VirtualBox

source: vbox/trunk/include/VBox/cpum.h@ 7944

Last change on this file since 7944 was 7730, checked in by vboxsync, 17 years ago

Added CPUMSet/GetGuestEFER.
Corrected NX bit handling.

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  • Property svn:keywords set to Author Date Id Revision
File size: 27.5 KB
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1/** @file
2 * CPUM - CPU Monitor(/ Manager).
3 */
4
5/*
6 * Copyright (C) 2006-2007 innotek GmbH
7 *
8 * This file is part of VirtualBox Open Source Edition (OSE), as
9 * available from http://www.virtualbox.org. This file is free software;
10 * you can redistribute it and/or modify it under the terms of the GNU
11 * General Public License (GPL) as published by the Free Software
12 * Foundation, in version 2 as it comes in the "COPYING" file of the
13 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
14 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
15 *
16 * The contents of this file may alternatively be used under the terms
17 * of the Common Development and Distribution License Version 1.0
18 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the
19 * VirtualBox OSE distribution, in which case the provisions of the
20 * CDDL are applicable instead of those of the GPL.
21 *
22 * You may elect to license modified versions of this file under the
23 * terms and conditions of either the GPL or the CDDL or both.
24 */
25
26#ifndef ___VBox_cpum_h
27#define ___VBox_cpum_h
28
29#include <VBox/cdefs.h>
30#include <VBox/types.h>
31#include <VBox/x86.h>
32
33
34__BEGIN_DECLS
35
36/** @defgroup grp_cpum The CPU Monitor(/Manager) API
37 * @{
38 */
39
40/**
41 * Selector hidden registers.
42 */
43typedef struct CPUMSELREGHID
44{
45 /** Base register. */
46 uint32_t u32Base;
47 /** Limit (expanded). */
48 uint32_t u32Limit;
49 /** Flags.
50 * This is the high 32-bit word of the descriptor entry.
51 * Only the flags, dpl and type are used. */
52 X86DESCATTR Attr;
53} CPUMSELREGHID;
54
55
56/**
57 * The sysenter register set.
58 */
59typedef struct CPUMSYSENTER
60{
61 /** Ring 0 cs.
62 * This value + 8 is the Ring 0 ss.
63 * This value + 16 is the Ring 3 cs.
64 * This value + 24 is the Ring 3 ss.
65 */
66 uint64_t cs;
67 /** Ring 0 eip. */
68 uint64_t eip;
69 /** Ring 0 esp. */
70 uint64_t esp;
71} CPUMSYSENTER;
72
73
74/**
75 * CPU context core.
76 */
77#pragma pack(1)
78typedef struct CPUMCTXCORE
79{
80 union
81 {
82 uint32_t edi;
83 uint64_t rdi;
84 };
85 union
86 {
87 uint32_t esi;
88 uint64_t rsi;
89 };
90 union
91 {
92 uint32_t ebp;
93 uint64_t rbp;
94 };
95 union
96 {
97 uint32_t eax;
98 uint64_t rax;
99 };
100 union
101 {
102 uint32_t ebx;
103 uint64_t rbx;
104 };
105 union
106 {
107 uint32_t edx;
108 uint64_t rdx;
109 };
110 union
111 {
112 uint32_t ecx;
113 uint64_t rcx;
114 };
115 /* Note: we rely on the exact layout, because we use lss esp, [] in the switcher */
116 uint32_t esp;
117 RTSEL ss;
118 RTSEL ssPadding;
119 /* Note: no overlap with esp here. */
120 uint64_t rsp;
121
122 RTSEL gs;
123 RTSEL gsPadding;
124 RTSEL fs;
125 RTSEL fsPadding;
126 RTSEL es;
127 RTSEL esPadding;
128 RTSEL ds;
129 RTSEL dsPadding;
130 RTSEL cs;
131 RTSEL csPadding[3]; /* 3 words to force 8 byte alignment for the remainder */
132
133 union
134 {
135 X86EFLAGS eflags;
136 X86RFLAGS rflags;
137 };
138 union
139 {
140 uint32_t eip;
141 uint64_t rip;
142 };
143
144 uint64_t r8;
145 uint64_t r9;
146 uint64_t r10;
147 uint64_t r11;
148 uint64_t r12;
149 uint64_t r13;
150 uint64_t r14;
151 uint64_t r15;
152
153 /** Hidden selector registers.
154 * @{ */
155 CPUMSELREGHID esHid;
156 CPUMSELREGHID csHid;
157 CPUMSELREGHID ssHid;
158 CPUMSELREGHID dsHid;
159 CPUMSELREGHID fsHid;
160 CPUMSELREGHID gsHid;
161 /** @} */
162
163} CPUMCTXCORE;
164#pragma pack()
165
166
167/**
168 * CPU context.
169 */
170#pragma pack(1)
171typedef struct CPUMCTX
172{
173 /** FPU state. (16-byte alignment)
174 * @todo This doesn't have to be in X86FXSTATE on CPUs without fxsr - we need a type for the
175 * actual format or convert it (waste of time). */
176 X86FXSTATE fpu;
177
178 /** CPUMCTXCORE Part.
