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|
package main
import (
"errors"
"golang.org/x/crypto/blake2s"
"golang.org/x/crypto/chacha20poly1305"
"golang.org/x/crypto/poly1305"
"sync"
"time"
)
const (
HandshakeZeroed = iota
HandshakeInitiationCreated
HandshakeInitiationConsumed
HandshakeResponseCreated
HandshakeResponseConsumed
)
const (
NoiseConstruction = "Noise_IKpsk2_25519_ChaChaPoly_BLAKE2s"
WGIdentifier = "WireGuard v1 zx2c4 Jason@zx2c4.com"
WGLabelMAC1 = "mac1----"
WGLabelCookie = "cookie--"
)
const (
MessageInitiationType = 1
MessageResponseType = 2
MessageCookieReplyType = 3
MessageTransportType = 4
)
const (
MessageInitiationSize = 148
MessageResponseSize = 92
MessageCookieReplySize = 64
MessageTransportHeaderSize = 16
MessageTransportSize = MessageTransportHeaderSize + poly1305.TagSize // size of empty transport
)
const (
MessageTransportOffsetReceiver = 4
MessageTransportOffsetCounter = 8
MessageTransportOffsetContent = 16
)
/* Type is an 8-bit field, followed by 3 nul bytes,
* by marshalling the messages in little-endian byteorder
* we can treat these as a 32-bit unsigned int (for now)
*
*/
type MessageInitiation struct {
Type uint32
Sender uint32
Ephemeral NoisePublicKey
Static [NoisePublicKeySize + poly1305.TagSize]byte
Timestamp [TAI64NSize + poly1305.TagSize]byte
MAC1 [blake2s.Size128]byte
MAC2 [blake2s.Size128]byte
}
type MessageResponse struct {
Type uint32
Sender uint32
Receiver uint32
Ephemeral NoisePublicKey
Empty [poly1305.TagSize]byte
MAC1 [blake2s.Size128]byte
MAC2 [blake2s.Size128]byte
}
type MessageTransport struct {
Type uint32
Receiver uint32
Counter uint64
Content []byte
}
type MessageCookieReply struct {
Type uint32
Receiver uint32
Nonce [24]byte
Cookie [blake2s.Size128 + poly1305.TagSize]byte
}
type Handshake struct {
state int
mutex sync.RWMutex
hash [blake2s.Size]byte // hash value
chainKey [blake2s.Size]byte // chain key
presharedKey NoiseSymmetricKey // psk
localEphemeral NoisePrivateKey // ephemeral secret key
localIndex uint32 // used to clear hash-table
remoteIndex uint32 // index for sending
remoteStatic NoisePublicKey // long term key
remoteEphemeral NoisePublicKey // ephemeral public key
precomputedStaticStatic [NoisePublicKeySize]byte // precomputed shared secret
lastTimestamp TAI64N
}
var (
InitialChainKey [blake2s.Size]byte
InitialHash [blake2s.Size]byte
ZeroNonce [chacha20poly1305.NonceSize]byte
)
func mixKey(c [blake2s.Size]byte, data []byte) [blake2s.Size]byte {
return KDF1(c[:], data)
}
func mixHash(h [blake2s.Size]byte, data []byte) [blake2s.Size]byte {
return blake2s.Sum256(append(h[:], data...))
