VirtualBox

source: vbox/trunk/src/VBox/VMM/VMMAll/HMSVMAll.cpp@ 97441

Last change on this file since 97441 was 97209, checked in by vboxsync, 2 years ago

VMM/HMSVMAll: Replace DISFetchReg32 and DISWriteReg32 with direct register accesses, because the two functions use CPUMCTXCORE and will soon be removed.

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1/* $Id: HMSVMAll.cpp 97209 2022-10-18 14:37:10Z vboxsync $ */
2/** @file
3 * HM SVM (AMD-V) - All contexts.
4 */
5
6/*
7 * Copyright (C) 2017-2022 Oracle and/or its affiliates.
8 *
9 * This file is part of VirtualBox base platform packages, as
10 * available from https://www.virtualbox.org.
11 *
12 * This program is free software; you can redistribute it and/or
13 * modify it under the terms of the GNU General Public License
14 * as published by the Free Software Foundation, in version 3 of the
15 * License.
16 *
17 * This program is distributed in the hope that it will be useful, but
18 * WITHOUT ANY WARRANTY; without even the implied warranty of
19 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
20 * General Public License for more details.
21 *
22 * You should have received a copy of the GNU General Public License
23 * along with this program; if not, see <https://www.gnu.org/licenses>.
24 *
25 * SPDX-License-Identifier: GPL-3.0-only
26 */
27
28
29/*********************************************************************************************************************************
30* Header Files *
31*********************************************************************************************************************************/
32#define LOG_GROUP LOG_GROUP_HM
33#define VMCPU_INCL_CPUM_GST_CTX
34#include "HMInternal.h"
35#include <VBox/vmm/apic.h>
36#include <VBox/vmm/gim.h>
37#include <VBox/vmm/iem.h>
38#include <VBox/vmm/vmcc.h>
39
40#include <VBox/err.h>
41#if defined(RT_ARCH_AMD64) || defined(RT_ARCH_X86)
42# include <iprt/asm-amd64-x86.h> /* ASMCpuId */
43#endif
44
45
46
47/**
48 * Emulates a simple MOV TPR (CR8) instruction.
49 *
50 * Used for TPR patching on 32-bit guests. This simply looks up the patch record
51 * at EIP and does the required.
52 *
53 * This VMMCALL is used a fallback mechanism when mov to/from cr8 isn't exactly
54 * like how we want it to be (e.g. not followed by shr 4 as is usually done for
55 * TPR). See hmR3ReplaceTprInstr() for the details.
56 *
57 * @returns VBox status code.
58 * @retval VINF_SUCCESS if the access was handled successfully, RIP + RFLAGS updated.
59 * @retval VERR_NOT_FOUND if no patch record for this RIP could be found.
60 * @retval VERR_SVM_UNEXPECTED_PATCH_TYPE if the found patch type is invalid.
61 *
62 * @param pVM The cross context VM structure.
63 * @param pVCpu The cross context virtual CPU structure.
64 */
65VMM_INT_DECL(int) hmEmulateSvmMovTpr(PVMCC pVM, PVMCPUCC pVCpu)
66{
67 PCPUMCTX pCtx = &pVCpu->cpum.GstCtx;
68 Log4(("Emulated VMMCall TPR access replacement at RIP=%RGv\n", pCtx->rip));
69
70 AssertCompile(DISGREG_EAX == X86_GREG_xAX);
71 AssertCompile(DISGREG_ECX == X86_GREG_xCX);
72 AssertCompile(DISGREG_EDX == X86_GREG_xDX);
73 AssertCompile(DISGREG_EBX == X86_GREG_xBX);
74 AssertCompile(DISGREG_ESP == X86_GREG_xSP);
75 AssertCompile(DISGREG_EBP == X86_GREG_xBP);
76 AssertCompile(DISGREG_ESI == X86_GREG_xSI);
77 AssertCompile(DISGREG_EDI == X86_GREG_xDI);
78 AssertCompile(DISGREG_R8D == X86_GREG_x8);
79 AssertCompile(DISGREG_R9D == X86_GREG_x9);
80 AssertCompile(DISGREG_R10D == X86_GREG_x10);
81 AssertCompile(DISGREG_R11D == X86_GREG_x11);
82 AssertCompile(DISGREG_R12D == X86_GREG_x12);
83 AssertCompile(DISGREG_R13D == X86_GREG_x13);
84 AssertCompile(DISGREG_R14D == X86_GREG_x14);
85 AssertCompile(DISGREG_R15D == X86_GREG_x15);
86
87 /*
88 * We do this in a loop as we increment the RIP after a successful emulation
89 * and the new RIP may be a patched instruction which needs emulation as well.
