Exemplo n.º 1
0
        /// <summary>
        /// Finds a secret key out of the given secret keyring that is able
        /// to decrypt the current encrypted message and returns its KeyID.
        /// If such a key is not found, 0 is returned.
        /// </summary>
        /// <param name="skrRing">Secret keyring containing all secret keys
        /// known to the system.</param>
        /// <returns>Returns the KeyID of the key that is able to decrypt the
        /// encrypted message.</returns>
        /// <remarks>No remarks</remarks>
        public ulong GetFittingKeyID(SecretKeyRing skrRing)
        {
            bool bFound = false;

            IEnumerator ieSessionkeys = esKeys.AsymKeys.GetEnumerator();

            while (ieSessionkeys.MoveNext())
            {
                if (!(ieSessionkeys.Current is AsymSessionKeyPacket))
                {
                    throw new Exception("Strange Error!");
                }

                AsymSessionKeyPacket askpKey = (AsymSessionKeyPacket)ieSessionkeys.Current;
                ulong lKeyID = askpKey.KeyID;

                TransportableSecretKey tskKey = skrRing.Find(lKeyID);
                if (tskKey != null)
                {
                    return(lKeyID);
                }
            }

            if (!bFound)
            {
                throw new Exception("No fitting secret key was found to decrypt the message!");
            }

            return(0);
        }
Exemplo n.º 2
0
        /// <summary>
        /// Decrypts the current encrypted message using the secret keys
        /// in skrKeyRing and the given passphrase.
        /// </summary>
        /// <param name="skrKeyRing">The secret keyring containing all the
        /// secret keys know to the sytem.</param>
        /// <param name="strPassphrase">The passphrase that was used to
        /// encrypt the secret key material in the key that decrypts
        /// the message.</param>
        /// <returns>Returns the message that was encrypted. Usually this is
        /// an compressed or literal message.</returns>
        /// <remarks>No remarks</remarks>
        public Message Decrypt(SecretKeyRing skrKeyRing, string strPassphrase)
        {
            TransportableSecretKey tskSecretKey   = new TransportableSecretKey();
            AsymSessionKeyPacket   askpSessionKey = new AsymSessionKeyPacket();
            bool bFound = false;

            // let's see, if we can find a fitting Sessionkey packet
            IEnumerator ieSessionkeys = esKeys.AsymKeys.GetEnumerator();

            while (ieSessionkeys.MoveNext())
            {
                if (!(ieSessionkeys.Current is AsymSessionKeyPacket))
                {
                    throw new Exception("Strange Error!");
                }

                AsymSessionKeyPacket askpKey = (AsymSessionKeyPacket)ieSessionkeys.Current;
                ulong lKeyID = askpKey.KeyID;

                TransportableSecretKey tskKey = skrKeyRing.Find(lKeyID);
                if (tskKey != null)
                {
                    bFound         = true;
                    tskSecretKey   = tskKey;
                    askpSessionKey = askpKey;
                }
            }

            if (!bFound)
            {
                throw new Exception("No fitting secret key was found to decrypt the message!");
            }

            askpSessionKey.DecryptSessionKey(tskSecretKey, strPassphrase);
            byte[] bKey = askpSessionKey.SessionKey;

            Packet[] pContent = new Packet[0];
            try {
                SymmetricAlgorithm saAlgo = CipherHelper.CreateSymAlgorithm(askpSessionKey.SymmetricAlgorithm);
                pContent = sepData.Decrypt(bKey, saAlgo);
            } catch (Exception e) {
                throw new System.Exception("Decryption of the Message failed: " + e.Message);
            }

            // now we need to look what kind of message was hidden in the
            // encrypted data

            // it can be either a literal message
            LiteralMessage lmLiteral = new LiteralMessage();

            try {
                int iPos = lmLiteral.ParseMessage(pContent);
                return(lmLiteral);
            } catch (Exception) {}

            // or an compressed Message
            CompressedMessage cmCompressed = new CompressedMessage();

            try {
                int iPos = cmCompressed.ParseMessage(pContent);
                return(cmCompressed);
            } catch (Exception) {}

            throw new System.ArgumentException("Encrypted package content is not a valid message!");
        }
Exemplo n.º 3
0
        /// <summary>
        /// Finds a secret key out of the given secret keyring that is able
        /// to decrypt the current encrypted message and returns its KeyID.
        /// If such a key is not found, 0 is returned.
        /// </summary>
        /// <param name="skrRing">Secret keyring containing all secret keys
        /// known to the system.</param>
        /// <returns>Returns the KeyID of the key that is able to decrypt the
        /// encrypted message.</returns>
        /// <remarks>No remarks</remarks>
        public ulong GetFittingKeyID(SecretKeyRing skrRing)
        {
            bool bFound = false;

