mihomo/component/ssr/protocol/auth_aes128_md5.go

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package protocol
import (
"bytes"
"crypto/aes"
"crypto/cipher"
"encoding/base64"
"encoding/binary"
"math/rand"
"strconv"
"strings"
"time"
"github.com/Dreamacro/clash/common/pool"
"github.com/Dreamacro/clash/component/ssr/tools"
"github.com/Dreamacro/go-shadowsocks2/core"
)
type authAES128 struct {
*Base
*recvInfo
*authData
hasSentHeader bool
packID uint32
userKey []byte
uid [4]byte
salt string
hmac hmacMethod
hashDigest hashDigestMethod
}
func init() {
register("auth_aes128_md5", newAuthAES128MD5)
}
func newAuthAES128MD5(b *Base) Protocol {
return &authAES128{
Base: b,
authData: &authData{},
salt: "auth_aes128_md5",
hmac: tools.HmacMD5,
hashDigest: tools.MD5Sum,
}
}
func (a *authAES128) initForConn(iv []byte) Protocol {
return &authAES128{
Base: &Base{
IV: iv,
Key: a.Key,
TCPMss: a.TCPMss,
Overhead: a.Overhead,
Param: a.Param,
},
recvInfo: &recvInfo{recvID: 1, buffer: new(bytes.Buffer)},
authData: a.authData,
packID: 1,
salt: a.salt,
hmac: a.hmac,
hashDigest: a.hashDigest,
}
}
func (a *authAES128) GetProtocolOverhead() int {
return 9
}
func (a *authAES128) SetOverhead(overhead int) {
a.Overhead = overhead
}
func (a *authAES128) Decode(b []byte) ([]byte, int, error) {
a.buffer.Reset()
bSize := len(b)
readSize := 0
key := pool.Get(len(a.userKey) + 4)
defer pool.Put(key)
copy(key, a.userKey)
for bSize > 4 {
binary.LittleEndian.PutUint32(key[len(key)-4:], a.recvID)
h := a.hmac(key, b[:2])
if !bytes.Equal(h[:2], b[2:4]) {
return nil, 0, errAuthAES128HMACError
}
length := int(binary.LittleEndian.Uint16(b[:2]))
if length >= 8192 || length < 8 {
return nil, 0, errAuthAES128DataLengthError
}
if length > bSize {
break
}
a.recvID++
pos := int(b[4])
if pos < 255 {
pos += 4
} else {
pos = int(binary.LittleEndian.Uint16(b[5:7])) + 4
}
a.buffer.Write(b[pos : length-4])
b = b[length:]
bSize -= length
readSize += length
}
return a.buffer.Bytes(), readSize, nil
}
func (a *authAES128) Encode(b []byte) ([]byte, error) {
a.buffer.Reset()
bSize := len(b)
offset := 0
if bSize > 0 && !a.hasSentHeader {
authSize := bSize
if authSize > 1200 {
authSize = 1200
}
a.hasSentHeader = true
a.buffer.Write(a.packAuthData(b[:authSize]))
bSize -= authSize
offset += authSize
}
const blockSize = 4096
for bSize > blockSize {
packSize, randSize := a.packedDataSize(b[offset : offset+blockSize])
pack := pool.Get(packSize)
a.packData(b[offset:offset+blockSize], pack, randSize)
a.buffer.Write(pack)
pool.Put(pack)
bSize -= blockSize
offset += blockSize
}
if bSize > 0 {
packSize, randSize := a.packedDataSize(b[offset:])
pack := pool.Get(packSize)
a.packData(b[offset:], pack, randSize)
a.buffer.Write(pack)
pool.Put(pack)
}
return a.buffer.Bytes(), nil
}
func (a *authAES128) DecodePacket(b []byte) ([]byte, int, error) {
bSize := len(b)
h := a.hmac(a.Key, b[:bSize-4])
if !bytes.Equal(h[:4], b[bSize-4:]) {
return nil, 0, errAuthAES128HMACError
}
return b[:bSize-4], bSize - 4, nil
}
func (a *authAES128) EncodePacket(b []byte) ([]byte, error) {
a.initUserKeyAndID()
var buf bytes.Buffer
buf.Write(b)
buf.Write(a.uid[:])
h := a.hmac(a.userKey, buf.Bytes())
buf.Write(h[:4])
return buf.Bytes(), nil
