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wine/loader/module.c
Alexandre Julliard bd34d4ff41 Release 950620 
Mon Jun 19 20:29:50 1995  Alexandre Julliard  (julliard@sunsite.unc.edu)

	* [debugger/*.c]
	Modified debugger to use segmented pointers everywhere.

	* [if1632/shell.spec] [if1632/sound.spec] [if1632/user.spec]
	Declared all functions that return only 16-bit as 'pascal16'.

	* [include/ldt.h] [memory/ldt.c]
	Export LDT_EntryToBytes (new) and LDT_BytesToEntry for DPMI.
	Maintain a copy of the selector flags, removing the need to make a
	system call to retrieve an LDT entry.

	* [loader/module.c]
	Fixed bug with module file handle cache.

	* [loader/ne_resource.c]
	Fixed file name bug in NE_AccessResource().

	* [loader/resource.c]
	Fixed bug in LoadIcon() that caused wrong colors to be used for
	the icon mask.

	* [loader/signal.c]
	Moved instruction emulation to miscemu/instr.c.

	* [misc/dos_fs.c] [miscemu/int21.c]
	Lots of small fixes, thanks to Morten Welinder.

	* [miscemu/dpmi.c]
	More complete DPMI emulation.

	* [miscemu/instr.c]
	Added support for prefixes in instructions to emulate.

	* [miscemu/int2f.c]
	Use register macros instead of destroying the high part of 32-bit
	registers.

	* [objects/dc.c]
	Fixed bug in GetDCState() that failed to clear the new DC.

	* [rc/sysres.rc]
	Removed dialogs 11 and 12 that were never used.

	* [tools/build.c]
	'pascal16' generated functions did not save %dx.
	Removed use of %fs to access the stack.
	%ds is no longer initialized before calling a 16-bit routine.

	* [windows/defwnd.c]
	Accept a NULL pointer as window title.

	* [windows/mdi.c]
	MDICascade: skip iconic windows.
	Implemented CalcChildScroll().
	
	* [windows/utility.c]
	Fixed MulDiv() for illegal values.

	* [windows/win.c]
	Fixed X error in CreateWindowEx() when WM_NCCALCSIZE returned
	a zero width or height.

Sun Jun 18 22:22:30 MET DST 1995  Fons Botman  (botman@inter.nl.net)

	* [controls/edit.c]
	Fixed "uninitalized" message which -Wall couldnt see to be ok
	in EDIT_WriteText.

	* [include/debug.h]
	Added define for extra checks in API definitions during debugging.

	* [loader/ne_image.c]
	Added newline in NE_FixupPrologs to avoid long lines.

	* [misc/dos_fs.c]
	Added extra safety check in DOS_ValidDrive.

	* [misc/exec.c]
	Fixed definition of ExitWindows.
	
Sun Jun 18 21:16:08 1995   Bernd Schmidt <crux@pool.informatik.rwth-aachen.de>

	* [controls/edit.c]
	Some fixes, mostly for memory management, but also for text selection
	and tab postitions. General cleanup. Notepad.exe now works.

	* [controls/combo.c]
	Fix: the hwnd field of the DRAWITEMSTRUCT should always be that of
	the combo box, not the ComboLBox that belongs to it.

	* [controls/listbox.c]
	Handle itemID field correctly throughout.

	* [memory/local.c]
	Implemented flag LMEM_ZEROINIT.
	LocalReAlloc() could trash the heap. Fixed.

	* [objects/font.c]
	FONT_MatchFont(): don't get confused by negative widths.
	Fixed a segfault in EnumFonts().

	* [objects/text.c]
	DrawText(): DT_CALCRECT implies DT_NOCLIP.

	* [objects/dcvalues.c]
	MAKELONG was used with bad parameters in DC_GET_X_Y.

	* [windows/dialog.c]
	Don't show the dialog if WS_VISIBLE isn't set in the template.

	* [windows/utility.c]
	UTILITY_convertArgs(): Never pass an expression containing ++ into a
	macro...

	* [windows/win.c]
	SetParent() should unlink the window before changing the parent.

	* [windows/message.c]
	Don't call timer functions via CallWindowProc(), since it checks
	whether hwnd==0 and does not call the function in that case.

	* [miscemu/instr.c]
	Ignore interrupt 0x3D, for VBRUN300.DLL.

	* [misc/commdlg.c]
	Don't rely on the itemData field of the DRAWITEMSTRUCT to contain a
	pointer to the item text.

	* [if1632/relay.c]
	Disable OLE and DDEML DLLs by default, since they contain nothing but
	stubs anyway. SHELL, COMMDLG and WIN87EM are left enabled, although
	some programs may work better without them.
	
	* [multimedia/*.c] [include/multimedia.h] [include/driver.h]
	Begun cleaning things up a little. Replaced printfs with dprintf_
	macros, made functions static where possible, and some other minor
	changes.

Sun Jun 11 23:19:10 1995  Martin von Loewis  <martin@informatik.hu-berlin.de>

	* [debugger/dbg.y][debugger/dbg.l]
	Removed special handling for FILE_IDENTIFER, because it caused
	problems with x/<format> statements.

	* [debugger/info.c]
	Use SC_ESP instead of SC_EIP for stack dump.

	* [misc/compobj.c][if1632/compobj.spec]
	CoBuildVersion, CoInitialize, CoUninitialize: new functions

	* [misc/ole2.c][if1632/ole2.spec][misc/Imakefile][include/ole2.h]
	New files ole2.c, ole2.h
	OleBuildVersion, OleInitialize, OleUninitialize: new functions

	* [if1632/ole2disp.spec]
	Added missing ordinals above 109

	* [misc/ole2nls.c][if1632/ole2nls.spec][include/winnls.h]
	New file winnls.h
	GetLocaleInfoA: new function

	* [if1632/shell.spec]
	Added FindEnvironmentString as stub

	* [misc/olecli.c][if1632/olecli.spec]
	OleIsDcMeta: New function

	* [objects/font][misc/gdi.spec]
	GetKerningPairs: new function

	* [misc/shell.c]
	ShellExecute: Implemented support for starting programs

	* [if1632/user.spec]
	Inserted missing relay to GetClipCursor

Sun Jun 11 20:34:47 1995   Bernd Schmidt <crux@pool.informatik.rwth-aachen.de>
        
	* [controls/edit.c]
	Fix a problem with the local heap.

