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source: vbox/trunk/src/recompiler/VBoxREMWrapper.cpp@ 72334

Last change on this file since 72334 was 69500, checked in by vboxsync, 7 years ago

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1/* $Id: VBoxREMWrapper.cpp 69500 2017-10-28 15:14:05Z vboxsync $ */
2/** @file
3 *
4 * VBoxREM Win64 DLL Wrapper.
5 */
6/*
7 * Copyright (C) 2006-2017 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/** @page pg_vboxrem_amd64 VBoxREM Hacks on AMD64
20 *
21 * There are problems with building BoxREM both on WIN64 and 64-bit linux.
22 *
23 * On linux binutils refuses to link shared objects without -fPIC compiled code
24 * (bitches about some fixup types). But when trying to build with -fPIC dyngen
25 * doesn't like the code anymore. Sweet. The current solution is to build the
26 * VBoxREM code as a relocatable module and use our ELF loader to load it.
27 *
28 * On WIN64 we're not aware of any GCC port which can emit code using the MSC
29 * calling convention. So, we're in for some real fun here. The choice is between
30 * porting GCC to AMD64 WIN64 and coming up with some kind of wrapper around
31 * either the win32 build or the 64-bit linux build.
32 *
33 * -# Porting GCC will be a lot of work. For one thing the calling convention differs
34 * and messing with such stuff can easily create ugly bugs. We would also have to
35 * do some binutils changes, but I think those are rather small compared to GCC.
36 * (That said, the MSC calling convention is far simpler than the linux one, it
37 * reminds me of _Optlink which we have working already.)
38 * -# Wrapping win32 code will work, but addresses outside the first 4GB are
39 * inaccessible and we will have to create 32-64 thunks for all imported functions.
40 * (To switch between 32-bit and 64-bit is load the right CS using far jmps (32->64)
41 * or far returns (both).)
42 * -# Wrapping 64-bit linux code might be the easier solution. The requirements here
43 * are:
44 * - Remove all CRT references we possibly, either by using intrinsics or using
45 * IPRT. Part of IPRT will be linked into VBoxREM2.rel, this will be yet another
46 * IPRT mode which I've dubbed 'no-crt'. The no-crt mode provide basic non-system
47 * dependent stuff.
48 * - Compile and link it into a relocatable object (include the gcc intrinsics
49 * in libgcc). Call this VBoxREM2.rel.
50 * - Write a wrapper dll, VBoxREM.dll, for which during REMR3Init() will load
51 * VBoxREM2.rel (using IPRT) and generate calling convention wrappers
52 * for all IPRT functions and VBoxVMM functions that it uses. All exports
53 * will be wrapped vice versa.
54 * - For building on windows hosts, we will use a mingw32 hosted cross compiler.
55 * and add a 'no-crt' mode to IPRT where it provides the necessary CRT headers
56 * and function implementations.
57 *
58 * The 3rd solution will be tried out first since it requires the least effort and
59 * will let us make use of the full 64-bit register set.
60 *
61 *
62 *
63 * @section sec_vboxrem_amd64_compare Comparing the GCC and MSC calling conventions
64 *
65 * GCC expects the following (cut & past from page 20 in the ABI draft 0.96):
66 *
67 * @verbatim
68 %rax temporary register; with variable arguments passes information about the
69 number of SSE registers used; 1st return register.
70 [Not preserved]
71 %rbx callee-saved register; optionally used as base pointer.
72 [Preserved]
73 %rcx used to pass 4th integer argument to functions.
74 [Not preserved]
75 %rdx used to pass 3rd argument to functions; 2nd return register
76 [Not preserved]
77 %rsp stack pointer
78 [Preserved]
79 %rbp callee-saved register; optionally used as frame pointer
80 [Preserved]
81 %rsi used to pass 2nd argument to functions
82 [Not preserved]
83 %rdi used to pass 1st argument to functions
84 [Not preserved]
85 %r8 used to pass 5th argument to functions
86 [Not preserved]
87 %r9 used to pass 6th argument to functions
88 [Not preserved]
89 %r10 temporary register, used for passing a function's static chain
90 pointer [Not preserved]
91 %r11 temporary register
92 [Not preserved]
93 %r12-r15 callee-saved registers
94 [Preserved]
95 %xmm0-%xmm1 used to pass and return floating point arguments
96 [Not preserved]
97 %xmm2-%xmm7 used to pass floating point arguments
98 [Not preserved]
99 %xmm8-%xmm15 temporary registers
100 [Not preserved]
101 %mmx0-%mmx7 temporary registers
102 [Not preserved]
103 %st0 temporary register; used to return long double arguments
104 [Not preserved]
105 %st1 temporary registers; used to return long double arguments
106 [Not preserved]
107 %st2-%st7 temporary registers
108 [Not preserved]
109 %fs Reserved for system use (as thread specific data register)
110 [Not preserved]
111 @endverbatim
112 *
113 * Direction flag is preserved as cleared.
114 * The stack must be aligned on a 16-byte boundary before the 'call/jmp' instruction.
115 *
116 *
117 *
118 * MSC expects the following:
119 * @verbatim
120 rax return value, not preserved.
121 rbx preserved.
122 rcx 1st argument, integer, not preserved.
123 rdx 2nd argument, integer, not preserved.
124 rbp preserved.
125 rsp preserved.
126 rsi preserved.
127 rdi preserved.
128 r8 3rd argument, integer, not preserved.
129 r9 4th argument, integer, not preserved.
130 r10 scratch register, not preserved.
131 r11 scratch register, not preserved.
132 r12-r15 preserved.
133 xmm0 1st argument, fp, return value, not preserved.
134 xmm1 2st argument, fp, not preserved.
135 xmm2 3st argument, fp, not preserved.
136 xmm3 4st argument, fp, not preserved.
137 xmm4-xmm5 scratch, not preserved.
138 xmm6-xmm15 preserved.
139 @endverbatim
140 *
141 * Dunno what the direction flag is...
142 * The stack must be aligned on a 16-byte boundary before the 'call/jmp' instruction.
143 *
144 *
145 * Thus, When GCC code is calling MSC code we don't really have to preserve
146 * anything. But but MSC code is calling GCC code, we'll have to save esi and edi.
147 *
148 */
149
150
151/*********************************************************************************************************************************
152* Defined Constants And Macros *
153*********************************************************************************************************************************/
154/** @def USE_REM_STUBS
155 * Define USE_REM_STUBS to stub the entire REM stuff. This is useful during
156 * early porting (before we start running stuff).
157 */
158#if defined(DOXYGEN_RUNNING)
159# define USE_REM_STUBS
160#endif
161
162/** @def USE_REM_CALLING_CONVENTION_GLUE
163 * Define USE_REM_CALLING_CONVENTION_GLUE for platforms where it's necessary to
164 * use calling convention wrappers.
165 */
166#if (defined(RT_ARCH_AMD64) && defined(RT_OS_WINDOWS)) || defined(DOXYGEN_RUNNING)
167# define USE_REM_CALLING_CONVENTION_GLUE
168#endif
169
170/** @def USE_REM_IMPORT_JUMP_GLUE
171 * Define USE_REM_IMPORT_JUMP_GLUE for platforms where we need to
172 * emit some jump glue to deal with big addresses.
173 */
174#if (defined(RT_ARCH_AMD64) && !defined(USE_REM_CALLING_CONVENTION_GLUE) && !defined(RT_OS_DARWIN)) || defined(DOXYGEN_RUNNING)
175# define USE_REM_IMPORT_JUMP_GLUE
176#endif
177
178/** @def VBOX_USE_BITNESS_SELECTOR
179 * Define VBOX_USE_BITNESS_SELECTOR to build this module as a bitness selector
180 * between VBoxREM32 and VBoxREM64.
181 */
182#if defined(DOXYGEN_RUNNING)
183# define VBOX_USE_BITNESS_SELECTOR
184#endif
185
186/** @def VBOX_WITHOUT_REM_LDR_CYCLE
187 * Define VBOX_WITHOUT_REM_LDR_CYCLE dynamically resolve any dependencies on
188 * VBoxVMM and thus avoid the cyclic dependency between VBoxREM and VBoxVMM.
189 */
190#if defined(DOXYGEN_RUNNING)
191# define VBOX_WITHOUT_REM_LDR_CYCLE
192#endif
193
194
195/*********************************************************************************************************************************
196* Header Files *
197*********************************************************************************************************************************/
198#define LOG_GROUP LOG_GROUP_REM
199#include <VBox/vmm/rem.h>
200#include <VBox/vmm/vmm.h>
201#include <VBox/vmm/dbgf.h>
202#include <VBox/dbg.h>
203#include <VBox/vmm/csam.h>
204#include <VBox/vmm/mm.h>
205#include <VBox/vmm/em.h>
206#include <VBox/vmm/ssm.h>
207#include <VBox/vmm/hm.h>
208#include <VBox/vmm/patm.h>
209#include <VBox/vmm/pdm.h>
210#include <VBox/vmm/pdmcritsect.h>
211#include <VBox/vmm/pgm.h>
212#include <VBox/vmm/iom.h>
213#include <VBox/vmm/vm.h>
214#include <VBox/err.h>
215#include <VBox/log.h>
216#include <VBox/dis.h>
217
218#include <iprt/alloc.h>
219#include <iprt/assert.h>
220#include <iprt/ldr.h>
221#include <iprt/lockvalidator.h>
222#include <iprt/param.h>
223#include <iprt/path.h>
224#include <iprt/string.h>
225#include <iprt/stream.h>
226
227
228/*********************************************************************************************************************************
229* Structures and Typedefs *
230*********************************************************************************************************************************/
231/**
232 * Parameter descriptor.
233 */
234typedef struct REMPARMDESC
235{
236 /** Parameter flags (REMPARMDESC_FLAGS_*). */
237 uint8_t fFlags;
238 /** The parameter size if REMPARMDESC_FLAGS_SIZE is set. */
239 uint8_t cb;
240 /** Pointer to additional data.
241 * For REMPARMDESC_FLAGS_PFN this is a PREMFNDESC. */
242 void *pvExtra;
243
244} REMPARMDESC, *PREMPARMDESC;
245/** Pointer to a constant parameter descriptor. */
246typedef const REMPARMDESC *PCREMPARMDESC;
247
248/** @name Parameter descriptor flags.
249 * @{ */
250/** The parameter type is a kind of integer which could fit in a register. This includes pointers. */
251#define REMPARMDESC_FLAGS_INT 0
252/** The parameter is a GC pointer. */
253#define REMPARMDESC_FLAGS_GCPTR 1
254/** The parameter is a GC physical address. */
255#define REMPARMDESC_FLAGS_GCPHYS 2
256/** The parameter is a HC physical address. */
257#define REMPARMDESC_FLAGS_HCPHYS 3
258/** The parameter type is a kind of floating point. */
259#define REMPARMDESC_FLAGS_FLOAT 4
260/** The parameter value is a struct. This type takes a size. */
261#define REMPARMDESC_FLAGS_STRUCT 5
262/** The parameter is an elipsis. */
263#define REMPARMDESC_FLAGS_ELLIPSIS 6
264/** The parameter is a va_list. */
265#define REMPARMDESC_FLAGS_VALIST 7
266/** The parameter is a function pointer. pvExtra is a PREMFNDESC. */
267#define REMPARMDESC_FLAGS_PFN 8
268/** The parameter type mask. */
269#define REMPARMDESC_FLAGS_TYPE_MASK 15
270/** The parameter size field is valid. */
271#define REMPARMDESC_FLAGS_SIZE RT_BIT(7)
272/** @} */
273
274/**
275 * Function descriptor.
276 */
277typedef struct REMFNDESC
278{
279 /** The function name. */
280 const char *pszName;
281 /** Exports: Pointer to the function pointer.
282 * Imports: Pointer to the function. */
283 void *pv;
284 /** Array of parameter descriptors. */
285 PCREMPARMDESC paParams;
286 /** The number of parameter descriptors pointed to by paParams. */
287 uint8_t cParams;
288 /** Function flags (REMFNDESC_FLAGS_*). */
289 uint8_t fFlags;
290 /** The size of the return value. */
291 uint8_t cbReturn;
292 /** Pointer to the wrapper code for imports. */
293 void *pvWrapper;
294} REMFNDESC, *PREMFNDESC;
295/** Pointer to a constant function descriptor. */
296typedef const REMFNDESC *PCREMFNDESC;
297
298/** @name Function descriptor flags.
299 * @{ */
300/** The return type is void. */
301#define REMFNDESC_FLAGS_RET_VOID 0
302/** The return type is a kind of integer passed in rax/eax. This includes pointers. */
303#define REMFNDESC_FLAGS_RET_INT 1
304/** The return type is a kind of floating point. */
305#define REMFNDESC_FLAGS_RET_FLOAT 2
306/** The return value is a struct. This type take a size. */
307#define REMFNDESC_FLAGS_RET_STRUCT 3
308/** The return type mask. */
309#define REMFNDESC_FLAGS_RET_TYPE_MASK 7
310/** The argument list contains one or more va_list arguments (i.e. problems). */
311#define REMFNDESC_FLAGS_VALIST RT_BIT(6)
312/** The function has an ellipsis (i.e. a problem). */
313#define REMFNDESC_FLAGS_ELLIPSIS RT_BIT(7)
314/** @} */
315
316/**
317 * Chunk of read-write-executable memory.
318 */
319typedef struct REMEXECMEM
320{
321 /** The number of bytes left. */
322 struct REMEXECMEM *pNext;
323 /** The size of this chunk. */
324 uint32_t cb;
325 /** The offset of the next code block. */
326 uint32_t off;
327#if ARCH_BITS == 32
328 uint32_t padding;
329#endif
330} REMEXECMEM, *PREMEXECMEM;
331
332
333/*********************************************************************************************************************************
334* Global Variables *
335*********************************************************************************************************************************/
336#ifndef USE_REM_STUBS
337/** Loader handle of the REM object/DLL. */
338static RTLDRMOD g_ModREM2 = NIL_RTLDRMOD;
339# ifndef VBOX_USE_BITNESS_SELECTOR
340/** Pointer to the memory containing the loaded REM2 object/DLL. */
341static void *g_pvREM2 = NULL;
342/** The size of the memory g_pvREM2 is pointing to. */
343static size_t g_cbREM2 = 0;
344# endif
345# ifdef VBOX_WITHOUT_REM_LDR_CYCLE
346/** Loader handle of the VBoxVMM DLL. */
347static RTLDRMOD g_ModVMM = NIL_RTLDRMOD;
348# endif
349
350/** Linux object export addresses.
351 * These are references from the assembly wrapper code.
352 * @{ */
353static DECLCALLBACKPTR(int, pfnREMR3Init)(PVM);
354static DECLCALLBACKPTR(int, pfnREMR3InitFinalize)(PVM);
355static DECLCALLBACKPTR(int, pfnREMR3Term)(PVM);
356static DECLCALLBACKPTR(void, pfnREMR3Reset)(PVM);
357static DECLCALLBACKPTR(int, pfnREMR3Step)(PVM, PVMCPU);
358static DECLCALLBACKPTR(int, pfnREMR3BreakpointSet)(PVM, RTGCUINTPTR);
359static DECLCALLBACKPTR(int, pfnREMR3BreakpointClear)(PVM, RTGCUINTPTR);
360static DECLCALLBACKPTR(int, pfnREMR3EmulateInstruction)(PVM, PVMCPU);
361static DECLCALLBACKPTR(int, pfnREMR3Run)(PVM, PVMCPU);
362static DECLCALLBACKPTR(int, pfnREMR3State)(PVM, PVMCPU);
363static DECLCALLBACKPTR(int, pfnREMR3StateBack)(PVM, PVMCPU);
364static DECLCALLBACKPTR(void, pfnREMR3StateUpdate)(PVM, PVMCPU);
365static DECLCALLBACKPTR(void, pfnREMR3A20Set)(PVM, PVMCPU, bool);
366static DECLCALLBACKPTR(void, pfnREMR3ReplayHandlerNotifications)(PVM pVM);
367static DECLCALLBACKPTR(void, pfnREMR3NotifyPhysRamRegister)(PVM, RTGCPHYS, RTGCPHYS, unsigned);
368static DECLCALLBACKPTR(void, pfnREMR3NotifyPhysRamDeregister)(PVM, RTGCPHYS, RTUINT);
369static DECLCALLBACKPTR(void, pfnREMR3NotifyPhysRomRegister)(PVM, RTGCPHYS, RTUINT, void *, bool);
370static DECLCALLBACKPTR(void, pfnREMR3NotifyHandlerPhysicalModify)(PVM, PGMPHYSHANDLERKIND, RTGCPHYS, RTGCPHYS, RTGCPHYS, bool, bool);
371static DECLCALLBACKPTR(void, pfnREMR3NotifyHandlerPhysicalRegister)(PVM, PGMPHYSHANDLERKIND, RTGCPHYS, RTGCPHYS, bool);
372static DECLCALLBACKPTR(void, pfnREMR3NotifyHandlerPhysicalDeregister)(PVM, PGMPHYSHANDLERKIND, RTGCPHYS, RTGCPHYS, bool, bool);
373static DECLCALLBACKPTR(void, pfnREMR3NotifyInterruptSet)(PVM, PVMCPU);
374static DECLCALLBACKPTR(void, pfnREMR3NotifyInterruptClear)(PVM, PVMCPU);
375static DECLCALLBACKPTR(void, pfnREMR3NotifyTimerPending)(PVM, PVMCPU);
376static DECLCALLBACKPTR(void, pfnREMR3NotifyDmaPending)(PVM);
377static DECLCALLBACKPTR(void, pfnREMR3NotifyQueuePending)(PVM);
378static DECLCALLBACKPTR(void, pfnREMR3NotifyFF)(PVM);
379static DECLCALLBACKPTR(int, pfnREMR3NotifyCodePageChanged)(PVM, PVMCPU, RTGCPTR);
380static DECLCALLBACKPTR(int, pfnREMR3DisasEnableStepping)(PVM, bool);
381static DECLCALLBACKPTR(bool, pfnREMR3IsPageAccessHandled)(PVM, RTGCPHYS);
382/** @} */
383
384/** Export and import parameter descriptors.
