VirtualBox

source: vbox/trunk/src/VBox/VMM/VMMR0/HWSVMR0.cpp@ 8973

Last change on this file since 8973 was 8965, checked in by vboxsync, 17 years ago

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1/* $Id: HWSVMR0.cpp 8965 2008-05-20 15:41:55Z vboxsync $ */
2/** @file
3 * HWACCM SVM - Host Context Ring 0.
4 */
5
6/*
7 * Copyright (C) 2006-2007 Sun Microsystems, Inc.
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 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa
18 * Clara, CA 95054 USA or visit http://www.sun.com if you need
19 * additional information or have any questions.
20 */
21
22
23/*******************************************************************************
24* Header Files *
25*******************************************************************************/
26#define LOG_GROUP LOG_GROUP_HWACCM
27#include <VBox/hwaccm.h>
28#include "HWACCMInternal.h"
29#include <VBox/vm.h>
30#include <VBox/x86.h>
31#include <VBox/hwacc_svm.h>
32#include <VBox/pgm.h>
33#include <VBox/pdm.h>
34#include <VBox/err.h>
35#include <VBox/log.h>
36#include <VBox/selm.h>
37#include <VBox/iom.h>
38#include <VBox/dis.h>
39#include <VBox/dbgf.h>
40#include <VBox/disopcode.h>
41#include <iprt/param.h>
42#include <iprt/assert.h>
43#include <iprt/asm.h>
44#include <iprt/cpuset.h>
45#include <iprt/mp.h>
46#include "HWSVMR0.h"
47
48static int SVMR0InterpretInvpg(PVM pVM, PCPUMCTXCORE pRegFrame, uint32_t uASID);
49
50/**
51 * Sets up and activates AMD-V on the current CPU
52 *
53 * @returns VBox status code.
54 * @param pCpu CPU info struct
55 * @param pVM The VM to operate on.
56 * @param pvPageCpu Pointer to the global cpu page
57 * @param pPageCpuPhys Physical address of the global cpu page
58 */
59HWACCMR0DECL(int) SVMR0EnableCpu(PHWACCM_CPUINFO pCpu, PVM pVM, void *pvPageCpu, RTHCPHYS pPageCpuPhys)
60{
61 AssertReturn(pPageCpuPhys, VERR_INVALID_PARAMETER);
62 AssertReturn(pVM, VERR_INVALID_PARAMETER);
63 AssertReturn(pvPageCpu, VERR_INVALID_PARAMETER);
64
65 /* We must turn on AMD-V and setup the host state physical address, as those MSRs are per-cpu/core. */
66
67#ifdef LOG_ENABLED
68 SUPR0Printf("SVMR0EnableCpu cpu %d page (%x) %x\n", pCpu->idCpu, pvPageCpu, (uint32_t)pPageCpuPhys);
69#endif
70
71 /* Turn on AMD-V in the EFER MSR. */
72 uint64_t val = ASMRdMsr(MSR_K6_EFER);
73 if (!(val & MSR_K6_EFER_SVME))
74 ASMWrMsr(MSR_K6_EFER, val | MSR_K6_EFER_SVME);
75
76 /* Write the physical page address where the CPU will store the host state while executing the VM. */
77 ASMWrMsr(MSR_K8_VM_HSAVE_PA, pPageCpuPhys);
78
79 pCpu->uCurrentASID = 0; /* we'll aways increment this the first time (host uses ASID 0) */
80 pCpu->cTLBFlushes = 0;
81 return VINF_SUCCESS;
82}
83
84/**
85 * Deactivates AMD-V on the current CPU
86 *
87 * @returns VBox status code.
88 * @param pCpu CPU info struct
89 * @param pvPageCpu Pointer to the global cpu page
90 * @param pPageCpuPhys Physical address of the global cpu page
91 */
92HWACCMR0DECL(int) SVMR0DisableCpu(PHWACCM_CPUINFO pCpu, void *pvPageCpu, RTHCPHYS pPageCpuPhys)
93{
94 AssertReturn(pPageCpuPhys, VERR_INVALID_PARAMETER);
95 AssertReturn(pvPageCpu, VERR_INVALID_PARAMETER);
96
97#ifdef LOG_ENABLED
98 SUPR0Printf("SVMR0DisableCpu cpu %d\n", pCpu->idCpu);
99#endif
100
101 /* Turn off AMD-V in the EFER MSR. */
102 uint64_t val = ASMRdMsr(MSR_K6_EFER);
103 ASMWrMsr(MSR_K6_EFER, val & ~MSR_K6_EFER_SVME);
104
105 /* Invalidate host state physical address. */
106 ASMWrMsr(MSR_K8_VM_HSAVE_PA, 0);
107 pCpu->uCurrentASID = 0;
108
109 return VINF_SUCCESS;
110}
111
112/**
113 * Does Ring-0 per VM AMD-V init.
114 *
115 * @returns VBox status code.
116 * @param pVM The VM to operate on.
117 */
118HWACCMR0DECL(int) SVMR0InitVM(PVM pVM)
119{
120 int rc;
121
122 /* Allocate one page for the VM control block (VMCB). */
123 rc = RTR0MemObjAllocCont(&pVM->hwaccm.s.svm.pMemObjVMCB, 1 << PAGE_SHIFT, true /* executable R0 mapping */);
124 if (RT_FAILURE(rc))
125 return rc;
126
127 pVM->hwaccm.s.svm.pVMCB = RTR0MemObjAddress(pVM->hwaccm.s.svm.pMemObjVMCB);
128 pVM->hwaccm.s.svm.pVMCBPhys = RTR0MemObjGetPagePhysAddr(pVM->hwaccm.s.svm.pMemObjVMCB, 0);
129 ASMMemZero32(pVM->hwaccm.s.svm.pVMCB, PAGE_SIZE);
130
131 /* Allocate one page for the host context */
132 rc = RTR0MemObjAllocCont(&pVM->hwaccm.s.svm.pMemObjVMCBHost, 1 << PAGE_SHIFT, true /* executable R0 mapping */);
133 if (RT_FAILURE(rc))
134 return rc;
135
136 pVM->hwaccm.s.svm.pVMCBHost = RTR0MemObjAddress(pVM->hwaccm.s.svm.pMemObjVMCBHost);
137 pVM->hwaccm.s.svm.pVMCBHostPhys = RTR0MemObjGetPagePhysAddr(pVM->hwaccm.s.svm.pMemObjVMCBHost, 0);
138 ASMMemZero32(pVM->hwaccm.s.svm.pVMCBHost, PAGE_SIZE);
139
140 /* Allocate 12 KB for the IO bitmap (doesn't seem to be a way to convince SVM not to use it) */
141 rc = RTR0MemObjAllocCont(&pVM->hwaccm.s.svm.pMemObjIOBitmap, 3 << PAGE_SHIFT, true /* executable R0 mapping */);
142 if (RT_FAILURE(rc))
143 return rc;
144
145 pVM->hwaccm.s.svm.pIOBitmap = RTR0MemObjAddress(pVM->hwaccm.s.svm.pMemObjIOBitmap);
146 pVM->hwaccm.s.svm.pIOBitmapPhys = RTR0MemObjGetPagePhysAddr(pVM->hwaccm.s.svm.pMemObjIOBitmap, 0);
147 /* Set all bits to intercept all IO accesses. */
148 ASMMemFill32(pVM->hwaccm.s.svm.pIOBitmap, PAGE_SIZE*3, 0xffffffff);
149
150 /* Allocate 8 KB for the MSR bitmap (doesn't seem to be a way to convince SVM not to use it) */
151 rc = RTR0MemObjAllocCont(&pVM->hwaccm.s.svm.pMemObjMSRBitmap, 2 << PAGE_SHIFT, true /* executable R0 mapping */);
152 if (RT_FAILURE(rc))
153 return rc;
154
155 pVM->hwaccm.s.svm.pMSRBitmap = RTR0MemObjAddress(pVM->hwaccm.s.svm.pMemObjMSRBitmap);
156 pVM->hwaccm.s.svm.pMSRBitmapPhys = RTR0MemObjGetPagePhysAddr(pVM->hwaccm.s.svm.pMemObjMSRBitmap, 0);
157 /* Set all bits to intercept all MSR accesses. */
158 ASMMemFill32(pVM->hwaccm.s.svm.pMSRBitmap, PAGE_SIZE*2, 0xffffffff);
159
160 /* Erratum 170 which requires a forced TLB flush for each world switch:
161 * See http://www.amd.com/us-en/assets/content_type/white_papers_and_tech_docs/33610.pdf
162 *
163 * All BH-G1/2 and DH-G1/2 models include a fix:
164 * Athlon X2: 0x6b 1/2
165 * 0x68 1/2
166 * Athlon 64: 0x7f 1
167 * 0x6f 2
168 * Sempron: 0x7f 1/2
169 * 0x6f 2
170 * 0x6c 2
171 * 0x7c 2
172 * Turion 64: 0x68 2
173 *
174 */
175 uint32_t u32Dummy;
176 uint32_t u32Version, u32Family, u32Model, u32Stepping, u32BaseFamily;
177 ASMCpuId(1, &u32Version, &u32Dummy, &u32Dummy, &u32Dummy);
178 u32BaseFamily= (u32Version >> 8) & 0xf;
179 u32Family = u32BaseFamily + (u32BaseFamily == 0xf ? ((u32Version >> 20) & 0x7f) : 0);
180 u32Model = ((u32Version >> 4) & 0xf);
181 u32Model = u32Model | ((u32BaseFamily == 0xf ? (u32Version >> 16) & 0x0f : 0) << 4);
182 u32Stepping = u32Version & 0xf;
183 if ( u32Family == 0xf
184 && !((u32Model == 0x68 || u32Model == 0x6b || u32Model == 0x7f) && u32Stepping >= 1)
185 && !((u32Model == 0x6f || u32Model == 0x6c || u32Model == 0x7c) && u32Stepping >= 2))
186 {
187 Log(("SVMR0InitVM: AMD cpu with erratum 170 family %x model %x stepping %x\n", u32Family, u32Model, u32Stepping));
188 pVM->hwaccm.s.svm.fAlwaysFlushTLB = true;
189 }
190
191 /* Invalidate the last cpu we were running on. */
192 pVM->hwaccm.s.svm.idLastCpu = NIL_RTCPUID;
193 return VINF_SUCCESS;
194}
195
196/**
197 * Does Ring-0 per VM AMD-V termination.
198 *
199 * @returns VBox status code.
200 * @param pVM The VM to operate on.
201 */
202HWACCMR0DECL(int) SVMR0TermVM(PVM pVM)
203{
204 if (pVM->hwaccm.s.svm.pMemObjVMCB)
205 {
206 RTR0MemObjFree(pVM->hwaccm.s.svm.pMemObjVMCB, false);
207 pVM->hwaccm.s.svm.pVMCB = 0;
208 pVM->hwaccm.s.svm.pVMCBPhys = 0;
209 pVM->hwaccm.s.svm.pMemObjVMCB = 0;
210 }
211 if (pVM->hwaccm.s.svm.pMemObjVMCBHost)
212 {
213 RTR0MemObjFree(pVM->hwaccm.s.svm.pMemObjVMCBHost, false);
214 pVM->hwaccm.s.svm.pVMCBHost = 0;
215 pVM->hwaccm.s.svm.pVMCBHostPhys = 0;
216 pVM->hwaccm.s.svm.pMemObjVMCBHost = 0;
217 }
218 if (pVM->hwaccm.s.svm.pMemObjIOBitmap)
219 {
220 RTR0MemObjFree(pVM->hwaccm.s.svm.pMemObjIOBitmap, false);
221 pVM->hwaccm.s.svm.pIOBitmap = 0;
222 pVM->hwaccm.s.svm.pIOBitmapPhys = 0;
223 pVM->hwaccm.s.svm.pMemObjIOBitmap = 0;
224 }
225 if (pVM->hwaccm.s.svm.pMemObjMSRBitmap)
226 {
227 RTR0MemObjFree(pVM->hwaccm.s.svm.pMemObjMSRBitmap, false);
228 pVM->hwaccm.s.svm.pMSRBitmap = 0;
229 pVM->hwaccm.s.svm.pMSRBitmapPhys = 0;
230 pVM->hwaccm.s.svm.pMemObjMSRBitmap = 0;
231 }
232 return VINF_SUCCESS;
233}
234
235/**
236 * Sets up AMD-V for the specified VM
237 *
238 * @returns VBox status code.
239 * @param pVM The VM to operate on.