	* [include/wintypes.h]
	Fixed wrong declarations of CATCHBUF and LPCATCHBUF.
	
	* [include/mdi.h] [windows/mdi.c]
	This code still assumed segmented address==linear address. Fixed.

	* [include/msdos.h] [misc/dos_fs.c]
	The filemask field of the dosdirent structure could be overrun. Fixed.
	If you had a file called foobar and a file called foo, trying to 
	FindFile(foo) could accidentally find file foobar instead. Fixed.
	
	* [misc/file.c]
	OpenFile(): Always return the full pathname in ofs->szPathName. This 
	also fixes GetModuleFilename().
	Prevent _lclose() from closing stderr or stdout.

	* [misc/profile.c]
	Search for .ini files in the path of the current module as well.
	(Needed by Lotus Organizer.)

	* [loader/task.c] [loader/ne_image.c] [loader/module.c]
	[memory/local.c]
	Local heaps are now initialized by InitTask() for executables. DLLs
	have to call LocalInit() themselves, LocalInit() has to put the
	heap at the end of the segment when called with start==0. We no longer
	allocate the DGROUP with 64k on startup, but grow the local heap
	in LOCAL_GetBlock() when necessary.

        * [loader/module.c]
	LoadLibrary() should call LoadModule() in all cases, even if the
	DLL is already loaded, to ensure that the reference count is correct.

	* [loader/ne_image.c]
	Some changes to function prolog fixup. Does anyone know exactly how
	this is supposed to work? I am only guessing here.
	In NE_InitializeDLLs(), initialize the DLLs a module refers to before
	the module itself.
	
        * [loader/task.c]
	Initialize instance data at the beginning of the DGROUP in InitTask().

	* [memory/local.c]
	Some fixes for moveable blocks.

	* [memory/selector.c]
	All the IsBad*Pointer() functions returned exactly the wrong boolean
	value in all cases!
	
	* [objects/bitblt.c]
	Fixed another null pointer dereference in debugging output.
	
	* [objects/font.c]
	Some more recovery possibilities for FONT_MatchFont() if a specified
	font does not exist.
	
	* [windows/win.c]
	The dialog code may call CreateWindowEx with an integer in windowName.
	This happens for static icon controls that expect a resource ID as
	the window name. CreateWindowEx() used to crash. Fixed.
	
	* [windows/class.c] [windows/win.c]
	Window classes are owned by modules, not instances. Changed
	RegisterClass(), UnregisterClass(), GetClassInfo() and CreateWindowEx()
	accordingly.

Sat Jun 10 16:10:53 1995  Olaf Flebbe <o.flebbe@science-computing.uni-tuebingen.de>

	* [miscemu/int21.c]
	  clock.exe was displaying incorrect year.

Fri Jun 9 20:36:56 1995  Victor Schneider <tailor@crl.com>

	* [include/cursor.h] [windows/cursor.c]
	Implemented CreateCursorIconIndirect().
1995-06-20 19:08:12 +00:00

