VirtualBox

source: vbox/trunk/src/VBox/VMM/VMMR3/EMRaw.cpp@ 59083

Last change on this file since 59083 was 58126, checked in by vboxsync, 9 years ago

VMM: Fixed almost all the Doxygen warnings.

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1/* $Id: EMRaw.cpp 58126 2015-10-08 20:59:48Z vboxsync $ */
2/** @file
3 * EM - Execution Monitor / Manager - software virtualization
4 */
5
6/*
7 * Copyright (C) 2006-2015 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
18
19/*********************************************************************************************************************************
20* Header Files *
21*********************************************************************************************************************************/
22#define LOG_GROUP LOG_GROUP_EM
23#include <VBox/vmm/em.h>
24#include <VBox/vmm/vmm.h>
25#include <VBox/vmm/patm.h>
26#include <VBox/vmm/csam.h>
27#include <VBox/vmm/selm.h>
28#include <VBox/vmm/trpm.h>
29#include <VBox/vmm/iem.h>
30#include <VBox/vmm/iom.h>
31#include <VBox/vmm/dbgf.h>
32#include <VBox/vmm/pgm.h>
33#ifdef VBOX_WITH_REM
34# include <VBox/vmm/rem.h>
35#endif
36#include <VBox/vmm/tm.h>
37#include <VBox/vmm/mm.h>
38#include <VBox/vmm/ssm.h>
39#include <VBox/vmm/pdmapi.h>
40#include <VBox/vmm/pdmcritsect.h>
41#include <VBox/vmm/pdmqueue.h>
42#include <VBox/vmm/patm.h>
43#include "EMInternal.h"
44#include <VBox/vmm/vm.h>
45#include <VBox/vmm/gim.h>
46#include <VBox/vmm/cpumdis.h>
47#include <VBox/dis.h>
48#include <VBox/disopcode.h>
49#include <VBox/vmm/dbgf.h>
50#include "VMMTracing.h"
51
52#include <VBox/log.h>
53#include <iprt/asm.h>
54#include <iprt/string.h>
55#include <iprt/stream.h>
56
57
58
59/*********************************************************************************************************************************
60* Internal Functions *
61*********************************************************************************************************************************/
62static int emR3RawForcedActions(PVM pVM, PVMCPU pVCpu, PCPUMCTX pCtx);
63DECLINLINE(int) emR3RawExecuteInstruction(PVM pVM, PVMCPU pVCpu, const char *pszPrefix, int rcGC = VINF_SUCCESS);
64static int emR3RawGuestTrap(PVM pVM, PVMCPU pVCpu);
65static int emR3RawPatchTrap(PVM pVM, PVMCPU pVCpu, PCPUMCTX pCtx, int gcret);
66static int emR3RawPrivileged(PVM pVM, PVMCPU pVCpu);
67static int emR3RawExecuteIOInstruction(PVM pVM, PVMCPU pVCpu);
68static int emR3RawRingSwitch(PVM pVM, PVMCPU pVCpu);
69
70#define EMHANDLERC_WITH_PATM
71#define emR3ExecuteInstruction emR3RawExecuteInstruction
72#define emR3ExecuteIOInstruction emR3RawExecuteIOInstruction
73#include "EMHandleRCTmpl.h"
74
75
76
77#ifdef VBOX_WITH_STATISTICS
78/**
79 * Just a braindead function to keep track of cli addresses.
80 * @param pVM The cross context VM structure.
81 * @param pVCpu The cross context virtual CPU structure.
82 * @param GCPtrInstr The EIP of the cli instruction.
83 */
84static void emR3RecordCli(PVM pVM, PVMCPU pVCpu, RTGCPTR GCPtrInstr)
85{
86 PCLISTAT pRec;
87
88 pRec = (PCLISTAT)RTAvlGCPtrGet(&pVCpu->em.s.pCliStatTree, GCPtrInstr);
89 if (!pRec)
90 {
91 /* New cli instruction; insert into the tree. */
92 pRec = (PCLISTAT)MMR3HeapAllocZ(pVM, MM_TAG_EM, sizeof(*pRec));
93 Assert(pRec);
94 if (!pRec)
95 return;
96 pRec->Core.Key = GCPtrInstr;
97
98 char szCliStatName[32];
99 RTStrPrintf(szCliStatName, sizeof(szCliStatName), "/EM/Cli/0x%RGv", GCPtrInstr);
100 STAM_REG(pVM, &pRec->Counter, STAMTYPE_COUNTER, szCliStatName, STAMUNIT_OCCURENCES, "Number of times cli was executed.");
101
102 bool fRc = RTAvlGCPtrInsert(&pVCpu->em.s.pCliStatTree, &pRec->Core);
103 Assert(fRc); NOREF(fRc);
104 }
105 STAM_COUNTER_INC(&pRec->Counter);
106 STAM_COUNTER_INC(&pVCpu->em.s.StatTotalClis);
107}
108#endif /* VBOX_WITH_STATISTICS */
109
110
111
112/**
113 * Resumes executing hypervisor after a debug event.
114 *
115 * This is kind of special since our current guest state is
116 * potentially out of sync.
117 *
118 * @returns VBox status code.
119 * @param pVM The cross context VM structure.
120 * @param pVCpu The cross context virtual CPU structure.
121 */
122int emR3RawResumeHyper(PVM pVM, PVMCPU pVCpu)
123{
124 int rc;
125 PCPUMCTX pCtx = pVCpu->em.s.pCtx;
126 Assert(pVCpu->em.s.enmState == EMSTATE_DEBUG_HYPER);
127 Log(("emR3RawResumeHyper: cs:eip=%RTsel:%RGr efl=%RGr\n", pCtx->cs.Sel, pCtx->eip, pCtx->eflags));
128
129 /*
130 * Resume execution.
131 */
132 CPUMRawEnter(pVCpu);
133 CPUMSetHyperEFlags(pVCpu, CPUMGetHyperEFlags(pVCpu) | X86_EFL_RF);
134 rc = VMMR3ResumeHyper(pVM, pVCpu);
135 Log(("emR3RawResumeHyper: cs:eip=%RTsel:%RGr efl=%RGr - returned from GC with rc=%Rrc\n", pCtx->cs.Sel, pCtx->eip, pCtx->eflags, rc));
136 rc = CPUMRawLeave(pVCpu, rc);
137 VMCPU_FF_CLEAR(pVCpu, VMCPU_FF_RESUME_GUEST_MASK);
138
139 /*
140 * Deal with the return code.
141 */
142 rc = emR3HighPriorityPostForcedActions(pVM, pVCpu, rc);
143 rc = emR3RawHandleRC(pVM, pVCpu, pCtx, rc);
144 rc = emR3RawUpdateForceFlag(pVM, pVCpu, pCtx, rc);
145 return rc;
146}
147
148
149/**
150 * Steps rawmode.
151 *
152 * @returns VBox status code.
153 * @param pVM The cross context VM structure.
154 * @param pVCpu The cross context virtual CPU structure.
155 */
156int emR3RawStep(PVM pVM, PVMCPU pVCpu)
157{
158 Assert( pVCpu->em.s.enmState == EMSTATE_DEBUG_HYPER
159 || pVCpu->em.s.enmState == EMSTATE_DEBUG_GUEST_RAW
160 || pVCpu->em.s.enmState == EMSTATE_DEBUG_GUEST_REM);
161 int rc;
162 PCPUMCTX pCtx = pVCpu->em.s.pCtx;
163 bool fGuest = pVCpu->em.s.enmState != EMSTATE_DEBUG_HYPER;
164#ifndef DEBUG_sander
165 Log(("emR3RawStep: cs:eip=%RTsel:%RGr efl=%RGr\n", fGuest ? CPUMGetGuestCS(pVCpu) : CPUMGetHyperCS(pVCpu),
166 fGuest ? CPUMGetGuestEIP(pVCpu) : CPUMGetHyperEIP(pVCpu), fGuest ? CPUMGetGuestEFlags(pVCpu) : CPUMGetHyperEFlags(pVCpu)));
167#endif
168 if (fGuest)
169 {
170 /*
171 * Check vital forced actions, but ignore pending interrupts and timers.
172 */
173 if ( VM_FF_IS_PENDING(pVM, VM_FF_HIGH_PRIORITY_PRE_RAW_MASK)
174 || VMCPU_FF_IS_PENDING(pVCpu, VMCPU_FF_HIGH_PRIORITY_PRE_RAW_MASK))
175 {
176 rc = emR3RawForcedActions(pVM, pVCpu, pCtx);
177 VBOXVMM_EM_FF_RAW_RET(pVCpu, rc);
178 if (rc != VINF_SUCCESS)
179 return rc;
180 }
181
182 /*
183 * Set flags for single stepping.
184 */
185 CPUMSetGuestEFlags(pVCpu, CPUMGetGuestEFlags(pVCpu) | X86_EFL_TF | X86_EFL_RF);
186 }
187 else
188 CPUMSetHyperEFlags(pVCpu, CPUMGetHyperEFlags(pVCpu) | X86_EFL_TF | X86_EFL_RF);
189
190 /*
191 * Single step.
192 * We do not start time or anything, if anything we should just do a few nanoseconds.
