VirtualBox

source: vbox/trunk/src/VBox/Devices/PC/DevFwCommon.cpp@ 42813

Last change on this file since 42813 was 40277, checked in by vboxsync, 13 years ago

DevPcBios: always copy the BIOS to RAM and patch the DMI table field length after planting the DMI table

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1/* $Id: DevFwCommon.cpp 40277 2012-02-28 14:10:07Z vboxsync $ */
2/** @file
3 * FwCommon - Shared firmware code (used by DevPcBios & DevEFI).
4 */
5
6/*
7 * Copyright (C) 2009 Oracle Corporation
8 *
9 * This file is part of VirtualBox Open Source Edition (OSE), as
10 * available from http://www.virtualbox.org. This file is free software;
11 * you can redistribute it and/or modify it under the terms of the GNU
12 * General Public License (GPL) as published by the Free Software
13 * Foundation, in version 2 as it comes in the "COPYING" file of the
14 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
15 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
16 */
17
18/*******************************************************************************
19* Header Files *
20*******************************************************************************/
21#define LOG_GROUP LOG_GROUP_DEV
22#include <VBox/vmm/pdmdev.h>
23
24#include <VBox/log.h>
25#include <VBox/err.h>
26#include <VBox/param.h>
27
28#include <iprt/asm.h>
29#include <iprt/assert.h>
30#include <iprt/buildconfig.h>
31#include <iprt/file.h>
32#include <iprt/mem.h>
33#include <iprt/string.h>
34#include <iprt/uuid.h>
35#include <iprt/system.h>
36
37#include "VBoxDD.h"
38#include "VBoxDD2.h"
39#include "DevFwCommon.h"
40
41
42/*******************************************************************************
43* Defined Constants And Macros *
44*******************************************************************************/
45
46/*
47 * Default DMI data (legacy).
48 * Don't change this information otherwise Windows guests might demand re-activation!
49 */
50
51/* type 0 -- DMI BIOS information */
52static const int32_t s_iDefDmiBIOSReleaseMajor = 0;
53static const int32_t s_iDefDmiBIOSReleaseMinor = 0;
54static const int32_t s_iDefDmiBIOSFirmwareMajor = 0;
55static const int32_t s_iDefDmiBIOSFirmwareMinor = 0;
56static const char *s_szDefDmiBIOSVendor = "innotek GmbH";
57static const char *s_szDefDmiBIOSVersion = "VirtualBox";
58static const char *s_szDefDmiBIOSReleaseDate = "12/01/2006";
59/* type 1 -- DMI system information */
60static const char *s_szDefDmiSystemVendor = "innotek GmbH";
61static const char *s_szDefDmiSystemProduct = "VirtualBox";
62static const char *s_szDefDmiSystemVersion = "1.2";
63static const char *s_szDefDmiSystemSerial = "0";
64static const char *s_szDefDmiSystemSKU = "";
65static const char *s_szDefDmiSystemFamily = "Virtual Machine";
66/* type 2 -- DMI board information */
67static const char *s_szDefDmiBoardVendor = "Oracle Corporation";
68static const char *s_szDefDmiBoardProduct = "VirtualBox";
69static const char *s_szDefDmiBoardVersion = "1.2";
70static const char *s_szDefDmiBoardSerial = "0";
71static const char *s_szDefDmiBoardAssetTag = "";
72static const char *s_szDefDmiBoardLocInChass = "";
73static const int32_t s_iDefDmiBoardBoardType = 0x0A; /* Motherboard */
74/* type 3 -- DMI chassis information */
75static const char *s_szDefDmiChassisVendor = "Oracle Corporation";
76static const char *s_szDefDmiChassisVersion = "";
77static const char *s_szDefDmiChassisSerial = "";
78static const char *s_szDefDmiChassisAssetTag = "";
79/* type 4 -- DMI processor information */
80static const char *s_szDefDmiProcManufacturer = "GenuineIntel";
81static const char *s_szDefDmiProcVersion = "Pentium(R) III";
82
83static char g_szHostDmiSystemProduct[64];
84static char g_szHostDmiSystemVersion[64];
85
86
87/*******************************************************************************
88* Structures and Typedefs *
89*******************************************************************************/
90#pragma pack(1)
91
92typedef struct SMBIOSHDR
93{
94 uint8_t au8Signature[4];
95 uint8_t u8Checksum;
96 uint8_t u8Eps;
97 uint8_t u8VersionMajor;
98 uint8_t u8VersionMinor;
99 uint16_t u16MaxStructureSize;
100 uint8_t u8EntryPointRevision;
101 uint8_t u8Pad[5];
102} *SMBIOSHDRPTR;
103AssertCompileSize(SMBIOSHDR, 16);
104
105typedef struct DMIMAINHDR
106{
107 uint8_t au8Signature[5];
108 uint8_t u8Checksum;
109 uint16_t u16TablesLength;
110 uint32_t u32TableBase;
111 uint16_t u16TableEntries;
112 uint8_t u8TableVersion;
113} *DMIMAINHDRPTR;
114AssertCompileSize(DMIMAINHDR, 15);
115
116/** DMI header */
117typedef struct DMIHDR
118{
119 uint8_t u8Type;
120 uint8_t u8Length;
121 uint16_t u16Handle;
122} *PDMIHDR;
123AssertCompileSize(DMIHDR, 4);
124
125/** DMI BIOS information (Type 0) */
126typedef struct DMIBIOSINF
127{
128 DMIHDR header;
129 uint8_t u8Vendor;
130 uint8_t u8Version;
131 uint16_t u16Start;
132 uint8_t u8Release;
133 uint8_t u8ROMSize;
134 uint64_t u64Characteristics;
135 uint8_t u8CharacteristicsByte1;
136 uint8_t u8CharacteristicsByte2;
137 uint8_t u8ReleaseMajor;
138 uint8_t u8ReleaseMinor;
139 uint8_t u8FirmwareMajor;
140 uint8_t u8FirmwareMinor;
141} *PDMIBIOSINF;
142AssertCompileSize(DMIBIOSINF, 0x18);
143
144/** DMI system information (Type 1) */
145typedef struct DMISYSTEMINF
146{
147 DMIHDR header;
148 uint8_t u8Manufacturer;
149 uint8_t u8ProductName;
