private void Smb2KerberosAuthentication(CaseVariant variant)
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Initialize Kerberos Functional Client");
KerberosFunctionalClient kerberosClient = new KerberosFunctionalClient(
TestConfig.DomainName,
TestConfig.UserName,
TestConfig.UserPassword,
KerberosAccountType.User,
KDCIP,
KDCPort,
TransportType.TCP,
OidPkt,
BaseTestSite);
#region Service Ticket
EncryptionKey serviceKey;
EncTicketPart encTicketPart = RetrieveAndDecryptServiceTicket(kerberosClient, out serviceKey);
Ticket serviceTicket = kerberosClient.Context.Ticket.Ticket;
Realm crealm = serviceTicket.realm;
BaseTestSite.Assert.AreEqual(TestConfig.DomainName.ToLower(),
encTicketPart.crealm.Value.ToLower(),
"Realm name in service ticket encrypted part should match as expected, case insensitive");
BaseTestSite.Assert.AreEqual(TestConfig.UserName.ToLower(),
KerberosUtility.PrincipalName2String(encTicketPart.cname).ToLower(),
"User name in service ticket encrypted part should match as expected, case insensitive.");
if (variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_TKT))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Add a type-unknown AuthorizationData to the ticket");
AuthorizationDataElement unknownElement = GenerateUnKnownAuthorizationDataElement();
AppendNewAuthDataElement(encTicketPart.authorization_data, unknownElement);
}
if (variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_TKT_OPTIONAL))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Add a type-unknown AuthorizationData which is inside AD_IF_RELEVANT to the ticket");
AuthorizationDataElement unknownElement = GenerateUnKnownAuthorizationDataElement();
AD_IF_RELEVANT ifRelavantElement =
new AD_IF_RELEVANT(new[] { unknownElement });
var dataBuffer = new Asn1BerEncodingBuffer();
ifRelavantElement.BerEncode(dataBuffer);
AuthorizationDataElement unknownElementOptional =
new AuthorizationDataElement(new KerbInt32((long)AuthorizationData_elementType.AD_IF_RELEVANT), new Asn1OctetString(dataBuffer.Data));
AppendNewAuthDataElement(encTicketPart.authorization_data, unknownElementOptional);
}
if (variant.HasFlag(CaseVariant.TICKET_NOT_VALID))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Change the Ticket start time to tomorrow");
DateTime tomorrow = DateTime.Now.AddDays(1);
string kerbTimeString = tomorrow.ToUniversalTime().ToString("yyyyMMddhhmmssZ");
encTicketPart.starttime = new KerberosTime(kerbTimeString, true);
}
if (variant.HasFlag(CaseVariant.TICKET_EXPIRED))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Change the Ticket end time to yesterday");
DateTime yesterday = DateTime.Now.AddDays(-1);
string kerbTimeString = yesterday.ToUniversalTime().ToString("yyyyMMddhhmmssZ");
encTicketPart.endtime = new KerberosTime(kerbTimeString, true);
}
if (variant.HasFlag(CaseVariant.TICKET_WRONG_ENC_KEY))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Modify the Ticket, making it encrypted with wrong key");
serviceKey = KerberosUtility.GenerateKey(serviceKey);
}
EncryptedData data = EncryptTicket(encTicketPart, serviceKey);
serviceTicket.enc_part = data;
if (variant.HasFlag(CaseVariant.TICKET_WRONG_REALM))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Change the Realm in the Ticket to an unknown realm");
serviceTicket.realm = new Realm("kerb.com");
}
if (variant.HasFlag(CaseVariant.TICKET_WRONG_SNAME))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Change the SNAME in the Ticket to an unknown service name");
serviceTicket.sname = new PrincipalName(new KerbInt32((long)PrincipalType.NT_SRV_INST),
KerberosUtility.String2SeqKerbString("UnknownService", TestConfig.DomainName));
}
if (variant.HasFlag(CaseVariant.TICKET_WRONG_KVNO))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep,
"Change the KVNO in the Ticket to an invalid Key Version Number (Int32.MaxValue)");
const int invalidKvno = System.Int32.MaxValue;
serviceTicket.enc_part.kvno = new KerbInt32(invalidKvno);
}
#endregion
#region Authenticator
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Create Authenticator");
EncryptionKey subkey = KerberosUtility.GenerateKey(kerberosClient.Context.SessionKey);
PrincipalName cname;
