reactos/subsystems/csr/csrsrv/procsup.c

/*
 * COPYRIGHT:       See COPYING in the top level directory
 * PROJECT:         ReactOS Client/Server Runtime SubSystem
 * FILE:            subsystems/win32/csrsrv/procsup.c
 * PURPOSE:         CSR Server DLL Process Management
 * PROGRAMMERS:     ReactOS Portable Systems Group
 *                  Alex Ionescu (alex@relsoft.net)
 */

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

#include <srv.h>

#include <winuser.h>

#define NDEBUG
#include <debug.h>

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

RTL_CRITICAL_SECTION CsrProcessLock;
PCSR_PROCESS CsrRootProcess = NULL;
SECURITY_QUALITY_OF_SERVICE CsrSecurityQos =
{
    sizeof(SECURITY_QUALITY_OF_SERVICE),
    SecurityImpersonation,
    SECURITY_STATIC_TRACKING,
    FALSE
};
ULONG CsrProcessSequenceCount = 5;
extern ULONG CsrTotalPerProcessDataLength;


/* PRIVATE FUNCTIONS **********************************************************/

/*++
 * @name CsrSetToNormalPriority
 *
 * The CsrSetToNormalPriority routine sets the current NT Process'
 * priority to the normal priority for CSR Processes.
 *
 * @param None.
 *
 * @return None.
 *
 * @remarks The "Normal" Priority corresponds to the Normal Foreground
 *          Priority (9) plus a boost of 4.
 *
 *--*/
VOID
NTAPI
CsrSetToNormalPriority(VOID)
{
    KPRIORITY BasePriority = PROCESS_PRIORITY_NORMAL_FOREGROUND + 4;

    /* Set the base priority */
    NtSetInformationProcess(NtCurrentProcess(),
                            ProcessBasePriority,
                            &BasePriority,
                            sizeof(BasePriority));
}

/*++
 * @name CsrSetToShutdownPriority
 *
 * The CsrSetToShutdownPriority routine sets the current NT Process'
 * priority to the boosted priority for CSR Processes doing shutdown,
 * acquiring also the required Increase Base Priority privilege.
 *
 * @param None.
 *
 * @return None.
 *
 * @remarks The "Shutdown" Priority corresponds to the Normal Foreground
 *          Priority (9) plus a boost of 6.
 *
 *--*/
VOID
NTAPI
CsrSetToShutdownPriority(VOID)
{
    KPRIORITY BasePriority = PROCESS_PRIORITY_NORMAL_FOREGROUND + 6;
    BOOLEAN Old;

    /* Get the Increase Base Priority privilege */
    if (NT_SUCCESS(RtlAdjustPrivilege(SE_INC_BASE_PRIORITY_PRIVILEGE,
                                      TRUE,
                                      FALSE,
                                      &Old)))
    {
        /* Set the base priority */
        NtSetInformationProcess(NtCurrentProcess(),
                                ProcessBasePriority,
                                &BasePriority,
                                sizeof(BasePriority));
    }
}

/*++
 * @name CsrProcessRefcountZero
 *
 * The CsrProcessRefcountZero routine is executed when a CSR Process has lost
 * all its active references. It removes and de-allocates the CSR Process.
 *
 * @param CsrProcess
 *        Pointer to the CSR Process that is to be deleted.
 *
 * @return None.
 *
 * @remarks Do not call this routine. It is reserved for the internal
 *          thread management routines when a CSR Process has lost all
 *          its references.
 *
 *          This routine is called with the Process Lock held.
 *
 *--*/
VOID
NTAPI
CsrProcessRefcountZero(IN PCSR_PROCESS CsrProcess)
{
    ASSERT(ProcessStructureListLocked());

    /* Remove the Process from the list */
    CsrRemoveProcess(CsrProcess);

    /* Check if there's a session */
    if (CsrProcess->NtSession)
    {
        /* Dereference the Session */
        CsrDereferenceNtSession(CsrProcess->NtSession, STATUS_SUCCESS);
    }

    /* Close the Client Port if there is one */
    if (CsrProcess->ClientPort) NtClose(CsrProcess->ClientPort);

    /* Close the process handle */
    NtClose(CsrProcess->ProcessHandle);

    /* Free the Process Object */
    CsrDeallocateProcess(CsrProcess);
}

/*++
 * @name CsrLockedDereferenceProcess
 *
 * The CsrLockedDereferenceProcess dereferences a CSR Process while the
 * Process Lock is already being held.
 *
 * @param CsrProcess
 *        Pointer to the CSR Process to be dereferenced.
 *
 * @return None.
 *
 * @remarks This routine will return with the Process Lock held.
 *
 *--*/
VOID
NTAPI
CsrLockedDereferenceProcess(PCSR_PROCESS CsrProcess)
{
    LONG LockCount;

    /* Decrease reference count */
    LockCount = --CsrProcess->ReferenceCount;
    ASSERT(LockCount >= 0);
    if (LockCount == 0)
    {
        /* Call the generic cleanup code */
        DPRINT1("Should kill process: %p\n", CsrProcess);
        CsrProcessRefcountZero(CsrProcess);
        /* Acquire the lock again, it was released in CsrProcessRefcountZero */
        CsrAcquireProcessLock();
    }
}

