Example #1
0
        /// <summary>
        /// Todo :Need to be enhanced to return the correct public key but not used for now
        /// </summary>
        /// <param name="pem"></param>
        /// <param name="key"></param>
        /// <returns></returns>
        public static Ed25519PublicKeyParameters GetPublicKeyFromPrivateKey(Ed25519PrivateKeyParameters privateKey)
        {
            // get the public key from the private key
            Ed25519PublicKeyParameters publicKey = privateKey.GeneratePublicKey();

            return(publicKey);
        }
Example #2
0
        public virtual AsymmetricCipherKeyPair GenerateKeyPair()
        {
            Ed25519PrivateKeyParameters privateKey = new Ed25519PrivateKeyParameters(random);
            Ed25519PublicKeyParameters  publicKey  = privateKey.GeneratePublicKey();

            return(new AsymmetricCipherKeyPair(publicKey, privateKey));
        }
Example #3
0
        /// <summary>
        /// Creates a new Link from the given builder, signs it and executes the GraphQL
        /// mutation.
        /// </summary>
        /// <typeparam name="TLinkData"></typeparam>
        /// <param name="linkBuilder">The linkBuilder<see cref="TraceLinkBuilder{TLinkData}"/></param>
        /// <returns>The <see cref="Task{TraceState{TState, TLinkData}}"/></returns>
        private async Task <TraceState <TState, TLinkData> > CreateLinkAsync <TLinkData>(TraceLinkBuilder <TLinkData> linkBuilder)
        {
            // extract signing key from config
            SdkConfig sdkConfig = await GetConfigAsync();

            Ed25519PrivateKeyParameters signingPrivateKey = sdkConfig.SigningPrivateKey;

            // build the link
            TraceLink <TLinkData> link = linkBuilder.Build();

            // sign the link
            link.Sign(signingPrivateKey.GetEncoded(), "[version,data,meta]");



            string linkObjJson = JsonHelper.ToJson(link.ALink);

            Dictionary <string, object> linkObj = JsonHelper.ObjectToMap(link.GetLink());


            Dictionary <string, object> dataObj = JsonHelper.ObjectToMap(((TraceLink <TLinkData>)link).FormData());

            Dictionary <string, object> variables = new Dictionary <string, object>
            {
                ["link"] = linkObj,
                ["data"] = dataObj
            };
            // Debug.WriteLine("Request : " + JsonHelper.ToJson(dataObj));
            // execute graphql query
            GraphQLResponse jsonResponse = await this.client.GraphqlAsync(GraphQL.MUTATION_CREATELINK, variables, null, null);

            var trace = jsonResponse.Data.createLink.trace;

            return(this.MakeTraceState <TLinkData>(trace));
        }
Example #4
0
        public void CanValidateSignature()
        {
            Ed25519KeyPairGenerator kpg = new Ed25519KeyPairGenerator();

            kpg.Init(new Ed25519KeyGenerationParameters(Random));

            AsymmetricCipherKeyPair     kp         = kpg.GenerateKeyPair();
            Ed25519PrivateKeyParameters privateKey = (Ed25519PrivateKeyParameters)kp.Private;
            Ed25519PublicKeyParameters  publicKey  = (Ed25519PublicKeyParameters)kp.Public;
            var pubKeyBase64 = Convert.ToBase64String(publicKey.GetEncoded());

            // create signature for item
            byte[] msg = new byte[Random.NextInt() & 255];
            Random.NextBytes(msg);
            var signer = new Ed25519Signer();

            signer.Init(true, privateKey);
            signer.BlockUpdate(msg, 0, msg.Length);
            byte[] signature           = signer.GenerateSignature();
            var    signatureForAppCast = Convert.ToBase64String(signature);

            // verify signature
            var checker = new Ed25519Checker(NetSparkleUpdater.Enums.SecurityMode.Strict, pubKeyBase64);

            Assert.True(checker.VerifySignature(signatureForAppCast, msg) == NetSparkleUpdater.Enums.ValidationResult.Valid);
        }
        /// <summary>
        /// Generates the specified force.
        /// </summary>
        /// <param name="force">if set to <c>true</c> [force].</param>
        /// <returns><c>true</c> if XXXX, <c>false</c> otherwise.</returns>
        public bool Generate(bool force = false)
        {
            if (KeysExist() && !force)
            {
                Console.WriteLine("Keys already exist, use --force to force regeneration");
                return(false);
            }

