db/d25/ntoskrnl_2se_2token_8c_source.html

 /*
  * PROJECT:         ReactOS Kernel
  * LICENSE:         GPL-2.0-or-later (https://spdx.org/licenses/GPL-2.0-or-later)
  * PURPOSE:         Security token implementation support
  * COPYRIGHT:       Copyright David Welch <welch@cwcom.net>
  *                  Copyright 2021 George Bișoc <george.bisoc@reactos.org>
  */

 /* INCLUDES *******************************************************************/

 #include <ntoskrnl.h>
 #define NDEBUG
 #include <debug.h>

 #include <ntlsa.h>

 /* GLOBALS ********************************************************************/

 POBJECT_TYPE SeTokenObjectType = NULL;

 TOKEN_SOURCE SeSystemTokenSource = {"*SYSTEM*", {0}};
 LUID SeSystemAuthenticationId = SYSTEM_LUID;
 LUID SeAnonymousAuthenticationId = ANONYMOUS_LOGON_LUID;

 static GENERIC_MAPPING SepTokenMapping = {
     TOKEN_READ,
     TOKEN_WRITE,
     TOKEN_EXECUTE,
     TOKEN_ALL_ACCESS
 };

 static const INFORMATION_CLASS_INFO SeTokenInformationClass[] = {

     /* Class 0 not used, blame MS! */
     IQS_NONE,

     /* TokenUser */
     IQS_SAME(TOKEN_USER, ULONG, ICIF_QUERY | ICIF_QUERY_SIZE_VARIABLE),
     /* TokenGroups */
     IQS_SAME(TOKEN_GROUPS, ULONG, ICIF_QUERY | ICIF_QUERY_SIZE_VARIABLE),
     /* TokenPrivileges */
     IQS_SAME(TOKEN_PRIVILEGES, ULONG, ICIF_QUERY | ICIF_QUERY_SIZE_VARIABLE),
     /* TokenOwner */
     IQS_SAME(TOKEN_OWNER, ULONG, ICIF_QUERY | ICIF_SET | ICIF_SIZE_VARIABLE),
     /* TokenPrimaryGroup */
     IQS_SAME(TOKEN_PRIMARY_GROUP, ULONG, ICIF_QUERY | ICIF_SET | ICIF_SIZE_VARIABLE),
     /* TokenDefaultDacl */
     IQS_SAME(TOKEN_DEFAULT_DACL, ULONG, ICIF_QUERY | ICIF_SET | ICIF_SIZE_VARIABLE),
     /* TokenSource */
     IQS_SAME(TOKEN_SOURCE, ULONG, ICIF_QUERY | ICIF_QUERY_SIZE_VARIABLE),
     /* TokenType */
     IQS_SAME(TOKEN_TYPE, ULONG, ICIF_QUERY | ICIF_QUERY_SIZE_VARIABLE),
     /* TokenImpersonationLevel */
     IQS_SAME(SECURITY_IMPERSONATION_LEVEL, ULONG, ICIF_QUERY),
     /* TokenStatistics */
     IQS_SAME(TOKEN_STATISTICS, ULONG, ICIF_QUERY | ICIF_QUERY_SIZE_VARIABLE),
     /* TokenRestrictedSids */
     IQS_SAME(TOKEN_GROUPS, ULONG, ICIF_QUERY | ICIF_QUERY_SIZE_VARIABLE),
     /* TokenSessionId */
     IQS_SAME(ULONG, ULONG, ICIF_QUERY | ICIF_SET),
     /* TokenGroupsAndPrivileges */
     IQS_SAME(TOKEN_GROUPS_AND_PRIVILEGES, ULONG, ICIF_QUERY | ICIF_QUERY_SIZE_VARIABLE),
     /* TokenSessionReference */
     IQS_SAME(ULONG, ULONG, ICIF_SET),
     /* TokenSandBoxInert */
     IQS_SAME(ULONG, ULONG, ICIF_QUERY),
     /* TokenAuditPolicy */
     IQS_SAME(TOKEN_AUDIT_POLICY_INFORMATION, ULONG, ICIF_SET | ICIF_SET_SIZE_VARIABLE),
     /* TokenOrigin */
     IQS_SAME(TOKEN_ORIGIN, ULONG, ICIF_QUERY | ICIF_SET),
 };

 /* FUNCTIONS *****************************************************************/

 static
 NTSTATUS
 SepCreateTokenLock(
     _Inout_ PTOKEN Token)
 {
     PAGED_CODE();

     Token->TokenLock = ExAllocatePoolWithTag(NonPagedPool,
                                              sizeof(ERESOURCE),
                                              TAG_SE_TOKEN_LOCK);
     if (Token->TokenLock == NULL)
     {
         DPRINT1("SepCreateTokenLock(): Failed to allocate memory!\n");
         return STATUS_INSUFFICIENT_RESOURCES;
     }

     ExInitializeResourceLite(Token->TokenLock);
     return STATUS_SUCCESS;
 }

 static
 VOID
 SepDeleteTokenLock(
     _Inout_ PTOKEN Token)
 {
     PAGED_CODE();

     ExDeleteResourceLite(Token->TokenLock);
     ExFreePoolWithTag(Token->TokenLock, TAG_SE_TOKEN_LOCK);
 }

 static
 BOOLEAN
 SepCompareSidAndAttributesFromTokens(
     _In_ PSID_AND_ATTRIBUTES SidArrayToken1,
     _In_ ULONG CountSidArray1,
     _In_ PSID_AND_ATTRIBUTES SidArrayToken2,
     _In_ ULONG CountSidArray2)
 {
     ULONG FirstCount, SecondCount;
     PSID_AND_ATTRIBUTES FirstSidArray, SecondSidArray;
     PAGED_CODE();

     /* Bail out if index counters provided are not equal */
     if (CountSidArray1 != CountSidArray2)
     {
         DPRINT("SepCompareSidAndAttributesFromTokens(): Index counters are not the same!\n");
         return FALSE;
     }

     /* Loop over the SID arrays and compare them */
     for (FirstCount = 0; FirstCount < CountSidArray1; FirstCount++)
     {
         for (SecondCount = 0; SecondCount < CountSidArray2; SecondCount++)
         {
             FirstSidArray = &SidArrayToken1[FirstCount];
             SecondSidArray = &SidArrayToken2[SecondCount];

             if (RtlEqualSid(FirstSidArray->Sid, SecondSidArray->Sid) &&
                 FirstSidArray->Attributes == SecondSidArray->Attributes)
             {
                 break;
             }
         }

         /* We've exhausted the array of the second token without finding this one */
         if (SecondCount == CountSidArray2)
         {
             DPRINT("SepCompareSidAndAttributesFromTokens(): No matching elements could be found in either token!\n");
             return FALSE;
         }
     }

     return TRUE;
 }

 static
 BOOLEAN
 SepComparePrivilegeAndAttributesFromTokens(
     _In_ PLUID_AND_ATTRIBUTES PrivArrayToken1,
     _In_ ULONG CountPrivArray1,
     _In_ PLUID_AND_ATTRIBUTES PrivArrayToken2,
     _In_ ULONG CountPrivArray2)
 {
     ULONG FirstCount, SecondCount;
     PLUID_AND_ATTRIBUTES FirstPrivArray, SecondPrivArray;
     PAGED_CODE();

     /* Bail out if index counters provided are not equal */
     if (CountPrivArray1 != CountPrivArray2)
     {
         DPRINT("SepComparePrivilegeAndAttributesFromTokens(): Index counters are not the same!\n");
         return FALSE;
     }

     /* Loop over the privilege arrays and compare them */
     for (FirstCount = 0; FirstCount < CountPrivArray1; FirstCount++)
     {
         for (SecondCount = 0; SecondCount < CountPrivArray2; SecondCount++)
         {
             FirstPrivArray = &PrivArrayToken1[FirstCount];
             SecondPrivArray = &PrivArrayToken2[SecondCount];

             if (RtlEqualLuid(&FirstPrivArray->Luid, &SecondPrivArray->Luid) &&
                 FirstPrivArray->Attributes == SecondPrivArray->Attributes)
             {
                 break;
             }
         }

         /* We've exhausted the array of the second token without finding this one */
         if (SecondCount == CountPrivArray2)
         {
             DPRINT("SepComparePrivilegeAndAttributesFromTokens(): No matching elements could be found in either token!\n");
             return FALSE;
         }
     }

     return TRUE;
 }

 static
 NTSTATUS
 SepCompareTokens(
     _In_ PTOKEN FirstToken,
     _In_ PTOKEN SecondToken,
     _Out_ PBOOLEAN Equal)
 {
     BOOLEAN Restricted, IsEqual = FALSE;
     PAGED_CODE();

     ASSERT(FirstToken != SecondToken);

     /* Lock the tokens */
     SepAcquireTokenLockShared(FirstToken);
     SepAcquireTokenLockShared(SecondToken);

     /* Check if every SID that is present in either token is also present in the other one */
     if (!SepCompareSidAndAttributesFromTokens(FirstToken->UserAndGroups,
                                               FirstToken->UserAndGroupCount,
                                               SecondToken->UserAndGroups,
                                               SecondToken->UserAndGroupCount))
     {
         goto Quit;
     }

     /* Is one token restricted but the other isn't? */
     Restricted = SeTokenIsRestricted(FirstToken);
     if (Restricted != SeTokenIsRestricted(SecondToken))
     {
         /* If that's the case then bail out */
         goto Quit;
     }

     /*
      * If both tokens are restricted check if every SID
      * that is restricted in either token is also restricted
      * in the other one.
      */
     if (Restricted)
     {
         if (!SepCompareSidAndAttributesFromTokens(FirstToken->RestrictedSids,
                                                   FirstToken->RestrictedSidCount,
                                                   SecondToken->RestrictedSids,
                                                   SecondToken->RestrictedSidCount))
         {
             goto Quit;
         }
     }

     /* Check if every privilege present in either token is also present in the other one */
     if (!SepComparePrivilegeAndAttributesFromTokens(FirstToken->Privileges,
                                                     FirstToken->PrivilegeCount,
                                                     SecondToken->Privileges,
                                                     SecondToken->PrivilegeCount))
     {
         goto Quit;
     }

     /* If we're here then the tokens are equal */
     IsEqual = TRUE;
     DPRINT("SepCompareTokens(): Tokens are equal!\n");

 Quit:
     /* Unlock the tokens */
     SepReleaseTokenLock(SecondToken);
     SepReleaseTokenLock(FirstToken);

     *Equal = IsEqual;
     return STATUS_SUCCESS;
 }

 static
 NTSTATUS
 SepImpersonateAnonymousToken(
     _In_ PETHREAD Thread,
     _In_ KPROCESSOR_MODE PreviousMode)
 {
     NTSTATUS Status;
     PTOKEN TokenToImpersonate, ProcessToken;
     ULONG IncludeEveryoneValueData;
     PAGED_CODE();

     /*
      * We must check first which kind of token
      * shall we assign for the thread to impersonate,
      * the one with Everyone Group SID or the other
      * without. Invoke the registry helper to
      * return the data value for us.
      */
     Status = SepRegQueryHelper(L"\\Registry\\Machine\\SYSTEM\\CurrentControlSet\\Control\\Lsa",
                                L"EveryoneIncludesAnonymous",
                                REG_DWORD,
                                sizeof(IncludeEveryoneValueData),
                                &IncludeEveryoneValueData);
     if (!NT_SUCCESS(Status))
     {
         DPRINT1("SepRegQueryHelper(): Failed to query the registry value (Status 0x%lx)\n", Status);
         return Status;
     }

     if (IncludeEveryoneValueData == 0)
     {
         DPRINT("SepImpersonateAnonymousToken(): Assigning the token not including the Everyone Group SID...\n");
         TokenToImpersonate = SeAnonymousLogonTokenNoEveryone;
     }
     else
     {
         DPRINT("SepImpersonateAnonymousToken(): Assigning the token including the Everyone Group SID...\n");
         TokenToImpersonate = SeAnonymousLogonToken;
     }

     /*
      * Tell the object manager that we're going to use this token
      * object now by incrementing the reference count.
     */
     Status = ObReferenceObjectByPointer(TokenToImpersonate,
                                         TOKEN_IMPERSONATE,
                                         SeTokenObjectType,
                                         PreviousMode);
     if (!NT_SUCCESS(Status))
     {
         DPRINT1("SepImpersonateAnonymousToken(): Couldn't be able to use the token, bail out...\n");
         return Status;
     }

     /*
      * Reference the primary token of the current process that the anonymous
      * logon token impersonation procedure is being performed. We'll be going
      * to use the process' token to figure out if the process is actually
      * restricted or not.
      */
     ProcessToken = PsReferencePrimaryToken(PsGetCurrentProcess());
     if (!ProcessToken)
     {
         DPRINT1("SepImpersonateAnonymousToken(): Couldn't be able to get the process' primary token, bail out...\n");
         ObDereferenceObject(TokenToImpersonate);
         return STATUS_UNSUCCESSFUL;
     }

     /* Now, is the token from the current process restricted? */
     if (SeTokenIsRestricted(ProcessToken))
     {
         DPRINT1("SepImpersonateAnonymousToken(): The process is restricted, can't do anything. Bail out...\n");
         PsDereferencePrimaryToken(ProcessToken);
         ObDereferenceObject(TokenToImpersonate);
         return STATUS_ACCESS_DENIED;
     }

     /*
      * Finally it's time to impersonate! But first, fast dereference the
      * process' primary token as we no longer need it.
      */
     ObFastDereferenceObject(&PsGetCurrentProcess()->Token, ProcessToken);
     Status = PsImpersonateClient(Thread, TokenToImpersonate, TRUE, FALSE, SecurityImpersonation);
     if (!NT_SUCCESS(Status))
     {
         DPRINT1("SepImpersonateAnonymousToken(): Failed to impersonate, bail out...\n");
         ObDereferenceObject(TokenToImpersonate);
         return Status;
     }

     return Status;
 }

 static
 VOID
 SepUpdateSinglePrivilegeFlagToken(
     _Inout_ PTOKEN Token,
     _In_ ULONG Index)
 {
     ULONG TokenFlag;
     ASSERT(Index < Token->PrivilegeCount);

     /* The high part of all values we are interested in is 0 */
     if (Token->Privileges[Index].Luid.HighPart != 0)
     {
         return;
     }

     /* Check for certain privileges to update flags */
     if (Token->Privileges[Index].Luid.LowPart == SE_CHANGE_NOTIFY_PRIVILEGE)
     {
         TokenFlag = TOKEN_HAS_TRAVERSE_PRIVILEGE;
     }
     else if (Token->Privileges[Index].Luid.LowPart == SE_BACKUP_PRIVILEGE)
     {
         TokenFlag = TOKEN_HAS_BACKUP_PRIVILEGE;
     }
     else if (Token->Privileges[Index].Luid.LowPart == SE_RESTORE_PRIVILEGE)
     {
         TokenFlag = TOKEN_HAS_RESTORE_PRIVILEGE;
     }
     else if (Token->Privileges[Index].Luid.LowPart == SE_IMPERSONATE_PRIVILEGE)
     {
         TokenFlag = TOKEN_HAS_IMPERSONATE_PRIVILEGE;
     }
     else
     {
         /* Nothing to do */
         return;
     }

     /* Check if the specified privilege is enabled */
     if (Token->Privileges[Index].Attributes & SE_PRIVILEGE_ENABLED)
     {
         /* It is enabled, so set the flag */
         Token->TokenFlags |= TokenFlag;
     }
     else
     {
         /* Is is disabled, so remove the flag */
         Token->TokenFlags &= ~TokenFlag;
     }
 }

 static
 VOID
 SepUpdatePrivilegeFlagsToken(
     _Inout_ PTOKEN Token)
 {
     ULONG i;

     /* Loop all privileges */
     for (i = 0; i < Token->PrivilegeCount; i++)
     {
         /* Updates the flags for this privilege */
         SepUpdateSinglePrivilegeFlagToken(Token, i);
     }
 }

 static
 VOID
 SepRemovePrivilegeToken(
     _Inout_ PTOKEN Token,
     _In_ ULONG Index)
 {
     ULONG MoveCount;
     ASSERT(Index < Token->PrivilegeCount);

     /* Calculate the number of trailing privileges */
     MoveCount = Token->PrivilegeCount - Index - 1;
     if (MoveCount != 0)
     {
         /* Move them one location ahead */
         RtlMoveMemory(&Token->Privileges[Index],
                       &Token->Privileges[Index + 1],
                       MoveCount * sizeof(LUID_AND_ATTRIBUTES));
     }

     /* Update privilege count */
     Token->PrivilegeCount--;
 }

 static
 VOID
 SepRemoveUserGroupToken(
     _Inout_ PTOKEN Token,
     _In_ ULONG Index)
 {
     ULONG MoveCount;
     ASSERT(Index < Token->UserAndGroupCount);

     /* Calculate the number of trailing groups */
     MoveCount = Token->UserAndGroupCount - Index - 1;
     if (MoveCount != 0)
     {
         /* Time to remove the group by moving one location ahead */
         RtlMoveMemory(&Token->UserAndGroups[Index],
                       &Token->UserAndGroups[Index + 1],
                       MoveCount * sizeof(SID_AND_ATTRIBUTES));
     }

     /* Remove one group count */
     Token->UserAndGroupCount--;
 }

 VOID
 NTAPI
 SepFreeProxyData(
     _Inout_ PVOID ProxyData)
 {
     UNIMPLEMENTED;
 }

 NTSTATUS
 NTAPI
 SepCopyProxyData(
     _Out_ PVOID* Dest,
     _In_ PVOID Src)
 {
     UNIMPLEMENTED;
     return STATUS_NOT_IMPLEMENTED;
 }

 NTSTATUS
 NTAPI
 SeExchangePrimaryToken(
     _In_ PEPROCESS Process,
     _In_ PACCESS_TOKEN NewAccessToken,
     _Out_ PACCESS_TOKEN* OldAccessToken)
 {
     PTOKEN OldToken;
     PTOKEN NewToken = (PTOKEN)NewAccessToken;

     PAGED_CODE();

     if (NewToken->TokenType != TokenPrimary)
         return STATUS_BAD_TOKEN_TYPE;

     if (NewToken->TokenInUse)
     {
         BOOLEAN IsEqual;
         NTSTATUS Status;

         /* Maybe we're trying to set the same token */
         OldToken = PsReferencePrimaryToken(Process);
         if (OldToken == NewToken)
         {
             /* So it's a nop. */
             *OldAccessToken = OldToken;
             return STATUS_SUCCESS;
         }

         Status = SepCompareTokens(OldToken, NewToken, &IsEqual);
         if (!NT_SUCCESS(Status))
         {
             PsDereferencePrimaryToken(OldToken);
             *OldAccessToken = NULL;
             return Status;
         }

         if (!IsEqual)
         {
             PsDereferencePrimaryToken(OldToken);
             *OldAccessToken = NULL;
             return STATUS_TOKEN_ALREADY_IN_USE;
         }
         /* Silently return STATUS_SUCCESS but do not set the new token,
          * as it's already in use elsewhere. */
         *OldAccessToken = OldToken;
         return STATUS_SUCCESS;
     }

     /* Lock the new token */
     SepAcquireTokenLockExclusive(NewToken);

     /* Mark new token in use */
     NewToken->TokenInUse = TRUE;

     /* Set the session ID for the new token */
     NewToken->SessionId = MmGetSessionId(Process);

     /* Unlock the new token */
     SepReleaseTokenLock(NewToken);

     /* Reference the new token */
     ObReferenceObject(NewToken);

     /* Replace the old with the new */
     OldToken = ObFastReplaceObject(&Process->Token, NewToken);

     /* Lock the old token */
     SepAcquireTokenLockExclusive(OldToken);

     /* Mark the old token as free */
     OldToken->TokenInUse = FALSE;

     /* Unlock the old token */
     SepReleaseTokenLock(OldToken);

     *OldAccessToken = (PACCESS_TOKEN)OldToken;
     return STATUS_SUCCESS;
 }

 VOID
 NTAPI
 SeDeassignPrimaryToken(
     _Inout_ PEPROCESS Process)
 {
     PTOKEN OldToken;

     /* Remove the Token */
     OldToken = ObFastReplaceObject(&Process->Token, NULL);

     /* Mark the Old Token as free */
     OldToken->TokenInUse = FALSE;

     /* Dereference the Token */
     ObDereferenceObject(OldToken);
 }

 static ULONG
 RtlLengthSidAndAttributes(
     _In_ ULONG Count,
     _In_ PSID_AND_ATTRIBUTES Src)
 {
     ULONG i;
     ULONG uLength;

     PAGED_CODE();

     uLength = Count * sizeof(SID_AND_ATTRIBUTES);
     for (i = 0; i < Count; i++)
         uLength += RtlLengthSid(Src[i].Sid);

     return uLength;
 }

 static NTSTATUS
 SepFindPrimaryGroupAndDefaultOwner(
     _In_ PTOKEN Token,
     _In_ PSID PrimaryGroup,
     _In_opt_ PSID DefaultOwner,
     _Out_opt_ PULONG PrimaryGroupIndex,
     _Out_opt_ PULONG DefaultOwnerIndex)
 {
     ULONG i;

