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kLdrDyldMod.c@ 81

Last change on this file since 81 was 81, checked in by bird, 9 years ago
kLdr: some refactoring and fixes.
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[2]	1	/* $Id: kLdrDyldMod.c 81 2016-08-18 22:10:38Z bird $ */
	2	/** @file
	3	* kLdr - The Dynamic Loader, Dyld module methods.
	4	*/
	5
	6	/*
[29]	7	* Copyright (c) 2006-2007 Knut St. Osmundsen <bird-kStuff-spamix@anduin.net>
[2]	8	*
[29]	9	* Permission is hereby granted, free of charge, to any person
	10	* obtaining a copy of this software and associated documentation
	11	* files (the "Software"), to deal in the Software without
	12	* restriction, including without limitation the rights to use,
	13	* copy, modify, merge, publish, distribute, sublicense, and/or sell
	14	* copies of the Software, and to permit persons to whom the
	15	* Software is furnished to do so, subject to the following
	16	* conditions:
[2]	17	*
[29]	18	* The above copyright notice and this permission notice shall be
	19	* included in all copies or substantial portions of the Software.
[2]	20	*
[29]	21	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
	22	* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
	23	* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
	24	* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
	25	* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
	26	* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
	27	* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
	28	* OTHER DEALINGS IN THE SOFTWARE.
[2]	29	*/
	30
	31	/*******************************************************************************
	32	* Header Files *
	33	*******************************************************************************/
	34	#include <k/kLdr.h>
	35	#include "kLdrInternal.h"
	36
	37
	38	/*******************************************************************************
	39	* Defined Constants And Macros *
	40	*******************************************************************************/
	41	/** @def KLDRDYLDMOD_STRICT
	42	* Define KLDRDYLDMOD_STRICT to enabled strict checks in kLdrDyld. */
	43	#define KLDRDYLDMOD_STRICT 1
	44
	45	/** @def KLDRDYLDMOD_ASSERT
	46	* Assert that an expression is true when KLDRDYLD_STRICT is defined.
	47	*/
	48	#ifdef KLDRDYLDMOD_STRICT
	49	# define KLDRDYLDMOD_ASSERT(expr) kHlpAssert(expr)
	50	#else
	51	# define KLDRDYLDMOD_ASSERT(expr) do {} while (0)
	52	#endif
	53
	54	/*******************************************************************************
	55	* Internal Functions *
	56	*******************************************************************************/
	57	static void kldrDyldModUnlink(PKLDRDYLDMOD pMod);
	58
	59
	60
	61	/**
	62	* Creates a module from the specified file provider instance.
	63	*
	64	* @returns 0 on success and *ppMod pointing to the new instance.
	65	* On failure a non-zero kLdr status code is returned.
	66	* @param pRdr The file provider instance.
	67	* @param fFlags Load/search flags.
	68	* @param ppMod Where to put the pointer to the new module on success.
	69	*/
	70	int kldrDyldModCreate(PKRDR pRdr, KU32 fFlags, PPKLDRDYLDMOD ppMod)
	71	{
	72	PKLDRDYLDMOD pMod;
	73	PKLDRMOD pRawMod;
	74	int rc;
	75
	76	*ppMod = NULL;
	77
	78	/** @todo deal with fFlags (exec/dll) */
[33]	79	/** @todo Check up the cpu architecture. */
[2]	80
	81	/*
	82	* Try open an module interpreter.
	83	*/
[33]	84	rc = kLdrModOpenFromRdr(pRdr, 0 /fFlags/, KCPUARCH_UNKNOWN, &pRawMod);
[2]	85	if (rc)
	86	return kldrDyldFailure(rc, "%s: %rc", kRdrName(pRdr), rc);
	87
	88	/*
	89	* Match the module aginst the load flags.
	90	*/
	91	switch (pRawMod->enmType)
	92	{
	93	case KLDRTYPE_EXECUTABLE_FIXED:
	94	case KLDRTYPE_EXECUTABLE_RELOCATABLE:
	95	case KLDRTYPE_EXECUTABLE_PIC:
	96	if (!(fFlags & KLDRDYLD_LOAD_FLAGS_EXECUTABLE))
	97	{
	98	kLdrModClose(pRawMod);
	99	return KLDR_ERR_NOT_EXE;
	100	}
	101	break;
	102
	103	case KLDRTYPE_OBJECT: /* We can handle these as DLLs. */
	104	case KLDRTYPE_SHARED_LIBRARY_FIXED:
	105	case KLDRTYPE_SHARED_LIBRARY_RELOCATABLE:
	106	case KLDRTYPE_SHARED_LIBRARY_PIC:
	107	case KLDRTYPE_FORWARDER_DLL:
	108	if (fFlags & KLDRDYLD_LOAD_FLAGS_EXECUTABLE)
	109	{
	110	kLdrModClose(pRawMod);
	111	return KLDR_ERR_NOT_DLL;
	112	}
	113	break;
	114
	115	default:
	116	KLDRDYLDMOD_ASSERT(!"Bad enmType!");
	117	case KLDRTYPE_CORE:
	118	return fFlags & KLDRDYLD_LOAD_FLAGS_EXECUTABLE ? KLDR_ERR_NOT_EXE : KLDR_ERR_NOT_DLL;
	119	}
	120
	121	/*
	122	* Allocate a new dyld module.
	123	*/
	124	pMod = (PKLDRDYLDMOD)kHlpAlloc(sizeof(*pMod));
	125	if (pMod)
	126	{
	127	pMod->enmState = KLDRSTATE_OPEN;
	128	pMod->pMod = pRawMod;
	129	pMod->hMod = pMod;
	130	pMod->cDepRefs = pMod->cDynRefs = pMod->cRefs = 0;
	131	switch (pRawMod->enmType)
	132	{
	133	case KLDRTYPE_EXECUTABLE_FIXED:
	134	case KLDRTYPE_EXECUTABLE_RELOCATABLE:
	135	case KLDRTYPE_EXECUTABLE_PIC:
	136	pMod->fExecutable = 1;
	137	break;
	138	default:
	139	pMod->fExecutable = 0;
	140	break;
	141	}
	142	pMod->fGlobalOrSpecific = 0;
	143	pMod->fBindable = 0;
	144	pMod->fInitList = 0;
	145	pMod->fAlreadySeen = 0;
	146	pMod->fMapped = 0;
	147	pMod->fAllocatedTLS = 0;
	148	pMod->f25Reserved = 0;
	149	pMod->InitTerm.pNext = NULL;
	150	pMod->InitTerm.pPrev = NULL;
	151	pMod->Bind.pNext = NULL;
	152	pMod->Bind.pPrev = NULL;
	153	pMod->cPrereqs = 0;
	154	pMod->papPrereqs = NULL;
	155	pMod->u32MagicHead = KLDRDYMOD_MAGIC;
	156	pMod->u32MagicTail = KLDRDYMOD_MAGIC;
	157
	158	/* it. */
	159	pMod->Load.pNext = NULL;
	160	pMod->Load.pPrev = kLdrDyldTail;
	161	if (kLdrDyldTail)
	162	kLdrDyldTail->Load.pNext = pMod;
	163	else
	164	kLdrDyldHead = pMod;
	165	kLdrDyldTail = pMod;
	166
	167	/* deal with the remaining flags. */
	168	if (fFlags & KLDRYDLD_LOAD_FLAGS_SPECIFIC_MODULE)
	169	kldrDyldModMarkSpecific(pMod);
	170	else
	171	kldrDyldModMarkGlobal(pMod);
	172
	173	if (fFlags & KLDRYDLD_LOAD_FLAGS_GLOBAL_SYMBOLS)
	174	kldrDyldModSetBindable(pMod, 0 /* not deep binable */);
	175	else
	176	kldrDyldModClearBindable(pMod);
	177
	178	/*
	179	* We're good.