            // start key generation
            Console.WriteLine("Generating key pair...");

            var Random = new SecureRandom();

            Ed25519KeyPairGenerator kpg = new Ed25519KeyPairGenerator();

            kpg.Init(new Ed25519KeyGenerationParameters(Random));

            AsymmetricCipherKeyPair     kp         = kpg.GenerateKeyPair();
            Ed25519PrivateKeyParameters privateKey = (Ed25519PrivateKeyParameters)kp.Private;
            Ed25519PublicKeyParameters  publicKey  = (Ed25519PublicKeyParameters)kp.Public;

            var privKeyBase64 = Convert.ToBase64String(privateKey.GetEncoded());
            var pubKeyBase64  = Convert.ToBase64String(publicKey.GetEncoded());

            File.WriteAllText(_privateKeyFilePath, privKeyBase64);
            File.WriteAllText(_publicKeyFilePath, pubKeyBase64);

            Console.WriteLine("Storing public/private keys to " + _storagePath);
            return(true);
        }
Example #6
0
        /// <summary>
        /// Signs the passed in data with a private key
        /// </summary>
        /// <param name="privateKey">the private key used to create the signature</param>
        /// <param name="data">The data to sign</param>
        /// <returns>the signature as a byte array</returns>
        public byte[] Sign(byte[] privateKey, byte[] data)
        {
            Ed25519PrivateKeyParameters privKey = null;

            try
            {
                privKey = (Ed25519PrivateKeyParameters)CreateAsymmetricKeyParameterFromPrivateKeyInfo(privateKey);
            }
            catch (InvalidCastException exception)
            {
                string message = "Private Key Import Failed!\n" +
                                 $"{exception.Message}.\n" +
                                 "The contents of the source do not represent a valid Ed25519 key parameter\n" +
                                 "Verify that the key is not corrupted.\n" +
                                 "- or - Verify that the correct key is selected.";
                throw new CryptoException(message, exception);
            }
            var signer = new Ed25519Signer();

            signer.Init(true, privKey);
            signer.BlockUpdate(data, 0, data.Length);
            var signature = signer.GenerateSignature();

            return(signature);
        }
Example #7
0
        private void DoTestConsistency(Ed25519.Algorithm algorithm, byte[] context)
        {
            Ed25519KeyPairGenerator kpg = new Ed25519KeyPairGenerator();

            kpg.Init(new Ed25519KeyGenerationParameters(Random));

            AsymmetricCipherKeyPair     kp         = kpg.GenerateKeyPair();
            Ed25519PrivateKeyParameters privateKey = (Ed25519PrivateKeyParameters)kp.Private;
            Ed25519PublicKeyParameters  publicKey  = (Ed25519PublicKeyParameters)kp.Public;

            byte[] msg = new byte[Random.NextInt() & 255];
            Random.NextBytes(msg);

            ISigner signer = CreateSigner(algorithm, context);

            signer.Init(true, privateKey);
            signer.BlockUpdate(msg, 0, msg.Length);
            byte[] signature = signer.GenerateSignature();

            ISigner verifier = CreateSigner(algorithm, context);

            {
                verifier.Init(false, publicKey);
                verifier.BlockUpdate(msg, 0, msg.Length);
                bool shouldVerify = verifier.VerifySignature(signature);

                if (!shouldVerify)
                {
                    Fail("Ed25519(" + algorithm + ") signature failed to verify");
                }
            }

            {
                byte[] wrongLengthSignature = Arrays.Append(signature, 0x00);

                verifier.Init(false, publicKey);
                verifier.BlockUpdate(msg, 0, msg.Length);
                bool shouldNotVerify = verifier.VerifySignature(wrongLengthSignature);

                if (shouldNotVerify)
                {
                    Fail("Ed25519(" + algorithm + ") wrong length signature incorrectly verified");
                }
            }