     /* We should return at least a search result */
     if (!PrimaryGroupIndex && !DefaultOwnerIndex)
         return STATUS_INVALID_PARAMETER;

     if (PrimaryGroupIndex)
     {
         /* Initialize with an invalid index */
         // Token->PrimaryGroup = NULL;
         *PrimaryGroupIndex = Token->UserAndGroupCount;
     }

     if (DefaultOwnerIndex)
     {
         if (DefaultOwner)
         {
             /* An owner is specified: check whether this is actually the user */
             if (RtlEqualSid(Token->UserAndGroups[0].Sid, DefaultOwner))
             {
                 /*
                  * It's the user (first element in array): set it
                  * as the owner and stop the search for it.
                  */
                 *DefaultOwnerIndex = 0;
                 DefaultOwnerIndex = NULL;
             }
             else
             {
                 /* An owner is specified: initialize with an invalid index */
                 *DefaultOwnerIndex = Token->UserAndGroupCount;
             }
         }
         else
         {
             /*
              * No owner specified: set the user (first element in array)
              * as the owner and stop the search for it.
              */
             *DefaultOwnerIndex = 0;
             DefaultOwnerIndex = NULL;
         }
     }

     /* Validate and set the primary group and default owner indices */
     for (i = 0; i < Token->UserAndGroupCount; i++)
     {
         /* Stop the search if we have found what we searched for */
         if (!PrimaryGroupIndex && !DefaultOwnerIndex)
             break;

         if (DefaultOwnerIndex && DefaultOwner &&
             RtlEqualSid(Token->UserAndGroups[i].Sid, DefaultOwner) &&
             (Token->UserAndGroups[i].Attributes & SE_GROUP_OWNER))
         {
             /* Owner is found, stop the search for it */
             *DefaultOwnerIndex = i;
             DefaultOwnerIndex = NULL;
         }

         if (PrimaryGroupIndex &&
             RtlEqualSid(Token->UserAndGroups[i].Sid, PrimaryGroup))
         {
             /* Primary group is found, stop the search for it */
             // Token->PrimaryGroup = Token->UserAndGroups[i].Sid;
             *PrimaryGroupIndex = i;
             PrimaryGroupIndex = NULL;
         }
     }

     if (DefaultOwnerIndex)
     {
         if (*DefaultOwnerIndex == Token->UserAndGroupCount)
             return STATUS_INVALID_OWNER;
     }

     if (PrimaryGroupIndex)
     {
         if (*PrimaryGroupIndex == Token->UserAndGroupCount)
         // if (Token->PrimaryGroup == NULL)
             return STATUS_INVALID_PRIMARY_GROUP;
     }

     return STATUS_SUCCESS;
 }

 NTSTATUS
 NTAPI
 SepDuplicateToken(
     _In_ PTOKEN Token,
     _In_opt_ POBJECT_ATTRIBUTES ObjectAttributes,
     _In_ BOOLEAN EffectiveOnly,
     _In_ TOKEN_TYPE TokenType,
     _In_ SECURITY_IMPERSONATION_LEVEL Level,
     _In_ KPROCESSOR_MODE PreviousMode,
     _Out_ PTOKEN* NewAccessToken)
 {
     NTSTATUS Status;
     PTOKEN AccessToken;
     PVOID EndMem;
     ULONG VariableLength;
     ULONG TotalSize;
     ULONG PrivilegesIndex, GroupsIndex;

     PAGED_CODE();

     /* Compute how much size we need to allocate for the token */
     VariableLength = Token->VariableLength;
     TotalSize = FIELD_OFFSET(TOKEN, VariablePart) + VariableLength;

     Status = ObCreateObject(PreviousMode,
                             SeTokenObjectType,
                             ObjectAttributes,
                             PreviousMode,
                             NULL,
                             TotalSize,
                             0,
                             0,
                             (PVOID*)&AccessToken);
     if (!NT_SUCCESS(Status))
     {
         DPRINT1("ObCreateObject() failed (Status 0x%lx)\n", Status);
         return Status;
     }

     /* Zero out the buffer and initialize the token */
     RtlZeroMemory(AccessToken, TotalSize);

     ExAllocateLocallyUniqueId(&AccessToken->TokenId);

     AccessToken->TokenType = TokenType;
     AccessToken->ImpersonationLevel = Level;

     /* Initialise the lock for the access token */
     Status = SepCreateTokenLock(AccessToken);
     if (!NT_SUCCESS(Status))
     {
         ObDereferenceObject(AccessToken);
         return Status;
     }

     /* Copy the immutable fields */
     RtlCopyLuid(&AccessToken->TokenSource.SourceIdentifier,
                 &Token->TokenSource.SourceIdentifier);
     RtlCopyMemory(AccessToken->TokenSource.SourceName,
                   Token->TokenSource.SourceName,
                   sizeof(Token->TokenSource.SourceName));

     AccessToken->AuthenticationId = Token->AuthenticationId;
     AccessToken->ParentTokenId = Token->ParentTokenId;
     AccessToken->ExpirationTime = Token->ExpirationTime;
     AccessToken->OriginatingLogonSession = Token->OriginatingLogonSession;

     /* Lock the source token and copy the mutable fields */
     SepAcquireTokenLockExclusive(Token);

     AccessToken->SessionId = Token->SessionId;
     RtlCopyLuid(&AccessToken->ModifiedId, &Token->ModifiedId);

     AccessToken->TokenFlags = Token->TokenFlags & ~TOKEN_SESSION_NOT_REFERENCED;

     /* Reference the logon session */
     Status = SepRmReferenceLogonSession(&AccessToken->AuthenticationId);
     if (!NT_SUCCESS(Status))
     {
         /* No logon session could be found, bail out */
         DPRINT1("SepRmReferenceLogonSession() failed (Status 0x%lx)\n", Status);
         /* Set the flag for proper cleanup by the delete procedure */
         AccessToken->TokenFlags |= TOKEN_SESSION_NOT_REFERENCED;
         goto Quit;
     }

     /* Insert the referenced logon session into the token */
     Status = SepRmInsertLogonSessionIntoToken(AccessToken);
     if (!NT_SUCCESS(Status))
     {
         /* Failed to insert the logon session into the token, bail out */
         DPRINT1("SepRmInsertLogonSessionIntoToken() failed (Status 0x%lx)\n", Status);
         goto Quit;
     }

     /* Assign the data that reside in the TOKEN's variable information area */
     AccessToken->VariableLength = VariableLength;
     EndMem = (PVOID)&AccessToken->VariablePart;

     /* Copy the privileges */
     AccessToken->PrivilegeCount = 0;
     AccessToken->Privileges = NULL;
     if (Token->Privileges && (Token->PrivilegeCount > 0))
     {
         ULONG PrivilegesLength = Token->PrivilegeCount * sizeof(LUID_AND_ATTRIBUTES);
         PrivilegesLength = ALIGN_UP_BY(PrivilegesLength, sizeof(PVOID));

         ASSERT(VariableLength >= PrivilegesLength);

         AccessToken->PrivilegeCount = Token->PrivilegeCount;
         AccessToken->Privileges = EndMem;
         EndMem = (PVOID)((ULONG_PTR)EndMem + PrivilegesLength);
         VariableLength -= PrivilegesLength;

         RtlCopyMemory(AccessToken->Privileges,
                       Token->Privileges,
                       AccessToken->PrivilegeCount * sizeof(LUID_AND_ATTRIBUTES));
     }

     /* Copy the user and groups */
     AccessToken->UserAndGroupCount = 0;
     AccessToken->UserAndGroups = NULL;
     if (Token->UserAndGroups && (Token->UserAndGroupCount > 0))
     {
         AccessToken->UserAndGroupCount = Token->UserAndGroupCount;
         AccessToken->UserAndGroups = EndMem;
         EndMem = &AccessToken->UserAndGroups[AccessToken->UserAndGroupCount];
         VariableLength -= ((ULONG_PTR)EndMem - (ULONG_PTR)AccessToken->UserAndGroups);

         Status = RtlCopySidAndAttributesArray(AccessToken->UserAndGroupCount,
                                               Token->UserAndGroups,
                                               VariableLength,
                                               AccessToken->UserAndGroups,
                                               EndMem,
                                               &EndMem,
                                               &VariableLength);
         if (!NT_SUCCESS(Status))
         {
             DPRINT1("RtlCopySidAndAttributesArray(UserAndGroups) failed (Status 0x%lx)\n", Status);
             goto Quit;
         }
     }

 #if 1
     {
     ULONG PrimaryGroupIndex;

     /* Find the token primary group */
     Status = SepFindPrimaryGroupAndDefaultOwner(AccessToken,
                                                 Token->PrimaryGroup,
                                                 NULL,
                                                 &PrimaryGroupIndex,
                                                 NULL);
     if (!NT_SUCCESS(Status))
     {
         DPRINT1("SepFindPrimaryGroupAndDefaultOwner failed (Status 0x%lx)\n", Status);
         goto Quit;
     }
     AccessToken->PrimaryGroup = AccessToken->UserAndGroups[PrimaryGroupIndex].Sid;
     }
 #else
     AccessToken->PrimaryGroup = (PVOID)((ULONG_PTR)AccessToken + (ULONG_PTR)Token->PrimaryGroup - (ULONG_PTR)Token->UserAndGroups);
 #endif
     AccessToken->DefaultOwnerIndex = Token->DefaultOwnerIndex;

     /* Copy the restricted SIDs */
     AccessToken->RestrictedSidCount = 0;
     AccessToken->RestrictedSids = NULL;
     if (Token->RestrictedSids && (Token->RestrictedSidCount > 0))
     {
         AccessToken->RestrictedSidCount = Token->RestrictedSidCount;
         AccessToken->RestrictedSids = EndMem;
         EndMem = &AccessToken->RestrictedSids[AccessToken->RestrictedSidCount];
         VariableLength -= ((ULONG_PTR)EndMem - (ULONG_PTR)AccessToken->RestrictedSids);

         Status = RtlCopySidAndAttributesArray(AccessToken->RestrictedSidCount,
                                               Token->RestrictedSids,
                                               VariableLength,
                                               AccessToken->RestrictedSids,
                                               EndMem,
                                               &EndMem,
                                               &VariableLength);
         if (!NT_SUCCESS(Status))
         {
             DPRINT1("RtlCopySidAndAttributesArray(RestrictedSids) failed (Status 0x%lx)\n", Status);
             goto Quit;
         }
     }

     /*
      * Filter the token by removing the disabled privileges
      * and groups if the caller wants to duplicate an access
      * token as effective only.
      */
     if (EffectiveOnly)
     {
         /* Begin querying the groups and search for disabled ones */
         for (GroupsIndex = 0; GroupsIndex < AccessToken->UserAndGroupCount; GroupsIndex++)
         {
             /*
              * A group or user is considered disabled if its attributes is either
              * 0 or SE_GROUP_ENABLED is not included in the attributes flags list.
              * That is because a certain user and/or group can have several attributes
              * that bear no influence on whether a user/group is enabled or not
              * (SE_GROUP_ENABLED_BY_DEFAULT for example which is a mere indicator
              * that the group has just been enabled by default). A mandatory
              * group (that is, the group has SE_GROUP_MANDATORY attribute)
              * by standards it's always enabled and no one can disable it.
              */
             if (AccessToken->UserAndGroups[GroupsIndex].Attributes == 0 ||
                 (AccessToken->UserAndGroups[GroupsIndex].Attributes & SE_GROUP_ENABLED) == 0)
             {
                 /*
                  * A group is not enabled, it's time to remove
                  * from the token and update the groups index
                  * accordingly and continue with the next group.
                  */
                 SepRemoveUserGroupToken(AccessToken, GroupsIndex);
                 GroupsIndex--;
             }
         }

         /* Begin querying the privileges and search for disabled ones */
         for (PrivilegesIndex = 0; PrivilegesIndex < AccessToken->PrivilegeCount; PrivilegesIndex++)
         {
             /*
              * A privilege is considered disabled if its attributes is either
              * 0 or SE_PRIVILEGE_ENABLED is not included in the attributes flags list.
              * That is because a certain privilege can have several attributes
              * that bear no influence on whether a privilege is enabled or not
              * (SE_PRIVILEGE_ENABLED_BY_DEFAULT for example which is a mere indicator
              * that the privilege has just been enabled by default).
              */
             if (AccessToken->Privileges[PrivilegesIndex].Attributes == 0 ||
                 (AccessToken->Privileges[PrivilegesIndex].Attributes & SE_PRIVILEGE_ENABLED) == 0)
             {
                 /*
                  * A privilege is not enabled, therefor it's time
                  * to strip it from the token and continue with the next
                  * privilege. Of course we must also want to update the
                  * privileges index accordingly.
                  */
                 SepRemovePrivilegeToken(AccessToken, PrivilegesIndex);
                 PrivilegesIndex--;
             }
         }
     }

     //
     // NOTE: So far our dynamic area only contains
     // the default dacl, so this makes the following
     // code pretty simple. The day where it stores
     // other data, the code will require adaptations.
     //

     /* Now allocate the TOKEN's dynamic information area and set the data */
     AccessToken->DynamicAvailable = 0; // Unused memory in the dynamic area.
     AccessToken->DynamicPart = NULL;
     if (Token->DynamicPart && Token->DefaultDacl)
     {
         AccessToken->DynamicPart = ExAllocatePoolWithTag(PagedPool,
                                                          Token->DefaultDacl->AclSize,
                                                          TAG_TOKEN_DYNAMIC);
         if (AccessToken->DynamicPart == NULL)
         {
             Status = STATUS_INSUFFICIENT_RESOURCES;
             goto Quit;
         }
         EndMem = (PVOID)AccessToken->DynamicPart;

         AccessToken->DefaultDacl = EndMem;

         RtlCopyMemory(AccessToken->DefaultDacl,
                       Token->DefaultDacl,
                       Token->DefaultDacl->AclSize);
     }

     /* Unlock the source token */
     SepReleaseTokenLock(Token);

     /* Return the token */
     *NewAccessToken = AccessToken;
     Status = STATUS_SUCCESS;

 Quit:
     if (!NT_SUCCESS(Status))
     {
         /* Unlock the source token */
         SepReleaseTokenLock(Token);

         /* Dereference the token, the delete procedure will clean it up */
         ObDereferenceObject(AccessToken);
     }

     return Status;
 }

 NTSTATUS
 NTAPI
 SeSubProcessToken(
     _In_ PTOKEN ParentToken,
     _Out_ PTOKEN *Token,
     _In_ BOOLEAN InUse,
     _In_ ULONG SessionId)
 {
     PTOKEN NewToken;
     OBJECT_ATTRIBUTES ObjectAttributes;
     NTSTATUS Status;

     /* Initialize the attributes and duplicate it */
     InitializeObjectAttributes(&ObjectAttributes, NULL, 0, NULL, NULL);
     Status = SepDuplicateToken(ParentToken,
                                &ObjectAttributes,
                                FALSE,
                                TokenPrimary,
                                ParentToken->ImpersonationLevel,
                                KernelMode,
                                &NewToken);
     if (NT_SUCCESS(Status))
     {
         /* Insert it */
         Status = ObInsertObject(NewToken,
                                 NULL,
                                 0,
                                 0,
                                 NULL,
                                 NULL);
         if (NT_SUCCESS(Status))
         {
             /* Set the session ID */
             NewToken->SessionId = SessionId;
             NewToken->TokenInUse = InUse;

             /* Return the token */
             *Token = NewToken;
         }
     }

     /* Return status */
     return Status;
 }

 NTSTATUS
 NTAPI
 SeIsTokenChild(
     _In_ PTOKEN Token,
     _Out_ PBOOLEAN IsChild)
 {
     PTOKEN ProcessToken;
     LUID ProcessTokenId, CallerParentId;

     /* Assume failure */
     *IsChild = FALSE;

     /* Reference the process token */
     ProcessToken = PsReferencePrimaryToken(PsGetCurrentProcess());
     if (!ProcessToken)
         return STATUS_UNSUCCESSFUL;

     /* Get its token ID */
     ProcessTokenId = ProcessToken->TokenId;

     /* Dereference the token */
     ObFastDereferenceObject(&PsGetCurrentProcess()->Token, ProcessToken);

     /* Get our parent token ID */
     CallerParentId = Token->ParentTokenId;

     /* Compare the token IDs */
     if (RtlEqualLuid(&CallerParentId, &ProcessTokenId))
         *IsChild = TRUE;

     /* Return success */
     return STATUS_SUCCESS;
 }

 NTSTATUS
 NTAPI
 SeIsTokenSibling(
     _In_ PTOKEN Token,
     _Out_ PBOOLEAN IsSibling)
 {
     PTOKEN ProcessToken;
     LUID ProcessParentId, ProcessAuthId;
     LUID CallerParentId, CallerAuthId;

     /* Assume failure */
     *IsSibling = FALSE;

     /* Reference the process token */
     ProcessToken = PsReferencePrimaryToken(PsGetCurrentProcess());
     if (!ProcessToken)
         return STATUS_UNSUCCESSFUL;

     /* Get its parent and authentication IDs */
     ProcessParentId = ProcessToken->ParentTokenId;
     ProcessAuthId = ProcessToken->AuthenticationId;

     /* Dereference the token */
     ObFastDereferenceObject(&PsGetCurrentProcess()->Token, ProcessToken);

     /* Get our parent and authentication IDs */
     CallerParentId = Token->ParentTokenId;
     CallerAuthId = Token->AuthenticationId;

     /* Compare the token IDs */
     if (RtlEqualLuid(&CallerParentId, &ProcessParentId) &&
         RtlEqualLuid(&CallerAuthId, &ProcessAuthId))
     {
         *IsSibling = TRUE;
     }

     /* Return success */
     return STATUS_SUCCESS;
 }

 NTSTATUS
 NTAPI
 SeCopyClientToken(
     _In_ PACCESS_TOKEN Token,
     _In_ SECURITY_IMPERSONATION_LEVEL Level,
     _In_ KPROCESSOR_MODE PreviousMode,
     _Out_ PACCESS_TOKEN* NewToken)
 {
     NTSTATUS Status;
     OBJECT_ATTRIBUTES ObjectAttributes;

     PAGED_CODE();

     InitializeObjectAttributes(&ObjectAttributes,
                                NULL,
                                0,
                                NULL,
                                NULL);

     Status = SepDuplicateToken(Token,
                                &ObjectAttributes,
                                FALSE,
                                TokenImpersonation,
                                Level,
                                PreviousMode,
                                (PTOKEN*)NewToken);

     return Status;
 }

 VOID
 NTAPI
 SepDeleteToken(
     _In_ PVOID ObjectBody)
 {
     NTSTATUS Status;
     PTOKEN AccessToken = (PTOKEN)ObjectBody;

     DPRINT("SepDeleteToken()\n");

     /* Remove the referenced logon session from token */
     if (AccessToken->LogonSession)
     {
         Status = SepRmRemoveLogonSessionFromToken(AccessToken);
         if (!NT_SUCCESS(Status))
         {
             /* Something seriously went wrong */
             DPRINT1("SepDeleteToken(): Failed to remove the logon session from token (Status: 0x%lx)\n", Status);
             return;
         }
     }

     /* Dereference the logon session */
     if ((AccessToken->TokenFlags & TOKEN_SESSION_NOT_REFERENCED) == 0)
         SepRmDereferenceLogonSession(&AccessToken->AuthenticationId);

     /* Delete the token lock */
     if (AccessToken->TokenLock)
         SepDeleteTokenLock(AccessToken);

     /* Delete the dynamic information area */
     if (AccessToken->DynamicPart)
         ExFreePoolWithTag(AccessToken->DynamicPart, TAG_TOKEN_DYNAMIC);
 }

 CODE_SEG("INIT")
 VOID
 NTAPI
 SepInitializeTokenImplementation(VOID)
 {
     UNICODE_STRING Name;
     OBJECT_TYPE_INITIALIZER ObjectTypeInitializer;

     DPRINT("Creating Token Object Type\n");

     /* Initialize the Token type */
     RtlZeroMemory(&ObjectTypeInitializer, sizeof(ObjectTypeInitializer));
     RtlInitUnicodeString(&Name, L"Token");
     ObjectTypeInitializer.Length = sizeof(ObjectTypeInitializer);
     ObjectTypeInitializer.InvalidAttributes = OBJ_OPENLINK;
     ObjectTypeInitializer.SecurityRequired = TRUE;
     ObjectTypeInitializer.DefaultPagedPoolCharge = sizeof(TOKEN);
     ObjectTypeInitializer.GenericMapping = SepTokenMapping;
     ObjectTypeInitializer.PoolType = PagedPool;
     ObjectTypeInitializer.ValidAccessMask = TOKEN_ALL_ACCESS;
     ObjectTypeInitializer.UseDefaultObject = TRUE;
     ObjectTypeInitializer.DeleteProcedure = SepDeleteToken;
     ObCreateObjectType(&Name, &ObjectTypeInitializer, NULL, &SeTokenObjectType);
 }

 VOID
 NTAPI
 SeAssignPrimaryToken(
     _In_ PEPROCESS Process,
     _In_ PTOKEN Token)
 {
     PAGED_CODE();

     /* Sanity checks */
     ASSERT(Token->TokenType == TokenPrimary);
     ASSERT(!Token->TokenInUse);

     /* Clean any previous token */
     if (Process->Token.Object) SeDeassignPrimaryToken(Process);

     /* Set the new token */
     ObReferenceObject(Token);
     Token->TokenInUse = TRUE;
     ObInitializeFastReference(&Process->Token, Token);
 }

