internal static unsafe SafeFreeCredentials AcquireCredentialsHandle(string package, bool isServer, NetworkCredential credential)
        {
            SafeSspiAuthDataHandle authData = null;

            try
            {
                Interop.SECURITY_STATUS result = Interop.SspiCli.SspiEncodeStringsAsAuthIdentity(
                    credential.UserName, credential.Domain,
                    credential.Password, out authData);

                if (result != Interop.SECURITY_STATUS.OK)
                {
                    if (NetEventSource.IsEnabled)
                    {
                        NetEventSource.Error(null, StringsHelper.Format(Strings.net_log_operation_failed_with_error, nameof(Interop.SspiCli.SspiEncodeStringsAsAuthIdentity), $"0x{(int)result:X}"));
                    }
                    throw new Win32Exception((int)result);
                }

                return(SSPIWrapper.AcquireCredentialsHandle(GlobalSSPI.SSPIAuth,
                                                            package, (isServer ? Interop.SspiCli.CredentialUse.SECPKG_CRED_INBOUND : Interop.SspiCli.CredentialUse.SECPKG_CRED_OUTBOUND), ref authData));
            }
            finally
            {
                if (authData != null)
                {
                    authData.Dispose();
                }
            }
        }
Example #2
0
        private SafeFreeCredentials AcquireCredentialsHandle(CredentialUse credUsage, ref SecureCredential secureCredential)
        {
            SafeFreeCredentials credentials;

            try
            {
                using (WindowsIdentity.Impersonate(IntPtr.Zero))
                {
                    credentials = SSPIWrapper.AcquireCredentialsHandle(GlobalSSPI.SSPISecureChannel, "Microsoft Unified Security Protocol Provider", credUsage, secureCredential);
                }
            }
            catch
            {
                credentials = SSPIWrapper.AcquireCredentialsHandle(GlobalSSPI.SSPISecureChannel, "Microsoft Unified Security Protocol Provider", credUsage, secureCredential);
            }
            return(credentials);
        }
Example #3
0
 //
 // Security: we temporarily reset thread token to open the handle under process account.
 //
 private static SafeFreeCredentials AcquireCredentialsHandle(Interop.SspiCli.CredentialUse credUsage, Interop.SspiCli.SCHANNEL_CRED secureCredential)
 {
     // First try without impersonation, if it fails, then try the process account.
     // I.E. We don't know which account the certificate context was created under.
     try
     {
         //
         // For app-compat we want to ensure the credential are accessed under >>process<< account.
         //
         return(WindowsIdentity.RunImpersonated <SafeFreeCredentials>(SafeAccessTokenHandle.InvalidHandle, () =>
         {
             return SSPIWrapper.AcquireCredentialsHandle(GlobalSSPI.SSPISecureChannel, SecurityPackage, credUsage, secureCredential);
         }));
     }
     catch
     {
         return(SSPIWrapper.AcquireCredentialsHandle(GlobalSSPI.SSPISecureChannel, SecurityPackage, credUsage, secureCredential));
     }
 }
Example #4
0
        internal unsafe static SafeFreeCredentials AcquireCredentialsHandle(string package, bool isServer, NetworkCredential credential)
        {
            SafeSspiAuthDataHandle authData = null;

            try
            {
                Interop.SecurityStatus result = Interop.SspiCli.SspiEncodeStringsAsAuthIdentity(
                    credential.UserName, credential.Domain,
                    credential.Password, out authData);

                if (result != Interop.SecurityStatus.OK)
                {
                    if (NetEventSource.Log.IsEnabled())
                    {
                        NetEventSource.PrintError(
                            NetEventSource.ComponentType.Security,
                            SR.Format(
                                SR.net_log_operation_failed_with_error,
                                "SspiEncodeStringsAsAuthIdentity()",
                                String.Format(CultureInfo.CurrentCulture, "0x{0:X}", (int)result)));
                    }

                    throw new Win32Exception((int)result);
                }

                return(SSPIWrapper.AcquireCredentialsHandle(GlobalSSPI.SSPIAuth,
                                                            package, (isServer ? Interop.SspiCli.CredentialUse.Inbound : Interop.SspiCli.CredentialUse.Outbound), ref authData));
            }
            finally
            {
                if (authData != null)
                {
                    authData.Dispose();
                }
            }
        }
Example #5
0
        //
        // Acquire Server Side Certificate information and set it on the class.
        //
        private bool AcquireServerCredentials(ref byte[] thumbPrint)
        {
            GlobalLog.Enter("SecureChannel#" + Logging.HashString(this) + "::AcquireServerCredentials");