90 */
91 bool fPatchFound = false;
92 for (;;)
93 {
94 PHMTPRPATCH pPatch = (PHMTPRPATCH)RTAvloU32Get(&pVM->hm.s.PatchTree, (AVLOU32KEY)pCtx->eip);
95 if (!pPatch)
96 break;
97 fPatchFound = true;
98
99 uint8_t u8Tpr;
100 switch (pPatch->enmType)
101 {
102 case HMTPRINSTR_READ:
103 {
104 bool fPending;
105 int rc = APICGetTpr(pVCpu, &u8Tpr, &fPending, NULL /* pu8PendingIrq */);
106 AssertRC(rc);
107
108 uint8_t idxReg = pPatch->uDstOperand;
109 AssertStmt(idxReg < RT_ELEMENTS(pCtx->aGRegs), idxReg = RT_ELEMENTS(pCtx->aGRegs) - 1);
110 pCtx->aGRegs[idxReg].u64 = u8Tpr;
111 pCtx->rip += pPatch->cbOp;
112 pCtx->eflags.Bits.u1RF = 0;
113 break;
114 }
115
116 case HMTPRINSTR_WRITE_REG:
117 case HMTPRINSTR_WRITE_IMM:
118 {
119 if (pPatch->enmType == HMTPRINSTR_WRITE_REG)
120 {
121 uint8_t idxReg = pPatch->uDstOperand;
122 AssertStmt(idxReg < RT_ELEMENTS(pCtx->aGRegs), idxReg = RT_ELEMENTS(pCtx->aGRegs) - 1);
123 u8Tpr = pCtx->aGRegs[idxReg].u8;
124 }
125 else
126 u8Tpr = (uint8_t)pPatch->uSrcOperand;
127
128 int rc2 = APICSetTpr(pVCpu, u8Tpr);
129 AssertRC(rc2);
130 pCtx->rip += pPatch->cbOp;
131 pCtx->eflags.Bits.u1RF = 0;
132 ASMAtomicUoOrU64(&pVCpu->hm.s.fCtxChanged, HM_CHANGED_GUEST_APIC_TPR
133 | HM_CHANGED_GUEST_RIP
134 | HM_CHANGED_GUEST_RFLAGS);
135 break;
136 }
137
138 default:
139 {
140 AssertMsgFailed(("Unexpected patch type %d\n", pPatch->enmType));
141 pVCpu->hm.s.u32HMError = pPatch->enmType;
142 return VERR_SVM_UNEXPECTED_PATCH_TYPE;
143 }
144 }
145 }
146
147 return fPatchFound ? VINF_SUCCESS : VERR_NOT_FOUND;
148}
149
150#ifdef VBOX_WITH_NESTED_HWVIRT_SVM
151/**
152 * Notification callback for when a \#VMEXIT happens outside SVM R0 code (e.g.
153 * in IEM).
154 *
155 * @param pVCpu The cross context virtual CPU structure.
156 * @param pCtx Pointer to the guest-CPU context.
157 *
158 * @sa hmR0SvmVmRunCacheVmcb.
159 */
160VMM_INT_DECL(void) HMNotifySvmNstGstVmexit(PVMCPUCC pVCpu, PCPUMCTX pCtx)
161{
162 PSVMNESTEDVMCBCACHE pVmcbNstGstCache = &pVCpu->hm.s.svm.NstGstVmcbCache;
163 if (pVmcbNstGstCache->fCacheValid)
164 {
165 /*
166 * Restore fields as our own code might look at the VMCB controls as part
167 * of the #VMEXIT handling in IEM. Otherwise, strictly speaking we don't need to
168 * restore these fields because currently none of them are written back to memory
169 * by a physical CPU on #VMEXIT.