 NTSTATUS
 NTAPI
 SepCreateToken(
     _Out_ PHANDLE TokenHandle,
     _In_ KPROCESSOR_MODE PreviousMode,
     _In_ ACCESS_MASK DesiredAccess,
     _In_opt_ POBJECT_ATTRIBUTES ObjectAttributes,
     _In_ TOKEN_TYPE TokenType,
     _In_ SECURITY_IMPERSONATION_LEVEL ImpersonationLevel,
     _In_ PLUID AuthenticationId,
     _In_ PLARGE_INTEGER ExpirationTime,
     _In_ PSID_AND_ATTRIBUTES User,
     _In_ ULONG GroupCount,
     _In_ PSID_AND_ATTRIBUTES Groups,
     _In_ ULONG GroupsLength,
     _In_ ULONG PrivilegeCount,
     _In_ PLUID_AND_ATTRIBUTES Privileges,
     _In_opt_ PSID Owner,
     _In_ PSID PrimaryGroup,
     _In_opt_ PACL DefaultDacl,
     _In_ PTOKEN_SOURCE TokenSource,
     _In_ BOOLEAN SystemToken)
 {
     NTSTATUS Status;
     PTOKEN AccessToken;
     ULONG TokenFlags = 0;
     ULONG PrimaryGroupIndex, DefaultOwnerIndex;
     LUID TokenId;
     LUID ModifiedId;
     PVOID EndMem;
     ULONG PrivilegesLength;
     ULONG UserGroupsLength;
     ULONG VariableLength;
     ULONG TotalSize;
     ULONG i;

     PAGED_CODE();

     /* Loop all groups */
     for (i = 0; i < GroupCount; i++)
     {
         /* Check for mandatory groups */
         if (Groups[i].Attributes & SE_GROUP_MANDATORY)
         {
             /* Force them to be enabled */
             Groups[i].Attributes |= (SE_GROUP_ENABLED | SE_GROUP_ENABLED_BY_DEFAULT);
         }

         /* Check of the group is an admin group */
         if (RtlEqualSid(SeAliasAdminsSid, Groups[i].Sid))
         {
             /* Remember this so we can optimize queries later */
             TokenFlags |= TOKEN_HAS_ADMIN_GROUP;
         }
     }

     /* Allocate unique IDs for the token */
     ExAllocateLocallyUniqueId(&TokenId);
     ExAllocateLocallyUniqueId(&ModifiedId);

     /* Compute how much size we need to allocate for the token */

     /* Privileges size */
     PrivilegesLength = PrivilegeCount * sizeof(LUID_AND_ATTRIBUTES);
     PrivilegesLength = ALIGN_UP_BY(PrivilegesLength, sizeof(PVOID));

     /* User and groups size */
     UserGroupsLength = (1 + GroupCount) * sizeof(SID_AND_ATTRIBUTES);
     UserGroupsLength += RtlLengthSid(User->Sid);
     for (i = 0; i < GroupCount; i++)
     {
         UserGroupsLength += RtlLengthSid(Groups[i].Sid);
     }
     UserGroupsLength = ALIGN_UP_BY(UserGroupsLength, sizeof(PVOID));

     /* Add the additional groups array length */
     UserGroupsLength += ALIGN_UP_BY(GroupsLength, sizeof(PVOID));

     VariableLength = PrivilegesLength + UserGroupsLength;
     TotalSize = FIELD_OFFSET(TOKEN, VariablePart) + VariableLength;

     Status = ObCreateObject(PreviousMode,
                             SeTokenObjectType,
                             ObjectAttributes,
                             PreviousMode,
                             NULL,
                             TotalSize,
                             0,
                             0,
                             (PVOID*)&AccessToken);
     if (!NT_SUCCESS(Status))
     {
         DPRINT1("ObCreateObject() failed (Status 0x%lx)\n", Status);
         return Status;
     }

     /* Zero out the buffer and initialize the token */
     RtlZeroMemory(AccessToken, TotalSize);

     RtlCopyLuid(&AccessToken->TokenId, &TokenId);

     AccessToken->TokenType = TokenType;
     AccessToken->ImpersonationLevel = ImpersonationLevel;

     /* Initialise the lock for the access token */
     Status = SepCreateTokenLock(AccessToken);
     if (!NT_SUCCESS(Status))
         goto Quit;

     RtlCopyLuid(&AccessToken->TokenSource.SourceIdentifier,
                 &TokenSource->SourceIdentifier);
     RtlCopyMemory(AccessToken->TokenSource.SourceName,
                   TokenSource->SourceName,
                   sizeof(TokenSource->SourceName));

     AccessToken->ExpirationTime = *ExpirationTime;
     RtlCopyLuid(&AccessToken->ModifiedId, &ModifiedId);

     AccessToken->TokenFlags = TokenFlags & ~TOKEN_SESSION_NOT_REFERENCED;

     /* Copy and reference the logon session */
     RtlCopyLuid(&AccessToken->AuthenticationId, AuthenticationId);
     Status = SepRmReferenceLogonSession(&AccessToken->AuthenticationId);
     if (!NT_SUCCESS(Status))
     {
         /* No logon session could be found, bail out */
         DPRINT1("SepRmReferenceLogonSession() failed (Status 0x%lx)\n", Status);
         /* Set the flag for proper cleanup by the delete procedure */
         AccessToken->TokenFlags |= TOKEN_SESSION_NOT_REFERENCED;
         goto Quit;
     }

     /* Insert the referenced logon session into the token */
     Status = SepRmInsertLogonSessionIntoToken(AccessToken);
     if (!NT_SUCCESS(Status))
     {
         /* Failed to insert the logon session into the token, bail out */
         DPRINT1("SepRmInsertLogonSessionIntoToken() failed (Status 0x%lx)\n", Status);
         goto Quit;
     }

     /* Assign the data that reside in the TOKEN's variable information area */
     AccessToken->VariableLength = VariableLength;
     EndMem = (PVOID)&AccessToken->VariablePart;

     /* Copy the privileges */
     AccessToken->PrivilegeCount = PrivilegeCount;
     AccessToken->Privileges = NULL;
     if (PrivilegeCount > 0)
     {
         AccessToken->Privileges = EndMem;
         EndMem = (PVOID)((ULONG_PTR)EndMem + PrivilegesLength);
         VariableLength -= PrivilegesLength;

         if (PreviousMode != KernelMode)
         {
             _SEH2_TRY
             {
                 RtlCopyMemory(AccessToken->Privileges,
                               Privileges,
                               PrivilegeCount * sizeof(LUID_AND_ATTRIBUTES));
             }
             _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
             {
                 Status = _SEH2_GetExceptionCode();
             }
             _SEH2_END;
         }
         else
         {
             RtlCopyMemory(AccessToken->Privileges,
                           Privileges,
                           PrivilegeCount * sizeof(LUID_AND_ATTRIBUTES));
         }

         if (!NT_SUCCESS(Status))
             goto Quit;
     }

     /* Update the privilege flags */
     SepUpdatePrivilegeFlagsToken(AccessToken);

     /* Copy the user and groups */
     AccessToken->UserAndGroupCount = 1 + GroupCount;
     AccessToken->UserAndGroups = EndMem;
     EndMem = &AccessToken->UserAndGroups[AccessToken->UserAndGroupCount];
     VariableLength -= ((ULONG_PTR)EndMem - (ULONG_PTR)AccessToken->UserAndGroups);

     Status = RtlCopySidAndAttributesArray(1,
                                           User,
                                           VariableLength,
                                           &AccessToken->UserAndGroups[0],
                                           EndMem,
                                           &EndMem,
                                           &VariableLength);
     if (!NT_SUCCESS(Status))
         goto Quit;

     Status = RtlCopySidAndAttributesArray(GroupCount,
                                           Groups,
                                           VariableLength,
                                           &AccessToken->UserAndGroups[1],
                                           EndMem,
                                           &EndMem,
                                           &VariableLength);
     if (!NT_SUCCESS(Status))
         goto Quit;

     /* Find the token primary group and default owner */
     Status = SepFindPrimaryGroupAndDefaultOwner(AccessToken,
                                                 PrimaryGroup,
                                                 Owner,
                                                 &PrimaryGroupIndex,
                                                 &DefaultOwnerIndex);
     if (!NT_SUCCESS(Status))
     {
         DPRINT1("SepFindPrimaryGroupAndDefaultOwner failed (Status 0x%lx)\n", Status);
         goto Quit;
     }

     AccessToken->PrimaryGroup = AccessToken->UserAndGroups[PrimaryGroupIndex].Sid;
     AccessToken->DefaultOwnerIndex = DefaultOwnerIndex;

     /* Now allocate the TOKEN's dynamic information area and set the data */
     AccessToken->DynamicAvailable = 0; // Unused memory in the dynamic area.
     AccessToken->DynamicPart = NULL;
     if (DefaultDacl != NULL)
     {
         AccessToken->DynamicPart = ExAllocatePoolWithTag(PagedPool,
                                                          DefaultDacl->AclSize,
                                                          TAG_TOKEN_DYNAMIC);
         if (AccessToken->DynamicPart == NULL)
         {
             Status = STATUS_INSUFFICIENT_RESOURCES;
             goto Quit;
         }
         EndMem = (PVOID)AccessToken->DynamicPart;

         AccessToken->DefaultDacl = EndMem;

         RtlCopyMemory(AccessToken->DefaultDacl,
                       DefaultDacl,
                       DefaultDacl->AclSize);
     }

     /* Insert the token only if it's not the system token, otherwise return it directly */
     if (!SystemToken)
     {
         Status = ObInsertObject(AccessToken,
                                 NULL,
                                 DesiredAccess,
                                 0,
                                 NULL,
                                 TokenHandle);
         if (!NT_SUCCESS(Status))
         {
             DPRINT1("ObInsertObject() failed (Status 0x%lx)\n", Status);
         }
     }
     else
     {
         /* Return pointer instead of handle */
         *TokenHandle = (HANDLE)AccessToken;
     }

 Quit:
     if (!NT_SUCCESS(Status))
     {
         /* Dereference the token, the delete procedure will clean it up */
         ObDereferenceObject(AccessToken);
     }

     return Status;
 }

 CODE_SEG("INIT")
 PTOKEN
 NTAPI
 SepCreateSystemProcessToken(VOID)
 {
     LUID_AND_ATTRIBUTES Privileges[25];
     ULONG GroupAttributes, OwnerAttributes;
     SID_AND_ATTRIBUTES Groups[32];
     LARGE_INTEGER Expiration;
     SID_AND_ATTRIBUTES UserSid;
     ULONG GroupsLength;
     PSID PrimaryGroup;
     OBJECT_ATTRIBUTES ObjectAttributes;
     PSID Owner;
     ULONG i;
     PTOKEN Token;
     NTSTATUS Status;

     /* Don't ever expire */
     Expiration.QuadPart = -1;

     /* All groups mandatory and enabled */
     GroupAttributes = SE_GROUP_ENABLED | SE_GROUP_MANDATORY | SE_GROUP_ENABLED_BY_DEFAULT;
     OwnerAttributes = SE_GROUP_ENABLED | SE_GROUP_OWNER | SE_GROUP_ENABLED_BY_DEFAULT;

     /* User is Local System */
     UserSid.Sid = SeLocalSystemSid;
     UserSid.Attributes = 0;

     /* Primary group is Local System */
     PrimaryGroup = SeLocalSystemSid;

     /* Owner is Administrators */
     Owner = SeAliasAdminsSid;

     /* Groups are Administrators, World, and Authenticated Users */
     Groups[0].Sid = SeAliasAdminsSid;
     Groups[0].Attributes = OwnerAttributes;
     Groups[1].Sid = SeWorldSid;
     Groups[1].Attributes = GroupAttributes;
     Groups[2].Sid = SeAuthenticatedUsersSid;
     Groups[2].Attributes = GroupAttributes;
     GroupsLength = sizeof(SID_AND_ATTRIBUTES) +
                    SeLengthSid(Groups[0].Sid) +
                    SeLengthSid(Groups[1].Sid) +
                    SeLengthSid(Groups[2].Sid);
     ASSERT(GroupsLength <= sizeof(Groups));

     /* Setup the privileges */
     i = 0;
     Privileges[i].Attributes = SE_PRIVILEGE_ENABLED_BY_DEFAULT | SE_PRIVILEGE_ENABLED;
     Privileges[i++].Luid = SeTcbPrivilege;

     Privileges[i].Attributes = 0;
     Privileges[i++].Luid = SeCreateTokenPrivilege;

     Privileges[i].Attributes = 0;
     Privileges[i++].Luid = SeTakeOwnershipPrivilege;

     Privileges[i].Attributes = SE_PRIVILEGE_ENABLED_BY_DEFAULT | SE_PRIVILEGE_ENABLED;
     Privileges[i++].Luid = SeCreatePagefilePrivilege;

     Privileges[i].Attributes = SE_PRIVILEGE_ENABLED_BY_DEFAULT | SE_PRIVILEGE_ENABLED;
     Privileges[i++].Luid = SeLockMemoryPrivilege;

     Privileges[i].Attributes = 0;
     Privileges[i++].Luid = SeAssignPrimaryTokenPrivilege;

     Privileges[i].Attributes = 0;
     Privileges[i++].Luid = SeIncreaseQuotaPrivilege;

     Privileges[i].Attributes = SE_PRIVILEGE_ENABLED_BY_DEFAULT | SE_PRIVILEGE_ENABLED;
     Privileges[i++].Luid = SeIncreaseBasePriorityPrivilege;

     Privileges[i].Attributes = SE_PRIVILEGE_ENABLED_BY_DEFAULT | SE_PRIVILEGE_ENABLED;
     Privileges[i++].Luid = SeCreatePermanentPrivilege;

     Privileges[i].Attributes = SE_PRIVILEGE_ENABLED_BY_DEFAULT | SE_PRIVILEGE_ENABLED;
     Privileges[i++].Luid = SeDebugPrivilege;

     Privileges[i].Attributes = SE_PRIVILEGE_ENABLED_BY_DEFAULT | SE_PRIVILEGE_ENABLED;
     Privileges[i++].Luid = SeAuditPrivilege;

     Privileges[i].Attributes = 0;
     Privileges[i++].Luid = SeSecurityPrivilege;

     Privileges[i].Attributes = 0;
     Privileges[i++].Luid = SeSystemEnvironmentPrivilege;

     Privileges[i].Attributes = SE_PRIVILEGE_ENABLED_BY_DEFAULT | SE_PRIVILEGE_ENABLED;
     Privileges[i++].Luid = SeChangeNotifyPrivilege;

     Privileges[i].Attributes = 0;
     Privileges[i++].Luid = SeBackupPrivilege;

     Privileges[i].Attributes = 0;
     Privileges[i++].Luid = SeRestorePrivilege;

     Privileges[i].Attributes = 0;
     Privileges[i++].Luid = SeShutdownPrivilege;

     Privileges[i].Attributes = 0;
     Privileges[i++].Luid = SeLoadDriverPrivilege;

     Privileges[i].Attributes = SE_PRIVILEGE_ENABLED_BY_DEFAULT | SE_PRIVILEGE_ENABLED;
     Privileges[i++].Luid = SeProfileSingleProcessPrivilege;

     Privileges[i].Attributes = 0;
     Privileges[i++].Luid = SeSystemtimePrivilege;
     ASSERT(i == 20);

     /* Setup the object attributes */
     InitializeObjectAttributes(&ObjectAttributes, NULL, 0, NULL, NULL);
     ASSERT(SeSystemDefaultDacl != NULL);

     /* Create the token */
     Status = SepCreateToken((PHANDLE)&Token,
                             KernelMode,
                             0,
                             &ObjectAttributes,
                             TokenPrimary,
                             SecurityAnonymous,
                             &SeSystemAuthenticationId,
                             &Expiration,
                             &UserSid,
                             3,
                             Groups,
                             GroupsLength,
                             20,
                             Privileges,
                             Owner,
                             PrimaryGroup,
                             SeSystemDefaultDacl,
                             &SeSystemTokenSource,
                             TRUE);
     ASSERT(Status == STATUS_SUCCESS);

     /* Return the token */
     return Token;
 }

 CODE_SEG("INIT")
 PTOKEN
 SepCreateSystemAnonymousLogonToken(VOID)
 {
     SID_AND_ATTRIBUTES Groups[32], UserSid;
     PSID PrimaryGroup;
     PTOKEN Token;
     ULONG GroupsLength;
     LARGE_INTEGER Expiration;
     OBJECT_ATTRIBUTES ObjectAttributes;
     NTSTATUS Status;

     /* The token never expires */
     Expiration.QuadPart = -1;

     /* The user is the anonymous logon */
     UserSid.Sid = SeAnonymousLogonSid;
     UserSid.Attributes = 0;

     /* The primary group is also the anonymous logon */
     PrimaryGroup = SeAnonymousLogonSid;

     /* The only group for the token is the World */
     Groups[0].Sid = SeWorldSid;
     Groups[0].Attributes = SE_GROUP_ENABLED | SE_GROUP_MANDATORY | SE_GROUP_ENABLED_BY_DEFAULT;
     GroupsLength = sizeof(SID_AND_ATTRIBUTES) +
                    SeLengthSid(Groups[0].Sid);
     ASSERT(GroupsLength <= sizeof(Groups));

     /* Initialise the object attributes for the token */
     InitializeObjectAttributes(&ObjectAttributes, NULL, 0, NULL, NULL);
     ASSERT(SeSystemAnonymousLogonDacl != NULL);

     /* Create token */
     Status = SepCreateToken((PHANDLE)&Token,
                             KernelMode,
                             0,
                             &ObjectAttributes,
                             TokenPrimary,
                             SecurityAnonymous,
                             &SeAnonymousAuthenticationId,
                             &Expiration,
                             &UserSid,
                             1,
                             Groups,
                             GroupsLength,
                             0,
                             NULL,
                             NULL,
                             PrimaryGroup,
                             SeSystemAnonymousLogonDacl,
                             &SeSystemTokenSource,
                             TRUE);
     ASSERT(Status == STATUS_SUCCESS);

     /* Return the anonymous logon token */
     return Token;
 }

 CODE_SEG("INIT")
 PTOKEN
 SepCreateSystemAnonymousLogonTokenNoEveryone(VOID)
 {
     SID_AND_ATTRIBUTES UserSid;
     PSID PrimaryGroup;
     PTOKEN Token;
     LARGE_INTEGER Expiration;
     OBJECT_ATTRIBUTES ObjectAttributes;
     NTSTATUS Status;

     /* The token never expires */
     Expiration.QuadPart = -1;

     /* The user is the anonymous logon */
     UserSid.Sid = SeAnonymousLogonSid;
     UserSid.Attributes = 0;

     /* The primary group is also the anonymous logon */
     PrimaryGroup = SeAnonymousLogonSid;

     /* Initialise the object attributes for the token */
     InitializeObjectAttributes(&ObjectAttributes, NULL, 0, NULL, NULL);
     ASSERT(SeSystemAnonymousLogonDacl != NULL);

     /* Create token */
     Status = SepCreateToken((PHANDLE)&Token,
                             KernelMode,
                             0,
                             &ObjectAttributes,
                             TokenPrimary,
                             SecurityAnonymous,
                             &SeAnonymousAuthenticationId,
                             &Expiration,
                             &UserSid,
                             0,
                             NULL,
                             0,
                             0,
                             NULL,
                             NULL,
                             PrimaryGroup,
                             SeSystemAnonymousLogonDacl,
                             &SeSystemTokenSource,
                             TRUE);
     ASSERT(Status == STATUS_SUCCESS);

     /* Return the anonymous (not including everyone) logon token */
     return Token;
 }

 /* PUBLIC FUNCTIONS ***********************************************************/

 NTSTATUS
 NTAPI
 SeFilterToken(
     _In_ PACCESS_TOKEN ExistingToken,
     _In_ ULONG Flags,
     _In_opt_ PTOKEN_GROUPS SidsToDisable,
     _In_opt_ PTOKEN_PRIVILEGES PrivilegesToDelete,
     _In_opt_ PTOKEN_GROUPS RestrictedSids,
     _Out_ PACCESS_TOKEN * FilteredToken)
 {
     UNIMPLEMENTED;
     return STATUS_NOT_IMPLEMENTED;
 }

 NTSTATUS
 NTAPI
 SeQueryInformationToken(
     _In_ PACCESS_TOKEN AccessToken,
     _In_ TOKEN_INFORMATION_CLASS TokenInformationClass,
     _Outptr_result_buffer_(_Inexpressible_(token-dependent)) PVOID *TokenInformation)
 {
     NTSTATUS Status;
     PTOKEN Token = (PTOKEN)AccessToken;
     ULONG RequiredLength;
     union
     {
         PSID PSid;
         ULONG Ulong;
     } Unused;

     PAGED_CODE();

     /* Lock the token */
     SepAcquireTokenLockShared(Token);

     switch (TokenInformationClass)
     {
         case TokenUser:
         {
             PTOKEN_USER tu;

             DPRINT("SeQueryInformationToken(TokenUser)\n");
             RequiredLength = sizeof(TOKEN_USER) +
                 RtlLengthSid(Token->UserAndGroups[0].Sid);

             /* Allocate the output buffer */
             tu = ExAllocatePoolWithTag(PagedPool, RequiredLength, TAG_SE);
             if (tu == NULL)
             {
                 Status = STATUS_INSUFFICIENT_RESOURCES;
                 break;
             }

             Status = RtlCopySidAndAttributesArray(1,
                                                   &Token->UserAndGroups[0],
                                                   RequiredLength - sizeof(TOKEN_USER),
                                                   &tu->User,
                                                   (PSID)(tu + 1),
                                                   &Unused.PSid,
                                                   &Unused.Ulong);

             /* Return the structure */
             *TokenInformation = tu;
             Status = STATUS_SUCCESS;
             break;
         }

         case TokenGroups:
         {
             PTOKEN_GROUPS tg;
             ULONG SidLen;
             PSID Sid;