240 */
241HWACCMR0DECL(int) SVMR0SetupVM(PVM pVM)
242{
243 int rc = VINF_SUCCESS;
244 SVM_VMCB *pVMCB;
245
246 AssertReturn(pVM, VERR_INVALID_PARAMETER);
247
248 Assert(pVM->hwaccm.s.svm.fSupported);
249
250 pVMCB = (SVM_VMCB *)pVM->hwaccm.s.svm.pVMCB;
251 AssertMsgReturn(pVMCB, ("Invalid pVMCB\n"), VERR_EM_INTERNAL_ERROR);
252
253 /* Program the control fields. Most of them never have to be changed again. */
254 /* CR0/3/4 reads must be intercepted, our shadow values are not necessarily the same as the guest's. */
255 /* Note: CR8 reads will refer to V_TPR, so no need to catch them. */
256 /** @note CR0 & CR4 can be safely read when guest and shadow copies are identical. */
257 if (!pVM->hwaccm.s.svm.fNestedPaging)
258 pVMCB->ctrl.u16InterceptRdCRx = RT_BIT(0) | RT_BIT(3) | RT_BIT(4);
259 else
260 pVMCB->ctrl.u16InterceptRdCRx = RT_BIT(0);
261
262 /*
263 * CR0/3/4 writes must be intercepted for obvious reasons.
264 */
265 if (!pVM->hwaccm.s.svm.fNestedPaging)
266 pVMCB->ctrl.u16InterceptWrCRx = RT_BIT(0) | RT_BIT(3) | RT_BIT(4) | RT_BIT(8);
267 else
268 pVMCB->ctrl.u16InterceptWrCRx = RT_BIT(0) | RT_BIT(4) | RT_BIT(8);
269
270 /* Intercept all DRx reads and writes. */
271 pVMCB->ctrl.u16InterceptRdDRx = RT_BIT(0) | RT_BIT(1) | RT_BIT(2) | RT_BIT(3) | RT_BIT(4) | RT_BIT(5) | RT_BIT(6) | RT_BIT(7);
272 pVMCB->ctrl.u16InterceptWrDRx = RT_BIT(0) | RT_BIT(1) | RT_BIT(2) | RT_BIT(3) | RT_BIT(4) | RT_BIT(5) | RT_BIT(6) | RT_BIT(7);
273
274 /* Currently we don't care about DRx reads or writes. DRx registers are trashed.
275 * All breakpoints are automatically cleared when the VM exits.
276 */
277
278 pVMCB->ctrl.u32InterceptException = HWACCM_SVM_TRAP_MASK;
279 if (pVM->hwaccm.s.svm.fNestedPaging)
280 pVMCB->ctrl.u32InterceptException &= ~RT_BIT(14); /* no longer need to intercept #PF. */
281
282 pVMCB->ctrl.u32InterceptCtrl1 = SVM_CTRL1_INTERCEPT_INTR
283 | SVM_CTRL1_INTERCEPT_VINTR
284 | SVM_CTRL1_INTERCEPT_NMI
285 | SVM_CTRL1_INTERCEPT_SMI
286 | SVM_CTRL1_INTERCEPT_INIT
287 | SVM_CTRL1_INTERCEPT_RDPMC
288 | SVM_CTRL1_INTERCEPT_CPUID
289 | SVM_CTRL1_INTERCEPT_RSM
290 | SVM_CTRL1_INTERCEPT_HLT
291 | SVM_CTRL1_INTERCEPT_INOUT_BITMAP
292 | SVM_CTRL1_INTERCEPT_MSR_SHADOW
293 | SVM_CTRL1_INTERCEPT_INVLPG
294 | SVM_CTRL1_INTERCEPT_INVLPGA /* AMD only */
295 | SVM_CTRL1_INTERCEPT_TASK_SWITCH
296 | SVM_CTRL1_INTERCEPT_SHUTDOWN /* fatal */
297 | SVM_CTRL1_INTERCEPT_FERR_FREEZE; /* Legacy FPU FERR handling. */
298 ;
299 /* With nested paging we don't care about invlpg anymore. */
300 if (pVM->hwaccm.s.svm.fNestedPaging)
301 pVMCB->ctrl.u32InterceptCtrl1 &= ~SVM_CTRL1_INTERCEPT_INVLPG;
302
303 pVMCB->ctrl.u32InterceptCtrl2 = SVM_CTRL2_INTERCEPT_VMRUN /* required */
304 | SVM_CTRL2_INTERCEPT_VMMCALL
305 | SVM_CTRL2_INTERCEPT_VMLOAD
306 | SVM_CTRL2_INTERCEPT_VMSAVE
307 | SVM_CTRL2_INTERCEPT_STGI
308 | SVM_CTRL2_INTERCEPT_CLGI
309 | SVM_CTRL2_INTERCEPT_SKINIT
310 | SVM_CTRL2_INTERCEPT_RDTSCP /* AMD only; we don't support this one */
311 | SVM_CTRL2_INTERCEPT_WBINVD
312 | SVM_CTRL2_INTERCEPT_MWAIT_UNCOND; /* don't execute mwait or else we'll idle inside the guest (host thinks the cpu load is high) */
313 ;
314 Log(("pVMCB->ctrl.u32InterceptException = %x\n", pVMCB->ctrl.u32InterceptException));
315 Log(("pVMCB->ctrl.u32InterceptCtrl1 = %x\n", pVMCB->ctrl.u32InterceptCtrl1));
316 Log(("pVMCB->ctrl.u32InterceptCtrl2 = %x\n", pVMCB->ctrl.u32InterceptCtrl2));
317
318 /* Virtualize masking of INTR interrupts. (reads/writes from/to CR8 go to the V_TPR register) */
319 pVMCB->ctrl.IntCtrl.n.u1VIrqMasking = 1;
320
321 /* Set IO and MSR bitmap addresses. */
322 pVMCB->ctrl.u64IOPMPhysAddr = pVM->hwaccm.s.svm.pIOBitmapPhys;
323 pVMCB->ctrl.u64MSRPMPhysAddr = pVM->hwaccm.s.svm.pMSRBitmapPhys;
324
325 /* No LBR virtualization. */
326 pVMCB->ctrl.u64LBRVirt = 0;
327
328 /** The ASID must start at 1; the host uses 0. */
329 pVMCB->ctrl.TLBCtrl.n.u32ASID = 1;
330
331 return rc;
332}
333
334
335/**
336 * Injects an event (trap or external interrupt)
337 *
338 * @param pVM The VM to operate on.
339 * @param pVMCB SVM control block
340 * @param pCtx CPU Context
341 * @param pIntInfo SVM interrupt info
342 */
343inline void SVMR0InjectEvent(PVM pVM, SVM_VMCB *pVMCB, CPUMCTX *pCtx, SVM_EVENT* pEvent)
344{
345#ifdef VBOX_STRICT
346 if (pEvent->n.u8Vector == 0xE)
347 Log(("SVM: Inject int %d at %VGv error code=%08x CR2=%08x intInfo=%08x\n", pEvent->n.u8Vector, pCtx->eip, pEvent->n.u32ErrorCode, pCtx->cr2, pEvent->au64[0]));
348 else
349 if (pEvent->n.u8Vector < 0x20)
350 Log(("SVM: Inject int %d at %VGv error code=%08x\n", pEvent->n.u8Vector, pCtx->eip, pEvent->n.u32ErrorCode));
351 else
352 {
353 Log(("INJ-EI: %x at %VGv\n", pEvent->n.u8Vector, pCtx->eip));
354 Assert(!VM_FF_ISSET(pVM, VM_FF_INHIBIT_INTERRUPTS));
355 Assert(pCtx->eflags.u32 & X86_EFL_IF);
356 }
357#endif
358
359 /* Set event injection state. */
360 pVMCB->ctrl.EventInject.au64[0] = pEvent->au64[0];
361}
362
363
364/**
365 * Checks for pending guest interrupts and injects them
366 *
367 * @returns VBox status code.
368 * @param pVM The VM to operate on.
369 * @param pVMCB SVM control block
370 * @param pCtx CPU Context
371 */
372static int SVMR0CheckPendingInterrupt(PVM pVM, SVM_VMCB *pVMCB, CPUMCTX *pCtx)
373{
374 int rc;
375
376 /* Dispatch any pending interrupts. (injected before, but a VM exit occurred prematurely) */
377 if (pVM->hwaccm.s.Event.fPending)
378 {
379 SVM_EVENT Event;
380
381 Log(("Reinjecting event %08x %08x at %VGv\n", pVM->hwaccm.s.Event.intInfo, pVM->hwaccm.s.Event.errCode, pCtx->eip));
382 STAM_COUNTER_INC(&pVM->hwaccm.s.StatIntReinject);
383 Event.au64[0] = pVM->hwaccm.s.Event.intInfo;
384 SVMR0InjectEvent(pVM, pVMCB, pCtx, &Event);
385
386 pVM->hwaccm.s.Event.fPending = false;
387 return VINF_SUCCESS;
388 }
389
390 /* When external interrupts are pending, we should exit the VM when IF is set. */
391 if ( !TRPMHasTrap(pVM)
392 && VM_FF_ISPENDING(pVM, (VM_FF_INTERRUPT_APIC|VM_FF_INTERRUPT_PIC)))
393 {
394 if (!(pCtx->eflags.u32 & X86_EFL_IF))
395 {
396 if (!pVMCB->ctrl.IntCtrl.n.u1VIrqValid)
397 {
398 Log(("Enable irq window exit!\n"));
399 /** @todo use virtual interrupt method to inject a pending irq; dispatched as soon as guest.IF is set. */
400 pVMCB->ctrl.u32InterceptCtrl1 |= SVM_CTRL1_INTERCEPT_VINTR;
401 pVMCB->ctrl.IntCtrl.n.u1VIrqValid = 1;
402 pVMCB->ctrl.IntCtrl.n.u1IgnoreTPR = 1; /* ignore the priority in the TPR; just deliver it */
403 pVMCB->ctrl.IntCtrl.n.u8VIrqVector = 0; /* don't care */
404 }
405 }
406 else
407 if (!VM_FF_ISSET(pVM, VM_FF_INHIBIT_INTERRUPTS))
408 {
409 uint8_t u8Interrupt;
410
411 rc = PDMGetInterrupt(pVM, &u8Interrupt);
412 Log(("Dispatch interrupt: u8Interrupt=%x (%d) rc=%Vrc\n", u8Interrupt, u8Interrupt, rc));
413 if (VBOX_SUCCESS(rc))
414 {
415 rc = TRPMAssertTrap(pVM, u8Interrupt, TRPM_HARDWARE_INT);
416 AssertRC(rc);
417 }
418 else
419 {
420 /* Can only happen in rare cases where a pending interrupt is cleared behind our back */
421 Assert(!VM_FF_ISPENDING(pVM, (VM_FF_INTERRUPT_APIC|VM_FF_INTERRUPT_PIC)));
422 STAM_COUNTER_INC(&pVM->hwaccm.s.StatSwitchGuestIrq);
423 /* Just continue */
424 }
425 }
426 else
427 Log(("Pending interrupt blocked at %VGv by VM_FF_INHIBIT_INTERRUPTS!!\n", pCtx->eip));
428 }
429
430#ifdef VBOX_STRICT
431 if (TRPMHasTrap(pVM))
432 {
433 uint8_t u8Vector;
434 rc = TRPMQueryTrapAll(pVM, &u8Vector, 0, 0, 0);
435 AssertRC(rc);
436 }
437#endif
438
439 if ( pCtx->eflags.u32 & X86_EFL_IF
440 && (!VM_FF_ISSET(pVM, VM_FF_INHIBIT_INTERRUPTS))
441 && TRPMHasTrap(pVM)
442 )
443 {
444 uint8_t u8Vector;
445 int rc;
446 TRPMEVENT enmType;
447 SVM_EVENT Event;
448 uint32_t u32ErrorCode;
449
450 Event.au64[0] = 0;
451
452 /* If a new event is pending, then dispatch it now. */
453 rc = TRPMQueryTrapAll(pVM, &u8Vector, &enmType, &u32ErrorCode, 0);
454 AssertRC(rc);
455 Assert(pCtx->eflags.Bits.u1IF == 1 || enmType == TRPM_TRAP);
456 Assert(enmType != TRPM_SOFTWARE_INT);
457
458 /* Clear the pending trap. */
459 rc = TRPMResetTrap(pVM);
460 AssertRC(rc);
461
462 Event.n.u8Vector = u8Vector;
463 Event.n.u1Valid = 1;
464 Event.n.u32ErrorCode = u32ErrorCode;
465
466 if (enmType == TRPM_TRAP)
467 {
468 switch (u8Vector) {
469 case 8:
470 case 10:
471 case 11:
472 case 12:
473 case 13:
474 case 14:
475 case 17:
476 /* Valid error codes. */
477 Event.n.u1ErrorCodeValid = 1;
478 break;
479 default:
480 break;
481 }
482 if (u8Vector == X86_XCPT_NMI)
483 Event.n.u3Type = SVM_EVENT_NMI;
484 else
485 Event.n.u3Type = SVM_EVENT_EXCEPTION;
486 }
487 else
488 Event.n.u3Type = SVM_EVENT_EXTERNAL_IRQ;
489
490 STAM_COUNTER_INC(&pVM->hwaccm.s.StatIntInject);
491 SVMR0InjectEvent(pVM, pVMCB, pCtx, &Event);
492 } /* if (interrupts can be dispatched) */
493
494 return VINF_SUCCESS;
495}
496
497
498/**
499 * Loads the guest state
500 *
501 * @returns VBox status code.
