/// <summary>
/// Simulates an extension request and response.
/// </summary>
/// <param name="protocol">The protocol to use in the roundtripping.</param>
/// <param name="requests">The extensions to add to the request message.</param>
/// <param name="responses">The extensions to add to the response message.</param>
/// <remarks>
/// This method relies on the extension objects' Equals methods to verify
/// accurate transport. The Equals methods should be verified by separate tests.
/// </remarks>
internal static void Roundtrip(
Protocol protocol,
IEnumerable <IOpenIdMessageExtension> requests,
IEnumerable <IOpenIdMessageExtension> responses)
{
var securitySettings = new ProviderSecuritySettings();
var cryptoKeyStore = new MemoryCryptoKeyStore();
var associationStore = new ProviderAssociationHandleEncoder(cryptoKeyStore);
Association association = HmacShaAssociationProvider.Create(protocol, protocol.Args.SignatureAlgorithm.Best, AssociationRelyingPartyType.Smart, associationStore, securitySettings);
var coordinator = new OpenIdCoordinator(
rp => {
RegisterExtension(rp.Channel, Mocks.MockOpenIdExtension.Factory);
var requestBase = new CheckIdRequest(protocol.Version, OpenIdTestBase.OPUri, AuthenticationRequestMode.Immediate);
OpenIdTestBase.StoreAssociation(rp, OpenIdTestBase.OPUri, association);
requestBase.AssociationHandle = association.Handle;
requestBase.ClaimedIdentifier = "http://claimedid";
requestBase.LocalIdentifier = "http://localid";
requestBase.ReturnTo = OpenIdTestBase.RPUri;
foreach (IOpenIdMessageExtension extension in requests)
{
requestBase.Extensions.Add(extension);
}
rp.Channel.Respond(requestBase);
var response = rp.Channel.ReadFromRequest <PositiveAssertionResponse>();
var receivedResponses = response.Extensions.Cast <IOpenIdMessageExtension>();
CollectionAssert <IOpenIdMessageExtension> .AreEquivalentByEquality(responses.ToArray(), receivedResponses.ToArray());
},
op => {
RegisterExtension(op.Channel, Mocks.MockOpenIdExtension.Factory);
var key = cryptoKeyStore.GetCurrentKey(ProviderAssociationHandleEncoder.AssociationHandleEncodingSecretBucket, TimeSpan.FromSeconds(1));
op.CryptoKeyStore.StoreKey(ProviderAssociationHandleEncoder.AssociationHandleEncodingSecretBucket, key.Key, key.Value);
var request = op.Channel.ReadFromRequest <CheckIdRequest>();
var response = new PositiveAssertionResponse(request);
var receivedRequests = request.Extensions.Cast <IOpenIdMessageExtension>();
CollectionAssert <IOpenIdMessageExtension> .AreEquivalentByEquality(requests.ToArray(), receivedRequests.ToArray());
foreach (var extensionResponse in responses)
{
response.Extensions.Add(extensionResponse);
}
op.Channel.Respond(response);
});
coordinator.Run();
}
public void ExtensionOnlyChannelLevel() {
Protocol protocol = Protocol.V20;
AuthenticationRequestMode mode = AuthenticationRequestMode.Setup;
var coordinator = new OpenIdCoordinator(
rp => {
var request = new SignedResponseRequest(protocol.Version, OPUri, mode);
rp.Channel.Respond(request);
},
op => {
var request = op.Channel.ReadFromRequest<SignedResponseRequest>();
Assert.IsNotInstanceOf<CheckIdRequest>(request);
});
coordinator.Run();
}
public void BadRequestsGenerateValidErrorResponses()
{
var coordinator = new OpenIdCoordinator(
rp => {
var nonOpenIdMessage = new Mocks.TestDirectedMessage();
nonOpenIdMessage.Recipient = OPUri;
nonOpenIdMessage.HttpMethods = HttpDeliveryMethods.PostRequest;
MessagingTestBase.GetStandardTestMessage(MessagingTestBase.FieldFill.AllRequired, nonOpenIdMessage);
var response = rp.Channel.Request <DirectErrorResponse>(nonOpenIdMessage);
Assert.IsNotNull(response.ErrorMessage);
Assert.AreEqual(Protocol.Default.Version, response.Version);
},
AutoProvider);
coordinator.Run();
}
public void BadRequestsGenerateValidErrorResponses()
{
var coordinator = new OpenIdCoordinator(
rp => {
var nonOpenIdMessage = new Mocks.TestDirectedMessage();
nonOpenIdMessage.Recipient = OPUri;
