Procedura: accedere a WSE 3.0 Service con un client WCF
I client Windows Communication Foundation (WCF) sono compatibili wire-level con Web Services Enhancements (WSE) 3.0 per i servizi Microsoft .NET quando i client WCF sono configurati per l'uso della versione di agosto 2004 della specifica WS-Addressing. Tuttavia, i servizi WSE 3.0 non supportano il protocollo di scambio di metadati (MEX), pertanto quando si usa lo strumento ServiceModel Metadata Utility Tool (Svcutil.exe) per creare una classe di client WCF, le impostazioni di sicurezza non vengono applicate al client WCF generato. Pertanto, è necessario specificare le impostazioni di sicurezza richieste dal servizio WSE 3.0 dopo la generazione del client WCF.
È possibile applicare queste impostazioni di sicurezza utilizzando un binding personalizzato per tenere conto dei requisiti del servizio WSE 3.0 e dei requisiti interoperabili tra un servizio WSE 3.0 e un client WCF. I requisiti di interoperabilità includono l'utilizzo della specifica dell'agosto 2004 di WS-Addressing e la protezione dei messaggi predefinita di WSE 3.0 di SignBeforeEncrypt. La protezione dei messaggi predefinita per WCF è SignBeforeEncryptAndEncryptSignature. Questo argomento spiega come creare un binding WCF che interoperi con un servizio WSE 3.0. WCF fornisce anche un esempio che incorpora questo binding. Per maggiori informazioni su questo esempio, vedere Interoperabilità con i servizi Web ASMX.
Per accedere a un servizio Web WSE 3.0 con un client WCF
Eseguire lo strumento ServiceModel Metadata Utility Tool (Svcutil.exe) per creare un client WCF per il servizio Web WSE 3.0.
Per un servizio Web WSE 3.0, viene creato un client WCF. Dato che WSE 3.0 non supporta il protocollo MEX, non è possibile utilizzare lo strumento per recuperare i requisiti di sicurezza per il servizio Web. Lo sviluppatore dell'applicazione deve aggiungere le impostazioni di sicurezza per il client.
Per maggiori informazioni sulla creazione di un client WCF, vedere la Procedura: Creare un client.
Creare una classe che rappresenta un'associazione che può comunicare con i servizi Web WSE 3.0.
La classe seguente fa parte dell'esempio Interoperabilità con WSE:
Creare una classe che derivi dalla classe Binding.
Nell'esempio di codice seguente viene creata una classe denominata
WseHttpBindingche deriva dalla classe Binding.public class WseHttpBinding : Binding {Public Class WseHttpBinding Inherits BindingAggiungere alla classe le proprietà che specificano l'asserzione turnkey WSE utilizzata dal servizio WSE, se sono necessarie chiavi derivate, se sono utilizzate sessioni protette, se sono necessarie conferme della firma e le impostazioni della protezione dei messaggi. In WSE 3.0, un'asserzione turnkey specifica i requisiti di sicurezza per un client o un servizio Web analogamente alla modalità di autenticazione di un binding in WCF.
Nell'esempio di codice seguente vengono definite le proprietà
SecurityAssertion,RequireDerivedKeys,EstablishSecurityContexteMessageProtectionOrderche specificano l'asserzione turnkey WSE, se sono necessarie chiavi derivate, se sono utilizzate sessioni protette, se sono necessarie conferme di firma e le impostazioni di protezione dei messaggi.private WseSecurityAssertion assertion; public WseSecurityAssertion SecurityAssertion { get { return assertion; } set { assertion = value; } } private bool requireDerivedKeys; public bool RequireDerivedKeys { get { return requireDerivedKeys; } set { requireDerivedKeys = value; } } private bool establishSecurityContext; public bool EstablishSecurityContext { get { return establishSecurityContext; } set { establishSecurityContext = value; } } private bool requireSignatureConfirmation; public bool RequireSignatureConfirmation { get { return requireSignatureConfirmation; } set { requireSignatureConfirmation = value; } } private MessageProtectionOrder messageProtectionOrder; public MessageProtectionOrder MessageProtectionOrder { get { return messageProtectionOrder; } set { messageProtectionOrder = value; } }Public Property SecurityAssertion() As WseSecurityAssertion Get Return assertion End Get Set(ByVal value As WseSecurityAssertion) assertion = value End Set End Property Private m_requireDerivedKeys As Boolean Public Property RequireDerivedKeys() As Boolean Get Return m_requireDerivedKeys End Get Set(ByVal value As Boolean) m_requireDerivedKeys = value End Set End Property Private m_establishSecurityContext As Boolean Public Property EstablishSecurityContext() As Boolean Get Return m_establishSecurityContext End Get Set(ByVal value As Boolean) m_establishSecurityContext = value End Set End Property Private m_requireSignatureConfirmation As Boolean Public Property RequireSignatureConfirmation() As Boolean Get Return m_requireSignatureConfirmation End Get Set(ByVal value As Boolean) m_requireSignatureConfirmation = value End Set End Property Private m_messageProtectionOrder As MessageProtectionOrder Public Property MessageProtectionOrder() As MessageProtectionOrder Get Return m_messageProtectionOrder End Get Set(ByVal value As MessageProtectionOrder) m_messageProtectionOrder = value End Set End PropertyEseguire l'override del metodo CreateBindingElements per impostare le proprietà dell'associazione.