170 */
171 PSVMVMCBCTRL pVmcbNstGstCtrl = &pCtx->hwvirt.svm.Vmcb.ctrl;
172 pVmcbNstGstCtrl->u16InterceptRdCRx = pVmcbNstGstCache->u16InterceptRdCRx;
173 pVmcbNstGstCtrl->u16InterceptWrCRx = pVmcbNstGstCache->u16InterceptWrCRx;
174 pVmcbNstGstCtrl->u16InterceptRdDRx = pVmcbNstGstCache->u16InterceptRdDRx;
175 pVmcbNstGstCtrl->u16InterceptWrDRx = pVmcbNstGstCache->u16InterceptWrDRx;
176 pVmcbNstGstCtrl->u16PauseFilterThreshold = pVmcbNstGstCache->u16PauseFilterThreshold;
177 pVmcbNstGstCtrl->u16PauseFilterCount = pVmcbNstGstCache->u16PauseFilterCount;
178 pVmcbNstGstCtrl->u32InterceptXcpt = pVmcbNstGstCache->u32InterceptXcpt;
179 pVmcbNstGstCtrl->u64InterceptCtrl = pVmcbNstGstCache->u64InterceptCtrl;
180 pVmcbNstGstCtrl->u64TSCOffset = pVmcbNstGstCache->u64TSCOffset;
181 pVmcbNstGstCtrl->IntCtrl.n.u1VIntrMasking = pVmcbNstGstCache->fVIntrMasking;
182 pVmcbNstGstCtrl->NestedPagingCtrl.n.u1NestedPaging = pVmcbNstGstCache->fNestedPaging;
183 pVmcbNstGstCtrl->LbrVirt.n.u1LbrVirt = pVmcbNstGstCache->fLbrVirt;
184 pVmcbNstGstCache->fCacheValid = false;
185 }
186
187 /*
188 * Transitions to ring-3 flag a full CPU-state change except if we transition to ring-3
189 * in response to a physical CPU interrupt as no changes to the guest-CPU state are
190 * expected (see VINF_EM_RAW_INTERRUPT handling in hmR0SvmExitToRing3).
191 *
192 * However, with nested-guests, the state -can- change on trips to ring-3 for we might
193 * try to inject a nested-guest physical interrupt and cause a SVM_EXIT_INTR #VMEXIT for
194 * the nested-guest from ring-3. Import the complete state here as we will be swapping
195 * to the guest VMCB after the #VMEXIT.
196 */
197 CPUMImportGuestStateOnDemand(pVCpu, CPUMCTX_EXTRN_ALL);
198 CPUM_ASSERT_NOT_EXTRN(pVCpu, CPUMCTX_EXTRN_ALL);
199 ASMAtomicUoOrU64(&pVCpu->hm.s.fCtxChanged, HM_CHANGED_ALL_GUEST);
200}
201#endif
202
203/**
204 * Checks if the Virtual GIF (Global Interrupt Flag) feature is supported and
205 * enabled for the VM.
206 *
207 * @returns @c true if VGIF is enabled, @c false otherwise.
208 * @param pVM The cross context VM structure.
209 *
210 * @remarks This value returned by this functions is expected by the callers not
211 * to change throughout the lifetime of the VM.
212 */
213VMM_INT_DECL(bool) HMIsSvmVGifActive(PCVMCC pVM)
214{
215#ifdef IN_RING0
216 bool const fVGif = RT_BOOL(g_fHmSvmFeatures & X86_CPUID_SVM_FEATURE_EDX_VGIF);
217#else
218 bool const fVGif = RT_BOOL(pVM->hm.s.ForR3.svm.fFeatures & X86_CPUID_SVM_FEATURE_EDX_VGIF);
219#endif
220 return fVGif && pVM->hm.s.svm.fVGif;
221}
222
223
224/**
225 * Interface used by IEM to handle patched TPR accesses.
226 *
227 * @returns VBox status code
228 * @retval VINF_SUCCESS if hypercall was handled, RIP + RFLAGS all dealt with.
229 * @retval VERR_NOT_FOUND if hypercall was _not_ handled.
230 * @retval VERR_SVM_UNEXPECTED_PATCH_TYPE on IPE.
231 *
232 * @param pVM The cross context VM structure.
233 * @param pVCpu The cross context virtual CPU structure.
234 */
235VMM_INT_DECL(int) HMHCMaybeMovTprSvmHypercall(PVMCC pVM, PVMCPUCC pVCpu)
236{
237 if (pVM->hm.s.fTprPatchingAllowed)
238 {
239 int rc = hmEmulateSvmMovTpr(pVM, pVCpu);
240 if (RT_SUCCESS(rc))
241 return VINF_SUCCESS;
242 return rc;
243 }
244 return VERR_NOT_FOUND;
245}
246
247
248#if defined(RT_ARCH_AMD64) || defined(RT_ARCH_X86)
249/**
250 * Checks if the current AMD CPU is subject to erratum 170 "In SVM mode,
251 * incorrect code bytes may be fetched after a world-switch".
