loader/loadorder.c - wine - Git at Google

 /*
  * Module/Library loadorder
  *
  * Copyright 1999 Bertho Stultiens
  */

 #include <stdlib.h>
 #include <string.h>
 #include <assert.h>

 #include "config.h"
 #include "windef.h"
 #include "options.h"
 #include "loadorder.h"
 #include "heap.h"
 #include "module.h"
 #include "elfdll.h"
 #include "debugtools.h"

 DEFAULT_DEBUG_CHANNEL(module)


 /* #define DEBUG_LOADORDER */

 #define LOADORDER_ALLOC_CLUSTER	32	/* Allocate with 32 entries at a time */

 static module_loadorder_t default_loadorder;
 static module_loadorder_t *module_loadorder = NULL;
 static int nmodule_loadorder = 0;
 static int nmodule_loadorder_alloc = 0;

 static struct tagDllOverride {
 	char *key,*value;
 } DefaultDllOverrides[] = {
 	{"kernel32,gdi32,user32",	"builtin"},
 	{"krnl386,gdi,user",		"builtin"},
 	{"toolhelp",			"builtin"},
 	{"comdlg32,commdlg",		"elfdll,builtin,native"},
 	{"version,ver",			"elfdll,builtin,native"},
 	{"shell32,shell",		"builtin,native"},
 	{"shlwapi",			"native,builtin"},
 	{"lz32,lzexpand",		"builtin,native"},
 	{"commctrl,comctl32",		"builtin,native"},
 	{"wsock32,winsock",		"builtin"},
 	{"ws2_32",			"builtin"},
 	{"advapi32,crtdll,ntdll",	"builtin,native"},
 	{"mpr,winspool.drv",		"builtin,native"},
 	{"ddraw,dinput,dsound",		"builtin,native"},
 	{"winmm, mmsystem",		"builtin"},
 	{"msvideo, msvfw32",		"builtin, native"},
 	{"mcicda.drv, mciseq.drv",	"builtin, native"},
 	{"mciwave.drv",			"builtin, native"},
 	{"mciavi.drv, mcianim.drv",	"native, builtin"},
 	{"msacm.drv, midimap.drv",      "builtin, native"},
 	{"w32skrnl",			"builtin"},
 	{"wnaspi32,wow32",		"builtin"},
 	{"system,display,wprocs	",	"builtin"},
 	{"wineps",			"builtin"},
         {"icmp",                        "builtin"},
 	/* we have to use libglide2x.so instead of glide2x.dll ... */
 	{"glide2x",			"so,native"},
 	{"glide3x",			"so,native"},
 	{"odbc32",			"builtin"},
 	{"opengl32",                    "builtin,native"},
 	{"shfolder",                    "builtin,native"},
 	{"rpcrt4",                      "native,builtin"},
 	{NULL,NULL},
 };

 static const struct tagDllPair {
     const char *dll1, *dll2;
 } DllPairs[] = {
     { "krnl386",  "kernel32" },
     { "gdi",      "gdi32" },
     { "user",     "user32" },
     { "commdlg",  "comdlg32" },
     { "commctrl", "comctl32" },
     { "ver",      "version" },
     { "shell",    "shell32" },
     { "lzexpand", "lz32" },
     { "mmsystem", "winmm" },
     { "msvideo",  "msvfw32" },
     { "winsock",  "wsock32" },
     { NULL,       NULL }
 };

 /***************************************************************************
  *	cmp_sort_func	(internal, static)
  *
  * Sorting and comparing function used in sort and search of loadorder
  * entries.
  */
 static int cmp_sort_func(const void *s1, const void *s2)
 {
 	return strcasecmp(((module_loadorder_t *)s1)->modulename, ((module_loadorder_t *)s2)->modulename);
 }


 /***************************************************************************
  *	get_tok	(internal, static)
  *
  * strtok wrapper for non-destructive buffer writing.
  * NOTE: strtok is not reentrant and therefore this code is neither.
  */
 static char *get_tok(const char *str, const char *delim)
 {
 	static char *buf = NULL;
 	char *cptr;

 	if(!str && !buf)
 		return NULL;

 	if(str && buf)
 	{
 		HeapFree(GetProcessHeap(), 0, buf);
 		buf = NULL;
 	}

 	if(str && !buf)
 	{
 		buf = HEAP_strdupA(GetProcessHeap(), 0, str);
 		cptr = strtok(buf, delim);
 	}
 	else
 	{
 		cptr = strtok(NULL, delim);
 	}

 	if(!cptr)
 	{
 		HeapFree(GetProcessHeap(), 0, buf);
 		buf = NULL;
 	}
 	return cptr;
 }


