c78aa4a351
deriveTrafficAEAD gets confused by the EnableAllCiphers bug. As a hack, just return the nil cipher. We only need to progress far enough to read the shim's error code. Change-Id: I72d25ac463a03a0e99dd08c38a1a7daef1f94311 Reviewed-on: https://boringssl-review.googlesource.com/8763 Commit-Queue: David Benjamin <davidben@google.com> Reviewed-by: Steven Valdez <svaldez@google.com> Reviewed-by: David Benjamin <davidben@google.com>
496 lines
15 KiB
Go
496 lines
15 KiB
Go
// Copyright 2009 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package runner
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import (
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"crypto"
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"crypto/hmac"
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"crypto/md5"
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"crypto/sha1"
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"crypto/sha256"
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"hash"
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)
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// Split a premaster secret in two as specified in RFC 4346, section 5.
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func splitPreMasterSecret(secret []byte) (s1, s2 []byte) {
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s1 = secret[0 : (len(secret)+1)/2]
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s2 = secret[len(secret)/2:]
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return
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}
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// pHash implements the P_hash function, as defined in RFC 4346, section 5.
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func pHash(result, secret, seed []byte, hash func() hash.Hash) {
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h := hmac.New(hash, secret)
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h.Write(seed)
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a := h.Sum(nil)
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j := 0
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for j < len(result) {
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h.Reset()
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h.Write(a)
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h.Write(seed)
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b := h.Sum(nil)
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todo := len(b)
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if j+todo > len(result) {
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todo = len(result) - j
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}
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copy(result[j:j+todo], b)
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j += todo
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h.Reset()
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h.Write(a)
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a = h.Sum(nil)
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}
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}
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// prf10 implements the TLS 1.0 pseudo-random function, as defined in RFC 2246, section 5.
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func prf10(result, secret, label, seed []byte) {
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hashSHA1 := sha1.New
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hashMD5 := md5.New
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labelAndSeed := make([]byte, len(label)+len(seed))
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copy(labelAndSeed, label)
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copy(labelAndSeed[len(label):], seed)
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s1, s2 := splitPreMasterSecret(secret)
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pHash(result, s1, labelAndSeed, hashMD5)
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result2 := make([]byte, len(result))
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pHash(result2, s2, labelAndSeed, hashSHA1)
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for i, b := range result2 {
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result[i] ^= b
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}
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}
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// prf12 implements the TLS 1.2 pseudo-random function, as defined in RFC 5246, section 5.
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func prf12(hashFunc func() hash.Hash) func(result, secret, label, seed []byte) {
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return func(result, secret, label, seed []byte) {
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labelAndSeed := make([]byte, len(label)+len(seed))
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copy(labelAndSeed, label)
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copy(labelAndSeed[len(label):], seed)
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pHash(result, secret, labelAndSeed, hashFunc)
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}
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}
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// prf30 implements the SSL 3.0 pseudo-random function, as defined in
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// www.mozilla.org/projects/security/pki/nss/ssl/draft302.txt section 6.
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func prf30(result, secret, label, seed []byte) {
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hashSHA1 := sha1.New()
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hashMD5 := md5.New()
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done := 0
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i := 0
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// RFC5246 section 6.3 says that the largest PRF output needed is 128
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// bytes. Since no more ciphersuites will be added to SSLv3, this will
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// remain true. Each iteration gives us 16 bytes so 10 iterations will
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// be sufficient.
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var b [11]byte
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for done < len(result) {
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for j := 0; j <= i; j++ {
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b[j] = 'A' + byte(i)
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}
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hashSHA1.Reset()
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hashSHA1.Write(b[:i+1])
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hashSHA1.Write(secret)
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hashSHA1.Write(seed)
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digest := hashSHA1.Sum(nil)
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hashMD5.Reset()
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hashMD5.Write(secret)
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hashMD5.Write(digest)
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done += copy(result[done:], hashMD5.Sum(nil))
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i++
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}
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}
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const (
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tlsRandomLength = 32 // Length of a random nonce in TLS 1.1.
