internal static uint VerifyChainPolicy(SafeFreeCertChain chainContext, ref ChainPolicyParameter cpp)
{
ChainPolicyStatus ps = new ChainPolicyStatus {
cbSize = ChainPolicyStatus.StructSize
};
UnsafeNclNativeMethods.NativePKI.CertVerifyCertificateChainPolicy((IntPtr)4L, chainContext, ref cpp, ref ps);
return(ps.dwError);
}
private unsafe uint[] GetChainErrors(string hostName, X509Chain chain, ref bool fatalError)
{
fatalError = false;
SafeFreeCertChain chainContext = new SafeFreeCertChain(chain.ChainContext);
ArrayList list = new ArrayList();
uint errorCode = 0;
ChainPolicyParameter cpp = new ChainPolicyParameter {
cbSize = ChainPolicyParameter.StructSize,
dwFlags = 0
};
SSL_EXTRA_CERT_CHAIN_POLICY_PARA ssl_extra_cert_chain_policy_para = new SSL_EXTRA_CERT_CHAIN_POLICY_PARA(false);
cpp.pvExtraPolicyPara = &ssl_extra_cert_chain_policy_para;
fixed(char *str = ((char *)hostName))
{
char *chPtr = str;
if (ServicePointManager.CheckCertificateName)
{
ssl_extra_cert_chain_policy_para.pwszServerName = chPtr;
}
Label_006B:
errorCode = VerifyChainPolicy(chainContext, ref cpp);
uint num2 = (uint)MapErrorCode(errorCode);
list.Add(errorCode);
if (errorCode != 0)
{
if (num2 == 0)
{
fatalError = true;
}
else
{
cpp.dwFlags |= num2;
if ((errorCode == 0x800b010f) && ServicePointManager.CheckCertificateName)
{
ssl_extra_cert_chain_policy_para.fdwChecks = 0x1000;
}
goto Label_006B;
}
}
}
return((uint[])list.ToArray(typeof(uint)));
}
private unsafe uint[] GetChainErrors(string hostName, X509Chain chain, ref bool fatalError)
{
fatalError = false;
SafeFreeCertChain chainContext = new SafeFreeCertChain(chain.ChainContext);
ArrayList list = new ArrayList();
uint errorCode = 0;
ChainPolicyParameter cpp = new ChainPolicyParameter {
cbSize = ChainPolicyParameter.StructSize,
dwFlags = 0
};
SSL_EXTRA_CERT_CHAIN_POLICY_PARA ssl_extra_cert_chain_policy_para = new SSL_EXTRA_CERT_CHAIN_POLICY_PARA(false);
cpp.pvExtraPolicyPara = &ssl_extra_cert_chain_policy_para;
fixed (char* str = ((char*) hostName))
{
char* chPtr = str;
if (ServicePointManager.CheckCertificateName)
{
ssl_extra_cert_chain_policy_para.pwszServerName = chPtr;
}
Label_006B:
errorCode = VerifyChainPolicy(chainContext, ref cpp);
uint num2 = (uint) MapErrorCode(errorCode);
list.Add(errorCode);
if (errorCode != 0)
{
if (num2 == 0)
{
fatalError = true;
}
else
{
cpp.dwFlags |= num2;
if ((errorCode == 0x800b010f) && ServicePointManager.CheckCertificateName)
{
ssl_extra_cert_chain_policy_para.fdwChecks = 0x1000;
}
goto Label_006B;
}
}
}
return (uint[]) list.ToArray(typeof(uint));
}
private uint[] GetChainErrors(string hostName, X509Chain chain, ref bool fatalError)
{
fatalError = false;
SafeFreeCertChain chainContext= new SafeFreeCertChain(chain.ChainContext);
ArrayList certificateProblems = new ArrayList();
unsafe {
uint status = 0;
ChainPolicyParameter cppStruct = new ChainPolicyParameter();
cppStruct.cbSize = ChainPolicyParameter.StructSize;
cppStruct.dwFlags = 0;
SSL_EXTRA_CERT_CHAIN_POLICY_PARA eppStruct = new SSL_EXTRA_CERT_CHAIN_POLICY_PARA(false);
cppStruct.pvExtraPolicyPara = &eppStruct;
fixed (char* namePtr = hostName) {
if (ServicePointManager.CheckCertificateName){
eppStruct.pwszServerName = namePtr;
}
while (true) {
status = VerifyChainPolicy(chainContext, ref cppStruct);
uint ignoreErrorMask = (uint)MapErrorCode(status);
certificateProblems.Add(status);
if (status == 0) { // No more problems with the certificate?