252 *
253 * @param pu32Family Where to store the CPU family (can be NULL).
254 * @param pu32Model Where to store the CPU model (can be NULL).
255 * @param pu32Stepping Where to store the CPU stepping (can be NULL).
256 * @returns true if the erratum applies, false otherwise.
257 */
258VMM_INT_DECL(int) HMIsSubjectToSvmErratum170(uint32_t *pu32Family, uint32_t *pu32Model, uint32_t *pu32Stepping)
259{
260 /*
261 * Erratum 170 which requires a forced TLB flush for each world switch:
262 * See AMD spec. "Revision Guide for AMD NPT Family 0Fh Processors".
263 *
264 * All BH-G1/2 and DH-G1/2 models include a fix:
265 * Athlon X2: 0x6b 1/2
266 * 0x68 1/2
267 * Athlon 64: 0x7f 1
268 * 0x6f 2
269 * Sempron: 0x7f 1/2
270 * 0x6f 2
271 * 0x6c 2
272 * 0x7c 2
273 * Turion 64: 0x68 2
274 */
275 uint32_t u32Dummy;
276 uint32_t u32Version, u32Family, u32Model, u32Stepping, u32BaseFamily;
277 ASMCpuId(1, &u32Version, &u32Dummy, &u32Dummy, &u32Dummy);
278 u32BaseFamily = (u32Version >> 8) & 0xf;
279 u32Family = u32BaseFamily + (u32BaseFamily == 0xf ? ((u32Version >> 20) & 0x7f) : 0);
280 u32Model = ((u32Version >> 4) & 0xf);
281 u32Model = u32Model | ((u32BaseFamily == 0xf ? (u32Version >> 16) & 0x0f : 0) << 4);
282 u32Stepping = u32Version & 0xf;
283
284 bool fErratumApplies = false;
285 if ( u32Family == 0xf
286 && !((u32Model == 0x68 || u32Model == 0x6b || u32Model == 0x7f) && u32Stepping >= 1)
287 && !((u32Model == 0x6f || u32Model == 0x6c || u32Model == 0x7c) && u32Stepping >= 2))
288 fErratumApplies = true;
289
290 if (pu32Family)
291 *pu32Family = u32Family;
292 if (pu32Model)
293 *pu32Model = u32Model;
294 if (pu32Stepping)
295 *pu32Stepping = u32Stepping;
296
297 return fErratumApplies;
298}
299#endif
300
301
302/**
303 * Converts an SVM event type to a TRPM event type.
304 *
305 * @returns The TRPM event type.
306 * @retval TRPM_32BIT_HACK if the specified type of event isn't among the set
307 * of recognized trap types.
308 *
309 * @param pEvent Pointer to the SVM event.
310 * @param uVector The vector associated with the event.
311 */
312VMM_INT_DECL(TRPMEVENT) HMSvmEventToTrpmEventType(PCSVMEVENT pEvent, uint8_t uVector)
313{
314 uint8_t const uType = pEvent->n.u3Type;
315 switch (uType)
316 {
317 case SVM_EVENT_EXTERNAL_IRQ: return TRPM_HARDWARE_INT;
318 case SVM_EVENT_SOFTWARE_INT: return TRPM_SOFTWARE_INT;
319 case SVM_EVENT_NMI: return TRPM_TRAP;
320 case SVM_EVENT_EXCEPTION:
321 {
322 if ( uVector == X86_XCPT_BP
323 || uVector == X86_XCPT_OF)
324 return TRPM_SOFTWARE_INT;
325 return TRPM_TRAP;
326 }
327 default:
328 break;
329 }
330 AssertMsgFailed(("HMSvmEventToTrpmEvent: Invalid pending-event type %#x\n", uType));
331 return TRPM_32BIT_HACK;
332}
333
334
335/**
336 * Gets the SVM nested-guest control intercepts if cached by HM.
337 *
338 * @returns @c true on success, @c false otherwise.
339 * @param pVCpu The cross context virtual CPU structure of the calling
340 * EMT.
341 * @param pu64Intercepts Where to store the control intercepts. Only updated when
342 * @c true is returned.
