public static string ClearTextSign(string strMessage, SecretKeyRing skrKeyRing) { SignaturePacket spSign = new SignaturePacket(); strMessage = Radix64.TrimMessage(strMessage); QueryPassphrase qpPassphrase = new QueryPassphrase(); qpPassphrase.ShowMyDialog(skrKeyRing); string strPassphrase = qpPassphrase.Passphrase; TransportableSecretKey tskKey = qpPassphrase.SelectedKey; SecretKeyPacket skpKey = tskKey.FindKey(AsymActions.Sign); Working wWorking = new Working(); wWorking.Show(); spSign.HashAlgorithm = HashAlgorithms.SHA1; spSign.Format = PacketFormats.New; wWorking.Progress(10); SignatureSubPacket sspCreator = new SignatureSubPacket(); sspCreator.Type = SignatureSubPacketTypes.IssuerKeyID; sspCreator.KeyID = skpKey.PublicKey.KeyID; SignatureSubPacket sspCreationTime = new SignatureSubPacket(); sspCreationTime.Type = SignatureSubPacketTypes.SignatureCreationTime; sspCreationTime.TimeCreated = DateTime.Now; spSign.HashedSubPackets = new SignatureSubPacket[2]; spSign.HashedSubPackets[0] = sspCreator; spSign.HashedSubPackets[1] = sspCreationTime; wWorking.Progress(20); //spSign.KeyID = skpKey.PublicKey.KeyID; //spSign.TimeCreated = DateTime.Now; spSign.SignatureAlgorithm = skpKey.PublicKey.Algorithm; spSign.SignatureType = SignatureTypes.TextSignature; spSign.Version = SignaturePacketVersionNumbers.v4; wWorking.Progress(10); byte[] bMessage = System.Text.Encoding.UTF8.GetBytes(strMessage); spSign.Sign(bMessage, skpKey, strPassphrase); wWorking.Progress(40); byte[] bSignature = spSign.Generate(); string strSignature = Radix64.Encode(bSignature, true); wWorking.Progress(20); string strFinal = Armor.WrapCleartextSignature(strMessage, strSignature); wWorking.Hide(); return(strFinal); }
public static void EncryptFiles(String[] strFiles, PublicKeyRing pkrPublicKeyRing, SecretKeyRing skrSecretKeyRing, bool bEncrypt, bool bSign) { PublicKeySelector pksSelectKeys = new PublicKeySelector(pkrPublicKeyRing); if (bEncrypt) { pksSelectKeys.ShowDialog(); if (pksSelectKeys.SelectedKeys.Count == 0) { MessageBox.Show("You did not select a public key to encrypt to. Doing nothing...", "Nothing Done..."); return; } } TransportableSecretKey tskKey = new TransportableSecretKey(); string strPassphrase = ""; if (bSign) { QueryPassphrase qpPassphrase = new QueryPassphrase(); qpPassphrase.ShowMyDialog(skrSecretKeyRing); tskKey = qpPassphrase.SelectedKey; strPassphrase = qpPassphrase.Passphrase; } Working wWorking = new Working(); wWorking.Show(); for (int i = 0; i < strFiles.Length; i++) { byte[] bFileContent = new byte[0]; try { System.IO.FileStream fsFile = new FileStream(strFiles[i], FileMode.Open); BinaryReader brReader = new BinaryReader(fsFile); bFileContent = brReader.ReadBytes((int)fsFile.Length); brReader.Close(); fsFile.Close(); } catch (Exception e) { wWorking.Hide(); MessageBox.Show("An error occured while opening the file " + strFiles[i] + ": " + e.Message, "Error..."); return; } LiteralMessage lmMessage = new LiteralMessage(DataFormatTypes.Binary); lmMessage.Binary = bFileContent; lmMessage.TimeCreated = DateTime.Now; int iLastBackslash = strFiles[i].LastIndexOf("\\"); lmMessage.Filename = strFiles[i].Substring(iLastBackslash + 1, strFiles[i].Length - iLastBackslash - 1); SharpPrivacy.OpenPGP.Messages.Message mEncryptionMessage = lmMessage; if (bSign) { SignedMessage smMessage = new SignedMessage(); smMessage.MessageSigned = lmMessage; SignaturePacket spPacket = new SignaturePacket(); spPacket.Version = SignaturePacketVersionNumbers.v3; SecretKeyPacket skpKey = tskKey.FindKey(AsymActions.Sign); spPacket.KeyID = skpKey.PublicKey.KeyID; spPacket.HashAlgorithm = HashAlgorithms.SHA1; spPacket.SignatureAlgorithm = skpKey.PublicKey.Algorithm; spPacket.TimeCreated = DateTime.Now; spPacket.SignatureType = SignatureTypes.TextSignature; spPacket.Sign(lmMessage.Binary, skpKey, strPassphrase); smMessage.Signature = spPacket; mEncryptionMessage = smMessage; } CompressedMessage cmMessage = new CompressedMessage(); cmMessage.Compress(mEncryptionMessage); wWorking.Progress(20 / strFiles.Length); SymAlgorithms saAlgo = GetSymAlgorithmPreferences(pksSelectKeys.SelectedKeys); wWorking.Progress(10 / strFiles.Length); byte[] bReturn = new byte[0]; if (bEncrypt) { SymmetricallyEncryptedDataPacket sedpEncrypted = new SymmetricallyEncryptedDataPacket(); SymmetricAlgorithm saEncrypt = CipherHelper.CreateSymAlgorithm(saAlgo); saEncrypt.Mode = CipherMode.OpenPGP_CFB; saEncrypt.GenerateKey(); byte[] bKey = saEncrypt.Key; ESKSequence esksKeys = new ESKSequence(); try { esksKeys = CreateESKSequence(pksSelectKeys.SelectedKeys, AsymActions.Encrypt, saAlgo, bKey); } catch (Exception e) { wWorking.Hide(); MessageBox.Show("The following error occured: " + e.Message, "Error..."); return; } wWorking.Progress(50 / strFiles.Length); ICryptoTransform ictEncryptor = saEncrypt.CreateEncryptor(); byte[] bMessage = cmMessage.GetEncoded(); byte[] bOutput = new byte[bMessage.Length]; ictEncryptor.TransformBlock(bMessage, 0, bMessage.Length, ref bOutput, 0); bKey.Initialize(); wWorking.Progress(10 / strFiles.Length); int iOutLength = (saEncrypt.BlockSize >> 3) + 2 + bMessage.Length; sedpEncrypted.Body = new byte[iOutLength]; Array.Copy(bOutput, 0, sedpEncrypted.Body, 0, iOutLength); byte[] bESK = esksKeys.GetEncoded(); byte[] bEncrypted = sedpEncrypted.Generate(); bReturn = new byte[bESK.Length + bEncrypted.Length]; bESK.CopyTo(bReturn, 0); bEncrypted.CopyTo(bReturn, bESK.Length); } else { wWorking.Progress(60 / strFiles.Length); bReturn = cmMessage.GetEncoded(); } wWorking.Progress(10 / strFiles.Length); try { FileStream fsOut = new FileStream(strFiles[i] + ".asc", FileMode.CreateNew); BinaryWriter bwWrite = new BinaryWriter(fsOut); bwWrite.Write(bReturn); bwWrite.Close(); fsOut.Close(); } catch (IOException io) { MessageBox.Show("Could not write to file. The following error occured: " + io.Message, "Error..."); } } wWorking.Hide(); }
public static string EncryptText(string strMessage, PublicKeyRing pkrPublicKeyRing, SecretKeyRing skrSecretKeyRing, bool bSign) { PublicKeySelector pksSelectKeys = new PublicKeySelector(pkrPublicKeyRing); pksSelectKeys.ShowDialog(); TransportableSecretKey tskKey = new TransportableSecretKey(); string strPassphrase = ""; if (bSign) { QueryPassphrase qpPassphrase = new QueryPassphrase(); qpPassphrase.ShowMyDialog(skrSecretKeyRing); tskKey = qpPassphrase.SelectedKey; strPassphrase = qpPassphrase.Passphrase; } if (pksSelectKeys.SelectedKeys.Count == 0) { return(strMessage); } Working wWorking = new Working(); wWorking.Show(); LiteralMessage lmMessage = new LiteralMessage(DataFormatTypes.Text); lmMessage.Text = strMessage; lmMessage.TimeCreated = DateTime.Now; lmMessage.Filename = ""; SharpPrivacy.OpenPGP.Messages.Message mEncryptionMessage = lmMessage; if (bSign) { SignedMessage smMessage = new SignedMessage(); smMessage.MessageSigned = lmMessage; SignaturePacket spPacket = new SignaturePacket(); spPacket.Version = SignaturePacketVersionNumbers.v3; SecretKeyPacket skpKey = tskKey.FindKey(AsymActions.Sign); spPacket.KeyID = skpKey.PublicKey.KeyID; spPacket.HashAlgorithm = HashAlgorithms.SHA1; spPacket.SignatureAlgorithm = skpKey.PublicKey.Algorithm; spPacket.TimeCreated = DateTime.Now; spPacket.SignatureType = SignatureTypes.TextSignature; spPacket.Sign(lmMessage.Binary, skpKey, strPassphrase); smMessage.Signature = spPacket; mEncryptionMessage = smMessage; } CompressedMessage cmMessage = new CompressedMessage(); cmMessage.Compress(mEncryptionMessage); wWorking.Progress(20); SymAlgorithms saAlgo = GetSymAlgorithmPreferences(pksSelectKeys.SelectedKeys); SymmetricallyEncryptedDataPacket sedpEncrypted = new SymmetricallyEncryptedDataPacket(); SymmetricAlgorithm saEncrypt = CipherHelper.CreateSymAlgorithm(saAlgo); saEncrypt.Mode = CipherMode.OpenPGP_CFB; saEncrypt.GenerateKey(); byte[] bKey = saEncrypt.Key; wWorking.Progress(10); ESKSequence esksKeys = new ESKSequence(); try { esksKeys = CreateESKSequence(pksSelectKeys.SelectedKeys, AsymActions.Encrypt, saAlgo, bKey); } catch (Exception e) { wWorking.Hide(); MessageBox.Show("The following error occured: " + e.Message, "Error..."); return(strMessage); } wWorking.Progress(50); ICryptoTransform ictEncryptor = saEncrypt.CreateEncryptor(); byte[] bMessage = cmMessage.GetEncoded(); byte[] bOutput = new byte[bMessage.Length]; ictEncryptor.TransformBlock(bMessage, 0, bMessage.Length, ref bOutput, 0); bKey.Initialize(); wWorking.Progress(10); int iOutLength = (saEncrypt.BlockSize >> 3) + 2 + bMessage.Length; sedpEncrypted.Body = new byte[iOutLength]; Array.Copy(bOutput, 0, sedpEncrypted.Body, 0, iOutLength); byte[] bESK = esksKeys.GetEncoded(); byte[] bEncrypted = sedpEncrypted.Generate(); byte[] bReturn = new byte[bESK.Length + bEncrypted.Length]; bESK.CopyTo(bReturn, 0); bEncrypted.CopyTo(bReturn, bESK.Length); wWorking.Progress(10); string strReturn = Radix64.Encode(bReturn, true); strReturn = Armor.WrapMessage(strReturn); wWorking.Hide(); return(strReturn); }
public static string ClearTextSign(string strMessage, SecretKeyRing skrKeyRing) { SignaturePacket spSign = new SignaturePacket(); strMessage = Radix64.TrimMessage(strMessage); QueryPassphrase qpPassphrase = new QueryPassphrase(); qpPassphrase.ShowMyDialog(skrKeyRing); string strPassphrase = qpPassphrase.Passphrase; TransportableSecretKey tskKey = qpPassphrase.SelectedKey; SecretKeyPacket skpKey = tskKey.FindKey(AsymActions.Sign); Working wWorking = new Working(); wWorking.Show(); spSign.HashAlgorithm = HashAlgorithms.SHA1; spSign.Format = PacketFormats.New; wWorking.Progress(10); SignatureSubPacket sspCreator = new SignatureSubPacket(); sspCreator.Type = SignatureSubPacketTypes.IssuerKeyID; sspCreator.KeyID = skpKey.PublicKey.KeyID; SignatureSubPacket sspCreationTime = new SignatureSubPacket(); sspCreationTime.Type = SignatureSubPacketTypes.SignatureCreationTime; sspCreationTime.TimeCreated = DateTime.Now; spSign.HashedSubPackets = new SignatureSubPacket[2]; spSign.HashedSubPackets[0] = sspCreator; spSign.HashedSubPackets[1] = sspCreationTime; wWorking.Progress(20); //spSign.KeyID = skpKey.PublicKey.KeyID; //spSign.TimeCreated = DateTime.Now; spSign.SignatureAlgorithm = skpKey.PublicKey.Algorithm; spSign.SignatureType = SignatureTypes.TextSignature; spSign.Version = SignaturePacketVersionNumbers.v4; wWorking.Progress(10); byte[] bMessage = System.Text.Encoding.UTF8.GetBytes(strMessage); spSign.Sign(bMessage, skpKey, strPassphrase); wWorking.Progress(40); byte[] bSignature = spSign.Generate(); string strSignature = Radix64.Encode(bSignature, true); wWorking.Progress(20); string strFinal = Armor.WrapCleartextSignature(strMessage, strSignature); wWorking.Hide(); return strFinal; }