385 * @{
386 */
387/* Common args. */
388static const REMPARMDESC g_aArgsSIZE_T[] =
389{
390 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL }
391};
392static const REMPARMDESC g_aArgsPTR[] =
393{
394 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL }
395};
396static const REMPARMDESC g_aArgsSIZE_TTag[] =
397{
398 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL },
399 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL }
400};
401static const REMPARMDESC g_aArgsPTRTag[] =
402{
403 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL },
404 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL }
405};
406static const REMPARMDESC g_aArgsPTR_SIZE_T[] =
407{
408 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL },
409 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL }
410};
411static const REMPARMDESC g_aArgsSIZE_TTagLoc[] =
412{
413 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL },
414 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
415 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
416 { REMPARMDESC_FLAGS_INT, sizeof(unsigned int), NULL },
417 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL }
418};
419static const REMPARMDESC g_aArgsPTRLoc[] =
420{
421 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL },
422 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
423 { REMPARMDESC_FLAGS_INT, sizeof(unsigned int), NULL },
424 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL }
425};
426static const REMPARMDESC g_aArgsVM[] =
427{
428 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL }
429};
430static const REMPARMDESC g_aArgsVMCPU[] =
431{
432 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL }
433};
434
435static const REMPARMDESC g_aArgsVMandVMCPU[] =
436{
437 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
438 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL }
439};
440
441/* REM args */
442static const REMPARMDESC g_aArgsBreakpoint[] =
443{
444 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
445 { REMPARMDESC_FLAGS_GCPTR, sizeof(RTGCUINTPTR), NULL }
446};
447static const REMPARMDESC g_aArgsA20Set[] =
448{
449 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
450 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
451 { REMPARMDESC_FLAGS_INT, sizeof(bool), NULL }
452};
453static const REMPARMDESC g_aArgsNotifyPhysRamRegister[] =
454{
455 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
456 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
457 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
458 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL },
459 { REMPARMDESC_FLAGS_INT, sizeof(unsigned), NULL }
460};
461static const REMPARMDESC g_aArgsNotifyPhysRamChunkRegister[] =
462{
463 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
464 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
465 { REMPARMDESC_FLAGS_INT, sizeof(RTUINT), NULL },
466 { REMPARMDESC_FLAGS_INT, sizeof(RTHCUINTPTR), NULL },
467 { REMPARMDESC_FLAGS_INT, sizeof(unsigned), NULL }
468};
469static const REMPARMDESC g_aArgsNotifyPhysRamDeregister[] =
470{
471 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
472 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
473 { REMPARMDESC_FLAGS_INT, sizeof(RTUINT), NULL }
474};
475static const REMPARMDESC g_aArgsNotifyPhysRomRegister[] =
476{
477 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
478 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
479 { REMPARMDESC_FLAGS_INT, sizeof(RTUINT), NULL },
480 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL },
481 { REMPARMDESC_FLAGS_INT, sizeof(bool), NULL }
482};
483static const REMPARMDESC g_aArgsNotifyHandlerPhysicalModify[] =
484{
485 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
486 { REMPARMDESC_FLAGS_INT, sizeof(PGMPHYSHANDLERKIND), NULL },
487 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
488 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
489 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
490 { REMPARMDESC_FLAGS_INT, sizeof(bool), NULL },
491 { REMPARMDESC_FLAGS_INT, sizeof(bool), NULL }
492};
493static const REMPARMDESC g_aArgsNotifyHandlerPhysicalRegister[] =
494{
495 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
496 { REMPARMDESC_FLAGS_INT, sizeof(PGMPHYSHANDLERKIND), NULL },
497 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
498 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
499 { REMPARMDESC_FLAGS_INT, sizeof(bool), NULL }
500};
501static const REMPARMDESC g_aArgsNotifyHandlerPhysicalDeregister[] =
502{
503 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
504 { REMPARMDESC_FLAGS_INT, sizeof(PGMPHYSHANDLERKIND), NULL },
505 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
506 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
507 { REMPARMDESC_FLAGS_INT, sizeof(bool), NULL },
508 { REMPARMDESC_FLAGS_INT, sizeof(bool), NULL }
509};
510static const REMPARMDESC g_aArgsNotifyCodePageChanged[] =
511{
512 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
513 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
514 { REMPARMDESC_FLAGS_GCPTR, sizeof(RTGCUINTPTR), NULL }
515};
516static const REMPARMDESC g_aArgsNotifyPendingInterrupt[] =
517{
518 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
519 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
520 { REMPARMDESC_FLAGS_INT, sizeof(uint8_t), NULL }
521};
522static const REMPARMDESC g_aArgsDisasEnableStepping[] =
523{
524 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
525 { REMPARMDESC_FLAGS_INT, sizeof(bool), NULL }
526};
527static const REMPARMDESC g_aArgsIsPageAccessHandled[] =
528{
529 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
530 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL }
531};
532
533# ifndef VBOX_USE_BITNESS_SELECTOR
534
535/* VMM args */
536static const REMPARMDESC g_aArgsAPICUpdatePendingInterrupts[] =
537{
538 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL }
539};
540static const REMPARMDESC g_aArgsAPICGetTpr[] =
541{
542 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
543 { REMPARMDESC_FLAGS_INT, sizeof(uint8_t *), NULL },
544 { REMPARMDESC_FLAGS_INT, sizeof(bool *), NULL },
545 { REMPARMDESC_FLAGS_INT, sizeof(uint8_t *), NULL }
546};
547static const REMPARMDESC g_aArgsAPICSetTpr[] =
548{
549 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
550 { REMPARMDESC_FLAGS_INT, sizeof(uint8_t), NULL }
551};
552static const REMPARMDESC g_aArgsCPUMGetGuestCpl[] =
553{
554 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
555};
556
557/* CPUMQueryGuestMsr args */
558static const REMPARMDESC g_aArgsCPUMQueryGuestMsr[] =
559{
560 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
561 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
562 { REMPARMDESC_FLAGS_INT, sizeof(uint64_t *), NULL },
563};
564
565/* CPUMSetGuestMsr args */
566static const REMPARMDESC g_aArgsCPUMSetGuestMsr[] =
567{
568 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
569 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
570 { REMPARMDESC_FLAGS_INT, sizeof(uint64_t), NULL },
571};
572
573static const REMPARMDESC g_aArgsCPUMGetGuestCpuId[] =
574{
575 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
576 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
577 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
578 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t *), NULL },
579 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t *), NULL },
580 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t *), NULL },
581 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t *), NULL }
582};
583
584static const REMPARMDESC g_aArgsCPUMR3RemEnter[] =
585{
586 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
587 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t *), NULL }
588};
589
590static const REMPARMDESC g_aArgsCPUMR3RemLeave[] =
591{
592 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
593 { REMPARMDESC_FLAGS_INT, sizeof(bool), NULL }
594};
595
596static const REMPARMDESC g_aArgsCPUMSetChangedFlags[] =
597{
598 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
599 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL }
600};
601
602static const REMPARMDESC g_aArgsCPUMQueryGuestCtxPtr[] =
603{
604 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL }
605};
606static const REMPARMDESC g_aArgsCSAMR3MonitorPage[] =
607{
608 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
609 { REMPARMDESC_FLAGS_INT, sizeof(RTRCPTR), NULL },
610 { REMPARMDESC_FLAGS_INT, sizeof(CSAMTAG), NULL }
611};
612static const REMPARMDESC g_aArgsCSAMR3UnmonitorPage[] =
613{
614 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
615 { REMPARMDESC_FLAGS_INT, sizeof(RTRCPTR), NULL },
616 { REMPARMDESC_FLAGS_INT, sizeof(CSAMTAG), NULL }
617};
618
619static const REMPARMDESC g_aArgsCSAMR3RecordCallAddress[] =
620{
621 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
622 { REMPARMDESC_FLAGS_INT, sizeof(RTRCPTR), NULL }
623};
624
625# if defined(VBOX_WITH_DEBUGGER) && !(defined(RT_OS_WINDOWS) && defined(RT_ARCH_AMD64)) /* the callbacks are problematic */
626static const REMPARMDESC g_aArgsDBGCRegisterCommands[] =
627{
628 { REMPARMDESC_FLAGS_INT, sizeof(PCDBGCCMD), NULL },
629 { REMPARMDESC_FLAGS_INT, sizeof(unsigned), NULL }
630};
631# endif
632static const REMPARMDESC g_aArgsDBGFR3DisasInstrEx[] =
633{
634 { REMPARMDESC_FLAGS_INT, sizeof(PUVM), NULL },
635 { REMPARMDESC_FLAGS_INT, sizeof(VMCPUID), NULL },
636 { REMPARMDESC_FLAGS_INT, sizeof(RTSEL), NULL },
637 { REMPARMDESC_FLAGS_INT, sizeof(RTGCPTR), NULL },
638 { REMPARMDESC_FLAGS_INT, sizeof(unsigned), NULL },
639 { REMPARMDESC_FLAGS_INT, sizeof(char *), NULL },
640 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
641 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t *), NULL }
642};
643static const REMPARMDESC g_aArgsDBGFR3DisasInstrCurrentLogInternal[] =
644{
645 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
646 { REMPARMDESC_FLAGS_INT, sizeof(char *), NULL }
647};
648static const REMPARMDESC g_aArgsDBGFR3Info[] =
649{
650 { REMPARMDESC_FLAGS_INT, sizeof(PUVM), NULL },
651 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
652 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
653 { REMPARMDESC_FLAGS_INT, sizeof(PCDBGFINFOHLP), NULL }
654};
655static const REMPARMDESC g_aArgsDBGFR3AsSymbolByAddr[] =
656{
657 { REMPARMDESC_FLAGS_INT, sizeof(PUVM), NULL },
658 { REMPARMDESC_FLAGS_INT, sizeof(RTDBGAS), NULL },
659 { REMPARMDESC_FLAGS_INT, sizeof(PCDBGFADDRESS), NULL },
660 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
661 { REMPARMDESC_FLAGS_GCPTR, sizeof(PRTGCINTPTR), NULL },
662 { REMPARMDESC_FLAGS_INT, sizeof(PRTDBGSYMBOL), NULL },
663 { REMPARMDESC_FLAGS_INT, sizeof(PRTDBGMOD), NULL }
664};
665static const REMPARMDESC g_aArgsDBGFR3AddrFromFlat[] =
666{
667 { REMPARMDESC_FLAGS_INT, sizeof(PUVM), NULL },
668 { REMPARMDESC_FLAGS_INT, sizeof(PDBGFADDRESS), NULL },
669 { REMPARMDESC_FLAGS_INT, sizeof(RTGCUINTPTR), NULL }
670};
671static const REMPARMDESC g_aArgsDISInstrToStr[] =
672{
673 { REMPARMDESC_FLAGS_INT, sizeof(uint8_t const *), NULL },
674 { REMPARMDESC_FLAGS_INT, sizeof(DISCPUMODE), NULL },
675 { REMPARMDESC_FLAGS_INT, sizeof(PDISCPUSTATE), NULL },
676 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t *), NULL },
677 { REMPARMDESC_FLAGS_INT, sizeof(char *), NULL },
678 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL }
679};
680static const REMPARMDESC g_aArgsEMR3FatalError[] =
681{
682 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
683 { REMPARMDESC_FLAGS_INT, sizeof(int), NULL }
684};
685static const REMPARMDESC g_aArgsEMSetInhibitInterruptsPC[] =
686{
687 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
688 { REMPARMDESC_FLAGS_INT, sizeof(RTGCPTR), NULL }
689};
690static const REMPARMDESC g_aArgsHMR3CanExecuteGuest[] =
691{
692 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
693 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
694 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
695 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL }
696};
697static const REMPARMDESC g_aArgsIOMIOPortRead[] =
698{
699 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
700 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
701 { REMPARMDESC_FLAGS_INT, sizeof(RTIOPORT), NULL },
702 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t *), NULL },
703 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL }
704};
705static const REMPARMDESC g_aArgsIOMIOPortWrite[] =
706{
707 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
708 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
709 { REMPARMDESC_FLAGS_INT, sizeof(RTIOPORT), NULL },
710 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
711 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL }
712};
713static const REMPARMDESC g_aArgsIOMMMIORead[] =
714{
715 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
716 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
717 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
718 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t *), NULL },
719 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL }
720};
721static const REMPARMDESC g_aArgsIOMMMIOWrite[] =
722{
723 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
724 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
725 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
726 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
727 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL }
728};
729static const REMPARMDESC g_aArgsMMR3HeapAlloc[] =
730{
731 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
732 { REMPARMDESC_FLAGS_INT, sizeof(MMTAG), NULL },
733 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL }
734};
735static const REMPARMDESC g_aArgsMMR3HeapAllocZ[] =
736{
737 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
738 { REMPARMDESC_FLAGS_INT, sizeof(MMTAG), NULL },
739 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL }
740};
741static const REMPARMDESC g_aArgsPATMIsPatchGCAddr[] =
742{
743 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
744 { REMPARMDESC_FLAGS_INT, sizeof(RTRCUINTPTR), NULL }
745};
746static const REMPARMDESC g_aArgsPATMR3QueryOpcode[] =
747{
748 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
749 { REMPARMDESC_FLAGS_INT, sizeof(RTRCPTR), NULL },
750 { REMPARMDESC_FLAGS_INT, sizeof(uint8_t *), NULL }
751};
752static const REMPARMDESC g_aArgsPDMGetInterrupt[] =
753{
754 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
755 { REMPARMDESC_FLAGS_INT, sizeof(uint8_t *), NULL }
756};
757static const REMPARMDESC g_aArgsPDMIsaSetIrq[] =
758{
759 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
760 { REMPARMDESC_FLAGS_INT, sizeof(uint8_t), NULL },
761 { REMPARMDESC_FLAGS_INT, sizeof(uint8_t), NULL },
762 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL }
763};
764static const REMPARMDESC g_aArgsPDMR3CritSectInit[] =
765{
766 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
767 { REMPARMDESC_FLAGS_INT, sizeof(PPDMCRITSECT), NULL },
768 /* RT_SRC_POS_DECL */
769 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
770 { REMPARMDESC_FLAGS_INT, sizeof(unsigned int), NULL },
771 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
772 { REMPARMDESC_FLAGS_INT, sizeof(char *), NULL },
773 { REMPARMDESC_FLAGS_ELLIPSIS, 0 }
774};
775static const REMPARMDESC g_aArgsPDMCritSectEnter[] =
776{
