package protocol import ( "bytes" "encoding/binary" "hash/adler32" "hash/crc32" "math/rand" "net" "github.com/Dreamacro/clash/common/pool" "github.com/Dreamacro/clash/transport/ssr/tools" ) func init() { register("auth_sha1_v4", newAuthSHA1V4, 7) } type authSHA1V4 struct { *Base *authData iv []byte hasSentHeader bool rawTrans bool } func newAuthSHA1V4(b *Base) Protocol { return &authSHA1V4{Base: b, authData: &authData{}} } func (a *authSHA1V4) StreamConn(c net.Conn, iv []byte) net.Conn { p := &authSHA1V4{Base: a.Base, authData: a.next()} p.iv = iv return &Conn{Conn: c, Protocol: p} } func (a *authSHA1V4) PacketConn(c net.PacketConn) net.PacketConn { return c } func (a *authSHA1V4) Decode(dst, src *bytes.Buffer) error { if a.rawTrans { dst.ReadFrom(src) return nil } for src.Len() > 4 { if uint16(crc32.ChecksumIEEE(src.Bytes()[:2])&0xffff) != binary.LittleEndian.Uint16(src.Bytes()[2:4]) { src.Reset() return errAuthSHA1V4CRC32Error } length := int(binary.BigEndian.Uint16(src.Bytes()[:2])) if length >= 8192 || length < 7 { a.rawTrans = true src.Reset() return errAuthSHA1V4LengthError } if length > src.Len() { break } if adler32.Checksum(src.Bytes()[:length-4]) != binary.LittleEndian.Uint32(src.Bytes()[length-4:length]) { a.rawTrans = true src.Reset() return errAuthSHA1V4Adler32Error } pos := int(src.Bytes()[4]) if pos < 255 { pos += 4 } else { pos = int(binary.BigEndian.Uint16(src.Bytes()[5:7])) + 4 } dst.Write(src.Bytes()[pos : length-4]) src.Next(length) } return nil } func (a *authSHA1V4) Encode(buf *bytes.Buffer, b []byte) error { if !a.hasSentHeader { dataLength := getDataLength(b) a.packAuthData(buf, b[:dataLength]) b = b[dataLength:] a.hasSentHeader = true } for len(b) > 8100 { a.packData(buf, b[:8100]) b = b[8100:] } if len(b) > 0 { a.packData(buf, b) } return nil } func (a *authSHA1V4) DecodePacket(b []byte) ([]byte, error) { return b, nil } func (a *authSHA1V4) EncodePacket(buf *bytes.Buffer, b []byte) error { buf.Write(b) return nil } func (a *authSHA1V4) packData(poolBuf *bytes.Buffer, data []byte) { dataLength := len(data) randDataLength := a.getRandDataLength(dataLength) /* 2: uint16 BigEndian packedDataLength 2: uint16 LittleEndian crc32Data & 0xffff 3: maxRandDataLengthPrefix (min:1) 4: adler32Data */ packedDataLength := 2 + 2 + 3 + randDataLength + dataLength + 4 if randDataLength < 128 { packedDataLength -= 2 } binary.Write(poolBuf, binary.BigEndian, uint16(packedDataLength)) binary.Write(poolBuf, binary.LittleEndian, uint16(crc32.ChecksumIEEE(poolBuf.Bytes()[poolBuf.Len()-2:])&0xffff)) a.packRandData(poolBuf, randDataLength) poolBuf.Write(data) binary.Write(poolBuf, binary.LittleEndian, adler32.Checksum(poolBuf.Bytes()[poolBuf.Len()-packedDataLength+4:])) } func (a *authSHA1V4) packAuthData(poolBuf *bytes.Buffer, data []byte) { dataLength := len(data) randDataLength := a.getRandDataLength(12 + dataLength) /* 2: uint16 BigEndian packedAuthDataLength 4: uint32 LittleEndian crc32Data 3: maxRandDataLengthPrefix (min: 1) 12: authDataLength 10: hmacSHA1DataLength */ packedAuthDataLength := 2 + 4 + 3 + randDataLength + 12 + dataLength + 10 if randDataLength < 128 { packedAuthDataLength -= 2 } salt := []byte("auth_sha1_v4") crcData := pool.Get(len(salt) + len(a.Key) + 2) defer pool.Put(crcData) binary.BigEndian.PutUint16(crcData, uint16(packedAuthDataLength)) copy(crcData[2:], salt) copy(crcData[2+len(salt):], a.Key) key := pool.Get(len(a.iv) + len(a.Key)) defer pool.Put(key) copy(key, a.iv) copy(key[len(a.iv):], a.Key) poolBuf.Write(crcData[:2]) binary.Write(poolBuf, binary.LittleEndian, crc32.ChecksumIEEE(crcData)) a.packRandData(poolBuf, randDataLength) a.putAuthData(poolBuf) poolBuf.Write(data) poolBuf.Write(tools.HmacSHA1(key, poolBuf.Bytes()[poolBuf.Len()-packedAuthDataLength+10:])[:10]) } func (a *authSHA1V4) packRandData(poolBuf *bytes.Buffer, size int) { if size < 128 { poolBuf.WriteByte(byte(size + 1)) tools.AppendRandBytes(poolBuf, size) return } poolBuf.WriteByte(255) binary.Write(poolBuf, binary.BigEndian, uint16(size+3)) tools.AppendRandBytes(poolBuf, size) } func (a *authSHA1V4) getRandDataLength(size int) int { if size > 1200 { return 0 } if size > 400 { return rand.Intn(256) } return rand.Intn(512) }