package core import ( "crypto/md5" "errors" "net" "sort" "strings" N "github.com/metacubex/mihomo/common/net" "github.com/metacubex/mihomo/transport/shadowsocks/shadowaead" "github.com/metacubex/mihomo/transport/shadowsocks/shadowstream" ) type Cipher interface { StreamConnCipher PacketConnCipher } type StreamConnCipher interface { StreamConn(net.Conn) net.Conn } type PacketConnCipher interface { PacketConn(N.EnhancePacketConn) N.EnhancePacketConn } // ErrCipherNotSupported occurs when a cipher is not supported (likely because of security concerns). var ErrCipherNotSupported = errors.New("cipher not supported") const ( aeadAes128Gcm = "AEAD_AES_128_GCM" aeadAes192Gcm = "AEAD_AES_192_GCM" aeadAes256Gcm = "AEAD_AES_256_GCM" aeadChacha20Poly1305 = "AEAD_CHACHA20_POLY1305" aeadXChacha20Poly1305 = "AEAD_XCHACHA20_POLY1305" ) // List of AEAD ciphers: key size in bytes and constructor var aeadList = map[string]struct { KeySize int New func([]byte) (shadowaead.Cipher, error) }{ aeadAes128Gcm: {16, shadowaead.AESGCM}, aeadAes192Gcm: {24, shadowaead.AESGCM}, aeadAes256Gcm: {32, shadowaead.AESGCM}, aeadChacha20Poly1305: {32, shadowaead.Chacha20Poly1305}, aeadXChacha20Poly1305: {32, shadowaead.XChacha20Poly1305}, } // List of stream ciphers: key size in bytes and constructor var streamList = map[string]struct { KeySize int New func(key []byte) (shadowstream.Cipher, error) }{ "RC4-MD5": {16, shadowstream.RC4MD5}, "AES-128-CTR": {16, shadowstream.AESCTR}, "AES-192-CTR": {24, shadowstream.AESCTR}, "AES-256-CTR": {32, shadowstream.AESCTR}, "AES-128-CFB": {16, shadowstream.AESCFB}, "AES-192-CFB": {24, shadowstream.AESCFB}, "AES-256-CFB": {32, shadowstream.AESCFB}, "CHACHA20": {32, shadowstream.ChaCha20}, "CHACHA20-IETF": {32, shadowstream.Chacha20IETF}, "XCHACHA20": {32, shadowstream.Xchacha20}, } // ListCipher returns a list of available cipher names sorted alphabetically. func ListCipher() []string { var l []string for k := range aeadList { l = append(l, k) } for k := range streamList { l = append(l, k) } sort.Strings(l) return l } // PickCipher returns a Cipher of the given name. Derive key from password if given key is empty. func PickCipher(name string, key []byte, password string) (Cipher, error) { name = strings.ToUpper(name) switch name { case "DUMMY": return &dummy{}, nil case "CHACHA20-IETF-POLY1305": name = aeadChacha20Poly1305 case "XCHACHA20-IETF-POLY1305": name = aeadXChacha20Poly1305 case "AES-128-GCM": name = aeadAes128Gcm case "AES-192-GCM": name = aeadAes192Gcm case "AES-256-GCM": name = aeadAes256Gcm } if choice, ok := aeadList[name]; ok { if len(key) == 0 { key = Kdf(password, choice.KeySize) } if len(key) != choice.KeySize { return nil, shadowaead.KeySizeError(choice.KeySize) } aead, err := choice.New(key) return &AeadCipher{Cipher: aead, Key: key}, err } if choice, ok := streamList[name]; ok { if len(key) == 0 { key = Kdf(password, choice.KeySize) } if len(key) != choice.KeySize { return nil, shadowstream.KeySizeError(choice.KeySize) } ciph, err := choice.New(key) return &StreamCipher{Cipher: ciph, Key: key}, err } return nil, ErrCipherNotSupported } type AeadCipher struct { shadowaead.Cipher Key []byte } func (aead *AeadCipher) StreamConn(c net.Conn) net.Conn { return shadowaead.NewConn(c, aead) } func (aead *AeadCipher) PacketConn(c N.EnhancePacketConn) N.EnhancePacketConn { return shadowaead.NewPacketConn(c, aead) } type StreamCipher struct { shadowstream.Cipher Key []byte } func (ciph *StreamCipher) StreamConn(c net.Conn) net.Conn { return shadowstream.NewConn(c, ciph) } func (ciph *StreamCipher) PacketConn(c N.EnhancePacketConn) N.EnhancePacketConn { return shadowstream.NewPacketConn(c, ciph) } // dummy cipher does not encrypt type dummy struct{} func (dummy) StreamConn(c net.Conn) net.Conn { return c } func (dummy) PacketConn(c N.EnhancePacketConn) N.EnhancePacketConn { return c } // key-derivation function from original Shadowsocks func Kdf(password string, keyLen int) []byte { var b, prev []byte h := md5.New() for len(b) < keyLen { h.Write(prev) h.Write([]byte(password)) b = h.Sum(b) prev = b[len(b)-h.Size():] h.Reset() } return b[:keyLen] }