VirtualBox

source: vbox/trunk/src/VBox/ValidationKit/bootsectors/bs3kit/bs3kit.h@ 84794

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1/* $Id: bs3kit.h 82968 2020-02-04 10:35:17Z vboxsync $ */
2/** @file
3 * BS3Kit - structures, symbols, macros and stuff.
4 */
5
6/*
7 * Copyright (C) 2007-2020 Oracle Corporation
8 *
9 * This file is part of VirtualBox Open Source Edition (OSE), as
10 * available from http://www.virtualbox.org. This file is free software;
11 * you can redistribute it and/or modify it under the terms of the GNU
12 * General Public License (GPL) as published by the Free Software
13 * Foundation, in version 2 as it comes in the "COPYING" file of the
14 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
15 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
16 *
17 * The contents of this file may alternatively be used under the terms
18 * of the Common Development and Distribution License Version 1.0
19 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the
20 * VirtualBox OSE distribution, in which case the provisions of the
21 * CDDL are applicable instead of those of the GPL.
22 *
23 * You may elect to license modified versions of this file under the
24 * terms and conditions of either the GPL or the CDDL or both.
25 */
26
27#ifndef BS3KIT_INCLUDED_bs3kit_h
28#define BS3KIT_INCLUDED_bs3kit_h
29#ifndef RT_WITHOUT_PRAGMA_ONCE
30# pragma once
31#endif
32
33#ifndef DOXYGEN_RUNNING
34# undef IN_RING0
35# define IN_RING0
36#endif
37
38#define RT_NO_STRICT /* Don't drag in IPRT assertion code in inline code we may use (asm.h). */
39#include <iprt/cdefs.h>
40#include <iprt/types.h>
41
42#ifndef DOXYGEN_RUNNING
43# undef IN_RING0
44#endif
45
46/*
47 * Make asm.h and friend compatible with our 64-bit assembly config (ASM_CALL64_MSC).
48 */
49#if defined(__GNUC__) && ARCH_BITS == 64
50# undef DECLASM
51# ifdef __cplusplus
52# define DECLASM(type) extern "C" type BS3_CALL
53# else
54# define DECLASM(type) type BS3_CALL
55# endif
56#endif
57
58
59/*
60 * Work around ms_abi trouble in the gcc camp (gcc bugzilla #50818).
61 * ASSUMES all va_lists are in functions with
62 */
63#if defined(__GNUC__) && ARCH_BITS == 64
64# undef va_list
65# undef va_start
66# undef va_end
67# undef va_copy
68# define va_list __builtin_ms_va_list
69# define va_start(a_Va, a_Arg) __builtin_ms_va_start(a_Va, a_Arg)
70# define va_end(a_Va) __builtin_ms_va_end(a_Va)
71# define va_copy(a_DstVa, a_SrcVa) __builtin_ms_va_copy(a_DstVa, a_SrcVa)
72#endif
73
74
75/** @def BS3_USE_ALT_16BIT_TEXT_SEG
76 * @ingroup grp_bs3kit
77 * Combines the BS3_USE_RM_TEXT_SEG, BS3_USE_X0_TEXT_SEG, and
78 * BS3_USE_X1_TEXT_SEG indicators into a single one.
79 */
80#if defined(BS3_USE_RM_TEXT_SEG) || defined(BS3_USE_X0_TEXT_SEG) || defined(BS3_USE_X1_TEXT_SEG) || defined(DOXYGEN_RUNNING)
81# define BS3_USE_ALT_16BIT_TEXT_SEG
82#else
83# undef BS3_USE_ALT_16BIT_TEXT_SEG
84#endif
85
86/** @def BS3_USE_X0_TEXT_SEG
87 * @ingroup grp_bs3kit
88 * Emit 16-bit code to the BS3X0TEXT16 segment - ignored for 32-bit and 64-bit.
89 *
90 * Calling directly into the BS3X0TEXT16 segment is only possible in real-mode
91 * and v8086 mode. In protected mode the real far pointer have to be converted
92 * to a protected mode pointer that uses BS3_SEL_X0TEXT16_CS, Bs3TestDoModes and
93 * associates does this automatically.
94 */
95#ifdef DOXYGEN_RUNNING
96# define BS3_USE_X0_TEXT_SEG
97#endif
98
99/** @def BS3_USE_X1_TEXT_SEG
100 * @ingroup grp_bs3kit
101 * Emit 16-bit code to the BS3X1TEXT16 segment - ignored for 32-bit and 64-bit.
102 *
103 * Calling directly into the BS3X1TEXT16 segment is only possible in real-mode
104 * and v8086 mode. In protected mode the real far pointer have to be converted
105 * to a protected mode pointer that uses BS3_SEL_X1TEXT16_CS, Bs3TestDoModes and
106 * associates does this automatically.
107 */
108#ifdef DOXYGEN_RUNNING
109# define BS3_USE_X1_TEXT_SEG
110#endif
111
112/** @def BS3_USE_RM_TEXT_SEG
113 * @ingroup grp_bs3kit
114 * Emit 16-bit code to the BS3RMTEXT16 segment - ignored for 32-bit and 64-bit.
115 *
116 * This segment is normally used for real-mode only code, though
117 * BS3_SEL_RMTEXT16_CS can be used to call it from protected mode. Unlike the
118 * BS3X0TEXT16 and BS3X1TEXT16 segments which are empty by default, this segment
119 * is used by common BS3Kit code.
120 */
121#ifdef DOXYGEN_RUNNING
122# define BS3_USE_X0_TEXT_SEG
123#endif
124
125/** @def BS3_MODEL_FAR_CODE
126 * @ingroup grp_bs3kit
127 * Default compiler model indicates far code.
128 */
129#ifdef DOXYGEN_RUNNING
130# define BS3_MODEL_FAR_CODE
131#elif !defined(BS3_MODEL_FAR_CODE) && (defined(__LARGE__) || defined(__MEDIUM__) || defined(__HUGE__)) && ARCH_BITS == 16
132# define BS3_MODEL_FAR_CODE
133#endif
134
135
136/*
137 * We normally don't want the noreturn / aborts attributes as they mess up stack traces.
138 *
139 * Note! pragma aux <fnname> aborts can only be used with functions
140 * implemented in C and functions that does not have parameters.
141 */
142#define BS3_KIT_WITH_NO_RETURN
143#ifndef BS3_KIT_WITH_NO_RETURN
144# undef DECL_NO_RETURN
145# define DECL_NO_RETURN(type) type
146#endif
147
148
149/*
150 * We may want to reuse some IPRT code in the common name space, so we
151 * redefine the RT_MANGLER to work like BS3_CMN_NM. (We cannot use
152 * BS3_CMN_NM yet, as we need to include IPRT headers with function
153 * declarations before we can define it. Thus the duplciate effort.)
154 */
155#if ARCH_BITS == 16
156# undef RTCALL
157# if defined(BS3_USE_ALT_16BIT_TEXT_SEG)
158# define RTCALL __cdecl __far
159# define RT_MANGLER(a_Name) RT_CONCAT(a_Name,_f16)
160# else
161# define RTCALL __cdecl __near
162# define RT_MANGLER(a_Name) RT_CONCAT(a_Name,_c16)
163# endif
164#else
165# define RT_MANGLER(a_Name) RT_CONCAT3(a_Name,_c,ARCH_BITS)
166#endif
167#include <iprt/mangling.h>
168#include <iprt/x86.h>
169#include <iprt/err.h>
170
171/*
172 * Include data symbol mangling (function mangling/mapping must be done
173 * after the protypes).
174 */
175#include "bs3kit-mangling-data.h"
176
177
178
179RT_C_DECLS_BEGIN
180
181/** @defgroup grp_bs3kit BS3Kit - Boot Sector Kit \#3
182 *
183 * The BS3Kit is a framework for bare metal floppy/usb image tests,
184 * see the @ref pg_bs3kit "doc page" for more.
185 *
186 * @{ */
187
188/** @name Execution modes.
189 * @{ */
190#define BS3_MODE_INVALID UINT8_C(0x00)
191#define BS3_MODE_RM UINT8_C(0x01) /**< real mode. */
192#define BS3_MODE_PE16 UINT8_C(0x11) /**< 16-bit protected mode kernel+tss, running 16-bit code, unpaged. */
193#define BS3_MODE_PE16_32 UINT8_C(0x12) /**< 16-bit protected mode kernel+tss, running 32-bit code, unpaged. */
194#define BS3_MODE_PE16_V86 UINT8_C(0x18) /**< 16-bit protected mode kernel+tss, running virtual 8086 mode code, unpaged. */
195#define BS3_MODE_PE32 UINT8_C(0x22) /**< 32-bit protected mode kernel+tss, running 32-bit code, unpaged. */
196#define BS3_MODE_PE32_16 UINT8_C(0x21) /**< 32-bit protected mode kernel+tss, running 16-bit code, unpaged. */
197#define BS3_MODE_PEV86 UINT8_C(0x28) /**< 32-bit protected mode kernel+tss, running virtual 8086 mode code, unpaged. */
198#define BS3_MODE_PP16 UINT8_C(0x31) /**< 16-bit protected mode kernel+tss, running 16-bit code, paged. */
199#define BS3_MODE_PP16_32 UINT8_C(0x32) /**< 16-bit protected mode kernel+tss, running 32-bit code, paged. */
200#define BS3_MODE_PP16_V86 UINT8_C(0x38) /**< 16-bit protected mode kernel+tss, running virtual 8086 mode code, paged. */
201#define BS3_MODE_PP32 UINT8_C(0x42) /**< 32-bit protected mode kernel+tss, running 32-bit code, paged. */
202#define BS3_MODE_PP32_16 UINT8_C(0x41) /**< 32-bit protected mode kernel+tss, running 16-bit code, paged. */
203#define BS3_MODE_PPV86 UINT8_C(0x48) /**< 32-bit protected mode kernel+tss, running virtual 8086 mode code, paged. */
204#define BS3_MODE_PAE16 UINT8_C(0x51) /**< 16-bit protected mode kernel+tss, running 16-bit code, PAE paging. */
205#define BS3_MODE_PAE16_32 UINT8_C(0x52) /**< 16-bit protected mode kernel+tss, running 32-bit code, PAE paging. */
206#define BS3_MODE_PAE16_V86 UINT8_C(0x58) /**< 16-bit protected mode kernel+tss, running virtual 8086 mode, PAE paging. */
207#define BS3_MODE_PAE32 UINT8_C(0x62) /**< 32-bit protected mode kernel+tss, running 32-bit code, PAE paging. */
208#define BS3_MODE_PAE32_16 UINT8_C(0x61) /**< 32-bit protected mode kernel+tss, running 16-bit code, PAE paging. */
209#define BS3_MODE_PAEV86 UINT8_C(0x68) /**< 32-bit protected mode kernel+tss, running virtual 8086 mode, PAE paging. */
210#define BS3_MODE_LM16 UINT8_C(0x71) /**< 16-bit long mode (paged), kernel+tss always 64-bit. */
211#define BS3_MODE_LM32 UINT8_C(0x72) /**< 32-bit long mode (paged), kernel+tss always 64-bit. */
212#define BS3_MODE_LM64 UINT8_C(0x74) /**< 64-bit long mode (paged), kernel+tss always 64-bit. */
213
214#define BS3_MODE_CODE_MASK UINT8_C(0x0f) /**< Running code mask. */
215#define BS3_MODE_CODE_16 UINT8_C(0x01) /**< Running 16-bit code. */
216#define BS3_MODE_CODE_32 UINT8_C(0x02) /**< Running 32-bit code. */
217#define BS3_MODE_CODE_64 UINT8_C(0x04) /**< Running 64-bit code. */
218#define BS3_MODE_CODE_V86 UINT8_C(0x08) /**< Running 16-bit virtual 8086 code. */
219
220#define BS3_MODE_SYS_MASK UINT8_C(0xf0) /**< kernel+tss mask. */