502 * @param pVM The VM to operate on.
503 * @param pCtx Guest context
504 */
505HWACCMR0DECL(int) SVMR0LoadGuestState(PVM pVM, CPUMCTX *pCtx)
506{
507 RTGCUINTPTR val;
508 SVM_VMCB *pVMCB;
509
510 if (pVM == NULL)
511 return VERR_INVALID_PARAMETER;
512
513 /* Setup AMD SVM. */
514 Assert(pVM->hwaccm.s.svm.fSupported);
515
516 pVMCB = (SVM_VMCB *)pVM->hwaccm.s.svm.pVMCB;
517 AssertMsgReturn(pVMCB, ("Invalid pVMCB\n"), VERR_EM_INTERNAL_ERROR);
518
519 /* Guest CPU context: ES, CS, SS, DS, FS, GS. */
520 if (pVM->hwaccm.s.fContextUseFlags & HWACCM_CHANGED_GUEST_SEGMENT_REGS)
521 {
522 SVM_WRITE_SELREG(CS, cs);
523 SVM_WRITE_SELREG(SS, ss);
524 SVM_WRITE_SELREG(DS, ds);
525 SVM_WRITE_SELREG(ES, es);
526 SVM_WRITE_SELREG(FS, fs);
527 SVM_WRITE_SELREG(GS, gs);
528 }
529
530 /* Guest CPU context: LDTR. */
531 if (pVM->hwaccm.s.fContextUseFlags & HWACCM_CHANGED_GUEST_LDTR)
532 {
533 SVM_WRITE_SELREG(LDTR, ldtr);
534 }
535
536 /* Guest CPU context: TR. */
537 if (pVM->hwaccm.s.fContextUseFlags & HWACCM_CHANGED_GUEST_TR)
538 {
539 SVM_WRITE_SELREG(TR, tr);
540 }
541
542 /* Guest CPU context: GDTR. */
543 if (pVM->hwaccm.s.fContextUseFlags & HWACCM_CHANGED_GUEST_GDTR)
544 {
545 pVMCB->guest.GDTR.u32Limit = pCtx->gdtr.cbGdt;
546 pVMCB->guest.GDTR.u64Base = pCtx->gdtr.pGdt;
547 }
548
549 /* Guest CPU context: IDTR. */
550 if (pVM->hwaccm.s.fContextUseFlags & HWACCM_CHANGED_GUEST_IDTR)
551 {
552 pVMCB->guest.IDTR.u32Limit = pCtx->idtr.cbIdt;
553 pVMCB->guest.IDTR.u64Base = pCtx->idtr.pIdt;
554 }
555
556 /*
557 * Sysenter MSRs
558 */
559 if (pVM->hwaccm.s.fContextUseFlags & HWACCM_CHANGED_GUEST_SYSENTER_MSR)
560 {
561 pVMCB->guest.u64SysEnterCS = pCtx->SysEnter.cs;
562 pVMCB->guest.u64SysEnterEIP = pCtx->SysEnter.eip;
563 pVMCB->guest.u64SysEnterESP = pCtx->SysEnter.esp;
564 }
565
566 /* Control registers */
567 if (pVM->hwaccm.s.fContextUseFlags & HWACCM_CHANGED_GUEST_CR0)
568 {
569 val = pCtx->cr0;
570 if (CPUMIsGuestFPUStateActive(pVM) == false)
571 {
572 /* Always use #NM exceptions to load the FPU/XMM state on demand. */
573 val |= X86_CR0_TS | X86_CR0_ET | X86_CR0_NE | X86_CR0_MP;
574 }
575 else
576 {
577 Assert(pVM->hwaccm.s.svm.fResumeVM == true);
578 /** @todo check if we support the old style mess correctly. */
579 if (!(val & X86_CR0_NE))
580 {
581 Log(("Forcing X86_CR0_NE!!!\n"));
582
583 /* Also catch floating point exceptions as we need to report them to the guest in a different way. */
584 if (!pVM->hwaccm.s.fFPUOldStyleOverride)
585 {
586 pVMCB->ctrl.u32InterceptException |= RT_BIT(16);
587 pVM->hwaccm.s.fFPUOldStyleOverride = true;
588 }
589 }
590 val |= X86_CR0_NE; /* always turn on the native mechanism to report FPU errors (old style uses interrupts) */
591 }
592 /* Always enable caching. */
593 val &= ~(X86_CR0_CD|X86_CR0_NW);
594
595 /* Note: WP is not relevant in nested paging mode as we catch accesses on the (host) physical level. */
596 /* Note: In nested paging mode the guest is allowed to run with paging disabled; the guest physical to host physical translation will remain active. */
597 if (!pVM->hwaccm.s.svm.fNestedPaging)
598 {
599 val |= X86_CR0_PG; /* Paging is always enabled; even when the guest is running in real mode or PE without paging. */
600 val |= X86_CR0_WP; /* Must set this as we rely on protect various pages and supervisor writes must be caught. */
601 }
602 pVMCB->guest.u64CR0 = val;
603 }
604 /* CR2 as well */
605 pVMCB->guest.u64CR2 = pCtx->cr2;
606
607 if (pVM->hwaccm.s.fContextUseFlags & HWACCM_CHANGED_GUEST_CR3)
608 {
609 /* Save our shadow CR3 register. */
610 if (pVM->hwaccm.s.svm.fNestedPaging)
611 {
612 pVMCB->ctrl.u64NestedPagingCR3 = PGMGetHyperCR3(pVM);
613 pVMCB->guest.u64CR3 = pCtx->cr3;
614 }
615 else
616 pVMCB->guest.u64CR3 = PGMGetHyperCR3(pVM);
617 }
618
619 if (pVM->hwaccm.s.fContextUseFlags & HWACCM_CHANGED_GUEST_CR4)
620 {
621 val = pCtx->cr4;
622 if (!pVM->hwaccm.s.svm.fNestedPaging)
623 {
624 switch(pVM->hwaccm.s.enmShadowMode)
625 {
626 case PGMMODE_REAL:
627 case PGMMODE_PROTECTED: /* Protected mode, no paging. */
628 AssertFailed();
629 return VERR_PGM_UNSUPPORTED_HOST_PAGING_MODE;
630
631 case PGMMODE_32_BIT: /* 32-bit paging. */
632 break;
633
634 case PGMMODE_PAE: /* PAE paging. */
635 case PGMMODE_PAE_NX: /* PAE paging with NX enabled. */
636 /** @todo use normal 32 bits paging */
637 val |= X86_CR4_PAE;
638 break;
639
640 case PGMMODE_AMD64: /* 64-bit AMD paging (long mode). */
641 case PGMMODE_AMD64_NX: /* 64-bit AMD paging (long mode) with NX enabled. */
642 AssertFailed();
643 return VERR_PGM_UNSUPPORTED_HOST_PAGING_MODE;
644
645 default: /* shut up gcc */
646 AssertFailed();
647 return VERR_PGM_UNSUPPORTED_HOST_PAGING_MODE;
648 }
649 }
650 pVMCB->guest.u64CR4 = val;
651 }
652
653 /* Debug registers. */
654 if (pVM->hwaccm.s.fContextUseFlags & HWACCM_CHANGED_GUEST_DEBUG)
655 {
656 /** @todo DR0-6 */
657 val = pCtx->dr7;
658 val &= ~(RT_BIT(11) | RT_BIT(12) | RT_BIT(14) | RT_BIT(15)); /* must be zero */
659 val |= 0x400; /* must be one */
660#ifdef VBOX_STRICT
661 val = 0x400;
662#endif
663 pVMCB->guest.u64DR7 = val;
664
665 pVMCB->guest.u64DR6 = pCtx->dr6;
666 }
667
668 /* EIP, ESP and EFLAGS */
669 pVMCB->guest.u64RIP = pCtx->eip;
670 pVMCB->guest.u64RSP = pCtx->esp;
671 pVMCB->guest.u64RFlags = pCtx->eflags.u32;
672
673 /* Set CPL */
674 pVMCB->guest.u8CPL = pCtx->ssHid.Attr.n.u2Dpl;
675
676 /* RAX/EAX too, as VMRUN uses RAX as an implicit parameter. */
677 pVMCB->guest.u64RAX = pCtx->eax;
678
679 /* vmrun will fail otherwise. */
680 pVMCB->guest.u64EFER = MSR_K6_EFER_SVME;
681
682 /** TSC offset. */
683 if (TMCpuTickCanUseRealTSC(pVM, &pVMCB->ctrl.u64TSCOffset))
684 pVMCB->ctrl.u32InterceptCtrl1 &= ~SVM_CTRL1_INTERCEPT_RDTSC;
685 else
686 pVMCB->ctrl.u32InterceptCtrl1 |= SVM_CTRL1_INTERCEPT_RDTSC;
687
688 /** @todo 64 bits stuff (?):
689 * - STAR
690 * - LSTAR
691 * - CSTAR
692 * - SFMASK
693 * - KernelGSBase
694 */
695
696#ifdef DEBUG
697 /* Intercept X86_XCPT_DB if stepping is enabled */
698 if (DBGFIsStepping(pVM))
699 pVMCB->ctrl.u32InterceptException |= RT_BIT(1);
700 else
701 pVMCB->ctrl.u32InterceptException &= ~RT_BIT(1);
702#endif
703
704 /* Done. */
705 pVM->hwaccm.s.fContextUseFlags &= ~HWACCM_CHANGED_ALL_GUEST;
706
707 return VINF_SUCCESS;
708}
709
710
711/**
712 * Runs guest code in an SVM VM.
713 *
714 * @todo This can be much more efficient, when we only sync that which has actually changed. (this is the first attempt only)
715 *
716 * @returns VBox status code.
717 * @param pVM The VM to operate on.
718 * @param pCtx Guest context
719 * @param pCpu CPU info struct
720 */
721HWACCMR0DECL(int) SVMR0RunGuestCode(PVM pVM, CPUMCTX *pCtx, PHWACCM_CPUINFO pCpu)
722{
723 int rc = VINF_SUCCESS;
724 uint64_t exitCode = (uint64_t)SVM_EXIT_INVALID;
725 SVM_VMCB *pVMCB;
726 bool fGuestStateSynced = false;
727 unsigned cResume = 0;
728
729 STAM_PROFILE_ADV_START(&pVM->hwaccm.s.StatEntry, x);
730
731 Assert(!pVM->hwaccm.s.svm.fNestedPaging);
732 AssertReturn(pCpu->fSVMConfigured, VERR_EM_INTERNAL_ERROR);
733
734 pVMCB = (SVM_VMCB *)pVM->hwaccm.s.svm.pVMCB;
735 AssertMsgReturn(pVMCB, ("Invalid pVMCB\n"), VERR_EM_INTERNAL_ERROR);
736
737 /* We can jump to this point to resume execution after determining that a VM-exit is innocent.
738 */
739ResumeExecution:
740 /* Safety precaution; looping for too long here can have a very bad effect on the host */
741 if (++cResume > HWACCM_MAX_RESUME_LOOPS)
742 {
743 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitMaxResume);
744 rc = VINF_EM_RAW_INTERRUPT;
745 goto end;
746 }
747
748 /* Check for irq inhibition due to instruction fusing (sti, mov ss). */
749 if (VM_FF_ISSET(pVM, VM_FF_INHIBIT_INTERRUPTS))
750 {
751 Log(("VM_FF_INHIBIT_INTERRUPTS at %VGv successor %VGv\n", pCtx->eip, EMGetInhibitInterruptsPC(pVM)));
752 if (pCtx->eip != EMGetInhibitInterruptsPC(pVM))
753 {
754 /** @note we intentionally don't clear VM_FF_INHIBIT_INTERRUPTS here.
755 * Before we are able to execute this instruction in raw mode (iret to guest code) an external interrupt might
756 * force a world switch again. Possibly allowing a guest interrupt to be dispatched in the process. This could
757 * break the guest. Sounds very unlikely, but such timing sensitive problem are not as rare as you might think.
