MalwareSourceCode/MSIL/Virus/Win32/E/Virus.Win32.Expiro.w-f8f9f26e940480624825f6bddbea86e70fc4aa746c4dd8efa7d98dcb477000ed/Microsoft/InfoCards/RemoteTokenFactory.cs
2022-08-18 06:28:56 -05:00

516 lines
27 KiB
C#

// Decompiled with JetBrains decompiler
// Type: Microsoft.InfoCards.RemoteTokenFactory
// Assembly: infocard, Version=3.0.0.0, Culture=neutral, PublicKeyToken=b77a5c561934e089
// MVID: 1D4D5564-A025-490C-AF1D-DF4FBB709D1F
// Assembly location: C:\Users\Administrateur\Downloads\Virusshare-00001-msil\Virus.Win32.Expiro.w-f8f9f26e940480624825f6bddbea86e70fc4aa746c4dd8efa7d98dcb477000ed.exe
using Microsoft.InfoCards.Diagnostics;
using System;
using System.Collections.Generic;
using System.Collections.ObjectModel;
using System.Globalization;
using System.IdentityModel.Selectors;
using System.IdentityModel.Tokens;
using System.IO;
using System.Net;
using System.Net.Security;
using System.Security.Cryptography;
using System.Security.Cryptography.X509Certificates;
using System.Security.Cryptography.Xml;
using System.ServiceModel;
using System.ServiceModel.Channels;
using System.ServiceModel.Description;
using System.ServiceModel.Security;
using System.ServiceModel.Security.Tokens;
using System.Xml;
namespace Microsoft.InfoCards
{
internal class RemoteTokenFactory : TokenFactoryBase
{
internal const string MetadataExchangeClientKey = "MetadataExchangeClientKey";
private ServiceEndpoint m_endPoint;
private ChannelFactory<RemoteTokenFactory.ISts> m_channelFactory;
private object m_channelChangeSync;
private IWebProxy m_proxy;
private ProtocolProfile m_protocolProfile;
private Dictionary<string, bool> m_disclosedClaims;
public RemoteTokenFactory(ServiceEndpoint endPoint, IWebProxy proxy)
{
this.m_endPoint = endPoint;
this.m_channelChangeSync = new object();
this.m_proxy = proxy;
}
protected override TokenDescriptor ProduceToken(
InfoCard card,
TokenCreationParameter parameter,
TokenFactoryCredential credential,
InfoCardPolicy policy,
bool discloseOptional)
{
InfoCardTrace.ThrowInvalidArgumentConditional(null == card, nameof (card));
InfoCardTrace.ThrowInvalidArgumentConditional(null == parameter, nameof (parameter));
InfoCardTrace.ThrowInvalidArgumentConditional(null == credential, nameof (credential));
InfoCardTrace.ThrowInvalidArgumentConditional(null == policy, nameof (policy));
RSACryptoServiceProvider key = (RSACryptoServiceProvider) null;
byte[] numArray = (byte[]) null;
SymmetricAlgorithm symmetricProof = (SymmetricAlgorithm) null;
RSAKeyValue val = (RSAKeyValue) null;
string internalTokenReference = string.Empty;
string externalTokenReference = string.Empty;
GenericXmlSecurityToken tok = (GenericXmlSecurityToken) null;
this.m_protocolProfile = policy.ProtocolVersionProfile;
bool flag1 = false;
RSATokenProvider rsaTokenProvider = (RSATokenProvider) null;
TokenDescriptor tokenDescriptor;
try
{
if (SecurityKeyTypeInternal.AsymmetricKey == policy.KeyType)
{
key = card.GetPublicCryptography(policy.Recipient.GetIdentifier());
flag1 = true;
InfoCardTrace.Assert(null == numArray, "Null in in asymmetric case");
}
else if (policy.KeyType == SecurityKeyTypeInternal.SymmetricKey)
{
numArray = new byte[(IntPtr) (policy.GetIntelligentKeySize(false) / 8U)];
new RNGCryptoServiceProvider().GetNonZeroBytes(numArray);
