VirtualBox

source: vbox/trunk/src/VBox/VMM/MMHyper.cpp@ 13698

Last change on this file since 13698 was 12989, checked in by vboxsync, 16 years ago

VMM + VBox/cdefs.h: consolidated all the XYZ*DECLS of the VMM into VMM*DECL. Removed dead DECL and IN_XYZ* macros.

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File size: 40.3 KB
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1/* $Id: MMHyper.cpp 12989 2008-10-06 02:15:39Z vboxsync $ */
2/** @file
3 * MM - Memory Manager - Hypervisor Memory Area.
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_MM_HYPER
27#include <VBox/pgm.h>
28#include <VBox/mm.h>
29#include <VBox/dbgf.h>
30#include "MMInternal.h"
31#include <VBox/vm.h>
32#include <VBox/err.h>
33#include <VBox/param.h>
34#include <VBox/log.h>
35#include <iprt/alloc.h>
36#include <iprt/assert.h>
37#include <iprt/string.h>
38
39
40/*******************************************************************************
41* Internal Functions *
42*******************************************************************************/
43static DECLCALLBACK(bool) mmR3HyperRelocateCallback(PVM pVM, RTGCPTR GCPtrOld, RTGCPTR GCPtrNew, PGMRELOCATECALL enmMode, void *pvUser);
44static int mmR3HyperMap(PVM pVM, const size_t cb, const char *pszDesc, PRTGCPTR pGCPtr, PMMLOOKUPHYPER *ppLookup);
45static int mmR3HyperHeapCreate(PVM pVM, const size_t cb, PMMHYPERHEAP *ppHeap);
46static int mmR3HyperHeapMap(PVM pVM, PMMHYPERHEAP pHeap, PRTGCPTR ppHeapGC);
47static DECLCALLBACK(void) mmR3HyperInfoHma(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs);
48
49
50
51
52/**
53 * Initializes the hypvervisor related MM stuff without
54 * calling down to PGM.
55 *
56 * PGM is not initialized at this point, PGM relies on
57 * the heap to initialize.
58 *
59 * @returns VBox status.
60 */
61int mmR3HyperInit(PVM pVM)
62{
63 LogFlow(("mmR3HyperInit:\n"));
64
65 /*
66 * Decide Hypervisor mapping in the guest context
67 * And setup various hypervisor area and heap parameters.
68 */
69 pVM->mm.s.pvHyperAreaGC = (RTGCPTR)MM_HYPER_AREA_ADDRESS;
70 pVM->mm.s.cbHyperArea = MM_HYPER_AREA_MAX_SIZE;
71 AssertRelease(RT_ALIGN_T(pVM->mm.s.pvHyperAreaGC, 1 << X86_PD_SHIFT, RTGCPTR) == pVM->mm.s.pvHyperAreaGC);
72 Assert(pVM->mm.s.pvHyperAreaGC < 0xff000000);
73
74 /** @todo @bugref{1865}, @bugref{3202}: Change the cbHyperHeap default
75 * depending on whether VT-x/AMD-V is enabled or not! Don't waste
76 * precious kernel space on heap for the PATM. */
77 uint32_t cbHyperHeap;
78 int rc = CFGMR3QueryU32(CFGMR3GetChild(CFGMR3GetRoot(pVM), "MM"), "cbHyperHeap", &cbHyperHeap);
79 if (rc == VERR_CFGM_NO_PARENT || rc == VERR_CFGM_VALUE_NOT_FOUND)
80 cbHyperHeap = 1280*_1K;
81 else if (VBOX_FAILURE(rc))
82 {
83 LogRel(("MM/cbHyperHeap query -> %Vrc\n", rc));
84 AssertRCReturn(rc, rc);
85 }
86 cbHyperHeap = RT_ALIGN_32(cbHyperHeap, PAGE_SIZE);
87
88 /*
89 * Allocate the hypervisor heap.
90 *
91 * (This must be done before we start adding memory to the
92 * hypervisor static area because lookup records are allocated from it.)
93 */
94 rc = mmR3HyperHeapCreate(pVM, cbHyperHeap, &pVM->mm.s.pHyperHeapR3);
95 if (VBOX_SUCCESS(rc))
96 {
97 pVM->mm.s.pHyperHeapR0 = (uintptr_t)pVM->mm.s.pHyperHeapR3; /** @todo #1865: map into ring-0 / whatever. */
98
99 /*
100 * Make a small head fence to fend of accidental sequential access.
101 */
102 MMR3HyperReserve(pVM, PAGE_SIZE, "fence", NULL);
103
104 /*
105 * Map the VM structure into the hypervisor space.
106 */
107 RTGCPTR GCPtr;
108 rc = MMR3HyperMapPages(pVM, pVM, pVM->pVMR0, RT_ALIGN_Z(sizeof(VM), PAGE_SIZE) >> PAGE_SHIFT, pVM->paVMPagesR3, "VM", &GCPtr);
109 if (VBOX_SUCCESS(rc))
110 {
111 pVM->pVMRC = (RTGCPTR32)GCPtr;
112 pVM->pVMGC = pVM->pVMRC;
113 for (uint32_t i = 0; i < pVM->cCPUs; i++)
114 pVM->aCpus[i].pVMRC = pVM->pVMRC;
115
116 /* Reserve a page for fencing. */
117 MMR3HyperReserve(pVM, PAGE_SIZE, "fence", NULL);
118
119 /*
120 * Map the heap into the hypervisor space.
121 */
122 rc = mmR3HyperHeapMap(pVM, pVM->mm.s.pHyperHeapR3, &GCPtr);
123 if (VBOX_SUCCESS(rc))
124 {
125 pVM->mm.s.pHyperHeapRC = (RTRCPTR)GCPtr;
126 Assert(pVM->mm.s.pHyperHeapRC == GCPtr);
127
128 /*
129 * Register info handlers.
130 */
131 DBGFR3InfoRegisterInternal(pVM, "hma", "Show the layout of the Hypervisor Memory Area.", mmR3HyperInfoHma);
132
133 LogFlow(("mmR3HyperInit: returns VINF_SUCCESS\n"));
134 return VINF_SUCCESS;
135 }
136 /* Caller will do proper cleanup. */
137 }
138 }
139
140 LogFlow(("mmR3HyperInit: returns %Vrc\n", rc));
141 return rc;
142}
143
144
145/**
146 * Finalizes the HMA mapping.
147 *
148 * This is called later during init, most (all) HMA allocations should be done
149 * by the time this function is called.
150 *
151 * @returns VBox status.
152 */
153VMMR3DECL(int) MMR3HyperInitFinalize(PVM pVM)
154{
155 LogFlow(("MMR3HyperInitFinalize:\n"));
156
157 /*
158 * Adjust and create the HMA mapping.
