我联系了微软的技术支持,在使用了他们专有的跟踪功能后,发现我安装在服务器上的证书没有将它的私钥标记为“交换密钥”。显然,证书存储中每个公钥的私钥对应物都有其被允许的某些用途。在我的例子中,私钥只允许用于签名,不允许在 SSL/TLS 握手期间用于加密对称密钥。这意味着我的服务器只能支持 ECDHE 密码套件。
事实证明,您无法在证书 MMC 管理单元中检查私钥的启用用途。更糟糕的是,使用 sslStream 类,除了通用异常“客户端和服务器无法通信,因为它们不具备通用算法”之外,也无法确定握手失败的任何信息。
最后要提到的是我是如何设法安装带有受限私钥的服务器证书的。事实证明,我是这样生成的。我正在使用 CertEnroll COM 接口以编程方式生成我导出的证书签名请求,具有证书颁发机构的签名,并安装了证书颁发机构的响应。我用于生成证书签名请求的 C# 代码意外创建了一个仅启用用于签名的私钥。
根据我的经验,CertEnroll 界面很难使用,而且很难在网上找到工作示例。因此,为了其他人的参考,我将包含我的 C# 代码,该代码生成用于 SSL/TLS 握手的 base64 编码证书签名请求功能。就我而言,这条线objPrivateKey.KeySpec = X509KeySpec.XCN_AT_KEYEXCHANGE;丢失了。
using CERTENROLLLib;
using CERTCLILib;
public string GenerateRequest(string Subject, StoreLocation Location)
{
//code originally came from: http://blogs.msdn.com/b/alejacma/archive/2008/09/05/how-to-create-a-certificate-request-with-certenroll-and-net-c.aspx
//modified version of it is here: http://stackoverflow.com/questions/16755634/issue-generating-a-csr-in-windows-vista-cx509certificaterequestpkcs10
//here is the standard for certificates: http://www.ietf.org/rfc/rfc3280.txt
//the PKCS#10 certificate request (http://msdn.microsoft.com/en-us/library/windows/desktop/aa377505.aspx)
CX509CertificateRequestPkcs10 objPkcs10 = new CX509CertificateRequestPkcs10();
//assymetric private key that can be used for encryption (http://msdn.microsoft.com/en-us/library/windows/desktop/aa378921.aspx)
CX509PrivateKey objPrivateKey = new CX509PrivateKey();
//access to the general information about a cryptographic provider (http://msdn.microsoft.com/en-us/library/windows/desktop/aa375967.aspx)
CCspInformation objCSP = new CCspInformation();
//collection on cryptographic providers available: http://msdn.microsoft.com/en-us/library/windows/desktop/aa375967(v=vs.85).aspx
CCspInformations objCSPs = new CCspInformations();
CX500DistinguishedName objDN = new CX500DistinguishedName();
//top level object that enables installing a certificate response http://msdn.microsoft.com/en-us/library/windows/desktop/aa377809.aspx
CX509Enrollment objEnroll = new CX509Enrollment();
CObjectIds objObjectIds = new CObjectIds();
CObjectId objObjectId = new CObjectId();
CObjectId objObjectId2 = new CObjectId();
CX509ExtensionKeyUsage objExtensionKeyUsage = new CX509ExtensionKeyUsage();
CX509ExtensionEnhancedKeyUsage objX509ExtensionEnhancedKeyUsage = new CX509ExtensionEnhancedKeyUsage();
string csr_pem = null;
// Initialize the csp object using the desired Cryptograhic Service Provider (CSP)
objCSPs.AddAvailableCsps();
//Provide key container name, key length and key spec to the private key object
objPrivateKey.ProviderName = providerName;
objPrivateKey.Length = KeyLength;
objPrivateKey.KeySpec = X509KeySpec.XCN_AT_KEYEXCHANGE; //Must flag as XCN_AT_KEYEXCHANGE to use this certificate for exchanging symmetric keys (needed for most SSL cipher suites)
objPrivateKey.KeyUsage = X509PrivateKeyUsageFlags.XCN_NCRYPT_ALLOW_ALL_USAGES;
if (Location == StoreLocation.LocalMachine)
objPrivateKey.MachineContext = true;
else
objPrivateKey.MachineContext = false; //must set this to true if installing to the local machine certificate store
objPrivateKey.ExportPolicy = X509PrivateKeyExportFlags.XCN_NCRYPT_ALLOW_EXPORT_FLAG; //must set this if we want to be able to export it later.