if (variant.HasFlag(CaseVariant.AUTHENTICATOR_CNAME_NOT_MATCH))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Use wrong cname in the Authenticator");
cname = new PrincipalName(new KerbInt32((long)PrincipalType.NT_PRINCIPAL),
KerberosUtility.String2SeqKerbString(TestConfig.NonAdminUserName, TestConfig.DomainName));
}
else
{
cname = kerberosClient.Context.CName.Name;
}
Authenticator authenticator = CreateAuthenticator(cname, crealm, subkey);
if (variant.HasFlag(CaseVariant.AUTHENTICATOR_CREALM_NOT_MATCH))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Use wrong crealm in the Authenticator");
authenticator.crealm = new Realm("kerb.com");
}
if (variant.HasFlag(CaseVariant.AUTHENTICATOR_EXCEED_TIME_SKEW))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Change the ctime in the Authenticator to one hour later");
DateTime oneHourLater = DateTime.Now.AddHours(1);
string kerbTimeString = oneHourLater.ToUniversalTime().ToString("yyyyMMddhhmmssZ");
authenticator.ctime = new KerberosTime(kerbTimeString, true);
}
if (variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_AUTHENTICATOR))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Add a type-unknown AuthorizationData to the Authenticator");
AuthorizationDataElement unknownElement = GenerateUnKnownAuthorizationDataElement();
authenticator.authorization_data = new AuthorizationData(new[] { unknownElement });
}
if (variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_AUTHENTICATOR_OPTIONAL))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep,
"Add a type-unknown AuthorizationData which is inside AD_IF_RELEVANT to the Authenticator");
AuthorizationDataElement unknownElement = GenerateUnKnownAuthorizationDataElement();
AD_IF_RELEVANT ifRelavantElement =
new AD_IF_RELEVANT(new[] { unknownElement });
var dataBuffer = new Asn1BerEncodingBuffer();
ifRelavantElement.BerEncode(dataBuffer);
AuthorizationDataElement unknownElementOptional =
new AuthorizationDataElement(new KerbInt32((long)AuthorizationData_elementType.AD_IF_RELEVANT), new Asn1OctetString(dataBuffer.Data));
authenticator.authorization_data = new AuthorizationData(new[] { unknownElementOptional });
}
#endregion
#region AP Request
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Create AP Request");
if (variant.HasFlag(CaseVariant.AUTHENTICATOR_WRONG_ENC_KEY))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Use wrong key to encrypt the Authenticator");
kerberosClient.Context.Ticket.SessionKey = KerberosUtility.GenerateKey(kerberosClient.Context.Ticket.SessionKey);
}
KerberosApRequest request = new KerberosApRequest(
kerberosClient.Context.Pvno,
new APOptions(KerberosUtility.ConvertInt2Flags((int)ApOptions.MutualRequired)),
kerberosClient.Context.Ticket,
authenticator,
KeyUsageNumber.AP_REQ_Authenticator
);
#endregion
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Create GSS Token");
byte[] token = KerberosUtility.AddGssApiTokenHeader(request, OidPkt, GssToken);
Smb2FunctionalClientForKerbAuth smb2Client = new Smb2FunctionalClientForKerbAuth(TestConfig.Timeout, TestConfig, BaseTestSite);
smb2Client.ConnectToServer(TestConfig.UnderlyingTransport, TestConfig.SutComputerName, TestConfig.SutIPAddress);
#region Check the result
byte[] repToken;
uint status = DoSessionSetupWithGssToken(smb2Client, token, out repToken);
if (variant.HasFlag(CaseVariant.AUTHENTICATOR_CNAME_NOT_MATCH) || variant.HasFlag(CaseVariant.AUTHENTICATOR_CREALM_NOT_MATCH))
{
BaseTestSite.Assert.AreNotEqual(Smb2Status.STATUS_SUCCESS, status,
"Session Setup should fail because the cname or crealm in the authenticator does not match the same field in the Ticket");
if (TestConfig.IsWindowsPlatform)
{
KerberosKrbError krbError = kerberosClient.GetKrbErrorFromToken(repToken);
BaseTestSite.Assert.AreEqual(KRB_ERROR_CODE.KRB_AP_ERR_BADMATCH, krbError.ErrorCode,
"SMB Server should return {0}", KRB_ERROR_CODE.KRB_AP_ERR_BADMATCH);
}
smb2Client.Disconnect();
return;
}
if (variant.HasFlag(CaseVariant.AUTHENTICATOR_WRONG_ENC_KEY) || variant.HasFlag(CaseVariant.TICKET_WRONG_ENC_KEY))
{
BaseTestSite.Assert.AreNotEqual(Smb2Status.STATUS_SUCCESS, status,
"Session Setup should fail because Ticket or Authenticator cannot be correctly decrypted");
if (TestConfig.IsWindowsPlatform)
{
