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u_ech.go
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u_ech.go
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package tls
import (
"crypto/rand"
"errors"
"fmt"
"io"
"math/big"
"sync"
"github.com/cloudflare/circl/hpke"
"github.com/refraction-networking/utls/dicttls"
"golang.org/x/crypto/cryptobyte"
)
// Unstable API: This is a work in progress and may change in the future. Using
// it in your application may cause your application to break when updating to
// a new version of uTLS.
const (
OuterClientHello byte = 0x00
InnerClientHello byte = 0x01
)
type EncryptedClientHelloExtension interface {
// TLSExtension must be implemented by all EncryptedClientHelloExtension implementations.
TLSExtension
// Configure configures the EncryptedClientHelloExtension with the given slice of ECHConfig.
Configure([]ECHConfig) error
// MarshalClientHello is called by (*UConn).MarshalClientHello() when an ECH extension
// is present to allow the ECH extension to take control of the generation of the
// entire ClientHello message.
MarshalClientHello(*UConn) error
mustEmbedUnimplementedECHExtension()
}
type ECHExtension = EncryptedClientHelloExtension // alias
// type guard: GREASEEncryptedClientHelloExtension must implement EncryptedClientHelloExtension
var (
_ EncryptedClientHelloExtension = (*GREASEEncryptedClientHelloExtension)(nil)
_ EncryptedClientHelloExtension = (*UnimplementedECHExtension)(nil)
)
type GREASEEncryptedClientHelloExtension struct {
CandidateCipherSuites []HPKESymmetricCipherSuite
cipherSuite HPKESymmetricCipherSuite // randomly picked from CandidateCipherSuites or generated if empty
CandidateConfigIds []uint8
configId uint8 // randomly picked from CandidateConfigIds or generated if empty
EncapsulatedKey []byte // if empty, will generate random bytes
CandidatePayloadLens []uint16 // Pre-encryption. If 0, will pick 128(+16=144)
payload []byte // payload should be calculated ONCE and stored here, HRR will reuse this
initOnce sync.Once
UnimplementedECHExtension
}
type GREASEECHExtension = GREASEEncryptedClientHelloExtension // alias
// init initializes the GREASEEncryptedClientHelloExtension with random values if they are not set.
//
// Based on cloudflare/go's echGenerateGreaseExt()
func (g *GREASEEncryptedClientHelloExtension) init() error {
var initErr error
g.initOnce.Do(func() {
// Set the config_id field to a random byte.
//
// Note: must not reuse this extension unless for HRR. It is required
// to generate new random bytes for config_id for each new ClientHello,
// but reuse the same config_id for HRR.
if len(g.CandidateConfigIds) == 0 {
var b []byte = make([]byte, 1)
_, err := rand.Read(b[:])
if err != nil {
initErr = fmt.Errorf("error generating random byte for config_id: %w", err)
return
}
g.configId = b[0]
} else {
// randomly pick one from the list
rndIndex, err := rand.Int(rand.Reader, big.NewInt(int64(len(g.CandidateConfigIds))))
if err != nil {
initErr = fmt.Errorf("error generating random index for config_id: %w", err)
return
}
g.configId = g.CandidateConfigIds[rndIndex.Int64()]
}
// Set the cipher_suite field to a supported HpkeSymmetricCipherSuite.
// The selection SHOULD vary to exercise all supported configurations,
// but MAY be held constant for successive connections to the same server
// in the same session.