179 * @{ */
180 union
181 {
182 uint32_t edi;
183 uint64_t rdi;
184 };
185 union
186 {
187 uint32_t esi;
188 uint64_t rsi;
189 };
190 union
191 {
192 uint32_t ebp;
193 uint64_t rbp;
194 };
195 union
196 {
197 uint32_t eax;
198 uint64_t rax;
199 };
200 union
201 {
202 uint32_t ebx;
203 uint64_t rbx;
204 };
205 union
206 {
207 uint32_t edx;
208 uint64_t rdx;
209 };
210 union
211 {
212 uint32_t ecx;
213 uint64_t rcx;
214 };
215 /* Note: we rely on the exact layout, because we use lss esp, [] in the switcher */
216 uint32_t esp;
217 RTSEL ss;
218 RTSEL ssPadding;
219 /* Note: no overlap with esp here. */
220 uint64_t rsp;
221
222 RTSEL gs;
223 RTSEL gsPadding;
224 RTSEL fs;
225 RTSEL fsPadding;
226 RTSEL es;
227 RTSEL esPadding;
228 RTSEL ds;
229 RTSEL dsPadding;
230 RTSEL cs;
231 RTSEL csPadding[3]; /* 3 words to force 8 byte alignment for the remainder */
232
233 union
234 {
235 X86EFLAGS eflags;
236 X86RFLAGS rflags;
237 };
238 union
239 {
240 uint32_t eip;
241 uint64_t rip;
242 };
243
244 uint64_t r8;
245 uint64_t r9;
246 uint64_t r10;
247 uint64_t r11;
248 uint64_t r12;
249 uint64_t r13;
250 uint64_t r14;
251 uint64_t r15;
252
253 /** Hidden selector registers.
254 * @{ */
255 CPUMSELREGHID esHid;
256 CPUMSELREGHID csHid;
257 CPUMSELREGHID ssHid;
258 CPUMSELREGHID dsHid;
259 CPUMSELREGHID fsHid;
260 CPUMSELREGHID gsHid;
261 /** @} */
262
263 /** @} */
264
265 /** Control registers.
266 * @{ */
267 uint64_t cr0;
268 uint64_t cr2;
269 uint64_t cr3;
270 uint64_t cr4;
271 uint64_t cr8;
272 /** @} */
273
274 /** Debug registers.
275 * @{ */
276 uint64_t dr0;
277 uint64_t dr1;
278 uint64_t dr2;
279 uint64_t dr3;
280 uint64_t dr4; /**< @todo remove dr4 and dr5. */
281 uint64_t dr5;
282 uint64_t dr6;
283 uint64_t dr7;
284 /* DR8-15 are currently not supported */
285 /** @} */
286
287 /** Global Descriptor Table register. */
288 VBOXGDTR gdtr;
289 uint16_t gdtrPadding;
290 uint32_t gdtrPadding64;/** @todo fix this hack */
291 /** Interrupt Descriptor Table register. */
292 VBOXIDTR idtr;
293 uint16_t idtrPadding;
294 uint32_t idtrPadding64;/** @todo fix this hack */
295 /** The task register.
296 * Only the guest context uses all the members. */
297 RTSEL ldtr;
298 RTSEL ldtrPadding;
299 /** The task register.
300 * Only the guest context uses all the members. */
301 RTSEL tr;
302 RTSEL trPadding;
303
304 /** The sysenter msr registers.
305 * This member is not used by the hypervisor context. */
306 CPUMSYSENTER SysEnter;
307
308 /** System MSRs.
309 * @{ */
310 uint64_t msrEFER;
311 uint64_t msrSTAR;
312 uint64_t msrPAT;
313 uint64_t msrLSTAR;
314 uint64_t msrCSTAR;
315 uint64_t msrSFMASK;
316 uint64_t msrFSBASE;
317 uint64_t msrGSBASE;
318 uint64_t msrKERNELGSBASE;
319 /** @} */
320
321 /** Hidden selector registers.
322 * @{ */
323 CPUMSELREGHID ldtrHid;
324 CPUMSELREGHID trHid;
325 /** @} */
326
327 /* padding to get 32byte aligned size */
328 uint32_t padding[2];
329} CPUMCTX;
330#pragma pack()
331
332/**
333 * Gets the CPUMCTXCORE part of a CPUMCTX.
334 */
335#define CPUMCTX2CORE(pCtx) ((PCPUMCTXCORE)(void *)&(pCtx)->edi)
336
337/**
338 * The register set returned by a CPUID operation.
339 */
340typedef struct CPUMCPUID
341{
342 uint32_t eax;
343 uint32_t ebx;
344 uint32_t ecx;
345 uint32_t edx;
346} CPUMCPUID;
347/** Pointer to a CPUID leaf. */
348typedef CPUMCPUID *PCPUMCPUID;
349/** Pointer to a const CPUID leaf. */
350typedef const CPUMCPUID *PCCPUMCPUID;
351
352/**
353 * CPUID feature to set or clear.