/*++
 * @name CsrAllocateProcess
 * @implemented NT4
 *
 * The CsrAllocateProcess routine allocates a new CSR Process object.
 *
 * @return Pointer to the newly allocated CSR Process.
 *
 * @remarks None.
 *
 *--*/
PCSR_PROCESS
NTAPI
CsrAllocateProcess(VOID)
{
    PCSR_PROCESS CsrProcess;
    ULONG TotalSize;

    /* Calculate the amount of memory this should take */
    TotalSize = sizeof(CSR_PROCESS) +
                (CSR_SERVER_DLL_MAX * sizeof(PVOID)) +
                CsrTotalPerProcessDataLength;

    /* Allocate a Process */
    CsrProcess = RtlAllocateHeap(CsrHeap, HEAP_ZERO_MEMORY, TotalSize);
    if (!CsrProcess) return NULL;

    /* Handle the Sequence Number and protect against overflow */
    CsrProcess->SequenceNumber = CsrProcessSequenceCount++;
    if (CsrProcessSequenceCount < 5) CsrProcessSequenceCount = 5;

    /* Increase the reference count */
    CsrLockedReferenceProcess(CsrProcess);

    /* Initialize the Thread List */
    InitializeListHead(&CsrProcess->ThreadList);

    /* Return the Process */
    return CsrProcess;
}

/*++
 * @name CsrLockedReferenceProcess
 *
 * The CsrLockedReferenceProcess references a CSR Process while the
 * Process Lock is already being held.
 *
 * @param CsrProcess
 *        Pointer to the CSR Process to be referenced.
 *
 * @return None.
 *
 * @remarks This routine will return with the Process Lock held.
 *
 *--*/
VOID
NTAPI
CsrLockedReferenceProcess(IN PCSR_PROCESS CsrProcess)
{
    /* Increment the reference count */
    ++CsrProcess->ReferenceCount;
}

/*++
 * @name CsrInitializeProcessStructure
 * @implemented NT4
 *
 * The CsrInitializeProcessStructure routine sets up support for CSR Processes
 * and CSR Threads by initializing our own CSR Root Process.
 *
 * @param None.
 *
 * @return STATUS_SUCCESS in case of success, STATUS_UNSUCCESSFUL otherwise.
 *
 * @remarks None.
 *
 *--*/
NTSTATUS
NTAPI
CsrInitializeProcessStructure(VOID)
{
    NTSTATUS Status;
    ULONG i;

    /* Initialize the Lock */
    Status = RtlInitializeCriticalSection(&CsrProcessLock);
    if (!NT_SUCCESS(Status)) return Status;

    /* Set up the Root Process */
    CsrRootProcess = CsrAllocateProcess();
    if (!CsrRootProcess) return STATUS_NO_MEMORY;

    /* Set up the minimal information for it */
    InitializeListHead(&CsrRootProcess->ListLink);
    CsrRootProcess->ProcessHandle = (HANDLE)-1;
    CsrRootProcess->ClientId = NtCurrentTeb()->ClientId;

    /* Initialize the Thread Hash List */
    for (i = 0; i < NUMBER_THREAD_HASH_BUCKETS; i++) InitializeListHead(&CsrThreadHashTable[i]);

    /* Initialize the Wait Lock */
    return RtlInitializeCriticalSection(&CsrWaitListsLock);
}

/*++
 * @name CsrDeallocateProcess
 *
 * The CsrDeallocateProcess frees the memory associated with a CSR Process.
 *
 * @param CsrProcess
 *        Pointer to the CSR Process to be freed.
 *
 * @return None.
 *
 * @remarks Do not call this routine. It is reserved for the internal
 *          thread management routines when a CSR Process has been cleanly
 *          dereferenced and killed.
 *
 *--*/
VOID
NTAPI
CsrDeallocateProcess(IN PCSR_PROCESS CsrProcess)
{
    /* Free the process object from the heap */
    RtlFreeHeap(CsrHeap, 0, CsrProcess);
}

/*++
 * @name CsrRemoveProcess
 *
 * The CsrRemoveProcess function undoes a CsrInsertProcess operation and
 * removes the CSR Process from the Process List and notifies Server DLLs
 * of this removal.
 *
 * @param CsrProcess
 *        Pointer to the CSR Process to remove.
 *
 * @return None.
 *
 * @remarks None.
 *
 *--*/
VOID
NTAPI
CsrRemoveProcess(IN PCSR_PROCESS CsrProcess)
{
    PCSR_SERVER_DLL ServerDll;
    ULONG i;
    ASSERT(ProcessStructureListLocked());

    /* Remove us from the Process List */
    RemoveEntryList(&CsrProcess->ListLink);

    /* Release the lock */
    CsrReleaseProcessLock();

    /* Loop every Server DLL */
    for (i = 0; i < CSR_SERVER_DLL_MAX; i++)
    {
        /* Get the Server DLL */
        ServerDll = CsrLoadedServerDll[i];

        /* Check if it's valid and if it has a Disconnect Callback */
        if (ServerDll && ServerDll->DisconnectCallback)
        {
            /* Call it */
            ServerDll->DisconnectCallback(CsrProcess);
        }
    }
}

