using MediaBrowser.Model.Logging; using System; using System.Collections; using System.Security.Cryptography; using System.Xml; namespace Emby.Server.Core.Cryptography { public class CertificateGenerator { private const string MonoTestRootAgency = "v/4nALBxCE+9JgEC0LnDUvKh6e96PwTpN4Rj+vWnqKT7IAp1iK/JjuqvAg6DQ2vTfv0dTlqffmHH51OyioprcT5nzxcSTsZb/9jcHScG0s3/FRIWnXeLk/fgm7mSYhjUaHNI0m1/NTTktipicjKxo71hGIg9qucCWnDum+Krh/k=AQAB

9jbKxMXEruW2CfZrzhxtull4O8P47+mNsEL+9gf9QsRO1jJ77C+jmzfU6zbzjf8+ViK+q62tCMdC1ZzulwdpXQ==

x5+p198l1PkK0Ga2mRh0SIYSykENpY2aLXoyZD/iUpKYAvATm0/wvKNrE4dKJyPCA+y3hfTdgVag+SP9avvDTQ==ISSjCvXsUfbOGG05eddN1gXxL2pj+jegQRfjpk7RAsnWKvNExzhqd5x+ZuNQyc6QH5wxun54inP4RTUI0P/IaQ==R815VQmR3RIbPqzDXzv5j6CSH6fYlcTiQRtkBsUnzhWmkd/y3XmamO+a8zJFjOCCx9CcjpVuGziivBqi65lVPQ==iYiu0KwMWI/dyqN3RJYUzuuLj02/oTD1pYpwo2rvNCXU1Q5VscOeu2DpNg1gWqI+1RrRCsEoaTNzXB1xtKNlSw==nIfh1LYF8fjRBgMdAH/zt9UKHWiaCnc+jXzq5tkR8HVSKTVdzitD8bl1JgAfFQD8VjSXiCJqluexy/B5SGrCXQ49c78NIQj0hD+J13Y8/E0fUbW1QYbhj6Ff7oHyhaYe1WOQfkp2t/h+llHOdt1HRf7bt7dUknYp7m8bQKGxoYE=
"; public static void CreateSelfSignCertificatePfx( string fileName, string hostname, string password, ILogger logger) { if (string.IsNullOrWhiteSpace(fileName)) { throw new ArgumentNullException("fileName"); } byte[] sn = Guid.NewGuid().ToByteArray(); string subject = string.Format("CN={0}", hostname); string issuer = subject; DateTime notBefore = DateTime.Now.AddDays(-2); DateTime notAfter = DateTime.Now.AddYears(10); RSA issuerKey = RSA.Create(); #if NET46 issuerKey.FromXmlString(MonoTestRootAgency); #else RSACryptoServiceProviderExtensions.FromXmlString(issuerKey, MonoTestRootAgency); #endif RSA subjectKey = RSA.Create(); // serial number MUST be positive if ((sn[0] & 0x80) == 0x80) sn[0] -= 0x80; issuer = subject; issuerKey = subjectKey; X509CertificateBuilder cb = new X509CertificateBuilder(3); cb.SerialNumber = sn; cb.IssuerName = issuer; cb.NotBefore = notBefore; cb.NotAfter = notAfter; cb.SubjectName = subject; cb.SubjectPublicKey = subjectKey; // signature cb.Hash = "SHA256"; byte[] rawcert = cb.Sign(issuerKey); PKCS12 p12 = new PKCS12(); ArrayList list = new ArrayList(); // we use a fixed array to avoid endianess issues // (in case some tools requires the ID to be 1). list.Add(new byte[4] { 1, 0, 0, 0 }); Hashtable attributes = new Hashtable(1); attributes.Add(PKCS9.localKeyId, list); p12.AddCertificate(new X509Certificate(rawcert), attributes); p12.Password = password; p12.AddPkcs8ShroudedKeyBag(subjectKey, attributes); p12.SaveToFile(fileName); } } public static class RSACryptoServiceProviderExtensions { public static void FromXmlString(RSA rsa, string xmlString) { RSAParameters parameters = new RSAParameters(); XmlDocument xmlDoc = new XmlDocument(); xmlDoc.LoadXml(xmlString); if (xmlDoc.DocumentElement.Name.Equals("RSAKeyValue")) { foreach (XmlNode node in xmlDoc.DocumentElement.ChildNodes) { switch (node.Name) { case "Modulus": parameters.Modulus = Convert.FromBase64String(node.InnerText); break; case "Exponent": parameters.Exponent = Convert.FromBase64String(node.InnerText); break; case "P": parameters.P = Convert.FromBase64String(node.InnerText); break; case "Q": parameters.Q = Convert.FromBase64String(node.InnerText); break; case "DP": parameters.DP = Convert.FromBase64String(node.InnerText); break; case "DQ": parameters.DQ = Convert.FromBase64String(node.InnerText); break; case "InverseQ": parameters.InverseQ = Convert.FromBase64String(node.InnerText); break; case "D": parameters.D = Convert.FromBase64String(node.InnerText); break; } } } else { throw new Exception("Invalid XML RSA key."); } rsa.ImportParameters(parameters); } } }