 /***************************************************************************
  *	ParseLoadOrder	(internal, static)
  *
  * Parses the loadorder options from the configuration and puts it into
  * a structure.
  */
 static BOOL ParseLoadOrder(char *order, module_loadorder_t *mlo)
 {
 	char *cptr;
 	int n = 0;

 	memset(mlo->loadorder, 0, sizeof(mlo->loadorder));

 	cptr = get_tok(order, ", \t");
 	while(cptr)
 	{
 		char type = MODULE_LOADORDER_INVALID;

 		if(n >= MODULE_LOADORDER_NTYPES)
 		{
 			ERR("More than existing %d module-types specified, rest ignored", MODULE_LOADORDER_NTYPES);
 			break;
 		}

 		switch(*cptr)
 		{
 		case 'N':	/* Native */
 		case 'n': type = MODULE_LOADORDER_DLL; break;

 		case 'E':	/* Elfdll */
 		case 'e': type = MODULE_LOADORDER_ELFDLL; break;

 		case 'S':	/* So */
 		case 's': type = MODULE_LOADORDER_SO; break;

 		case 'B':	/* Builtin */
 		case 'b': type = MODULE_LOADORDER_BI; break;

 		default:
 			ERR("Invalid load order module-type '%s', ignored\n", cptr);
 		}

 		if(type != MODULE_LOADORDER_INVALID)
 		{
 			mlo->loadorder[n++] = type;
 		}
 		cptr = get_tok(NULL, ", \t");
 	}
 	return TRUE;
 }


 /***************************************************************************
  *	AddLoadOrder	(internal, static)
  *
  * Adds an entry in the list of overrides. If the entry exists, then the
  * override parameter determines whether it will be overwritten.
  */
 static BOOL AddLoadOrder(module_loadorder_t *plo, BOOL override)
 {
 	int i;

 	/* TRACE(module, "'%s' -> %08lx\n", plo->modulename, *(DWORD *)(plo->loadorder)); */

 	for(i = 0; i < nmodule_loadorder; i++)
 	{
 		if(!cmp_sort_func(plo, &module_loadorder[i]))
 		{
 			if(!override)
 				ERR("Module '%s' is already in the list of overrides, using first definition\n", plo->modulename);
 			else
 				memcpy(module_loadorder[i].loadorder, plo->loadorder, sizeof(plo->loadorder));
 			return TRUE;
 		}
 	}

 	if(nmodule_loadorder >= nmodule_loadorder_alloc)
 	{
 		/* No space in current array, make it larger */
 		nmodule_loadorder_alloc += LOADORDER_ALLOC_CLUSTER;
 		module_loadorder = (module_loadorder_t *)HeapReAlloc(GetProcessHeap(),
 								     0,
 								     module_loadorder,
 								     nmodule_loadorder_alloc * sizeof(module_loadorder_t));
 		if(!module_loadorder)
 		{
 			MESSAGE("Virtual memory exhausted\n");
 			exit(1);
 		}
 	}
 	memcpy(module_loadorder[nmodule_loadorder].loadorder, plo->loadorder, sizeof(plo->loadorder));
 	module_loadorder[nmodule_loadorder].modulename = HEAP_strdupA(GetProcessHeap(), 0, plo->modulename);
 	nmodule_loadorder++;
 	return TRUE;
 }


 /***************************************************************************
  *	AddLoadOrderSet	(internal, static)
  *
  * Adds a set of entries in the list of overrides from the key parameter.
  * If the entry exists, then the override parameter determines whether it
  * will be overwritten.
  */
 static BOOL AddLoadOrderSet(char *key, char *order, BOOL override)
 {
 	module_loadorder_t ldo;
 	char *cptr;

 	/* Parse the loadorder before the rest because strtok is not reentrant */
 	if(!ParseLoadOrder(order, &ldo))
 		return FALSE;

 	cptr = get_tok(key, ", \t");
 	while(cptr)
 	{
 		char *ext = strrchr(cptr, '.');
 		if(ext)
 		{
 			if(strlen(ext) == 4 && (!strcasecmp(ext, ".dll") || !strcasecmp(ext, ".exe")))
 				MESSAGE("Warning: Loadorder override '%s' contains an extension and might not be found during lookup\n", cptr);
 		}

 		ldo.modulename = cptr;
 		if(!AddLoadOrder(&ldo, override))
 			return FALSE;
 		cptr = get_tok(NULL, ", \t");
 	}
 	return TRUE;
 }


