VirtualBox

source: vbox/trunk/src/VBox/Runtime/r0drv/nt/initterm-r0drv-nt.cpp@ 70425

Last change on this file since 70425 was 70341, checked in by vboxsync, 7 years ago

IPRT: More NT 3.1 compatibility tweaking.

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File size: 21.2 KB
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1/* $Id: initterm-r0drv-nt.cpp 70341 2017-12-26 14:42:28Z vboxsync $ */
2/** @file
3 * IPRT - Initialization & Termination, R0 Driver, NT.
4 */
5
6/*
7 * Copyright (C) 2006-2017 Oracle Corporation
8 *
9 * This file is part of VirtualBox Open Source Edition (OSE), as
10 * available from http://www.virtualbox.org. This file is free software;
11 * you can redistribute it and/or modify it under the terms of the GNU
12 * General Public License (GPL) as published by the Free Software
13 * Foundation, in version 2 as it comes in the "COPYING" file of the
14 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
15 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
16 *
17 * The contents of this file may alternatively be used under the terms
18 * of the Common Development and Distribution License Version 1.0
19 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the
20 * VirtualBox OSE distribution, in which case the provisions of the
21 * CDDL are applicable instead of those of the GPL.
22 *
23 * You may elect to license modified versions of this file under the
24 * terms and conditions of either the GPL or the CDDL or both.
25 */
26
27
28/*********************************************************************************************************************************
29* Header Files *
30*********************************************************************************************************************************/
31#include "the-nt-kernel.h"
32#include <iprt/asm-amd64-x86.h>
33#include <iprt/dbg.h>
34#include <iprt/err.h>
35#include <iprt/string.h>
36#include "internal/initterm.h"
37#include "internal-r0drv-nt.h"
38#include "symdb.h"
39#include "symdbdata.h"
40
41
42/*********************************************************************************************************************************
43* Global Variables *
44*********************************************************************************************************************************/
45/** ExAllocatePoolWithTag, introduced in W2K. */
46decltype(ExAllocatePoolWithTag) *g_pfnrtExAllocatePoolWithTag;
47/** ExFreePoolWithTag, introduced in W2K. */
48decltype(ExFreePoolWithTag) *g_pfnrtExFreePoolWithTag;
49/** ExSetTimerResolution, introduced in W2K. */
50PFNMYEXSETTIMERRESOLUTION g_pfnrtNtExSetTimerResolution;
51/** KeFlushQueuedDpcs, introduced in XP. */
52PFNMYKEFLUSHQUEUEDDPCS g_pfnrtNtKeFlushQueuedDpcs;
53/** HalRequestIpi, version introduced with windows 7. */
54PFNHALREQUESTIPI_W7PLUS g_pfnrtHalRequestIpiW7Plus;
55/** HalRequestIpi, version valid up to windows vista?? */
56PFNHALREQUESTIPI_PRE_W7 g_pfnrtHalRequestIpiPreW7;
57/** Worker for RTMpPokeCpu. */
58PFNRTSENDIPI g_pfnrtMpPokeCpuWorker;
59/** KeIpiGenericCall - Introduced in Windows Server 2003. */
60PFNRTKEIPIGENERICCALL g_pfnrtKeIpiGenericCall;
61/** KeSetTargetProcessorDpcEx - Introduced in Windows 7. */
62PFNKESETTARGETPROCESSORDPCEX g_pfnrtKeSetTargetProcessorDpcEx;