150 uint8_t u8Version;
151 uint8_t u8SerialNumber;
152 uint8_t au8Uuid[16];
153 uint8_t u8WakeupType;
154 uint8_t u8SKUNumber;
155 uint8_t u8Family;
156} *PDMISYSTEMINF;
157AssertCompileSize(DMISYSTEMINF, 0x1b);
158
159/** DMI board (or module) information (Type 2) */
160typedef struct DMIBOARDINF
161{
162 DMIHDR header;
163 uint8_t u8Manufacturer;
164 uint8_t u8Product;
165 uint8_t u8Version;
166 uint8_t u8SerialNumber;
167 uint8_t u8AssetTag;
168 uint8_t u8FeatureFlags;
169 uint8_t u8LocationInChass;
170 uint16_t u16ChassisHandle;
171 uint8_t u8BoardType;
172 uint8_t u8cObjectHandles;
173} *PDMIBOARDINF;
174AssertCompileSize(DMIBOARDINF, 0x0f);
175
176/** DMI system enclosure or chassis type (Type 3) */
177typedef struct DMICHASSIS
178{
179 DMIHDR header;
180 uint8_t u8Manufacturer;
181 uint8_t u8Type;
182 uint8_t u8Version;
183 uint8_t u8SerialNumber;
184 uint8_t u8AssetTag;
185 uint8_t u8BootupState;
186 uint8_t u8PowerSupplyState;
187 uint8_t u8ThermalState;
188 uint8_t u8SecurityStatus;
189 /* v2.3+, currently not supported */
190 uint32_t u32OEMdefined;
191 uint8_t u8Height;
192 uint8_t u8NumPowerChords;
193 uint8_t u8ContElems;
194 uint8_t u8ContElemRecLen;
195} *PDMICHASSIS;
196AssertCompileSize(DMICHASSIS, 0x15);
197
198/** DMI processor information (Type 4) */
199typedef struct DMIPROCESSORINF
200{
201 DMIHDR header;
202 uint8_t u8SocketDesignation;
203 uint8_t u8ProcessorType;
204 uint8_t u8ProcessorFamily;
205 uint8_t u8ProcessorManufacturer;
206 uint64_t u64ProcessorID;
207 uint8_t u8ProcessorVersion;
208 uint8_t u8Voltage;
209 uint16_t u16ExternalClock;
210 uint16_t u16MaxSpeed;
211 uint16_t u16CurrentSpeed;
212 uint8_t u8Status;
213 uint8_t u8ProcessorUpgrade;
214 /* v2.1+ */
215 uint16_t u16L1CacheHandle;
216 uint16_t u16L2CacheHandle;
217 uint16_t u16L3CacheHandle;
218 /* v2.3+ */
219 uint8_t u8SerialNumber;
220 uint8_t u8AssetTag;
221 uint8_t u8PartNumber;
222 /* v2.5+ */
223 uint8_t u8CoreCount;
224 uint8_t u8CoreEnabled;
225 uint8_t u8ThreadCount;
226 uint16_t u16ProcessorCharacteristics;
227 /* v2.6+ */
228 uint16_t u16ProcessorFamily2;
229} *PDMIPROCESSORINF;
230AssertCompileSize(DMIPROCESSORINF, 0x2a);
231
232/** DMI OEM strings (Type 11) */
233typedef struct DMIOEMSTRINGS
234{
235 DMIHDR header;
236 uint8_t u8Count;
237 uint8_t u8VBoxVersion;
238 uint8_t u8VBoxRevision;
239} *PDMIOEMSTRINGS;
240AssertCompileSize(DMIOEMSTRINGS, 0x7);
241
242/** Physical memory array (Type 16) */
243typedef struct DMIRAMARRAY
244{
245 DMIHDR header;
246 uint8_t u8Location;
247 uint8_t u8Use;
248 uint8_t u8MemErrorCorrection;
249 uint32_t u32MaxCapacity;
250 uint16_t u16MemErrorHandle;
251 uint16_t u16NumberOfMemDevices;
252} *PDMIRAMARRAY;
253AssertCompileSize(DMIRAMARRAY, 15);
254
255/** DMI Memory Device (Type 17) */
256typedef struct DMIMEMORYDEV
257{
258 DMIHDR header;
259 uint16_t u16PhysMemArrayHandle;
260 uint16_t u16MemErrHandle;
261 uint16_t u16TotalWidth;
262 uint16_t u16DataWidth;
263 uint16_t u16Size;
264 uint8_t u8FormFactor;
265 uint8_t u8DeviceSet;
266 uint8_t u8DeviceLocator;
267 uint8_t u8BankLocator;
268 uint8_t u8MemoryType;
269 uint16_t u16TypeDetail;
270 uint16_t u16Speed;
271 uint8_t u8Manufacturer;
272 uint8_t u8SerialNumber;
273 uint8_t u8AssetTag;
274 uint8_t u8PartNumber;
275 /* v2.6+ */
276 uint8_t u8Attributes;
277} *PDMIMEMORYDEV;
278AssertCompileSize(DMIMEMORYDEV, 28);
279
280/** MPS floating pointer structure */
281typedef struct MPSFLOATPTR
282{
283 uint8_t au8Signature[4];
284 uint32_t u32MPSAddr;
285 uint8_t u8Length;
286 uint8_t u8SpecRev;
287 uint8_t u8Checksum;
288 uint8_t au8Feature[5];
289} *PMPSFLOATPTR;
290AssertCompileSize(MPSFLOATPTR, 16);
291
292/** MPS config table header */
293typedef struct MPSCFGTBLHEADER
294{
295 uint8_t au8Signature[4];
296 uint16_t u16Length;
297 uint8_t u8SpecRev;
298 uint8_t u8Checksum;
299 uint8_t au8OemId[8];
300 uint8_t au8ProductId[12];
301 uint32_t u32OemTablePtr;
302 uint16_t u16OemTableSize;
303 uint16_t u16EntryCount;
304 uint32_t u32AddrLocalApic;
305 uint16_t u16ExtTableLength;
306 uint8_t u8ExtTableChecksum;
307 uint8_t u8Reserved;
308} *PMPSCFGTBLHEADER;
309AssertCompileSize(MPSCFGTBLHEADER, 0x2c);
310
311/** MPS processor entry */
312typedef struct MPSPROCENTRY
313{
314 uint8_t u8EntryType;
315 uint8_t u8LocalApicId;
316 uint8_t u8LocalApicVersion;
317 uint8_t u8CPUFlags;
318 uint32_t u32CPUSignature;
319 uint32_t u32CPUFeatureFlags;
320 uint32_t u32Reserved[2];
321} *PMPSPROCENTRY;
322AssertCompileSize(MPSPROCENTRY, 20);
323
324/** MPS bus entry */
325typedef struct MPSBUSENTRY
326{
327 uint8_t u8EntryType;
328 uint8_t u8BusId;
329 uint8_t au8BusTypeStr[6];
330} *PMPSBUSENTRY;
331AssertCompileSize(MPSBUSENTRY, 8);
332
333/** MPS I/O-APIC entry */
334typedef struct MPSIOAPICENTRY
335{
336 uint8_t u8EntryType;
337 uint8_t u8Id;
338 uint8_t u8Version;
339 uint8_t u8Flags;
340 uint32_t u32Addr;
341} *PMPSIOAPICENTRY;
342AssertCompileSize(MPSIOAPICENTRY, 8);
343
344/** MPS I/O-Interrupt entry */
345typedef struct MPSIOINTERRUPTENTRY
346{
347 uint8_t u8EntryType;
348 uint8_t u8Type;
349 uint16_t u16Flags;
350 uint8_t u8SrcBusId;
351 uint8_t u8SrcBusIrq;
352 uint8_t u8DstIOAPICId;
353 uint8_t u8DstIOAPICInt;
354} *PMPSIOIRQENTRY;
355AssertCompileSize(MPSIOINTERRUPTENTRY, 8);
356
357#pragma pack()
358
359
360/**
361 * Calculate a simple checksum for the MPS table.