if len(g.CandidateCipherSuites) == 0 {
_, kdf, aead := defaultHPKESuite.Params()
g.cipherSuite = HPKESymmetricCipherSuite{uint16(kdf), uint16(aead)}
} else {
// randomly pick one from the list
rndIndex, err := rand.Int(rand.Reader, big.NewInt(int64(len(g.CandidateCipherSuites))))
if err != nil {
initErr = fmt.Errorf("error generating random index for cipher_suite: %w", err)
return
}
g.cipherSuite = HPKESymmetricCipherSuite{
g.CandidateCipherSuites[rndIndex.Int64()].KdfId,
g.CandidateCipherSuites[rndIndex.Int64()].AeadId,
}
// aead = hpke.AEAD(g.cipherSuite.AeadId)
}
if len(g.EncapsulatedKey) == 0 {
// use default random key from cloudflare/go
kem := hpke.KEM_X25519_HKDF_SHA256
pk, err := kem.Scheme().UnmarshalBinaryPublicKey(dummyX25519PublicKey)
if err != nil {
initErr = fmt.Errorf("tls: grease ech: failed to parse dummy public key: %w", err)
return
}
sender, err := defaultHPKESuite.NewSender(pk, nil)
if err != nil {
initErr = fmt.Errorf("tls: grease ech: failed to create sender: %w", err)
return
}
g.EncapsulatedKey, _, err = sender.Setup(rand.Reader)
if err != nil {
initErr = fmt.Errorf("tls: grease ech: failed to setup encapsulated key: %w", err)
return
}
}
if len(g.payload) == 0 {
if len(g.CandidatePayloadLens) == 0 {
g.CandidatePayloadLens = []uint16{128}
}
// randomly pick one from the list
rndIndex, err := rand.Int(rand.Reader, big.NewInt(int64(len(g.CandidatePayloadLens))))
if err != nil {
initErr = fmt.Errorf("error generating random index for payload length: %w", err)
return
}
initErr = g.randomizePayload(g.CandidatePayloadLens[rndIndex.Int64()])
}
})
return initErr
}
func (g *GREASEEncryptedClientHelloExtension) randomizePayload(encodedHelloInnerLen uint16) error {
if len(g.payload) != 0 {
return errors.New("tls: grease ech: regenerating payload is forbidden")
}
aead := hpke.AEAD(g.cipherSuite.AeadId)
g.payload = make([]byte, int(aead.CipherLen(uint(encodedHelloInnerLen))))
_, err := rand.Read(g.payload)
if err != nil {
return fmt.Errorf("tls: generating grease ech payload: %w", err)
}
return nil
}
// writeToUConn implements TLSExtension.
//
// For ECH extensions, writeToUConn simply points the ech field in UConn to the extension.
func (g *GREASEEncryptedClientHelloExtension) writeToUConn(uconn *UConn) error {
uconn.ech = g
return uconn.MarshalClientHelloNoECH()
}
// Len implements TLSExtension.
func (g *GREASEEncryptedClientHelloExtension) Len() int {
g.init()
return 2 + 2 + 1 /* ClientHello Type */ + 4 /* CipherSuite */ + 1 /* Config ID */ + 2 + len(g.EncapsulatedKey) + 2 + len(g.payload)
}
// Read implements TLSExtension.
func (g *GREASEEncryptedClientHelloExtension) Read(b []byte) (int, error) {
if len(b) < g.Len() {
return 0, io.ErrShortBuffer
}
b[0] = byte(utlsExtensionECH >> 8)
b[1] = byte(utlsExtensionECH & 0xFF)
b[2] = byte((g.Len() - 4) >> 8)
b[3] = byte((g.Len() - 4) & 0xFF)
b[4] = OuterClientHello
b[5] = byte(g.cipherSuite.KdfId >> 8)
b[6] = byte(g.cipherSuite.KdfId & 0xFF)
b[7] = byte(g.cipherSuite.AeadId >> 8)
b[8] = byte(g.cipherSuite.AeadId & 0xFF)
b[9] = g.configId
b[10] = byte(len(g.EncapsulatedKey) >> 8)
b[11] = byte(len(g.EncapsulatedKey) & 0xFF)
copy(b[12:], g.EncapsulatedKey)
b[12+len(g.EncapsulatedKey)] = byte(len(g.payload) >> 8)
b[12+len(g.EncapsulatedKey)+1] = byte(len(g.payload) & 0xFF)
copy(b[12+len(g.EncapsulatedKey)+2:], g.payload)
return g.Len(), io.EOF
}
// Configure implements EncryptedClientHelloExtension.
func (*GREASEEncryptedClientHelloExtension) Configure([]ECHConfig) error {
return nil // no-op, it is not possible to configure a GREASE extension for now
}
// MarshalClientHello implements EncryptedClientHelloExtension.
func (*GREASEEncryptedClientHelloExtension) MarshalClientHello(*UConn) error {
return errors.New("tls: grease ech: MarshalClientHello() is not implemented, use (*UConn).MarshalClientHello() instead")
}
// Write implements TLSExtensionWriter.