 /***************************************************************************
  *	ParseCommandlineOverrides	(internal, static)
  *
  * The commandline is in the form:
  * name[,name,...]=native[,b,...][+...]
  */
 static BOOL ParseCommandlineOverrides(void)
 {
 	char *cpy;
 	char *key;
 	char *next;
 	char *value;
 	BOOL retval = TRUE;

 	if(!Options.dllFlags)
 		return TRUE;

 	cpy = HEAP_strdupA(GetProcessHeap(), 0, Options.dllFlags);
 	key = cpy;
 	next = key;
 	for(; next; key = next)
 	{
 		next = strchr(key, '+');
 		if(next)
 		{
 			*next = '\0';
 			next++;
 		}
 		value = strchr(key, '=');
 		if(!value)
 		{
 			retval = FALSE;
 			goto endit;
 		}
 		*value = '\0';
 		value++;

 		TRACE("Commandline override '%s' = '%s'\n", key, value);

 		if(!AddLoadOrderSet(key, value, TRUE))
 		{
 			retval = FALSE;
 			goto endit;
 		}
 	}
 endit:
 	HeapFree(GetProcessHeap(), 0, cpy);
 	return retval;;
 }


 /***************************************************************************
  *	MODULE_InitLoadOrder	(internal)
  *
  * Initialize the load order from the wine.conf file.
  * The section has the following format:
  * Section:
  *	[DllDefaults]
  *
  * Keys:
  *	EXTRA_LD_LIBRARY_PATH=/usr/local/lib/wine[:/more/path/to/search[:...]]
  * The path will be appended to any existing LD_LIBRARY_PATH from the
  * environment (see note in code below).
  *
  *	DefaultLoadOrder=native,elfdll,so,builtin
  * A comma separated list of module types to try to load in that specific
  * order. The DefaultLoadOrder key is used as a fallback when a module is
  * not specified explicitly. If the DefaultLoadOrder key is not found,
  * then the order "dll,elfdll,so,bi" is used
  * The possible module types are:
  *	- native	Native windows dll files
  *	- elfdll	Dlls encapsulated in .so libraries
  *	- so		Native .so libraries mapped to dlls
  *	- builtin	Built-in modules
  *
  * Case is not important and only the first letter of each type is enough to
  * identify the type n[ative], e[lfdll], s[o], b[uiltin]. Also whitespace is
  * ignored.
  * E.g.:
  * 	n,el	,s , b
  * is equal to:
  *	native,elfdll,so,builtin
  *
  * Section:
  *	[DllOverrides]
  *
  * Keys:
  * There are no explicit keys defined other than module/library names. A comma
  * separated list of modules is followed by an assignment of the load-order
  * for these specific modules. See above for possible types. You should not
  * specify an extension.
  * Examples:
  * kernel32, gdi32, user32 = builtin
  * kernel, gdi, user = builtin
  * comdlg32 = elfdll, native, builtin
  * commdlg = native, builtin
  * version, ver = elfdll, native, builtin
  *
  */

 #define BUFFERSIZE	1024

 BOOL MODULE_InitLoadOrder(void)
 {
 	char buffer[BUFFERSIZE];
 	char key[256];
 	int nbuffer;
         int idx;
         const struct tagDllPair *dllpair;

 #if defined(HAVE_DL_API)
 	/* Get/set the new LD_LIBRARY_PATH */
 	nbuffer = PROFILE_GetWineIniString("DllDefaults", "EXTRA_LD_LIBRARY_PATH", "", buffer, sizeof(buffer));

 	if(nbuffer)
 	{
 		extra_ld_library_path = HEAP_strdupA(GetProcessHeap(), 0, buffer);
 		TRACE("Setting extra LD_LIBRARY_PATH=%s\n", buffer);
 	}
 #endif

 	/* Get the default load order */
 	nbuffer = PROFILE_GetWineIniString("DllDefaults", "DefaultLoadOrder", "n,b,e,s", buffer, sizeof(buffer));
 	if(!nbuffer)
 	{
 		MESSAGE("MODULE_InitLoadOrder: mysteriously read nothing from default loadorder\n");
 		return FALSE;
 	}

 	TRACE("Setting default loadorder=%s\n", buffer);

 	if(!ParseLoadOrder(buffer, &default_loadorder))
 		return FALSE;
 	default_loadorder.modulename = "<none>";

