예제 #1
0
        static void Main(string[] args)
        {
            // Create a secp256k1 context (ensure disposal to prevent unmanaged memory leaks).
            using (var secp256k1 = new Secp256k1())
            {
                // Generate a private key.
                var privateKey = new byte[32];
                var rnd        = System.Security.Cryptography.RandomNumberGenerator.Create();
                do
                {
                    rnd.GetBytes(privateKey);
                }while (!secp256k1.SecretKeyVerify(privateKey));


                // Create public key from private key.
                var publicKey = new byte[64];
                Debug.Assert(secp256k1.PublicKeyCreate(publicKey, privateKey));


                // Sign a message hash.
                var messageBytes = Encoding.UTF8.GetBytes("Hello world.");
                var messageHash  = System.Security.Cryptography.SHA256.Create().ComputeHash(messageBytes);
                var signature    = new byte[64];
                Debug.Assert(secp256k1.Sign(signature, messageHash, privateKey));

                // Serialize a DER signature from ECDSA signature
                byte[] signatureDer = new byte[Secp256k1.SERIALIZED_DER_SIGNATURE_MAX_SIZE];
                int    outL         = 0;
                Debug.Assert(secp256k1.SignatureSerializeDer(signatureDer, signature, out outL));
                Array.Resize(ref signatureDer, outL);

                // Verify message hash.
                Debug.Assert(secp256k1.Verify(signature, messageHash, publicKey));
            }
        }
예제 #2
0
        public static ECKeyPair GenerateKeyPair()
        {
            try
            {
                Lock.AcquireWriterLock(Timeout.Infinite);
                var privateKey      = new byte[32];
                var secp256K1PubKey = new byte[64];

                // Generate a private key.
                var rnd = RandomNumberGenerator.Create();
                do
                {
                    rnd.GetBytes(privateKey);
                } while (!Secp256K1.SecretKeyVerify(privateKey));

                Secp256K1.PublicKeyCreate(secp256K1PubKey, privateKey);
                var pubKey = new byte[Secp256k1.SERIALIZED_UNCOMPRESSED_PUBKEY_LENGTH];
                Secp256K1.PublicKeySerialize(pubKey, secp256K1PubKey);
                return(new ECKeyPair(privateKey, pubKey));
            }
            finally
            {
                Lock.ReleaseWriterLock();
            }
        }
예제 #3
0
        static void Main(string[] args)
        {
            // Create a secp256k1 context (ensure disposal to prevent unmanaged memory leaks).
            using (var secp256k1 = new Secp256k1())
            {
                // Generate a private key.
                var privateKey = new byte[32];
                var rnd        = System.Security.Cryptography.RandomNumberGenerator.Create();
                do
                {
                    rnd.GetBytes(privateKey);
                }while (!secp256k1.SecretKeyVerify(privateKey));


                // Create public key from private key.
                var publicKey = new byte[64];
                Debug.Assert(secp256k1.PublicKeyCreate(publicKey, privateKey));


                // Sign a message hash.
                var messageBytes = Encoding.UTF8.GetBytes("Hello world.");
                var messageHash  = System.Security.Cryptography.SHA256.Create().ComputeHash(messageBytes);
                var signature    = new byte[64];
                Debug.Assert(secp256k1.Sign(signature, messageHash, privateKey));


                // Verify message hash.
                Debug.Assert(secp256k1.Verify(signature, messageHash, publicKey));
            }
        }
        Span <byte> GeneratePrivateKey()
        {
            Span <byte> sk = new byte[32];

            do
            {
                Random.NextBytes(sk);
            }while (!secp256k1.SecretKeyVerify(sk));
            return(sk);
        }
예제 #5
0
        public static byte[] GeneratePrivateKey(Secp256k1 secp256k1)
        {
            var rnd = RandomNumberGenerator.Create();

