VirtualBox

source: vbox/trunk/src/VBox/HostDrivers/Support/SUPDrvIOC.h@ 55998

Last change on this file since 55998 was 55988, checked in by vboxsync, 10 years ago

iprt/log.h,SUPDrv: Replaced the 'personal' logging groups with 6 more generic logging levels (7 thru 12) and a 'Warn' level. The 'Warn' level is enabled by 'group.e' together with level 1 logging. Modified the new RTLog[Rel][Get]DefaultInstanceEx functions to only take one 32-bit parameter to minimize call setup time and size. Major support driver version bump. LogAleksey=Log7, LogBird=Log8, LogSunlover=Log9, none of the other personal macros was used. Log*Warning got renamed to Log1*Warning so as to not confuse it with the LogWarn/LogRelWarn macros.

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File size: 53.0 KB
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1/* $Id: SUPDrvIOC.h 55988 2015-05-20 23:24:44Z vboxsync $ */
2/** @file
3 * VirtualBox Support Driver - IOCtl definitions.
4 */
5
6/*
7 * Copyright (C) 2006-2015 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 * The contents of this file may alternatively be used under the terms
18 * of the Common Development and Distribution License Version 1.0
19 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the
20 * VirtualBox OSE distribution, in which case the provisions of the
21 * CDDL are applicable instead of those of the GPL.
22 *
23 * You may elect to license modified versions of this file under the
24 * terms and conditions of either the GPL or the CDDL or both.
25 */
26
27#ifndef ___SUPDrvIOC_h___
28#define ___SUPDrvIOC_h___
29
30/*
31 * Basic types.
32 */
33#include <iprt/types.h>
34#include <VBox/sup.h>
35
36/*
37 * IOCtl numbers.
38 * We're using the Win32 type of numbers here, thus the macros below.
39 * The SUP_IOCTL_FLAG macro is used to separate requests from 32-bit
40 * and 64-bit processes.
41 */
42#if defined(RT_ARCH_AMD64) || defined(RT_ARCH_SPARC64)
43# define SUP_IOCTL_FLAG 128
44#elif defined(RT_ARCH_X86) || defined(RT_ARCH_SPARC)
45# define SUP_IOCTL_FLAG 0
46#else
47# error "dunno which arch this is!"
48#endif
49
50#ifdef RT_OS_WINDOWS
51# ifndef CTL_CODE
52# include <Windows.h>
53# endif
54 /* Automatic buffering, size not encoded. */
55# define SUP_CTL_CODE_SIZE(Function, Size) CTL_CODE(FILE_DEVICE_UNKNOWN, (Function) | SUP_IOCTL_FLAG, METHOD_BUFFERED, FILE_WRITE_ACCESS)
56# define SUP_CTL_CODE_BIG(Function) CTL_CODE(FILE_DEVICE_UNKNOWN, (Function) | SUP_IOCTL_FLAG, METHOD_BUFFERED, FILE_WRITE_ACCESS)
57# define SUP_CTL_CODE_FAST(Function) CTL_CODE(FILE_DEVICE_UNKNOWN, (Function) | SUP_IOCTL_FLAG, METHOD_NEITHER, FILE_WRITE_ACCESS)
58# define SUP_CTL_CODE_NO_SIZE(uIOCtl) (uIOCtl)
59
60# define SUP_NT_STATUS_BASE UINT32_C(0xe9860000) /**< STATUS_SEVERITY_ERROR + C-bit + facility 0x986. */
61# define SUP_NT_STATUS_IS_VBOX(a_rcNt) ( ((uint32_t)(a_rcNt) & 0xffff0000) == SUP_NT_STATUS_BASE )
62# define SUP_NT_STATUS_TO_VBOX(a_rcNt) ( (int)((uint32_t)(a_rcNt) | UINT32_C(0xffff0000)) )
63
64/** NT device name for system access. */
65# define SUPDRV_NT_DEVICE_NAME_SYS L"\\Device\\VBoxDrv"
66/** NT device name for user access. */
67# define SUPDRV_NT_DEVICE_NAME_USR L"\\Device\\VBoxDrvU"
68# ifdef VBOX_WITH_HARDENING
69/** NT device name for hardened stub access. */
70# define SUPDRV_NT_DEVICE_NAME_STUB L"\\Device\\VBoxDrvStub"
71/** NT device name for getting error information for failed VBoxDrv or
72 * VBoxDrvStub open. */
73# define SUPDRV_NT_DEVICE_NAME_ERROR_INFO L"\\Device\\VBoxDrvErrorInfo"
74# endif
75
76
77#elif defined(RT_OS_SOLARIS)
78 /* No automatic buffering, size limited to 255 bytes. */
79# include <sys/ioccom.h>
80# define SUP_CTL_CODE_SIZE(Function, Size) _IOWRN('V', (Function) | SUP_IOCTL_FLAG, sizeof(SUPREQHDR))
81# define SUP_CTL_CODE_BIG(Function) _IOWRN('V', (Function) | SUP_IOCTL_FLAG, sizeof(SUPREQHDR))
82# define SUP_CTL_CODE_FAST(Function) _IO( 'V', (Function) | SUP_IOCTL_FLAG)
83# define SUP_CTL_CODE_NO_SIZE(uIOCtl) (uIOCtl)
84
85#elif defined(RT_OS_OS2)
86 /* No automatic buffering, size not encoded. */
87# define SUP_CTL_CATEGORY 0xc0
88# define SUP_CTL_CODE_SIZE(Function, Size) ((unsigned char)(Function))
89# define SUP_CTL_CODE_BIG(Function) ((unsigned char)(Function))
90# define SUP_CTL_CATEGORY_FAST 0xc1
91# define SUP_CTL_CODE_FAST(Function) ((unsigned char)(Function))
92# define SUP_CTL_CODE_NO_SIZE(uIOCtl) (uIOCtl)
93
94#elif defined(RT_OS_LINUX)
95 /* No automatic buffering, size limited to 16KB. */
96# include <linux/ioctl.h>
97# define SUP_CTL_CODE_SIZE(Function, Size) _IOC(_IOC_READ | _IOC_WRITE, 'V', (Function) | SUP_IOCTL_FLAG, (Size))
98# define SUP_CTL_CODE_BIG(Function) _IO('V', (Function) | SUP_IOCTL_FLAG)
99# define SUP_CTL_CODE_FAST(Function) _IO('V', (Function) | SUP_IOCTL_FLAG)
100# define SUP_CTL_CODE_NO_SIZE(uIOCtl) ((uIOCtl) & ~IOCSIZE_MASK)
101
102#elif defined(RT_OS_L4)
103 /* Implemented in suplib, no worries. */
104# define SUP_CTL_CODE_SIZE(Function, Size) (Function)
105# define SUP_CTL_CODE_BIG(Function) (Function)
106# define SUP_CTL_CODE_FAST(Function) (Function)
107# define SUP_CTL_CODE_NO_SIZE(uIOCtl) (uIOCtl)
108
109#else /* BSD Like */
110 /* Automatic buffering, size limited to 4KB on *BSD and 8KB on Darwin - commands the limit, 4KB. */
111# include <sys/ioccom.h>
112# define SUP_CTL_CODE_SIZE(Function, Size) _IOC(IOC_INOUT, 'V', (Function) | SUP_IOCTL_FLAG, (Size))
113# define SUP_CTL_CODE_BIG(Function) _IO('V', (Function) | SUP_IOCTL_FLAG)
114# define SUP_CTL_CODE_FAST(Function) _IO('V', (Function) | SUP_IOCTL_FLAG)
115# define SUP_CTL_CODE_NO_SIZE(uIOCtl) ( (uIOCtl) & ~_IOC(0,0,0,IOCPARM_MASK) )
116#endif
117
118/** Fast path IOCtl: VMMR0_DO_RAW_RUN */
119#define SUP_IOCTL_FAST_DO_RAW_RUN SUP_CTL_CODE_FAST(64)
120/** Fast path IOCtl: VMMR0_DO_HM_RUN */
121#define SUP_IOCTL_FAST_DO_HM_RUN SUP_CTL_CODE_FAST(65)
122/** Just a NOP call for profiling the latency of a fast ioctl call to VMMR0. */
123#define SUP_IOCTL_FAST_DO_NOP SUP_CTL_CODE_FAST(66)
124
125#ifdef RT_OS_DARWIN
126/** Cookie used to fend off some unwanted clients to the IOService. */
127# define SUP_DARWIN_IOSERVICE_COOKIE 0x64726962 /* 'bird' */
128#endif
129
130
131/*******************************************************************************
132* Structures and Typedefs *
133*******************************************************************************/
134#ifdef RT_ARCH_AMD64
135# pragma pack(8) /* paranoia. */
136#else
137# pragma pack(4) /* paranoia. */
138#endif
139
140
141/**
142 * Common In/Out header.