758 */
759 VM_FF_CLEAR(pVM, VM_FF_INHIBIT_INTERRUPTS);
760 /* Irq inhibition is no longer active; clear the corresponding SVM state. */
761 pVMCB->ctrl.u64IntShadow = 0;
762 }
763 }
764 else
765 {
766 /* Irq inhibition is no longer active; clear the corresponding SVM state. */
767 pVMCB->ctrl.u64IntShadow = 0;
768 }
769
770 /* Check for pending actions that force us to go back to ring 3. */
771#ifdef DEBUG
772 /* Intercept X86_XCPT_DB if stepping is enabled */
773 if (!DBGFIsStepping(pVM))
774#endif
775 {
776 if (VM_FF_ISPENDING(pVM, VM_FF_TO_R3 | VM_FF_TIMER))
777 {
778 VM_FF_CLEAR(pVM, VM_FF_TO_R3);
779 STAM_COUNTER_INC(&pVM->hwaccm.s.StatSwitchToR3);
780 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatEntry, x);
781 rc = VINF_EM_RAW_TO_R3;
782 goto end;
783 }
784 }
785
786 /* Pending request packets might contain actions that need immediate attention, such as pending hardware interrupts. */
787 if (VM_FF_ISPENDING(pVM, VM_FF_REQUEST))
788 {
789 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatEntry, x);
790 rc = VINF_EM_PENDING_REQUEST;
791 goto end;
792 }
793
794 /* When external interrupts are pending, we should exit the VM when IF is set. */
795 /** @note *after* VM_FF_INHIBIT_INTERRUPTS check!!! */
796 rc = SVMR0CheckPendingInterrupt(pVM, pVMCB, pCtx);
797 if (VBOX_FAILURE(rc))
798 {
799 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatEntry, x);
800 goto end;
801 }
802
803 /* Load the guest state */
804 rc = SVMR0LoadGuestState(pVM, pCtx);
805 if (rc != VINF_SUCCESS)
806 {
807 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatEntry, x);
808 goto end;
809 }
810 fGuestStateSynced = true;
811
812 /* All done! Let's start VM execution. */
813 STAM_PROFILE_ADV_START(&pVM->hwaccm.s.StatInGC, x);
814
815 /* Enable nested paging if necessary (disabled each time after #VMEXIT). */
816 pVMCB->ctrl.NestedPaging.n.u1NestedPaging = pVM->hwaccm.s.svm.fNestedPaging;
817
818 /* Force a TLB flush for the first world switch if the current cpu differs from the one we ran on last. */
819 if (!pVM->hwaccm.s.svm.fResumeVM)
820 {
821 if ( pVM->hwaccm.s.svm.idLastCpu != pCpu->idCpu
822 /* if the tlb flush count has changed, another VM has flushed the TLB of this cpu, so we can't use our current ASID anymore. */
823 || pVM->hwaccm.s.svm.cTLBFlushes != pCpu->cTLBFlushes)
824 {
825 /* Force a TLB flush on VM entry. */
826 pVM->hwaccm.s.svm.fForceTLBFlush = true;
827 }
828 pVM->hwaccm.s.svm.idLastCpu = pCpu->idCpu;
829 }
830
831 /* Make sure we flush the TLB when required. Switch ASID to achieve the same thing, but without actually flushing the whole TLB (which is expensive). */
832 if ( pVM->hwaccm.s.svm.fForceTLBFlush
833 && !pVM->hwaccm.s.svm.fAlwaysFlushTLB)
834 {
835 if (++pCpu->uCurrentASID >= pVM->hwaccm.s.svm.u32MaxASID)
836 {
837 pCpu->uCurrentASID = 1; /* start at 1; host uses 0 */
838 pVMCB->ctrl.TLBCtrl.n.u1TLBFlush = 1; /* wrap around; flush TLB */
839 pCpu->cTLBFlushes++;
840 }
841 else
842 STAM_COUNTER_INC(&pVM->hwaccm.s.StatFlushASID);
843
844 pVM->hwaccm.s.svm.cTLBFlushes = pCpu->cTLBFlushes;
845 }
846 else
847 {
848 /* We never increase uCurrentASID in the fAlwaysFlushTLB (erratum 170) case. */
849 if (!pCpu->uCurrentASID)
850 pCpu->uCurrentASID = 1;
851
852 pVMCB->ctrl.TLBCtrl.n.u1TLBFlush = pVM->hwaccm.s.svm.fForceTLBFlush;
853 }
854
855 AssertMsg(pCpu->uCurrentASID >= 1 && pCpu->uCurrentASID < pVM->hwaccm.s.svm.u32MaxASID, ("cpu%d uCurrentASID = %x\n", pCpu->idCpu, pCpu->uCurrentASID));
856 pVMCB->ctrl.TLBCtrl.n.u32ASID = pCpu->uCurrentASID;
857
858#ifdef VBOX_WITH_STATISTICS
859 if (pVMCB->ctrl.TLBCtrl.n.u1TLBFlush)
860 STAM_COUNTER_INC(&pVM->hwaccm.s.StatFlushTLBWorldSwitch);
861 else
862 STAM_COUNTER_INC(&pVM->hwaccm.s.StatNoFlushTLBWorldSwitch);
863#endif
864
865 /* In case we execute a goto ResumeExecution later on. */
866 pVM->hwaccm.s.svm.fResumeVM = true;
867 pVM->hwaccm.s.svm.fForceTLBFlush = pVM->hwaccm.s.svm.fAlwaysFlushTLB;
868
869 Assert(sizeof(pVM->hwaccm.s.svm.pVMCBPhys) == 8);
870 Assert(pVMCB->ctrl.u32InterceptCtrl2 == ( SVM_CTRL2_INTERCEPT_VMRUN /* required */
871 | SVM_CTRL2_INTERCEPT_VMMCALL
872 | SVM_CTRL2_INTERCEPT_VMLOAD
873 | SVM_CTRL2_INTERCEPT_VMSAVE
874 | SVM_CTRL2_INTERCEPT_STGI
875 | SVM_CTRL2_INTERCEPT_CLGI
876 | SVM_CTRL2_INTERCEPT_SKINIT
877 | SVM_CTRL2_INTERCEPT_RDTSCP /* AMD only; we don't support this one */
878 | SVM_CTRL2_INTERCEPT_WBINVD
879 | SVM_CTRL2_INTERCEPT_MWAIT_UNCOND /* don't execute mwait or else we'll idle inside the guest (host thinks the cpu load is high) */
880 ));
881 Assert(pVMCB->ctrl.IntCtrl.n.u1VIrqMasking);
882 Assert(pVMCB->ctrl.u64IOPMPhysAddr == pVM->hwaccm.s.svm.pIOBitmapPhys);
883 Assert(pVMCB->ctrl.u64MSRPMPhysAddr == pVM->hwaccm.s.svm.pMSRBitmapPhys);
884 Assert(pVMCB->ctrl.u64LBRVirt == 0);
885
886 SVMVMRun(pVM->hwaccm.s.svm.pVMCBHostPhys, pVM->hwaccm.s.svm.pVMCBPhys, pCtx);
887 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatInGC, x);
888
889 /**
890 * !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
891 * IMPORTANT: WE CAN'T DO ANY LOGGING OR OPERATIONS THAT CAN DO A LONGJMP BACK TO RING 3 *BEFORE* WE'VE SYNCED BACK (MOST OF) THE GUEST STATE
892 * !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
893 */
894
895 STAM_PROFILE_ADV_START(&pVM->hwaccm.s.StatExit, x);
896
897 /* Reason for the VM exit */
898 exitCode = pVMCB->ctrl.u64ExitCode;
899
900 if (exitCode == (uint64_t)SVM_EXIT_INVALID) /* Invalid guest state. */
901 {
902 HWACCMDumpRegs(pCtx);
903#ifdef DEBUG
904 Log(("ctrl.u16InterceptRdCRx %x\n", pVMCB->ctrl.u16InterceptRdCRx));
905 Log(("ctrl.u16InterceptWrCRx %x\n", pVMCB->ctrl.u16InterceptWrCRx));
906 Log(("ctrl.u16InterceptRdDRx %x\n", pVMCB->ctrl.u16InterceptRdDRx));
907 Log(("ctrl.u16InterceptWrDRx %x\n", pVMCB->ctrl.u16InterceptWrDRx));
908 Log(("ctrl.u32InterceptException %x\n", pVMCB->ctrl.u32InterceptException));
909 Log(("ctrl.u32InterceptCtrl1 %x\n", pVMCB->ctrl.u32InterceptCtrl1));
910 Log(("ctrl.u32InterceptCtrl2 %x\n", pVMCB->ctrl.u32InterceptCtrl2));
911 Log(("ctrl.u64IOPMPhysAddr %VX64\n", pVMCB->ctrl.u64IOPMPhysAddr));
912 Log(("ctrl.u64MSRPMPhysAddr %VX64\n", pVMCB->ctrl.u64MSRPMPhysAddr));
913 Log(("ctrl.u64TSCOffset %VX64\n", pVMCB->ctrl.u64TSCOffset));
914
915 Log(("ctrl.TLBCtrl.u32ASID %x\n", pVMCB->ctrl.TLBCtrl.n.u32ASID));
916 Log(("ctrl.TLBCtrl.u1TLBFlush %x\n", pVMCB->ctrl.TLBCtrl.n.u1TLBFlush));
917 Log(("ctrl.TLBCtrl.u7Reserved %x\n", pVMCB->ctrl.TLBCtrl.n.u7Reserved));
918 Log(("ctrl.TLBCtrl.u24Reserved %x\n", pVMCB->ctrl.TLBCtrl.n.u24Reserved));
919
920 Log(("ctrl.IntCtrl.u8VTPR %x\n", pVMCB->ctrl.IntCtrl.n.u8VTPR));
921 Log(("ctrl.IntCtrl.u1VIrqValid %x\n", pVMCB->ctrl.IntCtrl.n.u1VIrqValid));
922 Log(("ctrl.IntCtrl.u7Reserved %x\n", pVMCB->ctrl.IntCtrl.n.u7Reserved));
923 Log(("ctrl.IntCtrl.u4VIrqPriority %x\n", pVMCB->ctrl.IntCtrl.n.u4VIrqPriority));
924 Log(("ctrl.IntCtrl.u1IgnoreTPR %x\n", pVMCB->ctrl.IntCtrl.n.u1IgnoreTPR));
925 Log(("ctrl.IntCtrl.u3Reserved %x\n", pVMCB->ctrl.IntCtrl.n.u3Reserved));
926 Log(("ctrl.IntCtrl.u1VIrqMasking %x\n", pVMCB->ctrl.IntCtrl.n.u1VIrqMasking));
927 Log(("ctrl.IntCtrl.u7Reserved2 %x\n", pVMCB->ctrl.IntCtrl.n.u7Reserved2));
928 Log(("ctrl.IntCtrl.u8VIrqVector %x\n", pVMCB->ctrl.IntCtrl.n.u8VIrqVector));
929 Log(("ctrl.IntCtrl.u24Reserved %x\n", pVMCB->ctrl.IntCtrl.n.u24Reserved));
930
931 Log(("ctrl.u64IntShadow %VX64\n", pVMCB->ctrl.u64IntShadow));
932 Log(("ctrl.u64ExitCode %VX64\n", pVMCB->ctrl.u64ExitCode));
933 Log(("ctrl.u64ExitInfo1 %VX64\n", pVMCB->ctrl.u64ExitInfo1));
934 Log(("ctrl.u64ExitInfo2 %VX64\n", pVMCB->ctrl.u64ExitInfo2));
935 Log(("ctrl.ExitIntInfo.u8Vector %x\n", pVMCB->ctrl.ExitIntInfo.n.u8Vector));
936 Log(("ctrl.ExitIntInfo.u3Type %x\n", pVMCB->ctrl.ExitIntInfo.n.u3Type));
937 Log(("ctrl.ExitIntInfo.u1ErrorCodeValid %x\n", pVMCB->ctrl.ExitIntInfo.n.u1ErrorCodeValid));
938 Log(("ctrl.ExitIntInfo.u19Reserved %x\n", pVMCB->ctrl.ExitIntInfo.n.u19Reserved));
939 Log(("ctrl.ExitIntInfo.u1Valid %x\n", pVMCB->ctrl.ExitIntInfo.n.u1Valid));
940 Log(("ctrl.ExitIntInfo.u32ErrorCode %x\n", pVMCB->ctrl.ExitIntInfo.n.u32ErrorCode));
941 Log(("ctrl.NestedPaging %VX64\n", pVMCB->ctrl.NestedPaging.au64));
942 Log(("ctrl.EventInject.u8Vector %x\n", pVMCB->ctrl.EventInject.n.u8Vector));
943 Log(("ctrl.EventInject.u3Type %x\n", pVMCB->ctrl.EventInject.n.u3Type));
944 Log(("ctrl.EventInject.u1ErrorCodeValid %x\n", pVMCB->ctrl.EventInject.n.u1ErrorCodeValid));
945 Log(("ctrl.EventInject.u19Reserved %x\n", pVMCB->ctrl.EventInject.n.u19Reserved));
946 Log(("ctrl.EventInject.u1Valid %x\n", pVMCB->ctrl.EventInject.n.u1Valid));
947 Log(("ctrl.EventInject.u32ErrorCode %x\n", pVMCB->ctrl.EventInject.n.u32ErrorCode));
948
949 Log(("ctrl.u64NestedPagingCR3 %VX64\n", pVMCB->ctrl.u64NestedPagingCR3));
950 Log(("ctrl.u64LBRVirt %VX64\n", pVMCB->ctrl.u64LBRVirt));
951
952 Log(("guest.CS.u16Sel %04X\n", pVMCB->guest.CS.u16Sel));
953 Log(("guest.CS.u16Attr %04X\n", pVMCB->guest.CS.u16Attr));
954 Log(("guest.CS.u32Limit %X\n", pVMCB->guest.CS.u32Limit));
955 Log(("guest.CS.u64Base %VX64\n", pVMCB->guest.CS.u64Base));
956 Log(("guest.DS.u16Sel %04X\n", pVMCB->guest.DS.u16Sel));
957 Log(("guest.DS.u16Attr %04X\n", pVMCB->guest.DS.u16Attr));
958 Log(("guest.DS.u32Limit %X\n", pVMCB->guest.DS.u32Limit));
959 Log(("guest.DS.u64Base %VX64\n", pVMCB->guest.DS.u64Base));