            byte[] privateKey = new byte[32];
            do
            {
                rnd.GetBytes(privateKey);
            }while (!secp256k1.SecretKeyVerify(privateKey));
            return(privateKey);
        }
예제 #6
0
 public byte[] GeneratePrivateKey()
 {
     for (;;)
     {
         var key = GenerateRandomBytes(32);
         if (Secp256K1.SecretKeyVerify(key))
         {
             return(key);
         }
     }
 }
예제 #7
0
        public static byte[] Hash32Byte()
        {
            using (var secp256k1 = new Secp256k1())
            {
                var hash = new byte[32];
                var rnd  = RandomNumberGenerator.Create();
                do
                {
                    rnd.GetBytes(hash);
                }while (!secp256k1.SecretKeyVerify(hash));

                return(hash);
            }
        }
예제 #8
0
        public void KeyPairGeneration()
        {
            var         secp256k1  = new Secp256k1();
            var         rnd        = System.Security.Cryptography.RandomNumberGenerator.Create();
            Span <byte> privateKey = new byte[32];

            do
            {
                rnd.GetBytes(privateKey.ToArray());
            }while (!secp256k1.SecretKeyVerify(privateKey));
            Span <byte> publicKey = new byte[64];

            if (!secp256k1.PublicKeyCreate(publicKey, privateKey))
            {
                throw new Exception("Public key creation failed");
            }
        }
예제 #9
0
        //Ignore this function as this is just to create Public Private key pairs for testing
        public static void GenerateKeys()
        {
            using (var secp256k1 = new Secp256k1())
            {
                // privatekey= "105c301c92f5d956ad577105e71aba4d29cf7af04cd47c648244dd8ad677381f"
                // publickey = "7a89dec4cc7e0964ed4c5e517f1cfee7e4f145e8500f55fe0317f97e71b7ba5219a4215b1885ac547da87bd0155d02c9bbe0501d0670a4f481df2b42f2130c02"

                // Generate a private key.
                var privateKey = new byte[32];
                var rnd        = System.Security.Cryptography.RandomNumberGenerator.Create();
                do
                {
                    rnd.GetBytes(privateKey);
                }while (!secp256k1.SecretKeyVerify(privateKey));

                var prk = ToHex(privateKey);

                // Create public key from private key.
                var publicKey = new byte[64];
                Debug.Assert(secp256k1.PublicKeyCreate(publicKey, privateKey));

                var pbk = ToHex(publicKey);


                // Sign a message hash.
                var messageBytes = Encoding.UTF8.GetBytes("Hello world.");
                var messageHash  = System.Security.Cryptography.SHA256.Create().ComputeHash(messageBytes);
                var signature    = new byte[64];
                Debug.Assert(secp256k1.Sign(signature, messageHash, privateKey));

                // Serialize a DER signature from ECDSA signature
                byte[] signatureDer = new byte[Secp256k1.SERIALIZED_DER_SIGNATURE_MAX_SIZE];
                int    outL         = 0;
                Debug.Assert(secp256k1.SignatureSerializeDer(signatureDer, signature, out outL));
                Array.Resize(ref signatureDer, outL);

                // Verify message hash.
                Debug.Assert(secp256k1.Verify(signature, messageHash, publicKey));
            }
        }
예제 #10
0
        static EthereumEcdsaNative Generate(uint accountIndex, Secp256k1 secp256k1, IAccountDerivation accountFactory)
        {
            var privateKey = accountFactory.GeneratePrivateKey(accountIndex);

            if (!secp256k1.SecretKeyVerify(privateKey))
            {
                var errMsg = "Unmanaged EC library failed to valid private key. ";
                if (IncludeKeyDataInExceptions)
                {
                    errMsg += $"Private key: {privateKey.ToHexString()}";
                }

                throw new Exception(errMsg);
            }

            var keyBigInt = BigIntegerConverter.GetBigInteger(privateKey, signed: false, byteCount: PRIVATE_KEY_SIZE);

            keyBigInt  = Secp256k1Curve.EnforceLowS(keyBigInt);
            privateKey = BigIntegerConverter.GetBytes(keyBigInt, PRIVATE_KEY_SIZE);

            return(new EthereumEcdsaNative(privateKey, EthereumEcdsaKeyType.Private));
        }
        private PrivateKey ChildKeyDerive(byte[] keyPath)
        {
            byte[] childKey;
            byte[] childChainCode;
            byte   nonce = 0;