362 *
363 * @param data data
364 * @param len size of data
365 */
366static uint8_t fwCommonChecksum(const uint8_t * const au8Data, uint32_t u32Length)
367{
368 uint8_t u8Sum = 0;
369 for (size_t i = 0; i < u32Length; ++i)
370 u8Sum += au8Data[i];
371 return -u8Sum;
372}
373
374#if 0 /* unused */
375static bool fwCommonChecksumOk(const uint8_t * const au8Data, uint32_t u32Length)
376{
377 uint8_t u8Sum = 0;
378 for (size_t i = 0; i < u32Length; i++)
379 u8Sum += au8Data[i];
380 return (u8Sum == 0);
381}
382#endif
383
384/**
385 * Try fetch the DMI strings from the system.
386 */
387static void fwCommonUseHostDMIStrings(void)
388{
389 int rc;
390
391 rc = RTSystemQueryDmiString(RTSYSDMISTR_PRODUCT_NAME,
392 g_szHostDmiSystemProduct, sizeof(g_szHostDmiSystemProduct));
393 if (RT_SUCCESS(rc))
394 {
395 s_szDefDmiSystemProduct = g_szHostDmiSystemProduct;
396 LogRel(("DMI: Using DmiSystemProduct from host: %s\n", g_szHostDmiSystemProduct));
397 }
398
399 rc = RTSystemQueryDmiString(RTSYSDMISTR_PRODUCT_VERSION,
400 g_szHostDmiSystemVersion, sizeof(g_szHostDmiSystemVersion));
401 if (RT_SUCCESS(rc))
402 {
403 s_szDefDmiSystemVersion = g_szHostDmiSystemVersion;
404 LogRel(("DMI: Using DmiSystemVersion from host: %s\n", g_szHostDmiSystemVersion));
405 }
406}
407
408/**
409 * Construct the DMI table.
410 *
411 * @returns VBox status code.
412 * @param pDevIns The device instance.
413 * @param pTable Where to create the DMI table.
414 * @param cbMax The maximum size of the DMI table.
415 * @param pUuid Pointer to the UUID to use if the DmiUuid
416 * configuration string isn't present.
417 * @param pCfg The handle to our config node.
418 */
419int FwCommonPlantDMITable(PPDMDEVINS pDevIns, uint8_t *pTable, unsigned cbMax, PCRTUUID pUuid, PCFGMNODE pCfg, uint16_t cCpus, uint16_t *pcbDmiTables)
420{
421#define CHECKSIZE(cbWant) \
422 { \
423 size_t cbNeed = (size_t)(pszStr + cbWant - (char *)pTable) + 5; /* +1 for strtab terminator +4 for end-of-table entry */ \
424 if (cbNeed > cbMax) \
425 { \
426 if (fHideErrors) \
427 { \
428 LogRel(("One of the DMI strings is too long -- using default DMI data!\n")); \
429 continue; \
430 } \
431 return PDMDevHlpVMSetError(pDevIns, VERR_TOO_MUCH_DATA, RT_SRC_POS, \
432 N_("One of the DMI strings is too long. Check all bios/Dmi* configuration entries. At least %zu bytes are needed but there is no space for more than %d bytes"), cbNeed, cbMax); \
433 } \
434 }
435
436#define READCFGSTRDEF(variable, name, default_value) \
437 { \
438 if (fForceDefault) \
439 pszTmp = default_value; \
440 else \
441 { \
442 rc = CFGMR3QueryStringDef(pCfg, name, szBuf, sizeof(szBuf), default_value); \
443 if (RT_FAILURE(rc)) \
444 { \
445 if (fHideErrors) \
446 { \
447 LogRel(("Configuration error: Querying \"" name "\" as a string failed -- using default DMI data!\n")); \
448 continue; \
449 } \
450 return PDMDevHlpVMSetError(pDevIns, rc, RT_SRC_POS, \
451 N_("Configuration error: Querying \"" name "\" as a string failed")); \
452 } \
453 else if (!strcmp(szBuf, "<EMPTY>")) \
454 pszTmp = ""; \
455 else \
456 pszTmp = szBuf; \
457 } \
458 if (!pszTmp[0]) \
459 variable = 0; /* empty string */ \
460 else \
461 { \
462 variable = iStrNr++; \
463 size_t cStr = strlen(pszTmp) + 1; \
464 CHECKSIZE(cStr); \
465 memcpy(pszStr, pszTmp, cStr); \
466 pszStr += cStr ; \
467 } \
468 }
469
470#define READCFGSTR(variable, name) \
471 READCFGSTRDEF(variable, # name, s_szDef ## name)
472
473#define READCFGINT(variable, name) \
474 { \
475 if (fForceDefault) \
476 variable = s_iDef ## name; \
477 else \
478 { \
479 rc = CFGMR3QueryS32Def(pCfg, # name, & variable, s_iDef ## name); \
480 if (RT_FAILURE(rc)) \
481 { \
482 if (fHideErrors) \
483 { \
484 LogRel(("Configuration error: Querying \"" # name "\" as an int failed -- using default DMI data!\n")); \
485 continue; \
486 } \
487 return PDMDevHlpVMSetError(pDevIns, rc, RT_SRC_POS, \
488 N_("Configuration error: Querying \"" # name "\" as an int failed")); \
489 } \
490 } \
491 }
492
493#define START_STRUCT(tbl) \
494 pszStr = (char *)(tbl + 1); \
495 iStrNr = 1;
496
497#define TERM_STRUCT \
498 { \
499 *pszStr++ = '\0'; /* terminate set of text strings */ \
500 if (iStrNr == 1) \
501 *pszStr++ = '\0'; /* terminate a structure without strings */ \
502 }
503
504 bool fForceDefault = false;
505#ifdef VBOX_BIOS_DMI_FALLBACK
506 /*
507 * There will be two passes. If an error occurs during the first pass, a
508 * message will be written to the release log and we fall back to default
509 * DMI data and start a second pass.
510 */
511 bool fHideErrors = true;
512#else
513 /*
514 * There will be one pass, every error is fatal and will prevent the VM
515 * from starting.