960 Log(("guest.ES.u16Sel %04X\n", pVMCB->guest.ES.u16Sel));
961 Log(("guest.ES.u16Attr %04X\n", pVMCB->guest.ES.u16Attr));
962 Log(("guest.ES.u32Limit %X\n", pVMCB->guest.ES.u32Limit));
963 Log(("guest.ES.u64Base %VX64\n", pVMCB->guest.ES.u64Base));
964 Log(("guest.FS.u16Sel %04X\n", pVMCB->guest.FS.u16Sel));
965 Log(("guest.FS.u16Attr %04X\n", pVMCB->guest.FS.u16Attr));
966 Log(("guest.FS.u32Limit %X\n", pVMCB->guest.FS.u32Limit));
967 Log(("guest.FS.u64Base %VX64\n", pVMCB->guest.FS.u64Base));
968 Log(("guest.GS.u16Sel %04X\n", pVMCB->guest.GS.u16Sel));
969 Log(("guest.GS.u16Attr %04X\n", pVMCB->guest.GS.u16Attr));
970 Log(("guest.GS.u32Limit %X\n", pVMCB->guest.GS.u32Limit));
971 Log(("guest.GS.u64Base %VX64\n", pVMCB->guest.GS.u64Base));
972
973 Log(("guest.GDTR.u32Limit %X\n", pVMCB->guest.GDTR.u32Limit));
974 Log(("guest.GDTR.u64Base %VX64\n", pVMCB->guest.GDTR.u64Base));
975
976 Log(("guest.LDTR.u16Sel %04X\n", pVMCB->guest.LDTR.u16Sel));
977 Log(("guest.LDTR.u16Attr %04X\n", pVMCB->guest.LDTR.u16Attr));
978 Log(("guest.LDTR.u32Limit %X\n", pVMCB->guest.LDTR.u32Limit));
979 Log(("guest.LDTR.u64Base %VX64\n", pVMCB->guest.LDTR.u64Base));
980
981 Log(("guest.IDTR.u32Limit %X\n", pVMCB->guest.IDTR.u32Limit));
982 Log(("guest.IDTR.u64Base %VX64\n", pVMCB->guest.IDTR.u64Base));
983
984 Log(("guest.TR.u16Sel %04X\n", pVMCB->guest.TR.u16Sel));
985 Log(("guest.TR.u16Attr %04X\n", pVMCB->guest.TR.u16Attr));
986 Log(("guest.TR.u32Limit %X\n", pVMCB->guest.TR.u32Limit));
987 Log(("guest.TR.u64Base %VX64\n", pVMCB->guest.TR.u64Base));
988
989 Log(("guest.u8CPL %X\n", pVMCB->guest.u8CPL));
990 Log(("guest.u64CR0 %VX64\n", pVMCB->guest.u64CR0));
991 Log(("guest.u64CR2 %VX64\n", pVMCB->guest.u64CR2));
992 Log(("guest.u64CR3 %VX64\n", pVMCB->guest.u64CR3));
993 Log(("guest.u64CR4 %VX64\n", pVMCB->guest.u64CR4));
994 Log(("guest.u64DR6 %VX64\n", pVMCB->guest.u64DR6));
995 Log(("guest.u64DR7 %VX64\n", pVMCB->guest.u64DR7));
996
997 Log(("guest.u64RIP %VX64\n", pVMCB->guest.u64RIP));
998 Log(("guest.u64RSP %VX64\n", pVMCB->guest.u64RSP));
999 Log(("guest.u64RAX %VX64\n", pVMCB->guest.u64RAX));
1000 Log(("guest.u64RFlags %VX64\n", pVMCB->guest.u64RFlags));
1001
1002 Log(("guest.u64SysEnterCS %VX64\n", pVMCB->guest.u64SysEnterCS));
1003 Log(("guest.u64SysEnterEIP %VX64\n", pVMCB->guest.u64SysEnterEIP));
1004 Log(("guest.u64SysEnterESP %VX64\n", pVMCB->guest.u64SysEnterESP));
1005
1006 Log(("guest.u64EFER %VX64\n", pVMCB->guest.u64EFER));
1007 Log(("guest.u64STAR %VX64\n", pVMCB->guest.u64STAR));
1008 Log(("guest.u64LSTAR %VX64\n", pVMCB->guest.u64LSTAR));
1009 Log(("guest.u64CSTAR %VX64\n", pVMCB->guest.u64CSTAR));
1010 Log(("guest.u64SFMASK %VX64\n", pVMCB->guest.u64SFMASK));
1011 Log(("guest.u64KernelGSBase %VX64\n", pVMCB->guest.u64KernelGSBase));
1012 Log(("guest.u64GPAT %VX64\n", pVMCB->guest.u64GPAT));
1013 Log(("guest.u64DBGCTL %VX64\n", pVMCB->guest.u64DBGCTL));
1014 Log(("guest.u64BR_FROM %VX64\n", pVMCB->guest.u64BR_FROM));
1015 Log(("guest.u64BR_TO %VX64\n", pVMCB->guest.u64BR_TO));
1016 Log(("guest.u64LASTEXCPFROM %VX64\n", pVMCB->guest.u64LASTEXCPFROM));
1017 Log(("guest.u64LASTEXCPTO %VX64\n", pVMCB->guest.u64LASTEXCPTO));
1018
1019#endif
1020 rc = VERR_SVM_UNABLE_TO_START_VM;
1021 goto end;
1022 }
1023
1024 /* Let's first sync back eip, esp, and eflags. */
1025 pCtx->eip = pVMCB->guest.u64RIP;
1026 pCtx->esp = pVMCB->guest.u64RSP;
1027 pCtx->eflags.u32 = pVMCB->guest.u64RFlags;
1028 /* eax is saved/restore across the vmrun instruction */
1029 pCtx->eax = pVMCB->guest.u64RAX;
1030
1031 /* Guest CPU context: ES, CS, SS, DS, FS, GS. */
1032 SVM_READ_SELREG(SS, ss);
1033 SVM_READ_SELREG(CS, cs);
1034 SVM_READ_SELREG(DS, ds);
1035 SVM_READ_SELREG(ES, es);
1036 SVM_READ_SELREG(FS, fs);
1037 SVM_READ_SELREG(GS, gs);
1038
1039 /* Note: no reason to sync back the CRx and DRx registers. They can't be changed by the guest. */
1040 /* Note: only in the nested paging case can CR3 & CR4 be changed by the guest. */
1041 if (pVM->hwaccm.s.svm.fNestedPaging)
1042 {
1043 CPUMSetGuestCR3(pVM, pVMCB->guest.u64CR3);
1044 CPUMSetGuestCR4(pVM, pVMCB->guest.u64CR4);
1045 }
1046
1047 /** @note NOW IT'S SAFE FOR LOGGING! */
1048
1049 /* Take care of instruction fusing (sti, mov ss) */
1050 if (pVMCB->ctrl.u64IntShadow & SVM_INTERRUPT_SHADOW_ACTIVE)
1051 {
1052 Log(("uInterruptState %x eip=%VGv\n", pVMCB->ctrl.u64IntShadow, pCtx->eip));
1053 EMSetInhibitInterruptsPC(pVM, pCtx->eip);
1054 }
1055 else
1056 VM_FF_CLEAR(pVM, VM_FF_INHIBIT_INTERRUPTS);
1057
1058 Log2(("exitCode = %x\n", exitCode));
1059
1060 /* Check if an injected event was interrupted prematurely. */
1061 pVM->hwaccm.s.Event.intInfo = pVMCB->ctrl.ExitIntInfo.au64[0];
1062 if ( pVMCB->ctrl.ExitIntInfo.n.u1Valid
1063 && pVMCB->ctrl.ExitIntInfo.n.u3Type != SVM_EVENT_SOFTWARE_INT /* we don't care about 'int xx' as the instruction will be restarted. */)
1064 {
1065 Log(("Pending inject %VX64 at %08x exit=%08x\n", pVM->hwaccm.s.Event.intInfo, pCtx->eip, exitCode));
1066 pVM->hwaccm.s.Event.fPending = true;
1067 /* Error code present? (redundant) */
1068 if (pVMCB->ctrl.ExitIntInfo.n.u1ErrorCodeValid)
1069 {
1070 pVM->hwaccm.s.Event.errCode = pVMCB->ctrl.ExitIntInfo.n.u32ErrorCode;
1071 }
1072 else
1073 pVM->hwaccm.s.Event.errCode = 0;
1074 }
1075 STAM_COUNTER_INC(&pVM->hwaccm.s.pStatExitReasonR0[exitCode & MASK_EXITREASON_STAT]);
1076
1077 /* Deal with the reason of the VM-exit. */
1078 switch (exitCode)
1079 {
1080 case SVM_EXIT_EXCEPTION_0: case SVM_EXIT_EXCEPTION_1: case SVM_EXIT_EXCEPTION_2: case SVM_EXIT_EXCEPTION_3:
1081 case SVM_EXIT_EXCEPTION_4: case SVM_EXIT_EXCEPTION_5: case SVM_EXIT_EXCEPTION_6: case SVM_EXIT_EXCEPTION_7:
1082 case SVM_EXIT_EXCEPTION_8: case SVM_EXIT_EXCEPTION_9: case SVM_EXIT_EXCEPTION_A: case SVM_EXIT_EXCEPTION_B:
1083 case SVM_EXIT_EXCEPTION_C: case SVM_EXIT_EXCEPTION_D: case SVM_EXIT_EXCEPTION_E: case SVM_EXIT_EXCEPTION_F:
1084 case SVM_EXIT_EXCEPTION_10: case SVM_EXIT_EXCEPTION_11: case SVM_EXIT_EXCEPTION_12: case SVM_EXIT_EXCEPTION_13:
1085 case SVM_EXIT_EXCEPTION_14: case SVM_EXIT_EXCEPTION_15: case SVM_EXIT_EXCEPTION_16: case SVM_EXIT_EXCEPTION_17:
1086 case SVM_EXIT_EXCEPTION_18: case SVM_EXIT_EXCEPTION_19: case SVM_EXIT_EXCEPTION_1A: case SVM_EXIT_EXCEPTION_1B:
1087 case SVM_EXIT_EXCEPTION_1C: case SVM_EXIT_EXCEPTION_1D: case SVM_EXIT_EXCEPTION_1E: case SVM_EXIT_EXCEPTION_1F:
1088 {
1089 /* Pending trap. */
1090 SVM_EVENT Event;
1091 uint32_t vector = exitCode - SVM_EXIT_EXCEPTION_0;
1092
1093 Log2(("Hardware/software interrupt %d\n", vector));
1094 switch (vector)
1095 {
1096#ifdef DEBUG
1097 case X86_XCPT_DB:
1098 rc = DBGFR0Trap01Handler(pVM, CPUMCTX2CORE(pCtx), pVMCB->guest.u64DR6);
1099 Assert(rc != VINF_EM_RAW_GUEST_TRAP);
1100 break;
1101#endif
1102
1103 case X86_XCPT_NM:
1104 {
1105 uint32_t oldCR0;
1106
1107 Log(("#NM fault at %VGv\n", pCtx->eip));
1108
1109 /** @todo don't intercept #NM exceptions anymore when we've activated the guest FPU state. */
1110 oldCR0 = ASMGetCR0();
1111 /* If we sync the FPU/XMM state on-demand, then we can continue execution as if nothing has happened. */
1112 rc = CPUMHandleLazyFPU(pVM);
1113 if (rc == VINF_SUCCESS)
1114 {
1115 Assert(CPUMIsGuestFPUStateActive(pVM));
1116
1117 /* CPUMHandleLazyFPU could have changed CR0; restore it. */
1118 ASMSetCR0(oldCR0);
1119
1120 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitShadowNM);
1121
1122 /* Continue execution. */
1123 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1124 pVM->hwaccm.s.fContextUseFlags |= HWACCM_CHANGED_GUEST_CR0;
1125
1126 goto ResumeExecution;
1127 }
1128
1129 Log(("Forward #NM fault to the guest\n"));
1130 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitGuestNM);
1131
1132 Event.au64[0] = 0;
1133 Event.n.u3Type = SVM_EVENT_EXCEPTION;
1134 Event.n.u1Valid = 1;
1135 Event.n.u8Vector = X86_XCPT_NM;
1136
1137 SVMR0InjectEvent(pVM, pVMCB, pCtx, &Event);
1138 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1139 goto ResumeExecution;
1140 }
1141
1142 case X86_XCPT_PF: /* Page fault */
1143 {
1144 uint32_t errCode = pVMCB->ctrl.u64ExitInfo1; /* EXITINFO1 = error code */
1145 RTGCUINTPTR uFaultAddress = pVMCB->ctrl.u64ExitInfo2; /* EXITINFO2 = fault address */
1146
1147 Assert(!pVM->hwaccm.s.svm.fNestedPaging);
1148
1149 Log2(("Page fault at %VGv cr2=%VGv error code %x\n", pCtx->eip, uFaultAddress, errCode));
1150 /* Exit qualification contains the linear address of the page fault. */
1151 TRPMAssertTrap(pVM, X86_XCPT_PF, TRPM_TRAP);
1152 TRPMSetErrorCode(pVM, errCode);
1153 TRPMSetFaultAddress(pVM, uFaultAddress);
1154
1155 /* Forward it to our trap handler first, in case our shadow pages are out of sync. */
1156 rc = PGMTrap0eHandler(pVM, errCode, CPUMCTX2CORE(pCtx), (RTGCPTR)uFaultAddress);
1157 Log2(("PGMTrap0eHandler %VGv returned %Vrc\n", pCtx->eip, rc));
1158 if (rc == VINF_SUCCESS)
1159 { /* We've successfully synced our shadow pages, so let's just continue execution. */
1160 Log2(("Shadow page fault at %VGv cr2=%VGv error code %x\n", pCtx->eip, uFaultAddress, errCode));
1161 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitShadowPF);
1162
1163 TRPMResetTrap(pVM);
1164
1165 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1166 goto ResumeExecution;
1167 }
1168 else
1169 if (rc == VINF_EM_RAW_GUEST_TRAP)
1170 { /* A genuine pagefault.