143 */
144typedef struct SUPREQHDR
145{
146 /** Cookie. */
147 uint32_t u32Cookie;
148 /** Session cookie. */
149 uint32_t u32SessionCookie;
150 /** The size of the input. */
151 uint32_t cbIn;
152 /** The size of the output. */
153 uint32_t cbOut;
154 /** Flags. See SUPREQHDR_FLAGS_* for details and values. */
155 uint32_t fFlags;
156 /** The VBox status code of the operation, out direction only. */
157 int32_t rc;
158} SUPREQHDR;
159/** Pointer to a IOC header. */
160typedef SUPREQHDR *PSUPREQHDR;
161
162/** @name SUPREQHDR::fFlags values
163 * @{ */
164/** Masks out the magic value. */
165#define SUPREQHDR_FLAGS_MAGIC_MASK UINT32_C(0xff0000ff)
166/** The generic mask. */
167#define SUPREQHDR_FLAGS_GEN_MASK UINT32_C(0x0000ff00)
168/** The request specific mask. */
169#define SUPREQHDR_FLAGS_REQ_MASK UINT32_C(0x00ff0000)
170
171/** There is extra input that needs copying on some platforms. */
172#define SUPREQHDR_FLAGS_EXTRA_IN UINT32_C(0x00000100)
173/** There is extra output that needs copying on some platforms. */
174#define SUPREQHDR_FLAGS_EXTRA_OUT UINT32_C(0x00000200)
175
176/** The magic value. */
177#define SUPREQHDR_FLAGS_MAGIC UINT32_C(0x42000042)
178/** The default value. Use this when no special stuff is requested. */
179#define SUPREQHDR_FLAGS_DEFAULT SUPREQHDR_FLAGS_MAGIC
180/** @} */
181
182
183/** @name SUP_IOCTL_COOKIE
184 * @{
185 */
186/** Negotiate cookie. */
187#define SUP_IOCTL_COOKIE SUP_CTL_CODE_SIZE(1, SUP_IOCTL_COOKIE_SIZE)
188/** The request size. */
189#define SUP_IOCTL_COOKIE_SIZE sizeof(SUPCOOKIE)
190/** The SUPREQHDR::cbIn value. */
191#define SUP_IOCTL_COOKIE_SIZE_IN sizeof(SUPREQHDR) + RT_SIZEOFMEMB(SUPCOOKIE, u.In)
192/** The SUPREQHDR::cbOut value. */
193#define SUP_IOCTL_COOKIE_SIZE_OUT sizeof(SUPREQHDR) + RT_SIZEOFMEMB(SUPCOOKIE, u.Out)
194/** SUPCOOKIE_IN magic word. */
195#define SUPCOOKIE_MAGIC "The Magic Word!"
196/** The initial cookie. */
197#define SUPCOOKIE_INITIAL_COOKIE 0x69726f74 /* 'tori' */
198
199/** Current interface version.
200 * The upper 16-bit is the major version, the lower the minor version.
201 * When incompatible changes are made, the upper major number has to be changed.
202 *
203 * Update rules:
204 * -# Only update the major number when incompatible changes have been made to
205 * the IOC interface or the ABI provided via the functions returned by
206 * SUPQUERYFUNCS.
207 * -# When adding new features (new IOC number, new flags, new exports, ++)
208 * only update the minor number and change SUPLib.cpp to require the
209 * new IOC version.
210 * -# When incrementing the major number, clear the minor part and reset
211 * any IOC version requirements in SUPLib.cpp.
212 * -# When increment the major number, execute all pending work.
213 *
214 * @todo Pending work on next major version change:
215 * - nothing.
216 */
217#define SUPDRV_IOC_VERSION 0x00230000
218
219/** SUP_IOCTL_COOKIE. */
220typedef struct SUPCOOKIE
221{
222 /** The header.
223 * u32Cookie must be set to SUPCOOKIE_INITIAL_COOKIE.
224 * u32SessionCookie should be set to some random value. */
225 SUPREQHDR Hdr;
226 union
227 {
228 struct
229 {
230 /** Magic word. */
231 char szMagic[16];
232 /** The requested interface version number. */
233 uint32_t u32ReqVersion;
234 /** The minimum interface version number. */
235 uint32_t u32MinVersion;
236 } In;
237 struct
238 {
239 /** Cookie. */
240 uint32_t u32Cookie;
241 /** Session cookie. */
242 uint32_t u32SessionCookie;
243 /** Interface version for this session. */
244 uint32_t u32SessionVersion;
245 /** The actual interface version in the driver. */
246 uint32_t u32DriverVersion;
247 /** Number of functions available for the SUP_IOCTL_QUERY_FUNCS request. */
248 uint32_t cFunctions;
249 /** Session handle. */
250 R0PTRTYPE(PSUPDRVSESSION) pSession;
251 } Out;
252 } u;
253} SUPCOOKIE, *PSUPCOOKIE;
254/** @} */
255
256
257/** @name SUP_IOCTL_QUERY_FUNCS
258 * Query SUPR0 functions.
259 * @{
260 */
261#define SUP_IOCTL_QUERY_FUNCS(cFuncs) SUP_CTL_CODE_BIG(2)
262#define SUP_IOCTL_QUERY_FUNCS_SIZE(cFuncs) RT_UOFFSETOF(SUPQUERYFUNCS, u.Out.aFunctions[(cFuncs)])
263#define SUP_IOCTL_QUERY_FUNCS_SIZE_IN sizeof(SUPREQHDR)
264#define SUP_IOCTL_QUERY_FUNCS_SIZE_OUT(cFuncs) SUP_IOCTL_QUERY_FUNCS_SIZE(cFuncs)
265
266/** A function. */
267typedef struct SUPFUNC
268{
269 /** Name - mangled. */
270 char szName[32];
271 /** Address. */
272 RTR0PTR pfn;
273} SUPFUNC, *PSUPFUNC;
274
275typedef struct SUPQUERYFUNCS
276{
277 /** The header. */
278 SUPREQHDR Hdr;
279 union
280 {
281 struct
282 {
283 /** Number of functions returned. */
284 uint32_t cFunctions;
285 /** Array of functions. */
286 SUPFUNC aFunctions[1];
287 } Out;
288 } u;
289} SUPQUERYFUNCS, *PSUPQUERYFUNCS;
290/** @} */
291
292
293/** @name SUP_IOCTL_LDR_OPEN
294 * Open an image.
295 * @{
296 */
297#define SUP_IOCTL_LDR_OPEN SUP_CTL_CODE_SIZE(3, SUP_IOCTL_LDR_OPEN_SIZE)
298#define SUP_IOCTL_LDR_OPEN_SIZE sizeof(SUPLDROPEN)
299#define SUP_IOCTL_LDR_OPEN_SIZE_IN sizeof(SUPLDROPEN)
300#define SUP_IOCTL_LDR_OPEN_SIZE_OUT (sizeof(SUPREQHDR) + RT_SIZEOFMEMB(SUPLDROPEN, u.Out))
301typedef struct SUPLDROPEN
302{
303 /** The header. */
304 SUPREQHDR Hdr;
305 union
306 {
307 struct
308 {
309 /** Size of the image we'll be loading (including tables). */
310 uint32_t cbImageWithTabs;
311 /** The size of the image bits. (Less or equal to cbImageWithTabs.) */
312 uint32_t cbImageBits;
313 /** Image name.
314 * This is the NAME of the image, not the file name. It is used
315 * to share code with other processes. (Max len is 32 chars!) */
316 char szName[32];
317 /** Image file name.
318 * This can be used to load the image using a native loader. */
319 char szFilename[260];
320 } In;
321 struct
322 {
323 /** The base address of the image. */
324 RTR0PTR pvImageBase;
325 /** Indicate whether or not the image requires loading. */
326 bool fNeedsLoading;
327 /** Indicates that we're using the native ring-0 loader. */
328 bool fNativeLoader;
329 } Out;
330 } u;
331} SUPLDROPEN, *PSUPLDROPEN;
332/** @} */
333
334
335/** @name SUP_IOCTL_LDR_LOAD
336 * Upload the image bits.
337 * @{
338 */
339#define SUP_IOCTL_LDR_LOAD SUP_CTL_CODE_BIG(4)
340#define SUP_IOCTL_LDR_LOAD_SIZE(cbImage) RT_UOFFSETOF(SUPLDRLOAD, u.In.abImage[cbImage])
341#define SUP_IOCTL_LDR_LOAD_SIZE_IN(cbImage) RT_UOFFSETOF(SUPLDRLOAD, u.In.abImage[cbImage])
342#define SUP_IOCTL_LDR_LOAD_SIZE_OUT sizeof(SUPREQHDR)
343
344/**
345 * Module initialization callback function.
346 * This is called once after the module has been loaded.
347 *
348 * @returns 0 on success.
349 * @returns Appropriate error code on failure.
350 * @param hMod Image handle for use in APIs.
351 */
352typedef DECLCALLBACK(int) FNR0MODULEINIT(void *hMod);
353/** Pointer to a FNR0MODULEINIT(). */
354typedef R0PTRTYPE(FNR0MODULEINIT *) PFNR0MODULEINIT;
355
356/**
357 * Module termination callback function.