public static string EncryptText(string strMessage, PublicKeyRing pkrPublicKeyRing, SecretKeyRing skrSecretKeyRing, bool bSign) { PublicKeySelector pksSelectKeys = new PublicKeySelector(pkrPublicKeyRing); pksSelectKeys.ShowDialog(); TransportableSecretKey tskKey = new TransportableSecretKey(); string strPassphrase = ""; if (bSign) { QueryPassphrase qpPassphrase = new QueryPassphrase(); qpPassphrase.ShowMyDialog(skrSecretKeyRing); tskKey = qpPassphrase.SelectedKey; strPassphrase = qpPassphrase.Passphrase; } if (pksSelectKeys.SelectedKeys.Count == 0) return strMessage; Working wWorking = new Working(); wWorking.Show(); LiteralMessage lmMessage = new LiteralMessage(DataFormatTypes.Text); lmMessage.Text = strMessage; lmMessage.TimeCreated = DateTime.Now; lmMessage.Filename = ""; SharpPrivacy.OpenPGP.Messages.Message mEncryptionMessage = lmMessage; if (bSign) { SignedMessage smMessage = new SignedMessage(); smMessage.MessageSigned = lmMessage; SignaturePacket spPacket = new SignaturePacket(); spPacket.Version = SignaturePacketVersionNumbers.v3; SecretKeyPacket skpKey = tskKey.FindKey(AsymActions.Sign); spPacket.KeyID = skpKey.PublicKey.KeyID; spPacket.HashAlgorithm = HashAlgorithms.SHA1; spPacket.SignatureAlgorithm = skpKey.PublicKey.Algorithm; spPacket.TimeCreated = DateTime.Now; spPacket.SignatureType = SignatureTypes.TextSignature; spPacket.Sign(lmMessage.Binary, skpKey, strPassphrase); smMessage.Signature = spPacket; mEncryptionMessage = smMessage; } CompressedMessage cmMessage = new CompressedMessage(); cmMessage.Compress(mEncryptionMessage); wWorking.Progress(20); SymAlgorithms saAlgo = GetSymAlgorithmPreferences(pksSelectKeys.SelectedKeys); SymmetricallyEncryptedDataPacket sedpEncrypted = new SymmetricallyEncryptedDataPacket(); SymmetricAlgorithm saEncrypt = CipherHelper.CreateSymAlgorithm(saAlgo); saEncrypt.Mode = CipherMode.OpenPGP_CFB; saEncrypt.GenerateKey(); byte[] bKey = saEncrypt.Key; wWorking.Progress(10); ESKSequence esksKeys = new ESKSequence(); try { esksKeys = CreateESKSequence(pksSelectKeys.SelectedKeys, AsymActions.Encrypt, saAlgo, bKey); } catch (Exception e) { wWorking.Hide(); MessageBox.Show("The following error occured: " + e.Message, "Error..."); return strMessage; } wWorking.Progress(50); ICryptoTransform ictEncryptor = saEncrypt.CreateEncryptor(); byte[] bMessage = cmMessage.GetEncoded(); byte[] bOutput = new byte[bMessage.Length]; ictEncryptor.TransformBlock(bMessage, 0, bMessage.Length, ref bOutput, 0); bKey.Initialize(); wWorking.Progress(10); int iOutLength = (saEncrypt.BlockSize >> 3) + 2 + bMessage.Length; sedpEncrypted.Body = new byte[iOutLength]; Array.Copy(bOutput, 0, sedpEncrypted.Body, 0, iOutLength); byte[] bESK = esksKeys.GetEncoded(); byte[] bEncrypted = sedpEncrypted.Generate(); byte[] bReturn = new byte[bESK.Length + bEncrypted.Length]; bESK.CopyTo(bReturn, 0); bEncrypted.CopyTo(bReturn, bESK.Length); wWorking.Progress(10); string strReturn = Radix64.Encode(bReturn, true); strReturn = Armor.WrapMessage(strReturn); wWorking.Hide(); return strReturn; }
public static void EncryptFiles(String[] strFiles, PublicKeyRing pkrPublicKeyRing, SecretKeyRing skrSecretKeyRing, bool bEncrypt, bool bSign) { PublicKeySelector pksSelectKeys = new PublicKeySelector(pkrPublicKeyRing); if (bEncrypt) { pksSelectKeys.ShowDialog(); if (pksSelectKeys.SelectedKeys.Count == 0) { MessageBox.Show("You did not select a public key to encrypt to. Doing nothing...", "Nothing Done..."); return; } } TransportableSecretKey tskKey = new TransportableSecretKey(); string strPassphrase = ""; if (bSign) { QueryPassphrase qpPassphrase = new