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masterSecretLength = 48 // Length of a master secret in TLS 1.1.
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finishedVerifyLength = 12 // Length of verify_data in a Finished message.
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)
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var masterSecretLabel = []byte("master secret")
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var extendedMasterSecretLabel = []byte("extended master secret")
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var keyExpansionLabel = []byte("key expansion")
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var clientFinishedLabel = []byte("client finished")
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var serverFinishedLabel = []byte("server finished")
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var channelIDLabel = []byte("TLS Channel ID signature\x00")
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var channelIDResumeLabel = []byte("Resumption\x00")
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func prfForVersion(version uint16, suite *cipherSuite) func(result, secret, label, seed []byte) {
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switch version {
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case VersionSSL30:
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return prf30
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case VersionTLS10, VersionTLS11:
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return prf10
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// TODO(nharper): VersionTLS13 is in the case statement below only to
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// support Fake TLS 1.3. Real TLS 1.3 should never call this function.
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// Once we no longer support Fake TLS 1.3, the VersionTLS13 should be
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// removed from this case statement.
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case VersionTLS12, VersionTLS13:
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if version == VersionTLS12 || !enableTLS13Handshake {
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return prf12(suite.hash().New)
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}
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}
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panic("unknown version")
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}
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// masterFromPreMasterSecret generates the master secret from the pre-master
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// secret. See http://tools.ietf.org/html/rfc5246#section-8.1
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func masterFromPreMasterSecret(version uint16, suite *cipherSuite, preMasterSecret, clientRandom, serverRandom []byte) []byte {
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var seed [tlsRandomLength * 2]byte
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copy(seed[0:len(clientRandom)], clientRandom)
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copy(seed[len(clientRandom):], serverRandom)
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masterSecret := make([]byte, masterSecretLength)
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prfForVersion(version, suite)(masterSecret, preMasterSecret, masterSecretLabel, seed[0:])
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return masterSecret
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}
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// extendedMasterFromPreMasterSecret generates the master secret from the
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// pre-master secret when the Triple Handshake fix is in effect. See
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// https://tools.ietf.org/html/rfc7627
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func extendedMasterFromPreMasterSecret(version uint16, suite *cipherSuite, preMasterSecret []byte, h finishedHash) []byte {
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masterSecret := make([]byte, masterSecretLength)
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prfForVersion(version, suite)(masterSecret, preMasterSecret, extendedMasterSecretLabel, h.Sum())
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return masterSecret
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}
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// keysFromMasterSecret generates the connection keys from the master
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// secret, given the lengths of the MAC key, cipher key and IV, as defined in
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// RFC 2246, section 6.3.
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func keysFromMasterSecret(version uint16, suite *cipherSuite, masterSecret, clientRandom, serverRandom []byte, macLen, keyLen, ivLen int) (clientMAC, serverMAC, clientKey, serverKey, clientIV, serverIV []byte) {
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var seed [tlsRandomLength * 2]byte
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copy(seed[0:len(clientRandom)], serverRandom)
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copy(seed[len(serverRandom):], clientRandom)
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n := 2*macLen + 2*keyLen + 2*ivLen
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keyMaterial := make([]byte, n)
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prfForVersion(version, suite)(keyMaterial, masterSecret, keyExpansionLabel, seed[0:])
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clientMAC = keyMaterial[:macLen]
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keyMaterial = keyMaterial[macLen:]
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serverMAC = keyMaterial[:macLen]
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keyMaterial = keyMaterial[macLen:]
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clientKey = keyMaterial[:keyLen]
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keyMaterial = keyMaterial[keyLen:]
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serverKey = keyMaterial[:keyLen]
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keyMaterial = keyMaterial[keyLen:]
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clientIV = keyMaterial[:ivLen]
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keyMaterial = keyMaterial[ivLen:]
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serverIV = keyMaterial[:ivLen]
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return
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}
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func newFinishedHash(version uint16, cipherSuite *cipherSuite) finishedHash {
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var ret finishedHash
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if version >= VersionTLS12 {
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ret.hash = cipherSuite.hash()
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ret.client = ret.hash.New()
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ret.server = ret.hash.New()
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if version == VersionTLS12 || !enableTLS13Handshake {
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ret.prf = prf12(ret.hash.New)
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}
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} else {
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ret.hash = crypto.MD5SHA1
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ret.client = sha1.New()
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ret.server = sha1.New()
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ret.clientMD5 = md5.New()
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ret.serverMD5 = md5.New()
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ret.prf = prf10
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}
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ret.buffer = []byte{}
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ret.version = version
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return ret
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}
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// A finishedHash calculates the hash of a set of handshake messages suitable
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// for including in a Finished message.