358 * This is called once right before the module is being unloaded.
359 *
360 * @param hMod Image handle for use in APIs.
361 */
362typedef DECLCALLBACK(void) FNR0MODULETERM(void *hMod);
363/** Pointer to a FNR0MODULETERM(). */
364typedef R0PTRTYPE(FNR0MODULETERM *) PFNR0MODULETERM;
365
366/**
367 * Symbol table entry.
368 */
369typedef struct SUPLDRSYM
370{
371 /** Offset into of the string table. */
372 uint32_t offName;
373 /** Offset of the symbol relative to the image load address.
374 * @remarks When used inside the SUPDrv to calculate real addresses, it
375 * must be cast to int32_t for the sake of native loader support
376 * on Solaris. (The loader puts the and data in different
377 * memory areans, and the text one is generally higher.) */
378 uint32_t offSymbol;
379} SUPLDRSYM;
380/** Pointer to a symbol table entry. */
381typedef SUPLDRSYM *PSUPLDRSYM;
382/** Pointer to a const symbol table entry. */
383typedef SUPLDRSYM const *PCSUPLDRSYM;
384
385/**
386 * SUPLDRLOAD::u::In::EP type.
387 */
388typedef enum SUPLDRLOADEP
389{
390 SUPLDRLOADEP_NOTHING = 0,
391 SUPLDRLOADEP_VMMR0,
392 SUPLDRLOADEP_SERVICE,
393 SUPLDRLOADEP_32BIT_HACK = 0x7fffffff
394} SUPLDRLOADEP;
395
396typedef struct SUPLDRLOAD
397{
398 /** The header. */
399 SUPREQHDR Hdr;
400 union
401 {
402 struct
403 {
404 /** The address of module initialization function. Similar to _DLL_InitTerm(hmod, 0). */
405 RTR0PTR pfnModuleInit;
406 /** The address of module termination function. Similar to _DLL_InitTerm(hmod, 1). */
407 RTR0PTR pfnModuleTerm;
408 /** Special entry points. */
409 union
410 {
411 /** SUPLDRLOADEP_VMMR0. */
412 struct
413 {
414 /** The module handle (i.e. address). */
415 RTR0PTR pvVMMR0;
416 /** Address of VMMR0EntryInt function. */
417 RTR0PTR pvVMMR0EntryInt;
418 /** Address of VMMR0EntryFast function. */
419 RTR0PTR pvVMMR0EntryFast;
420 /** Address of VMMR0EntryEx function. */
421 RTR0PTR pvVMMR0EntryEx;
422 } VMMR0;
423 /** SUPLDRLOADEP_SERVICE. */
424 struct
425 {
426 /** The service request handler.
427 * (PFNR0SERVICEREQHANDLER isn't defined yet.) */
428 RTR0PTR pfnServiceReq;
429 /** Reserved, must be NIL. */
430 RTR0PTR apvReserved[3];
431 } Service;
432 } EP;
433 /** Address. */
434 RTR0PTR pvImageBase;
435 /** Entry point type. */
436 SUPLDRLOADEP eEPType;
437 /** The size of the image bits (starting at offset 0 and
438 * approaching offSymbols). */
439 uint32_t cbImageBits;
440 /** The offset of the symbol table. */
441 uint32_t offSymbols;
442 /** The number of entries in the symbol table. */
443 uint32_t cSymbols;
444 /** The offset of the string table. */
445 uint32_t offStrTab;
446 /** Size of the string table. */
447 uint32_t cbStrTab;
448 /** Size of image data in achImage. */
449 uint32_t cbImageWithTabs;
450 /** The image data. */
451 uint8_t abImage[1];
452 } In;
453 } u;
454} SUPLDRLOAD, *PSUPLDRLOAD;
455/** @} */
456
457
458/** @name SUP_IOCTL_LDR_FREE
459 * Free an image.
460 * @{
461 */
462#define SUP_IOCTL_LDR_FREE SUP_CTL_CODE_SIZE(5, SUP_IOCTL_LDR_FREE_SIZE)
463#define SUP_IOCTL_LDR_FREE_SIZE sizeof(SUPLDRFREE)
464#define SUP_IOCTL_LDR_FREE_SIZE_IN sizeof(SUPLDRFREE)
465#define SUP_IOCTL_LDR_FREE_SIZE_OUT sizeof(SUPREQHDR)
466typedef struct SUPLDRFREE
467{
468 /** The header. */
469 SUPREQHDR Hdr;
470 union
471 {
472 struct
473 {
474 /** Address. */
475 RTR0PTR pvImageBase;
476 } In;
477 } u;
478} SUPLDRFREE, *PSUPLDRFREE;
479/** @} */
480
481
482/** @name SUP_IOCTL_LDR_LOCK_DOWN
483 * Lock down the image loader interface.
484 * @{
485 */
486#define SUP_IOCTL_LDR_LOCK_DOWN SUP_CTL_CODE_SIZE(38, SUP_IOCTL_LDR_LOCK_DOWN_SIZE)
487#define SUP_IOCTL_LDR_LOCK_DOWN_SIZE sizeof(SUPREQHDR)
488#define SUP_IOCTL_LDR_LOCK_DOWN_SIZE_IN sizeof(SUPREQHDR)
489#define SUP_IOCTL_LDR_LOCK_DOWN_SIZE_OUT sizeof(SUPREQHDR)
490/** @} */
491
492
493/** @name SUP_IOCTL_LDR_GET_SYMBOL
494 * Get address of a symbol within an image.
495 * @{
496 */
497#define SUP_IOCTL_LDR_GET_SYMBOL SUP_CTL_CODE_SIZE(6, SUP_IOCTL_LDR_GET_SYMBOL_SIZE)
498#define SUP_IOCTL_LDR_GET_SYMBOL_SIZE sizeof(SUPLDRGETSYMBOL)
499#define SUP_IOCTL_LDR_GET_SYMBOL_SIZE_IN sizeof(SUPLDRGETSYMBOL)
500#define SUP_IOCTL_LDR_GET_SYMBOL_SIZE_OUT (sizeof(SUPREQHDR) + RT_SIZEOFMEMB(SUPLDRGETSYMBOL, u.Out))
501typedef struct SUPLDRGETSYMBOL
502{
503 /** The header. */
504 SUPREQHDR Hdr;
505 union
506 {
507 struct
508 {
509 /** Address. */
510 RTR0PTR pvImageBase;
511 /** The symbol name. */
512 char szSymbol[64];
513 } In;
514 struct
515 {
516 /** The symbol address. */
517 RTR0PTR pvSymbol;
518 } Out;
519 } u;
520} SUPLDRGETSYMBOL, *PSUPLDRGETSYMBOL;
521/** @} */
522
523
524/** @name SUP_IOCTL_CALL_VMMR0
525 * Call the R0 VMM Entry point.
526 * @{
527 */
528#define SUP_IOCTL_CALL_VMMR0(cbReq) SUP_CTL_CODE_SIZE(7, SUP_IOCTL_CALL_VMMR0_SIZE(cbReq))
529#define SUP_IOCTL_CALL_VMMR0_NO_SIZE() SUP_CTL_CODE_SIZE(7, 0)
530#define SUP_IOCTL_CALL_VMMR0_SIZE(cbReq) RT_UOFFSETOF(SUPCALLVMMR0, abReqPkt[cbReq])
531#define SUP_IOCTL_CALL_VMMR0_SIZE_IN(cbReq) SUP_IOCTL_CALL_VMMR0_SIZE(cbReq)
532#define SUP_IOCTL_CALL_VMMR0_SIZE_OUT(cbReq) SUP_IOCTL_CALL_VMMR0_SIZE(cbReq)
533typedef struct SUPCALLVMMR0
534{
535 /** The header. */
536 SUPREQHDR Hdr;
537 union
538 {
539 struct
540 {
541 /** The VM handle. */
542 PVMR0 pVMR0;
543 /** VCPU id. */
544 uint32_t idCpu;
545 /** Which operation to execute. */
546 uint32_t uOperation;
547 /** Argument to use when no request packet is supplied. */
548 uint64_t u64Arg;
549 } In;
550 } u;
551 /** The VMMR0Entry request packet. */
552 uint8_t abReqPkt[1];
553} SUPCALLVMMR0, *PSUPCALLVMMR0;
554/** @} */
555
556
557/** @name SUP_IOCTL_CALL_VMMR0_BIG
558 * Version of SUP_IOCTL_CALL_VMMR0 for dealing with large requests.
559 * @{
560 */
561#define SUP_IOCTL_CALL_VMMR0_BIG SUP_CTL_CODE_BIG(27)
562#define SUP_IOCTL_CALL_VMMR0_BIG_SIZE(cbReq) RT_UOFFSETOF(SUPCALLVMMR0, abReqPkt[cbReq])
563#define SUP_IOCTL_CALL_VMMR0_BIG_SIZE_IN(cbReq) SUP_IOCTL_CALL_VMMR0_SIZE(cbReq)
564#define SUP_IOCTL_CALL_VMMR0_BIG_SIZE_OUT(cbReq) SUP_IOCTL_CALL_VMMR0_SIZE(cbReq)
565/** @} */
566
567
568/** @name SUP_IOCTL_LOW_ALLOC
569 * Allocate memory below 4GB (physically).