            IEnumerator ieSessionkeys = esKeys.AsymKeys.GetEnumerator();
            while (ieSessionkeys.MoveNext()) {
                if (!(ieSessionkeys.Current is AsymSessionKeyPacket))
                    throw new Exception("Strange Error!");

                AsymSessionKeyPacket askpKey = (AsymSessionKeyPacket)ieSessionkeys.Current;
                ulong lKeyID = askpKey.KeyID;

                TransportableSecretKey tskKey = skrRing.Find(lKeyID);
                if (tskKey != null) {
                    return lKeyID;
                }
            }

            if (!bFound)
                throw new Exception("No fitting secret key was found to decrypt the message!");

            return 0;
        }
Exemplo n.º 4
0
        private static void DecryptAndVerify(SecretKeyRing skrSecretKeyRing, PublicKeyRing pkrPublicKeyRing, byte[] bData)
        {
            string strMessage = System.Text.Encoding.UTF8.GetString(bData);
            ArmorTypes atType = new ArmorTypes();
            string strRest = "";
            string strRadix64 = Armor.RemoveArmor(strMessage, ref atType, ref strRest);
            if (strRadix64.Length > 0)
                bData = Radix64.Decode(strRadix64);

            SharpPrivacy.OpenPGP.Messages.Message mContent = null;

            if (atType == ArmorTypes.OpenPGPSignature) {
                string strSignature = "";
                string strSignedMessage = Armor.RemoveClearSignatureArmor(strMessage, ref atType, ref strSignature);

                strSignedMessage = Radix64.DashUnescape(strSignedMessage);
                strSignedMessage = Radix64.TrimMessage(strSignedMessage);
                SignedMessage smMessage = new SignedMessage();
                Packet[] pPackets = Packet.ParsePackets(strSignature);
                if (!(pPackets[0] is SignaturePacket)) {
                    MessageBox.Show("Not a valid cleartext signature!");
                    return;
                }
                smMessage.Signature = (SignaturePacket)pPackets[0];

                LiteralMessage lmMessage = new LiteralMessage(DataFormatTypes.Text);
                lmMessage.Text = strSignedMessage;
                smMessage.MessageSigned = lmMessage;

                mContent = smMessage;
            } else {

                // let us see what kind of message this is
                EncryptedMessage emMessage = new EncryptedMessage();
                try {
                    Packet[] pPackets = Packet.ParsePackets(bData);
                    emMessage.ParseMessage(pPackets);

                    if (emMessage.SymmetricallyEncrypted) {
                        // Query passphrase for symmetrically encrypted message
                        QueryPassphrase qpPassphrase = new QueryPassphrase();
                        qpPassphrase.ShowMyDialog();
                        string strPassphrase = qpPassphrase.Passphrase;

                        mContent = emMessage.Decrypt(strPassphrase);

                    } else {
                        ulong lKeyID = emMessage.GetFittingKeyID(skrSecretKeyRing);
                        QueryPassphrase qpPassphrase = new QueryPassphrase();
                        qpPassphrase.ShowMyDialog(skrSecretKeyRing.Find(lKeyID));
                        string strPassphrase = qpPassphrase.Passphrase;

                        mContent = emMessage.Decrypt(skrSecretKeyRing, strPassphrase);
                    }

                    while ((!(mContent is LiteralMessage)) && (!(mContent is SignedMessage))) {
                        if (mContent is CompressedMessage) {
                            mContent = ((CompressedMessage)mContent).Uncompress();
                        } else {
                            MessageBox.Show("This is not a valid OpenPGP message!");
                            return;
                        }
                    }
                } catch (Exception ee) {
                    MessageBox.Show("There was an error decrypting your message: " + ee.Message);
                    return;
                }
            }