	180	*/
	181	*ppMod = pMod;
	182	rc = 0;
	183	}
	184	else
	185	{
	186	kLdrModClose(pRawMod);
	187	rc = KERR_NO_MEMORY;
	188	}
	189	return rc;
	190	}
	191
	192
	193	/**
	194	* Creates a module for a native module.
	195	*
	196	* @returns 0 on success and *ppMod pointing to the new instance.
	197	* On failure a non-zero kLdr status code is returned.
	198	* @param hNativeModule The native handle.
	199	* @param ppMod Where to put the pointer to the new module on success.
	200	* @remark This function ain't finalized yet.
	201	*/
	202	int kldrDyldModCreateNative(KUPTR hNativeModule)
	203	{
	204	#if 0
	205	/*
	206	* Check if this module is already loaded by the native OS loader.
	207	*/
	208	rc = kld
	209	{
	210	#if K_OS == K_OS_OS2
	211	HMODULE hmod = NULLHANDLE;
	212	APIRET rc = DosQueryModuleHandle(kRdrName(pRdr), &hmod);
	213	if (!rc)
	214
	215	#elif K_OS == K_OS_WINDOWS
	216	HMODULE hmod = NULL;
	217	if (GetModuleHandle(kRdrName(pRdr))
	218
	219	#else
	220	# error "Port me"
	221	#endif
	222	}
	223	#endif
	224	return -1;
	225	}
	226
	227
	228	/**
	229	* Destroys a module pending destruction.
	230	*
	231	* @param pMod The module in question.
	232	*/
	233	void kldrDyldModDestroy(PKLDRDYLDMOD pMod)
	234	{
	235	int rc;
	236
	237	/*
	238	* Validate the state.
	239	*/
	240	switch (pMod->enmState)
	241	{
	242	case KLDRSTATE_PENDING_DESTROY:
	243	case KLDRSTATE_GC:
	244	break;
	245	default:
	246	KLDRDYLDMOD_ASSERT(!"Invalid state");
	247	break;
	248	}
	249	KLDRDYLDMOD_ASSERT(!pMod->fInitList);
	250	KLDRDYLDMOD_ASSERT(!pMod->cDynRefs);
	251	KLDRDYLDMOD_ASSERT(!pMod->cDepRefs);
	252
	253	/*
	254	* Ensure that the module is unmapped.
	255	*/
	256	if (pMod->fAllocatedTLS)
	257	{
[81]	258	kLdrModFreeTLS(pMod->pMod, KLDRMOD_INT_MAP);
[2]	259	pMod->fAllocatedTLS = 0;
	260	}
	261	if (pMod->fMapped)
	262	{
	263	rc = kLdrModUnmap(pMod->pMod); KLDRDYLDMOD_ASSERT(!rc);
	264	pMod->fMapped = 0;
	265	}
	266
	267	/*
	268	* Ensure it's unlinked from all chains.
	269	*/
	270	if (pMod->enmState < KLDRSTATE_PENDING_DESTROY)
	271	kldrDyldModUnlink(pMod);
	272
	273	/*
	274	* Free everything associated with the module.
	275	*/
	276	/* the prerequisite array. */
	277	if (pMod->papPrereqs)
	278	{
	279	KU32 i = pMod->cPrereqs;
	280	while (i-- > 0)
	281	{
	282	KLDRDYLDMOD_ASSERT(pMod->papPrereqs[i] == NULL);
	283	pMod->papPrereqs[i] = NULL;
	284	}
	285
	286	kHlpFree(pMod->papPrereqs);
	287	pMod->papPrereqs = NULL;
	288	pMod->cPrereqs = 0;
	289	}
	290
	291	/* the module interpreter. */
	292	if (pMod->pMod)
	293	{
	294	rc = kLdrModClose(pMod->pMod); KLDRDYLDMOD_ASSERT(!rc);
	295	pMod->pMod = NULL;
	296	}
	297
	298
	299	/*
	300	* Finally, change the module state and free the module if
	301	* there are not more references to it. If somebody is still
	302	* referencing it, postpone the freeing to Deref.
	303	*/
	304	pMod->enmState = KLDRSTATE_DESTROYED;
	305	if (!pMod->cRefs)
	306	{
	307	pMod->u32MagicHead = 1;
	308	pMod->u32MagicTail = 2;
	309	kHlpFree(pMod);
	310	}
	311	}
	312
	313
	314	/**
	315	* Unlinks the module from any list it might be in.
	316	* It is assumed that the module is at least linked into the load list.
	317	*
	318	* @param pMod The moduel.
	319	*/
	320	static void kldrDyldModUnlink(PKLDRDYLDMOD pMod)
	321	{
	322	/* load list */
	323	if (pMod->Load.pNext)
	324	pMod->Load.pNext->Load.pPrev = pMod->Load.pPrev;
	325	else
	326	kLdrDyldTail = pMod->Load.pPrev;
	327	if (pMod->Load.pPrev)
	328	pMod->Load.pPrev->Load.pNext = pMod->Load.pNext;
	329	else
	330	kLdrDyldHead = pMod->Load.pNext;
	331
	332	/* bind list */
	333	if (pMod->fBindable)
	334	kldrDyldModClearBindable(pMod);
	335
	336	/* init term */
	337	if (pMod->fInitList)
	338	{
	339	KLDRDYLDMOD_ASSERT(pMod->enmState < KLDRSTATE_INITIALIZATION_FAILED);
	340	pMod->fInitList = 0;
	341	if (pMod->InitTerm.pNext)
	342	pMod->InitTerm.pNext->InitTerm.pPrev = pMod->InitTerm.pPrev;
	343	else
	344	g_pkLdrDyldInitTail = pMod->InitTerm.pPrev;
	345	if (pMod->InitTerm.pPrev)
	346	pMod->InitTerm.pPrev->InitTerm.pNext = pMod->InitTerm.pNext;
	347	else
	348	g_pkLdrDyldInitHead = pMod->InitTerm.pNext;
	349	}
	350	else if (pMod->enmState > KLDRSTATE_INITIALIZATION_FAILED)
	351	{
	352	KLDRDYLDMOD_ASSERT(pMod->enmState >= KLDRSTATE_GOOD);
	353	if (pMod->InitTerm.pNext)
	354	pMod->InitTerm.pNext->InitTerm.pPrev = pMod->InitTerm.pPrev;
	355	else
	356	g_pkLdrDyldTermTail = pMod->InitTerm.pPrev;
	357	if (pMod->InitTerm.pPrev)
	358	pMod->InitTerm.pPrev->InitTerm.pNext = pMod->InitTerm.pNext;
	359	else
	360	g_pkLdrDyldTermHead = pMod->InitTerm.pNext;
	361	}
	362	pMod->InitTerm.pNext = NULL;
	363	pMod->InitTerm.pPrev = NULL;
	364	}
	365
	366
	367	/**
	368	* Marks a module as bindable, i.e. it'll be considered when
	369	* resolving names the unix way.