/*++
 * @name CsrInsertProcess
 *
 * The CsrInsertProcess routine inserts a CSR Process into the Process List
 * and notifies Server DLLs of the creation of a new CSR Process.
 *
 * @param ParentProcess
 *        Optional pointer to the Parent Process creating this CSR Process.
 *
 * @param CsrProcess
 *        Pointer to the CSR Process which is to be inserted.
 *
 * @return None.
 *
 * @remarks None.
 *
 *--*/
VOID
NTAPI
CsrInsertProcess(IN PCSR_PROCESS ParentProcess OPTIONAL,
                 IN PCSR_PROCESS CsrProcess)
{
    PCSR_SERVER_DLL ServerDll;
    ULONG i;
    ASSERT(ProcessStructureListLocked());

    /* Insert it into the Root List */
    InsertTailList(&CsrRootProcess->ListLink, &CsrProcess->ListLink);

    /* Notify the Server DLLs */
    for (i = 0; i < CSR_SERVER_DLL_MAX; i++)
    {
        /* Get the current Server DLL */
        ServerDll = CsrLoadedServerDll[i];

        /* Make sure it's valid and that it has callback */
        if (ServerDll && ServerDll->NewProcessCallback)
        {
            ServerDll->NewProcessCallback(ParentProcess, CsrProcess);
        }
    }
}


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

/*++
 * @name CsrCreateProcess
 * @implemented NT4
 *
 * The CsrCreateProcess routine creates a CSR Process object for an NT Process.
 *
 * @param hProcess
 *        Handle to an existing NT Process to which to associate this
 *        CSR Process.
 *
 * @param hThread
 *        Handle to an existing NT Thread to which to create its
 *        corresponding CSR Thread for this CSR Process.
 *
 * @param ClientId
 *        Pointer to the Client ID structure of the NT Process to associate
 *        with this CSR Process.
 *
 * @param NtSession
 * @param Flags
 * @param DebugCid
 *
 * @return STATUS_SUCCESS in case of success, STATUS_UNSUCCESSFUL otherwise.
 *
 * @remarks None.
 *
 *--*/
NTSTATUS
NTAPI
CsrCreateProcess(IN HANDLE hProcess,
                 IN HANDLE hThread,
                 IN PCLIENT_ID ClientId,
                 IN PCSR_NT_SESSION NtSession,
                 IN ULONG Flags,
                 IN PCLIENT_ID DebugCid)
{
    PCSR_THREAD CurrentThread = CsrGetClientThread();
    CLIENT_ID CurrentCid;
    PCSR_PROCESS CurrentProcess;
    PCSR_SERVER_DLL ServerDll;
    PVOID ProcessData;
    ULONG i;
    PCSR_PROCESS CsrProcess;
    NTSTATUS Status;
    PCSR_THREAD CsrThread;
    KERNEL_USER_TIMES KernelTimes;

    /* Get the current CID and lock Processes */
    CurrentCid = CurrentThread->ClientId;
    CsrAcquireProcessLock();

    /* Get the current CSR Thread */
    CurrentThread = CsrLocateThreadByClientId(&CurrentProcess, &CurrentCid);
    if (!CurrentThread)
    {
        /* We've failed to locate the thread */
        CsrReleaseProcessLock();
        return STATUS_THREAD_IS_TERMINATING;
    }

    /* Allocate a new Process Object */
    CsrProcess = CsrAllocateProcess();
    if (!CsrProcess)
    {
        /* Couldn't allocate Process */
        CsrReleaseProcessLock();
        return STATUS_NO_MEMORY;
    }

    /* Inherit the Process Data */
    CurrentProcess = CurrentThread->Process;
    ProcessData = &CsrProcess->ServerData[CSR_SERVER_DLL_MAX];
    for (i = 0; i < CSR_SERVER_DLL_MAX; i++)
    {
        /* Get the current Server */
        ServerDll = CsrLoadedServerDll[i];

        /* Check if the DLL is Loaded and has Per Process Data */
        if (ServerDll && ServerDll->SizeOfProcessData)
        {
            /* Set the pointer */
            CsrProcess->ServerData[i] = ProcessData;

            /* Copy the Data */
            RtlMoveMemory(ProcessData,
                          CurrentProcess->ServerData[i],
                          ServerDll->SizeOfProcessData);

            /* Update next data pointer */
            ProcessData = (PVOID)((ULONG_PTR)ProcessData +
                                  ServerDll->SizeOfProcessData);
        }
        else
        {
            /* No data for this Server */
            CsrProcess->ServerData[i] = NULL;
        }
    }

    /* Set the Exception Port for us */
    Status = NtSetInformationProcess(hProcess,
                                     ProcessExceptionPort,
                                     &CsrApiPort,
                                     sizeof(CsrApiPort));
    if (!NT_SUCCESS(Status))
    {
        /* Failed */
        CsrDeallocateProcess(CsrProcess);
        CsrReleaseProcessLock();
        return STATUS_NO_MEMORY;
    }

    /* Check if CreateProcess got CREATE_NEW_PROCESS_GROUP */
    if (Flags & CsrProcessCreateNewGroup)
    {
        /*
         * We create the process group leader of a new process group, therefore
         * its process group ID and sequence number are its own ones.
         */
        CsrProcess->ProcessGroupId = HandleToUlong(ClientId->UniqueProcess);
        CsrProcess->ProcessGroupSequence = CsrProcess->SequenceNumber;
    }
    else
    {
        /* Inherit the process group ID and sequence number from the current process */
        CsrProcess->ProcessGroupId = CurrentProcess->ProcessGroupId;
        CsrProcess->ProcessGroupSequence = CurrentProcess->ProcessGroupSequence;
    }