KerberosKrbError krbError = kerberosClient.GetKrbErrorFromToken(repToken);
BaseTestSite.Assert.AreEqual(KRB_ERROR_CODE.KRB_AP_ERR_MODIFIED, krbError.ErrorCode,
"SMB Server should return {0}", KRB_ERROR_CODE.KRB_AP_ERR_MODIFIED);
}
smb2Client.Disconnect();
return;
}
if (variant.HasFlag(CaseVariant.AUTHENTICATOR_EXCEED_TIME_SKEW))
{
BaseTestSite.Assert.AreNotEqual(Smb2Status.STATUS_SUCCESS, status,
"Session Setup should fail because the server time and the client time " +
"in the Authenticator differ by (1 hour) more than the allowable clock skew");
if (TestConfig.IsWindowsPlatform)
{
KerberosKrbError krbError = kerberosClient.GetKrbErrorFromToken(repToken);
BaseTestSite.Assert.AreEqual(KRB_ERROR_CODE.KRB_AP_ERR_SKEW, krbError.ErrorCode,
"SMB Server should return {0}", KRB_ERROR_CODE.KRB_AP_ERR_SKEW);
}
smb2Client.Disconnect();
return;
}
if (variant.HasFlag(CaseVariant.TICKET_WRONG_KVNO) ||
variant.HasFlag(CaseVariant.TICKET_WRONG_REALM) ||
variant.HasFlag(CaseVariant.TICKET_WRONG_SNAME))
{
BaseTestSite.Log.Add(LogEntryKind.Comment, "If decryption fails, server would try other keys");
}
if (variant.HasFlag(CaseVariant.TICKET_NOT_VALID))
{
BaseTestSite.Assert.AreNotEqual(Smb2Status.STATUS_SUCCESS, status,
"Session Setup should fail because the starttime (tomorrow) in the Ticket " +
"is later than the current time by more than the allowable clock skew");
if (TestConfig.IsWindowsPlatform)
{
KerberosKrbError krbError = kerberosClient.GetKrbErrorFromToken(repToken);
BaseTestSite.Assert.AreEqual(KRB_ERROR_CODE.KRB_AP_ERR_TKT_NYV, krbError.ErrorCode,
"SMB Server should return {0}", KRB_ERROR_CODE.KRB_AP_ERR_TKT_NYV);
}
smb2Client.Disconnect();
return;
}
if (variant.HasFlag(CaseVariant.TICKET_EXPIRED))
{
BaseTestSite.Assert.AreNotEqual(Smb2Status.STATUS_SUCCESS, status,
"Session Setup should fail because the current time is later than the endtime (yesterday)" +
" in the Ticket by more than the allowable clock skew");
if (TestConfig.IsWindowsPlatform)
{
KerberosKrbError krbError = kerberosClient.GetKrbErrorFromToken(repToken);
BaseTestSite.Assert.AreEqual(KRB_ERROR_CODE.KRB_AP_ERR_TKT_EXPIRED, krbError.ErrorCode,
"SMB Server should return {0}", KRB_ERROR_CODE.KRB_AP_ERR_TKT_EXPIRED);
}
smb2Client.Disconnect();
return;
}
if (variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_TKT))
{
BaseTestSite.Assert.AreNotEqual(Smb2Status.STATUS_SUCCESS, status,
"Session Setup should fail because of the unknown AutherizationData in the ticket");
smb2Client.Disconnect();
return;
}
if (variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_AUTHENTICATOR))
{
BaseTestSite.Log.Add(LogEntryKind.Comment,
"Unknown AuthorizationData in the Authenticator should not fail the request");
}
if (variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_TKT_OPTIONAL) ||
variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_AUTHENTICATOR_OPTIONAL))
{
BaseTestSite.Log.Add(LogEntryKind.Comment, "Unknown AuthorizationData in AD_IF_RELEVANT is optional. " +
"Server should not fail the request.");
}
KerberosApResponse apRep = kerberosClient.GetApResponseFromToken(repToken, GssToken);
// Get subkey from AP response, which used for signing in smb2
apRep.Decrypt(kerberosClient.Context.Ticket.SessionKey.keyvalue.ByteArrayValue);
smb2Client.SetSessionSigningAndEncryption(true, false, apRep.ApEncPart.subkey.keyvalue.ByteArrayValue);
string path = Smb2Utility.GetUncPath(TestConfig.SutComputerName, TestConfig.BasicFileShare);
AccessFile(smb2Client, path);
#endregion
smb2Client.LogOff();
smb2Client.Disconnect();
}
private void Smb2KerberosAuthentication(CaseVariant variant)
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Initialize Kerberos Functional Client");
KerberosFunctionalClient kerberosClient = new KerberosFunctionalClient(
TestConfig.DomainName,
TestConfig.UserName,
TestConfig.UserPassword,
KerberosAccountType.User,
KDCIP,
KDCPort,
TransportType.TCP,
OidPkt,
BaseTestSite);
#region Service Ticket
EncryptionKey serviceKey;
EncTicketPart encTicketPart = RetrieveAndDecryptServiceTicket(kerberosClient, out serviceKey);
Ticket serviceTicket = kerberosClient.Context.Ticket.Ticket;
Realm crealm = serviceTicket.realm;
BaseTestSite.Assert.AreEqual(TestConfig.DomainName.ToLower(),