193 */
194 CPUMRawEnter(pVCpu);
195 do
196 {
197 if (pVCpu->em.s.enmState == EMSTATE_DEBUG_HYPER)
198 rc = VMMR3ResumeHyper(pVM, pVCpu);
199 else
200 rc = VMMR3RawRunGC(pVM, pVCpu);
201#ifndef DEBUG_sander
202 Log(("emR3RawStep: cs:eip=%RTsel:%RGr efl=%RGr - GC rc %Rrc\n", fGuest ? CPUMGetGuestCS(pVCpu) : CPUMGetHyperCS(pVCpu),
203 fGuest ? CPUMGetGuestEIP(pVCpu) : CPUMGetHyperEIP(pVCpu), fGuest ? CPUMGetGuestEFlags(pVCpu) : CPUMGetHyperEFlags(pVCpu), rc));
204#endif
205 } while ( rc == VINF_SUCCESS
206 || rc == VINF_EM_RAW_INTERRUPT);
207 rc = CPUMRawLeave(pVCpu, rc);
208 VMCPU_FF_CLEAR(pVCpu, VMCPU_FF_RESUME_GUEST_MASK);
209
210 /*
211 * Make sure the trap flag is cleared.
212 * (Too bad if the guest is trying to single step too.)
213 */
214 if (fGuest)
215 CPUMSetGuestEFlags(pVCpu, CPUMGetGuestEFlags(pVCpu) & ~X86_EFL_TF);
216 else
217 CPUMSetHyperEFlags(pVCpu, CPUMGetHyperEFlags(pVCpu) & ~X86_EFL_TF);
218
219 /*
220 * Deal with the return codes.
221 */
222 rc = emR3HighPriorityPostForcedActions(pVM, pVCpu, rc);
223 rc = emR3RawHandleRC(pVM, pVCpu, pCtx, rc);
224 rc = emR3RawUpdateForceFlag(pVM, pVCpu, pCtx, rc);
225 return rc;
226}
227
228
229#ifdef DEBUG
230
231
232int emR3SingleStepExecRaw(PVM pVM, PVMCPU pVCpu, uint32_t cIterations)
233{
234 int rc = VINF_SUCCESS;
235 EMSTATE enmOldState = pVCpu->em.s.enmState;
236 pVCpu->em.s.enmState = EMSTATE_DEBUG_GUEST_RAW;
237
238 Log(("Single step BEGIN:\n"));
239 for (uint32_t i = 0; i < cIterations; i++)
240 {
241 DBGFR3PrgStep(pVCpu);
242 DBGFR3_DISAS_INSTR_CUR_LOG(pVCpu, "RSS");
243 rc = emR3RawStep(pVM, pVCpu);
244 if ( rc != VINF_SUCCESS
245 && rc != VINF_EM_DBG_STEPPED)
246 break;
247 }
248 Log(("Single step END: rc=%Rrc\n", rc));
249 CPUMSetGuestEFlags(pVCpu, CPUMGetGuestEFlags(pVCpu) & ~X86_EFL_TF);
250 pVCpu->em.s.enmState = enmOldState;
251 return rc;
252}
253
254#endif /* DEBUG */
255
256
257/**
258 * Executes one (or perhaps a few more) instruction(s).
259 *
260 * @returns VBox status code suitable for EM.
261 *
262 * @param pVM The cross context VM structure.
263 * @param pVCpu The cross context virtual CPU structure.
264 * @param rcGC GC return code
265 * @param pszPrefix Disassembly prefix. If not NULL we'll disassemble the
266 * instruction and prefix the log output with this text.
267 */
268#if defined(LOG_ENABLED) || defined(DOXYGEN_RUNNING)
269static int emR3RawExecuteInstructionWorker(PVM pVM, PVMCPU pVCpu, int rcGC, const char *pszPrefix)
270#else
271static int emR3RawExecuteInstructionWorker(PVM pVM, PVMCPU pVCpu, int rcGC)
272#endif
273{
274 PCPUMCTX pCtx = pVCpu->em.s.pCtx;
275 int rc;
276
277#ifdef LOG_ENABLED
278 /*
279 * Disassemble the instruction if requested.
280 */
281 if (pszPrefix)
282 {
283 DBGFR3_INFO_LOG(pVM, "cpumguest", pszPrefix);
284 DBGFR3_DISAS_INSTR_CUR_LOG(pVCpu, pszPrefix);
285 }
286#endif /* LOG_ENABLED */
287
288 /*
289 * PATM is making life more interesting.
290 * We cannot hand anything to REM which has an EIP inside patch code. So, we'll
291 * tell PATM there is a trap in this code and have it take the appropriate actions
292 * to allow us execute the code in REM.
293 */
294 if (PATMIsPatchGCAddr(pVM, pCtx->eip))
295 {
296 Log(("emR3RawExecuteInstruction: In patch block. eip=%RRv\n", (RTRCPTR)pCtx->eip));
297
298 RTGCPTR uNewEip;
299 rc = PATMR3HandleTrap(pVM, pCtx, pCtx->eip, &uNewEip);
300 switch (rc)
301 {
302 /*
303 * It's not very useful to emulate a single instruction and then go back to raw
304 * mode; just execute the whole block until IF is set again.
305 */
306 case VINF_SUCCESS:
307 Log(("emR3RawExecuteInstruction: Executing instruction starting at new address %RGv IF=%d VMIF=%x\n",
308 uNewEip, pCtx->eflags.Bits.u1IF, pVCpu->em.s.pPatmGCState->uVMFlags));
309 pCtx->eip = uNewEip;
310 Assert(pCtx->eip);
311
312 if (pCtx->eflags.Bits.u1IF)
313 {
314 /*
315 * The last instruction in the patch block needs to be executed!! (sti/sysexit for example)
316 */
317 Log(("PATCH: IF=1 -> emulate last instruction as it can't be interrupted!!\n"));
318 return emR3RawExecuteInstruction(pVM, pVCpu, "PATCHIR");
319 }
320 else if (rcGC == VINF_PATM_PENDING_IRQ_AFTER_IRET)
321 {
322 /* special case: iret, that sets IF, detected a pending irq/event */
323 return emR3RawExecuteInstruction(pVM, pVCpu, "PATCHIRET");
324 }
325 return VINF_EM_RESCHEDULE_REM;
326
327 /*
328 * One instruction.
329 */
330 case VINF_PATCH_EMULATE_INSTR:
331 Log(("emR3RawExecuteInstruction: Emulate patched instruction at %RGv IF=%d VMIF=%x\n",
332 uNewEip, pCtx->eflags.Bits.u1IF, pVCpu->em.s.pPatmGCState->uVMFlags));
333 pCtx->eip = uNewEip;
334 return emR3RawExecuteInstruction(pVM, pVCpu, "PATCHIR");
335
336 /*
337 * The patch was disabled, hand it to the REM.
338 */
339 case VERR_PATCH_DISABLED:
340 Log(("emR3RawExecuteInstruction: Disabled patch -> new eip %RGv IF=%d VMIF=%x\n",
341 uNewEip, pCtx->eflags.Bits.u1IF, pVCpu->em.s.pPatmGCState->uVMFlags));
342 pCtx->eip = uNewEip;
343 if (pCtx->eflags.Bits.u1IF)
344 {
345 /*
346 * The last instruction in the patch block needs to be executed!! (sti/sysexit for example)
347 */
348 Log(("PATCH: IF=1 -> emulate last instruction as it can't be interrupted!!\n"));
349 return emR3RawExecuteInstruction(pVM, pVCpu, "PATCHIR");
350 }
351 return VINF_EM_RESCHEDULE_REM;
352
353 /* Force continued patch exection; usually due to write monitored stack. */
354 case VINF_PATCH_CONTINUE:
355 return VINF_SUCCESS;
356
357 default:
358 AssertReleaseMsgFailed(("Unknown return code %Rrc from PATMR3HandleTrap\n", rc));
359 return VERR_IPE_UNEXPECTED_STATUS;
360 }
361 }
362
363
364 /*
365 * Use IEM and fallback on REM if the functionality is missing.
366 * Once IEM gets mature enough, nothing should ever fall back.
367 */
368//#define VBOX_WITH_FIRST_IEM_STEP_B
369#if defined(VBOX_WITH_FIRST_IEM_STEP_B) || !defined(VBOX_WITH_REM)
370 Log(("EMINS: %04x:%RGv RSP=%RGv\n", pCtx->cs.Sel, (RTGCPTR)pCtx->rip, (RTGCPTR)pCtx->rsp));
371 STAM_PROFILE_START(&pVCpu->em.s.StatIEMEmu, a);
372 rc = VBOXSTRICTRC_TODO(IEMExecOne(pVCpu));
373 STAM_PROFILE_STOP(&pVCpu->em.s.StatIEMEmu, a);
374 if (RT_SUCCESS(rc))
375 {
376 if (rc == VINF_SUCCESS || rc == VINF_EM_RESCHEDULE)
377 rc = VINF_EM_RESCHEDULE;
378# ifdef DEBUG_bird
379 else
380 AssertMsgFailed(("%Rrc\n", rc));
381# endif
382 }
383 else if ( rc == VERR_IEM_ASPECT_NOT_IMPLEMENTED
384 || rc == VERR_IEM_INSTR_NOT_IMPLEMENTED)
385#endif
386 {
387#ifdef VBOX_WITH_REM
388 STAM_PROFILE_START(&pVCpu->em.s.StatREMEmu, b);
389# ifndef VBOX_WITH_FIRST_IEM_STEP_B
390 Log(("EMINS[rem]: %04x:%RGv RSP=%RGv\n", pCtx->cs.Sel, (RTGCPTR)pCtx->rip, (RTGCPTR)pCtx->rsp));
391//# elif defined(DEBUG_bird)
392// AssertFailed();
393# endif
394 EMRemLock(pVM);
395 /* Flush the recompiler TLB if the VCPU has changed. */
396 if (pVM->em.s.idLastRemCpu != pVCpu->idCpu)
397 CPUMSetChangedFlags(pVCpu, CPUM_CHANGED_ALL);
398 pVM->em.s.idLastRemCpu = pVCpu->idCpu;
399
400 rc = REMR3EmulateInstruction(pVM, pVCpu);
401 EMRemUnlock(pVM);
402 STAM_PROFILE_STOP(&pVCpu->em.s.StatREMEmu, b);
403#else /* !VBOX_WITH_REM */
404 NOREF(pVM);
405#endif /* !VBOX_WITH_REM */
406 }
407 return rc;
408}
409
410
411/**
412 * Executes one (or perhaps a few more) instruction(s).
