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I need to create a self-signed certificate (for local encryption - its not used to secure communications), using C#.

I've seen some implementations that use P/Invoke with Crypt32.dll, but they are complicated and its hard to update the parameters - and I would also like to avoid P/Invoke if at all possible.

I don't need something that is cross platform - running only on Windows is good enough for me.

Ideally the result would be an X509Certificate2 object that I can use to insert into the Windows certificate store or export to a PFX file.

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4 Answers 4

up vote 27 down vote accepted

This implementation uses the CX509CertificateRequestCertificate COM object (and friends - MSDN doc) from certenroll.dll to create a self signed certificate request and sign it.

The example below is pretty straight forward (if you ignore the bits of COM stuff that goes on here) and there are a few parts of the code that are really optional (such as EKU) which are none-the-less useful and easy to adapt to your use.

public static X509Certificate2 CreateSelfSignedCertificate(string subjectName)
    // create DN for subject and issuer
    var dn = new CX500DistinguishedName();
    dn.Encode("CN=" + subjectName, X500NameFlags.XCN_CERT_NAME_STR_NONE);

    // create a new private key for the certificate
    CX509PrivateKey privateKey = new CX509PrivateKey();
    privateKey.ProviderName = "Microsoft Base Cryptographic Provider v1.0";
    privateKey.MachineContext = true;
    privateKey.Length = 2048;
    privateKey.KeySpec = X509KeySpec.XCN_AT_SIGNATURE; // use is not limited
    privateKey.ExportPolicy = X509PrivateKeyExportFlags.XCN_NCRYPT_ALLOW_PLAINTEXT_EXPORT_FLAG;

    // Use the stronger SHA512 hashing algorithm
    var hashobj = new CObjectId();
        AlgorithmFlags.AlgorithmFlagsNone, "SHA512");

    // add extended key usage if you want - look at MSDN for a list of possible OIDs
    var oid = new CObjectId();
    oid.InitializeFromValue(""); // SSL server
    var oidlist = new CObjectIds();
    var eku = new CX509ExtensionEnhancedKeyUsage();

    // Create the self signing request
    var cert = new CX509CertificateRequestCertificate();
    cert.InitializeFromPrivateKey(X509CertificateEnrollmentContext.ContextMachine, privateKey, "");
    cert.Subject = dn;
    cert.Issuer = dn; // the issuer and the subject are the same
    cert.NotBefore = DateTime.Now;
    // this cert expires immediately. Change to whatever makes sense for you
    cert.NotAfter = DateTime.Now; 
    cert.X509Extensions.Add((CX509Extension)eku); // add the EKU
    cert.HashAlgorithm = hashobj; // Specify the hashing algorithm
    cert.Encode(); // encode the certificate

    // Do the final enrollment process
    var enroll = new CX509Enrollment();
    enroll.InitializeFromRequest(cert); // load the certificate
    enroll.CertificateFriendlyName = subjectName; // Optional: add a friendly name
    string csr = enroll.CreateRequest(); // Output the request in base64
    // and install it back as the response
        csr, EncodingType.XCN_CRYPT_STRING_BASE64, ""); // no password
    // output a base64 encoded PKCS#12 so we can import it back to the .Net security classes
    var base64encoded = enroll.CreatePFX("", // no password, this is for internal consumption

    // instantiate the target class with the PKCS#12 data (and the empty password)
    return new System.Security.Cryptography.X509Certificates.X509Certificate2(
        System.Convert.FromBase64String(base64encoded), "", 
        // mark the private key as exportable (this is usually what you want to do)

The result can be added to a certificate store using X509Store or exported using the X509Certificate2 methods.

For a fully managed and not tied to Microsoft's platform, and if you're OK with Mono's licensing, then you can look at X509CertificateBuilder from Mono.Security. Mono.Security is standalone from Mono, in that it doesn't need the rest of Mono to run and can be used in any compliant .Net environment (e.g. Microsoft's implementation).

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You might also point it out that Mono has a fully managed implementation of makecert (powered by Mono.Security as your describe), github.com/mono/mono/blob/master/mcs/tools/security/makecert.cs That serves as a better example if someone wants to explore Mono. –  Lex Li Apr 19 '13 at 8:51
Where can I get the libraries/assemblies for this? –  bukko Oct 23 '13 at 10:39
@bukko: Please peruse the links in the answer. –  Guss Oct 23 '13 at 11:08
If you want to use the code sample I posted above, use it in conjunction with certenroll.dll which should be available in your operating system (I think Windows 6.0 and above). –  Guss Oct 23 '13 at 13:15
Please note that most people consider SHA1 to be a security problem and deprecated. Specifically Google stated that they will rank down web sites that are still using SHA1, with complete exclusion in the near future. Do not use SHA1 unless you have specific backward compatibility concerns that cannot be resolved otherwise. –  Guss Oct 5 '14 at 13:12

Another option is to use the CLR Security extensions library from CodePlex, which implements a helper function to generate self-signed x509 certificates:

X509Certificate2 cert = CngKey.CreateSelfSignedCertificate(subjectName);

You can also look at the implementation of that function (in CngKeyExtensionMethods.cs) to see how to create the self-signed cert explicitly in managed code.

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The CLR security work looks interesting - do you know what is the relationship between this project and Microsoft corporation? The project page seem to assert that it is written by the same team that wrote the standard Security.Cryptography classes, but I didn't see any reference to it other than a couple of blogs. Being a security software package, its important to know if it is subject to the same security review as the official .net release. What also doesn't help my gut feeling is that the last release is for .net 3.5 but the provided functionality is still missing from .net 4.x... –  Guss Dec 12 '12 at 19:33
It was written by people who were on the CLR security team at Microsoft. I think the intent was to fold the extensions into a Microsoft .NET release at some point, but I don't think that has happened. You might ping shawnfa via the codeplex site to see where its at. He was my go-to guy with x509 questions when I was at Microsoft. He's really good with this crypto stuff. –  dthorpe Dec 12 '12 at 19:52

You can use the free PluralSight.Crypto library to simplify programmatic creation of self-signed x509 certificates:

    using (CryptContext ctx = new CryptContext())

        X509Certificate2 cert = ctx.CreateSelfSignedCertificate(
            new SelfSignedCertProperties
                IsPrivateKeyExportable = true,
                KeyBitLength = 4096,
                Name = new X500DistinguishedName("cn=localhost"),
                ValidFrom = DateTime.Today.AddDays(-1),
                ValidTo = DateTime.Today.AddYears(1),


PluralSight.Crypto requires .NET 3.5 or later.

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I up voter because its a solution, but please note that using PluralSight is a problem for several reasons: (1) defining it is "free" is problematic - can I use it in my open source project and release its source code under the General Public License? Can I use it in my commercial product and sell software that includes it? For those unfamiliar with software licensing, the answer to these questions is no. (2) Internally PluralSight uses P/Invoke, so if you have problems with using P/Invoke (other then not wanting to write it yourself), then you still have a problem. –  Guss Dec 11 '12 at 6:16

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