protected override SecurityProtocolCorrelationState VerifyIncomingMessageCore(ref Message message, string actor, TimeSpan timeout, SecurityProtocolCorrelationState[] correlationStates)
{
AsymmetricSecurityProtocolFactory factory = this.Factory;
IList <SupportingTokenAuthenticatorSpecification> supportingAuthenticators;
TimeoutHelper timeoutHelper = new TimeoutHelper(timeout);
ReceiveSecurityHeader securityHeader = ConfigureReceiveSecurityHeader(message, string.Empty, correlationStates, out supportingAuthenticators);
SecurityToken requiredReplySigningToken = null;
if (factory.ActAsInitiator)
{
SecurityToken encryptionToken = null;
SecurityToken receiverToken = null;
if (factory.RequireIntegrity)
{
receiverToken = GetToken(this.initiatorAsymmetricTokenProvider, null, timeoutHelper.RemainingTime());
requiredReplySigningToken = receiverToken;
}
if (factory.RequireConfidentiality)
{
encryptionToken = GetCorrelationToken(correlationStates);
if (!SecurityUtils.HasSymmetricSecurityKey(encryptionToken))
{
securityHeader.WrappedKeySecurityTokenAuthenticator = this.Factory.WrappedKeySecurityTokenAuthenticator;
}
}
SecurityTokenAuthenticator primaryTokenAuthenticator;
if (factory.AllowSerializedSigningTokenOnReply)
{
primaryTokenAuthenticator = this.initiatorAsymmetricTokenAuthenticator;
requiredReplySigningToken = null;
}
else
{
primaryTokenAuthenticator = null;
}
securityHeader.ConfigureAsymmetricBindingClientReceiveHeader(receiverToken,
factory.AsymmetricTokenParameters, encryptionToken, factory.CryptoTokenParameters,
primaryTokenAuthenticator);
}
else
{
SecurityToken wrappingToken;
if (this.Factory.RecipientAsymmetricTokenProvider != null && this.Factory.RequireConfidentiality)
{
wrappingToken = GetToken(factory.RecipientAsymmetricTokenProvider, null, timeoutHelper.RemainingTime());
}
else
{
wrappingToken = null;
}
securityHeader.ConfigureAsymmetricBindingServerReceiveHeader(this.Factory.RecipientCryptoTokenAuthenticator,
this.Factory.CryptoTokenParameters, wrappingToken, this.Factory.AsymmetricTokenParameters, supportingAuthenticators);
securityHeader.WrappedKeySecurityTokenAuthenticator = this.Factory.WrappedKeySecurityTokenAuthenticator;
securityHeader.ConfigureOutOfBandTokenResolver(MergeOutOfBandResolvers(supportingAuthenticators, this.Factory.RecipientOutOfBandTokenResolverList));
}
ProcessSecurityHeader(securityHeader, ref message, requiredReplySigningToken, timeoutHelper.RemainingTime(), correlationStates);
SecurityToken signingToken = securityHeader.SignatureToken;
SecurityToken encryptingToken = securityHeader.EncryptionToken;
if (factory.RequireIntegrity)
{
if (factory.ActAsInitiator)
{
ReadOnlyCollection <IAuthorizationPolicy> signingTokenPolicies = this.initiatorAsymmetricTokenAuthenticator.ValidateToken(signingToken);
EnsureNonWrappedToken(signingToken, message);
DoIdentityCheckAndAttachInitiatorSecurityProperty(message, encryptingToken, signingToken, signingTokenPolicies);
}
else
{
EnsureNonWrappedToken(signingToken, message);
AttachRecipientSecurityProperty(message, signingToken, encryptingToken, securityHeader.BasicSupportingTokens, securityHeader.EndorsingSupportingTokens, securityHeader.SignedEndorsingSupportingTokens,
securityHeader.SignedSupportingTokens, securityHeader.SecurityTokenAuthorizationPoliciesMapping);
}
}
return(GetCorrelationState(signingToken, securityHeader));
}