516 */
517 bool fHideErrors = false;
518#endif
519
520 uint8_t fDmiUseHostInfo;
521 int rc = CFGMR3QueryU8Def(pCfg, "DmiUseHostInfo", &fDmiUseHostInfo, 0);
522 if (RT_FAILURE (rc))
523 return PDMDEV_SET_ERROR(pDevIns, rc,
524 N_("Configuration error: Failed to read \"DmiUseHostInfo\""));
525
526 /* Sync up with host default DMI values */
527 if (fDmiUseHostInfo)
528 fwCommonUseHostDMIStrings();
529
530 uint8_t fDmiExposeMemoryTable;
531 rc = CFGMR3QueryU8Def(pCfg, "DmiExposeMemoryTable", &fDmiExposeMemoryTable, 0);
532 if (RT_FAILURE (rc))
533 return PDMDEV_SET_ERROR(pDevIns, rc,
534 N_("Configuration error: Failed to read \"DmiExposeMemoryTable\""));
535 uint8_t fDmiExposeProcessorInf;
536 rc = CFGMR3QueryU8Def(pCfg, "DmiExposeProcInf", &fDmiExposeProcessorInf, 0);
537 if (RT_FAILURE (rc))
538 return PDMDEV_SET_ERROR(pDevIns, rc,
539 N_("Configuration error: Failed to read \"DmiExposeProcInf\""));
540
541 for (;; fForceDefault = true, fHideErrors = false)
542 {
543 int iStrNr;
544 char szBuf[256];
545 char *pszStr = (char *)pTable;
546 char szDmiSystemUuid[64];
547 char *pszDmiSystemUuid;
548 const char *pszTmp;
549
550 if (fForceDefault)
551 pszDmiSystemUuid = NULL;
552 else
553 {
554 rc = CFGMR3QueryString(pCfg, "DmiSystemUuid", szDmiSystemUuid, sizeof(szDmiSystemUuid));
555 if (rc == VERR_CFGM_VALUE_NOT_FOUND)
556 pszDmiSystemUuid = NULL;
557 else if (RT_FAILURE(rc))
558 {
559 if (fHideErrors)
560 {
561 LogRel(("Configuration error: Querying \"DmiSystemUuid\" as a string failed, using default DMI data\n"));
562 continue;
563 }
564 return PDMDevHlpVMSetError(pDevIns, rc, RT_SRC_POS,
565 N_("Configuration error: Querying \"DmiSystemUuid\" as a string failed"));
566 }
567 else
568 pszDmiSystemUuid = szDmiSystemUuid;
569 }
570
571 /*********************************
572 * DMI BIOS information (Type 0) *
573 *********************************/
574 PDMIBIOSINF pBIOSInf = (PDMIBIOSINF)pszStr;
575 CHECKSIZE(sizeof(*pBIOSInf));
576
577 pszStr = (char *)&pBIOSInf->u8ReleaseMajor;
578 pBIOSInf->header.u8Length = RT_OFFSETOF(DMIBIOSINF, u8ReleaseMajor);
579
580 /* don't set these fields by default for legacy compatibility */
581 int iDmiBIOSReleaseMajor, iDmiBIOSReleaseMinor;
582 READCFGINT(iDmiBIOSReleaseMajor, DmiBIOSReleaseMajor);
583 READCFGINT(iDmiBIOSReleaseMinor, DmiBIOSReleaseMinor);
584 if (iDmiBIOSReleaseMajor != 0 || iDmiBIOSReleaseMinor != 0)
585 {
586 pszStr = (char *)&pBIOSInf->u8FirmwareMajor;
587 pBIOSInf->header.u8Length = RT_OFFSETOF(DMIBIOSINF, u8FirmwareMajor);
588 pBIOSInf->u8ReleaseMajor = iDmiBIOSReleaseMajor;
589 pBIOSInf->u8ReleaseMinor = iDmiBIOSReleaseMinor;
590
591 int iDmiBIOSFirmwareMajor, iDmiBIOSFirmwareMinor;
592 READCFGINT(iDmiBIOSFirmwareMajor, DmiBIOSFirmwareMajor);
593 READCFGINT(iDmiBIOSFirmwareMinor, DmiBIOSFirmwareMinor);
594 if (iDmiBIOSFirmwareMajor != 0 || iDmiBIOSFirmwareMinor != 0)
595 {
596 pszStr = (char *)(pBIOSInf + 1);
597 pBIOSInf->header.u8Length = sizeof(DMIBIOSINF);
598 pBIOSInf->u8FirmwareMajor = iDmiBIOSFirmwareMajor;
599 pBIOSInf->u8FirmwareMinor = iDmiBIOSFirmwareMinor;
600 }
601 }
602
603 iStrNr = 1;
604 pBIOSInf->header.u8Type = 0; /* BIOS Information */
605 pBIOSInf->header.u16Handle = 0x0000;
606 READCFGSTR(pBIOSInf->u8Vendor, DmiBIOSVendor);
607 READCFGSTR(pBIOSInf->u8Version, DmiBIOSVersion);
608 pBIOSInf->u16Start = 0xE000;
609 READCFGSTR(pBIOSInf->u8Release, DmiBIOSReleaseDate);
610 pBIOSInf->u8ROMSize = 1; /* 128K */
611 pBIOSInf->u64Characteristics = RT_BIT(4) /* ISA is supported */
612 | RT_BIT(7) /* PCI is supported */
613 | RT_BIT(15) /* Boot from CD is supported */
614 | RT_BIT(16) /* Selectable Boot is supported */
615 | RT_BIT(27) /* Int 9h, 8042 Keyboard services supported */
616 | RT_BIT(30) /* Int 10h, CGA/Mono Video Services supported */
617 /* any more?? */
618 ;
619 pBIOSInf->u8CharacteristicsByte1 = RT_BIT(0) /* ACPI is supported */
620 /* any more?? */
621 ;
622 pBIOSInf->u8CharacteristicsByte2 = 0
623 /* any more?? */
624 ;
625 TERM_STRUCT;
626
627 /***********************************
628 * DMI system information (Type 1) *
629 ***********************************/
630 PDMISYSTEMINF pSystemInf = (PDMISYSTEMINF)pszStr;