1226 lines
39 KiB
C
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/*
* Modules
*
* Copyright 1995 Alexandre Julliard
*/
#include <fcntl.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <sys/types.h>
#include <unistd.h>
#include "windows.h"
#include "dlls.h"
#include "dos_fs.h"
#include "global.h"
#include "ldt.h"
#include "module.h"
#include "neexe.h"
#include "stackframe.h"
#include "task.h"
#include "toolhelp.h"
#include "stddebug.h"
/* #define DEBUG_MODULE */
#include "debug.h"
static HMODULE hFirstModule = 0;
static HMODULE hCachedModule = 0; /* Module cached by MODULE_OpenFile */
/***********************************************************************
* MODULE_Init
*
* Create the built-in modules.
*/
BOOL MODULE_Init(void)
{
extern void load_entrypoints( HMODULE );
HMODULE hModule;
NE_MODULE *pModule;
SEGTABLEENTRY *pSegTable;
struct dll_table_s *table;
char *dosmem;
int i;
/* Create the built-in modules */
for (i = 0, table = dll_builtin_table; i < N_BUILTINS; i++, table++)
{
if (!table->used) continue;
hModule = GLOBAL_CreateBlock( GMEM_MOVEABLE, table->module_start,
table->module_end - table->module_start,
0, FALSE, FALSE, FALSE );
if (!hModule) return FALSE;
FarSetOwner( hModule, hModule );
table->hModule = hModule;
dprintf_module( stddeb, "Built-in %s: hmodule=%04x\n",
table->name, hModule );
/* Allocate the code segment */
pModule = (NE_MODULE *)GlobalLock( hModule );
pSegTable = NE_SEG_TABLE( pModule );
pSegTable->selector = GLOBAL_CreateBlock(GMEM_FIXED, table->code_start,
pSegTable->minsize, hModule,
TRUE, TRUE, FALSE );
if (!pSegTable->selector) return FALSE;
pSegTable++;
/* Allocate the data segment */
pSegTable->selector = GLOBAL_Alloc( GMEM_FIXED, pSegTable->minsize,
hModule, FALSE, FALSE, FALSE );
if (!pSegTable->selector) return FALSE;
memcpy( GlobalLock( pSegTable->selector ), table->data_start,
pSegTable->minsize );
pModule->next = hFirstModule;
hFirstModule = hModule;
load_entrypoints( hModule );
}
/* Initialize some KERNEL exported values */
if (!(hModule = GetModuleHandle( "KERNEL" ))) return TRUE;
/* KERNEL.178: __WINFLAGS */
MODULE_SetEntryPoint( hModule, 178, GetWinFlags() );
/* Allocate 7 64k segments for 0000, A000, B000, C000, D000, E000, F000. */
dosmem = malloc( 0x70000 );
MODULE_SetEntryPoint( hModule, 183, /* KERNEL.183: __0000H */
GLOBAL_CreateBlock( GMEM_FIXED, dosmem,
0x10000, hModule, FALSE, FALSE, FALSE ) );
MODULE_SetEntryPoint( hModule, 193, /* KERNEL.193: __0040H */
GLOBAL_CreateBlock( GMEM_FIXED, dosmem + 0x400,
0x100, hModule, FALSE, FALSE, FALSE ) );
MODULE_SetEntryPoint( hModule, 174, /* KERNEL.174: __A000H */
GLOBAL_CreateBlock( GMEM_FIXED, dosmem + 0x10000,
0x10000, hModule, FALSE, FALSE, FALSE ) );
MODULE_SetEntryPoint( hModule, 181, /* KERNEL.181: __B000H */
GLOBAL_CreateBlock( GMEM_FIXED, dosmem + 0x20000,
0x10000, hModule, FALSE, FALSE, FALSE ) );
MODULE_SetEntryPoint( hModule, 182, /* KERNEL.182: __B800H */
GLOBAL_CreateBlock( GMEM_FIXED, dosmem + 0x28000,
0x10000, hModule, FALSE, FALSE, FALSE ) );
MODULE_SetEntryPoint( hModule, 195, /* KERNEL.195: __C000H */
GLOBAL_CreateBlock( GMEM_FIXED, dosmem + 0x30000,
0x10000, hModule, FALSE, FALSE, FALSE ) );
MODULE_SetEntryPoint( hModule, 179, /* KERNEL.179: __D000H */
GLOBAL_CreateBlock( GMEM_FIXED, dosmem + 0x40000,
0x10000, hModule, FALSE, FALSE, FALSE ) );
MODULE_SetEntryPoint( hModule, 190, /* KERNEL.190: __E000H */
GLOBAL_CreateBlock( GMEM_FIXED, dosmem + 0x50000,
0x10000, hModule, FALSE, FALSE, FALSE ) );
MODULE_SetEntryPoint( hModule, 173, /* KERNEL.173: __ROMBIOS */
GLOBAL_CreateBlock( GMEM_FIXED, dosmem + 0x60000,
0x10000, hModule, FALSE, FALSE, FALSE ) );
MODULE_SetEntryPoint( hModule, 194, /* KERNEL.194: __F000H */
GLOBAL_CreateBlock( GMEM_FIXED, dosmem + 0x60000,
0x10000, hModule, FALSE, FALSE, FALSE ) );
return TRUE;
}
/***********************************************************************
* MODULE_PrintModule
*/
void MODULE_PrintModule( HMODULE hmodule )
{
int i, ordinal;
SEGTABLEENTRY *pSeg;
BYTE *pstr;
WORD *pword;
NE_MODULE *pModule = (NE_MODULE *)GlobalLock( hmodule );
/* Dump the module info */
printf( "Module %04x:\n", hmodule );
printf( "count=%d flags=%04x heap=%d stack=%d\n",
pModule->count, pModule->flags,
pModule->heap_size, pModule->stack_size );
printf( "cs:ip=%04x:%04x ss:sp=%04x:%04x ds=%04x nb seg=%d modrefs=%d\n",
pModule->cs, pModule->ip, pModule->ss, pModule->sp, pModule->dgroup,
pModule->seg_count, pModule->modref_count );
printf( "os_flags=%d swap_area=%d version=%04x\n",
pModule->os_flags, pModule->min_swap_area,
pModule->expected_version );
/* Dump the file info */
printf( "Filename: '%s'\n",
((LOADEDFILEINFO *)((BYTE *)pModule + pModule->fileinfo))->filename );
/* Dump the segment table */
printf( "\nSegment table:\n" );
pSeg = NE_SEG_TABLE( pModule );
for (i = 0; i < pModule->seg_count; i++, pSeg++)
printf( "%02x: pos=%d size=%d flags=%04x minsize=%d sel=%04x\n",
i + 1, pSeg->filepos, pSeg->size, pSeg->flags,
pSeg->minsize, pSeg->selector );
/* Dump the resource table */
printf( "\nResource table:\n" );
if (pModule->res_table)
{
pword = (WORD *)((BYTE *)pModule + pModule->res_table);
printf( "Alignment: %d\n", *pword++ );
while (*pword)
{
struct resource_typeinfo_s *ptr = (struct resource_typeinfo_s *)pword;
struct resource_nameinfo_s *pname = (struct resource_nameinfo_s *)(ptr + 1);
printf( "id=%04x count=%d\n", ptr->type_id, ptr->count );
for (i = 0; i < ptr->count; i++, pname++)
printf( "offset=%d len=%d id=%04x\n",
