package xsnet import ( "crypto/sha1" "errors" "fmt" "net" "blitter.com/go/xs/logger" kcp "github.com/xtaci/kcp-go" "golang.org/x/crypto/pbkdf2" ) const ( KCP_NONE = iota KCP_AES KCP_BLOWFISH KCP_CAST5 KCP_SM4 KCP_SALSA20 KCP_SIMPLEXOR KCP_TEA KCP_3DES KCP_TWOFISH KCP_XTEA ) // for github.com/xtaci/kcp-go BlockCrypt alg selection type KCPAlg uint8 var ( kcpKeyBytes []byte = []byte("SET THIS") // symmetric crypto key for KCP (github.com/xtaci/kcp-go) if used kcpSaltBytes []byte = []byte("ALSO SET THIS") ) func getKCPalgnum(extensions []string) (k KCPAlg) { k = KCP_AES // default var s string for _, s = range extensions { switch s { case "KCP_NONE": k = KCP_NONE break //out of for case "KCP_AES": k = KCP_AES break //out of for case "KCP_BLOWFISH": k = KCP_BLOWFISH break //out of for case "KCP_CAST5": k = KCP_CAST5 break //out of for case "KCP_SM4": k = KCP_SM4 break //out of for case "KCP_SALSA20": k = KCP_SALSA20 break //out of for case "KCP_SIMPLEXOR": k = KCP_SIMPLEXOR break //out of for case "KCP_TEA": k = KCP_TEA break //out of for case "KCP_3DES": k = KCP_3DES break //out of for case "KCP_TWOFISH": k = KCP_TWOFISH break //out of for case "KCP_XTEA": k = KCP_XTEA break //out of for } } logger.LogDebug(fmt.Sprintf("[KCP BlockCrypt '%s' activated]", s)) return } func SetKCPKeyAndSalt(key []byte, salt []byte) { kcpKeyBytes = key kcpSaltBytes = salt } func _newKCPBlockCrypt(key []byte, extensions []string) (b kcp.BlockCrypt, e error) { switch getKCPalgnum(extensions) { case KCP_NONE: return kcp.NewNoneBlockCrypt(key) case KCP_AES: return kcp.NewAESBlockCrypt(key) case KCP_BLOWFISH: return kcp.NewBlowfishBlockCrypt(key) case KCP_CAST5: return kcp.NewCast5BlockCrypt(key) case KCP_SM4: return kcp.NewSM4BlockCrypt(key) case KCP_SALSA20: return kcp.NewSalsa20BlockCrypt(key) case KCP_SIMPLEXOR: return kcp.NewSimpleXORBlockCrypt(key) case KCP_TEA: return kcp.NewTEABlockCrypt(key) case KCP_3DES: return kcp.NewTripleDESBlockCrypt(key) case KCP_TWOFISH: return kcp.NewTwofishBlockCrypt(key) case KCP_XTEA: return kcp.NewXTEABlockCrypt(key) } return nil, errors.New("Invalid KCP BlockCrypto specified") } func kcpDial(ipport string, extensions []string) (c net.Conn, err error) { kcpKey := pbkdf2.Key(kcpKeyBytes, kcpSaltBytes, 1024, 32, sha1.New) block, be := _newKCPBlockCrypt([]byte(kcpKey), extensions) _ = be return kcp.DialWithOptions(ipport, block, 10, 3) } func kcpListen(ipport string, extensions []string) (l net.Listener, err error) { kcpKey := pbkdf2.Key(kcpKeyBytes, kcpSaltBytes, 1024, 32, sha1.New) block, be := _newKCPBlockCrypt([]byte(kcpKey), extensions) _ = be return kcp.ListenWithOptions(ipport, block, 10, 3) } func (hl *HKExListener) AcceptKCP() (c net.Conn, e error) { return hl.l.(*kcp.Listener).AcceptKCP() }