631 CHECKSIZE(sizeof(*pSystemInf));
632 START_STRUCT(pSystemInf);
633 iStrNr = 1;
634 pSystemInf->header.u8Type = 1; /* System Information */
635 pSystemInf->header.u8Length = sizeof(*pSystemInf);
636 pSystemInf->header.u16Handle = 0x0001;
637 READCFGSTR(pSystemInf->u8Manufacturer, DmiSystemVendor);
638 READCFGSTR(pSystemInf->u8ProductName, DmiSystemProduct);
639 READCFGSTR(pSystemInf->u8Version, DmiSystemVersion);
640 READCFGSTR(pSystemInf->u8SerialNumber, DmiSystemSerial);
641
642 RTUUID uuid;
643 if (pszDmiSystemUuid)
644 {
645 rc = RTUuidFromStr(&uuid, pszDmiSystemUuid);
646 if (RT_FAILURE(rc))
647 {
648 if (fHideErrors)
649 {
650 LogRel(("Configuration error: Invalid UUID for DMI tables specified, using default DMI data\n"));
651 continue;
652 }
653 return PDMDevHlpVMSetError(pDevIns, rc, RT_SRC_POS,
654 N_("Configuration error: Invalid UUID for DMI tables specified"));
655 }
656 uuid.Gen.u32TimeLow = RT_H2BE_U32(uuid.Gen.u32TimeLow);
657 uuid.Gen.u16TimeMid = RT_H2BE_U16(uuid.Gen.u16TimeMid);
658 uuid.Gen.u16TimeHiAndVersion = RT_H2BE_U16(uuid.Gen.u16TimeHiAndVersion);
659 pUuid = &uuid;
660 }
661 memcpy(pSystemInf->au8Uuid, pUuid, sizeof(RTUUID));
662
663 pSystemInf->u8WakeupType = 6; /* Power Switch */
664 READCFGSTR(pSystemInf->u8SKUNumber, DmiSystemSKU);
665 READCFGSTR(pSystemInf->u8Family, DmiSystemFamily);
666 TERM_STRUCT;
667
668 /**********************************
669 * DMI board information (Type 2) *
670 **********************************/
671 PDMIBOARDINF pBoardInf = (PDMIBOARDINF)pszStr;
672 CHECKSIZE(sizeof(*pBoardInf));
673 pszStr = (char *)(pBoardInf + 1);
674 iStrNr = 1;
675 int iDmiBoardBoardType;
676 pBoardInf->header.u8Type = 2; /* Board Information */
677 pBoardInf->header.u8Length = sizeof(*pBoardInf);
678 pBoardInf->header.u16Handle = 0x0008;
679 READCFGSTR(pBoardInf->u8Manufacturer, DmiBoardVendor);
680 READCFGSTR(pBoardInf->u8Product, DmiBoardProduct);
681 READCFGSTR(pBoardInf->u8Version, DmiBoardVersion);
682 READCFGSTR(pBoardInf->u8SerialNumber, DmiBoardSerial);
683 READCFGSTR(pBoardInf->u8AssetTag, DmiBoardAssetTag);
684 pBoardInf->u8FeatureFlags = RT_BIT(0) /* hosting board, e.g. motherboard */
685 ;
686 READCFGSTR(pBoardInf->u8LocationInChass, DmiBoardLocInChass);
687 pBoardInf->u16ChassisHandle = 0x0003; /* see type 3 */
688 READCFGINT(iDmiBoardBoardType, DmiBoardBoardType);
689 pBoardInf->u8BoardType = iDmiBoardBoardType;
690 pBoardInf->u8cObjectHandles = 0;
691
692 TERM_STRUCT;
693
694 /********************************************
695 * DMI System Enclosure or Chassis (Type 3) *
696 ********************************************/
697 PDMICHASSIS pChassis = (PDMICHASSIS)pszStr;
698 CHECKSIZE(sizeof(*pChassis));
699 pszStr = (char*)&pChassis->u32OEMdefined;
700 iStrNr = 1;
701#ifdef VBOX_WITH_DMI_CHASSIS
702 pChassis->header.u8Type = 3; /* System Enclosure or Chassis */
703#else
704 pChassis->header.u8Type = 0x7e; /* inactive */
705#endif
706 pChassis->header.u8Length = RT_OFFSETOF(DMICHASSIS, u32OEMdefined);
707 pChassis->header.u16Handle = 0x0003;
708 READCFGSTR(pChassis->u8Manufacturer, DmiChassisVendor);
709 pChassis->u8Type = 0x01; /* ''other'', no chassis lock present */
710 READCFGSTR(pChassis->u8Version, DmiChassisVersion);
711 READCFGSTR(pChassis->u8SerialNumber, DmiChassisSerial);
712 READCFGSTR(pChassis->u8AssetTag, DmiChassisAssetTag);
713 pChassis->u8BootupState = 0x03; /* safe */
714 pChassis->u8PowerSupplyState = 0x03; /* safe */
715 pChassis->u8ThermalState = 0x03; /* safe */
716 pChassis->u8SecurityStatus = 0x03; /* none XXX */
717# if 0
718 /* v2.3+, currently not supported */
719 pChassis->u32OEMdefined = 0;
720 pChassis->u8Height = 0; /* unspecified */
721 pChassis->u8NumPowerChords = 0; /* unspecified */
722 pChassis->u8ContElems = 0; /* no contained elements */
723 pChassis->u8ContElemRecLen = 0; /* no contained elements */
724# endif
725 TERM_STRUCT;
726
727 /**************************************
728 * DMI Processor Information (Type 4) *
729 **************************************/
730
731 /*
732 * This is just a dummy processor. Should we expose the real guest CPU features
733 * here? Accessing this information at this point is difficult.