InfoCardTrace.Assert(null == key, "Null in symmetric case");
}
else
{
InfoCardTrace.Assert(null == key, "Null in no proof key case");
InfoCardTrace.Assert(null == numArray, "Null in no proof key case");
InfoCardTrace.Assert(SecurityKeyTypeInternal.NoKey == policy.KeyType, "Null in no proof key case");
}
if (this.m_endPoint == null)
this.m_endPoint = RemoteTokenFactory.DoMexExchange(parameter, this.m_proxy);
BindingElementCollection bindingElements = this.m_endPoint.Binding.CreateBindingElements();
SecurityBindingElement securityBindingElement = bindingElements.Find<SecurityBindingElement>();
if (securityBindingElement == null)
throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException(SR.GetString("IndigoNoSuitableEndpointsForAddress", (object) this.m_endPoint.Address.Uri)));
this.m_protocolProfile.WSTrust = securityBindingElement.MessageSecurityVersion.TrustVersion != TrustVersion.WSTrust13 ? (XmlNames.IWSTrust) XmlNames.WSTrustXmlSoap2005.Instance : (XmlNames.IWSTrust) XmlNames.WSTrustOasis2007.Instance;
Binding binding1 = Utility.BuildBindingWithMaxMessageSize(this.m_endPoint.Binding);
EndpointAddress address = this.m_endPoint.Address;
if (flag1)
{
SupportingTokenParameters supportingTokenParameters;
if (securityBindingElement.OptionalOperationSupportingTokenParameters.ContainsKey(this.m_protocolProfile.WSTrust.RequestSecurityTokenAction))
{
supportingTokenParameters = securityBindingElement.OptionalOperationSupportingTokenParameters[this.m_protocolProfile.WSTrust.RequestSecurityTokenAction];
}
else
{
supportingTokenParameters = new SupportingTokenParameters();
securityBindingElement.OptionalOperationSupportingTokenParameters[this.m_protocolProfile.WSTrust.RequestSecurityTokenAction] = supportingTokenParameters;
}
bool flag2 = true;
foreach (SecurityTokenParameters securityTokenParameters in supportingTokenParameters.Endorsing)
{
if (securityTokenParameters is RsaSecurityTokenParameters)
{
flag2 = false;
break;
}
}
if (flag2)
{
RsaSecurityTokenParameters securityTokenParameters = new RsaSecurityTokenParameters();
securityTokenParameters.InclusionMode = SecurityTokenInclusionMode.Never;
securityTokenParameters.RequireDerivedKeys = false;
supportingTokenParameters.Endorsing.Add((SecurityTokenParameters) securityTokenParameters);
}
binding1 = (Binding) new CustomBinding((IEnumerable<BindingElement>) bindingElements);
}
Binding binding2 = (Binding) new CustomBinding((IEnumerable<BindingElement>) HttpProxyTransportBindingElement.ReplaceHttpTransportWithProxy(binding1.CreateBindingElements(), this.m_proxy));
InfoCardServiceClientCredentials clientCredentials1 = new InfoCardServiceClientCredentials(credential, this.m_protocolProfile);
if (flag1)
{
rsaTokenProvider = new RSATokenProvider(policy, card);
clientCredentials1.EndorsingSignatureTokenProvider = rsaTokenProvider;
}
ChannelFactory<RemoteTokenFactory.ISts> channelFactory = (ChannelFactory<RemoteTokenFactory.ISts>) null;
bool flag3 = false;
List<string> disclosedClaims;
DisplayToken displayToken;
try
{
InfoCardTrace.Assert(!flag3, "Will set to true upon sucess");
lock (this.m_channelChangeSync)
{
if (this.IsAborted)
throw InfoCardTrace.ThrowHelperError((Exception) new UserCancelledException());
channelFactory = new ChannelFactory<RemoteTokenFactory.ISts>(binding2, address);