             DPRINT("SeQueryInformationToken(TokenGroups)\n");
             RequiredLength = sizeof(tg->GroupCount) +
                 RtlLengthSidAndAttributes(Token->UserAndGroupCount - 1, &Token->UserAndGroups[1]);

             SidLen = RequiredLength - sizeof(tg->GroupCount) -
                 ((Token->UserAndGroupCount - 1) * sizeof(SID_AND_ATTRIBUTES));

             /* Allocate the output buffer */
             tg = ExAllocatePoolWithTag(PagedPool, RequiredLength, TAG_SE);
             if (tg == NULL)
             {
                 Status = STATUS_INSUFFICIENT_RESOURCES;
                 break;
             }

             Sid = (PSID)((ULONG_PTR)tg + sizeof(tg->GroupCount) +
                          ((Token->UserAndGroupCount - 1) * sizeof(SID_AND_ATTRIBUTES)));

             tg->GroupCount = Token->UserAndGroupCount - 1;
             Status = RtlCopySidAndAttributesArray(Token->UserAndGroupCount - 1,
                                                   &Token->UserAndGroups[1],
                                                   SidLen,
                                                   &tg->Groups[0],
                                                   Sid,
                                                   &Unused.PSid,
                                                   &Unused.Ulong);

             /* Return the structure */
             *TokenInformation = tg;
             Status = STATUS_SUCCESS;
             break;
         }

         case TokenPrivileges:
         {
             PTOKEN_PRIVILEGES tp;

             DPRINT("SeQueryInformationToken(TokenPrivileges)\n");
             RequiredLength = sizeof(tp->PrivilegeCount) +
                 (Token->PrivilegeCount * sizeof(LUID_AND_ATTRIBUTES));

             /* Allocate the output buffer */
             tp = ExAllocatePoolWithTag(PagedPool, RequiredLength, TAG_SE);
             if (tp == NULL)
             {
                 Status = STATUS_INSUFFICIENT_RESOURCES;
                 break;
             }

             tp->PrivilegeCount = Token->PrivilegeCount;
             RtlCopyLuidAndAttributesArray(Token->PrivilegeCount,
                                           Token->Privileges,
                                           &tp->Privileges[0]);

             /* Return the structure */
             *TokenInformation = tp;
             Status = STATUS_SUCCESS;
             break;
         }

         case TokenOwner:
         {
             PTOKEN_OWNER to;
             ULONG SidLen;

             DPRINT("SeQueryInformationToken(TokenOwner)\n");
             SidLen = RtlLengthSid(Token->UserAndGroups[Token->DefaultOwnerIndex].Sid);
             RequiredLength = sizeof(TOKEN_OWNER) + SidLen;

             /* Allocate the output buffer */
             to = ExAllocatePoolWithTag(PagedPool, RequiredLength, TAG_SE);
             if (to == NULL)
             {
                 Status = STATUS_INSUFFICIENT_RESOURCES;
                 break;
             }

             to->Owner = (PSID)(to + 1);
             Status = RtlCopySid(SidLen,
                                 to->Owner,
                                 Token->UserAndGroups[Token->DefaultOwnerIndex].Sid);

             /* Return the structure */
             *TokenInformation = to;
             Status = STATUS_SUCCESS;
             break;
         }

         case TokenPrimaryGroup:
         {
             PTOKEN_PRIMARY_GROUP tpg;
             ULONG SidLen;

             DPRINT("SeQueryInformationToken(TokenPrimaryGroup)\n");
             SidLen = RtlLengthSid(Token->PrimaryGroup);
             RequiredLength = sizeof(TOKEN_PRIMARY_GROUP) + SidLen;

             /* Allocate the output buffer */
             tpg = ExAllocatePoolWithTag(PagedPool, RequiredLength, TAG_SE);
             if (tpg == NULL)
             {
                 Status = STATUS_INSUFFICIENT_RESOURCES;
                 break;
             }

             tpg->PrimaryGroup = (PSID)(tpg + 1);
             Status = RtlCopySid(SidLen,
                                 tpg->PrimaryGroup,
                                 Token->PrimaryGroup);

             /* Return the structure */
             *TokenInformation = tpg;
             Status = STATUS_SUCCESS;
             break;
         }

         case TokenDefaultDacl:
         {
             PTOKEN_DEFAULT_DACL tdd;

             DPRINT("SeQueryInformationToken(TokenDefaultDacl)\n");
             RequiredLength = sizeof(TOKEN_DEFAULT_DACL);

             if (Token->DefaultDacl != NULL)
                 RequiredLength += Token->DefaultDacl->AclSize;

             /* Allocate the output buffer */
             tdd = ExAllocatePoolWithTag(PagedPool, RequiredLength, TAG_SE);
             if (tdd == NULL)
             {
                 Status = STATUS_INSUFFICIENT_RESOURCES;
                 break;
             }

             if (Token->DefaultDacl != NULL)
             {
                 tdd->DefaultDacl = (PACL)(tdd + 1);
                 RtlCopyMemory(tdd->DefaultDacl,
                               Token->DefaultDacl,
                               Token->DefaultDacl->AclSize);
             }
             else
             {
                 tdd->DefaultDacl = NULL;
             }

             /* Return the structure */
             *TokenInformation = tdd;
             Status = STATUS_SUCCESS;
             break;
         }

         case TokenSource:
         {
             PTOKEN_SOURCE ts;

             DPRINT("SeQueryInformationToken(TokenSource)\n");
             RequiredLength = sizeof(TOKEN_SOURCE);

             /* Allocate the output buffer */
             ts = ExAllocatePoolWithTag(PagedPool, RequiredLength, TAG_SE);
             if (ts == NULL)
             {
                 Status = STATUS_INSUFFICIENT_RESOURCES;
                 break;
             }

             *ts = Token->TokenSource;

             /* Return the structure */
             *TokenInformation = ts;
             Status = STATUS_SUCCESS;
             break;
         }

         case TokenType:
         {
             PTOKEN_TYPE tt;

             DPRINT("SeQueryInformationToken(TokenType)\n");
             RequiredLength = sizeof(TOKEN_TYPE);

             /* Allocate the output buffer */
             tt = ExAllocatePoolWithTag(PagedPool, RequiredLength, TAG_SE);
             if (tt == NULL)
             {
                 Status = STATUS_INSUFFICIENT_RESOURCES;
                 break;
             }

             *tt = Token->TokenType;

             /* Return the structure */
             *TokenInformation = tt;
             Status = STATUS_SUCCESS;
             break;
         }

         case TokenImpersonationLevel:
         {
             PSECURITY_IMPERSONATION_LEVEL sil;

             DPRINT("SeQueryInformationToken(TokenImpersonationLevel)\n");
             RequiredLength = sizeof(SECURITY_IMPERSONATION_LEVEL);

             /* Fail if the token is not an impersonation token */
             if (Token->TokenType != TokenImpersonation)
             {
                 Status = STATUS_INVALID_INFO_CLASS;
                 break;
             }

             /* Allocate the output buffer */
             sil = ExAllocatePoolWithTag(PagedPool, RequiredLength, TAG_SE);
             if (sil == NULL)
             {
                 Status = STATUS_INSUFFICIENT_RESOURCES;
                 break;
             }

             *sil = Token->ImpersonationLevel;

             /* Return the structure */
             *TokenInformation = sil;
             Status = STATUS_SUCCESS;
             break;
         }

         case TokenStatistics:
         {
             PTOKEN_STATISTICS ts;

             DPRINT("SeQueryInformationToken(TokenStatistics)\n");
             RequiredLength = sizeof(TOKEN_STATISTICS);

             /* Allocate the output buffer */
             ts = ExAllocatePoolWithTag(PagedPool, RequiredLength, TAG_SE);
             if (ts == NULL)
             {
                 Status = STATUS_INSUFFICIENT_RESOURCES;
                 break;
             }

             ts->TokenId = Token->TokenId;
             ts->AuthenticationId = Token->AuthenticationId;
             ts->ExpirationTime = Token->ExpirationTime;
             ts->TokenType = Token->TokenType;
             ts->ImpersonationLevel = Token->ImpersonationLevel;
             ts->DynamicCharged = Token->DynamicCharged;
             ts->DynamicAvailable = Token->DynamicAvailable;
             ts->GroupCount = Token->UserAndGroupCount - 1;
             ts->PrivilegeCount = Token->PrivilegeCount;
             ts->ModifiedId = Token->ModifiedId;

             /* Return the structure */
             *TokenInformation = ts;
             Status = STATUS_SUCCESS;
             break;
         }

         case TokenSessionId:
         {
             DPRINT("SeQueryInformationToken(TokenSessionId)\n");
             Status = SeQuerySessionIdToken(Token, (PULONG)TokenInformation);
             break;
         }

         default:
             DPRINT1("SeQueryInformationToken(%d) invalid information class\n", TokenInformationClass);
             Status = STATUS_INVALID_INFO_CLASS;
             break;
     }

     /* Release the lock of the token */
     SepReleaseTokenLock(Token);

     return Status;
 }

 NTSTATUS
 NTAPI
 SeQuerySessionIdToken(
     _In_ PACCESS_TOKEN Token,
     _Out_ PULONG pSessionId)
 {
     PAGED_CODE();

     /* Lock the token */
     SepAcquireTokenLockShared(Token);

     *pSessionId = ((PTOKEN)Token)->SessionId;

     /* Unlock the token */
     SepReleaseTokenLock(Token);

     return STATUS_SUCCESS;
 }

 NTSTATUS
 NTAPI
 SeQueryAuthenticationIdToken(
     _In_ PACCESS_TOKEN Token,
     _Out_ PLUID LogonId)
 {
     PAGED_CODE();

     *LogonId = ((PTOKEN)Token)->AuthenticationId;

     return STATUS_SUCCESS;
 }

 SECURITY_IMPERSONATION_LEVEL
 NTAPI
 SeTokenImpersonationLevel(
     _In_ PACCESS_TOKEN Token)
 {
     PAGED_CODE();

     return ((PTOKEN)Token)->ImpersonationLevel;
 }

 TOKEN_TYPE
 NTAPI
 SeTokenType(
     _In_ PACCESS_TOKEN Token)
 {
     PAGED_CODE();

     return ((PTOKEN)Token)->TokenType;
 }

 BOOLEAN
 NTAPI
 SeTokenIsAdmin(
     _In_ PACCESS_TOKEN Token)
 {
     PAGED_CODE();

     // NOTE: Win7+ instead really checks the list of groups in the token
     // (since TOKEN_HAS_ADMIN_GROUP == TOKEN_WRITE_RESTRICTED ...)
     return (((PTOKEN)Token)->TokenFlags & TOKEN_HAS_ADMIN_GROUP) != 0;
 }

 BOOLEAN
 NTAPI
 SeTokenIsRestricted(
     _In_ PACCESS_TOKEN Token)
 {
     PAGED_CODE();

     return (((PTOKEN)Token)->TokenFlags & TOKEN_IS_RESTRICTED) != 0;
 }

 BOOLEAN
 NTAPI
 SeTokenIsWriteRestricted(
     _In_ PACCESS_TOKEN Token)
 {
     PAGED_CODE();

     // NOTE: NT 5.1 SP2 x86 checks the SE_BACKUP_PRIVILEGES_CHECKED flag
     // while Vista+ checks the TOKEN_WRITE_RESTRICTED flag as one expects.
     return (((PTOKEN)Token)->TokenFlags & SE_BACKUP_PRIVILEGES_CHECKED) != 0;
 }

 BOOLEAN
 NTAPI
 SeTokenCanImpersonate(
     _In_ PTOKEN ProcessToken,
     _In_ PTOKEN TokenToImpersonate,
     _In_ SECURITY_IMPERSONATION_LEVEL ImpersonationLevel)
 {
     BOOLEAN CanImpersonate;
     PAGED_CODE();

     /*
      * SecurityAnonymous and SecurityIdentification levels do not
      * allow impersonation. If we get such levels from the call
      * then something's seriously wrong.
      */
     ASSERT(ImpersonationLevel != SecurityAnonymous ||
            ImpersonationLevel != SecurityIdentification);

     /* Time to lock our tokens */
     SepAcquireTokenLockShared(ProcessToken);
     SepAcquireTokenLockShared(TokenToImpersonate);

     /* What kind of authentication ID does the token have? */
     if (RtlEqualLuid(&TokenToImpersonate->AuthenticationId,
                      &SeAnonymousAuthenticationId))
     {
         /*
          * OK, it looks like the token has an anonymous
          * authentication. Is that token created by the system?
          */
         if (TokenToImpersonate->TokenSource.SourceName != SeSystemTokenSource.SourceName &&
             !RtlEqualLuid(&TokenToImpersonate->TokenSource.SourceIdentifier, &SeSystemTokenSource.SourceIdentifier))
         {
             /* It isn't, we can't impersonate regular tokens */
             DPRINT("SeTokenCanImpersonate(): Token has an anonymous authentication ID, can't impersonate!\n");
             CanImpersonate = FALSE;
             goto Quit;
         }
     }

     /* Are the SID values from both tokens equal? */
     if (!RtlEqualSid(ProcessToken->UserAndGroups->Sid,
                      TokenToImpersonate->UserAndGroups->Sid))
     {
         /* They aren't, bail out */
         DPRINT("SeTokenCanImpersonate(): Tokens SIDs are not equal!\n");
         CanImpersonate = FALSE;
         goto Quit;
     }

     /*
      * Make sure the tokens aren't diverged in terms of
      * restrictions, that is, one token is restricted
      * but the other one isn't.
      */
     if (SeTokenIsRestricted(ProcessToken) !=
         SeTokenIsRestricted(TokenToImpersonate))
     {
         /*
          * One token is restricted so we cannot
          * continue further at this point, bail out.
          */
         DPRINT("SeTokenCanImpersonate(): One token is restricted, can't continue!\n");
         CanImpersonate = FALSE;
         goto Quit;
     }

     /* If we've reached that far then we can impersonate! */
     DPRINT("SeTokenCanImpersonate(): We can impersonate.\n");
     CanImpersonate = TRUE;

 Quit:
     /* We're done, unlock the tokens now */
     SepReleaseTokenLock(ProcessToken);
     SepReleaseTokenLock(TokenToImpersonate);

     return CanImpersonate;
 }

 /* SYSTEM CALLS ***************************************************************/

 _Must_inspect_result_
 __kernel_entry
 NTSTATUS
 NTAPI
 NtQueryInformationToken(
     _In_ HANDLE TokenHandle,
     _In_ TOKEN_INFORMATION_CLASS TokenInformationClass,
     _Out_writes_bytes_to_opt_(TokenInformationLength, *ReturnLength)
         PVOID TokenInformation,
     _In_ ULONG TokenInformationLength,
     _Out_ PULONG ReturnLength)
 {
     NTSTATUS Status;
     KPROCESSOR_MODE PreviousMode;
     PTOKEN Token;
     ULONG RequiredLength;
     union
     {
         PSID PSid;
         ULONG Ulong;
     } Unused;

     PAGED_CODE();

     PreviousMode = ExGetPreviousMode();

     /* Check buffers and class validity */
     Status = DefaultQueryInfoBufferCheck(TokenInformationClass,
                                          SeTokenInformationClass,
                                          RTL_NUMBER_OF(SeTokenInformationClass),
                                          TokenInformation,
                                          TokenInformationLength,
                                          ReturnLength,
                                          NULL,
                                          PreviousMode,
                                          TRUE);
     if (!NT_SUCCESS(Status))
     {
         DPRINT("NtQueryInformationToken() failed, Status: 0x%x\n", Status);
         return Status;
     }

     Status = ObReferenceObjectByHandle(TokenHandle,
                                        (TokenInformationClass == TokenSource) ? TOKEN_QUERY_SOURCE : TOKEN_QUERY,
                                        SeTokenObjectType,
                                        PreviousMode,
                                        (PVOID*)&Token,
                                        NULL);
     if (NT_SUCCESS(Status))
     {
         /* Lock the token */
         SepAcquireTokenLockShared(Token);

         switch (TokenInformationClass)
         {
             case TokenUser:
             {
                 PTOKEN_USER tu = (PTOKEN_USER)TokenInformation;

                 DPRINT("NtQueryInformationToken(TokenUser)\n");
                 RequiredLength = sizeof(TOKEN_USER) +
                     RtlLengthSid(Token->UserAndGroups[0].Sid);

                 _SEH2_TRY
                 {
                     if (TokenInformationLength >= RequiredLength)
                     {
                         Status = RtlCopySidAndAttributesArray(1,
                                                               &Token->UserAndGroups[0],
                                                               RequiredLength - sizeof(TOKEN_USER),
                                                               &tu->User,
                                                               (PSID)(tu + 1),
                                                               &Unused.PSid,
                                                               &Unused.Ulong);
                     }
                     else
                     {
                         Status = STATUS_BUFFER_TOO_SMALL;
                     }

                     if (ReturnLength != NULL)
                     {
                         *ReturnLength = RequiredLength;
                     }
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                 }
                 _SEH2_END;

                 break;
             }

             case TokenGroups:
             {
                 PTOKEN_GROUPS tg = (PTOKEN_GROUPS)TokenInformation;

                 DPRINT("NtQueryInformationToken(TokenGroups)\n");
                 RequiredLength = sizeof(tg->GroupCount) +
                     RtlLengthSidAndAttributes(Token->UserAndGroupCount - 1, &Token->UserAndGroups[1]);

                 _SEH2_TRY
                 {
                     if (TokenInformationLength >= RequiredLength)
                     {
                         ULONG SidLen = RequiredLength - sizeof(tg->GroupCount) -
                             ((Token->UserAndGroupCount - 1) * sizeof(SID_AND_ATTRIBUTES));
                         PSID Sid = (PSID_AND_ATTRIBUTES)((ULONG_PTR)tg + sizeof(tg->GroupCount) +
                                                          ((Token->UserAndGroupCount - 1) * sizeof(SID_AND_ATTRIBUTES)));

                         tg->GroupCount = Token->UserAndGroupCount - 1;
                         Status = RtlCopySidAndAttributesArray(Token->UserAndGroupCount - 1,
                                                               &Token->UserAndGroups[1],
                                                               SidLen,
                                                               &tg->Groups[0],
                                                               Sid,
                                                               &Unused.PSid,
                                                               &Unused.Ulong);
                     }
                     else
                     {
                         Status = STATUS_BUFFER_TOO_SMALL;
                     }

                     if (ReturnLength != NULL)
                     {
                         *ReturnLength = RequiredLength;
                     }
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                 }
                 _SEH2_END;

                 break;
             }

             case TokenPrivileges:
             {
                 PTOKEN_PRIVILEGES tp = (PTOKEN_PRIVILEGES)TokenInformation;

                 DPRINT("NtQueryInformationToken(TokenPrivileges)\n");
                 RequiredLength = sizeof(tp->PrivilegeCount) +
                     (Token->PrivilegeCount * sizeof(LUID_AND_ATTRIBUTES));

                 _SEH2_TRY
                 {
                     if (TokenInformationLength >= RequiredLength)
                     {
                         tp->PrivilegeCount = Token->PrivilegeCount;
                         RtlCopyLuidAndAttributesArray(Token->PrivilegeCount,
                                                       Token->Privileges,
                                                       &tp->Privileges[0]);
                     }
                     else
                     {
                         Status = STATUS_BUFFER_TOO_SMALL;
                     }

                     if (ReturnLength != NULL)
                     {
                         *ReturnLength = RequiredLength;
                     }
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                 }
                 _SEH2_END;

                 break;
             }

             case TokenOwner:
             {
                 PTOKEN_OWNER to = (PTOKEN_OWNER)TokenInformation;
                 ULONG SidLen;

                 DPRINT("NtQueryInformationToken(TokenOwner)\n");
                 SidLen = RtlLengthSid(Token->UserAndGroups[Token->DefaultOwnerIndex].Sid);
                 RequiredLength = sizeof(TOKEN_OWNER) + SidLen;

                 _SEH2_TRY
                 {
                     if (TokenInformationLength >= RequiredLength)
                     {
                         to->Owner = (PSID)(to + 1);
                         Status = RtlCopySid(SidLen,
                                             to->Owner,
                                             Token->UserAndGroups[Token->DefaultOwnerIndex].Sid);
                     }
                     else
                     {
                         Status = STATUS_BUFFER_TOO_SMALL;
                     }

                     if (ReturnLength != NULL)
                     {
                         *ReturnLength = RequiredLength;
                     }
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                 }
                 _SEH2_END;

                 break;
             }

             case TokenPrimaryGroup:
             {
                 PTOKEN_PRIMARY_GROUP tpg = (PTOKEN_PRIMARY_GROUP)TokenInformation;
                 ULONG SidLen;

                 DPRINT("NtQueryInformationToken(TokenPrimaryGroup)\n");
                 SidLen = RtlLengthSid(Token->PrimaryGroup);
                 RequiredLength = sizeof(TOKEN_PRIMARY_GROUP) + SidLen;

                 _SEH2_TRY
                 {
                     if (TokenInformationLength >= RequiredLength)
                     {
                         tpg->PrimaryGroup = (PSID)(tpg + 1);
                         Status = RtlCopySid(SidLen,
                                             tpg->PrimaryGroup,
                                             Token->PrimaryGroup);
                     }
                     else
                     {
                         Status = STATUS_BUFFER_TOO_SMALL;
                     }

                     if (ReturnLength != NULL)
                     {
                         *ReturnLength = RequiredLength;
                     }
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                 }
                 _SEH2_END;

                 break;
             }

             case TokenDefaultDacl:
             {
                 PTOKEN_DEFAULT_DACL tdd = (PTOKEN_DEFAULT_DACL)TokenInformation;