objPrivateKey.CspInformations = objCSPs;
// Create the actual key pair
objPrivateKey.Create();
// Initialize the PKCS#10 certificate request object based on the private key.
// Using the context, indicate that this is a user certificate request and don't
// provide a template name
if (Location == StoreLocation.LocalMachine)
objPkcs10.InitializeFromPrivateKey(X509CertificateEnrollmentContext.ContextMachine, objPrivateKey, "");
else
objPkcs10.InitializeFromPrivateKey(X509CertificateEnrollmentContext.ContextUser, objPrivateKey, "");
//Set hash to sha256
CObjectId hashobj = new CObjectId();
hashobj.InitializeFromAlgorithmName(ObjectIdGroupId.XCN_CRYPT_HASH_ALG_OID_GROUP_ID, ObjectIdPublicKeyFlags.XCN_CRYPT_OID_INFO_PUBKEY_ANY, AlgorithmFlags.AlgorithmFlagsNone, "SHA256");
objPkcs10.HashAlgorithm = hashobj;
// Key Usage Extension -- we only need digital signature and key encipherment for TLS:
// NOTE: in openSSL, I didn't used to request any specific extensions. Instead, I let the CA add them
objExtensionKeyUsage.InitializeEncode(
CERTENROLLLib.X509KeyUsageFlags.XCN_CERT_DIGITAL_SIGNATURE_KEY_USAGE |
CERTENROLLLib.X509KeyUsageFlags.XCN_CERT_KEY_ENCIPHERMENT_KEY_USAGE
);
objPkcs10.X509Extensions.Add((CX509Extension)objExtensionKeyUsage);
// Enhanced Key Usage Extension
objObjectId.InitializeFromValue("1.3.6.1.5.5.7.3.1"); // OID for Server Authentication usage (see this: http://stackoverflow.com/questions/17477279/client-authentication-1-3-6-1-5-5-7-3-2-oid-in-server-certificates)
objObjectId2.InitializeFromValue("1.3.6.1.5.5.7.3.2"); // OID for Client Authentication usage (see this: http://stackoverflow.com/questions/17477279/client-authentication-1-3-6-1-5-5-7-3-2-oid-in-server-certificates)
objObjectIds.Add(objObjectId);
objObjectIds.Add(objObjectId2);
objX509ExtensionEnhancedKeyUsage.InitializeEncode(objObjectIds);
objPkcs10.X509Extensions.Add((CX509Extension)objX509ExtensionEnhancedKeyUsage);
// Encode the name in using the Distinguished Name object
// see here: http://msdn.microsoft.com/en-us/library/windows/desktop/aa379394(v=vs.85).aspx
objDN.Encode(
Subject,
X500NameFlags.XCN_CERT_NAME_STR_SEMICOLON_FLAG
);
// Assign the subject name by using the Distinguished Name object initialized above
objPkcs10.Subject = objDN;
//suppress extra attributes:
objPkcs10.SuppressDefaults = true;
// Create enrollment request
objEnroll.InitializeFromRequest(objPkcs10);
csr_pem = objEnroll.CreateRequest(
EncodingType.XCN_CRYPT_STRING_BASE64
);
csr_pem = "-----BEGIN CERTIFICATE REQUEST-----\r\n" + csr_pem + "-----END CERTIFICATE REQUEST-----";
return csr_pem;
}