221#define BS3_MODE_SYS_RM UINT8_C(0x00) /**< Real mode kernel+tss. */
222#define BS3_MODE_SYS_PE16 UINT8_C(0x10) /**< 16-bit protected mode kernel+tss. */
223#define BS3_MODE_SYS_PE32 UINT8_C(0x20) /**< 32-bit protected mode kernel+tss. */
224#define BS3_MODE_SYS_PP16 UINT8_C(0x30) /**< 16-bit paged protected mode kernel+tss. */
225#define BS3_MODE_SYS_PP32 UINT8_C(0x40) /**< 32-bit paged protected mode kernel+tss. */
226#define BS3_MODE_SYS_PAE16 UINT8_C(0x50) /**< 16-bit PAE paged protected mode kernel+tss. */
227#define BS3_MODE_SYS_PAE32 UINT8_C(0x60) /**< 32-bit PAE paged protected mode kernel+tss. */
228#define BS3_MODE_SYS_LM UINT8_C(0x70) /**< 64-bit (paged) long mode protected mode kernel+tss. */
229
230/** Whether the mode has paging enabled. */
231#define BS3_MODE_IS_PAGED(a_fMode) ((a_fMode) >= BS3_MODE_PP16)
232/** Whether the mode has legacy paging enabled (legacy as opposed to PAE or
233 * long mode). */
234#define BS3_MODE_IS_LEGACY_PAGING(a_fMode) ((a_fMode) >= BS3_MODE_PP16 && (a_fMode) < BS3_MODE_PAE16)
235
236/** Whether the mode is running v8086 code. */
237#define BS3_MODE_IS_V86(a_fMode) (((a_fMode) & BS3_MODE_CODE_MASK) == BS3_MODE_CODE_V86)
238/** Whether the we're executing in real mode or v8086 mode. */
239#define BS3_MODE_IS_RM_OR_V86(a_fMode) ((a_fMode) == BS3_MODE_RM || BS3_MODE_IS_V86(a_fMode))
240/** Whether the mode is running 16-bit code, except v8086. */
241#define BS3_MODE_IS_16BIT_CODE_NO_V86(a_fMode) (((a_fMode) & BS3_MODE_CODE_MASK) == BS3_MODE_CODE_16)
242/** Whether the mode is running 16-bit code (includes v8086). */
243#define BS3_MODE_IS_16BIT_CODE(a_fMode) (BS3_MODE_IS_16BIT_CODE_NO_V86(a_fMode) || BS3_MODE_IS_V86(a_fMode))
244/** Whether the mode is running 32-bit code. */
245#define BS3_MODE_IS_32BIT_CODE(a_fMode) (((a_fMode) & BS3_MODE_CODE_MASK) == BS3_MODE_CODE_32)
246/** Whether the mode is running 64-bit code. */
247#define BS3_MODE_IS_64BIT_CODE(a_fMode) (((a_fMode) & BS3_MODE_CODE_MASK) == BS3_MODE_CODE_64)
248
249/** Whether the system is in real mode. */
250#define BS3_MODE_IS_RM_SYS(a_fMode) (((a_fMode) & BS3_MODE_SYS_MASK) == BS3_MODE_SYS_RM)
251/** Whether the system is some 16-bit mode that isn't real mode. */
252#define BS3_MODE_IS_16BIT_SYS_NO_RM(a_fMode) ( ((a_fMode) & BS3_MODE_SYS_MASK) == BS3_MODE_SYS_PE16 \
253 || ((a_fMode) & BS3_MODE_SYS_MASK) == BS3_MODE_SYS_PP16 \
254 || ((a_fMode) & BS3_MODE_SYS_MASK) == BS3_MODE_SYS_PAE16)
255/** Whether the system is some 16-bit mode (includes real mode). */
256#define BS3_MODE_IS_16BIT_SYS(a_fMode) (BS3_MODE_IS_16BIT_SYS_NO_RM(a_fMode) || BS3_MODE_IS_RM_SYS(a_fMode))
257/** Whether the system is some 32-bit mode. */
258#define BS3_MODE_IS_32BIT_SYS(a_fMode) ( ((a_fMode) & BS3_MODE_SYS_MASK) == BS3_MODE_SYS_PE32 \
259 || ((a_fMode) & BS3_MODE_SYS_MASK) == BS3_MODE_SYS_PP32 \
260 || ((a_fMode) & BS3_MODE_SYS_MASK) == BS3_MODE_SYS_PAE32)
261/** Whether the system is long mode. */
262#define BS3_MODE_IS_64BIT_SYS(a_fMode) (((a_fMode) & BS3_MODE_SYS_MASK) == BS3_MODE_SYS_LM)
263
264/** Whether the system is in protected mode (with or without paging).
265 * @note Long mode is not included. */
266#define BS3_MODE_IS_PM_SYS(a_fMode) ((a_fMode) >= BS3_MODE_SYS_PE16 && (a_fMode) < BS3_MODE_SYS_LM)
267
268/** @todo testcase: How would long-mode handle a 16-bit TSS loaded prior to the switch? (mainly stack switching wise) Hopefully, it will tripple fault, right? */
269/** @} */
270
271
272/** @name BS3_ADDR_XXX - Static Memory Allocation
273 * @{ */
274/** The flat load address for the code after the bootsector. */
275#define BS3_ADDR_LOAD 0x10000
276/** Where we save the boot registers during init.
277 * Located right before the code. */
278#define BS3_ADDR_REG_SAVE (BS3_ADDR_LOAD - sizeof(BS3REGCTX) - 8)
279/** Where the stack starts (initial RSP value).
280 * Located 16 bytes (assumed by boot sector) before the saved registers.
281 * SS.BASE=0. The size is a little short of 32KB */
282#define BS3_ADDR_STACK (BS3_ADDR_REG_SAVE - 16)
283/** The ring-0 stack (8KB) for ring transitions. */
284#define BS3_ADDR_STACK_R0 0x06000
285/** The ring-1 stack (8KB) for ring transitions. */
286#define BS3_ADDR_STACK_R1 0x04000
287/** The ring-2 stack (8KB) for ring transitions. */
288#define BS3_ADDR_STACK_R2 0x02000
289/** IST1 ring-0 stack for long mode (4KB), used for double faults elsewhere. */
290#define BS3_ADDR_STACK_R0_IST1 0x09000
291/** IST2 ring-0 stack for long mode (3KB), used for spare 0 stack elsewhere. */
292#define BS3_ADDR_STACK_R0_IST2 0x08000
293/** IST3 ring-0 stack for long mode (1KB). */
294#define BS3_ADDR_STACK_R0_IST3 0x07400
295/** IST4 ring-0 stack for long mode (1KB), used for spare 1 stack elsewhere. */
296#define BS3_ADDR_STACK_R0_IST4 0x07000
297/** IST5 ring-0 stack for long mode (1KB). */
298#define BS3_ADDR_STACK_R0_IST5 0x06c00
299/** IST6 ring-0 stack for long mode (1KB). */
300#define BS3_ADDR_STACK_R0_IST6 0x06800
301/** IST7 ring-0 stack for long mode (1KB). */
302#define BS3_ADDR_STACK_R0_IST7 0x06400
303
304/** The base address of the BS3TEXT16 segment (same as BS3_LOAD_ADDR).
305 * @sa BS3_SEL_TEXT16 */
306#define BS3_ADDR_BS3TEXT16 0x10000
307/** The base address of the BS3SYSTEM16 segment.
308 * @sa BS3_SEL_SYSTEM16 */
309#define BS3_ADDR_BS3SYSTEM16 0x20000
310/** The base address of the BS3DATA16/BS3KIT_GRPNM_DATA16 segment.
311 * @sa BS3_SEL_DATA16 */
312#define BS3_ADDR_BS3DATA16 0x29000
313/** @} */
314
315/** @name BS3_SEL_XXX - GDT selector assignments.
316 *
317 * The real mode segment numbers for BS16TEXT, BS16DATA and BS16SYSTEM are
318 * present in the GDT, this allows the 16-bit C/C++ and assembly code to
319 * continue using the real mode segment values in ring-0 protected mode.
320 *
321 * The three segments have fixed locations:
322 * | segment | flat address | real mode segment |
323 * | ----------- | ------------ | ----------------- |
324 * | BS3TEXT16 | 0x00010000 | 1000h |
325 * | BS3SYSTEM16 | 0x00020000 | 2000h |
326 * | BS3DATA16 | 0x00029000 | 2900h |
327 *
328 * This means that we've got a lot of GDT space to play around with.
329 *
330 * @{ */
331#define BS3_SEL_LDT 0x0010 /**< The LDT selector for Bs3Ldt. */
332#define BS3_SEL_TSS16 0x0020 /**< The 16-bit TSS selector. */
333#define BS3_SEL_TSS16_DF 0x0028 /**< The 16-bit TSS selector for double faults. */
334#define BS3_SEL_TSS16_SPARE0 0x0030 /**< The 16-bit TSS selector for testing. */
335#define BS3_SEL_TSS16_SPARE1 0x0038 /**< The 16-bit TSS selector for testing. */
336#define BS3_SEL_TSS32 0x0040 /**< The 32-bit TSS selector. */
337#define BS3_SEL_TSS32_DF 0x0048 /**< The 32-bit TSS selector for double faults. */
338#define BS3_SEL_TSS32_SPARE0 0x0050 /**< The 32-bit TSS selector for testing. */
339#define BS3_SEL_TSS32_SPARE1 0x0058 /**< The 32-bit TSS selector for testing. */
340#define BS3_SEL_TSS32_IOBP_IRB 0x0060 /**< The 32-bit TSS selector with I/O permission and interrupt redirection bitmaps. */
341#define BS3_SEL_TSS32_IRB 0x0068 /**< The 32-bit TSS selector with only interrupt redirection bitmap (IOPB stripped by limit). */
342#define BS3_SEL_TSS64 0x0070 /**< The 64-bit TSS selector. */
343#define BS3_SEL_TSS64_SPARE0 0x0080 /**< The 64-bit TSS selector. */
344#define BS3_SEL_TSS64_SPARE1 0x0090 /**< The 64-bit TSS selector. */
345#define BS3_SEL_TSS64_IOBP 0x00a0 /**< The 64-bit TSS selector. */
346
347#define BS3_SEL_RMTEXT16_CS 0x00e0 /**< Conforming code selector for accessing the BS3RMTEXT16 segment. Runtime config. */
348#define BS3_SEL_X0TEXT16_CS 0x00e8 /**< Conforming code selector for accessing the BS3X0TEXT16 segment. Runtime config. */
349#define BS3_SEL_X1TEXT16_CS 0x00f0 /**< Conforming code selector for accessing the BS3X1TEXT16 segment. Runtime config. */
350#define BS3_SEL_VMMDEV_MMIO16 0x00f8 /**< Selector for accessing the VMMDev MMIO segment at 0100000h from 16-bit code. */
351
352/** Checks if @a uSel is in the BS3_SEL_RX_XXX range. */
353#define BS3_SEL_IS_IN_RING_RANGE(uSel) ( (unsigned)(uSel - BS3_SEL_R0_FIRST) < (unsigned)(4 << BS3_SEL_RING_SHIFT) )
354#define BS3_SEL_RING_SHIFT 8 /**< For the formula: BS3_SEL_R0_XXX + ((cs & 3) << BS3_SEL_RING_SHIFT) */
355#define BS3_SEL_RING_SUB_MASK 0x00f8 /**< Mask for getting the sub-selector. For use with BS3_SEL_R*_FIRST. */
356
357/** Checks if @a uSel is in the BS3_SEL_R0_XXX range. */
358#define BS3_SEL_IS_IN_R0_RANGE(uSel) ( (unsigned)(uSel - BS3_SEL_R0_FIRST) < (unsigned)(1 << BS3_SEL_RING_SHIFT) )
359#define BS3_SEL_R0_FIRST 0x0100 /**< The first selector in the ring-0 block. */
360#define BS3_SEL_R0_CS16 0x0100 /**< ring-0: 16-bit code selector, base 0x10000. */
361#define BS3_SEL_R0_DS16 0x0108 /**< ring-0: 16-bit data selector, base 0x23000. */
362#define BS3_SEL_R0_SS16 0x0110 /**< ring-0: 16-bit stack selector, base 0x00000. */
363#define BS3_SEL_R0_CS32 0x0118 /**< ring-0: 32-bit flat code selector. */
364#define BS3_SEL_R0_DS32 0x0120 /**< ring-0: 32-bit flat data selector. */
365#define BS3_SEL_R0_SS32 0x0128 /**< ring-0: 32-bit flat stack selector. */
366#define BS3_SEL_R0_CS64 0x0130 /**< ring-0: 64-bit flat code selector. */
367#define BS3_SEL_R0_DS64 0x0138 /**< ring-0: 64-bit flat data & stack selector. */
