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I am really struggling with this, I need to encrypt and decrypt a string using BouncyCastle in C#. I really did try to do this on my own. I did manage to create my own keys (private and public).

Please keep in mind that I am fresh out of college.

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4  
I'm glad you tried to do this on your own, but you need to give us some insight into what you tried. What kind-of-worked? What didn't work? Show us code. –  Robaticus Apr 18 '12 at 12:24
    
Do you have to use that library or can you use the .NET crypto framework? –  uosɐſ Apr 18 '12 at 12:25
    
Basically I just have to use PGP... I just need some sort of example, I have been at this for a week now.. And in one week all I could get right was to create keys. –  Shaun Peter Apr 18 '12 at 12:52
    
I could only write a small program I used MD5 encryption. But that's how far I came (I have never worked with encryption before), so at least I know the basics now. –  Shaun Peter Apr 18 '12 at 13:01

1 Answer 1

It took me a while to find a decent example of using bouncy castle for PGP. This is what I use in production, I think it originated from the Bouncy Castle examples, or something I stumbled on in my searching:

using System;
using System.IO;
using Org.BouncyCastle.Bcpg;
using Org.BouncyCastle.Bcpg.OpenPgp;
using Org.BouncyCastle.Security;
using Org.BouncyCastle.Utilities.IO;

namespace FileEncryptionTasks.Helpers.PGP
{
    public static class PGPEncryptDecrypt
    {
        private const int BufferSize = 0x10000; // should always be power of 2

        #region Encrypt

        /*
         * Encrypt the file.
         */

        public static void EncryptFile(string inputFile, string outputFile, string publicKeyFile, bool armor, bool withIntegrityCheck)
        {
            try
            {
                using (Stream publicKeyStream = File.OpenRead(publicKeyFile))
                {
                    PgpPublicKey encKey = ReadPublicKey(publicKeyStream);

                    using (MemoryStream bOut = new MemoryStream())
                    {
                        PgpCompressedDataGenerator comData = new PgpCompressedDataGenerator(CompressionAlgorithmTag.Zip);
                        PgpUtilities.WriteFileToLiteralData(comData.Open(bOut), PgpLiteralData.Binary, new FileInfo(inputFile));

                        comData.Close();
                        PgpEncryptedDataGenerator cPk = new PgpEncryptedDataGenerator(SymmetricKeyAlgorithmTag.Cast5, withIntegrityCheck, new SecureRandom());

                        cPk.AddMethod(encKey);
                        byte[] bytes = bOut.ToArray();

                        using (Stream outputStream = File.Create(outputFile))
                        {
                            if (armor)
                            {
                                using (ArmoredOutputStream armoredStream = new ArmoredOutputStream(outputStream))
                                {
                                    using (Stream cOut = cPk.Open(armoredStream, bytes.Length))
                                    {
                                        cOut.Write(bytes, 0, bytes.Length);
                                    }
                                }
                            }
                            else
                            {
                                using (Stream cOut = cPk.Open(outputStream, bytes.Length))
                                {
                                    cOut.Write(bytes, 0, bytes.Length);
                                }
                            }
                        }
                    }
                }
            }
            catch (PgpException e)
            {
                throw e;
            }
        }

        #endregion Encrypt

        #region Encrypt and Sign

        /*
         * Encrypt and sign the file pointed to by unencryptedFileInfo and
         */

        public static void EncryptAndSign(string inputFile, string outputFile, string publicKeyFile, string privateKeyFile, string passPhrase, bool armor)
        {
            PgpEncryptionKeys encryptionKeys = new PgpEncryptionKeys(publicKeyFile, privateKeyFile, passPhrase);

            if (!File.Exists(inputFile))
                throw new FileNotFoundException(String.Format("Input file [{0}] does not exist.", inputFile));

            if (!File.Exists(publicKeyFile))
                throw new FileNotFoundException(String.Format("Public Key file [{0}] does not exist.", publicKeyFile));

            if (!File.Exists(privateKeyFile))
                throw new FileNotFoundException(String.Format("Private Key file [{0}] does not exist.", privateKeyFile));

            if (String.IsNullOrEmpty(passPhrase))
                throw new ArgumentNullException("Invalid Pass Phrase.");

            if (encryptionKeys == null)
                throw new ArgumentNullException("Encryption Key not found.");

