions[4 : 4+length] extensions = extensions[4+length:] switch extension { case extensionStatusRequest: if length < 4 { return false } if contents[0] != statusTypeOCSP { return false } respLen := int(contents[1])<<16 | int(contents[2])<<8 | int(contents[3]) if respLen+4 != len(contents) || respLen == 0 { return false } cert.ocspResponse = contents[4:] case extensionSignedCertificateTimestamp: cert.sctList = contents default: return false } } } m.certificates = append(m.certificates, cert) } return true } type serverKeyExchangeMsg struct { raw []byte key []byte } 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) 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) 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) 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) 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) 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 // hasSignatureAlgorithm indicates whether this message includes a list // of signature and hash functions. This change was introduced with TLS // 1.2. hasSignatureAlgorithm bool // hasRequestContext indicates whether this message includes a context // field instead of certificateTypes. This change was introduced with // TLS 1.3. hasRequestContext bool certificateTypes []byte requestContext []byte signatureAlgorithms []signatureAlgorithm certificateAuthorities [][]byte } func (m *certificateRequestMsg) marshal() []byte { if m.raw != nil { return m.raw } // See http://tools.ietf.org/html/rfc4346#section-7.4.4 builder := newByteBuilder() builder.addU8(typeCertificateRequest) body := builder.addU24LengthPrefixed() if m.hasRequestContext { requestContext := body.addU8LengthPrefixed() requestContext.addBytes(m.requestContext) } else { certificateTypes := body.addU8LengthPrefixed() certificateTypes.addBytes(m.certificateTypes) } if m.hasSignatureAlgorithm { signatureAlgorithms := body.addU16LengthPrefixed() for _, sigAlg := range m.signatureAlgorithms { signatureAlgorithms.addU16(uint16(sigAlg)) } } certificateAuthorities := body.addU16LengthPrefixed() for _, ca := range m.certificateAuthorities { caEntry := certificateAuthorities.addU16LengthPrefixed() caEntry.addBytes(ca) } if m.hasRequestContext { // Emit no certificate extensions. body.addU16(0) } m.raw = builder.finish() return m.raw } func (m *certificateRequestMsg) unmarshal(data []byte) bool { m.raw = data if len(data) < 5 { return false } data = data[4:] if m.hasRequestContext { contextLen := int(data[0]) if len(data) < 1+contextLen { return false } m.requestContext = make([]byte, contextLen) copy(m.requestContext, data[1:]) data = data[1+contextLen:] } else { numCertTypes := int(data[0]) if len(data) < 1+numCertTypes { return false } m.certificateTypes = make([]byte, numCertTypes) copy(m.certificateTypes, data[1:]) data = data[1+numCertTypes:] } if m.hasSignatureAlgorithm { if len(data) < 2 { return false } sigAlgsLen := uint16(data[0])<<8 | uint16(data[1]) data = data[2:] if sigAlgsLen&1 != 0 { return false } if len(data) < int(sigAlgsLen) { return false } numSigAlgs := sigAlgsLen / 2 m.signatureAlgorithms = make([]signatureAlgorithm, numSigAlgs) for i := range m.signatureAlgorithms { m.signatureAlgorithms[i] = signatureAlgorithm(data[0])<<8 | signatureAlgorithm(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:] } if m.hasRequestContext { // Ignore certificate extensions. if len(data) < 2 { return false } extsLength := int(data[0])<<8 | int(data[1]) if len(data) < 2+extsLength { return false } data = data[2+extsLength:] } if len(data) > 0 { return false } return true } type certificateVerifyMsg struct { raw []byte hasSignatureAlgorithm bool signatureAlgorithm signatureAlgorithm signature []byte } 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.hasSignatureAlgorithm { 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.hasSignatureAlgorithm { y[0] = byte(m.signatureAlgorithm >> 8) y[1] = byte(m.signatureAlgorithm) 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.hasSignatureAlgorithm { m.signatureAlgorithm = signatureAlgorithm(data[0])<<8 | signatureAlgorithm(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 version uint16 ticketLifetime uint32 ticketAgeAdd uint32 ticket []byte maxEarlyDataSize uint32 customExtension string duplicateEarlyDataInfo bool hasGREASEExtension bool } func (m *newSessionTicketMsg) marshal() []byte { if m.raw != nil { return m.raw } // See http://tools.ietf.org/html/rfc5077#section-3.3 ticketMsg := newByteBuilder() ticketMsg.addU8(typeNewSessionTicket) body := ticketMsg.addU24LengthPrefixed() body.addU32(m.ticketLifetime) if m.version >= VersionTLS13 { body.addU32(m.ticketAgeAdd) } ticket := body.addU16LengthPrefixed() ticket.addBytes(m.ticket) if m.version >= VersionTLS13 { extensions := body.addU16LengthPrefixed() if m.maxEarlyDataSize > 0 { extensions.addU16(extensionTicketEarlyDataInfo) extensions.addU16LengthPrefixed().addU32(m.maxEarlyDataSize) if m.duplicateEarlyDataInfo { extensions.addU16(extensionTicketEarlyDataInfo) extensions.addU16LengthPrefixed().addU32(m.maxEarlyDataSize) } } if len(m.customExtension) > 0 { extensions.addU16(extensionCustom) extensions.addU16LengthPrefixed().addBytes([]byte(m.customExtension)) } } m.raw = ticketMsg.finish() return m.raw } func (m *newSessionTicketMsg) unmarshal(data []byte) bool { m.raw = data if len(data) < 8 { return false } m.ticketLifetime = uint32(data[4])<<24 | uint32(data[5])<<16 | uint32(data[6])<<8 | uint32(data[7]) data = data[8:] if m.version >= VersionTLS13 { if len(data) < 4 { return false } m.ticketAgeAdd = uint32(data[0])<<24 | uint32(data[1])<<16 | uint32(data[2])<<8 | uint32(data[3]) data = data[4:] } if len(data) < 2 { return false } ticketLen := int(data[0])<<8 + int(data[1]) data = data[2:] if len(data) < ticketLen { return false } if m.version >= VersionTLS13 && ticketLen == 0 { return false } m.ticket = data[:ticketLen] data = data[ticketLen:] if m.version >= VersionTLS13 { 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 extensionTicketEarlyDataInfo: if length != 4 { return false } m.maxEarlyDataSize = uint32(data[0])<<24 | uint32(data[1])<<16 | uint32(data[2])<<8 | uint32(data[3]) default: if isGREASEValue(extension) { m.hasGREASEExtension = true } } data = data[length:] } } if len(data) > 0 { return false } return true } type v2ClientHelloMsg struct { raw []byte vers uint16 cipherSuites []uint16 sessionId []byte challenge []byte } func (m *v2ClientHelloMsg) marshal() []byte { if m.raw != nil { return m.raw } length := 1 + 2 + 2 + 2 + 2 + len(m.cipherSuites)*3 + len(m.sessionId) + len(m.challenge) x := make([]byte, length) x[0] = 1 x[1] = uint8(m.vers >> 8) x[2] = uint8(m.vers) x[3] = uint8((len(m.cipherSuites) * 3) >> 8) x[4] = uint8(len(m.cipherSuites) * 3) x[5] = uint8(len(m.sessionId) >> 8) x[6] = uint8(len(m.sessionId)) x[7] = uint8(len(m.challenge) >> 8) x[8] = uint8(len(m.challenge)) y := x[9:] for i, spec := range m.cipherSuites { y[i*3] = 0 y[i*3+1] = uint8(spec >> 8) y[i*3+2] = uint8(spec) } y = y[len(m.cipherSuites)*3:] copy(y, m.sessionId) y = y[len(m.sessionId):] copy(y, m.challenge) m.raw = x return x } type helloVerifyRequestMsg struct { raw []byte vers uint16 cookie []byte } func (m *helloVerifyRequestMsg) marshal() []byte { if m.raw != nil { return m.raw } length := 2 + 1 + len(m.cookie) x := make([]byte, 4+length) x[0] = typeHelloVerifyRequest x[1] = uint8(length >> 16) x[2] = uint8(length >> 8) x[3] = uint8(length) vers := m.vers x[4] = uint8(vers >> 8) x[5] = uint8(vers) x[6] = uint8(len(m.cookie)) copy(x[7:7+len(m.cookie)], m.cookie) return x } func (m *helloVerifyRequestMsg) unmarshal(data []byte) bool { if len(data) < 4+2+1 { return false } m.raw = data m.vers = uint16(data[4])<<8 | uint16(data[5]) cookieLen := int(data[6]) if cookieLen > 32 || len(data) != 7+cookieLen { return false } m.cookie = data[7 : 7+cookieLen] return true } type channelIDMsg struct { raw []byte channelID []byte } func (m *channelIDMsg) marshal() []byte { if m.raw != nil { return m.raw } length := 2 + 2 + len(m.channelID) x := make([]byte, 4+length) x[0] = typeChannelID x[1] = uint8(length >> 16) x[2] = uint8(length >> 8) x[3] = uint8(length) x[4] = uint8(extensionChannelID >> 8) x[5] = uint8(extensionChannelID & 0xff) x[6] = uint8(len(m.channelID) >> 8) x[7] = uint8(len(m.channelID) & 0xff) copy(x[8:], m.channelID) return x } func (m *channelIDMsg) unmarshal(data []byte) bool { if len(data) != 4+2+2+128 { return false } m.raw = data if (uint16(data[4])<<8)|uint16(data[5]) != extensionChannelID { return false } if int(data[6])<<8|int(data[7]) != 128 { return false } m.channelID = data[4+2+2:] 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 } type keyUpdateMsg struct { raw []byte keyUpdateRequest byte } func (m *keyUpdateMsg) marshal() []byte { if m.raw != nil { return m.raw } return []byte{typeKeyUpdate, 0, 0, 1, m.keyUpdateRequest} } func (m *keyUpdateMsg) unmarshal(data []byte) bool { m.raw = data if len(data) != 5 { return false } length := int(data[1])<<16 | int(data[2])<<8 | int(data[3]) if len(data)-4 != length { return false } m.keyUpdateRequest = data[4] return m.keyUpdateRequest == keyUpdateNotRequested || m.keyUpdateRequest == keyUpdateRequested } // ssl3NoCertificateMsg is a dummy message to handle SSL 3.0 using a warning // alert in the handshake. type ssl3NoCertificateMsg struct{} 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 eqSignatureAlgorithms(x, y []signatureAlgorithm) bool { if len(x) != len(y) { return false } for i, v := range x { v2 := y[i] if v != v2 { return false } } return true } func eqKeyShareEntryLists(x, y []keyShareEntry) bool { if len(x) != len(y) { return false } for i, v := range x { if y[i].group != v.group || !bytes.Equal(y[i].keyExchange, v.keyExchange) { return false } } return true } func eqPSKIdentityLists(x, y []pskIdentity) bool { if len(x) != len(y) { return false } for i, v := range x { if !bytes.Equal(y[i].ticket, v.ticket) || y[i].obfuscatedTicketAge != v.obfuscatedTicketAge { return false } } return true }