354 */
355typedef enum CPUMCPUIDFEATURE
356{
357 CPUMCPUIDFEATURE_INVALID = 0,
358 /** The APIC feature bit. (Std+Ext) */
359 CPUMCPUIDFEATURE_APIC,
360 /** The sysenter/sysexit feature bit. (Std+Ext) */
361 CPUMCPUIDFEATURE_SEP,
362 /** The PAE feature bit. (Std+Ext) */
363 CPUMCPUIDFEATURE_PAE,
364 /** The LONG MODE feature bit. (Ext) */
365 CPUMCPUIDFEATURE_LONG_MODE
366} CPUMCPUIDFEATURE;
367
368
369/** @name Guest Register Getters.
370 * @{ */
371CPUMDECL(void) CPUMGetGuestGDTR(PVM pVM, PVBOXGDTR pGDTR);
372CPUMDECL(uint32_t) CPUMGetGuestIDTR(PVM pVM, uint16_t *pcbLimit);
373CPUMDECL(RTSEL) CPUMGetGuestTR(PVM pVM);
374CPUMDECL(RTSEL) CPUMGetGuestLDTR(PVM pVM);
375CPUMDECL(uint32_t) CPUMGetGuestCR0(PVM pVM);
376CPUMDECL(uint32_t) CPUMGetGuestCR2(PVM pVM);
377CPUMDECL(uint32_t) CPUMGetGuestCR3(PVM pVM);
378CPUMDECL(uint32_t) CPUMGetGuestCR4(PVM pVM);
379CPUMDECL(int) CPUMGetGuestCRx(PVM pVM, uint32_t iReg, uint32_t *pValue);
380CPUMDECL(uint32_t) CPUMGetGuestEFlags(PVM pVM);
381CPUMDECL(uint32_t) CPUMGetGuestEIP(PVM pVM);
382CPUMDECL(uint32_t) CPUMGetGuestEAX(PVM pVM);
383CPUMDECL(uint32_t) CPUMGetGuestEBX(PVM pVM);
384CPUMDECL(uint32_t) CPUMGetGuestECX(PVM pVM);
385CPUMDECL(uint32_t) CPUMGetGuestEDX(PVM pVM);
386CPUMDECL(uint32_t) CPUMGetGuestESI(PVM pVM);
387CPUMDECL(uint32_t) CPUMGetGuestEDI(PVM pVM);
388CPUMDECL(uint32_t) CPUMGetGuestESP(PVM pVM);
389CPUMDECL(uint32_t) CPUMGetGuestEBP(PVM pVM);
390CPUMDECL(RTSEL) CPUMGetGuestCS(PVM pVM);
391CPUMDECL(RTSEL) CPUMGetGuestDS(PVM pVM);
392CPUMDECL(RTSEL) CPUMGetGuestES(PVM pVM);
393CPUMDECL(RTSEL) CPUMGetGuestFS(PVM pVM);
394CPUMDECL(RTSEL) CPUMGetGuestGS(PVM pVM);
395CPUMDECL(RTSEL) CPUMGetGuestSS(PVM pVM);
396CPUMDECL(RTUINTREG) CPUMGetGuestDR0(PVM pVM);
397CPUMDECL(RTUINTREG) CPUMGetGuestDR1(PVM pVM);
398CPUMDECL(RTUINTREG) CPUMGetGuestDR2(PVM pVM);
399CPUMDECL(RTUINTREG) CPUMGetGuestDR3(PVM pVM);
400CPUMDECL(RTUINTREG) CPUMGetGuestDR6(PVM pVM);
401CPUMDECL(RTUINTREG) CPUMGetGuestDR7(PVM pVM);
402CPUMDECL(int) CPUMGetGuestDRx(PVM pVM, uint32_t iReg, uint32_t *pValue);
403CPUMDECL(void) CPUMGetGuestCpuId(PVM pVM, uint32_t iLeaf, uint32_t *pEax, uint32_t *pEbx, uint32_t *pEcx, uint32_t *pEdx);
404CPUMDECL(GCPTRTYPE(PCCPUMCPUID)) CPUMGetGuestCpuIdStdGCPtr(PVM pVM);
405CPUMDECL(GCPTRTYPE(PCCPUMCPUID)) CPUMGetGuestCpuIdExtGCPtr(PVM pVM);
406CPUMDECL(GCPTRTYPE(PCCPUMCPUID)) CPUMGetGuestCpuIdCentaurGCPtr(PVM pVM);
407CPUMDECL(GCPTRTYPE(PCCPUMCPUID)) CPUMGetGuestCpuIdDefGCPtr(PVM pVM);
408CPUMDECL(uint32_t) CPUMGetGuestCpuIdStdMax(PVM pVM);
409CPUMDECL(uint32_t) CPUMGetGuestCpuIdExtMax(PVM pVM);
410CPUMDECL(uint32_t) CPUMGetGuestCpuIdCentaurMax(PVM pVM);
411CPUMDECL(CPUMSELREGHID *) CPUMGetGuestTRHid(PVM pVM);
412CPUMDECL(uint64_t) CPUMGetGuestEFER(PVM pVM);
413/** @} */
414
415/** @name Guest Register Setters.