            {
                byte[] badSignature = Arrays.Clone(signature);
                badSignature[Random.Next() % badSignature.Length] ^= (byte)(1 << (Random.NextInt() & 7));

                verifier.Init(false, publicKey);
                verifier.BlockUpdate(msg, 0, msg.Length);
                bool shouldNotVerify = verifier.VerifySignature(badSignature);

                if (shouldNotVerify)
                {
                    Fail("Ed25519(" + algorithm + ") bad signature incorrectly verified");
                }
            }
        }
Example #8
0
        /// <summary>
        /// Encodes private key to PEM formatted string
        /// </summary>
        /// <param name="publicKey"></param>
        /// <returns></returns>
        public static string EncodePrivateKey(Ed25519PrivateKeyParameters privateKey)
        {
            var serializedPublicBytes = privateKey.GetEncoded();
            var base64 = Convert.ToBase64String(serializedPublicBytes);

            base64 = string.Format("-----BEGIN ED25519 PRIVATE KEY-----\n{0}\n-----END ED25519 PRIVATE KEY-----\n", base64);
            return(base64);
        }
Example #9
0
        public RawKeyPair(string privateKey)
        {
            string privateKey32 = privateKey.Length == 128 ? privateKey.Substring(0, 64) : privateKey;
            Ed25519PrivateKeyParameters privateKeyParams = new Ed25519PrivateKeyParameters(Hex.Decode(privateKey32), 0);
            Ed25519PublicKeyParameters  publicKeyParams  = privateKeyParams.GeneratePublicKey();

            PublicKey  = publicKeyParams.GetEncoded();
            PrivateKey = privateKeyParams.GetEncoded();
        }
Example #10
0
 public SdkConfig(string workflowId, string configId, string accountId,
                  Dictionary <string, string> groupLabelToIdMap, Ed25519PrivateKeyParameters signingPrivateKey)
 {
     this.workflowId        = workflowId;
     this.configId          = configId;
     this.accountId         = accountId;
     this.groupLabelToIdMap = groupLabelToIdMap;
     this.signingPrivateKey = signingPrivateKey;
 }
Example #11
0
        /// <summary>
        /// Signg the message and convert it ot base64
        /// </summary>
        /// <param name="key"></param>
        /// <param name="message"></param>
        /// <returns></returns>
        public static string Sign(Ed25519PrivateKeyParameters key, byte[] message)
        {
            ISigner signer = SignerUtilities.GetSigner(Ed25519_ALGO);

            signer.Init(true, key);
            signer.BlockUpdate(message, 0, message.Length);
            var signature = signer.GenerateSignature();

            return(CryptoUtils.EncodeSignature(signature));
        }
Example #12
0
 public SdkConfig(string workflowId, string userId, string accountId, string groupId, string ownerId, IDictionary <string, string> actionNames, Ed25519PrivateKeyParameters signingPrivateKey)
 {
     this.workflowId        = workflowId;
     this.userId            = userId;
     this.accountId         = accountId;
     this.groupId           = groupId;
     this.ownerId           = ownerId;
     this.signingPrivateKey = signingPrivateKey;
     this.actionNames       = actionNames;
 }
Example #13
0
        public AsymmetricKeyPair Generate()
        {
            Ed25519PrivateKeyParameters secretKeyParams = new Ed25519PrivateKeyParameters(_secureRandom);
            Ed25519PublicKeyParameters  publicKeyParams = secretKeyParams.GeneratePublicKey();

            byte[] asn1SecretKey = SecretKeyAsn1Header.Concat(secretKeyParams.GetEncoded()).ToArray();
            byte[] asn1PublicKey = PublicKeyAsn1Header.Concat(publicKeyParams.GetEncoded()).ToArray();

            return(new AsymmetricKeyPair(new SecretKey(asn1SecretKey, KeyAlgorithm.Ed25519), new PublicKey(asn1PublicKey, KeyAlgorithm.Ed25519)));
        }
Example #14
0
        public BaseKeyPair(string privateKey)
        {
            string privateKey32 = privateKey.Length == 128 ? privateKey.Substring(0, 64) : privateKey;
            Ed25519PrivateKeyParameters privateKeyParams = new Ed25519PrivateKeyParameters(Hex.Decode(privateKey32), 0);
            Ed25519PublicKeyParameters  publicKeyParams  = privateKeyParams.GeneratePublicKey();