63/** KeInitializeAffinityEx - Introducted in Windows 7. */
64PFNKEINITIALIZEAFFINITYEX g_pfnrtKeInitializeAffinityEx;
65/** KeAddProcessorAffinityEx - Introducted in Windows 7. */
66PFNKEADDPROCESSORAFFINITYEX g_pfnrtKeAddProcessorAffinityEx;
67/** KeGetProcessorIndexFromNumber - Introducted in Windows 7. */
68PFNKEGETPROCESSORINDEXFROMNUMBER g_pfnrtKeGetProcessorIndexFromNumber;
69/** KeGetProcessorNumberFromIndex - Introducted in Windows 7. */
70PFNKEGETPROCESSORNUMBERFROMINDEX g_pfnrtKeGetProcessorNumberFromIndex;
71/** KeGetCurrentProcessorNumberEx - Introducted in Windows 7. */
72PFNKEGETCURRENTPROCESSORNUMBEREX g_pfnrtKeGetCurrentProcessorNumberEx;
73/** KeQueryActiveProcessors - Introducted in Windows 2000. */
74PFNKEQUERYACTIVEPROCESSORS g_pfnrtKeQueryActiveProcessors;
75/** KeQueryMaximumProcessorCount - Introducted in Vista and obsoleted W7. */
76PFNKEQUERYMAXIMUMPROCESSORCOUNT g_pfnrtKeQueryMaximumProcessorCount;
77/** KeQueryMaximumProcessorCountEx - Introducted in Windows 7. */
78PFNKEQUERYMAXIMUMPROCESSORCOUNTEX g_pfnrtKeQueryMaximumProcessorCountEx;
79/** KeQueryMaximumGroupCount - Introducted in Windows 7. */
80PFNKEQUERYMAXIMUMGROUPCOUNT g_pfnrtKeQueryMaximumGroupCount;
81/** KeQueryActiveProcessorCount - Introducted in Vista and obsoleted W7. */
82PFNKEQUERYACTIVEPROCESSORCOUNT g_pfnrtKeQueryActiveProcessorCount;
83/** KeQueryActiveProcessorCountEx - Introducted in Windows 7. */
84PFNKEQUERYACTIVEPROCESSORCOUNTEX g_pfnrtKeQueryActiveProcessorCountEx;
85/** KeQueryLogicalProcessorRelationship - Introducted in Windows 7. */
86PFNKEQUERYLOGICALPROCESSORRELATIONSHIP g_pfnrtKeQueryLogicalProcessorRelationship;
87/** KeRegisterProcessorChangeCallback - Introducted in Windows 7. */
88PFNKEREGISTERPROCESSORCHANGECALLBACK g_pfnrtKeRegisterProcessorChangeCallback;
89/** KeDeregisterProcessorChangeCallback - Introducted in Windows 7. */
90PFNKEDEREGISTERPROCESSORCHANGECALLBACK g_pfnrtKeDeregisterProcessorChangeCallback;
91/** KeSetImportanceDpc - Introducted in NT 3.51. */
92decltype(KeSetImportanceDpc) *g_pfnrtKeSetImportanceDpc;
93/** KeSetTargetProcessorDpc - Introducted in NT 3.51. */
94decltype(KeSetTargetProcessorDpc) *g_pfnrtKeSetTargetProcessorDpc;
95/** KeInitializeTimerEx - Introduced in NT 4. */
96decltype(KeInitializeTimerEx) *g_pfnrtKeInitializeTimerEx;
97/** Pointer to the MmProtectMdlSystemAddress kernel function if it's available.
98 * This API was introduced in XP. */
99decltype(MmProtectMdlSystemAddress) *g_pfnrtMmProtectMdlSystemAddress;
100/** MmAllocatePagesForMdl - Introduced in Windows 2000. */
101decltype(MmAllocatePagesForMdl) *g_pfnrtMmAllocatePagesForMdl;
102/** MmFreePagesFromMdl - Introduced in Windows 2000. */
103decltype(MmFreePagesFromMdl) *g_pfnrtMmFreePagesFromMdl;
104/** MmMapLockedPagesSpecifyCache - Introduced in Windows NT4 SP4. */
105decltype(MmMapLockedPagesSpecifyCache) *g_pfnrtMmMapLockedPagesSpecifyCache;
106/** MmAllocateContiguousMemorySpecifyCache - Introduced in Windows 2000. */
107decltype(MmAllocateContiguousMemorySpecifyCache) *g_pfnrtMmAllocateContiguousMemorySpecifyCache;
108/** MmSecureVirtualMemory - Introduced in NT 3.51. */
109decltype(MmSecureVirtualMemory) *g_pfnrtMmSecureVirtualMemory;
110/** MmUnsecureVirtualMemory - Introduced in NT 3.51. */