 	{
 	    int i;
 	    for (i=0;DefaultDllOverrides[i].key;i++)
 		AddLoadOrderSet(
 		    DefaultDllOverrides[i].key,
 		    DefaultDllOverrides[i].value,
 		    FALSE
 		);
 	}

 	/* Read the explicitely defined orders for specific modules as an entire section */
         idx = 0;
         while (PROFILE_EnumWineIniString( "DllOverrides", idx++, key, sizeof(key),
                                           buffer, sizeof(buffer)))
         {
             TRACE("Key '%s' uses override '%s'\n", key, buffer);
             if(!AddLoadOrderSet(key, buffer, TRUE))
                 return FALSE;
         }

 	/* Add the commandline overrides to the pool */
 	if(!ParseCommandlineOverrides())
 	{
 		MESSAGE(	"Syntax: -dll name[,name[,...]]={native|elfdll|so|builtin}[,{n|e|s|b}[,...]][+...]\n"
 			"    - 'name' is the name of any dll without extension\n"
 			"    - the order of loading (native, elfdll, so and builtin) can be abbreviated\n"
 			"      with the first letter\n"
 			"    - different loadorders for different dlls can be specified by seperating the\n"
 			"      commandline entries with a '+'\n"
 			"    Example:\n"
 			"    -dll comdlg32,commdlg=n+shell,shell32=b\n"
 		   );
 		return FALSE;
 	}

 	/* Sort the array for quick lookup */
 	qsort(module_loadorder, nmodule_loadorder, sizeof(module_loadorder[0]), cmp_sort_func);

 	/* Check the pairs of dlls */
         dllpair = DllPairs;
         while (dllpair->dll1)
         {
             module_loadorder_t *plo1, *plo2;
             plo1 = MODULE_GetLoadOrder(dllpair->dll1, FALSE);
             plo2 = MODULE_GetLoadOrder(dllpair->dll2, FALSE);
             assert(plo1 && plo2);
             if(memcmp(plo1->loadorder, plo2->loadorder, sizeof(plo1->loadorder)))
                 MESSAGE("Warning: Modules '%s' and '%s' have different loadorder which may cause trouble\n", dllpair->dll1, dllpair->dll2);
             dllpair++;
         }

 	if(TRACE_ON(module))
 	{
 		int i, j;
 		static char types[6] = "-NESB";

 		for(i = 0; i < nmodule_loadorder; i++)
 		{
 			DPRINTF("%3d: %-12s:", i, module_loadorder[i].modulename);
 			for(j = 0; j < MODULE_LOADORDER_NTYPES; j++)
 				DPRINTF(" %c", types[module_loadorder[i].loadorder[j] % (MODULE_LOADORDER_NTYPES+1)]);
 			DPRINTF("\n");
 		}
 	}

 	return TRUE;
 }


 /***************************************************************************
  *	MODULE_GetLoadOrder	(internal)
  *
  * Locate the loadorder of a module.
  * Any path is stripped from the path-argument and so are the extension
  * '.dll' and '.exe'. A lookup in the table can yield an override for
  * the specific dll. Otherwise the default load order is returned.
  */
 module_loadorder_t *MODULE_GetLoadOrder(const char *path, BOOL win32 )
 {
 	module_loadorder_t lo, *tmp;
 	char fname[256];
 	char sysdir[MAX_PATH+1];
 	char *cptr;
 	char *name;
 	int len;

 	TRACE("looking for %s\n", path);

 	assert(path != NULL);

 	if ( ! GetSystemDirectoryA ( sysdir, MAX_PATH ) )
 	  return &default_loadorder; /* Hmmm ... */

 	/* Strip path information for 16 bit modules or if the module
 	   resides in the system directory */
 	if ( !win32 || !strncasecmp ( sysdir, path, strlen (sysdir) ) )
 	{

 	    cptr = strrchr(path, '\\');
 	    if(!cptr)
 	        name = strrchr(path, '/');
 	    else
 	        name = strrchr(cptr, '/');

 	    if(!name)
 	        name = cptr ? cptr+1 : (char *)path;
 	    else
 	        name++;

 	    if((cptr = strchr(name, ':')) != NULL)	/* Also strip drive if in format 'C:MODULE.DLL' */
 	        name = cptr+1;
 	}
 	else
 	  name = (char *)path;

 	len = strlen(name);
 	if(len >= sizeof(fname) || len <= 0)
 	{
 	     ERR("Path '%s' -> '%s' reduces to zilch or just too large...\n", path, name);
 	     return &default_loadorder;
 	}

 	strcpy(fname, name);
 	if(len >= 4 && (!strcasecmp(fname+len-4, ".dll") || !strcasecmp(fname+len-4, ".exe")))
 		fname[len-4] = '\0';

 	lo.modulename = fname;
 	tmp = bsearch(&lo, module_loadorder, nmodule_loadorder, sizeof(module_loadorder[0]), cmp_sort_func);