159 */
160 while ((RTINT)pVM->mm.s.offHyperNextStatic + 64*_1K < (RTINT)pVM->mm.s.cbHyperArea - _4M)
161 pVM->mm.s.cbHyperArea -= _4M;
162 int rc = PGMR3MapPT(pVM, pVM->mm.s.pvHyperAreaGC, pVM->mm.s.cbHyperArea,
163 mmR3HyperRelocateCallback, NULL, "Hypervisor Memory Area");
164 if (VBOX_FAILURE(rc))
165 return rc;
166 pVM->mm.s.fPGMInitialized = true;
167
168 /*
169 * Do all the delayed mappings.
170 */
171 PMMLOOKUPHYPER pLookup = (PMMLOOKUPHYPER)((uintptr_t)pVM->mm.s.pHyperHeapR3 + pVM->mm.s.offLookupHyper);
172 for (;;)
173 {
174 RTGCPTR GCPtr = pVM->mm.s.pvHyperAreaGC + pLookup->off;
175 unsigned cPages = pLookup->cb >> PAGE_SHIFT;
176 switch (pLookup->enmType)
177 {
178 case MMLOOKUPHYPERTYPE_LOCKED:
179 rc = mmR3MapLocked(pVM, pLookup->u.Locked.pLockedMem, GCPtr, 0, cPages, 0);
180 break;
181
182 case MMLOOKUPHYPERTYPE_HCPHYS:
183 rc = PGMMap(pVM, GCPtr, pLookup->u.HCPhys.HCPhys, pLookup->cb, 0);
184 break;
185
186 case MMLOOKUPHYPERTYPE_GCPHYS:
187 {
188 const RTGCPHYS GCPhys = pLookup->u.GCPhys.GCPhys;
189 const size_t cb = pLookup->cb;
190 for (unsigned off = 0; off < cb; off += PAGE_SIZE)
191 {
192 RTHCPHYS HCPhys;
193 rc = PGMPhysGCPhys2HCPhys(pVM, GCPhys + off, &HCPhys);
194 if (VBOX_FAILURE(rc))
195 break;
196 rc = PGMMap(pVM, GCPtr + off, HCPhys, PAGE_SIZE, 0);
197 if (VBOX_FAILURE(rc))
198 break;
199 }
200 break;
201 }
202
203 case MMLOOKUPHYPERTYPE_MMIO2:
204 {
205 const RTGCPHYS offEnd = pLookup->u.MMIO2.off + pLookup->cb;
206 for (RTGCPHYS offCur = pLookup->u.MMIO2.off; offCur < offEnd; offCur += PAGE_SIZE)
207 {
208 RTHCPHYS HCPhys;
209 rc = PGMR3PhysMMIO2GetHCPhys(pVM, pLookup->u.MMIO2.pDevIns, pLookup->u.MMIO2.iRegion, offCur, &HCPhys);
210 if (RT_FAILURE(rc))
211 break;
212 rc = PGMMap(pVM, GCPtr + (offCur - pLookup->u.MMIO2.off), HCPhys, PAGE_SIZE, 0);
213 if (RT_FAILURE(rc))
214 break;
215 }
216 break;
217 }
218
219 case MMLOOKUPHYPERTYPE_DYNAMIC:
220 /* do nothing here since these are either fences or managed by someone else using PGM. */
221 break;
222
223 default:
224 AssertMsgFailed(("enmType=%d\n", pLookup->enmType));
225 break;
226 }
227
228 if (VBOX_FAILURE(rc))
229 {
230 AssertMsgFailed(("rc=%Vrc cb=%d GCPtr=%VGv enmType=%d pszDesc=%s\n",
231 rc, pLookup->cb, pLookup->enmType, pLookup->pszDesc));
232 return rc;
233 }
234
235 /* next */
236 if (pLookup->offNext == (int32_t)NIL_OFFSET)
237 break;
238 pLookup = (PMMLOOKUPHYPER)((uintptr_t)pLookup + pLookup->offNext);
239 }
240
241 LogFlow(("MMR3HyperInitFinalize: returns VINF_SUCCESS\n"));
242 return VINF_SUCCESS;
243}
244
245
246/**
247 * Callback function which will be called when PGM is trying to find
248 * a new location for the mapping.
249 *
250 * The callback is called in two modes, 1) the check mode and 2) the relocate mode.
251 * In 1) the callback should say if it objects to a suggested new location. If it
252 * accepts the new location, it is called again for doing it's relocation.
253 *
254 *
255 * @returns true if the location is ok.
256 * @returns false if another location should be found.
257 * @param pVM The VM handle.
258 * @param GCPtrOld The old virtual address.
259 * @param GCPtrNew The new virtual address.
260 * @param enmMode Used to indicate the callback mode.
261 * @param pvUser User argument. Ignored.
262 * @remark The return value is no a failure indicator, it's an acceptance
263 * indicator. Relocation can not fail!
264 */
265static DECLCALLBACK(bool) mmR3HyperRelocateCallback(PVM pVM, RTGCPTR GCPtrOld, RTGCPTR GCPtrNew, PGMRELOCATECALL enmMode, void *pvUser)
266{
267 switch (enmMode)
268 {
269 /*
270 * Verify location - all locations are good for us.
271 */
272 case PGMRELOCATECALL_SUGGEST:
273 return true;
274
275 /*
276 * Execute the relocation.
277 */
278 case PGMRELOCATECALL_RELOCATE:
279 {
280 /*
281 * Accepted!
282 */
283 AssertMsg(GCPtrOld == pVM->mm.s.pvHyperAreaGC, ("GCPtrOld=%VGv pVM->mm.s.pvHyperAreaGC=%VGv\n", GCPtrOld, pVM->mm.s.pvHyperAreaGC));
284 Log(("Relocating the hypervisor from %VGv to %VGv\n", GCPtrOld, GCPtrNew));
285
286 /*
287 * Relocate the VM structure and ourselves.
288 */
289 RTGCINTPTR offDelta = GCPtrNew - GCPtrOld;
290 pVM->pVMRC += offDelta;
291 pVM->pVMGC = pVM->pVMRC;
292 for (uint32_t i = 0; i < pVM->cCPUs; i++)
293 pVM->aCpus[i].pVMRC = pVM->pVMRC;
294
295 pVM->mm.s.pvHyperAreaGC += offDelta;
296 Assert(pVM->mm.s.pvHyperAreaGC < _4G);
297 pVM->mm.s.pHyperHeapRC += offDelta;
298 pVM->mm.s.pHyperHeapR3->pbHeapRC += offDelta;
299 pVM->mm.s.pHyperHeapR3->pVMRC = pVM->pVMRC;
300
301 /*
302 * Relocate the rest.