            X509Certificate localCertificate = null;
            bool            cachedCred       = false;

            if (_certSelectionDelegate != null)
            {
                X509CertificateCollection tempCollection = new X509CertificateCollection();
                tempCollection.Add(_serverCertificate);
                localCertificate = _certSelectionDelegate(string.Empty, tempCollection, null, Array.Empty <string>());
                GlobalLog.Print("SecureChannel#" + Logging.HashString(this) + "::AcquireServerCredentials() Use delegate selected Cert");
            }
            else
            {
                localCertificate = _serverCertificate;
            }

            if (localCertificate == null)
            {
                throw new NotSupportedException(SR.net_ssl_io_no_server_cert);
            }

            // SECURITY: Accessing X509 cert Credential is disabled for semitrust.
            // We no longer need to demand for unmanaged code permissions.
            // EnsurePrivateKey should do the right demand for us.
            X509Certificate2 selectedCert = EnsurePrivateKey(localCertificate);

            if (selectedCert == null)
            {
                throw new NotSupportedException(SR.net_ssl_io_no_server_cert);
            }

            GlobalLog.Assert(localCertificate.Equals(selectedCert), "AcquireServerCredentials()|'selectedCert' does not match 'localCertificate'.");

            //
            // Note selectedCert is a safe ref possibly cloned from the user passed Cert object
            //
            byte[] guessedThumbPrint = selectedCert.GetCertHash();
            try
            {
                SafeFreeCredentials cachedCredentialHandle = SslSessionsCache.TryCachedCredential(guessedThumbPrint, _sslProtocols, _serverMode, _encryptionPolicy);

                if (cachedCredentialHandle != null)
                {
                    _credentialsHandle = cachedCredentialHandle;
                    _serverCertificate = localCertificate;
                    cachedCred         = true;
                }
                else
                {
                    _credentialsHandle = SSPIWrapper.AcquireCredentialsHandle(GlobalSSPI.SSPISecureChannel, selectedCert, _sslProtocols, _encryptionPolicy, _serverMode);
                    thumbPrint         = guessedThumbPrint;
                    _serverCertificate = localCertificate;
                }
            }
            finally
            {
                // An extra cert could have been created, dispose it now.
                if ((object)localCertificate != (object)selectedCert)
                {
                    selectedCert.Dispose();
                }
            }

            GlobalLog.Leave("SecureChannel#" + Logging.HashString(this) + "::AcquireServerCredentials, cachedCreds = " + cachedCred.ToString(), Logging.ObjectToString(_credentialsHandle));
            return(cachedCred);
        }
Example #6
0
        /*++
         *  AcquireCredentials - Attempts to find Client Credential
         *  Information, that can be sent to the server.  In our case,
         *  this is only Client Certificates, that we have Credential Info.
         *
         *  How it works:
         *      case 0: Cert Selection delegate is present
         *              Always use its result as the client cert answer.
         *              Try to use cached credential handle whenever feasible.
         *              Do not use cached anonymous creds if the delegate has returned null
         *              and the collection is not empty (allow responding with the cert later).
         *
         *      case 1: Certs collection is empty
         *              Always use the same statically acquired anonymous SSL Credential
         *
         *      case 2: Before our Connection with the Server
         *              If we have a cached credential handle keyed by first X509Certificate
         **content** in the passed collection, then we use that cached
         *              credential and hoping to restart a session.
         *
         *              Otherwise create a new anonymous (allow responding with the cert later).
         *
         *      case 3: After our Connection with the Server (i.e. during handshake or re-handshake)
         *              The server has requested that we send it a Certificate then
         *              we Enumerate a list of server sent Issuers trying to match against
         *              our list of Certificates, the first match is sent to the server.
         *
         *              Once we got a cert we again try to match cached credential handle if possible.
         *              This will not restart a session but helps minimizing the number of handles we create.
         *
         *      In the case of an error getting a Certificate or checking its private Key we fall back
         *      to the behavior of having no certs, case 1.
         *
         *  Returns: True if cached creds were used, false otherwise.
         *
         * --*/

        private bool AcquireClientCredentials(ref byte[] thumbPrint)
        {
            GlobalLog.Enter("SecureChannel#" + Logging.HashString(this) + "::AcquireClientCredentials");

            // Acquire possible Client Certificate information and set it on the handle.
            X509Certificate clientCertificate = null;            // This is a candidate that can come from the user callback or be guessed when targeting a session restart.
            ArrayList       filteredCerts     = new ArrayList(); // This is an intermediate client certs collection that try to use if no selectedCert is available yet.

            string[] issuers = null;                             // This is a list of issuers sent by the server, only valid is we do know what the server cert is.

            bool sessionRestartAttempt = false;                  // If true and no cached creds we will use anonymous creds.