 	TRACE("Looking for '%s' (%s), found '%s'\n", path, fname, tmp ? tmp->modulename : "<nothing>");

 	if(!tmp)
 		return &default_loadorder;
 	return tmp;
 }
	/*
	* Module/Library loadorder
	*
	* Copyright 1999 Bertho Stultiens
	*/

	#include <stdlib.h>
	#include <string.h>
	#include <assert.h>

	#include "config.h"
	#include "windef.h"
	#include "options.h"
	#include "loadorder.h"
	#include "heap.h"
	#include "module.h"
	#include "elfdll.h"
	#include "debugtools.h"

	DEFAULT_DEBUG_CHANNEL(module)


	/* #define DEBUG_LOADORDER */

	#define LOADORDER_ALLOC_CLUSTER 32 /* Allocate with 32 entries at a time */

	static module_loadorder_t default_loadorder;
	static module_loadorder_t *module_loadorder = NULL;
	static int nmodule_loadorder = 0;
	static int nmodule_loadorder_alloc = 0;

	static struct tagDllOverride {
	char key,value;
	} DefaultDllOverrides[] = {
	{"kernel32,gdi32,user32", "builtin"},
	{"krnl386,gdi,user", "builtin"},
	{"toolhelp", "builtin"},
	{"comdlg32,commdlg", "elfdll,builtin,native"},
	{"version,ver", "elfdll,builtin,native"},
	{"shell32,shell", "builtin,native"},
	{"shlwapi", "native,builtin"},
	{"lz32,lzexpand", "builtin,native"},
	{"commctrl,comctl32", "builtin,native"},
	{"wsock32,winsock", "builtin"},
	{"ws2_32", "builtin"},
	{"advapi32,crtdll,ntdll", "builtin,native"},
	{"mpr,winspool.drv", "builtin,native"},
	{"ddraw,dinput,dsound", "builtin,native"},
	{"winmm, mmsystem", "builtin"},
	{"msvideo, msvfw32", "builtin, native"},
	{"mcicda.drv, mciseq.drv", "builtin, native"},
	{"mciwave.drv", "builtin, native"},
	{"mciavi.drv, mcianim.drv", "native, builtin"},
	{"msacm.drv, midimap.drv", "builtin, native"},
	{"w32skrnl", "builtin"},
	{"wnaspi32,wow32", "builtin"},
	{"system,display,wprocs ", "builtin"},
	{"wineps", "builtin"},
	{"icmp", "builtin"},
	/* we have to use libglide2x.so instead of glide2x.dll ... */
	{"glide2x", "so,native"},
	{"glide3x", "so,native"},
	{"odbc32", "builtin"},
	{"opengl32", "builtin,native"},
	{"shfolder", "builtin,native"},
	{"rpcrt4", "native,builtin"},
	{NULL,NULL},
	};

	static const struct tagDllPair {
	const char dll1, dll2;
	} DllPairs[] = {
	{ "krnl386", "kernel32" },
	{ "gdi", "gdi32" },
	{ "user", "user32" },
	{ "commdlg", "comdlg32" },
	{ "commctrl", "comctl32" },
	{ "ver", "version" },
	{ "shell", "shell32" },
	{ "lzexpand", "lz32" },
	{ "mmsystem", "winmm" },
	{ "msvideo", "msvfw32" },
	{ "winsock", "wsock32" },
	{ NULL, NULL }
	};

	/***************************************************************************
	* cmp_sort_func (internal, static)
	*
	* Sorting and comparing function used in sort and search of loadorder
	* entries.
	*/
	static int cmp_sort_func(const void s1, const void s2)
	{
	return strcasecmp(((module_loadorder_t )s1)->modulename, ((module_loadorder_t )s2)->modulename);
	}


	/***************************************************************************
	* get_tok (internal, static)
	*
	* strtok wrapper for non-destructive buffer writing.
	* NOTE: strtok is not reentrant and therefore this code is neither.
	*/
	static char get_tok(const char str, const char *delim)
	{
	static char *buf = NULL;
	char *cptr;

	if(!str && !buf)
	return NULL;

	if(str && buf)
	{
	HeapFree(GetProcessHeap(), 0, buf);
	buf = NULL;
	}

	if(str && !buf)
	{
	buf = HEAP_strdupA(GetProcessHeap(), 0, str);
	cptr = strtok(buf, delim);
	}
	else
	{
	cptr = strtok(NULL, delim);
	}

	if(!cptr)
	{
	HeapFree(GetProcessHeap(), 0, buf);
	buf = NULL;
	}
	return cptr;
	}