303 */
304 VMR3Relocate(pVM, offDelta);
305 return true;
306 }
307
308 default:
309 AssertMsgFailed(("Invalid relocation mode %d\n", enmMode));
310 }
311
312 return false;
313}
314
315
316/**
317 * Maps contiguous HC physical memory into the hypervisor region in the GC.
318 *
319 * @return VBox status code.
320 *
321 * @param pVM VM handle.
322 * @param pvR3 Host context address of the memory. Must be page
323 * aligned!
324 * @param HCPhys Host context physical address of the memory to be
325 * mapped. Must be page aligned!
326 * @param cb Size of the memory. Will be rounded up to nearest page.
327 * @param pszDesc Description.
328 * @param pGCPtr Where to store the GC address.
329 */
330VMMR3DECL(int) MMR3HyperMapHCPhys(PVM pVM, void *pvR3, RTHCPHYS HCPhys, size_t cb, const char *pszDesc, PRTGCPTR pGCPtr)
331{
332 LogFlow(("MMR3HyperMapHCPhys: pvR3=%p HCPhys=%RHp cb=%d pszDesc=%p:{%s} pGCPtr=%p\n", pvR3, HCPhys, (int)cb, pszDesc, pszDesc, pGCPtr));
333
334 /*
335 * Validate input.
336 */
337 AssertReturn(RT_ALIGN_P(pvR3, PAGE_SIZE) == pvR3, VERR_INVALID_PARAMETER);
338 AssertReturn(RT_ALIGN_T(HCPhys, PAGE_SIZE, RTHCPHYS) == HCPhys, VERR_INVALID_PARAMETER);
339 AssertReturn(pszDesc && *pszDesc, VERR_INVALID_PARAMETER);
340
341 /*
342 * Add the memory to the hypervisor area.
343 */
344 uint32_t cbAligned = RT_ALIGN_32(cb, PAGE_SIZE);
345 AssertReturn(cbAligned >= cb, VERR_INVALID_PARAMETER);
346 RTGCPTR GCPtr;
347 PMMLOOKUPHYPER pLookup;
348 int rc = mmR3HyperMap(pVM, cbAligned, pszDesc, &GCPtr, &pLookup);
349 if (VBOX_SUCCESS(rc))
350 {
351 pLookup->enmType = MMLOOKUPHYPERTYPE_HCPHYS;
352 pLookup->u.HCPhys.pvR3 = pvR3;
353 pLookup->u.HCPhys.HCPhys = HCPhys;
354
355 /*
356 * Update the page table.
357 */
358 if (pVM->mm.s.fPGMInitialized)
359 rc = PGMMap(pVM, GCPtr, HCPhys, cbAligned, 0);
360 if (VBOX_SUCCESS(rc))
361 *pGCPtr = GCPtr;
362 }
363 return rc;
364}
365
366
367/**
368 * Maps contiguous GC physical memory into the hypervisor region in the GC.
369 *
370 * @return VBox status code.
371 *
372 * @param pVM VM handle.
373 * @param GCPhys Guest context physical address of the memory to be mapped. Must be page aligned!
374 * @param cb Size of the memory. Will be rounded up to nearest page.
375 * @param pszDesc Mapping description.
376 * @param pGCPtr Where to store the GC address.
377 */
378VMMR3DECL(int) MMR3HyperMapGCPhys(PVM pVM, RTGCPHYS GCPhys, size_t cb, const char *pszDesc, PRTGCPTR pGCPtr)
379{
380 LogFlow(("MMR3HyperMapGCPhys: GCPhys=%VGp cb=%d pszDesc=%p:{%s} pGCPtr=%p\n", GCPhys, (int)cb, pszDesc, pszDesc, pGCPtr));
381
382 /*
383 * Validate input.
384 */
385 AssertReturn(RT_ALIGN_T(GCPhys, PAGE_SIZE, RTGCPHYS) == GCPhys, VERR_INVALID_PARAMETER);
386 AssertReturn(pszDesc && *pszDesc, VERR_INVALID_PARAMETER);
387
388 /*
389 * Add the memory to the hypervisor area.
390 */
391 cb = RT_ALIGN_Z(cb, PAGE_SIZE);
392 RTGCPTR GCPtr;
393 PMMLOOKUPHYPER pLookup;
394 int rc = mmR3HyperMap(pVM, cb, pszDesc, &GCPtr, &pLookup);
395 if (VBOX_SUCCESS(rc))
396 {
397 pLookup->enmType = MMLOOKUPHYPERTYPE_GCPHYS;
398 pLookup->u.GCPhys.GCPhys = GCPhys;
399
400 /*
401 * Update the page table.
402 */
403 for (unsigned off = 0; off < cb; off += PAGE_SIZE)
404 {
405 RTHCPHYS HCPhys;
406 rc = PGMPhysGCPhys2HCPhys(pVM, GCPhys + off, &HCPhys);
407 AssertRC(rc);
408 if (VBOX_FAILURE(rc))
409 {
410 AssertMsgFailed(("rc=%Vrc GCPhys=%VGv off=%#x %s\n", rc, GCPhys, off, pszDesc));
411 break;
412 }
413 if (pVM->mm.s.fPGMInitialized)
414 {
415 rc = PGMMap(pVM, GCPtr + off, HCPhys, PAGE_SIZE, 0);
416 AssertRC(rc);
417 if (VBOX_FAILURE(rc))
418 {
419 AssertMsgFailed(("rc=%Vrc GCPhys=%VGv off=%#x %s\n", rc, GCPhys, off, pszDesc));
420 break;
421 }
422 }
423 }
424
425 if (VBOX_SUCCESS(rc) && pGCPtr)
426 *pGCPtr = GCPtr;
427 }
428 return rc;
429}
430
431
432/**
433 * Maps a portion of an MMIO2 region into the hypervisor region.
434 *
435 * Callers of this API must never deregister the MMIO2 region before the
436 * VM is powered off. If this becomes a requirement MMR3HyperUnmapMMIO2
437 * API will be needed to perform cleanups.
438 *
439 * @return VBox status code.
440 *
441 * @param pVM Pointer to the shared VM structure.
442 * @param pDevIns The device owning the MMIO2 memory.
443 * @param iRegion The region.
444 * @param off The offset into the region. Will be rounded down to closest page boundrary.
445 * @param cb The number of bytes to map. Will be rounded up to the closest page boundrary.
446 * @param pszDesc Mapping description.
447 * @param pRCPtr Where to store the RC address.