343 */
344VMM_INT_DECL(bool) HMGetGuestSvmCtrlIntercepts(PCVMCPU pVCpu, uint64_t *pu64Intercepts)
345{
346 Assert(pu64Intercepts);
347 PCSVMNESTEDVMCBCACHE pVmcbNstGstCache = &pVCpu->hm.s.svm.NstGstVmcbCache;
348 if (pVmcbNstGstCache->fCacheValid)
349 {
350 *pu64Intercepts = pVmcbNstGstCache->u64InterceptCtrl;
351 return true;
352 }
353 return false;
354}
355
356
357/**
358 * Gets the SVM nested-guest CRx-read intercepts if cached by HM.
359 *
360 * @returns @c true on success, @c false otherwise.
361 * @param pVCpu The cross context virtual CPU structure of the calling
362 * EMT.
363 * @param pu16Intercepts Where to store the CRx-read intercepts. Only updated
364 * when @c true is returned.
365 */
366VMM_INT_DECL(bool) HMGetGuestSvmReadCRxIntercepts(PCVMCPU pVCpu, uint16_t *pu16Intercepts)
367{
368 Assert(pu16Intercepts);
369 PCSVMNESTEDVMCBCACHE pVmcbNstGstCache = &pVCpu->hm.s.svm.NstGstVmcbCache;
370 if (pVmcbNstGstCache->fCacheValid)
371 {
372 *pu16Intercepts = pVmcbNstGstCache->u16InterceptRdCRx;
373 return true;
374 }
375 return false;
376}
377
378
379/**
380 * Gets the SVM nested-guest CRx-write intercepts if cached by HM.
381 *
382 * @returns @c true on success, @c false otherwise.
383 * @param pVCpu The cross context virtual CPU structure of the calling
384 * EMT.
385 * @param pu16Intercepts Where to store the CRx-write intercepts. Only updated
386 * when @c true is returned.
387 */
388VMM_INT_DECL(bool) HMGetGuestSvmWriteCRxIntercepts(PCVMCPU pVCpu, uint16_t *pu16Intercepts)
389{
390 Assert(pu16Intercepts);
391 PCSVMNESTEDVMCBCACHE pVmcbNstGstCache = &pVCpu->hm.s.svm.NstGstVmcbCache;
392 if (pVmcbNstGstCache->fCacheValid)
393 {
394 *pu16Intercepts = pVmcbNstGstCache->u16InterceptWrCRx;
395 return true;
396 }
397 return false;
398}
399
400
401/**
402 * Gets the SVM nested-guest DRx-read intercepts if cached by HM.
403 *
404 * @returns @c true on success, @c false otherwise.
405 * @param pVCpu The cross context virtual CPU structure of the calling
406 * EMT.
407 * @param pu16Intercepts Where to store the DRx-read intercepts. Only updated
408 * when @c true is returned.
409 */
410VMM_INT_DECL(bool) HMGetGuestSvmReadDRxIntercepts(PCVMCPU pVCpu, uint16_t *pu16Intercepts)
411{
412 Assert(pu16Intercepts);
413 PCSVMNESTEDVMCBCACHE pVmcbNstGstCache = &pVCpu->hm.s.svm.NstGstVmcbCache;
414 if (pVmcbNstGstCache->fCacheValid)
415 {
416 *pu16Intercepts = pVmcbNstGstCache->u16InterceptRdDRx;
417 return true;
418 }
419 return false;
420}
421
422
423/**
424 * Gets the SVM nested-guest DRx-write intercepts if cached by HM.
425 *
426 * @returns @c true on success, @c false otherwise.
427 * @param pVCpu The cross context virtual CPU structure of the calling
428 * EMT.
429 * @param pu16Intercepts Where to store the DRx-write intercepts. Only updated
430 * when @c true is returned.
431 */
432VMM_INT_DECL(bool) HMGetGuestSvmWriteDRxIntercepts(PCVMCPU pVCpu, uint16_t *pu16Intercepts)
433{
434 Assert(pu16Intercepts);
435 PCSVMNESTEDVMCBCACHE pVmcbNstGstCache = &pVCpu->hm.s.svm.NstGstVmcbCache;
436 if (pVmcbNstGstCache->fCacheValid)
437 {
438 *pu16Intercepts = pVmcbNstGstCache->u16InterceptWrDRx;
439 return true;
440 }
441 return false;
442}
443
444
445/**
446 * Gets the SVM nested-guest exception intercepts if cached by HM.
447 *
448 * @returns @c true on success, @c false otherwise.
449 * @param pVCpu The cross context virtual CPU structure of the calling
450 * EMT.