416 * @{ */
417CPUMDECL(int) CPUMSetGuestGDTR(PVM pVM, uint32_t addr, uint16_t limit);
418CPUMDECL(int) CPUMSetGuestIDTR(PVM pVM, uint32_t addr, uint16_t limit);
419CPUMDECL(int) CPUMSetGuestTR(PVM pVM, uint16_t tr);
420CPUMDECL(int) CPUMSetGuestLDTR(PVM pVM, uint16_t ldtr);
421CPUMDECL(int) CPUMSetGuestCR0(PVM pVM, uint32_t cr0);
422CPUMDECL(int) CPUMSetGuestCR2(PVM pVM, uint32_t cr2);
423CPUMDECL(int) CPUMSetGuestCR3(PVM pVM, uint32_t cr3);
424CPUMDECL(int) CPUMSetGuestCR4(PVM pVM, uint32_t cr4);
425CPUMDECL(int) CPUMSetGuestCRx(PVM pVM, uint32_t iReg, uint32_t Value);
426CPUMDECL(int) CPUMSetGuestDR0(PVM pVM, RTGCUINTREG uDr0);
427CPUMDECL(int) CPUMSetGuestDR1(PVM pVM, RTGCUINTREG uDr1);
428CPUMDECL(int) CPUMSetGuestDR2(PVM pVM, RTGCUINTREG uDr2);
429CPUMDECL(int) CPUMSetGuestDR3(PVM pVM, RTGCUINTREG uDr3);
430CPUMDECL(int) CPUMSetGuestDR6(PVM pVM, RTGCUINTREG uDr6);
431CPUMDECL(int) CPUMSetGuestDR7(PVM pVM, RTGCUINTREG uDr7);
432CPUMDECL(int) CPUMSetGuestDRx(PVM pVM, uint32_t iReg, uint32_t Value);
433CPUMDECL(int) CPUMSetGuestEFlags(PVM pVM, uint32_t eflags);
434CPUMDECL(int) CPUMSetGuestEIP(PVM pVM, uint32_t eip);
435CPUMDECL(int) CPUMSetGuestEAX(PVM pVM, uint32_t eax);
436CPUMDECL(int) CPUMSetGuestEBX(PVM pVM, uint32_t ebx);
437CPUMDECL(int) CPUMSetGuestECX(PVM pVM, uint32_t ecx);
438CPUMDECL(int) CPUMSetGuestEDX(PVM pVM, uint32_t edx);
439CPUMDECL(int) CPUMSetGuestESI(PVM pVM, uint32_t esi);
440CPUMDECL(int) CPUMSetGuestEDI(PVM pVM, uint32_t edi);
441CPUMDECL(int) CPUMSetGuestESP(PVM pVM, uint32_t esp);
442CPUMDECL(int) CPUMSetGuestEBP(PVM pVM, uint32_t ebp);
443CPUMDECL(int) CPUMSetGuestCS(PVM pVM, uint16_t cs);
444CPUMDECL(int) CPUMSetGuestDS(PVM pVM, uint16_t ds);
445CPUMDECL(int) CPUMSetGuestES(PVM pVM, uint16_t es);
446CPUMDECL(int) CPUMSetGuestFS(PVM pVM, uint16_t fs);
447CPUMDECL(int) CPUMSetGuestGS(PVM pVM, uint16_t gs);
448CPUMDECL(int) CPUMSetGuestSS(PVM pVM, uint16_t ss);
449CPUMDECL(void) CPUMSetGuestEFER(PVM pVM, uint64_t val);
450CPUMDECL(void) CPUMSetGuestCpuIdFeature(PVM pVM, CPUMCPUIDFEATURE enmFeature);
451CPUMDECL(void) CPUMClearGuestCpuIdFeature(PVM pVM, CPUMCPUIDFEATURE enmFeature);
452CPUMDECL(void) CPUMSetGuestCtx(PVM pVM, const PCPUMCTX pCtx);
453/** @} */
454
455/** @name Misc Guest Predicate Functions.
456 * @{ */
457
458/**
459 * Tests if the guest is running in real mode or not.
460 *
461 * @returns true if in real mode, otherwise false.
462 * @param pVM The VM handle.
463 */
464DECLINLINE(bool) CPUMIsGuestInRealMode(PVM pVM)
465{
466 return !(CPUMGetGuestCR0(pVM) & X86_CR0_PE);
467}
468
469/**
470 * Tests if the guest is running in protected or not.
471 *
472 * @returns true if in protected mode, otherwise false.
473 * @param pVM The VM handle.
474 */
475DECLINLINE(bool) CPUMIsGuestInProtectedMode(PVM pVM)
476{
477 return !!(CPUMGetGuestCR0(pVM) & X86_CR0_PE);
478}
479
480/**
481 * Tests if the guest is running in paged protected or not.
482 *
483 * @returns true if in paged protected mode, otherwise false.
484 * @param pVM The VM handle.
