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485 lines
14 KiB
C++
485 lines
14 KiB
C++
////////////////////////////////////////////////////////////////////
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// Copyright (C) Alexander Telyatnikov, Ivan Keliukh, Yegor Anchishkin, SKIF Software, 1999-2013. Kiev, Ukraine
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// All rights reserved
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// This file was released under the GPLv2 on June 2015.
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////////////////////////////////////////////////////////////////////
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/*
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Module Name:
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DLDetect.cpp
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Abstract:
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This file contains all source code related to DeadLock Detector.
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Environment:
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NT Kernel Mode
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*/
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#include "udffs.h"
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/// define the file specific bug-check id
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#define UDF_BUG_CHECK_ID UDF_FILE_DLD
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/// Resource event (ExclusiveWaiters)
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#define RESOURCE_EVENT_TAG 'vEeR'
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/// Resource semaphore (SharedWaiters)
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#define RESOURCE_SEMAFORE_TAG 'eSeR'
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/// Resource owner table (OwnerTable)
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#define RESOURCE_TABLE_TAG 'aTeR'
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/// Maxmum recurse level while exploring thread-resource aquisition graf
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#define DLD_MAX_REC_LEVEL 40
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/// Maximum supported number of threads (initialized by DLDInit())
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ULONG MaxThreadCount = 0;
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/// Waiters table
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PTHREAD_STRUCT DLDThreadTable;
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/// 4 sec
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LARGE_INTEGER DLDpTimeout;
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/// 8 sec
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ULONG DLDpResourceTimeoutCount = 0x2;
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THREAD_REC_BLOCK DLDThreadAcquireChain[DLD_MAX_REC_LEVEL];
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/// Initialize deadlock detector
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VOID DLDInit(ULONG MaxThrdCount /// Maximum supported number of threads
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) {
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if (KeNumberProcessors>1) {
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UDFPrint(("Deadlock Detector is designed for uniprocessor machines only!\n"));
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BrutePoint();
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}
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DLDpTimeout.QuadPart = -40000000I64;
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MaxThreadCount = MaxThrdCount;
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DLDThreadTable = (PTHREAD_STRUCT) DLDAllocatePool(MaxThreadCount*sizeof(THREAD_STRUCT));
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RtlZeroMemory(DLDThreadTable, sizeof(THREAD_STRUCT)*MaxThreadCount);
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}
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VOID DLDFree(VOID) {
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DLDFreePool(DLDThreadTable);
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}
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PTHREAD_STRUCT DLDAllocFindThread(ULONG ThreadId) {
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ULONG i = 0;
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PTHREAD_STRUCT Temp = DLDThreadTable;
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ULONG FirstEmpty = -1;
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while (i<MaxThreadCount) {
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if (Temp->ThreadId == ThreadId) {
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return Temp;
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} else if (FirstEmpty == -1 && !Temp->ThreadId) {
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FirstEmpty = i;
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}
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Temp++;
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i++;
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}
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// Not found. Allocate new one.
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if (i == MaxThreadCount) {
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if (FirstEmpty == -1) {
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UDFPrint(("Not enough table entries. Try to increase MaxThrdCount on next build"));
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BrutePoint();
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}
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i = FirstEmpty;
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}
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Temp = DLDThreadTable + i;
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RtlZeroMemory(Temp, sizeof(THREAD_STRUCT));
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Temp->ThreadId = ThreadId;
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return Temp;
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}
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PTHREAD_STRUCT DLDFindThread(ULONG ThreadId) {
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ULONG i = 0;
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PTHREAD_STRUCT Temp = DLDThreadTable;
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ULONG FirstEmpty = -1;
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while (i<MaxThreadCount) {
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if (Temp->ThreadId == ThreadId) {
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return Temp;
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}
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Temp++;
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i++;
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}
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return NULL;
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}
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BOOLEAN DLDProcessResource(PERESOURCE Resource,
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PTHREAD_STRUCT ThrdStruct,
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ULONG RecLevel);
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/// TRUE Indicates deadlock
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BOOLEAN DLDProcessThread(PTHREAD_STRUCT ThrdOwner,
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PTHREAD_STRUCT ThrdStruct,
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PERESOURCE Resource,
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ULONG RecLevel) {
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if (ThrdOwner == ThrdStruct) {
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// ERESOURCE wait cycle. Deadlock detected.