	/***************************************************************************
	* ParseLoadOrder (internal, static)
	*
	* Parses the loadorder options from the configuration and puts it into
	* a structure.
	*/
	static BOOL ParseLoadOrder(char order, module_loadorder_t mlo)
	{
	char *cptr;
	int n = 0;

	memset(mlo->loadorder, 0, sizeof(mlo->loadorder));

	cptr = get_tok(order, ", \t");
	while(cptr)
	{
	char type = MODULE_LOADORDER_INVALID;

	if(n >= MODULE_LOADORDER_NTYPES)
	{
	ERR("More than existing %d module-types specified, rest ignored", MODULE_LOADORDER_NTYPES);
	break;
	}

	switch(*cptr)
	{
	case 'N': /* Native */
	case 'n': type = MODULE_LOADORDER_DLL; break;

	case 'E': /* Elfdll */
	case 'e': type = MODULE_LOADORDER_ELFDLL; break;

	case 'S': /* So */
	case 's': type = MODULE_LOADORDER_SO; break;

	case 'B': /* Builtin */
	case 'b': type = MODULE_LOADORDER_BI; break;

	default:
	ERR("Invalid load order module-type '%s', ignored\n", cptr);
	}

	if(type != MODULE_LOADORDER_INVALID)
	{
	mlo->loadorder[n++] = type;
	}
	cptr = get_tok(NULL, ", \t");
	}
	return TRUE;
	}


	/***************************************************************************
	* AddLoadOrder (internal, static)
	*
	* Adds an entry in the list of overrides. If the entry exists, then the
	* override parameter determines whether it will be overwritten.
	*/
	static BOOL AddLoadOrder(module_loadorder_t *plo, BOOL override)
	{
	int i;

	/* TRACE(module, "'%s' -> %08lx\n", plo->modulename, (DWORD )(plo->loadorder)); */

	for(i = 0; i < nmodule_loadorder; i++)
	{
	if(!cmp_sort_func(plo, &module_loadorder[i]))
	{
	if(!override)
	ERR("Module '%s' is already in the list of overrides, using first definition\n", plo->modulename);
	else
	memcpy(module_loadorder[i].loadorder, plo->loadorder, sizeof(plo->loadorder));
	return TRUE;
	}
	}

	if(nmodule_loadorder >= nmodule_loadorder_alloc)
	{
	/* No space in current array, make it larger */
	nmodule_loadorder_alloc += LOADORDER_ALLOC_CLUSTER;
	module_loadorder = (module_loadorder_t *)HeapReAlloc(GetProcessHeap(),
	0,
	module_loadorder,
	nmodule_loadorder_alloc * sizeof(module_loadorder_t));
	if(!module_loadorder)
	{
	MESSAGE("Virtual memory exhausted\n");
	exit(1);
	}
	}
	memcpy(module_loadorder[nmodule_loadorder].loadorder, plo->loadorder, sizeof(plo->loadorder));
	module_loadorder[nmodule_loadorder].modulename = HEAP_strdupA(GetProcessHeap(), 0, plo->modulename);
	nmodule_loadorder++;
	return TRUE;
	}


	/***************************************************************************
	* AddLoadOrderSet (internal, static)
	*
	* Adds a set of entries in the list of overrides from the key parameter.
	* If the entry exists, then the override parameter determines whether it
	* will be overwritten.
	*/
	static BOOL AddLoadOrderSet(char key, char order, BOOL override)
	{
	module_loadorder_t ldo;
	char *cptr;

	/* Parse the loadorder before the rest because strtok is not reentrant */
	if(!ParseLoadOrder(order, &ldo))
	return FALSE;

	cptr = get_tok(key, ", \t");
	while(cptr)
	{
	char *ext = strrchr(cptr, '.');
	if(ext)
	{
	if(strlen(ext) == 4 && (!strcasecmp(ext, ".dll") \|\| !strcasecmp(ext, ".exe")))
	MESSAGE("Warning: Loadorder override '%s' contains an extension and might not be found during lookup\n", cptr);
	}

	ldo.modulename = cptr;
	if(!AddLoadOrder(&ldo, override))
	return FALSE;
	cptr = get_tok(NULL, ", \t");
	}
	return TRUE;
	}