ClientCredentials clientCredentials2 = channelFactory.Endpoint.Behaviors.Find<ClientCredentials>();
if (clientCredentials2 != null)
channelFactory.Endpoint.Behaviors.Remove((IEndpointBehavior) clientCredentials2);
channelFactory.Endpoint.Behaviors.Remove<ClientCredentials>();
channelFactory.Endpoint.Behaviors.Add((IEndpointBehavior) clientCredentials1);
X509Certificate2Collection certificate2Collection = (X509Certificate2Collection) null;
bool chainTrustPassed = false;
switch (parameter.CredentialType)
{
case TokenFactoryCredentialType.UserNamePasswordCredential:
clientCredentials1.UserName.UserName = ((UserNameTokenFactoryCredential) credential).UserName;
clientCredentials1.UserName.Password = ((UserNameTokenFactoryCredential) credential).Password;
certificate2Collection = this.GetCertificateChainFromAddress(address);
InfoCardX509Validator.ValidateChainOrPeer(certificate2Collection[0], certificate2Collection, out chainTrustPassed);
clientCredentials1.ServiceCertificate.DefaultCertificate = certificate2Collection[0];
goto case TokenFactoryCredentialType.KerberosCredential;
case TokenFactoryCredentialType.SelfIssuedCredential:
clientCredentials1.IsSelfIssuedCred = true;
SelfIssuedTokenFactoryCredential factoryCredential = (SelfIssuedTokenFactoryCredential) credential;
clientCredentials1.SelectedCard = factoryCredential.LocalCard;
certificate2Collection = this.GetCertificateChainFromAddress(address);
X509Certificate2 x509Certificate2 = certificate2Collection[0];
InfoCardX509Validator.ValidateChainOrPeer(x509Certificate2, certificate2Collection, out chainTrustPassed);
Recipient.RecipientCertParameters recipientParams;
string recipientIdHash = Recipient.CertGetRecipientIdHash(x509Certificate2, certificate2Collection, chainTrustPassed, out recipientParams);
string organizationIdHash = Recipient.CertGetRecipientOrganizationIdHash(x509Certificate2, certificate2Collection, chainTrustPassed);
this.EnsureSelfIssuedCardHasLedgerEntryForIssuer(factoryCredential.LocalCard, x509Certificate2, recipientIdHash, organizationIdHash, recipientParams, organizationIdHash);
clientCredentials1.ServiceCertificate.DefaultCertificate = x509Certificate2;
goto case TokenFactoryCredentialType.KerberosCredential;
case TokenFactoryCredentialType.X509CertificateCredential:
clientCredentials1.ClientCertificate.Certificate = ((X509CertificateTokenFactoryCredential) credential).Certificate;
certificate2Collection = this.GetCertificateChainFromAddress(address);
InfoCardX509Validator.ValidateChainOrPeer(certificate2Collection[0], certificate2Collection, out chainTrustPassed);
clientCredentials1.ServiceCertificate.DefaultCertificate = certificate2Collection[0];
goto case TokenFactoryCredentialType.KerberosCredential;
case TokenFactoryCredentialType.KerberosCredential:
clientCredentials1.ServiceCertificate.Authentication.CertificateValidationMode = X509CertificateValidationMode.Custom;
clientCredentials1.ServiceCertificate.Authentication.CustomCertificateValidator = InfoCardX509Validator.Create(certificate2Collection);
this.m_channelFactory = channelFactory;
break;
default:
InfoCardTrace.ThrowInvalidArgumentConditional(true, "CredentialType");
goto case TokenFactoryCredentialType.KerberosCredential;
}
}
try
{
RemoteTokenFactory.ISts channel = channelFactory.CreateChannel();
if (key != null)
