//----------------------------------------------------------------------------- // Copyright (c) Microsoft Corporation. All rights reserved. //----------------------------------------------------------------------------- namespace System.ServiceModel.Channels { using System.ComponentModel; using System.Runtime; using System.Runtime.InteropServices; using System.Security.Cryptography.X509Certificates; using System.ServiceModel.Diagnostics; sealed partial class SelfSignedCertificate : IDisposable { CertificateHandle cert; KeyContainerHandle keyContainer; KeyHandle key; string keyContainerName; string password; byte[] exportedBytes; X509Certificate2 x509Cert; const int CERT_STORE_PROV_MEMORY = 2; const int DefaultLifeSpanInYears = 2; public static SelfSignedCertificate Create(string name, string password) { return Create(name, password, DateTime.UtcNow, DateTime.UtcNow.AddYears(DefaultLifeSpanInYears), Guid.NewGuid().ToString()); } public static SelfSignedCertificate Create( string name, string password, DateTime start, DateTime expire, string containerName) { SelfSignedCertificate cert = new SelfSignedCertificate(password, containerName); cert.GenerateKeys(); cert.CreateCertContext(name, start, expire); cert.GetX509Certificate(); Fx.Assert(cert.cert != null, "CertContext could not be created"); return cert; } void CreateCertContext(string name, DateTime start, DateTime expire) { CriticalAllocHandle provInfo; CriticalAllocHandle algorithmId; provInfo = GetProviderInfo(); algorithmId = GetSha1AlgorithmId(); // convert the times to SystemTime structures SystemTime beginTime = new SystemTime(start); SystemTime expireTime = new SystemTime(expire); // convert the name into a X500 name CertificateName certName = new CertificateName(name); using (CryptoApiBlob nameBlob = certName.GetCryptoApiBlob()) { using (provInfo) { using (algorithmId) { cert = CertCreateSelfSignCertificate(keyContainer, nameBlob.GetMemoryForPinning(), SelfSignFlags.None, provInfo, algorithmId, ref beginTime, ref expireTime, IntPtr.Zero); if (cert.IsInvalid) PeerExceptionHelper.ThrowInvalidOperation_PeerCertGenFailure(PeerExceptionHelper.GetLastException()); // if (!CertSetCertificateContextProperty(cert, CERT_KEY_PROV_INFO_PROP_ID, 0, provInfo)) // PeerExceptionHelper.ThrowInvalidOperation_PeerCertGenFailure(PeerExceptionHelper.GetLastException()); if (!CertSetCertificateContextProperty(cert, CERT_KEY_SPEC_PROP_ID, 0, key)) PeerExceptionHelper.ThrowInvalidOperation_PeerCertGenFailure(PeerExceptionHelper.GetLastException()); } } } } public X509Certificate2 GetX509Certificate() { if (this.x509Cert == null) { Export(); this.x509Cert = new X509Certificate2(exportedBytes, password); } return this.x509Cert; } void Export() { Fx.Assert(this.exportedBytes == null, "calling Export twice!!"); // create a temporary store to export using (CertificateStoreHandle store = CertOpenStore(new IntPtr(CERT_STORE_PROV_MEMORY), 0, IntPtr.Zero, 0, IntPtr.Zero)) { // add the certificate to the store StoreCertificateHandle addedCert; if (!CertAddCertificateContextToStore(store, cert, AddDisposition.ReplaceExisting, out addedCert)) { int error = Marshal.GetLastWin32Error(); Utility.CloseInvalidOutSafeHandle(addedCert); PeerExceptionHelper.ThrowInvalidOperation_PeerCertGenFailure(new Win32Exception(error)); } using (addedCert) { // Translate to a PFX CryptoApiBlob pfxBlob = new CryptoApiBlob(); CryptoApiBlob.InteropHelper blob = pfxBlob.GetMemoryForPinning(); GCHandle pfxHandle = GCHandle.Alloc(blob, GCHandleType.Pinned); try { // first figure out the storage space necessary bool result = PFXExportCertStoreEx(store, pfxHandle.AddrOfPinnedObject(), password, IntPtr.Zero, PfxExportFlags.ExportPrivateKeys | PfxExportFlags.ReportNoPrivateKey | PfxExportFlags.ReportNotAbleToExportPrivateKey); if (!result) PeerExceptionHelper.ThrowInvalidOperation_PeerCertGenFailure(PeerExceptionHelper.GetLastException()); int storageSize = blob.size; pfxHandle.Free(); pfxBlob.AllocateBlob(storageSize); blob = pfxBlob.GetMemoryForPinning(); pfxHandle = GCHandle.Alloc(blob, GCHandleType.Pinned); // now do the translation if (!PFXExportCertStoreEx(store, pfxHandle.AddrOfPinnedObject(), password, IntPtr.Zero, PfxExportFlags.ExportPrivateKeys | PfxExportFlags.ReportNoPrivateKey | PfxExportFlags.ReportNotAbleToExportPrivateKey)) PeerExceptionHelper.ThrowInvalidOperation_PeerCertGenFailure(PeerExceptionHelper.GetLastException()); exportedBytes = pfxBlob.GetBytes(); } finally { if (pfxHandle != null) pfxHandle.Free(); if (pfxBlob != null) pfxBlob.Dispose(); } } } } void GenerateKeys() { // generate the key container to put the key in if (!CryptAcquireContext(out keyContainer, keyContainerName, null, ProviderType.RsaSecureChannel, ContextFlags.NewKeySet | ContextFlags.Silent)) { int error = Marshal.GetLastWin32Error(); Utility.CloseInvalidOutSafeHandle(keyContainer); keyContainer = null; PeerExceptionHelper.ThrowInvalidOperation_PeerCertGenFailure(new Win32Exception(error)); } // generate the key if (!CryptGenKey(keyContainer, AlgorithmType.KeyExchange, KeyFlags.Exportable2k, out key)) { int error = Marshal.GetLastWin32Error(); Utility.CloseInvalidOutSafeHandle(key); key = null; PeerExceptionHelper.ThrowInvalidOperation_PeerCertGenFailure(new Win32Exception(error)); } } void Dispose(bool disposing) { if (disposing) { if (cert != null) cert.Dispose(); if (key != null) key.Dispose(); if (keyContainer != null) keyContainer.Dispose(); if (keyContainerName != null) { CryptAcquireContext(out keyContainer, keyContainerName, null, ProviderType.RsaSecureChannel, ContextFlags.DeleteKeySet); Utility.CloseInvalidOutSafeHandle(keyContainer); } GC.SuppressFinalize(this); } } public void Dispose() { Dispose(true); } SelfSignedCertificate(string password, string containerName) { this.password = password; this.keyContainerName = containerName; } } }