111decltype(MmUnsecureVirtualMemory) *g_pfnrtMmUnsecureVirtualMemory;
112/** RtlGetVersion, introduced in ??. */
113PFNRTRTLGETVERSION g_pfnrtRtlGetVersion;
114#ifdef RT_ARCH_X86
115/** KeQueryInterruptTime - exported/new in Windows 2000. */
116PFNRTKEQUERYINTERRUPTTIME g_pfnrtKeQueryInterruptTime;
117#endif
118/** KeQueryInterruptTimePrecise - new in Windows 8. */
119PFNRTKEQUERYINTERRUPTTIMEPRECISE g_pfnrtKeQueryInterruptTimePrecise;
120/** KeQuerySystemTimePrecise - new in Windows 8. */
121PFNRTKEQUERYSYSTEMTIMEPRECISE g_pfnrtKeQuerySystemTimePrecise;
122
123/** Offset of the _KPRCB::QuantumEnd field. 0 if not found. */
124uint32_t g_offrtNtPbQuantumEnd;
125/** Size of the _KPRCB::QuantumEnd field. 0 if not found. */
126uint32_t g_cbrtNtPbQuantumEnd;
127/** Offset of the _KPRCB::DpcQueueDepth field. 0 if not found. */
128uint32_t g_offrtNtPbDpcQueueDepth;
129
130/** The combined NT version, see RTNT_MAKE_VERSION. */
131uint32_t g_uRtNtVersion = RTNT_MAKE_VERSION(4, 0);
132/** The major version number. */
133uint8_t g_uRtNtMajorVer;
134/** The minor version number. */
135uint8_t g_uRtNtMinorVer;
136/** The build number. */
137uint32_t g_uRtNtBuildNo;
138
139/** Pointer to the MmHighestUserAddress kernel variable - can be NULL. */
140uintptr_t const *g_puRtMmHighestUserAddress;
141/** Pointer to the MmSystemRangeStart kernel variable - can be NULL. */
142uintptr_t const *g_puRtMmSystemRangeStart;
143
144
145/**
146 * Determines the NT kernel verison information.
147 *
148 * @param pOsVerInfo Where to return the version information.
149 *
150 * @remarks pOsVerInfo->fSmp is only definitive if @c true.
151 * @remarks pOsVerInfo->uCsdNo is set to MY_NIL_CSD if it cannot be determined.
152 */
153static void rtR0NtGetOsVersionInfo(PRTNTSDBOSVER pOsVerInfo)
154{
155 ULONG ulMajorVersion = 0;
156 ULONG ulMinorVersion = 0;
157 ULONG ulBuildNumber = 0;
158
159 pOsVerInfo->fChecked = PsGetVersion(&ulMajorVersion, &ulMinorVersion, &ulBuildNumber, NULL) == TRUE;
160 pOsVerInfo->uMajorVer = (uint8_t)ulMajorVersion;
161 pOsVerInfo->uMinorVer = (uint8_t)ulMinorVersion;
162 pOsVerInfo->uBuildNo = ulBuildNumber;
163#define MY_NIL_CSD 0x3f
164 pOsVerInfo->uCsdNo = MY_NIL_CSD;
165
166 if (g_pfnrtRtlGetVersion)
167 {
168 RTL_OSVERSIONINFOEXW VerInfo;
169 RT_ZERO(VerInfo);
170 VerInfo.dwOSVersionInfoSize = sizeof(VerInfo);
171
172 NTSTATUS rcNt = g_pfnrtRtlGetVersion(&VerInfo);
173 if (NT_SUCCESS(rcNt))
174 pOsVerInfo->uCsdNo = VerInfo.wServicePackMajor;
175 }
176
177 /* Note! We cannot quite say if something is MP or UNI. So, fSmp is
178 redefined to indicate that it must be MP.
179 Note! RTMpGetCount is not available here. */
180 pOsVerInfo->fSmp = ulMajorVersion >= 6; /* Vista and later has no UNI kernel AFAIK. */
181 if (!pOsVerInfo->fSmp)
182 {
183 if ( g_pfnrtKeQueryMaximumProcessorCountEx
184 && g_pfnrtKeQueryMaximumProcessorCountEx(ALL_PROCESSOR_GROUPS) > 1)
185 pOsVerInfo->fSmp = true;
186 else if ( g_pfnrtKeQueryMaximumProcessorCount
187 && g_pfnrtKeQueryMaximumProcessorCount() > 1)
188 pOsVerInfo->fSmp = true;
189 else if ( g_pfnrtKeQueryActiveProcessors
190 && g_pfnrtKeQueryActiveProcessors() > 1)
191 pOsVerInfo->fSmp = true;
192 else if (KeNumberProcessors > 1)
193 pOsVerInfo->fSmp = true;
194 }
195}
196
197
198/**
199 * Tries a set against the current kernel.