}
func (h *Handshake) mixHash(data []byte) {
h.hash = mixHash(h.hash, data)
}
func (h *Handshake) mixKey(data []byte) {
h.chainKey = mixKey(h.chainKey, data)
}
/* Do basic precomputations
*/
func init() {
InitialChainKey = blake2s.Sum256([]byte(NoiseConstruction))
InitialHash = mixHash(InitialChainKey, []byte(WGIdentifier))
}
func (device *Device) CreateMessageInitiation(peer *Peer) (*MessageInitiation, error) {
handshake := &peer.handshake
handshake.mutex.Lock()
defer handshake.mutex.Unlock()
// create ephemeral key
var err error
handshake.hash = InitialHash
handshake.chainKey = InitialChainKey
handshake.localEphemeral, err = newPrivateKey()
if err != nil {
return nil, err
}
// assign index
device.indices.Delete(handshake.localIndex)
handshake.localIndex, err = device.indices.NewIndex(peer)
if err != nil {
return nil, err
}
handshake.mixHash(handshake.remoteStatic[:])
msg := MessageInitiation{
Type: MessageInitiationType,
Ephemeral: handshake.localEphemeral.publicKey(),
Sender: handshake.localIndex,
}
handshake.mixKey(msg.Ephemeral[:])
handshake.mixHash(msg.Ephemeral[:])
// encrypt static key
func() {
var key [chacha20poly1305.KeySize]byte
ss := handshake.localEphemeral.sharedSecret(handshake.remoteStatic)
handshake.chainKey, key = KDF2(handshake.chainKey[:], ss[:])
aead, _ := chacha20poly1305.New(key[:])
aead.Seal(msg.Static[:0], ZeroNonce[:], device.publicKey[:], handshake.hash[:])
}()
handshake.mixHash(msg.Static[:])
// encrypt timestamp
timestamp := Timestamp()
func() {
var key [chacha20poly1305.KeySize]byte
handshake.chainKey, key = KDF2(
handshake.chainKey[:],
handshake.precomputedStaticStatic[:],
)
aead, _ := chacha20poly1305.New(key[:])
aead.Seal(msg.Timestamp[:0], ZeroNonce[:], timestamp[:], handshake.hash[:])
}()
handshake.mixHash(msg.Timestamp[:])
handshake.state = HandshakeInitiationCreated
return &msg, nil
}
func (device *Device) ConsumeMessageInitiation(msg *MessageInitiation) *Peer {
if msg.Type != MessageInitiationType {
return nil
}
hash := mixHash(InitialHash, device.publicKey[:])
hash = mixHash(hash, msg.Ephemeral[:])
chainKey := mixKey(InitialChainKey, msg.Ephemeral[:])
// decrypt static key
var err error
var peerPK NoisePublicKey
func() {
var key [chacha20poly1305.KeySize]byte
ss := device.privateKey.sharedSecret(msg.Ephemeral)
chainKey, key = KDF2(chainKey[:], ss[:])
aead, _ := chacha20poly1305.New(key[:])
_, err = aead.Open(peerPK[:0], ZeroNonce[:], msg.Static[:], hash[:])
}()
if err != nil {
return nil
}
hash = mixHash(hash, msg.Static[:])
// lookup peer
peer := device.LookupPeer(peerPK)
if peer == nil {
return nil
}
handshake := &peer.handshake
// verify identity
var timestamp TAI64N
ok := func() bool {
// read lock handshake
handshake.mutex.RLock()
defer handshake.mutex.RUnlock()
// decrypt timestamp
func() {
var key [chacha20poly1305.KeySize]byte
chainKey, key = KDF2(
chainKey[:],
handshake.precomputedStaticStatic[:],
)
aead, _ := chacha20poly1305.New(key[:])
_, err = aead.Open(timestamp[:0], ZeroNonce[:], msg.Timestamp[:], hash[:])
}()
if err != nil {
return false
}
hash = mixHash(hash, msg.Timestamp[:])
// TODO: check for flood attack
// check for replay attack
return timestamp.After(handshake.lastTimestamp)
}()
if !ok {
return nil
}
// update handshake state
handshake.mutex.Lock()
handshake.hash = hash
handshake.chainKey = chainKey
handshake.remoteIndex = msg.Sender
handshake.remoteEphemeral = msg.Ephemeral
handshake.lastTimestamp = timestamp
handshake.state = HandshakeInitiationConsumed
handshake.mutex.Unlock()
return peer
}
func (device *Device) CreateMessageResponse(peer *Peer) (*MessageResponse, error) {
handshake := &peer.handshake
handshake.mutex.Lock()
defer handshake.mutex.Unlock()
if handshake.state != HandshakeInitiationConsumed {
return nil, errors.New("handshake initation must be consumed first")
}
// assign index
var err error
device.indices.Delete(handshake.localIndex)
handshake.localIndex, err = device.indices.NewIndex(peer)
if err != nil {
return nil, err
}
var msg MessageResponse
msg.Type = MessageResponseType