	/***************************************************************************
	* ParseCommandlineOverrides (internal, static)
	*
	* The commandline is in the form:
	* name[,name,...]=native[,b,...][+...]
	*/
	static BOOL ParseCommandlineOverrides(void)
	{
	char *cpy;
	char *key;
	char *next;
	char *value;
	BOOL retval = TRUE;

	if(!Options.dllFlags)
	return TRUE;

	cpy = HEAP_strdupA(GetProcessHeap(), 0, Options.dllFlags);
	key = cpy;
	next = key;
	for(; next; key = next)
	{
	next = strchr(key, '+');
	if(next)
	{
	*next = '\0';
	next++;
	}
	value = strchr(key, '=');
	if(!value)
	{
	retval = FALSE;
	goto endit;
	}
	*value = '\0';
	value++;

	TRACE("Commandline override '%s' = '%s'\n", key, value);

	if(!AddLoadOrderSet(key, value, TRUE))
	{
	retval = FALSE;
	goto endit;
	}
	}
	endit:
	HeapFree(GetProcessHeap(), 0, cpy);
	return retval;;
	}


	/***************************************************************************
	* MODULE_InitLoadOrder (internal)
	*
	* Initialize the load order from the wine.conf file.
	* The section has the following format:
	* Section:
	* [DllDefaults]
	*
	* Keys:
	* EXTRA_LD_LIBRARY_PATH=/usr/local/lib/wine[:/more/path/to/search[:...]]
	* The path will be appended to any existing LD_LIBRARY_PATH from the
	* environment (see note in code below).
	*
	* DefaultLoadOrder=native,elfdll,so,builtin
	* A comma separated list of module types to try to load in that specific
	* order. The DefaultLoadOrder key is used as a fallback when a module is
	* not specified explicitly. If the DefaultLoadOrder key is not found,
	* then the order "dll,elfdll,so,bi" is used
	* The possible module types are:
	* - native Native windows dll files
	* - elfdll Dlls encapsulated in .so libraries
	* - so Native .so libraries mapped to dlls
	* - builtin Built-in modules
	*
	* Case is not important and only the first letter of each type is enough to
	* identify the type n[ative], e[lfdll], s[o], b[uiltin]. Also whitespace is
	* ignored.
	* E.g.:
	* n,el ,s , b
	* is equal to:
	* native,elfdll,so,builtin
	*
	* Section:
	* [DllOverrides]
	*
	* Keys:
	* There are no explicit keys defined other than module/library names. A comma
	* separated list of modules is followed by an assignment of the load-order
	* for these specific modules. See above for possible types. You should not
	* specify an extension.
	* Examples:
	* kernel32, gdi32, user32 = builtin
	* kernel, gdi, user = builtin
	* comdlg32 = elfdll, native, builtin
	* commdlg = native, builtin
	* version, ver = elfdll, native, builtin
	*
	*/

	#define BUFFERSIZE 1024

	BOOL MODULE_InitLoadOrder(void)
	{
	char buffer[BUFFERSIZE];
	char key[256];
	int nbuffer;
	int idx;
	const struct tagDllPair *dllpair;

	#if defined(HAVE_DL_API)
	/* Get/set the new LD_LIBRARY_PATH */
	nbuffer = PROFILE_GetWineIniString("DllDefaults", "EXTRA_LD_LIBRARY_PATH", "", buffer, sizeof(buffer));

	if(nbuffer)
	{
	extra_ld_library_path = HEAP_strdupA(GetProcessHeap(), 0, buffer);
	TRACE("Setting extra LD_LIBRARY_PATH=%s\n", buffer);
	}
	#endif

	/* Get the default load order */
	nbuffer = PROFILE_GetWineIniString("DllDefaults", "DefaultLoadOrder", "n,b,e,s", buffer, sizeof(buffer));
	if(!nbuffer)
	{
	MESSAGE("MODULE_InitLoadOrder: mysteriously read nothing from default loadorder\n");
	return FALSE;
	}

	TRACE("Setting default loadorder=%s\n", buffer);

	if(!ParseLoadOrder(buffer, &default_loadorder))
	return FALSE;
	default_loadorder.modulename = "<none>";

	{
	int i;
	for (i=0;DefaultDllOverrides[i].key;i++)
	AddLoadOrderSet(
	DefaultDllOverrides[i].key,
	DefaultDllOverrides[i].value,
	FALSE
	);
	}