1171 * Forward the trap to the guest by injecting the exception and resuming execution.
1172 */
1173 Log2(("Forward page fault to the guest\n"));
1174 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitGuestPF);
1175 /* The error code might have been changed. */
1176 errCode = TRPMGetErrorCode(pVM);
1177
1178 TRPMResetTrap(pVM);
1179
1180 /* Now we must update CR2. */
1181 pCtx->cr2 = uFaultAddress;
1182
1183 Event.au64[0] = 0;
1184 Event.n.u3Type = SVM_EVENT_EXCEPTION;
1185 Event.n.u1Valid = 1;
1186 Event.n.u8Vector = X86_XCPT_PF;
1187 Event.n.u1ErrorCodeValid = 1;
1188 Event.n.u32ErrorCode = errCode;
1189
1190 SVMR0InjectEvent(pVM, pVMCB, pCtx, &Event);
1191
1192 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1193 goto ResumeExecution;
1194 }
1195#ifdef VBOX_STRICT
1196 if (rc != VINF_EM_RAW_EMULATE_INSTR)
1197 LogFlow(("PGMTrap0eHandler failed with %d\n", rc));
1198#endif
1199 /* Need to go back to the recompiler to emulate the instruction. */
1200 TRPMResetTrap(pVM);
1201 break;
1202 }
1203
1204 case X86_XCPT_MF: /* Floating point exception. */
1205 {
1206 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitGuestMF);
1207 if (!(pCtx->cr0 & X86_CR0_NE))
1208 {
1209 /* old style FPU error reporting needs some extra work. */
1210 /** @todo don't fall back to the recompiler, but do it manually. */
1211 rc = VINF_EM_RAW_EMULATE_INSTR;
1212 break;
1213 }
1214 Log(("Trap %x at %VGv\n", vector, pCtx->eip));
1215
1216 Event.au64[0] = 0;
1217 Event.n.u3Type = SVM_EVENT_EXCEPTION;
1218 Event.n.u1Valid = 1;
1219 Event.n.u8Vector = X86_XCPT_MF;
1220
1221 SVMR0InjectEvent(pVM, pVMCB, pCtx, &Event);
1222
1223 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1224 goto ResumeExecution;
1225 }
1226
1227#ifdef VBOX_STRICT
1228 case X86_XCPT_GP: /* General protection failure exception.*/
1229 case X86_XCPT_UD: /* Unknown opcode exception. */
1230 case X86_XCPT_DE: /* Debug exception. */
1231 case X86_XCPT_SS: /* Stack segment exception. */
1232 case X86_XCPT_NP: /* Segment not present exception. */
1233 {
1234 Event.au64[0] = 0;
1235 Event.n.u3Type = SVM_EVENT_EXCEPTION;
1236 Event.n.u1Valid = 1;
1237 Event.n.u8Vector = vector;
1238
1239 switch(vector)
1240 {
1241 case X86_XCPT_GP:
1242 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitGuestGP);
1243 Event.n.u1ErrorCodeValid = 1;
1244 Event.n.u32ErrorCode = pVMCB->ctrl.u64ExitInfo1; /* EXITINFO1 = error code */
1245 break;
1246 case X86_XCPT_DE:
1247 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitGuestDE);
1248 break;
1249 case X86_XCPT_UD:
1250 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitGuestUD);
1251 break;
1252 case X86_XCPT_SS:
1253 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitGuestSS);
1254 Event.n.u1ErrorCodeValid = 1;
1255 Event.n.u32ErrorCode = pVMCB->ctrl.u64ExitInfo1; /* EXITINFO1 = error code */
1256 break;
1257 case X86_XCPT_NP:
1258 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitGuestNP);
1259 Event.n.u1ErrorCodeValid = 1;
1260 Event.n.u32ErrorCode = pVMCB->ctrl.u64ExitInfo1; /* EXITINFO1 = error code */
1261 break;
1262 }
1263 Log(("Trap %x at %VGv esi=%x\n", vector, pCtx->eip, pCtx->esi));
1264 SVMR0InjectEvent(pVM, pVMCB, pCtx, &Event);
1265
1266 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1267 goto ResumeExecution;
1268 }
1269#endif
1270 default:
1271 AssertMsgFailed(("Unexpected vm-exit caused by exception %x\n", vector));
1272 rc = VERR_EM_INTERNAL_ERROR;
1273 break;
1274
1275 } /* switch (vector) */
1276 break;
1277 }
1278
1279 case SVM_EXIT_NPF:
1280 {
1281 /* EXITINFO1 contains fault errorcode; EXITINFO2 contains the guest physical address causing the fault. */
1282 uint32_t errCode = pVMCB->ctrl.u64ExitInfo1; /* EXITINFO1 = error code */
1283 RTGCPHYS uFaultAddress = pVMCB->ctrl.u64ExitInfo2; /* EXITINFO2 = fault address */
1284
1285 Assert(pVM->hwaccm.s.svm.fNestedPaging);
1286
1287 Log2(("Page fault at %VGp cr2=%VGv error code %x\n", pCtx->eip, uFaultAddress, errCode));
1288 /* Exit qualification contains the linear address of the page fault. */
1289 TRPMAssertTrap(pVM, X86_XCPT_PF, TRPM_TRAP);
1290 TRPMSetErrorCode(pVM, errCode);
1291 TRPMSetFaultAddress(pVM, uFaultAddress);
1292
1293 /* Handle the pagefault trap for the nested shadow table. */
1294 rc = PGMR0Trap0eHandlerNestedPaging(pVM, PGMGetShadowMode(pVM), errCode, CPUMCTX2CORE(pCtx), uFaultAddress);
1295 Log2(("PGMR0Trap0eHandlerNestedPaging %VGv returned %Vrc\n", pCtx->eip, rc));
1296 if (rc == VINF_SUCCESS)
1297 { /* We've successfully synced our shadow pages, so let's just continue execution. */
1298 Log2(("Shadow page fault at %VGv cr2=%VGp error code %x\n", pCtx->eip, uFaultAddress, errCode));
1299 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitShadowPF);
1300
1301 TRPMResetTrap(pVM);
1302
1303 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1304 goto ResumeExecution;
1305 }
1306
1307#ifdef VBOX_STRICT
1308 if (rc != VINF_EM_RAW_EMULATE_INSTR)
1309 LogFlow(("PGMTrap0eHandlerNestedPaging failed with %d\n", rc));
1310#endif
1311 /* Need to go back to the recompiler to emulate the instruction. */
1312 TRPMResetTrap(pVM);
1313 break;
1314 }
1315
1316 case SVM_EXIT_VINTR:
1317 /* A virtual interrupt is about to be delivered, which means IF=1. */
1318 Log(("SVM_EXIT_VINTR IF=%d\n", pCtx->eflags.Bits.u1IF));
1319 pVMCB->ctrl.IntCtrl.n.u1VIrqValid = 0;
1320 pVMCB->ctrl.IntCtrl.n.u1IgnoreTPR = 0;
1321 pVMCB->ctrl.IntCtrl.n.u8VIrqVector = 0;
1322 goto ResumeExecution;
1323
1324 case SVM_EXIT_FERR_FREEZE:
1325 case SVM_EXIT_INTR:
1326 case SVM_EXIT_NMI:
1327 case SVM_EXIT_SMI:
1328 case SVM_EXIT_INIT:
1329 /* External interrupt; leave to allow it to be dispatched again. */
1330 rc = VINF_EM_RAW_INTERRUPT;
1331 break;
1332
1333 case SVM_EXIT_WBINVD:
1334 case SVM_EXIT_INVD: /* Guest software attempted to execute INVD. */
1335 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitInvd);
1336 /* Skip instruction and continue directly. */
1337 pCtx->eip += 2; /** @note hardcoded opcode size! */
1338 /* Continue execution.*/
1339 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1340 goto ResumeExecution;
1341
1342 case SVM_EXIT_CPUID: /* Guest software attempted to execute CPUID. */
1343 {
1344 Log2(("SVM: Cpuid %x\n", pCtx->eax));
1345 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitCpuid);
1346 rc = EMInterpretCpuId(pVM, CPUMCTX2CORE(pCtx));
1347 if (rc == VINF_SUCCESS)
1348 {
1349 /* Update EIP and continue execution. */
1350 pCtx->eip += 2; /** @note hardcoded opcode size! */
1351 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1352 goto ResumeExecution;
1353 }
1354 AssertMsgFailed(("EMU: cpuid failed with %Vrc\n", rc));
1355 rc = VINF_EM_RAW_EMULATE_INSTR;
1356 break;
1357 }
1358
1359 case SVM_EXIT_RDTSC: /* Guest software attempted to execute RDTSC. */
1360 {
1361 Log2(("SVM: Rdtsc\n"));
1362 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitRdtsc);
1363 rc = EMInterpretRdtsc(pVM, CPUMCTX2CORE(pCtx));
1364 if (rc == VINF_SUCCESS)
1365 {
1366 /* Update EIP and continue execution. */
1367 pCtx->eip += 2; /** @note hardcoded opcode size! */
1368 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1369 goto ResumeExecution;
1370 }
1371 AssertMsgFailed(("EMU: rdtsc failed with %Vrc\n", rc));
1372 rc = VINF_EM_RAW_EMULATE_INSTR;
1373 break;
1374 }
1375
1376 case SVM_EXIT_INVLPG: /* Guest software attempted to execute INVPG. */
1377 {
1378 Log2(("SVM: invlpg\n"));
1379 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitInvpg);
1380
1381 Assert(!pVM->hwaccm.s.svm.fNestedPaging);
1382
1383 /* Truly a pita. Why can't SVM give the same information as VMX? */
1384 rc = SVMR0InterpretInvpg(pVM, CPUMCTX2CORE(pCtx), pVMCB->ctrl.TLBCtrl.n.u32ASID);