nonOpenIdMessage.HttpMethods = HttpDeliveryMethods.PostRequest;
MessagingTestBase.GetStandardTestMessage(MessagingTestBase.FieldFill.AllRequired, nonOpenIdMessage);
var response = rp.Channel.Request<DirectErrorResponse>(nonOpenIdMessage);
Assert.IsNotNull(response.ErrorMessage);
Assert.AreEqual(Protocol.Default.Version, response.Version);
},
AutoProvider);
coordinator.Run();
}
public void UnsolicitedAssertion() {
this.MockResponder.RegisterMockRPDiscovery();
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
rp.Channel.WebRequestHandler = this.MockResponder.MockWebRequestHandler;
IAuthenticationResponse response = rp.GetResponse();
Assert.AreEqual(AuthenticationStatus.Authenticated, response.Status);
},
op => {
op.Channel.WebRequestHandler = this.MockResponder.MockWebRequestHandler;
Identifier id = GetMockIdentifier(ProtocolVersion.V20);
op.SendUnsolicitedAssertion(OPUri, RPRealmUri, id, OPLocalIdentifiers[0]);
AutoProvider(op); // handle check_auth
});
coordinator.Run();
}
/// <summary>
/// Simulates an extension request and response.
/// </summary>
/// <param name="protocol">The protocol to use in the roundtripping.</param>
/// <param name="requests">The extensions to add to the request message.</param>
/// <param name="responses">The extensions to add to the response message.</param>
/// <remarks>
/// This method relies on the extension objects' Equals methods to verify
/// accurate transport. The Equals methods should be verified by separate tests.
/// </remarks>
internal static void Roundtrip(
Protocol protocol,
IEnumerable<IOpenIdMessageExtension> requests,
IEnumerable<IOpenIdMessageExtension> responses) {
var securitySettings = new ProviderSecuritySettings();
var cryptoKeyStore = new MemoryCryptoKeyStore();
var associationStore = new ProviderAssociationHandleEncoder(cryptoKeyStore);
Association association = HmacShaAssociationProvider.Create(protocol, protocol.Args.SignatureAlgorithm.Best, AssociationRelyingPartyType.Smart, associationStore, securitySettings);
var coordinator = new OpenIdCoordinator(
rp => {
RegisterExtension(rp.Channel, Mocks.MockOpenIdExtension.Factory);
var requestBase = new CheckIdRequest(protocol.Version, OpenIdTestBase.OPUri, AuthenticationRequestMode.Immediate);
OpenIdTestBase.StoreAssociation(rp, OpenIdTestBase.OPUri, association);
requestBase.AssociationHandle = association.Handle;
requestBase.ClaimedIdentifier = "http://claimedid";
requestBase.LocalIdentifier = "http://localid";
requestBase.ReturnTo = OpenIdTestBase.RPUri;
foreach (IOpenIdMessageExtension extension in requests) {
requestBase.Extensions.Add(extension);
}
rp.Channel.Respond(requestBase);
var response = rp.Channel.ReadFromRequest<PositiveAssertionResponse>();
var receivedResponses = response.Extensions.Cast<IOpenIdMessageExtension>();
CollectionAssert<IOpenIdMessageExtension>.AreEquivalentByEquality(responses.ToArray(), receivedResponses.ToArray());
},
op => {
RegisterExtension(op.Channel, Mocks.MockOpenIdExtension.Factory);
var key = cryptoKeyStore.GetCurrentKey(ProviderAssociationHandleEncoder.AssociationHandleEncodingSecretBucket, TimeSpan.FromSeconds(1));
op.CryptoKeyStore.StoreKey(ProviderAssociationHandleEncoder.AssociationHandleEncodingSecretBucket, key.Key, key.Value);
var request = op.Channel.ReadFromRequest<CheckIdRequest>();
var response = new PositiveAssertionResponse(request);
var receivedRequests = request.Extensions.Cast<IOpenIdMessageExtension>();
CollectionAssert<IOpenIdMessageExtension>.AreEquivalentByEquality(requests.ToArray(), receivedRequests.ToArray());
foreach (var extensionResponse in responses) {
response.Extensions.Add(extensionResponse);
}
op.Channel.Respond(response);
});
coordinator.Run();
}
public void AssociateDiffieHellmanOverHttps() {
Protocol protocol = Protocol.V20;
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
// We have to formulate the associate request manually,
// since the DNOI RP won't voluntarily use DH on HTTPS.