                 DPRINT("NtQueryInformationToken(TokenDefaultDacl)\n");
                 RequiredLength = sizeof(TOKEN_DEFAULT_DACL);

                 if (Token->DefaultDacl != NULL)
                     RequiredLength += Token->DefaultDacl->AclSize;

                 _SEH2_TRY
                 {
                     if (TokenInformationLength >= RequiredLength)
                     {
                         if (Token->DefaultDacl != NULL)
                         {
                             tdd->DefaultDacl = (PACL)(tdd + 1);
                             RtlCopyMemory(tdd->DefaultDacl,
                                           Token->DefaultDacl,
                                           Token->DefaultDacl->AclSize);
                         }
                         else
                         {
                             tdd->DefaultDacl = NULL;
                         }
                     }
                     else
                     {
                         Status = STATUS_BUFFER_TOO_SMALL;
                     }

                     if (ReturnLength != NULL)
                     {
                         *ReturnLength = RequiredLength;
                     }
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                 }
                 _SEH2_END;

                 break;
             }

             case TokenSource:
             {
                 PTOKEN_SOURCE ts = (PTOKEN_SOURCE)TokenInformation;

                 DPRINT("NtQueryInformationToken(TokenSource)\n");
                 RequiredLength = sizeof(TOKEN_SOURCE);

                 _SEH2_TRY
                 {
                     if (TokenInformationLength >= RequiredLength)
                     {
                         *ts = Token->TokenSource;
                     }
                     else
                     {
                         Status = STATUS_BUFFER_TOO_SMALL;
                     }

                     if (ReturnLength != NULL)
                     {
                         *ReturnLength = RequiredLength;
                     }
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                 }
                 _SEH2_END;

                 break;
             }

             case TokenType:
             {
                 PTOKEN_TYPE tt = (PTOKEN_TYPE)TokenInformation;

                 DPRINT("NtQueryInformationToken(TokenType)\n");
                 RequiredLength = sizeof(TOKEN_TYPE);

                 _SEH2_TRY
                 {
                     if (TokenInformationLength >= RequiredLength)
                     {
                         *tt = Token->TokenType;
                     }
                     else
                     {
                         Status = STATUS_BUFFER_TOO_SMALL;
                     }

                     if (ReturnLength != NULL)
                     {
                         *ReturnLength = RequiredLength;
                     }
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                 }
                 _SEH2_END;

                 break;
             }

             case TokenImpersonationLevel:
             {
                 PSECURITY_IMPERSONATION_LEVEL sil = (PSECURITY_IMPERSONATION_LEVEL)TokenInformation;

                 DPRINT("NtQueryInformationToken(TokenImpersonationLevel)\n");

                 /* Fail if the token is not an impersonation token */
                 if (Token->TokenType != TokenImpersonation)
                 {
                     Status = STATUS_INVALID_INFO_CLASS;
                     break;
                 }

                 RequiredLength = sizeof(SECURITY_IMPERSONATION_LEVEL);

                 _SEH2_TRY
                 {
                     if (TokenInformationLength >= RequiredLength)
                     {
                         *sil = Token->ImpersonationLevel;
                     }
                     else
                     {
                         Status = STATUS_BUFFER_TOO_SMALL;
                     }

                     if (ReturnLength != NULL)
                     {
                         *ReturnLength = RequiredLength;
                     }
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                 }
                 _SEH2_END;

                 break;
             }

             case TokenStatistics:
             {
                 PTOKEN_STATISTICS ts = (PTOKEN_STATISTICS)TokenInformation;

                 DPRINT("NtQueryInformationToken(TokenStatistics)\n");
                 RequiredLength = sizeof(TOKEN_STATISTICS);

                 _SEH2_TRY
                 {
                     if (TokenInformationLength >= RequiredLength)
                     {
                         ts->TokenId = Token->TokenId;
                         ts->AuthenticationId = Token->AuthenticationId;
                         ts->ExpirationTime = Token->ExpirationTime;
                         ts->TokenType = Token->TokenType;
                         ts->ImpersonationLevel = Token->ImpersonationLevel;
                         ts->DynamicCharged = Token->DynamicCharged;
                         ts->DynamicAvailable = Token->DynamicAvailable;
                         ts->GroupCount = Token->UserAndGroupCount - 1;
                         ts->PrivilegeCount = Token->PrivilegeCount;
                         ts->ModifiedId = Token->ModifiedId;
                     }
                     else
                     {
                         Status = STATUS_BUFFER_TOO_SMALL;
                     }

                     if (ReturnLength != NULL)
                     {
                         *ReturnLength = RequiredLength;
                     }
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                 }
                 _SEH2_END;

                 break;
             }

             case TokenOrigin:
             {
                 PTOKEN_ORIGIN to = (PTOKEN_ORIGIN)TokenInformation;

                 DPRINT("NtQueryInformationToken(TokenOrigin)\n");
                 RequiredLength = sizeof(TOKEN_ORIGIN);

                 _SEH2_TRY
                 {
                     if (TokenInformationLength >= RequiredLength)
                     {
                         RtlCopyLuid(&to->OriginatingLogonSession,
                                     &Token->AuthenticationId);
                     }
                     else
                     {
                         Status = STATUS_BUFFER_TOO_SMALL;
                     }

                     if (ReturnLength != NULL)
                     {
                         *ReturnLength = RequiredLength;
                     }
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                 }
                 _SEH2_END;

                 break;
             }

             case TokenGroupsAndPrivileges:
                 DPRINT1("NtQueryInformationToken(TokenGroupsAndPrivileges) not implemented\n");
                 Status = STATUS_NOT_IMPLEMENTED;
                 break;

             case TokenRestrictedSids:
             {
                 PTOKEN_GROUPS tg = (PTOKEN_GROUPS)TokenInformation;

                 DPRINT("NtQueryInformationToken(TokenRestrictedSids)\n");
                 RequiredLength = sizeof(tg->GroupCount) +
                 RtlLengthSidAndAttributes(Token->RestrictedSidCount, Token->RestrictedSids);

                 _SEH2_TRY
                 {
                     if (TokenInformationLength >= RequiredLength)
                     {
                         ULONG SidLen = RequiredLength - sizeof(tg->GroupCount) -
                             (Token->RestrictedSidCount * sizeof(SID_AND_ATTRIBUTES));
                         PSID Sid = (PSID)((ULONG_PTR)tg + sizeof(tg->GroupCount) +
                                           (Token->RestrictedSidCount * sizeof(SID_AND_ATTRIBUTES)));

                         tg->GroupCount = Token->RestrictedSidCount;
                         Status = RtlCopySidAndAttributesArray(Token->RestrictedSidCount,
                                                               Token->RestrictedSids,
                                                               SidLen,
                                                               &tg->Groups[0],
                                                               Sid,
                                                               &Unused.PSid,
                                                               &Unused.Ulong);
                     }
                     else
                     {
                         Status = STATUS_BUFFER_TOO_SMALL;
                     }

                     if (ReturnLength != NULL)
                     {
                         *ReturnLength = RequiredLength;
                     }
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                 }
                 _SEH2_END;

                 break;
             }

             case TokenSandBoxInert:
                 DPRINT1("NtQueryInformationToken(TokenSandboxInert) not implemented\n");
                 Status = STATUS_NOT_IMPLEMENTED;
                 break;

             case TokenSessionId:
             {
                 ULONG SessionId = 0;

                 DPRINT("NtQueryInformationToken(TokenSessionId)\n");

                 Status = SeQuerySessionIdToken(Token, &SessionId);
                 if (NT_SUCCESS(Status))
                 {
                     _SEH2_TRY
                     {
                         /* Buffer size was already verified, no need to check here again */
                         *(PULONG)TokenInformation = SessionId;

                         if (ReturnLength != NULL)
                         {
                             *ReturnLength = sizeof(ULONG);
                         }
                     }
                     _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                     {
                         Status = _SEH2_GetExceptionCode();
                     }
                     _SEH2_END;
                 }

                 break;
             }

             default:
                 DPRINT1("NtQueryInformationToken(%d) invalid information class\n", TokenInformationClass);
                 Status = STATUS_INVALID_INFO_CLASS;
                 break;
         }

         /* Unlock and dereference the token */
         SepReleaseTokenLock(Token);
         ObDereferenceObject(Token);
     }

     return Status;
 }

 _Must_inspect_result_
 __kernel_entry
 NTSTATUS
 NTAPI
 NtSetInformationToken(
     _In_ HANDLE TokenHandle,
     _In_ TOKEN_INFORMATION_CLASS TokenInformationClass,
     _In_reads_bytes_(TokenInformationLength) PVOID TokenInformation,
     _In_ ULONG TokenInformationLength)
 {
     NTSTATUS Status;
     PTOKEN Token;
     KPROCESSOR_MODE PreviousMode;
     ULONG NeededAccess = TOKEN_ADJUST_DEFAULT;

     PAGED_CODE();

     PreviousMode = ExGetPreviousMode();

     Status = DefaultSetInfoBufferCheck(TokenInformationClass,
                                        SeTokenInformationClass,
                                        RTL_NUMBER_OF(SeTokenInformationClass),
                                        TokenInformation,
                                        TokenInformationLength,
                                        PreviousMode);
     if (!NT_SUCCESS(Status))
     {
         /* Invalid buffers */
         DPRINT("NtSetInformationToken() failed, Status: 0x%x\n", Status);
         return Status;
     }

     if (TokenInformationClass == TokenSessionId)
     {
         NeededAccess |= TOKEN_ADJUST_SESSIONID;
     }

     Status = ObReferenceObjectByHandle(TokenHandle,
                                        NeededAccess,
                                        SeTokenObjectType,
                                        PreviousMode,
                                        (PVOID*)&Token,
                                        NULL);
     if (NT_SUCCESS(Status))
     {
         switch (TokenInformationClass)
         {
             case TokenOwner:
             {
                 if (TokenInformationLength >= sizeof(TOKEN_OWNER))
                 {
                     PTOKEN_OWNER to = (PTOKEN_OWNER)TokenInformation;
                     PSID InputSid = NULL, CapturedSid;
                     ULONG DefaultOwnerIndex;

                     _SEH2_TRY
                     {
                         InputSid = to->Owner;
                     }
                     _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                     {
                         Status = _SEH2_GetExceptionCode();
                         _SEH2_YIELD(goto Cleanup);
                     }
                     _SEH2_END;

                     Status = SepCaptureSid(InputSid,
                                            PreviousMode,
                                            PagedPool,
                                            FALSE,
                                            &CapturedSid);
                     if (NT_SUCCESS(Status))
                     {
                         /* Lock the token */
                         SepAcquireTokenLockExclusive(Token);

                         /* Find the owner amongst the existing token user and groups */
                         Status = SepFindPrimaryGroupAndDefaultOwner(Token,
                                                                     NULL,
                                                                     CapturedSid,
                                                                     NULL,
                                                                     &DefaultOwnerIndex);
                         if (NT_SUCCESS(Status))
                         {
                             /* Found it */
                             Token->DefaultOwnerIndex = DefaultOwnerIndex;
                             ExAllocateLocallyUniqueId(&Token->ModifiedId);
                         }

                         /* Unlock the token */
                         SepReleaseTokenLock(Token);

                         SepReleaseSid(CapturedSid,
                                       PreviousMode,
                                       FALSE);
                     }
                 }
                 else
                 {
                     Status = STATUS_INFO_LENGTH_MISMATCH;
                 }
                 break;
             }

             case TokenPrimaryGroup:
             {
                 if (TokenInformationLength >= sizeof(TOKEN_PRIMARY_GROUP))
                 {
                     PTOKEN_PRIMARY_GROUP tpg = (PTOKEN_PRIMARY_GROUP)TokenInformation;
                     PSID InputSid = NULL, CapturedSid;
                     ULONG PrimaryGroupIndex;

                     _SEH2_TRY
                     {
                         InputSid = tpg->PrimaryGroup;
                     }
                     _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                     {
                         Status = _SEH2_GetExceptionCode();
                         _SEH2_YIELD(goto Cleanup);
                     }
                     _SEH2_END;

                     Status = SepCaptureSid(InputSid,
                                            PreviousMode,
                                            PagedPool,
                                            FALSE,
                                            &CapturedSid);
                     if (NT_SUCCESS(Status))
                     {
                         /* Lock the token */
                         SepAcquireTokenLockExclusive(Token);

                         /* Find the primary group amongst the existing token user and groups */
                         Status = SepFindPrimaryGroupAndDefaultOwner(Token,
                                                                     CapturedSid,
                                                                     NULL,
                                                                     &PrimaryGroupIndex,
                                                                     NULL);
                         if (NT_SUCCESS(Status))
                         {
                             /* Found it */
                             Token->PrimaryGroup = Token->UserAndGroups[PrimaryGroupIndex].Sid;
                             ExAllocateLocallyUniqueId(&Token->ModifiedId);
                         }

                         /* Unlock the token */
                         SepReleaseTokenLock(Token);

                         SepReleaseSid(CapturedSid,
                                       PreviousMode,
                                       FALSE);
                     }
                 }
                 else
                 {
                     Status = STATUS_INFO_LENGTH_MISMATCH;
                 }
                 break;
             }

             case TokenDefaultDacl:
             {
                 if (TokenInformationLength >= sizeof(TOKEN_DEFAULT_DACL))
                 {
                     PTOKEN_DEFAULT_DACL tdd = (PTOKEN_DEFAULT_DACL)TokenInformation;
                     PACL InputAcl = NULL;

                     _SEH2_TRY
                     {
                         InputAcl = tdd->DefaultDacl;
                     }
                     _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                     {
                         Status = _SEH2_GetExceptionCode();
                         _SEH2_YIELD(goto Cleanup);
                     }
                     _SEH2_END;

                     if (InputAcl != NULL)
                     {
                         PACL CapturedAcl;

                         /* Capture and copy the dacl */
                         Status = SepCaptureAcl(InputAcl,
                                                PreviousMode,
                                                PagedPool,
                                                TRUE,
                                                &CapturedAcl);
                         if (NT_SUCCESS(Status))
                         {
                             ULONG DynamicLength;

                             /* Lock the token */
                             SepAcquireTokenLockExclusive(Token);

                             //
                             // NOTE: So far our dynamic area only contains
                             // the default dacl, so this makes the following
                             // code pretty simple. The day where it stores
                             // other data, the code will require adaptations.
                             //

                             DynamicLength = Token->DynamicAvailable;
                             // Add here any other data length present in the dynamic area...
                             if (Token->DefaultDacl)
                                 DynamicLength += Token->DefaultDacl->AclSize;

                             /* Reallocate the dynamic area if it is too small */
                             Status = STATUS_SUCCESS;
                             if ((DynamicLength < CapturedAcl->AclSize) ||
                                 (Token->DynamicPart == NULL))
                             {
                                 PVOID NewDynamicPart;

                                 NewDynamicPart = ExAllocatePoolWithTag(PagedPool,
                                                                        CapturedAcl->AclSize,
                                                                        TAG_TOKEN_DYNAMIC);
                                 if (NewDynamicPart == NULL)
                                 {
                                     Status = STATUS_INSUFFICIENT_RESOURCES;
                                 }
                                 else
                                 {
                                     if (Token->DynamicPart != NULL)
                                     {
                                         // RtlCopyMemory(NewDynamicPart, Token->DynamicPart, DynamicLength);
                                         ExFreePoolWithTag(Token->DynamicPart, TAG_TOKEN_DYNAMIC);
                                     }
                                     Token->DynamicPart = NewDynamicPart;
                                     Token->DynamicAvailable = 0;
                                 }
                             }
                             else
                             {
                                 Token->DynamicAvailable = DynamicLength - CapturedAcl->AclSize;
                             }

                             if (NT_SUCCESS(Status))
                             {
                                 /* Set the new dacl */
                                 Token->DefaultDacl = (PVOID)Token->DynamicPart;
                                 RtlCopyMemory(Token->DefaultDacl,
                                               CapturedAcl,
                                               CapturedAcl->AclSize);

                                 ExAllocateLocallyUniqueId(&Token->ModifiedId);
                             }

                             /* Unlock the token */
                             SepReleaseTokenLock(Token);

                             ExFreePoolWithTag(CapturedAcl, TAG_ACL);
                         }
                     }
                     else
                     {
                         /* Lock the token */
                         SepAcquireTokenLockExclusive(Token);

                         /* Clear the default dacl if present */
                         if (Token->DefaultDacl != NULL)
                         {
                             Token->DynamicAvailable += Token->DefaultDacl->AclSize;
                             RtlZeroMemory(Token->DefaultDacl, Token->DefaultDacl->AclSize);
                             Token->DefaultDacl = NULL;

                             ExAllocateLocallyUniqueId(&Token->ModifiedId);
                         }

                         /* Unlock the token */
                         SepReleaseTokenLock(Token);
                     }
                 }
                 else
                 {
                     Status = STATUS_INFO_LENGTH_MISMATCH;
                 }
                 break;
             }

             case TokenSessionId:
             {
                 ULONG SessionId = 0;

                 _SEH2_TRY
                 {
                     /* Buffer size was already verified, no need to check here again */
                     SessionId = *(PULONG)TokenInformation;
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                     _SEH2_YIELD(goto Cleanup);
                 }
                 _SEH2_END;

                 /* Check for TCB privilege */
                 if (!SeSinglePrivilegeCheck(SeTcbPrivilege, PreviousMode))
                 {
                     Status = STATUS_PRIVILEGE_NOT_HELD;
                     break;
                 }

                 /* Lock the token */
                 SepAcquireTokenLockExclusive(Token);

                 Token->SessionId = SessionId;
                 ExAllocateLocallyUniqueId(&Token->ModifiedId);

                 /* Unlock the token */
                 SepReleaseTokenLock(Token);

                 break;
             }

             case TokenSessionReference:
             {
                 ULONG SessionReference;

                 _SEH2_TRY
                 {
                     /* Buffer size was already verified, no need to check here again */
                     SessionReference = *(PULONG)TokenInformation;
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                     _SEH2_YIELD(goto Cleanup);
                 }
                 _SEH2_END;

                 /* Check for TCB privilege */
                 if (!SeSinglePrivilegeCheck(SeTcbPrivilege, PreviousMode))
                 {
                     Status = STATUS_PRIVILEGE_NOT_HELD;
                     goto Cleanup;
                 }

                 /* Check if it is 0 */
                 if (SessionReference == 0)
                 {
                     ULONG OldTokenFlags;

                     /* Lock the token */
                     SepAcquireTokenLockExclusive(Token);

                     /* Atomically set the flag in the token */
                     OldTokenFlags = RtlInterlockedSetBits(&Token->TokenFlags,
                                                           TOKEN_SESSION_NOT_REFERENCED);
                     /*
                      * If the flag was already set, do not dereference again
                      * the logon session. Use SessionReference as an indicator
                      * to know whether to really dereference the session.
                      */
                     if (OldTokenFlags == Token->TokenFlags)
                         SessionReference = ULONG_MAX;

                     /*
                      * Otherwise if the flag was never set but just for this first time then
                      * remove the referenced logon session data from the token and dereference
                      * the logon session when needed.
                      */
                     if (SessionReference == 0)
                     {
                         SepRmRemoveLogonSessionFromToken(Token);
                         SepRmDereferenceLogonSession(&Token->AuthenticationId);
                     }

                     /* Unlock the token */
                     SepReleaseTokenLock(Token);
                 }
                 break;
             }

             case TokenAuditPolicy:
             {
                 PTOKEN_AUDIT_POLICY_INFORMATION PolicyInformation =
                     (PTOKEN_AUDIT_POLICY_INFORMATION)TokenInformation;
                 SEP_AUDIT_POLICY AuditPolicy;
                 ULONG i;

                 _SEH2_TRY
                 {
                     ProbeForRead(PolicyInformation,
                                  FIELD_OFFSET(TOKEN_AUDIT_POLICY_INFORMATION,
                                               Policies[PolicyInformation->PolicyCount]),
                                  sizeof(ULONG));

                     /* Loop all policies in the structure */
                     for (i = 0; i < PolicyInformation->PolicyCount; i++)
                     {
                         /* Set the corresponding bits in the packed structure */
                         switch (PolicyInformation->Policies[i].Category)
                         {
                             case AuditCategorySystem:
                                 AuditPolicy.PolicyElements.System = PolicyInformation->Policies[i].Value;
                                 break;

                             case AuditCategoryLogon:
                                 AuditPolicy.PolicyElements.Logon = PolicyInformation->Policies[i].Value;
                                 break;

                             case AuditCategoryObjectAccess:
                                 AuditPolicy.PolicyElements.ObjectAccess = PolicyInformation->Policies[i].Value;
                                 break;

                             case AuditCategoryPrivilegeUse:
                                 AuditPolicy.PolicyElements.PrivilegeUse = PolicyInformation->Policies[i].Value;
                                 break;

                             case AuditCategoryDetailedTracking:
                                 AuditPolicy.PolicyElements.DetailedTracking = PolicyInformation->Policies[i].Value;
                                 break;

                             case AuditCategoryPolicyChange:
                                 AuditPolicy.PolicyElements.PolicyChange = PolicyInformation->Policies[i].Value;
                                 break;

                             case AuditCategoryAccountManagement:
                                 AuditPolicy.PolicyElements.AccountManagement = PolicyInformation->Policies[i].Value;
                                 break;

                             case AuditCategoryDirectoryServiceAccess:
                                 AuditPolicy.PolicyElements.DirectoryServiceAccess = PolicyInformation->Policies[i].Value;
                                 break;