1385 if (rc == VINF_SUCCESS)
1386 {
1387 STAM_COUNTER_INC(&pVM->hwaccm.s.StatFlushPageInvlpg);
1388 goto ResumeExecution; /* eip already updated */
1389 }
1390 break;
1391 }
1392
1393 case SVM_EXIT_WRITE_CR0: case SVM_EXIT_WRITE_CR1: case SVM_EXIT_WRITE_CR2: case SVM_EXIT_WRITE_CR3:
1394 case SVM_EXIT_WRITE_CR4: case SVM_EXIT_WRITE_CR5: case SVM_EXIT_WRITE_CR6: case SVM_EXIT_WRITE_CR7:
1395 case SVM_EXIT_WRITE_CR8: case SVM_EXIT_WRITE_CR9: case SVM_EXIT_WRITE_CR10: case SVM_EXIT_WRITE_CR11:
1396 case SVM_EXIT_WRITE_CR12: case SVM_EXIT_WRITE_CR13: case SVM_EXIT_WRITE_CR14: case SVM_EXIT_WRITE_CR15:
1397 {
1398 uint32_t cbSize;
1399
1400 Log2(("SVM: %VGv mov cr%d, \n", pCtx->eip, exitCode - SVM_EXIT_WRITE_CR0));
1401 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitCRxWrite);
1402 rc = EMInterpretInstruction(pVM, CPUMCTX2CORE(pCtx), 0, &cbSize);
1403
1404 switch (exitCode - SVM_EXIT_WRITE_CR0)
1405 {
1406 case 0:
1407 pVM->hwaccm.s.fContextUseFlags |= HWACCM_CHANGED_GUEST_CR0;
1408 break;
1409 case 2:
1410 break;
1411 case 3:
1412 Assert(!pVM->hwaccm.s.svm.fNestedPaging);
1413 pVM->hwaccm.s.fContextUseFlags |= HWACCM_CHANGED_GUEST_CR3;
1414 break;
1415 case 4:
1416 pVM->hwaccm.s.fContextUseFlags |= HWACCM_CHANGED_GUEST_CR4;
1417 break;
1418 default:
1419 AssertFailed();
1420 }
1421 /* Check if a sync operation is pending. */
1422 if ( rc == VINF_SUCCESS /* don't bother if we are going to ring 3 anyway */
1423 && VM_FF_ISPENDING(pVM, VM_FF_PGM_SYNC_CR3 | VM_FF_PGM_SYNC_CR3_NON_GLOBAL))
1424 {
1425 rc = PGMSyncCR3(pVM, CPUMGetGuestCR0(pVM), CPUMGetGuestCR3(pVM), CPUMGetGuestCR4(pVM), VM_FF_ISSET(pVM, VM_FF_PGM_SYNC_CR3));
1426 AssertRC(rc);
1427
1428 STAM_COUNTER_INC(&pVM->hwaccm.s.StatFlushTLBCRxChange);
1429
1430 /** @note Force a TLB flush. SVM requires us to do it manually. */
1431 pVM->hwaccm.s.svm.fForceTLBFlush = true;
1432 }
1433 if (rc == VINF_SUCCESS)
1434 {
1435 /* EIP has been updated already. */
1436
1437 /* Only resume if successful. */
1438 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1439 goto ResumeExecution;
1440 }
1441 Assert(rc == VERR_EM_INTERPRETER || rc == VINF_PGM_CHANGE_MODE || rc == VINF_PGM_SYNC_CR3);
1442 break;
1443 }
1444
1445 case SVM_EXIT_READ_CR0: case SVM_EXIT_READ_CR1: case SVM_EXIT_READ_CR2: case SVM_EXIT_READ_CR3:
1446 case SVM_EXIT_READ_CR4: case SVM_EXIT_READ_CR5: case SVM_EXIT_READ_CR6: case SVM_EXIT_READ_CR7:
1447 case SVM_EXIT_READ_CR8: case SVM_EXIT_READ_CR9: case SVM_EXIT_READ_CR10: case SVM_EXIT_READ_CR11:
1448 case SVM_EXIT_READ_CR12: case SVM_EXIT_READ_CR13: case SVM_EXIT_READ_CR14: case SVM_EXIT_READ_CR15:
1449 {
1450 uint32_t cbSize;
1451
1452 Log2(("SVM: %VGv mov x, cr%d\n", pCtx->eip, exitCode - SVM_EXIT_READ_CR0));
1453 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitCRxRead);
1454 rc = EMInterpretInstruction(pVM, CPUMCTX2CORE(pCtx), 0, &cbSize);
1455 if (rc == VINF_SUCCESS)
1456 {
1457 /* EIP has been updated already. */
1458
1459 /* Only resume if successful. */
1460 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1461 goto ResumeExecution;
1462 }
1463 Assert(rc == VERR_EM_INTERPRETER || rc == VINF_PGM_CHANGE_MODE || rc == VINF_PGM_SYNC_CR3);
1464 break;
1465 }
1466
1467 case SVM_EXIT_WRITE_DR0: case SVM_EXIT_WRITE_DR1: case SVM_EXIT_WRITE_DR2: case SVM_EXIT_WRITE_DR3:
1468 case SVM_EXIT_WRITE_DR4: case SVM_EXIT_WRITE_DR5: case SVM_EXIT_WRITE_DR6: case SVM_EXIT_WRITE_DR7:
1469 case SVM_EXIT_WRITE_DR8: case SVM_EXIT_WRITE_DR9: case SVM_EXIT_WRITE_DR10: case SVM_EXIT_WRITE_DR11:
1470 case SVM_EXIT_WRITE_DR12: case SVM_EXIT_WRITE_DR13: case SVM_EXIT_WRITE_DR14: case SVM_EXIT_WRITE_DR15:
1471 {
1472 uint32_t cbSize;
1473
1474 Log2(("SVM: %VGv mov dr%d, x\n", pCtx->eip, exitCode - SVM_EXIT_WRITE_DR0));
1475 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitDRxRead);
1476 rc = EMInterpretInstruction(pVM, CPUMCTX2CORE(pCtx), 0, &cbSize);
1477 if (rc == VINF_SUCCESS)
1478 {
1479 /* EIP has been updated already. */
1480
1481 /* Only resume if successful. */
1482 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1483 goto ResumeExecution;
1484 }
1485 Assert(rc == VERR_EM_INTERPRETER || rc == VINF_PGM_CHANGE_MODE || rc == VINF_PGM_SYNC_CR3);
1486 break;
1487 }
1488
1489 case SVM_EXIT_READ_DR0: case SVM_EXIT_READ_DR1: case SVM_EXIT_READ_DR2: case SVM_EXIT_READ_DR3:
1490 case SVM_EXIT_READ_DR4: case SVM_EXIT_READ_DR5: case SVM_EXIT_READ_DR6: case SVM_EXIT_READ_DR7:
1491 case SVM_EXIT_READ_DR8: case SVM_EXIT_READ_DR9: case SVM_EXIT_READ_DR10: case SVM_EXIT_READ_DR11:
1492 case SVM_EXIT_READ_DR12: case SVM_EXIT_READ_DR13: case SVM_EXIT_READ_DR14: case SVM_EXIT_READ_DR15:
1493 {
1494 uint32_t cbSize;
1495
1496 Log2(("SVM: %VGv mov dr%d, x\n", pCtx->eip, exitCode - SVM_EXIT_READ_DR0));
1497 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitDRxRead);
1498 rc = EMInterpretInstruction(pVM, CPUMCTX2CORE(pCtx), 0, &cbSize);
1499 if (rc == VINF_SUCCESS)
1500 {
1501 /* EIP has been updated already. */
1502
1503 /* Only resume if successful. */
1504 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1505 goto ResumeExecution;
1506 }
1507 Assert(rc == VERR_EM_INTERPRETER || rc == VINF_PGM_CHANGE_MODE || rc == VINF_PGM_SYNC_CR3);
1508 break;
1509 }
1510
1511 /* Note: We'll get a #GP if the IO instruction isn't allowed (IOPL or TSS bitmap); no need to double check. */
1512 case SVM_EXIT_IOIO: /* I/O instruction. */
1513 {
1514 SVM_IOIO_EXIT IoExitInfo;
1515 uint32_t uIOSize, uAndVal;
1516
1517 IoExitInfo.au32[0] = pVMCB->ctrl.u64ExitInfo1;
1518
1519 /** @todo could use a lookup table here */
1520 if (IoExitInfo.n.u1OP8)
1521 {
1522 uIOSize = 1;
1523 uAndVal = 0xff;
1524 }
1525 else
1526 if (IoExitInfo.n.u1OP16)
1527 {
1528 uIOSize = 2;
1529 uAndVal = 0xffff;
1530 }
1531 else
1532 if (IoExitInfo.n.u1OP32)
1533 {
1534 uIOSize = 4;
1535 uAndVal = 0xffffffff;
1536 }
1537 else
1538 {
1539 AssertFailed(); /* should be fatal. */
1540 rc = VINF_EM_RAW_EMULATE_INSTR;
1541 break;
1542 }
1543
1544 if (IoExitInfo.n.u1STR)
1545 {
1546 /* ins/outs */
1547 uint32_t prefix = 0;
1548 if (IoExitInfo.n.u1REP)
1549 prefix |= PREFIX_REP;
1550
1551 if (IoExitInfo.n.u1Type == 0)
1552 {
1553 Log2(("IOMInterpretOUTSEx %VGv %x size=%d\n", pCtx->eip, IoExitInfo.n.u16Port, uIOSize));
1554 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitIOStringWrite);
1555 rc = IOMInterpretOUTSEx(pVM, CPUMCTX2CORE(pCtx), IoExitInfo.n.u16Port, prefix, uIOSize);
1556 }
1557 else
1558 {
1559 Log2(("IOMInterpretINSEx %VGv %x size=%d\n", pCtx->eip, IoExitInfo.n.u16Port, uIOSize));
1560 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitIOStringRead);
1561 rc = IOMInterpretINSEx(pVM, CPUMCTX2CORE(pCtx), IoExitInfo.n.u16Port, prefix, uIOSize);
1562 }
1563 }
1564 else
1565 {
1566 /* normal in/out */
1567 Assert(!IoExitInfo.n.u1REP);
1568
1569 if (IoExitInfo.n.u1Type == 0)
1570 {
1571 Log2(("IOMIOPortWrite %VGv %x %x size=%d\n", pCtx->eip, IoExitInfo.n.u16Port, pCtx->eax & uAndVal, uIOSize));
1572 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitIOWrite);
1573 rc = IOMIOPortWrite(pVM, IoExitInfo.n.u16Port, pCtx->eax & uAndVal, uIOSize);
1574 }
1575 else
1576 {
1577 uint32_t u32Val = 0;
1578
1579 STAM_COUNTER_INC(&pVM->hwaccm.s.StatExitIORead);
1580 rc = IOMIOPortRead(pVM, IoExitInfo.n.u16Port, &u32Val, uIOSize);
1581 if (IOM_SUCCESS(rc))
1582 {
1583 /* Write back to the EAX register. */
1584 pCtx->eax = (pCtx->eax & ~uAndVal) | (u32Val & uAndVal);
1585 Log2(("IOMIOPortRead %VGv %x %x size=%d\n", pCtx->eip, IoExitInfo.n.u16Port, u32Val & uAndVal, uIOSize));
1586 }
1587 }
1588 }
1589 /*
1590 * Handled the I/O return codes.
1591 * (The unhandled cases end up with rc == VINF_EM_RAW_EMULATE_INSTR.)