200 *
201 * @retval true if it matched up, global variables are updated.
202 * @retval false otherwise (no globals updated).
203 * @param pSet The data set.
204 * @param pbPrcb Pointer to the processor control block.
205 * @param pszVendor Pointer to the processor vendor string.
206 * @param pOsVerInfo The OS version info.
207 */
208static bool rtR0NtTryMatchSymSet(PCRTNTSDBSET pSet, uint8_t *pbPrcb, const char *pszVendor, PCRTNTSDBOSVER pOsVerInfo)
209{
210 /*
211 * Don't bother trying stuff where the NT kernel version number differs, or
212 * if the build type or SMPness doesn't match up.
213 */
214 if ( pSet->OsVerInfo.uMajorVer != pOsVerInfo->uMajorVer
215 || pSet->OsVerInfo.uMinorVer != pOsVerInfo->uMinorVer
216 || pSet->OsVerInfo.fChecked != pOsVerInfo->fChecked
217 || (!pSet->OsVerInfo.fSmp && pOsVerInfo->fSmp /*must-be-smp*/) )
218 {
219 //DbgPrint("IPRT: #%d Version/type mismatch.\n", pSet - &g_artNtSdbSets[0]);
220 return false;
221 }
222
223 /*
224 * Do the CPU vendor test.
225 *
226 * Note! The MmIsAddressValid call is the real #PF security here as the
227 * __try/__except has limited/no ability to catch everything we need.
228 */
229 char *pszPrcbVendorString = (char *)&pbPrcb[pSet->KPRCB.offVendorString];
230 if (!MmIsAddressValid(&pszPrcbVendorString[4 * 3 - 1]))
231 {
232 //DbgPrint("IPRT: #%d invalid vendor string address.\n", pSet - &g_artNtSdbSets[0]);
233 return false;
234 }
235 __try
236 {
237 if (memcmp(pszPrcbVendorString, pszVendor, RT_MIN(4 * 3, pSet->KPRCB.cbVendorString)) != 0)
238 {
239 //DbgPrint("IPRT: #%d Vendor string mismatch.\n", pSet - &g_artNtSdbSets[0]);
240 return false;
241 }
242 }
243 __except(EXCEPTION_EXECUTE_HANDLER)
244 {
245 DbgPrint("IPRT: %#d Exception\n", pSet - &g_artNtSdbSets[0]);
246 return false;
247 }
248
249 /*
250 * Got a match, update the global variables and report succcess.
251 */
252 g_offrtNtPbQuantumEnd = pSet->KPRCB.offQuantumEnd;
253 g_cbrtNtPbQuantumEnd = pSet->KPRCB.cbQuantumEnd;
254 g_offrtNtPbDpcQueueDepth = pSet->KPRCB.offDpcQueueDepth;
255
256#if 0
257 DbgPrint("IPRT: Using data set #%u for %u.%usp%u build %u %s %s.\n",
258 pSet - &g_artNtSdbSets[0],
259 pSet->OsVerInfo.uMajorVer,
260 pSet->OsVerInfo.uMinorVer,
261 pSet->OsVerInfo.uCsdNo,
262 pSet->OsVerInfo.uBuildNo,
263 pSet->OsVerInfo.fSmp ? "smp" : "uni",
264 pSet->OsVerInfo.fChecked ? "checked" : "free");
265#endif
266 return true;
267}
268
269
270DECLHIDDEN(int) rtR0InitNative(void)
271{
272 /*
273 * Initialize the function pointers.