break; // Then break out of the callback loop
}
if (ignoreErrorMask == 0) { // Unrecognized error encountered
fatalError = true;
break;
}
else {
cppStruct.dwFlags |= ignoreErrorMask;
if ((CertificateProblem)status == CertificateProblem.CertCN_NO_MATCH && ServicePointManager.CheckCertificateName) {
eppStruct.fdwChecks = IgnoreUnmatchedCN;
}
}
}
}
}
return (uint[]) certificateProblems.ToArray(typeof(uint));
}
internal static uint VerifyChainPolicy(SafeFreeCertChain chainContext, ref ChainPolicyParameter cpp) {
GlobalLog.Enter("PolicyWrapper::VerifyChainPolicy", "chainContext="+ chainContext + ", options="+String.Format("0x{0:x}", cpp.dwFlags));
ChainPolicyStatus status = new ChainPolicyStatus();
status.cbSize = ChainPolicyStatus.StructSize;
int errorCode =
UnsafeNclNativeMethods.NativePKI.CertVerifyCertificateChainPolicy(
(IntPtr) ChainPolicyType.SSL,
chainContext,
ref cpp,
ref status);
GlobalLog.Print("PolicyWrapper::VerifyChainPolicy() CertVerifyCertificateChainPolicy returned: " + errorCode);
#if TRAVE
GlobalLog.Print("PolicyWrapper::VerifyChainPolicy() error code: " + status.dwError+String.Format(" [0x{0:x8}", status.dwError) + " " + SecureChannel.MapSecurityStatus(status.dwError) + "]");
#endif
GlobalLog.Leave("PolicyWrapper::VerifyChainPolicy", status.dwError.ToString());
return status.dwError;
}
internal bool VerifyRemoteCertificate(RemoteCertValidationCallback remoteCertValidationCallback)
{
GlobalLog.Enter("SecureChannel#" + ValidationHelper.HashString(this) + "::VerifyRemoteCertificate");
SslPolicyErrors sslPolicyErrors = SslPolicyErrors.None;
// we don't catch exceptions in this method, so it's safe for "accepted" be initialized with true
bool success = false;
X509Chain chain = null;
X509Certificate2 remoteCertificateEx = null;
try {
X509Certificate2Collection remoteCertificateStore;
remoteCertificateEx = GetRemoteCertificate(out remoteCertificateStore);
m_IsRemoteCertificateAvailable = remoteCertificateEx != null;
if (remoteCertificateEx == null)
{
GlobalLog.Leave("SecureChannel#" + ValidationHelper.HashString(this) + "::VerifyRemoteCertificate (no remote cert)", (!m_RemoteCertRequired).ToString());
sslPolicyErrors |= SslPolicyErrors.RemoteCertificateNotAvailable;
}
#if !MONO
else
{
chain = new X509Chain();
chain.ChainPolicy.RevocationMode = m_CheckCertRevocation? X509RevocationMode.Online : X509RevocationMode.NoCheck;
chain.ChainPolicy.RevocationFlag = X509RevocationFlag.ExcludeRoot;
if (remoteCertificateStore != null)
chain.ChainPolicy.ExtraStore.AddRange(remoteCertificateStore);
if (!chain.Build(remoteCertificateEx) // Build failed on handle or on policy
&& chain.ChainContext == IntPtr.Zero) // Build failed to generate a valid handle
{
throw new CryptographicException(Marshal.GetLastWin32Error());