func (g *GREASEEncryptedClientHelloExtension) Write(b []byte) (int, error) {
fullLen := len(b)
extData := cryptobyte.String(b)
// Check the extension type, it must be OuterClientHello otherwise we are not
// parsing the correct extension
var chType uint8 // 0: outer, 1: inner
var ignored cryptobyte.String
if !extData.ReadUint8(&chType) || chType != 0 {
return fullLen, errors.New("bad Client Hello type, expected 0, got " + fmt.Sprintf("%d", chType))
}
// Parse the cipher suite
if !extData.ReadUint16(&g.cipherSuite.KdfId) || !extData.ReadUint16(&g.cipherSuite.AeadId) {
return fullLen, errors.New("bad cipher suite")
}
if g.cipherSuite.KdfId != dicttls.HKDF_SHA256 &&
g.cipherSuite.KdfId != dicttls.HKDF_SHA384 &&
g.cipherSuite.KdfId != dicttls.HKDF_SHA512 {
return fullLen, errors.New("bad KDF ID: " + fmt.Sprintf("%d", g.cipherSuite.KdfId))
}
if g.cipherSuite.AeadId != dicttls.AEAD_AES_128_GCM &&
g.cipherSuite.AeadId != dicttls.AEAD_AES_256_GCM &&
g.cipherSuite.AeadId != dicttls.AEAD_CHACHA20_POLY1305 {
return fullLen, errors.New("bad AEAD ID: " + fmt.Sprintf("%d", g.cipherSuite.AeadId))
}
g.CandidateCipherSuites = []HPKESymmetricCipherSuite{g.cipherSuite}
// GREASE the ConfigId
if !extData.ReadUint8(&g.configId) {
return fullLen, errors.New("bad config ID")
}
// we don't write to CandidateConfigIds because we don't really want to reuse the same config_id
// GREASE the EncapsulatedKey
if !extData.ReadUint16LengthPrefixed(&ignored) {
return fullLen, errors.New("bad encapsulated key")
}
g.EncapsulatedKey = make([]byte, len(ignored))
n, err := rand.Read(g.EncapsulatedKey)
if err != nil {
return fullLen, fmt.Errorf("tls: generating grease ech encapsulated key: %w", err)
}
if n != len(g.EncapsulatedKey) {
return fullLen, fmt.Errorf("tls: generating grease ech encapsulated key: short read for %d bytes", len(ignored)-n)
}
// GREASE the payload
if !extData.ReadUint16LengthPrefixed(&ignored) {
return fullLen, errors.New("bad payload")
}
aead := hpke.AEAD(g.cipherSuite.AeadId)
g.CandidatePayloadLens = []uint16{uint16(len(ignored) - int(aead.CipherLen(0)))}
return fullLen, nil
}
// UnimplementedECHExtension is a placeholder for an ECH extension that is not implemented.
// All implementations of EncryptedClientHelloExtension should embed this struct to ensure
// forward compatibility.
type UnimplementedECHExtension struct{}
// writeToUConn implements TLSExtension.
func (*UnimplementedECHExtension) writeToUConn(_ *UConn) error {
return errors.New("tls: unimplemented ECHExtension")
}
// Len implements TLSExtension.
func (*UnimplementedECHExtension) Len() int {
return 0
}
// Read implements TLSExtension.
func (*UnimplementedECHExtension) Read(_ []byte) (int, error) {
return 0, errors.New("tls: unimplemented ECHExtension")
}
// Configure implements EncryptedClientHelloExtension.
func (*UnimplementedECHExtension) Configure([]ECHConfig) error {
return errors.New("tls: unimplemented ECHExtension")
}
// MarshalClientHello implements EncryptedClientHelloExtension.
func (*UnimplementedECHExtension) MarshalClientHello(*UConn) error {
return errors.New("tls: unimplemented ECHExtension")
}
// mustEmbedUnimplementedECHExtension is a noop function but is required to
// ensure forward compatibility.
func (*UnimplementedECHExtension) mustEmbedUnimplementedECHExtension() {
panic("mustEmbedUnimplementedECHExtension() is not implemented")
}
// BoringGREASEECH returns a GREASE scheme BoringSSL uses by default.
func BoringGREASEECH() *GREASEEncryptedClientHelloExtension {
return &GREASEEncryptedClientHelloExtension{
CandidateCipherSuites: []HPKESymmetricCipherSuite{
{
KdfId: dicttls.HKDF_SHA256,
AeadId: dicttls.AEAD_AES_128_GCM,
},
{
KdfId: dicttls.HKDF_SHA256,
AeadId: dicttls.AEAD_CHACHA20_POLY1305,
},
},
CandidatePayloadLens: []uint16{128, 160, 192, 224}, // +16: 144, 176, 208, 240
}
}