777 { REMPARMDESC_FLAGS_INT, sizeof(PPDMCRITSECT), NULL },
778 { REMPARMDESC_FLAGS_INT, sizeof(int), NULL }
779};
780static const REMPARMDESC g_aArgsPDMCritSectEnterDebug[] =
781{
782 { REMPARMDESC_FLAGS_INT, sizeof(PPDMCRITSECT), NULL },
783 { REMPARMDESC_FLAGS_INT, sizeof(int), NULL },
784 { REMPARMDESC_FLAGS_INT, sizeof(RTHCUINTPTR), NULL },
785 /* RT_SRC_POS_DECL */
786 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
787 { REMPARMDESC_FLAGS_INT, sizeof(unsigned), NULL },
788 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL }
789};
790static const REMPARMDESC g_aArgsPGMGetGuestMode[] =
791{
792 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
793};
794static const REMPARMDESC g_aArgsPGMGstGetPage[] =
795{
796 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
797 { REMPARMDESC_FLAGS_GCPTR, sizeof(RTGCPTR), NULL },
798 { REMPARMDESC_FLAGS_INT, sizeof(uint64_t *), NULL },
799 { REMPARMDESC_FLAGS_INT, sizeof(PRTGCPHYS), NULL }
800};
801static const REMPARMDESC g_aArgsPGMInvalidatePage[] =
802{
803 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
804 { REMPARMDESC_FLAGS_GCPTR, sizeof(RTGCPTR), NULL }
805};
806static const REMPARMDESC g_aArgsPGMR3PhysTlbGCPhys2Ptr[] =
807{
808 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
809 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
810 { REMPARMDESC_FLAGS_INT, sizeof(bool), NULL },
811 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL }
812};
813static const REMPARMDESC g_aArgsPGM3PhysGrowRange[] =
814{
815 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
816 { REMPARMDESC_FLAGS_INT, sizeof(PCRTGCPHYS), NULL }
817};
818static const REMPARMDESC g_aArgsPGMPhysIsGCPhysValid[] =
819{
820 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
821 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL }
822};
823static const REMPARMDESC g_aArgsPGMPhysRead[] =
824{
825 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
826 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
827 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL },
828 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL },
829 { REMPARMDESC_FLAGS_INT, sizeof(PGMACCESSORIGIN), NULL }
830};
831static const REMPARMDESC g_aArgsPGMPhysSimpleReadGCPtr[] =
832{
833 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
834 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL },
835 { REMPARMDESC_FLAGS_GCPTR, sizeof(RTGCPTR), NULL },
836 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL }
837};
838static const REMPARMDESC g_aArgsPGMPhysWrite[] =
839{
840 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
841 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
842 { REMPARMDESC_FLAGS_INT, sizeof(const void *), NULL },
843 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL },
844 { REMPARMDESC_FLAGS_INT, sizeof(PGMACCESSORIGIN), NULL }
845};
846static const REMPARMDESC g_aArgsPGMChangeMode[] =
847{
848 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
849 { REMPARMDESC_FLAGS_INT, sizeof(uint64_t), NULL },
850 { REMPARMDESC_FLAGS_INT, sizeof(uint64_t), NULL },
851 { REMPARMDESC_FLAGS_INT, sizeof(uint64_t), NULL }
852};
853static const REMPARMDESC g_aArgsPGMFlushTLB[] =
854{
855 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
856 { REMPARMDESC_FLAGS_INT, sizeof(uint64_t), NULL },
857 { REMPARMDESC_FLAGS_INT, sizeof(bool), NULL }
858};
859static const REMPARMDESC g_aArgsPGMR3PhysReadUxx[] =
860{
861 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
862 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
863 { REMPARMDESC_FLAGS_INT, sizeof(PGMACCESSORIGIN), NULL }
864};
865static const REMPARMDESC g_aArgsPGMR3PhysWriteU8[] =
866{
867 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
868 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
869 { REMPARMDESC_FLAGS_INT, sizeof(uint8_t), NULL },
870 { REMPARMDESC_FLAGS_INT, sizeof(PGMACCESSORIGIN), NULL }
871};
872static const REMPARMDESC g_aArgsPGMR3PhysWriteU16[] =
873{
874 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
875 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
876 { REMPARMDESC_FLAGS_INT, sizeof(uint16_t), NULL },
877 { REMPARMDESC_FLAGS_INT, sizeof(PGMACCESSORIGIN), NULL }
878};
879static const REMPARMDESC g_aArgsPGMR3PhysWriteU32[] =
880{
881 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
882 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
883 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
884 { REMPARMDESC_FLAGS_INT, sizeof(PGMACCESSORIGIN), NULL }
885};
886static const REMPARMDESC g_aArgsPGMR3PhysWriteU64[] =
887{
888 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
889 { REMPARMDESC_FLAGS_GCPHYS, sizeof(RTGCPHYS), NULL },
890 { REMPARMDESC_FLAGS_INT, sizeof(uint64_t), NULL },
891 { REMPARMDESC_FLAGS_INT, sizeof(PGMACCESSORIGIN), NULL }
892};
893static const REMPARMDESC g_aArgsRTMemReallocTag[] =
894{
895 { REMPARMDESC_FLAGS_INT, sizeof(void*), NULL },
896 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL },
897 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL }
898};
899static const REMPARMDESC g_aArgsRTMemEfRealloc[] =
900{
901 { REMPARMDESC_FLAGS_INT, sizeof(void*), NULL },
902 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL },
903 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
904 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
905 { REMPARMDESC_FLAGS_INT, sizeof(unsigned int), NULL },
906 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL }
907};
908static const REMPARMDESC g_aArgsSSMR3GetGCPtr[] =
909{
910 { REMPARMDESC_FLAGS_INT, sizeof(PSSMHANDLE), NULL },
911 { REMPARMDESC_FLAGS_INT, sizeof(PRTGCPTR), NULL }
912};
913static const REMPARMDESC g_aArgsSSMR3GetMem[] =
914{
915 { REMPARMDESC_FLAGS_INT, sizeof(PSSMHANDLE), NULL },
916 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL },
917 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL }
918};
919static const REMPARMDESC g_aArgsSSMR3GetU32[] =
920{
921 { REMPARMDESC_FLAGS_INT, sizeof(PSSMHANDLE), NULL },
922 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t *), NULL }
923};
924static const REMPARMDESC g_aArgsSSMR3GetUInt[] =
925{
926 { REMPARMDESC_FLAGS_INT, sizeof(PSSMHANDLE), NULL },
927 { REMPARMDESC_FLAGS_INT, sizeof(PRTUINT), NULL }
928};
929static const REMPARMDESC g_aArgsSSMR3PutGCPtr[] =
930{
931 { REMPARMDESC_FLAGS_INT, sizeof(PSSMHANDLE), NULL },
932 { REMPARMDESC_FLAGS_GCPTR, sizeof(RTGCPTR), NULL }
933};
934static const REMPARMDESC g_aArgsSSMR3PutMem[] =
935{
936 { REMPARMDESC_FLAGS_INT, sizeof(PSSMHANDLE), NULL },
937 { REMPARMDESC_FLAGS_INT, sizeof(const void *), NULL },
938 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL }
939};
940static const REMPARMDESC g_aArgsSSMR3PutU32[] =
941{
942 { REMPARMDESC_FLAGS_INT, sizeof(PSSMHANDLE), NULL },
943 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
944};
945static const REMPARMDESC g_aArgsSSMR3PutUInt[] =
946{
947 { REMPARMDESC_FLAGS_INT, sizeof(PSSMHANDLE), NULL },
948 { REMPARMDESC_FLAGS_INT, sizeof(RTUINT), NULL },
949};
950
951static const REMPARMDESC g_aArgsSSMIntLiveExecCallback[] =
952{
953 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
954 { REMPARMDESC_FLAGS_INT, sizeof(PSSMHANDLE), NULL },
955 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
956};
957static REMFNDESC g_SSMIntLiveExecCallback =
958{
959 "SSMIntLiveExecCallback", NULL, &g_aArgsSSMIntLiveExecCallback[0], RT_ELEMENTS(g_aArgsSSMIntLiveExecCallback), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL
960};
961
962static const REMPARMDESC g_aArgsSSMIntLiveVoteCallback[] =
963{
964 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
965 { REMPARMDESC_FLAGS_INT, sizeof(PSSMHANDLE), NULL },
966};
967static REMFNDESC g_SSMIntLiveVoteCallback =
968{
969 "SSMIntLiveVoteCallback", NULL, &g_aArgsSSMIntLiveVoteCallback[0], RT_ELEMENTS(g_aArgsSSMIntLiveVoteCallback), REMFNDESC_FLAGS_RET_INT, sizeof(bool), NULL
970};
971
972static const REMPARMDESC g_aArgsSSMIntCallback[] =
973{
974 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
975 { REMPARMDESC_FLAGS_INT, sizeof(PSSMHANDLE), NULL },
976};
977static REMFNDESC g_SSMIntCallback =
978{
979 "SSMIntCallback", NULL, &g_aArgsSSMIntCallback[0], RT_ELEMENTS(g_aArgsSSMIntCallback), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL
980};
981
982static const REMPARMDESC g_aArgsSSMIntLoadExecCallback[] =
983{
984 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
985 { REMPARMDESC_FLAGS_INT, sizeof(PSSMHANDLE), NULL },
986 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
987 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
988};
989static REMFNDESC g_SSMIntLoadExecCallback =
990{
991 "SSMIntLoadExecCallback", NULL, &g_aArgsSSMIntLoadExecCallback[0], RT_ELEMENTS(g_aArgsSSMIntLoadExecCallback), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL
992};
993/* Note: don't forget about the handwritten assembly wrapper when changing this! */
994static const REMPARMDESC g_aArgsSSMR3RegisterInternal[] =
995{
996 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
997 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
998 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
999 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL },
1000 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL },
1001 { REMPARMDESC_FLAGS_PFN, sizeof(PFNSSMINTLIVEPREP), &g_SSMIntCallback },
1002 { REMPARMDESC_FLAGS_PFN, sizeof(PFNSSMINTLIVEEXEC), &g_SSMIntLiveExecCallback },
1003 { REMPARMDESC_FLAGS_PFN, sizeof(PFNSSMINTLIVEVOTE), &g_SSMIntLiveVoteCallback },
1004 { REMPARMDESC_FLAGS_PFN, sizeof(PFNSSMINTSAVEPREP), &g_SSMIntCallback },
1005 { REMPARMDESC_FLAGS_PFN, sizeof(PFNSSMINTSAVEEXEC), &g_SSMIntCallback },
1006 { REMPARMDESC_FLAGS_PFN, sizeof(PFNSSMINTSAVEDONE), &g_SSMIntCallback },
1007 { REMPARMDESC_FLAGS_PFN, sizeof(PFNSSMINTLOADPREP), &g_SSMIntCallback },
1008 { REMPARMDESC_FLAGS_PFN, sizeof(PFNSSMINTLOADEXEC), &g_SSMIntLoadExecCallback },
1009 { REMPARMDESC_FLAGS_PFN, sizeof(PFNSSMINTLOADDONE), &g_SSMIntCallback },
1010};
1011
1012static const REMPARMDESC g_aArgsSTAMR3Register[] =
1013{
1014 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
1015 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL },
1016 { REMPARMDESC_FLAGS_INT, sizeof(STAMTYPE), NULL },
1017 { REMPARMDESC_FLAGS_INT, sizeof(STAMVISIBILITY), NULL },
1018 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
1019 { REMPARMDESC_FLAGS_INT, sizeof(STAMUNIT), NULL },
1020 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL }
1021};
1022static const REMPARMDESC g_aArgsSTAMR3Deregister[] =
1023{
1024 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
1025 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
1026};
1027static const REMPARMDESC g_aArgsTRPMAssertTrap[] =
1028{
1029 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
1030 { REMPARMDESC_FLAGS_INT, sizeof(uint8_t), NULL },
1031 { REMPARMDESC_FLAGS_INT, sizeof(TRPMEVENT), NULL }
1032};
1033static const REMPARMDESC g_aArgsTRPMQueryTrap[] =
1034{
1035 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
1036 { REMPARMDESC_FLAGS_INT, sizeof(uint8_t *), NULL },
1037 { REMPARMDESC_FLAGS_INT, sizeof(TRPMEVENT *), NULL }
1038};
1039static const REMPARMDESC g_aArgsTRPMSetErrorCode[] =
1040{
1041 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
1042 { REMPARMDESC_FLAGS_GCPTR, sizeof(RTGCUINT), NULL }
1043};
1044static const REMPARMDESC g_aArgsTRPMSetFaultAddress[] =
1045{
1046 { REMPARMDESC_FLAGS_INT, sizeof(PVMCPU), NULL },
1047 { REMPARMDESC_FLAGS_GCPTR, sizeof(RTGCUINT), NULL }
1048};
1049static const REMPARMDESC g_aArgsVMR3ReqCallWait[] =
1050{
1051 { REMPARMDESC_FLAGS_INT, sizeof(PVM), NULL },
1052 { REMPARMDESC_FLAGS_INT, sizeof(VMCPUID), NULL },
1053 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL },
1054 { REMPARMDESC_FLAGS_INT, sizeof(unsigned), NULL },
1055 { REMPARMDESC_FLAGS_ELLIPSIS, 0, NULL }
1056};
1057static const REMPARMDESC g_aArgsVMR3ReqFree[] =
1058{
1059 { REMPARMDESC_FLAGS_INT, sizeof(PVMREQ), NULL }
1060};
1061
1062/* IPRT args */
1063static const REMPARMDESC g_aArgsRTAssertMsg1[] =
1064{
1065 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
1066 { REMPARMDESC_FLAGS_INT, sizeof(unsigned), NULL },
1067 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
1068 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL }
1069};
1070static const REMPARMDESC g_aArgsRTAssertMsg2[] =
1071{
1072 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
1073 { REMPARMDESC_FLAGS_ELLIPSIS, 0, NULL }
1074};
1075static const REMPARMDESC g_aArgsRTAssertMsg2V[] =
1076{
1077 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
1078 { REMPARMDESC_FLAGS_VALIST, 0, NULL }
1079};
1080static const REMPARMDESC g_aArgsRTLogGetDefaultInstanceEx[] =
1081{
1082 { REMPARMDESC_FLAGS_INT, sizeof(uint32_t), NULL }
1083};
1084static const REMPARMDESC g_aArgsRTLogFlags[] =
1085{
1086 { REMPARMDESC_FLAGS_INT, sizeof(PRTLOGGER), NULL },
1087 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL }
1088};
1089static const REMPARMDESC g_aArgsRTLogFlush[] =
1090{
1091 { REMPARMDESC_FLAGS_INT, sizeof(PRTLOGGER), NULL }
1092};
1093static const REMPARMDESC g_aArgsRTLogLoggerEx[] =
1094{
1095 { REMPARMDESC_FLAGS_INT, sizeof(PRTLOGGER), NULL },
1096 { REMPARMDESC_FLAGS_INT, sizeof(unsigned), NULL },
1097 { REMPARMDESC_FLAGS_INT, sizeof(unsigned), NULL },
1098 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
1099 { REMPARMDESC_FLAGS_ELLIPSIS, 0, NULL }
1100};
1101static const REMPARMDESC g_aArgsRTLogLoggerExV[] =
1102{
1103 { REMPARMDESC_FLAGS_INT, sizeof(PRTLOGGER), NULL },
1104 { REMPARMDESC_FLAGS_INT, sizeof(unsigned), NULL },
1105 { REMPARMDESC_FLAGS_INT, sizeof(unsigned), NULL },
1106 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
1107 { REMPARMDESC_FLAGS_VALIST, 0, NULL }
1108};
1109static const REMPARMDESC g_aArgsRTLogPrintf[] =
1110{
1111 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
1112 { REMPARMDESC_FLAGS_ELLIPSIS, 0, NULL }
1113};
1114static const REMPARMDESC g_aArgsRTMemProtect[] =
1115{
1116 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL },
1117 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL },
1118 { REMPARMDESC_FLAGS_INT, sizeof(unsigned), NULL }
1119};
1120static const REMPARMDESC g_aArgsRTStrPrintf[] =
1121{
1122 { REMPARMDESC_FLAGS_INT, sizeof(char *), NULL },
1123 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL },
1124 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
1125 { REMPARMDESC_FLAGS_ELLIPSIS, 0, NULL }
1126};
1127static const REMPARMDESC g_aArgsRTStrPrintfV[] =
1128{
1129 { REMPARMDESC_FLAGS_INT, sizeof(char *), NULL },
1130 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL },
1131 { REMPARMDESC_FLAGS_INT, sizeof(const char *), NULL },
1132 { REMPARMDESC_FLAGS_VALIST, 0, NULL }
1133};
1134static const REMPARMDESC g_aArgsThread[] =
1135{
1136 { REMPARMDESC_FLAGS_INT, sizeof(RTTHREAD), NULL }
1137};
1138
1139
1140/* CRT args */
1141static const REMPARMDESC g_aArgsmemcpy[] =
1142{
1143 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL },
1144 { REMPARMDESC_FLAGS_INT, sizeof(const void *), NULL },
1145 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL }
1146};
1147static const REMPARMDESC g_aArgsmemset[] =
1148{
1149 { REMPARMDESC_FLAGS_INT, sizeof(void *), NULL },
1150 { REMPARMDESC_FLAGS_INT, sizeof(int), NULL },
1151 { REMPARMDESC_FLAGS_INT, sizeof(size_t), NULL }
1152};
1153
1154# endif /* !VBOX_USE_BITNESS_SELECTOR */
1155
1156/** @} */
1157
1158/**
1159 * Descriptors for the exported functions.