QueryPassphrase(); qpPassphrase.ShowMyDialog(skrSecretKeyRing); tskKey = qpPassphrase.SelectedKey; strPassphrase = qpPassphrase.Passphrase; } Working wWorking = new Working(); wWorking.Show(); for (int i=0; i<strFiles.Length; i++) { byte[] bFileContent = new byte[0]; try { System.IO.FileStream fsFile = new FileStream(strFiles[i], FileMode.Open); BinaryReader brReader = new BinaryReader(fsFile); bFileContent = brReader.ReadBytes((int)fsFile.Length); brReader.Close(); fsFile.Close(); } catch (Exception e) { wWorking.Hide(); MessageBox.Show("An error occured while opening the file " + strFiles[i] + ": " + e.Message, "Error..."); return; } LiteralMessage lmMessage = new LiteralMessage(DataFormatTypes.Binary); lmMessage.Binary = bFileContent; lmMessage.TimeCreated = DateTime.Now; int iLastBackslash = strFiles[i].LastIndexOf("\\"); lmMessage.Filename = strFiles[i].Substring(iLastBackslash + 1, strFiles[i].Length - iLastBackslash - 1); SharpPrivacy.OpenPGP.Messages.Message mEncryptionMessage = lmMessage; if (bSign) { SignedMessage smMessage = new SignedMessage(); smMessage.MessageSigned = lmMessage; SignaturePacket spPacket = new SignaturePacket(); spPacket.Version = SignaturePacketVersionNumbers.v3; SecretKeyPacket skpKey = tskKey.FindKey(AsymActions.Sign); spPacket.KeyID = skpKey.PublicKey.KeyID; spPacket.HashAlgorithm = HashAlgorithms.SHA1; spPacket.SignatureAlgorithm = skpKey.PublicKey.Algorithm; spPacket.TimeCreated = DateTime.Now; spPacket.SignatureType = SignatureTypes.TextSignature; spPacket.Sign(lmMessage.Binary, skpKey, strPassphrase); smMessage.Signature = spPacket; mEncryptionMessage = smMessage; } CompressedMessage cmMessage = new CompressedMessage(); cmMessage.Compress(mEncryptionMessage); wWorking.Progress(20/strFiles.Length); SymAlgorithms saAlgo = GetSymAlgorithmPreferences(pksSelectKeys.SelectedKeys); wWorking.Progress(10/strFiles.Length); byte[] bReturn = new byte[0]; if (bEncrypt) { SymmetricallyEncryptedDataPacket sedpEncrypted = new SymmetricallyEncryptedDataPacket(); SymmetricAlgorithm saEncrypt = CipherHelper.CreateSymAlgorithm(saAlgo); saEncrypt.Mode = CipherMode.OpenPGP_CFB; saEncrypt.GenerateKey(); byte[] bKey = saEncrypt.Key; ESKSequence esksKeys = new ESKSequence(); try { esksKeys = CreateESKSequence(pksSelectKeys.SelectedKeys, AsymActions.Encrypt, saAlgo, bKey); } catch (Exception e) { wWorking.Hide(); MessageBox.Show("The following error occured: " + e.Message, "Error..."); return; } wWorking.Progress(50/strFiles.Length); ICryptoTransform ictEncryptor = saEncrypt.CreateEncryptor(); byte[] bMessage = cmMessage.GetEncoded(); byte[] bOutput = new byte[bMessage.Length]; ictEncryptor.TransformBlock(bMessage, 0, bMessage.Length, ref bOutput, 0); bKey.Initialize(); wWorking.Progress(10/strFiles.Length); int iOutLength = (saEncrypt.BlockSize >> 3) + 2 + bMessage.Length; sedpEncrypted.Body = new byte[iOutLength]; Array.Copy(bOutput, 0, sedpEncrypted.Body, 0, iOutLength); byte[] bESK = esksKeys.GetEncoded(); byte[] bEncrypted = sedpEncrypted.Generate(); bReturn = new byte[bESK.Length + bEncrypted.Length]; bESK.CopyTo(bReturn, 0); bEncrypted.CopyTo(bReturn, bESK.Length); } else { wWorking.Progress(60/strFiles.Length); bReturn = cmMessage.GetEncoded(); } wWorking.Progress(10/strFiles.Length); try { FileStream fsOut = new FileStream(strFiles[i] + ".asc", FileMode.CreateNew); BinaryWriter bwWrite = new BinaryWriter(fsOut); bwWrite.Write(bReturn); bwWrite.Close(); fsOut.Close(); } catch (IOException io) { MessageBox.Show("Could not write to file. The following error occured: " + io.Message, "Error..."); } } wWorking.Hide(); }