570 * @{
571 */
572#define SUP_IOCTL_LOW_ALLOC SUP_CTL_CODE_BIG(8)
573#define SUP_IOCTL_LOW_ALLOC_SIZE(cPages) ((uint32_t)RT_UOFFSETOF(SUPLOWALLOC, u.Out.aPages[cPages]))
574#define SUP_IOCTL_LOW_ALLOC_SIZE_IN (sizeof(SUPREQHDR) + RT_SIZEOFMEMB(SUPLOWALLOC, u.In))
575#define SUP_IOCTL_LOW_ALLOC_SIZE_OUT(cPages) SUP_IOCTL_LOW_ALLOC_SIZE(cPages)
576typedef struct SUPLOWALLOC
577{
578 /** The header. */
579 SUPREQHDR Hdr;
580 union
581 {
582 struct
583 {
584 /** Number of pages to allocate. */
585 uint32_t cPages;
586 } In;
587 struct
588 {
589 /** The ring-3 address of the allocated memory. */
590 RTR3PTR pvR3;
591 /** The ring-0 address of the allocated memory. */
592 RTR0PTR pvR0;
593 /** Array of pages. */
594 RTHCPHYS aPages[1];
595 } Out;
596 } u;
597} SUPLOWALLOC, *PSUPLOWALLOC;
598/** @} */
599
600
601/** @name SUP_IOCTL_LOW_FREE
602 * Free low memory.
603 * @{
604 */
605#define SUP_IOCTL_LOW_FREE SUP_CTL_CODE_SIZE(9, SUP_IOCTL_LOW_FREE_SIZE)
606#define SUP_IOCTL_LOW_FREE_SIZE sizeof(SUPLOWFREE)
607#define SUP_IOCTL_LOW_FREE_SIZE_IN sizeof(SUPLOWFREE)
608#define SUP_IOCTL_LOW_FREE_SIZE_OUT sizeof(SUPREQHDR)
609typedef struct SUPLOWFREE
610{
611 /** The header. */
612 SUPREQHDR Hdr;
613 union
614 {
615 struct
616 {
617 /** The ring-3 address of the memory to free. */
618 RTR3PTR pvR3;
619 } In;
620 } u;
621} SUPLOWFREE, *PSUPLOWFREE;
622/** @} */
623
624
625/** @name SUP_IOCTL_PAGE_ALLOC_EX
626 * Allocate memory and map it into kernel and/or user space. The memory is of
627 * course locked. The result should be freed using SUP_IOCTL_PAGE_FREE.
628 *
629 * @remarks Allocations without a kernel mapping may fail with
630 * VERR_NOT_SUPPORTED on some platforms.
631 *
632 * @{
633 */
634#define SUP_IOCTL_PAGE_ALLOC_EX SUP_CTL_CODE_BIG(10)
635#define SUP_IOCTL_PAGE_ALLOC_EX_SIZE(cPages) RT_UOFFSETOF(SUPPAGEALLOCEX, u.Out.aPages[cPages])
636#define SUP_IOCTL_PAGE_ALLOC_EX_SIZE_IN (sizeof(SUPREQHDR) + RT_SIZEOFMEMB(SUPPAGEALLOCEX, u.In))
637#define SUP_IOCTL_PAGE_ALLOC_EX_SIZE_OUT(cPages) SUP_IOCTL_PAGE_ALLOC_EX_SIZE(cPages)
638typedef struct SUPPAGEALLOCEX
639{
640 /** The header. */
641 SUPREQHDR Hdr;
642 union
643 {
644 struct
645 {
646 /** Number of pages to allocate */
647 uint32_t cPages;
648 /** Whether it should have kernel mapping. */
649 bool fKernelMapping;
650 /** Whether it should have a user mapping. */
651 bool fUserMapping;
652 /** Reserved. Must be false. */
653 bool fReserved0;
654 /** Reserved. Must be false. */
655 bool fReserved1;
656 } In;
657 struct
658 {
659 /** Returned ring-3 address. */
660 RTR3PTR pvR3;
661 /** Returned ring-0 address. */
662 RTR0PTR pvR0;
663 /** The physical addresses of the allocated pages. */
664 RTHCPHYS aPages[1];
665 } Out;
666 } u;
667} SUPPAGEALLOCEX, *PSUPPAGEALLOCEX;
668/** @} */
669
670
671/** @name SUP_IOCTL_PAGE_MAP_KERNEL
672 * Maps a portion of memory allocated by SUP_IOCTL_PAGE_ALLOC_EX /
673 * SUPR0PageAllocEx into kernel space for use by a device or similar.
674 *
675 * The mapping will be freed together with the ring-3 mapping when
676 * SUP_IOCTL_PAGE_FREE or SUPR0PageFree is called.
677 *
678 * @remarks Not necessarily supported on all platforms.
679 *
680 * @{
681 */
682#define SUP_IOCTL_PAGE_MAP_KERNEL SUP_CTL_CODE_SIZE(11, SUP_IOCTL_PAGE_MAP_KERNEL_SIZE)
683#define SUP_IOCTL_PAGE_MAP_KERNEL_SIZE sizeof(SUPPAGEMAPKERNEL)
684#define SUP_IOCTL_PAGE_MAP_KERNEL_SIZE_IN sizeof(SUPPAGEMAPKERNEL)
685#define SUP_IOCTL_PAGE_MAP_KERNEL_SIZE_OUT sizeof(SUPPAGEMAPKERNEL)
686typedef struct SUPPAGEMAPKERNEL
687{
688 /** The header. */
689 SUPREQHDR Hdr;
690 union
691 {
692 struct
693 {
694 /** The pointer of to the previously allocated memory. */
695 RTR3PTR pvR3;
696 /** The offset to start mapping from. */
697 uint32_t offSub;
698 /** Size of the section to map. */
699 uint32_t cbSub;
700 /** Flags reserved for future fun. */
701 uint32_t fFlags;
702 } In;
703 struct
704 {
705 /** The ring-0 address corresponding to pvR3 + offSub. */
706 RTR0PTR pvR0;
707 } Out;
708 } u;
709} SUPPAGEMAPKERNEL, *PSUPPAGEMAPKERNEL;
710/** @} */
711
712
713/** @name SUP_IOCTL_PAGE_PROTECT
714 * Changes the page level protection of the user and/or kernel mappings of
715 * memory previously allocated by SUPR0PageAllocEx.
716 *
717 * @remarks Not necessarily supported on all platforms.
718 *
719 * @{
720 */
721#define SUP_IOCTL_PAGE_PROTECT SUP_CTL_CODE_SIZE(12, SUP_IOCTL_PAGE_PROTECT_SIZE)
722#define SUP_IOCTL_PAGE_PROTECT_SIZE sizeof(SUPPAGEPROTECT)
723#define SUP_IOCTL_PAGE_PROTECT_SIZE_IN sizeof(SUPPAGEPROTECT)
724#define SUP_IOCTL_PAGE_PROTECT_SIZE_OUT sizeof(SUPPAGEPROTECT)
725typedef struct SUPPAGEPROTECT
726{
727 /** The header. */
728 SUPREQHDR Hdr;
729 union
730 {
731 struct
732 {
733 /** The pointer of to the previously allocated memory.
734 * Pass NIL_RTR3PTR if the ring-0 mapping should remain unaffected. */
735 RTR3PTR pvR3;
736 /** The pointer of to the previously allocated memory.
737 * Pass NIL_RTR0PTR if the ring-0 mapping should remain unaffected. */
738 RTR0PTR pvR0;
739 /** The offset to start changing protection at. */
740 uint32_t offSub;
741 /** Size of the portion that should be changed. */
742 uint32_t cbSub;
743 /** Protection flags, RTMEM_PROT_*. */
744 uint32_t fProt;
745 } In;
746 } u;
747} SUPPAGEPROTECT, *PSUPPAGEPROTECT;
748/** @} */
749
750
751/** @name SUP_IOCTL_PAGE_FREE
752 * Free memory allocated with SUP_IOCTL_PAGE_ALLOC_EX.
753 * @{
754 */
755#define SUP_IOCTL_PAGE_FREE SUP_CTL_CODE_SIZE(13, SUP_IOCTL_PAGE_FREE_SIZE_IN)
756#define SUP_IOCTL_PAGE_FREE_SIZE sizeof(SUPPAGEFREE)
757#define SUP_IOCTL_PAGE_FREE_SIZE_IN sizeof(SUPPAGEFREE)
758#define SUP_IOCTL_PAGE_FREE_SIZE_OUT sizeof(SUPREQHDR)
759typedef struct SUPPAGEFREE
760{
761 /** The header. */
762 SUPREQHDR Hdr;
763 union
764 {
765 struct
766 {
767 /** Address of memory range to free. */
768 RTR3PTR pvR3;
769 } In;
770 } u;
771} SUPPAGEFREE, *PSUPPAGEFREE;
772/** @} */
773
774
775
776
777/** @name SUP_IOCTL_PAGE_LOCK
778 * Pin down physical pages.