    /* Check if this is a console process */
    if (Flags & CsrProcessIsConsoleApp) CsrProcess->Flags |= CsrProcessIsConsoleApp;

    /* Mask out non-debug flags */
    Flags &= ~(CsrProcessIsConsoleApp | CsrProcessCreateNewGroup | CsrProcessPriorityFlags);

    /* Check if every process will be debugged */
    if (!(Flags) && (CurrentProcess->DebugFlags & CsrDebugProcessChildren))
    {
        /* Pass it on to the current process */
        CsrProcess->DebugFlags = CsrDebugProcessChildren;
        CsrProcess->DebugCid = CurrentProcess->DebugCid;
    }

    /* Check if Debugging was used on this process */
    if ((Flags & (CsrDebugOnlyThisProcess | CsrDebugProcessChildren)) && (DebugCid))
    {
        /* Save the debug flag used */
        CsrProcess->DebugFlags = Flags;

        /* Save the CID */
        CsrProcess->DebugCid = *DebugCid;
    }

    /* Check if Debugging is enabled */
    if (CsrProcess->DebugFlags)
    {
        /* Set the Debug Port for us */
        Status = NtSetInformationProcess(hProcess,
                                         ProcessDebugPort,
                                         &CsrApiPort,
                                         sizeof(CsrApiPort));
        ASSERT(NT_SUCCESS(Status));
        if (!NT_SUCCESS(Status))
        {
            /* Failed */
            CsrDeallocateProcess(CsrProcess);
            CsrReleaseProcessLock();
            return STATUS_NO_MEMORY;
        }
    }

    /* Get the Thread Create Time */
    Status = NtQueryInformationThread(hThread,
                                      ThreadTimes,
                                      &KernelTimes,
                                      sizeof(KernelTimes),
                                      NULL);
    if (!NT_SUCCESS(Status))
    {
        /* Failed */
        CsrDeallocateProcess(CsrProcess);
        CsrReleaseProcessLock();
        return STATUS_NO_MEMORY;
    }

    /* Allocate a CSR Thread Structure */
    CsrThread = CsrAllocateThread(CsrProcess);
    if (!CsrThread)
    {
        /* Failed */
        CsrDeallocateProcess(CsrProcess);
        CsrReleaseProcessLock();
        return STATUS_NO_MEMORY;
    }

    /* Save the data we have */
    CsrThread->CreateTime = KernelTimes.CreateTime;
    CsrThread->ClientId = *ClientId;
    CsrThread->ThreadHandle = hThread;
    ProtectHandle(hThread);
    CsrThread->Flags = 0;

    /* Insert the Thread into the Process */
    Status = CsrInsertThread(CsrProcess, CsrThread);
    if (!NT_SUCCESS(Status))
    {
        /* Bail out */
        CsrDeallocateProcess(CsrProcess);
        CsrDeallocateThread(CsrThread);
        CsrReleaseProcessLock();
        return Status;
    }

    /* Reference the session */
    CsrReferenceNtSession(NtSession);
    CsrProcess->NtSession = NtSession;

    /* Setup Process Data */
    CsrProcess->ClientId = *ClientId;
    CsrProcess->ProcessHandle = hProcess;
    CsrProcess->ShutdownLevel = 0x280;

    /* Set the priority to Background */
    CsrSetBackgroundPriority(CsrProcess);

    /* Insert the Process */
    CsrInsertProcess(CurrentProcess, CsrProcess);

    /* Release lock and return */
    CsrReleaseProcessLock();
    return Status;
}

/*++
 * @name CsrDebugProcess
 * @implemented NT4
 *
 * The CsrDebugProcess routine is deprecated in NT 5.1 and higher. It is
 * exported only for compatibility with older CSR Server DLLs.
 *
 * @param CsrProcess
 *        Deprecated.
 *
 * @return Deprecated
 *
 * @remarks Deprecated.
 *
 *--*/
NTSTATUS
NTAPI
CsrDebugProcess(IN PCSR_PROCESS CsrProcess)
{
    /* CSR does not handle debugging anymore */
    DPRINT("CSRSRV: %s(0x%p) called\n", __FUNCTION__, CsrProcess);
    return STATUS_UNSUCCESSFUL;
}

/*++
 * @name CsrDebugProcessStop
 * @implemented NT4
 *
 * The CsrDebugProcessStop routine is deprecated in NT 5.1 and higher. It is
 * exported only for compatibility with older CSR Server DLLs.
 *
 * @param CsrProcess
 *        Deprecated.
 *
 * @return Deprecated
 *
 * @remarks Deprecated.
 *
 *--*/
NTSTATUS
NTAPI
CsrDebugProcessStop(IN PCSR_PROCESS CsrProcess)
{
    /* CSR does not handle debugging anymore */
    DPRINT("CSRSRV: %s(0x%p) called\n", __FUNCTION__, CsrProcess);
    return STATUS_UNSUCCESSFUL;
}

/*++
 * @name CsrDereferenceProcess
 * @implemented NT4
 *
 * The CsrDereferenceProcess routine removes a reference from a CSR Process.
 *
 * @param CsrThread
 *        Pointer to the CSR Process to dereference.
 *
 * @return None.
 *
 * @remarks If the reference count has reached zero (ie: the CSR Process has
 *          no more active references), it will be deleted.
 *
 *--*/
VOID
NTAPI
CsrDereferenceProcess(IN PCSR_PROCESS CsrProcess)
{
    LONG LockCount;