pname->offset, pname->length, pname->id );
pword = (WORD *)pname;
}
}
else printf( "None\n" );
/* Dump the resident name table */
printf( "\nResident-name table:\n" );
pstr = (char *)pModule + pModule->name_table;
while (*pstr)
{
printf( "%*.*s: %d\n", *pstr, *pstr, pstr + 1,
*(WORD *)(pstr + *pstr + 1) );
pstr += *pstr + 1 + sizeof(WORD);
}
/* Dump the module reference table */
printf( "\nModule ref table:\n" );
if (pModule->modref_table)
{
pword = (WORD *)((BYTE *)pModule + pModule->modref_table);
for (i = 0; i < pModule->modref_count; i++, pword++)
{
char *name = (char *)pModule + pModule->import_table + *pword;
printf( "%d: %04x -> '%*.*s'\n",
i, *pword, *name, *name, name + 1 );
}
}
else printf( "None\n" );
/* Dump the entry table */
printf( "\nEntry table:\n" );
pstr = (char *)pModule + pModule->entry_table;
ordinal = 1;
while (*pstr)
{
printf( "Bundle %d-%d: %02x\n", ordinal, ordinal + *pstr - 1, pstr[1]);
if (!pstr[1])
{
ordinal += *pstr;
pstr += 2;
}
else if ((BYTE)pstr[1] == 0xff) /* moveable */
{
struct entry_tab_movable_s *pe = (struct entry_tab_movable_s*)(pstr+2);
for (i = 0; i < *pstr; i++, pe++)
printf( "%d: %02x:%04x (moveable)\n",
ordinal++, pe->seg_number, pe->offset );
pstr = (char *)pe;
}
else /* fixed */
{
struct entry_tab_fixed_s *pe = (struct entry_tab_fixed_s*)(pstr+2);
for (i = 0; i < *pstr; i++, pe++)
printf( "%d: %04x (fixed)\n",
ordinal++, pe->offset[0] + (pe->offset[1] << 8) );
pstr = (char *)pe;
}
}
/* Dump the non-resident names table */
printf( "\nNon-resident names table:\n" );
if (pModule->nrname_handle)
{
pstr = (char *)GlobalLock( pModule->nrname_handle );
while (*pstr)
{
printf( "%*.*s: %d\n", *pstr, *pstr, pstr + 1,
*(WORD *)(pstr + *pstr + 1) );
pstr += *pstr + 1 + sizeof(WORD);
}
}
printf( "\n" );
}
/***********************************************************************
* MODULE_OpenFile
*/
int MODULE_OpenFile( HMODULE hModule )
{
NE_MODULE *pModule;
char *name;
static int cachedfd = -1;
hModule = GetExePtr( hModule ); /* In case we were passed an hInstance */
dprintf_module( stddeb, "MODULE_OpenFile(%04x) cache: mod=%04x fd=%d\n",
hModule, hCachedModule, cachedfd );
if (!(pModule = (NE_MODULE *)GlobalLock( hModule ))) return -1;
if (hCachedModule == hModule) return cachedfd;
close( cachedfd );
hCachedModule = hModule;
name = ((LOADEDFILEINFO*)((char*)pModule + pModule->fileinfo))->filename;
cachedfd = open( DOS_GetUnixFileName( name ), O_RDONLY );
dprintf_module( stddeb, "MODULE_OpenFile: opened '%s' -> %d\n",
name, cachedfd );
return cachedfd;
}
/***********************************************************************
* MODULE_CreateSegments
*/
static BOOL MODULE_CreateSegments( HMODULE hModule )
{
SEGTABLEENTRY *pSegment;
NE_MODULE *pModule;
int i, minsize;
if (!(pModule = (NE_MODULE *)GlobalLock( hModule ))) return FALSE;
pSegment = NE_SEG_TABLE( pModule );
for (i = 1; i <= pModule->seg_count; i++, pSegment++)
{
minsize = pSegment->minsize ? pSegment->minsize : 0x10000;
if (i == pModule->ss) minsize += pModule->stack_size;
if (i == pModule->dgroup)
{
#if 0
/* FIXME: this is needed because heap growing is not implemented */
pModule->heap_size = 0x10000 - minsize;
#endif
/* The DGROUP is allocated by MODULE_CreateInstance */
continue;
}
pSegment->selector = GLOBAL_Alloc( GMEM_ZEROINIT | GMEM_FIXED,
minsize, hModule,
!(pSegment->flags & NE_SEGFLAGS_DATA),
FALSE,
FALSE /*pSegment->flags & NE_SEGFLAGS_READONLY*/ );
if (!pSegment->selector) return FALSE;
}
pModule->dgroup_entry = pModule->dgroup ? pModule->seg_table +
(pModule->dgroup - 1) * sizeof(SEGTABLEENTRY) : 0;
return TRUE;
}
/***********************************************************************
* MODULE_GetInstance
*/
static HINSTANCE MODULE_GetInstance( HMODULE hModule )
{
SEGTABLEENTRY *pSegment;
NE_MODULE *pModule;
if (!(pModule = (NE_MODULE *)GlobalLock( hModule ))) return 0;
if (pModule->dgroup == 0) return hModule;
pSegment = NE_SEG_TABLE( pModule ) + pModule->dgroup - 1;
return pSegment->selector;
}
/***********************************************************************
* MODULE_CreateInstance
*/
static HINSTANCE MODULE_CreateInstance( HMODULE hModule, LOADPARAMS *params )
{
SEGTABLEENTRY *pSegment;
NE_MODULE *pModule;
int minsize;
HINSTANCE hNewInstance, hPrevInstance;
if (!(pModule = (NE_MODULE *)GlobalLock( hModule ))) return 0;
if (pModule->dgroup == 0) return hModule;
pSegment = NE_SEG_TABLE( pModule ) + pModule->dgroup - 1;
hPrevInstance = pSegment->selector;
/* if it's a library, create a new instance only the first time */
if (hPrevInstance)
{
if (pModule->flags & NE_FFLAGS_LIBMODULE) return hPrevInstance;
if (params == (LOADPARAMS*)-1) return hPrevInstance;
}
minsize = pSegment->minsize ? pSegment->minsize : 0x10000;
if (pModule->ss == pModule->dgroup) minsize += pModule->stack_size;
minsize += pModule->heap_size;
hNewInstance = GLOBAL_Alloc( GMEM_ZEROINIT | GMEM_FIXED,
minsize, hModule, FALSE, FALSE, FALSE );
if (!hNewInstance) return 0;
pSegment->selector = hNewInstance;
return hNewInstance;
}
/***********************************************************************
* MODULE_LoadExeHeader
*/
HMODULE MODULE_LoadExeHeader( int fd, OFSTRUCT *ofs )
{
struct mz_header_s mz_header;
struct ne_header_s ne_header;
int size;
HMODULE hModule;
NE_MODULE *pModule;
BYTE *pData;
char *buffer, *fastload = NULL;
int fastload_offset = 0, fastload_length = 0;
/* Read a block from either the file or the fast-load area. */