encTicketPart.crealm.Value.ToLower(),
"Realm name in service ticket encrypted part should match as expected, case insensitive");
BaseTestSite.Assert.AreEqual(TestConfig.UserName.ToLower(),
KerberosUtility.PrincipalName2String(encTicketPart.cname).ToLower(),
"User name in service ticket encrypted part should match as expected, case insensitive.");
if (variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_TKT))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Add a type-unknown AuthorizationData to the ticket");
AuthorizationDataElement unknownElement = GenerateUnKnownAuthorizationDataElement();
AppendNewAuthDataElement(encTicketPart.authorization_data, unknownElement);
}
if (variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_TKT_OPTIONAL))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Add a type-unknown AuthorizationData which is inside AD_IF_RELEVANT to the ticket");
AuthorizationDataElement unknownElement = GenerateUnKnownAuthorizationDataElement();
AD_IF_RELEVANT ifRelavantElement =
new AD_IF_RELEVANT(new[] { unknownElement });
var dataBuffer = new Asn1BerEncodingBuffer();
ifRelavantElement.BerEncode(dataBuffer);
AuthorizationDataElement unknownElementOptional =
new AuthorizationDataElement(new KerbInt32((long)AuthorizationData_elementType.AD_IF_RELEVANT), new Asn1OctetString(dataBuffer.Data));
AppendNewAuthDataElement(encTicketPart.authorization_data, unknownElementOptional);
}
if (variant.HasFlag(CaseVariant.TICKET_NOT_VALID))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Change the Ticket start time to tomorrow");
DateTime tomorrow = DateTime.Now.AddDays(1);
string kerbTimeString = tomorrow.ToUniversalTime().ToString("yyyyMMddhhmmssZ");
encTicketPart.starttime = new KerberosTime(kerbTimeString, true);
}
if (variant.HasFlag(CaseVariant.TICKET_EXPIRED))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Change the Ticket end time to yesterday");
DateTime yesterday = DateTime.Now.AddDays(-1);
string kerbTimeString = yesterday.ToUniversalTime().ToString("yyyyMMddhhmmssZ");
encTicketPart.endtime = new KerberosTime(kerbTimeString, true);
}
if (variant.HasFlag(CaseVariant.TICKET_WRONG_ENC_KEY))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Modify the Ticket, making it encrypted with wrong key");
serviceKey = KerberosUtility.GenerateKey(serviceKey);
}
EncryptedData data = EncryptTicket(encTicketPart, serviceKey);
serviceTicket.enc_part = data;
if (variant.HasFlag(CaseVariant.TICKET_WRONG_REALM))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Change the Realm in the Ticket to an unknown realm");
serviceTicket.realm = new Realm("kerb.com");
}
if (variant.HasFlag(CaseVariant.TICKET_WRONG_SNAME))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Change the SNAME in the Ticket to an unknown service name");
serviceTicket.sname = new PrincipalName(new KerbInt32((long)PrincipalType.NT_SRV_INST),
KerberosUtility.String2SeqKerbString("UnknownService", TestConfig.DomainName));
}
if (variant.HasFlag(CaseVariant.TICKET_WRONG_KVNO))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep,
"Change the KVNO in the Ticket to an invalid Key Version Number (Int32.MaxValue)");
const int invalidKvno = System.Int32.MaxValue;
serviceTicket.enc_part.kvno = new KerbInt32(invalidKvno);
}
#endregion
#region Authenticator
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Create Authenticator");
EncryptionKey subkey = KerberosUtility.GenerateKey(kerberosClient.Context.SessionKey);
PrincipalName cname;
if (variant.HasFlag(CaseVariant.AUTHENTICATOR_CNAME_NOT_MATCH))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Use wrong cname in the Authenticator");
cname = new PrincipalName(new KerbInt32((long)PrincipalType.NT_PRINCIPAL),
KerberosUtility.String2SeqKerbString(TestConfig.NonAdminUserName, TestConfig.DomainName));
}
else
{
cname = kerberosClient.Context.CName.Name;
}
Authenticator authenticator = CreateAuthenticator(cname, crealm, subkey);
if (variant.HasFlag(CaseVariant.AUTHENTICATOR_CREALM_NOT_MATCH))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Use wrong crealm in the Authenticator");
authenticator.crealm = new Realm("kerb.com");
}