485 */
486DECLINLINE(bool) CPUMIsGuestInPagedProtectedMode(PVM pVM)
487{
488 return (CPUMGetGuestCR0(pVM) & (X86_CR0_PE | X86_CR0_PG)) == (X86_CR0_PE | X86_CR0_PG);
489}
490
491/**
492 * Tests if the guest is running in paged protected or not.
493 *
494 * @returns true if in paged protected mode, otherwise false.
495 * @param pVM The VM handle.
496 */
497CPUMDECL(bool) CPUMIsGuestIn16BitCode(PVM pVM);
498
499/**
500 * Tests if the guest is running in paged protected or not.
501 *
502 * @returns true if in paged protected mode, otherwise false.
503 * @param pVM The VM handle.
504 */
505CPUMDECL(bool) CPUMIsGuestIn32BitCode(PVM pVM);
506
507/**
508 * Tests if the guest is running in paged protected or not.
509 *
510 * @returns true if in paged protected mode, otherwise false.
511 * @param pVM The VM handle.
512 */
513CPUMDECL(bool) CPUMIsGuestIn64BitCode(PVM pVM);
514
515/** @} */
516
517
518
519/** @name Hypervisor Register Getters.
520 * @{ */
521CPUMDECL(RTSEL) CPUMGetHyperCS(PVM pVM);
522CPUMDECL(RTSEL) CPUMGetHyperDS(PVM pVM);
523CPUMDECL(RTSEL) CPUMGetHyperES(PVM pVM);
524CPUMDECL(RTSEL) CPUMGetHyperFS(PVM pVM);
525CPUMDECL(RTSEL) CPUMGetHyperGS(PVM pVM);
526CPUMDECL(RTSEL) CPUMGetHyperSS(PVM pVM);
527#if 0 /* these are not correct. */
528CPUMDECL(uint32_t) CPUMGetHyperCR0(PVM pVM);
529CPUMDECL(uint32_t) CPUMGetHyperCR2(PVM pVM);
530CPUMDECL(uint32_t) CPUMGetHyperCR3(PVM pVM);
531CPUMDECL(uint32_t) CPUMGetHyperCR4(PVM pVM);
532#endif
533/** This register is only saved on fatal traps. */
534CPUMDECL(uint32_t) CPUMGetHyperEAX(PVM pVM);
535CPUMDECL(uint32_t) CPUMGetHyperEBX(PVM pVM);
536/** This register is only saved on fatal traps. */
537CPUMDECL(uint32_t) CPUMGetHyperECX(PVM pVM);
538/** This register is only saved on fatal traps. */
539CPUMDECL(uint32_t) CPUMGetHyperEDX(PVM pVM);
540CPUMDECL(uint32_t) CPUMGetHyperESI(PVM pVM);
541CPUMDECL(uint32_t) CPUMGetHyperEDI(PVM pVM);
542CPUMDECL(uint32_t) CPUMGetHyperEBP(PVM pVM);
543CPUMDECL(uint32_t) CPUMGetHyperESP(PVM pVM);
544CPUMDECL(uint32_t) CPUMGetHyperEFlags(PVM pVM);
545CPUMDECL(uint32_t) CPUMGetHyperEIP(PVM pVM);
546CPUMDECL(uint32_t) CPUMGetHyperIDTR(PVM pVM, uint16_t *pcbLimit);
547CPUMDECL(uint32_t) CPUMGetHyperGDTR(PVM pVM, uint16_t *pcbLimit);
548CPUMDECL(RTSEL) CPUMGetHyperLDTR(PVM pVM);
549CPUMDECL(RTGCUINTREG) CPUMGetHyperDR0(PVM pVM);
550CPUMDECL(RTGCUINTREG) CPUMGetHyperDR1(PVM pVM);
551CPUMDECL(RTGCUINTREG) CPUMGetHyperDR2(PVM pVM);
552CPUMDECL(RTGCUINTREG) CPUMGetHyperDR3(PVM pVM);
553CPUMDECL(RTGCUINTREG) CPUMGetHyperDR6(PVM pVM);
554CPUMDECL(RTGCUINTREG) CPUMGetHyperDR7(PVM pVM);
555CPUMDECL(void) CPUMGetHyperCtx(PVM pVM, PCPUMCTX pCtx);
556/** @} */
557
558/** @name Hypervisor Register Setters.