            LiteralMessage lmContent = new LiteralMessage();
            string strDisplay = "";
            if (mContent is SignedMessage) {
                SignedMessage smContent = (SignedMessage)mContent;
                lmContent = smContent.MessageSigned;
                strDisplay += "*** OpenPGP Signed Message ***\r\n";
                strDisplay += "*** Signature Status: " + smContent.Verify(pkrPublicKeyRing) + " ***\r\n";
                strDisplay += "*** Signing Key: " + smContent.Signature.KeyID.ToString("x") + " ***\r\n";
                strDisplay += "*** Signing Date: " + smContent.Signature.TimeCreated.ToString() + "***\r\n\r\n";
            } else if (mContent is LiteralMessage) {
                lmContent = (LiteralMessage)mContent;
                strDisplay += "*** OpenPGP Encrypted Message ***\r\n\r\n";
            } else {
                MessageBox.Show("An error occured: Could not find an encrypted or signed message!", "Error...");
                return;
            }

            if (lmContent.DataFormat == DataFormatTypes.Text) {
                strDisplay += lmContent.Text;
                strDisplay += "\r\n\r\n*** End OpenPGP Message ***\r\n";
                PlaintextViewer pvViewer = new PlaintextViewer();
                pvViewer.MessageText = strDisplay;
                pvViewer.Show();
            } else {
                if (MessageBox.Show(strDisplay, "Signature Status...", MessageBoxButtons.OKCancel, MessageBoxIcon.Asterisk, MessageBoxDefaultButton.Button1) == DialogResult.OK) {
                    System.Windows.Forms.SaveFileDialog sfdSave = new SaveFileDialog();
                    sfdSave.OverwritePrompt = true;
                    sfdSave.Filter = "All Files (*.*)|*.*";
                    sfdSave.FileName = lmContent.Filename;
                    sfdSave.ShowDialog();
                    if (sfdSave.FileName.Length > 0) {
                        System.IO.FileStream fsOut = new FileStream(sfdSave.FileName, FileMode.CreateNew);
                        System.IO.BinaryWriter bwOut = new BinaryWriter(fsOut);
                        bwOut.Write(lmContent.Binary);
                        bwOut.Close();
                        fsOut.Close();
                    }
                }
            }
        }
Exemplo n.º 5
0
        /// <summary>
        /// Decrypts the current encrypted message using the secret keys
        /// in skrKeyRing and the given passphrase.
        /// </summary>
        /// <param name="skrKeyRing">The secret keyring containing all the
        /// secret keys know to the sytem.</param>
        /// <param name="strPassphrase">The passphrase that was used to
        /// encrypt the secret key material in the key that decrypts
        /// the message.</param>
        /// <returns>Returns the message that was encrypted. Usually this is
        /// an compressed or literal message.</returns>
        /// <remarks>No remarks</remarks>
        public Message Decrypt(SecretKeyRing skrKeyRing, string strPassphrase)
        {
            TransportableSecretKey tskSecretKey = new TransportableSecretKey();
            AsymSessionKeyPacket askpSessionKey = new AsymSessionKeyPacket();
            bool bFound = false;

            // let's see, if we can find a fitting Sessionkey packet
            IEnumerator ieSessionkeys = esKeys.AsymKeys.GetEnumerator();
            while (ieSessionkeys.MoveNext()) {
                if (!(ieSessionkeys.Current is AsymSessionKeyPacket))
                    throw new Exception("Strange Error!");

                AsymSessionKeyPacket askpKey = (AsymSessionKeyPacket)ieSessionkeys.Current;
                ulong lKeyID = askpKey.KeyID;

                TransportableSecretKey tskKey = skrKeyRing.Find(lKeyID);
                if (tskKey != null) {
                    bFound = true;
                    tskSecretKey = tskKey;
                    askpSessionKey = askpKey;
                }
            }

            if (!bFound)
                throw new Exception("No fitting secret key was found to decrypt the message!");

            askpSessionKey.DecryptSessionKey(tskSecretKey, strPassphrase);
            byte[] bKey = askpSessionKey.SessionKey;

            Packet[] pContent = new Packet[0];
            try {
                SymmetricAlgorithm saAlgo = CipherHelper.CreateSymAlgorithm(askpSessionKey.SymmetricAlgorithm);
                pContent = sepData.Decrypt(bKey, saAlgo);
            } catch (Exception e) {
                throw new System.Exception("Decryption of the Message failed: " + e.Message);
            }

            // now we need to look what kind of message was hidden in the
            // encrypted data

            // it can be either a literal message
            LiteralMessage lmLiteral = new LiteralMessage();
            try {
                int iPos = lmLiteral.ParseMessage(pContent);
                return lmLiteral;
            } catch (Exception) {}

            // or an compressed Message
            CompressedMessage cmCompressed = new CompressedMessage();
            try {
                int iPos = cmCompressed.ParseMessage(pContent);
                return cmCompressed;
            } catch (Exception) {}

            throw new System.ArgumentException("Encrypted package content is not a valid message!");
        }