i have a .PEM file that includes public key and a private key for SSL data transfer like this:

      private key data
      public key data

when i want to load the .PEM file by the following code:

X509Certificate2 xx = new X509Certificate2("c:\\myKey.pem");

i get an exception that says: "Cannot find the requested object." , with full stack:

System.Security.Cryptography.CryptographicException was unhandled
  Message=Cannot find the requested object.

       at System.Security.Cryptography.CryptographicException.ThrowCryptographicException(Int32 hr)
       at System.Security.Cryptography.X509Certificates.X509Utils._QueryCertFileType(String fileName)
       at System.Security.Cryptography.X509Certificates.X509Certificate.LoadCertificateFromFile(String fileName, Object password, X509KeyStorageFlags keyStorageFlags)
       at System.Security.Cryptography.X509Certificates.X509Certificate..ctor(String fileName)
       at System.Security.Cryptography.X509Certificates.X509Certificate2..ctor(String fileName)
       at DLLTest.SSL_Test.test() in E:\Projects\DLLTest\DLLTest\SSL_Test.cs:line 165
       at DLLTest.SSL_Test.Run() in E:\Projects\DLLTest\DLLTest\SSL_Test.cs:line 21
       at DLLTest.Program.Main(String[] args) in E:\Projects\DLLTest\DLLTest\Program.cs:line 21
       at System.AppDomain._nExecuteAssembly(RuntimeAssembly assembly, String[] args)
       at System.AppDomain.ExecuteAssembly(String assemblyFile, Evidence assemblySecurity, String[] args)
       at Microsoft.VisualStudio.HostingProcess.HostProc.RunUsersAssembly()
       at System.Threading.ThreadHelper.ThreadStart_Context(Object state)
       at System.Threading.ExecutionContext.Run(ExecutionContext executionContext, ContextCallback callback, Object state, Boolean ignoreSyncCtx)
       at System.Threading.ExecutionContext.Run(ExecutionContext executionContext, ContextCallback callback, Object state)
       at System.Threading.ThreadHelper.ThreadStart()

if i swap place of private key section and public key section, the code works and load data, and i can get just public key info from the object, eg. IssuerName, and its HasPrivateKey is false. why? am i misunderstood and doing wrong something?

There's an article on the Code Project that has all the code you need to do this. It's just a couple of classes so it's a light-weight solution.

To get the bytes for either a certificate or a key from the PEM file the following method will work, regardless of the order of the key and certificate in the file.

 byte[] GetBytesFromPEM( string pemString, string section )
     var header = String.Format("-----BEGIN {0}-----", section);
     var footer = String.Format("-----END {0}-----", section);

     var start= pemString.IndexOf(header, StringComparison.Ordinal);
     if( start < 0 )
        return null;

     start += header.Length;
     var end = pemString.IndexOf(footer, start, StringComparison.Ordinal) - start;

     if( end < 0 )
        return null;

     return Convert.FromBase64String( pemString.Substring( start, end ) );

Load the PEM file into a string and call the method above to get the bytes that represent the certificate. Next you pass the obtained bytes to the constructor of an X509Certificate2 :

 var pem = System.IO.File.ReadAllText( "c:\\myKey.pem" )
 byte[] certBuffer = GetBytesFromPEM( pem, "CERTIFICATE" );
 var certificate = new X509Certificate2( certBuffer );

Loading the (RSA) private key from the PEM file is a bit more complicated but you'll find support for that in the above mentioned article as well using the Crypto.DecodeRsaPrivateKey method.

  • The part of the comparison start < 0 will always be false! end < 0 is ok. Reason: When IndexOf returns -1 and you add the header.Length it will be positive in any case. You should retrieve the index first and compare the index against 0. Later add the header.Length. – huha Jun 15 '16 at 7:49
  • Good point, I'll update the code – Marnix van Valen Jun 15 '16 at 9:27

AFAIK the .NET framework does not support PEM anywhere.

You can hack around this easily for the X509Certificate part since you can extract the base64 string between the -----BEGIN CERTIFICATE----- and -----END CERTIFICATE----- lines, convert it into a byte[] and create the X509Certificate from it.

An easy solution is to copy-paste code from Mono.Security's X509Certificate.cs to do this.

Getting the private key is a bit tricky since getting the byte[] won't be of much help to reconstruct the RSA instance (which we can assume since the PEM header states it's RSA).

This time you better copy-paste from Mono.Security's PKCS8.cs file and sioply call the decode method.