559 * @{ */
560CPUMDECL(void) CPUMSetHyperGDTR(PVM pVM, uint32_t addr, uint16_t limit);
561CPUMDECL(void) CPUMSetHyperLDTR(PVM pVM, RTSEL SelLDTR);
562CPUMDECL(void) CPUMSetHyperIDTR(PVM pVM, uint32_t addr, uint16_t limit);
563CPUMDECL(void) CPUMSetHyperCR3(PVM pVM, uint32_t cr3);
564CPUMDECL(void) CPUMSetHyperTR(PVM pVM, RTSEL SelTR);
565CPUMDECL(void) CPUMSetHyperCS(PVM pVM, RTSEL SelCS);
566CPUMDECL(void) CPUMSetHyperDS(PVM pVM, RTSEL SelDS);
567CPUMDECL(void) CPUMSetHyperES(PVM pVM, RTSEL SelDS);
568CPUMDECL(void) CPUMSetHyperFS(PVM pVM, RTSEL SelDS);
569CPUMDECL(void) CPUMSetHyperGS(PVM pVM, RTSEL SelDS);
570CPUMDECL(void) CPUMSetHyperSS(PVM pVM, RTSEL SelSS);
571CPUMDECL(void) CPUMSetHyperESP(PVM pVM, uint32_t u32ESP);
572CPUMDECL(int) CPUMSetHyperEFlags(PVM pVM, uint32_t Efl);
573CPUMDECL(void) CPUMSetHyperEIP(PVM pVM, uint32_t u32EIP);
574CPUMDECL(void) CPUMSetHyperDR0(PVM pVM, RTGCUINTREG uDr0);
575CPUMDECL(void) CPUMSetHyperDR1(PVM pVM, RTGCUINTREG uDr1);
576CPUMDECL(void) CPUMSetHyperDR2(PVM pVM, RTGCUINTREG uDr2);
577CPUMDECL(void) CPUMSetHyperDR3(PVM pVM, RTGCUINTREG uDr3);
578CPUMDECL(void) CPUMSetHyperDR6(PVM pVM, RTGCUINTREG uDr6);
579CPUMDECL(void) CPUMSetHyperDR7(PVM pVM, RTGCUINTREG uDr7);
580CPUMDECL(void) CPUMSetHyperCtx(PVM pVM, const PCPUMCTX pCtx);
581CPUMDECL(int) CPUMRecalcHyperDRx(PVM pVM);
582/** @} */
583
584CPUMDECL(void) CPUMPushHyper(PVM pVM, uint32_t u32);
585
586/**
587 * Sets or resets an alternative hypervisor context core.
588 *
589 * This is called when we get a hypervisor trap set switch the context
590 * core with the trap frame on the stack. It is called again to reset
591 * back to the default context core when resuming hypervisor execution.
592 *
593 * @param pVM The VM handle.
594 * @param pCtxCore Pointer to the alternative context core or NULL
595 * to go back to the default context core.
596 */
597CPUMDECL(void) CPUMHyperSetCtxCore(PVM pVM, PCPUMCTXCORE pCtxCore);
598
599
600/**
601 * Queries the pointer to the internal CPUMCTX structure
602 *
603 * @returns VBox status code.
604 * @param pVM Handle to the virtual machine.
605 * @param ppCtx Receives the CPUMCTX pointer when successful.
606 */
607CPUMDECL(int) CPUMQueryGuestCtxPtr(PVM pVM, PCPUMCTX *ppCtx);
608
609/**
610 * Queries the pointer to the internal CPUMCTX structure for the hypervisor.
611 *
612 * @returns VBox status code.
613 * @param pVM Handle to the virtual machine.
614 * @param ppCtx Receives the hyper CPUMCTX pointer when successful.
615 */
616CPUMDECL(int) CPUMQueryHyperCtxPtr(PVM pVM, PCPUMCTX *ppCtx);
617
618
619/**
620 * Gets the pointer to the internal CPUMCTXCORE structure.
621 * This is only for reading in order to save a few calls.
622 *
623 * @param pVM Handle to the virtual machine.
624 */
625CPUMDECL(PCCPUMCTXCORE) CPUMGetGuestCtxCore(PVM pVM);
626
627/**
628 * Gets the pointer to the internal CPUMCTXCORE structure for the hypervisor.
629 * This is only for reading in order to save a few calls.
630 *
631 * @param pVM Handle to the virtual machine.
632 */
633CPUMDECL(PCCPUMCTXCORE) CPUMGetHyperCtxCore(PVM pVM);
634
635/**
636 * Sets the guest context core registers.
637 *
638 * @param pVM Handle to the virtual machine.
639 * @param pCtxCore The new context core values.
640 */
641CPUMDECL(void) CPUMSetGuestCtxCore(PVM pVM, PCCPUMCTXCORE pCtxCore);
642
643
644/**
645 * Transforms the guest CPU state to raw-ring mode.
646 *
647 * This function will change the any of the cs and ss register with DPL=0 to DPL=1.
648 *
649 * @returns VBox status. (recompiler failure)
650 * @param pVM VM handle.
651 * @param pCtxCore The context core (for trap usage).
652 * @see @ref pg_raw
653 */
654CPUMDECL(int) CPUMRawEnter(PVM pVM, PCPUMCTXCORE pCtxCore);
655
656/**
657 * Transforms the guest CPU state from raw-ring mode to correct values.
658 *
659 * This function will change any selector registers with DPL=1 to DPL=0.
660 *
661 * @returns Adjusted rc.
662 * @param pVM VM handle.
663 * @param rc Raw mode return code
664 * @param pCtxCore The context core (for trap usage).
665 * @see @ref pg_raw
666 */
667CPUMDECL(int) CPUMRawLeave(PVM pVM, PCPUMCTXCORE pCtxCore, int rc);
668
669/**
670 * Gets the EFLAGS while we're in raw-mode.
671 *
672 * @returns The eflags.