734 */
735 char szSocket[32];
736 PDMIPROCESSORINF pProcessorInf = (PDMIPROCESSORINF)pszStr;
737 CHECKSIZE(sizeof(*pProcessorInf));
738 START_STRUCT(pProcessorInf);
739 iStrNr = 1;
740 if (fDmiExposeProcessorInf)
741 pProcessorInf->header.u8Type = 4; /* Processor Information */
742 else
743 pProcessorInf->header.u8Type = 126; /* inactive structure */
744 pProcessorInf->header.u8Length = sizeof(*pProcessorInf);
745 pProcessorInf->header.u16Handle = 0x0007;
746 RTStrPrintf(szSocket, sizeof(szSocket), "Socket #%u", 0);
747 pProcessorInf->u8SocketDesignation = iStrNr++;
748 {
749 size_t cStr = strlen(szSocket) + 1;
750 CHECKSIZE(cStr);
751 memcpy(pszStr, szSocket, cStr);
752 pszStr += cStr;
753 }
754 pProcessorInf->u8ProcessorType = 0x03; /* Central Processor */
755 pProcessorInf->u8ProcessorFamily = 0xB1; /* Pentium III with Intel SpeedStep(TM) */
756 READCFGSTR(pProcessorInf->u8ProcessorManufacturer, DmiProcManufacturer);
757
758 pProcessorInf->u64ProcessorID = UINT64_C(0x0FEBFBFF00010676);
759 /* Ext Family ID = 0
760 * Ext Model ID = 2
761 * Processor Type = 0
762 * Family ID = 6
763 * Model = 7
764 * Stepping = 6
765 * Features: FPU, VME, DE, PSE, TSC, MSR, PAE, MCE, CX8,
766 * APIC, SEP, MTRR, PGE, MCA, CMOV, PAT, PSE-36,
767 * CFLSH, DS, ACPI, MMX, FXSR, SSE, SSE2, SS */
768 READCFGSTR(pProcessorInf->u8ProcessorVersion, DmiProcVersion);
769 pProcessorInf->u8Voltage = 0x02; /* 3.3V */
770 pProcessorInf->u16ExternalClock = 0x00; /* unknown */
771 pProcessorInf->u16MaxSpeed = 3000; /* 3GHz */
772 pProcessorInf->u16CurrentSpeed = 3000; /* 3GHz */
773 pProcessorInf->u8Status = RT_BIT(6) /* CPU socket populated */
774 | RT_BIT(0) /* CPU enabled */
775 ;
776 pProcessorInf->u8ProcessorUpgrade = 0x04; /* ZIF Socket */
777 pProcessorInf->u16L1CacheHandle = 0x001C;
778 pProcessorInf->u16L2CacheHandle = 0x001D;
779 pProcessorInf->u16L3CacheHandle = 0xFFFF; /* unknown */
780 pProcessorInf->u8SerialNumber = 0; /* not specified */
781 pProcessorInf->u8AssetTag = 0; /* not specified */
782 pProcessorInf->u8PartNumber = 0; /* not specified */
783 pProcessorInf->u8CoreCount = cCpus; /* */
784 pProcessorInf->u8CoreEnabled = cCpus;
785 pProcessorInf->u8ThreadCount = 1;
786 pProcessorInf->u16ProcessorCharacteristics
787 = RT_BIT(2); /* 64-bit capable */
788 pProcessorInf->u16ProcessorFamily2 = 0;
789 TERM_STRUCT;
790
791 /***************************************
792 * DMI Physical Memory Array (Type 16) *
793 ***************************************/
794 uint64_t u64RamSize;
795 rc = CFGMR3QueryU64(pCfg, "RamSize", &u64RamSize);
796 if (RT_FAILURE (rc))
797 return PDMDEV_SET_ERROR(pDevIns, rc,
798 N_("Configuration error: Failed to read \"RamSize\""));
799
800 PDMIRAMARRAY pMemArray = (PDMIRAMARRAY)pszStr;
801 CHECKSIZE(sizeof(*pMemArray));
802 START_STRUCT(pMemArray);
803 if (fDmiExposeMemoryTable)
804 pMemArray->header.u8Type = 16; /* Physical Memory Array */
805 else
806 pMemArray->header.u8Type = 126; /* inactive structure */
807 pMemArray->header.u8Length = sizeof(*pMemArray);
808 pMemArray->header.u16Handle = 0x0005;
809 pMemArray->u8Location = 0x03; /* Motherboard */
810 pMemArray->u8Use = 0x03; /* System memory */
811 pMemArray->u8MemErrorCorrection = 0x01; /* Other */
812 pMemArray->u32MaxCapacity = (uint32_t)(u64RamSize / _1K); /* RAM size in K */
813 pMemArray->u16MemErrorHandle = 0xfffe; /* No error info structure */
814 pMemArray->u16NumberOfMemDevices = 1;
815 TERM_STRUCT;
816
817 /***************************************
818 * DMI Memory Device (Type 17) *
819 ***************************************/
820 PDMIMEMORYDEV pMemDev = (PDMIMEMORYDEV)pszStr;
821 CHECKSIZE(sizeof(*pMemDev));
822 START_STRUCT(pMemDev);
823 if (fDmiExposeMemoryTable)
824 pMemDev->header.u8Type = 17; /* Memory Device */
825 else
826 pMemDev->header.u8Type = 126; /* inactive structure */
827 pMemDev->header.u8Length = sizeof(*pMemDev);
828 pMemDev->header.u16Handle = 0x0006;
829 pMemDev->u16PhysMemArrayHandle = 0x0005; /* handle of array we belong to */
830 pMemDev->u16MemErrHandle = 0xfffe; /* system doesn't provide this information */
831 pMemDev->u16TotalWidth = 0xffff; /* Unknown */
832 pMemDev->u16DataWidth = 0xffff; /* Unknown */
833 int16_t u16RamSizeM = (uint16_t)(u64RamSize / _1M);
834 if (u16RamSizeM == 0)
835 u16RamSizeM = 0x400; /* 1G */
836 pMemDev->u16Size = u16RamSizeM; /* RAM size */
837 pMemDev->u8FormFactor = 0x09; /* DIMM */
838 pMemDev->u8DeviceSet = 0x00; /* Not part of a device set */
839 READCFGSTRDEF(pMemDev->u8DeviceLocator, " ", "DIMM 0");
840 READCFGSTRDEF(pMemDev->u8BankLocator, " ", "Bank 0");
841 pMemDev->u8MemoryType = 0x03; /* DRAM */
842 pMemDev->u16TypeDetail = 0; /* Nothing special */
843 pMemDev->u16Speed = 1600; /* Unknown, shall be speed in MHz */
844 READCFGSTR(pMemDev->u8Manufacturer, DmiSystemVendor);
845 READCFGSTRDEF(pMemDev->u8SerialNumber, " ", "00000000");
846 READCFGSTRDEF(pMemDev->u8AssetTag, " ", "00000000");
847 READCFGSTRDEF(pMemDev->u8PartNumber, " ", "00000000");
848 pMemDev->u8Attributes = 0; /* Unknown */
849 TERM_STRUCT;
850
851 /*****************************
852 * DMI OEM strings (Type 11) *
853 *****************************/
854 PDMIOEMSTRINGS pOEMStrings = (PDMIOEMSTRINGS)pszStr;
855 CHECKSIZE(sizeof(*pOEMStrings));
856 START_STRUCT(pOEMStrings);
857 iStrNr = 1;
858#ifdef VBOX_WITH_DMI_OEMSTRINGS
859 pOEMStrings->header.u8Type = 0xb; /* OEM Strings */
860#else
861 pOEMStrings->header.u8Type = 126; /* inactive structure */
862#endif
863 pOEMStrings->header.u8Length = sizeof(*pOEMStrings);
864 pOEMStrings->header.u16Handle = 0x0002;
865 pOEMStrings->u8Count = 2;
866
867 char szTmp[64];
868 RTStrPrintf(szTmp, sizeof(szTmp), "vboxVer_%u.%u.%u",
869 RTBldCfgVersionMajor(), RTBldCfgVersionMinor(), RTBldCfgVersionBuild());
870 READCFGSTRDEF(pOEMStrings->u8VBoxVersion, "DmiOEMVBoxVer", szTmp);
871 RTStrPrintf(szTmp, sizeof(szTmp), "vboxRev_%u", RTBldCfgRevision());
872 READCFGSTRDEF(pOEMStrings->u8VBoxRevision, "DmiOEMVBoxRev", szTmp);
873 TERM_STRUCT;
874
875 /* End-of-table marker - includes padding to account for fixed table size. */
876 PDMIHDR pEndOfTable = (PDMIHDR)pszStr;
877 pszStr = (char *)(pEndOfTable + 1);
878 pEndOfTable->u8Type = 0x7f;
879
880 pEndOfTable->u8Length = sizeof(*pEndOfTable);
881 pEndOfTable->u16Handle = 0xFEFF;
882 *pcbDmiTables = ((uintptr_t)pszStr - (uintptr_t)pTable) + 2;
883
884 /* If more fields are added here, fix the size check in READCFGSTR */
885
886 /* Success! */
887 break;
888 }
889
890#undef READCFGSTR
891#undef READCFGINT
892#undef CHECKSIZE
893 return VINF_SUCCESS;
894}
895
896/**
897 * Construct the SMBIOS and DMI headers table pointer at VM construction and
898 * reset.
