7

This question already has an answer here:

Here is the screenshot of the situation!

Here is the screenshot!

I created a Visual C++ Win32 Console Application with VS2010. When I started the application, I found that there were four threads: one 'Main Thread' and three worker threads (I didn't write any code).

I don't know where these three worker threads came from.
I would like to know the role of these three threads.

Thanks in advance!

marked as duplicate by josh poley, Harry Johnston, David Heffernan c++ Mar 14 '17 at 22:12

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

22

Windows 10 implemented a new way of loading DLLs - several worker threads do it in parallel (LdrpWorkCallback). All windows 10 processes now have several such threads.

Before win10 the system (ntdll.dll) always loaded DLLs in single thread, but starting with win10 this behaviour changed. Now "Parallel loader" exists in ntdll. Now the loading task ( NTSTATUS LdrpSnapModule(LDRP_LOAD_CONTEXT* LoadContext) ) can be executed in worker threads. Almost every DLL has imports (dependent DLLs), so when a DLL is loaded - its dependent DLLs are also loaded and this process is recursive (dependent DLLs have own dependencies).

The function void LdrpMapAndSnapDependency(LDRP_LOAD_CONTEXT* LoadContext) walks the current loaded DLL import table and loads its direct (1-st level) dependent DLLs by calling LdrpLoadDependentModule (which internally calls LdrpMapAndSnapDependency for the newly loaded DLL - so this process recursive). Finally LdrpMapAndSnapDependency needs to call NTSTATUS LdrpSnapModule(LDRP_LOAD_CONTEXT* LoadContext) to bind imports to the already loaded DLLs. LdrpSnapModule is executed for many DLLs in the top level DLL load process, and this process is independent for every DLL - so this good place to parallelize. LdrpSnapModule in most cases does not load new dlls, but only binds import to export from already loaded ones. But if an import is resolved to forwarded export (which rarely happens) - the new, forwarded DLL, is loaded.

some current implementation details:


  1. first of all let us look into the struct _RTL_USER_PROCESS_PARAMETERS new field - ULONG LoaderThreads. this LoaderThreads (if set to nonzero) enables or disables "Parallel loader" in the new process. When we create a new process by ZwCreateUserProcess - tje 9-th argument is PRTL_USER_PROCESS_PARAMETERS ProcessParameters. but if we use CreateProcess[Internal]W - we cannot pass PRTL_USER_PROCESS_PARAMETERS directly - only STARTUPINFO. RTL_USER_PROCESS_PARAMETERS is partially initialized from STARTUPINFO, but we do not control ULONG LoaderThreads, and it will always be zero (if we not call ZwCreateUserProcess or set a hook to this routine)

  2. In the new process initialization phase LdrpInitializeExecutionOptions is called (from LdrpInitializeProcess). This routine checks HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Image File Execution Options\<app name> for several values (if subkey is exist - usually it doesn't), including MaxLoaderThreads (REG_DWORD) - if MaxLoaderThreads exists - its value overrides RTL_USER_PROCESS_PARAMETERS.LoaderThreads.

  3. LdrpCreateLoaderEvents() is called. This routine must create 2 global events: HANDLE LdrpWorkCompleteEvent, LdrpLoadCompleteEvent;, which are used for synchronization.

    NTSTATUS LdrpCreateLoaderEvents() { NTSTATUS status = ZwCreateEvent(&LdrpWorkCompleteEvent, EVENT_ALL_ACCESS, 0, SynchronizationEvent, TRUE);

    if (0 <= status)
    {
        status = ZwCreateEvent(&LdrpLoadCompleteEvent, EVENT_ALL_ACCESS, 0, SynchronizationEvent, TRUE);
    }
    return status;
    

    }

  4. LdrpInitializeProcess calls void LdrpDetectDetour(). This name speaks for itself. it does not return a value but initializes the global variable BOOLEAN LdrpDetourExist. This routine first checks whether some loader critical routines are hooked - currently these are 5 routines

    • "NtOpenFile",
    • "NtCreateSection",
    • "NtQueryAttributesFile",
    • "NtOpenSection",
    • "NtMapViewOfSection".

if yes - LdrpDetourExist = TRUE; if not hooked - ThreadDynamicCodePolicyInfo queried - full code:

void LdrpDetectDetour()
{
    if (LdrpDetourExist) return ;

    static PVOID LdrpCriticalLoaderFunctions[] = {
        NtOpenFile,
        NtCreateSection,
        ZwQueryAttributesFile,
        ZwOpenSection,
        ZwMapViewOfSection,
    };

    static M128A LdrpThunkSignature[5] = {
        //***
    };