1592 */
1593 if (IOM_SUCCESS(rc))
1594 {
1595 /* Update EIP and continue execution. */
1596 pCtx->eip = pVMCB->ctrl.u64ExitInfo2; /* RIP/EIP of the next instruction is saved in EXITINFO2. */
1597 if (RT_LIKELY(rc == VINF_SUCCESS))
1598 {
1599 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1600 goto ResumeExecution;
1601 }
1602 Log2(("EM status from IO at %VGv %x size %d: %Vrc\n", pCtx->eip, IoExitInfo.n.u16Port, uIOSize, rc));
1603 break;
1604 }
1605
1606#ifdef VBOX_STRICT
1607 if (rc == VINF_IOM_HC_IOPORT_READ)
1608 Assert(IoExitInfo.n.u1Type != 0);
1609 else if (rc == VINF_IOM_HC_IOPORT_WRITE)
1610 Assert(IoExitInfo.n.u1Type == 0);
1611 else
1612 AssertMsg(VBOX_FAILURE(rc) || rc == VINF_EM_RAW_EMULATE_INSTR || rc == VINF_EM_RAW_GUEST_TRAP || rc == VINF_TRPM_XCPT_DISPATCHED, ("%Vrc\n", rc));
1613#endif
1614 Log2(("Failed IO at %VGv %x size %d\n", pCtx->eip, IoExitInfo.n.u16Port, uIOSize));
1615 break;
1616 }
1617
1618 case SVM_EXIT_HLT:
1619 /** Check if external interrupts are pending; if so, don't switch back. */
1620 if (VM_FF_ISPENDING(pVM, (VM_FF_INTERRUPT_APIC|VM_FF_INTERRUPT_PIC)))
1621 {
1622 pCtx->eip++; /* skip hlt */
1623 goto ResumeExecution;
1624 }
1625
1626 rc = VINF_EM_RAW_EMULATE_INSTR_HLT;
1627 break;
1628
1629 case SVM_EXIT_RSM:
1630 case SVM_EXIT_INVLPGA:
1631 case SVM_EXIT_VMRUN:
1632 case SVM_EXIT_VMMCALL:
1633 case SVM_EXIT_VMLOAD:
1634 case SVM_EXIT_VMSAVE:
1635 case SVM_EXIT_STGI:
1636 case SVM_EXIT_CLGI:
1637 case SVM_EXIT_SKINIT:
1638 case SVM_EXIT_RDTSCP:
1639 {
1640 /* Unsupported instructions. */
1641 SVM_EVENT Event;
1642
1643 Event.au64[0] = 0;
1644 Event.n.u3Type = SVM_EVENT_EXCEPTION;
1645 Event.n.u1Valid = 1;
1646 Event.n.u8Vector = X86_XCPT_UD;
1647
1648 Log(("Forced #UD trap at %VGv\n", pCtx->eip));
1649 SVMR0InjectEvent(pVM, pVMCB, pCtx, &Event);
1650
1651 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1652 goto ResumeExecution;
1653 }
1654
1655 /* Emulate in ring 3. */
1656 case SVM_EXIT_MONITOR:
1657 case SVM_EXIT_RDPMC:
1658 case SVM_EXIT_PAUSE:
1659 case SVM_EXIT_MWAIT_UNCOND:
1660 case SVM_EXIT_MWAIT_ARMED:
1661 case SVM_EXIT_MSR:
1662 case SVM_EXIT_TASK_SWITCH: /* can change CR3; emulate */
1663 rc = VINF_EM_RAW_EXCEPTION_PRIVILEGED;
1664 break;
1665
1666 case SVM_EXIT_SHUTDOWN:
1667 rc = VINF_EM_RESET; /* Triple fault equals a reset. */
1668 break;
1669
1670 case SVM_EXIT_IDTR_READ:
1671 case SVM_EXIT_GDTR_READ:
1672 case SVM_EXIT_LDTR_READ:
1673 case SVM_EXIT_TR_READ:
1674 case SVM_EXIT_IDTR_WRITE:
1675 case SVM_EXIT_GDTR_WRITE:
1676 case SVM_EXIT_LDTR_WRITE:
1677 case SVM_EXIT_TR_WRITE:
1678 case SVM_EXIT_CR0_SEL_WRITE:
1679 default:
1680 /* Unexpected exit codes. */
1681 rc = VERR_EM_INTERNAL_ERROR;
1682 AssertMsgFailed(("Unexpected exit code %x\n", exitCode)); /* Can't happen. */
1683 break;
1684 }
1685
1686end:
1687 if (fGuestStateSynced)
1688 {
1689 /* Remaining guest CPU context: TR, IDTR, GDTR, LDTR. */
1690 SVM_READ_SELREG(LDTR, ldtr);
1691 SVM_READ_SELREG(TR, tr);
1692
1693 pCtx->gdtr.cbGdt = pVMCB->guest.GDTR.u32Limit;
1694 pCtx->gdtr.pGdt = pVMCB->guest.GDTR.u64Base;
1695
1696 pCtx->idtr.cbIdt = pVMCB->guest.IDTR.u32Limit;
1697 pCtx->idtr.pIdt = pVMCB->guest.IDTR.u64Base;
1698
1699 /*
1700 * System MSRs
1701 */
1702 pCtx->SysEnter.cs = pVMCB->guest.u64SysEnterCS;
1703 pCtx->SysEnter.eip = pVMCB->guest.u64SysEnterEIP;
1704 pCtx->SysEnter.esp = pVMCB->guest.u64SysEnterESP;
1705 }
1706
1707 /* Signal changes for the recompiler. */
1708 CPUMSetChangedFlags(pVM, CPUM_CHANGED_SYSENTER_MSR | CPUM_CHANGED_LDTR | CPUM_CHANGED_GDTR | CPUM_CHANGED_IDTR | CPUM_CHANGED_TR | CPUM_CHANGED_HIDDEN_SEL_REGS);
1709
1710 /* If we executed vmrun and an external irq was pending, then we don't have to do a full sync the next time. */
1711 if (exitCode == SVM_EXIT_INTR)
1712 {
1713 STAM_COUNTER_INC(&pVM->hwaccm.s.StatPendingHostIrq);
1714 /* On the next entry we'll only sync the host context. */
1715 pVM->hwaccm.s.fContextUseFlags |= HWACCM_CHANGED_HOST_CONTEXT;
1716 }
1717 else
1718 {
1719 /* On the next entry we'll sync everything. */
1720 /** @todo we can do better than this */
1721 pVM->hwaccm.s.fContextUseFlags |= HWACCM_CHANGED_ALL;
1722 }
1723
1724 /* translate into a less severe return code */
1725 if (rc == VERR_EM_INTERPRETER)
1726 rc = VINF_EM_RAW_EMULATE_INSTR;
1727
1728 STAM_PROFILE_ADV_STOP(&pVM->hwaccm.s.StatExit, x);
1729 return rc;
1730}
1731
1732/**
1733 * Enters the AMD-V session
1734 *
1735 * @returns VBox status code.
1736 * @param pVM The VM to operate on.
1737 * @param pCpu CPU info struct
1738 */
1739HWACCMR0DECL(int) SVMR0Enter(PVM pVM, PHWACCM_CPUINFO pCpu)
1740{
1741 Assert(pVM->hwaccm.s.svm.fSupported);
1742
1743 LogFlow(("SVMR0Enter cpu%d last=%d asid=%d\n", pCpu->idCpu, pVM->hwaccm.s.svm.idLastCpu, pCpu->uCurrentASID));
1744 pVM->hwaccm.s.svm.fResumeVM = false;
1745
1746 /* Force to reload LDTR, so we'll execute VMLoad to load additional guest state. */
1747 pVM->hwaccm.s.fContextUseFlags |= HWACCM_CHANGED_GUEST_LDTR;
1748
1749 return VINF_SUCCESS;
1750}
1751
1752
1753/**
1754 * Leaves the AMD-V session
1755 *
1756 * @returns VBox status code.
1757 * @param pVM The VM to operate on.
1758 */
1759HWACCMR0DECL(int) SVMR0Leave(PVM pVM)
1760{
1761 Assert(pVM->hwaccm.s.svm.fSupported);
1762 return VINF_SUCCESS;
1763}
1764
1765
1766static int svmInterpretInvlPg(PVM pVM, PDISCPUSTATE pCpu, PCPUMCTXCORE pRegFrame, uint32_t uASID)
1767{
1768 OP_PARAMVAL param1;
1769 RTGCPTR addr;
1770
1771 int rc = DISQueryParamVal(pRegFrame, pCpu, &pCpu->param1, &param1, PARAM_SOURCE);
1772 if(VBOX_FAILURE(rc))
1773 return VERR_EM_INTERPRETER;
1774
1775 switch(param1.type)
1776 {
1777 case PARMTYPE_IMMEDIATE:
1778 case PARMTYPE_ADDRESS:
1779 if(!(param1.flags & PARAM_VAL32))
1780 return VERR_EM_INTERPRETER;
1781 addr = (RTGCPTR)param1.val.val32;
1782 break;
1783
1784 default:
1785 return VERR_EM_INTERPRETER;
1786 }
1787
1788 /** @todo is addr always a flat linear address or ds based
1789 * (in absence of segment override prefixes)????
1790 */
1791 rc = PGMInvalidatePage(pVM, addr);
1792 if (VBOX_SUCCESS(rc))
1793 {
1794 /* Manually invalidate the page for the VM's TLB. */
1795 Log(("SVMInvlpgA %VGv ASID=%d\n", addr, uASID));
1796 SVMInvlpgA(addr, uASID);
1797 return VINF_SUCCESS;
1798 }
1799 Assert(rc == VERR_REM_FLUSHED_PAGES_OVERFLOW);
1800 return rc;
1801}
1802
1803/**
1804 * Interprets INVLPG
1805 *
1806 * @returns VBox status code.
1807 * @retval VINF_* Scheduling instructions.
1808 * @retval VERR_EM_INTERPRETER Something we can't cope with.
1809 * @retval VERR_* Fatal errors.
1810 *
1811 * @param pVM The VM handle.
1812 * @param pRegFrame The register frame.
1813 * @param ASID Tagged TLB id for the guest
1814 *
1815 * Updates the EIP if an instruction was executed successfully.
1816 */
1817static int SVMR0InterpretInvpg(PVM pVM, PCPUMCTXCORE pRegFrame, uint32_t uASID)
1818{
1819 /*
1820 * Only allow 32-bit code.
1821 */
1822 if (SELMIsSelector32Bit(pVM, pRegFrame->eflags, pRegFrame->cs, &pRegFrame->csHid))
1823 {
1824 RTGCPTR pbCode;
1825 int rc = SELMValidateAndConvertCSAddr(pVM, pRegFrame->eflags, pRegFrame->ss, pRegFrame->cs, &pRegFrame->csHid, (RTGCPTR)pRegFrame->eip, &pbCode);
1826 if (VBOX_SUCCESS(rc))
1827 {
1828 uint32_t cbOp;
1829 DISCPUSTATE Cpu;
1830
1831 Cpu.mode = CPUMODE_32BIT;
1832 rc = EMInterpretDisasOneEx(pVM, pbCode, pRegFrame, &Cpu, &cbOp);
1833 Assert(VBOX_FAILURE(rc) || Cpu.pCurInstr->opcode == OP_INVLPG);
1834 if (VBOX_SUCCESS(rc) && Cpu.pCurInstr->opcode == OP_INVLPG)
1835 {
1836 Assert(cbOp == Cpu.opsize);
1837 rc = svmInterpretInvlPg(pVM, &Cpu, pRegFrame, uASID);
1838 if (VBOX_SUCCESS(rc))
1839 {
1840 pRegFrame->eip += cbOp; /* Move on to the next instruction. */
1841 }
1842 return rc;
1843 }
1844 }
1845 }
1846 return VERR_EM_INTERPRETER;
1847}
1848
1849
1850/**
1851 * Invalidates a guest page
1852 *
1853 * @returns VBox status code.
1854 * @param pVM The VM to operate on.
1855 * @param GCVirt Page to invalidate
1856 */
1857HWACCMR0DECL(int) SVMR0InvalidatePage(PVM pVM, RTGCPTR GCVirt)
1858{
1859 bool fFlushPending = pVM->hwaccm.s.svm.fAlwaysFlushTLB | pVM->hwaccm.s.svm.fForceTLBFlush;
1860
1861 /* Skip it if a TLB flush is already pending. */
1862 if (!fFlushPending)
1863 {
1864 SVM_VMCB *pVMCB;
1865
1866 Log2(("SVMR0InvalidatePage %VGv\n", GCVirt));
1867 AssertReturn(pVM, VERR_INVALID_PARAMETER);
1868 Assert(pVM->hwaccm.s.svm.fSupported);
1869
1870 pVMCB = (SVM_VMCB *)pVM->hwaccm.s.svm.pVMCB;
1871 AssertMsgReturn(pVMCB, ("Invalid pVMCB\n"), VERR_EM_INTERNAL_ERROR);
1872
1873 STAM_COUNTER_INC(&pVM->hwaccm.s.StatFlushPageManual);
1874 SVMInvlpgA(GCVirt, pVMCB->ctrl.TLBCtrl.n.u32ASID);
1875 }
1876 return VINF_SUCCESS;
1877}
1878
1879/**
1880 * Flushes the guest TLB
1881 *
1882 * @returns VBox status code.
1883 * @param pVM The VM to operate on.
1884 */
1885HWACCMR0DECL(int) SVMR0FlushTLB(PVM pVM)
1886{
1887 Log2(("SVMR0FlushTLB\n"));
1888 pVM->hwaccm.s.svm.fForceTLBFlush = true;
1889 STAM_COUNTER_INC(&pVM->hwaccm.s.StatFlushTLBManual);
1890 return VINF_SUCCESS;
1891}
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