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408 lines
11 KiB
408 lines
11 KiB
/*++
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*
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* WOW v1.0
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*
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* Copyright (c) 1994, Microsoft Corporation
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*
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* WOLE2.C
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* WOW32 Support for OLE2 stuff
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*
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* History:
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* Created 03-May-1994 by Bob Day (bobday)
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--*/
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#include "precomp.h"
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#pragma hdrstop
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MODNAME(wole.c);
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/*
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** Under OLE 2.0, the IMessageFilter interface passes HTASKs/THREADIDs. It
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** passes HTASKs in the 16-bit world, and THREADIDs in the 32-bit world. The
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** OLE 2.0 16 <-> 32 interoperability DLLs need a way of converting the
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** HTASK into an appropriate THREADID and back.
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**
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** Really the only place the 16-bit code uses the HTASK is in ole2's BUSY.C
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** module, wherein they take the HTASK and use TOOLHELP's TaskFindHandle
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** to determine a HINST. Then they take the HINST and try and find its
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** module name, and a top-level window handle. Using this, they bring up
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** a nice dialog describing the task.
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**
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** In the case when a 32-bit process's THREADID needs to be given into the
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** 16-bit world as an htask, we create an htask alias (a GDT selector).
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** We check for it in TaskFindHandle and return an HINST of exactly the
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** same value (same GDT selector). We also check for this value in
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** GetModuleFileName. Then, later, we make sure that any window operated on
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** with GetWindowWord( GWW_HINST, ...) maps to exactly the same value if it
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** is from a 32-bit process AND from the process which we created an alias
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** for.
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**
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** I've tried to make these routines general, so that later we might be able
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** to really maintain HTASK aliases whenever we see a 32-bit THREADID, but
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** it is too late before shipping to be able to test a general fix.
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**
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** -BobDay
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**
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*/
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#define MAP_SLOT_HTASK(slot) ((HTASK16)((WORD)0xffe0 - (8 * (slot))))
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#define MAP_HTASK_SLOT(htask) ((UINT)(((WORD)0xffe0 - (htask16))/8))
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typedef struct tagHTASKALIAS {
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DWORD dwThreadID32;
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DWORD dwProcessID32;
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union {
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FILETIME ftCreationTime;
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ULONGLONG ullCreationTime;
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};
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} HTASKALIAS;
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#define MAX_HTASKALIAS_SIZE 32 // 32 should be plenty
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HTASKALIAS *lphtaskalias = NULL;
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UINT cHtaskAliasCount = 0;
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BOOL GetThreadIDHTASKALIAS(
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DWORD dwThreadID32,
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HTASKALIAS *ha
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) {
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OBJECT_ATTRIBUTES obja;
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THREAD_BASIC_INFORMATION ThreadInfo;
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HANDLE hThread;
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NTSTATUS Status;
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FILETIME ftDummy;
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CLIENT_ID cid;
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InitializeObjectAttributes(
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&obja,
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NULL,
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0,
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NULL,
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0 );
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cid.UniqueProcess = 0; // Don't know it, 0 means any process
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cid.UniqueThread = (HANDLE)dwThreadID32;
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Status = NtOpenThread(
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&hThread,
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THREAD_QUERY_INFORMATION,
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&obja,
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&cid );
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if ( !NT_SUCCESS(Status) ) {
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#if DBG
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DbgPrint("WOW32: Could not get open thread handle\n");
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#endif
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return( FALSE );
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}
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Status = NtQueryInformationThread(
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hThread,
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ThreadBasicInformation,
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(PVOID)&ThreadInfo,
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sizeof(THREAD_BASIC_INFORMATION),
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NULL
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);
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ha->dwProcessID32 = (DWORD)ThreadInfo.ClientId.UniqueProcess;
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ha->dwThreadID32 = dwThreadID32;
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GetThreadTimes( hThread,
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&ha->ftCreationTime,
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&ftDummy,
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&ftDummy,
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&ftDummy );
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Status = NtClose( hThread );
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if ( !NT_SUCCESS(Status) ) {
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#if DBG
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DbgPrint("WOW32: Could not close thread handle\n");
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DbgBreakPoint();
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#endif
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return( FALSE );
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}
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return( TRUE );
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}
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HTASK16 AddHtaskAlias(
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DWORD ThreadID32
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) {
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UINT iSlot;
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UINT iUsable;
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HTASKALIAS ha;
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ULONGLONG ullOldest;
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if ( !GetThreadIDHTASKALIAS( ThreadID32, &ha ) ) {
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return( 0 );
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}
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//
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// Need to allocate the alias table?