    ULONG n = RTL_NUMBER_OF(LdrpCriticalLoaderFunctions);
    M128A* ppv = (M128A*)LdrpCriticalLoaderFunctions;
    M128A* pps = LdrpThunkSignature; 
    do
    {
        if (ppv->Low != pps->Low || ppv->High != pps->High)
        {
            if (LdrpDebugFlags & 5)
            {
                DbgPrint("!!! Detour detected, disable parallel loading\n");
                LdrpDetourExist = TRUE;
                return;
            }
        }

    } while (pps++, ppv++, --n);

    BOOL DynamicCodePolicy;

    if (0 <= ZwQueryInformationThread(NtCurrentThread(), ThreadDynamicCodePolicyInfo, &DynamicCodePolicy, sizeof(DynamicCodePolicy), 0))
    {
        if (LdrpDetourExist = (DynamicCodePolicy == 1))
        {
            if (LdrpMapAndSnapWork)
            {
                WaitForThreadpoolWorkCallbacks(LdrpMapAndSnapWork, TRUE);//TpWaitForWork
                TpReleaseWork(LdrpMapAndSnapWork);//CloseThreadpoolWork
                LdrpMapAndSnapWork = 0;
                TpReleasePool(LdrpThreadPool);//CloseThreadpool
                LdrpThreadPool = 0;
            }
        }
    }
}
  1. LdrpInitializeProcess calls NTSTATUS LdrpEnableParallelLoading (ULONG LoaderThreads) - as LdrpEnableParallelLoading(ProcessParameters->LoaderThreads)

    NTSTATUS LdrpEnableParallelLoading (ULONG LoaderThreads) { LdrpDetectDetour();

    if (LoaderThreads)
    {
        LoaderThreads = min(LoaderThreads, 16);// not more than 16 threads allowed
        if (LoaderThreads <= 1) return STATUS_SUCCESS;
    }
    else
    {
        if (RtlGetSuiteMask() & 0x10000) return STATUS_SUCCESS; 
        LoaderThreads = 4;// default for 4 threads
    }
    
    if (LdrpDetourExist) return STATUS_SUCCESS;
    
    NTSTATUS status = TpAllocPool(&LdrpThreadPool, 1);//CreateThreadpool
    
    if (0 <= status)
    {
        TpSetPoolWorkerThreadIdleTimeout(LdrpThreadPool, -300000000);// 30 second idle timeout
        TpSetPoolMaxThreads(LdrpThreadPool, LoaderThreads - 1);//SetThreadpoolThreadMaximum 
        TP_CALLBACK_ENVIRON CallbackEnviron = { };
        CallbackEnviron->CallbackPriority = TP_CALLBACK_PRIORITY_NORMAL;
        CallbackEnviron->Size = sizeof(TP_CALLBACK_ENVIRON);
        CallbackEnviron->Pool = LdrpThreadPool;
        CallbackEnviron->Version = 3;
    
        status = TpAllocWork(&LdrpMapAndSnapWork, LdrpWorkCallback, 0, &CallbackEnviron);//CreateThreadpoolWork
    }
    
    return status;
    

    }

A special loader thread pool is created - LdrpThreadPool, with LoaderThreads - 1 max threads. Idle timeout is set to 30 seconds (after which the thread exits) and allocated PTP_WORK LdrpMapAndSnapWork which is then used in void LdrpQueueWork(LDRP_LOAD_CONTEXT* LoadContext)

  1. Global variables used by the parallel loader:

    HANDLE LdrpWorkCompleteEvent, LdrpLoadCompleteEvent; CRITICAL_SECTION LdrpWorkQueueLock; LIST_ENTRY LdrpWorkQueue = { &LdrpWorkQueue, &LdrpWorkQueue };

    ULONG LdrpWorkInProgress; BOOLEAN LdrpDetourExist; PTP_POOL LdrpThreadPool;