#define READ(offset,size,buffer) \
((fastload && ((offset) >= fastload_offset) && \
((offset)+(size) <= fastload_offset+fastload_length)) ? \
(memcpy( buffer, fastload+(offset)-fastload_offset, (size) ), TRUE) : \
(lseek( fd, mz_header.ne_offset+(offset), SEEK_SET), \
read( fd, (buffer), (size) ) == (size)))
lseek( fd, 0, SEEK_SET );
if ((read( fd, &mz_header, sizeof(mz_header) ) != sizeof(mz_header)) ||
(mz_header.mz_magic != MZ_SIGNATURE)) return 11; /* invalid exe */
lseek( fd, mz_header.ne_offset, SEEK_SET );
if (read( fd, &ne_header, sizeof(ne_header) ) != sizeof(ne_header))
return 11; /* invalid exe */
if (ne_header.ne_magic == PE_SIGNATURE) return 21; /* win32 exe */
if (ne_header.ne_magic != NE_SIGNATURE) return 11; /* invalid exe */
/* We now have a valid NE header */
size = sizeof(NE_MODULE) +
/* loaded file info */
sizeof(LOADEDFILEINFO) + strlen(ofs->szPathName) +
/* segment table */
ne_header.n_segment_tab * sizeof(SEGTABLEENTRY) +
/* resource table */
ne_header.rname_tab_offset - ne_header.resource_tab_offset +
/* resident names table */
ne_header.moduleref_tab_offset - ne_header.rname_tab_offset +
/* module ref table */
ne_header.n_mod_ref_tab * sizeof(WORD) +
/* imported names table */
ne_header.entry_tab_offset - ne_header.iname_tab_offset +
/* entry table length */
ne_header.entry_tab_length;
hModule = GlobalAlloc( GMEM_MOVEABLE | GMEM_ZEROINIT, size );
if (!hModule) return 11; /* invalid exe */
FarSetOwner( hModule, hModule );
pModule = (NE_MODULE *)GlobalLock( hModule );
memcpy( pModule, &ne_header, sizeof(NE_MODULE) );
pModule->count = 0;
pData = (BYTE *)(pModule + 1);
/* Read the fast-load area */
if (ne_header.additional_flags & NE_AFLAGS_FASTLOAD)
{
fastload_offset=ne_header.fastload_offset<<ne_header.align_shift_count;
fastload_length=ne_header.fastload_length<<ne_header.align_shift_count;
dprintf_module( stddeb, "Using fast-load area offset=%x len=%d\n",
fastload_offset, fastload_length );
if ((fastload = (char *)malloc( fastload_length )) != NULL)
{
lseek( fd, mz_header.ne_offset + fastload_offset, SEEK_SET );
if (read( fd, fastload, fastload_length ) != fastload_length)
{
free( fastload );
fastload = NULL;
}
}
}
/* Store the filename information */
pModule->fileinfo = (int)pData - (int)pModule;
((LOADEDFILEINFO*)pData)->length = sizeof(LOADEDFILEINFO)+strlen(ofs->szPathName);
((LOADEDFILEINFO*)pData)->fixed_media = TRUE;
((LOADEDFILEINFO*)pData)->error = 0;
((LOADEDFILEINFO*)pData)->date = 0;
((LOADEDFILEINFO*)pData)->time = 0;
strcpy( ((LOADEDFILEINFO*)pData)->filename, ofs->szPathName );
pData += ((LOADEDFILEINFO*)pData)->length--;
/* Get the segment table */
pModule->seg_table = (int)pData - (int)pModule;
buffer = malloc( ne_header.n_segment_tab * sizeof(struct ne_segment_table_entry_s) );
if (buffer)
{
int i;
struct ne_segment_table_entry_s *pSeg;
if (!READ( ne_header.segment_tab_offset,
ne_header.n_segment_tab * sizeof(struct ne_segment_table_entry_s),
buffer )) return 11; /* invalid exe */
pSeg = (struct ne_segment_table_entry_s *)buffer;
for (i = ne_header.n_segment_tab; i > 0; i--, pSeg++)
{
memcpy( pData, pSeg, sizeof(*pSeg) );
pData += sizeof(SEGTABLEENTRY);
}
free( buffer );
}
else return 11; /* invalid exe */
/* Get the resource table */
if (ne_header.resource_tab_offset < ne_header.rname_tab_offset)
{
pModule->res_table = (int)pData - (int)pModule;
if (!READ(ne_header.resource_tab_offset,
ne_header.rname_tab_offset - ne_header.resource_tab_offset,
pData )) return 11; /* invalid exe */
pData += ne_header.rname_tab_offset - ne_header.resource_tab_offset;
}
else pModule->res_table = 0; /* No resource table */
/* Get the resident names table */
pModule->name_table = (int)pData - (int)pModule;
if (!READ( ne_header.rname_tab_offset,
ne_header.moduleref_tab_offset - ne_header.rname_tab_offset,
pData )) return 11; /* invalid exe */
pData += ne_header.moduleref_tab_offset - ne_header.rname_tab_offset;
/* Get the module references table */
if (ne_header.n_mod_ref_tab > 0)
{
pModule->modref_table = (int)pData - (int)pModule;
if (!READ( ne_header.moduleref_tab_offset,
ne_header.n_mod_ref_tab * sizeof(WORD),
pData )) return 11; /* invalid exe */
pData += ne_header.n_mod_ref_tab * sizeof(WORD);
}
else pModule->modref_table = 0; /* No module references */
/* Get the imported names table */
pModule->import_table = (int)pData - (int)pModule;
if (!READ( ne_header.iname_tab_offset,
ne_header.entry_tab_offset - ne_header.iname_tab_offset,
pData )) return 11; /* invalid exe */
pData += ne_header.entry_tab_offset - ne_header.iname_tab_offset;
/* Get the entry table */
pModule->entry_table = (int)pData - (int)pModule;
if (!READ( ne_header.entry_tab_offset,
ne_header.entry_tab_length,
pData )) return 11; /* invalid exe */
pData += ne_header.entry_tab_length;
/* Get the non-resident names table */
if (ne_header.nrname_tab_length)
{
pModule->nrname_handle = GLOBAL_Alloc( 0, ne_header.nrname_tab_length,
hModule, FALSE, FALSE, FALSE );
if (!pModule->nrname_handle) return 11; /* invalid exe */
buffer = GlobalLock( pModule->nrname_handle );
lseek( fd, ne_header.nrname_tab_offset, SEEK_SET );
if (read( fd, buffer, ne_header.nrname_tab_length )
!= ne_header.nrname_tab_length) return 11; /* invalid exe */
}
else pModule->nrname_handle = 0;
/* Allocate a segment for the implicitly-loaded DLLs */
if (pModule->modref_count)
{
pModule->dlls_to_init = GLOBAL_Alloc(GMEM_ZEROINIT,
(pModule->modref_count+1)*sizeof(HMODULE),
hModule, FALSE, FALSE, FALSE );