            do
            {
                List <byte> bytes = new List <byte>();

                bytes.AddRange(Bytes);
                bytes.AddRange(keyPath);
                bytes.AddRange(ChainCode);
                bytes.Add(nonce++);

                byte[] keyAndChainCode = HashProvider.Hash512(bytes.ToArray());
                childKey       = keyAndChainCode.Left();
                childChainCode = keyAndChainCode.Right();
            } while (!Secp256k1.SecretKeyVerify(childKey));

            return(new PrivateKey(childKey, childChainCode));
        }
예제 #12
0
        public static void CloudKeygen(int n, int f, IEnumerable <string> ips, ushort basePort, ushort target, ulong chainId, ulong cycleDuration, ulong validatorsCount, string networkName,
                                       string feedAddress, string feedBalance, string stakeAmount, IEnumerable <ulong> hardforks)
        {
            if (n <= 3 * f)
            {
                throw new Exception("N must be >= 3 * F + 1");
            }
            var tpkeKeyGen = new Crypto.TPKE.TrustedKeyGen(n, f);
            var tpkePubKey = tpkeKeyGen.GetPubKey();

            var sigKeyGen  = new Crypto.ThresholdSignature.TrustedKeyGen(n, f);
            var privShares = sigKeyGen.GetPrivateShares().ToArray();
            var pubShares  = sigKeyGen.GetPrivateShares()
                             .Select(s => s.GetPublicKeyShare())
                             .Select(s => s.ToHex())
                             .ToArray();

            var ecdsaPrivateKeys = new string[n];
            var ecdsaPublicKeys  = new string[n];
            var addresses        = new string[n];
            var crypto           = CryptoProvider.GetCrypto();

            for (var i = 0; i < n; ++i)
            {
                ecdsaPrivateKeys[i] = crypto.GenerateRandomBytes(32).ToHex(false);
                ecdsaPublicKeys[i]  = crypto.ComputePublicKey(ecdsaPrivateKeys[i].HexToBytes(), true).ToHex(false);
                addresses[i]        = ecdsaPrivateKeys[i].HexToBytes().ToPrivateKey().GetPublicKey().GetAddress().ToHex();
            }

            var hubPublicKeys            = new string[n];
            var serializedHubPrivateKeys = new string[n];

            for (var i = 0; i < n; ++i)
            {
                (serializedHubPrivateKeys[i], hubPublicKeys[i]) = PrivateWallet.GenerateHubKey();
            }

            var bootstraps = ips
                             .Zip(hubPublicKeys, (ip, id) => $"{id}@{ip}")
                             .Select((x, i) => $"{x}:{41011 + i}")
                             .ToArray();

            var peers = ecdsaPublicKeys.ToArray();

            for (var i = 0; i < n; ++i)
            {
                var net = new NetworkConfig
                {
                    Peers              = peers,
                    MaxPeers           = 100,
                    ForceIPv6          = false,
                    BootstrapAddresses = bootstraps,
                    HubLogLevel        = "Trace",
                    HubMetricsPort     = basePort + 2,
                    NetworkName        = networkName,
                    ChainId            = (int)chainId,
                    CycleDuration      = cycleDuration,
                    ValidatorsCount    = validatorsCount,
                };
                var genesis = new GenesisConfig(tpkePubKey.ToHex(), "5.000000000000000000", "0.000000100000000000")
                {
                    Balances = new Dictionary <string, string>
                    {
                        {
                            feedAddress, feedBalance
                        }
                    },
                    Validators = Enumerable.Range(0, n).Select(j => new ValidatorInfo(
                                                                   ecdsaPublicKeys[j], pubShares[j], feedAddress, stakeAmount
                                                                   )).ToList()
                };
                for (var j = 0; j < n; ++j)
                {
                    genesis.Balances[addresses[j]] = "100";
                }

                var secp256K1  = new Secp256k1();
                var privateKey = new byte[32];
                var rnd        = System.Security.Cryptography.RandomNumberGenerator.Create();
                do
                {
                    rnd.GetBytes(privateKey);
                }while (!secp256K1.SecretKeyVerify(privateKey));

                var privateKeyHex = privateKey.ToHex();
                var publicKey     = new byte[64];
                Debug.Assert(secp256K1.PublicKeyCreate(publicKey, privateKey));
                var publicKeyHex = publicKey.ToHex();