            byte[] publicBinary  = publicKeyParams.GetEncoded();
            byte[] privateBinary = privateKeyParams.GetEncoded();
            PublicKey  = Encoding.EncodeCheck(publicBinary, Constants.ApiIdentifiers.ACCOUNT_PUBKEY);
            PrivateKey = Hex.ToHexString(privateBinary) + Hex.ToHexString(publicBinary);
        }
Example #15
0
        public Signature Sign(byte[] msg, byte[] prvKey)
        {
            var digest     = Blake2b.GetDigest(msg);
            var privateKey = new Ed25519PrivateKeyParameters(prvKey, 0);
            var signer     = new Ed25519Signer();

            signer.Init(true, privateKey);
            signer.BlockUpdate(digest, 0, digest.Length);

            return(new Signature(signer.GenerateSignature(), _SignaturePrefix));
        }
Example #16
0
        public static RawKeyPair Generate()
        {
            Ed25519KeyPairGenerator keyPairGenerator = new Ed25519KeyPairGenerator();

            keyPairGenerator.Init(new Ed25519KeyGenerationParameters(new SecureRandom()));
            AsymmetricCipherKeyPair     asymmetricCipherKeyPair = keyPairGenerator.GenerateKeyPair();
            Ed25519PublicKeyParameters  publicKeyParams         = (Ed25519PublicKeyParameters)asymmetricCipherKeyPair.Public;
            Ed25519PrivateKeyParameters privateKeyParams        = (Ed25519PrivateKeyParameters)asymmetricCipherKeyPair.Private;

            byte[] publicKey  = publicKeyParams.GetEncoded();
            byte[] privateKey = privateKeyParams.GetEncoded();
            return(new RawKeyPair(publicKey, privateKey));
        }
Example #17
0
        /// <summary>
        /// Creates a new Link from the given builder, signs it and executes the GraphQL
        /// mutation.
        /// </summary>
        /// <typeparam name="TLinkData"></typeparam>
        /// <param name="linkBuilder">The linkBuilder<see cref="TraceLinkBuilder{TLinkData}"/></param>
        /// <param name="firstTry">if this is not the first try, do not retry</param>
        /// <returns>The <see cref="Task{TraceState{TState, TLinkData}}"/></returns>
        private async Task <TraceState <TState, TLinkData> > CreateLinkAsync <TLinkData>(TraceLinkBuilder <TLinkData> linkBuilder, bool firstTry = true)
        {
            // extract signing key from config
            SdkConfig sdkConfig = await GetConfigAsync();

            Ed25519PrivateKeyParameters signingPrivateKey = sdkConfig.SigningPrivateKey;

            // build the link
            TraceLink <TLinkData> link = linkBuilder.Build();

            // sign the link
            link.Sign(signingPrivateKey.GetEncoded(), "[version,data,meta]");



            string linkObjJson = JsonHelper.ToJson(link.ALink);

            Dictionary <string, object> linkObj = JsonHelper.ObjectToMap(link.GetLink());


            Dictionary <string, object> dataObj = JsonHelper.ObjectToMap(((TraceLink <TLinkData>)link).FormData());

            Dictionary <string, object> variables = new Dictionary <string, object>
            {
                ["link"] = linkObj,
                ["data"] = dataObj
            };

            try
            {
                // execute graphql query
                GraphQLResponse <dynamic> jsonResponse = await this.client.GraphqlAsync(GraphQL.MUTATION_CREATELINK, variables, null, null);

                var trace = jsonResponse.Data.createLink.trace;

                return(this.MakeTraceState <TLinkData>(trace));
            }
            catch (TraceSdkException e)
            {
                if (firstTry && e.Message == ERROR_CONFIG_DEPRECATED)
                {
                    var cfg = await this.GetConfigAsync(true);

                    linkBuilder.WithConfigId(cfg.ConfigId);
                    link.GetLink().Signatures.Clear();
                    return(await this.CreateLinkAsync(linkBuilder, false));
                }