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type finishedHash struct {
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hash crypto.Hash
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client hash.Hash
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server hash.Hash
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// Prior to TLS 1.2, an additional MD5 hash is required.
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clientMD5 hash.Hash
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serverMD5 hash.Hash
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// In TLS 1.2 (and SSL 3 for implementation convenience), a
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// full buffer is required.
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buffer []byte
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// TLS 1.3 has a resumption context which is carried over on PSK
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// resumption.
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resumptionContextHash []byte
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version uint16
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prf func(result, secret, label, seed []byte)
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}
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func (h *finishedHash) Write(msg []byte) (n int, err error) {
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h.client.Write(msg)
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h.server.Write(msg)
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if h.version < VersionTLS12 {
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h.clientMD5.Write(msg)
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h.serverMD5.Write(msg)
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}
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if h.buffer != nil {
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h.buffer = append(h.buffer, msg...)
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}
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return len(msg), nil
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}
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func (h finishedHash) Sum() []byte {
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if h.version >= VersionTLS12 {
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return h.client.Sum(nil)
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}
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out := make([]byte, 0, md5.Size+sha1.Size)
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out = h.clientMD5.Sum(out)
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return h.client.Sum(out)
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}
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// finishedSum30 calculates the contents of the verify_data member of a SSLv3
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// Finished message given the MD5 and SHA1 hashes of a set of handshake
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// messages.
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func finishedSum30(md5, sha1 hash.Hash, masterSecret []byte, magic []byte) []byte {
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md5.Write(magic)
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md5.Write(masterSecret)
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md5.Write(ssl30Pad1[:])
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md5Digest := md5.Sum(nil)
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md5.Reset()
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md5.Write(masterSecret)
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md5.Write(ssl30Pad2[:])
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md5.Write(md5Digest)
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md5Digest = md5.Sum(nil)
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sha1.Write(magic)
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sha1.Write(masterSecret)
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sha1.Write(ssl30Pad1[:40])
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sha1Digest := sha1.Sum(nil)
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sha1.Reset()
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sha1.Write(masterSecret)
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sha1.Write(ssl30Pad2[:40])
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sha1.Write(sha1Digest)
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sha1Digest = sha1.Sum(nil)
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ret := make([]byte, len(md5Digest)+len(sha1Digest))
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copy(ret, md5Digest)
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copy(ret[len(md5Digest):], sha1Digest)
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return ret
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}
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var ssl3ClientFinishedMagic = [4]byte{0x43, 0x4c, 0x4e, 0x54}
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var ssl3ServerFinishedMagic = [4]byte{0x53, 0x52, 0x56, 0x52}
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// clientSum returns the contents of the verify_data member of a client's
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// Finished message.