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UDFPrint(("DLD: *********DEADLOCK DETECTED*********\n"));
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UDFPrint(("Thread %x holding resource %x\n",ThrdOwner->ThreadId,Resource));
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return TRUE;
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}
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for (int i=RecLevel+1;i<DLD_MAX_REC_LEVEL;i++) {
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if (DLDThreadAcquireChain[i].Thread->ThreadId == ThrdOwner->ThreadId) {
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// ERESOURCE wait cycle. Deadlock detected.
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UDFPrint(("DLD: *********DEADLOCK DETECTED*********\n"));
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UDFPrint(("Thread %x holding resource %x\n",ThrdOwner->ThreadId,Resource));
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for (int j=RecLevel+1;j<=i;j++) {
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UDFPrint((" awaited by thread %x at (BugCheckId:%x:Line:%d) holding resource %x\n",
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DLDThreadAcquireChain[i].Thread->ThreadId,
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DLDThreadAcquireChain[i].Thread->BugCheckId,
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DLDThreadAcquireChain[i].Thread->Line,
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Resource));
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}
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BrutePoint();
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return FALSE;
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}
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}
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DLDThreadAcquireChain[RecLevel].Thread = ThrdOwner;
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DLDThreadAcquireChain[RecLevel].HoldingResource = Resource;
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// Find resource, awaited by thread
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if (ThrdOwner->WaitingResource) {
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if (DLDProcessResource(ThrdOwner->WaitingResource, ThrdStruct,RecLevel)) {
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UDFPrint((" awaited by thread %x at (BugCheckId:%x:Line:%d) holding resource %x\n",
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ThrdOwner->ThreadId,
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ThrdOwner->BugCheckId,
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ThrdOwner->Line,
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Resource));
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return TRUE;
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}
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}
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return FALSE;
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}
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/// TRUE Indicates deadlock
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BOOLEAN DLDProcessResource( PERESOURCE Resource, // resource to process
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PTHREAD_STRUCT ThrdStruct, // thread structure of caller's thread
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ULONG RecLevel) // current recurse level
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{
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if (RecLevel <= 0) {
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BrutePoint();
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return FALSE;
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}
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// If resource is free, just return. Not possible, but we must check.
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if (!Resource->ActiveCount) {
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return FALSE;
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}
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PTHREAD_STRUCT ThreadOwner;
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if (Resource->Flag & ResourceOwnedExclusive || (Resource->OwnerThreads[1].OwnerCount == 1)) {
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// If only one owner
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// Find thread owning this resource
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if (Resource->Flag & ResourceOwnedExclusive) {
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ThreadOwner = DLDFindThread(Resource->OwnerThreads[0].OwnerThread);
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} else {
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ThreadOwner = DLDFindThread(Resource->OwnerThreads[1].OwnerThread);
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}
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BOOLEAN Result = FALSE;
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if (ThreadOwner) {
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Result = DLDProcessThread(ThreadOwner, ThrdStruct, Resource,RecLevel-1);
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}
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return Result;
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} else {
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// Many owners
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int i;
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for (i=0; i<Resource->OwnerThreads[0].TableSize; i++) {
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if (Resource->OwnerTable[i].OwnerThread) {
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ThreadOwner = DLDFindThread(Resource->OwnerTable[i].OwnerThread);
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if (ThreadOwner && DLDProcessThread(ThreadOwner, ThrdStruct, Resource,RecLevel-1)) {
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return TRUE;
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}
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}
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}
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}
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return FALSE;
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}
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VOID DLDpWaitForResource(
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IN PERESOURCE Resource,
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IN DISPATCHER_HEADER *DispatcherObject,
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IN PTHREAD_STRUCT ThrdStruct
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) {
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KIRQL oldIrql;
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ULONG ResourceWaitCount = 0;
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Resource->ContentionCount++;
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while (KeWaitForSingleObject(DispatcherObject,Executive,KernelMode,FALSE,&DLDpTimeout) == STATUS_TIMEOUT) {
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KeAcquireSpinLock(&Resource->SpinLock, &oldIrql);
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if (++ResourceWaitCount>DLDpResourceTimeoutCount) {
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// May be deadlock?
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ResourceWaitCount = 0;
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if (DLDProcessResource(Resource, ThrdStruct,DLD_MAX_REC_LEVEL)) {
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UDFPrint((" which thread %x has tried to acquire at (BugCheckId:%x:Line:%d)\n",
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ThrdStruct->ThreadId,
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ThrdStruct->BugCheckId,
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ThrdStruct->Line
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));
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BrutePoint();
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}
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}
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// Priority boosts
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// .....