val = new RSAKeyValue((RSA) key);
this.m_disclosedClaims = card.GetClaimsToBeDisclosed(policy, discloseOptional);
disclosedClaims = new List<string>(this.m_disclosedClaims.Count);
disclosedClaims.AddRange((IEnumerable<string>) this.m_disclosedClaims.Keys);
RequestSecurityToken rst = this.CreateRst(binding2.MessageVersion.Addressing, policy, card, discloseOptional, val, numArray, new CultureInfo(credential.LCID));
Message message1 = Message.CreateMessage(binding2.MessageVersion, this.m_protocolProfile.WSTrust.RequestSecurityTokenAction, (BodyWriter) rst);
Message message2 = (Message) null;
if (XmlNames.WSSpecificationVersion.WSTrustXmlSoap2005 == this.m_protocolProfile.WSTrust.Version)
message2 = channel.ProcessRequestSecurityTokenFeb2005(message1);
else if (XmlNames.WSSpecificationVersion.WSTrustOasis2007 == this.m_protocolProfile.WSTrust.Version)
message2 = channel.ProcessRequestSecurityTokenWSTrust13(message1);
else
InfoCardTrace.Assert(false, "Unsupported version of WS-Trust detected");
WSIdentityFaultException.ThrowIfFaultMessage(message2, CultureInfo.GetCultureInfo(credential.LCID));
if (policy.KeyType == SecurityKeyTypeInternal.SymmetricKey)
{
tok = RequestSecurityTokenResponseHelper.ProcessSymmetricTokenData(message2.GetReaderAtBodyContents(), (SecurityTokenSerializer) this.m_protocolProfile.TokenSerializer, (SecurityTokenResolver) null, numArray, this.m_protocolProfile, out displayToken);
if (tok.ProofToken.SecurityKeys.Count < 1)
throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException(SR.GetString("NoSymmetricKeyFound")));
foreach (SecurityKey securityKey in tok.ProofToken.SecurityKeys)
{
if (securityKey is InMemorySymmetricSecurityKey)
{
symmetricProof = (SymmetricAlgorithm) new RijndaelManaged();
symmetricProof.Key = ((SymmetricSecurityKey) securityKey).GetSymmetricKey();
break;
}
}
if (symmetricProof == null)
throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException(SR.GetString("NoSymmetricKeyFound")));
}
else if (SecurityKeyTypeInternal.AsymmetricKey == policy.KeyType)
{
tok = RequestSecurityTokenResponseHelper.ProcessAsymmetricTokenData(message2.GetReaderAtBodyContents(), (RSA) key, (SecurityTokenSerializer) this.m_protocolProfile.TokenSerializer, (SecurityTokenResolver) null, this.m_protocolProfile, out displayToken);
}
else
{
InfoCardTrace.Assert(SecurityKeyTypeInternal.NoKey == policy.KeyType, "Bad enum member for SecurityKeyTypeInternal");
tok = RequestSecurityTokenResponseHelper.ProcessBearerTokenData(message2.GetReaderAtBodyContents(), (SecurityTokenSerializer) this.m_protocolProfile.TokenSerializer, (SecurityTokenResolver) null, this.m_protocolProfile, out displayToken);
}
channelFactory.Close();
flag3 = true;
}
finally
{
lock (this.m_channelChangeSync)
{
if (!flag3)
channelFactory.Abort();
this.m_channelFactory = (ChannelFactory<RemoteTokenFactory.ISts>) null;
}
}
}
catch (EndpointNotFoundException ex)
{
throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException(SR.GetString("EndpointNotFound"), (Exception) ex));
}
catch (InfoCardBaseException ex)
{
throw;
}
catch (Exception ex)
{
if (!InfoCardTrace.IsFatal(ex))
throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException(SR.GetString("ProblemRetrievingTokenFromIdentityProvider"), ex));
throw;
}
XmlElement xmlElement = tok.TokenXml;