413 * This is just a wrapper for discarding pszPrefix in non-logging builds.
414 *
415 * @returns VBox status code suitable for EM.
416 * @param pVM The cross context VM structure.
417 * @param pVCpu The cross context virtual CPU structure.
418 * @param pszPrefix Disassembly prefix. If not NULL we'll disassemble the
419 * instruction and prefix the log output with this text.
420 * @param rcGC GC return code
421 */
422DECLINLINE(int) emR3RawExecuteInstruction(PVM pVM, PVMCPU pVCpu, const char *pszPrefix, int rcGC)
423{
424#ifdef LOG_ENABLED
425 return emR3RawExecuteInstructionWorker(pVM, pVCpu, rcGC, pszPrefix);
426#else
427 return emR3RawExecuteInstructionWorker(pVM, pVCpu, rcGC);
428#endif
429}
430
431/**
432 * Executes one (or perhaps a few more) IO instruction(s).
433 *
434 * @returns VBox status code suitable for EM.
435 * @param pVM The cross context VM structure.
436 * @param pVCpu The cross context virtual CPU structure.
437 */
438static int emR3RawExecuteIOInstruction(PVM pVM, PVMCPU pVCpu)
439{
440 STAM_PROFILE_START(&pVCpu->em.s.StatIOEmu, a);
441
442 /* Hand it over to the interpreter. */
443 VBOXSTRICTRC rcStrict = IEMExecOne(pVCpu);
444 LogFlow(("emR3RawExecuteIOInstruction: %Rrc\n", VBOXSTRICTRC_VAL(rcStrict)));
445 STAM_COUNTER_INC(&pVCpu->em.s.CTX_SUFF(pStats)->StatIoIem);
446 STAM_PROFILE_STOP(&pVCpu->em.s.StatIOEmu, a);
447 return VBOXSTRICTRC_TODO(rcStrict);
448}
449
450
451/**
452 * Handle a guest context trap.
453 *
454 * @returns VBox status code suitable for EM.
455 * @param pVM The cross context VM structure.
456 * @param pVCpu The cross context virtual CPU structure.
457 */
458static int emR3RawGuestTrap(PVM pVM, PVMCPU pVCpu)
459{
460 PCPUMCTX pCtx = pVCpu->em.s.pCtx;
461
462 /*
463 * Get the trap info.
464 */
465 uint8_t u8TrapNo;
466 TRPMEVENT enmType;
467 RTGCUINT uErrorCode;
468 RTGCUINTPTR uCR2;
469 int rc = TRPMQueryTrapAll(pVCpu, &u8TrapNo, &enmType, &uErrorCode, &uCR2, NULL /* pu8InstrLen */);
470 if (RT_FAILURE(rc))
471 {
472 AssertReleaseMsgFailed(("No trap! (rc=%Rrc)\n", rc));
473 return rc;
474 }
475
476
477#if 1 /* Experimental: Review, disable if it causes trouble. */
478 /*
479 * Handle traps in patch code first.
480 *
481 * We catch a few of these cases in RC before returning to R3 (#PF, #GP, #BP)
482 * but several traps isn't handled specially by TRPM in RC and we end up here
483 * instead. One example is #DE.
484 */
485 uint32_t uCpl = CPUMGetGuestCPL(pVCpu);
486 if ( uCpl == 0
487 && PATMIsPatchGCAddr(pVM, pCtx->eip))
488 {
489 LogFlow(("emR3RawGuestTrap: trap %#x in patch code; eip=%08x\n", u8TrapNo, pCtx->eip));
490 return emR3RawPatchTrap(pVM, pVCpu, pCtx, rc);
491 }
492#endif
493
494 /*
495 * If the guest gate is marked unpatched, then we will check again if we can patch it.
496 * (This assumes that we've already tried and failed to dispatch the trap in
497 * RC for the gates that already has been patched. Which is true for most high
498 * volume traps, because these are handled specially, but not for odd ones like #DE.)
499 */
500 if (TRPMR3GetGuestTrapHandler(pVM, u8TrapNo) == TRPM_INVALID_HANDLER)
501 {
502 CSAMR3CheckGates(pVM, u8TrapNo, 1);
503 Log(("emR3RawHandleRC: recheck gate %x -> valid=%d\n", u8TrapNo, TRPMR3GetGuestTrapHandler(pVM, u8TrapNo) != TRPM_INVALID_HANDLER));
504
505 /* If it was successful, then we could go back to raw mode. */
506 if (TRPMR3GetGuestTrapHandler(pVM, u8TrapNo) != TRPM_INVALID_HANDLER)
507 {
508 /* Must check pending forced actions as our IDT or GDT might be out of sync. */
509 rc = EMR3CheckRawForcedActions(pVM, pVCpu);
510 AssertRCReturn(rc, rc);
511
512 TRPMERRORCODE enmError = uErrorCode != ~0U
513 ? TRPM_TRAP_HAS_ERRORCODE
514 : TRPM_TRAP_NO_ERRORCODE;
515 rc = TRPMForwardTrap(pVCpu, CPUMCTX2CORE(pCtx), u8TrapNo, uErrorCode, enmError, TRPM_TRAP, -1);
516 if (rc == VINF_SUCCESS /* Don't use RT_SUCCESS */)
517 {
518 TRPMResetTrap(pVCpu);
519 return VINF_EM_RESCHEDULE_RAW;
520 }
521 AssertMsg(rc == VINF_EM_RAW_GUEST_TRAP, ("%Rrc\n", rc));
522 }
523 }
524
525 /*
526 * Scan kernel code that traps; we might not get another chance.
527 */
528 /** @todo move this up before the dispatching? */
529 if ( (pCtx->ss.Sel & X86_SEL_RPL) <= 1
530 && !pCtx->eflags.Bits.u1VM)
531 {
532 Assert(!PATMIsPatchGCAddr(pVM, pCtx->eip));
533 CSAMR3CheckCodeEx(pVM, pCtx, pCtx->eip);
534 }
535
536 /*
537 * Trap specific handling.
538 */
539 if (u8TrapNo == 6) /* (#UD) Invalid opcode. */
540 {
541 /*
542 * If MONITOR & MWAIT are supported, then interpret them here.
543 */
544 DISCPUSTATE cpu;
545 rc = CPUMR3DisasmInstrCPU(pVM, pVCpu, pCtx, pCtx->rip, &cpu, "Guest Trap (#UD): ");
546 if ( RT_SUCCESS(rc)
547 && (cpu.pCurInstr->uOpcode == OP_MONITOR || cpu.pCurInstr->uOpcode == OP_MWAIT))
548 {
549 uint32_t u32Dummy, u32Features, u32ExtFeatures;
550 CPUMGetGuestCpuId(pVCpu, 1, 0, &u32Dummy, &u32Dummy, &u32ExtFeatures, &u32Features);
551 if (u32ExtFeatures & X86_CPUID_FEATURE_ECX_MONITOR)
552 {
553 rc = TRPMResetTrap(pVCpu);
554 AssertRC(rc);
555
556 rc = VBOXSTRICTRC_TODO(EMInterpretInstructionDisasState(pVCpu, &cpu, CPUMCTX2CORE(pCtx), 0, EMCODETYPE_SUPERVISOR));
557 if (RT_SUCCESS(rc))
558 return rc;
559 return emR3RawExecuteInstruction(pVM, pVCpu, "Monitor: ");
560 }
561 }
562 }
563 else if (u8TrapNo == 13) /* (#GP) Privileged exception */
564 {
565 /*
566 * Handle I/O bitmap?
567 */
568 /** @todo We're not supposed to be here with a false guest trap concerning
569 * I/O access. We can easily handle those in RC. */
570 DISCPUSTATE cpu;
571 rc = CPUMR3DisasmInstrCPU(pVM, pVCpu, pCtx, pCtx->rip, &cpu, "Guest Trap: ");
572 if ( RT_SUCCESS(rc)
573 && (cpu.pCurInstr->fOpType & DISOPTYPE_PORTIO))
574 {
575 /*
576 * We should really check the TSS for the IO bitmap, but it's not like this
577 * lazy approach really makes things worse.
578 */
579 rc = TRPMResetTrap(pVCpu);
580 AssertRC(rc);
581 return emR3RawExecuteInstruction(pVM, pVCpu, "IO Guest Trap: ");
582 }
583 }
584
585#ifdef LOG_ENABLED
586 DBGFR3_INFO_LOG(pVM, "cpumguest", "Guest trap");
587 DBGFR3_DISAS_INSTR_CUR_LOG(pVCpu, "Guest trap");
588
589 /* Get guest page information. */
590 uint64_t fFlags = 0;
591 RTGCPHYS GCPhys = 0;
592 int rc2 = PGMGstGetPage(pVCpu, uCR2, &fFlags, &GCPhys);
593 Log(("emR3RawGuestTrap: cs:eip=%04x:%08x: trap=%02x err=%08x cr2=%08x cr0=%08x%s: Phys=%RGp fFlags=%08llx %s %s %s%s rc2=%d\n",
594 pCtx->cs.Sel, pCtx->eip, u8TrapNo, uErrorCode, uCR2, (uint32_t)pCtx->cr0,
595 (enmType == TRPM_SOFTWARE_INT) ? " software" : "", GCPhys, fFlags,
596 fFlags & X86_PTE_P ? "P " : "NP", fFlags & X86_PTE_US ? "U" : "S",
597 fFlags & X86_PTE_RW ? "RW" : "R0", fFlags & X86_PTE_G ? " G" : "", rc2));
598#endif
599
600 /*
601 * #PG has CR2.