}
if (m_CheckCertName)
{
unsafe {
uint status = 0;
ChainPolicyParameter cppStruct = new ChainPolicyParameter();
cppStruct.cbSize = ChainPolicyParameter.StructSize;
cppStruct.dwFlags = 0;
SSL_EXTRA_CERT_CHAIN_POLICY_PARA eppStruct = new SSL_EXTRA_CERT_CHAIN_POLICY_PARA(IsServer);
cppStruct.pvExtraPolicyPara = &eppStruct;
fixed (char* namePtr = m_HostName) {
eppStruct.pwszServerName = namePtr;
cppStruct.dwFlags |= (int) (IgnoreCertProblem.none & ~IgnoreCertProblem.invalid_name);
SafeFreeCertChain chainContext= new SafeFreeCertChain(chain.ChainContext);
status = PolicyWrapper.VerifyChainPolicy(chainContext, ref cppStruct);
if ((CertificateProblem) status == CertificateProblem.CertCN_NO_MATCH)
sslPolicyErrors |= SslPolicyErrors.RemoteCertificateNameMismatch;
}
}
}
X509ChainStatus[] chainStatusArray = chain.ChainStatus;
if (chainStatusArray != null && chainStatusArray.Length != 0)
sslPolicyErrors |= SslPolicyErrors.RemoteCertificateChainErrors;
}
if (remoteCertValidationCallback != null) {
success = remoteCertValidationCallback(m_HostName, remoteCertificateEx, chain, sslPolicyErrors);
} else {
if (sslPolicyErrors == SslPolicyErrors.RemoteCertificateNotAvailable && !m_RemoteCertRequired)
success = true;
else
success = (sslPolicyErrors == SslPolicyErrors.None);
}
#else
success = SSPIWrapper.CheckRemoteCertificate(m_SecurityContext);
#endif
if (Logging.On) {
if (sslPolicyErrors != SslPolicyErrors.None)
{
Logging.PrintInfo(Logging.Web, this, SR.GetString(SR.net_log_remote_cert_has_errors));
if ((sslPolicyErrors & SslPolicyErrors.RemoteCertificateNotAvailable) != 0)
Logging.PrintInfo(Logging.Web, this, "\t" + SR.GetString(SR.net_log_remote_cert_not_available));
if ((sslPolicyErrors & SslPolicyErrors.RemoteCertificateNameMismatch) != 0)
Logging.PrintInfo(Logging.Web, this, "\t" + SR.GetString(SR.net_log_remote_cert_name_mismatch));
if ((sslPolicyErrors & SslPolicyErrors.RemoteCertificateChainErrors) != 0)
foreach (X509ChainStatus chainStatus in chain.ChainStatus)
Logging.PrintInfo(Logging.Web, this, "\t" + chainStatus.StatusInformation);
}
if (success)
{
if (remoteCertValidationCallback != null)
Logging.PrintInfo(Logging.Web, this, SR.GetString(SR.net_log_remote_cert_user_declared_valid));
else
Logging.PrintInfo(Logging.Web, this, SR.GetString(SR.net_log_remote_cert_has_no_errors));
}
else
{
if (remoteCertValidationCallback != null)
Logging.PrintInfo(Logging.Web, this, SR.GetString(SR.net_log_remote_cert_user_declared_invalid));
}
}
GlobalLog.Print("Cert Validation, remote cert = " + (remoteCertificateEx == null? "<null>": remoteCertificateEx.ToString(true)));
}
finally {
// At least on Win2k server the chain is found to have dependancies on the original cert context.
// So it should be closed first.