1160 */
1161static const REMFNDESC g_aExports[] =
1162{ /* pszName, (void *)pv, pParams, cParams, fFlags, cb, pvWrapper. */
1163 { "REMR3Init", (void *)&pfnREMR3Init, &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1164 { "REMR3InitFinalize", (void *)&pfnREMR3InitFinalize, &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1165 { "REMR3Term", (void *)&pfnREMR3Term, &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1166 { "REMR3Reset", (void *)&pfnREMR3Reset, &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1167 { "REMR3Step", (void *)&pfnREMR3Step, &g_aArgsVMandVMCPU[0], RT_ELEMENTS(g_aArgsVMandVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1168 { "REMR3BreakpointSet", (void *)&pfnREMR3BreakpointSet, &g_aArgsBreakpoint[0], RT_ELEMENTS(g_aArgsBreakpoint), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1169 { "REMR3BreakpointClear", (void *)&pfnREMR3BreakpointClear, &g_aArgsBreakpoint[0], RT_ELEMENTS(g_aArgsBreakpoint), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1170 { "REMR3EmulateInstruction", (void *)&pfnREMR3EmulateInstruction, &g_aArgsVMandVMCPU[0], RT_ELEMENTS(g_aArgsVMandVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1171 { "REMR3Run", (void *)&pfnREMR3Run, &g_aArgsVMandVMCPU[0], RT_ELEMENTS(g_aArgsVMandVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1172 { "REMR3State", (void *)&pfnREMR3State, &g_aArgsVMandVMCPU[0], RT_ELEMENTS(g_aArgsVMandVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1173 { "REMR3StateBack", (void *)&pfnREMR3StateBack, &g_aArgsVMandVMCPU[0], RT_ELEMENTS(g_aArgsVMandVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1174 { "REMR3StateUpdate", (void *)&pfnREMR3StateUpdate, &g_aArgsVMandVMCPU[0], RT_ELEMENTS(g_aArgsVMandVMCPU), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1175 { "REMR3A20Set", (void *)&pfnREMR3A20Set, &g_aArgsA20Set[0], RT_ELEMENTS(g_aArgsA20Set), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1176 { "REMR3ReplayHandlerNotifications", (void *)&pfnREMR3ReplayHandlerNotifications, &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1177 { "REMR3NotifyPhysRamRegister", (void *)&pfnREMR3NotifyPhysRamRegister, &g_aArgsNotifyPhysRamRegister[0], RT_ELEMENTS(g_aArgsNotifyPhysRamRegister), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1178 { "REMR3NotifyPhysRamDeregister", (void *)&pfnREMR3NotifyPhysRamDeregister, &g_aArgsNotifyPhysRamDeregister[0], RT_ELEMENTS(g_aArgsNotifyPhysRamDeregister), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1179 { "REMR3NotifyPhysRomRegister", (void *)&pfnREMR3NotifyPhysRomRegister, &g_aArgsNotifyPhysRomRegister[0], RT_ELEMENTS(g_aArgsNotifyPhysRomRegister), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1180 { "REMR3NotifyHandlerPhysicalModify", (void *)&pfnREMR3NotifyHandlerPhysicalModify, &g_aArgsNotifyHandlerPhysicalModify[0], RT_ELEMENTS(g_aArgsNotifyHandlerPhysicalModify), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1181 { "REMR3NotifyHandlerPhysicalRegister", (void *)&pfnREMR3NotifyHandlerPhysicalRegister, &g_aArgsNotifyHandlerPhysicalRegister[0], RT_ELEMENTS(g_aArgsNotifyHandlerPhysicalRegister), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1182 { "REMR3NotifyHandlerPhysicalDeregister", (void *)&pfnREMR3NotifyHandlerPhysicalDeregister, &g_aArgsNotifyHandlerPhysicalDeregister[0], RT_ELEMENTS(g_aArgsNotifyHandlerPhysicalDeregister), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1183 { "REMR3NotifyInterruptSet", (void *)&pfnREMR3NotifyInterruptSet, &g_aArgsVMandVMCPU[0], RT_ELEMENTS(g_aArgsVMandVMCPU), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1184 { "REMR3NotifyInterruptClear", (void *)&pfnREMR3NotifyInterruptClear, &g_aArgsVMandVMCPU[0], RT_ELEMENTS(g_aArgsVMandVMCPU), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1185 { "REMR3NotifyTimerPending", (void *)&pfnREMR3NotifyTimerPending, &g_aArgsVMandVMCPU[0], RT_ELEMENTS(g_aArgsVMandVMCPU), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1186 { "REMR3NotifyDmaPending", (void *)&pfnREMR3NotifyDmaPending, &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1187 { "REMR3NotifyQueuePending", (void *)&pfnREMR3NotifyQueuePending, &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1188 { "REMR3NotifyFF", (void *)&pfnREMR3NotifyFF, &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1189 { "REMR3NotifyCodePageChanged", (void *)&pfnREMR3NotifyCodePageChanged, &g_aArgsNotifyCodePageChanged[0], RT_ELEMENTS(g_aArgsNotifyCodePageChanged), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1190 { "REMR3DisasEnableStepping", (void *)&pfnREMR3DisasEnableStepping, &g_aArgsDisasEnableStepping[0], RT_ELEMENTS(g_aArgsDisasEnableStepping), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1191 { "REMR3IsPageAccessHandled", (void *)&pfnREMR3IsPageAccessHandled, &g_aArgsIsPageAccessHandled[0], RT_ELEMENTS(g_aArgsIsPageAccessHandled), REMFNDESC_FLAGS_RET_INT, sizeof(bool), NULL }
1192};
1193
1194# ifndef VBOX_USE_BITNESS_SELECTOR
1195
1196# ifdef VBOX_WITHOUT_REM_LDR_CYCLE
1197# define VMM_FN(name) NULL
1198# else
1199# define VMM_FN(name) (void *)(uintptr_t)& name
1200# endif
1201
1202/**
1203 * Descriptors for the functions imported from VBoxVMM.
1204 */
1205static REMFNDESC g_aVMMImports[] =
1206{
1207 { "APICUpdatePendingInterrupts", VMM_FN(APICUpdatePendingInterrupts), &g_aArgsAPICUpdatePendingInterrupts[0], RT_ELEMENTS(g_aArgsAPICUpdatePendingInterrupts), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1208 { "APICGetTpr", VMM_FN(APICGetTpr), &g_aArgsAPICGetTpr[0], RT_ELEMENTS(g_aArgsAPICGetTpr), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1209 { "APICSetTpr", VMM_FN(APICSetTpr), &g_aArgsAPICSetTpr[0], RT_ELEMENTS(g_aArgsAPICSetTpr), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1210 { "CPUMR3RemEnter", VMM_FN(CPUMR3RemEnter), &g_aArgsCPUMR3RemEnter[0], RT_ELEMENTS(g_aArgsCPUMR3RemEnter), REMFNDESC_FLAGS_RET_INT, sizeof(uint32_t), NULL },
1211 { "CPUMR3RemLeave", VMM_FN(CPUMR3RemLeave), &g_aArgsCPUMR3RemLeave[0], RT_ELEMENTS(g_aArgsCPUMR3RemLeave), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1212 { "CPUMSetChangedFlags", VMM_FN(CPUMSetChangedFlags), &g_aArgsCPUMSetChangedFlags[0], RT_ELEMENTS(g_aArgsCPUMSetChangedFlags), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1213 { "CPUMGetGuestCPL", VMM_FN(CPUMGetGuestCPL), &g_aArgsCPUMGetGuestCpl[0], RT_ELEMENTS(g_aArgsCPUMGetGuestCpl), REMFNDESC_FLAGS_RET_INT, sizeof(unsigned), NULL },
1214 { "CPUMQueryGuestMsr", VMM_FN(CPUMQueryGuestMsr), &g_aArgsCPUMQueryGuestMsr[0], RT_ELEMENTS(g_aArgsCPUMQueryGuestMsr), REMFNDESC_FLAGS_RET_INT, sizeof(uint64_t), NULL },
1215 { "CPUMSetGuestMsr", VMM_FN(CPUMSetGuestMsr), &g_aArgsCPUMSetGuestMsr[0], RT_ELEMENTS(g_aArgsCPUMSetGuestMsr), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1216 { "CPUMGetGuestCpuId", VMM_FN(CPUMGetGuestCpuId), &g_aArgsCPUMGetGuestCpuId[0], RT_ELEMENTS(g_aArgsCPUMGetGuestCpuId), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1217 { "CPUMGetGuestEAX", VMM_FN(CPUMGetGuestEAX), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(uint32_t), NULL },
1218 { "CPUMGetGuestEBP", VMM_FN(CPUMGetGuestEBP), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(uint32_t), NULL },
1219 { "CPUMGetGuestEBX", VMM_FN(CPUMGetGuestEBX), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(uint32_t), NULL },
1220 { "CPUMGetGuestECX", VMM_FN(CPUMGetGuestECX), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(uint32_t), NULL },
1221 { "CPUMGetGuestEDI", VMM_FN(CPUMGetGuestEDI), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(uint32_t), NULL },
1222 { "CPUMGetGuestEDX", VMM_FN(CPUMGetGuestEDX), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(uint32_t), NULL },
1223 { "CPUMGetGuestEIP", VMM_FN(CPUMGetGuestEIP), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(uint32_t), NULL },
1224 { "CPUMGetGuestESI", VMM_FN(CPUMGetGuestESI), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(uint32_t), NULL },
1225 { "CPUMGetGuestESP", VMM_FN(CPUMGetGuestESP), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(uint32_t), NULL },
1226 { "CPUMGetGuestCS", VMM_FN(CPUMGetGuestCS), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(RTSEL), NULL },
1227 { "CPUMGetGuestSS", VMM_FN(CPUMGetGuestSS), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(RTSEL), NULL },
1228 { "CPUMGetGuestCpuVendor", VMM_FN(CPUMGetGuestCpuVendor), &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(CPUMCPUVENDOR), NULL },
1229 { "CPUMQueryGuestCtxPtr", VMM_FN(CPUMQueryGuestCtxPtr), &g_aArgsCPUMQueryGuestCtxPtr[0], RT_ELEMENTS(g_aArgsCPUMQueryGuestCtxPtr), REMFNDESC_FLAGS_RET_INT, sizeof(PCPUMCTX), NULL },
1230 { "CSAMR3MonitorPage", VMM_FN(CSAMR3MonitorPage), &g_aArgsCSAMR3MonitorPage[0], RT_ELEMENTS(g_aArgsCSAMR3MonitorPage), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1231 { "CSAMR3UnmonitorPage", VMM_FN(CSAMR3UnmonitorPage), &g_aArgsCSAMR3UnmonitorPage[0], RT_ELEMENTS(g_aArgsCSAMR3UnmonitorPage), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1232 { "CSAMR3RecordCallAddress", VMM_FN(CSAMR3RecordCallAddress), &g_aArgsCSAMR3RecordCallAddress[0], RT_ELEMENTS(g_aArgsCSAMR3RecordCallAddress), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1233# if defined(VBOX_WITH_DEBUGGER) && !(defined(RT_OS_WINDOWS) && defined(RT_ARCH_AMD64)) /* the callbacks are problematic */
1234 { "DBGCRegisterCommands", VMM_FN(DBGCRegisterCommands), &g_aArgsDBGCRegisterCommands[0], RT_ELEMENTS(g_aArgsDBGCRegisterCommands), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1235# endif
1236 { "DBGFR3DisasInstrEx", VMM_FN(DBGFR3DisasInstrEx), &g_aArgsDBGFR3DisasInstrEx[0], RT_ELEMENTS(g_aArgsDBGFR3DisasInstrEx), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1237 { "DBGFR3DisasInstrCurrentLogInternal", VMM_FN(DBGFR3DisasInstrCurrentLogInternal), &g_aArgsDBGFR3DisasInstrCurrentLogInternal[0], RT_ELEMENTS(g_aArgsDBGFR3DisasInstrCurrentLogInternal),REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1238 { "DBGFR3Info", VMM_FN(DBGFR3Info), &g_aArgsDBGFR3Info[0], RT_ELEMENTS(g_aArgsDBGFR3Info), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1239 { "DBGFR3InfoLogRelHlp", VMM_FN(DBGFR3InfoLogRelHlp), NULL, 0, REMFNDESC_FLAGS_RET_INT, sizeof(void *), NULL },
1240 { "DBGFR3AsSymbolByAddr", VMM_FN(DBGFR3AsSymbolByAddr), &g_aArgsDBGFR3AsSymbolByAddr[0], RT_ELEMENTS(g_aArgsDBGFR3AsSymbolByAddr), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1241 { "DBGFR3AddrFromFlat", VMM_FN(DBGFR3AddrFromFlat), &g_aArgsDBGFR3AddrFromFlat[0], RT_ELEMENTS(g_aArgsDBGFR3AddrFromFlat), REMFNDESC_FLAGS_RET_INT, sizeof(PDBGFADDRESS), NULL },
1242 { "DISInstrToStr", VMM_FN(DISInstrToStr), &g_aArgsDISInstrToStr[0], RT_ELEMENTS(g_aArgsDISInstrToStr), REMFNDESC_FLAGS_RET_INT, sizeof(bool), NULL },
1243 { "EMR3FatalError", VMM_FN(EMR3FatalError), &g_aArgsEMR3FatalError[0], RT_ELEMENTS(g_aArgsEMR3FatalError), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1244 { "EMRemLock", VMM_FN(EMRemLock), &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1245 { "EMRemUnlock", VMM_FN(EMRemUnlock), &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1246 { "EMRemIsLockOwner", VMM_FN(EMRemIsLockOwner), &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_VOID, sizeof(bool), NULL },
1247 { "EMGetInhibitInterruptsPC", VMM_FN(EMGetInhibitInterruptsPC), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(RTGCPTR), NULL },
1248 { "EMSetInhibitInterruptsPC", VMM_FN(EMSetInhibitInterruptsPC), &g_aArgsEMSetInhibitInterruptsPC[0], RT_ELEMENTS(g_aArgsEMSetInhibitInterruptsPC), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1249 { "HMIsEnabledNotMacro", VMM_FN(HMIsEnabledNotMacro), &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_INT, sizeof(bool), NULL },
1250 { "HMR3CanExecuteGuest", VMM_FN(HMR3CanExecuteGuest), &g_aArgsHMR3CanExecuteGuest[0], RT_ELEMENTS(g_aArgsHMR3CanExecuteGuest), REMFNDESC_FLAGS_RET_INT, sizeof(bool), NULL },
1251 { "IOMIOPortRead", VMM_FN(IOMIOPortRead), &g_aArgsIOMIOPortRead[0], RT_ELEMENTS(g_aArgsIOMIOPortRead), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1252 { "IOMIOPortWrite", VMM_FN(IOMIOPortWrite), &g_aArgsIOMIOPortWrite[0], RT_ELEMENTS(g_aArgsIOMIOPortWrite), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1253 { "IOMMMIORead", VMM_FN(IOMMMIORead), &g_aArgsIOMMMIORead[0], RT_ELEMENTS(g_aArgsIOMMMIORead), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1254 { "IOMMMIOWrite", VMM_FN(IOMMMIOWrite), &g_aArgsIOMMMIOWrite[0], RT_ELEMENTS(g_aArgsIOMMMIOWrite), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1255 { "MMR3HeapAlloc", VMM_FN(MMR3HeapAlloc), &g_aArgsMMR3HeapAlloc[0], RT_ELEMENTS(g_aArgsMMR3HeapAlloc), REMFNDESC_FLAGS_RET_INT, sizeof(void *), NULL },
1256 { "MMR3HeapAllocZ", VMM_FN(MMR3HeapAllocZ), &g_aArgsMMR3HeapAllocZ[0], RT_ELEMENTS(g_aArgsMMR3HeapAllocZ), REMFNDESC_FLAGS_RET_INT, sizeof(void *), NULL },
1257 { "MMR3PhysGetRamSize", VMM_FN(MMR3PhysGetRamSize), &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_INT, sizeof(uint64_t), NULL },
1258 { "PATMIsPatchGCAddr", VMM_FN(PATMIsPatchGCAddr), &g_aArgsPATMIsPatchGCAddr[0], RT_ELEMENTS(g_aArgsPATMIsPatchGCAddr), REMFNDESC_FLAGS_RET_INT, sizeof(bool), NULL },
1259 { "PATMR3QueryOpcode", VMM_FN(PATMR3QueryOpcode), &g_aArgsPATMR3QueryOpcode[0], RT_ELEMENTS(g_aArgsPATMR3QueryOpcode), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1260 { "PDMR3DmaRun", VMM_FN(PDMR3DmaRun), &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1261 { "PDMR3CritSectInit", VMM_FN(PDMR3CritSectInit), &g_aArgsPDMR3CritSectInit[0], RT_ELEMENTS(g_aArgsPDMR3CritSectInit), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1262 { "PDMCritSectEnter", VMM_FN(PDMCritSectEnter), &g_aArgsPDMCritSectEnter[0], RT_ELEMENTS(g_aArgsPDMCritSectEnter), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1263 { "PDMCritSectLeave", VMM_FN(PDMCritSectLeave), &g_aArgsPTR[0], RT_ELEMENTS(g_aArgsPTR), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1264# ifdef VBOX_STRICT
1265 { "PDMCritSectEnterDebug", VMM_FN(PDMCritSectEnterDebug), &g_aArgsPDMCritSectEnterDebug[0], RT_ELEMENTS(g_aArgsPDMCritSectEnterDebug), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1266# endif