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// End of priority boosts
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KeReleaseSpinLock(&Resource->SpinLock, oldIrql);
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}
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}
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VOID DLDpAcquireResourceExclusiveLite(
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IN PERESOURCE Resource,
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IN ERESOURCE_THREAD Thread,
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IN KIRQL oldIrql,
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IN ULONG BugCheckId,
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IN ULONG Line
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) {
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KIRQL oldIrql2;
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if (!(Resource->ExclusiveWaiters)) {
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KeReleaseSpinLock(&Resource->SpinLock, oldIrql);
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KeAcquireSpinLock(&Resource->SpinLock, &oldIrql2);
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// If ExclusiveWaiters Event not yet allocated allocate new one
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if (!(Resource->ExclusiveWaiters)) {
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Resource->ExclusiveWaiters = (PKEVENT)ExAllocatePoolWithTag(NonPagedPool, sizeof(KEVENT),RESOURCE_EVENT_TAG);
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KeInitializeEvent(Resource->ExclusiveWaiters,SynchronizationEvent,FALSE);
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}
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KeReleaseSpinLock(&Resource->SpinLock, oldIrql2);
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DLDAcquireExclusive(Resource,BugCheckId,Line);
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} else {
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Resource->NumberOfExclusiveWaiters++;
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PTHREAD_STRUCT ThrdStruct = DLDAllocFindThread(Thread);
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// Set WaitingResource for current thread
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ThrdStruct->WaitingResource = Resource;
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ThrdStruct->BugCheckId = BugCheckId;
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ThrdStruct->Line = Line;
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KeReleaseSpinLock(&Resource->SpinLock, oldIrql);
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DLDpWaitForResource(Resource,&(Resource->ExclusiveWaiters->Header),ThrdStruct);
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KeAcquireSpinLock(&Resource->SpinLock, &oldIrql);
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ThrdStruct->WaitingResource = NULL;
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ThrdStruct->ThreadId = 0;
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ThrdStruct->BugCheckId = 0;
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ThrdStruct->Line = 0;
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Resource->OwnerThreads[0].OwnerThread = Thread;
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KeReleaseSpinLock(&Resource->SpinLock, oldIrql);
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}
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}
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VOID DLDAcquireExclusive(PERESOURCE Resource,
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ULONG BugCheckId,
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ULONG Line
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) {
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KIRQL oldIrql;
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KeAcquireSpinLock(&Resource->SpinLock, &oldIrql);
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ERESOURCE_THREAD Thread = (ERESOURCE_THREAD)PsGetCurrentThread();
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if (!Resource->ActiveCount) goto SimpleAcquire;
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if ((Resource->Flag & ResourceOwnedExclusive) && Resource->OwnerThreads[0].OwnerThread == Thread) {
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Resource->OwnerThreads[0].OwnerCount++;
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KeReleaseSpinLock(&Resource->SpinLock, oldIrql);
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return;
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}
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DLDpAcquireResourceExclusiveLite(Resource, Thread, oldIrql,BugCheckId,Line);
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return;
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SimpleAcquire:
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Resource->Flag |= ResourceOwnedExclusive;
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Resource->ActiveCount = 1;
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Resource->OwnerThreads[0].OwnerThread = Thread;
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Resource->OwnerThreads[0].OwnerCount = 1;
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KeReleaseSpinLock(&Resource->SpinLock, oldIrql);
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}
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POWNER_ENTRY DLDpFindCurrentThread(
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IN PERESOURCE Resource,
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IN ERESOURCE_THREAD Thread
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) {
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if (Resource->OwnerThreads[0].OwnerThread == Thread) return &(Resource->OwnerThreads[0]);
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if (Resource->OwnerThreads[1].OwnerThread == Thread) return &(Resource->OwnerThreads[1]);
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POWNER_ENTRY LastEntry, CurrentEntry, FirstEmptyEntry = NULL;
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if (!(Resource->OwnerThreads[1].OwnerThread)) FirstEmptyEntry = &(Resource->OwnerThreads[1]);
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CurrentEntry = Resource->OwnerTable;
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LastEntry = &(Resource->OwnerTable[Resource->OwnerThreads[0].TableSize]);
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while (CurrentEntry != LastEntry) {
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if (CurrentEntry->OwnerThread == Thread) {
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PCHAR CurrentThread = (PCHAR)PsGetCurrentThread();
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*((PULONG)(CurrentThread + 0x136)) = CurrentEntry - Resource->OwnerTable;
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return CurrentEntry;
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}
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if (!(CurrentEntry->OwnerThread)) {
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FirstEmptyEntry = CurrentEntry;
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}
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CurrentEntry++;
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}
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if (FirstEmptyEntry) {