	370	*
	371	* @param pMod The module.
	372	* @param fDeep When set the module will be inserted at the head of the
	373	* module list used to resolve symbols. This means that the
	374	* symbols in this module will be prefered of all the other
	375	* modules.
	376	*/
	377	void kldrDyldModSetBindable(PKLDRDYLDMOD pMod, unsigned fDeep)
	378	{
	379	KLDRDYLDMOD_ASSERT(pMod->enmState >= KLDRSTATE_OPEN && pMod->enmState < KLDRSTATE_PENDING_GC);
	380	if (!pMod->fBindable)
	381	{
	382	pMod->fBindable = 1;
	383	if (!fDeep)
	384	{
	385	pMod->Bind.pNext = NULL;
	386	pMod->Bind.pPrev = g_pkLdrDyldBindTail;
	387	if (g_pkLdrDyldBindTail)
	388	g_pkLdrDyldBindTail->Bind.pNext = pMod;
	389	else
	390	g_pkLdrDyldBindHead = pMod;
	391	g_pkLdrDyldBindTail = pMod;
	392	}
	393	else
	394	{
	395	pMod->Bind.pPrev = NULL;
	396	pMod->Bind.pNext = g_pkLdrDyldBindHead;
	397	if (g_pkLdrDyldBindHead)
	398	g_pkLdrDyldBindHead->Bind.pPrev = pMod;
	399	else
	400	g_pkLdrDyldBindTail = pMod;
	401	g_pkLdrDyldBindHead = pMod;
	402	}
	403	}
	404	}
	405
	406
	407	/**
	408	* Marks a module as not bindable, i.e. it will not be considered when
	409	* resolving names the unix way.
	410	*
	411	* @param pMod The module.
	412	*/
	413	void kldrDyldModClearBindable(PKLDRDYLDMOD pMod)
	414	{
	415	KLDRDYLDMOD_ASSERT(pMod->enmState >= KLDRSTATE_OPEN && pMod->enmState < KLDRSTATE_PENDING_DESTROY);
	416	if (pMod->fBindable)
	417	{
	418	pMod->fBindable = 0;
	419	if (pMod->Bind.pPrev)
	420	pMod->Bind.pPrev->Bind.pNext = pMod->Bind.pNext;
	421	else
	422	g_pkLdrDyldBindHead = pMod->Bind.pNext;
	423	if (pMod->Bind.pNext)
	424	pMod->Bind.pNext->Bind.pPrev = pMod->Bind.pPrev;
	425	else
	426	g_pkLdrDyldBindTail = pMod->Bind.pPrev;
	427	pMod->Bind.pNext = NULL;
	428	pMod->Bind.pPrev = NULL;
	429	}
	430	}
	431
	432
	433	/**
	434	* Marks the module as global instead of being specific.
	435	*
	436	* A global module can be a matching result when the request
	437	* doesn't specify a path. A specific module will not match
	438	* unless the path also matches.
	439	*
	440	* @param pMod The module.
	441	*/
	442	void kldrDyldModMarkGlobal(PKLDRDYLDMOD pMod)
	443	{
	444	pMod->fGlobalOrSpecific = 1;
	445	}
	446
	447
	448	/**
	449	* Marks the module as specific instead of global.
	450	*
	451	* See kldrDyldModMarkGlobal for an explanation of the two terms.
	452	*
	453	* @param pMod The module.
	454	*/
	455	void kldrDyldModMarkSpecific(PKLDRDYLDMOD pMod)
	456	{
	457	pMod->fGlobalOrSpecific = 0;
	458	}
	459
	460
	461	/**
	462	* Adds a reference to the module making sure it won't be freed just yet.
	463	*
	464	* @param pMod The module.
	465	*/
	466	void kldrDyldModAddRef(PKLDRDYLDMOD pMod)
	467	{
	468	pMod->cRefs++;
	469	}
	470
	471
	472	/**
	473	* Dereference a module.
	474	*
	475	* @param pMod
	476	*/
	477	void kldrDyldModDeref(PKLDRDYLDMOD pMod)
	478	{
	479	/* validate input */
	480	KLDRDYLDMOD_ASSERT(pMod->cRefs > 0);
	481	KLDRDYLDMOD_ASSERT(pMod->cRefs >= pMod->cDepRefs + pMod->cDynRefs);
	482	KLDRDYLDMOD_ASSERT(pMod->enmState > KLDRSTATE_INVALID && pMod->enmState <= KLDRSTATE_END);
	483
	484	/* decrement. */
	485	if (pMod->cRefs > 0)
	486	pMod->cRefs--;
	487
	488	/* execute delayed freeing. */
	489	if ( pMod->enmState == KLDRSTATE_DESTROYED
	490	&& !pMod->cRefs)
	491	{
	492	pMod->u32MagicHead = 1;
	493	pMod->u32MagicTail = 2;
	494	kHlpFree(pMod);
	495	}
	496	}
	497
	498
	499	/**
	500	* Increment the count of modules depending on this module.
	501	*
	502	* @param pMod The module.
	503	* @param pDep The module which depends on us.