1267 { "PDMGetInterrupt", VMM_FN(PDMGetInterrupt), &g_aArgsPDMGetInterrupt[0], RT_ELEMENTS(g_aArgsPDMGetInterrupt), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1268 { "PDMIsaSetIrq", VMM_FN(PDMIsaSetIrq), &g_aArgsPDMIsaSetIrq[0], RT_ELEMENTS(g_aArgsPDMIsaSetIrq), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1269 { "PGMGetGuestMode", VMM_FN(PGMGetGuestMode), &g_aArgsPGMGetGuestMode[0], RT_ELEMENTS(g_aArgsPGMGetGuestMode), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1270 { "PGMGstGetPage", VMM_FN(PGMGstGetPage), &g_aArgsPGMGstGetPage[0], RT_ELEMENTS(g_aArgsPGMGstGetPage), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1271 { "PGMInvalidatePage", VMM_FN(PGMInvalidatePage), &g_aArgsPGMInvalidatePage[0], RT_ELEMENTS(g_aArgsPGMInvalidatePage), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1272 { "PGMPhysIsGCPhysValid", VMM_FN(PGMPhysIsGCPhysValid), &g_aArgsPGMPhysIsGCPhysValid[0], RT_ELEMENTS(g_aArgsPGMPhysIsGCPhysValid), REMFNDESC_FLAGS_RET_INT, sizeof(bool), NULL },
1273 { "PGMPhysIsA20Enabled", VMM_FN(PGMPhysIsA20Enabled), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(bool), NULL },
1274 { "PGMPhysRead", VMM_FN(PGMPhysRead), &g_aArgsPGMPhysRead[0], RT_ELEMENTS(g_aArgsPGMPhysRead), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1275 { "PGMPhysSimpleReadGCPtr", VMM_FN(PGMPhysSimpleReadGCPtr), &g_aArgsPGMPhysSimpleReadGCPtr[0], RT_ELEMENTS(g_aArgsPGMPhysSimpleReadGCPtr), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1276 { "PGMPhysWrite", VMM_FN(PGMPhysWrite), &g_aArgsPGMPhysWrite[0], RT_ELEMENTS(g_aArgsPGMPhysWrite), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1277 { "PGMChangeMode", VMM_FN(PGMChangeMode), &g_aArgsPGMChangeMode[0], RT_ELEMENTS(g_aArgsPGMChangeMode), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1278 { "PGMFlushTLB", VMM_FN(PGMFlushTLB), &g_aArgsPGMFlushTLB[0], RT_ELEMENTS(g_aArgsPGMFlushTLB), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1279 { "PGMCr0WpEnabled", VMM_FN(PGMCr0WpEnabled), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1280 { "PGMR3PhysReadU8", VMM_FN(PGMR3PhysReadU8), &g_aArgsPGMR3PhysReadUxx[0], RT_ELEMENTS(g_aArgsPGMR3PhysReadUxx), REMFNDESC_FLAGS_RET_INT, sizeof(uint8_t), NULL },
1281 { "PGMR3PhysReadU16", VMM_FN(PGMR3PhysReadU16), &g_aArgsPGMR3PhysReadUxx[0], RT_ELEMENTS(g_aArgsPGMR3PhysReadUxx), REMFNDESC_FLAGS_RET_INT, sizeof(uint16_t), NULL },
1282 { "PGMR3PhysReadU32", VMM_FN(PGMR3PhysReadU32), &g_aArgsPGMR3PhysReadUxx[0], RT_ELEMENTS(g_aArgsPGMR3PhysReadUxx), REMFNDESC_FLAGS_RET_INT, sizeof(uint32_t), NULL },
1283 { "PGMR3PhysReadU64", VMM_FN(PGMR3PhysReadU64), &g_aArgsPGMR3PhysReadUxx[0], RT_ELEMENTS(g_aArgsPGMR3PhysReadUxx), REMFNDESC_FLAGS_RET_INT, sizeof(uint64_t), NULL },
1284 { "PGMR3PhysWriteU8", VMM_FN(PGMR3PhysWriteU8), &g_aArgsPGMR3PhysWriteU8[0], RT_ELEMENTS(g_aArgsPGMR3PhysWriteU8), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1285 { "PGMR3PhysWriteU16", VMM_FN(PGMR3PhysWriteU16), &g_aArgsPGMR3PhysWriteU16[0], RT_ELEMENTS(g_aArgsPGMR3PhysWriteU16), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1286 { "PGMR3PhysWriteU32", VMM_FN(PGMR3PhysWriteU32), &g_aArgsPGMR3PhysWriteU32[0], RT_ELEMENTS(g_aArgsPGMR3PhysWriteU32), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1287 { "PGMR3PhysWriteU64", VMM_FN(PGMR3PhysWriteU64), &g_aArgsPGMR3PhysWriteU64[0], RT_ELEMENTS(g_aArgsPGMR3PhysWriteU32), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1288 { "PGMR3PhysTlbGCPhys2Ptr", VMM_FN(PGMR3PhysTlbGCPhys2Ptr), &g_aArgsPGMR3PhysTlbGCPhys2Ptr[0], RT_ELEMENTS(g_aArgsPGMR3PhysTlbGCPhys2Ptr), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1289 { "PGMIsLockOwner", VMM_FN(PGMIsLockOwner), &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_INT, sizeof(bool), NULL },
1290 { "SSMR3GetGCPtr", VMM_FN(SSMR3GetGCPtr), &g_aArgsSSMR3GetGCPtr[0], RT_ELEMENTS(g_aArgsSSMR3GetGCPtr), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1291 { "SSMR3GetMem", VMM_FN(SSMR3GetMem), &g_aArgsSSMR3GetMem[0], RT_ELEMENTS(g_aArgsSSMR3GetMem), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1292 { "SSMR3GetU32", VMM_FN(SSMR3GetU32), &g_aArgsSSMR3GetU32[0], RT_ELEMENTS(g_aArgsSSMR3GetU32), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1293 { "SSMR3GetUInt", VMM_FN(SSMR3GetUInt), &g_aArgsSSMR3GetUInt[0], RT_ELEMENTS(g_aArgsSSMR3GetUInt), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1294 { "SSMR3PutGCPtr", VMM_FN(SSMR3PutGCPtr), &g_aArgsSSMR3PutGCPtr[0], RT_ELEMENTS(g_aArgsSSMR3PutGCPtr), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1295 { "SSMR3PutMem", VMM_FN(SSMR3PutMem), &g_aArgsSSMR3PutMem[0], RT_ELEMENTS(g_aArgsSSMR3PutMem), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1296 { "SSMR3PutU32", VMM_FN(SSMR3PutU32), &g_aArgsSSMR3PutU32[0], RT_ELEMENTS(g_aArgsSSMR3PutU32), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1297 { "SSMR3PutUInt", VMM_FN(SSMR3PutUInt), &g_aArgsSSMR3PutUInt[0], RT_ELEMENTS(g_aArgsSSMR3PutUInt), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1298 { "SSMR3RegisterInternal", VMM_FN(SSMR3RegisterInternal), &g_aArgsSSMR3RegisterInternal[0], RT_ELEMENTS(g_aArgsSSMR3RegisterInternal), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1299 { "STAMR3Register", VMM_FN(STAMR3Register), &g_aArgsSTAMR3Register[0], RT_ELEMENTS(g_aArgsSTAMR3Register), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1300 { "STAMR3Deregister", VMM_FN(STAMR3Deregister), &g_aArgsSTAMR3Deregister[0], RT_ELEMENTS(g_aArgsSTAMR3Deregister), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1301 { "TMCpuTickGet", VMM_FN(TMCpuTickGet), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(uint64_t), NULL },
1302 { "TMR3NotifySuspend", VMM_FN(TMR3NotifySuspend), &g_aArgsVMandVMCPU[0], RT_ELEMENTS(g_aArgsVMandVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1303 { "TMR3NotifyResume", VMM_FN(TMR3NotifyResume), &g_aArgsVMandVMCPU[0], RT_ELEMENTS(g_aArgsVMandVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1304 { "TMNotifyEndOfExecution", VMM_FN(TMNotifyEndOfExecution), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1305 { "TMNotifyStartOfExecution", VMM_FN(TMNotifyStartOfExecution), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1306 { "TMTimerPollBool", VMM_FN(TMTimerPollBool), &g_aArgsVMandVMCPU[0], RT_ELEMENTS(g_aArgsVMandVMCPU), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1307 { "TMR3TimerQueuesDo", VMM_FN(TMR3TimerQueuesDo), &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1308 { "TRPMAssertTrap", VMM_FN(TRPMAssertTrap), &g_aArgsTRPMAssertTrap[0], RT_ELEMENTS(g_aArgsTRPMAssertTrap), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1309 { "TRPMGetErrorCode", VMM_FN(TRPMGetErrorCode), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(RTGCUINT), NULL },
1310 { "TRPMGetFaultAddress", VMM_FN(TRPMGetFaultAddress), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(RTGCUINTPTR),NULL },
1311 { "TRPMQueryTrap", VMM_FN(TRPMQueryTrap), &g_aArgsTRPMQueryTrap[0], RT_ELEMENTS(g_aArgsTRPMQueryTrap), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1312 { "TRPMResetTrap", VMM_FN(TRPMResetTrap), &g_aArgsVMCPU[0], RT_ELEMENTS(g_aArgsVMCPU), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1313 { "TRPMSetErrorCode", VMM_FN(TRPMSetErrorCode), &g_aArgsTRPMSetErrorCode[0], RT_ELEMENTS(g_aArgsTRPMSetErrorCode), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1314 { "TRPMSetFaultAddress", VMM_FN(TRPMSetFaultAddress), &g_aArgsTRPMSetFaultAddress[0], RT_ELEMENTS(g_aArgsTRPMSetFaultAddress), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1315 { "VMMGetCpu", VMM_FN(VMMGetCpu), &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_INT, sizeof(PVMCPU), NULL },
1316 { "VMR3ReqPriorityCallWait", VMM_FN(VMR3ReqPriorityCallWait), &g_aArgsVMR3ReqCallWait[0], RT_ELEMENTS(g_aArgsVMR3ReqCallWait), REMFNDESC_FLAGS_RET_INT | REMFNDESC_FLAGS_ELLIPSIS, sizeof(int), NULL },
1317 { "VMR3ReqFree", VMM_FN(VMR3ReqFree), &g_aArgsVMR3ReqFree[0], RT_ELEMENTS(g_aArgsVMR3ReqFree), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1318// { "", VMM_FN(), &g_aArgsVM[0], RT_ELEMENTS(g_aArgsVM), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1319};
1320
1321
1322/**
1323 * Descriptors for the functions imported from VBoxRT.
1324 */
1325static REMFNDESC g_aRTImports[] =
1326{
1327 { "RTAssertMsg1", (void *)(uintptr_t)&RTAssertMsg1, &g_aArgsRTAssertMsg1[0], RT_ELEMENTS(g_aArgsRTAssertMsg1), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1328 { "RTAssertMsg1Weak", (void *)(uintptr_t)&RTAssertMsg1Weak, &g_aArgsRTAssertMsg1[0], RT_ELEMENTS(g_aArgsRTAssertMsg1), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1329 { "RTAssertMsg2", (void *)(uintptr_t)&RTAssertMsg2, &g_aArgsRTAssertMsg2[0], RT_ELEMENTS(g_aArgsRTAssertMsg2), REMFNDESC_FLAGS_RET_VOID | REMFNDESC_FLAGS_ELLIPSIS, 0, NULL },
1330 { "RTAssertMsg2V", (void *)(uintptr_t)&RTAssertMsg2V, &g_aArgsRTAssertMsg2V[0], RT_ELEMENTS(g_aArgsRTAssertMsg2V), REMFNDESC_FLAGS_RET_VOID | REMFNDESC_FLAGS_VALIST, 0, NULL },
1331 { "RTAssertMsg2Weak", (void *)(uintptr_t)&RTAssertMsg2Weak, &g_aArgsRTAssertMsg2[0], RT_ELEMENTS(g_aArgsRTAssertMsg2), REMFNDESC_FLAGS_RET_VOID | REMFNDESC_FLAGS_ELLIPSIS, 0, NULL },
1332 { "RTAssertShouldPanic", (void *)(uintptr_t)&RTAssertShouldPanic, NULL, 0, REMFNDESC_FLAGS_RET_INT, sizeof(bool), NULL },
1333 { "RTLogDefaultInstance", (void *)(uintptr_t)&RTLogDefaultInstance, NULL, 0, REMFNDESC_FLAGS_RET_INT, sizeof(PRTLOGGER), NULL },
1334 { "RTLogRelGetDefaultInstance", (void *)(uintptr_t)&RTLogRelGetDefaultInstance, NULL, 0, REMFNDESC_FLAGS_RET_INT, sizeof(PRTLOGGER), NULL },
1335 { "RTLogDefaultInstanceEx", (void *)(uintptr_t)&RTLogDefaultInstance, &g_aArgsRTLogGetDefaultInstanceEx[0], RT_ELEMENTS(g_aArgsRTLogGetDefaultInstanceEx), REMFNDESC_FLAGS_RET_INT, sizeof(PRTLOGGER), NULL },
1336 { "RTLogRelGetDefaultInstanceEx", (void *)(uintptr_t)&RTLogRelGetDefaultInstance, &g_aArgsRTLogGetDefaultInstanceEx[0], RT_ELEMENTS(g_aArgsRTLogGetDefaultInstanceEx), REMFNDESC_FLAGS_RET_INT, sizeof(PRTLOGGER), NULL },
1337 { "RTLogFlags", (void *)(uintptr_t)&RTLogFlags, &g_aArgsRTLogFlags[0], RT_ELEMENTS(g_aArgsRTLogFlags), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1338 { "RTLogFlush", (void *)(uintptr_t)&RTLogFlush, &g_aArgsRTLogFlush[0], RT_ELEMENTS(g_aArgsRTLogFlush), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1339 { "RTLogLoggerEx", (void *)(uintptr_t)&RTLogLoggerEx, &g_aArgsRTLogLoggerEx[0], RT_ELEMENTS(g_aArgsRTLogLoggerEx), REMFNDESC_FLAGS_RET_VOID | REMFNDESC_FLAGS_ELLIPSIS, 0, NULL },
1340 { "RTLogLoggerExV", (void *)(uintptr_t)&RTLogLoggerExV, &g_aArgsRTLogLoggerExV[0], RT_ELEMENTS(g_aArgsRTLogLoggerExV), REMFNDESC_FLAGS_RET_VOID | REMFNDESC_FLAGS_VALIST, 0, NULL },
1341 { "RTLogPrintf", (void *)(uintptr_t)&RTLogPrintf, &g_aArgsRTLogPrintf[0], RT_ELEMENTS(g_aArgsRTLogPrintf), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1342 { "RTLogRelPrintf", (void *)(uintptr_t)&RTLogRelPrintf, &g_aArgsRTLogPrintf[0], RT_ELEMENTS(g_aArgsRTLogPrintf), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1343 { "RTMemAllocTag", (void *)(uintptr_t)&RTMemAllocTag, &g_aArgsSIZE_TTag[0], RT_ELEMENTS(g_aArgsSIZE_TTag), REMFNDESC_FLAGS_RET_INT, sizeof(void *), NULL },
1344 { "RTMemAllocZTag", (void *)(uintptr_t)&RTMemAllocZTag, &g_aArgsSIZE_TTag[0], RT_ELEMENTS(g_aArgsSIZE_TTag), REMFNDESC_FLAGS_RET_INT, sizeof(void *), NULL },
1345 { "RTMemReallocTag", (void *)(uintptr_t)&RTMemReallocTag, &g_aArgsRTMemReallocTag[0], RT_ELEMENTS(g_aArgsRTMemReallocTag), REMFNDESC_FLAGS_RET_INT, sizeof(void *), NULL },
1346 { "RTMemExecAllocTag", (void *)(uintptr_t)&RTMemExecAllocTag, &g_aArgsSIZE_TTag[0], RT_ELEMENTS(g_aArgsSIZE_TTag), REMFNDESC_FLAGS_RET_INT, sizeof(void *), NULL },
1347 { "RTMemExecFree", (void *)(uintptr_t)&RTMemExecFree, &g_aArgsPTR_SIZE_T[0], RT_ELEMENTS(g_aArgsPTR_SIZE_T), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1348 { "RTMemFree", (void *)(uintptr_t)&RTMemFree, &g_aArgsPTR[0], RT_ELEMENTS(g_aArgsPTR), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1349 { "RTMemPageAllocTag", (void *)(uintptr_t)&RTMemPageAllocTag, &g_aArgsSIZE_TTag[0], RT_ELEMENTS(g_aArgsSIZE_TTag), REMFNDESC_FLAGS_RET_INT, sizeof(void *), NULL },
1350 { "RTMemPageFree", (void *)(uintptr_t)&RTMemPageFree, &g_aArgsPTR_SIZE_T[0], RT_ELEMENTS(g_aArgsPTR_SIZE_T), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1351 { "RTMemProtect", (void *)(uintptr_t)&RTMemProtect, &g_aArgsRTMemProtect[0], RT_ELEMENTS(g_aArgsRTMemProtect), REMFNDESC_FLAGS_RET_INT, sizeof(int), NULL },
1352 { "RTMemEfAlloc", (void *)(uintptr_t)&RTMemEfAlloc, &g_aArgsSIZE_TTagLoc[0], RT_ELEMENTS(g_aArgsSIZE_TTagLoc), REMFNDESC_FLAGS_RET_INT, sizeof(void *), NULL },
1353 { "RTMemEfAllocZ", (void *)(uintptr_t)&RTMemEfAllocZ, &g_aArgsSIZE_TTagLoc[0], RT_ELEMENTS(g_aArgsSIZE_TTagLoc), REMFNDESC_FLAGS_RET_INT, sizeof(void *), NULL },
1354 { "RTMemEfRealloc", (void *)(uintptr_t)&RTMemEfRealloc, &g_aArgsRTMemEfRealloc[0], RT_ELEMENTS(g_aArgsRTMemEfRealloc), REMFNDESC_FLAGS_RET_INT, sizeof(void *), NULL },
1355 { "RTMemEfFree", (void *)(uintptr_t)&RTMemEfFree, &g_aArgsPTRLoc[0], RT_ELEMENTS(g_aArgsPTRLoc), REMFNDESC_FLAGS_RET_VOID, 0, NULL },
1356 { "RTStrPrintf", (void *)(uintptr_t)&RTStrPrintf, &g_aArgsRTStrPrintf[0], RT_ELEMENTS(g_aArgsRTStrPrintf), REMFNDESC_FLAGS_RET_INT | REMFNDESC_FLAGS_ELLIPSIS, sizeof(size_t), NULL },
1357 { "RTStrPrintfV", (void *)(uintptr_t)&RTStrPrintfV, &g_aArgsRTStrPrintfV[0], RT_ELEMENTS(g_aArgsRTStrPrintfV), REMFNDESC_FLAGS_RET_INT | REMFNDESC_FLAGS_VALIST, sizeof(size_t), NULL },
1358 { "RTThreadSelf", (void *)(uintptr_t)&RTThreadSelf, NULL, 0, REMFNDESC_FLAGS_RET_INT, sizeof(RTTHREAD), NULL },
1359 { "RTThreadNativeSelf", (void *)(uintptr_t)&RTThreadNativeSelf, NULL, 0, REMFNDESC_FLAGS_RET_INT, sizeof(RTNATIVETHREAD), NULL },
1360 { "RTLockValidatorWriteLockGetCount", (void *)(uintptr_t)&RTLockValidatorWriteLockGetCount, &g_aArgsThread[0], 0, REMFNDESC_FLAGS_RET_INT, sizeof(int32_t), NULL },
1361};
1362
1363
1364/**
1365 * Descriptors for the functions imported from VBoxRT.