if (!pModule->dlls_to_init) return 11; /* invalid exe */
}
else pModule->dlls_to_init = 0;
if (debugging_module) MODULE_PrintModule( hModule );
pModule->next = hFirstModule;
hFirstModule = hModule;
return hModule;
}
/***********************************************************************
* MODULE_GetOrdinal
*
* Lookup the ordinal for a given name.
*/
WORD MODULE_GetOrdinal( HMODULE hModule, char *name )
{
char buffer[256], *cpnt;
BYTE len;
NE_MODULE *pModule;
if (!(pModule = (NE_MODULE *)GlobalLock( hModule ))) return 0;
dprintf_module( stddeb, "MODULE_GetOrdinal(%04x,'%s')\n",
hModule, name );
/* First handle names of the form '#xxxx' */
if (name[0] == '#') return atoi( name + 1 );
/* Now copy and uppercase the string */
strcpy( buffer, name );
AnsiUpper( buffer );
len = strlen( buffer );
/* First search the resident names */
cpnt = (char *)pModule + pModule->name_table;
/* Skip the first entry (module name) */
cpnt += *cpnt + 1 + sizeof(WORD);
while (*cpnt)
{
dprintf_module( stddeb, " Checking '%*.*s'\n", *cpnt, *cpnt, cpnt+1 );
if (((BYTE)*cpnt == len) && !memcmp( cpnt+1, buffer, len ))
{
dprintf_module( stddeb, " Found: ordinal=%d\n",
*(WORD *)(cpnt + *cpnt + 1) );
return *(WORD *)(cpnt + *cpnt + 1);
}
cpnt += *cpnt + 1 + sizeof(WORD);
}
/* Now search the non-resident names table */
if (!pModule->nrname_handle) return 0; /* No non-resident table */
cpnt = (char *)GlobalLock( pModule->nrname_handle );
/* Skip the first entry (module description string) */
cpnt += *cpnt + 1 + sizeof(WORD);
while (*cpnt)
{
dprintf_module( stddeb, " Checking '%*.*s'\n", *cpnt, *cpnt, cpnt+1 );
if (((BYTE)*cpnt == len) && !memcmp( cpnt+1, buffer, len ))
{
dprintf_module( stddeb, " Found: ordinal=%d\n",
*(WORD *)(cpnt + *cpnt + 1) );
return *(WORD *)(cpnt + *cpnt + 1);
}
cpnt += *cpnt + 1 + sizeof(WORD);
}
return 0;
}
/***********************************************************************
* MODULE_GetEntryPoint
*
* Return the entry point for a given ordinal.
*/
DWORD MODULE_GetEntryPoint( HMODULE hModule, WORD ordinal )
{
NE_MODULE *pModule;
WORD curOrdinal = 1;
BYTE *p;
WORD sel, offset;
if (!(pModule = (NE_MODULE *)GlobalLock( hModule ))) return 0;
p = (BYTE *)pModule + pModule->entry_table;
while (*p && (curOrdinal + *p <= ordinal))
{
/* Skipping this bundle */
curOrdinal += *p;
switch(p[1])
{
case 0: p += 2; break; /* unused */
case 0xff: p += 2 + *p * 6; break; /* moveable */
default: p += 2 + *p * 3; break; /* fixed */
}
}
if (!*p) return 0;
switch(p[1])
{
case 0: /* unused */
return 0;
case 0xff: /* moveable */
p += 2 + 6 * (ordinal - curOrdinal);
sel = p[3];
offset = *(WORD *)(p + 4);
break;
default: /* fixed */
sel = p[1];
p += 2 + 3 * (ordinal - curOrdinal);
offset = *(WORD *)(p + 1);
break;
}
if (sel == 0xfe) sel = 0xffff; /* constant entry */
else sel = NE_SEG_TABLE(pModule)[sel-1].selector;
return MAKELONG( offset, sel );
}
/***********************************************************************
* MODULE_SetEntryPoint
*
* Change the value of an entry point. Use with caution!
* It can only change the offset value, not the selector.
*/
BOOL MODULE_SetEntryPoint( HMODULE hModule, WORD ordinal, WORD offset )
{
NE_MODULE *pModule;
WORD curOrdinal = 1;
BYTE *p;
if (!(pModule = (NE_MODULE *)GlobalLock( hModule ))) return FALSE;
p = (BYTE *)pModule + pModule->entry_table;
while (*p && (curOrdinal + *p <= ordinal))
{
/* Skipping this bundle */
curOrdinal += *p;
switch(p[1])
{
case 0: p += 2; break; /* unused */
case 0xff: p += 2 + *p * 6; break; /* moveable */
default: p += 2 + *p * 3; break; /* fixed */
}
}
if (!*p) return FALSE;
switch(p[1])
{
case 0: /* unused */
return FALSE;
case 0xff: /* moveable */
p += 2 + 6 * (ordinal - curOrdinal);
*(WORD *)(p + 4) = offset;
break;
default: /* fixed */
p += 2 + 3 * (ordinal - curOrdinal);
*(WORD *)(p + 1) = offset;
break;
}
return TRUE;
}
/***********************************************************************
* MODULE_GetEntryPointName
*
* Return the entry point name for a given ordinal.
* Used only by relay debugging.
* Warning: returned pointer is to a Pascal-type string.
*/
LPSTR MODULE_GetEntryPointName( HMODULE hModule, WORD ordinal )
{
register char *cpnt;
NE_MODULE *pModule;
if (!(pModule = (NE_MODULE *)GlobalLock( hModule ))) return 0;
/* First search the resident names */
cpnt = (char *)pModule + pModule->name_table;
while (*cpnt)
{
cpnt += *cpnt + 1 + sizeof(WORD);
if (*(WORD *)(cpnt + *cpnt + 1) == ordinal) return cpnt;
}
/* Now search the non-resident names table */
if (!pModule->nrname_handle) return 0; /* No non-resident table */
cpnt = (char *)GlobalLock( pModule->nrname_handle );
while (*cpnt)
{
cpnt += *cpnt + 1 + sizeof(WORD);
if (*(WORD *)(cpnt + *cpnt + 1) == ordinal) return cpnt;
}
return NULL;
}
/***********************************************************************
* MODULE_GetModuleName
*/
LPSTR MODULE_GetModuleName( HMODULE hModule )
{
NE_MODULE *pModule;
BYTE *p, len;
static char buffer[10];
if (!(pModule = (NE_MODULE *)GlobalLock( hModule ))) return NULL;
p = (BYTE *)pModule + pModule->name_table;
len = min( *p, 8 );
memcpy( buffer, p + 1, len );
buffer[len] = '\0';
return buffer;
}
/**********************************************************************
* MODULE_FindModule
*
* Find a module from a path name.
*/
HMODULE MODULE_FindModule( LPCSTR path )
{
HMODULE hModule = hFirstModule;
LPCSTR filename, dotptr, modulepath, modulename;
BYTE len, *name_table;
if (!(filename = strrchr( path, '\\' ))) filename = path;