            using (Stream outputStream = File.Create(outputFile))
            {
                if (armor)
                    using (ArmoredOutputStream armoredOutputStream = new ArmoredOutputStream(outputStream))
                    {
                        OutputEncrypted(inputFile, armoredOutputStream, encryptionKeys);
                    }
                else
                    OutputEncrypted(inputFile, outputStream, encryptionKeys);
            }
        }

        private static void OutputEncrypted(string inputFile, Stream outputStream, PgpEncryptionKeys encryptionKeys)
        {
            using (Stream encryptedOut = ChainEncryptedOut(outputStream, encryptionKeys))
            {
                FileInfo unencryptedFileInfo = new FileInfo(inputFile);
                using (Stream compressedOut = ChainCompressedOut(encryptedOut))
                {
                    PgpSignatureGenerator signatureGenerator = InitSignatureGenerator(compressedOut, encryptionKeys);
                    using (Stream literalOut = ChainLiteralOut(compressedOut, unencryptedFileInfo))
                    {
                        using (FileStream inputFileStream = unencryptedFileInfo.OpenRead())
                        {
                            WriteOutputAndSign(compressedOut, literalOut, inputFileStream, signatureGenerator);
                            inputFileStream.Close();
                        }
                    }
                }
            }
        }

        private static void WriteOutputAndSign(Stream compressedOut, Stream literalOut, FileStream inputFile, PgpSignatureGenerator signatureGenerator)
        {
            int length = 0;
            byte[] buf = new byte[BufferSize];
            while ((length = inputFile.Read(buf, 0, buf.Length)) > 0)
            {
                literalOut.Write(buf, 0, length);
                signatureGenerator.Update(buf, 0, length);
            }
            signatureGenerator.Generate().Encode(compressedOut);
        }

        private static Stream ChainEncryptedOut(Stream outputStream, PgpEncryptionKeys m_encryptionKeys)
        {
            PgpEncryptedDataGenerator encryptedDataGenerator;
            encryptedDataGenerator = new PgpEncryptedDataGenerator(SymmetricKeyAlgorithmTag.TripleDes, new SecureRandom());
            encryptedDataGenerator.AddMethod(m_encryptionKeys.PublicKey);
            return encryptedDataGenerator.Open(outputStream, new byte[BufferSize]);
        }

        private static Stream ChainCompressedOut(Stream encryptedOut)
        {
            PgpCompressedDataGenerator compressedDataGenerator = new PgpCompressedDataGenerator(CompressionAlgorithmTag.Zip);
            return compressedDataGenerator.Open(encryptedOut);
        }

        private static Stream ChainLiteralOut(Stream compressedOut, FileInfo file)
        {
            PgpLiteralDataGenerator pgpLiteralDataGenerator = new PgpLiteralDataGenerator();
            return pgpLiteralDataGenerator.Open(compressedOut, PgpLiteralData.Binary, file);
        }

        private static PgpSignatureGenerator InitSignatureGenerator(Stream compressedOut, PgpEncryptionKeys m_encryptionKeys)
        {
            const bool IsCritical = false;
            const bool IsNested = false;
            PublicKeyAlgorithmTag tag = m_encryptionKeys.SecretKey.PublicKey.Algorithm;
            PgpSignatureGenerator pgpSignatureGenerator = new PgpSignatureGenerator(tag, HashAlgorithmTag.Sha1);
            pgpSignatureGenerator.InitSign(PgpSignature.BinaryDocument, m_encryptionKeys.PrivateKey);
            foreach (string userId in m_encryptionKeys.SecretKey.PublicKey.GetUserIds())
            {
                PgpSignatureSubpacketGenerator subPacketGenerator = new PgpSignatureSubpacketGenerator();
                subPacketGenerator.SetSignerUserId(IsCritical, userId);
                pgpSignatureGenerator.SetHashedSubpackets(subPacketGenerator.Generate());
                // Just the first one!
                break;
            }
            pgpSignatureGenerator.GenerateOnePassVersion(IsNested).Encode(compressedOut);
            return pgpSignatureGenerator;
        }