AssociateDiffieHellmanRequest request = new AssociateDiffieHellmanRequest(protocol.Version, new Uri("https://Provider"));
request.AssociationType = protocol.Args.SignatureAlgorithm.HMAC_SHA256;
request.SessionType = protocol.Args.SessionType.DH_SHA256;
request.InitializeRequest();
var response = rp.Channel.Request<AssociateSuccessfulResponse>(request);
Assert.IsNotNull(response);
Assert.AreEqual(request.AssociationType, response.AssociationType);
Assert.AreEqual(request.SessionType, response.SessionType);
},
AutoProvider);
coordinator.Run();
}
public void GetRequest()
{
var httpInfo = new HttpRequestInfo("GET", new Uri("http://someUri"));
Assert.IsNull(this.provider.GetRequest(httpInfo), "An irrelevant request should return null.");
var providerDescription = new ProviderEndpointDescription(OPUri, Protocol.Default.Version);
// Test some non-empty request scenario.
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
rp.Channel.Request(AssociateRequestRelyingParty.Create(rp.SecuritySettings, providerDescription));
},
op => {
IRequest request = op.GetRequest();
Assert.IsInstanceOf <AutoResponsiveRequest>(request);
op.Respond(request);
});
coordinator.Run();
}
public void AssertionWithEndpointFilter()
{
var coordinator = new OpenIdCoordinator(
rp => {
// register with RP so that id discovery passes
rp.Channel.WebRequestHandler = this.MockResponder.MockWebRequestHandler;
// Rig it to always deny the incoming OP
rp.EndpointFilter = op => false;
// Receive the unsolicited assertion
var response = rp.GetResponse();
Assert.AreEqual(AuthenticationStatus.Failed, response.Status);
},
op => {
Identifier id = GetMockIdentifier(ProtocolVersion.V20);
op.SendUnsolicitedAssertion(OPUri, GetMockRealm(false), id, id);
AutoProvider(op);
});
coordinator.Run();
}
public void ExtensionOnlyFacadeLevel() {
Protocol protocol = Protocol.V20;
var coordinator = new OpenIdCoordinator(
rp => {
var request = rp.CreateRequest(GetMockIdentifier(protocol.ProtocolVersion), RPRealmUri, RPUri);
request.IsExtensionOnly = true;
rp.Channel.Respond(request.RedirectingResponse.OriginalMessage);
IAuthenticationResponse response = rp.GetResponse();
Assert.AreEqual(AuthenticationStatus.ExtensionsOnly, response.Status);
},
op => {
var assocRequest = op.GetRequest();
op.Respond(assocRequest);
var request = (IAnonymousRequest)op.GetRequest();
request.IsApproved = true;
Assert.IsNotInstanceOf<CheckIdRequest>(request);
op.Respond(request);
});
coordinator.Run();
}
public void AssertionWithEndpointFilter()
{
var coordinator = new OpenIdCoordinator(
rp => {
// register with RP so that id discovery passes
rp.Channel.WebRequestHandler = this.MockResponder.MockWebRequestHandler;
// Rig it to always deny the incoming OP
rp.EndpointFilter = op => false;
// Receive the unsolicited assertion
var response = rp.GetResponse();
Assert.AreEqual(AuthenticationStatus.Failed, response.Status);
},
op => {
Identifier id = GetMockIdentifier(ProtocolVersion.V20);
op.SendUnsolicitedAssertion(OPUri, GetMockRealm(false), id, id);
AutoProvider(op);
});
coordinator.Run();
}
public void CreateRequestMessage()
{
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
Identifier id = this.GetMockIdentifier(ProtocolVersion.V20);
IAuthenticationRequest authRequest = rp.CreateRequest(id, this.realm, this.returnTo);
// Add some callback arguments
authRequest.AddCallbackArguments("a", "b");
authRequest.AddCallbackArguments(new Dictionary <string, string> {
{ "c", "d" }, { "e", "f" }
});
// Assembly an extension request.