else filename++;
if ((dotptr = strrchr( filename, '.' )) != NULL)
len = (BYTE)(dotptr - filename);
else len = strlen( filename );
while(hModule)
{
NE_MODULE *pModule = (NE_MODULE *)GlobalLock( hModule );
if (!pModule) break;
modulepath = ((LOADEDFILEINFO*)((char*)pModule + pModule->fileinfo))->filename;
if (!(modulename = strrchr( modulepath, '\\' )))
modulename = modulepath;
else modulename++;
if (!strcasecmp( modulename, filename )) return hModule;
name_table = (BYTE *)pModule + pModule->name_table;
if ((*name_table == len) && !strncasecmp(filename, name_table+1, len))
return hModule;
hModule = pModule->next;
}
return 0;
}
/**********************************************************************
* MODULE_FreeModule
*
* Remove a module from memory.
*/
static void MODULE_FreeModule( HMODULE hModule )
{
HMODULE *hPrevModule;
NE_MODULE *pModule;
SEGTABLEENTRY *pSegment;
WORD *pModRef;
int i;
if (!(pModule = (NE_MODULE *)GlobalLock( hModule ))) return;
/* FIXME: should call the exit code for the library here */
/* Remove it from the linked list */
hPrevModule = &hFirstModule;
while (*hPrevModule && (*hPrevModule != hModule))
{
hPrevModule = &((NE_MODULE *)GlobalLock( *hPrevModule ))->next;
}
if (*hPrevModule) *hPrevModule = pModule->next;
/* Free all the segments */
pSegment = NE_SEG_TABLE( pModule );
for (i = 1; i <= pModule->seg_count; i++, pSegment++)
{
GlobalFree( pSegment->selector );
}
/* Free the referenced modules */
pModRef = NE_MODULE_TABLE( pModule );
for (i = 0; i < pModule->modref_count; i++, pModRef++)
{
FreeModule( *pModRef );
}
/* Free the module storage */
if (pModule->nrname_handle) GlobalFree( pModule->nrname_handle );
if (pModule->dlls_to_init) GlobalFree( pModule->dlls_to_init );
GlobalFree( hModule );
/* Remove module from cache */
if (hCachedModule == hModule) hCachedModule = 0;
}
/**********************************************************************
* LoadModule (KERNEL.45)
*/
HINSTANCE LoadModule( LPCSTR name, LPVOID paramBlock )
{
HMODULE hModule;
HANDLE hInstance, hPrevInstance;
NE_MODULE *pModule;
LOADPARAMS *params = (LOADPARAMS *)paramBlock;
WORD *pModRef, *pDLLs;
int i, fd;
hModule = MODULE_FindModule( name );
if (!hModule) /* We have to load the module */
{
OFSTRUCT ofs;
if (strchr( name, '/' )) name = DOS_GetDosFileName( name );
if ((fd = OpenFile( name, &ofs, OF_READ )) == -1)
return 2; /* File not found */
/* Create the module structure */
if ((hModule = MODULE_LoadExeHeader( fd, &ofs )) < 32)
{
close( fd );
fprintf( stderr, "LoadModule: can't load '%s', error=%d\n",
name, hModule );
return hModule;
}
pModule = (NE_MODULE *)GlobalLock( hModule );
/* Allocate the segments for this module */
MODULE_CreateSegments( hModule );
hPrevInstance = 0;
hInstance = MODULE_CreateInstance( hModule, (LOADPARAMS*)paramBlock );
/* Load the referenced DLLs */
pModRef = (WORD *)((char *)pModule + pModule->modref_table);
pDLLs = (WORD *)GlobalLock( pModule->dlls_to_init );
for (i = 0; i < pModule->modref_count; i++, pModRef++)
{
char buffer[256];
BYTE *pstr = (BYTE *)pModule + pModule->import_table + *pModRef;
memcpy( buffer, pstr + 1, *pstr );
strcpy( buffer + *pstr, ".dll" );
dprintf_module( stddeb, "Loading '%s'\n", buffer );
if (!(*pModRef = MODULE_FindModule( buffer )))
{
/* If the DLL is not loaded yet, load it and store */
/* its handle in the list of DLLs to initialize. */
HMODULE hDLL;
if ((hDLL = LoadModule( buffer, (LPVOID)-1 )) == 2) /* file not found */
{
char *p;
/* Try with prepending the path of the current module */
GetModuleFileName( hModule, buffer, 256 );
if (!(p = strrchr( buffer, '\\' ))) p = buffer;
memcpy( p + 1, pstr + 1, *pstr );
strcpy( p + 1 + *pstr, ".dll" );
hDLL = LoadModule( buffer, (LPVOID)-1 );
}
if (hDLL < 32)
{
fprintf( stderr, "Could not load '%s' required by '%s', error = %d\n",
buffer, name, hDLL );
return 2; /* file not found */
}
*pModRef = GetExePtr( hDLL );
*pDLLs++ = *pModRef;
}
else /* Increment the reference count of the DLL */
{
NE_MODULE *pOldDLL = (NE_MODULE *)GlobalLock( *pModRef );
if (pOldDLL) pOldDLL->count++;
}
}
/* Load the segments */
for (i = 1; i <= pModule->seg_count; i++) NE_LoadSegment( hModule, i );
/* Fixup the functions prologs */
NE_FixupPrologs( hModule );
/* Make sure the usage count is 1 on the first loading of */
/* the module, even if it contains circular DLL references */
pModule->count = 1;
}
else
{
pModule = (NE_MODULE *)GlobalLock( hModule );
hPrevInstance = MODULE_GetInstance( hModule );
hInstance = MODULE_CreateInstance( hModule, params );
if (hInstance != hPrevInstance) /* not a library */
NE_LoadSegment( hModule, pModule->dgroup );
pModule->count++;
}
/* Create a task for this instance */
if (!(pModule->flags & NE_FFLAGS_LIBMODULE) && (paramBlock != (LPVOID)-1))
{
TASK_CreateTask( hModule, hInstance, hPrevInstance,
params->hEnvironment,
(LPSTR)PTR_SEG_TO_LIN( params->cmdLine ),
*((WORD *)PTR_SEG_TO_LIN(params->showCmd)+1) );
}
return hInstance;
}
/**********************************************************************
* FreeModule (KERNEL.46)
*/
BOOL FreeModule( HANDLE hModule )
{
NE_MODULE *pModule;
hModule = GetExePtr( hModule ); /* In case we were passed an hInstance */
if (!(pModule = (NE_MODULE *)GlobalLock( hModule ))) return FALSE;
dprintf_module( stddeb, "FreeModule: %s count %d\n",
MODULE_GetModuleName(hModule), pModule->count );
if (--pModule->count == 0) MODULE_FreeModule( hModule );
return TRUE;
}
/**********************************************************************