Nell'esempio di codice seguente vengono specificati il trasporto, la codifica messaggi e le impostazioni della protezione dei messaggi ottenendo i valori delle proprietà
SecurityAssertioneMessageProtectionOrder.public override BindingElementCollection CreateBindingElements() { //SecurityBindingElement sbe = bec.Find<SecurityBindingElement>(); BindingElementCollection bec = new BindingElementCollection(); // By default http transport is used SecurityBindingElement securityBinding; BindingElement transport; switch (assertion) { case WseSecurityAssertion.UsernameOverTransport: transport = new HttpsTransportBindingElement(); securityBinding = (TransportSecurityBindingElement)SecurityBindingElement.CreateUserNameOverTransportBindingElement(); if (establishSecurityContext == true) throw new InvalidOperationException("Secure Conversation is not supported for this Security Assertion Type"); if (requireSignatureConfirmation == true) throw new InvalidOperationException("Signature Confirmation is not supported for this Security Assertion Type"); break; case WseSecurityAssertion.MutualCertificate10: transport = new HttpTransportBindingElement(); securityBinding = SecurityBindingElement.CreateMutualCertificateBindingElement(MessageSecurityVersion.WSSecurity10WSTrustFebruary2005WSSecureConversationFebruary2005WSSecurityPolicy11BasicSecurityProfile10); if (requireSignatureConfirmation == true) throw new InvalidOperationException("Signature Confirmation is not supported for this Security Assertion Type"); ((AsymmetricSecurityBindingElement)securityBinding).MessageProtectionOrder = messageProtectionOrder; break; case WseSecurityAssertion.UsernameForCertificate: transport = new HttpTransportBindingElement(); securityBinding = (SymmetricSecurityBindingElement)SecurityBindingElement.CreateUserNameForCertificateBindingElement(); // We want signatureconfirmation on the bootstrap process // either for the application messages or for the RST/RSTR ((SymmetricSecurityBindingElement)securityBinding).RequireSignatureConfirmation = requireSignatureConfirmation; ((SymmetricSecurityBindingElement)securityBinding).MessageProtectionOrder = messageProtectionOrder; break; case WseSecurityAssertion.AnonymousForCertificate: transport = new HttpTransportBindingElement(); securityBinding = (SymmetricSecurityBindingElement)SecurityBindingElement.CreateAnonymousForCertificateBindingElement(); ((SymmetricSecurityBindingElement)securityBinding).RequireSignatureConfirmation = requireSignatureConfirmation; ((SymmetricSecurityBindingElement)securityBinding).MessageProtectionOrder = messageProtectionOrder; break; case WseSecurityAssertion.MutualCertificate11: transport = new HttpTransportBindingElement(); securityBinding = SecurityBindingElement.CreateMutualCertificateBindingElement(MessageSecurityVersion.WSSecurity11WSTrustFebruary2005WSSecureConversationFebruary2005WSSecurityPolicy11); ((SymmetricSecurityBindingElement)securityBinding).RequireSignatureConfirmation = requireSignatureConfirmation; ((SymmetricSecurityBindingElement)securityBinding).MessageProtectionOrder = messageProtectionOrder; break; case WseSecurityAssertion.Kerberos: transport = new HttpTransportBindingElement(); securityBinding = (SymmetricSecurityBindingElement)SecurityBindingElement.CreateKerberosBindingElement(); ((SymmetricSecurityBindingElement)securityBinding).RequireSignatureConfirmation = requireSignatureConfirmation; ((SymmetricSecurityBindingElement)securityBinding).MessageProtectionOrder = messageProtectionOrder; break; default: throw new NotSupportedException("This supplied Wse security assertion is not supported"); } //Set defaults for the security binding securityBinding.IncludeTimestamp = true; // Derived Keys // set the preference for derived keys before creating SecureConversationBindingElement securityBinding.SetKeyDerivation(requireDerivedKeys); //Secure Conversation if (establishSecurityContext == true) { SymmetricSecurityBindingElement secureconversation = (SymmetricSecurityBindingElement)SymmetricSecurityBindingElement.CreateSecureConversationBindingElement( securityBinding, false); // This is the default //secureconversation.DefaultProtectionLevel = ProtectionLevel.EncryptAndSign; //Set