I am trying to use pure .net code to create a certificate request and create a certificate from the certificate request against an existing CA certificate I have available (either in the Windows Certificate store or as a separate file).

I know that I have the classes X509Certificate and X509Certificate2 available to load certificates and get access to their information, but I don't see any classes or functionality within the System.Security.Cryptography namespace that could be used to create a certificate request or to sign such a certificate request to create a new signed certificate.

And that although the documentation on the System.Security.Cryptography.Pkcs namespace says:

The System.Security.Cryptography.Pkcs namespace provides programming elements for Public Key Cryptography Standards (PKCS), including methods for signing data, exchanging keys, requesting certificates, public key encryption and decryption, and other security functions.

So, how can I create a certificate request and sign that request to create a new X509 certificate using only pure .net classes from System.Security.Cryptography?


  • I don't want to use an external executable like openssl or MakeCert
  • I don't want to use BouncyCastle
  • I don't want to use Windows Certificate Enrollment API
  • I don't want to use the native Win32 API functions
  • Looking at this and looking at the source code I don't think you'll be able to do this without one of the options you dismissed Jan 10 '18 at 21:43
  • @MaartenBodewes The question is not whether I want to use a library or not. I can do what I want to do using the Certificate Enrollment API. My question is: Do I have to use an additional library (like the Certificate Enrollment Library) or is the functionality maybe already available in the default .net Framework and I am just so blind that I don't see it?
    – NineBerry
    Jan 10 '18 at 23:15

Short answer: You can starting in .NET Framework 4.7.2.

This functionality was originally added to .NET Core 2.0 in the form of the CertificateRequest class, which can build a PKCS#10 certification signing request or an X.509 (self-signed or chained) public key certificate.

The classes for that feature were made available in .NET Framework 4.7.2.

using (RSA parent = RSA.Create(4096))
using (RSA rsa = RSA.Create(2048))
    CertificateRequest parentReq = new CertificateRequest(
        "CN=Experimental Issuing Authority",

        new X509BasicConstraintsExtension(true, false, 0, true));

        new X509SubjectKeyIdentifierExtension(parentReq.PublicKey, false));

    using (X509Certificate2 parentCert = parentReq.CreateSelfSigned(
        CertificateRequest req = new CertificateRequest(
            "CN=Valid-Looking Timestamp Authority",

            new X509BasicConstraintsExtension(false, false, 0, false));

            new X509KeyUsageExtension(
                X509KeyUsageFlags.DigitalSignature | X509KeyUsageFlags.NonRepudiation,

            new X509EnhancedKeyUsageExtension(
                new OidCollection
                    new Oid("")

            new X509SubjectKeyIdentifierExtension(req.PublicKey, false));

        using (X509Certificate2 cert = req.Create(
            new byte[] { 1, 2, 3, 4 }))
            // Do something with these certs, like export them to PFX,
            // or add them to an X509Store, or whatever.

Longer answer if you're stuck on older versions: To accomplish your goal without adding any new P/Invokes, you would need to read and understand the following documents:

  • ITU-T X.680-201508, the ASN.1 language
  • IETF RFC 5280 or ITU-T X.509, the documents that explain the fields in X.509 certificates.
  • IETF RFC 2986, explains the PKCS#10 certification signing request
  • ITU-T X.690, explains the BER encoding family for ASN.1 (including DER) which tells you how to read and write bytes to achieve the semantic meaning from X.509 / PKCS#10.

And then you could write a DER writer/reader, and just emit the bytes for what you want.

  • 3
    CertificateRequest is available in the .NET Framework 4.7.2 early access build (blogs.msdn.microsoft.com/dotnet/2018/02/05/…). When it releases fully hopefully I (or someone else) remembers to edit the answer.
    – bartonjs
    Feb 5 '18 at 23:18
  • Hi @bartonjs, What should the serialNumber be? how can we get/generate it?
    – mshwf
    Oct 19 '20 at 15:53
  • 2
    @mshwf CA/Browser Forum's Baseline Requirements (v1.7.2) only says "CAs SHALL generate non-sequential Certificate serial numbers greater than zero (0) containing at least 64 bits of output from a CSPRNG.", which is the guidance for public CAs. If you're a private CA: Pure random, incrementing integer, high 4 bytes are an integer, low 8 are random, whatever you like (just don't be more than 20 bytes long).
    – bartonjs
    Oct 19 '20 at 16:04
  • @bartonjs Getting following error when a client connection request is received and certificate used is as mentioned above. _____ Error - The server mode SSL must use a certificate with the associated private key. ____ Any clue? Mar 24 at 15:58
  • 1
    @Dbloom The CreateSigningRequest doesn't need a serial number, since (as you suggest) it doesn't make sense. As for replacing some CERTENROLLLib usage, you should ask a new question saying what you have, and what you've tried so far to replace it.
    – bartonjs
    Apr 8 at 16:35

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