274 */
275 RTDBGKRNLINFO hKrnlInfo;
276 int rc = RTR0DbgKrnlInfoOpen(&hKrnlInfo, 0/*fFlags*/);
277 AssertRCReturn(rc, rc);
278
279#define GET_SYSTEM_ROUTINE_EX(a_Prf, a_Name, a_pfnType) \
280 do { RT_CONCAT3(g_pfnrt, a_Prf, a_Name) = (a_pfnType)RTR0DbgKrnlInfoGetSymbol(hKrnlInfo, NULL, #a_Name); } while (0)
281#define GET_SYSTEM_ROUTINE(a_Name) GET_SYSTEM_ROUTINE_EX(RT_NOTHING, a_Name, decltype(a_Name) *)
282#define GET_SYSTEM_ROUTINE_PRF(a_Prf,a_Name) GET_SYSTEM_ROUTINE_EX(a_Prf, a_Name, decltype(a_Name) *)
283#define GET_SYSTEM_ROUTINE_TYPE(a_Name, a_pfnType) GET_SYSTEM_ROUTINE_EX(RT_NOTHING, a_Name, a_pfnType)
284
285 GET_SYSTEM_ROUTINE(ExAllocatePoolWithTag);
286 GET_SYSTEM_ROUTINE(ExFreePoolWithTag);
287 GET_SYSTEM_ROUTINE_PRF(Nt,ExSetTimerResolution);
288 GET_SYSTEM_ROUTINE_PRF(Nt,KeFlushQueuedDpcs);
289 GET_SYSTEM_ROUTINE(KeIpiGenericCall);
290 GET_SYSTEM_ROUTINE(KeSetTargetProcessorDpcEx);
291 GET_SYSTEM_ROUTINE(KeInitializeAffinityEx);
292 GET_SYSTEM_ROUTINE(KeAddProcessorAffinityEx);
293 GET_SYSTEM_ROUTINE_TYPE(KeGetProcessorIndexFromNumber, PFNKEGETPROCESSORINDEXFROMNUMBER);
294 GET_SYSTEM_ROUTINE(KeGetProcessorNumberFromIndex);
295 GET_SYSTEM_ROUTINE_TYPE(KeGetCurrentProcessorNumberEx, PFNKEGETCURRENTPROCESSORNUMBEREX);
296 GET_SYSTEM_ROUTINE(KeQueryActiveProcessors);
297 GET_SYSTEM_ROUTINE(KeQueryMaximumProcessorCount);
298 GET_SYSTEM_ROUTINE(KeQueryMaximumProcessorCountEx);
299 GET_SYSTEM_ROUTINE(KeQueryMaximumGroupCount);
300 GET_SYSTEM_ROUTINE(KeQueryActiveProcessorCount);
301 GET_SYSTEM_ROUTINE(KeQueryActiveProcessorCountEx);
302 GET_SYSTEM_ROUTINE(KeQueryLogicalProcessorRelationship);
303 GET_SYSTEM_ROUTINE(KeRegisterProcessorChangeCallback);
304 GET_SYSTEM_ROUTINE(KeDeregisterProcessorChangeCallback);
305 GET_SYSTEM_ROUTINE(KeSetImportanceDpc);
306 GET_SYSTEM_ROUTINE(KeSetTargetProcessorDpc);
307 GET_SYSTEM_ROUTINE(KeInitializeTimerEx);
308 GET_SYSTEM_ROUTINE(MmProtectMdlSystemAddress);
309 GET_SYSTEM_ROUTINE(MmAllocatePagesForMdl);
310 GET_SYSTEM_ROUTINE(MmFreePagesFromMdl);
311 GET_SYSTEM_ROUTINE(MmMapLockedPagesSpecifyCache);
312 GET_SYSTEM_ROUTINE(MmAllocateContiguousMemorySpecifyCache);
313 GET_SYSTEM_ROUTINE(MmSecureVirtualMemory);
314 GET_SYSTEM_ROUTINE(MmUnsecureVirtualMemory);
315
316 GET_SYSTEM_ROUTINE_TYPE(RtlGetVersion, PFNRTRTLGETVERSION);
317#ifdef RT_ARCH_X86
318 GET_SYSTEM_ROUTINE(KeQueryInterruptTime);
319#endif
320 GET_SYSTEM_ROUTINE_TYPE(KeQueryInterruptTimePrecise, PFNRTKEQUERYINTERRUPTTIMEPRECISE);
321 GET_SYSTEM_ROUTINE_TYPE(KeQuerySystemTimePrecise, PFNRTKEQUERYSYSTEMTIMEPRECISE);
322
323 g_pfnrtHalRequestIpiW7Plus = (PFNHALREQUESTIPI_W7PLUS)RTR0DbgKrnlInfoGetSymbol(hKrnlInfo, NULL, "HalRequestIpi");
324 g_pfnrtHalRequestIpiPreW7 = (PFNHALREQUESTIPI_PRE_W7)g_pfnrtHalRequestIpiW7Plus;
325
326 g_puRtMmHighestUserAddress = (uintptr_t const *)RTR0DbgKrnlInfoGetSymbol(hKrnlInfo, NULL, "MmHighestUserAddress");
327 g_puRtMmSystemRangeStart = (uintptr_t const *)RTR0DbgKrnlInfoGetSymbol(hKrnlInfo, NULL, "MmSystemRangeStart");
328
329#ifdef RT_ARCH_X86
330 rc = rtR0Nt3InitSymbols(hKrnlInfo);
331 RTR0DbgKrnlInfoRelease(hKrnlInfo);
332 if (RT_FAILURE(rc))
333 return rc;
334#else
335 RTR0DbgKrnlInfoRelease(hKrnlInfo);
336#endif
337
338 /*
339 * HACK ALERT! (and déjà vu warning - remember win32k.sys?)