Disclaimer: I'm the main author of the Mono code discussed above and it is all available under the MIT.X11 license

  • Should we use the static function DecodeRSA? – Donny V. Jun 4 at 2:54
  • I ended up using this once I pulled out all the mono classes. var PrivateKeyInfo = new PKCS8.PrivateKeyInfo(PrivateKey); rsa.ImportCspBlob(PrivateKeyInfo.PrivateKey); – Donny V. Jun 4 at 4:00

I had the same problem and - for the record - I post here a complete, working code sample (the key is cut for known reasons). It's mostly a compilation of stuff found on the Internet and my home project requirements.

Following code's features

  • Loads a PEM certificate ("-----BEGIN CERTIFICATE-----") from openssl that may contain "-----BEGIN RSA PRIVATE KEY-----"
  • returns X509Certificate2
  • private key for x509 is stored in the machine store (windows feature), with access rule for everyone
  • private key cannot be exported from the store

The code:

using System;
using System.IO;
using System.Security.Cryptography;
using System.Security.Cryptography.X509Certificates;
using System.Security.Principal;
using System.Security.AccessControl;

namespace Test1
    public static class Test
        public static int Main()
            string pemCertWithPrivateKeyText = @"-----BEGIN CERTIFICATE-----
"; // just an example

            X509Certificate2 cert = PEMToX509.Convert(pemCertWithPrivateKeyText);

            return (cert.HasPrivateKey ? 1 : -1);

    internal static class PEMToX509
        const string KEY_HEADER = "-----BEGIN RSA PRIVATE KEY-----";
        const string KEY_FOOTER = "-----END RSA PRIVATE KEY-----";

        internal static X509Certificate2 Convert(string pem)
                byte[] pemCertWithPrivateKey = System.Text.Encoding.ASCII.GetBytes(pem);

                RSACryptoServiceProvider rsaPK = GetRSA(pem);

                X509Certificate2 cert = new X509Certificate2();
                cert.Import(pemCertWithPrivateKey, "", X509KeyStorageFlags.MachineKeySet | X509KeyStorageFlags.PersistKeySet);

                if (rsaPK != null)
                    cert.PrivateKey = rsaPK;

                return cert;
                return null;

        private static RSACryptoServiceProvider GetRSA(string pem)
            RSACryptoServiceProvider rsa = null;

            if (IsPrivateKeyAvailable(pem))
                RSAParameters privateKey = DecodeRSAPrivateKey(pem);

                SecurityIdentifier everyoneSI = new SecurityIdentifier(WellKnownSidType.WorldSid, null);
                CryptoKeyAccessRule rule = new CryptoKeyAccessRule(everyoneSI, CryptoKeyRights.FullControl, AccessControlType.Allow);

                CspParameters cspParameters = new CspParameters();
                cspParameters.KeyContainerName = "MY_C_NAME";
                cspParameters.ProviderName = "Microsoft Strong Cryptographic Provider";
                cspParameters.ProviderType = 1;
                cspParameters.Flags = CspProviderFlags.UseNonExportableKey | CspProviderFlags.UseMachineKeyStore;

                cspParameters.CryptoKeySecurity = new CryptoKeySecurity();

                rsa = new RSACryptoServiceProvider(cspParameters);
                rsa.PersistKeyInCsp = true;

            return rsa;

        private static bool IsPrivateKeyAvailable(string privateKeyInPEM)
            return (privateKeyInPEM != null && privateKeyInPEM.Contains(KEY_HEADER)
                && privateKeyInPEM.Contains(KEY_FOOTER));

        private static RSAParameters DecodeRSAPrivateKey(string privateKeyInPEM)
            if (IsPrivateKeyAvailable(privateKeyInPEM) == false)
                throw new ArgumentException("bad format");

            string keyFormatted = privateKeyInPEM;

            int cutIndex = keyFormatted.IndexOf(KEY_HEADER);
            keyFormatted = keyFormatted.Substring(cutIndex, keyFormatted.Length - cutIndex);
            cutIndex = keyFormatted.IndexOf(KEY_FOOTER);
            keyFormatted = keyFormatted.Substring(0, cutIndex + KEY_FOOTER.Length);
            keyFormatted = keyFormatted.Replace(KEY_HEADER, "");
            keyFormatted = keyFormatted.Replace(KEY_FOOTER, "");
            keyFormatted = keyFormatted.Replace("\r", "");
            keyFormatted = keyFormatted.Replace("\n", "");
            keyFormatted = keyFormatted.Trim();

            byte[] privateKeyInDER = System.Convert.FromBase64String(keyFormatted);

            byte[] paramModulus;
            byte[] paramDP;
            byte[] paramDQ;
            byte[] paramIQ;
            byte[] paramE;
            byte[] paramD;
            byte[] paramP;
            byte[] paramQ;