                             case AuditCategoryAccountLogon:
                                 AuditPolicy.PolicyElements.AccountLogon = PolicyInformation->Policies[i].Value;
                                 break;
                         }
                     }
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                     _SEH2_YIELD(goto Cleanup);
                 }
                 _SEH2_END;

                 /* Check for TCB privilege */
                 if (!SeSinglePrivilegeCheck(SeTcbPrivilege, PreviousMode))
                 {
                     Status = STATUS_PRIVILEGE_NOT_HELD;
                     break;
                 }

                 /* Lock the token */
                 SepAcquireTokenLockExclusive(Token);

                 /* Set the new audit policy */
                 Token->AuditPolicy = AuditPolicy;
                 ExAllocateLocallyUniqueId(&Token->ModifiedId);

                 /* Unlock the token */
                 SepReleaseTokenLock(Token);

                 break;
             }

             case TokenOrigin:
             {
                 TOKEN_ORIGIN TokenOrigin;

                 _SEH2_TRY
                 {
                     /* Copy the token origin */
                     TokenOrigin = *(PTOKEN_ORIGIN)TokenInformation;
                 }
                 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
                 {
                     Status = _SEH2_GetExceptionCode();
                     _SEH2_YIELD(goto Cleanup);
                 }
                 _SEH2_END;

                 /* Check for TCB privilege */
                 if (!SeSinglePrivilegeCheck(SeTcbPrivilege, PreviousMode))
                 {
                     Status = STATUS_PRIVILEGE_NOT_HELD;
                     break;
                 }

                 /* Lock the token */
                 SepAcquireTokenLockExclusive(Token);

                 /* Check if there is no token origin set yet */
                 if (RtlIsZeroLuid(&Token->OriginatingLogonSession))
                 {
                     /* Set the token origin */
                     Token->OriginatingLogonSession =
                         TokenOrigin.OriginatingLogonSession;

                     ExAllocateLocallyUniqueId(&Token->ModifiedId);
                 }

                 /* Unlock the token */
                 SepReleaseTokenLock(Token);

                 break;
             }

             default:
             {
                 DPRINT1("Invalid TokenInformationClass: 0x%lx\n",
                         TokenInformationClass);
                 Status = STATUS_INVALID_INFO_CLASS;
                 break;
             }
         }
 Cleanup:
         ObDereferenceObject(Token);
     }

     if (!NT_SUCCESS(Status))
     {
         DPRINT1("NtSetInformationToken failed with Status 0x%lx\n", Status);
     }

     return Status;
 }

 _Must_inspect_result_
 __kernel_entry
 NTSTATUS
 NTAPI
 NtDuplicateToken(
     _In_ HANDLE ExistingTokenHandle,
     _In_ ACCESS_MASK DesiredAccess,
     _In_opt_ POBJECT_ATTRIBUTES ObjectAttributes,
     _In_ BOOLEAN EffectiveOnly,
     _In_ TOKEN_TYPE TokenType,
     _Out_ PHANDLE NewTokenHandle)
 {
     KPROCESSOR_MODE PreviousMode;
     HANDLE hToken;
     PTOKEN Token;
     PTOKEN NewToken;
     PSECURITY_QUALITY_OF_SERVICE CapturedSecurityQualityOfService;
     BOOLEAN QoSPresent;
     OBJECT_HANDLE_INFORMATION HandleInformation;
     NTSTATUS Status;

     PAGED_CODE();

     if (TokenType != TokenImpersonation &&
         TokenType != TokenPrimary)
     {
         return STATUS_INVALID_PARAMETER;
     }

     PreviousMode = KeGetPreviousMode();

     if (PreviousMode != KernelMode)
     {
         _SEH2_TRY
         {
             ProbeForWriteHandle(NewTokenHandle);
         }
         _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
         {
             /* Return the exception code */
             _SEH2_YIELD(return _SEH2_GetExceptionCode());
         }
         _SEH2_END;
     }

     Status = SepCaptureSecurityQualityOfService(ObjectAttributes,
                                                 PreviousMode,
                                                 PagedPool,
                                                 FALSE,
                                                 &CapturedSecurityQualityOfService,
                                                 &QoSPresent);
     if (!NT_SUCCESS(Status))
     {
         DPRINT1("NtDuplicateToken() failed to capture QoS! Status: 0x%x\n", Status);
         return Status;
     }

     Status = ObReferenceObjectByHandle(ExistingTokenHandle,
                                        TOKEN_DUPLICATE,
                                        SeTokenObjectType,
                                        PreviousMode,
                                        (PVOID*)&Token,
                                        &HandleInformation);
     if (!NT_SUCCESS(Status))
     {
         DPRINT1("Failed to reference token (Status 0x%lx)\n", Status);
         SepReleaseSecurityQualityOfService(CapturedSecurityQualityOfService,
                                            PreviousMode,
                                            FALSE);
         return Status;
     }

     /*
      * Fail, if the original token is an impersonation token and the caller
      * tries to raise the impersonation level of the new token above the
      * impersonation level of the original token.
      */
     if (Token->TokenType == TokenImpersonation)
     {
         if (QoSPresent &&
             CapturedSecurityQualityOfService->ImpersonationLevel >Token->ImpersonationLevel)
         {
             ObDereferenceObject(Token);
             SepReleaseSecurityQualityOfService(CapturedSecurityQualityOfService,
                                                PreviousMode,
                                                FALSE);
             return STATUS_BAD_IMPERSONATION_LEVEL;
         }
     }

     /*
      * Fail, if a primary token is to be created from an impersonation token
      * and and the impersonation level of the impersonation token is below SecurityImpersonation.
      */
     if (Token->TokenType == TokenImpersonation &&
         TokenType == TokenPrimary &&
         Token->ImpersonationLevel < SecurityImpersonation)
     {
         ObDereferenceObject(Token);
         SepReleaseSecurityQualityOfService(CapturedSecurityQualityOfService,
                                            PreviousMode,
                                            FALSE);
         return STATUS_BAD_IMPERSONATION_LEVEL;
     }

     Status = SepDuplicateToken(Token,
                                ObjectAttributes,
                                EffectiveOnly,
                                TokenType,
                                (QoSPresent ? CapturedSecurityQualityOfService->ImpersonationLevel : SecurityAnonymous),
                                PreviousMode,
                                &NewToken);

     ObDereferenceObject(Token);

     if (NT_SUCCESS(Status))
     {
         Status = ObInsertObject(NewToken,
                                 NULL,
                                 (DesiredAccess ? DesiredAccess : HandleInformation.GrantedAccess),
                                 0,
                                 NULL,
                                 &hToken);
         if (NT_SUCCESS(Status))
         {
             _SEH2_TRY
             {
                 *NewTokenHandle = hToken;
             }
             _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
             {
                 Status = _SEH2_GetExceptionCode();
             }
             _SEH2_END;
         }
     }

     /* Free the captured structure */
     SepReleaseSecurityQualityOfService(CapturedSecurityQualityOfService,
                                        PreviousMode,
                                        FALSE);

     return Status;
 }

 static
 NTSTATUS
 SepAdjustGroups(
     _In_ PTOKEN Token,
     _In_opt_ PSID_AND_ATTRIBUTES NewState,
     _In_ ULONG NewStateCount,
     _In_ BOOLEAN ApplyChanges,
     _In_ BOOLEAN ResetToDefaultStates,
     _Out_ PBOOLEAN ChangesMade,
     _Out_opt_ PTOKEN_GROUPS PreviousGroupsState,
     _Out_ PULONG ChangedGroups)
 {
     ULONG GroupsInToken, GroupsInList;
     ULONG ChangeCount, GroupsCount, NewAttributes;

     PAGED_CODE();

     /* Ensure that the token we get is not plain garbage */
     ASSERT(Token);

     /* Initialize the counters and begin the work */
     *ChangesMade = FALSE;
     GroupsCount = 0;
     ChangeCount = 0;

     /* Begin looping all the groups in the token */
     for (GroupsInToken = 0; GroupsInToken < Token->UserAndGroupCount; GroupsInToken++)
     {
         /* Does the caller want to reset groups to default states? */
         if (ResetToDefaultStates)
         {
             /*
              * SE_GROUP_ENABLED_BY_DEFAULT is a special indicator that informs us
              * if a certain group has been enabled by default or not. In case
              * a group is enabled by default but it is not currently enabled then
              * at that point we must enable it back by default. For now just
              * assign the respective SE_GROUP_ENABLED attribute as we'll do the
              * eventual work later.
              */
             if ((Token->UserAndGroups[GroupsInToken].Attributes & SE_GROUP_ENABLED_BY_DEFAULT) &&
                 (Token->UserAndGroups[GroupsInToken].Attributes & SE_GROUP_ENABLED) == 0)
             {
                 NewAttributes = Token->UserAndGroups[GroupsInToken].Attributes |= SE_GROUP_ENABLED;
             }

             /*
              * Unlike the case above, a group that hasn't been enabled by
              * default but it's currently enabled then we must disable
              * it back.
              */
             if ((Token->UserAndGroups[GroupsInToken].Attributes & SE_GROUP_ENABLED_BY_DEFAULT) == 0 &&
                 (Token->UserAndGroups[GroupsInToken].Attributes & SE_GROUP_ENABLED))
             {
                 NewAttributes = Token->UserAndGroups[GroupsInToken].Attributes & ~SE_GROUP_ENABLED;
             }
         }
         else
         {
             /* Loop the provided groups in the list then */
             for (GroupsInList = 0; GroupsInList < NewStateCount; GroupsInList++)
             {
                 /* Does this group exist in the token? */
                 if (RtlEqualSid(&Token->UserAndGroups[GroupsInToken].Sid,
                                 &NewState[GroupsInList].Sid))
                 {
                     /*
                      * This is the group that we're looking for.
                      * However, it could be that the group is a
                      * mandatory group which we are not allowed
                      * and cannot disable it.
                      */
                     if ((Token->UserAndGroups[GroupsInToken].Attributes & SE_GROUP_MANDATORY) &&
                         (NewState[GroupsInList].Attributes & SE_GROUP_ENABLED) == 0)
                     {
                         /* It is mandatory, forget about this group */
                         DPRINT1("SepAdjustGroups(): The SID group is mandatory!\n");
                         return STATUS_CANT_DISABLE_MANDATORY;
                     }

                     /*
                      * We've to ensure that apart the group mustn't be
                      * mandatory, it mustn't be a restricted group as
                      * well. That is, the group is marked with
                      * SE_GROUP_USE_FOR_DENY_ONLY flag and no one
                      * can enable it because it's for "deny" use only.
                      */
                     if ((Token->UserAndGroups[GroupsInToken].Attributes & SE_GROUP_USE_FOR_DENY_ONLY) &&
                         (NewState[GroupsInList].Attributes & SE_GROUP_ENABLED))
                     {
                         /* This group is restricted, forget about it */
                         DPRINT1("SepAdjustGroups(): The SID group is for use deny only!\n");
                         return STATUS_CANT_ENABLE_DENY_ONLY;
                     }

                     /* Copy the attributes and stop searching */
                     NewAttributes = NewState[GroupsInList].Attributes;
                     NewAttributes &= SE_GROUP_ENABLED;
                     NewAttributes = Token->UserAndGroups[GroupsInToken].Attributes & ~SE_GROUP_ENABLED;
                     break;
                 }

                 /* Did we find the specific group we wanted? */
                 if (GroupsInList == NewStateCount)
                 {
                     /* We didn't, continue with the next token's group */
                     continue;
                 }
             }

             /* Count the group that we found it */
             GroupsCount++;

             /* Does the token have the same attributes as the caller requested them? */
             if (Token->UserAndGroups[GroupsInToken].Attributes != NewAttributes)
             {
                 /*
                  * No, then it's time to make some adjustment to the
                  * token's groups. Does the caller want the previous states
                  * of groups?
                  */
                 if (PreviousGroupsState != NULL)
                 {
                     PreviousGroupsState->Groups[ChangeCount] = Token->UserAndGroups[GroupsInToken];
                 }

                 /* Time to apply the changes now? */
                 if (ApplyChanges)
                 {
                     /* The caller gave us consent, apply and report that we made changes! */
                     Token->UserAndGroups[GroupsInToken].Attributes = NewAttributes;
                     *ChangesMade = TRUE;
                 }

                 /* Increment the count change */
                 ChangeCount++;
             }
         }
     }

     /* Report the number of previous saved groups */
     if (PreviousGroupsState != NULL)
     {
         PreviousGroupsState->GroupCount = ChangeCount;
     }

     /* Report the number of changed groups */
     *ChangedGroups = ChangeCount;

     /* Did we miss some groups? */
     if (!ResetToDefaultStates && (GroupsCount < NewStateCount))
     {
         /*
          * If we're at this stage then we are in a situation
          * where the adjust changes done to token's groups is
          * not deterministic as the caller might have wanted
          * as per NewState parameter.
          */
         DPRINT1("SepAdjustGroups(): The token hasn't all the groups assigned!\n");
         return STATUS_NOT_ALL_ASSIGNED;
     }

     return STATUS_SUCCESS;
 }

 NTSTATUS
 NTAPI
 NtAdjustGroupsToken(
     _In_ HANDLE TokenHandle,
     _In_ BOOLEAN ResetToDefault,
     _In_ PTOKEN_GROUPS NewState,
     _In_ ULONG BufferLength,
     _Out_writes_bytes_to_opt_(BufferLength, *ReturnLength)
     PTOKEN_GROUPS PreviousState,
     _When_(PreviousState != NULL, _Out_) PULONG ReturnLength)
 {
     PTOKEN Token;
     NTSTATUS Status;
     KPROCESSOR_MODE PreviousMode;
     ULONG ChangeCount, RequiredLength;
     ULONG CapturedCount = 0;
     ULONG CapturedLength = 0;
     ULONG NewStateSize = 0;
     PSID_AND_ATTRIBUTES CapturedGroups = NULL;
     BOOLEAN ChangesMade = FALSE;
     BOOLEAN LockAndReferenceAcquired = FALSE;

     PAGED_CODE();

     /*
      * If the caller doesn't want to reset the groups of an
      * access token to default states then at least we must
      * expect a list of groups to be adjusted based on NewState
      * parameter. Otherwise bail out because the caller has
      * no idea what they're doing.
      */
     if (!ResetToDefault && !NewState)
     {
         DPRINT1("NtAdjustGroupsToken(): The caller hasn't provided any list of groups to adjust!\n");
         return STATUS_INVALID_PARAMETER;
     }

     PreviousMode = ExGetPreviousMode();

     if (PreviousMode != KernelMode)
     {
         _SEH2_TRY
         {
             /* Probe NewState */
             if (!ResetToDefault)
             {
                 /* Probe the header */
                 ProbeForRead(NewState, sizeof(*NewState), sizeof(ULONG));

                 CapturedCount = NewState->GroupCount;
                 NewStateSize = FIELD_OFFSET(TOKEN_GROUPS, Groups[CapturedCount]);

                 ProbeForRead(NewState, NewStateSize, sizeof(ULONG));
             }

             if (PreviousState != NULL)
             {
                 ProbeForWrite(PreviousState, BufferLength, sizeof(ULONG));
                 ProbeForWrite(ReturnLength, sizeof(*ReturnLength), sizeof(ULONG));
             }
         }
         _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
         {
             /* Return the exception code */
             _SEH2_YIELD(return _SEH2_GetExceptionCode());
         }
         _SEH2_END;
     }
     else
     {
         /*
          * We're calling directly from the kernel, just retrieve
          * the number count of captured groups outright.
          */
         if (!ResetToDefault)
         {
             CapturedCount = NewState->GroupCount;
         }
     }

     /* Time to capture the NewState list */
     if (!ResetToDefault)
     {
         _SEH2_TRY
         {
             Status = SeCaptureSidAndAttributesArray(NewState->Groups,
                                                     CapturedCount,
                                                     PreviousMode,
                                                     NULL,
                                                     0,
                                                     PagedPool,
                                                     TRUE,
                                                     &CapturedGroups,
                                                     &CapturedLength);
         }
         _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
         {
             Status = _SEH2_GetExceptionCode();
         }
         _SEH2_END;

         if (!NT_SUCCESS(Status))
         {
             DPRINT1("NtAdjustGroupsToken(): Failed to capture the NewState list of groups (Status 0x%lx)\n", Status);
             return Status;
         }
     }

     /* Time to reference the token */
     Status = ObReferenceObjectByHandle(TokenHandle,
                                        TOKEN_ADJUST_GROUPS | (PreviousState != NULL ? TOKEN_QUERY : 0),
                                        SeTokenObjectType,
                                        PreviousMode,
                                        (PVOID*)&Token,
                                        NULL);
     if (!NT_SUCCESS(Status))
     {
         /* We couldn't reference the access token, bail out */
         DPRINT1("NtAdjustGroupsToken(): Failed to reference the token (Status 0x%lx)\n", Status);

         if (CapturedGroups != NULL)
         {
             SeReleaseSidAndAttributesArray(CapturedGroups,
                                            PreviousMode,
                                            TRUE);
         }

         goto Quit;
     }

     /* Lock the token */
     SepAcquireTokenLockExclusive(Token);
     LockAndReferenceAcquired = TRUE;

     /* Count the number of groups to be changed */
     Status = SepAdjustGroups(Token,
                              CapturedGroups,
                              CapturedCount,
                              FALSE,
                              ResetToDefault,
                              &ChangesMade,
                              NULL,
                              &ChangeCount);

     /* Does the caller want the previous state of groups? */
     if (PreviousState != NULL)
     {
         /* Calculate the required length */
         RequiredLength = FIELD_OFFSET(TOKEN_GROUPS, Groups[ChangeCount]);

         /* Return the required length to the caller */
         _SEH2_TRY
         {
             *ReturnLength = RequiredLength;
         }
         _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
         {
             /* Bail out and return the exception code */
             Status = _SEH2_GetExceptionCode();
             _SEH2_YIELD(goto Quit);
         }
         _SEH2_END;

         /* The buffer length provided is smaller than the required length, bail out */
         if (BufferLength < RequiredLength)
         {
             Status = STATUS_BUFFER_TOO_SMALL;
             goto Quit;
         }
     }

     /*
      * Now it's time to apply changes. Wrap the code
      * in SEH as we are returning the old groups state
      * list to the caller since PreviousState is a
      * UM pointer.
      */
     _SEH2_TRY
     {
         Status = SepAdjustGroups(Token,
                                  CapturedGroups,
                                  CapturedCount,
                                  TRUE,
                                  ResetToDefault,
                                  &ChangesMade,
                                  PreviousState,
                                  &ChangeCount);
     }
     _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
     {
         /* Bail out and return the exception code */
         Status = _SEH2_GetExceptionCode();

         /* Force the write as we touched the token still */
         ChangesMade = TRUE;
         _SEH2_YIELD(goto Quit);
     }
     _SEH2_END;

 Quit:
     /* Allocate a new ID for the token as we made changes */
     if (ChangesMade)
     {
         ExAllocateLocallyUniqueId(&Token->ModifiedId);
     }

     /* Have we successfully acquired the lock and referenced the token before? */
     if (LockAndReferenceAcquired)
     {
         /* Unlock and dereference the token */
         SepReleaseTokenLock(Token);
         ObDereferenceObject(Token);
     }

     /* Release the captured groups */
     if (CapturedGroups != NULL)
     {
         SeReleaseSidAndAttributesArray(CapturedGroups,
                                        PreviousMode,
                                        TRUE);
     }

     return Status;
 }

 static
 NTSTATUS
 SepAdjustPrivileges(
     _Inout_ PTOKEN Token,
     _In_ BOOLEAN DisableAllPrivileges,
     _In_opt_ PLUID_AND_ATTRIBUTES NewState,
     _In_ ULONG NewStateCount,
     _Out_opt_ PTOKEN_PRIVILEGES PreviousState,
     _In_ BOOLEAN ApplyChanges,
     _Out_ PULONG ChangedPrivileges,
     _Out_ PBOOLEAN ChangesMade)
 {
     ULONG i, j, PrivilegeCount, ChangeCount, NewAttributes;

     PAGED_CODE();

     /* Count the found privileges and those that need to be changed */
     PrivilegeCount = 0;
     ChangeCount = 0;
     *ChangesMade = FALSE;

     /* Loop all privileges in the token */
     for (i = 0; i < Token->PrivilegeCount; i++)
     {
         /* Shall all of them be disabled? */
         if (DisableAllPrivileges)
         {
             /* The new attributes are the old ones, but disabled */
             NewAttributes = Token->Privileges[i].Attributes & ~SE_PRIVILEGE_ENABLED;
         }
         else
         {
             /* Otherwise loop all provided privileges */
             for (j = 0; j < NewStateCount; j++)
             {
                 /* Check if this is the LUID we are looking for */
                 if (RtlEqualLuid(&Token->Privileges[i].Luid, &NewState[j].Luid))
                 {
                     DPRINT("Found privilege\n");

                     /* Copy SE_PRIVILEGE_ENABLED | SE_PRIVILEGE_REMOVED */
                     NewAttributes = NewState[j].Attributes;
                     NewAttributes &= (SE_PRIVILEGE_ENABLED | SE_PRIVILEGE_REMOVED);
                     NewAttributes |= Token->Privileges[i].Attributes & ~SE_PRIVILEGE_ENABLED;

                     /* Stop looking */
                     break;
                 }
             }

             /* Check if we didn't find the privilege */
             if (j == NewStateCount)
             {
                 /* Continue with the token's next privilege */
                 continue;
             }
         }

         /* We found a privilege, count it */
         PrivilegeCount++;