    /* Acquire process lock */
    CsrAcquireProcessLock();

    /* Decrease reference count */
    LockCount = --CsrProcess->ReferenceCount;
    ASSERT(LockCount >= 0);
    if (LockCount == 0)
    {
        /* Call the generic cleanup code */
        CsrProcessRefcountZero(CsrProcess);
    }
    else
    {
        /* Just release the lock */
        CsrReleaseProcessLock();
    }
}

/*++
 * @name CsrDestroyProcess
 * @implemented NT4
 *
 * The CsrDestroyProcess routine destroys the CSR Process corresponding to
 * a given Client ID.
 *
 * @param Cid
 *        Pointer to the Client ID Structure corresponding to the CSR
 *        Process which is about to be destroyed.
 *
 * @param ExitStatus
 *        Unused.
 *
 * @return STATUS_SUCCESS in case of success, STATUS_THREAD_IS_TERMINATING
 *         if the CSR Process is already terminating.
 *
 * @remarks None.
 *
 *--*/
NTSTATUS
NTAPI
CsrDestroyProcess(IN PCLIENT_ID Cid,
                  IN NTSTATUS ExitStatus)
{
    PCSR_THREAD CsrThread;
    PCSR_PROCESS CsrProcess;
    CLIENT_ID ClientId = *Cid;
    PLIST_ENTRY NextEntry;

    /* Acquire lock */
    CsrAcquireProcessLock();

    /* Find the thread */
    CsrThread = CsrLocateThreadByClientId(&CsrProcess, &ClientId);

    /* Make sure we got one back, and that it's not already gone */
    if (!(CsrThread) || (CsrProcess->Flags & CsrProcessTerminating))
    {
        /* Release the lock and return failure */
        CsrReleaseProcessLock();
        return STATUS_THREAD_IS_TERMINATING;
    }

    /* Set the terminated flag */
    CsrProcess->Flags |= CsrProcessTerminating;

    /* Get the List Pointers */
    NextEntry = CsrProcess->ThreadList.Flink;
    while (NextEntry != &CsrProcess->ThreadList)
    {
        /* Get the current thread entry */
        CsrThread = CONTAINING_RECORD(NextEntry, CSR_THREAD, Link);

        /* Move to the next entry */
        NextEntry = NextEntry->Flink;

        /* Make sure the thread isn't already dead */
        if (CsrThread->Flags & CsrThreadTerminated)
        {
            /* Go the the next thread */
            continue;
        }

        /* Set the Terminated flag */
        CsrThread->Flags |= CsrThreadTerminated;

        /* Acquire the Wait Lock */
        CsrAcquireWaitLock();

        /* Do we have an active wait block? */
        if (CsrThread->WaitBlock)
        {
            /* Notify waiters of termination */
            CsrNotifyWaitBlock(CsrThread->WaitBlock,
                               NULL,
                               NULL,
                               NULL,
                               CsrProcessTerminating,
                               TRUE);
        }

        /* Release the Wait Lock */
        CsrReleaseWaitLock();

        /* Dereference the thread */
        CsrLockedDereferenceThread(CsrThread);
    }

    /* Release the Process Lock and return success */
    CsrReleaseProcessLock();
    return STATUS_SUCCESS;
}

/*++
 * @name CsrGetProcessLuid
 * @implemented NT4
 *
 * The CsrGetProcessLuid routine gets the LUID of the given process.
 *
 * @param hProcess
 *        Optional handle to the process whose LUID should be returned.
 *
 * @param Luid
 *        Pointer to a LUID Pointer which will receive the CSR Process' LUID.
 *
 * @return STATUS_SUCCESS in case of success, STATUS_UNSUCCESSFUL otherwise.
 *
 * @remarks If hProcess is not supplied, then the current thread's token will
 *          be used. If that too is missing, then the current process' token
 *          will be used.
 *
 *--*/
NTSTATUS
NTAPI
CsrGetProcessLuid(IN HANDLE hProcess OPTIONAL,
                  OUT PLUID Luid)
{
    HANDLE hToken = NULL;
    NTSTATUS Status;
    ULONG Length;
    PTOKEN_STATISTICS TokenStats;

    /* Check if we have a handle to a CSR Process */
    if (!hProcess)
    {
        /* We don't, so try opening the Thread's Token */
        Status = NtOpenThreadToken(NtCurrentThread(),
                                   TOKEN_QUERY,
                                   FALSE,
                                   &hToken);

        /* Check for success */
        if (!NT_SUCCESS(Status))
        {
            /* If we got some other failure, then return and quit */
            if (Status != STATUS_NO_TOKEN) return Status;

            /* We don't have a Thread Token, use a Process Token */
            hProcess = NtCurrentProcess();
            hToken = NULL;
        }
    }

    /* Check if we have a token by now */
    if (!hToken)
    {
        /* No token yet, so open the Process Token */
        Status = NtOpenProcessToken(hProcess,
                                    TOKEN_QUERY,
                                    &hToken);
        if (!NT_SUCCESS(Status))
        {
            /* Still no token, return the error */
            return Status;
        }
    }