if (policy.ImmediateTokenRecipient is X509RecipientIdentity immediateTokenRecipient && !this.IsEncryptedXml(xmlElement))
{
if (AppliesToBehaviorDecisionTable.GetAppliesToBehaviorDecisionForRst(policy, card.RequireAppliesto) == AppliesToBehaviorDecision.DoNotSend)
{
try
{
string asymmetricKeyWrapAlgorithm = policy.KeyType != SecurityKeyTypeInternal.SymmetricKey ? (SecurityKeyTypeInternal.AsymmetricKey != policy.KeyType ? SecurityAlgorithmSuite.Default.DefaultAsymmetricKeyWrapAlgorithm : (!string.IsNullOrEmpty(policy.OptionalRstParams.EncryptWith) ? policy.OptionalRstParams.EncryptWith : SecurityAlgorithmSuite.Default.DefaultAsymmetricKeyWrapAlgorithm)) : SecurityAlgorithmSuite.Default.DefaultAsymmetricKeyWrapAlgorithm;
xmlElement = EncryptionUtility.EncryptSecurityToken(xmlElement, immediateTokenRecipient.LeafCertificate, !string.IsNullOrEmpty(policy.OptionalRstParams.EncryptionAlgorithm) ? policy.OptionalRstParams.EncryptionAlgorithm : SecurityAlgorithmSuite.Default.DefaultEncryptionAlgorithm, asymmetricKeyWrapAlgorithm, policy.ProtocolVersionProfile);
}
catch (Exception ex)
{
if (!InfoCardTrace.IsFatal(ex))
throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException("ServiceTokenEncryptionFailed", ex));
throw;
}
}
}
this.GetKeyIdentifierClauses(tok, policy.ProtocolVersionProfile, out internalTokenReference, out externalTokenReference);
this.FillOutDisplayToken(card, displayToken);
tokenDescriptor = new TokenDescriptor(tok.Id, tok.ValidFrom, tok.ValidTo, xmlElement, displayToken, symmetricProof, internalTokenReference, externalTokenReference, (IEnumerable<string>) disclosedClaims);
symmetricProof = (SymmetricAlgorithm) null;
}
finally
{
key?.Dispose();
if (val != null)
{
val.Key.Dispose();
val.Key = (RSA) null;
}
symmetricProof?.Dispose();
rsaTokenProvider?.Dispose();
}
return tokenDescriptor;
}
protected override void OnAbort()
{
lock (this.m_channelChangeSync)
{
if (this.IsAborted || this.m_channelFactory == null)
return;
this.m_channelFactory.Abort();
}
}
private X509Certificate2Collection GetCertificateChainFromAddress(
EndpointAddress address)
{
if ((EndpointAddress) null == address || address.Identity == null)
throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException(SR.GetString("NoCertificateInEndPoint")));
if (!(address.Identity is X509CertificateEndpointIdentity identity) || identity.Certificates == null || identity.Certificates.Count < 1)
throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException(SR.GetString("NoCertificateInEndPoint")));
return identity.Certificates;
}
public static ServiceEndpoint DoMexExchange(
TokenCreationParameter param,
IWebProxy proxy)
{
ServiceEndpoint serviceEndpoint1 = (ServiceEndpoint) null;
bool flag = false;
EndpointAddress address = param != null && !((EndpointAddress) null == param.Epr) ? Utility.DeriveMexAddress(param.Epr) : throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException(SR.GetString("InvalidServiceUri")));
if ((EndpointAddress) null == address)
throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException(SR.GetString("InvalidServiceUri")));
InfoCardMetadataExchangeClient metadataExchangeClient = new InfoCardMetadataExchangeClient(Utility.BuildBindingWithMaxMessageSize((Binding) new WSHttpBinding(SecurityMode.Transport)));