            MemoryStream memoryStream = new MemoryStream(privateKeyInDER);
            BinaryReader binaryReader = new BinaryReader(memoryStream);

            ushort twobytes = 0;
            int elements = 0;
            byte bt = 0;

                twobytes = binaryReader.ReadUInt16();
                if (twobytes == 0x8130) 
                else if (twobytes == 0x8230) 
                    throw new CryptographicException("Wrong data");

                twobytes = binaryReader.ReadUInt16();
                if (twobytes != 0x0102) 
                    throw new CryptographicException("Wrong data");

                bt = binaryReader.ReadByte();
                if (bt != 0x00) 
                    throw new CryptographicException("Wrong data");

                elements = GetIntegerSize(binaryReader);
                paramModulus = binaryReader.ReadBytes(elements);

                elements = GetIntegerSize(binaryReader);
                paramE = binaryReader.ReadBytes(elements);

                elements = GetIntegerSize(binaryReader);
                paramD = binaryReader.ReadBytes(elements);

                elements = GetIntegerSize(binaryReader);
                paramP = binaryReader.ReadBytes(elements);

                elements = GetIntegerSize(binaryReader);
                paramQ = binaryReader.ReadBytes(elements);

                elements = GetIntegerSize(binaryReader);
                paramDP = binaryReader.ReadBytes(elements);

                elements = GetIntegerSize(binaryReader);
                paramDQ = binaryReader.ReadBytes(elements);

                elements = GetIntegerSize(binaryReader);
                paramIQ = binaryReader.ReadBytes(elements);

                EnsureLength(ref paramD, 256);
                EnsureLength(ref paramDP, 128);
                EnsureLength(ref paramDQ, 128);
                EnsureLength(ref paramE, 3);
                EnsureLength(ref paramIQ, 128);
                EnsureLength(ref paramModulus, 256);
                EnsureLength(ref paramP, 128);
                EnsureLength(ref paramQ, 128);

                RSAParameters rsaParameters = new RSAParameters();
                rsaParameters.Modulus = paramModulus;
                rsaParameters.Exponent = paramE;
                rsaParameters.D = paramD;
                rsaParameters.P = paramP;
                rsaParameters.Q = paramQ;
                rsaParameters.DP = paramDP;
                rsaParameters.DQ = paramDQ;
                rsaParameters.InverseQ = paramIQ;

                return rsaParameters;

        private static int GetIntegerSize(BinaryReader binary)
            byte bt = 0;
            byte lowbyte = 0x00;
            byte highbyte = 0x00;
            int count = 0;

            bt = binary.ReadByte();

            if (bt != 0x02) 
                return 0;

            bt = binary.ReadByte();

            if (bt == 0x81) 
                count = binary.ReadByte();
            else if (bt == 0x82)
                highbyte = binary.ReadByte();
                lowbyte = binary.ReadByte();
                byte[] modint = { lowbyte, highbyte, 0x00, 0x00 };
                count = BitConverter.ToInt32(modint, 0);
                count = bt;

            while (binary.ReadByte() == 0x00)
                count -= 1;

            binary.BaseStream.Seek(-1, SeekOrigin.Current);

            return count;

        private static void EnsureLength(ref byte[] data, int desiredLength)
            if (data == null || data.Length >= desiredLength)

            int zeros = desiredLength - data.Length;

            byte[] newData = new byte[desiredLength];
            Array.Copy(data, 0, newData, zeros, data.Length);

            data = newData;
  • Which version of .net did you use? – AaA Sep 19 '17 at 3:09
  • @AaA .Net Framework 2.0 – andrew.fox Sep 19 '17 at 9:18

A different approach is to convert the client PEM certificate to the PFX format supported by Windows. This can be done using, for example, openssl, by running:

openssl pkcs12 -export -out cert.pfx -inkey cert.key -in cert.pem -certfile ca.pem

(where "cert.pfx" is the output file, "cert.key" contains the private key, "cert.pem" contains the input certificate, and "ca.pem" contains the certificate of the signer).

I don't know .NET (but Java) but the answer should be the same.
Your pem file contains both the certificate and private key.
This is a usual export in OpenSSL.
To instantiate an object of X509Certificate in Java you would use only the part of the file that says:

certificate data

It should be the same in .NET.
Just load the file and load that part of PEM.

Do the same for private key.
In java you would use the corresponding object i.e. PrivateKey to load it.
Use the appropriate for .NET

There is a sample code you can find at http://pages.infinit.net/ctech/20040812-0816.html and it works for me.

  • 2
    That's actually the blog of @poupou who's also answered above, who linked to that code on github in his answer. – Rup Aug 13 '12 at 17:41

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