msg.Sender = handshake.localIndex
msg.Receiver = handshake.remoteIndex
// create ephemeral key
handshake.localEphemeral, err = newPrivateKey()
if err != nil {
return nil, err
}
msg.Ephemeral = handshake.localEphemeral.publicKey()
handshake.mixHash(msg.Ephemeral[:])
handshake.mixKey(msg.Ephemeral[:])
func() {
ss := handshake.localEphemeral.sharedSecret(handshake.remoteEphemeral)
handshake.mixKey(ss[:])
ss = handshake.localEphemeral.sharedSecret(handshake.remoteStatic)
handshake.mixKey(ss[:])
}()
// add preshared key (psk)
var tau [blake2s.Size]byte
var key [chacha20poly1305.KeySize]byte
handshake.chainKey, tau, key = KDF3(handshake.chainKey[:], handshake.presharedKey[:])
handshake.mixHash(tau[:])
func() {
aead, _ := chacha20poly1305.New(key[:])
aead.Seal(msg.Empty[:0], ZeroNonce[:], nil, handshake.hash[:])
handshake.mixHash(msg.Empty[:])
}()
handshake.state = HandshakeResponseCreated
return &msg, nil
}
func (device *Device) ConsumeMessageResponse(msg *MessageResponse) *Peer {
if msg.Type != MessageResponseType {
return nil
}
// lookup handshake by reciever
lookup := device.indices.Lookup(msg.Receiver)
handshake := lookup.handshake
if handshake == nil {
return nil
}
var (
hash [blake2s.Size]byte
chainKey [blake2s.Size]byte
)
ok := func() bool {
// read lock handshake
handshake.mutex.RLock()
defer handshake.mutex.RUnlock()
if handshake.state != HandshakeInitiationCreated {
return false
}
// finish 3-way DH
hash = mixHash(handshake.hash, msg.Ephemeral[:])
chainKey = mixKey(handshake.chainKey, msg.Ephemeral[:])
func() {
ss := handshake.localEphemeral.sharedSecret(msg.Ephemeral)
chainKey = mixKey(chainKey, ss[:])
ss = device.privateKey.sharedSecret(msg.Ephemeral)
chainKey = mixKey(chainKey, ss[:])
}()
// add preshared key (psk)
var tau [blake2s.Size]byte
var key [chacha20poly1305.KeySize]byte
chainKey, tau, key = KDF3(chainKey[:], handshake.presharedKey[:])
hash = mixHash(hash, tau[:])
// authenticate
aead, _ := chacha20poly1305.New(key[:])
_, err := aead.Open(nil, ZeroNonce[:], msg.Empty[:], hash[:])
if err != nil {
device.log.Debug.Println("failed to open")
return false
}
hash = mixHash(hash, msg.Empty[:])
return true
}()
if !ok {
return nil
}
// update handshake state
handshake.mutex.Lock()
handshake.hash = hash
handshake.chainKey = chainKey
handshake.remoteIndex = msg.Sender
handshake.state = HandshakeResponseConsumed
handshake.mutex.Unlock()
return lookup.peer
}
/* Derives a new key-pair from the current handshake state
*
*/
func (peer *Peer) NewKeyPair() *KeyPair {
handshake := &peer.handshake
handshake.mutex.Lock()
defer handshake.mutex.Unlock()
// derive keys
var isInitiator bool
var sendKey [chacha20poly1305.KeySize]byte
var recvKey [chacha20poly1305.KeySize]byte
if handshake.state == HandshakeResponseConsumed {
sendKey, recvKey = KDF2(handshake.chainKey[:], nil)
isInitiator = true
} else if handshake.state == HandshakeResponseCreated {
recvKey, sendKey = KDF2(handshake.chainKey[:], nil)
isInitiator = false
} else {
return nil
}
// zero handshake
handshake.chainKey = [blake2s.Size]byte{}
handshake.localEphemeral = NoisePrivateKey{}
peer.handshake.state = HandshakeZeroed
// create AEAD instances
keyPair := new(KeyPair)
keyPair.created = time.Now()
keyPair.send, _ = chacha20poly1305.New(sendKey[:])
keyPair.receive, _ = chacha20poly1305.New(recvKey[:])
keyPair.sendNonce = 0
keyPair.replayFilter.Init()
keyPair.isInitiator = isInitiator
keyPair.localIndex = peer.handshake.localIndex
keyPair.remoteIndex = peer.handshake.remoteIndex
// remap index
indices := &peer.device.indices
indices.Insert(handshake.localIndex, IndexTableEntry{
peer: peer,
keyPair: keyPair,
handshake: nil,
})
handshake.localIndex = 0
// rotate key pairs
kp := &peer.keyPairs
func() {
kp.mutex.Lock()
defer kp.mutex.Unlock()
if isInitiator {
if kp.previous != nil {
kp.previous.send = nil
kp.previous.receive = nil
indices.Delete(kp.previous.localIndex)
}
kp.previous = kp.current
kp.current = keyPair
signalSend(peer.signal.newKeyPair)
} else {
kp.next = keyPair
}
}()
return keyPair
}
|