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//
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if ( lphtaskalias == NULL ) {
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lphtaskalias = (HTASKALIAS *) malloc_w( MAX_HTASKALIAS_SIZE * sizeof(HTASKALIAS) );
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if ( lphtaskalias == NULL ) {
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LOGDEBUG(LOG_ALWAYS,("WOW::AddHtaskAlias : Failed to allocate memory\n"));
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WOW32ASSERT(FALSE);
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return( 0 );
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}
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// Zero them out initially
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memset( lphtaskalias, 0, MAX_HTASKALIAS_SIZE * sizeof(HTASKALIAS) );
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}
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//
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// Now iterate through the alias table, either finding an available slot,
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// or finding the oldest one there to overwrite.
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//
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iSlot = 0;
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iUsable = 0;
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ullOldest = -1;
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while ( iSlot < MAX_HTASKALIAS_SIZE ) {
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//
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// Did we find an available slot?
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//
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if ( lphtaskalias[iSlot].dwThreadID32 == 0 ) {
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cHtaskAliasCount++; // Using an available slot
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iUsable = iSlot;
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break;
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}
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//
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// Remember the oldest guy
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//
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if ( lphtaskalias[iSlot].ullCreationTime < ullOldest ) {
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ullOldest = lphtaskalias[iSlot].ullCreationTime;
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iUsable = iSlot;
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}
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iSlot++;
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}
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//
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// If the above loop is exitted due to not enough space, then
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// iUsable will be the oldest one. If it was exitted because we found
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// an empty slot, then iUsable will be the slot.
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//
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lphtaskalias[iUsable] = ha;
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return( MAP_SLOT_HTASK(iUsable) );
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}
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HTASK16 FindHtaskAlias(
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DWORD ThreadID32
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) {
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UINT iSlot;
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if ( lphtaskalias == NULL || ThreadID32 == 0 ) {
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return( 0 );
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}
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iSlot = MAX_HTASKALIAS_SIZE;
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while ( iSlot > 0 ) {
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--iSlot;
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//
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// Did we find the appropriate guy?
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//
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if ( lphtaskalias[iSlot].dwThreadID32 == ThreadID32 ) {
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return( MAP_SLOT_HTASK(iSlot) );
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}
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}
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return( 0 );
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}
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void RemoveHtaskAlias(
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HTASK16 htask16
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) {
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UINT iSlot;
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//
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// Get out early if we haven't any aliases
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//
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if ( lphtaskalias == NULL || (!htask16)) {
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return;
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}
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iSlot = MAP_HTASK_SLOT(htask16);
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if (iSlot >= MAX_HTASKALIAS_SIZE) {
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LOGDEBUG(LOG_ALWAYS, ("WOW::RemoveHtaskAlias : iSlot >= MAX_TASK_ALIAS_SIZE\n"));
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WOW32ASSERT(FALSE);
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return;
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}
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//
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// Zap the entry from the list
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//
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if (lphtaskalias[iSlot].dwThreadID32) {
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lphtaskalias[iSlot].dwThreadID32 = 0;
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lphtaskalias[iSlot].dwProcessID32 = 0;
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lphtaskalias[iSlot].ullCreationTime = 0;
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--cHtaskAliasCount;
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}
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}
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DWORD GetHtaskAlias(
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HTASK16 htask16,
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LPDWORD lpProcessID32
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) {
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UINT iSlot;
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DWORD ThreadID32;
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HTASKALIAS ha;
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ha.dwProcessID32 = 0;
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ThreadID32 = 0;
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if ( ! ISTASKALIAS(htask16) ) {
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goto Done;
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}
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iSlot = MAP_HTASK_SLOT(htask16);
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if ( iSlot >= MAX_HTASKALIAS_SIZE ) {
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WOW32ASSERTMSGF(FALSE, ("WOW::GetHtaskAlias : iSlot >= MAX_TASK_ALIAS_SIZE\n"));
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goto Done;
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}
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ThreadID32 = lphtaskalias[iSlot].dwThreadID32;
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//
