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I need to implement AES Encryption Algorithm in Cryptographic Message Syntax (CMS) standard to encrypt my data in Windows Universal App (found reference here). I have it implemented on Java using Bouncy Castle library using the following code(I need the same functionality in C# UWP):

private static final ASN1ObjectIdentifier CMS_ENCRYPTION_ALGO = CMSAlgorithm.AES256_CBC;
private byte[] encrypt(byte[] key, byte[] dataToBeEncrypted) throws NoSuchAlgorithmException, InvalidKeySpecException, IOException, CMSException {
    final KeySpec keySpec = new X509EncodedKeySpec(key);
    final KeyFactory factory = KeyFactory.getInstance("RSA");
    final PublicKey publicKey = factory.generatePublic(keySpec);
    final SubjectKeyIdentifier subjectKeyIdentifier = new JcaX509ExtensionUtils().createSubjectKeyIdentifier(publicKey);
    final RecipientInfoGenerator recipientInfoGenerator = new JceKeyTransRecipientInfoGenerator(subjectKeyIdentifier.getEncoded(), publicKey);
    final CMSEnvelopedDataGenerator generator = new CMSEnvelopedDataGenerator();
    generator.addRecipientInfoGenerator(recipientInfoGenerator);

    final OutputEncryptor encryptor = new JceCMSContentEncryptorBuilder(CMS_ENCRYPTION_ALGO).build();
    final CMSProcessableByteArray content = new CMSProcessableByteArray(dataToBeEncrypted);
    final CMSEnvelopedData envelopedData = generator.generate(content, encryptor);

    return envelopedData.toASN1Structure().getEncoded(ASN1Encoding.DER);
}

Now I have Referenced Bouncy Castle V 1.8.1 in my UWP App, but I found many differences (some libraries used in Java but not exist in Windows) and couldn't implement such functionality in C#.

So kindly either guide me to implement the same using native UWP Cryptography Library Windows.Security.Cryptography (Preferred),

Or tell me how can I implement same functionality using Bouncy Castle 1.8.1 in C# UWP app.

Update:

Based on the following diagram from here, I understand that the required steps are:

1- Get the data and generate Symmetric Key to encrypt the data using algorithm AesCbcPkcs7.

2- Encrypt Symmetric Key using the public key

3- Generate Digitally enveloped message.

enter image description here

So I did the first two steps based on my understanding using the following c# code (Please correct me if I'm wrong) and I need help to do the third step:

public string EncryptAndEnvelope(string openText, string p_key)
{
    // Step 1 Get the data and generate Symmetric Key to encrypt the data using algorithm AesCbcPkcs7
    IBuffer cBuffer = CryptographicBuffer.GenerateRandom(32);
    SymmetricKeyAlgorithmProvider provider = SymmetricKeyAlgorithmProvider.OpenAlgorithm(SymmetricAlgorithmNames.AesCbcPkcs7);
    CryptographicKey m_key = provider.CreateSymmetricKey(cBuffer);
    IBuffer bufferMsg = CryptographicBuffer.ConvertStringToBinary(AsciiToString(StringToAscii(openText)), BinaryStringEncoding.Utf8);
    IBuffer bufferEncrypt = CryptographicEngine.Encrypt(m_key, bufferMsg, null);

    // Step 2 Encrypt Symmetric Key using the public key
    IBuffer publicKey = CryptographicBuffer.DecodeFromBase64String(p_key);
    AsymmetricKeyAlgorithmProvider asym = AsymmetricKeyAlgorithmProvider.OpenAlgorithm(AsymmetricAlgorithmNames.RsaPkcs1);
    CryptographicKey ckey = asym.ImportPublicKey(publicKey, CryptographicPublicKeyBlobType.X509SubjectPublicKeyInfo);
    IBuffer cbufferEncrypt = CryptographicEngine.Encrypt(ckey, cBuffer, null);

    // Step 3 Generate Digitally enveloped message
    // I need help here
}

private byte[] StringToAscii(string s)
    {
        byte[] retval = new byte[s.Length];
        for (int ix = 0; ix < s.Length; ++ix)
          {
            char ch = s[ix];
            if (ch <= 0x7f) retval[ix] = (byte)ch;
            else retval[ix] = (byte)'?';
          }
        return retval;
    }

private string AsciiToString(byte[] bytes)
{
    return string.Concat(bytes.Select(b => b <= 0x7f ? (char)b : '?'));
}

Note: While I was looking for solution, I've found that the answer is available using the library System.Security.Cryptography (but it is not supported in Universal Apps) and I'm pretty sure that the implementation is available using Bouncy Castle (there are tons of documentation for Java but unfortunately there is no documentation at all for C#).

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