        #endregion Encrypt and Sign

        #region Decrypt

        /*
       * decrypt a given stream.
       */

        public static void Decrypt(string inputfile, string privateKeyFile, string passPhrase, string outputFile)
        {
            if (!File.Exists(inputfile))
                throw new FileNotFoundException(String.Format("Encrypted File [{0}] not found.", inputfile));

            if (!File.Exists(privateKeyFile))
                throw new FileNotFoundException(String.Format("Private Key File [{0}] not found.", privateKeyFile));

            if (String.IsNullOrEmpty(outputFile))
                throw new ArgumentNullException("Invalid Output file path.");

            using (Stream inputStream = File.OpenRead(inputfile))
            {
                using (Stream keyIn = File.OpenRead(privateKeyFile))
                {
                    Decrypt(inputStream, keyIn, passPhrase, outputFile);
                }
            }
        }

        /*
        * decrypt a given stream.
        */

        public static void Decrypt(Stream inputStream, Stream privateKeyStream, string passPhrase, string outputFile)
        {
            try
            {
                PgpObjectFactory pgpF = null;
                PgpEncryptedDataList enc = null;
                PgpObject o = null;
                PgpPrivateKey sKey = null;
                PgpPublicKeyEncryptedData pbe = null;
                PgpSecretKeyRingBundle pgpSec = null;

                pgpF = new PgpObjectFactory(PgpUtilities.GetDecoderStream(inputStream));
                // find secret key
                pgpSec = new PgpSecretKeyRingBundle(PgpUtilities.GetDecoderStream(privateKeyStream));

                if (pgpF != null)
                    o = pgpF.NextPgpObject();

                // the first object might be a PGP marker packet.
                if (o is PgpEncryptedDataList)
                    enc = (PgpEncryptedDataList)o;
                else
                    enc = (PgpEncryptedDataList)pgpF.NextPgpObject();

                // decrypt
                foreach (PgpPublicKeyEncryptedData pked in enc.GetEncryptedDataObjects())
                {
                    sKey = FindSecretKey(pgpSec, pked.KeyId, passPhrase.ToCharArray());

                    if (sKey != null)
                    {
                        pbe = pked;
                        break;
                    }
                }

                if (sKey == null)
                    throw new ArgumentException("Secret key for message not found.");

                PgpObjectFactory plainFact = null;

                using (Stream clear = pbe.GetDataStream(sKey))
                {
                    plainFact = new PgpObjectFactory(clear);
                }

                PgpObject message = plainFact.NextPgpObject();

                if (message is PgpCompressedData)
                {
                    PgpCompressedData cData = (PgpCompressedData)message;
                    PgpObjectFactory of = null;

                    using (Stream compDataIn = cData.GetDataStream())
                    {
                        of = new PgpObjectFactory(compDataIn);
                    }

                    message = of.NextPgpObject();
                    if (message is PgpOnePassSignatureList)
                    {
                        message = of.NextPgpObject();
                        PgpLiteralData Ld = null;
                        Ld = (PgpLiteralData)message;
                        using (Stream output = File.Create(outputFile))
                        {
                            Stream unc = Ld.GetInputStream();
                            Streams.PipeAll(unc, output);
                        }
                    }
                    else
                    {
                        PgpLiteralData Ld = null;
                        Ld = (PgpLiteralData)message;
                        using (Stream output = File.Create(outputFile))
                        {
                            Stream unc = Ld.GetInputStream();
                            Streams.PipeAll(unc, output);
                        }
                    }
                }
                else if (message is PgpLiteralData)
                {
                    PgpLiteralData ld = (PgpLiteralData)message;
                    string outFileName = ld.FileName;

                    using (Stream fOut = File.Create(outputFile))
                    {
                        Stream unc = ld.GetInputStream();
                        Streams.PipeAll(unc, fOut);
                    }
                }
                else if (message is PgpOnePassSignatureList)
                    throw new PgpException("Encrypted message contains a signed message - not literal data.");
                else
                    throw new PgpException("Message is not a simple encrypted file - type unknown.");

                #region commented code

                //if (pbe.IsIntegrityProtected())
                //{
                //    if (!pbe.Verify())
                //        msg = "message failed integrity check.";
                //    //Console.Error.WriteLine("message failed integrity check");
                //    else
                //        msg = "message integrity check passed.";
                //    //Console.Error.WriteLine("message integrity check passed");
                //}
                //else
                //{
                //    msg = "no message integrity check.";
                //    //Console.Error.WriteLine("no message integrity check");
                //}