602 * (Because of stuff like above we must set CR2 in a delayed fashion.)
603 */
604 if (u8TrapNo == 14 /* #PG */)
605 pCtx->cr2 = uCR2;
606
607 return VINF_EM_RESCHEDULE_REM;
608}
609
610
611/**
612 * Handle a ring switch trap.
613 * Need to do statistics and to install patches. The result is going to REM.
614 *
615 * @returns VBox status code suitable for EM.
616 * @param pVM The cross context VM structure.
617 * @param pVCpu The cross context virtual CPU structure.
618 */
619static int emR3RawRingSwitch(PVM pVM, PVMCPU pVCpu)
620{
621 int rc;
622 DISCPUSTATE Cpu;
623 PCPUMCTX pCtx = pVCpu->em.s.pCtx;
624
625 /*
626 * sysenter, syscall & callgate
627 */
628 rc = CPUMR3DisasmInstrCPU(pVM, pVCpu, pCtx, pCtx->rip, &Cpu, "RSWITCH: ");
629 if (RT_SUCCESS(rc))
630 {
631 if (Cpu.pCurInstr->uOpcode == OP_SYSENTER)
632 {
633 if (pCtx->SysEnter.cs != 0)
634 {
635 rc = PATMR3InstallPatch(pVM, SELMToFlat(pVM, DISSELREG_CS, CPUMCTX2CORE(pCtx), pCtx->eip),
636 CPUMGetGuestCodeBits(pVCpu) == 32 ? PATMFL_CODE32 : 0);
637 if (RT_SUCCESS(rc))
638 {
639 DBGFR3_DISAS_INSTR_CUR_LOG(pVCpu, "Patched sysenter instruction");
640 return VINF_EM_RESCHEDULE_RAW;
641 }
642 }
643 }
644
645#ifdef VBOX_WITH_STATISTICS
646 switch (Cpu.pCurInstr->uOpcode)
647 {
648 case OP_SYSENTER:
649 STAM_COUNTER_INC(&pVCpu->em.s.CTX_SUFF(pStats)->StatSysEnter);
650 break;
651 case OP_SYSEXIT:
652 STAM_COUNTER_INC(&pVCpu->em.s.CTX_SUFF(pStats)->StatSysExit);
653 break;
654 case OP_SYSCALL:
655 STAM_COUNTER_INC(&pVCpu->em.s.CTX_SUFF(pStats)->StatSysCall);
656 break;
657 case OP_SYSRET:
658 STAM_COUNTER_INC(&pVCpu->em.s.CTX_SUFF(pStats)->StatSysRet);
659 break;
660 }
661#endif
662 }
663 else
664 AssertRC(rc);
665
666 /* go to the REM to emulate a single instruction */
667 return emR3RawExecuteInstruction(pVM, pVCpu, "RSWITCH: ");
668}
669
670
671/**
672 * Handle a trap (\#PF or \#GP) in patch code
673 *
674 * @returns VBox status code suitable for EM.
675 * @param pVM The cross context VM structure.
676 * @param pVCpu The cross context virtual CPU structure.
677 * @param pCtx Pointer to the guest CPU context.
678 * @param gcret GC return code.
679 */
680static int emR3RawPatchTrap(PVM pVM, PVMCPU pVCpu, PCPUMCTX pCtx, int gcret)
681{
682 uint8_t u8TrapNo;
683 int rc;
684 TRPMEVENT enmType;
685 RTGCUINT uErrorCode;
686 RTGCUINTPTR uCR2;
687
688 Assert(PATMIsPatchGCAddr(pVM, pCtx->eip));
689
690 if (gcret == VINF_PATM_PATCH_INT3)
691 {
692 u8TrapNo = 3;
693 uCR2 = 0;
694 uErrorCode = 0;
695 }
696 else if (gcret == VINF_PATM_PATCH_TRAP_GP)
697 {
698 /* No active trap in this case. Kind of ugly. */
699 u8TrapNo = X86_XCPT_GP;
700 uCR2 = 0;
701 uErrorCode = 0;
702 }
703 else
704 {
705 rc = TRPMQueryTrapAll(pVCpu, &u8TrapNo, &enmType, &uErrorCode, &uCR2, NULL /* pu8InstrLen */);
706 if (RT_FAILURE(rc))
707 {
708 AssertReleaseMsgFailed(("emR3RawPatchTrap: no trap! (rc=%Rrc) gcret=%Rrc\n", rc, gcret));
709 return rc;
710 }
711 /* Reset the trap as we'll execute the original instruction again. */
712 TRPMResetTrap(pVCpu);
713 }
714
715 /*
716 * Deal with traps inside patch code.
717 * (This code won't run outside GC.)
718 */
719 if (u8TrapNo != 1)
720 {
721#ifdef LOG_ENABLED
722 DBGFR3_INFO_LOG(pVM, "cpumguest", "Trap in patch code");
723 DBGFR3_DISAS_INSTR_CUR_LOG(pVCpu, "Patch code");
724
725 DISCPUSTATE Cpu;
726 rc = CPUMR3DisasmInstrCPU(pVM, pVCpu, pCtx, pCtx->eip, &Cpu, "Patch code: ");
727 if ( RT_SUCCESS(rc)
728 && Cpu.pCurInstr->uOpcode == OP_IRET)
729 {
730 uint32_t eip, selCS, uEFlags;
731
732 /* Iret crashes are bad as we have already changed the flags on the stack */
733 rc = PGMPhysSimpleReadGCPtr(pVCpu, &eip, pCtx->esp, 4);
734 rc |= PGMPhysSimpleReadGCPtr(pVCpu, &selCS, pCtx->esp+4, 4);
735 rc |= PGMPhysSimpleReadGCPtr(pVCpu, &uEFlags, pCtx->esp+8, 4);
736 if (rc == VINF_SUCCESS)
737 {
738 if ( (uEFlags & X86_EFL_VM)
739 || (selCS & X86_SEL_RPL) == 3)
740 {
741 uint32_t selSS, esp;
742
743 rc |= PGMPhysSimpleReadGCPtr(pVCpu, &esp, pCtx->esp + 12, 4);
744 rc |= PGMPhysSimpleReadGCPtr(pVCpu, &selSS, pCtx->esp + 16, 4);
745
746 if (uEFlags & X86_EFL_VM)
747 {
748 uint32_t selDS, selES, selFS, selGS;
749 rc = PGMPhysSimpleReadGCPtr(pVCpu, &selES, pCtx->esp + 20, 4);
750 rc |= PGMPhysSimpleReadGCPtr(pVCpu, &selDS, pCtx->esp + 24, 4);
751 rc |= PGMPhysSimpleReadGCPtr(pVCpu, &selFS, pCtx->esp + 28, 4);
752 rc |= PGMPhysSimpleReadGCPtr(pVCpu, &selGS, pCtx->esp + 32, 4);
753 if (rc == VINF_SUCCESS)
754 {
755 Log(("Patch code: IRET->VM stack frame: return address %04X:%08RX32 eflags=%08x ss:esp=%04X:%08RX32\n", selCS, eip, uEFlags, selSS, esp));
756 Log(("Patch code: IRET->VM stack frame: DS=%04X ES=%04X FS=%04X GS=%04X\n", selDS, selES, selFS, selGS));
757 }
758 }
759 else
760 Log(("Patch code: IRET stack frame: return address %04X:%08RX32 eflags=%08x ss:esp=%04X:%08RX32\n", selCS, eip, uEFlags, selSS, esp));
761 }
762 else
763 Log(("Patch code: IRET stack frame: return address %04X:%08RX32 eflags=%08x\n", selCS, eip, uEFlags));
764 }
765 }
766#endif /* LOG_ENABLED */
767 Log(("emR3RawPatchTrap: in patch: eip=%08x: trap=%02x err=%08x cr2=%08x cr0=%08x\n",
768 pCtx->eip, u8TrapNo, uErrorCode, uCR2, (uint32_t)pCtx->cr0));
769
770 RTGCPTR uNewEip;
771 rc = PATMR3HandleTrap(pVM, pCtx, pCtx->eip, &uNewEip);
772 switch (rc)
773 {
774 /*
775 * Execute the faulting instruction.
776 */
777 case VINF_SUCCESS:
778 {
779 /** @todo execute a whole block */
780 Log(("emR3RawPatchTrap: Executing faulting instruction at new address %RGv\n", uNewEip));
781 if (!(pVCpu->em.s.pPatmGCState->uVMFlags & X86_EFL_IF))
782 Log(("emR3RawPatchTrap: Virtual IF flag disabled!!\n"));
783
784 pCtx->eip = uNewEip;
785 AssertRelease(pCtx->eip);
786
787 if (pCtx->eflags.Bits.u1IF)
788 {
789 /* Windows XP lets irets fault intentionally and then takes action based on the opcode; an
790 * int3 patch overwrites it and leads to blue screens. Remove the patch in this case.