if (variant.HasFlag(CaseVariant.AUTHENTICATOR_EXCEED_TIME_SKEW))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Change the ctime in the Authenticator to one hour later");
DateTime oneHourLater = DateTime.Now.AddHours(1);
string kerbTimeString = oneHourLater.ToUniversalTime().ToString("yyyyMMddhhmmssZ");
authenticator.ctime = new KerberosTime(kerbTimeString, true);
}
if (variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_AUTHENTICATOR))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Add a type-unknown AuthorizationData to the Authenticator");
AuthorizationDataElement unknownElement = GenerateUnKnownAuthorizationDataElement();
authenticator.authorization_data = new AuthorizationData(new[] { unknownElement });
}
if (variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_AUTHENTICATOR_OPTIONAL))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep,
"Add a type-unknown AuthorizationData which is inside AD_IF_RELEVANT to the Authenticator");
AuthorizationDataElement unknownElement = GenerateUnKnownAuthorizationDataElement();
AD_IF_RELEVANT ifRelavantElement =
new AD_IF_RELEVANT(new[] { unknownElement });
var dataBuffer = new Asn1BerEncodingBuffer();
ifRelavantElement.BerEncode(dataBuffer);
AuthorizationDataElement unknownElementOptional =
new AuthorizationDataElement(new KerbInt32((long)AuthorizationData_elementType.AD_IF_RELEVANT), new Asn1OctetString(dataBuffer.Data));
authenticator.authorization_data = new AuthorizationData(new[] { unknownElementOptional });
}
#endregion
#region AP Request
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Create AP Request");
if (variant.HasFlag(CaseVariant.AUTHENTICATOR_WRONG_ENC_KEY))
{
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Use wrong key to encrypt the Authenticator");
kerberosClient.Context.Ticket.SessionKey = KerberosUtility.GenerateKey(kerberosClient.Context.Ticket.SessionKey);
}
KerberosApRequest request = new KerberosApRequest(
kerberosClient.Context.Pvno,
new APOptions(KerberosUtility.ConvertInt2Flags((int)ApOptions.MutualRequired)),
kerberosClient.Context.Ticket,
authenticator,
KeyUsageNumber.AP_REQ_Authenticator
);
#endregion
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Create GSS Token");
byte[] token = KerberosUtility.AddGssApiTokenHeader(request, OidPkt, GssToken);
Smb2FunctionalClientForKerbAuth smb2Client = new Smb2FunctionalClientForKerbAuth(TestConfig.Timeout, TestConfig, BaseTestSite);
smb2Client.ConnectToServer(TestConfig.UnderlyingTransport, TestConfig.SutComputerName, TestConfig.SutIPAddress);
#region Check the result
byte[] repToken;
uint status = DoSessionSetupWithGssToken(smb2Client, token, out repToken);
if (variant.HasFlag(CaseVariant.AUTHENTICATOR_CNAME_NOT_MATCH) || variant.HasFlag(CaseVariant.AUTHENTICATOR_CREALM_NOT_MATCH))
{
BaseTestSite.Assert.AreNotEqual(Smb2Status.STATUS_SUCCESS, status,
"Session Setup should fail because the cname or crealm in the authenticator does not match the same field in the Ticket");
if (TestConfig.IsWindowsPlatform)
{
KerberosKrbError krbError = kerberosClient.GetKrbErrorFromToken(repToken);
BaseTestSite.Assert.AreEqual(KRB_ERROR_CODE.KRB_AP_ERR_BADMATCH, krbError.ErrorCode,
"SMB Server should return {0}", KRB_ERROR_CODE.KRB_AP_ERR_BADMATCH);
}
smb2Client.Disconnect();
return;
}
if (variant.HasFlag(CaseVariant.AUTHENTICATOR_WRONG_ENC_KEY) || variant.HasFlag(CaseVariant.TICKET_WRONG_ENC_KEY))
{
BaseTestSite.Assert.AreNotEqual(Smb2Status.STATUS_SUCCESS, status,
"Session Setup should fail because Ticket or Authenticator cannot be correctly decrypted");
if (TestConfig.IsWindowsPlatform)
{
KerberosKrbError krbError = kerberosClient.GetKrbErrorFromToken(repToken);
BaseTestSite.Assert.AreEqual(KRB_ERROR_CODE.KRB_AP_ERR_MODIFIED, krbError.ErrorCode,
"SMB Server should return {0}", KRB_ERROR_CODE.KRB_AP_ERR_MODIFIED);
}
smb2Client.Disconnect();
return;
}
if (variant.HasFlag(CaseVariant.AUTHENTICATOR_EXCEED_TIME_SKEW))
{
BaseTestSite.Assert.AreNotEqual(Smb2Status.STATUS_SUCCESS, status,
"Session Setup should fail because the server time and the client time " +
"in the Authenticator differ by (1 hour) more than the allowable clock skew");
if (TestConfig.IsWindowsPlatform)
{
KerberosKrbError krbError = kerberosClient.GetKrbErrorFromToken(repToken);