PTP_WORK LdrpMapAndSnapWork;

enum DRAIN_TASK {
    WaitLoadComplete, WaitWorkComplete
};

struct LDRP_LOAD_CONTEXT
{
    UNICODE_STRING BaseDllName;
    PVOID somestruct;
    ULONG Flags;//some unknown flags
    NTSTATUS* pstatus; //final status of load
    _LDR_DATA_TABLE_ENTRY* ParentEntry; // of 'parent' loading dll
    _LDR_DATA_TABLE_ENTRY* Entry; // this == Entry->LoadContext
    LIST_ENTRY WorkQueueListEntry;
    _LDR_DATA_TABLE_ENTRY* ReplacedEntry;
    _LDR_DATA_TABLE_ENTRY** pvImports;// in same ordef as in IMAGE_IMPORT_DESCRIPTOR piid
    ULONG ImportDllCount;// count of pvImports
    LONG TaskCount;
    PVOID pvIAT;
    ULONG SizeOfIAT;
    ULONG CurrentDll; // 0 <= CurrentDll < ImportDllCount
    PIMAGE_IMPORT_DESCRIPTOR piid;
    ULONG OriginalIATProtect;
    PVOID GuardCFCheckFunctionPointer;
    PVOID* pGuardCFCheckFunctionPointer;
};

unfortunately LDRP_LOAD_CONTEXT is not contained in published pdb files, so my definitions include only partial names

struct {
    ULONG MaxWorkInProgress;//4 - values from explorer.exe at some moment
    ULONG InLoaderWorker;//7a (this mean LdrpSnapModule called from worker thread)
    ULONG InLoadOwner;//87 (LdrpSnapModule called direct, in same thread as `LdrpMapAndSnapDependency`)
} LdrpStatistics;

// for statistics
void LdrpUpdateStatistics()
{
  LdrpStatistics.MaxWorkInProgress = max(LdrpStatistics.MaxWorkInProgress, LdrpWorkInProgress);
  NtCurrentTeb()->LoaderWorker ? LdrpStatistics.InLoaderWorker++ : LdrpStatistics.InLoadOwner++
}

in TEB.CrossTebFlags - now exist 2 new flags:

USHORT LoadOwner : 01; // 0x1000;
USHORT LoaderWorker : 01; // 0x2000;

last 2 bits is spare (USHORT SpareSameTebBits : 02; // 0xc000)

  1. LdrpMapAndSnapDependency(LDRP_LOAD_CONTEXT* LoadContext) includes the following code:

    LDR_DATA_TABLE_ENTRY* Entry = LoadContext->CurEntry; if (LoadContext->pvIAT) { Entry->DdagNode->State = LdrModulesSnapping; if (LoadContext->PrevEntry)// if recursive call { LdrpQueueWork(LoadContext); // !!! } else { status = LdrpSnapModule(LoadContext); } } else { Entry->DdagNode->State = LdrModulesSnapped; }

so if LoadContext->PrevEntry ( say we load user32.dll. in first call LdrpMapAndSnapDependency LoadContext->PrevEntry will be always 0 (when CurEntry point to user32.dll), but when we recursive call LdrpMapAndSnapDependency for it dependency gdi32.dll - PrevEntry will be for user32.dll and CurEntry for gdi32.dll) we not direct call LdrpSnapModule(LoadContext); but LdrpQueueWork(LoadContext);

  1. LdrpQueueWork is simply:

    void LdrpQueueWork(LDRP_LOAD_CONTEXT* LoadContext) { if (0 <= ctx->pstatus) { EnterCriticalSection(&LdrpWorkQueueLock);

        InsertHeadList(&LdrpWorkQueue, &LoadContext->WorkQueueListEntry);
    
        LeaveCriticalSection(&LdrpWorkQueueLock);
    
        if (LdrpMapAndSnapWork && !RtlGetCurrentPeb()->Ldr->ShutdownInProgress)
        {
            SubmitThreadpoolWork(LdrpMapAndSnapWork);//TpPostWork
        }
    }
    

    }

we insert LoadContext to LdrpWorkQueue and if "Parallel loader" is started (LdrpMapAndSnapWork != 0) and not ShutdownInProgress - we submit work to loader pool. but even if pool not initialized (say by detours exist) - will be no error - we process this task in LdrpDrainWorkQueue

  1. in worker thread callback executed:

    void LdrpWorkCallback() { if (LdrpDetourExist) return;

    EnterCriticalSection(&LdrpWorkQueueLock);
    
    PLIST_ENTRY Entry = RemoveEntryList(&LdrpWorkQueue);
    
    if (Entry != &LdrpWorkQueue)
    {
        ++LdrpWorkInProgress;
        LdrpUpdateStatistics()
    }
    