448 */
449VMMR3DECL(int) MMR3HyperMapMMIO2(PVM pVM, PPDMDEVINS pDevIns, uint32_t iRegion, RTGCPHYS off, RTGCPHYS cb,
450 const char *pszDesc, PRTRCPTR pRCPtr)
451{
452 LogFlow(("MMR3HyperMapMMIO2: pDevIns=%p iRegion=%#x off=%VGp cb=%VGp pszDesc=%p:{%s} pRCPtr=%p\n",
453 pDevIns, iRegion, off, cb, pszDesc, pszDesc, pRCPtr));
454 int rc;
455
456 /*
457 * Validate input.
458 */
459 AssertReturn(pszDesc && *pszDesc, VERR_INVALID_PARAMETER);
460 AssertReturn(off + cb > off, VERR_INVALID_PARAMETER);
461 uint32_t const offPage = off & PAGE_OFFSET_MASK;
462 off &= ~(RTGCPHYS)PAGE_OFFSET_MASK;
463 cb += offPage;
464 cb = RT_ALIGN_Z(cb, PAGE_SIZE);
465 const RTGCPHYS offEnd = off + cb;
466 AssertReturn(offEnd > off, VERR_INVALID_PARAMETER);
467 for (RTGCPHYS offCur = off; offCur < offEnd; offCur += PAGE_SIZE)
468 {
469 RTHCPHYS HCPhys;
470 rc = PGMR3PhysMMIO2GetHCPhys(pVM, pDevIns, iRegion, offCur, &HCPhys);
471 AssertMsgRCReturn(rc, ("rc=%Rrc - iRegion=%d off=%RGp\n", rc, iRegion, off), rc);
472 }
473
474 /*
475 * Add the memory to the hypervisor area.
476 */
477 RTGCPTR GCPtr;
478 PMMLOOKUPHYPER pLookup;
479 rc = mmR3HyperMap(pVM, cb, pszDesc, &GCPtr, &pLookup);
480 if (VBOX_SUCCESS(rc))
481 {
482 pLookup->enmType = MMLOOKUPHYPERTYPE_MMIO2;
483 pLookup->u.MMIO2.pDevIns = pDevIns;
484 pLookup->u.MMIO2.iRegion = iRegion;
485 pLookup->u.MMIO2.off = off;
486
487 /*
488 * Update the page table.
489 */
490 if (pVM->mm.s.fPGMInitialized)
491 {
492 for (RTGCPHYS offCur = off; offCur < offEnd; offCur += PAGE_SIZE)
493 {
494 RTHCPHYS HCPhys;
495 rc = PGMR3PhysMMIO2GetHCPhys(pVM, pDevIns, iRegion, offCur, &HCPhys);
496 AssertRCReturn(rc, VERR_INTERNAL_ERROR);
497 rc = PGMMap(pVM, GCPtr + (offCur - off), HCPhys, PAGE_SIZE, 0);
498 if (VBOX_FAILURE(rc))
499 {
500 AssertMsgFailed(("rc=%Vrc offCur=%RGp %s\n", rc, offCur, pszDesc));
501 break;
502 }
503 }
504 }
505
506 if (VBOX_SUCCESS(rc))
507 {
508 GCPtr |= offPage;
509 *pRCPtr = GCPtr;
510 AssertLogRelReturn(*pRCPtr == GCPtr, VERR_INTERNAL_ERROR);
511 }
512 }
513 return rc;
514}
515
516
517/**
518 * Locks and Maps HC virtual memory into the hypervisor region in the GC.
519 *
520 * @return VBox status code.
521 *
522 * @param pVM VM handle.
523 * @param pvR3 Host context address of the memory (may be not page
524 * aligned).
525 * @param cb Size of the memory. Will be rounded up to nearest page.
526 * @param fFree Set this if MM is responsible for freeing the memory
527 * using SUPPageFree.
528 * @param pszDesc Mapping description.
529 * @param pGCPtr Where to store the GC address corresponding to pvR3.
530 */
531VMMR3DECL(int) MMR3HyperMapHCRam(PVM pVM, void *pvR3, size_t cb, bool fFree, const char *pszDesc, PRTGCPTR pGCPtr)
532{
533 LogFlow(("MMR3HyperMapHCRam: pvR3=%p cb=%d fFree=%d pszDesc=%p:{%s} pGCPtr=%p\n", pvR3, (int)cb, fFree, pszDesc, pszDesc, pGCPtr));
534
535 /*
536 * Validate input.
537 */
538 if ( !pvR3
539 || cb <= 0
540 || !pszDesc
541 || !*pszDesc)
542 {
543 AssertMsgFailed(("Invalid parameter\n"));
544 return VERR_INVALID_PARAMETER;
545 }
546
547 /*
548 * Page align address and size.
549 */
550 void *pvR3Page = (void *)((uintptr_t)pvR3 & PAGE_BASE_HC_MASK);
551 cb += (uintptr_t)pvR3 & PAGE_OFFSET_MASK;
552 cb = RT_ALIGN_Z(cb, PAGE_SIZE);
553
554 /*
555 * Add the memory to the hypervisor area.
556 */
557 RTGCPTR GCPtr;
558 PMMLOOKUPHYPER pLookup;
559 int rc = mmR3HyperMap(pVM, cb, pszDesc, &GCPtr, &pLookup);
560 if (VBOX_SUCCESS(rc))
561 {
562 /*
563 * Lock the heap memory and tell PGM about the locked pages.
564 */
565 PMMLOCKEDMEM pLockedMem;
566 rc = mmR3LockMem(pVM, pvR3Page, cb, fFree ? MM_LOCKED_TYPE_HYPER : MM_LOCKED_TYPE_HYPER_NOFREE, &pLockedMem, false /* fSilentFailure */);
567 if (VBOX_SUCCESS(rc))
568 {
569 /* map the stuff into guest address space. */
570 if (pVM->mm.s.fPGMInitialized)
571 rc = mmR3MapLocked(pVM, pLockedMem, GCPtr, 0, ~(size_t)0, 0);
572 if (VBOX_SUCCESS(rc))
573 {
574 pLookup->enmType = MMLOOKUPHYPERTYPE_LOCKED;
575 pLookup->u.Locked.pvR3 = pvR3;
576 pLookup->u.Locked.pvR0 = NIL_RTR0PTR;
577 pLookup->u.Locked.pLockedMem = pLockedMem;
578
579 /* done. */
580 GCPtr |= (uintptr_t)pvR3 & PAGE_OFFSET_MASK;
581 *pGCPtr = GCPtr;
582 return rc;
583 }
584 /* Don't care about failure clean, we're screwed if this fails anyway. */
585 }
586 }
587
588 return rc;
589}
590
591
592/**
593 * Maps locked R3 virtual memory into the hypervisor region in the GC.
594 *
595 * @return VBox status code.
596 *
597 * @param pVM VM handle.