368#define BS3_SEL_R0_CS16_EO 0x0140 /**< ring-0: 16-bit execute-only code selector, not accessed, 0xfffe limit, CS16 base. */
369#define BS3_SEL_R0_CS16_CNF 0x0148 /**< ring-0: 16-bit conforming code selector, not accessed, 0xfffe limit, CS16 base. */
370#define BS3_SEL_R0_CS16_CNF_EO 0x0150 /**< ring-0: 16-bit execute-only conforming code selector, not accessed, 0xfffe limit, CS16 base. */
371#define BS3_SEL_R0_CS32_EO 0x0158 /**< ring-0: 32-bit execute-only code selector, not accessed, flat. */
372#define BS3_SEL_R0_CS32_CNF 0x0160 /**< ring-0: 32-bit conforming code selector, not accessed, flat. */
373#define BS3_SEL_R0_CS32_CNF_EO 0x0168 /**< ring-0: 32-bit execute-only conforming code selector, not accessed, flat. */
374#define BS3_SEL_R0_CS64_EO 0x0170 /**< ring-0: 64-bit execute-only code selector, not accessed, flat. */
375#define BS3_SEL_R0_CS64_CNF 0x0178 /**< ring-0: 64-bit conforming code selector, not accessed, flat. */
376#define BS3_SEL_R0_CS64_CNF_EO 0x0180 /**< ring-0: 64-bit execute-only conforming code selector, not accessed, flat. */
377
378#define BS3_SEL_R1_FIRST 0x0200 /**< The first selector in the ring-1 block. */
379#define BS3_SEL_R1_CS16 0x0200 /**< ring-1: 16-bit code selector, base 0x10000. */
380#define BS3_SEL_R1_DS16 0x0208 /**< ring-1: 16-bit data selector, base 0x23000. */
381#define BS3_SEL_R1_SS16 0x0210 /**< ring-1: 16-bit stack selector, base 0x00000. */
382#define BS3_SEL_R1_CS32 0x0218 /**< ring-1: 32-bit flat code selector. */
383#define BS3_SEL_R1_DS32 0x0220 /**< ring-1: 32-bit flat data selector. */
384#define BS3_SEL_R1_SS32 0x0228 /**< ring-1: 32-bit flat stack selector. */
385#define BS3_SEL_R1_CS64 0x0230 /**< ring-1: 64-bit flat code selector. */
386#define BS3_SEL_R1_DS64 0x0238 /**< ring-1: 64-bit flat data & stack selector. */
387#define BS3_SEL_R1_CS16_EO 0x0240 /**< ring-1: 16-bit execute-only code selector, not accessed, 0xfffe limit, CS16 base. */
388#define BS3_SEL_R1_CS16_CNF 0x0248 /**< ring-1: 16-bit conforming code selector, not accessed, 0xfffe limit, CS16 base. */
389#define BS3_SEL_R1_CS16_CNF_EO 0x0250 /**< ring-1: 16-bit execute-only conforming code selector, not accessed, 0xfffe limit, CS16 base. */
390#define BS3_SEL_R1_CS32_EO 0x0258 /**< ring-1: 32-bit execute-only code selector, not accessed, flat. */
391#define BS3_SEL_R1_CS32_CNF 0x0260 /**< ring-1: 32-bit conforming code selector, not accessed, flat. */
392#define BS3_SEL_R1_CS32_CNF_EO 0x0268 /**< ring-1: 32-bit execute-only conforming code selector, not accessed, flat. */
393#define BS3_SEL_R1_CS64_EO 0x0270 /**< ring-1: 64-bit execute-only code selector, not accessed, flat. */
394#define BS3_SEL_R1_CS64_CNF 0x0278 /**< ring-1: 64-bit conforming code selector, not accessed, flat. */
395#define BS3_SEL_R1_CS64_CNF_EO 0x0280 /**< ring-1: 64-bit execute-only conforming code selector, not accessed, flat. */
396
397#define BS3_SEL_R2_FIRST 0x0300 /**< The first selector in the ring-2 block. */
398#define BS3_SEL_R2_CS16 0x0300 /**< ring-2: 16-bit code selector, base 0x10000. */
399#define BS3_SEL_R2_DS16 0x0308 /**< ring-2: 16-bit data selector, base 0x23000. */
400#define BS3_SEL_R2_SS16 0x0310 /**< ring-2: 16-bit stack selector, base 0x00000. */
401#define BS3_SEL_R2_CS32 0x0318 /**< ring-2: 32-bit flat code selector. */
402#define BS3_SEL_R2_DS32 0x0320 /**< ring-2: 32-bit flat data selector. */
403#define BS3_SEL_R2_SS32 0x0328 /**< ring-2: 32-bit flat stack selector. */
404#define BS3_SEL_R2_CS64 0x0330 /**< ring-2: 64-bit flat code selector. */
405#define BS3_SEL_R2_DS64 0x0338 /**< ring-2: 64-bit flat data & stack selector. */
406#define BS3_SEL_R2_CS16_EO 0x0340 /**< ring-2: 16-bit execute-only code selector, not accessed, 0xfffe limit, CS16 base. */
407#define BS3_SEL_R2_CS16_CNF 0x0348 /**< ring-2: 16-bit conforming code selector, not accessed, 0xfffe limit, CS16 base. */
408#define BS3_SEL_R2_CS16_CNF_EO 0x0350 /**< ring-2: 16-bit execute-only conforming code selector, not accessed, 0xfffe limit, CS16 base. */
409#define BS3_SEL_R2_CS32_EO 0x0358 /**< ring-2: 32-bit execute-only code selector, not accessed, flat. */
410#define BS3_SEL_R2_CS32_CNF 0x0360 /**< ring-2: 32-bit conforming code selector, not accessed, flat. */
411#define BS3_SEL_R2_CS32_CNF_EO 0x0368 /**< ring-2: 32-bit execute-only conforming code selector, not accessed, flat. */
412#define BS3_SEL_R2_CS64_EO 0x0370 /**< ring-2: 64-bit execute-only code selector, not accessed, flat. */
413#define BS3_SEL_R2_CS64_CNF 0x0378 /**< ring-2: 64-bit conforming code selector, not accessed, flat. */
414#define BS3_SEL_R2_CS64_CNF_EO 0x0380 /**< ring-2: 64-bit execute-only conforming code selector, not accessed, flat. */
415
416#define BS3_SEL_R3_FIRST 0x0400 /**< The first selector in the ring-3 block. */
417#define BS3_SEL_R3_CS16 0x0400 /**< ring-3: 16-bit code selector, base 0x10000. */
418#define BS3_SEL_R3_DS16 0x0408 /**< ring-3: 16-bit data selector, base 0x23000. */
419#define BS3_SEL_R3_SS16 0x0410 /**< ring-3: 16-bit stack selector, base 0x00000. */
420#define BS3_SEL_R3_CS32 0x0418 /**< ring-3: 32-bit flat code selector. */
421#define BS3_SEL_R3_DS32 0x0420 /**< ring-3: 32-bit flat data selector. */
422#define BS3_SEL_R3_SS32 0x0428 /**< ring-3: 32-bit flat stack selector. */
423#define BS3_SEL_R3_CS64 0x0430 /**< ring-3: 64-bit flat code selector. */
424#define BS3_SEL_R3_DS64 0x0438 /**< ring-3: 64-bit flat data & stack selector. */
425#define BS3_SEL_R3_CS16_EO 0x0440 /**< ring-3: 16-bit execute-only code selector, not accessed, 0xfffe limit, CS16 base. */
426#define BS3_SEL_R3_CS16_CNF 0x0448 /**< ring-3: 16-bit conforming code selector, not accessed, 0xfffe limit, CS16 base. */
427#define BS3_SEL_R3_CS16_CNF_EO 0x0450 /**< ring-3: 16-bit execute-only conforming code selector, not accessed, 0xfffe limit, CS16 base. */
428#define BS3_SEL_R3_CS32_EO 0x0458 /**< ring-3: 32-bit execute-only code selector, not accessed, flat. */
429#define BS3_SEL_R3_CS32_CNF 0x0460 /**< ring-3: 32-bit conforming code selector, not accessed, flat. */
430#define BS3_SEL_R3_CS32_CNF_EO 0x0468 /**< ring-3: 32-bit execute-only conforming code selector, not accessed, flat. */
431#define BS3_SEL_R3_CS64_EO 0x0470 /**< ring-3: 64-bit execute-only code selector, not accessed, flat. */
432#define BS3_SEL_R3_CS64_CNF 0x0478 /**< ring-3: 64-bit conforming code selector, not accessed, flat. */
433#define BS3_SEL_R3_CS64_CNF_EO 0x0480 /**< ring-3: 64-bit execute-only conforming code selector, not accessed, flat. */
434
435#define BS3_SEL_R3_LAST 0x04f8 /**< ring-3: Last of the BS3_SEL_RX_XXX range. */
436
437#define BS3_SEL_SPARE_FIRST 0x0500 /**< The first selector in the spare block */
438#define BS3_SEL_SPARE_00 0x0500 /**< Spare selector number 00h. */
439#define BS3_SEL_SPARE_01 0x0508 /**< Spare selector number 01h. */
440#define BS3_SEL_SPARE_02 0x0510 /**< Spare selector number 02h. */
441#define BS3_SEL_SPARE_03 0x0518 /**< Spare selector number 03h. */
442#define BS3_SEL_SPARE_04 0x0520 /**< Spare selector number 04h. */
443#define BS3_SEL_SPARE_05 0x0528 /**< Spare selector number 05h. */
444#define BS3_SEL_SPARE_06 0x0530 /**< Spare selector number 06h. */
445#define BS3_SEL_SPARE_07 0x0538 /**< Spare selector number 07h. */
446#define BS3_SEL_SPARE_08 0x0540 /**< Spare selector number 08h. */
447#define BS3_SEL_SPARE_09 0x0548 /**< Spare selector number 09h. */
448#define BS3_SEL_SPARE_0a 0x0550 /**< Spare selector number 0ah. */
449#define BS3_SEL_SPARE_0b 0x0558 /**< Spare selector number 0bh. */
450#define BS3_SEL_SPARE_0c 0x0560 /**< Spare selector number 0ch. */
451#define BS3_SEL_SPARE_0d 0x0568 /**< Spare selector number 0dh. */
452#define BS3_SEL_SPARE_0e 0x0570 /**< Spare selector number 0eh. */
453#define BS3_SEL_SPARE_0f 0x0578 /**< Spare selector number 0fh. */
454#define BS3_SEL_SPARE_10 0x0580 /**< Spare selector number 10h. */
455#define BS3_SEL_SPARE_11 0x0588 /**< Spare selector number 11h. */
456#define BS3_SEL_SPARE_12 0x0590 /**< Spare selector number 12h. */
457#define BS3_SEL_SPARE_13 0x0598 /**< Spare selector number 13h. */
458#define BS3_SEL_SPARE_14 0x05a0 /**< Spare selector number 14h. */
459#define BS3_SEL_SPARE_15 0x05a8 /**< Spare selector number 15h. */
460#define BS3_SEL_SPARE_16 0x05b0 /**< Spare selector number 16h. */
461#define BS3_SEL_SPARE_17 0x05b8 /**< Spare selector number 17h. */
462#define BS3_SEL_SPARE_18 0x05c0 /**< Spare selector number 18h. */
463#define BS3_SEL_SPARE_19 0x05c8 /**< Spare selector number 19h. */
464#define BS3_SEL_SPARE_1a 0x05d0 /**< Spare selector number 1ah. */
465#define BS3_SEL_SPARE_1b 0x05d8 /**< Spare selector number 1bh. */
466#define BS3_SEL_SPARE_1c 0x05e0 /**< Spare selector number 1ch. */
467#define BS3_SEL_SPARE_1d 0x05e8 /**< Spare selector number 1dh. */
468#define BS3_SEL_SPARE_1e 0x05f0 /**< Spare selector number 1eh. */
469#define BS3_SEL_SPARE_1f 0x05f8 /**< Spare selector number 1fh. */
470
471#define BS3_SEL_TILED 0x0600 /**< 16-bit data tiling: First - base=0x00000000, limit=64KB, DPL=3. */
472#define BS3_SEL_TILED_LAST 0x0df8 /**< 16-bit data tiling: Last - base=0x00ff0000, limit=64KB, DPL=3. */
473#define BS3_SEL_TILED_AREA_SIZE 0x001000000 /**< 16-bit data tiling: Size of addressable area, in bytes. (16 MB) */
474