BaseTestSite.Assert.AreEqual(KRB_ERROR_CODE.KRB_AP_ERR_SKEW, krbError.ErrorCode,
"SMB Server should return {0}", KRB_ERROR_CODE.KRB_AP_ERR_SKEW);
}
smb2Client.Disconnect();
return;
}
if (variant.HasFlag(CaseVariant.TICKET_WRONG_KVNO) ||
variant.HasFlag(CaseVariant.TICKET_WRONG_REALM) ||
variant.HasFlag(CaseVariant.TICKET_WRONG_SNAME))
{
BaseTestSite.Log.Add(LogEntryKind.Comment, "If decryption fails, server would try other keys");
}
if (variant.HasFlag(CaseVariant.TICKET_NOT_VALID))
{
BaseTestSite.Assert.AreNotEqual(Smb2Status.STATUS_SUCCESS, status,
"Session Setup should fail because the starttime (tomorrow) in the Ticket " +
"is later than the current time by more than the allowable clock skew");
if (TestConfig.IsWindowsPlatform)
{
KerberosKrbError krbError = kerberosClient.GetKrbErrorFromToken(repToken);
BaseTestSite.Assert.AreEqual(KRB_ERROR_CODE.KRB_AP_ERR_TKT_NYV, krbError.ErrorCode,
"SMB Server should return {0}", KRB_ERROR_CODE.KRB_AP_ERR_TKT_NYV);
}
smb2Client.Disconnect();
return;
}
if (variant.HasFlag(CaseVariant.TICKET_EXPIRED))
{
BaseTestSite.Assert.AreNotEqual(Smb2Status.STATUS_SUCCESS, status,
"Session Setup should fail because the current time is later than the endtime (yesterday)" +
" in the Ticket by more than the allowable clock skew");
if (TestConfig.IsWindowsPlatform)
{
KerberosKrbError krbError = kerberosClient.GetKrbErrorFromToken(repToken);
BaseTestSite.Assert.AreEqual(KRB_ERROR_CODE.KRB_AP_ERR_TKT_EXPIRED, krbError.ErrorCode,
"SMB Server should return {0}", KRB_ERROR_CODE.KRB_AP_ERR_TKT_EXPIRED);
}
smb2Client.Disconnect();
return;
}
if (variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_TKT))
{
BaseTestSite.Assert.AreNotEqual(Smb2Status.STATUS_SUCCESS, status,
"Session Setup should fail because of the unknown AutherizationData in the ticket");
smb2Client.Disconnect();
return;
}
if (variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_AUTHENTICATOR))
{
BaseTestSite.Log.Add(LogEntryKind.Comment,
"Unknown AuthorizationData in the Authenticator should not fail the request");
}
if (variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_TKT_OPTIONAL) ||
variant.HasFlag(CaseVariant.AUTHDATA_UNKNOWN_TYPE_IN_AUTHENTICATOR_OPTIONAL))
{
BaseTestSite.Log.Add(LogEntryKind.Comment, "Unknown AuthorizationData in AD_IF_RELEVANT is optional. " +
"Server should not fail the request.");
}
KerberosApResponse apRep = kerberosClient.GetApResponseFromToken(repToken, GssToken);
// Get subkey from AP response, which used for signing in smb2
apRep.Decrypt(kerberosClient.Context.Ticket.SessionKey.keyvalue.ByteArrayValue);
smb2Client.SetSessionSigningAndEncryption(true, false, apRep.ApEncPart.subkey.keyvalue.ByteArrayValue);
string path = Smb2Utility.GetUncPath(TestConfig.SutComputerName, TestConfig.BasicFileShare);
AccessFile(smb2Client, path);
#endregion
smb2Client.LogOff();
smb2Client.Disconnect();
}
public void KerbAuth_Replay()
{
#region Get Service Ticket
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Initialize Kerberos Functional Client");
KerberosFunctionalClient kerberosClient = new KerberosFunctionalClient(
TestConfig.DomainName,
TestConfig.UserName,
TestConfig.UserPassword,
KerberosAccountType.User,
KDCIP,
KDCPort,
TransportType.TCP,
OidPkt,
BaseTestSite);
//Create and send AS request
const KdcOptions options = KdcOptions.FORWARDABLE | KdcOptions.CANONICALIZE | KdcOptions.RENEWABLE;
kerberosClient.SendAsRequest(options, null);
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Kerberos Functional Client expects Kerberos Error from KDC");
//Receive preauthentication required error
METHOD_DATA methodData;
KerberosKrbError krbError = kerberosClient.ExpectPreauthRequiredError(out methodData);
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Kerberos Functional Client sends AS request with PA-DATA set");
//Create sequence of PA data
string timeStamp = KerberosUtility.CurrentKerberosTime.Value;
PaEncTimeStamp paEncTimeStamp = new PaEncTimeStamp(timeStamp,
0,
kerberosClient.Context.SelectedEType,
kerberosClient.Context.CName.Password,
kerberosClient.Context.CName.Salt);
PaPacRequest paPacRequest = new PaPacRequest(true);
Asn1SequenceOf <PA_DATA> seqOfPaData = new Asn1SequenceOf <PA_DATA>(new[] { paEncTimeStamp.Data, paPacRequest.Data });