598 * @param pvR3 The ring-3 address of the memory, must be page aligned.
599 * @param pvR0 The ring-0 address of the memory, must be page aligned. (optional)
600 * @param cPages The number of pages.
601 * @param paPages The page descriptors.
602 * @param pszDesc Mapping description.
603 * @param pGCPtr Where to store the GC address corresponding to pvR3.
604 */
605VMMR3DECL(int) MMR3HyperMapPages(PVM pVM, void *pvR3, RTR0PTR pvR0, size_t cPages, PCSUPPAGE paPages, const char *pszDesc, PRTGCPTR pGCPtr)
606{
607 LogFlow(("MMR3HyperMapPages: pvR3=%p pvR0=%p cPages=%zu paPages=%p pszDesc=%p:{%s} pGCPtr=%p\n",
608 pvR3, pvR0, cPages, paPages, pszDesc, pszDesc, pGCPtr));
609
610 /*
611 * Validate input.
612 */
613 AssertPtrReturn(pvR3, VERR_INVALID_POINTER);
614 AssertPtrReturn(paPages, VERR_INVALID_POINTER);
615 AssertReturn(cPages > 0, VERR_INVALID_PARAMETER);
616 AssertReturn(cPages < 1024, VERR_INVALID_PARAMETER);
617 AssertPtrReturn(pszDesc, VERR_INVALID_POINTER);
618 AssertReturn(*pszDesc, VERR_INVALID_PARAMETER);
619 AssertPtrReturn(pGCPtr, VERR_INVALID_PARAMETER);
620
621 /*
622 * Add the memory to the hypervisor area.
623 */
624 RTGCPTR GCPtr;
625 PMMLOOKUPHYPER pLookup;
626 int rc = mmR3HyperMap(pVM, cPages << PAGE_SHIFT, pszDesc, &GCPtr, &pLookup);
627 if (VBOX_SUCCESS(rc))
628 {
629 /*
630 * Create a locked memory record and tell PGM about this.
631 */
632 PMMLOCKEDMEM pLockedMem = (PMMLOCKEDMEM)MMR3HeapAlloc(pVM, MM_TAG_MM, RT_OFFSETOF(MMLOCKEDMEM, aPhysPages[cPages]));
633 if (pLockedMem)
634 {
635 pLockedMem->pv = pvR3;
636 pLockedMem->cb = cPages << PAGE_SHIFT;
637 pLockedMem->eType = MM_LOCKED_TYPE_HYPER_PAGES;
638 memset(&pLockedMem->u, 0, sizeof(pLockedMem->u));
639 for (size_t i = 0; i < cPages; i++)
640 {
641 AssertReleaseReturn(paPages[i].Phys != 0 && paPages[i].Phys != NIL_RTHCPHYS && !(paPages[i].Phys & PAGE_OFFSET_MASK), VERR_INTERNAL_ERROR);
642 pLockedMem->aPhysPages[i].Phys = paPages[i].Phys;
643 pLockedMem->aPhysPages[i].uReserved = (RTHCUINTPTR)pLockedMem;
644 }
645
646 /* map the stuff into guest address space. */
647 if (pVM->mm.s.fPGMInitialized)
648 rc = mmR3MapLocked(pVM, pLockedMem, GCPtr, 0, ~(size_t)0, 0);
649 if (VBOX_SUCCESS(rc))
650 {
651 pLookup->enmType = MMLOOKUPHYPERTYPE_LOCKED;
652 pLookup->u.Locked.pvR3 = pvR3;
653 pLookup->u.Locked.pvR0 = pvR0;
654 pLookup->u.Locked.pLockedMem = pLockedMem;
655
656 /* done. */
657 *pGCPtr = GCPtr;
658 return rc;
659 }
660 /* Don't care about failure clean, we're screwed if this fails anyway. */
661 }
662 }
663
664 return rc;
665}
666
667
668/**
669 * Reserves a hypervisor memory area.
670 * Most frequent usage is fence pages and dynamically mappings like the guest PD and PDPT.
671 *
672 * @return VBox status code.
673 *
674 * @param pVM VM handle.
675 * @param cb Size of the memory. Will be rounded up to nearest page.
676 * @param pszDesc Mapping description.
677 * @param pGCPtr Where to store the assigned GC address. Optional.
678 */
679VMMR3DECL(int) MMR3HyperReserve(PVM pVM, unsigned cb, const char *pszDesc, PRTGCPTR pGCPtr)
680{
681 LogFlow(("MMR3HyperMapHCRam: cb=%d pszDesc=%p:{%s} pGCPtr=%p\n", (int)cb, pszDesc, pszDesc, pGCPtr));
682
683 /*
684 * Validate input.
685 */
686 if ( cb <= 0
687 || !pszDesc
688 || !*pszDesc)
689 {
690 AssertMsgFailed(("Invalid parameter\n"));
691 return VERR_INVALID_PARAMETER;
692 }
693
694 /*
695 * Add the memory to the hypervisor area.
696 */
697 RTGCPTR GCPtr;
698 PMMLOOKUPHYPER pLookup;
699 int rc = mmR3HyperMap(pVM, cb, pszDesc, &GCPtr, &pLookup);
700 if (VBOX_SUCCESS(rc))
701 {
702 pLookup->enmType = MMLOOKUPHYPERTYPE_DYNAMIC;
703 if (pGCPtr)
704 *pGCPtr = GCPtr;
705 return VINF_SUCCESS;
706 }
707 return rc;
708}
709
710
711/**
712 * Adds memory to the hypervisor memory arena.
713 *
714 * @return VBox status code.
715 * @param pVM The VM handle.
716 * @param cb Size of the memory. Will be rounded up to neares page.
717 * @param pszDesc The description of the memory.
718 * @param pGCPtr Where to store the GC address.
719 * @param ppLookup Where to store the pointer to the lookup record.
720 * @remark We assume the threading structure of VBox imposes natural
721 * serialization of most functions, this one included.
722 */
723static int mmR3HyperMap(PVM pVM, const size_t cb, const char *pszDesc, PRTGCPTR pGCPtr, PMMLOOKUPHYPER *ppLookup)
724{
725 /*
726 * Validate input.
727 */
728 const uint32_t cbAligned = RT_ALIGN(cb, PAGE_SIZE);
729 AssertReturn(cbAligned >= cb, VERR_INVALID_PARAMETER);
730 if (pVM->mm.s.offHyperNextStatic + cbAligned >= pVM->mm.s.cbHyperArea) /* don't use the last page, it's a fence. */
731 {
732 AssertMsgFailed(("Out of static mapping space in the HMA! offHyperAreaGC=%x cbAligned=%x\n",
733 pVM->mm.s.offHyperNextStatic, cbAligned));
734 return VERR_NO_MEMORY;
735 }
736
737 /*
738 * Allocate lookup record.