            if (_certSelectionDelegate != null)
            {
                issuers = GetRequestCertificateAuthorities();

                GlobalLog.Print("SecureChannel#" + Logging.HashString(this) + "::AcquireClientCredentials() calling CertificateSelectionCallback");

                X509Certificate2 remoteCert = null;
                try
                {
                    X509Certificate2Collection dummyCollection;
                    remoteCert        = CertWrapper.GetRemoteCertificate(_securityContext, out dummyCollection);
                    clientCertificate = _certSelectionDelegate(_hostName, ClientCertificates, remoteCert, issuers);
                }
                finally
                {
                    if (remoteCert != null)
                    {
                        remoteCert.Dispose();
                    }
                }


                if (clientCertificate != null)
                {
                    if (_credentialsHandle == null)
                    {
                        sessionRestartAttempt = true;
                    }

                    filteredCerts.Add(clientCertificate);
                    if (Logging.On)
                    {
                        Logging.PrintInfo(Logging.Web, this, SR.net_log_got_certificate_from_delegate);
                    }
                }
                else
                {
                    if (ClientCertificates.Count == 0)
                    {
                        if (Logging.On)
                        {
                            Logging.PrintInfo(Logging.Web, this, SR.net_log_no_delegate_and_have_no_client_cert);
                        }

                        sessionRestartAttempt = true;
                    }
                    else
                    {
                        if (Logging.On)
                        {
                            Logging.PrintInfo(Logging.Web, this, SR.net_log_no_delegate_but_have_client_cert);
                        }
                    }
                }
            }
            else if (_credentialsHandle == null && _clientCertificates != null && _clientCertificates.Count > 0)
            {
                // This is where we attempt to restart a session by picking the FIRST cert from the collection.
                // Otherwise it is either server sending a client cert request or the session is renegotiated.
                clientCertificate     = ClientCertificates[0];
                sessionRestartAttempt = true;
                if (clientCertificate != null)
                {
                    filteredCerts.Add(clientCertificate);
                }

                if (Logging.On)
                {
                    Logging.PrintInfo(Logging.Web, this, SR.Format(SR.net_log_attempting_restart_using_cert, (clientCertificate == null ? "null" : clientCertificate.ToString(true))));
                }
            }
            else if (_clientCertificates != null && _clientCertificates.Count > 0)
            {
                //
                // This should be a server request for the client cert sent over currently anonymous sessions.
                //
                issuers = GetRequestCertificateAuthorities();

                if (Logging.On)
                {
                    if (issuers == null || issuers.Length == 0)
                    {
                        Logging.PrintInfo(Logging.Web, this, SR.net_log_no_issuers_try_all_certs);
                    }
                    else
                    {
                        Logging.PrintInfo(Logging.Web, this, SR.Format(SR.net_log_server_issuers_look_for_matching_certs, issuers.Length));
                    }
                }

                for (int i = 0; i < _clientCertificates.Count; ++i)
                {
                    //
                    // Make sure we add only if the cert matches one of the issuers.
                    // If no issuers were sent and then try all client certs starting with the first one.
                    //
                    if (issuers != null && issuers.Length != 0)
                    {
                        X509Certificate2 certificateEx = null;
                        X509Chain        chain         = null;
                        try
                        {
                            certificateEx = MakeEx(_clientCertificates[i]);
                            if (certificateEx == null)
                            {
                                continue;
                            }

                            GlobalLog.Print("SecureChannel#" + Logging.HashString(this) + "::AcquireClientCredentials() root cert:" + certificateEx.Issuer);
                            chain = new X509Chain();

                            chain.ChainPolicy.RevocationMode    = X509RevocationMode.NoCheck;
                            chain.ChainPolicy.VerificationFlags = X509VerificationFlags.IgnoreInvalidName;
                            chain.Build(certificateEx);
                            bool found = false;

                            //
                            // We ignore any errors happened with chain.
                            //
                            if (chain.ChainElements.Count > 0)
                            {
                                for (int ii = 0; ii < chain.ChainElements.Count; ++ii)
                                {
                                    string issuer = chain.ChainElements[ii].Certificate.Issuer;
                                    found = Array.IndexOf(issuers, issuer) != -1;
                                    if (found)
                                    {
                                        GlobalLog.Print("SecureChannel#" + Logging.HashString(this) + "::AcquireClientCredentials() matched:" + issuer);
                                        break;
                                    }
                                    GlobalLog.Print("SecureChannel#" + Logging.HashString(this) + "::AcquireClientCredentials() no match:" + issuer);
                                }
                            }

                            if (!found)
                            {
                                continue;
                            }
                        }
                        finally
                        {
                            if (chain != null)
                            {
                                chain.Dispose();
                            }