metadataExchangeClient.Proxy = proxy;
MetadataSet metadata = (MetadataSet) null;
metadataExchangeClient.ResolveMetadataReferences = true;
metadataExchangeClient.MaximumResolvedReferences = InfoCardConstants.MaximumMexChainLength;
Exception inner = (Exception) null;
try
{
metadata = metadataExchangeClient.GetMetadata(address);
flag = true;
}
catch (Exception ex)
{
if (InfoCardTrace.IsFatal(ex))
throw;
}
if (!flag)
{
try
{
metadata = metadataExchangeClient.GetMetadata(address.Uri, MetadataExchangeClientMode.HttpGet);
flag = true;
}
catch (Exception ex)
{
if (InfoCardTrace.IsFatal(ex))
throw;
else
inner = ex;
}
}
if (!flag)
throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException(SR.GetString("EndpointNotFound"), inner));
WsdlImporter wsdlImporter = new WsdlImporter(metadata);
wsdlImporter.State.Add((object) "MetadataExchangeClientKey", (object) metadataExchangeClient);
ServiceEndpointCollection endpointCollection = wsdlImporter.ImportAllEndpoints();
if (endpointCollection != null)
{
foreach (ServiceEndpoint serviceEndpoint2 in (Collection<ServiceEndpoint>) endpointCollection)
{
if (Utility.CompareUri(serviceEndpoint2.Address.Uri, param.Epr.Uri))
{
ISecurityCapabilities property = serviceEndpoint2.Binding.GetProperty<ISecurityCapabilities>(new BindingParameterCollection());
if (property != null && property.SupportedRequestProtectionLevel == ProtectionLevel.EncryptAndSign && property.SupportedResponseProtectionLevel == ProtectionLevel.EncryptAndSign && property.SupportsServerAuthentication)
{
serviceEndpoint1 = serviceEndpoint2;
break;
}
}
}
return serviceEndpoint1 != null ? serviceEndpoint1 : throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException(SR.GetString("IndigoNoSuitableEndpointsForAddress", (object) param.Epr.Uri.AbsoluteUri)));
}
throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException(SR.GetString("IndigoNoSuitableEndpointsForAddress", (object) param.Epr.Uri.AbsoluteUri)));
}
private RequestSecurityToken CreateRst(
AddressingVersion version,
InfoCardPolicy policy,
InfoCard card,
bool discloseOptional,
RSAKeyValue val,
byte[] clientEntropyForSymmetric,
CultureInfo displayCulture)
{
InfoCardTrace.ThrowInvalidArgumentConditional(null == policy, nameof (policy));
InfoCardTrace.ThrowInvalidArgumentConditional(null == card, nameof (card));
return (RequestSecurityToken) new RequestSecurityTokenForRemoteTokenFactory(new RequestSecurityTokenParameters(version, card, policy, discloseOptional, val, this.m_disclosedClaims, "ProcessRequestSecurityToken", clientEntropyForSymmetric, displayCulture));
}
private void GetKeyIdentifierClauses(
GenericXmlSecurityToken tok,
ProtocolProfile profile,
out string internalTokenReference,
out string externalTokenReference)
{
if (tok.InternalTokenReference != null)
{
if (tok.ExternalTokenReference != null)
{
try
{
using (StringWriter w = new StringWriter((IFormatProvider) CultureInfo.InvariantCulture))
{
profile.TokenSerializer.WriteKeyIdentifierClause((XmlWriter) XmlDictionaryWriter.CreateDictionaryWriter((XmlWriter) new XmlTextWriter((TextWriter) w)), tok.InternalTokenReference);
w.Flush();
internalTokenReference = w.GetStringBuilder().ToString();
}
using (StringWriter w = new StringWriter((IFormatProvider) CultureInfo.InvariantCulture))
{