ClaimsRequest sregRequest = new ClaimsRequest();
sregRequest.Nickname = DemandLevel.Request;
authRequest.AddExtension(sregRequest);
// Construct the actual authentication request message.
var authRequestAccessor = AuthenticationRequest_Accessor.AttachShadow(authRequest);
var req = authRequestAccessor.CreateRequestMessage();
Assert.IsNotNull(req);
// Verify that callback arguments were included.
NameValueCollection callbackArguments = HttpUtility.ParseQueryString(req.ReturnTo.Query);
Assert.AreEqual("b", callbackArguments["a"]);
Assert.AreEqual("d", callbackArguments["c"]);
Assert.AreEqual("f", callbackArguments["e"]);
// Verify that extensions were included.
Assert.AreEqual(1, req.Extensions.Count);
Assert.IsTrue(req.Extensions.Contains(sregRequest));
},
AutoProvider);
coordinator.Run();
}
public void ExtensionsAreIdentifiedAsSignedOrUnsigned()
{
Protocol protocol = Protocol.Default;
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
RegisterMockExtension(rp.Channel);
var response = rp.Channel.ReadFromRequest <IndirectSignedResponse>();
Assert.AreEqual(1, response.SignedExtensions.Count(), "Signed extension should have been received.");
Assert.AreEqual(0, response.UnsignedExtensions.Count(), "No unsigned extension should be present.");
response = rp.Channel.ReadFromRequest <IndirectSignedResponse>();
Assert.AreEqual(0, response.SignedExtensions.Count(), "No signed extension should have been received.");
Assert.AreEqual(1, response.UnsignedExtensions.Count(), "Unsigned extension should have been received.");
},
op => {
RegisterMockExtension(op.Channel);
op.Channel.Respond(CreateResponseWithExtensions(protocol));
op.Respond(op.GetRequest()); // check_auth
op.SecuritySettings.SignOutgoingExtensions = false;
op.Channel.Respond(CreateResponseWithExtensions(protocol));
op.Respond(op.GetRequest()); // check_auth
});
coordinator.Run();
}
public void AssociateRenegotiateBitLength() {
Protocol protocol = Protocol.V20;
// The strategy is to make a simple request of the RP to establish an association,
// and to more carefully observe the Provider-side of things to make sure that both
// the OP and RP are behaving as expected.
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
var opDescription = new ProviderEndpointDescription(OPUri, protocol.Version);
Association association = rp.AssociationManager.GetOrCreateAssociation(opDescription);
Assert.IsNotNull(association, "Association failed to be created.");
Assert.AreEqual(protocol.Args.SignatureAlgorithm.HMAC_SHA1, association.GetAssociationType(protocol));
},
op => {
op.SecuritySettings.MaximumHashBitLength = 160; // Force OP to reject HMAC-SHA256
// Receive initial request for an HMAC-SHA256 association.
AutoResponsiveRequest req = (AutoResponsiveRequest)op.GetRequest();
AssociateRequest associateRequest = (AssociateRequest)req.RequestMessage;
Assert.AreEqual(protocol.Args.SignatureAlgorithm.HMAC_SHA256, associateRequest.AssociationType);
// Ensure that the response is a suggestion that the RP try again with HMAC-SHA1
AssociateUnsuccessfulResponse renegotiateResponse = (AssociateUnsuccessfulResponse)req.ResponseMessageTestHook;
Assert.AreEqual(protocol.Args.SignatureAlgorithm.HMAC_SHA1, renegotiateResponse.AssociationType);
op.Respond(req);
// Receive second attempt request for an HMAC-SHA1 association.
req = (AutoResponsiveRequest)op.GetRequest();
associateRequest = (AssociateRequest)req.RequestMessage;
Assert.AreEqual(protocol.Args.SignatureAlgorithm.HMAC_SHA1, associateRequest.AssociationType);
// Ensure that the response is a success response.