1366 */
1367static REMFNDESC g_aCRTImports[] =
1368{
1369 { "memcpy", (void *)(uintptr_t)&memcpy, &g_aArgsmemcpy[0], RT_ELEMENTS(g_aArgsmemcpy), REMFNDESC_FLAGS_RET_INT, sizeof(void *), NULL },
1370 { "memset", (void *)(uintptr_t)&memset, &g_aArgsmemset[0], RT_ELEMENTS(g_aArgsmemset), REMFNDESC_FLAGS_RET_INT, sizeof(void *), NULL }
1371/*
1372floor floor
1373memcpy memcpy
1374sqrt sqrt
1375sqrtf sqrtf
1376*/
1377};
1378
1379
1380# if defined(USE_REM_CALLING_CONVENTION_GLUE) || defined(USE_REM_IMPORT_JUMP_GLUE)
1381/** LIFO of read-write-executable memory chunks used for wrappers. */
1382static PREMEXECMEM g_pExecMemHead;
1383# endif
1384# endif /* !VBOX_USE_BITNESS_SELECTOR */
1385
1386
1387
1388/*********************************************************************************************************************************
1389* Internal Functions *
1390*********************************************************************************************************************************/
1391# ifndef VBOX_USE_BITNESS_SELECTOR
1392static int remGenerateExportGlue(PRTUINTPTR pValue, PCREMFNDESC pDesc);
1393
1394# ifdef USE_REM_CALLING_CONVENTION_GLUE
1395DECLASM(int) WrapGCC2MSC0Int(void); DECLASM(int) WrapGCC2MSC0Int_EndProc(void);
1396DECLASM(int) WrapGCC2MSC1Int(void); DECLASM(int) WrapGCC2MSC1Int_EndProc(void);
1397DECLASM(int) WrapGCC2MSC2Int(void); DECLASM(int) WrapGCC2MSC2Int_EndProc(void);
1398DECLASM(int) WrapGCC2MSC3Int(void); DECLASM(int) WrapGCC2MSC3Int_EndProc(void);
1399DECLASM(int) WrapGCC2MSC4Int(void); DECLASM(int) WrapGCC2MSC4Int_EndProc(void);
1400DECLASM(int) WrapGCC2MSC5Int(void); DECLASM(int) WrapGCC2MSC5Int_EndProc(void);
1401DECLASM(int) WrapGCC2MSC6Int(void); DECLASM(int) WrapGCC2MSC6Int_EndProc(void);
1402DECLASM(int) WrapGCC2MSC7Int(void); DECLASM(int) WrapGCC2MSC7Int_EndProc(void);
1403DECLASM(int) WrapGCC2MSC8Int(void); DECLASM(int) WrapGCC2MSC8Int_EndProc(void);
1404DECLASM(int) WrapGCC2MSC9Int(void); DECLASM(int) WrapGCC2MSC9Int_EndProc(void);
1405DECLASM(int) WrapGCC2MSC10Int(void); DECLASM(int) WrapGCC2MSC10Int_EndProc(void);
1406DECLASM(int) WrapGCC2MSC11Int(void); DECLASM(int) WrapGCC2MSC11Int_EndProc(void);
1407DECLASM(int) WrapGCC2MSC12Int(void); DECLASM(int) WrapGCC2MSC12Int_EndProc(void);
1408DECLASM(int) WrapGCC2MSCVariadictInt(void); DECLASM(int) WrapGCC2MSCVariadictInt_EndProc(void);
1409DECLASM(int) WrapGCC2MSC_SSMR3RegisterInternal(void); DECLASM(int) WrapGCC2MSC_SSMR3RegisterInternal_EndProc(void);
1410
1411DECLASM(int) WrapMSC2GCC0Int(void); DECLASM(int) WrapMSC2GCC0Int_EndProc(void);
1412DECLASM(int) WrapMSC2GCC1Int(void); DECLASM(int) WrapMSC2GCC1Int_EndProc(void);
1413DECLASM(int) WrapMSC2GCC2Int(void); DECLASM(int) WrapMSC2GCC2Int_EndProc(void);
1414DECLASM(int) WrapMSC2GCC3Int(void); DECLASM(int) WrapMSC2GCC3Int_EndProc(void);
1415DECLASM(int) WrapMSC2GCC4Int(void); DECLASM(int) WrapMSC2GCC4Int_EndProc(void);
1416DECLASM(int) WrapMSC2GCC5Int(void); DECLASM(int) WrapMSC2GCC5Int_EndProc(void);
1417DECLASM(int) WrapMSC2GCC6Int(void); DECLASM(int) WrapMSC2GCC6Int_EndProc(void);
1418DECLASM(int) WrapMSC2GCC7Int(void); DECLASM(int) WrapMSC2GCC7Int_EndProc(void);
1419DECLASM(int) WrapMSC2GCC8Int(void); DECLASM(int) WrapMSC2GCC8Int_EndProc(void);
1420DECLASM(int) WrapMSC2GCC9Int(void); DECLASM(int) WrapMSC2GCC9Int_EndProc(void);
1421# endif
1422
1423
1424# if defined(USE_REM_CALLING_CONVENTION_GLUE) || defined(USE_REM_IMPORT_JUMP_GLUE)
1425/**
1426 * Allocates a block of memory for glue code.
1427 *
1428 * The returned memory is padded with INT3s.
1429 *
1430 * @returns Pointer to the allocated memory.
1431 * @param The amount of memory to allocate.
1432 */
1433static void *remAllocGlue(size_t cb)
1434{
1435 PREMEXECMEM pCur = g_pExecMemHead;
1436 uint32_t cbAligned = (uint32_t)RT_ALIGN_32(cb, 32);
1437 while (pCur)
1438 {
1439 if (pCur->cb - pCur->off >= cbAligned)
1440 {
1441 void *pv = (uint8_t *)pCur + pCur->off;
1442 pCur->off += cbAligned;
1443 return memset(pv, 0xcc, cbAligned);
1444 }
1445 pCur = pCur->pNext;
1446 }
1447
1448 /* add a new chunk */
1449 AssertReturn(_64K - RT_ALIGN_Z(sizeof(*pCur), 32) > cbAligned, NULL);
1450 pCur = (PREMEXECMEM)RTMemExecAlloc(_64K);
1451 AssertReturn(pCur, NULL);
1452 pCur->cb = _64K;
1453 pCur->off = RT_ALIGN_32(sizeof(*pCur), 32) + cbAligned;
1454 pCur->pNext = g_pExecMemHead;
1455 g_pExecMemHead = pCur;
1456 return memset((uint8_t *)pCur + RT_ALIGN_Z(sizeof(*pCur), 32), 0xcc, cbAligned);
1457}
1458# endif /* USE_REM_CALLING_CONVENTION_GLUE || USE_REM_IMPORT_JUMP_GLUE */
1459
1460
1461# ifdef USE_REM_CALLING_CONVENTION_GLUE
1462/**
1463 * Checks if a function is all straight forward integers.
1464 *
1465 * @returns True if it's simple, false if it's bothersome.
1466 * @param pDesc The function descriptor.
1467 */
1468static bool remIsFunctionAllInts(PCREMFNDESC pDesc)
1469{
1470 if ( ( (pDesc->fFlags & REMFNDESC_FLAGS_RET_TYPE_MASK) != REMFNDESC_FLAGS_RET_INT
1471 || pDesc->cbReturn > sizeof(uint64_t))
1472 && (pDesc->fFlags & REMFNDESC_FLAGS_RET_TYPE_MASK) != REMFNDESC_FLAGS_RET_VOID)
1473 return false;
1474 unsigned i = pDesc->cParams;
1475 while (i-- > 0)
1476 switch (pDesc->paParams[i].fFlags & REMPARMDESC_FLAGS_TYPE_MASK)
1477 {
1478 case REMPARMDESC_FLAGS_INT:
1479 case REMPARMDESC_FLAGS_GCPTR:
1480 case REMPARMDESC_FLAGS_GCPHYS:
1481 case REMPARMDESC_FLAGS_HCPHYS:
1482 break;
1483
1484 default:
1485 AssertReleaseMsgFailed(("Invalid param flags %#x for #%d of %s!\n", pDesc->paParams[i].fFlags, i, pDesc->pszName));
1486 case REMPARMDESC_FLAGS_VALIST:
1487 case REMPARMDESC_FLAGS_ELLIPSIS:
1488 case REMPARMDESC_FLAGS_FLOAT:
1489 case REMPARMDESC_FLAGS_STRUCT:
1490 case REMPARMDESC_FLAGS_PFN:
1491 return false;
1492 }
1493 return true;
1494}
1495
1496
1497/**
1498 * Checks if the function has an ellipsis (...) argument.
1499 *
1500 * @returns true if it has an ellipsis, otherwise false.
1501 * @param pDesc The function descriptor.
1502 */
1503static bool remHasFunctionEllipsis(PCREMFNDESC pDesc)
1504{
1505 unsigned i = pDesc->cParams;
1506 while (i-- > 0)
1507 if ((pDesc->paParams[i].fFlags & REMPARMDESC_FLAGS_TYPE_MASK) == REMPARMDESC_FLAGS_ELLIPSIS)
1508 return true;
1509 return false;
1510}
1511
1512
1513/**
1514 * Checks if the function uses floating point (FP) arguments or return value.
1515 *
1516 * @returns true if it uses floating point, otherwise false.
1517 * @param pDesc The function descriptor.
1518 */
1519static bool remIsFunctionUsingFP(PCREMFNDESC pDesc)
1520{
1521 if ((pDesc->fFlags & REMFNDESC_FLAGS_RET_TYPE_MASK) == REMFNDESC_FLAGS_RET_FLOAT)
1522 return true;
1523 unsigned i = pDesc->cParams;
1524 while (i-- > 0)
1525 if ((pDesc->paParams[i].fFlags & REMPARMDESC_FLAGS_TYPE_MASK) == REMPARMDESC_FLAGS_FLOAT)
1526 return true;
1527 return false;
1528}
1529
1530
1531/** @name The export and import fixups.
1532 * @{ */
1533# define REM_FIXUP_32_REAL_STUFF UINT32_C(0xdeadbeef)
1534# define REM_FIXUP_64_REAL_STUFF UINT64_C(0xdeadf00df00ddead)
1535# define REM_FIXUP_64_DESC UINT64_C(0xdead00010001dead)
1536# define REM_FIXUP_64_LOG_ENTRY UINT64_C(0xdead00020002dead)
1537# define REM_FIXUP_64_LOG_EXIT UINT64_C(0xdead00030003dead)
1538# define REM_FIXUP_64_WRAP_GCC_CB UINT64_C(0xdead00040004dead)
1539/** @} */
1540
1541
1542/**
1543 * Entry logger function.
1544 *
1545 * @param pDesc The description.
1546 */
1547DECLASM(void) remLogEntry(PCREMFNDESC pDesc)
1548{
1549 RTPrintf("calling %s\n", pDesc->pszName);
1550}
1551
1552
1553/**
1554 * Exit logger function.
1555 *
1556 * @param pDesc The description.
1557 * @param pvRet The return code.
1558 */
1559DECLASM(void) remLogExit(PCREMFNDESC pDesc, void *pvRet)
1560{
1561 RTPrintf("returning %p from %s\n", pvRet, pDesc->pszName);
1562}
1563
1564
1565/**
1566 * Creates a wrapper for the specified callback function at run time.
1567 *
1568 * @param pDesc The function descriptor.
1569 * @param pValue Upon entry *pValue contains the address of the function to be wrapped.
1570 * Upon return *pValue contains the address of the wrapper glue function.
1571 * @param iParam The parameter index in the function descriptor (0 based).
1572 * If UINT32_MAX pDesc is the descriptor for *pValue.
1573 */
1574DECLASM(void) remWrapGCCCallback(PCREMFNDESC pDesc, PRTUINTPTR pValue, uint32_t iParam)
1575{
1576 AssertPtr(pDesc);
1577 AssertPtr(pValue);
1578
1579 /*
1580 * Simple?
1581 */
1582 if (!*pValue)
1583 return;
1584
1585 /*
1586 * Locate the right function descriptor.
1587 */
1588 if (iParam != UINT32_MAX)
1589 {
1590 AssertRelease(iParam < pDesc->cParams);
1591 pDesc = (PCREMFNDESC)pDesc->paParams[iParam].pvExtra;
1592 AssertPtr(pDesc);
1593 }
1594
1595 /*
1596 * When we get serious, here is where to insert the hash table lookup.
1597 */
1598
1599 /*
1600 * Create a new glue patch.
1601 */
1602# ifdef RT_OS_WINDOWS
1603 int rc = remGenerateExportGlue(pValue, pDesc);
1604# else
1605# error "port me"
1606# endif
1607 AssertReleaseRC(rc);
1608
1609 /*
1610 * Add it to the hash (later)
1611 */
1612}
1613
1614
1615/**
1616 * Fixes export glue.
1617 *
1618 * @param pvGlue The glue code.
1619 * @param cb The size of the glue code.
1620 * @param pvExport The address of the export we're wrapping.
1621 * @param pDesc The export descriptor.
1622 */
1623static void remGenerateExportGlueFixup(void *pvGlue, size_t cb, uintptr_t uExport, PCREMFNDESC pDesc)
1624{
1625 union
1626 {
1627 uint8_t *pu8;
1628 int32_t *pi32;
1629 uint32_t *pu32;
1630 uint64_t *pu64;
1631 void *pv;
1632 } u;
1633 u.pv = pvGlue;
1634
1635 while (cb >= 4)
1636 {
1637 /** @todo add defines for the fixup constants... */
1638 if (*u.pu32 == REM_FIXUP_32_REAL_STUFF)
1639 {
1640 /* 32-bit rel jmp/call to real export. */
1641 *u.pi32 = uExport - (uintptr_t)(u.pi32 + 1);
1642 Assert((uintptr_t)(u.pi32 + 1) + *u.pi32 == uExport);
1643 u.pi32++;
1644 cb -= 4;
1645 continue;
1646 }
1647 if (cb >= 8 && *u.pu64 == REM_FIXUP_64_REAL_STUFF)
1648 {
1649 /* 64-bit address to the real export. */
1650 *u.pu64++ = uExport;
1651 cb -= 8;
1652 continue;
1653 }
1654 if (cb >= 8 && *u.pu64 == REM_FIXUP_64_DESC)
1655 {
1656 /* 64-bit address to the descriptor. */
1657 *u.pu64++ = (uintptr_t)pDesc;
1658 cb -= 8;
1659 continue;
1660 }
1661 if (cb >= 8 && *u.pu64 == REM_FIXUP_64_WRAP_GCC_CB)
1662 {
1663 /* 64-bit address to the entry logger function. */
1664 *u.pu64++ = (uintptr_t)remWrapGCCCallback;
1665 cb -= 8;
1666 continue;
1667 }
1668 if (cb >= 8 && *u.pu64 == REM_FIXUP_64_LOG_ENTRY)
1669 {
1670 /* 64-bit address to the entry logger function. */
1671 *u.pu64++ = (uintptr_t)remLogEntry;
1672 cb -= 8;
1673 continue;
1674 }
1675 if (cb >= 8 && *u.pu64 == REM_FIXUP_64_LOG_EXIT)
1676 {
1677 /* 64-bit address to the entry logger function. */
1678 *u.pu64++ = (uintptr_t)remLogExit;
1679 cb -= 8;
1680 continue;
1681 }
1682
1683 /* move on. */
1684 u.pu8++;
1685 cb--;
1686 }
1687}
1688
1689
1690/**
1691 * Fixes import glue.
1692 *
1693 * @param pvGlue The glue code.
1694 * @param cb The size of the glue code.
1695 * @param pDesc The import descriptor.
1696 */
1697static void remGenerateImportGlueFixup(void *pvGlue, size_t cb, PCREMFNDESC pDesc)
1698{
1699 union
1700 {
1701 uint8_t *pu8;
1702 int32_t *pi32;
1703 uint32_t *pu32;
1704 uint64_t *pu64;
1705 void *pv;
1706 } u;
1707 u.pv = pvGlue;
1708
1709 while (cb >= 4)
1710 {
1711 if (*u.pu32 == REM_FIXUP_32_REAL_STUFF)
1712 {
1713 /* 32-bit rel jmp/call to real function. */
1714 *u.pi32 = (uintptr_t)pDesc->pv - (uintptr_t)(u.pi32 + 1);
1715 Assert((uintptr_t)(u.pi32 + 1) + *u.pi32 == (uintptr_t)pDesc->pv);
1716 u.pi32++;
1717 cb -= 4;
1718 continue;
1719 }
1720 if (cb >= 8 && *u.pu64 == REM_FIXUP_64_REAL_STUFF)
1721 {
1722 /* 64-bit address to the real function. */
1723 *u.pu64++ = (uintptr_t)pDesc->pv;
1724 cb -= 8;
1725 continue;
1726 }
1727 if (cb >= 8 && *u.pu64 == REM_FIXUP_64_DESC)
1728 {
1729 /* 64-bit address to the descriptor. */
1730 *u.pu64++ = (uintptr_t)pDesc;
1731 cb -= 8;
1732 continue;
1733 }
1734 if (cb >= 8 && *u.pu64 == REM_FIXUP_64_WRAP_GCC_CB)
1735 {
1736 /* 64-bit address to the entry logger function. */
1737 *u.pu64++ = (uintptr_t)remWrapGCCCallback;
1738 cb -= 8;
1739 continue;
1740 }
1741 if (cb >= 8 && *u.pu64 == REM_FIXUP_64_LOG_ENTRY)
1742 {
1743 /* 64-bit address to the entry logger function. */
1744 *u.pu64++ = (uintptr_t)remLogEntry;
1745 cb -= 8;
1746 continue;
1747 }
1748 if (cb >= 8 && *u.pu64 == REM_FIXUP_64_LOG_EXIT)
1749 {
1750 /* 64-bit address to the entry logger function. */
1751 *u.pu64++ = (uintptr_t)remLogExit;
1752 cb -= 8;
1753 continue;
1754 }
1755
1756 /* move on. */
1757 u.pu8++;
1758 cb--;
1759 }
1760}
1761
1762# endif /* USE_REM_CALLING_CONVENTION_GLUE */
1763
1764
1765/**
1766 * Generate wrapper glue code for an export.