protected override SecurityProtocolCorrelationState VerifyIncomingMessageCore(ref Message message, string actor, TimeSpan timeout, SecurityProtocolCorrelationState[] correlationStates)
{
IList <SupportingTokenAuthenticatorSpecification> list;
AsymmetricSecurityProtocolFactory factory = this.Factory;
TimeoutHelper helper = new TimeoutHelper(timeout);
ReceiveSecurityHeader securityHeader = base.ConfigureReceiveSecurityHeader(message, string.Empty, correlationStates, out list);
SecurityToken requiredSigningToken = null;
if (factory.ActAsInitiator)
{
SecurityTokenAuthenticator initiatorAsymmetricTokenAuthenticator;
SecurityToken token = null;
SecurityToken primaryToken = null;
if (factory.RequireIntegrity)
{
primaryToken = SecurityProtocol.GetToken(this.initiatorAsymmetricTokenProvider, null, helper.RemainingTime());
requiredSigningToken = primaryToken;
}
if (factory.RequireConfidentiality)
{
token = base.GetCorrelationToken(correlationStates);
if (!System.ServiceModel.Security.SecurityUtils.HasSymmetricSecurityKey(token))
{
securityHeader.WrappedKeySecurityTokenAuthenticator = this.Factory.WrappedKeySecurityTokenAuthenticator;
}
}
if (factory.AllowSerializedSigningTokenOnReply)
{
initiatorAsymmetricTokenAuthenticator = this.initiatorAsymmetricTokenAuthenticator;
requiredSigningToken = null;
}
else
{
initiatorAsymmetricTokenAuthenticator = null;
}
securityHeader.ConfigureAsymmetricBindingClientReceiveHeader(primaryToken, factory.AsymmetricTokenParameters, token, factory.CryptoTokenParameters, initiatorAsymmetricTokenAuthenticator);
}
else
{
SecurityToken token4;
if ((this.Factory.RecipientAsymmetricTokenProvider != null) && this.Factory.RequireConfidentiality)
{
token4 = SecurityProtocol.GetToken(factory.RecipientAsymmetricTokenProvider, null, helper.RemainingTime());
}
else
{
token4 = null;
}
securityHeader.ConfigureAsymmetricBindingServerReceiveHeader(this.Factory.RecipientCryptoTokenAuthenticator, this.Factory.CryptoTokenParameters, token4, this.Factory.AsymmetricTokenParameters, list);
securityHeader.WrappedKeySecurityTokenAuthenticator = this.Factory.WrappedKeySecurityTokenAuthenticator;
securityHeader.ConfigureOutOfBandTokenResolver(base.MergeOutOfBandResolvers(list, this.Factory.RecipientOutOfBandTokenResolverList));
}
base.ProcessSecurityHeader(securityHeader, ref message, requiredSigningToken, helper.RemainingTime(), correlationStates);
SecurityToken signatureToken = securityHeader.SignatureToken;
SecurityToken encryptionToken = securityHeader.EncryptionToken;
if (factory.RequireIntegrity)
{
if (factory.ActAsInitiator)
{
ReadOnlyCollection <IAuthorizationPolicy> recipientTokenPolicies = this.initiatorAsymmetricTokenAuthenticator.ValidateToken(signatureToken);
MessageSecurityProtocol.EnsureNonWrappedToken(signatureToken, message);
this.DoIdentityCheckAndAttachInitiatorSecurityProperty(message, encryptionToken, signatureToken, recipientTokenPolicies);
}
else
{
MessageSecurityProtocol.EnsureNonWrappedToken(signatureToken, message);
this.AttachRecipientSecurityProperty(message, signatureToken, encryptionToken, securityHeader.BasicSupportingTokens, securityHeader.EndorsingSupportingTokens, securityHeader.SignedEndorsingSupportingTokens, securityHeader.SignedSupportingTokens, securityHeader.SecurityTokenAuthorizationPoliciesMapping);
}
}
return(base.GetCorrelationState(signatureToken, securityHeader));
}