475#define BS3_SEL_FREE_PART1 0x0e00 /**< Free selector space - part \#1. */
476#define BS3_SEL_FREE_PART1_LAST 0x0ff8 /**< Free selector space - part \#1, last entry. */
477
478#define BS3_SEL_TEXT16 0x1000 /**< The BS3TEXT16 selector. */
479
480#define BS3_SEL_FREE_PART2 0x1008 /**< Free selector space - part \#2. */
481#define BS3_SEL_FREE_PART2_LAST 0x17f8 /**< Free selector space - part \#2, last entry. */
482
483#define BS3_SEL_TILED_R0 0x1800 /**< 16-bit data/stack tiling: First - base=0x00000000, limit=64KB, DPL=0. */
484#define BS3_SEL_TILED_R0_LAST 0x1ff8 /**< 16-bit data/stack tiling: Last - base=0x00ff0000, limit=64KB, DPL=0. */
485
486#define BS3_SEL_SYSTEM16 0x2000 /**< The BS3SYSTEM16 selector. */
487
488#define BS3_SEL_FREE_PART3 0x2008 /**< Free selector space - part \#3. */
489#define BS3_SEL_FREE_PART3_LAST 0x28f8 /**< Free selector space - part \#3, last entry. */
490
491#define BS3_SEL_DATA16 0x2900 /**< The BS3DATA16/BS3KIT_GRPNM_DATA16 selector. */
492
493#define BS3_SEL_FREE_PART4 0x2908 /**< Free selector space - part \#4. */
494#define BS3_SEL_FREE_PART4_LAST 0x2f98 /**< Free selector space - part \#4, last entry. */
495
496#define BS3_SEL_PRE_TEST_PAGE_08 0x2fa0 /**< Selector located 8 selectors before the test page. */
497#define BS3_SEL_PRE_TEST_PAGE_07 0x2fa8 /**< Selector located 7 selectors before the test page. */
498#define BS3_SEL_PRE_TEST_PAGE_06 0x2fb0 /**< Selector located 6 selectors before the test page. */
499#define BS3_SEL_PRE_TEST_PAGE_05 0x2fb8 /**< Selector located 5 selectors before the test page. */
500#define BS3_SEL_PRE_TEST_PAGE_04 0x2fc0 /**< Selector located 4 selectors before the test page. */
501#define BS3_SEL_PRE_TEST_PAGE_03 0x2fc8 /**< Selector located 3 selectors before the test page. */
502#define BS3_SEL_PRE_TEST_PAGE_02 0x2fd0 /**< Selector located 2 selectors before the test page. */
503#define BS3_SEL_PRE_TEST_PAGE_01 0x2fd8 /**< Selector located 1 selector before the test page. */
504#define BS3_SEL_TEST_PAGE 0x2fe0 /**< Start of the test page intended for playing around with paging and GDT. */
505#define BS3_SEL_TEST_PAGE_00 0x2fe0 /**< Test page selector number 00h (convenience). */
506#define BS3_SEL_TEST_PAGE_01 0x2fe8 /**< Test page selector number 01h (convenience). */
507#define BS3_SEL_TEST_PAGE_02 0x2ff0 /**< Test page selector number 02h (convenience). */
508#define BS3_SEL_TEST_PAGE_03 0x2ff8 /**< Test page selector number 03h (convenience). */
509#define BS3_SEL_TEST_PAGE_04 0x3000 /**< Test page selector number 04h (convenience). */
510#define BS3_SEL_TEST_PAGE_05 0x3008 /**< Test page selector number 05h (convenience). */
511#define BS3_SEL_TEST_PAGE_06 0x3010 /**< Test page selector number 06h (convenience). */
512#define BS3_SEL_TEST_PAGE_07 0x3018 /**< Test page selector number 07h (convenience). */
513#define BS3_SEL_TEST_PAGE_LAST 0x3fd0 /**< The last selector in the spare page. */
514
515#define BS3_SEL_GDT_LIMIT 0x3fd8 /**< The GDT limit. */
516/** @} */
517
518
519/** @def BS3_FAR
520 * For indicating far pointers in 16-bit code.
521 * Does nothing in 32-bit and 64-bit code. */
522/** @def BS3_NEAR
523 * For indicating near pointers in 16-bit code.
524 * Does nothing in 32-bit and 64-bit code. */
525/** @def BS3_FAR_CODE
526 * For indicating far 16-bit functions.
527 * Does nothing in 32-bit and 64-bit code. */
528/** @def BS3_NEAR_CODE
529 * For indicating near 16-bit functions.
530 * Does nothing in 32-bit and 64-bit code. */
531/** @def BS3_FAR_DATA
532 * For indicating far 16-bit external data, i.e. in a segment other than DATA16.
533 * Does nothing in 32-bit and 64-bit code. */
534#ifdef M_I86
535# define BS3_FAR __far
536# define BS3_NEAR __near
537# define BS3_FAR_CODE __far
538# define BS3_NEAR_CODE __near
539# define BS3_FAR_DATA __far
540#else
541# define BS3_FAR
542# define BS3_NEAR
543# define BS3_FAR_CODE
544# define BS3_NEAR_CODE
545# define BS3_FAR_DATA
546#endif
547
548#if ARCH_BITS == 16 || defined(DOXYGEN_RUNNING)
549/** @def BS3_FP_SEG
550 * Get the selector (segment) part of a far pointer.
551 *
552 * @returns selector.
553 * @param a_pv Far pointer.
554 */
555# define BS3_FP_SEG(a_pv) ((uint16_t)(__segment)(void BS3_FAR *)(a_pv))
556/** @def BS3_FP_OFF
557 * Get the segment offset part of a far pointer.
558 *
559 * For sake of convenience, this works like a uintptr_t cast in 32-bit and
560 * 64-bit code.
561 *
562 * @returns offset.
563 * @param a_pv Far pointer.
564 */
565# define BS3_FP_OFF(a_pv) ((uint16_t)(void __near *)(a_pv))
566/** @def BS3_FP_MAKE
567 * Create a far pointer.
568 *
569 * @returns Far pointer.
570 * @param a_uSeg The selector/segment.
571 * @param a_off The offset into the segment.
572 */
573# define BS3_FP_MAKE(a_uSeg, a_off) (((__segment)(a_uSeg)) :> ((void __near *)(a_off)))
574#else
575# define BS3_FP_OFF(a_pv) ((uintptr_t)(a_pv))
576#endif
577
578/** @def BS3_MAKE_PROT_R0PTR_FROM_FLAT
579 * Creates a protected mode pointer from a flat address.
580 *
581 * For sake of convenience, this macro also works in 32-bit and 64-bit mode,
582 * only there it doesn't return a far pointer but a flat point.
583 *
584 * @returns far void pointer if 16-bit code, near/flat void pointer in 32-bit
585 * and 64-bit.
586 * @param a_uFlat Flat address in the first 16MB. */
587#if ARCH_BITS == 16
588# define BS3_MAKE_PROT_R0PTR_FROM_FLAT(a_uFlat) \
589 BS3_FP_MAKE(((uint16_t)(a_uFlat >> 16) << 3) + BS3_SEL_TILED, (uint16_t)(a_uFlat))
590#else
591# define BS3_MAKE_PROT_R0PTR_FROM_FLAT(a_uFlat) ((void *)(uintptr_t)(a_uFlat))
592#endif
593
594/** @def BS3_MAKE_PROT_R0PTR_FROM_REAL
595 * Creates a protected mode pointer from a far real mode address.
596 *
597 * For sake of convenience, this macro also works in 32-bit and 64-bit mode,
598 * only there it doesn't return a far pointer but a flat point.
599 *
600 * @returns far void pointer if 16-bit code, near/flat void pointer in 32-bit
601 * and 64-bit.
602 * @param a_uSeg The selector/segment.
603 * @param a_off The offset into the segment.
604 */
605#if ARCH_BITS == 16
606# define BS3_MAKE_PROT_R0PTR_FROM_REAL(a_uSeg, a_off) BS3_MAKE_PROT_R0PTR_FROM_FLAT(((uint32_t)(a_uSeg) << 4) + (uint16_t)(a_off))
607#else
608# define BS3_MAKE_PROT_R0PTR_FROM_REAL(a_uSeg, a_off) ( (void *)(uintptr_t)(((uint32_t)(a_uSeg) << 4) + (uint16_t)(a_off)) )
609#endif
610
611
612/** @def BS3_CALL
613 * The calling convension used by BS3 functions. */
614#if ARCH_BITS != 64
615# define BS3_CALL __cdecl
616#elif !defined(_MSC_VER)
617# define BS3_CALL __attribute__((__ms_abi__))
618#else
619# define BS3_CALL
620#endif
621
622/** @def IN_BS3KIT
623 * Indicates that we're in the same link job as the BS3Kit code. */
624#ifdef DOXYGEN_RUNNING
625# define IN_BS3KIT
626#endif
627
628/** @def BS3_DECL
629 * Declares a BS3Kit function with default far/near.
630 *
631 * Until we outgrow BS3TEXT16, we use all near functions in 16-bit.
632 *
633 * @param a_Type The return type. */
634#if ARCH_BITS != 16 || !defined(BS3_USE_ALT_16BIT_TEXT_SEG)
635# define BS3_DECL(a_Type) BS3_DECL_NEAR(a_Type)
636#else
637# define BS3_DECL(a_Type) BS3_DECL_FAR(a_Type)
638#endif
639
640/** @def BS3_DECL_NEAR
641 * Declares a BS3Kit function, always near everywhere.
642 *
643 * Until we outgrow BS3TEXT16, we use all near functions in 16-bit.
644 *
645 * @param a_Type The return type. */
646#ifdef IN_BS3KIT
647# define BS3_DECL_NEAR(a_Type) DECLEXPORT(a_Type) BS3_NEAR_CODE BS3_CALL
648#else
649# define BS3_DECL_NEAR(a_Type) DECLIMPORT(a_Type) BS3_NEAR_CODE BS3_CALL
650#endif
651
652/** @def BS3_DECL_FAR
653 * Declares a BS3Kit function, far 16-bit, otherwise near.
654 *
655 * Until we outgrow BS3TEXT16, we use all near functions in 16-bit.
656 *
657 * @param a_Type The return type. */
658#ifdef IN_BS3KIT
659# define BS3_DECL_FAR(a_Type) DECLEXPORT(a_Type) BS3_FAR_CODE BS3_CALL
660#else
661# define BS3_DECL_FAR(a_Type) DECLIMPORT(a_Type) BS3_FAR_CODE BS3_CALL
662#endif
663
664/** @def BS3_DECL_CALLBACK
665 * Declares a BS3Kit callback function (typically static).
666 *
667 * @param a_Type The return type. */
668#ifdef IN_BS3KIT
669# define BS3_DECL_CALLBACK(a_Type) a_Type BS3_FAR_CODE BS3_CALL
670#else
671# define BS3_DECL_CALLBACK(a_Type) a_Type BS3_FAR_CODE BS3_CALL
672#endif
673
674/** @def BS3_DECL_NEAR_CALLBACK
675 * Declares a near BS3Kit callback function (typically static).
676 *
677 * 16-bit users must be in CGROUP16!
678 *
679 * @param a_Type The return type. */
680#ifdef IN_BS3KIT
681# define BS3_DECL_NEAR_CALLBACK(a_Type) a_Type BS3_NEAR_CODE BS3_CALL
682#else
683# define BS3_DECL_NEAR_CALLBACK(a_Type) a_Type BS3_NEAR_CODE BS3_CALL
684#endif
685
686/**
687 * Constructs a common name.
688 *
689 * Example: BS3_CMN_NM(Bs3Shutdown)
690 *
691 * @param a_Name The name of the function or global variable.
692 */
693#define BS3_CMN_NM(a_Name) RT_CONCAT3(a_Name,_c,ARCH_BITS)
694
695/**
696 * Constructs a common function name, far in 16-bit code.
697 *
698 * Example: BS3_CMN_FAR_NM(Bs3Shutdown)
699 *
700 * @param a_Name The name of the function.
701 */
702#if ARCH_BITS == 16
703# define BS3_CMN_FAR_NM(a_Name) RT_CONCAT(a_Name,_f16)
704#else
705# define BS3_CMN_FAR_NM(a_Name) RT_CONCAT3(a_Name,_c,ARCH_BITS)
706#endif
707
708/**
709 * Constructs a common function name, far or near as defined by the source.