    /* Now get the size we'll need for the Token Information */
    Status = NtQueryInformationToken(hToken,
                                     TokenStatistics,
                                     NULL,
                                     0,
                                     &Length);
    if (Status != STATUS_BUFFER_TOO_SMALL)
    {
        /* Close the token and fail */
        NtClose(hToken);
        return Status;
    }

    /* Allocate memory for the Token Info */
    if (!(TokenStats = RtlAllocateHeap(CsrHeap, 0, Length)))
    {
        /* Fail and close the token */
        NtClose(hToken);
        return STATUS_NO_MEMORY;
    }

    /* Now query the information */
    Status = NtQueryInformationToken(hToken,
                                     TokenStatistics,
                                     TokenStats,
                                     Length,
                                     &Length);

    /* Close the handle */
    NtClose(hToken);

    /* Check for success */
    if (NT_SUCCESS(Status))
    {
        /* Return the LUID */
        *Luid = TokenStats->AuthenticationId;
    }

    /* Free the query information */
    RtlFreeHeap(CsrHeap, 0, TokenStats);

    /* Return the Status */
    return Status;
}

/*++
 * @name CsrImpersonateClient
 * @implemented NT4
 *
 * The CsrImpersonateClient will impersonate the given CSR Thread.
 *
 * @param CsrThread
 *        Pointer to the CSR Thread to impersonate.
 *
 * @return TRUE if impersonation succeeded, FALSE otherwise.
 *
 * @remarks Impersonation can be recursive.
 *
 *--*/
BOOLEAN
NTAPI
CsrImpersonateClient(IN PCSR_THREAD CsrThread)
{
    NTSTATUS Status;
    PCSR_THREAD CurrentThread = CsrGetClientThread();

    /* Use the current thread if none given */
    if (!CsrThread) CsrThread = CurrentThread;

    /* Still no thread, something is wrong */
    if (!CsrThread)
    {
        /* Failure */
        return FALSE;
    }

    /* Make the call */
    Status = NtImpersonateThread(NtCurrentThread(),
                                 CsrThread->ThreadHandle,
                                 &CsrSecurityQos);

    if (!NT_SUCCESS(Status))
    {
        /* Failure */
#ifdef CSR_DBG
        DPRINT1("CSRSS: Can't impersonate client thread - Status = %lx\n", Status);
        // if (Status != STATUS_BAD_IMPERSONATION_LEVEL) DbgBreakPoint();
#endif
        return FALSE;
    }

    /* Increase the impersonation count for the current thread */
    if (CurrentThread) ++CurrentThread->ImpersonationCount;

    /* Return Success */
    return TRUE;
}

/*++
 * @name CsrLockProcessByClientId
 * @implemented NT4
 *
 * The CsrLockProcessByClientId routine locks the CSR Process corresponding
 * to the given Process ID and optionally returns it.
 *
 * @param Pid
 *        Process ID corresponding to the CSR Process which will be locked.
 *
 * @param CsrProcess
 *        Optional pointer to a CSR Process pointer which will hold the
 *        CSR Process corresponding to the given Process ID.
 *
 * @return STATUS_SUCCESS in case of success, STATUS_UNSUCCESSFUL otherwise.
 *
 * @remarks Locking a CSR Process is defined as acquiring an extra
 *          reference to it and returning with the Process Lock held.
 *
 *--*/
NTSTATUS
NTAPI
CsrLockProcessByClientId(IN HANDLE Pid,
                         OUT PCSR_PROCESS *CsrProcess)
{
    PLIST_ENTRY NextEntry;
    PCSR_PROCESS CurrentProcess = NULL;
    NTSTATUS Status = STATUS_UNSUCCESSFUL;

    /* Acquire the lock */
    CsrAcquireProcessLock();

    /* Assume failure */
    ASSERT(CsrProcess != NULL);
    *CsrProcess = NULL;

    /* Setup the List Pointers */
    NextEntry = &CsrRootProcess->ListLink;
    do
    {
        /* Get the Process */
        CurrentProcess = CONTAINING_RECORD(NextEntry, CSR_PROCESS, ListLink);

        /* Check for PID Match */
        if (CurrentProcess->ClientId.UniqueProcess == Pid)
        {
            Status = STATUS_SUCCESS;
            break;
        }

        /* Move to the next entry */
        NextEntry = NextEntry->Flink;
    } while (NextEntry != &CsrRootProcess->ListLink);

    /* Check if we didn't find it in the list */
    if (!NT_SUCCESS(Status))
    {
        /* Nothing found, release the lock */
        CsrReleaseProcessLock();
    }
    else
    {
        /* Lock the found process and return it */
        CsrLockedReferenceProcess(CurrentProcess);
        *CsrProcess = CurrentProcess;
    }

    /* Return the result */
    return Status;
}

/*++
 * @name CsrRevertToSelf
 * @implemented NT4
 *
 * The CsrRevertToSelf routine will attempt to remove an active impersonation.
 *
 * @param None.
 *
 * @return TRUE if the reversion was succesful, FALSE otherwise.
 *
 * @remarks Impersonation can be recursive; as such, the impersonation token
 *          will only be deleted once the CSR Thread's impersonation count
 *          has reached zero.
 *
 *--*/
BOOLEAN
NTAPI
CsrRevertToSelf(VOID)
{
    NTSTATUS Status;
    PCSR_THREAD CurrentThread = CsrGetClientThread();
    HANDLE ImpersonationToken = NULL;