//Create and send AS request
kerberosClient.SendAsRequest(options, seqOfPaData);
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Kerberos Functional Client expects AS response from KDC");
KerberosAsResponse asResponse = kerberosClient.ExpectAsResponse();
BaseTestSite.Assert.IsNotNull(asResponse.Response.ticket, "AS response should contain a TGT.");
//Create and send TGS request
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Kerberos Functional Client sends TGS request to KDC");
kerberosClient.SendTgsRequest(servicePrincipalName, options);
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Kerberos Functional Client expects TGS response from KDC");
KerberosTgsResponse tgsResponse = kerberosClient.ExpectTgsResponse();
BaseTestSite.Assert.AreEqual(servicePrincipalName,
KerberosUtility.PrincipalName2String(tgsResponse.Response.ticket.sname),
"Service principal name in service ticket should match expected.");
#endregion
#region Create AP request
Ticket serviceTicket = kerberosClient.Context.Ticket.Ticket;
Realm crealm = serviceTicket.realm;
EncryptionKey subkey = KerberosUtility.GenerateKey(kerberosClient.Context.SessionKey);
PrincipalName cname = kerberosClient.Context.CName.Name;
Authenticator authenticator = CreateAuthenticator(cname, crealm, subkey);
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Create AP Request");
KerberosApRequest request = new KerberosApRequest(
kerberosClient.Context.Pvno,
new APOptions(KerberosUtility.ConvertInt2Flags((int)ApOptions.MutualRequired)),
kerberosClient.Context.Ticket,
authenticator,
KeyUsageNumber.AP_REQ_Authenticator
);
#endregion
#region Create GSS token and send session setup request
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Create GSS Token");
byte[] token = KerberosUtility.AddGssApiTokenHeader(request, OidPkt, GssToken);
Smb2FunctionalClientForKerbAuth smb2Client = new Smb2FunctionalClientForKerbAuth(TestConfig.Timeout, TestConfig, BaseTestSite);
smb2Client.ConnectToServer(TestConfig.UnderlyingTransport, TestConfig.SutComputerName, TestConfig.SutIPAddress);
byte[] repToken;
uint status = DoSessionSetupWithGssToken(smb2Client, token, out repToken);
KerberosApResponse apRep = kerberosClient.GetApResponseFromToken(repToken, GssToken);
// Get subkey from AP response, which used for signing in smb2
apRep.Decrypt(kerberosClient.Context.Ticket.SessionKey.keyvalue.ByteArrayValue);
smb2Client.SetSessionSigningAndEncryption(true, false, apRep.ApEncPart.subkey.keyvalue.ByteArrayValue);
#endregion
#region Second client
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Replay the request from another client");
Smb2FunctionalClientForKerbAuth smb2Client2 = new Smb2FunctionalClientForKerbAuth(TestConfig.Timeout, TestConfig, BaseTestSite);
smb2Client2.ConnectToServer(TestConfig.UnderlyingTransport, TestConfig.SutComputerName, TestConfig.SutIPAddress);
status = DoSessionSetupWithGssToken(smb2Client2, token, out repToken);
BaseTestSite.Assert.AreNotEqual(Smb2Status.STATUS_SUCCESS, status,
"Session Setup should fail because it uses a Replay of KRB_AP_REQ");
if (TestConfig.IsWindowsPlatform)
{
krbError = kerberosClient.GetKrbErrorFromToken(repToken);
BaseTestSite.Assert.AreEqual(KRB_ERROR_CODE.KRB_AP_ERR_REPEAT, krbError.ErrorCode,
"SMB Server should return {0}", KRB_ERROR_CODE.KRB_AP_ERR_REPEAT);
}
smb2Client2.Disconnect();
#endregion
string path = Smb2Utility.GetUncPath(TestConfig.SutComputerName, TestConfig.BasicFileShare);
AccessFile(smb2Client, path);
smb2Client.LogOff();
smb2Client.Disconnect();
}
public void KerbAuth_Replay()
{
#region Get Service Ticket
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Initialize Kerberos Functional Client");
KerberosFunctionalClient kerberosClient = new KerberosFunctionalClient(
TestConfig.DomainName,
TestConfig.UserName,
TestConfig.UserPassword,
KerberosAccountType.User,
KDCIP,
KDCPort,
TransportType.TCP,
OidPkt,
BaseTestSite);
//Create and send AS request
const KdcOptions options = KdcOptions.FORWARDABLE | KdcOptions.CANONICALIZE | KdcOptions.RENEWABLE;
kerberosClient.SendAsRequest(options, null);
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Kerberos Functional Client expects Kerberos Error from KDC");