673 * @param pVM The VM handle.
674 * @param pCtxCore The context core.
675 */
676CPUMDECL(uint32_t) CPUMRawGetEFlags(PVM pVM, PCPUMCTXCORE pCtxCore);
677
678/**
679 * Updates the EFLAGS while we're in raw-mode.
680 *
681 * @param pVM The VM handle.
682 * @param pCtxCore The context core.
683 * @param eflags The new EFLAGS value.
684 */
685CPUMDECL(void) CPUMRawSetEFlags(PVM pVM, PCPUMCTXCORE pCtxCore, uint32_t eflags);
686
687/**
688 * Lazily sync in the FPU/XMM state
689 *
690 * This function will change any selector registers with DPL=1 to DPL=0.
691 *
692 * @returns VBox status code.
693 * @param pVM VM handle.
694 */
695CPUMDECL(int) CPUMHandleLazyFPU(PVM pVM);
696
697
698/**
699 * Restore host FPU/XMM state
700 *
701 * @returns VBox status code.
702 * @param pVM VM handle.
703 */
704CPUMDECL(int) CPUMRestoreHostFPUState(PVM pVM);
705
706/** @name Changed flags
707 * These flags are used to keep track of which important register that
708 * have been changed since last they were reset. The only one allowed
709 * to clear them is REM!
710 * @{
711 */
712#define CPUM_CHANGED_FPU_REM RT_BIT(0)
713#define CPUM_CHANGED_CR0 RT_BIT(1)
714#define CPUM_CHANGED_CR4 RT_BIT(2)
715#define CPUM_CHANGED_GLOBAL_TLB_FLUSH RT_BIT(3)
716#define CPUM_CHANGED_CR3 RT_BIT(4)
717#define CPUM_CHANGED_GDTR RT_BIT(5)
718#define CPUM_CHANGED_IDTR RT_BIT(6)
719#define CPUM_CHANGED_LDTR RT_BIT(7)
720#define CPUM_CHANGED_TR RT_BIT(8)
721#define CPUM_CHANGED_SYSENTER_MSR RT_BIT(9)
722#define CPUM_CHANGED_HIDDEN_SEL_REGS RT_BIT(10)
723/** @} */
724
725/**
726 * Gets and resets the changed flags (CPUM_CHANGED_*).
727 *
728 * @returns The changed flags.
729 * @param pVM VM handle.
730 */
731CPUMDECL(unsigned) CPUMGetAndClearChangedFlagsREM(PVM pVM);
732
733/**
734 * Sets the specified changed flags (CPUM_CHANGED_*).
735 *
736 * @param pVM The VM handle.
737 */
738CPUMDECL(void) CPUMSetChangedFlags(PVM pVM, uint32_t fChangedFlags);
739
740/**
741 * Checks if the CPU supports the FXSAVE and FXRSTOR instruction.
742 * @returns true if supported.
743 * @returns false if not supported.
744 * @param pVM The VM handle.
745 */
746CPUMDECL(bool) CPUMSupportsFXSR(PVM pVM);
747
748/**
749 * Checks if the host OS uses the SYSENTER / SYSEXIT instructions.
750 * @returns true if used.
751 * @returns false if not used.
752 * @param pVM The VM handle.
753 */
754CPUMDECL(bool) CPUMIsHostUsingSysEnter(PVM pVM);
755
756/**
757 * Checks if the host OS uses the SYSCALL / SYSRET instructions.
758 * @returns true if used.
759 * @returns false if not used.
760 * @param pVM The VM handle.
761 */
762CPUMDECL(bool) CPUMIsHostUsingSysCall(PVM pVM);
763
764/**
765 * Checks if we activated the FPU/XMM state of the guest OS
766 * @returns true if we did.
767 * @returns false if not.
768 * @param pVM The VM handle.
769 */
770CPUMDECL(bool) CPUMIsGuestFPUStateActive(PVM pVM);
771
772/**
773 * Deactivate the FPU/XMM state of the guest OS
774 * @param pVM The VM handle.
775 */
776CPUMDECL(void) CPUMDeactivateGuestFPUState(PVM pVM);
777
778
779/**
780 * Checks if the hidden selector registers are valid
781 * @returns true if they are.
782 * @returns false if not.
783 * @param pVM The VM handle.
784 */
785CPUMDECL(bool) CPUMAreHiddenSelRegsValid(PVM pVM);
786
787/**
788 * Checks if the hidden selector registers are valid
789 * @param pVM The VM handle.
790 * @param fValid Valid or not
791 */
792CPUMDECL(void) CPUMSetHiddenSelRegsValid(PVM pVM, bool fValid);
793
794/**
795 * Get the current privilege level of the guest.
796 *
797 * @returns cpl
798 * @param pVM VM Handle.
799 * @param pRegFrame Trap register frame.
800 */
801CPUMDECL(uint32_t) CPUMGetGuestCPL(PVM pVM, PCPUMCTXCORE pCtxCore);
802
803/**
804 * CPU modes.