899 *
900 * @param pDevIns The device instance data.
901 */
902void FwCommonPlantSmbiosAndDmiHdrs(PPDMDEVINS pDevIns)
903{
904 struct
905 {
906 struct SMBIOSHDR smbios;
907 struct DMIMAINHDR dmi;
908 } aBiosHeaders =
909 {
910 // The SMBIOS header
911 {
912 { 0x5f, 0x53, 0x4d, 0x5f}, // "_SM_" signature
913 0x00, // checksum
914 0x1f, // EPS length, defined by standard
915 VBOX_SMBIOS_MAJOR_VER, // SMBIOS major version
916 VBOX_SMBIOS_MINOR_VER, // SMBIOS minor version
917 VBOX_SMBIOS_MAXSS, // Maximum structure size
918 0x00, // Entry point revision
919 { 0x00, 0x00, 0x00, 0x00, 0x00 } // padding
920 },
921 // The DMI header
922 {
923 { 0x5f, 0x44, 0x4d, 0x49, 0x5f }, // "_DMI_" signature
924 0x00, // checksum
925 VBOX_DMI_TABLE_SIZE, // DMI tables length
926 VBOX_DMI_TABLE_BASE, // DMI tables base
927 VBOX_DMI_TABLE_ENTR, // DMI tables entries
928 VBOX_DMI_TABLE_VER, // DMI version
929 }
930 };
931
932 aBiosHeaders.smbios.u8Checksum = fwCommonChecksum((uint8_t*)&aBiosHeaders.smbios, sizeof(aBiosHeaders.smbios));
933 aBiosHeaders.dmi.u8Checksum = fwCommonChecksum((uint8_t*)&aBiosHeaders.dmi, sizeof(aBiosHeaders.dmi));
934
935 PDMDevHlpPhysWrite(pDevIns, 0xfe300, &aBiosHeaders, sizeof(aBiosHeaders));
936}
937AssertCompile(VBOX_DMI_TABLE_ENTR == 9);
938
939/**
940 * Construct the MPS table for implanting as a ROM page.
941 *
942 * Only applicable if IOAPIC is active!
943 *
944 * See ``MultiProcessor Specification Version 1.4 (May 1997)'':
945 * ``1.3 Scope
946 * ...
947 * The hardware required to implement the MP specification is kept to a
948 * minimum, as follows:
949 * * One or more processors that are Intel architecture instruction set
950 * compatible, such as the CPUs in the Intel486 or Pentium processor
951 * family.
952 * * One or more APICs, such as the Intel 82489DX Advanced Programmable
953 * Interrupt Controller or the integrated APIC, such as that on the
954 * Intel Pentium 735\\90 and 815\\100 processors, together with a discrete
955 * I/O APIC unit.''
956 * and later:
957 * ``4.3.3 I/O APIC Entries
958 * The configuration table contains one or more entries for I/O APICs.
959 * ...
960 * I/O APIC FLAGS: EN 3:0 1 If zero, this I/O APIC is unusable, and the
961 * operating system should not attempt to access
962 * this I/O APIC.
963 * At least one I/O APIC must be enabled.''
964 *
965 * @param pDevIns The device instance data.
966 * @param pTable Where to write the table.
967 * @param cbMax The maximum size of the MPS table.
968 * @param cCpus The number of guest CPUs.
969 */
970void FwCommonPlantMpsTable(PPDMDEVINS pDevIns, uint8_t *pTable, unsigned cbMax, uint16_t cCpus)
971{
972 /* configuration table */
973 PMPSCFGTBLHEADER pCfgTab = (MPSCFGTBLHEADER*)pTable;
974 memcpy(pCfgTab->au8Signature, "PCMP", 4);
975 pCfgTab->u8SpecRev = 4; /* 1.4 */
976 memcpy(pCfgTab->au8OemId, "VBOXCPU ", 8);
977 memcpy(pCfgTab->au8ProductId, "VirtualBox ", 12);
978 pCfgTab->u32OemTablePtr = 0;
979 pCfgTab->u16OemTableSize = 0;
980 pCfgTab->u16EntryCount = 0; /* Incremented as we go. */
981 pCfgTab->u32AddrLocalApic = 0xfee00000;
982 pCfgTab->u16ExtTableLength = 0;
983 pCfgTab->u8ExtTableChecksum = 0;
984 pCfgTab->u8Reserved = 0;
985
986 uint32_t u32Eax, u32Ebx, u32Ecx, u32Edx;
987 uint32_t u32CPUSignature = 0x0520; /* default: Pentium 100 */
988 uint32_t u32FeatureFlags = 0x0001; /* default: FPU */
989 PDMDevHlpGetCpuId(pDevIns, 0, &u32Eax, &u32Ebx, &u32Ecx, &u32Edx);
990 if (u32Eax >= 1)
991 {
992 PDMDevHlpGetCpuId(pDevIns, 1, &u32Eax, &u32Ebx, &u32Ecx, &u32Edx);
993 u32CPUSignature = u32Eax & 0xfff;
994 /* Local APIC will be enabled later so override it here. Since we provide
995 * an MP table we have an IOAPIC and therefore a Local APIC. */
996 u32FeatureFlags = u32Edx | X86_CPUID_FEATURE_EDX_APIC;
997 }
998 /* Construct MPS table for each VCPU. */
999 PMPSPROCENTRY pProcEntry = (PMPSPROCENTRY)(pCfgTab+1);
1000 for (int i = 0; i < cCpus; i++)
1001 {
1002 pProcEntry->u8EntryType = 0; /* processor entry */
1003 pProcEntry->u8LocalApicId = i;
1004 pProcEntry->u8LocalApicVersion = 0x14;
1005 pProcEntry->u8CPUFlags = (i == 0 ? 2 /* bootstrap processor */ : 0 /* application processor */) | 1 /* enabled */;
1006 pProcEntry->u32CPUSignature = u32CPUSignature;
1007 pProcEntry->u32CPUFeatureFlags = u32FeatureFlags;
1008 pProcEntry->u32Reserved[0] =
1009 pProcEntry->u32Reserved[1] = 0;
1010 pProcEntry++;
1011 pCfgTab->u16EntryCount++;
1012 }
1013
1014 uint32_t iBusIdIsa = 0;
1015 uint32_t iBusIdPci0 = 1;
1016
1017 /* ISA bus */
1018 PMPSBUSENTRY pBusEntry = (PMPSBUSENTRY)pProcEntry;
1019 pBusEntry->u8EntryType = 1; /* bus entry */
1020 pBusEntry->u8BusId = iBusIdIsa; /* this ID is referenced by the interrupt entries */
1021 memcpy(pBusEntry->au8BusTypeStr, "ISA ", 6);
1022 pBusEntry++;
1023 pCfgTab->u16EntryCount++;
1024
1025 /* PCI bus */
1026 pBusEntry->u8EntryType = 1; /* bus entry */
1027 pBusEntry->u8BusId = iBusIdPci0; /* this ID can be referenced by the interrupt entries */
1028 memcpy(pBusEntry->au8BusTypeStr, "PCI ", 6);
1029 pCfgTab->u16EntryCount++;
1030
1031
1032 /* I/O-APIC.