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PCHAR CurrentThread = (PCHAR)PsGetCurrentThread();
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*((PULONG)(CurrentThread + 0x136)) = FirstEmptyEntry - Resource->OwnerTable;
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return FirstEmptyEntry;
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} else {
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// Grow OwnerTable
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USHORT OldSize = Resource->OwnerThreads[0].TableSize;
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USHORT NewSize = 3;
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if (OldSize) NewSize = OldSize + 4;
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POWNER_ENTRY NewEntry = (POWNER_ENTRY)ExAllocatePoolWithTag(NonPagedPool, sizeof(OWNER_ENTRY)*NewSize,RESOURCE_TABLE_TAG);
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RtlZeroMemory(NewEntry,sizeof(OWNER_ENTRY)*NewSize);
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if (Resource->OwnerTable) {
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RtlMoveMemory(NewEntry,Resource->OwnerTable,sizeof(OWNER_ENTRY)*OldSize);
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ExFreePool(Resource->OwnerTable);
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}
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Resource->OwnerTable = NewEntry;
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PCHAR CurrentThread = (PCHAR)PsGetCurrentThread();
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*((PULONG)(CurrentThread + 0x136)) = OldSize;
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Resource->OwnerThreads[0].TableSize = NewSize;
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return &(NewEntry[OldSize]);
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}
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}
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VOID DLDAcquireShared(PERESOURCE Resource,
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ULONG BugCheckId,
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ULONG Line,
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BOOLEAN WaitForExclusive)
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{
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KIRQL oldIrql;
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ERESOURCE_THREAD Thread = (ERESOURCE_THREAD)PsGetCurrentThread();
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POWNER_ENTRY pOwnerEntry;
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KeAcquireSpinLock(&Resource->SpinLock, &oldIrql);
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if (!Resource->ActiveCount) {
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Resource->Flag &= ~ResourceOwnedExclusive;
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Resource->ActiveCount = 1;
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Resource->OwnerThreads[1].OwnerThread = Thread;
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Resource->OwnerThreads[1].OwnerCount = 1;
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KeReleaseSpinLock(&Resource->SpinLock, oldIrql);
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return;
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}
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if (Resource->Flag & ResourceOwnedExclusive ) {
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if (Resource->OwnerThreads[0].OwnerThread == Thread) {
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Resource->OwnerThreads[0].OwnerCount++;
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KeReleaseSpinLock(&Resource->SpinLock, oldIrql);
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return;
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}
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pOwnerEntry = DLDpFindCurrentThread(Resource, 0);
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} else {
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// owned shared by some thread(s)
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pOwnerEntry = DLDpFindCurrentThread(Resource, Thread);
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if (!WaitForExclusive && pOwnerEntry->OwnerThread == Thread) {
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pOwnerEntry->OwnerCount++;
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KeReleaseSpinLock(&Resource->SpinLock, oldIrql);
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return;
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}
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if (!(Resource->NumberOfExclusiveWaiters)) {
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pOwnerEntry->OwnerThread = Thread;
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pOwnerEntry->OwnerCount = 1;
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Resource->ActiveCount++;
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KeReleaseSpinLock(&Resource->SpinLock, oldIrql);
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return;
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}
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}
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if (!(Resource->SharedWaiters)) {
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Resource->SharedWaiters = (PKSEMAPHORE)ExAllocatePoolWithTag(NonPagedPool, sizeof(KSEMAPHORE),RESOURCE_SEMAFORE_TAG);
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KeInitializeSemaphore(Resource->SharedWaiters,0,0x7fffffff);
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}
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Resource->NumberOfSharedWaiters++;
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PTHREAD_STRUCT ThrdStruct = DLDAllocFindThread(Thread);
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// Set WaitingResource for current thread
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ThrdStruct->WaitingResource = Resource;
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ThrdStruct->BugCheckId = BugCheckId;
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ThrdStruct->Line = Line;
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KeReleaseSpinLock(&Resource->SpinLock, oldIrql);
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DLDpWaitForResource(Resource,&(Resource->SharedWaiters->Header),ThrdStruct);
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KeAcquireSpinLock(&Resource->SpinLock, &oldIrql);
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pOwnerEntry = DLDpFindCurrentThread(Resource, Thread);
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pOwnerEntry->OwnerThread = Thread;
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pOwnerEntry->OwnerCount = 1;
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ThrdStruct->WaitingResource = NULL;
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ThrdStruct->ThreadId = 0;
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ThrdStruct->BugCheckId = 0;
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ThrdStruct->Line = 0;
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KeReleaseSpinLock(&Resource->SpinLock, oldIrql);
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return;
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}
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