791 */
792 if ( u8TrapNo == X86_XCPT_GP
793 && PATMIsInt3Patch(pVM, pCtx->eip, NULL, NULL))
794 {
795 /** @todo move to PATMR3HandleTrap */
796 Log(("Possible Windows XP iret fault at %08RX32\n", pCtx->eip));
797 PATMR3RemovePatch(pVM, pCtx->eip);
798 }
799
800 /** @todo Knoppix 5 regression when returning VINF_SUCCESS here and going back to raw mode. */
801 /* Note: possibly because a reschedule is required (e.g. iret to V86 code) */
802
803 return emR3RawExecuteInstruction(pVM, pVCpu, "PATCHIR");
804 /* Interrupts are enabled; just go back to the original instruction.
805 return VINF_SUCCESS; */
806 }
807 return VINF_EM_RESCHEDULE_REM;
808 }
809
810 /*
811 * One instruction.
812 */
813 case VINF_PATCH_EMULATE_INSTR:
814 Log(("emR3RawPatchTrap: Emulate patched instruction at %RGv IF=%d VMIF=%x\n",
815 uNewEip, pCtx->eflags.Bits.u1IF, pVCpu->em.s.pPatmGCState->uVMFlags));
816 pCtx->eip = uNewEip;
817 AssertRelease(pCtx->eip);
818 return emR3RawExecuteInstruction(pVM, pVCpu, "PATCHEMUL: ");
819
820 /*
821 * The patch was disabled, hand it to the REM.
822 */
823 case VERR_PATCH_DISABLED:
824 if (!(pVCpu->em.s.pPatmGCState->uVMFlags & X86_EFL_IF))
825 Log(("emR3RawPatchTrap: Virtual IF flag disabled!!\n"));
826 pCtx->eip = uNewEip;
827 AssertRelease(pCtx->eip);
828
829 if (pCtx->eflags.Bits.u1IF)
830 {
831 /*
832 * The last instruction in the patch block needs to be executed!! (sti/sysexit for example)
833 */
834 Log(("PATCH: IF=1 -> emulate last instruction as it can't be interrupted!!\n"));
835 return emR3RawExecuteInstruction(pVM, pVCpu, "PATCHIR");
836 }
837 return VINF_EM_RESCHEDULE_REM;
838
839 /* Force continued patch exection; usually due to write monitored stack. */
840 case VINF_PATCH_CONTINUE:
841 return VINF_SUCCESS;
842
843 /*
844 * Anything else is *fatal*.
845 */
846 default:
847 AssertReleaseMsgFailed(("Unknown return code %Rrc from PATMR3HandleTrap!\n", rc));
848 return VERR_IPE_UNEXPECTED_STATUS;
849 }
850 }
851 return VINF_SUCCESS;
852}
853
854
855/**
856 * Handle a privileged instruction.
857 *
858 * @returns VBox status code suitable for EM.
859 * @param pVM The cross context VM structure.
860 * @param pVCpu The cross context virtual CPU structure.
861 */
862static int emR3RawPrivileged(PVM pVM, PVMCPU pVCpu)
863{
864 PCPUMCTX pCtx = pVCpu->em.s.pCtx;
865
866 Assert(!pCtx->eflags.Bits.u1VM);
867
868 if (PATMIsEnabled(pVM))
869 {
870 /*
871 * Check if in patch code.
872 */
873 if (PATMR3IsInsidePatchJump(pVM, pCtx->eip, NULL))
874 {
875#ifdef LOG_ENABLED
876 DBGFR3_INFO_LOG(pVM, "cpumguest", "PRIV");
877#endif
878 AssertMsgFailed(("FATAL ERROR: executing random instruction inside generated patch jump %08x\n", pCtx->eip));
879 return VERR_EM_RAW_PATCH_CONFLICT;
880 }
881 if ( (pCtx->ss.Sel & X86_SEL_RPL) == 0
882 && !pCtx->eflags.Bits.u1VM
883 && !PATMIsPatchGCAddr(pVM, pCtx->eip))
884 {
885 int rc = PATMR3InstallPatch(pVM, SELMToFlat(pVM, DISSELREG_CS, CPUMCTX2CORE(pCtx), pCtx->eip),
886 CPUMGetGuestCodeBits(pVCpu) == 32 ? PATMFL_CODE32 : 0);
887 if (RT_SUCCESS(rc))
888 {
889#ifdef LOG_ENABLED
890 DBGFR3_INFO_LOG(pVM, "cpumguest", "PRIV");
891#endif
892 DBGFR3_DISAS_INSTR_CUR_LOG(pVCpu, "Patched privileged instruction");
893 return VINF_SUCCESS;
894 }
895 }
896 }
897
898#ifdef LOG_ENABLED
899 if (!PATMIsPatchGCAddr(pVM, pCtx->eip))
900 {
901 DBGFR3_INFO_LOG(pVM, "cpumguest", "PRIV");
902 DBGFR3_DISAS_INSTR_CUR_LOG(pVCpu, "Privileged instr");
903 }
904#endif
905
906 /*
907 * Instruction statistics and logging.
908 */
909 DISCPUSTATE Cpu;
910 int rc;
911
912 rc = CPUMR3DisasmInstrCPU(pVM, pVCpu, pCtx, pCtx->rip, &Cpu, "PRIV: ");
913 if (RT_SUCCESS(rc))
914 {
915#ifdef VBOX_WITH_STATISTICS
916 PEMSTATS pStats = pVCpu->em.s.CTX_SUFF(pStats);
917 switch (Cpu.pCurInstr->uOpcode)
918 {
919 case OP_INVLPG:
920 STAM_COUNTER_INC(&pStats->StatInvlpg);
921 break;
922 case OP_IRET:
923 STAM_COUNTER_INC(&pStats->StatIret);
924 break;
925 case OP_CLI:
926 STAM_COUNTER_INC(&pStats->StatCli);
927 emR3RecordCli(pVM, pVCpu, pCtx->rip);
928 break;
929 case OP_STI:
930 STAM_COUNTER_INC(&pStats->StatSti);
931 break;
932 case OP_INSB:
933 case OP_INSWD:
934 case OP_IN:
935 case OP_OUTSB:
936 case OP_OUTSWD:
937 case OP_OUT:
938 AssertMsgFailed(("Unexpected privileged exception due to port IO\n"));
939 break;
940
941 case OP_MOV_CR:
942 if (Cpu.Param1.fUse & DISUSE_REG_GEN32)
943 {
944 //read
945 Assert(Cpu.Param2.fUse & DISUSE_REG_CR);
946 Assert(Cpu.Param2.Base.idxCtrlReg <= DISCREG_CR4);
947 STAM_COUNTER_INC(&pStats->StatMovReadCR[Cpu.Param2.Base.idxCtrlReg]);
948 }
949 else
950 {
951 //write
952 Assert(Cpu.Param1.fUse & DISUSE_REG_CR);
953 Assert(Cpu.Param1.Base.idxCtrlReg <= DISCREG_CR4);
954 STAM_COUNTER_INC(&pStats->StatMovWriteCR[Cpu.Param1.Base.idxCtrlReg]);
955 }
956 break;
957
958 case OP_MOV_DR:
959 STAM_COUNTER_INC(&pStats->StatMovDRx);
960 break;
961 case OP_LLDT:
962 STAM_COUNTER_INC(&pStats->StatMovLldt);
963 break;
964 case OP_LIDT:
965 STAM_COUNTER_INC(&pStats->StatMovLidt);
966 break;
967 case OP_LGDT:
968 STAM_COUNTER_INC(&pStats->StatMovLgdt);
969 break;
970 case OP_SYSENTER:
971 STAM_COUNTER_INC(&pStats->StatSysEnter);
972 break;
973 case OP_SYSEXIT:
974 STAM_COUNTER_INC(&pStats->StatSysExit);
975 break;
976 case OP_SYSCALL:
977 STAM_COUNTER_INC(&pStats->StatSysCall);
978 break;
979 case OP_SYSRET:
980 STAM_COUNTER_INC(&pStats->StatSysRet);
981 break;
982 case OP_HLT:
983 STAM_COUNTER_INC(&pStats->StatHlt);
984 break;
985 default:
986 STAM_COUNTER_INC(&pStats->StatMisc);
987 Log4(("emR3RawPrivileged: opcode=%d\n", Cpu.pCurInstr->uOpcode));
988 break;
989 }
990#endif /* VBOX_WITH_STATISTICS */
991 if ( (pCtx->ss.Sel & X86_SEL_RPL) == 0
992 && !pCtx->eflags.Bits.u1VM
993 && CPUMGetGuestCodeBits(pVCpu) == 32)
994 {
995 STAM_PROFILE_START(&pVCpu->em.s.StatPrivEmu, a);
996 switch (Cpu.pCurInstr->uOpcode)
997 {
998 case OP_CLI:
999 pCtx->eflags.u32 &= ~X86_EFL_IF;
1000 Assert(Cpu.cbInstr == 1);
1001 pCtx->rip += Cpu.cbInstr;
1002 STAM_PROFILE_STOP(&pVCpu->em.s.StatPrivEmu, a);
1003 return VINF_EM_RESCHEDULE_REM; /* must go to the recompiler now! */
1004
1005 case OP_STI:
1006 pCtx->eflags.u32 |= X86_EFL_IF;
1007 EMSetInhibitInterruptsPC(pVCpu, pCtx->rip + Cpu.cbInstr);
1008 Assert(Cpu.cbInstr == 1);
1009 pCtx->rip += Cpu.cbInstr;
1010 STAM_PROFILE_STOP(&pVCpu->em.s.StatPrivEmu, a);
1011 return VINF_SUCCESS;
1012
1013 case OP_HLT:
1014 if (PATMIsPatchGCAddr(pVM, pCtx->eip))
1015 {
1016 PATMTRANSSTATE enmState;
1017 RTGCPTR pOrgInstrGC = PATMR3PatchToGCPtr(pVM, pCtx->eip, &enmState);
1018
1019 if (enmState == PATMTRANS_OVERWRITTEN)
1020 {
1021 rc = PATMR3DetectConflict(pVM, pOrgInstrGC, pOrgInstrGC);
1022 Assert(rc == VERR_PATCH_DISABLED);
1023 /* Conflict detected, patch disabled */
1024 Log(("emR3RawPrivileged: detected conflict -> disabled patch at %08RX32\n", pCtx->eip));
1025
1026 enmState = PATMTRANS_SAFE;
1027 }
1028
1029 /* The translation had better be successful. Otherwise we can't recover. */
1030 AssertReleaseMsg(pOrgInstrGC && enmState != PATMTRANS_OVERWRITTEN, ("Unable to translate instruction address at %08RX32\n", pCtx->eip));
1031 if (enmState != PATMTRANS_OVERWRITTEN)
1032 pCtx->eip = pOrgInstrGC;
1033 }
1034 /* no break; we could just return VINF_EM_HALT here */
1035
1036 case OP_MOV_CR:
1037 case OP_MOV_DR:
1038#ifdef LOG_ENABLED
1039 if (PATMIsPatchGCAddr(pVM, pCtx->eip))
1040 {
1041 DBGFR3_INFO_LOG(pVM, "cpumguest", "PRIV");
1042 DBGFR3_DISAS_INSTR_CUR_LOG(pVCpu, "Privileged instr");
1043 }
1044#endif
1045
1046 rc = VBOXSTRICTRC_TODO(EMInterpretInstructionDisasState(pVCpu, &Cpu, CPUMCTX2CORE(pCtx), 0, EMCODETYPE_SUPERVISOR));
1047 if (RT_SUCCESS(rc))
1048 {
1049 STAM_PROFILE_STOP(&pVCpu->em.s.StatPrivEmu, a);
1050
1051 if ( Cpu.pCurInstr->uOpcode == OP_MOV_CR
1052 && Cpu.Param1.fUse == DISUSE_REG_CR /* write */
1053 )
1054 {
1055 /* Deal with CR0 updates inside patch code that force
1056 * us to go to the recompiler.