                #endregion commented code
            }
            catch (PgpException ex)
            {
                throw ex;
            }
        }

        #endregion Decrypt

        #region Private helpers

        /*
        * A simple routine that opens a key ring file and loads the first available key suitable for encryption.
        */

        private static PgpPublicKey ReadPublicKey(Stream inputStream)
        {
            inputStream = PgpUtilities.GetDecoderStream(inputStream);

            PgpPublicKeyRingBundle pgpPub = new PgpPublicKeyRingBundle(inputStream);

            // we just loop through the collection till we find a key suitable for encryption, in the real
            // world you would probably want to be a bit smarter about this.
            // iterate through the key rings.
            foreach (PgpPublicKeyRing kRing in pgpPub.GetKeyRings())
            {
                foreach (PgpPublicKey k in kRing.GetPublicKeys())
                {
                    if (k.IsEncryptionKey)
                        return k;
                }
            }

            throw new ArgumentException("Can't find encryption key in key ring.");
        }

        /*
        * Search a secret key ring collection for a secret key corresponding to keyId if it exists.
        */

        private static PgpPrivateKey FindSecretKey(PgpSecretKeyRingBundle pgpSec, long keyId, char[] pass)
        {
            PgpSecretKey pgpSecKey = pgpSec.GetSecretKey(keyId);

            if (pgpSecKey == null)
                return null;

            return pgpSecKey.ExtractPrivateKey(pass);
        }

        #endregion Private helpers
    }
}

And it uses:

using System;
using System.IO;
using System.Linq;
using Org.BouncyCastle.Bcpg.OpenPgp;

namespace FileEncryptionTasks.Helpers.PGP
{
    public class PgpEncryptionKeys
    {
        public PgpPublicKey PublicKey { get; private set; }

        public PgpPrivateKey PrivateKey { get; private set; }

        public PgpSecretKey SecretKey { get; private set; }

        /// <summary>
        /// Initializes a new instance of the EncryptionKeys class.
        /// Two keys are required to encrypt and sign data. Your private key and the recipients public key.
        /// The data is encrypted with the recipients public key and signed with your private key.
        /// </summary>
        /// <param name="publicKeyPath">The key used to encrypt the data</param>
        /// <param name="privateKeyPath">The key used to sign the data.</param>
        /// <param name="passPhrase">The (your) password required to access the private key</param>
        /// <exception cref="ArgumentException">Public key not found. Private key not found. Missing password</exception>
        public PgpEncryptionKeys(string publicKeyPath, string privateKeyPath, string passPhrase)
        {
            if (!File.Exists(publicKeyPath))
                throw new ArgumentException("Public key file not found", "publicKeyPath");
            if (!File.Exists(privateKeyPath))
                throw new ArgumentException("Private key file not found", "privateKeyPath");
            if (String.IsNullOrEmpty(passPhrase))
                throw new ArgumentException("passPhrase is null or empty.", "passPhrase");
            PublicKey = ReadPublicKey(publicKeyPath);
            SecretKey = ReadSecretKey(privateKeyPath);
            PrivateKey = ReadPrivateKey(passPhrase);
        }

        #region Secret Key

        private PgpSecretKey ReadSecretKey(string privateKeyPath)
        {
            using (Stream keyIn = File.OpenRead(privateKeyPath))
            {
                using (Stream inputStream = PgpUtilities.GetDecoderStream(keyIn))
                {
                    PgpSecretKeyRingBundle secretKeyRingBundle = new PgpSecretKeyRingBundle(inputStream);
                    PgpSecretKey foundKey = GetFirstSecretKey(secretKeyRingBundle);
                    if (foundKey != null)
                        return foundKey;
                }
            }
            throw new ArgumentException("Can't find signing key in key ring.");
        }

        /// <summary>
        /// Return the first key we can use to encrypt.
        /// Note: A file can contain multiple keys (stored in "key rings")
        /// </summary>
        private PgpSecretKey GetFirstSecretKey(PgpSecretKeyRingBundle secretKeyRingBundle)
        {
            foreach (PgpSecretKeyRing kRing in secretKeyRingBundle.GetKeyRings())
            {
                PgpSecretKey key = kRing.GetSecretKeys()
                    .Cast<PgpSecretKey>()
                    .Where(k => k.IsSigningKey)
                    .FirstOrDefault();
                if (key != null)
                    return key;
            }
            return null;
        }