	504	*/
	505	void kldrDyldModAddDep(PKLDRDYLDMOD pMod, PKLDRDYLDMOD pDep)
	506	{
	507	(void)pDep;
	508
	509	/* validate state */
	510	switch (pMod->enmState)
	511	{
	512	case KLDRSTATE_MAPPED:
	513	case KLDRSTATE_RELOADED:
	514	case KLDRSTATE_LOADED_PREREQUISITES:
	515	case KLDRSTATE_RELOADED_LOADED_PREREQUISITES:
	516	case KLDRSTATE_PENDING_INITIALIZATION:
	517	case KLDRSTATE_INITIALIZING:
	518	case KLDRSTATE_GOOD:
	519	break;
	520	default:
	521	KLDRDYLDMOD_ASSERT(!"invalid state");
	522	break;
	523
	524	}
	525	KLDRDYLDMOD_ASSERT(pMod->enmState > KLDRSTATE_INVALID && pMod->enmState <= KLDRSTATE_END);
	526	pMod->cRefs++;
	527	pMod->cDepRefs++;
	528	}
	529
	530
	531	/**
	532	* Drop a dependency.
	533	*
	534	* @param pMod The module.
	535	* @param pDep The module which depends on us.
	536	*/
	537	void kldrDyldModRemoveDep(PKLDRDYLDMOD pMod, PKLDRDYLDMOD pDep)
	538	{
	539	KLDRDYLDMOD_ASSERT(pMod->cDepRefs > 0);
	540	if (pMod->cDepRefs == 0)
	541	return;
	542	KLDRDYLDMOD_ASSERT(pMod->cDepRefs <= pMod->cRefs);
	543	KLDRDYLDMOD_ASSERT(pMod->enmState >= KLDRSTATE_MAPPED && pMod->enmState <= KLDRSTATE_PENDING_DESTROY);
	544
	545	pMod->cRefs--;
	546	pMod->cDepRefs--;
	547	if ( pMod->cDepRefs > 0
	548	\|\| pMod->cDynRefs > 0)
	549	return;
	550
	551	/*
	552	* The module should be unloaded.
	553	*/
	554	kldrDyldModUnloadPrerequisites(pMod);
	555	}
	556
	557
	558	/**
	559	* Increment the dynamic load count.
	560	*
	561	* @returns 0
	562	* @param pMod The module.
	563	*/
	564	int kldrDyldModDynamicLoad(PKLDRDYLDMOD pMod)
	565	{
	566	KLDRDYLDMOD_ASSERT( pMod->enmState == KLDRSTATE_GOOD
	567	\|\| pMod->enmState == KLDRSTATE_PENDING_INITIALIZATION
	568	\|\| pMod->enmState == KLDRSTATE_INITIALIZING);
	569	pMod->cRefs++;
	570	pMod->cDynRefs++;
	571	return 0;
	572	}
	573
	574
	575	/**
	576	* Decrement the dynamic load count of the module and unload the module
	577	* if the total reference count reaches zero.
	578	*
	579	* This may cause a cascade of unloading to occure. See kldrDyldModUnloadPrerequisites().
	580	*
	581	* @returns status code.
	582	* @retval 0 on success.
	583	* @retval KLDR_ERR_NOT_LOADED_DYNAMICALLY if the module wasn't loaded dynamically.
	584	* @param pMod The module to unload.
	585	*/
	586	int kldrDyldModDynamicUnload(PKLDRDYLDMOD pMod)
	587	{
	588	if (pMod->cDynRefs == 0)
	589	return KLDR_ERR_NOT_LOADED_DYNAMICALLY;
	590	KLDRDYLDMOD_ASSERT(pMod->cDynRefs <= pMod->cRefs);
	591	KLDRDYLDMOD_ASSERT(pMod->enmState == KLDRSTATE_GOOD);
	592
	593	pMod->cRefs--;
	594	pMod->cDynRefs--;
	595	if ( pMod->cDynRefs > 0
	596	\|\| pMod->cDepRefs > 0)
	597	return 0;
	598
	599	/*
	600	* The module should be unloaded.
	601	*/
	602	kldrDyldModUnloadPrerequisites(pMod);
	603	return 0;
	604	}
	605
	606
	607	/**
	608	* Worker for kldrDyldModUnloadPrerequisites.
	609	*
	610	* @returns The number of modules that now can be unloaded.
	611	* @param pMod The module in question.
	612	*/
	613	static KU32 kldrDyldModUnloadPrerequisitesOne(PKLDRDYLDMOD pMod)
	614	{
	615	PKLDRDYLDMOD pMod2;
	616	KU32 cToUnload = 0;
	617	KU32 i;
	618
	619	KLDRDYLDMOD_ASSERT(pMod->papPrereqs \|\| !pMod->cPrereqs);
	620
	621	/*
	622	* Release the one in this module.
	623	*/
	624	for (i = 0; i < pMod->cPrereqs; i++)
	625	{
	626	pMod2 = pMod->papPrereqs[i];
	627	if (pMod2)
	628	{
	629	pMod->papPrereqs[i] = NULL;
	630
	631	/* do the derefering ourselves or we'll end up in a recursive loop here. */
	632	KLDRDYLDMOD_ASSERT(pMod2->cDepRefs > 0);
	633	KLDRDYLDMOD_ASSERT(pMod2->cRefs >= pMod2->cDepRefs);
	634	pMod2->cDepRefs--;
	635	pMod2->cRefs--;
	636	cToUnload += !pMod2->cDepRefs && !pMod2->cDynRefs;
	637	}
	638	}
	639
	640	/*
	641	* Change the state
	642	*/
	643	switch (pMod->enmState)
	644	{
	645	case KLDRSTATE_LOADED_PREREQUISITES:
	646	case KLDRSTATE_FIXED_UP:
	647	pMod->enmState = KLDRSTATE_PENDING_DESTROY;
	648	kldrDyldModUnlink(pMod);
	649	break;
	650
	651	case KLDRSTATE_PENDING_INITIALIZATION:
	652	pMod->enmState = KLDRSTATE_PENDING_GC;
	653	break;
	654
	655	case KLDRSTATE_RELOADED_FIXED_UP:
	656	case KLDRSTATE_RELOADED_LOADED_PREREQUISITES:
	657	case KLDRSTATE_GOOD:
	658	pMod->enmState = KLDRSTATE_PENDING_TERMINATION;
	659	break;
	660
	661	case KLDRSTATE_INITIALIZATION_FAILED:
	662	break;
	663
	664	default:
	665	KLDRDYLDMOD_ASSERT(!"invalid state");
	666	break;
	667	}
	668
	669	return cToUnload;
	670	}
	671
	672
	673	/**
	674	* This is the heart of the unload code.
	675	*
	676	* It will recursivly (using the load list) initiate module unloading
	677	* of all affected modules.
	678	*
	679	* This function will cause a state transition to PENDING_DESTROY, PENDING_GC
	680	* or PENDING_TERMINATION depending on the module state. There is one exception
	681	* to this, and that's INITIALIZATION_FAILED, where the state will not be changed.
	682	*
	683	* @param pMod The module which prerequisites should be unloaded.