710 *
711 * Which to use in 16-bit mode is defined by BS3_USE_ALT_16BIT_TEXT_SEG. In
712 * 32-bit and 64-bit mode there are no far symbols, only near ones.
713 *
714 * Example: BS3_CMN_FN_NM(Bs3Shutdown)
715 *
716 * @param a_Name The name of the function.
717 */
718#if ARCH_BITS != 16 || !defined(BS3_USE_ALT_16BIT_TEXT_SEG)
719# define BS3_CMN_FN_NM(a_Name) BS3_CMN_NM(a_Name)
720#else
721# define BS3_CMN_FN_NM(a_Name) BS3_CMN_FAR_NM(a_Name)
722#endif
723
724
725/**
726 * Constructs a data name.
727 *
728 * This glosses over the underscore prefix usage of our 16-bit, 32-bit and
729 * 64-bit compilers.
730 *
731 * Example: @code{.c}
732 * \#define Bs3Gdt BS3_DATA_NM(Bs3Gdt)
733 * extern X86DESC BS3_FAR_DATA Bs3Gdt
734 * @endcode
735 *
736 * @param a_Name The name of the global variable.
737 * @remarks Mainly used in bs3kit-mangling.h, internal headers and templates.
738 */
739//converter does this now//#if ARCH_BITS == 64
740//converter does this now//# define BS3_DATA_NM(a_Name) RT_CONCAT(_,a_Name)
741//converter does this now//#else
742# define BS3_DATA_NM(a_Name) a_Name
743//converter does this now//#endif
744
745/**
746 * Template for creating a pointer union type.
747 * @param a_BaseName The base type name.
748 * @param a_Modifiers The type modifier.
749 */
750#define BS3_PTR_UNION_TEMPLATE(a_BaseName, a_Modifiers) \
751 typedef union a_BaseName \
752 { \
753 /** Pointer into the void. */ \
754 a_Modifiers void BS3_FAR *pv; \
755 /** As a signed integer. */ \
756 intptr_t i; \
757 /** As an unsigned integer. */ \
758 uintptr_t u; \
759 /** Pointer to char value. */ \
760 a_Modifiers char BS3_FAR *pch; \
761 /** Pointer to char value. */ \
762 a_Modifiers unsigned char BS3_FAR *puch; \
763 /** Pointer to a int value. */ \
764 a_Modifiers int BS3_FAR *pi; \
765 /** Pointer to a unsigned int value. */ \
766 a_Modifiers unsigned int BS3_FAR *pu; \
767 /** Pointer to a long value. */ \
768 a_Modifiers long BS3_FAR *pl; \
769 /** Pointer to a long value. */ \
770 a_Modifiers unsigned long BS3_FAR *pul; \
771 /** Pointer to a memory size value. */ \
772 a_Modifiers size_t BS3_FAR *pcb; \
773 /** Pointer to a byte value. */ \
774 a_Modifiers uint8_t BS3_FAR *pb; \
775 /** Pointer to a 8-bit unsigned value. */ \
776 a_Modifiers uint8_t BS3_FAR *pu8; \
777 /** Pointer to a 16-bit unsigned value. */ \
778 a_Modifiers uint16_t BS3_FAR *pu16; \
779 /** Pointer to a 32-bit unsigned value. */ \
780 a_Modifiers uint32_t BS3_FAR *pu32; \
781 /** Pointer to a 64-bit unsigned value. */ \
782 a_Modifiers uint64_t BS3_FAR *pu64; \
783 /** Pointer to a UTF-16 character. */ \
784 a_Modifiers RTUTF16 BS3_FAR *pwc; \
785 /** Pointer to a UUID character. */ \
786 a_Modifiers RTUUID BS3_FAR *pUuid; \
787 } a_BaseName; \
788 /** Pointer to a pointer union. */ \
789 typedef a_BaseName *RT_CONCAT(P,a_BaseName)
790BS3_PTR_UNION_TEMPLATE(BS3PTRUNION, RT_NOTHING);
791BS3_PTR_UNION_TEMPLATE(BS3CPTRUNION, const);
792BS3_PTR_UNION_TEMPLATE(BS3VPTRUNION, volatile);
793BS3_PTR_UNION_TEMPLATE(BS3CVPTRUNION, const volatile);
794
795/** Generic far function type. */
796typedef BS3_DECL_FAR(void) FNBS3FAR(void);
797/** Generic far function pointer type. */
798typedef FNBS3FAR *FPFNBS3FAR;
799
800/** Generic near function type. */
801typedef BS3_DECL_NEAR(void) FNBS3NEAR(void);
802/** Generic near function pointer type. */
803typedef FNBS3NEAR *PFNBS3NEAR;
804
805/** Generic far 16:16 function pointer type for address conversion functions. */
806#if ARCH_BITS == 16
807typedef FPFNBS3FAR PFNBS3FARADDRCONV;
808#else
809typedef uint32_t PFNBS3FARADDRCONV;
810#endif
811
812/** The system call vector. */
813#define BS3_TRAP_SYSCALL UINT8_C(0x20)
814
815/** @name System call numbers (ax).
816 * Paramenters are generally passed in registers specific to each system call,
817 * however cx:xSI is used for passing a pointer parameter.
818 * @{ */
819/** Print char (cl). */
820#define BS3_SYSCALL_PRINT_CHR UINT16_C(0x0001)
821/** Print string (pointer in cx:xSI, length in dx). */
822#define BS3_SYSCALL_PRINT_STR UINT16_C(0x0002)
823/** Switch to ring-0. */
824#define BS3_SYSCALL_TO_RING0 UINT16_C(0x0003)
825/** Switch to ring-1. */
826#define BS3_SYSCALL_TO_RING1 UINT16_C(0x0004)
827/** Switch to ring-2. */
828#define BS3_SYSCALL_TO_RING2 UINT16_C(0x0005)
829/** Switch to ring-3. */
830#define BS3_SYSCALL_TO_RING3 UINT16_C(0x0006)
831/** Restore context (pointer in cx:xSI, flags in dx). */
832#define BS3_SYSCALL_RESTORE_CTX UINT16_C(0x0007)
833/** Set DRx register (value in ESI, register number in dl). */
834#define BS3_SYSCALL_SET_DRX UINT16_C(0x0008)
835/** Get DRx register (register number in dl, value returned in ax:dx). */
836#define BS3_SYSCALL_GET_DRX UINT16_C(0x0009)
837/** Set CRx register (value in ESI, register number in dl). */
838#define BS3_SYSCALL_SET_CRX UINT16_C(0x000a)
839/** Get CRx register (register number in dl, value returned in ax:dx). */
840#define BS3_SYSCALL_GET_CRX UINT16_C(0x000b)
841/** Set the task register (value in ESI). */
842#define BS3_SYSCALL_SET_TR UINT16_C(0x000c)
843/** Get the task register (value returned in ax). */
844#define BS3_SYSCALL_GET_TR UINT16_C(0x000d)
845/** Set the LDT register (value in ESI). */
846#define BS3_SYSCALL_SET_LDTR UINT16_C(0x000e)
847/** Get the LDT register (value returned in ax). */
848#define BS3_SYSCALL_GET_LDTR UINT16_C(0x000f)
849/** The last system call value. */
850#define BS3_SYSCALL_LAST BS3_SYSCALL_GET_LDTR
851/** @} */
852
853
854
855/** @defgroup grp_bs3kit_system System Structures
856 * @{ */
857/** The GDT, indexed by BS3_SEL_XXX shifted by 3. */
858extern X86DESC BS3_FAR_DATA Bs3Gdt[(BS3_SEL_GDT_LIMIT + 1) / 8];
859
860extern X86DESC64 BS3_FAR_DATA Bs3Gdt_Ldt; /**< @see BS3_SEL_LDT */
861extern X86DESC BS3_FAR_DATA Bs3Gdte_Tss16; /**< @see BS3_SEL_TSS16 */
862extern X86DESC BS3_FAR_DATA Bs3Gdte_Tss16DoubleFault; /**< @see BS3_SEL_TSS16_DF */
863extern X86DESC BS3_FAR_DATA Bs3Gdte_Tss16Spare0; /**< @see BS3_SEL_TSS16_SPARE0 */
864extern X86DESC BS3_FAR_DATA Bs3Gdte_Tss16Spare1; /**< @see BS3_SEL_TSS16_SPARE1 */
865extern X86DESC BS3_FAR_DATA Bs3Gdte_Tss32; /**< @see BS3_SEL_TSS32 */
866extern X86DESC BS3_FAR_DATA Bs3Gdte_Tss32DoubleFault; /**< @see BS3_SEL_TSS32_DF */
867extern X86DESC BS3_FAR_DATA Bs3Gdte_Tss32Spare0; /**< @see BS3_SEL_TSS32_SPARE0 */
868extern X86DESC BS3_FAR_DATA Bs3Gdte_Tss32Spare1; /**< @see BS3_SEL_TSS32_SPARE1 */
869extern X86DESC BS3_FAR_DATA Bs3Gdte_Tss32IobpIntRedirBm; /**< @see BS3_SEL_TSS32_IOBP_IRB */
870extern X86DESC BS3_FAR_DATA Bs3Gdte_Tss32IntRedirBm; /**< @see BS3_SEL_TSS32_IRB */
871extern X86DESC BS3_FAR_DATA Bs3Gdte_Tss64; /**< @see BS3_SEL_TSS64 */
872extern X86DESC BS3_FAR_DATA Bs3Gdte_Tss64Spare0; /**< @see BS3_SEL_TSS64_SPARE0 */
873extern X86DESC BS3_FAR_DATA Bs3Gdte_Tss64Spare1; /**< @see BS3_SEL_TSS64_SPARE1 */
874extern X86DESC BS3_FAR_DATA Bs3Gdte_Tss64Iobp; /**< @see BS3_SEL_TSS64_IOBP */
875extern X86DESC BS3_FAR_DATA Bs3Gdte_RMTEXT16_CS; /**< @see BS3_SEL_RMTEXT16_CS */
876extern X86DESC BS3_FAR_DATA Bs3Gdte_X0TEXT16_CS; /**< @see BS3_SEL_X0TEXT16_CS */
877extern X86DESC BS3_FAR_DATA Bs3Gdte_X1TEXT16_CS; /**< @see BS3_SEL_X1TEXT16_CS */
878extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_MMIO16; /**< @see BS3_SEL_VMMDEV_MMIO16 */
879
880extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_First; /**< @see BS3_SEL_R0_FIRST */
881extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_CS16; /**< @see BS3_SEL_R0_CS16 */
882extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_DS16; /**< @see BS3_SEL_R0_DS16 */
883extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_SS16; /**< @see BS3_SEL_R0_SS16 */
884extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_CS32; /**< @see BS3_SEL_R0_CS32 */
885extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_DS32; /**< @see BS3_SEL_R0_DS32 */
886extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_SS32; /**< @see BS3_SEL_R0_SS32 */
887extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_CS64; /**< @see BS3_SEL_R0_CS64 */
888extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_DS64; /**< @see BS3_SEL_R0_DS64 */
889extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_CS16_EO; /**< @see BS3_SEL_R0_CS16_EO */
890extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_CS16_CNF; /**< @see BS3_SEL_R0_CS16_CNF */
891extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_CS16_CND_EO; /**< @see BS3_SEL_R0_CS16_CNF_EO */
892extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_CS32_EO; /**< @see BS3_SEL_R0_CS32_EO */
893extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_CS32_CNF; /**< @see BS3_SEL_R0_CS32_CNF */
894extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_CS32_CNF_EO; /**< @see BS3_SEL_R0_CS32_CNF_EO */
895extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_CS64_EO; /**< @see BS3_SEL_R0_CS64_EO */
896extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_CS64_CNF; /**< @see BS3_SEL_R0_CS64_CNF */
897extern X86DESC BS3_FAR_DATA Bs3Gdte_R0_CS64_CNF_EO; /**< @see BS3_SEL_R0_CS64_CNF_EO */
898
899extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_First; /**< @see BS3_SEL_R1_FIRST */
900extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_CS16; /**< @see BS3_SEL_R1_CS16 */
901extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_DS16; /**< @see BS3_SEL_R1_DS16 */
902extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_SS16; /**< @see BS3_SEL_R1_SS16 */
903extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_CS32; /**< @see BS3_SEL_R1_CS32 */
904extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_DS32; /**< @see BS3_SEL_R1_DS32 */
905extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_SS32; /**< @see BS3_SEL_R1_SS32 */
906extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_CS64; /**< @see BS3_SEL_R1_CS64 */
907extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_DS64; /**< @see BS3_SEL_R1_DS64 */
908extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_CS16_EO; /**< @see BS3_SEL_R1_CS16_EO */
909extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_CS16_CNF; /**< @see BS3_SEL_R1_CS16_CNF */
910extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_CS16_CND_EO; /**< @see BS3_SEL_R1_CS16_CNF_EO */
911extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_CS32_EO; /**< @see BS3_SEL_R1_CS32_EO */
912extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_CS32_CNF; /**< @see BS3_SEL_R1_CS32_CNF */
913extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_CS32_CNF_EO; /**< @see BS3_SEL_R1_CS32_CNF_EO */
914extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_CS64_EO; /**< @see BS3_SEL_R1_CS64_EO */
915extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_CS64_CNF; /**< @see BS3_SEL_R1_CS64_CNF */
916extern X86DESC BS3_FAR_DATA Bs3Gdte_R1_CS64_CNF_EO; /**< @see BS3_SEL_R1_CS64_CNF_EO */
917
918extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_First; /**< @see BS3_SEL_R2_FIRST */
919extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_CS16; /**< @see BS3_SEL_R2_CS16 */
920extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_DS16; /**< @see BS3_SEL_R2_DS16 */
921extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_SS16; /**< @see BS3_SEL_R2_SS16 */
922extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_CS32; /**< @see BS3_SEL_R2_CS32 */
923extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_DS32; /**< @see BS3_SEL_R2_DS32 */
924extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_SS32; /**< @see BS3_SEL_R2_SS32 */
925extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_CS64; /**< @see BS3_SEL_R2_CS64 */
926extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_DS64; /**< @see BS3_SEL_R2_DS64 */
927extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_CS16_EO; /**< @see BS3_SEL_R2_CS16_EO */
928extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_CS16_CNF; /**< @see BS3_SEL_R2_CS16_CNF */
929extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_CS16_CND_EO; /**< @see BS3_SEL_R2_CS16_CNF_EO */
930extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_CS32_EO; /**< @see BS3_SEL_R2_CS32_EO */
931extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_CS32_CNF; /**< @see BS3_SEL_R2_CS32_CNF */
932extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_CS32_CNF_EO; /**< @see BS3_SEL_R2_CS32_CNF_EO */
933extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_CS64_EO; /**< @see BS3_SEL_R2_CS64_EO */
934extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_CS64_CNF; /**< @see BS3_SEL_R2_CS64_CNF */
935extern X86DESC BS3_FAR_DATA Bs3Gdte_R2_CS64_CNF_EO; /**< @see BS3_SEL_R2_CS64_CNF_EO */
936
937extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_First; /**< @see BS3_SEL_R3_FIRST */
938extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_CS16; /**< @see BS3_SEL_R3_CS16 */
939extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_DS16; /**< @see BS3_SEL_R3_DS16 */
940extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_SS16; /**< @see BS3_SEL_R3_SS16 */
941extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_CS32; /**< @see BS3_SEL_R3_CS32 */
942extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_DS32; /**< @see BS3_SEL_R3_DS32 */
943extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_SS32; /**< @see BS3_SEL_R3_SS32 */
944extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_CS64; /**< @see BS3_SEL_R3_CS64 */
945extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_DS64; /**< @see BS3_SEL_R3_DS64 */
946extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_CS16_EO; /**< @see BS3_SEL_R3_CS16_EO */
947extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_CS16_CNF; /**< @see BS3_SEL_R3_CS16_CNF */
948extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_CS16_CND_EO; /**< @see BS3_SEL_R3_CS16_CNF_EO */
949extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_CS32_EO; /**< @see BS3_SEL_R3_CS32_EO */
950extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_CS32_CNF; /**< @see BS3_SEL_R3_CS32_CNF */
951extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_CS32_CNF_EO; /**< @see BS3_SEL_R3_CS32_CNF_EO */
952extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_CS64_EO; /**< @see BS3_SEL_R3_CS64_EO */
953extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_CS64_CNF; /**< @see BS3_SEL_R3_CS64_CNF */
954extern X86DESC BS3_FAR_DATA Bs3Gdte_R3_CS64_CNF_EO; /**< @see BS3_SEL_R3_CS64_CNF_EO */
955
956extern X86DESC BS3_FAR_DATA Bs3GdteSpare00; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_00 */
957extern X86DESC BS3_FAR_DATA Bs3GdteSpare01; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_01 */
958extern X86DESC BS3_FAR_DATA Bs3GdteSpare02; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_02 */
959extern X86DESC BS3_FAR_DATA Bs3GdteSpare03; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_03 */
960extern X86DESC BS3_FAR_DATA Bs3GdteSpare04; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_04 */
961extern X86DESC BS3_FAR_DATA Bs3GdteSpare05; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_05 */
962extern X86DESC BS3_FAR_DATA Bs3GdteSpare06; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_06 */
963extern X86DESC BS3_FAR_DATA Bs3GdteSpare07; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_07 */
964extern X86DESC BS3_FAR_DATA Bs3GdteSpare08; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_08 */
965extern X86DESC BS3_FAR_DATA Bs3GdteSpare09; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_09 */
966extern X86DESC BS3_FAR_DATA Bs3GdteSpare0a; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_0a */
967extern X86DESC BS3_FAR_DATA Bs3GdteSpare0b; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_0b */
968extern X86DESC BS3_FAR_DATA Bs3GdteSpare0c; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_0c */
969extern X86DESC BS3_FAR_DATA Bs3GdteSpare0d; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_0d */
970extern X86DESC BS3_FAR_DATA Bs3GdteSpare0e; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_0e */
971extern X86DESC BS3_FAR_DATA Bs3GdteSpare0f; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_0f */
972extern X86DESC BS3_FAR_DATA Bs3GdteSpare10; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_10 */
973extern X86DESC BS3_FAR_DATA Bs3GdteSpare11; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_11 */
974extern X86DESC BS3_FAR_DATA Bs3GdteSpare12; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_12 */
975extern X86DESC BS3_FAR_DATA Bs3GdteSpare13; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_13 */
976extern X86DESC BS3_FAR_DATA Bs3GdteSpare14; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_14 */
977extern X86DESC BS3_FAR_DATA Bs3GdteSpare15; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_15 */
978extern X86DESC BS3_FAR_DATA Bs3GdteSpare16; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_16 */
979extern X86DESC BS3_FAR_DATA Bs3GdteSpare17; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_17 */
980extern X86DESC BS3_FAR_DATA Bs3GdteSpare18; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_18 */
981extern X86DESC BS3_FAR_DATA Bs3GdteSpare19; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_19 */
982extern X86DESC BS3_FAR_DATA Bs3GdteSpare1a; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_1a */
983extern X86DESC BS3_FAR_DATA Bs3GdteSpare1b; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_1b */
984extern X86DESC BS3_FAR_DATA Bs3GdteSpare1c; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_1c */
985extern X86DESC BS3_FAR_DATA Bs3GdteSpare1d; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_1d */
986extern X86DESC BS3_FAR_DATA Bs3GdteSpare1e; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_1e */
987extern X86DESC BS3_FAR_DATA Bs3GdteSpare1f; /**< GDT entry for playing with in testcases. @see BS3_SEL_SPARE_1f */
988
989/** GDTs setting up the tiled 16-bit access to the first 16 MBs of memory.
990 * @see BS3_SEL_TILED, BS3_SEL_TILED_LAST, BS3_SEL_TILED_AREA_SIZE */
991extern X86DESC BS3_FAR_DATA Bs3GdteTiled[256];
992/** Free GDTes, part \#1. */
993extern X86DESC BS3_FAR_DATA Bs3GdteFreePart1[64];
994/** The BS3TEXT16/BS3CLASS16CODE GDT entry. @see BS3_SEL_TEXT16 */
995extern X86DESC BS3_FAR_DATA Bs3Gdte_CODE16;
996/** Free GDTes, part \#2. */
997extern X86DESC BS3_FAR_DATA Bs3GdteFreePart2[511];
998/** The BS3SYSTEM16 GDT entry. */
999extern X86DESC BS3_FAR_DATA Bs3Gdte_SYSTEM16;
1000/** Free GDTes, part \#3. */
1001extern X86DESC BS3_FAR_DATA Bs3GdteFreePart3[223];
1002/** The BS3DATA16/BS3KIT_GRPNM_DATA16 GDT entry. */
1003extern X86DESC BS3_FAR_DATA Bs3Gdte_DATA16;
1004
1005/** Free GDTes, part \#4. */
1006extern X86DESC BS3_FAR_DATA Bs3GdteFreePart4[211];
1007
1008extern X86DESC BS3_FAR_DATA Bs3GdtePreTestPage08; /**< GDT entry 8 selectors prior to the test page, testcase resource. @see BS3_SEL_PRE_TEST_PAGE_08 */
1009extern X86DESC BS3_FAR_DATA Bs3GdtePreTestPage07; /**< GDT entry 7 selectors prior to the test page, testcase resource. @see BS3_SEL_PRE_TEST_PAGE_07 */
1010extern X86DESC BS3_FAR_DATA Bs3GdtePreTestPage06; /**< GDT entry 6 selectors prior to the test page, testcase resource. @see BS3_SEL_PRE_TEST_PAGE_06 */
1011extern X86DESC BS3_FAR_DATA Bs3GdtePreTestPage05; /**< GDT entry 5 selectors prior to the test page, testcase resource. @see BS3_SEL_PRE_TEST_PAGE_05 */
1012extern X86DESC BS3_FAR_DATA Bs3GdtePreTestPage04; /**< GDT entry 4 selectors prior to the test page, testcase resource. @see BS3_SEL_PRE_TEST_PAGE_04 */
1013extern X86DESC BS3_FAR_DATA Bs3GdtePreTestPage03; /**< GDT entry 3 selectors prior to the test page, testcase resource. @see BS3_SEL_PRE_TEST_PAGE_03 */
1014extern X86DESC BS3_FAR_DATA Bs3GdtePreTestPage02; /**< GDT entry 2 selectors prior to the test page, testcase resource. @see BS3_SEL_PRE_TEST_PAGE_02 */
1015extern X86DESC BS3_FAR_DATA Bs3GdtePreTestPage01; /**< GDT entry 1 selectors prior to the test page, testcase resource. @see BS3_SEL_PRE_TEST_PAGE_01 */
1016/** Array of GDT entries starting on a page boundrary and filling (almost) the
1017 * whole page. This is for playing with paging and GDT usage.