                throw e;
            }
        }
Example #18
0
 public void TestSign()
 {
     try
     {
         Ed25519PrivateKeyParameters pri = CryptoUtils.DecodeEd25519PrivateKey(privateKey);
         String encodedSig = CryptoUtils.Sign(pri, msg);
         Assert.AreEqual(encodedSig.Trim(), signature.Trim(), "Encoded message does not match expected");
     }
     catch (Exception e)
     {
         System.Diagnostics.Debug.WriteLine(e.ToString());
         throw e;
     }
 }
Example #19
0
    internal static void Sign(IInvoice invoice, Ed25519PrivateKeyParameters privateKey)
    {
        var ed25519Signer = new Ed25519Signer();

        ed25519Signer.Init(true, privateKey);
        ed25519Signer.BlockUpdate(invoice.TxBytes.ToArray(), 0, invoice.TxBytes.Length);
        var signature = ed25519Signer.GenerateSignature();

        ed25519Signer.Reset();
        var publicKey = privateKey.GeneratePublicKey().GetEncoded();
        var prefix    = new ReadOnlyMemory <byte>(publicKey, 0, Math.Min(Math.Max(6, invoice.MinimumDesiredPrefixSize), publicKey.Length));

        invoice.AddSignature(KeyType.Ed25519, prefix, signature);
    }
Example #20
0
            internal byte[] GenerateSignature(Ed25519PrivateKeyParameters privateKey, Ed25519PublicKeyParameters publicKey)
            {
#if PORTABLE
                byte[] buf   = ToArray();
                int    count = buf.Length;
#else
                byte[] buf   = GetBuffer();
                int    count = (int)Position;
#endif
                byte[] signature = new byte[Ed25519PrivateKeyParameters.SignatureSize];
                privateKey.Sign(Ed25519.Algorithm.Ed25519, publicKey, null, buf, 0, count, signature, 0);
                Reset();
                return(signature);
            }
Example #21
0
        string ITestCase.Generate()
        {
            Ed25519PrivateKeyParameters privateKey = CryptoUtils.DecodeEd25519PrivateKey(privateKeyString);
            Link link = new LinkBuilder("test_process", "test_map")
                        .WithAction("ʙᴀᴛᴍᴀɴ").Build();

            link.Sign(privateKey.GetEncoded(), "");
            link.Sign(privateKey.GetEncoded(), "[version,meta.mapId]");
            //      link.sign(rsaKey.getEncoded(), "[version,meta.mapId]");

            Segment segment = link.Segmentify();

            return(Convert.ToBase64String(segment.Serialize()));
        }
Example #22
0
 public void TestGetPublicKeyFromPrivateKey()
 {
     try
     {
         Ed25519PrivateKeyParameters pri = CryptoUtils.DecodeEd25519PrivateKey(privateKey);
         Ed25519PublicKeyParameters  pub = CryptoUtils.GetPublicKeyFromPrivateKey(pri);
         string publicPEM = CryptoUtils.EncodePublicKey(pub);
         Assert.AreEqual(publicPEM, publicKey, "Extract public key from private key failed");
     }
     catch (Exception e)
     {
         System.Diagnostics.Debug.WriteLine(e.ToString());
         throw e;
     }
 }
Example #23
0
        public void Init(bool forSigning, ICipherParameters parameters)
        {
            if (forSigning)
            {
                privateKey = (Ed25519PrivateKeyParameters)parameters;
                publicKey  = privateKey.GeneratePublicKey();
            }
            else
            {
                publicKey  = (Ed25519PublicKeyParameters)parameters;
                privateKey = null;
            }

            Reset();
        }
Example #24
0
        public void TestSignVerify()
        {
            try
            {
                Ed25519PrivateKeyParameters pri = CryptoUtils.DecodeEd25519PrivateKey(privateKey);
                Ed25519PublicKeyParameters  pub = CryptoUtils.GetPublicKeyFromPrivateKey(pri);