	684	*/
	685	void kldrDyldModUnloadPrerequisites(PKLDRDYLDMOD pMod)
	686	{
	687	KU32 cToUnload;
	688
	689	/* sanity */
	690	#ifdef KLDRDYLD_STRICT
	691	{
	692	PKLDRDYLDMOD pMod2;
	693	for (pMod2 = kLdrDyldHead; pMod2; pMod2 = pMod2->Load.pNext)
	694	KLDRDYLDMOD_ASSERT(pMod2->enmState != KLDRSTATE_GOOD \|\| pMod2->cRefs);
	695	}
	696	#endif
	697	KLDRDYLDMOD_ASSERT(pMod->papPrereqs);
	698
	699	/*
	700	* Unload prereqs of the module we're called on first.
	701	*/
	702	cToUnload = kldrDyldModUnloadPrerequisitesOne(pMod);
	703
	704	/*
	705	* Iterate the load list in a cyclic manner until there are no more
	706	* modules that can be pushed on into unloading.
	707	*/
	708	while (cToUnload)
	709	{
	710	cToUnload = 0;
	711	for (pMod = kLdrDyldHead; pMod; pMod = pMod->Load.pNext)
	712	{
	713	if ( pMod->cDepRefs
	714	\|\| pMod->cDynRefs
	715	\|\| pMod->enmState >= KLDRSTATE_PENDING_TERMINATION
	716	\|\| pMod->enmState < KLDRSTATE_LOADED_PREREQUISITES)
	717	continue;
	718	cToUnload += kldrDyldModUnloadPrerequisitesOne(pMod);
	719	}
	720	}
	721	}
	722
	723
	724	/**
	725	* Loads the prerequisite modules this module depends on.
	726	*
	727	* To find each of the prerequisite modules this method calls
	728	* kldrDyldGetPrerequisite() and it will make sure the modules
	729	* are added to the load stack frame.
	730	*
	731	* @returns 0 on success, non-zero native OS or kLdr status code on failure.
	732	* The state is changed to LOADED_PREREQUISITES or RELOADED_LOADED_PREREQUISITES.
	733	* @param pMod The module.
	734	* @param pszPrefix Prefix to use when searching.
	735	* @param pszSuffix Suffix to use when searching.
	736	* @param enmSearch Method to use when locating the module and any modules it may depend on.
	737	* @param fFlags Flags, a combintation of the KLDRYDLD_LOAD_FLAGS_* \#defines.
	738	*/
	739	int kldrDyldModLoadPrerequisites(PKLDRDYLDMOD pMod, const char pszPrefix, const char pszSuffix,
	740	KLDRDYLDSEARCH enmSearch, unsigned fFlags)
	741	{
	742	KI32 cPrereqs;
	743	KU32 i;
	744	int rc = 0;
	745
	746	/* sanity */
	747	switch (pMod->enmState)
	748	{
	749	case KLDRSTATE_MAPPED:
	750	case KLDRSTATE_RELOADED:
	751	break;
	752	default:
	753	KLDRDYLDMOD_ASSERT(!"invalid state");
	754	return -1;
	755	}
	756
	757	/*
	758	* Query number of prerequiste modules and allocate the array.
	759	*/
	760	cPrereqs = kLdrModNumberOfImports(pMod->pMod, NULL);
	761	kHlpAssert(cPrereqs >= 0);
	762	if (pMod->cPrereqs != cPrereqs)
	763	{
	764	KLDRDYLDMOD_ASSERT(!pMod->papPrereqs);
	765	pMod->papPrereqs = (PPKLDRDYLDMOD)kHlpAllocZ(sizeof(pMod->papPrereqs[0]) * cPrereqs);
	766	if (!pMod->papPrereqs)
	767	return KERR_NO_MEMORY;
	768	pMod->cPrereqs = cPrereqs;
	769	}
	770	else
	771	KLDRDYLDMOD_ASSERT(pMod->papPrereqs \|\| !pMod->cPrereqs);
	772
	773	/*
	774	* Iterate the prerequisites and load them.
	775	*/
	776	for (i = 0; i < pMod->cPrereqs; i++)
	777	{
	778	static char s_szPrereq[260];
	779	PKLDRDYLDMOD pPrereqMod;
	780
	781	KLDRDYLDMOD_ASSERT(pMod->papPrereqs[i] == NULL);
	782	rc = kLdrModGetImport(pMod->pMod, NULL, i, s_szPrereq, sizeof(s_szPrereq));
	783	if (rc)
	784	break;
	785	rc = kldrDyldGetPrerequisite(s_szPrereq, pszPrefix, pszSuffix, enmSearch, fFlags, pMod, &pPrereqMod);
	786	if (rc)
	787	break;
	788	pMod->papPrereqs[i] = pPrereqMod;
	789	}
	790
	791	/* change the state regardless of what happend. */
	792	if (pMod->enmState == KLDRSTATE_MAPPED)
	793	pMod->enmState = KLDRSTATE_LOADED_PREREQUISITES;
	794	else
	795	pMod->enmState = KLDRSTATE_RELOADED_LOADED_PREREQUISITES;
	796	return rc;
	797	}
	798
	799
	800	/**
	801	* Maps an open module.
	802	*
	803	* On success the module will be in the MAPPED state.
	804	*
	805	* @returns 0 on success, non-zero native OS or kLdr status code on failure.
	806	* @param pMod The module which needs to be unmapped and set pending for destruction.
	807	*/
	808	int kldrDyldModMap(PKLDRDYLDMOD pMod)
	809	{
	810	int rc;
	811
	812	/* sanity */
	813	KLDRDYLDMOD_ASSERT(pMod->enmState == KLDRSTATE_OPEN);
	814	KLDRDYLDMOD_ASSERT(!pMod->fMapped);
	815	if (pMod->fMapped)
	816	return 0;
	817
	818	/* do the job. */
	819	rc = kLdrModMap(pMod->pMod);
	820	if (!rc)
	821	{
[81]	822	rc = kLdrModAllocTLS(pMod->pMod, KLDRMOD_INT_MAP);
[2]	823	if (!rc)
	824	{
	825	/** @todo TLS */
	826	pMod->fMapped = 1;
	827	pMod->enmState = KLDRSTATE_MAPPED;
	828	}
	829	else
	830	kLdrModUnmap(pMod->pMod);
	831	}
	832	return rc;
	833	}
	834
	835
	836	/**
	837	* Unmaps the module, unlinks it from everywhere marks it PENDING_DESTROY.
	838	*
	839	* @returns 0 on success, non-zero native OS or kLdr status code on failure.
	840	* @param pMod The module which needs to be unmapped and set pending for destruction.