AssociateSuccessfulResponse successResponse = (AssociateSuccessfulResponse)req.ResponseMessageTestHook;
Assert.AreEqual(protocol.Args.SignatureAlgorithm.HMAC_SHA1, successResponse.AssociationType);
op.Respond(req);
});
coordinator.Run();
}
/// <summary>
/// Runs a parameterized association flow test.
/// </summary>
/// <param name="opDescription">
/// The description of the Provider that the relying party uses to formulate the request.
/// The specific host is not used, but the scheme is significant.
/// </param>
/// <param name="expectedAssociationType">
/// The value of the openid.assoc_type parameter expected,
/// or null if a failure is anticipated.
/// </param>
private void ParameterizedAssociationTest(
ProviderEndpointDescription opDescription,
string expectedAssociationType) {
Protocol protocol = Protocol.Lookup(Protocol.Lookup(opDescription.Version).ProtocolVersion);
bool expectSuccess = expectedAssociationType != null;
bool expectDiffieHellman = !opDescription.Uri.IsTransportSecure();
Association rpAssociation = null, opAssociation;
AssociateSuccessfulResponse associateSuccessfulResponse = null;
AssociateUnsuccessfulResponse associateUnsuccessfulResponse = null;
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
rp.SecuritySettings = this.RelyingPartySecuritySettings;
rpAssociation = rp.AssociationManager.GetOrCreateAssociation(opDescription);
},
op => {
op.SecuritySettings = this.ProviderSecuritySettings;
IRequest req = op.GetRequest();
Assert.IsNotNull(req, "Expected incoming request but did not receive it.");
Assert.IsTrue(req.IsResponseReady);
op.Respond(req);
});
coordinator.IncomingMessageFilter = message => {
Assert.AreSame(opDescription.Version, message.Version, "The message was recognized as version {0} but was expected to be {1}.", message.Version, Protocol.Lookup(opDescription.Version).ProtocolVersion);
var associateSuccess = message as AssociateSuccessfulResponse;
var associateFailed = message as AssociateUnsuccessfulResponse;
if (associateSuccess != null) {
associateSuccessfulResponse = associateSuccess;
}
if (associateFailed != null) {
associateUnsuccessfulResponse = associateFailed;
}
};
coordinator.OutgoingMessageFilter = message => {
Assert.AreEqual(opDescription.Version, message.Version, "The message was for version {0} but was expected to be for {1}.", message.Version, opDescription.Version);
};
coordinator.Run();
if (expectSuccess) {
Assert.IsNotNull(rpAssociation);
Association actual = coordinator.RelyingParty.AssociationManager.AssociationStoreTestHook.GetAssociation(opDescription.Uri, rpAssociation.Handle);
Assert.AreEqual(rpAssociation, actual);
opAssociation = coordinator.Provider.AssociationStore.Deserialize(new TestSignedDirectedMessage(), false, rpAssociation.Handle);
Assert.IsNotNull(opAssociation, "The Provider could not decode the association handle.");
Assert.AreEqual(opAssociation.Handle, rpAssociation.Handle);
Assert.AreEqual(expectedAssociationType, rpAssociation.GetAssociationType(protocol));
Assert.AreEqual(expectedAssociationType, opAssociation.GetAssociationType(protocol));
Assert.IsTrue(Math.Abs(opAssociation.SecondsTillExpiration - rpAssociation.SecondsTillExpiration) < 60);
Assert.IsTrue(MessagingUtilities.AreEquivalent(opAssociation.SecretKey, rpAssociation.SecretKey));
if (expectDiffieHellman) {
Assert.IsInstanceOf<AssociateDiffieHellmanResponse>(associateSuccessfulResponse);
var diffieHellmanResponse = (AssociateDiffieHellmanResponse)associateSuccessfulResponse;
Assert.IsFalse(MessagingUtilities.AreEquivalent(diffieHellmanResponse.EncodedMacKey, rpAssociation.SecretKey), "Key should have been encrypted.");
} else {
Assert.IsInstanceOf<AssociateUnencryptedResponse>(associateSuccessfulResponse);
var unencryptedResponse = (AssociateUnencryptedResponse)associateSuccessfulResponse;
}
} else {
Assert.IsNull(coordinator.RelyingParty.AssociationManager.AssociationStoreTestHook.GetAssociation(opDescription.Uri, new RelyingPartySecuritySettings()));
}
}
public void AssociateRenegotiateLimitedByRPSecuritySettings() {
Protocol protocol = Protocol.V20;
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
rp.SecuritySettings.MinimumHashBitLength = 256;
var association = rp.AssociationManager.GetOrCreateAssociation(new ProviderEndpointDescription(OPUri, protocol.Version));
Assert.IsNull(association, "No association should have been created when RP and OP could not agree on association strength.");
},
op => {
op.SecuritySettings.MaximumHashBitLength = 160;
AutoProvider(op);
});
coordinator.Run();
}
public void RPOnlyRenegotiatesOnce() {
Protocol protocol = Protocol.V20;
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
var association = rp.AssociationManager.GetOrCreateAssociation(new ProviderEndpointDescription(OPUri, protocol.Version));
Assert.IsNull(association, "The RP should quietly give up when the OP misbehaves.");
},
op => {
// Receive initial request.