1767 *
1768 * This is only used on win64 when loading a 64-bit linux module. So, on other
1769 * platforms it will not do anything.
1770 *
1771 * @returns VBox status code.
1772 * @param pValue IN: Where to get the address of the function to wrap.
1773 * OUT: Where to store the glue address.
1774 * @param pDesc The export descriptor.
1775 */
1776static int remGenerateExportGlue(PRTUINTPTR pValue, PCREMFNDESC pDesc)
1777{
1778# ifdef USE_REM_CALLING_CONVENTION_GLUE
1779 uintptr_t *ppfn = (uintptr_t *)pDesc->pv;
1780
1781 uintptr_t pfn = 0; /* a little hack for the callback glue */
1782 if (!ppfn)
1783 ppfn = &pfn;
1784
1785 if (!*ppfn)
1786 {
1787 if (remIsFunctionAllInts(pDesc))
1788 {
1789 static const struct { void *pvStart, *pvEnd; } s_aTemplates[] =
1790 {
1791 { (void *)&WrapMSC2GCC0Int, (void *)&WrapMSC2GCC0Int_EndProc },
1792 { (void *)&WrapMSC2GCC1Int, (void *)&WrapMSC2GCC1Int_EndProc },
1793 { (void *)&WrapMSC2GCC2Int, (void *)&WrapMSC2GCC2Int_EndProc },
1794 { (void *)&WrapMSC2GCC3Int, (void *)&WrapMSC2GCC3Int_EndProc },
1795 { (void *)&WrapMSC2GCC4Int, (void *)&WrapMSC2GCC4Int_EndProc },
1796 { (void *)&WrapMSC2GCC5Int, (void *)&WrapMSC2GCC5Int_EndProc },
1797 { (void *)&WrapMSC2GCC6Int, (void *)&WrapMSC2GCC6Int_EndProc },
1798 { (void *)&WrapMSC2GCC7Int, (void *)&WrapMSC2GCC7Int_EndProc },
1799 { (void *)&WrapMSC2GCC8Int, (void *)&WrapMSC2GCC8Int_EndProc },
1800 { (void *)&WrapMSC2GCC9Int, (void *)&WrapMSC2GCC9Int_EndProc },
1801 };
1802 const unsigned i = pDesc->cParams;
1803 AssertReleaseMsg(i < RT_ELEMENTS(s_aTemplates), ("%d (%s)\n", i, pDesc->pszName));
1804
1805 /* duplicate the patch. */
1806 const size_t cb = (uintptr_t)s_aTemplates[i].pvEnd - (uintptr_t)s_aTemplates[i].pvStart;
1807 uint8_t *pb = (uint8_t *)remAllocGlue(cb);
1808 AssertReturn(pb, VERR_NO_MEMORY);
1809 memcpy(pb, s_aTemplates[i].pvStart, cb);
1810
1811 /* fix it up. */
1812 remGenerateExportGlueFixup(pb, cb, *pValue, pDesc);
1813 *ppfn = (uintptr_t)pb;
1814 }
1815 else
1816 {
1817 /* custom hacks - it's simpler to make assembly templates than writing a more generic code generator... */
1818 static const struct { const char *pszName; PFNRT pvStart, pvEnd; } s_aTemplates[] =
1819 {
1820 { "somefunction", (PFNRT)&WrapMSC2GCC9Int, (PFNRT)&WrapMSC2GCC9Int_EndProc },
1821 };
1822 unsigned i;
1823 for (i = 0; i < RT_ELEMENTS(s_aTemplates); i++)
1824 if (!strcmp(pDesc->pszName, s_aTemplates[i].pszName))
1825 break;
1826 AssertReleaseMsgReturn(i < RT_ELEMENTS(s_aTemplates), ("Not implemented! %s\n", pDesc->pszName), VERR_NOT_IMPLEMENTED);
1827
1828 /* duplicate the patch. */
1829 const size_t cb = (uintptr_t)s_aTemplates[i].pvEnd - (uintptr_t)s_aTemplates[i].pvStart;
1830 uint8_t *pb = (uint8_t *)remAllocGlue(cb);
1831 AssertReturn(pb, VERR_NO_MEMORY);
1832 memcpy(pb, s_aTemplates[i].pvStart, cb);
1833
1834 /* fix it up. */
1835 remGenerateExportGlueFixup(pb, cb, *pValue, pDesc);
1836 *ppfn = (uintptr_t)pb;
1837 }
1838 }
1839 *pValue = *ppfn;
1840 return VINF_SUCCESS;
1841# else /* !USE_REM_CALLING_CONVENTION_GLUE */
1842 return VINF_SUCCESS;
1843# endif /* !USE_REM_CALLING_CONVENTION_GLUE */
1844}
1845
1846
1847/**
1848 * Generate wrapper glue code for an import.
1849 *
1850 * This is only used on win64 when loading a 64-bit linux module. So, on other
1851 * platforms it will simply return the address of the imported function
1852 * without generating any glue code.
1853 *
1854 * @returns VBox status code.
1855 * @param pValue Where to store the glue address.
1856 * @param pDesc The export descriptor.
1857 */
1858static int remGenerateImportGlue(PRTUINTPTR pValue, PREMFNDESC pDesc)
1859{
1860# if defined(USE_REM_CALLING_CONVENTION_GLUE) || defined(USE_REM_IMPORT_JUMP_GLUE)
1861 if (!pDesc->pvWrapper)
1862 {
1863# ifdef USE_REM_CALLING_CONVENTION_GLUE
1864 if (remIsFunctionAllInts(pDesc))
1865 {
1866 static const struct { void *pvStart, *pvEnd; } s_aTemplates[] =
1867 {
1868 { (void *)&WrapGCC2MSC0Int, (void *)&WrapGCC2MSC0Int_EndProc },
1869 { (void *)&WrapGCC2MSC1Int, (void *)&WrapGCC2MSC1Int_EndProc },
1870 { (void *)&WrapGCC2MSC2Int, (void *)&WrapGCC2MSC2Int_EndProc },
1871 { (void *)&WrapGCC2MSC3Int, (void *)&WrapGCC2MSC3Int_EndProc },
1872 { (void *)&WrapGCC2MSC4Int, (void *)&WrapGCC2MSC4Int_EndProc },
1873 { (void *)&WrapGCC2MSC5Int, (void *)&WrapGCC2MSC5Int_EndProc },
1874 { (void *)&WrapGCC2MSC6Int, (void *)&WrapGCC2MSC6Int_EndProc },
1875 { (void *)&WrapGCC2MSC7Int, (void *)&WrapGCC2MSC7Int_EndProc },
1876 { (void *)&WrapGCC2MSC8Int, (void *)&WrapGCC2MSC8Int_EndProc },
1877 { (void *)&WrapGCC2MSC9Int, (void *)&WrapGCC2MSC9Int_EndProc },
1878 { (void *)&WrapGCC2MSC10Int, (void *)&WrapGCC2MSC10Int_EndProc },
1879 { (void *)&WrapGCC2MSC11Int, (void *)&WrapGCC2MSC11Int_EndProc },
1880 { (void *)&WrapGCC2MSC12Int, (void *)&WrapGCC2MSC12Int_EndProc }
1881 };
1882 const unsigned i = pDesc->cParams;
1883 AssertReleaseMsg(i < RT_ELEMENTS(s_aTemplates), ("%d (%s)\n", i, pDesc->pszName));
1884
1885 /* duplicate the patch. */
1886 const size_t cb = (uintptr_t)s_aTemplates[i].pvEnd - (uintptr_t)s_aTemplates[i].pvStart;
1887 pDesc->pvWrapper = remAllocGlue(cb);
1888 AssertReturn(pDesc->pvWrapper, VERR_NO_MEMORY);
1889 memcpy(pDesc->pvWrapper, s_aTemplates[i].pvStart, cb);
1890
1891 /* fix it up. */
1892 remGenerateImportGlueFixup((uint8_t *)pDesc->pvWrapper, cb, pDesc);
1893 }
1894 else if ( remHasFunctionEllipsis(pDesc)
1895 && !remIsFunctionUsingFP(pDesc))
1896 {
1897 /* duplicate the patch. */
1898 const size_t cb = (uintptr_t)&WrapGCC2MSCVariadictInt_EndProc - (uintptr_t)&WrapGCC2MSCVariadictInt;
1899 pDesc->pvWrapper = remAllocGlue(cb);
1900 AssertReturn(pDesc->pvWrapper, VERR_NO_MEMORY);
1901 memcpy(pDesc->pvWrapper, (void *)&WrapGCC2MSCVariadictInt, cb);
1902
1903 /* fix it up. */
1904 remGenerateImportGlueFixup((uint8_t *)pDesc->pvWrapper, cb, pDesc);
1905 }
1906 else
1907 {
1908 /* custom hacks - it's simpler to make assembly templates than writing a more generic code generator... */
1909 static const struct { const char *pszName; PFNRT pvStart, pvEnd; } s_aTemplates[] =
1910 {
1911 { "SSMR3RegisterInternal", (PFNRT)&WrapGCC2MSC_SSMR3RegisterInternal, (PFNRT)&WrapGCC2MSC_SSMR3RegisterInternal_EndProc },
1912 };
1913 unsigned i;
1914 for (i = 0; i < RT_ELEMENTS(s_aTemplates); i++)
1915 if (!strcmp(pDesc->pszName, s_aTemplates[i].pszName))
1916 break;
1917 AssertReleaseMsgReturn(i < RT_ELEMENTS(s_aTemplates), ("Not implemented! %s\n", pDesc->pszName), VERR_NOT_IMPLEMENTED);
1918
1919 /* duplicate the patch. */
1920 const size_t cb = (uintptr_t)s_aTemplates[i].pvEnd - (uintptr_t)s_aTemplates[i].pvStart;
1921 pDesc->pvWrapper = remAllocGlue(cb);
1922 AssertReturn(pDesc->pvWrapper, VERR_NO_MEMORY);
1923 memcpy(pDesc->pvWrapper, s_aTemplates[i].pvStart, cb);
1924
1925 /* fix it up. */
1926 remGenerateImportGlueFixup((uint8_t *)pDesc->pvWrapper, cb, pDesc);
1927 }
1928# else /* !USE_REM_CALLING_CONVENTION_GLUE */
1929
1930 /*
1931 * Generate a jump patch.
1932 */
1933 uint8_t *pb;
1934# ifdef RT_ARCH_AMD64
1935 pDesc->pvWrapper = pb = (uint8_t *)remAllocGlue(32);
1936 AssertReturn(pDesc->pvWrapper, VERR_NO_MEMORY);
1937 /**pb++ = 0xcc;*/
1938 *pb++ = 0xff;
1939 *pb++ = 0x24;
1940 *pb++ = 0x25;
1941 *(uint32_t *)pb = (uintptr_t)pb + 5;
1942 pb += 5;
1943 *(uint64_t *)pb = (uint64_t)pDesc->pv;
1944# else
1945 pDesc->pvWrapper = pb = (uint8_t *)remAllocGlue(8);
1946 AssertReturn(pDesc->pvWrapper, VERR_NO_MEMORY);
1947 *pb++ = 0xea;
1948 *(uint32_t *)pb = (uint32_t)pDesc->pv;
1949# endif
1950# endif /* !USE_REM_CALLING_CONVENTION_GLUE */
1951 }
1952 *pValue = (uintptr_t)pDesc->pvWrapper;
1953# else /* !USE_REM_CALLING_CONVENTION_GLUE */
1954 *pValue = (uintptr_t)pDesc->pv;
1955# endif /* !USE_REM_CALLING_CONVENTION_GLUE */
1956 return VINF_SUCCESS;
1957}
1958
1959
1960/**
1961 * Resolve an external symbol during RTLdrGetBits().
1962 *
1963 * @returns iprt status code.
1964 * @param hLdrMod The loader module handle.
1965 * @param pszModule Module name.
1966 * @param pszSymbol Symbol name, NULL if uSymbol should be used.
1967 * @param uSymbol Symbol ordinal, ~0 if pszSymbol should be used.
1968 * @param pValue Where to store the symbol value (address).
1969 * @param pvUser User argument.
1970 */
1971static DECLCALLBACK(int) remGetImport(RTLDRMOD hLdrMod, const char *pszModule, const char *pszSymbol, unsigned uSymbol, RTUINTPTR *pValue, void *pvUser)
1972{
1973 unsigned i;
1974 for (i = 0; i < RT_ELEMENTS(g_aVMMImports); i++)
1975 if (!strcmp(g_aVMMImports[i].pszName, pszSymbol))
1976 return remGenerateImportGlue(pValue, &g_aVMMImports[i]);
1977 for (i = 0; i < RT_ELEMENTS(g_aRTImports); i++)
1978 if (!strcmp(g_aRTImports[i].pszName, pszSymbol))
1979 return remGenerateImportGlue(pValue, &g_aRTImports[i]);
1980 for (i = 0; i < RT_ELEMENTS(g_aCRTImports); i++)
1981 if (!strcmp(g_aCRTImports[i].pszName, pszSymbol))
1982 return remGenerateImportGlue(pValue, &g_aCRTImports[i]);
1983 LogRel(("Missing REM Import: %s\n", pszSymbol));
1984# if 1
1985 *pValue = 0;
1986 AssertMsgFailed(("%s.%s\n", pszModule, pszSymbol));
1987 return VERR_SYMBOL_NOT_FOUND;
1988# else
1989 return remGenerateImportGlue(pValue, &g_aCRTImports[0]);
1990# endif
1991}
1992
1993/**
1994 * Loads the linux object, resolves all imports and exports.
1995 *
1996 * @returns VBox status code.
1997 */
1998static int remLoadLinuxObj(void)
1999{
2000 size_t offFilename;
2001 char szPath[RTPATH_MAX];
2002 int rc = RTPathAppPrivateArch(szPath, sizeof(szPath) - 32);
2003 AssertRCReturn(rc, rc);
2004 offFilename = strlen(szPath);
2005
2006# ifdef VBOX_WITHOUT_REM_LDR_CYCLE
2007 /*
2008 * Resolve all the VBoxVMM references.
2009 */
2010 if (g_ModVMM != NIL_RTLDRMOD)
2011 {
2012 rc = SUPR3HardenedLdrLoadAppPriv("VBoxVMM", &g_ModVMM, RTLDRLOAD_FLAGS_LOCAL, NULL);
2013 AssertRCReturn(rc, rc);
2014 for (size_t i = 0; i < RT_ELEMENTS(g_aVMMImports); i++)
2015 {
2016 rc = RTLdrGetSymbol(g_ModVMM, g_aVMMImports[i].pszName, &g_aVMMImports[i].pv);
2017 AssertLogRelMsgRCReturn(rc, ("RTLdrGetSymbol(VBoxVMM,%s,) -> %Rrc\n", g_aVMMImports[i].pszName, rc), rc);
2018 }
2019 }
2020# endif
2021
2022 /*
2023 * Load the VBoxREM2.rel object/DLL.
2024 */
2025 strcpy(&szPath[offFilename], "/VBoxREM2.rel");
2026 rc = RTLdrOpen(szPath, 0, RTLDRARCH_HOST, &g_ModREM2);
2027 if (RT_SUCCESS(rc))
2028 {
2029 g_cbREM2 = RTLdrSize(g_ModREM2);
2030 g_pvREM2 = RTMemExecAlloc(g_cbREM2);
2031 if (g_pvREM2)
2032 {
2033 RTPathChangeToUnixSlashes(szPath, true);
2034# ifdef DEBUG /* How to load the VBoxREM2.rel symbols into the GNU debugger. */
2035 RTPrintf("VBoxREMWrapper: (gdb) add-symbol-file %s 0x%p\n", szPath, g_pvREM2);
2036# endif
2037 LogRel(("REM: Loading %s at 0x%p (%d bytes)\n"
2038 "REM: (gdb) add-symbol-file %s 0x%p\n",
2039 szPath, g_pvREM2, RTLdrSize(g_ModREM2), szPath, g_pvREM2));
2040 rc = RTLdrGetBits(g_ModREM2, g_pvREM2, (RTUINTPTR)g_pvREM2, remGetImport, NULL);
2041 if (RT_SUCCESS(rc))
2042 {
2043 /*
2044 * Resolve exports.
2045 */
2046 unsigned i;
2047 for (i = 0; i < RT_ELEMENTS(g_aExports); i++)
2048 {
2049 RTUINTPTR Value;
2050 rc = RTLdrGetSymbolEx(g_ModREM2, g_pvREM2, (RTUINTPTR)g_pvREM2, UINT32_MAX, g_aExports[i].pszName, &Value);
2051 AssertMsgRC(rc, ("%s rc=%Rrc\n", g_aExports[i].pszName, rc));
2052 if (RT_FAILURE(rc))
2053 break;
2054 rc = remGenerateExportGlue(&Value, &g_aExports[i]);
2055 if (RT_FAILURE(rc))
2056 break;
2057 *(void **)g_aExports[i].pv = (void *)(uintptr_t)Value;
2058 }
2059 return rc;
2060 }
2061
2062 RTMemExecFree(g_pvREM2, g_cbREM2);
2063 g_pvREM2 = NULL;
2064 }
2065 g_cbREM2 = 0;
2066 RTLdrClose(g_ModREM2);
2067 g_ModREM2 = NIL_RTLDRMOD;
2068 }
2069 LogRel(("REM: failed loading '%s', rc=%Rrc\n", szPath, rc));
2070 return rc;
2071}
2072
2073
2074/**
2075 * Unloads the linux object, freeing up all resources (dlls and
2076 * import glue) we allocated during remLoadLinuxObj().