779 * @{
780 */
781#define SUP_IOCTL_PAGE_LOCK SUP_CTL_CODE_BIG(14)
782#define SUP_IOCTL_PAGE_LOCK_SIZE(cPages) (RT_MAX((size_t)SUP_IOCTL_PAGE_LOCK_SIZE_IN, (size_t)SUP_IOCTL_PAGE_LOCK_SIZE_OUT(cPages)))
783#define SUP_IOCTL_PAGE_LOCK_SIZE_IN (sizeof(SUPREQHDR) + RT_SIZEOFMEMB(SUPPAGELOCK, u.In))
784#define SUP_IOCTL_PAGE_LOCK_SIZE_OUT(cPages) RT_UOFFSETOF(SUPPAGELOCK, u.Out.aPages[cPages])
785typedef struct SUPPAGELOCK
786{
787 /** The header. */
788 SUPREQHDR Hdr;
789 union
790 {
791 struct
792 {
793 /** Start of page range. Must be PAGE aligned. */
794 RTR3PTR pvR3;
795 /** The range size given as a page count. */
796 uint32_t cPages;
797 } In;
798
799 struct
800 {
801 /** Array of pages. */
802 RTHCPHYS aPages[1];
803 } Out;
804 } u;
805} SUPPAGELOCK, *PSUPPAGELOCK;
806/** @} */
807
808
809/** @name SUP_IOCTL_PAGE_UNLOCK
810 * Unpin physical pages.
811 * @{ */
812#define SUP_IOCTL_PAGE_UNLOCK SUP_CTL_CODE_SIZE(15, SUP_IOCTL_PAGE_UNLOCK_SIZE)
813#define SUP_IOCTL_PAGE_UNLOCK_SIZE sizeof(SUPPAGEUNLOCK)
814#define SUP_IOCTL_PAGE_UNLOCK_SIZE_IN sizeof(SUPPAGEUNLOCK)
815#define SUP_IOCTL_PAGE_UNLOCK_SIZE_OUT sizeof(SUPREQHDR)
816typedef struct SUPPAGEUNLOCK
817{
818 /** The header. */
819 SUPREQHDR Hdr;
820 union
821 {
822 struct
823 {
824 /** Start of page range of a range previously pinned. */
825 RTR3PTR pvR3;
826 } In;
827 } u;
828} SUPPAGEUNLOCK, *PSUPPAGEUNLOCK;
829/** @} */
830
831
832/** @name SUP_IOCTL_CONT_ALLOC
833 * Allocate continuous memory.
834 * @{
835 */
836#define SUP_IOCTL_CONT_ALLOC SUP_CTL_CODE_SIZE(16, SUP_IOCTL_CONT_ALLOC_SIZE)
837#define SUP_IOCTL_CONT_ALLOC_SIZE sizeof(SUPCONTALLOC)
838#define SUP_IOCTL_CONT_ALLOC_SIZE_IN (sizeof(SUPREQHDR) + RT_SIZEOFMEMB(SUPCONTALLOC, u.In))
839#define SUP_IOCTL_CONT_ALLOC_SIZE_OUT sizeof(SUPCONTALLOC)
840typedef struct SUPCONTALLOC
841{
842 /** The header. */
843 SUPREQHDR Hdr;
844 union
845 {
846 struct
847 {
848 /** The allocation size given as a page count. */
849 uint32_t cPages;
850 } In;
851
852 struct
853 {
854 /** The address of the ring-0 mapping of the allocated memory. */
855 RTR0PTR pvR0;
856 /** The address of the ring-3 mapping of the allocated memory. */
857 RTR3PTR pvR3;
858 /** The physical address of the allocation. */
859 RTHCPHYS HCPhys;
860 } Out;
861 } u;
862} SUPCONTALLOC, *PSUPCONTALLOC;
863/** @} */
864
865
866/** @name SUP_IOCTL_CONT_FREE Input.
867 * @{
868 */
869/** Free continuous memory. */
870#define SUP_IOCTL_CONT_FREE SUP_CTL_CODE_SIZE(17, SUP_IOCTL_CONT_FREE_SIZE)
871#define SUP_IOCTL_CONT_FREE_SIZE sizeof(SUPCONTFREE)
872#define SUP_IOCTL_CONT_FREE_SIZE_IN sizeof(SUPCONTFREE)
873#define SUP_IOCTL_CONT_FREE_SIZE_OUT sizeof(SUPREQHDR)
874typedef struct SUPCONTFREE
875{
876 /** The header. */
877 SUPREQHDR Hdr;
878 union
879 {
880 struct
881 {
882 /** The ring-3 address of the memory to free. */
883 RTR3PTR pvR3;
884 } In;
885 } u;
886} SUPCONTFREE, *PSUPCONTFREE;
887/** @} */
888
889
890/** @name SUP_IOCTL_GET_PAGING_MODE
891 * Get the host paging mode.
892 * @{
893 */
894#define SUP_IOCTL_GET_PAGING_MODE SUP_CTL_CODE_SIZE(18, SUP_IOCTL_GET_PAGING_MODE_SIZE)
895#define SUP_IOCTL_GET_PAGING_MODE_SIZE sizeof(SUPGETPAGINGMODE)
896#define SUP_IOCTL_GET_PAGING_MODE_SIZE_IN sizeof(SUPREQHDR)
897#define SUP_IOCTL_GET_PAGING_MODE_SIZE_OUT sizeof(SUPGETPAGINGMODE)
898typedef struct SUPGETPAGINGMODE
899{
900 /** The header. */
901 SUPREQHDR Hdr;
902 union
903 {
904 struct
905 {
906 /** The paging mode. */
907 SUPPAGINGMODE enmMode;
908 } Out;
909 } u;
910} SUPGETPAGINGMODE, *PSUPGETPAGINGMODE;
911/** @} */
912
913
914/** @name SUP_IOCTL_SET_VM_FOR_FAST
915 * Set the VM handle for doing fast call ioctl calls.
916 * @{
917 */
918#define SUP_IOCTL_SET_VM_FOR_FAST SUP_CTL_CODE_SIZE(19, SUP_IOCTL_SET_VM_FOR_FAST_SIZE)
919#define SUP_IOCTL_SET_VM_FOR_FAST_SIZE sizeof(SUPSETVMFORFAST)
920#define SUP_IOCTL_SET_VM_FOR_FAST_SIZE_IN sizeof(SUPSETVMFORFAST)
921#define SUP_IOCTL_SET_VM_FOR_FAST_SIZE_OUT sizeof(SUPREQHDR)
922typedef struct SUPSETVMFORFAST
923{
924 /** The header. */
925 SUPREQHDR Hdr;
926 union
927 {
928 struct
929 {
930 /** The ring-0 VM handle (pointer). */
931 PVMR0 pVMR0;
932 } In;
933 } u;
934} SUPSETVMFORFAST, *PSUPSETVMFORFAST;
935/** @} */
936
937
938/** @name SUP_IOCTL_GIP_MAP
939 * Map the GIP into user space.
940 * @{
941 */
942#define SUP_IOCTL_GIP_MAP SUP_CTL_CODE_SIZE(20, SUP_IOCTL_GIP_MAP_SIZE)
943#define SUP_IOCTL_GIP_MAP_SIZE sizeof(SUPGIPMAP)
944#define SUP_IOCTL_GIP_MAP_SIZE_IN sizeof(SUPREQHDR)
945#define SUP_IOCTL_GIP_MAP_SIZE_OUT sizeof(SUPGIPMAP)
946typedef struct SUPGIPMAP
947{
948 /** The header. */
949 SUPREQHDR Hdr;
950 union
951 {
952 struct
953 {
954 /** The physical address of the GIP. */
955 RTHCPHYS HCPhysGip;
956 /** Pointer to the read-only usermode GIP mapping for this session. */
957 R3PTRTYPE(PSUPGLOBALINFOPAGE) pGipR3;
958 /** Pointer to the supervisor mode GIP mapping. */
959 R0PTRTYPE(PSUPGLOBALINFOPAGE) pGipR0;
960 } Out;
961 } u;
962} SUPGIPMAP, *PSUPGIPMAP;
963/** @} */
964
965
966/** @name SUP_IOCTL_GIP_UNMAP
967 * Unmap the GIP.