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func (h finishedHash) clientSum(baseKey []byte) []byte {
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if h.version == VersionSSL30 {
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return finishedSum30(h.clientMD5, h.client, baseKey, ssl3ClientFinishedMagic[:])
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}
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if h.version < VersionTLS13 || !enableTLS13Handshake {
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out := make([]byte, finishedVerifyLength)
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h.prf(out, baseKey, clientFinishedLabel, h.Sum())
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return out
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}
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clientFinishedKey := hkdfExpandLabel(h.hash, baseKey, clientFinishedLabel, nil, h.hash.Size())
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finishedHMAC := hmac.New(h.hash.New, clientFinishedKey)
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finishedHMAC.Write(h.appendContextHashes(nil))
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return finishedHMAC.Sum(nil)
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}
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// serverSum returns the contents of the verify_data member of a server's
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// Finished message.
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func (h finishedHash) serverSum(baseKey []byte) []byte {
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if h.version == VersionSSL30 {
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return finishedSum30(h.serverMD5, h.server, baseKey, ssl3ServerFinishedMagic[:])
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}
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if h.version < VersionTLS13 || !enableTLS13Handshake {
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out := make([]byte, finishedVerifyLength)
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h.prf(out, baseKey, serverFinishedLabel, h.Sum())
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return out
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}
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serverFinishedKey := hkdfExpandLabel(h.hash, baseKey, serverFinishedLabel, nil, h.hash.Size())
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finishedHMAC := hmac.New(h.hash.New, serverFinishedKey)
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finishedHMAC.Write(h.appendContextHashes(nil))
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return finishedHMAC.Sum(nil)
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}
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// hashForClientCertificateSSL3 returns the hash to be signed for client
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// certificates in SSL 3.0.
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func (h finishedHash) hashForClientCertificateSSL3(masterSecret []byte) []byte {
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md5Hash := md5.New()
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md5Hash.Write(h.buffer)
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sha1Hash := sha1.New()
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sha1Hash.Write(h.buffer)
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return finishedSum30(md5Hash, sha1Hash, masterSecret, nil)
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}
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// hashForChannelID returns the hash to be signed for TLS Channel
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// ID. If a resumption, resumeHash has the previous handshake
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// hash. Otherwise, it is nil.
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func (h finishedHash) hashForChannelID(resumeHash []byte) []byte {
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hash := sha256.New()
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hash.Write(channelIDLabel)
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if resumeHash != nil {
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hash.Write(channelIDResumeLabel)
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hash.Write(resumeHash)
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}
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hash.Write(h.server.Sum(nil))
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return hash.Sum(nil)
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}
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// discardHandshakeBuffer is called when there is no more need to
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// buffer the entirety of the handshake messages.
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func (h *finishedHash) discardHandshakeBuffer() {
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h.buffer = nil
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}
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// zeroSecretTLS13 returns the default all zeros secret for TLS 1.3, used when a
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// given secret is not available in the handshake. See draft-ietf-tls-tls13-13,
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// section 7.1.
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func (h *finishedHash) zeroSecret() []byte {
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return make([]byte, h.hash.Size())
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}
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// setResumptionContext sets the TLS 1.3 resumption context.
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func (h *finishedHash) setResumptionContext(resumptionContext []byte) {
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hash := h.hash.New()
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hash.Write(resumptionContext)
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h.resumptionContextHash = hash.Sum(nil)
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}
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// extractKey combines two secrets together with HKDF-Expand in the TLS 1.3 key
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// derivation schedule.
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func (h *finishedHash) extractKey(salt, ikm []byte) []byte {
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return hkdfExtract(h.hash.New, salt, ikm)
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}
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// hkdfExpandLabel implements TLS 1.3's HKDF-Expand-Label function, as defined
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// in section 7.1 of draft-ietf-tls-tls13-13.