         /* Does the privilege need to be changed? */
         if (Token->Privileges[i].Attributes != NewAttributes)
         {
             /* Does the caller want the old privileges? */
             if (PreviousState != NULL)
             {
                 /* Copy the old privilege */
                 PreviousState->Privileges[ChangeCount] = Token->Privileges[i];
             }

             /* Does the caller want to apply the changes? */
             if (ApplyChanges)
             {
                 /* Shall we remove the privilege? */
                 if (NewAttributes & SE_PRIVILEGE_REMOVED)
                 {
                     /* Set the token as disabled and update flags for it */
                     Token->Privileges[i].Attributes &= ~SE_PRIVILEGE_ENABLED;
                     SepUpdateSinglePrivilegeFlagToken(Token, i);

                     /* Remove the privilege */
                     SepRemovePrivilegeToken(Token, i);

                     *ChangesMade = TRUE;

                     /* Fix the running index and continue with next one */
                     i--;
                     continue;
                 }

                 /* Set the new attributes and update flags */
                 Token->Privileges[i].Attributes = NewAttributes;
                 SepUpdateSinglePrivilegeFlagToken(Token, i);
                 *ChangesMade = TRUE;
             }

             /* Increment the change count */
             ChangeCount++;
         }
     }

     /* Set the number of saved privileges */
     if (PreviousState != NULL)
         PreviousState->PrivilegeCount = ChangeCount;

     /* Return the number of changed privileges */
     *ChangedPrivileges = ChangeCount;

     /* Check if we missed some */
     if (!DisableAllPrivileges && (PrivilegeCount < NewStateCount))
     {
         return STATUS_NOT_ALL_ASSIGNED;
     }

     return STATUS_SUCCESS;
 }

 _Must_inspect_result_
 __kernel_entry
 NTSTATUS
 NTAPI
 NtAdjustPrivilegesToken(
     _In_ HANDLE TokenHandle,
     _In_ BOOLEAN DisableAllPrivileges,
     _In_opt_ PTOKEN_PRIVILEGES NewState,
     _In_ ULONG BufferLength,
     _Out_writes_bytes_to_opt_(BufferLength,*ReturnLength)
         PTOKEN_PRIVILEGES PreviousState,
     _When_(PreviousState!=NULL, _Out_) PULONG ReturnLength)
 {
     NTSTATUS Status;
     KPROCESSOR_MODE PreviousMode;
     PTOKEN Token;
     PLUID_AND_ATTRIBUTES CapturedPrivileges = NULL;
     ULONG CapturedCount = 0;
     ULONG CapturedLength = 0;
     ULONG NewStateSize = 0;
     ULONG ChangeCount;
     ULONG RequiredLength;
     BOOLEAN ChangesMade = FALSE;

     PAGED_CODE();

     DPRINT("NtAdjustPrivilegesToken() called\n");

     /* Fail, if we do not disable all privileges but NewState is NULL */
     if (DisableAllPrivileges == FALSE && NewState == NULL)
         return STATUS_INVALID_PARAMETER;

     PreviousMode = KeGetPreviousMode();
     if (PreviousMode != KernelMode)
     {
         _SEH2_TRY
         {
             /* Probe NewState */
             if (DisableAllPrivileges == FALSE)
             {
                 /* First probe the header */
                 ProbeForRead(NewState, sizeof(TOKEN_PRIVILEGES), sizeof(ULONG));

                 CapturedCount = NewState->PrivilegeCount;
                 NewStateSize = FIELD_OFFSET(TOKEN_PRIVILEGES, Privileges[CapturedCount]);

                 ProbeForRead(NewState, NewStateSize, sizeof(ULONG));
             }

             /* Probe PreviousState and ReturnLength */
             if (PreviousState != NULL)
             {
                 ProbeForWrite(PreviousState, BufferLength, sizeof(ULONG));
                 ProbeForWrite(ReturnLength, sizeof(ULONG), sizeof(ULONG));
             }
         }
         _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
         {
             /* Return the exception code */
             _SEH2_YIELD(return _SEH2_GetExceptionCode());
         }
         _SEH2_END;
     }
     else
     {
         /* This is kernel mode, we trust the caller */
         if (DisableAllPrivileges == FALSE)
             CapturedCount = NewState->PrivilegeCount;
     }

     /* Do we need to capture the new state? */
     if (DisableAllPrivileges == FALSE)
     {
         _SEH2_TRY
         {
             /* Capture the new state array of privileges */
             Status = SeCaptureLuidAndAttributesArray(NewState->Privileges,
                                                      CapturedCount,
                                                      PreviousMode,
                                                      NULL,
                                                      0,
                                                      PagedPool,
                                                      TRUE,
                                                      &CapturedPrivileges,
                                                      &CapturedLength);
         }
         _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
         {
             /* Return the exception code */
             Status = _SEH2_GetExceptionCode();
         }
         _SEH2_END;

         if (!NT_SUCCESS(Status))
             return Status;
     }

     /* Reference the token */
     Status = ObReferenceObjectByHandle(TokenHandle,
                                        TOKEN_ADJUST_PRIVILEGES | (PreviousState != NULL ? TOKEN_QUERY : 0),
                                        SeTokenObjectType,
                                        PreviousMode,
                                        (PVOID*)&Token,
                                        NULL);
     if (!NT_SUCCESS(Status))
     {
         DPRINT1("Failed to reference token (Status 0x%lx)\n", Status);

         /* Release the captured privileges */
         if (CapturedPrivileges != NULL)
         {
             SeReleaseLuidAndAttributesArray(CapturedPrivileges,
                                             PreviousMode,
                                             TRUE);
         }

         return Status;
     }

     /* Lock the token */
     SepAcquireTokenLockExclusive(Token);

     /* Count the privileges that need to be changed, do not apply them yet */
     Status = SepAdjustPrivileges(Token,
                                  DisableAllPrivileges,
                                  CapturedPrivileges,
                                  CapturedCount,
                                  NULL,
                                  FALSE,
                                  &ChangeCount,
                                  &ChangesMade);

     /* Check if the caller asked for the previous state */
     if (PreviousState != NULL)
     {
         /* Calculate the required length */
         RequiredLength = FIELD_OFFSET(TOKEN_PRIVILEGES, Privileges[ChangeCount]);

         /* Try to return the required buffer length */
         _SEH2_TRY
         {
             *ReturnLength = RequiredLength;
         }
         _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
         {
             /* Do cleanup and return the exception code */
             Status = _SEH2_GetExceptionCode();
             _SEH2_YIELD(goto Cleanup);
         }
         _SEH2_END;

         /* Fail, if the buffer length is smaller than the required length */
         if (BufferLength < RequiredLength)
         {
             Status = STATUS_BUFFER_TOO_SMALL;
             goto Cleanup;
         }
     }

     /* Now enter SEH, since we might return the old privileges */
     _SEH2_TRY
     {
         /* This time apply the changes */
         Status = SepAdjustPrivileges(Token,
                                      DisableAllPrivileges,
                                      CapturedPrivileges,
                                      CapturedCount,
                                      PreviousState,
                                      TRUE,
                                      &ChangeCount,
                                      &ChangesMade);
     }
     _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
     {
         /* Do cleanup and return the exception code */
         Status = _SEH2_GetExceptionCode();
         ChangesMade = TRUE; // Force write.
         _SEH2_YIELD(goto Cleanup);
     }
     _SEH2_END;

 Cleanup:
     /* Touch the token if we made changes */
     if (ChangesMade)
         ExAllocateLocallyUniqueId(&Token->ModifiedId);

     /* Unlock and dereference the token */
     SepReleaseTokenLock(Token);
     ObDereferenceObject(Token);

     /* Release the captured privileges */
     if (CapturedPrivileges != NULL)
     {
         SeReleaseLuidAndAttributesArray(CapturedPrivileges,
                                         PreviousMode,
                                         TRUE);
     }

     DPRINT ("NtAdjustPrivilegesToken() done\n");
     return Status;
 }

 __kernel_entry
 NTSTATUS
 NTAPI
 NtCreateToken(
     _Out_ PHANDLE TokenHandle,
     _In_ ACCESS_MASK DesiredAccess,
     _In_opt_ POBJECT_ATTRIBUTES ObjectAttributes,
     _In_ TOKEN_TYPE TokenType,
     _In_ PLUID AuthenticationId,
     _In_ PLARGE_INTEGER ExpirationTime,
     _In_ PTOKEN_USER TokenUser,
     _In_ PTOKEN_GROUPS TokenGroups,
     _In_ PTOKEN_PRIVILEGES TokenPrivileges,
     _In_opt_ PTOKEN_OWNER TokenOwner,
     _In_ PTOKEN_PRIMARY_GROUP TokenPrimaryGroup,
     _In_opt_ PTOKEN_DEFAULT_DACL TokenDefaultDacl,
     _In_ PTOKEN_SOURCE TokenSource)
 {
     HANDLE hToken;
     KPROCESSOR_MODE PreviousMode;
     ULONG PrivilegeCount, GroupCount;
     PSID OwnerSid, PrimaryGroupSid;
     PACL DefaultDacl;
     LARGE_INTEGER LocalExpirationTime = {{0, 0}};
     LUID LocalAuthenticationId;
     TOKEN_SOURCE LocalTokenSource;
     SECURITY_QUALITY_OF_SERVICE LocalSecurityQos;
     PLUID_AND_ATTRIBUTES CapturedPrivileges = NULL;
     PSID_AND_ATTRIBUTES CapturedUser = NULL;
     PSID_AND_ATTRIBUTES CapturedGroups = NULL;
     PSID CapturedOwnerSid = NULL;
     PSID CapturedPrimaryGroupSid = NULL;
     PACL CapturedDefaultDacl = NULL;
     ULONG PrivilegesLength, UserLength, GroupsLength;
     NTSTATUS Status;

     PAGED_CODE();

     PreviousMode = ExGetPreviousMode();

     if (PreviousMode != KernelMode)
     {
         _SEH2_TRY
         {
             ProbeForWriteHandle(TokenHandle);

             if (ObjectAttributes != NULL)
             {
                 ProbeForRead(ObjectAttributes,
                              sizeof(OBJECT_ATTRIBUTES),
                              sizeof(ULONG));
                 LocalSecurityQos = *(SECURITY_QUALITY_OF_SERVICE*)ObjectAttributes->SecurityQualityOfService;
             }

             ProbeForRead(AuthenticationId,
                          sizeof(LUID),
                          sizeof(ULONG));
             LocalAuthenticationId = *AuthenticationId;

             LocalExpirationTime = ProbeForReadLargeInteger(ExpirationTime);

             ProbeForRead(TokenUser,
                          sizeof(TOKEN_USER),
                          sizeof(ULONG));

             ProbeForRead(TokenGroups,
                          sizeof(TOKEN_GROUPS),
                          sizeof(ULONG));
             GroupCount = TokenGroups->GroupCount;

             ProbeForRead(TokenPrivileges,
                          sizeof(TOKEN_PRIVILEGES),
                          sizeof(ULONG));
             PrivilegeCount = TokenPrivileges->PrivilegeCount;

             if (TokenOwner != NULL)
             {
                 ProbeForRead(TokenOwner,
                              sizeof(TOKEN_OWNER),
                              sizeof(ULONG));
                 OwnerSid = TokenOwner->Owner;
             }
             else
             {
                 OwnerSid = NULL;
             }

             ProbeForRead(TokenPrimaryGroup,
                          sizeof(TOKEN_PRIMARY_GROUP),
                          sizeof(ULONG));
             PrimaryGroupSid = TokenPrimaryGroup->PrimaryGroup;

             if (TokenDefaultDacl != NULL)
             {
                 ProbeForRead(TokenDefaultDacl,
                              sizeof(TOKEN_DEFAULT_DACL),
                              sizeof(ULONG));
                 DefaultDacl = TokenDefaultDacl->DefaultDacl;
             }
             else
             {
                 DefaultDacl = NULL;
             }

             ProbeForRead(TokenSource,
                          sizeof(TOKEN_SOURCE),
                          sizeof(ULONG));
             LocalTokenSource = *TokenSource;
         }
         _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
         {
             /* Return the exception code */
             _SEH2_YIELD(return _SEH2_GetExceptionCode());
         }
         _SEH2_END;
     }
     else
     {
         if (ObjectAttributes != NULL)
             LocalSecurityQos = *(SECURITY_QUALITY_OF_SERVICE*)ObjectAttributes->SecurityQualityOfService;
         LocalAuthenticationId = *AuthenticationId;
         LocalExpirationTime = *ExpirationTime;
         GroupCount = TokenGroups->GroupCount;
         PrivilegeCount = TokenPrivileges->PrivilegeCount;
         OwnerSid = TokenOwner ? TokenOwner->Owner : NULL;
         PrimaryGroupSid = TokenPrimaryGroup->PrimaryGroup;
         DefaultDacl = TokenDefaultDacl ? TokenDefaultDacl->DefaultDacl : NULL;
         LocalTokenSource = *TokenSource;
     }

     /* Check token type */
     if ((TokenType < TokenPrimary) ||
         (TokenType > TokenImpersonation))
     {
         return STATUS_BAD_TOKEN_TYPE;
     }

     /* Check for token creation privilege */
     if (!SeSinglePrivilegeCheck(SeCreateTokenPrivilege, PreviousMode))
     {
         return STATUS_PRIVILEGE_NOT_HELD;
     }

     /* Capture the user SID and attributes */
     Status = SeCaptureSidAndAttributesArray(&TokenUser->User,
                                             1,
                                             PreviousMode,
                                             NULL,
                                             0,
                                             PagedPool,
                                             FALSE,
                                             &CapturedUser,
                                             &UserLength);
     if (!NT_SUCCESS(Status))
     {
         goto Cleanup;
     }

     /* Capture the groups SID and attributes array */
     Status = SeCaptureSidAndAttributesArray(&TokenGroups->Groups[0],
                                             GroupCount,
                                             PreviousMode,
                                             NULL,
                                             0,
                                             PagedPool,
                                             FALSE,
                                             &CapturedGroups,
                                             &GroupsLength);
     if (!NT_SUCCESS(Status))
     {
         goto Cleanup;
     }

     /* Capture privileges */
     Status = SeCaptureLuidAndAttributesArray(&TokenPrivileges->Privileges[0],
                                              PrivilegeCount,
                                              PreviousMode,
                                              NULL,
                                              0,
                                              PagedPool,
                                              FALSE,
                                              &CapturedPrivileges,
                                              &PrivilegesLength);
     if (!NT_SUCCESS(Status))
     {
         goto Cleanup;
     }

     /* Capture the token owner SID */
     if (TokenOwner != NULL)
     {
         Status = SepCaptureSid(OwnerSid,
                                PreviousMode,
                                PagedPool,
                                FALSE,
                                &CapturedOwnerSid);
         if (!NT_SUCCESS(Status))
         {
             goto Cleanup;
         }
     }

     /* Capture the token primary group SID */
     Status = SepCaptureSid(PrimaryGroupSid,
                            PreviousMode,
                            PagedPool,
                            FALSE,
                            &CapturedPrimaryGroupSid);
     if (!NT_SUCCESS(Status))
     {
         goto Cleanup;
     }

     /* Capture DefaultDacl */
     if (DefaultDacl != NULL)
     {
         Status = SepCaptureAcl(DefaultDacl,
                                PreviousMode,
                                NonPagedPool,
                                FALSE,
                                &CapturedDefaultDacl);
         if (!NT_SUCCESS(Status))
         {
             goto Cleanup;
         }
     }

     /* Call the internal function */
     Status = SepCreateToken(&hToken,
                             PreviousMode,
                             DesiredAccess,
                             ObjectAttributes,
                             TokenType,
                             LocalSecurityQos.ImpersonationLevel,
                             &LocalAuthenticationId,
                             &LocalExpirationTime,
                             CapturedUser,
                             GroupCount,
                             CapturedGroups,
                             GroupsLength,
                             PrivilegeCount,
                             CapturedPrivileges,
                             CapturedOwnerSid,
                             CapturedPrimaryGroupSid,
                             CapturedDefaultDacl,
                             &LocalTokenSource,
                             FALSE);
     if (NT_SUCCESS(Status))
     {
         _SEH2_TRY
         {
             *TokenHandle = hToken;
         }
         _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
         {
             Status = _SEH2_GetExceptionCode();
         }
         _SEH2_END;
     }

 Cleanup:

     /* Release what we captured */
     SeReleaseSidAndAttributesArray(CapturedUser, PreviousMode, FALSE);
     SeReleaseSidAndAttributesArray(CapturedGroups, PreviousMode, FALSE);
     SeReleaseLuidAndAttributesArray(CapturedPrivileges, PreviousMode, FALSE);
     SepReleaseSid(CapturedOwnerSid, PreviousMode, FALSE);
     SepReleaseSid(CapturedPrimaryGroupSid, PreviousMode, FALSE);
     SepReleaseAcl(CapturedDefaultDacl, PreviousMode, FALSE);

     return Status;
 }

 NTSTATUS
 NTAPI
 NtOpenThreadTokenEx(
     _In_ HANDLE ThreadHandle,
     _In_ ACCESS_MASK DesiredAccess,
     _In_ BOOLEAN OpenAsSelf,
     _In_ ULONG HandleAttributes,
     _Out_ PHANDLE TokenHandle)
 {
     PETHREAD Thread;
     HANDLE hToken;
     PTOKEN Token, NewToken = NULL, PrimaryToken;
     BOOLEAN CopyOnOpen, EffectiveOnly;
     SECURITY_IMPERSONATION_LEVEL ImpersonationLevel;
     SE_IMPERSONATION_STATE ImpersonationState;
     OBJECT_ATTRIBUTES ObjectAttributes;
     SECURITY_DESCRIPTOR SecurityDescriptor;
     PACL Dacl = NULL;
     KPROCESSOR_MODE PreviousMode;
     NTSTATUS Status;
     BOOLEAN RestoreImpersonation = FALSE;

     PAGED_CODE();

     PreviousMode = ExGetPreviousMode();

     if (PreviousMode != KernelMode)
     {
         _SEH2_TRY
         {
             ProbeForWriteHandle(TokenHandle);
         }
         _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
         {
             /* Return the exception code */
             _SEH2_YIELD(return _SEH2_GetExceptionCode());
         }
         _SEH2_END;
     }

     /* Validate object attributes */
     HandleAttributes = ObpValidateAttributes(HandleAttributes, PreviousMode);

     /*
      * At first open the thread token for information access and verify
      * that the token associated with thread is valid.
      */

     Status = ObReferenceObjectByHandle(ThreadHandle, THREAD_QUERY_INFORMATION,
                                        PsThreadType, PreviousMode, (PVOID*)&Thread,
                                        NULL);
     if (!NT_SUCCESS(Status))
     {
         return Status;
     }

     Token = PsReferenceImpersonationToken(Thread, &CopyOnOpen, &EffectiveOnly,
                                           &ImpersonationLevel);
     if (Token == NULL)
     {
         ObDereferenceObject(Thread);
         return STATUS_NO_TOKEN;
     }

     if (ImpersonationLevel == SecurityAnonymous)
     {
         PsDereferenceImpersonationToken(Token);
         ObDereferenceObject(Thread);
         return STATUS_CANT_OPEN_ANONYMOUS;
     }

     /*
      * Revert to self if OpenAsSelf is specified.
      */

     if (OpenAsSelf)
     {
         RestoreImpersonation = PsDisableImpersonation(PsGetCurrentThread(),
                                                       &ImpersonationState);
     }

     if (CopyOnOpen)
     {
         PrimaryToken = PsReferencePrimaryToken(Thread->ThreadsProcess);

         Status = SepCreateImpersonationTokenDacl(Token, PrimaryToken, &Dacl);

         ObFastDereferenceObject(&Thread->ThreadsProcess->Token, PrimaryToken);

         if (NT_SUCCESS(Status))
         {
             if (Dacl)
             {
                 Status = RtlCreateSecurityDescriptor(&SecurityDescriptor,
                                                      SECURITY_DESCRIPTOR_REVISION);
                 if (!NT_SUCCESS(Status))
                 {
                     DPRINT1("NtOpenThreadTokenEx(): Failed to create a security descriptor (Status 0x%lx)\n", Status);
                 }

                 Status = RtlSetDaclSecurityDescriptor(&SecurityDescriptor, TRUE, Dacl,
                                                       FALSE);
                 if (!NT_SUCCESS(Status))
                 {
                     DPRINT1("NtOpenThreadTokenEx(): Failed to set a DACL to the security descriptor (Status 0x%lx)\n", Status);
                 }
             }

             InitializeObjectAttributes(&ObjectAttributes, NULL, HandleAttributes,
                                        NULL, Dacl ? &SecurityDescriptor : NULL);

             Status = SepDuplicateToken(Token, &ObjectAttributes, EffectiveOnly,
                                        TokenImpersonation, ImpersonationLevel,
                                        KernelMode, &NewToken);
             if (!NT_SUCCESS(Status))
             {
                 DPRINT1("NtOpenThreadTokenEx(): Failed to duplicate the token (Status 0x%lx)\n");
             }