if (chain != null) {
chain.Reset();
}
if (remoteCertificateEx != null)
remoteCertificateEx.Reset();
}
GlobalLog.Leave("SecureChannel#" + ValidationHelper.HashString(this) + "::VerifyRemoteCertificate", success.ToString());
return success;
}
internal static uint VerifyChainPolicy(SafeFreeCertChain chainContext, ref ChainPolicyParameter cpp)
{
ChainPolicyStatus ps = new ChainPolicyStatus {
cbSize = ChainPolicyStatus.StructSize
};
UnsafeNclNativeMethods.NativePKI.CertVerifyCertificateChainPolicy((IntPtr) 4L, chainContext, ref cpp, ref ps);
return ps.dwError;
}
internal unsafe bool VerifyRemoteCertificate(RemoteCertValidationCallback remoteCertValidationCallback)
{
SslPolicyErrors none = SslPolicyErrors.None;
bool flag = false;
X509Chain chain = null;
X509Certificate2 remoteCertificate = null;
try
{
X509Certificate2Collection certificates;
remoteCertificate = this.GetRemoteCertificate(out certificates);
this.m_IsRemoteCertificateAvailable = remoteCertificate != null;
if (remoteCertificate == null)
{
none |= SslPolicyErrors.RemoteCertificateNotAvailable;
}
else
{
chain = new X509Chain {
ChainPolicy = { RevocationMode = this.m_CheckCertRevocation ? X509RevocationMode.Online : X509RevocationMode.NoCheck, RevocationFlag = X509RevocationFlag.ExcludeRoot }
};
if (certificates != null)
{
chain.ChainPolicy.ExtraStore.AddRange(certificates);
}
if (!chain.Build(remoteCertificate) && (chain.ChainContext == IntPtr.Zero))
{
throw new CryptographicException(Marshal.GetLastWin32Error());
}
if (this.m_CheckCertName)
{
ChainPolicyParameter cpp = new ChainPolicyParameter {
cbSize = ChainPolicyParameter.StructSize,
dwFlags = 0
};
SSL_EXTRA_CERT_CHAIN_POLICY_PARA ssl_extra_cert_chain_policy_para = new SSL_EXTRA_CERT_CHAIN_POLICY_PARA(this.IsServer);
cpp.pvExtraPolicyPara = &ssl_extra_cert_chain_policy_para;
fixed (char* str = ((char*) this.m_HostName))
{
char* chPtr = str;
ssl_extra_cert_chain_policy_para.pwszServerName = chPtr;
cpp.dwFlags |= 0xfbf;
SafeFreeCertChain chainContext = new SafeFreeCertChain(chain.ChainContext);
if (PolicyWrapper.VerifyChainPolicy(chainContext, ref cpp) == 0x800b010f)
{
none |= SslPolicyErrors.RemoteCertificateNameMismatch;
}
}
}
X509ChainStatus[] chainStatus = chain.ChainStatus;
if ((chainStatus != null) && (chainStatus.Length != 0))
{
none |= SslPolicyErrors.RemoteCertificateChainErrors;
}
}
if (remoteCertValidationCallback != null)
{
flag = remoteCertValidationCallback(this.m_HostName, remoteCertificate, chain, none);
}
else if ((none == SslPolicyErrors.RemoteCertificateNotAvailable) && !this.m_RemoteCertRequired)
{
flag = true;
}
else
{
flag = none == SslPolicyErrors.None;
}
if (!Logging.On)
{
return flag;
}
if (none != SslPolicyErrors.None)
{
Logging.PrintInfo(Logging.Web, this, SR.GetString("net_log_remote_cert_has_errors"));
if ((none & SslPolicyErrors.RemoteCertificateNotAvailable) != SslPolicyErrors.None)
{
Logging.PrintInfo(Logging.Web, this, "\t" + SR.GetString("net_log_remote_cert_not_available"));
}
if ((none & SslPolicyErrors.RemoteCertificateNameMismatch) != SslPolicyErrors.None)
{
Logging.PrintInfo(Logging.Web, this, "\t" + SR.GetString("net_log_remote_cert_name_mismatch"));
}
if ((none & SslPolicyErrors.RemoteCertificateChainErrors) != SslPolicyErrors.None)
{
foreach (X509ChainStatus status in chain.ChainStatus)
{
Logging.PrintInfo(Logging.Web, this, "\t" + status.StatusInformation);
}
}
}
if (flag)
{
if (remoteCertValidationCallback != null)
{
Logging.PrintInfo(Logging.Web, this, SR.GetString("net_log_remote_cert_user_declared_valid"));
return flag;
}
Logging.PrintInfo(Logging.Web, this, SR.GetString("net_log_remote_cert_has_no_errors"));
return flag;
}
if (remoteCertValidationCallback != null)
{
Logging.PrintInfo(Logging.Web, this, SR.GetString("net_log_remote_cert_user_declared_invalid"));
}
}
finally
{
if (chain != null)
{
chain.Reset();
}
if (remoteCertificate != null)
{
remoteCertificate.Reset();
}
}
return flag;
}