1018 * @see BS3_SEL_TEST_PAGE */
1019extern X86DESC BS3_FAR_DATA Bs3GdteTestPage[2043];
1020extern X86DESC BS3_FAR_DATA Bs3GdteTestPage00; /**< GDT entry 0 on the test page (convenience). @see BS3_SEL_TEST_PAGE_00 */
1021extern X86DESC BS3_FAR_DATA Bs3GdteTestPage01; /**< GDT entry 1 on the test page (convenience). @see BS3_SEL_TEST_PAGE_01 */
1022extern X86DESC BS3_FAR_DATA Bs3GdteTestPage02; /**< GDT entry 2 on the test page (convenience). @see BS3_SEL_TEST_PAGE_02 */
1023extern X86DESC BS3_FAR_DATA Bs3GdteTestPage03; /**< GDT entry 3 on the test page (convenience). @see BS3_SEL_TEST_PAGE_03 */
1024extern X86DESC BS3_FAR_DATA Bs3GdteTestPage04; /**< GDT entry 4 on the test page (convenience). @see BS3_SEL_TEST_PAGE_04 */
1025extern X86DESC BS3_FAR_DATA Bs3GdteTestPage05; /**< GDT entry 5 on the test page (convenience). @see BS3_SEL_TEST_PAGE_05 */
1026extern X86DESC BS3_FAR_DATA Bs3GdteTestPage06; /**< GDT entry 6 on the test page (convenience). @see BS3_SEL_TEST_PAGE_06 */
1027extern X86DESC BS3_FAR_DATA Bs3GdteTestPage07; /**< GDT entry 7 on the test page (convenience). @see BS3_SEL_TEST_PAGE_07 */
1028
1029/** The end of the GDT (exclusive - contains eye-catcher string). */
1030extern X86DESC BS3_FAR_DATA Bs3GdtEnd;
1031
1032/** The default 16-bit TSS. */
1033extern X86TSS16 BS3_FAR_DATA Bs3Tss16;
1034extern X86TSS16 BS3_FAR_DATA Bs3Tss16DoubleFault;
1035extern X86TSS16 BS3_FAR_DATA Bs3Tss16Spare0;
1036extern X86TSS16 BS3_FAR_DATA Bs3Tss16Spare1;
1037/** The default 32-bit TSS. */
1038extern X86TSS32 BS3_FAR_DATA Bs3Tss32;
1039extern X86TSS32 BS3_FAR_DATA Bs3Tss32DoubleFault;
1040extern X86TSS32 BS3_FAR_DATA Bs3Tss32Spare0;
1041extern X86TSS32 BS3_FAR_DATA Bs3Tss32Spare1;
1042/** The default 64-bit TSS. */
1043extern X86TSS64 BS3_FAR_DATA Bs3Tss64;
1044extern X86TSS64 BS3_FAR_DATA Bs3Tss64Spare0;
1045extern X86TSS64 BS3_FAR_DATA Bs3Tss64Spare1;
1046extern X86TSS64 BS3_FAR_DATA Bs3Tss64WithIopb;
1047extern X86TSS32 BS3_FAR_DATA Bs3Tss32WithIopb;
1048/** Interrupt redirection bitmap used by Bs3Tss32WithIopb. */
1049extern uint8_t BS3_FAR_DATA Bs3SharedIntRedirBm[32];
1050/** I/O permission bitmap used by Bs3Tss32WithIopb and Bs3Tss64WithIopb. */
1051extern uint8_t BS3_FAR_DATA Bs3SharedIobp[8192+2];
1052/** End of the I/O permission bitmap (exclusive). */
1053extern uint8_t BS3_FAR_DATA Bs3SharedIobpEnd;
1054/** 16-bit IDT. */
1055extern X86DESC BS3_FAR_DATA Bs3Idt16[256];
1056/** 32-bit IDT. */
1057extern X86DESC BS3_FAR_DATA Bs3Idt32[256];
1058/** 64-bit IDT. */
1059extern X86DESC64 BS3_FAR_DATA Bs3Idt64[256];
1060/** Structure for the LIDT instruction for loading the 16-bit IDT. */
1061extern X86XDTR64 BS3_FAR_DATA Bs3Lidt_Idt16;
1062/** Structure for the LIDT instruction for loading the 32-bit IDT. */
1063extern X86XDTR64 BS3_FAR_DATA Bs3Lidt_Idt32;
1064/** Structure for the LIDT instruction for loading the 64-bit IDT. */
1065extern X86XDTR64 BS3_FAR_DATA Bs3Lidt_Idt64;
1066/** Structure for the LIDT instruction for loading the real mode interrupt
1067 * vector table. */
1068extern X86XDTR64 BS3_FAR_DATA Bs3Lidt_Ivt;
1069/** Structure for the LGDT instruction for loading the current GDT. */
1070extern X86XDTR64 BS3_FAR_DATA Bs3Lgdt_Gdt;
1071/** Structure for the LGDT instruction for loading the default GDT. */
1072extern X86XDTR64 BS3_FAR_DATA Bs3LgdtDef_Gdt;
1073/** The LDT (all entries are empty, fill in for testing). */
1074extern X86DESC BS3_FAR_DATA Bs3Ldt[116];
1075/** The end of the LDT (exclusive). */
1076extern X86DESC BS3_FAR_DATA Bs3LdtEnd;
1077
1078/** @} */
1079
1080
1081/** @name Segment start and end markers, sizes.
1082 * @{ */
1083/** Start of the BS3TEXT16 segment. */
1084extern uint8_t BS3_FAR_DATA Bs3Text16_StartOfSegment;
1085/** End of the BS3TEXT16 segment. */
1086extern uint8_t BS3_FAR_DATA Bs3Text16_EndOfSegment;
1087/** The size of the BS3TEXT16 segment. */
1088extern uint16_t BS3_FAR_DATA Bs3Text16_Size;
1089
1090/** Start of the BS3SYSTEM16 segment. */
1091extern uint8_t BS3_FAR_DATA Bs3System16_StartOfSegment;
1092/** End of the BS3SYSTEM16 segment. */
1093extern uint8_t BS3_FAR_DATA Bs3System16_EndOfSegment;
1094
1095/** Start of the BS3DATA16/BS3KIT_GRPNM_DATA16 segment. */
1096extern uint8_t BS3_FAR_DATA Bs3Data16_StartOfSegment;
1097/** End of the BS3DATA16/BS3KIT_GRPNM_DATA16 segment. */
1098extern uint8_t BS3_FAR_DATA Bs3Data16_EndOfSegment;
1099
1100/** Start of the BS3RMTEXT16 segment. */
1101extern uint8_t BS3_FAR_DATA Bs3RmText16_StartOfSegment;
1102/** End of the BS3RMTEXT16 segment. */
1103extern uint8_t BS3_FAR_DATA Bs3RmText16_EndOfSegment;
1104/** The size of the BS3RMTEXT16 segment. */
1105extern uint16_t BS3_FAR_DATA Bs3RmText16_Size;
1106/** The flat start address of the BS3X0TEXT16 segment. */
1107extern uint32_t BS3_FAR_DATA Bs3RmText16_FlatAddr;
1108
1109/** Start of the BS3X0TEXT16 segment. */
1110extern uint8_t BS3_FAR_DATA Bs3X0Text16_StartOfSegment;
1111/** End of the BS3X0TEXT16 segment. */
1112extern uint8_t BS3_FAR_DATA Bs3X0Text16_EndOfSegment;
1113/** The size of the BS3X0TEXT16 segment. */
1114extern uint16_t BS3_FAR_DATA Bs3X0Text16_Size;
1115/** The flat start address of the BS3X0TEXT16 segment. */
1116extern uint32_t BS3_FAR_DATA Bs3X0Text16_FlatAddr;
1117
1118/** Start of the BS3X1TEXT16 segment. */
1119extern uint8_t BS3_FAR_DATA Bs3X1Text16_StartOfSegment;
1120/** End of the BS3X1TEXT16 segment. */
1121extern uint8_t BS3_FAR_DATA Bs3X1Text16_EndOfSegment;
1122/** The size of the BS3X1TEXT16 segment. */
1123extern uint16_t BS3_FAR_DATA Bs3X1Text16_Size;
1124/** The flat start address of the BS3X1TEXT16 segment. */
1125extern uint32_t BS3_FAR_DATA Bs3X1Text16_FlatAddr;
1126
1127/** Start of the BS3TEXT32 segment. */
1128extern uint8_t BS3_FAR_DATA Bs3Text32_StartOfSegment;
1129/** Start of the BS3TEXT32 segment. */
1130extern uint8_t BS3_FAR_DATA Bs3Text32_EndOfSegment;
1131
1132/** Start of the BS3DATA32 segment. */
1133extern uint8_t BS3_FAR_DATA Bs3Data32_StartOfSegment;
1134/** Start of the BS3DATA32 segment. */
1135extern uint8_t BS3_FAR_DATA Bs3Data32_EndOfSegment;
1136
1137/** Start of the BS3TEXT64 segment. */
1138extern uint8_t BS3_FAR_DATA Bs3Text64_StartOfSegment;
1139/** Start of the BS3TEXT64 segment. */
1140extern uint8_t BS3_FAR_DATA Bs3Text64_EndOfSegment;
1141
1142/** Start of the BS3DATA64 segment. */
1143extern uint8_t BS3_FAR_DATA Bs3Data64_StartOfSegment;
1144/** Start of the BS3DATA64 segment. */
1145extern uint8_t BS3_FAR_DATA Bs3Data64_EndOfSegment;
1146
1147/** The size of the Data16, Text32, Text64, Data32 and Data64 blob. */
1148extern uint32_t BS3_FAR_DATA Bs3Data16Thru64Text32And64_TotalSize;
1149/** The total image size (from Text16 thu Data64). */
1150extern uint32_t BS3_FAR_DATA Bs3TotalImageSize;
1151/** @} */
1152
1153
1154/** Lower case hex digits. */
1155extern char const g_achBs3HexDigits[16+1];
1156/** Upper case hex digits. */
1157extern char const g_achBs3HexDigitsUpper[16+1];
1158
1159
1160/** The current mode (BS3_MODE_XXX) of CPU \#0. */
1161extern uint8_t g_bBs3CurrentMode;
1162
1163/** Hint for 16-bit trap handlers regarding the high word of EIP. */
1164extern uint32_t g_uBs3TrapEipHint;
1165
1166/** Set to disable special V8086 \#GP and \#UD handling in Bs3TrapDefaultHandler.
1167 * This is useful for getting */
1168extern bool volatile g_fBs3TrapNoV86Assist;
1169
1170/** Copy of the original real-mode interrupt vector table. */
1171extern RTFAR16 g_aBs3RmIvtOriginal[256];
1172
1173
1174#ifdef __WATCOMC__
1175/**
1176 * Executes the SMSW instruction and returns the value.
1177 *
1178 * @returns Machine status word.
1179 */
1180uint16_t Bs3AsmSmsw(void);
1181# pragma aux Bs3AsmSmsw = \
1182 ".286" \
1183 "smsw ax" \
1184 value [ax] modify exact [ax] nomemory;
1185#endif
1186
1187
1188/** @defgroup bs3kit_cross_ptr Cross Context Pointer Type
1189 *
1190 * The cross context pointer type is
1191 *
1192 * @{ */
1193
1194/**
1195 * Cross context pointer base type.
1196 */
1197typedef union BS3XPTR
1198{
1199 /** The flat pointer. */
1200 uint32_t uFlat;
1201 /** 16-bit view. */
1202 struct
1203 {
1204 uint16_t uLow;
1205 uint16_t uHigh;
1206 } u;
1207#if ARCH_BITS == 16
1208 /** 16-bit near pointer. */
1209 void __near *pvNear;
1210#elif ARCH_BITS == 32
1211 /** 32-bit pointer. */
1212 void *pvRaw;
1213#endif
1214} BS3XPTR;
1215AssertCompileSize(BS3XPTR, 4);
1216
1217
1218/** @def BS3_XPTR_DEF_INTERNAL
1219 * Internal worker.
1220 *
1221 * @param a_Scope RT_NOTHING if structure or global, static or extern
1222 * otherwise.
1223 * @param a_Type The type we're pointing to.
1224 * @param a_Name The member or variable name.
1225 * @internal
1226 */
1227#if ARCH_BITS == 16
1228# define BS3_XPTR_DEF_INTERNAL(a_Scope, a_Type, a_Name) \
1229 a_Scope union \
1230 { \
1231 BS3XPTR XPtr; \
1232 a_Type __near *pNearTyped; \
1233 } a_Name
1234#elif ARCH_BITS == 32
1235# define BS3_XPTR_DEF_INTERNAL(a_Scope, a_Type, a_Name) \
1236 a_Scope union \
1237 { \
1238 BS3XPTR XPtr; \
1239 a_Type *pTyped; \
1240 } a_Name
1241#elif ARCH_BITS == 64
1242# define BS3_XPTR_DEF_INTERNAL(a_Scope, a_Type, a_Name) \
1243 a_Scope union \
1244 { \
1245 BS3XPTR XPtr; \
1246 } a_Name
1247#else
1248# error "ARCH_BITS"
1249#endif
1250
1251/** @def BS3_XPTR_MEMBER
1252 * Defines a pointer member that can be shared by all CPU modes.
1253 *
1254 * @param a_Type The type we're pointing to.
1255 * @param a_Name The member or variable name.
1256 */
1257#define BS3_XPTR_MEMBER(a_Type, a_Name) BS3_XPTR_DEF_INTERNAL(RT_NOTHING, a_Type, a_Name)
1258
1259/** @def BS3_XPTR_AUTO
1260 * Defines a pointer static variable for working with an XPTR.
1261 *
1262 * This is typically used to convert flat pointers into context specific
1263 * pointers.