    /* Check if we have a Current Thread */
    if (CurrentThread)
    {
        /* Make sure impersonation is on */
        if (!CurrentThread->ImpersonationCount)
        {
            DPRINT1("CSRSS: CsrRevertToSelf called while not impersonating\n");
            // DbgBreakPoint();
            return FALSE;
        }
        else if ((--CurrentThread->ImpersonationCount) > 0)
        {
            /* Success; impersonation count decreased but still not zero */
            return TRUE;
        }
    }

    /* Impersonation has been totally removed, revert to ourselves */
    Status = NtSetInformationThread(NtCurrentThread(),
                                    ThreadImpersonationToken,
                                    &ImpersonationToken,
                                    sizeof(ImpersonationToken));

    /* Return TRUE or FALSE */
    return NT_SUCCESS(Status);
}

/*++
 * @name CsrSetBackgroundPriority
 * @implemented NT4
 *
 * The CsrSetBackgroundPriority routine sets the priority for the given CSR
 * Process as a Background priority.
 *
 * @param CsrProcess
 *        Pointer to the CSR Process whose priority will be modified.
 *
 * @return None.
 *
 * @remarks None.
 *
 *--*/
VOID
NTAPI
CsrSetBackgroundPriority(IN PCSR_PROCESS CsrProcess)
{
    PROCESS_FOREGROUND_BACKGROUND ProcessPriority;

    /* Set the Foreground bit off */
    ProcessPriority.Foreground = FALSE;

    /* Set the new priority */
    NtSetInformationProcess(CsrProcess->ProcessHandle,
                            ProcessForegroundInformation,
                            &ProcessPriority,
                            sizeof(ProcessPriority));
}

/*++
 * @name CsrSetForegroundPriority
 * @implemented NT4
 *
 * The CsrSetForegroundPriority routine sets the priority for the given CSR
 * Process as a Foreground priority.
 *
 * @param CsrProcess
 *        Pointer to the CSR Process whose priority will be modified.
 *
 * @return None.
 *
 * @remarks None.
 *
 *--*/
VOID
NTAPI
CsrSetForegroundPriority(IN PCSR_PROCESS CsrProcess)
{
    PROCESS_FOREGROUND_BACKGROUND ProcessPriority;

    /* Set the Foreground bit on */
    ProcessPriority.Foreground = TRUE;

    /* Set the new priority */
    NtSetInformationProcess(CsrProcess->ProcessHandle,
                            ProcessForegroundInformation,
                            &ProcessPriority,
                            sizeof(ProcessPriority));
}

/*++
 * @name FindProcessForShutdown
 *
 * The FindProcessForShutdown routine returns a CSR Process which is ready
 * to be shutdown, and sets the appropriate shutdown flags for it.
 *
 * @param CallerLuid
 *        Pointer to the LUID of the CSR Process calling this routine.
 *
 * @return Pointer to a CSR Process which is ready to be shutdown.
 *
 * @remarks None.
 *
 *--*/
PCSR_PROCESS
NTAPI
FindProcessForShutdown(IN PLUID CallerLuid)
{
    PCSR_PROCESS CsrProcess, ReturnCsrProcess = NULL;
    PCSR_THREAD CsrThread;
    NTSTATUS Status;
    ULONG Level = 0;
    LUID ProcessLuid;
    LUID SystemLuid = SYSTEM_LUID;
    PLIST_ENTRY NextEntry;

    /* Set the List Pointers */
    NextEntry = CsrRootProcess->ListLink.Flink;
    while (NextEntry != &CsrRootProcess->ListLink)
    {
        /* Get the process */
        CsrProcess = CONTAINING_RECORD(NextEntry, CSR_PROCESS, ListLink);

        /* Move to the next entry */
        NextEntry = NextEntry->Flink;

        /* Skip this process if it's already been processed */
        if (CsrProcess->Flags & CsrProcessSkipShutdown) continue;

        /* Get the LUID of this process */
        Status = CsrGetProcessLuid(CsrProcess->ProcessHandle, &ProcessLuid);

        /* Check if we didn't get access to the LUID */
        if (Status == STATUS_ACCESS_DENIED)
        {
            /* Check if we have any threads */
            if (CsrProcess->ThreadCount)
            {
                /* Impersonate one of the threads and retry */
                CsrThread = CONTAINING_RECORD(CsrProcess->ThreadList.Flink,
                                              CSR_THREAD,
                                              Link);
                if (CsrImpersonateClient(CsrThread))
                {
                    Status = CsrGetProcessLuid(NULL, &ProcessLuid);
                    CsrRevertToSelf();
                }
                else
                {
                    Status = STATUS_BAD_IMPERSONATION_LEVEL;
                }
            }
        }

        if (!NT_SUCCESS(Status))
        {
            /* We didn't have access, so skip it */
            CsrProcess->Flags |= CsrProcessSkipShutdown;
            continue;
        }

        /* Check if this is the System LUID */
        if (RtlEqualLuid(&ProcessLuid, &SystemLuid))
        {
            /* Mark this process */
            CsrProcess->ShutdownFlags |= CsrShutdownSystem;
        }
        else if (!RtlEqualLuid(&ProcessLuid, CallerLuid))
        {
            /* Our LUID doesn't match with the caller's */
            CsrProcess->ShutdownFlags |= CsrShutdownOther;
        }