1057 */
1058 if ( PATMIsPatchGCAddr(pVM, pCtx->rip)
1059 && (pCtx->cr0 & (X86_CR0_WP|X86_CR0_PG|X86_CR0_PE)) != (X86_CR0_WP|X86_CR0_PG|X86_CR0_PE))
1060 {
1061 PATMTRANSSTATE enmState;
1062 RTGCPTR pOrgInstrGC = PATMR3PatchToGCPtr(pVM, pCtx->rip, &enmState);
1063
1064 Log(("Force recompiler switch due to cr0 (%RGp) update rip=%RGv -> %RGv (enmState=%d)\n", pCtx->cr0, pCtx->rip, pOrgInstrGC, enmState));
1065 if (enmState == PATMTRANS_OVERWRITTEN)
1066 {
1067 rc = PATMR3DetectConflict(pVM, pOrgInstrGC, pOrgInstrGC);
1068 Assert(rc == VERR_PATCH_DISABLED);
1069 /* Conflict detected, patch disabled */
1070 Log(("emR3RawPrivileged: detected conflict -> disabled patch at %RGv\n", (RTGCPTR)pCtx->rip));
1071 enmState = PATMTRANS_SAFE;
1072 }
1073 /* The translation had better be successful. Otherwise we can't recover. */
1074 AssertReleaseMsg(pOrgInstrGC && enmState != PATMTRANS_OVERWRITTEN, ("Unable to translate instruction address at %RGv\n", (RTGCPTR)pCtx->rip));
1075 if (enmState != PATMTRANS_OVERWRITTEN)
1076 pCtx->rip = pOrgInstrGC;
1077 }
1078
1079 /* Reschedule is necessary as the execution/paging mode might have changed. */
1080 return VINF_EM_RESCHEDULE;
1081 }
1082 return rc; /* can return VINF_EM_HALT as well. */
1083 }
1084 AssertMsgReturn(rc == VERR_EM_INTERPRETER, ("%Rrc\n", rc), rc);
1085 break; /* fall back to the recompiler */
1086 }
1087 STAM_PROFILE_STOP(&pVCpu->em.s.StatPrivEmu, a);
1088 }
1089 }
1090
1091 if (PATMIsPatchGCAddr(pVM, pCtx->eip))
1092 return emR3RawPatchTrap(pVM, pVCpu, pCtx, VINF_PATM_PATCH_TRAP_GP);
1093
1094 return emR3RawExecuteInstruction(pVM, pVCpu, "PRIV");
1095}
1096
1097
1098/**
1099 * Update the forced rawmode execution modifier.
1100 *
1101 * This function is called when we're returning from the raw-mode loop(s). If we're
1102 * in patch code, it will set a flag forcing execution to be resumed in raw-mode,
1103 * if not in patch code, the flag will be cleared.
1104 *
1105 * We should never interrupt patch code while it's being executed. Cli patches can
1106 * contain big code blocks, but they are always executed with IF=0. Other patches
1107 * replace single instructions and should be atomic.
1108 *
1109 * @returns Updated rc.
1110 *
1111 * @param pVM The cross context VM structure.
1112 * @param pVCpu The cross context virtual CPU structure.
1113 * @param pCtx Pointer to the guest CPU context.
1114 * @param rc The result code.
1115 */
1116int emR3RawUpdateForceFlag(PVM pVM, PVMCPU pVCpu, PCPUMCTX pCtx, int rc)
1117{
1118 if (PATMIsPatchGCAddr(pVM, pCtx->eip)) /** @todo check cs selector base/type */
1119 {
1120 /* ignore reschedule attempts. */
1121 switch (rc)
1122 {
1123 case VINF_EM_RESCHEDULE:
1124 case VINF_EM_RESCHEDULE_REM:
1125 LogFlow(("emR3RawUpdateForceFlag: patch address -> force raw reschedule\n"));
1126 rc = VINF_SUCCESS;
1127 break;
1128 }
1129 pVCpu->em.s.fForceRAW = true;
1130 }
1131 else
1132 pVCpu->em.s.fForceRAW = false;
1133 return rc;
1134}
1135
1136
1137/**
1138 * Check for pending raw actions
1139 *
1140 * @returns VBox status code. May return VINF_EM_NO_MEMORY but none of the other
1141 * EM statuses.
1142 * @param pVM The cross context VM structure.
1143 * @param pVCpu The cross context virtual CPU structure.
1144 */
1145VMMR3_INT_DECL(int) EMR3CheckRawForcedActions(PVM pVM, PVMCPU pVCpu)
1146{
1147 int rc = emR3RawForcedActions(pVM, pVCpu, pVCpu->em.s.pCtx);
1148 VBOXVMM_EM_FF_RAW_RET(pVCpu, rc);
1149 return rc;
1150}
1151
1152
1153/**
1154 * Process raw-mode specific forced actions.
1155 *
1156 * This function is called when any FFs in the VM_FF_HIGH_PRIORITY_PRE_RAW_MASK is pending.
1157 *
1158 * @returns VBox status code. May return VINF_EM_NO_MEMORY but none of the other
1159 * EM statuses.
1160 * @param pVM The cross context VM structure.
1161 * @param pVCpu The cross context virtual CPU structure.
1162 * @param pCtx Pointer to the guest CPU context.
1163 */
1164static int emR3RawForcedActions(PVM pVM, PVMCPU pVCpu, PCPUMCTX pCtx)
1165{
1166 /*
1167 * Note that the order is *vitally* important!
1168 * Also note that SELMR3UpdateFromCPUM may trigger VM_FF_SELM_SYNC_TSS.
1169 */
1170 VBOXVMM_EM_FF_RAW(pVCpu, pVM->fGlobalForcedActions, pVCpu->fLocalForcedActions);
1171
1172 /*
1173 * Sync selector tables.
1174 */
1175 if (VMCPU_FF_IS_PENDING(pVCpu, VMCPU_FF_SELM_SYNC_GDT | VMCPU_FF_SELM_SYNC_LDT))
1176 {
1177 VBOXSTRICTRC rcStrict = SELMR3UpdateFromCPUM(pVM, pVCpu);
1178 if (rcStrict != VINF_SUCCESS)
1179 return VBOXSTRICTRC_TODO(rcStrict);
1180 }
1181
1182 /*
1183 * Sync IDT.
1184 *
1185 * The CSAMR3CheckGates call in TRPMR3SyncIDT may call PGMPrefetchPage
1186 * and PGMShwModifyPage, so we're in for trouble if for instance a
1187 * PGMSyncCR3+pgmR3PoolClearAll is pending.
1188 */
1189 if (VMCPU_FF_IS_PENDING(pVCpu, VMCPU_FF_TRPM_SYNC_IDT))
1190 {
1191 if ( VMCPU_FF_IS_PENDING(pVCpu, VMCPU_FF_PGM_SYNC_CR3)
1192 && EMIsRawRing0Enabled(pVM)
1193 && CSAMIsEnabled(pVM))
1194 {
1195 int rc = PGMSyncCR3(pVCpu, pCtx->cr0, pCtx->cr3, pCtx->cr4, VMCPU_FF_IS_SET(pVCpu, VMCPU_FF_PGM_SYNC_CR3));
1196 if (RT_FAILURE(rc))
1197 return rc;
1198 }
1199
1200 int rc = TRPMR3SyncIDT(pVM, pVCpu);
1201 if (RT_FAILURE(rc))
1202 return rc;
1203 }
1204
1205 /*
1206 * Sync TSS.