        #endregion Secret Key

        #region Public Key

        private PgpPublicKey ReadPublicKey(string publicKeyPath)
        {
            using (Stream keyIn = File.OpenRead(publicKeyPath))
            {
                using (Stream inputStream = PgpUtilities.GetDecoderStream(keyIn))
                {
                    PgpPublicKeyRingBundle publicKeyRingBundle = new PgpPublicKeyRingBundle(inputStream);
                    PgpPublicKey foundKey = GetFirstPublicKey(publicKeyRingBundle);
                    if (foundKey != null)
                        return foundKey;
                }
            }
            throw new ArgumentException("No encryption key found in public key ring.");
        }

        private PgpPublicKey GetFirstPublicKey(PgpPublicKeyRingBundle publicKeyRingBundle)
        {
            foreach (PgpPublicKeyRing kRing in publicKeyRingBundle.GetKeyRings())
            {
                PgpPublicKey key = kRing.GetPublicKeys()
                    .Cast<PgpPublicKey>()
                    .Where(k => k.IsEncryptionKey)
                    .FirstOrDefault();
                if (key != null)
                    return key;
            }
            return null;
        }

        #endregion Public Key

        #region Private Key

        private PgpPrivateKey ReadPrivateKey(string passPhrase)
        {
            PgpPrivateKey privateKey = SecretKey.ExtractPrivateKey(passPhrase.ToCharArray());
            if (privateKey != null)
                return privateKey;
            throw new ArgumentException("No private key found in secret key.");
        }

        #endregion Private Key
    }
}

Here's my encryption task. It won't work as is for you without the rest of my framework, but it should be good enough to show how to use the code above to do encryption:

[Task("PGPEncrypt", typeof(PGPEncryptTaskContext), "Encrypt a file with PGP encryption", Category = "File Encryption")]
public class PGPEncryptTask : AbstractTask
{
    public PGPEncryptTask(TaskList owner, dynamic context) : base(owner, context as ITaskContext) { }

    public override bool Process(dynamic profile, dynamic procContext)
    {
        string inputFile = procContext[TaskContext.InputFileField];

        if (!File.Exists(inputFile))
            return false;

        string outputFile;
        if (Regex.IsMatch(inputFile, TaskContext.OutputFileMatchPattern))
            outputFile = Regex.Replace(inputFile, TaskContext.OutputFileMatchPattern, TaskContext.OutputFileReplacePattern, RegexOptions.IgnoreCase);
        else
            return false;

        if (string.IsNullOrEmpty(TaskContext.SenderKeyFile))
            PGPEncryptDecrypt.EncryptFile(inputFile, outputFile, TaskContext.RecipientKeyFile, TaskContext.Armor, true);
        else
            PGPEncryptDecrypt.EncryptAndSign(inputFile, outputFile, TaskContext.RecipientKeyFile, TaskContext.SenderKeyFile, TaskContext.SenderPassphrase, TaskContext.Armor);

        return true;
    }
}

And my decrypt task:

[Task("PGPDecrypt", typeof(PGPDecryptTaskContext), "Decrypt a file with PGP encryption", Category = "File Encryption")]
public class PGPDecryptTask : AbstractTask
{
    public PGPDecryptTask(TaskList owner, dynamic context) : base(owner, context as ITaskContext) { }

    public override bool Process(dynamic profile, dynamic procContext)
    {
        string inputFile = procContext[TaskContext.InputFileField];

        if (!File.Exists(inputFile))
            return false;

        string outputFile;
        if (Regex.IsMatch(inputFile, TaskContext.OutputFileMatchPattern))
            outputFile = Regex.Replace(inputFile, TaskContext.OutputFileMatchPattern, TaskContext.OutputFileReplacePattern, RegexOptions.IgnoreCase);
        else
            return false;

        PGPEncryptDecrypt.Decrypt(inputFile, TaskContext.PrivateKeyFile, TaskContext.Passphrase, outputFile);

        return true;
    }
}
share|improve this answer
    
Thanks working great for me! –  dimoss Jul 19 '13 at 5:11

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