                System.Console.WriteLine($"Loop {i + 1:D2}: private key [{privateKeyHex}] associated with public key [{publicKeyHex}]");

                var rpc = new RpcConfig
                {
                    Hosts       = new[] { "+" },
                    Port        = basePort,
                    MetricsPort = (ushort)(basePort + 1),
                    // ApiKey = "0x2e917846fe7487a4ea3a765473a3fc9b2d9227a4d312bc77fb9de357cf73d7e52b771d537394336e9eb2cb4838138f668f4bd7d8cf7e04d9242a42c71b99f166",
                    ApiKey = publicKeyHex
                };
                var walletPath = "wallet.json";
                var vault      = new VaultConfig
                {
                    Path     = walletPath,
                    Password = getRandomPassword()
                };
                var storage = new StorageConfig
                {
                    Path     = "ChainLachain",
                    Provider = "RocksDB",
                };
                var blockchain = new BlockchainConfig
                {
                    TargetBlockTime = target,
                };
                List <ulong> hardforkHeights = hardforks.ToList();
                var          hardfork        = new HardforkConfig
                {
                    Hardfork_1 = hardforkHeights[0],
                    Hardfork_2 = hardforkHeights[1],
                    Hardfork_3 = hardforkHeights[2],
                    Hardfork_4 = hardforkHeights[3],
                };
                var version = new VersionConfig
                {
                    Version = 2
                };

                var blockHeight = new CacheOptions
                {
                    SizeLimit = 100
                };

                var cache = new CacheConfig
                {
                    BlockHeight = blockHeight
                };

                var config = new Config(net, genesis, rpc, vault, storage, blockchain, hardfork, version, cache);
                File.WriteAllText($"config{i + 1:D2}.json", JsonConvert.SerializeObject(config, Formatting.Indented));
                GenWallet(
                    $"wallet{i + 1:D2}.json",
                    ecdsaPrivateKeys[i],
                    serializedHubPrivateKeys[i],
                    tpkeKeyGen.GetPrivKey(i).ToHex(),
                    privShares[i].ToHex(),
                    vault.Password
                    );
            }

            var tpkePrivKeys = string.Join(
                ", ",
                Enumerable.Range(0, n)
                .Select(idx => tpkeKeyGen.GetPrivKey(idx))
                .Select(x => $"\"{x.ToHex()}\""));
            var tsKeys = string.Join(
                ", ",
                sigKeyGen.GetPrivateShares()
                .Select(x => $"(\"{x.GetPublicKeyShare().ToHex()}\", \"{x.ToHex()}\")")
                );

            System.Console.WriteLine(
                $"{n}: " + "{" +
                "  \"tpke\": (" +
                $"    \"{tpkePubKey.ToHex()}\"," +
                $"    [{tpkePrivKeys}]" +
                "  )," +
                $"  \"ts\": [{tsKeys}]," +
                "}");
            System.Console.WriteLine(
                string.Join(", ", ecdsaPrivateKeys.Zip(ecdsaPublicKeys).Zip(addresses)
                            .Select(t => $"(\"{t.First.Second}\", \"{t.First.First}\", \"{t.Second}\")"))
                );
        }
 public static PrivateKey CreateKey()
 {
     byte[] bytes = RndProvider.GetNonZeroBytes(KEY_BYTES);
     return(Secp256k1.SecretKeyVerify(bytes) ? new PrivateKey(bytes) : CreateKey());
 }
예제 #14
0
파일: KzPrivKey.cs 프로젝트: wy000000/KzBsv
 static bool Check(ReadOnlySpan <byte> vch)
 {
     using (var secp256k1 = new Secp256k1()) {
         return(secp256k1.SecretKeyVerify(vch));
     }
 }