                String encodedSig = CryptoUtils.Sign(pri, msg);
                Assert.IsTrue(CryptoUtils.Verify(pub, msg, encodedSig), "Message Verification failed");
            }
            catch (Exception e)
            {
                System.Diagnostics.Debug.WriteLine(e.ToString());
                throw e;
            }
        }
Example #25
0
        /// <summary>
        /// Rebuild the account from private key
        /// </summary>
        /// <param name="privateKey">Private Key</param>
        /// <returns>the rebuilded account</returns>
        public static Account AccountFromPrivateKey(byte[] privateKey)
        {
            if (privateKey.Length != SK_SIZE)
            {
                throw new ArgumentException("Incorrect private key length");
            }

            var privateKeyRebuild = new Ed25519PrivateKeyParameters(privateKey, 0);
            var publicKeyRebuild  = privateKeyRebuild.GeneratePublicKey();
            var act = new Account
            {
                privateKeyPair = new AsymmetricCipherKeyPair(publicKeyRebuild, privateKeyRebuild),
            };

            act.Address = new Address(act.GetClearTextPublicKey());
            return(act);
        }
Example #26
0
            internal byte[] GenerateSignature(Ed25519PrivateKeyParameters privateKey, byte[] ctx)
            {
                lock (this)
                {
#if PORTABLE || NETFX_CORE
                    byte[] buf   = ToArray();
                    int    count = buf.Length;
#else
                    byte[] buf   = GetBuffer();
                    int    count = (int)Position;
#endif
                    byte[] signature = new byte[Ed25519PrivateKeyParameters.SignatureSize];
                    privateKey.Sign(Ed25519.Algorithm.Ed25519ctx, ctx, buf, 0, count, signature, 0);
                    Reset();
                    return(signature);
                }
            }
Example #27
0
        public virtual void Init(bool forSigning, ICipherParameters parameters)
        {
            this.forSigning = forSigning;

            if (forSigning)
            {
                this.privateKey = (Ed25519PrivateKeyParameters)parameters;
                this.publicKey  = null;
            }
            else
            {
                this.privateKey = null;
                this.publicKey  = (Ed25519PublicKeyParameters)parameters;
            }

            Reset();
        }
Example #28
0
        public static KeyPair generateEd25519KeyPair()
        {
            Org.BouncyCastle.Crypto.Generators.Ed25519KeyPairGenerator kpg = new Org.BouncyCastle.Crypto.Generators.Ed25519KeyPairGenerator();
            kpg.Init(new Ed25519KeyGenerationParameters(secureRandom));
            Org.BouncyCastle.Crypto.AsymmetricCipherKeyPair kp = kpg.GenerateKeyPair();
            KeyPair nkp = new KeyPair();
            Ed25519PrivateKeyParameters privateKey = (Ed25519PrivateKeyParameters)kp.Private;
            Ed25519PublicKeyParameters  publicKey  = (Ed25519PublicKeyParameters)kp.Public;

            nkp.publicKey  = new PublicKey(publicKey.GetEncoded());
            nkp.privateKey = new PrivateKey(privateKey.GetEncoded());
            if (nkp.privateKey.isValid())
            {
                return(nkp);
            }
            return(generateEd25519KeyPair());
        }
Example #29
0
        public override bool GenerateKey(byte[] inSeed, byte[] outKey, int accessLevel, List <Parameter> parameters)
        {
            byte[] privateKeyBytes = GetParameterBytearray(parameters, "PrivateKey");

            if ((inSeed.Length != 32) || (outKey.Length != 64))
            {
                return(false);
            }

            Ed25519PrivateKeyParameters privateKey = new Ed25519PrivateKeyParameters(privateKeyBytes, 0);
            Ed25519phSigner             signer     = new Ed25519phSigner(new byte[] { });

            signer.Init(true, privateKey);
            signer.BlockUpdate(inSeed, 0, inSeed.Length);
            byte[] signature = signer.GenerateSignature();
            Array.ConstrainedCopy(signature, 0, outKey, 0, signature.Length);
            return(true);
        }
Example #30
0
        public virtual void Init(bool forSigning, ICipherParameters parameters)
        {
            this.forSigning = forSigning;

            if (forSigning)
            {
                // TODO Allow AsymmetricCipherKeyPair to be a CipherParameters?

                this.privateKey = (Ed25519PrivateKeyParameters)parameters;
                this.publicKey  = privateKey.GeneratePublicKey();
            }
            else
            {
                this.privateKey = null;
                this.publicKey  = (Ed25519PublicKeyParameters)parameters;
            }

            Reset();
        }