var request = op.Channel.ReadFromRequest<AssociateRequest>();
// Send a renegotiate response
AssociateUnsuccessfulResponse renegotiateResponse = new AssociateUnsuccessfulResponse(request.Version, request);
renegotiateResponse.AssociationType = protocol.Args.SignatureAlgorithm.HMAC_SHA1;
renegotiateResponse.SessionType = protocol.Args.SessionType.DH_SHA1;
op.Channel.Respond(renegotiateResponse);
// Receive second-try
request = op.Channel.ReadFromRequest<AssociateRequest>();
// Send ANOTHER renegotiate response, at which point the DNOI RP should give up.
renegotiateResponse = new AssociateUnsuccessfulResponse(request.Version, request);
renegotiateResponse.AssociationType = protocol.Args.SignatureAlgorithm.HMAC_SHA256;
renegotiateResponse.SessionType = protocol.Args.SessionType.DH_SHA256;
op.Channel.Respond(renegotiateResponse);
});
coordinator.Run();
}
public void RPRejectsMismatchingAssociationAndSessionBitLengths() {
Protocol protocol = Protocol.V20;
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
var association = rp.AssociationManager.GetOrCreateAssociation(new ProviderEndpointDescription(OPUri, protocol.Version));
Assert.IsNull(association, "The RP should quietly give up when the OP misbehaves.");
},
op => {
// Receive initial request.
var request = op.Channel.ReadFromRequest<AssociateRequest>();
// Send a mismatched response
AssociateUnsuccessfulResponse renegotiateResponse = new AssociateUnsuccessfulResponse(request.Version, request);
renegotiateResponse.AssociationType = protocol.Args.SignatureAlgorithm.HMAC_SHA1;
renegotiateResponse.SessionType = protocol.Args.SessionType.DH_SHA256;
op.Channel.Respond(renegotiateResponse);
});
coordinator.Run();
}
public void RPRejectsUnrecognizedAssociationType() {
Protocol protocol = Protocol.V20;
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
var association = rp.AssociationManager.GetOrCreateAssociation(new ProviderEndpointDescription(OPUri, protocol.Version));
Assert.IsNull(association, "The RP should quietly give up when the OP misbehaves.");
},
op => {
// Receive initial request.
var request = op.Channel.ReadFromRequest<AssociateRequest>();
// Send a response that suggests a foreign association type.
AssociateUnsuccessfulResponse renegotiateResponse = new AssociateUnsuccessfulResponse(request.Version, request);
renegotiateResponse.AssociationType = "HMAC-UNKNOWN";
renegotiateResponse.SessionType = "DH-UNKNOWN";
op.Channel.Respond(renegotiateResponse);
});
coordinator.Run();
}
public void OPRejectsHttpNoEncryptionAssociateRequests() {
Protocol protocol = Protocol.V20;
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
// We have to formulate the associate request manually,
// since the DNOI RP won't voluntarily suggest no encryption at all.
var request = new AssociateUnencryptedRequestNoSslCheck(protocol.Version, OPUri);
request.AssociationType = protocol.Args.SignatureAlgorithm.HMAC_SHA256;
request.SessionType = protocol.Args.SessionType.NoEncryption;
var response = rp.Channel.Request<DirectErrorResponse>(request);
Assert.IsNotNull(response);
},
AutoProvider);
coordinator.Run();
}
public void CreateRequestMessage()
{
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
Identifier id = this.GetMockIdentifier(ProtocolVersion.V20);
IAuthenticationRequest authRequest = rp.CreateRequest(id, this.realm, this.returnTo);
// Add some callback arguments
authRequest.AddCallbackArguments("a", "b");
authRequest.AddCallbackArguments(new Dictionary<string, string> { { "c", "d" }, { "e", "f" } });
// Assembly an extension request.