805 */
806typedef enum CPUMMODE
807{
808 /** The usual invalid zero entry. */
809 CPUMMODE_INVALID = 0,
810 /** Real mode. */
811 CPUMMODE_REAL,
812 /** Protected mode (32-bit). */
813 CPUMMODE_PROTECTED,
814 /** Long mode (64-bit). */
815 CPUMMODE_LONG
816} CPUMMODE;
817
818/**
819 * Gets the current guest CPU mode.
820 *
821 * If paging mode is what you need, check out PGMGetGuestMode().
822 *
823 * @returns The CPU mode.
824 * @param pVM The VM handle.
825 */
826CPUMDECL(CPUMMODE) CPUMGetGuestMode(PVM pVM);
827
828
829#ifdef IN_RING3
830/** @defgroup grp_cpum_r3 The CPU Monitor(/Manager) API
831 * @ingroup grp_cpum
832 * @{
833 */
834
835/**
836 * Initializes the CPUM.
837 *
838 * @returns VBox status code.
839 * @param pVM The VM to operate on.
840 */
841CPUMR3DECL(int) CPUMR3Init(PVM pVM);
842
843/**
844 * Applies relocations to data and code managed by this
845 * component. This function will be called at init and
846 * whenever the VMM need to relocate it self inside the GC.
847 *
848 * The CPUM will update the addresses used by the switcher.
849 *
850 * @param pVM The VM.
851 */
852CPUMR3DECL(void) CPUMR3Relocate(PVM pVM);
853
854/**
855 * Terminates the CPUM.
856 *
857 * Termination means cleaning up and freeing all resources,
858 * the VM it self is at this point powered off or suspended.
859 *
860 * @returns VBox status code.
861 * @param pVM The VM to operate on.
862 */
863CPUMR3DECL(int) CPUMR3Term(PVM pVM);
864
865/**
866 * Resets the CPU.
867 *
868 * @param pVM The VM handle.
869 */
870CPUMR3DECL(void) CPUMR3Reset(PVM pVM);
871
872/**
873 * Queries the pointer to the internal CPUMCTX structure
874 *
875 * @returns VBox status code.
876 * @param pVM Handle to the virtual machine.
877 * @param ppCtx Receives the CPUMCTX GC pointer when successful.
878 */
879CPUMR3DECL(int) CPUMR3QueryGuestCtxGCPtr(PVM pVM, GCPTRTYPE(PCPUMCTX) *ppCtx);
880
881
882#ifdef DEBUG
883/**
884 * Debug helper - Saves guest context on raw mode entry (for fatal dump)
885 *
886 * @internal
887 */
888CPUMR3DECL(void) CPUMR3SaveEntryCtx(PVM pVM);
889#endif
890
891/**
892 * API for controlling a few of the CPU features found in CR4.
893 *
894 * Currently only X86_CR4_TSD is accepted as input.
895 *
896 * @returns VBox status code.
897 *
898 * @param pVM The VM handle.
899 * @param fOr The CR4 OR mask.
900 * @param fAnd The CR4 AND mask.
901 */
902CPUMR3DECL(int) CPUMR3SetCR4Feature(PVM pVM, RTHCUINTREG fOr, RTHCUINTREG fAnd);
903
904/** @} */
905#endif
906
907#ifdef IN_GC
908/** @defgroup grp_cpum_gc The CPU Monitor(/Manager) API
909 * @ingroup grp_cpum
910 * @{
911 */
912
913/**
914 * Calls a guest trap/interrupt handler directly
915 * Assumes a trap stack frame has already been setup on the guest's stack!
916 *
917 * @param pRegFrame Original trap/interrupt context
918 * @param selCS Code selector of handler
919 * @param pHandler GC virtual address of handler
920 * @param eflags Callee's EFLAGS
921 * @param selSS Stack selector for handler
922 * @param pEsp Stack address for handler
923 *
924 * This function does not return!
925 *
926 */
927CPUMGCDECL(void) CPUMGCCallGuestTrapHandler(PCPUMCTXCORE pRegFrame, uint32_t selCS, RTGCPTR pHandler, uint32_t eflags, uint32_t selSS, RTGCPTR pEsp);
928
929/**
930 * Performs an iret to V86 code
931 * Assumes a trap stack frame has already been setup on the guest's stack!
932 *
933 * @param pRegFrame Original trap/interrupt context
934 *
935 * This function does not return!
936 */
937CPUMGCDECL(void) CPUMGCCallV86Code(PCPUMCTXCORE pRegFrame);
938
939/** @} */
940#endif
941
942#ifdef IN_RING0
943/** @defgroup grp_cpum_r0 The CPU Monitor(/Manager) API
944 * @ingroup grp_cpum
945 * @{
946 */
947
948/**
949 * Does Ring-0 CPUM initialization.
950 *
951 * This is mainly to check that the Host CPU mode is compatible
952 * with VBox.
953 *
954 * @returns VBox status code.
955 * @param pVM The VM to operate on.
956 */
957CPUMR0DECL(int) CPUMR0Init(PVM pVM);
958
959/** @} */
960#endif
961
962/** @} */
963__END_DECLS
964
965
966#endif
967
968
969
970
971
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