340 *
341 * Try find _KPRCB::QuantumEnd and _KPRCB::[DpcData.]DpcQueueDepth.
342 * For purpose of verification we use the VendorString member (12+1 chars).
343 *
344 * The offsets was initially derived by poking around with windbg
345 * (dt _KPRCB, !prcb ++, and such like). Systematic harvesting was then
346 * planned using dia2dump, grep and the symbol pack in a manner like this:
347 * dia2dump -type _KDPC_DATA -type _KPRCB EXE\ntkrnlmp.pdb | grep -wE "QuantumEnd|DpcData|DpcQueueDepth|VendorString"
348 *
349 * The final solution ended up using a custom harvester program called
350 * ntBldSymDb that recursively searches thru unpacked symbol packages for
351 * the desired structure offsets. The program assumes that the packages
352 * are unpacked into directories with the same name as the package, with
353 * exception of some of the w2k packages which requires a 'w2k' prefix to
354 * be distinguishable from another.
355 */
356
357 RTNTSDBOSVER OsVerInfo;
358 rtR0NtGetOsVersionInfo(&OsVerInfo);
359
360 /* Publish the version info in globals. */
361 g_uRtNtVersion = RTNT_MAKE_VERSION(OsVerInfo.uMajorVer, OsVerInfo.uMinorVer);
362 g_uRtNtMinorVer = OsVerInfo.uMinorVer;
363 g_uRtNtMajorVer = OsVerInfo.uMajorVer;
364 g_uRtNtBuildNo = OsVerInfo.uBuildNo;
365
366 /*
367 * Gather consistent CPU vendor string and PRCB pointers.
368 */
369 KIRQL OldIrql;
370 KeRaiseIrql(DISPATCH_LEVEL, &OldIrql); /* make sure we stay on the same cpu */
371
372 union
373 {
374 uint32_t auRegs[4];
375 char szVendor[4*3+1];
376 } u;
377 ASMCpuId(0, &u.auRegs[3], &u.auRegs[0], &u.auRegs[2], &u.auRegs[1]);
378 u.szVendor[4*3] = '\0';
379
380 uint8_t *pbPrcb;
381 __try /* Warning. This try/except statement may provide some false safety. */
382 {
383#if defined(RT_ARCH_X86)
384 PKPCR pPcr = (PKPCR)__readfsdword(RT_OFFSETOF(KPCR,SelfPcr));
385 pbPrcb = (uint8_t *)pPcr->Prcb;
386#elif defined(RT_ARCH_AMD64)
387 PKPCR pPcr = (PKPCR)__readgsqword(RT_OFFSETOF(KPCR,Self));
388 pbPrcb = (uint8_t *)pPcr->CurrentPrcb;
389#else
390# error "port me"
391 pbPrcb = NULL;
392#endif
393 }
394 __except(EXCEPTION_EXECUTE_HANDLER)
395 {
396 pbPrcb = NULL;
397 }
398
399 /*
400 * Search the database
401 */
402 if (pbPrcb)
403 {
404 /* Find the best matching kernel version based on build number. */
405 uint32_t iBest = UINT32_MAX;
406 int32_t iBestDelta = INT32_MAX;
407 for (uint32_t i = 0; i < RT_ELEMENTS(g_artNtSdbSets); i++)
408 {
409 if (g_artNtSdbSets[i].OsVerInfo.fChecked != OsVerInfo.fChecked)
410 continue;
411 if (OsVerInfo.fSmp /*must-be-smp*/ && !g_artNtSdbSets[i].OsVerInfo.fSmp)