451 * @param pu32Intercepts Where to store the exception intercepts. Only updated
452 * when @c true is returned.
453 */
454VMM_INT_DECL(bool) HMGetGuestSvmXcptIntercepts(PCVMCPU pVCpu, uint32_t *pu32Intercepts)
455{
456 Assert(pu32Intercepts);
457 PCSVMNESTEDVMCBCACHE pVmcbNstGstCache = &pVCpu->hm.s.svm.NstGstVmcbCache;
458 if (pVmcbNstGstCache->fCacheValid)
459 {
460 *pu32Intercepts = pVmcbNstGstCache->u32InterceptXcpt;
461 return true;
462 }
463 return false;
464}
465
466
467/**
468 * Checks if the nested-guest VMCB has virtual-interrupts masking enabled.
469 *
470 * @returns @c true on success, @c false otherwise.
471 * @param pVCpu The cross context virtual CPU structure of the calling
472 * EMT.
473 * @param pfVIntrMasking Where to store the virtual-interrupt masking bit.
474 * Updated only when @c true is returned.
475 */
476VMM_INT_DECL(bool) HMGetGuestSvmVirtIntrMasking(PCVMCPU pVCpu, bool *pfVIntrMasking)
477{
478 Assert(pfVIntrMasking);
479 PCSVMNESTEDVMCBCACHE pVmcbNstGstCache = &pVCpu->hm.s.svm.NstGstVmcbCache;
480 if (pVmcbNstGstCache->fCacheValid)
481 {
482 *pfVIntrMasking = pVmcbNstGstCache->fVIntrMasking;
483 return true;
484 }
485 return false;
486}
487
488
489/**
490 * Gets the SVM nested-guest nested-paging bit if cached by HM.
491 *
492 * @returns @c true on success, @c false otherwise.
493 * @param pVCpu The cross context virtual CPU structure of the
494 * calling EMT.
495 * @param pfNestedPaging Where to store the nested-paging bit. Updated only
496 * when @c true is returned.
497 */
498VMM_INT_DECL(bool) HMGetGuestSvmNestedPaging(PCVMCPU pVCpu, bool *pfNestedPaging)
499{
500 Assert(pfNestedPaging);
501 PCSVMNESTEDVMCBCACHE pVmcbNstGstCache = &pVCpu->hm.s.svm.NstGstVmcbCache;
502 if (pVmcbNstGstCache->fCacheValid)
503 {
504 *pfNestedPaging = pVmcbNstGstCache->fNestedPaging;
505 return true;
506 }
507 return false;
508}
509
510
511/**
512 * Returns the nested-guest VMCB pause-filter count.
513 *
514 * @returns @c true on success, @c false otherwise.
515 * @param pVCpu The cross context virtual CPU structure of the
516 * calling EMT.
517 * @param pu16PauseFilterCount Where to store the pause-filter count. Only
518 * updated @c true is returned.
519 */
520VMM_INT_DECL(bool) HMGetGuestSvmPauseFilterCount(PCVMCPU pVCpu, uint16_t *pu16PauseFilterCount)
521{
522 Assert(pu16PauseFilterCount);
523 PCSVMNESTEDVMCBCACHE pVmcbNstGstCache = &pVCpu->hm.s.svm.NstGstVmcbCache;
524 if (pVmcbNstGstCache->fCacheValid)
525 {
526 *pu16PauseFilterCount = pVmcbNstGstCache->u16PauseFilterCount;
527 return true;
528 }
529 return false;
530}
531
532
533/**
534 * Returns the SVM nested-guest TSC offset if cached by HM.
535 *
536 * @returns The TSC offset after applying any nested-guest TSC offset.
537 * @param pVCpu The cross context virtual CPU structure of the calling
538 * EMT.
539 * @param pu64TscOffset Where to store the TSC offset. Only updated when @c
540 * true is returned.
541 */
542VMM_INT_DECL(bool) HMGetGuestSvmTscOffset(PCVMCPU pVCpu, uint64_t *pu64TscOffset)
543{
544 Assert(pu64TscOffset);
545 PCSVMNESTEDVMCBCACHE pVmcbNstGstCache = &pVCpu->hm.s.svm.NstGstVmcbCache;
546 if (pVmcbNstGstCache->fCacheValid)
547 {
548 *pu64TscOffset = pVmcbNstGstCache->u64TSCOffset;
549 return true;
550 }
551 return false;
552}
553
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