}
func (a *authAES128) initUserKeyAndID() {
if a.userKey == nil {
params := strings.Split(a.Param, ":")
if len(params) >= 2 {
if userID, err := strconv.ParseUint(params[0], 10, 32); err == nil {
binary.LittleEndian.PutUint32(a.uid[:], uint32(userID))
a.userKey = a.hashDigest([]byte(params[1]))
}
}
if a.userKey == nil {
rand.Read(a.uid[:])
a.userKey = make([]byte, len(a.Key))
copy(a.userKey, a.Key)
}
}
}
func (a *authAES128) packedDataSize(data []byte) (packSize, randSize int) {
dataSize := len(data)
randSize = 1
if dataSize <= 1200 {
if a.packID > 4 {
randSize += rand.Intn(32)
} else {
if dataSize > 900 {
randSize += rand.Intn(128)
} else {
randSize += rand.Intn(512)
}
}
}
packSize = randSize + dataSize + 8
return
}
func (a *authAES128) packData(data, ret []byte, randSize int) {
dataSize := len(data)
retSize := len(ret)
// 0~1, ret_size
binary.LittleEndian.PutUint16(ret[0:], uint16(retSize&0xFFFF))
// 2~3, hmac
key := pool.Get(len(a.userKey) + 4)
defer pool.Put(key)
copy(key, a.userKey)
binary.LittleEndian.PutUint32(key[len(key)-4:], a.packID)
h := a.hmac(key, ret[:2])
copy(ret[2:4], h[:2])
// 4~rand_size+4, rand number
rand.Read(ret[4 : 4+randSize])
// 4, rand_size
if randSize < 128 {
ret[4] = byte(randSize & 0xFF)
} else {
// 4, magic number 0xFF
ret[4] = 0xFF
// 5~6, rand_size
binary.LittleEndian.PutUint16(ret[5:], uint16(randSize&0xFFFF))
}
// rand_size+4~ret_size-4, data
if dataSize > 0 {
copy(ret[randSize+4:], data)
}
a.packID++
h = a.hmac(key, ret[:retSize-4])
copy(ret[retSize-4:], h[:4])
}
func (a *authAES128) packAuthData(data []byte) (ret []byte) {
dataSize := len(data)
var randSize int
if dataSize > 400 {
randSize = rand.Intn(512)
} else {
randSize = rand.Intn(1024)
}
dataOffset := randSize + 16 + 4 + 4 + 7
retSize := dataOffset + dataSize + 4
ret = make([]byte, retSize)
encrypt := make([]byte, 24)
key := make([]byte, len(a.IV)+len(a.Key))
copy(key, a.IV)
copy(key[len(a.IV):], a.Key)
rand.Read(ret[dataOffset-randSize:])
a.mutex.Lock()
defer a.mutex.Unlock()
a.connectionID++
if a.connectionID > 0xFF000000 {
a.clientID = nil
}
if len(a.clientID) == 0 {
a.clientID = make([]byte, 8)
rand.Read(a.clientID)
b := make([]byte, 4)
rand.Read(b)
a.connectionID = binary.LittleEndian.Uint32(b) & 0xFFFFFF
}
copy(encrypt[4:], a.clientID)
binary.LittleEndian.PutUint32(encrypt[8:], a.connectionID)
now := time.Now().Unix()
binary.LittleEndian.PutUint32(encrypt[:4], uint32(now))
binary.LittleEndian.PutUint16(encrypt[12:], uint16(retSize&0xFFFF))
binary.LittleEndian.PutUint16(encrypt[14:], uint16(randSize&0xFFFF))
a.initUserKeyAndID()
aesCipherKey := core.Kdf(base64.StdEncoding.EncodeToString(a.userKey)+a.salt, 16)
block, err := aes.NewCipher(aesCipherKey)
if err != nil {
return nil
}
encryptData := make([]byte, 16)
iv := make([]byte, aes.BlockSize)
cbc := cipher.NewCBCEncrypter(block, iv)
cbc.CryptBlocks(encryptData, encrypt[:16])
copy(encrypt[:4], a.uid[:])
copy(encrypt[4:4+16], encryptData)
h := a.hmac(key, encrypt[:20])
copy(encrypt[20:], h[:4])
rand.Read(ret[:1])
h = a.hmac(key, ret[:1])
copy(ret[1:], h[:7-1])
copy(ret[7:], encrypt)
copy(ret[dataOffset:], data)
h = a.hmac(a.userKey, ret[:retSize-4])
copy(ret[retSize-4:], h[:4])
return
}