1207 */
1208 if (VMCPU_FF_IS_PENDING(pVCpu, VMCPU_FF_SELM_SYNC_TSS))
1209 {
1210 int rc = SELMR3SyncTSS(pVM, pVCpu);
1211 if (RT_FAILURE(rc))
1212 return rc;
1213 }
1214
1215 /*
1216 * Sync page directory.
1217 */
1218 if (VMCPU_FF_IS_PENDING(pVCpu, VMCPU_FF_PGM_SYNC_CR3 | VMCPU_FF_PGM_SYNC_CR3_NON_GLOBAL))
1219 {
1220 Assert(pVCpu->em.s.enmState != EMSTATE_WAIT_SIPI);
1221 int rc = PGMSyncCR3(pVCpu, pCtx->cr0, pCtx->cr3, pCtx->cr4, VMCPU_FF_IS_SET(pVCpu, VMCPU_FF_PGM_SYNC_CR3));
1222 if (RT_FAILURE(rc))
1223 return rc;
1224
1225 Assert(!VMCPU_FF_IS_PENDING(pVCpu, VMCPU_FF_SELM_SYNC_GDT | VMCPU_FF_SELM_SYNC_LDT));
1226
1227 /* Prefetch pages for EIP and ESP. */
1228 /** @todo This is rather expensive. Should investigate if it really helps at all. */
1229 rc = PGMPrefetchPage(pVCpu, SELMToFlat(pVM, DISSELREG_CS, CPUMCTX2CORE(pCtx), pCtx->rip));
1230 if (rc == VINF_SUCCESS)
1231 rc = PGMPrefetchPage(pVCpu, SELMToFlat(pVM, DISSELREG_SS, CPUMCTX2CORE(pCtx), pCtx->rsp));
1232 if (rc != VINF_SUCCESS)
1233 {
1234 if (rc != VINF_PGM_SYNC_CR3)
1235 {
1236 AssertLogRelMsgReturn(RT_FAILURE(rc), ("%Rrc\n", rc), VERR_IPE_UNEXPECTED_INFO_STATUS);
1237 return rc;
1238 }
1239 rc = PGMSyncCR3(pVCpu, pCtx->cr0, pCtx->cr3, pCtx->cr4, VMCPU_FF_IS_SET(pVCpu, VMCPU_FF_PGM_SYNC_CR3));
1240 if (RT_FAILURE(rc))
1241 return rc;
1242 }
1243 /** @todo maybe prefetch the supervisor stack page as well */
1244 Assert(!VMCPU_FF_IS_PENDING(pVCpu, VMCPU_FF_SELM_SYNC_GDT | VMCPU_FF_SELM_SYNC_LDT));
1245 }
1246
1247 /*
1248 * Allocate handy pages (just in case the above actions have consumed some pages).
1249 */
1250 if (VM_FF_IS_PENDING_EXCEPT(pVM, VM_FF_PGM_NEED_HANDY_PAGES, VM_FF_PGM_NO_MEMORY))
1251 {
1252 int rc = PGMR3PhysAllocateHandyPages(pVM);
1253 if (RT_FAILURE(rc))
1254 return rc;
1255 }
1256
1257 /*
1258 * Check whether we're out of memory now.
1259 *
1260 * This may stem from some of the above actions or operations that has been executed
1261 * since we ran FFs. The allocate handy pages must for instance always be followed by
1262 * this check.
1263 */
1264 if (VM_FF_IS_PENDING(pVM, VM_FF_PGM_NO_MEMORY))
1265 return VINF_EM_NO_MEMORY;
1266
1267 return VINF_SUCCESS;
1268}
1269
1270
1271/**
1272 * Executes raw code.
1273 *
1274 * This function contains the raw-mode version of the inner
1275 * execution loop (the outer loop being in EMR3ExecuteVM()).
1276 *
1277 * @returns VBox status code. The most important ones are: VINF_EM_RESCHEDULE,
1278 * VINF_EM_RESCHEDULE_REM, VINF_EM_SUSPEND, VINF_EM_RESET and VINF_EM_TERMINATE.
1279 *
1280 * @param pVM The cross context VM structure.
1281 * @param pVCpu The cross context virtual CPU structure.
1282 * @param pfFFDone Where to store an indicator telling whether or not
1283 * FFs were done before returning.
1284 */
1285int emR3RawExecute(PVM pVM, PVMCPU pVCpu, bool *pfFFDone)
1286{
1287 STAM_REL_PROFILE_ADV_START(&pVCpu->em.s.StatRAWTotal, a);
1288
1289 int rc = VERR_IPE_UNINITIALIZED_STATUS;
1290 PCPUMCTX pCtx = pVCpu->em.s.pCtx;
1291 LogFlow(("emR3RawExecute: (cs:eip=%04x:%08x)\n", pCtx->cs.Sel, pCtx->eip));
1292 pVCpu->em.s.fForceRAW = false;
1293 *pfFFDone = false;
1294
1295
1296 /*
1297 *
1298 * Spin till we get a forced action or raw mode status code resulting in
1299 * in anything but VINF_SUCCESS or VINF_EM_RESCHEDULE_RAW.
1300 *
1301 */
1302 for (;;)
1303 {
1304 STAM_PROFILE_ADV_START(&pVCpu->em.s.StatRAWEntry, b);
1305
1306 /*
1307 * Check various preconditions.
1308 */
1309#ifdef VBOX_STRICT
1310# ifdef VBOX_WITH_REM
1311 Assert(REMR3QueryPendingInterrupt(pVM, pVCpu) == REM_NO_PENDING_IRQ);
1312# endif
1313 Assert(pCtx->eflags.Bits.u1VM || (pCtx->ss.Sel & X86_SEL_RPL) == 3 || (pCtx->ss.Sel & X86_SEL_RPL) == 0
1314 || (EMIsRawRing1Enabled(pVM) && (pCtx->ss.Sel & X86_SEL_RPL) == 1));
1315 AssertMsg( (pCtx->eflags.u32 & X86_EFL_IF)
1316 || PATMShouldUseRawMode(pVM, (RTGCPTR)pCtx->eip),
1317 ("Tried to execute code with IF at EIP=%08x!\n", pCtx->eip));
1318 if ( !VMCPU_FF_IS_PENDING(pVCpu, VMCPU_FF_PGM_SYNC_CR3 | VMCPU_FF_PGM_SYNC_CR3_NON_GLOBAL)
1319 && PGMMapHasConflicts(pVM))
1320 {
1321 PGMMapCheck(pVM);
1322 AssertMsgFailed(("We should not get conflicts any longer!!!\n"));
1323 return VERR_EM_UNEXPECTED_MAPPING_CONFLICT;
1324 }
1325#endif /* VBOX_STRICT */
1326
1327 /*
1328 * Process high priority pre-execution raw-mode FFs.
1329 */
1330 if ( VM_FF_IS_PENDING(pVM, VM_FF_HIGH_PRIORITY_PRE_RAW_MASK)
1331 || VMCPU_FF_IS_PENDING(pVCpu, VMCPU_FF_HIGH_PRIORITY_PRE_RAW_MASK))
1332 {
1333 rc = emR3RawForcedActions(pVM, pVCpu, pCtx);
1334 VBOXVMM_EM_FF_RAW_RET(pVCpu, rc);
1335 if (rc != VINF_SUCCESS)
1336 break;
1337 }
1338
1339 /*
1340 * If we're going to execute ring-0 code, the guest state needs to
1341 * be modified a bit and some of the state components (IF, SS/CS RPL,
1342 * and perhaps EIP) needs to be stored with PATM.
1343 */
1344 rc = CPUMRawEnter(pVCpu);
1345 if (rc != VINF_SUCCESS)
1346 {
1347 STAM_PROFILE_ADV_STOP(&pVCpu->em.s.StatRAWEntry, b);
1348 break;
1349 }
1350
1351 /*
1352 * Scan code before executing it. Don't bother with user mode or V86 code
1353 */
1354 if ( (pCtx->ss.Sel & X86_SEL_RPL) <= 1
1355 && !pCtx->eflags.Bits.u1VM
1356 && !PATMIsPatchGCAddr(pVM, pCtx->eip))
1357 {
1358 STAM_PROFILE_ADV_SUSPEND(&pVCpu->em.s.StatRAWEntry, b);
1359 CSAMR3CheckCodeEx(pVM, pCtx, pCtx->eip);
1360 STAM_PROFILE_ADV_RESUME(&pVCpu->em.s.StatRAWEntry, b);
1361 if ( VM_FF_IS_PENDING(pVM, VM_FF_HIGH_PRIORITY_PRE_RAW_MASK)
1362 || VMCPU_FF_IS_PENDING(pVCpu, VMCPU_FF_HIGH_PRIORITY_PRE_RAW_MASK))
1363 {
1364 rc = emR3RawForcedActions(pVM, pVCpu, pCtx);
1365 VBOXVMM_EM_FF_RAW_RET(pVCpu, rc);
1366 if (rc != VINF_SUCCESS)
1367 {
1368 rc = CPUMRawLeave(pVCpu, rc);
1369 break;
1370 }
1371 }
1372 }
1373
1374#ifdef LOG_ENABLED
1375 /*
1376 * Log important stuff before entering GC.