968 * @{
969 */
970#define SUP_IOCTL_GIP_UNMAP SUP_CTL_CODE_SIZE(21, SUP_IOCTL_GIP_UNMAP_SIZE)
971#define SUP_IOCTL_GIP_UNMAP_SIZE sizeof(SUPGIPUNMAP)
972#define SUP_IOCTL_GIP_UNMAP_SIZE_IN sizeof(SUPGIPUNMAP)
973#define SUP_IOCTL_GIP_UNMAP_SIZE_OUT sizeof(SUPGIPUNMAP)
974typedef struct SUPGIPUNMAP
975{
976 /** The header. */
977 SUPREQHDR Hdr;
978} SUPGIPUNMAP, *PSUPGIPUNMAP;
979/** @} */
980
981
982/** @name SUP_IOCTL_CALL_SERVICE
983 * Call the a ring-0 service.
984 *
985 * @todo Might have to convert this to a big request, just like
986 * SUP_IOCTL_CALL_VMMR0
987 * @{
988 */
989#define SUP_IOCTL_CALL_SERVICE(cbReq) SUP_CTL_CODE_SIZE(22, SUP_IOCTL_CALL_SERVICE_SIZE(cbReq))
990#define SUP_IOCTL_CALL_SERVICE_NO_SIZE() SUP_CTL_CODE_SIZE(22, 0)
991#define SUP_IOCTL_CALL_SERVICE_SIZE(cbReq) RT_UOFFSETOF(SUPCALLSERVICE, abReqPkt[cbReq])
992#define SUP_IOCTL_CALL_SERVICE_SIZE_IN(cbReq) SUP_IOCTL_CALL_SERVICE_SIZE(cbReq)
993#define SUP_IOCTL_CALL_SERVICE_SIZE_OUT(cbReq) SUP_IOCTL_CALL_SERVICE_SIZE(cbReq)
994typedef struct SUPCALLSERVICE
995{
996 /** The header. */
997 SUPREQHDR Hdr;
998 union
999 {
1000 struct
1001 {
1002 /** The service name. */
1003 char szName[28];
1004 /** Which operation to execute. */
1005 uint32_t uOperation;
1006 /** Argument to use when no request packet is supplied. */
1007 uint64_t u64Arg;
1008 } In;
1009 } u;
1010 /** The request packet passed to SUP. */
1011 uint8_t abReqPkt[1];
1012} SUPCALLSERVICE, *PSUPCALLSERVICE;
1013/** @} */
1014
1015
1016/** @name SUP_IOCTL_LOGGER_SETTINGS
1017 * Changes the ring-0 release or debug logger settings.
1018 * @{
1019 */
1020#define SUP_IOCTL_LOGGER_SETTINGS(cbStrTab) SUP_CTL_CODE_SIZE(23, SUP_IOCTL_LOGGER_SETTINGS_SIZE(cbStrTab))
1021#define SUP_IOCTL_LOGGER_SETTINGS_NO_SIZE() SUP_CTL_CODE_SIZE(23, 0)
1022#define SUP_IOCTL_LOGGER_SETTINGS_SIZE(cbStrTab) RT_UOFFSETOF(SUPLOGGERSETTINGS, u.In.szStrings[cbStrTab])
1023#define SUP_IOCTL_LOGGER_SETTINGS_SIZE_IN(cbStrTab) RT_UOFFSETOF(SUPLOGGERSETTINGS, u.In.szStrings[cbStrTab])
1024#define SUP_IOCTL_LOGGER_SETTINGS_SIZE_OUT sizeof(SUPREQHDR)
1025typedef struct SUPLOGGERSETTINGS
1026{
1027 /** The header. */
1028 SUPREQHDR Hdr;
1029 union
1030 {
1031 struct
1032 {
1033 /** Which logger. */
1034 uint32_t fWhich;
1035 /** What to do with it. */
1036 uint32_t fWhat;
1037 /** Offset of the flags setting string. */
1038 uint32_t offFlags;
1039 /** Offset of the groups setting string. */
1040 uint32_t offGroups;
1041 /** Offset of the destination setting string. */
1042 uint32_t offDestination;
1043 /** The string table. */
1044 char szStrings[1];
1045 } In;
1046 } u;
1047} SUPLOGGERSETTINGS, *PSUPLOGGERSETTINGS;
1048
1049/** Debug logger. */
1050#define SUPLOGGERSETTINGS_WHICH_DEBUG 0
1051/** Release logger. */
1052#define SUPLOGGERSETTINGS_WHICH_RELEASE 1
1053
1054/** Change the settings. */
1055#define SUPLOGGERSETTINGS_WHAT_SETTINGS 0
1056/** Create the logger instance. */
1057#define SUPLOGGERSETTINGS_WHAT_CREATE 1
1058/** Destroy the logger instance. */
1059#define SUPLOGGERSETTINGS_WHAT_DESTROY 2
1060
1061/** @} */
1062
1063
1064/** @name Semaphore Types
1065 * @{ */
1066#define SUP_SEM_TYPE_EVENT 0
1067#define SUP_SEM_TYPE_EVENT_MULTI 1
1068/** @} */
1069
1070
1071/** @name SUP_IOCTL_SEM_OP2
1072 * Semaphore operations.
1073 * @remarks This replaces the old SUP_IOCTL_SEM_OP interface.
1074 * @{
1075 */
1076#define SUP_IOCTL_SEM_OP2 SUP_CTL_CODE_SIZE(24, SUP_IOCTL_SEM_OP2_SIZE)
1077#define SUP_IOCTL_SEM_OP2_SIZE sizeof(SUPSEMOP2)
1078#define SUP_IOCTL_SEM_OP2_SIZE_IN sizeof(SUPSEMOP2)
1079#define SUP_IOCTL_SEM_OP2_SIZE_OUT sizeof(SUPREQHDR)
1080typedef struct SUPSEMOP2
1081{
1082 /** The header. */
1083 SUPREQHDR Hdr;
1084 union
1085 {
1086 struct
1087 {
1088 /** The semaphore type. */
1089 uint32_t uType;
1090 /** The semaphore handle. */
1091 uint32_t hSem;
1092 /** The operation. */
1093 uint32_t uOp;
1094 /** Reserved, must be zero. */
1095 uint32_t uReserved;
1096 /** The number of milliseconds to wait if it's a wait operation. */
1097 union
1098 {
1099 /** Absolute timeout (RTTime[System]NanoTS).
1100 * Used by SUPSEMOP2_WAIT_NS_ABS. */
1101 uint64_t uAbsNsTimeout;
1102 /** Relative nanosecond timeout.
1103 * Used by SUPSEMOP2_WAIT_NS_REL. */
1104 uint64_t cRelNsTimeout;
1105 /** Relative millisecond timeout.
1106 * Used by SUPSEMOP2_WAIT_MS_REL. */
1107 uint32_t cRelMsTimeout;
1108 /** Generic 64-bit accessor.
1109 * ASSUMES little endian! */
1110 uint64_t u64;
1111 } uArg;
1112 } In;
1113 } u;
1114} SUPSEMOP2, *PSUPSEMOP2;
1115
1116/** Wait for a number of milliseconds. */
1117#define SUPSEMOP2_WAIT_MS_REL 0
1118/** Wait until the specified deadline is reached. */
1119#define SUPSEMOP2_WAIT_NS_ABS 1
1120/** Wait for a number of nanoseconds. */
1121#define SUPSEMOP2_WAIT_NS_REL 2
1122/** Signal the semaphore. */
1123#define SUPSEMOP2_SIGNAL 3
1124/** Reset the semaphore (only applicable to SUP_SEM_TYPE_EVENT_MULTI). */
1125#define SUPSEMOP2_RESET 4
1126/** Close the semaphore handle. */
1127#define SUPSEMOP2_CLOSE 5
1128/** @} */
1129
1130
1131/** @name SUP_IOCTL_SEM_OP3
1132 * Semaphore operations.
1133 * @{
1134 */
1135#define SUP_IOCTL_SEM_OP3 SUP_CTL_CODE_SIZE(25, SUP_IOCTL_SEM_OP3_SIZE)
1136#define SUP_IOCTL_SEM_OP3_SIZE sizeof(SUPSEMOP3)
1137#define SUP_IOCTL_SEM_OP3_SIZE_IN sizeof(SUPSEMOP3)
1138#define SUP_IOCTL_SEM_OP3_SIZE_OUT sizeof(SUPSEMOP3)
1139typedef struct SUPSEMOP3
1140{
1141 /** The header. */
1142 SUPREQHDR Hdr;
1143 union
1144 {
1145 struct
1146 {
1147 /** The semaphore type. */
1148 uint32_t uType;
1149 /** The semaphore handle. */
1150 uint32_t hSem;
1151 /** The operation. */
1152 uint32_t uOp;
1153 /** Reserved, must be zero. */
1154 uint32_t u32Reserved;
1155 /** Reserved for future use. */
1156 uint64_t u64Reserved;
1157 } In;
1158 union
1159 {
1160 /** The handle of the created semaphore.
1161 * Used by SUPSEMOP3_CREATE. */
1162 uint32_t hSem;
1163 /** The semaphore resolution in nano seconds.