* GetModuleHandle (KERNEL.47)
*/
HMODULE GetModuleHandle( LPCSTR name )
{
return MODULE_FindModule( name );
}
/**********************************************************************
* GetModuleUsage (KERNEL.48)
*/
int GetModuleUsage( HANDLE hModule )
{
NE_MODULE *pModule;
hModule = GetExePtr( hModule ); /* In case we were passed an hInstance */
if (!(pModule = (NE_MODULE *)GlobalLock( hModule ))) return 0;
dprintf_module( stddeb, "GetModuleUsage(%04x): returning %d\n",
hModule, pModule->count );
return pModule->count;
}
/**********************************************************************
* GetModuleFileName (KERNEL.49)
*/
int GetModuleFileName( HANDLE hModule, LPSTR lpFileName, short nSize )
{
NE_MODULE *pModule;
char *name;
hModule = GetExePtr( hModule ); /* In case we were passed an hInstance */
if (!(pModule = (NE_MODULE *)GlobalLock( hModule ))) return 0;
name = ((LOADEDFILEINFO*)((char*)pModule + pModule->fileinfo))->filename;
strncpy( lpFileName, name, nSize );
lpFileName[nSize-1] = '\0';
dprintf_module( stddeb, "GetModuleFilename: %s\n", lpFileName );
return strlen(lpFileName);
}
/***********************************************************************
* LoadLibrary (KERNEL.95)
*/
HANDLE LoadLibrary( LPCSTR libname )
{
HANDLE handle;
dprintf_module( stddeb, "LoadLibrary: (%08x) %s\n", (int)libname, libname);
/* This does not increment the module reference count, and will
* therefore cause crashes on FreeLibrary calls.
if ((handle = MODULE_FindModule( libname )) != 0) return handle;
*/
handle = LoadModule( libname, (LPVOID)-1 );
if (handle == 2) /* file not found */
{
char buffer[256];
strcpy( buffer, libname );
strcat( buffer, ".dll" );
handle = LoadModule( buffer, (LPVOID)-1 );
}
if (handle >= 32) NE_InitializeDLLs( GetExePtr(handle) );
return handle;
}
/***********************************************************************
* FreeLibrary (KERNEL.96)
*/
void FreeLibrary( HANDLE handle )
{
dprintf_module( stddeb,"FreeLibrary: %04x\n", handle );
FreeModule( handle );
}
/***********************************************************************
* WinExec (KERNEL.166)
*/
HANDLE WinExec( LPSTR lpCmdLine, WORD nCmdShow )
{
LOADPARAMS params;
HLOCAL cmdShowHandle, cmdLineHandle;
HANDLE handle;
WORD *cmdShowPtr;
char *p, *cmdline, filename[256];
if (!(cmdShowHandle = GlobalAlloc( 0, 2 * sizeof(WORD) ))) return 0;
if (!(cmdLineHandle = GlobalAlloc( 0, 256 ))) return 0;
/* Store nCmdShow */
cmdShowPtr = (WORD *)GlobalLock( cmdShowHandle );
cmdShowPtr[0] = 2;
cmdShowPtr[1] = nCmdShow;
/* Build the filename and command-line */
cmdline = (char *)GlobalLock( cmdLineHandle );
strncpy( filename, lpCmdLine, 256 );
filename[255] = '\0';
for (p = filename; *p && (*p != ' ') && (*p != '\t'); p++);
if (*p)
{
strncpy( cmdline, p + 1, 128 );
cmdline[127] = '\0';
}
else cmdline[0] = '\0';
*p = '\0';
/* Now load the executable file */
params.hEnvironment = SELECTOROF( GetDOSEnvironment() );
params.cmdLine = WIN16_GlobalLock( cmdLineHandle );
params.showCmd = WIN16_GlobalLock( cmdShowHandle );
params.reserved = 0;
handle = LoadModule( filename, &params );
if (handle == 2) /* file not found */
{
strcat( filename, ".exe" );
handle = LoadModule( filename, &params );
}
GlobalFree( cmdShowHandle );
GlobalFree( cmdLineHandle );
return handle;
}
/***********************************************************************
* GetProcAddress (KERNEL.50)
*/
FARPROC GetProcAddress( HANDLE hModule, SEGPTR name )
{
WORD ordinal;
SEGPTR ret;
if (!hModule) hModule = GetCurrentTask();
hModule = GetExePtr( hModule );
if (HIWORD(name) != 0)
{
ordinal = MODULE_GetOrdinal( hModule, (LPSTR)PTR_SEG_TO_LIN(name) );
dprintf_module( stddeb, "GetProcAddress: %04x '%s'\n",
hModule, (LPSTR)PTR_SEG_TO_LIN(name) );
}
else
{
ordinal = LOWORD(name);
dprintf_module( stddeb, "GetProcAddress: %04x %04x\n",
hModule, ordinal );
}
if (!ordinal) return (FARPROC)0;
ret = MODULE_GetEntryPoint( hModule, ordinal );
dprintf_module( stddeb, "GetProcAddress: returning %08lx\n", ret );
return (FARPROC)ret;
}
/**********************************************************************
* ModuleFirst (TOOLHELP.59)
*/
BOOL ModuleFirst( MODULEENTRY *lpme )
{
lpme->wNext = hFirstModule;
return ModuleNext( lpme );
}
/**********************************************************************
* ModuleNext (TOOLHELP.60)
*/
BOOL ModuleNext( MODULEENTRY *lpme )
{
NE_MODULE *pModule;
if (!lpme->wNext) return FALSE;
if (!(pModule = (NE_MODULE *)GlobalLock( lpme->wNext ))) return FALSE;
strncpy( lpme->szModule, (char *)pModule + pModule->name_table,
MAX_MODULE_NAME );
lpme->szModule[MAX_MODULE_NAME] = '\0';
lpme->hModule = lpme->wNext;
lpme->wcUsage = pModule->count;
strncpy( lpme->szExePath,
((LOADEDFILEINFO*)((char*)pModule + pModule->fileinfo))->filename,
MAX_PATH );
lpme->szExePath[MAX_PATH] = '\0';
lpme->wNext = pModule->next;
return TRUE;
}
/**********************************************************************
* ModuleFindName (TOOLHELP.61)
*/
BOOL ModuleFindName( MODULEENTRY *lpme, LPCSTR name )
{
lpme->wNext = GetModuleHandle( name );
return ModuleNext( lpme );
}
/**********************************************************************
* ModuleFindHandle (TOOLHELP.62)
*/
BOOL ModuleFindHandle( MODULEENTRY *lpme, HMODULE hModule )
{
hModule = GetExePtr( hModule ); /* In case we were passed an hInstance */
lpme->wNext = hModule;
return ModuleNext( lpme );
}
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