1377 */
1378 PPATMGCSTATE pGCState = PATMR3QueryGCStateHC(pVM);
1379 if (pCtx->eflags.Bits.u1VM)
1380 Log(("RV86: %04x:%08x IF=%d VMFlags=%x\n", pCtx->cs.Sel, pCtx->eip, pCtx->eflags.Bits.u1IF, pGCState->uVMFlags));
1381 else if ((pCtx->ss.Sel & X86_SEL_RPL) == 1)
1382 Log(("RR0: %x:%08x ESP=%x:%08x EFL=%x IF=%d/%d VMFlags=%x PIF=%d CPL=%d (Scanned=%d)\n",
1383 pCtx->cs.Sel, pCtx->eip, pCtx->ss.Sel, pCtx->esp, CPUMRawGetEFlags(pVCpu), !!(pGCState->uVMFlags & X86_EFL_IF), pCtx->eflags.Bits.u1IF,
1384 pGCState->uVMFlags, pGCState->fPIF, (pCtx->ss.Sel & X86_SEL_RPL), CSAMIsPageScanned(pVM, (RTGCPTR)pCtx->eip)));
1385# ifdef VBOX_WITH_RAW_RING1
1386 else if ((pCtx->ss.Sel & X86_SEL_RPL) == 2)
1387 Log(("RR1: %x:%08x ESP=%x:%08x IF=%d VMFlags=%x CPL=%x\n", pCtx->cs.Sel, pCtx->eip, pCtx->ss.Sel, pCtx->esp, pCtx->eflags.Bits.u1IF, pGCState->uVMFlags, (pCtx->ss.Sel & X86_SEL_RPL)));
1388# endif
1389 else if ((pCtx->ss.Sel & X86_SEL_RPL) == 3)
1390 Log(("RR3: %x:%08x ESP=%x:%08x IF=%d VMFlags=%x\n", pCtx->cs.Sel, pCtx->eip, pCtx->ss.Sel, pCtx->esp, pCtx->eflags.Bits.u1IF, pGCState->uVMFlags));
1391#endif /* LOG_ENABLED */
1392
1393
1394
1395 /*
1396 * Execute the code.
1397 */
1398 STAM_PROFILE_ADV_STOP(&pVCpu->em.s.StatRAWEntry, b);
1399 if (RT_LIKELY(emR3IsExecutionAllowed(pVM, pVCpu)))
1400 {
1401 STAM_PROFILE_START(&pVCpu->em.s.StatRAWExec, c);
1402 VBOXVMM_EM_RAW_RUN_PRE(pVCpu, pCtx);
1403 rc = VMMR3RawRunGC(pVM, pVCpu);
1404 VBOXVMM_EM_RAW_RUN_RET(pVCpu, pCtx, rc);
1405 STAM_PROFILE_STOP(&pVCpu->em.s.StatRAWExec, c);
1406 }
1407 else
1408 {
1409 /* Give up this time slice; virtual time continues */
1410 STAM_REL_PROFILE_ADV_START(&pVCpu->em.s.StatCapped, u);
1411 RTThreadSleep(5);
1412 STAM_REL_PROFILE_ADV_STOP(&pVCpu->em.s.StatCapped, u);
1413 rc = VINF_SUCCESS;
1414 }
1415 STAM_PROFILE_ADV_START(&pVCpu->em.s.StatRAWTail, d);
1416
1417 LogFlow(("RR%u-E: %08x ESP=%08x EFL=%x IF=%d/%d VMFlags=%x PIF=%d\n",
1418 (pCtx->ss.Sel & X86_SEL_RPL), pCtx->eip, pCtx->esp, CPUMRawGetEFlags(pVCpu),
1419 !!(pGCState->uVMFlags & X86_EFL_IF), pCtx->eflags.Bits.u1IF, pGCState->uVMFlags, pGCState->fPIF));
1420 LogFlow(("VMMR3RawRunGC returned %Rrc\n", rc));
1421
1422
1423
1424 /*
1425 * Restore the real CPU state and deal with high priority post
1426 * execution FFs before doing anything else.
1427 */
1428 rc = CPUMRawLeave(pVCpu, rc);
1429 VMCPU_FF_CLEAR(pVCpu, VMCPU_FF_RESUME_GUEST_MASK);
1430 if ( VM_FF_IS_PENDING(pVM, VM_FF_HIGH_PRIORITY_POST_MASK)
1431 || VMCPU_FF_IS_PENDING(pVCpu, VMCPU_FF_HIGH_PRIORITY_POST_MASK))
1432 rc = emR3HighPriorityPostForcedActions(pVM, pVCpu, rc);
1433
1434#ifdef VBOX_STRICT
1435 /*
1436 * Assert TSS consistency & rc vs patch code.
1437 */
1438 if ( !VMCPU_FF_IS_PENDING(pVCpu, VMCPU_FF_SELM_SYNC_TSS | VMCPU_FF_SELM_SYNC_GDT) /* GDT implies TSS at the moment. */
1439 && EMIsRawRing0Enabled(pVM))
1440 SELMR3CheckTSS(pVM);
1441 switch (rc)
1442 {
1443 case VINF_SUCCESS:
1444 case VINF_EM_RAW_INTERRUPT:
1445 case VINF_PATM_PATCH_TRAP_PF:
1446 case VINF_PATM_PATCH_TRAP_GP:
1447 case VINF_PATM_PATCH_INT3:
1448 case VINF_PATM_CHECK_PATCH_PAGE:
1449 case VINF_EM_RAW_EXCEPTION_PRIVILEGED:
1450 case VINF_EM_RAW_GUEST_TRAP:
1451 case VINF_EM_RESCHEDULE_RAW:
1452 break;
1453
1454 default:
1455 if (PATMIsPatchGCAddr(pVM, pCtx->eip) && !(pCtx->eflags.u32 & X86_EFL_TF))
1456 LogIt(0, LOG_GROUP_PATM, ("Patch code interrupted at %RRv for reason %Rrc\n", (RTRCPTR)CPUMGetGuestEIP(pVCpu), rc));
1457 break;
1458 }
1459 /*
1460 * Let's go paranoid!
1461 */
1462 if ( !VMCPU_FF_IS_PENDING(pVCpu, VMCPU_FF_PGM_SYNC_CR3 | VMCPU_FF_PGM_SYNC_CR3_NON_GLOBAL)
1463 && PGMMapHasConflicts(pVM))
1464 {
1465 PGMMapCheck(pVM);
1466 AssertMsgFailed(("We should not get conflicts any longer!!! rc=%Rrc\n", rc));
1467 return VERR_EM_UNEXPECTED_MAPPING_CONFLICT;
1468 }
1469#endif /* VBOX_STRICT */
1470
1471 /*
1472 * Process the returned status code.
1473 */
1474 if (rc >= VINF_EM_FIRST && rc <= VINF_EM_LAST)
1475 {
1476 STAM_PROFILE_ADV_STOP(&pVCpu->em.s.StatRAWTail, d);
1477 break;
1478 }
1479 rc = emR3RawHandleRC(pVM, pVCpu, pCtx, rc);
1480 if (rc != VINF_SUCCESS)
1481 {
1482 rc = emR3RawUpdateForceFlag(pVM, pVCpu, pCtx, rc);
1483 if (rc != VINF_SUCCESS)
1484 {
1485 STAM_PROFILE_ADV_STOP(&pVCpu->em.s.StatRAWTail, d);
1486 break;
1487 }
1488 }
1489
1490 /*
1491 * Check and execute forced actions.
1492 */
1493#ifdef VBOX_HIGH_RES_TIMERS_HACK
1494 TMTimerPollVoid(pVM, pVCpu);
1495#endif
1496 STAM_PROFILE_ADV_STOP(&pVCpu->em.s.StatRAWTail, d);
1497 if ( VM_FF_IS_PENDING(pVM, ~VM_FF_HIGH_PRIORITY_PRE_RAW_MASK | VM_FF_PGM_NO_MEMORY)
1498 || VMCPU_FF_IS_PENDING(pVCpu, ~VMCPU_FF_HIGH_PRIORITY_PRE_RAW_MASK))
1499 {
1500 Assert(pCtx->eflags.Bits.u1VM || (pCtx->ss.Sel & X86_SEL_RPL) != (EMIsRawRing1Enabled(pVM) ? 2 : 1));
1501
1502 STAM_REL_PROFILE_ADV_SUSPEND(&pVCpu->em.s.StatRAWTotal, a);
1503 rc = emR3ForcedActions(pVM, pVCpu, rc);
1504 VBOXVMM_EM_FF_ALL_RET(pVCpu, rc);
1505 STAM_REL_PROFILE_ADV_RESUME(&pVCpu->em.s.StatRAWTotal, a);
1506 if ( rc != VINF_SUCCESS
1507 && rc != VINF_EM_RESCHEDULE_RAW)
1508 {
1509 rc = emR3RawUpdateForceFlag(pVM, pVCpu, pCtx, rc);
1510 if (rc != VINF_SUCCESS)
1511 {
1512 *pfFFDone = true;
1513 break;
1514 }
1515 }
1516 }
1517 }
1518
1519 /*
1520 * Return to outer loop.
1521 */
1522#if defined(LOG_ENABLED) && defined(DEBUG)
1523 RTLogFlush(NULL);
1524#endif
1525 STAM_REL_PROFILE_ADV_STOP(&pVCpu->em.s.StatRAWTotal, a);
1526 return rc;
1527}
1528
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