                            if (certificateEx != null && (object)certificateEx != (object)_clientCertificates[i])
                            {
                                certificateEx.Dispose();
                            }
                        }
                    }

                    if (Logging.On)
                    {
                        Logging.PrintInfo(Logging.Web, this, SR.Format(SR.net_log_selected_cert, _clientCertificates[i].ToString(true)));
                    }

                    filteredCerts.Add(_clientCertificates[i]);
                }
            }

            bool             cachedCred   = false;     // This is a return result from this method.
            X509Certificate2 selectedCert = null;      // This is a final selected cert (ensured that it does have private key with it).

            clientCertificate = null;

            if (Logging.On)
            {
                Logging.PrintInfo(Logging.Web, this, SR.Format(SR.net_log_n_certs_after_filtering, filteredCerts.Count));
                if (filteredCerts.Count != 0)
                {
                    Logging.PrintInfo(Logging.Web, this, SR.net_log_finding_matching_certs);
                }
            }

            //
            // ATTN: When the client cert was returned by the user callback OR it was guessed AND it has no private key,
            //       THEN anonymous (no client cert) credential will be used.
            //
            // SECURITY: Accessing X509 cert Credential is disabled for semitrust.
            // We no longer need to demand for unmanaged code permissions.
            // EnsurePrivateKey should do the right demand for us.
            for (int i = 0; i < filteredCerts.Count; ++i)
            {
                clientCertificate = filteredCerts[i] as X509Certificate;
                if ((selectedCert = EnsurePrivateKey(clientCertificate)) != null)
                {
                    break;
                }

                clientCertificate = null;
                selectedCert      = null;
            }

            GlobalLog.Assert(((object)clientCertificate == (object)selectedCert) || clientCertificate.Equals(selectedCert), "AcquireClientCredentials()|'selectedCert' does not match 'clientCertificate'.");

            GlobalLog.Print("SecureChannel#" + Logging.HashString(this) + "::AcquireClientCredentials() Selected Cert = " + (selectedCert == null ? "null" : selectedCert.Subject));
            try
            {
                // Try to locate cached creds first.
                //
                // SECURITY: selectedCert ref if not null is a safe object that does not depend on possible **user** inherited X509Certificate type.
                //
                byte[] guessedThumbPrint = selectedCert == null ? null : selectedCert.GetCertHash();
                SafeFreeCredentials cachedCredentialHandle = SslSessionsCache.TryCachedCredential(guessedThumbPrint, _sslProtocols, _serverMode, _encryptionPolicy);

                // We can probably do some optimization here. If the selectedCert is returned by the delegate
                // we can always go ahead and use the certificate to create our credential
                // (instead of going anonymous as we do here).
                if (sessionRestartAttempt && cachedCredentialHandle == null && selectedCert != null)
                {
                    GlobalLog.Print("SecureChannel#" + Logging.HashString(this) + "::AcquireClientCredentials() Reset to anonymous session.");

                    // IIS does not renegotiate a restarted session if client cert is needed.
                    // So we don't want to reuse **anonymous** cached credential for a new SSL connection if the client has passed some certificate.
                    // The following block happens if client did specify a certificate but no cached creds were found in the cache.
                    // Since we don't restart a session the server side can still challenge for a client cert.
                    if ((object)clientCertificate != (object)selectedCert)
                    {
                        selectedCert.Dispose();
                    }

                    guessedThumbPrint = null;
                    selectedCert      = null;
                    clientCertificate = null;
                }

                if (cachedCredentialHandle != null)
                {
                    if (Logging.On)
                    {
                        Logging.PrintInfo(Logging.Web, SR.net_log_using_cached_credential);
                    }

                    _credentialsHandle         = cachedCredentialHandle;
                    _selectedClientCertificate = clientCertificate;
                    cachedCred = true;
                }
                else
                {
                    _credentialsHandle = SSPIWrapper.AcquireCredentialsHandle(GlobalSSPI.SSPISecureChannel, selectedCert, _sslProtocols, _encryptionPolicy, _serverMode);

                    thumbPrint = guessedThumbPrint; // Delay until here in case something above threw.
                    _selectedClientCertificate = clientCertificate;
                }
            }
            finally
            {
                // An extra cert could have been created, dispose it now.
                if (selectedCert != null && (object)clientCertificate != (object)selectedCert)
                {
                    selectedCert.Dispose();
                }
            }

            GlobalLog.Leave("SecureChannel#" + Logging.HashString(this) + "::AcquireClientCredentials, cachedCreds = " + cachedCred.ToString(), Logging.ObjectToString(_credentialsHandle));
            return(cachedCred);
        }