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// Make sure the thread still exists in the system
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//
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if ( ! GetThreadIDHTASKALIAS( ThreadID32, &ha ) ||
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ha.ullCreationTime != lphtaskalias[iSlot].ullCreationTime ||
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ha.dwProcessID32 != lphtaskalias[iSlot].dwProcessID32 ) {
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RemoveHtaskAlias( htask16 );
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ha.dwProcessID32 = 0;
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ThreadID32 = 0;
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}
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if ( lpProcessID32 ) {
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*lpProcessID32 = ha.dwProcessID32;
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}
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Done:
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return ThreadID32;
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}
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UINT GetHtaskAliasProcessName(
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HTASK16 htask16,
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LPSTR lpNameBuffer,
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UINT cNameBufferSize
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) {
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DWORD dwThreadID32;
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DWORD dwProcessID32;
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PSYSTEM_PROCESS_INFORMATION ProcessInfo;
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PUCHAR pucLargeBuffer;
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ULONG LargeBufferSize = 32*1024;
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NTSTATUS status = STATUS_INFO_LENGTH_MISMATCH;
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ULONG TotalOffset;
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dwThreadID32 = GetHtaskAlias(htask16, &dwProcessID32);
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if ( dwThreadID32 == 0 ||
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cNameBufferSize == 0 ||
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lpNameBuffer == NULL ) {
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return 0;
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}
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while(status == STATUS_INFO_LENGTH_MISMATCH) {
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pucLargeBuffer = VirtualAlloc(NULL,
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LargeBufferSize,
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MEM_COMMIT,
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PAGE_READWRITE);
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if (pucLargeBuffer == NULL) {
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WOW32ASSERTMSGF((FALSE),
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("WOW::GetHtaskAliasProcessName: VirtualAlloc(%x) failed %x.\n",
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LargeBufferSize));
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return 0;
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}
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status = NtQuerySystemInformation(SystemProcessInformation,
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pucLargeBuffer,
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LargeBufferSize,
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&TotalOffset);
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if (NT_SUCCESS(status)) {
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break;
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}
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else if (status == STATUS_INFO_LENGTH_MISMATCH) {
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LargeBufferSize += 8192;
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VirtualFree (pucLargeBuffer, 0, MEM_RELEASE);
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pucLargeBuffer = NULL;
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}
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else {
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WOW32ASSERTMSGF((NT_SUCCESS(status)),
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("WOW::GetHtaskAliasProcessName: NtQuerySystemInformation failed %x.\n",
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status));
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if(pucLargeBuffer) {
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VirtualFree (pucLargeBuffer, 0, MEM_RELEASE);
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}
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return 0;
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}
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}
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//
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// Iterate through the returned list of process information structures,
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// trying to find the one with the right process id.
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//
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TotalOffset = 0;
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ProcessInfo = (PSYSTEM_PROCESS_INFORMATION)pucLargeBuffer;
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while (TRUE) {
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if ( (DWORD)ProcessInfo->UniqueProcessId == dwProcessID32 ) {
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//
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// Found it, return the name.
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//
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if ( ProcessInfo->ImageName.Buffer ) {
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cNameBufferSize =
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WideCharToMultiByte(
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CP_ACP,
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0,
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ProcessInfo->ImageName.Buffer, // src
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ProcessInfo->ImageName.Length,
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lpNameBuffer, // dest
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cNameBufferSize,
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NULL,
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NULL
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);
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lpNameBuffer[cNameBufferSize] = '\0';
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return cNameBufferSize;
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} else {
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//
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// Don't let them get the name of a system process
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//
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return 0;
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}
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}
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if (ProcessInfo->NextEntryOffset == 0) {
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break;
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}
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TotalOffset += ProcessInfo->NextEntryOffset;
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ProcessInfo = (PSYSTEM_PROCESS_INFORMATION)&pucLargeBuffer[TotalOffset];
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}
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return 0;
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}
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