739 */
740 PMMLOOKUPHYPER pLookup;
741 int rc = MMHyperAlloc(pVM, sizeof(*pLookup), 1, MM_TAG_MM, (void **)&pLookup);
742 if (VBOX_SUCCESS(rc))
743 {
744 /*
745 * Initialize it and insert it.
746 */
747 pLookup->offNext = pVM->mm.s.offLookupHyper;
748 pLookup->cb = cbAligned;
749 pLookup->off = pVM->mm.s.offHyperNextStatic;
750 pVM->mm.s.offLookupHyper = (uint8_t *)pLookup - (uint8_t *)pVM->mm.s.pHyperHeapR3;
751 if (pLookup->offNext != (int32_t)NIL_OFFSET)
752 pLookup->offNext -= pVM->mm.s.offLookupHyper;
753 pLookup->enmType = MMLOOKUPHYPERTYPE_INVALID;
754 memset(&pLookup->u, 0xff, sizeof(pLookup->u));
755 pLookup->pszDesc = pszDesc;
756
757 /* Mapping. */
758 *pGCPtr = pVM->mm.s.pvHyperAreaGC + pVM->mm.s.offHyperNextStatic;
759 pVM->mm.s.offHyperNextStatic += cbAligned;
760
761 /* Return pointer. */
762 *ppLookup = pLookup;
763 }
764
765 AssertRC(rc);
766 LogFlow(("mmR3HyperMap: returns %Vrc *pGCPtr=%VGv\n", rc, *pGCPtr));
767 return rc;
768}
769
770
771/**
772 * Allocates a new heap.
773 *
774 * @returns VBox status code.
775 * @param pVM The VM handle.
776 * @param cb The size of the new heap.
777 * @param ppHeap Where to store the heap pointer on successful return.
778 */
779static int mmR3HyperHeapCreate(PVM pVM, const size_t cb, PMMHYPERHEAP *ppHeap)
780{
781 /*
782 * Allocate the hypervisor heap.
783 */
784 const uint32_t cbAligned = RT_ALIGN_Z(cb, PAGE_SIZE);
785 AssertReturn(cbAligned >= cb, VERR_INVALID_PARAMETER);
786 void *pv;
787 int rc = SUPPageAlloc(cbAligned >> PAGE_SHIFT, &pv); /** @todo #1865: heap allocation must be changed for osx (only). */
788 if (VBOX_SUCCESS(rc))
789 {
790 /*
791 * Initialize the heap and first free chunk.
792 */
793 PMMHYPERHEAP pHeap = (PMMHYPERHEAP)pv;
794 pHeap->u32Magic = MMHYPERHEAP_MAGIC;
795 pHeap->pbHeapR3 = (uint8_t *)pHeap + MMYPERHEAP_HDR_SIZE;
796 pHeap->pbHeapR0 = (uintptr_t)pHeap->pbHeapR3; /** @todo #1865: Map heap into ring-0 on darwin. */
797 //pHeap->pbHeapGC = 0; // set by mmR3HyperHeapMap()
798 pHeap->pVMR3 = pVM;
799 pHeap->pVMR0 = pVM->pVMR0;
800 pHeap->pVMRC = pVM->pVMRC;
801 pHeap->cbHeap = cbAligned - MMYPERHEAP_HDR_SIZE;
802 pHeap->cbFree = pHeap->cbHeap - sizeof(MMHYPERCHUNK);
803 //pHeap->offFreeHead = 0;
804 //pHeap->offFreeTail = 0;
805 pHeap->offPageAligned = pHeap->cbHeap;
806 //pHeap->HyperHeapStatTree = 0;
807
808 PMMHYPERCHUNKFREE pFree = (PMMHYPERCHUNKFREE)pHeap->pbHeapR3;
809 pFree->cb = pHeap->cbFree;
810 //pFree->core.offNext = 0;
811 MMHYPERCHUNK_SET_TYPE(&pFree->core, MMHYPERCHUNK_FLAGS_FREE);
812 pFree->core.offHeap = -(int32_t)MMYPERHEAP_HDR_SIZE;
813 //pFree->offNext = 0;
814 //pFree->offPrev = 0;
815
816 STAMR3Register(pVM, &pHeap->cbHeap, STAMTYPE_U32, STAMVISIBILITY_ALWAYS, "/MM/HyperHeap/cbHeap", STAMUNIT_BYTES, "The heap size.");
817 STAMR3Register(pVM, &pHeap->cbFree, STAMTYPE_U32, STAMVISIBILITY_ALWAYS, "/MM/HyperHeap/cbFree", STAMUNIT_BYTES, "The free space.");
818
819 *ppHeap = pHeap;
820 return VINF_SUCCESS;
821 }
822 AssertMsgFailed(("SUPPageAlloc(%d,) -> %Vrc\n", cbAligned >> PAGE_SHIFT, rc));
823
824 *ppHeap = NULL;
825 return rc;
826}
827
828
829/**
830 * Allocates a new heap.
831 */
832static int mmR3HyperHeapMap(PVM pVM, PMMHYPERHEAP pHeap, PRTGCPTR ppHeapGC)
833{
834 int rc = MMR3HyperMapHCRam(pVM, pHeap, pHeap->cbHeap + MMYPERHEAP_HDR_SIZE, true, "Heap", ppHeapGC);
835 if (VBOX_SUCCESS(rc))
836 {
837 pHeap->pVMRC = pVM->pVMRC;
838 pHeap->pbHeapRC = *ppHeapGC + MMYPERHEAP_HDR_SIZE;
839 /* Reserve a page for fencing. */
840 MMR3HyperReserve(pVM, PAGE_SIZE, "fence", NULL);
841 }
842 return rc;
843}
844
845
846#if 0
847/**
848 * Destroys a heap.
849 */
850static int mmR3HyperHeapDestroy(PVM pVM, PMMHYPERHEAP pHeap)
851{
852 /* all this is dealt with when unlocking and freeing locked memory. */
853}
854#endif
855
856
857/**
858 * Allocates memory in the Hypervisor (GC VMM) area which never will
859 * be freed and doesn't have any offset based relation to other heap blocks.
860 *
861 * The latter means that two blocks allocated by this API will not have the
862 * same relative position to each other in GC and HC. In short, never use
863 * this API for allocating nodes for an offset based AVL tree!
864 *
865 * The returned memory is of course zeroed.
866 *
867 * @returns VBox status code.
868 * @param pVM The VM to operate on.
869 * @param cb Number of bytes to allocate.
870 * @param uAlignment Required memory alignment in bytes.
871 * Values are 0,8,16,32 and PAGE_SIZE.