//Receive preauthentication required error
METHOD_DATA methodData;
KerberosKrbError krbError = kerberosClient.ExpectPreauthRequiredError(out methodData);
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Kerberos Functional Client sends AS request with PA-DATA set");
//Create sequence of PA data
string timeStamp = KerberosUtility.CurrentKerberosTime.Value;
PaEncTimeStamp paEncTimeStamp = new PaEncTimeStamp(timeStamp,
0,
kerberosClient.Context.SelectedEType,
kerberosClient.Context.CName.Password,
kerberosClient.Context.CName.Salt);
PaPacRequest paPacRequest = new PaPacRequest(true);
Asn1SequenceOf<PA_DATA> seqOfPaData = new Asn1SequenceOf<PA_DATA>(new[] { paEncTimeStamp.Data, paPacRequest.Data });
//Create and send AS request
kerberosClient.SendAsRequest(options, seqOfPaData);
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Kerberos Functional Client expects AS response from KDC");
KerberosAsResponse asResponse = kerberosClient.ExpectAsResponse();
BaseTestSite.Assert.IsNotNull(asResponse.Response.ticket, "AS response should contain a TGT.");
//Create and send TGS request
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Kerberos Functional Client sends TGS request to KDC");
kerberosClient.SendTgsRequest(servicePrincipalName, options);
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Kerberos Functional Client expects TGS response from KDC");
KerberosTgsResponse tgsResponse = kerberosClient.ExpectTgsResponse();
BaseTestSite.Assert.AreEqual(servicePrincipalName,
KerberosUtility.PrincipalName2String(tgsResponse.Response.ticket.sname),
"Service principal name in service ticket should match expected.");
#endregion
#region Create AP request
Ticket serviceTicket = kerberosClient.Context.Ticket.Ticket;
Realm crealm = serviceTicket.realm;
EncryptionKey subkey = KerberosUtility.GenerateKey(kerberosClient.Context.SessionKey);
PrincipalName cname = kerberosClient.Context.CName.Name;
Authenticator authenticator = CreateAuthenticator(cname, crealm, subkey);
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Create AP Request");
KerberosApRequest request = new KerberosApRequest(
kerberosClient.Context.Pvno,
new APOptions(KerberosUtility.ConvertInt2Flags((int)ApOptions.MutualRequired)),
kerberosClient.Context.Ticket,
authenticator,
KeyUsageNumber.AP_REQ_Authenticator
);
#endregion
#region Create GSS token and send session setup request
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Create GSS Token");
byte[] token = KerberosUtility.AddGssApiTokenHeader(request, OidPkt, GssToken);
Smb2FunctionalClientForKerbAuth smb2Client = new Smb2FunctionalClientForKerbAuth(TestConfig.Timeout, TestConfig, BaseTestSite);
smb2Client.ConnectToServer(TestConfig.UnderlyingTransport, TestConfig.SutComputerName, TestConfig.SutIPAddress);
byte[] repToken;
uint status = DoSessionSetupWithGssToken(smb2Client, token, out repToken);
KerberosApResponse apRep = kerberosClient.GetApResponseFromToken(repToken, GssToken);
// Get subkey from AP response, which used for signing in smb2
apRep.Decrypt(kerberosClient.Context.Ticket.SessionKey.keyvalue.ByteArrayValue);
smb2Client.SetSessionSigningAndEncryption(true, false, apRep.ApEncPart.subkey.keyvalue.ByteArrayValue);
#endregion
#region Second client
BaseTestSite.Log.Add(LogEntryKind.TestStep, "Replay the request from another client");
Smb2FunctionalClientForKerbAuth smb2Client2 = new Smb2FunctionalClientForKerbAuth(TestConfig.Timeout, TestConfig, BaseTestSite);
smb2Client2.ConnectToServer(TestConfig.UnderlyingTransport, TestConfig.SutComputerName, TestConfig.SutIPAddress);
status = DoSessionSetupWithGssToken(smb2Client2, token, out repToken);
BaseTestSite.Assert.AreNotEqual(Smb2Status.STATUS_SUCCESS, status,
"Session Setup should fail because it uses a Replay of KRB_AP_REQ");
if (TestConfig.IsWindowsPlatform)
{
krbError = kerberosClient.GetKrbErrorFromToken(repToken);
BaseTestSite.Assert.AreEqual(KRB_ERROR_CODE.KRB_AP_ERR_REPEAT, krbError.ErrorCode,
"SMB Server should return {0}", KRB_ERROR_CODE.KRB_AP_ERR_REPEAT);
}
smb2Client2.Disconnect();
#endregion
string path = Smb2Utility.GetUncPath(TestConfig.SutComputerName, TestConfig.BasicFileShare);
AccessFile(smb2Client, path);
smb2Client.LogOff();
smb2Client.Disconnect();
}