2077 */
2078static void remUnloadLinuxObj(void)
2079{
2080 unsigned i;
2081
2082 /* close modules. */
2083 RTLdrClose(g_ModREM2);
2084 g_ModREM2 = NIL_RTLDRMOD;
2085 RTMemExecFree(g_pvREM2, g_cbREM2);
2086 g_pvREM2 = NULL;
2087 g_cbREM2 = 0;
2088
2089 /* clear the pointers. */
2090 for (i = 0; i < RT_ELEMENTS(g_aExports); i++)
2091 *(void **)g_aExports[i].pv = NULL;
2092# if defined(USE_REM_CALLING_CONVENTION_GLUE) || defined(USE_REM_IMPORT_JUMP_GLUE)
2093 for (i = 0; i < RT_ELEMENTS(g_aVMMImports); i++)
2094 g_aVMMImports[i].pvWrapper = NULL;
2095 for (i = 0; i < RT_ELEMENTS(g_aRTImports); i++)
2096 g_aRTImports[i].pvWrapper = NULL;
2097 for (i = 0; i < RT_ELEMENTS(g_aCRTImports); i++)
2098 g_aCRTImports[i].pvWrapper = NULL;
2099
2100 /* free wrapper memory. */
2101 while (g_pExecMemHead)
2102 {
2103 PREMEXECMEM pCur = g_pExecMemHead;
2104 g_pExecMemHead = pCur->pNext;
2105 memset(pCur, 0xcc, pCur->cb);
2106 RTMemExecFree(pCur, pCur->cb);
2107 }
2108# endif
2109}
2110
2111# else /* VBOX_USE_BITNESS_SELECTOR */
2112
2113/**
2114 * Checks if 64-bit support is enabled.
2115 *
2116 * @returns true / false.
2117 * @param pVM Pointer to the shared VM structure.
2118 */
2119static bool remIs64bitEnabled(PVM pVM)
2120{
2121 bool f;
2122 int rc;
2123
2124# ifdef VBOX_WITHOUT_REM_LDR_CYCLE
2125 if (g_ModVMM == NIL_RTLDRMOD)
2126 {
2127 rc = SUPR3HardenedLdrLoadAppPriv("VBoxVMM", &g_ModVMM, RTLDRLOAD_FLAGS_LOCAL, NULL);
2128 AssertRCReturn(rc, false);
2129 }
2130
2131 DECLCALLBACKMEMBER(PCFGMNODE, pfnCFGMR3GetRoot)(PVM);
2132 rc = RTLdrGetSymbol(g_ModVMM, "CFGMR3GetRoot", (void **)&pfnCFGMR3GetRoot);
2133 AssertRCReturn(rc, false);
2134
2135 DECLCALLBACKMEMBER(PCFGMNODE, pfnCFGMR3GetChild)(PCFGMNODE, const char *);
2136 rc = RTLdrGetSymbol(g_ModVMM, "CFGMR3GetChild", (void **)&pfnCFGMR3GetChild);
2137 AssertRCReturn(rc, false);
2138
2139 DECLCALLBACKMEMBER(int, pfnCFGMR3QueryBoolDef)(PCFGMNODE, const char *, bool *, bool);
2140 rc = RTLdrGetSymbol(g_ModVMM, "CFGMR3QueryBoolDef", (void **)&pfnCFGMR3QueryBoolDef);
2141 AssertRCReturn(rc, false);
2142
2143 rc = pfnCFGMR3QueryBoolDef(pfnCFGMR3GetChild(pfnCFGMR3GetRoot(pVM), "REM"), "64bitEnabled", &f, false);
2144# else
2145 rc = CFGMR3QueryBoolDef(CFGMR3GetChild(CFGMR3GetRoot(pVM), "REM"), "64bitEnabled", &f, false);
2146# endif
2147 AssertRCReturn(rc, false);
2148 return f;
2149}
2150
2151
2152/**
2153 * Loads real REM object, resolves all exports (imports are done by native loader).
2154 *
2155 * @returns VBox status code.
2156 */
2157static int remLoadProperObj(PVM pVM)
2158{
2159 /*
2160 * Load the VBoxREM32/64 object/DLL.
2161 */
2162 const char *pszModule = remIs64bitEnabled(pVM) ? "VBoxREM64" : "VBoxREM32";
2163 int rc = SUPR3HardenedLdrLoadAppPriv(pszModule, &g_ModREM2, RTLDRLOAD_FLAGS_LOCAL, NULL);
2164 if (RT_SUCCESS(rc))
2165 {
2166 LogRel(("REM: %s\n", pszModule));
2167
2168 /*
2169 * Resolve exports.
2170 */
2171 unsigned i;
2172 for (i = 0; i < RT_ELEMENTS(g_aExports); i++)
2173 {
2174 void *pvValue;
2175 rc = RTLdrGetSymbol(g_ModREM2, g_aExports[i].pszName, &pvValue);
2176 AssertLogRelMsgRCBreak(rc, ("%s rc=%Rrc\n", g_aExports[i].pszName, rc));
2177 *(void **)g_aExports[i].pv = pvValue;
2178 }
2179 }
2180
2181 return rc;
2182}
2183
2184
2185/**
2186 * Unloads the real REM object.
2187 */
2188static void remUnloadProperObj(void)
2189{
2190 /* close module. */
2191 RTLdrClose(g_ModREM2);
2192 g_ModREM2 = NIL_RTLDRMOD;
2193}
2194
2195# endif /* VBOX_USE_BITNESS_SELECTOR */
2196#endif /* USE_REM_STUBS */
2197
2198REMR3DECL(int) REMR3Init(PVM pVM)
2199{
2200#ifdef USE_REM_STUBS
2201 return VINF_SUCCESS;
2202
2203#elif defined(VBOX_USE_BITNESS_SELECTOR)
2204 if (!pfnREMR3Init)
2205 {
2206 int rc = remLoadProperObj(pVM);
2207 if (RT_FAILURE(rc))
2208 return rc;
2209 }
2210 return pfnREMR3Init(pVM);
2211
2212#else
2213 if (!pfnREMR3Init)
2214 {
2215 int rc = remLoadLinuxObj();
2216 if (RT_FAILURE(rc))
2217 return rc;
2218 }
2219 return pfnREMR3Init(pVM);
2220#endif
2221}
2222
2223REMR3DECL(int) REMR3InitFinalize(PVM pVM)
2224{
2225#ifndef USE_REM_STUBS
2226 Assert(VALID_PTR(pfnREMR3InitFinalize));
2227 return pfnREMR3InitFinalize(pVM);
2228#endif
2229}
2230
2231REMR3DECL(int) REMR3Term(PVM pVM)
2232{
2233#ifdef USE_REM_STUBS
2234 return VINF_SUCCESS;
2235
2236#elif defined(VBOX_USE_BITNESS_SELECTOR)
2237 int rc;
2238 Assert(VALID_PTR(pfnREMR3Term));
2239 rc = pfnREMR3Term(pVM);
2240 remUnloadProperObj();
2241 return rc;
2242
2243#else
2244 int rc;
2245 Assert(VALID_PTR(pfnREMR3Term));
2246 rc = pfnREMR3Term(pVM);
2247 remUnloadLinuxObj();
2248 return rc;
2249#endif
2250}
2251
2252REMR3DECL(void) REMR3Reset(PVM pVM)
2253{
2254#ifndef USE_REM_STUBS
2255 Assert(VALID_PTR(pfnREMR3Reset));
2256 pfnREMR3Reset(pVM);
2257#endif
2258}
2259
2260REMR3DECL(int) REMR3Step(PVM pVM, PVMCPU pVCpu)
2261{
2262#ifdef USE_REM_STUBS
2263 return VERR_NOT_IMPLEMENTED;
2264#else
2265 Assert(VALID_PTR(pfnREMR3Step));
2266 return pfnREMR3Step(pVM, pVCpu);
2267#endif
2268}
2269
2270REMR3DECL(int) REMR3BreakpointSet(PVM pVM, RTGCUINTPTR Address)
2271{
2272#ifdef USE_REM_STUBS
2273 return VERR_REM_NO_MORE_BP_SLOTS;
2274#else
2275 Assert(VALID_PTR(pfnREMR3BreakpointSet));
2276 return pfnREMR3BreakpointSet(pVM, Address);
2277#endif
2278}
2279
2280REMR3DECL(int) REMR3BreakpointClear(PVM pVM, RTGCUINTPTR Address)
2281{
2282#ifdef USE_REM_STUBS
2283 return VERR_NOT_IMPLEMENTED;
2284#else
2285 Assert(VALID_PTR(pfnREMR3BreakpointClear));
2286 return pfnREMR3BreakpointClear(pVM, Address);
2287#endif
2288}
2289
2290REMR3DECL(int) REMR3EmulateInstruction(PVM pVM, PVMCPU pVCpu)
2291{
2292#ifdef USE_REM_STUBS
2293 return VERR_NOT_IMPLEMENTED;
2294#else
2295 Assert(VALID_PTR(pfnREMR3EmulateInstruction));
2296 return pfnREMR3EmulateInstruction(pVM, pVCpu);
2297#endif
2298}
2299
2300REMR3DECL(int) REMR3Run(PVM pVM, PVMCPU pVCpu)
2301{
2302#ifdef USE_REM_STUBS
2303 return VERR_NOT_IMPLEMENTED;
2304#else
2305 Assert(VALID_PTR(pfnREMR3Run));
2306 return pfnREMR3Run(pVM, pVCpu);
2307#endif
2308}
2309
2310REMR3DECL(int) REMR3State(PVM pVM, PVMCPU pVCpu)
2311{
2312#ifdef USE_REM_STUBS
2313 return VERR_NOT_IMPLEMENTED;
2314#else
2315 Assert(VALID_PTR(pfnREMR3State));
2316 return pfnREMR3State(pVM, pVCpu);
2317#endif
2318}
2319
2320REMR3DECL(int) REMR3StateBack(PVM pVM, PVMCPU pVCpu)
2321{
2322#ifdef USE_REM_STUBS
2323 return VERR_NOT_IMPLEMENTED;
2324#else
2325 Assert(VALID_PTR(pfnREMR3StateBack));
2326 return pfnREMR3StateBack(pVM, pVCpu);
2327#endif
2328}
2329
2330REMR3DECL(void) REMR3StateUpdate(PVM pVM, PVMCPU pVCpu)
2331{
2332#ifndef USE_REM_STUBS
2333 Assert(VALID_PTR(pfnREMR3StateUpdate));
2334 pfnREMR3StateUpdate(pVM, pVCpu);
2335#endif
2336}
2337
2338REMR3DECL(void) REMR3A20Set(PVM pVM, PVMCPU pVCpu, bool fEnable)
2339{
2340#ifndef USE_REM_STUBS
2341 Assert(VALID_PTR(pfnREMR3A20Set));
2342 pfnREMR3A20Set(pVM, pVCpu, fEnable);
2343#endif
2344}
2345
2346REMR3DECL(void) REMR3ReplayHandlerNotifications(PVM pVM)
2347{
2348#ifndef USE_REM_STUBS
2349 Assert(VALID_PTR(pfnREMR3ReplayHandlerNotifications));
2350 pfnREMR3ReplayHandlerNotifications(pVM);
2351#endif
2352}
2353
2354REMR3DECL(int) REMR3NotifyCodePageChanged(PVM pVM, PVMCPU pVCpu, RTGCPTR pvCodePage)
2355{
2356#ifdef USE_REM_STUBS
2357 return VINF_SUCCESS;
2358#else
2359 Assert(VALID_PTR(pfnREMR3NotifyCodePageChanged));
2360 return pfnREMR3NotifyCodePageChanged(pVM, pVCpu, pvCodePage);
2361#endif
2362}
2363
2364REMR3DECL(void) REMR3NotifyPhysRamRegister(PVM pVM, RTGCPHYS GCPhys, RTGCPHYS cb, unsigned fFlags)
2365{
2366#ifndef USE_REM_STUBS
2367 Assert(VALID_PTR(pfnREMR3NotifyPhysRamRegister));
2368 pfnREMR3NotifyPhysRamRegister(pVM, GCPhys, cb, fFlags);
2369#endif
2370}
2371
2372REMR3DECL(void) REMR3NotifyPhysRomRegister(PVM pVM, RTGCPHYS GCPhys, RTUINT cb, void *pvCopy, bool fShadow)
2373{
2374#ifndef USE_REM_STUBS
2375 Assert(VALID_PTR(pfnREMR3NotifyPhysRomRegister));
2376 pfnREMR3NotifyPhysRomRegister(pVM, GCPhys, cb, pvCopy, fShadow);
2377#endif
2378}
2379
2380REMR3DECL(void) REMR3NotifyPhysRamDeregister(PVM pVM, RTGCPHYS GCPhys, RTUINT cb)
2381{
2382#ifndef USE_REM_STUBS
2383 Assert(VALID_PTR(pfnREMR3NotifyPhysRamDeregister));
2384 pfnREMR3NotifyPhysRamDeregister(pVM, GCPhys, cb);
2385#endif
2386}
2387
2388REMR3DECL(void) REMR3NotifyHandlerPhysicalRegister(PVM pVM, PGMPHYSHANDLERKIND enmKind, RTGCPHYS GCPhys, RTGCPHYS cb, bool fHasHCHandler)
2389{
2390#ifndef USE_REM_STUBS
2391 Assert(VALID_PTR(pfnREMR3NotifyHandlerPhysicalRegister));
2392 pfnREMR3NotifyHandlerPhysicalRegister(pVM, enmKind, GCPhys, cb, fHasHCHandler);
2393#endif
2394}
2395
2396REMR3DECL(void) REMR3NotifyHandlerPhysicalDeregister(PVM pVM, PGMPHYSHANDLERKIND enmKind, RTGCPHYS GCPhys, RTGCPHYS cb, bool fHasHCHandler, bool fRestoreAsRAM)
2397{
2398#ifndef USE_REM_STUBS
2399 Assert(VALID_PTR(pfnREMR3NotifyHandlerPhysicalDeregister));
2400 pfnREMR3NotifyHandlerPhysicalDeregister(pVM, enmKind, GCPhys, cb, fHasHCHandler, fRestoreAsRAM);
2401#endif
2402}
2403
2404REMR3DECL(void) REMR3NotifyHandlerPhysicalModify(PVM pVM, PGMPHYSHANDLERKIND enmKind, RTGCPHYS GCPhysOld, RTGCPHYS GCPhysNew, RTGCPHYS cb, bool fHasHCHandler, bool fRestoreAsRAM)
2405{
2406#ifndef USE_REM_STUBS
2407 Assert(VALID_PTR(pfnREMR3NotifyHandlerPhysicalModify));
2408 pfnREMR3NotifyHandlerPhysicalModify(pVM, enmKind, GCPhysOld, GCPhysNew, cb, fHasHCHandler, fRestoreAsRAM);
2409#endif
2410}
2411
2412REMR3DECL(bool) REMR3IsPageAccessHandled(PVM pVM, RTGCPHYS GCPhys)
2413{
2414#ifdef USE_REM_STUBS
2415 return false;
2416#else
2417 Assert(VALID_PTR(pfnREMR3IsPageAccessHandled));
2418 return pfnREMR3IsPageAccessHandled(pVM, GCPhys);
2419#endif
2420}
2421
2422REMR3DECL(int) REMR3DisasEnableStepping(PVM pVM, bool fEnable)
2423{
2424#ifdef USE_REM_STUBS
2425 return VERR_NOT_IMPLEMENTED;
2426#else
2427 Assert(VALID_PTR(pfnREMR3DisasEnableStepping));
2428 return pfnREMR3DisasEnableStepping(pVM, fEnable);
2429#endif
2430}
2431
2432REMR3DECL(void) REMR3NotifyInterruptSet(PVM pVM, PVMCPU pVCpu)
2433{
2434#ifndef USE_REM_STUBS
2435 Assert(VALID_PTR(pfnREMR3NotifyInterruptSet));
2436 pfnREMR3NotifyInterruptSet(pVM, pVCpu);
2437#endif
2438}
2439
2440REMR3DECL(void) REMR3NotifyInterruptClear(PVM pVM, PVMCPU pVCpu)
2441{
2442#ifndef USE_REM_STUBS
2443 Assert(VALID_PTR(pfnREMR3NotifyInterruptClear));
2444 pfnREMR3NotifyInterruptClear(pVM, pVCpu);
2445#endif
2446}
2447
2448REMR3DECL(void) REMR3NotifyTimerPending(PVM pVM, PVMCPU pVCpuDst)
2449{
2450#ifndef USE_REM_STUBS
2451 Assert(VALID_PTR(pfnREMR3NotifyTimerPending));
2452 pfnREMR3NotifyTimerPending(pVM, pVCpuDst);
2453#endif
2454}
2455
2456REMR3DECL(void) REMR3NotifyDmaPending(PVM pVM)
2457{
2458#ifndef USE_REM_STUBS
2459 Assert(VALID_PTR(pfnREMR3NotifyDmaPending));
2460 pfnREMR3NotifyDmaPending(pVM);
2461#endif
2462}
2463
2464REMR3DECL(void) REMR3NotifyQueuePending(PVM pVM)
2465{
2466#ifndef USE_REM_STUBS
2467 Assert(VALID_PTR(pfnREMR3NotifyQueuePending));
2468 pfnREMR3NotifyQueuePending(pVM);
2469#endif
2470}
2471
2472REMR3DECL(void) REMR3NotifyFF(PVM pVM)
2473{
2474#ifndef USE_REM_STUBS
2475 /* the timer can call this early on, so don't be picky. */
2476 if (pfnREMR3NotifyFF)
2477 pfnREMR3NotifyFF(pVM);
2478#endif
2479}
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