	/* Read the explicitely defined orders for specific modules as an entire section */
	idx = 0;
	while (PROFILE_EnumWineIniString( "DllOverrides", idx++, key, sizeof(key),
	buffer, sizeof(buffer)))
	{
	TRACE("Key '%s' uses override '%s'\n", key, buffer);
	if(!AddLoadOrderSet(key, buffer, TRUE))
	return FALSE;
	}

	/* Add the commandline overrides to the pool */
	if(!ParseCommandlineOverrides())
	{
	MESSAGE( "Syntax: -dll name[,name[,...]]={native\|elfdll\|so\|builtin}[,{n\|e\|s\|b}[,...]][+...]\n"
	" - 'name' is the name of any dll without extension\n"
	" - the order of loading (native, elfdll, so and builtin) can be abbreviated\n"
	" with the first letter\n"
	" - different loadorders for different dlls can be specified by seperating the\n"
	" commandline entries with a '+'\n"
	" Example:\n"
	" -dll comdlg32,commdlg=n+shell,shell32=b\n"
	);
	return FALSE;
	}

	/* Sort the array for quick lookup */
	qsort(module_loadorder, nmodule_loadorder, sizeof(module_loadorder[0]), cmp_sort_func);

	/* Check the pairs of dlls */
	dllpair = DllPairs;
	while (dllpair->dll1)
	{
	module_loadorder_t plo1, plo2;
	plo1 = MODULE_GetLoadOrder(dllpair->dll1, FALSE);
	plo2 = MODULE_GetLoadOrder(dllpair->dll2, FALSE);
	assert(plo1 && plo2);
	if(memcmp(plo1->loadorder, plo2->loadorder, sizeof(plo1->loadorder)))
	MESSAGE("Warning: Modules '%s' and '%s' have different loadorder which may cause trouble\n", dllpair->dll1, dllpair->dll2);
	dllpair++;
	}

	if(TRACE_ON(module))
	{
	int i, j;
	static char types[6] = "-NESB";

	for(i = 0; i < nmodule_loadorder; i++)
	{
	DPRINTF("%3d: %-12s:", i, module_loadorder[i].modulename);
	for(j = 0; j < MODULE_LOADORDER_NTYPES; j++)
	DPRINTF(" %c", types[module_loadorder[i].loadorder[j] % (MODULE_LOADORDER_NTYPES+1)]);
	DPRINTF("\n");
	}
	}

	return TRUE;
	}


	/***************************************************************************
	* MODULE_GetLoadOrder (internal)
	*
	* Locate the loadorder of a module.
	* Any path is stripped from the path-argument and so are the extension
	* '.dll' and '.exe'. A lookup in the table can yield an override for
	* the specific dll. Otherwise the default load order is returned.
	*/
	module_loadorder_t MODULE_GetLoadOrder(const char path, BOOL win32 )
	{
	module_loadorder_t lo, *tmp;
	char fname[256];
	char sysdir[MAX_PATH+1];
	char *cptr;
	char *name;
	int len;

	TRACE("looking for %s\n", path);

	assert(path != NULL);

	if ( ! GetSystemDirectoryA ( sysdir, MAX_PATH ) )
	return &default_loadorder; /* Hmmm ... */

	/* Strip path information for 16 bit modules or if the module
	resides in the system directory */
	if ( !win32 \|\| !strncasecmp ( sysdir, path, strlen (sysdir) ) )
	{

	cptr = strrchr(path, '\\');
	if(!cptr)
	name = strrchr(path, '/');
	else
	name = strrchr(cptr, '/');

	if(!name)
	name = cptr ? cptr+1 : (char *)path;
	else
	name++;

	if((cptr = strchr(name, ':')) != NULL) /* Also strip drive if in format 'C:MODULE.DLL' */
	name = cptr+1;
	}
	else
	name = (char *)path;

	len = strlen(name);
	if(len >= sizeof(fname) \|\| len <= 0)
	{
	ERR("Path '%s' -> '%s' reduces to zilch or just too large...\n", path, name);
	return &default_loadorder;
	}

	strcpy(fname, name);
	if(len >= 4 && (!strcasecmp(fname+len-4, ".dll") \|\| !strcasecmp(fname+len-4, ".exe")))
	fname[len-4] = '\0';

	lo.modulename = fname;
	tmp = bsearch(&lo, module_loadorder, nmodule_loadorder, sizeof(module_loadorder[0]), cmp_sort_func);

	TRACE("Looking for '%s' (%s), found '%s'\n", path, fname, tmp ? tmp->modulename : "<nothing>");

	if(!tmp)
	return &default_loadorder;
	return tmp;
	}