1033 * MP spec: "The configuration table contains one or more entries for I/O APICs.
1034 * ... At least one I/O APIC must be enabled." */
1035 PMPSIOAPICENTRY pIOAPICEntry = (PMPSIOAPICENTRY)(pBusEntry+1);
1036 uint16_t iApicId = 0;
1037 pIOAPICEntry->u8EntryType = 2; /* I/O-APIC entry */
1038 pIOAPICEntry->u8Id = iApicId; /* this ID is referenced by the interrupt entries */
1039 pIOAPICEntry->u8Version = 0x11;
1040 pIOAPICEntry->u8Flags = 1 /* enable */;
1041 pIOAPICEntry->u32Addr = 0xfec00000;
1042 pCfgTab->u16EntryCount++;
1043
1044 /* Interrupt tables */
1045 /* Bus vectors */
1046 /* Note: The PIC is currently not routed to the I/O APIC. Therefore we skip
1047 * pin 0 on the I/O APIC.
1048 */
1049 PMPSIOIRQENTRY pIrqEntry = (PMPSIOIRQENTRY)(pIOAPICEntry+1);
1050 for (int iPin = 1; iPin < 16; iPin++, pIrqEntry++)
1051 {
1052 pIrqEntry->u8EntryType = 3; /* I/O interrupt entry */
1053 /*
1054 * 0 - INT, vectored interrupt,
1055 * 3 - ExtINT, vectored interrupt provided by PIC
1056 * As we emulate system with both APIC and PIC, it's needed for their coexistence.
1057 */
1058 pIrqEntry->u8Type = (iPin == 0) ? 3 : 0;
1059 pIrqEntry->u16Flags = 0; /* polarity of APIC I/O input signal = conforms to bus,
1060 trigger mode = conforms to bus */
1061 pIrqEntry->u8SrcBusId = iBusIdIsa; /* ISA bus */
1062 /* IRQ0 mapped to pin 2, other are identity mapped */
1063 /* If changing, also update PDMIsaSetIrq() and MADT */
1064 pIrqEntry->u8SrcBusIrq = (iPin == 2) ? 0 : iPin; /* IRQ on the bus */
1065 pIrqEntry->u8DstIOAPICId = iApicId; /* destination IO-APIC */
1066 pIrqEntry->u8DstIOAPICInt = iPin; /* pin on destination IO-APIC */
1067 pCfgTab->u16EntryCount++;
1068 }
1069 /* Local delivery */
1070 pIrqEntry->u8EntryType = 4; /* Local interrupt entry */
1071 pIrqEntry->u8Type = 3; /* ExtINT */
1072 pIrqEntry->u16Flags = (1 << 2) | 1; /* active-high, edge-triggered */
1073 pIrqEntry->u8SrcBusId = iBusIdIsa;
1074 pIrqEntry->u8SrcBusIrq = 0;
1075 pIrqEntry->u8DstIOAPICId = 0xff;
1076 pIrqEntry->u8DstIOAPICInt = 0;
1077 pIrqEntry++;
1078 pCfgTab->u16EntryCount++;
1079 pIrqEntry->u8EntryType = 4; /* Local interrupt entry */
1080 pIrqEntry->u8Type = 1; /* NMI */
1081 pIrqEntry->u16Flags = (1 << 2) | 1; /* active-high, edge-triggered */
1082 pIrqEntry->u8SrcBusId = iBusIdIsa;
1083 pIrqEntry->u8SrcBusIrq = 0;
1084 pIrqEntry->u8DstIOAPICId = 0xff;
1085 pIrqEntry->u8DstIOAPICInt = 1;
1086 pIrqEntry++;
1087 pCfgTab->u16EntryCount++;
1088
1089 pCfgTab->u16Length = (uint8_t*)pIrqEntry - pTable;
1090 pCfgTab->u8Checksum = fwCommonChecksum(pTable, pCfgTab->u16Length);
1091
1092 AssertMsg(pCfgTab->u16Length < cbMax,
1093 ("VBOX_MPS_TABLE_SIZE=%d, maximum allowed size is %d",
1094 pCfgTab->u16Length, cbMax));
1095}
1096
1097/**
1098 * Construct the MPS table pointer at VM construction and reset.
1099 *
1100 * Only applicable if IOAPIC is active!
1101 *
1102 * @param pDevIns The device instance data.
1103 */
1104void FwCommonPlantMpsFloatPtr(PPDMDEVINS pDevIns)
1105{
1106 MPSFLOATPTR floatPtr;
1107 floatPtr.au8Signature[0] = '_';
1108 floatPtr.au8Signature[1] = 'M';
1109 floatPtr.au8Signature[2] = 'P';
1110 floatPtr.au8Signature[3] = '_';
1111 floatPtr.u32MPSAddr = VBOX_MPS_TABLE_BASE;
1112 floatPtr.u8Length = 1; /* structure size in paragraphs */
1113 floatPtr.u8SpecRev = 4; /* MPS revision 1.4 */
1114 floatPtr.u8Checksum = 0;
1115 floatPtr.au8Feature[0] = 0;
1116 floatPtr.au8Feature[1] = 0;
1117 floatPtr.au8Feature[2] = 0;
1118 floatPtr.au8Feature[3] = 0;
1119 floatPtr.au8Feature[4] = 0;
1120 floatPtr.u8Checksum = fwCommonChecksum((uint8_t*)&floatPtr, 16);
1121 PDMDevHlpPhysWrite(pDevIns, 0x9fff0, &floatPtr, 16);
1122}
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