        /* Check if we're past the previous level */
        if ((CsrProcess->ShutdownLevel > Level) || !ReturnCsrProcess)
        {
            /* Update the level */
            Level = CsrProcess->ShutdownLevel;

            /* Set the final process */
            ReturnCsrProcess = CsrProcess;
        }
    }

    /* Check if we found a process */
    if (ReturnCsrProcess)
    {
        /* Skip this one next time */
        ReturnCsrProcess->Flags |= CsrProcessSkipShutdown;
    }

    return ReturnCsrProcess;
}

/*++
 * @name CsrShutdownProcesses
 * @implemented NT4
 *
 * The CsrShutdownProcesses routine shuts down every CSR Process possible
 * and calls each Server DLL's shutdown notification.
 *
 * @param CallerLuid
 *        Pointer to the LUID of the CSR Process that is ordering the
 *        shutdown.
 *
 * @param Flags
 *        Flags to send to the shutdown notification routine.
 *
 * @return STATUS_SUCCESS in case of success, STATUS_UNSUCCESSFUL otherwise.
 *
 * @remarks None.
 *
 *--*/
NTSTATUS
NTAPI
CsrShutdownProcesses(IN PLUID CallerLuid,
                     IN ULONG Flags)
{
    PLIST_ENTRY NextEntry;
    PCSR_PROCESS CsrProcess;
    NTSTATUS Status;
    BOOLEAN FirstTry;
    ULONG i;
    PCSR_SERVER_DLL ServerDll;
    ULONG Result = 0;

    /* Acquire process lock */
    CsrAcquireProcessLock();

    /* Add shutdown flag */
    CsrRootProcess->ShutdownFlags |= CsrShutdownSystem;

    /* Get the list pointers */
    NextEntry = CsrRootProcess->ListLink.Flink;
    while (NextEntry != &CsrRootProcess->ListLink)
    {
        /* Get the Process */
        CsrProcess = CONTAINING_RECORD(NextEntry, CSR_PROCESS, ListLink);

        /* Move to the next entry */
        NextEntry = NextEntry->Flink;

        /* Remove the skip flag, set shutdown flags to 0 */
        CsrProcess->Flags &= ~CsrProcessSkipShutdown;
        CsrProcess->ShutdownFlags = 0;
    }

    /* Set shutdown Priority */
    CsrSetToShutdownPriority();

    /* Start looping */
    while (TRUE)
    {
        /* Find the next process to shutdown */
        CsrProcess = FindProcessForShutdown(CallerLuid);
        if (!CsrProcess) break;

        /* Increase reference to process */
        CsrLockedReferenceProcess(CsrProcess);

        FirstTry = TRUE;
        while (TRUE)
        {
            /* Loop all the servers */
            for (i = 0; i < CSR_SERVER_DLL_MAX; i++)
            {
                /* Get the current server */
                ServerDll = CsrLoadedServerDll[i];

                /* Check if it's valid and if it has a Shutdown Process Callback */
                if (ServerDll && ServerDll->ShutdownProcessCallback)
                {
                    /* Release the lock, make the callback, and acquire it back */
                    CsrReleaseProcessLock();
                    Result = ServerDll->ShutdownProcessCallback(CsrProcess,
                                                                Flags,
                                                                FirstTry);
                    CsrAcquireProcessLock();

                    /* Check the result */
                    if (Result == CsrShutdownCsrProcess)
                    {
                        /* The callback unlocked the process */
                        break;
                    }
                    else if (Result == CsrShutdownCancelled)
                    {
#ifdef CSR_DBG
                        /* Check if this was a forced shutdown */
                        if (Flags & EWX_FORCE)
                        {
                            DPRINT1("Process %x cancelled forced shutdown (Dll = %d)\n",
                                     CsrProcess->ClientId.UniqueProcess, i);
                            DbgBreakPoint();
                        }
#endif

                        /* Shutdown was cancelled, unlock and exit */
                        CsrReleaseProcessLock();
                        Status = STATUS_CANCELLED;
                        goto Quickie;
                    }
                }
            }

            /* No matches during the first try, so loop again */
            if (FirstTry && (Result == CsrShutdownNonCsrProcess))
            {
                FirstTry = FALSE;
                continue;
            }

            /* Second try, break out */
            break;
        }

        /* We've reached the final loop here, so dereference */
        if (i == CSR_SERVER_DLL_MAX)
            CsrLockedDereferenceProcess(CsrProcess);
    }

    /* Success path */
    CsrReleaseProcessLock();
    Status = STATUS_SUCCESS;

Quickie:
    /* Return to normal priority */
    CsrSetToNormalPriority();

    return Status;
}

/*++
 * @name CsrUnlockProcess
 * @implemented NT4
 *
 * The CsrUnlockProcess undoes a previous CsrLockProcessByClientId operation.
 *
 * @param CsrProcess
 *        Pointer to a previously locked CSR Process.
 *
 * @return STATUS_SUCCESS.
 *
 * @remarks This routine must be called with the Process Lock held.
 *
 *--*/
NTSTATUS
NTAPI
CsrUnlockProcess(IN PCSR_PROCESS CsrProcess)
{
    /* Dereference the process */
    CsrLockedDereferenceProcess(CsrProcess);

    /* Release the lock and return */
    CsrReleaseProcessLock();
    return STATUS_SUCCESS;
}

/* EOF */