1164 * Used by SUPSEMOP3_GET_RESOLUTION. */
1165 uint32_t cNsResolution;
1166 /** The 32-bit view. */
1167 uint32_t u32;
1168 /** Reserved some space for later expansion. */
1169 uint64_t u64Reserved;
1170 } Out;
1171 } u;
1172} SUPSEMOP3, *PSUPSEMOP3;
1173
1174/** Get the wait resolution. */
1175#define SUPSEMOP3_CREATE 0
1176/** Get the wait resolution. */
1177#define SUPSEMOP3_GET_RESOLUTION 1
1178/** @} */
1179
1180
1181/** @name SUP_IOCTL_VT_CAPS
1182 * Get the VT-x/AMD-V capabilities.
1183 *
1184 * @todo Intended for main, which means we need to relax the privilege requires
1185 * when accessing certain vboxdrv functions.
1186 *
1187 * @{
1188 */
1189#define SUP_IOCTL_VT_CAPS SUP_CTL_CODE_SIZE(26, SUP_IOCTL_VT_CAPS_SIZE)
1190#define SUP_IOCTL_VT_CAPS_SIZE sizeof(SUPVTCAPS)
1191#define SUP_IOCTL_VT_CAPS_SIZE_IN sizeof(SUPREQHDR)
1192#define SUP_IOCTL_VT_CAPS_SIZE_OUT sizeof(SUPVTCAPS)
1193typedef struct SUPVTCAPS
1194{
1195 /** The header. */
1196 SUPREQHDR Hdr;
1197 union
1198 {
1199 struct
1200 {
1201 /** The VT capability dword. */
1202 uint32_t Caps;
1203 } Out;
1204 } u;
1205} SUPVTCAPS, *PSUPVTCAPS;
1206/** @} */
1207
1208
1209/** @name SUP_IOCTL_TRACER_OPEN
1210 * Open the tracer.
1211 *
1212 * Should be matched by an SUP_IOCTL_TRACER_CLOSE call.
1213 *
1214 * @{
1215 */
1216#define SUP_IOCTL_TRACER_OPEN SUP_CTL_CODE_SIZE(28, SUP_IOCTL_TRACER_OPEN_SIZE)
1217#define SUP_IOCTL_TRACER_OPEN_SIZE sizeof(SUPTRACEROPEN)
1218#define SUP_IOCTL_TRACER_OPEN_SIZE_IN sizeof(SUPTRACEROPEN)
1219#define SUP_IOCTL_TRACER_OPEN_SIZE_OUT sizeof(SUPREQHDR)
1220typedef struct SUPTRACEROPEN
1221{
1222 /** The header. */
1223 SUPREQHDR Hdr;
1224 union
1225 {
1226 struct
1227 {
1228 /** Tracer cookie. Used to make sure we only open a matching tracer. */
1229 uint32_t uCookie;
1230 /** Tracer specific argument. */
1231 RTHCUINTPTR uArg;
1232 } In;
1233 } u;
1234} SUPTRACEROPEN, *PSUPTRACEROPEN;
1235/** @} */
1236
1237
1238/** @name SUP_IOCTL_TRACER_CLOSE
1239 * Close the tracer.
1240 *
1241 * Must match a SUP_IOCTL_TRACER_OPEN call.
1242 *
1243 * @{
1244 */
1245#define SUP_IOCTL_TRACER_CLOSE SUP_CTL_CODE_SIZE(29, SUP_IOCTL_TRACER_CLOSE_SIZE)
1246#define SUP_IOCTL_TRACER_CLOSE_SIZE sizeof(SUPREQHDR)
1247#define SUP_IOCTL_TRACER_CLOSE_SIZE_IN sizeof(SUPREQHDR)
1248#define SUP_IOCTL_TRACER_CLOSE_SIZE_OUT sizeof(SUPREQHDR)
1249/** @} */
1250
1251
1252/** @name SUP_IOCTL_TRACER_IOCTL
1253 * Speak UNIX ioctl() with the tracer.
1254 *
1255 * The session must have opened the tracer prior to issuing this request.
1256 *
1257 * @{
1258 */
1259#define SUP_IOCTL_TRACER_IOCTL SUP_CTL_CODE_SIZE(30, SUP_IOCTL_TRACER_IOCTL_SIZE)
1260#define SUP_IOCTL_TRACER_IOCTL_SIZE sizeof(SUPTRACERIOCTL)
1261#define SUP_IOCTL_TRACER_IOCTL_SIZE_IN sizeof(SUPTRACERIOCTL)
1262#define SUP_IOCTL_TRACER_IOCTL_SIZE_OUT (RT_UOFFSETOF(SUPTRACERIOCTL, u.Out.iRetVal) + sizeof(int32_t))
1263typedef struct SUPTRACERIOCTL
1264{
1265 /** The header. */
1266 SUPREQHDR Hdr;
1267 union
1268 {
1269 struct
1270 {
1271 /** The command. */
1272 RTHCUINTPTR uCmd;
1273 /** Argument to the command. */
1274 RTHCUINTPTR uArg;
1275 } In;
1276
1277 struct
1278 {
1279 /** The return value. */
1280 int32_t iRetVal;
1281 } Out;
1282 } u;
1283} SUPTRACERIOCTL, *PSUPTRACERIOCTL;
1284/** @} */
1285
1286
1287/** @name SUP_IOCTL_TRACER_UMOD_REG
1288 * Registers tracepoints in a user mode module.
1289 *
1290 * @{
1291 */
1292#define SUP_IOCTL_TRACER_UMOD_REG SUP_CTL_CODE_SIZE(31, SUP_IOCTL_TRACER_UMOD_REG_SIZE)
1293#define SUP_IOCTL_TRACER_UMOD_REG_SIZE sizeof(SUPTRACERUMODREG)
1294#define SUP_IOCTL_TRACER_UMOD_REG_SIZE_IN sizeof(SUPTRACERUMODREG)
1295#define SUP_IOCTL_TRACER_UMOD_REG_SIZE_OUT sizeof(SUPREQHDR)
1296typedef struct SUPTRACERUMODREG
1297{
1298 /** The header. */
1299 SUPREQHDR Hdr;
1300 union
1301 {
1302 struct
1303 {
1304 /** The address at which the VTG header actually resides.
1305 * This will differ from R3PtrVtgHdr for raw-mode context
1306 * modules. */
1307 RTUINTPTR uVtgHdrAddr;
1308 /** The ring-3 pointer of the VTG header. */
1309 RTR3PTR R3PtrVtgHdr;
1310 /** The ring-3 pointer of the probe location string table. */
1311 RTR3PTR R3PtrStrTab;
1312 /** The size of the string table. */
1313 uint32_t cbStrTab;
1314 /** Future flags, MBZ. */
1315 uint32_t fFlags;
1316 /** The module name. */
1317 char szName[64];
1318 } In;
1319 } u;
1320} SUPTRACERUMODREG, *PSUPTRACERUMODREG;
1321/** @} */
1322
1323
1324/** @name SUP_IOCTL_TRACER_UMOD_DEREG
1325 * Deregisters tracepoints in a user mode module.
1326 *
1327 * @{
1328 */
1329#define SUP_IOCTL_TRACER_UMOD_DEREG SUP_CTL_CODE_SIZE(32, SUP_IOCTL_TRACER_UMOD_DEREG_SIZE)
1330#define SUP_IOCTL_TRACER_UMOD_DEREG_SIZE sizeof(SUPTRACERUMODDEREG)
1331#define SUP_IOCTL_TRACER_UMOD_DEREG_SIZE_IN sizeof(SUPTRACERUMODDEREG)
1332#define SUP_IOCTL_TRACER_UMOD_DEREG_SIZE_OUT sizeof(SUPREQHDR)
1333typedef struct SUPTRACERUMODDEREG
1334{
1335 /** The header. */
1336 SUPREQHDR Hdr;
1337 union
1338 {
1339 struct
1340 {
1341 /** Pointer to the VTG header. */
1342 RTR3PTR pVtgHdr;
1343 } In;
1344 } u;
1345} SUPTRACERUMODDEREG, *PSUPTRACERUMODDEREG;
1346/** @} */
1347
1348
1349/** @name SUP_IOCTL_TRACER_UMOD_FIRE_PROBE
1350 * Fire a probe in a user tracepoint module.
1351 *
1352 * @{
1353 */
1354#define SUP_IOCTL_TRACER_UMOD_FIRE_PROBE SUP_CTL_CODE_SIZE(33, SUP_IOCTL_TRACER_UMOD_FIRE_PROBE_SIZE)
1355#define SUP_IOCTL_TRACER_UMOD_FIRE_PROBE_SIZE sizeof(SUPTRACERUMODFIREPROBE)
1356#define SUP_IOCTL_TRACER_UMOD_FIRE_PROBE_SIZE_IN sizeof(SUPTRACERUMODFIREPROBE)
1357#define SUP_IOCTL_TRACER_UMOD_FIRE_PROBE_SIZE_OUT sizeof(SUPREQHDR)
1358typedef struct SUPTRACERUMODFIREPROBE
1359{
1360 /** The header. */
1361 SUPREQHDR Hdr;
1362 union
1363 {
1364 SUPDRVTRACERUSRCTX In;
1365 } u;
1366} SUPTRACERUMODFIREPROBE, *PSUPTRACERUMODFIREPROBE;
1367/** @} */
1368
1369
1370/** @name SUP_IOCTL_MSR_PROBER
1371 * MSR probing interface, not available in normal builds.