412 continue;
413
414 int32_t iDelta = RT_ABS((int32_t)OsVerInfo.uBuildNo - (int32_t)g_artNtSdbSets[i].OsVerInfo.uBuildNo);
415 if ( iDelta == 0
416 && (g_artNtSdbSets[i].OsVerInfo.uCsdNo == OsVerInfo.uCsdNo || OsVerInfo.uCsdNo == MY_NIL_CSD))
417 {
418 /* prefect */
419 iBestDelta = iDelta;
420 iBest = i;
421 break;
422 }
423 if ( iDelta < iBestDelta
424 || iBest == UINT32_MAX
425 || ( iDelta == iBestDelta
426 && OsVerInfo.uCsdNo != MY_NIL_CSD
427 && RT_ABS(g_artNtSdbSets[i ].OsVerInfo.uCsdNo - (int32_t)OsVerInfo.uCsdNo)
428 < RT_ABS(g_artNtSdbSets[iBest].OsVerInfo.uCsdNo - (int32_t)OsVerInfo.uCsdNo)
429 )
430 )
431 {
432 iBestDelta = iDelta;
433 iBest = i;
434 }
435 }
436 if (iBest < RT_ELEMENTS(g_artNtSdbSets))
437 {
438 /* Try all sets: iBest -> End; iBest -> Start. */
439 bool fDone = false;
440 int32_t i = iBest;
441 while ( i < RT_ELEMENTS(g_artNtSdbSets)
442 && !(fDone = rtR0NtTryMatchSymSet(&g_artNtSdbSets[i], pbPrcb, u.szVendor, &OsVerInfo)))
443 i++;
444 if (!fDone)
445 {
446 i = (int32_t)iBest - 1;
447 while ( i >= 0
448 && !(fDone = rtR0NtTryMatchSymSet(&g_artNtSdbSets[i], pbPrcb, u.szVendor, &OsVerInfo)))
449 i--;
450 }
451 }
452 else
453 DbgPrint("IPRT: Failed to locate data set.\n");
454 }
455 else
456 DbgPrint("IPRT: Failed to get PCBR pointer.\n");
457
458 KeLowerIrql(OldIrql); /* Lowering the IRQL early in the hope that we may catch exceptions below. */
459
460#ifndef IN_GUEST
461 if (!g_offrtNtPbQuantumEnd && !g_offrtNtPbDpcQueueDepth)
462 DbgPrint("IPRT: Neither _KPRCB::QuantumEnd nor _KPRCB::DpcQueueDepth was not found! Kernel %u.%u %u %s\n",
463 OsVerInfo.uMajorVer, OsVerInfo.uMinorVer, OsVerInfo.uBuildNo, OsVerInfo.fChecked ? "checked" : "free");
464# ifdef DEBUG
465 else
466 DbgPrint("IPRT: _KPRCB:{.QuantumEnd=%x/%d, .DpcQueueDepth=%x/%d} Kernel %u.%u %u %s\n",
467 g_offrtNtPbQuantumEnd, g_cbrtNtPbQuantumEnd, g_offrtNtPbDpcQueueDepth, g_offrtNtPbDpcQueueDepth,
468 OsVerInfo.uMajorVer, OsVerInfo.uMinorVer, OsVerInfo.uBuildNo, OsVerInfo.fChecked ? "checked" : "free");
469# endif
470#endif
471
472 /*
473 * Initialize multi processor stuff. This registers a callback, so
474 * we call rtR0TermNative to do the deregistration on failure.
475 */
476 rc = rtR0MpNtInit(&OsVerInfo);
477 if (RT_FAILURE(rc))
478 {
479 rtR0TermNative();
480 DbgPrint("IPRT: Fatal: rtR0MpNtInit failed: %d\n", rc);
481 return rc;
482 }
483
484 return VINF_SUCCESS;
485}
486
487
488DECLHIDDEN(void) rtR0TermNative(void)
489{
490 rtR0MpNtTerm();
491}
492
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