             ObReferenceObject(NewToken);
             Status = ObInsertObject(NewToken, NULL, DesiredAccess, 0, NULL,
                                     &hToken);
             if (!NT_SUCCESS(Status))
             {
                 DPRINT1("NtOpenThreadTokenEx(): Failed to insert the token object (Status 0x%lx)\n", Status);
             }
         }
         else
         {
             DPRINT1("NtOpenThreadTokenEx(): Failed to impersonate token from DACL (Status 0x%lx)\n", Status);
         }
     }
     else
     {
         Status = ObOpenObjectByPointer(Token, HandleAttributes,
                                        NULL, DesiredAccess, SeTokenObjectType,
                                        PreviousMode, &hToken);
         if (!NT_SUCCESS(Status))
         {
             DPRINT1("NtOpenThreadTokenEx(): Failed to open the object (Status 0x%lx)\n", Status);
         }
     }

     if (Dacl) ExFreePoolWithTag(Dacl, TAG_ACL);

     if (RestoreImpersonation)
     {
         PsRestoreImpersonation(PsGetCurrentThread(), &ImpersonationState);
     }

     ObDereferenceObject(Token);

     if (NT_SUCCESS(Status) && CopyOnOpen)
     {
         Status = PsImpersonateClient(Thread, NewToken, FALSE, EffectiveOnly, ImpersonationLevel);
         if (!NT_SUCCESS(Status))
         {
             DPRINT1("NtOpenThreadTokenEx(): Failed to impersonate the client (Status 0x%lx)\n");
         }
     }

     if (NewToken) ObDereferenceObject(NewToken);

     ObDereferenceObject(Thread);

     if (NT_SUCCESS(Status))
     {
         _SEH2_TRY
         {
             *TokenHandle = hToken;
         }
         _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
         {
             Status = _SEH2_GetExceptionCode();
         }
         _SEH2_END;
     }

     return Status;
 }

 NTSTATUS
 NTAPI
 NtOpenThreadToken(
     _In_ HANDLE ThreadHandle,
     _In_ ACCESS_MASK DesiredAccess,
     _In_ BOOLEAN OpenAsSelf,
     _Out_ PHANDLE TokenHandle)
 {
     return NtOpenThreadTokenEx(ThreadHandle, DesiredAccess, OpenAsSelf, 0,
                                TokenHandle);
 }

 NTSTATUS
 NTAPI
 NtCompareTokens(
     _In_ HANDLE FirstTokenHandle,
     _In_ HANDLE SecondTokenHandle,
     _Out_ PBOOLEAN Equal)
 {
     KPROCESSOR_MODE PreviousMode;
     PTOKEN FirstToken, SecondToken;
     BOOLEAN IsEqual;
     NTSTATUS Status;

     PAGED_CODE();

     PreviousMode = ExGetPreviousMode();

     if (PreviousMode != KernelMode)
     {
         _SEH2_TRY
         {
             ProbeForWriteBoolean(Equal);
         }
         _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
         {
             /* Return the exception code */
             _SEH2_YIELD(return _SEH2_GetExceptionCode());
         }
         _SEH2_END;
     }

     Status = ObReferenceObjectByHandle(FirstTokenHandle,
                                        TOKEN_QUERY,
                                        SeTokenObjectType,
                                        PreviousMode,
                                        (PVOID*)&FirstToken,
                                        NULL);
     if (!NT_SUCCESS(Status))
     {
         DPRINT1("ObReferenceObjectByHandle() failed (Status 0x%lx)\n", Status);
         return Status;
     }

     Status = ObReferenceObjectByHandle(SecondTokenHandle,
                                        TOKEN_QUERY,
                                        SeTokenObjectType,
                                        PreviousMode,
                                        (PVOID*)&SecondToken,
                                        NULL);
     if (!NT_SUCCESS(Status))
     {
         DPRINT1("ObReferenceObjectByHandle() failed (Status 0x%lx)\n", Status);
         ObDereferenceObject(FirstToken);
         return Status;
     }

     if (FirstToken != SecondToken)
     {
         Status = SepCompareTokens(FirstToken,
                                   SecondToken,
                                   &IsEqual);
     }
     else
     {
         IsEqual = TRUE;
     }

     ObDereferenceObject(SecondToken);
     ObDereferenceObject(FirstToken);

     if (NT_SUCCESS(Status))
     {
         _SEH2_TRY
         {
             *Equal = IsEqual;
         }
         _SEH2_EXCEPT(ExSystemExceptionFilter())
         {
             Status = _SEH2_GetExceptionCode();
         }
         _SEH2_END;
     }

     return Status;
 }

 NTSTATUS
 NTAPI
 NtFilterToken(
     _In_ HANDLE ExistingTokenHandle,
     _In_ ULONG Flags,
     _In_opt_ PTOKEN_GROUPS SidsToDisable,
     _In_opt_ PTOKEN_PRIVILEGES PrivilegesToDelete,
     _In_opt_ PTOKEN_GROUPS RestrictedSids,
     _Out_ PHANDLE NewTokenHandle)
 {
     UNIMPLEMENTED;
     return STATUS_NOT_IMPLEMENTED;
 }

 NTSTATUS
 NTAPI
 NtImpersonateAnonymousToken(
     _In_ HANDLE ThreadHandle)
 {
     PETHREAD Thread;
     KPROCESSOR_MODE PreviousMode;
     NTSTATUS Status;
     PAGED_CODE();

     PreviousMode = ExGetPreviousMode();

     /* Obtain the thread object from the handle */
     Status = ObReferenceObjectByHandle(ThreadHandle,
                                        THREAD_IMPERSONATE,
                                        PsThreadType,
                                        PreviousMode,
                                        (PVOID*)&Thread,
                                        NULL);
     if (!NT_SUCCESS(Status))
     {
         DPRINT1("NtImpersonateAnonymousToken(): Failed to reference the object (Status 0x%lx)\n", Status);
         return Status;
     }

     /* Call the private routine to impersonate the token */
     Status = SepImpersonateAnonymousToken(Thread, PreviousMode);
     if (!NT_SUCCESS(Status))
     {
         DPRINT1("NtImpersonateAnonymousToken(): Failed to impersonate the token (Status 0x%lx)\n", Status);
     }

     ObDereferenceObject(Thread);
     return Status;
 }

 /* EOF */
_TOKEN_STATISTICS::AuthenticationId
LUID AuthenticationId
Definition: setypes.h:1052

SeAnonymousLogonTokenNoEveryone
PTOKEN SeAnonymousLogonTokenNoEveryone
Definition: semgr.c:20

_SECURITY_DESCRIPTOR
Definition: ms-dtyp.idl:301

OBJ_OPENLINK
#define OBJ_OPENLINK
Definition: winternl.h:230

AuditCategoryDetailedTracking
Definition: ntsecapi.h:264

_TOKEN::TokenType
TOKEN_TYPE TokenType
Definition: setypes.h:221

SeSystemEnvironmentPrivilege
const LUID SeSystemEnvironmentPrivilege
Definition: priv.c:41

PSECURITY_IMPERSONATION_LEVEL
enum _SECURITY_IMPERSONATION_LEVEL * PSECURITY_IMPERSONATION_LEVEL

_TOKEN_PRIMARY_GROUP::PrimaryGroup
PSID PrimaryGroup
Definition: setypes.h:997

SepAcquireTokenLockExclusive
#define SepAcquireTokenLockExclusive(Token)
Definition: se.h:220

NtOpenThreadTokenEx
NTSTATUS NTAPI NtOpenThreadTokenEx(_In_ HANDLE ThreadHandle, _In_ ACCESS_MASK DesiredAccess, _In_ BOOLEAN OpenAsSelf, _In_ ULONG HandleAttributes, _Out_ PHANDLE TokenHandle)
Opens a token that is tied to a thread handle.
Definition: token.c:5523

TokenUser
Definition: setypes.h:931

SepFindPrimaryGroupAndDefaultOwner
static NTSTATUS SepFindPrimaryGroupAndDefaultOwner(_In_ PTOKEN Token, _In_ PSID PrimaryGroup, _In_opt_ PSID DefaultOwner, _Out_opt_ PULONG PrimaryGroupIndex, _Out_opt_ PULONG DefaultOwnerIndex)
Finds the primary group and default owner entity based on the submitted primary group instance and an...
Definition: token.c:869

_LUID_AND_ATTRIBUTES
Definition: setypes.h:73

ObjectAttributes
IN PUNICODE_STRING IN POBJECT_ATTRIBUTES ObjectAttributes
Definition: conport.c:35

PsImpersonateClient
NTSTATUS NTAPI PsImpersonateClient(IN PETHREAD Thread, IN PACCESS_TOKEN Token, IN BOOLEAN CopyOnOpen, IN BOOLEAN EffectiveOnly, IN SECURITY_IMPERSONATION_LEVEL ImpersonationLevel)
Definition: security.c:610

ReturnLength
IN CINT OUT PVOID IN ULONG OUT PULONG ReturnLength
Definition: dumpinfo.c:39

STATUS_NOT_ALL_ASSIGNED
#define STATUS_NOT_ALL_ASSIGNED
Definition: ntstatus.h:85

HandleAttributes
_In_ HANDLE _In_opt_ HANDLE _Out_opt_ PHANDLE _In_ ACCESS_MASK _In_ ULONG HandleAttributes
Definition: obfuncs.h:429

Unused
_Must_inspect_result_ typedef _In_ PVOID Unused
Definition: iotypes.h:1166

SepRegQueryHelper
NTSTATUS NTAPI SepRegQueryHelper(_In_ PCWSTR KeyName, _In_ PCWSTR ValueName, _In_ ULONG ValueType, _In_ ULONG DataLength, _Out_ PVOID ValueData)
A private registry helper that returns the desired value data based on the specifics requested by the...
Definition: srm.c:93

SecurityImpersonation
Definition: lsa.idl:57

BufferLength
_Must_inspect_result_ _In_ WDFDEVICE _In_ DEVICE_REGISTRY_PROPERTY _In_ ULONG BufferLength
Definition: wdfdevice.h:3767

STATUS_PRIVILEGE_NOT_HELD
#define STATUS_PRIVILEGE_NOT_HELD
Definition: DriverTester.h:9

ObCreateObjectType
NTSTATUS NTAPI ObCreateObjectType(IN PUNICODE_STRING TypeName, IN POBJECT_TYPE_INITIALIZER ObjectTypeInitializer, IN PVOID Reserved, OUT POBJECT_TYPE *ObjectType)
Definition: oblife.c:1048

DesiredAccess
_Must_inspect_result_ _In_ WDFDEVICE _In_ ULONG _In_ ACCESS_MASK DesiredAccess
Definition: wdfdevice.h:2654

_TOKEN_DEFAULT_DACL
Definition: setypes.h:1000

STATUS_BAD_IMPERSONATION_LEVEL
#define STATUS_BAD_IMPERSONATION_LEVEL
Definition: ntstatus.h:401

NonPagedPool
Definition: ketypes.h:866

AuditCategoryPrivilegeUse
Definition: ntsecapi.h:263

_SEP_AUDIT_POLICY_CATEGORIES::DirectoryServiceAccess
UCHAR DirectoryServiceAccess
Definition: setypes.h:134

SeSystemtimePrivilege
const LUID SeSystemtimePrivilege
Definition: priv.c:31

STATUS_INSUFFICIENT_RESOURCES
#define STATUS_INSUFFICIENT_RESOURCES
Definition: udferr_usr.h:158

_SID_AND_ATTRIBUTES::Sid
PSID Sid
Definition: setypes.h:493

_OBJECT_TYPE_INITIALIZER::ValidAccessMask
ULONG ValidAccessMask
Definition: obtypes.h:359

SepRmInsertLogonSessionIntoToken
NTSTATUS NTAPI SepRmInsertLogonSessionIntoToken(_Inout_ PTOKEN Token)
Inserts a logon session into an access token specified by the caller.
Definition: srm.c:368

_OBJECT_TYPE_INITIALIZER::SecurityRequired
BOOLEAN SecurityRequired
Definition: obtypes.h:360

_In_opt_
#define _In_opt_
Definition: ms_sal.h:309

STATUS_INFO_LENGTH_MISMATCH
#define STATUS_INFO_LENGTH_MISMATCH
Definition: udferr_usr.h:133

SeQueryInformationToken
NTSTATUS NTAPI SeQueryInformationToken(_In_ PACCESS_TOKEN AccessToken, _In_ TOKEN_INFORMATION_CLASS TokenInformationClass, _Outptr_result_buffer_(_Inexpressible_(token-dependent)) PVOID *TokenInformation)
Queries information details about the given token to the call. The difference between NtQueryInformat...
Definition: token.c:2328

SeTokenCanImpersonate
BOOLEAN NTAPI SeTokenCanImpersonate(_In_ PTOKEN ProcessToken, _In_ PTOKEN TokenToImpersonate, _In_ SECURITY_IMPERSONATION_LEVEL ImpersonationLevel)
Ensures that client impersonation can occur by checking if the token we're going to assign as the imp...
Definition: token.c:2857

ImpersonationState
_Inout_ PSE_IMPERSONATION_STATE ImpersonationState
Definition: psfuncs.h:189

_Inout_
#define _Inout_
Definition: ms_sal.h:378

_TOKEN_GROUPS
Definition: setypes.h:978

_SID
Definition: ms-dtyp.idl:198

AuditCategorySystem
Definition: ntsecapi.h:260

SeIncreaseQuotaPrivilege
const LUID SeIncreaseQuotaPrivilege
Definition: priv.c:24

TOKEN_WRITE
#define TOKEN_WRITE
Definition: setypes.h:918

SepReleaseAcl
VOID NTAPI SepReleaseAcl(_In_ PACL CapturedAcl, _In_ KPROCESSOR_MODE AccessMode, _In_ BOOLEAN CaptureIfKernel)
Releases (frees) a captured ACL from the memory pool.
Definition: acl.c:459

PsGetCurrentThread
#define PsGetCurrentThread()
Definition: env_spec_w32.h:81

_TOKEN_AUDIT_POLICY_INFORMATION::PolicyCount
ULONG PolicyCount
Definition: se.h:29

THREAD_IMPERSONATE
#define THREAD_IMPERSONATE
Definition: pstypes.h:151

SeCreateTokenPrivilege
const LUID SeCreateTokenPrivilege
Definition: priv.c:21

SeReleaseSidAndAttributesArray
VOID NTAPI SeReleaseSidAndAttributesArray(_In_ _Post_invalid_ PSID_AND_ATTRIBUTES CapturedSidAndAttributes, _In_ KPROCESSOR_MODE AccessMode, _In_ BOOLEAN CaptureIfKernel)
Releases a captured SID with attributes.
Definition: sid.c:676

PTOKEN_PRIMARY_GROUP
struct _TOKEN_PRIMARY_GROUP * PTOKEN_PRIMARY_GROUP

_Out_
#define _Out_
Definition: ms_sal.h:345

SeCreatePermanentPrivilege
const LUID SeCreatePermanentPrivilege
Definition: priv.c:35

SeDebugPrivilege
const LUID SeDebugPrivilege
Definition: priv.c:39

TokenSource
Definition: setypes.h:937

SeCaptureLuidAndAttributesArray
NTSTATUS NTAPI SeCaptureLuidAndAttributesArray(_In_ PLUID_AND_ATTRIBUTES Src, _In_ ULONG PrivilegeCount, _In_ KPROCESSOR_MODE PreviousMode, _In_ PLUID_AND_ATTRIBUTES AllocatedMem, _In_ ULONG AllocatedLength, _In_ POOL_TYPE PoolType, _In_ BOOLEAN CaptureIfKernel, _Out_ PLUID_AND_ATTRIBUTES *Dest, _Inout_ PULONG Length)

SeBackupPrivilege
const LUID SeBackupPrivilege
Definition: priv.c:36

TokenInformationLength
_In_ TOKEN_INFORMATION_CLASS _In_ ULONG TokenInformationLength
Definition: sefuncs.h:299

_TOKEN_PRIVILEGES
Definition: setypes.h:987

TRUE
#define TRUE
Definition: types.h:120

_OBJECT_ATTRIBUTES
Definition: umtypes.h:181

SecurityDescriptor
_In_ USHORT _In_ ULONG _In_ PSOCKADDR _In_ PSOCKADDR _Reserved_ ULONG _In_opt_ PVOID _In_opt_ const WSK_CLIENT_CONNECTION_DISPATCH _In_opt_ PEPROCESS _In_opt_ PETHREAD _In_opt_ PSECURITY_DESCRIPTOR SecurityDescriptor
Definition: wsk.h:182

STATUS_INVALID_PARAMETER
#define STATUS_INVALID_PARAMETER
Definition: udferr_usr.h:135

_ACL::AclSize
USHORT AclSize
Definition: ms-dtyp.idl:296

_ACL
Definition: ms-dtyp.idl:293

TOKEN_DEFAULT_DACL
struct _TOKEN_DEFAULT_DACL TOKEN_DEFAULT_DACL

SeSystemDefaultDacl
PACL SeSystemDefaultDacl
Definition: acl.c:17

ApplyChanges
BOOL ApplyChanges(HWND hwndDlg)
Definition: sounds.c:961

PTOKEN_TYPE
enum _TOKEN_TYPE * PTOKEN_TYPE

_TOKEN_STATISTICS::GroupCount
$ULONG GroupCount
Definition: setypes.h:1058

_TOKEN_GROUPS_AND_PRIVILEGES
Definition: setypes.h:1004

SepCaptureSid
NTSTATUS NTAPI SepCaptureSid(_In_ PSID InputSid, _In_ KPROCESSOR_MODE AccessMode, _In_ POOL_TYPE PoolType, _In_ BOOLEAN CaptureIfKernel, _Out_ PSID *CapturedSid)
Captures a SID.
Definition: sid.c:308

_TOKEN_PRIMARY_GROUP
Definition: setypes.h:996

_OBJECT_HANDLE_INFORMATION
Definition: iotypes.h:179

_TOKEN_STATISTICS::DynamicCharged
$ULONG DynamicCharged
Definition: setypes.h:1056

_TOKEN::AuthenticationId
LUID AuthenticationId
Definition: setypes.h:201

SessionId
ULONG SessionId
Definition: dllmain.c:28

RtlCopySidAndAttributesArray
NTSYSAPI NTSTATUS NTAPI RtlCopySidAndAttributesArray(_In_ ULONG Count, _In_ PSID_AND_ATTRIBUTES Src, _In_ ULONG SidAreaSize, _In_ PSID_AND_ATTRIBUTES Dest, _In_ PSID SidArea, _Out_ PSID *RemainingSidArea, _Out_ PULONG RemainingSidAreaSize)

KeGetPreviousMode
#define KeGetPreviousMode()
Definition: ketypes.h:1107

STATUS_CANT_OPEN_ANONYMOUS
#define STATUS_CANT_OPEN_ANONYMOUS
Definition: ntstatus.h:402

NTSTATUS
LONG NTSTATUS
Definition: precomp.h:26

Token
_IRQL_requires_same_ _In_ PLSA_STRING _In_ SECURITY_LOGON_TYPE _In_ ULONG _In_ ULONG _In_opt_ PTOKEN_GROUPS _In_ PTOKEN_SOURCE _Out_ PVOID _Out_ PULONG _Inout_ PLUID _Out_ PHANDLE Token
Definition: ntifs.template.h:711

SE_RESTORE_PRIVILEGE
#define SE_RESTORE_PRIVILEGE
Definition: security.c:672

LUID_AND_ATTRIBUTES
struct _LUID_AND_ATTRIBUTES LUID_AND_ATTRIBUTES

SepImpersonateAnonymousToken
static NTSTATUS SepImpersonateAnonymousToken(_In_ PETHREAD Thread, _In_ KPROCESSOR_MODE PreviousMode)
Private function that impersonates the system's anonymous logon token. The major bulk of the imperson...
Definition: token.c:379

NtCompareTokens
NTSTATUS NTAPI NtCompareTokens(_In_ HANDLE FirstTokenHandle, _In_ HANDLE SecondTokenHandle, _Out_ PBOOLEAN Equal)
Compares tokens if they're equal or not.
Definition: token.c:5754

SeSystemAuthenticationId
LUID SeSystemAuthenticationId
Definition: token.c:22

CopyOnOpen
_Out_ PBOOLEAN CopyOnOpen
Definition: psfuncs.h:154

ExInitializeResourceLite
NTSTATUS ExInitializeResourceLite(PULONG res)
Definition: env_spec_w32.h:641

ExDeleteResourceLite
NTSTATUS NTAPI ExDeleteResourceLite(IN PERESOURCE Resource)
Definition: resource.c:1456

PACCESS_TOKEN
PVOID PACCESS_TOKEN
Definition: setypes.h:11

SE_PRIVILEGE_REMOVED
#define SE_PRIVILEGE_REMOVED
Definition: setypes.h:64

SeAnonymousLogonToken
PTOKEN SeAnonymousLogonToken
Definition: semgr.c:19

TOKEN_HAS_TRAVERSE_PRIVILEGE
#define TOKEN_HAS_TRAVERSE_PRIVILEGE
Definition: setypes.h:1143

ExGetPreviousMode
KPROCESSOR_MODE NTAPI ExGetPreviousMode(VOID)
Definition: sysinfo.c:3070

Level
_IRQL_requires_same_ typedef _In_ ULONG _In_ UCHAR Level
Definition: wmitypes.h:55

_EPROCESS
Definition: pstypes.h:1260

_OBJECT_TYPE
Definition: obtypes.h:379

KernelMode
Definition: ketypes.h:11

SeAssignPrimaryTokenPrivilege
const LUID SeAssignPrimaryTokenPrivilege
Definition: priv.c:22

TOKEN_IMPERSONATE
#define TOKEN_IMPERSONATE
Definition: setypes.h:892

RtlCreateSecurityDescriptor
NTSYSAPI NTSTATUS NTAPI RtlCreateSecurityDescriptor(_Out_ PSECURITY_DESCRIPTOR SecurityDescriptor, _In_ ULONG Revision)

_When_
#define _When_(expr, annos)
Definition: ms_sal.h:254