1372 *
1373 * @{
1374 */
1375#define SUP_IOCTL_MSR_PROBER SUP_CTL_CODE_SIZE(34, SUP_IOCTL_MSR_PROBER_SIZE)
1376#define SUP_IOCTL_MSR_PROBER_SIZE sizeof(SUPMSRPROBER)
1377#define SUP_IOCTL_MSR_PROBER_SIZE_IN sizeof(SUPMSRPROBER)
1378#define SUP_IOCTL_MSR_PROBER_SIZE_OUT sizeof(SUPMSRPROBER)
1379
1380typedef enum SUPMSRPROBEROP
1381{
1382 SUPMSRPROBEROP_INVALID = 0, /**< The customary invalid zero value. */
1383 SUPMSRPROBEROP_READ, /**< Read an MSR. */
1384 SUPMSRPROBEROP_WRITE, /**< Write a value to an MSR (use with care!). */
1385 SUPMSRPROBEROP_MODIFY, /**< Read-modify-restore-flushall. */
1386 SUPMSRPROBEROP_MODIFY_FASTER, /**< Read-modify-restore, skip the flushing. */
1387 SUPMSRPROBEROP_END, /**< End of valid values. */
1388 SUPMSRPROBEROP_32BIT_HACK = 0x7fffffff /**< The customary 32-bit type hack. */
1389} SUPMSRPROBEROP;
1390
1391typedef struct SUPMSRPROBER
1392{
1393 /** The header. */
1394 SUPREQHDR Hdr;
1395
1396 /** Input/output union. */
1397 union
1398 {
1399 /** Inputs. */
1400 struct
1401 {
1402 /** The operation. */
1403 SUPMSRPROBEROP enmOp;
1404 /** The MSR to test. */
1405 uint32_t uMsr;
1406 /** The CPU to perform the operation on.
1407 * Use UINT32_MAX to indicate that any CPU will do. */
1408 uint32_t idCpu;
1409 /** Alignment padding. */
1410 uint32_t u32Padding;
1411 /** Operation specific arguments. */
1412 union
1413 {
1414 /* SUPMSRPROBEROP_READ takes no extra arguments. */
1415
1416 /** For SUPMSRPROBEROP_WRITE. */
1417 struct
1418 {
1419 /** The value to write. */
1420 uint64_t uToWrite;
1421 } Write;
1422
1423 /** For SUPMSRPROBEROP_MODIFY and SUPMSRPROBEROP_MODIFY_FASTER. */
1424 struct
1425 {
1426 /** The value to AND the current MSR value with to construct the value to
1427 * write. This applied first. */
1428 uint64_t fAndMask;
1429 /** The value to OR the result of the above mentioned AND operation with
1430 * attempting to modify the MSR. */
1431 uint64_t fOrMask;
1432 } Modify;
1433
1434 /** Reserve space for the future.. */
1435 uint64_t auPadding[3];
1436 } uArgs;
1437 } In;
1438
1439 /** Outputs. */
1440 struct
1441 {
1442 /** Operation specific results. */
1443 union
1444 {
1445 /** For SUPMSRPROBEROP_READ. */
1446 struct
1447 {
1448 /** The value we've read. */
1449 uint64_t uValue;
1450 /** Set if we GPed while reading it. */
1451 bool fGp;
1452 } Read;
1453
1454 /** For SUPMSRPROBEROP_WRITE. */
1455 struct
1456 {
1457 /** Set if we GPed while writing it. */
1458 bool fGp;
1459 } Write;
1460
1461 /** For SUPMSRPROBEROP_MODIFY and SUPMSRPROBEROP_MODIFY_FASTER. */
1462 SUPMSRPROBERMODIFYRESULT Modify;
1463
1464 /** Size padding/aligning. */
1465 uint64_t auPadding[5];
1466 } uResults;
1467 } Out;
1468 } u;
1469} SUPMSRPROBER, *PSUPMSRPROBER;
1470AssertCompileMemberAlignment(SUPMSRPROBER, u, 8);
1471AssertCompileMemberAlignment(SUPMSRPROBER, u.In.uArgs, 8);
1472AssertCompileMembersSameSizeAndOffset(SUPMSRPROBER, u.In, SUPMSRPROBER, u.Out);
1473/** @} */
1474
1475/** @name SUP_IOCTL_RESUME_SUSPENDED_KBDS
1476 * Resume suspended keyboard devices if any found in the system.
1477 *
1478 * @{
1479 */
1480#define SUP_IOCTL_RESUME_SUSPENDED_KBDS SUP_CTL_CODE_SIZE(35, SUP_IOCTL_RESUME_SUSPENDED_KBDS_SIZE)
1481#define SUP_IOCTL_RESUME_SUSPENDED_KBDS_SIZE sizeof(SUPREQHDR)
1482#define SUP_IOCTL_RESUME_SUSPENDED_KBDS_SIZE_IN sizeof(SUPREQHDR)
1483#define SUP_IOCTL_RESUME_SUSPENDED_KBDS_SIZE_OUT sizeof(SUPREQHDR)
1484/** @} */
1485
1486
1487/** @name SUP_IOCTL_TSC_DELTA_MEASURE
1488 * Measure the TSC-delta between the specified CPU and the master TSC.
1489 *
1490 * To call this I/O control, the client must first have mapped the GIP.
1491 *
1492 * @{
1493 */
1494#define SUP_IOCTL_TSC_DELTA_MEASURE SUP_CTL_CODE_SIZE(36, SUP_IOCTL_TSC_DELTA_MEASURE_SIZE)
1495#define SUP_IOCTL_TSC_DELTA_MEASURE_SIZE sizeof(SUPTSCDELTAMEASURE)
1496#define SUP_IOCTL_TSC_DELTA_MEASURE_SIZE_IN sizeof(SUPTSCDELTAMEASURE)
1497#define SUP_IOCTL_TSC_DELTA_MEASURE_SIZE_OUT sizeof(SUPREQHDR)
1498typedef struct SUPTSCDELTAMEASURE
1499{
1500 /** The header. */
1501 SUPREQHDR Hdr;
1502
1503 /** Input/output union. */
1504 union
1505 {
1506 struct
1507 {
1508 /** Which CPU to take the TSC-delta measurement for. */
1509 RTCPUID idCpu;
1510 /** Number of times to retry on failure (specify 0 for default). */
1511 uint8_t cRetries;
1512 /** Number of milliseconds to wait before each retry. */
1513 uint8_t cMsWaitRetry;
1514 /** Whether to force taking a measurement if one exists already. */
1515 bool fForce;
1516 /** Whether to do the measurement asynchronously (if possible). */
1517 bool fAsync;
1518 } In;
1519 } u;
1520} SUPTSCDELTAMEASURE, *PSUPTSCDELTAMEASURE;
1521AssertCompileMemberAlignment(SUPTSCDELTAMEASURE, u, 8);
1522AssertCompileSize(SUPTSCDELTAMEASURE, 6*4 + 4+1+1+1+1);
1523/** @} */
1524
1525/** @name SUP_IOCTL_TSC_READ
1526 * Reads the TSC and apply TSC-delta if applicable, determining the delta if
1527 * necessary (i64TSCDelta = INT64_MAX).
1528 *
1529 * This latter function is the primary use case of this I/O control. To call
1530 * this I/O control, the client must first have mapped the GIP.
1531 *
1532 * @{
1533 */
1534#define SUP_IOCTL_TSC_READ SUP_CTL_CODE_SIZE(37, SUP_IOCTL_TSC_READ_SIZE)
1535#define SUP_IOCTL_TSC_READ_SIZE sizeof(SUPTSCREAD)
1536#define SUP_IOCTL_TSC_READ_SIZE_IN sizeof(SUPREQHDR)
1537#define SUP_IOCTL_TSC_READ_SIZE_OUT sizeof(SUPTSCREAD)
1538typedef struct SUPTSCREAD
1539{
1540 /** The header. */
1541 SUPREQHDR Hdr;
1542
1543 /** Input/output union. */
1544 union
1545 {
1546 struct
1547 {
1548 /** The TSC after applying the relevant delta. */
1549 uint64_t u64AdjustedTsc;
1550 /** The APIC Id of the CPU where the TSC was read. */
1551 uint16_t idApic;
1552 /** Explicit alignment padding. */
1553 uint16_t auPadding[3];
1554 } Out;
1555 } u;
1556} SUPTSCREAD, *PSUPTSCREAD;
1557AssertCompileMemberAlignment(SUPTSCREAD, u, 8);
1558AssertCompileSize(SUPTSCREAD, 6*4 + 2*8);
1559/** @} */
1560
1561#pragma pack() /* paranoia */
1562
1563#endif
1564
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