872 * 0 -> default alignment, i.e. 8 bytes.
873 * @param enmTag The statistics tag.
874 * @param ppv Where to store the address to the allocated
875 * memory.
876 * @remark This is assumed not to be used at times when serialization is required.
877 */
878VMMDECL(int) MMR3HyperAllocOnceNoRel(PVM pVM, size_t cb, unsigned uAlignment, MMTAG enmTag, void **ppv)
879{
880 AssertMsg(cb >= 8, ("Hey! Do you really mean to allocate less than 8 bytes?! cb=%d\n", cb));
881
882 /*
883 * Choose between allocating a new chunk of HMA memory
884 * and the heap. We will only do BIG allocations from HMA.
885 */
886 if ( cb < _64K
887 && ( uAlignment != PAGE_SIZE
888 || cb < 48*_1K))
889 {
890 int rc = MMHyperAlloc(pVM, cb, uAlignment, enmTag, ppv);
891 if ( rc != VERR_MM_HYPER_NO_MEMORY
892 || cb <= 8*_1K)
893 {
894 Log2(("MMR3HyperAllocOnceNoRel: cb=%#zx uAlignment=%#x returns %Rrc and *ppv=%p\n",
895 cb, uAlignment, rc, *ppv));
896 return rc;
897 }
898 }
899
900 /*
901 * Validate alignment.
902 */
903 switch (uAlignment)
904 {
905 case 0:
906 case 8:
907 case 16:
908 case 32:
909 case PAGE_SIZE:
910 break;
911 default:
912 AssertMsgFailed(("Invalid alignment %u\n", uAlignment));
913 return VERR_INVALID_PARAMETER;
914 }
915
916 /*
917 * Allocate the pages and the HMA space.
918 */
919 cb = RT_ALIGN(cb, PAGE_SIZE);
920 void *pvPages;
921 int rc = SUPPageAlloc(cb >> PAGE_SHIFT, &pvPages);
922 if (VBOX_SUCCESS(rc))
923 {
924 RTGCPTR GCPtr;
925 rc = MMR3HyperMapHCRam(pVM, pvPages, cb, true,
926 MMR3HeapAPrintf(pVM, MM_TAG_MM, "alloc once (%s)", mmR3GetTagName(enmTag)),
927 &GCPtr);
928 if (VBOX_SUCCESS(rc))
929 {
930 *ppv = pvPages;
931 Log2(("MMR3HyperAllocOnceNoRel: cb=%#x uAlignment=%#x returns VINF_SUCCESS and *ppv=%p\n",
932 cb, uAlignment, *ppv));
933 return rc;
934 }
935 AssertMsgFailed(("Failed to allocate %zd bytes! %Rrc\n", cb, rc));
936 SUPPageFree(pvPages, cb >> PAGE_SHIFT);
937
938 /*
939 * HACK ALERT! Try allocate it off the heap so that we don't freak
940 * out during vga/vmmdev mmio2 allocation with certain ram sizes.
941 */
942 /** @todo make a proper fix for this so we will never end up in this kind of situation! */
943 Log(("MMR3HyperAllocOnceNoRel: MMR3HyperMapHCRam failed with rc=%Rrc, try MMHyperAlloc(,%#d,,) instead\n", rc, cb));
944 int rc2 = MMHyperAlloc(pVM, cb, uAlignment, enmTag, ppv);
945 if (RT_SUCCESS(rc2))
946 {
947 Log2(("MMR3HyperAllocOnceNoRel: cb=%#x uAlignment=%#x returns %Rrc and *ppv=%p\n",
948 cb, uAlignment, rc, *ppv));
949 return rc;
950 }
951 }
952 else
953 AssertMsgFailed(("Failed to allocate %zd bytes! %Rrc\n", cb, rc));
954
955 if (rc == VERR_NO_MEMORY)
956 rc = VERR_MM_HYPER_NO_MEMORY;
957 LogRel(("MMR3HyperAllocOnceNoRel: cb=%#zx uAlignment=%#x returns %Rrc\n", cb, uAlignment, rc));
958 return rc;
959}
960
961
962/**
963 * Convert hypervisor HC virtual address to HC physical address.
964 *
965 * @returns HC physical address.
966 * @param pVM VM Handle
967 * @param pvR3 Host context virtual address.
968 */
969VMMR3DECL(RTHCPHYS) MMR3HyperHCVirt2HCPhys(PVM pVM, void *pvR3)
970{
971 PMMLOOKUPHYPER pLookup = (PMMLOOKUPHYPER)((uint8_t *)pVM->mm.s.pHyperHeapR3 + pVM->mm.s.offLookupHyper);
972 for (;;)
973 {
974 switch (pLookup->enmType)
975 {
976 case MMLOOKUPHYPERTYPE_LOCKED:
977 {
978 unsigned off = (uint8_t *)pvR3 - (uint8_t *)pLookup->u.Locked.pvR3;
979 if (off < pLookup->cb)
980 return (pLookup->u.Locked.pLockedMem->aPhysPages[off >> PAGE_SHIFT].Phys & X86_PTE_PAE_PG_MASK) | (off & PAGE_OFFSET_MASK);
981 break;
982 }
983
984 case MMLOOKUPHYPERTYPE_HCPHYS:
985 {
986 unsigned off = (uint8_t *)pvR3 - (uint8_t *)pLookup->u.HCPhys.pvR3;
987 if (off < pLookup->cb)
988 return pLookup->u.HCPhys.HCPhys + off;
989 break;
990 }
991
992 case MMLOOKUPHYPERTYPE_GCPHYS:
993 case MMLOOKUPHYPERTYPE_MMIO2:
994 case MMLOOKUPHYPERTYPE_DYNAMIC:
995 /* can (or don't want to) convert these kind of records. */
996 break;
997
998 default:
999 AssertMsgFailed(("enmType=%d\n", pLookup->enmType));
1000 break;
1001 }
1002
1003 /* next */
1004 if ((unsigned)pLookup->offNext == NIL_OFFSET)
1005 break;
1006 pLookup = (PMMLOOKUPHYPER)((uint8_t *)pLookup + pLookup->offNext);
1007 }
1008
1009 AssertMsgFailed(("pvR3=%p is not inside the hypervisor memory area!\n", pvR3));
1010 return NIL_RTHCPHYS;
1011}
1012
1013
1014#if 0 /* unused, not implemented */
1015/**
1016 * Convert hypervisor HC physical address to HC virtual address.
1017 *
1018 * @returns HC virtual address.
1019 * @param pVM VM Handle
1020 * @param HCPhys Host context physical address.