ClaimsRequest sregRequest = new ClaimsRequest();
sregRequest.Nickname = DemandLevel.Request;
authRequest.AddExtension(sregRequest);
// Construct the actual authentication request message.
var authRequestAccessor = AuthenticationRequest_Accessor.AttachShadow(authRequest);
var req = authRequestAccessor.CreateRequestMessage();
Assert.IsNotNull(req);
// Verify that callback arguments were included.
NameValueCollection callbackArguments = HttpUtility.ParseQueryString(req.ReturnTo.Query);
Assert.AreEqual("b", callbackArguments["a"]);
Assert.AreEqual("d", callbackArguments["c"]);
Assert.AreEqual("f", callbackArguments["e"]);
// Verify that extensions were included.
Assert.AreEqual(1, req.Extensions.Count);
Assert.IsTrue(req.Extensions.Contains(sregRequest));
},
AutoProvider);
coordinator.Run();
}
public void ExtensionsAreIdentifiedAsSignedOrUnsigned()
{
Protocol protocol = Protocol.Default;
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
RegisterMockExtension(rp.Channel);
var response = rp.Channel.ReadFromRequest<IndirectSignedResponse>();
Assert.AreEqual(1, response.SignedExtensions.Count(), "Signed extension should have been received.");
Assert.AreEqual(0, response.UnsignedExtensions.Count(), "No unsigned extension should be present.");
response = rp.Channel.ReadFromRequest<IndirectSignedResponse>();
Assert.AreEqual(0, response.SignedExtensions.Count(), "No signed extension should have been received.");
Assert.AreEqual(1, response.UnsignedExtensions.Count(), "Unsigned extension should have been received.");
},
op => {
RegisterMockExtension(op.Channel);
op.Channel.Send(CreateResponseWithExtensions(protocol));
op.SendResponse(op.GetRequest()); // check_auth
op.SecuritySettings.SignOutgoingExtensions = false;
op.Channel.Send(CreateResponseWithExtensions(protocol));
op.SendResponse(op.GetRequest()); // check_auth
});
coordinator.Run();
}
public void GetRequest() {
HttpRequestInfo httpInfo = new HttpRequestInfo();
httpInfo.UrlBeforeRewriting = new Uri("http://someUri");
Assert.IsNull(this.provider.GetRequest(httpInfo), "An irrelevant request should return null.");
var providerDescription = new ProviderEndpointDescription(OpenIdTestBase.OPUri, Protocol.Default.Version);
// Test some non-empty request scenario.
OpenIdCoordinator coordinator = new OpenIdCoordinator(
rp => {
rp.Channel.Request(AssociateRequestRelyingParty.Create(rp.SecuritySettings, providerDescription));
},
op => {
IRequest request = op.GetRequest();
Assert.IsInstanceOf<AutoResponsiveRequest>(request);
op.Respond(request);
});
coordinator.Run();
}
private void ParameterizedAuthenticationTest(Protocol protocol, bool statelessRP, bool sharedAssociation, bool positive, bool immediate, bool tamper) {
Contract.Requires<ArgumentException>(!statelessRP || !sharedAssociation, "The RP cannot be stateless while sharing an association with the OP.");
Contract.Requires<ArgumentException>(positive || !tamper, "Cannot tamper with a negative response.");
var securitySettings = new ProviderSecuritySettings();
var cryptoKeyStore = new MemoryCryptoKeyStore();
var associationStore = new ProviderAssociationHandleEncoder(cryptoKeyStore);
Association association = sharedAssociation ? HmacShaAssociation.Create(protocol, protocol.Args.SignatureAlgorithm.Best, AssociationRelyingPartyType.Smart, associationStore, securitySettings) : null;
var coordinator = new OpenIdCoordinator(
rp => {
var request = new CheckIdRequest(protocol.Version, OPUri, immediate ? AuthenticationRequestMode.Immediate : AuthenticationRequestMode.Setup);
if (association != null) {
StoreAssociation(rp, OPUri, association);
request.AssociationHandle = association.Handle;
}
request.ClaimedIdentifier = "http://claimedid";
request.LocalIdentifier = "http://localid";
request.ReturnTo = RPUri;
request.Realm = RPUri;
rp.Channel.Respond(request);
if (positive) {
if (tamper) {
try {
rp.Channel.ReadFromRequest<PositiveAssertionResponse>();
Assert.Fail("Expected exception {0} not thrown.", typeof(InvalidSignatureException).Name);
} catch (InvalidSignatureException) {
TestLogger.InfoFormat("Caught expected {0} exception after tampering with signed data.", typeof(InvalidSignatureException).Name);
}
} else {
var response = rp.Channel.ReadFromRequest<PositiveAssertionResponse>();
Assert.IsNotNull(response);
Assert.AreEqual(request.ClaimedIdentifier, response.ClaimedIdentifier);
Assert.AreEqual(request.LocalIdentifier, response.LocalIdentifier);
Assert.AreEqual(request.ReturnTo, response.ReturnTo);
// Attempt to replay the message and verify that it fails.