	841	*/
	842	int kldrDyldModUnmap(PKLDRDYLDMOD pMod)
	843	{
	844	int rc;
	845
	846	/* sanity */
	847	KLDRDYLDMOD_ASSERT(pMod->cRefs > 0);
	848	KLDRDYLDMOD_ASSERT(pMod->fMapped);
	849	switch (pMod->enmState)
	850	{
	851	case KLDRSTATE_MAPPED:
	852	case KLDRSTATE_GC:
	853	case KLDRSTATE_PENDING_DESTROY:
	854	break;
	855	default:
	856	KLDRDYLDMOD_ASSERT(!"invalid state");
	857	return -1;
	858	}
	859
	860	/* do the job. */
	861	if (pMod->fAllocatedTLS)
	862	{
[81]	863	kLdrModFreeTLS(pMod->pMod, KLDRMOD_INT_MAP);
[2]	864	pMod->fAllocatedTLS = 0;
	865	}
	866	rc = kLdrModUnmap(pMod->pMod);
	867	if (!rc)
	868	{
	869	pMod->fMapped = 0;
	870	if (pMod->enmState < KLDRSTATE_PENDING_DESTROY)
	871	{
	872	pMod->enmState = KLDRSTATE_PENDING_DESTROY;
	873	kldrDyldModUnlink(pMod);
	874	}
	875	}
	876
	877	return rc;
	878	}
	879
	880
	881	/**
	882	* Reloads the module.
	883	*
	884	* Reloading means that all modified pages are restored to their original
	885	* state. Whether this includes the code segments depends on whether the fixups
	886	* depend on the addend in the place they are fixing up - so it's format specific.
	887	*
	888	* @returns 0 on success, non-zero native OS or kLdr status code on failure.
	889	* @param pMod The module which needs to be unmapped and set pending for destruction.
	890	*/
	891	int kldrDyldModReload(PKLDRDYLDMOD pMod)
	892	{
	893	int rc;
	894
	895	/* sanity */
	896	KLDRDYLDMOD_ASSERT(pMod->cRefs > 0);
	897	KLDRDYLDMOD_ASSERT(pMod->fMapped);
	898
	899	switch (pMod->enmState)
	900	{
	901	case KLDRSTATE_MAPPED:
	902	case KLDRSTATE_GC:
	903	case KLDRSTATE_PENDING_DESTROY:
	904	break;
	905	default:
	906	KLDRDYLDMOD_ASSERT(!"invalid state");
	907	return -1;
	908	}
	909
	910	/* Free TLS before reloading. */
	911	if (pMod->fAllocatedTLS)
	912	{
[81]	913	kLdrModFreeTLS(pMod->pMod, KLDRMOD_INT_MAP);
[2]	914	pMod->fAllocatedTLS = 0;
	915	}
	916
	917	/* Let the module interpreter do the reloading of the mapping. */
	918	rc = kLdrModReload(pMod->pMod);
	919	if (!rc)
	920	{
[81]	921	rc = kLdrModAllocTLS(pMod->pMod, KLDRMOD_INT_MAP);
[2]	922	if (!rc)
	923	{
	924	pMod->fAllocatedTLS = 1;
	925	pMod->enmState = KLDRSTATE_RELOADED;
	926	}
	927	}
	928	return rc;
	929	}
	930
	931
	932	/**
	933	* @copydoc FNKLDRMODGETIMPORT
	934	* pvUser points to the KLDRDYLDMOD.
	935	*/
	936	static int kldrDyldModFixupGetImportCallback(PKLDRMOD pMod, KU32 iImport, KU32 iSymbol,
	937	const char pchSymbol, KSIZE cchSymbol, const char pszVersion,
	938	PKLDRADDR puValue, KU32 pfKind, void pvUser)
	939	{
	940	static int s_cRecursiveCalls = 0;
	941	PKLDRDYLDMOD pDyldMod = (PKLDRDYLDMOD)pvUser;
	942	int rc;
	943
	944	/* guard against too deep forwarder recursion. */
	945	if (s_cRecursiveCalls >= 5)
	946	return KLDR_ERR_TOO_LONG_FORWARDER_CHAIN;
	947	s_cRecursiveCalls++;
	948
	949	if (iImport != NIL_KLDRMOD_IMPORT)
	950	{
	951	/* specific import module search. */
	952	PKLDRDYLDMOD pPrereqMod;
	953
	954	KLDRDYLDMOD_ASSERT(iImport < pDyldMod->cPrereqs);
	955	pPrereqMod = pDyldMod->papPrereqs[iImport];
	956
	957	KLDRDYLDMOD_ASSERT(pPrereqMod);
	958	KLDRDYLDMOD_ASSERT(pPrereqMod->u32MagicHead == KLDRDYMOD_MAGIC);
	959	KLDRDYLDMOD_ASSERT(pPrereqMod->u32MagicTail == KLDRDYMOD_MAGIC);
	960	KLDRDYLDMOD_ASSERT(pPrereqMod->enmState < KLDRSTATE_TERMINATING);
	961
	962	rc = kLdrModQuerySymbol(pPrereqMod->pMod, NULL, KLDRMOD_BASEADDRESS_MAP,
	963	iSymbol, pchSymbol, cchSymbol, pszVersion,
	964	kldrDyldModFixupGetImportCallback, pPrereqMod, puValue, pfKind);
	965	if (rc)
	966	{
	967	if (pchSymbol)
	968	kldrDyldFailure(rc, "%s[%d]->%s.%.*s%s", pDyldMod->pMod->pszName, iImport,
	969	pPrereqMod->pMod->pszName, cchSymbol, pchSymbol, pszVersion ? pszVersion : "");
	970	else
	971	kldrDyldFailure(rc, "%s[%d]->%s.%d%s", pDyldMod->pMod->pszName, iImport,
	972	pPrereqMod->pMod->pszName, iSymbol, pszVersion ? pszVersion : "");
	973	}
	974	}
	975	else
	976	{
	977	/* bind list search. */
	978	unsigned fFound = 0;
	979	PKLDRDYLDMOD pBindMod = g_pkLdrDyldBindHead;
	980	rc = 0;
	981	while (pBindMod)
	982	{
	983	KU32 fKind;
	984	KLDRADDR uValue;
	985	rc = kLdrModQuerySymbol(pBindMod->pMod, NULL, KLDRMOD_BASEADDRESS_MAP,
	986	iSymbol, pchSymbol, cchSymbol, pszVersion,
	987	kldrDyldModFixupGetImportCallback, pBindMod, &uValue, &fKind);
	988	if ( !rc
	989	&& ( !fFound
	990	\|\| !(fKind & KLDRSYMKIND_WEAK)
	991	)
	992	)
	993	{
	994	*pfKind = fKind;
	995	*puValue = uValue;
	996	fFound = 1;
	997	if (!(fKind & KLDRSYMKIND_WEAK))
	998	break;
	999	}
	1000
	1001	/* next */
	1002	pBindMod = pBindMod->Bind.pNext;
	1003	}
	1004	rc = fFound ? 0 : KLDR_ERR_SYMBOL_NOT_FOUND;
	1005	if (!fFound)
	1006	{
	1007	if (pchSymbol)
	1008	kldrDyldFailure(rc, "%s->%.*s%s", pDyldMod->pMod->pszName, cchSymbol, pchSymbol, pszVersion ? pszVersion : "");
	1009	else
	1010	kldrDyldFailure(rc, "%s->%d%s", pDyldMod->pMod->pszName, iSymbol, pszVersion ? pszVersion : "");
	1011	}
	1012	}
	1013
	1014	s_cRecursiveCalls--;
	1015	return rc;
	1016	}
	1017
	1018
	1019	/**
	1020	* Applies fixups to a module which prerequisistes has been
	1021	* successfully loaded.