defaults for the secure conversation binding secureconversation.DefaultAlgorithmSuite = SecurityAlgorithmSuite.Basic256; // We do not want signature confirmation on the application level messages // when secure conversation is enabled. secureconversation.RequireSignatureConfirmation = false; secureconversation.MessageProtectionOrder = messageProtectionOrder; secureconversation.SetKeyDerivation(requireDerivedKeys); securityBinding = secureconversation; } // Add the security binding to the binding collection bec.Add(securityBinding); // Add the message encoder. TextMessageEncodingBindingElement textelement = new TextMessageEncodingBindingElement(); textelement.MessageVersion = MessageVersion.Soap11WSAddressingAugust2004; //These are the defaults required for WSE //textelement.MessageVersion = MessageVersion.Soap11Addressing1; //textelement.WriteEncoding = System.Text.Encoding.UTF8; bec.Add(textelement); // Add the transport bec.Add(transport); // return the binding elements return bec; }Public Overloads Overrides Function CreateBindingElements() As BindingElementCollection 'SecurityBindingElement sbe = bec.Find<SecurityBindingElement>(); Dim bec As New BindingElementCollection() ' By default http transport is used Dim securityBinding As SecurityBindingElement Dim transport As BindingElement Select Case assertion Case WseSecurityAssertion.UsernameOverTransport transport = New HttpsTransportBindingElement() securityBinding = DirectCast(SecurityBindingElement.CreateUserNameOverTransportBindingElement(), TransportSecurityBindingElement) If m_establishSecurityContext = True Then Throw New InvalidOperationException("Secure Conversation is not supported for this Security Assertion Type") End If If m_requireSignatureConfirmation = True Then Throw New InvalidOperationException("Signature Confirmation is not supported for this Security Assertion Type") End If Exit Select Case WseSecurityAssertion.MutualCertificate10 transport = New HttpTransportBindingElement() securityBinding = SecurityBindingElement.CreateMutualCertificateBindingElement(MessageSecurityVersion.WSSecurity10WSTrustFebruary2005WSSecureConversationFebruary2005WSSecurityPolicy11BasicSecurityProfile10) If m_requireSignatureConfirmation = True Then Throw New InvalidOperationException("Signature Confirmation is not supported for this Security Assertion Type") End If DirectCast(securityBinding, AsymmetricSecurityBindingElement).MessageProtectionOrder = m_messageProtectionOrder Exit Select Case WseSecurityAssertion.UsernameForCertificate transport = New HttpTransportBindingElement() securityBinding = DirectCast(SecurityBindingElement.CreateUserNameForCertificateBindingElement(), SymmetricSecurityBindingElement) ' We want signatureconfirmation on the bootstrap process ' either for the application messages or for the RST/RSTR DirectCast(securityBinding, SymmetricSecurityBindingElement).RequireSignatureConfirmation = m_requireSignatureConfirmation DirectCast(securityBinding, SymmetricSecurityBindingElement).MessageProtectionOrder = m_messageProtectionOrder Exit Select Case WseSecurityAssertion.AnonymousForCertificate transport = New HttpTransportBindingElement() securityBinding = DirectCast(SecurityBindingElement.CreateAnonymousForCertificateBindingElement(), SymmetricSecurityBindingElement) DirectCast(securityBinding, SymmetricSecurityBindingElement).RequireSignatureConfirmation = m_requireSignatureConfirmation DirectCast(securityBinding, SymmetricSecurityBindingElement).MessageProtectionOrder = m_messageProtectionOrder Exit Select Case WseSecurityAssertion.MutualCertificate11 transport = New HttpTransportBindingElement() securityBinding = SecurityBindingElement.CreateMutualCertificateBindingElement(MessageSecurityVersion.WSSecurity11WSTrustFebruary2005WSSecureConversationFebruary2005WSSecurityPolicy11) DirectCast(securityBinding, SymmetricSecurityBindingElement).RequireSignatureConfirmation = m_requireSignatureConfirmation DirectCast(securityBinding, SymmetricSecurityBindingElement).MessageProtectionOrder = m_messageProtectionOrder Exit Select Case WseSecurityAssertion.Kerberos transport = New HttpTransportBindingElement() securityBinding = DirectCast(SecurityBindingElement.CreateKerberosBindingElement(), SymmetricSecurityBindingElement) DirectCast(securityBinding, SymmetricSecurityBindingElement).RequireSignatureConfirmation = m_requireSignatureConfirmation DirectCast(securityBinding, SymmetricSecurityBindingElement).MessageProtectionOrder = m_messageProtectionOrder Exit Select Case Else Throw New NotSupportedException("This supplied Wse security assertion is not supported") End Select 'Set defaults for the security binding securityBinding.IncludeTimestamp = True ' Derived Keys ' Set the preference for derived keys before creating the binding for SecureConversation. securityBinding.SetKeyDerivation(m_requireDerivedKeys) 'Secure Conversation If m_establishSecurityContext = True Then Dim secureconversation As SymmetricSecurityBindingElement = DirectCast(SymmetricSecurityBindingElement.CreateSecureConversationBindingElement(securityBinding, False), SymmetricSecurityBindingElement) ' This is the default 'secureconversation.DefaultProtectionLevel = ProtectionLevel.EncryptAndSign; 'Set defaults for the secure conversation binding secureconversation.DefaultAlgorithmSuite = SecurityAlgorithmSuite.Basic256 ' We do not want signature confirmation on the application level messages ' when secure conversation is enabled. secureconversation.RequireSignatureConfirmation = False secureconversation.MessageProtectionOrder = m_messageProtectionOrder secureconversation.SetKeyDerivation(m_requireDerivedKeys) securityBinding = secureconversation End If ' Add the security binding to the binding collection bec.Add(securityBinding) ' Add the message encoder. Dim textelement As New TextMessageEncodingBindingElement() textelement.MessageVersion = System.ServiceModel.Channels.MessageVersion.Soap11WSAddressingAugust2004 'These are the defaults required for WSE 'textelement.MessageVersion = MessageVersion.Soap11Addressing1; 'textelement.WriteEncoding = System.Text.Encoding.UTF8; bec.Add(textelement) ' Add the transport bec.Add(transport) ' return the binding elements Return bec End Function
Nel codice dell'applicazione client, aggiungere il codice per impostare le proprietà dell'associazione.
L'esempio di codice seguente specifica che il client WCF deve usare la protezione e l'autenticazione dei messaggi come definito dall'asserzione di sicurezza turnkey WSE 3.0
AnonymousForCertificate. Sono inoltre necessarie sessioni protette e chiavi derivate.static void CallWseService(bool usePolicyFile) { EndpointAddress address = new EndpointAddress(new Uri("http://localhost/WSSecurityAnonymousPolicy/WSSecurityAnonymousService.asmx"), EndpointIdentity.CreateDnsIdentity("WSE2QuickStartServer")); WseHttpBinding binding = new WseHttpBinding(); if (!usePolicyFile) { binding.SecurityAssertion = WseSecurityAssertion.AnonymousForCertificate; binding.EstablishSecurityContext = true; binding.RequireDerivedKeys = true; binding.MessageProtectionOrder = MessageProtectionOrder.SignBeforeEncrypt; } else { binding.LoadPolicy("..\\wse3policyCache.config", "ServerPolicy"); } WSSecurityAnonymousServiceSoapClient client = new WSSecurityAnonymousServiceSoapClient(binding, address);Private Shared Sub CallWseService(ByVal usePolicyFile As Boolean) Dim address As New EndpointAddress(New Uri("http://localhost/WSSecurityAnonymousPolicy/WSSecurityAnonymousService.asmx"), EndpointIdentity.CreateDnsIdentity("WSE2QuickStartServer")) Dim binding As New WseHttpBinding() If Not usePolicyFile Then binding.SecurityAssertion = WseSecurityAssertion.AnonymousForCertificate binding.EstablishSecurityContext = True binding.RequireDerivedKeys = True binding.MessageProtectionOrder = MessageProtectionOrder.SignBeforeEncrypt Else binding.LoadPolicy("..\wse3policyCache.config", "ServerPolicy") End If Dim client As New WSSecurityAnonymousServiceSoapClient(binding, address)
Esempio
Nell'esempio di codice seguente viene definita un'associazione personalizzata che espone proprietà che corrispondono alle proprietà di una asserzione di sicurezza turnkey WSE 3.0. Questo binding personalizzato, denominato WseHttpBinding, viene quindi usato per specificare le proprietà di binding per un client WCF che comunica con l'esempio di avvio rapido WSSecurityAnonymous WSE 3.0.