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func hkdfExpandLabel(hash crypto.Hash, secret, label, hashValue []byte, length int) []byte {
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if len(label) > 255 || len(hashValue) > 255 {
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panic("hkdfExpandLabel: label or hashValue too long")
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}
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hkdfLabel := make([]byte, 3+9+len(label)+1+len(hashValue))
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x := hkdfLabel
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x[0] = byte(length >> 8)
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x[1] = byte(length)
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x[2] = byte(9 + len(label))
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x = x[3:]
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copy(x, []byte("TLS 1.3, "))
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x = x[9:]
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copy(x, label)
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x = x[len(label):]
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x[0] = byte(len(hashValue))
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copy(x[1:], hashValue)
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return hkdfExpand(hash.New, secret, hkdfLabel, length)
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}
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// appendContextHashes returns the concatenation of the handshake hash and the
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// resumption context hash, as used in TLS 1.3.
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func (h *finishedHash) appendContextHashes(b []byte) []byte {
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b = h.client.Sum(b)
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b = append(b, h.resumptionContextHash...)
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return b
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}
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// The following are labels for traffic secret derivation in TLS 1.3.
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var (
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earlyTrafficLabel = []byte("early traffic secret")
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handshakeTrafficLabel = []byte("handshake traffic secret")
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applicationTrafficLabel = []byte("application traffic secret")
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exporterLabel = []byte("exporter master secret")
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resumptionLabel = []byte("resumption master secret")
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)
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// deriveSecret implements TLS 1.3's Derive-Secret function, as defined in
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// section 7.1 of draft ietf-tls-tls13-13.
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func (h *finishedHash) deriveSecret(secret, label []byte) []byte {
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if h.resumptionContextHash == nil {
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panic("Resumption context not set.")
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}
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return hkdfExpandLabel(h.hash, secret, label, h.appendContextHashes(nil), h.hash.Size())
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}
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// The following are context strings for CertificateVerify in TLS 1.3.
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var (
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clientCertificateVerifyContextTLS13 = []byte("TLS 1.3, client CertificateVerify")
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serverCertificateVerifyContextTLS13 = []byte("TLS 1.3, server CertificateVerify")
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)
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// certificateVerifyMessage returns the input to be signed for CertificateVerify
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// in TLS 1.3.
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func (h *finishedHash) certificateVerifyInput(context []byte) []byte {
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const paddingLen = 64
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b := make([]byte, paddingLen, paddingLen+len(context)+1+2*h.hash.Size())
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for i := 0; i < paddingLen; i++ {
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b[i] = 32
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}
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b = append(b, context...)
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b = append(b, 0)
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b = h.appendContextHashes(b)
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return b
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}
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// The following are phase values for traffic key derivation in TLS 1.3.
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var (
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earlyHandshakePhase = []byte("early handshake key expansion")
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earlyApplicationPhase = []byte("early application data key expansion")
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handshakePhase = []byte("handshake key expansion")
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applicationPhase = []byte("application data key expansion")
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)
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type trafficDirection int
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const (
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clientWrite trafficDirection = iota
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serverWrite
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)
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|
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// deriveTrafficAEAD derives traffic keys and constructs an AEAD given a traffic
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// secret.
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func deriveTrafficAEAD(version uint16, suite *cipherSuite, secret, phase []byte, side trafficDirection) interface{} {
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// We may have forcibly selected a non-AEAD cipher from the
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// EnableAllCiphers bug. Use the NULL cipher to avoid crashing the test.
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if suite.aead == nil {
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return nil
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}
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label := make([]byte, 0, len(phase)+2+16)
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label = append(label, phase...)
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if side == clientWrite {
|
|
label = append(label, []byte(", client write key")...)
|
|
} else {
|
|
label = append(label, []byte(", server write key")...)
|
|
}
|
|
key := hkdfExpandLabel(suite.hash(), secret, label, nil, suite.keyLen)
|
|
|
|
label = label[:len(label)-3] // Remove "key" from the end.
|
|
label = append(label, []byte("iv")...)
|
|
iv := hkdfExpandLabel(suite.hash(), secret, label, nil, suite.ivLen(version))
|
|
|
|
return suite.aead(version, key, iv)
|
|
}
|