    LeaveCriticalSection(&LdrpWorkQueueLock);
    
    if (Entry != &LdrpWorkQueue)
    {
        LdrpProcessWork(CONTAINING_RECORD(Entry, LDRP_LOAD_CONTEXT, WorkQueueListEntry), FALSE);
    }
    

    }

we simply popup entry from LdrpWorkQueue, convert it to LDRP_LOAD_CONTEXT* ( CONTAINING_RECORD(Entry, LDRP_LOAD_CONTEXT, WorkQueueListEntry) ) and call void LdrpProcessWork(LDRP_LOAD_CONTEXT* LoadContext, BOOLEAN LoadOwner)

  1. void LdrpProcessWork(LDRP_LOAD_CONTEXT* ctx, BOOLEAN LoadOwner) in general call LdrpSnapModule(LoadContext) and in the end next code:

    if (!LoadOwner) { EnterCriticalSection(&LdrpWorkQueueLock); BOOLEAN bSetEvent = --LdrpWorkInProgress == 1 && IsListEmpty(&LdrpWorkQueue); LeaveCriticalSection(&LdrpWorkQueueLock); if (bSetEvent) ZwSetEvent(LdrpWorkCompleteEvent, 0); }

so if we not LoadOwner (in worked thread) we decrement LdrpWorkInProgress and if LdrpWorkQueue is empty signal LdrpWorkCompleteEvent (LoadOwner can wait on it)

  1. and finally LdrpDrainWorkQueue called from LoadOwner (primary thread) for "drain" WorkQueue. it can possible pop and direct execute tasks pushed to LdrpWorkQueue by LdrpQueueWork and yet not poped by worked threads or because parallel loader is disabled (in this case LdrpQueueWork also push LDRP_LOAD_CONTEXT but not really post work to worked thread) and finally wait (if need) on LdrpWorkCompleteEvent or LdrpLoadCompleteEvent events.

    enum DRAIN_TASK { WaitLoadComplete, WaitWorkComplete };

    void LdrpDrainWorkQueue(DRAIN_TASK task) { BOOLEAN LoadOwner = FALSE;

    HANDLE hEvent = task ? LdrpWorkCompleteEvent : LdrpLoadCompleteEvent;
    
    for(;;)
    {
        PLIST_ENTRY Entry;
    
        EnterCriticalSection(&LdrpWorkQueueLock);
    
        if (LdrpDetourExist && task == WaitLoadComplete)
        {
            if (!LdrpWorkInProgress)
            {
                LdrpWorkInProgress = 1;
                LoadOwner = TRUE;
            }
            Entry = &LdrpWorkQueue;
        }
        else
        {
            Entry = RemoveHeadList(&LdrpWorkQueue);
    
            if (Entry == &LdrpWorkQueue)
            {
                if (!LdrpWorkInProgress)
                {
                    LdrpWorkInProgress = 1;
                    LoadOwner = TRUE;
                }
            }
            else
            {
                if (!LdrpDetourExist)
                {
                    ++LdrpWorkInProgress;
                }
                LdrpUpdateStatistics();
            }
        }
        LeaveCriticalSection(&LdrpWorkQueueLock);
    
        if (LoadOwner)
        {
            NtCurrentTeb()->LoadOwner = 1;
            return;
        }
    
        if (Entry != &LdrpWorkQueue)
        {
            LdrpProcessWork(CONTAINING_RECORD(Entry, LDRP_LOAD_CONTEXT, WorkQueueListEntry), FALSE);
        }
        else
        {
            ZwWaitForSingleObject(hEvent, 0, 0);
        }
    }
    

    }

12.

void LdrpDropLastInProgressCount()
{
  NtCurrentTeb()->LoadOwner = 0;
  EnterCriticalSection(&LdrpWorkQueueLock);
  LdrpWorkInProgress = 0;
  LeaveCriticalSection(&LdrpWorkQueueLock);
  ZwSetEvent(LdrpLoadCompleteEvent);
}
  • 2
    This seems like it could be a helpful answer if it were organized. – Ben Voigt Mar 14 '17 at 15:13
  • 2
    @BenVoigt - yes, i research "parallel loader" implementation several month ago and have much more data with code snippets. but unfortunately i have too pure english to describe this and not sure - are this is interesting to somebody at all. in shorter words - now exist special working pool of threads, which ntdll used for load dlls. so absolute normal +2/3 working thread in every process (however this threads exit if 30+ seconds no more dll loaded in process) – RbMm Mar 14 '17 at 15:17

Not the answer you're looking for? Browse other questions tagged or ask your own question.