	1022	*
	1023	* @returns 0 on success, non-zero native OS or kLdr status code on failure.
	1024	* @param pMod The module which needs to be unmapped and set pending for destruction.
	1025	*/
	1026	int kldrDyldModFixup(PKLDRDYLDMOD pMod)
	1027	{
	1028	int rc;
	1029
	1030	/* sanity */
	1031	KLDRDYLDMOD_ASSERT(pMod->cRefs > 0);
	1032	KLDRDYLDMOD_ASSERT( pMod->enmState == KLDRSTATE_LOADED_PREREQUISITES
	1033	\|\| pMod->enmState == KLDRSTATE_RELOADED_LOADED_PREREQUISITES);
	1034
	1035	/* do the job */
	1036	rc = kLdrModFixupMapping(pMod->pMod, kldrDyldModFixupGetImportCallback, pMod);/** @todo fixme. */
	1037	if (!rc)
	1038	pMod->enmState = KLDRSTATE_FIXED_UP;
	1039	return rc;
	1040	}
	1041
	1042
	1043	/**
	1044	* Calls the module initialization entry point if any.
	1045	*
	1046	* This is considered to be a module specific thing and leave if
	1047	* to the module interpreter. They will have to deal with different
	1048	* module init practices between platforms should there be any.
	1049	*
	1050	* @returns 0 and state changed to GOOD on success.
	1051	* Non-zero OS or kLdr status code and status changed to INITIALIZATION_FAILED on failure.
	1052	* @param pMod The module that should be initialized.
	1053	*/
	1054	int kldrDyldModCallInit(PKLDRDYLDMOD pMod)
	1055	{
	1056	int rc;
	1057
	1058	KLDRDYLDMOD_ASSERT(pMod->enmState == KLDRSTATE_PENDING_INITIALIZATION);
	1059	KLDRDYLDMOD_ASSERT(!pMod->fInitList);
	1060
	1061	pMod->enmState = KLDRSTATE_INITIALIZING;
[81]	1062	rc = kLdrModCallInit(pMod->pMod, KLDRMOD_INT_MAP, (KUPTR)pMod->hMod);
[2]	1063	if (!rc)
	1064	{
	1065	pMod->enmState = KLDRSTATE_GOOD;
	1066	/* push it onto the termination list.*/
	1067	pMod->InitTerm.pPrev = NULL;
	1068	pMod->InitTerm.pNext = g_pkLdrDyldTermHead;
	1069	if (g_pkLdrDyldTermHead)
	1070	g_pkLdrDyldTermHead->InitTerm.pPrev = pMod;
	1071	else
	1072	g_pkLdrDyldTermTail = pMod;
	1073	g_pkLdrDyldTermHead = pMod;
	1074	}
	1075	else
	1076	pMod->enmState = KLDRSTATE_INITIALIZATION_FAILED;
	1077
	1078	return rc;
	1079	}
	1080
	1081
	1082	/**
	1083	* Calls the module termination entry point if any.
	1084	*
	1085	* This'll change the module status to PENDING_GC.
	1086	*
	1087	* @param pMod The module that should be initialized.
	1088	*/
	1089	void kldrDyldModCallTerm(PKLDRDYLDMOD pMod)
	1090	{
	1091	KLDRDYLDMOD_ASSERT(pMod->enmState == KLDRSTATE_PENDING_TERMINATION);
	1092
	1093	pMod->enmState = KLDRSTATE_TERMINATING;
[81]	1094	kLdrModCallTerm(pMod->pMod, KLDRMOD_INT_MAP, (KUPTR)pMod->hMod);
[2]	1095	pMod->enmState = KLDRSTATE_PENDING_GC;
	1096	/* unlinking on destruction. */
	1097	}
	1098
	1099
	1100	/**
	1101	* Calls the thread attach entry point if any.
	1102	*
	1103	* @returns 0 on success, non-zero on failure.
	1104	* @param pMod The module.
	1105	*/
	1106	int kldrDyldModAttachThread(PKLDRDYLDMOD pMod)
	1107	{
	1108	KLDRDYLDMOD_ASSERT(pMod->enmState == KLDRSTATE_GOOD);
	1109
[81]	1110	return kLdrModCallThread(pMod->pMod, KLDRMOD_INT_MAP, (KUPTR)pMod->hMod, 1 /* attach */);
[2]	1111	}
	1112
	1113
	1114	/**
	1115	* Calls the thread detach entry point if any.
	1116	*
	1117	* @returns 0 on success, non-zero on failure.
	1118	* @param pMod The module.
	1119	*/
	1120	void kldrDyldModDetachThread(PKLDRDYLDMOD pMod)
	1121	{
	1122	KLDRDYLDMOD_ASSERT(pMod->enmState == KLDRSTATE_GOOD);
	1123
[81]	1124	kLdrModCallThread(pMod->pMod, KLDRMOD_INT_MAP, (KUPTR)pMod->hMod, 0 /* detach */);
[2]	1125	}
	1126
	1127
	1128	/**
	1129	* Gets the main stack, allocate it if necessary.
	1130	*
	1131	* @returns 0 on success, non-zero native OS or kLdr status code on failure.
	1132	* @param pMod The module.
	1133	* @param ppvStack Where to store the address of the stack (lowest address).
	1134	* @param pcbStack Where to store the size of the stack.
	1135	*/
	1136	int kldrDyldModGetMainStack(PKLDRDYLDMOD pMod, void *ppvStack, KSIZE pcbStack)
	1137	{
	1138	int rc = 0;
	1139	KLDRSTACKINFO StackInfo;
	1140	KLDRDYLDMOD_ASSERT(pMod->fExecutable);
	1141
	1142	/*
	1143	* Since we might have to allocate the stack ourselves, and there will only
	1144	* ever be one main stack, we'll be keeping the main stack info in globals.