profile.TokenSerializer.WriteKeyIdentifierClause((XmlWriter) XmlDictionaryWriter.CreateDictionaryWriter((XmlWriter) new XmlTextWriter((TextWriter) w)), tok.ExternalTokenReference);
w.Flush();
externalTokenReference = w.GetStringBuilder().ToString();
return;
}
}
catch (XmlException ex)
{
throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException(SR.GetString("IPSTSClientInvalidTokenReference"), (Exception) ex));
}
}
}
throw InfoCardTrace.ThrowHelperError((Exception) new TrustExchangeException(SR.GetString("IPSTSClientInvalidTokenReference")));
}
private void EnsureSelfIssuedCardHasLedgerEntryForIssuer(
InfoCard card,
X509Certificate2 issuerCert,
string recipientId,
string recipientOrgId,
Recipient.RecipientCertParameters recipientParams,
string immediateTokenRecipientOrganizationIdentifier)
{
LedgerEntryCollection ledger = card.GetLedger();
StoreConnection connection = StoreConnection.GetConnection();
try
{
ledger.Get(connection);
if (!ledger.ContainsKey(recipientId))
{
connection.BeginTransaction();
try
{
InfoCardMasterKey masterKey = card.GetMasterKey(connection);
if (card.IsPinProtected)
{
InfoCardTrace.Assert(!string.IsNullOrEmpty(card.Pin), "Should not be null here");
masterKey.Decrypt(masterKey.GetPinHelper(card.Pin));
}
Recipient recipient = new Recipient(issuerCert, recipientId, recipientOrgId, false, 0U, recipientParams);
recipient.Save(connection);
LedgerEntry entry = LedgerEntry.NewLedgerEntry(card.Id, recipient, card.Key, immediateTokenRecipientOrganizationIdentifier);
ledger.Add(entry);
entry.Save(connection);
connection.CommitTransaction();
}
catch
{
connection.RollbackTransaction();
throw;
}
}
else
InfoCardTrace.Assert(immediateTokenRecipientOrganizationIdentifier == recipientOrgId, "For the self issued case the RP should be same as token recipient");
}
finally
{
connection.Close();
}
}
private void FillOutDisplayToken(InfoCard card, DisplayToken displayToken)
{
if (displayToken.ClaimList == null)
return;
InfoCardClaimCollection claims = card.GetClaims();
foreach (DisplayClaim claim in displayToken.ClaimList)
{
if (string.IsNullOrEmpty(claim.Name))
{
string str = (string) null;
string id = claim.Id;
if (!string.IsNullOrEmpty(claim.Id))
{
if (claims.ContainsKey(id))
str = claims[id].DisplayTag;
if (string.IsNullOrEmpty(str))
str = id;
}
else
str = SR.GetString("ServiceDisplayTokenNoClaimName");
claim.Name = str;
}
}
}
private bool IsEncryptedXml(XmlElement content) => "EncryptedData" == content.LocalName && "http://www.w3.org/2001/04/xmlenc#" == content.NamespaceURI;
[ServiceContract(Name = "RequestBrowserToken", Namespace = "http://schemas.xmlsoap.org/ws/2005/05/identity")]
internal interface ISts
{
[OperationContract(Action = "http://schemas.xmlsoap.org/ws/2005/02/trust/RST/Issue", Name = "ProcessRequestSecurityTokenFeb2005", ProtectionLevel = ProtectionLevel.EncryptAndSign, ReplyAction = "http://schemas.xmlsoap.org/ws/2005/02/trust/RSTR/Issue")]
Message ProcessRequestSecurityTokenFeb2005(Message rstMessage);
[OperationContract(Action = "http://docs.oasis-open.org/ws-sx/ws-trust/200512/RST/Issue", Name = "ProcessRequestSecurityTokenWSTrust13", ProtectionLevel = ProtectionLevel.EncryptAndSign, ReplyAction = "http://docs.oasis-open.org/ws-sx/ws-trust/200512/RSTRC/IssueFinal")]
Message ProcessRequestSecurityTokenWSTrust13(Message rstMessage);
}
}
}