1021 */
1022VMMR3DECL(void *) MMR3HyperHCPhys2HCVirt(PVM pVM, RTHCPHYS HCPhys)
1023{
1024 void *pv;
1025 int rc = MMR3HyperHCPhys2HCVirtEx(pVM, HCPhys, &pv);
1026 if (VBOX_SUCCESS(rc))
1027 return pv;
1028 AssertMsgFailed(("Invalid address HCPhys=%x rc=%d\n", HCPhys, rc));
1029 return NULL;
1030}
1031
1032
1033/**
1034 * Convert hypervisor HC physical address to HC virtual address.
1035 *
1036 * @returns VBox status.
1037 * @param pVM VM Handle
1038 * @param HCPhys Host context physical address.
1039 * @param ppv Where to store the HC virtual address.
1040 */
1041VMMR3DECL(int) MMR3HyperHCPhys2HCVirtEx(PVM pVM, RTHCPHYS HCPhys, void **ppv)
1042{
1043 /*
1044 * Linear search.
1045 */
1046 /** @todo implement when actually used. */
1047 return VERR_INVALID_POINTER;
1048}
1049#endif /* unused, not implemented */
1050
1051
1052/**
1053 * Read hypervisor memory from GC virtual address.
1054 *
1055 * @returns VBox status.
1056 * @param pVM VM handle.
1057 * @param pvDst Destination address (HC of course).
1058 * @param GCPtr GC virtual address.
1059 * @param cb Number of bytes to read.
1060 *
1061 * @remarks For DBGF only.
1062 */
1063VMMR3DECL(int) MMR3HyperReadGCVirt(PVM pVM, void *pvDst, RTGCPTR GCPtr, size_t cb)
1064{
1065 if (GCPtr - pVM->mm.s.pvHyperAreaGC >= pVM->mm.s.cbHyperArea)
1066 return VERR_INVALID_PARAMETER;
1067 return PGMR3MapRead(pVM, pvDst, GCPtr, cb);
1068}
1069
1070
1071/**
1072 * Info handler for 'hma', it dumps the list of lookup records for the hypervisor memory area.
1073 *
1074 * @param pVM The VM handle.
1075 * @param pHlp Callback functions for doing output.
1076 * @param pszArgs Argument string. Optional and specific to the handler.
1077 */
1078static DECLCALLBACK(void) mmR3HyperInfoHma(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs)
1079{
1080 pHlp->pfnPrintf(pHlp, "Hypervisor Memory Area (HMA) Layout: Base %VGv, 0x%08x bytes\n",
1081 pVM->mm.s.pvHyperAreaGC, pVM->mm.s.cbHyperArea);
1082
1083 PMMLOOKUPHYPER pLookup = (PMMLOOKUPHYPER)((uint8_t *)pVM->mm.s.pHyperHeapR3 + pVM->mm.s.offLookupHyper);
1084 for (;;)
1085 {
1086 switch (pLookup->enmType)
1087 {
1088 case MMLOOKUPHYPERTYPE_LOCKED:
1089 pHlp->pfnPrintf(pHlp, "%VGv-%VGv %RHv LOCKED %-*s %s\n",
1090 pLookup->off + pVM->mm.s.pvHyperAreaGC,
1091 pLookup->off + pVM->mm.s.pvHyperAreaGC + pLookup->cb,
1092 pLookup->u.Locked.pvR3,
1093 sizeof(RTHCPTR) * 2,
1094 pLookup->u.Locked.pLockedMem->eType == MM_LOCKED_TYPE_HYPER_NOFREE ? "nofree"
1095 : pLookup->u.Locked.pLockedMem->eType == MM_LOCKED_TYPE_HYPER ? "autofree"
1096 : pLookup->u.Locked.pLockedMem->eType == MM_LOCKED_TYPE_HYPER_PAGES ? "pages"
1097 : pLookup->u.Locked.pLockedMem->eType == MM_LOCKED_TYPE_PHYS ? "gstphys"
1098 : "??",
1099 pLookup->pszDesc);
1100 break;
1101
1102 case MMLOOKUPHYPERTYPE_HCPHYS:
1103 pHlp->pfnPrintf(pHlp, "%VGv-%VGv %RHv HCPHYS %VHp %s\n",
1104 pLookup->off + pVM->mm.s.pvHyperAreaGC,
1105 pLookup->off + pVM->mm.s.pvHyperAreaGC + pLookup->cb,
1106 pLookup->u.HCPhys.pvR3, pLookup->u.HCPhys.HCPhys,
1107 pLookup->pszDesc);
1108 break;
1109
1110 case MMLOOKUPHYPERTYPE_GCPHYS:
1111 pHlp->pfnPrintf(pHlp, "%VGv-%VGv %*s GCPHYS %VGp%*s %s\n",
1112 pLookup->off + pVM->mm.s.pvHyperAreaGC,
1113 pLookup->off + pVM->mm.s.pvHyperAreaGC + pLookup->cb,
1114 sizeof(RTHCPTR) * 2, "",
1115 pLookup->u.GCPhys.GCPhys, RT_ABS((int)(sizeof(RTHCPHYS) - sizeof(RTGCPHYS))) * 2, "",
1116 pLookup->pszDesc);
1117 break;
1118
1119 case MMLOOKUPHYPERTYPE_MMIO2:
1120 pHlp->pfnPrintf(pHlp, "%VGv-%VGv %*s MMIO2 %VGp%*s %s\n",
1121 pLookup->off + pVM->mm.s.pvHyperAreaGC,
1122 pLookup->off + pVM->mm.s.pvHyperAreaGC + pLookup->cb,
1123 sizeof(RTHCPTR) * 2, "",
1124 pLookup->u.MMIO2.off, RT_ABS((int)(sizeof(RTHCPHYS) - sizeof(RTGCPHYS))) * 2, "",
1125 pLookup->pszDesc);
1126 break;
1127
1128 case MMLOOKUPHYPERTYPE_DYNAMIC:
1129 pHlp->pfnPrintf(pHlp, "%VGv-%VGv %*s DYNAMIC %*s %s\n",
1130 pLookup->off + pVM->mm.s.pvHyperAreaGC,
1131 pLookup->off + pVM->mm.s.pvHyperAreaGC + pLookup->cb,
1132 sizeof(RTHCPTR) * 2, "",
1133 sizeof(RTHCPTR) * 2, "",
1134 pLookup->pszDesc);
1135 break;
1136
1137 default:
1138 AssertMsgFailed(("enmType=%d\n", pLookup->enmType));
1139 break;
1140 }
1141
1142 /* next */
1143 if ((unsigned)pLookup->offNext == NIL_OFFSET)
1144 break;
1145 pLookup = (PMMLOOKUPHYPER)((uint8_t *)pLookup + pLookup->offNext);
1146 }
1147}
1148
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