	1145	*/
	1146	if (!g_fkLdrDyldDoneMainStack)
	1147	{
	1148	rc = kLdrModGetStackInfo(pMod->pMod, NULL, KLDRMOD_BASEADDRESS_MAP, &StackInfo);
	1149	if (!rc)
	1150	{
	1151	/* check if there is a stack size override/default. */
	1152	KSIZE cbDefOverride;
	1153	if (kHlpGetEnvUZ("KLDR_MAIN_STACK_SIZE", &cbDefOverride))
	1154	cbDefOverride = 0;
	1155
	1156
	1157	/* needs allocating? */
	1158	if ( StackInfo.LinkAddress == NIL_KLDRADDR
	1159	\|\| StackInfo.cbStack < cbDefOverride)
	1160	{
	1161	KSIZE cbStack = (KSIZE)K_MAX(StackInfo.cbStack, cbDefOverride);
	1162
	1163	g_pvkLdrDyldMainStack = kldrDyldOSAllocStack(cbStack);
	1164	if (g_pvkLdrDyldMainStack)
	1165	{
	1166	g_cbkLdrDyldMainStack = cbStack;
	1167	g_fkLdrDyldMainStackAllocated = 1;
	1168	}
	1169	else
	1170	rc = KLDR_ERR_MAIN_STACK_ALLOC_FAILED;
	1171	}
	1172	else
	1173	{
	1174	KLDRDYLDMOD_ASSERT(StackInfo.Address != NIL_KLDRADDR);
	1175	KLDRDYLDMOD_ASSERT(StackInfo.cbStack > 0);
	1176
	1177	g_fkLdrDyldMainStackAllocated = 0;
	1178	g_pvkLdrDyldMainStack = (void *)(KUPTR)StackInfo.Address;
	1179	KLDRDYLDMOD_ASSERT((KUPTR)g_pvkLdrDyldMainStack == StackInfo.Address);
	1180
	1181	g_cbkLdrDyldMainStack = (KSIZE)StackInfo.cbStack;
	1182	KLDRDYLDMOD_ASSERT(StackInfo.cbStack == g_cbkLdrDyldMainStack);
	1183	}
	1184	}
	1185	if (!rc)
	1186	g_fkLdrDyldDoneMainStack = 1;
	1187	}
	1188
	1189	if (!rc)
	1190	{
	1191	if (ppvStack)
	1192	*ppvStack = g_pvkLdrDyldMainStack;
	1193	if (pcbStack)
	1194	*pcbStack = g_cbkLdrDyldMainStack;
	1195	}
	1196
	1197	return rc;
	1198	}
	1199
	1200
	1201	/**
	1202	* This starts the executable module.
	1203	*
	1204	* @returns non-zero OS or kLdr status code on failure.
	1205	* (won't return on success.)
	1206	* @param pMod The executable module.
	1207	*/
	1208	int kldrDyldModStartExe(PKLDRDYLDMOD pMod)
	1209	{
	1210	int rc;
	1211	KLDRADDR MainEPAddress;
	1212	void *pvStack;
	1213	KSIZE cbStack;
	1214	KLDRDYLDMOD_ASSERT(pMod->fExecutable);
	1215
	1216	rc = kLdrModQueryMainEntrypoint(pMod->pMod, NULL, KLDRMOD_BASEADDRESS_MAP, &MainEPAddress);
	1217	if (rc)
	1218	return rc;
	1219	rc = kldrDyldModGetMainStack(pMod, &pvStack, &cbStack);
	1220	if (rc)
	1221	return rc;
	1222	return kldrDyldOSStartExe((KUPTR)MainEPAddress, pvStack, cbStack);
	1223	}
	1224
	1225
	1226	/**
	1227	* Gets the module name.
	1228	*
	1229	* @returns 0 on success, KERR_BUFFER_OVERFLOW on failure.
	1230	* @param pMod The module.
	1231	* @param pszName Where to store the name.
	1232	* @param cchName The size of the name buffer.
	1233	*/
	1234	int kldrDyldModGetName(PKLDRDYLDMOD pMod, char *pszName, KSIZE cchName)
	1235	{
	1236	KSIZE cch = K_MIN(cchName, pMod->pMod->cchName + 1);
	1237	if (cch)
	1238	{
	1239	kHlpMemCopy(pszName, pMod->pMod->pszName, cch - 1);
	1240	pszName[cch - 1] = '\0';
	1241	}
	1242	return cchName <= pMod->pMod->cchName ? KERR_BUFFER_OVERFLOW : 0;
	1243	}
	1244
	1245
	1246	/**
	1247	* Gets the module filename.
	1248	*
	1249	* @returns 0 on success, KERR_BUFFER_OVERFLOW on failure.
	1250	* @param pMod The module.
	1251	* @param pszFilename Where to store the filename.
	1252	* @param cchFilename The size of the filename buffer.
	1253	*/
	1254	int kldrDyldModGetFilename(PKLDRDYLDMOD pMod, char *pszFilename, KSIZE cchFilename)
	1255	{
	1256	KSIZE cch = K_MIN(cchFilename, pMod->pMod->cchFilename + 1);
	1257	if (cch)
	1258	{
	1259	kHlpMemCopy(pszFilename, pMod->pMod->pszFilename, cch - 1);
	1260	pszFilename[cch - 1] = '\0';
	1261	}
	1262	return cchFilename <= pMod->pMod->cchFilename ? KERR_BUFFER_OVERFLOW : 0;
	1263	}
	1264
	1265
	1266	/**
	1267	* Gets the address/value of a symbol in the specified module.
	1268	*
	1269	* @returns 0 on success, KLDR_ERR_SYMBOL_NOT_FOUND on failure.
	1270	* @param pMod The module.
	1271	* @param uSymbolOrdinal The symbol ordinal 0. This is ignored if the name is non-zero.
	1272	* @param pszSymbolName The symbol name. Can be NULL.
	1273	* @param puValue Where to store the value. optional.
	1274	* @param pfKind Where to store the symbol kind. optional.
	1275	*/
	1276	int kldrDyldModQuerySymbol(PKLDRDYLDMOD pMod, KU32 uSymbolOrdinal, const char *pszSymbolName,
	1277	KUPTR puValue, KU32 pfKind)
	1278	{
	1279	int rc;
	1280	KLDRADDR uValue = 0;
	1281	KU32 fKind = 0;
	1282
	1283	rc = kLdrModQuerySymbol(pMod->pMod, NULL, KLDRMOD_BASEADDRESS_MAP,
	1284	uSymbolOrdinal, pszSymbolName, kHlpStrLen(pszSymbolName), NULL,
	1285	kldrDyldModFixupGetImportCallback, pMod,
	1286	&uValue, &fKind);
	1287	if (!rc)
	1288	{
	1289	if (puValue)
	1290	{
	1291	*puValue = (KUPTR)uValue;
	1292	KLDRDYLDMOD_ASSERT(*puValue == uValue);
	1293	}
	1294	if (pfKind)
	1295	*pfKind = fKind;
	1296	}
	1297
	1298	return rc;
	1299	}
	1300

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source: trunk/kLdr/kLdrDyldMod.c@ 81

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