// Because in various scenarios and protocol versions different components
// notice the replay, we can get one of two exceptions thrown.
// When the OP notices the replay we get a generic InvalidSignatureException.
// When the RP notices the replay we get a specific ReplayMessageException.
try {
CoordinatingChannel channel = (CoordinatingChannel)rp.Channel;
channel.Replay(response);
Assert.Fail("Expected ProtocolException was not thrown.");
} catch (ProtocolException ex) {
Assert.IsTrue(ex is ReplayedMessageException || ex is InvalidSignatureException, "A {0} exception was thrown instead of the expected {1} or {2}.", ex.GetType(), typeof(ReplayedMessageException).Name, typeof(InvalidSignatureException).Name);
}
}
} else {
var response = rp.Channel.ReadFromRequest<NegativeAssertionResponse>();
Assert.IsNotNull(response);
if (immediate) {
// Only 1.1 was required to include user_setup_url
if (protocol.Version.Major < 2) {
Assert.IsNotNull(response.UserSetupUrl);
}
} else {
Assert.IsNull(response.UserSetupUrl);
}
}
},
op => {
if (association != null) {
var key = cryptoKeyStore.GetCurrentKey(ProviderAssociationHandleEncoder.AssociationHandleEncodingSecretBucket, TimeSpan.FromSeconds(1));
op.CryptoKeyStore.StoreKey(ProviderAssociationHandleEncoder.AssociationHandleEncodingSecretBucket, key.Key, key.Value);
}
var request = op.Channel.ReadFromRequest<CheckIdRequest>();
Assert.IsNotNull(request);
IProtocolMessage response;
if (positive) {
response = new PositiveAssertionResponse(request);
} else {
response = new NegativeAssertionResponse(request, op.Channel);
}
op.Channel.Respond(response);
if (positive && (statelessRP || !sharedAssociation)) {
var checkauthRequest = op.Channel.ReadFromRequest<CheckAuthenticationRequest>();
var checkauthResponse = new CheckAuthenticationResponse(checkauthRequest.Version, checkauthRequest);
checkauthResponse.IsValid = checkauthRequest.IsValid;
op.Channel.Respond(checkauthResponse);
if (!tamper) {
// Respond to the replay attack.
checkauthRequest = op.Channel.ReadFromRequest<CheckAuthenticationRequest>();
checkauthResponse = new CheckAuthenticationResponse(checkauthRequest.Version, checkauthRequest);
checkauthResponse.IsValid = checkauthRequest.IsValid;
op.Channel.Respond(checkauthResponse);
}
}
});
if (tamper) {
coordinator.IncomingMessageFilter = message => {
var assertion = message as PositiveAssertionResponse;
if (assertion != null) {
// Alter the Local Identifier between the Provider and the Relying Party.
// If the signature binding element does its job, this should cause the RP
// to throw.
assertion.LocalIdentifier = "http://victim";
}
};
}
if (statelessRP) {
coordinator.RelyingParty = new OpenIdRelyingParty(null);
}
coordinator.Run();
}