1264 *
1265 * @param a_Type The type we're pointing to.
1266 * @param a_Name The member or variable name.
1267 */
1268#define BS3_XPTR_AUTO(a_Type, a_Name) BS3_XPTR_DEF_INTERNAL(RT_NOTHING, a_Type, a_Name)
1269
1270/** @def BS3_XPTR_SET_FLAT
1271 * Sets a cross context pointer.
1272 *
1273 * @param a_Type The type we're pointing to.
1274 * @param a_Name The member or variable name.
1275 * @param a_uFlatPtr The flat pointer value to assign. If the x-pointer is
1276 * used in real mode, this must be less than 1MB.
1277 * Otherwise the limit is 16MB (due to selector tiling).
1278 */
1279#define BS3_XPTR_SET_FLAT(a_Type, a_Name, a_uFlatPtr) \
1280 do { a_Name.XPtr.uFlat = (a_uFlatPtr); } while (0)
1281
1282/** @def BS3_XPTR_GET_FLAT
1283 * Gets the flat address of a cross context pointer.
1284 *
1285 * @returns 32-bit flat pointer.
1286 * @param a_Type The type we're pointing to.
1287 * @param a_Name The member or variable name.
1288 */
1289#define BS3_XPTR_GET_FLAT(a_Type, a_Name) (a_Name.XPtr.uFlat)
1290
1291/** @def BS3_XPTR_GET_FLAT_LOW
1292 * Gets the low 16 bits of the flat address.
1293 *
1294 * @returns Low 16 bits of the flat pointer.
1295 * @param a_Type The type we're pointing to.
1296 * @param a_Name The member or variable name.
1297 */
1298#define BS3_XPTR_GET_FLAT_LOW(a_Type, a_Name) (a_Name.XPtr.u.uLow)
1299
1300
1301#if ARCH_BITS == 16
1302
1303/**
1304 * Gets the current ring number.
1305 * @returns Ring number.
1306 */
1307DECLINLINE(uint16_t) Bs3Sel16GetCurRing(void);
1308# pragma aux Bs3Sel16GetCurRing = \
1309 "mov ax, ss" \
1310 "and ax, 3" \
1311 value [ax] modify exact [ax] nomemory;
1312
1313/**
1314 * Converts the high word of a flat pointer into a 16-bit selector.
1315 *
1316 * This makes use of the tiled area. It also handles real mode.
1317 *
1318 * @returns Segment selector value.
1319 * @param uHigh The high part of flat pointer.
1320 * @sa BS3_XPTR_GET, BS3_XPTR_SET
1321 */
1322DECLINLINE(__segment) Bs3Sel16HighFlatPtrToSelector(uint16_t uHigh)
1323{
1324 if (!BS3_MODE_IS_RM_OR_V86(g_bBs3CurrentMode))
1325 return (__segment)(((uHigh << 3) + BS3_SEL_TILED) | Bs3Sel16GetCurRing());
1326 return (__segment)(uHigh << 12);
1327}
1328
1329#endif /* ARCH_BITS == 16 */
1330
1331/** @def BS3_XPTR_GET
1332 * Gets the current context pointer value.
1333 *
1334 * @returns Usable pointer.
1335 * @param a_Type The type we're pointing to.
1336 * @param a_Name The member or variable name.
1337 */
1338#if ARCH_BITS == 16
1339# define BS3_XPTR_GET(a_Type, a_Name) \
1340 ((a_Type BS3_FAR *)BS3_FP_MAKE(Bs3Sel16HighFlatPtrToSelector((a_Name).XPtr.u.uHigh), (a_Name).pNearTyped))
1341#elif ARCH_BITS == 32
1342# define BS3_XPTR_GET(a_Type, a_Name) ((a_Name).pTyped)
1343#elif ARCH_BITS == 64
1344# define BS3_XPTR_GET(a_Type, a_Name) ((a_Type *)(uintptr_t)(a_Name).XPtr.uFlat)
1345#else
1346# error "ARCH_BITS"
1347#endif
1348
1349/** @def BS3_XPTR_SET
1350 * Gets the current context pointer value.
1351 *
1352 * @returns Usable pointer.
1353 * @param a_Type The type we're pointing to.
1354 * @param a_Name The member or variable name.
1355 * @param a_pValue The new pointer value, current context pointer.
1356 */
1357#if ARCH_BITS == 16
1358# define BS3_XPTR_SET(a_Type, a_Name, a_pValue) \
1359 do { \
1360 a_Type BS3_FAR *pTypeCheck = (a_pValue); \
1361 if (BS3_MODE_IS_RM_OR_V86(g_bBs3CurrentMode)) \
1362 (a_Name).XPtr.uFlat = BS3_FP_OFF(pTypeCheck) + ((uint32_t)BS3_FP_SEG(pTypeCheck) << 4); \
1363 else \
1364 { \
1365 (a_Name).XPtr.u.uLow = BS3_FP_OFF(pTypeCheck); \
1366 (a_Name).XPtr.u.uHigh = ((BS3_FP_SEG(pTypeCheck) & UINT16_C(0xfff8)) - BS3_SEL_TILED) >> 3; \
1367 } \
1368 } while (0)
1369#elif ARCH_BITS == 32
1370# define BS3_XPTR_SET(a_Type, a_Name, a_pValue) \
1371 do { (a_Name).pTyped = (a_pValue); } while (0)
1372#elif ARCH_BITS == 64
1373# define BS3_XPTR_SET(a_Type, a_Name, a_pValue) \
1374 do { \
1375 a_Type *pTypeCheck = (a_pValue); \
1376 (a_Name).XPtr.uFlat = (uint32_t)(uintptr_t)pTypeCheck; \
1377 } while (0)
1378#else
1379# error "ARCH_BITS"
1380#endif
1381
1382
1383/** @def BS3_XPTR_IS_NULL
1384 * Checks if the cross context pointer is NULL.
1385 *
1386 * @returns true if NULL, false if not.
1387 * @param a_Type The type we're pointing to.
1388 * @param a_Name The member or variable name.
1389 */
1390#define BS3_XPTR_IS_NULL(a_Type, a_Name) ((a_Name).XPtr.uFlat == 0)
1391
1392/**
1393 * Gets a working pointer from a flat address.
1394 *
1395 * @returns Current context pointer.
1396 * @param uFlatPtr The flat address to convert (32-bit or 64-bit).
1397 */
1398DECLINLINE(void BS3_FAR *) Bs3XptrFlatToCurrent(RTCCUINTXREG uFlatPtr)
1399{
1400 BS3_XPTR_AUTO(void, pTmp);
1401 BS3_XPTR_SET_FLAT(void, pTmp, uFlatPtr);
1402 return BS3_XPTR_GET(void, pTmp);
1403}
1404
1405/** @} */
1406
1407
1408
1409/** @defgroup grp_bs3kit_cmn Common Functions and Data
1410 *
1411 * The common functions comes in three variations: 16-bit, 32-bit and 64-bit.
1412 * Templated code uses the #BS3_CMN_NM macro to mangle the name according to the
1413 * desired
1414 *
1415 * @{
1416 */
1417
1418/** @def BS3_CMN_PROTO_INT
1419 * Internal macro for prototyping all the variations of a common function.
1420 * @param a_RetType The return type.
1421 * @param a_Name The function basename.
1422 * @param a_Params The parameter list (in parentheses).
1423 * @sa BS3_CMN_PROTO_STUB, BS3_CMN_PROTO_NOSB
1424 */
1425#if ARCH_BITS == 16
1426# ifndef BS3_USE_ALT_16BIT_TEXT_SEG
1427# define BS3_CMN_PROTO_INT(a_RetType, a_Name, a_Params) \
1428 BS3_DECL_NEAR(a_RetType) BS3_CMN_NM(a_Name) a_Params; \
1429 BS3_DECL_FAR(a_RetType) BS3_CMN_FAR_NM(a_Name) a_Params
1430# else
1431# define BS3_CMN_PROTO_INT(a_RetType, a_Name, a_Params) \
1432 BS3_DECL_FAR(a_RetType) BS3_CMN_FAR_NM(a_Name) a_Params
1433# endif
1434#else
1435# define BS3_CMN_PROTO_INT(a_RetType, a_Name, a_Params) \
1436 BS3_DECL_NEAR(a_RetType) BS3_CMN_NM(a_Name) a_Params
1437#endif
1438
1439/** @def BS3_CMN_PROTO_STUB
1440 * Macro for prototyping all the variations of a common function with automatic
1441 * near -> far stub.
1442 *
1443 * @param a_RetType The return type.
1444 * @param a_Name The function basename.
1445 * @param a_Params The parameter list (in parentheses).
1446 * @sa BS3_CMN_PROTO_NOSB
1447 */
1448#define BS3_CMN_PROTO_STUB(a_RetType, a_Name, a_Params) BS3_CMN_PROTO_INT(a_RetType, a_Name, a_Params)
1449
1450/** @def BS3_CMN_PROTO_NOSB
1451 * Macro for prototyping all the variations of a common function without any
1452 * near > far stub.
1453 *
1454 * @param a_RetType The return type.
1455 * @param a_Name The function basename.
1456 * @param a_Params The parameter list (in parentheses).
1457 * @sa BS3_CMN_PROTO_STUB
1458 */
1459#define BS3_CMN_PROTO_NOSB(a_RetType, a_Name, a_Params) BS3_CMN_PROTO_INT(a_RetType, a_Name, a_Params)
1460
1461/** @def BS3_CMN_PROTO_FARSTUB
1462 * Macro for prototyping all the variations of a common function with automatic
1463 * far -> near stub.
1464 *
1465 * @param a_cbParam16 The size of the 16-bit parameter list in bytes.
1466 * @param a_RetType The return type.
1467 * @param a_Name The function basename.
1468 * @param a_Params The parameter list (in parentheses).
1469 * @sa BS3_CMN_PROTO_STUB
1470 */
1471#define BS3_CMN_PROTO_FARSTUB(a_cbParam16, a_RetType, a_Name, a_Params) BS3_CMN_PROTO_INT(a_RetType, a_Name, a_Params)
1472
1473
1474/** @def BS3_CMN_DEF
1475 * Macro for defining a common function.
1476 *
1477 * This makes 16-bit common function far, while 32-bit and 64-bit are near.
1478 *
1479 * @param a_RetType The return type.
1480 * @param a_Name The function basename.
1481 * @param a_Params The parameter list (in parentheses).
1482 */
1483#if ARCH_BITS == 16
1484# define BS3_CMN_DEF(a_RetType, a_Name, a_Params) \
1485 BS3_DECL_FAR(a_RetType) BS3_CMN_FAR_NM(a_Name) a_Params
1486#else
1487# define BS3_CMN_DEF(a_RetType, a_Name, a_Params) \
1488 BS3_DECL_NEAR(a_RetType) BS3_CMN_NM(a_Name) a_Params
1489#endif
1490
1491/** @def BS3_ASSERT
1492 * Assert that an expression is true.
1493 *
1494 * Calls Bs3Panic if false and it's a strict build. Does nothing in
1495 * non-strict builds. */
1496#ifdef BS3_STRICT
1497# define BS3_ASSERT(a_Expr) do { if (!!(a_Expr)) { /* likely */ } else { Bs3Panic(); } } while (0) /**< @todo later */
1498#else
1499# define BS3_ASSERT(a_Expr) do { } while (0)
1500#endif
1501
1502/**
1503 * Panic, never return.
1504 *
1505 * The current implementation will only halt the CPU.
1506 */
1507BS3_CMN_PROTO_NOSB(DECL_NO_RETURN(void), Bs3Panic,(void));
1508#if !defined(BS3_KIT_WITH_NO_RETURN) && defined(__WATCOMC__)
1509# pragma aux Bs3Panic_c16 __aborts
1510# pragma aux Bs3Panic_f16 __aborts
1511# pragma aux Bs3Panic_c32 __aborts
1512#endif
1513
1514
1515/**
1516 * Translate a mode into a string.
1517 *
1518 * @returns Pointer to read-only mode name string.
1519 * @param bMode The mode value (BS3_MODE_XXX).
1520 */
1521BS3_CMN_PROTO_STUB(const char BS3_FAR *, Bs3GetModeName,(uint8_t bMode));
1522
1523/**
1524 * Translate a mode into a short lower case string.
1525 *
1526 * @returns Pointer to read-only short mode name string.
1527 * @param bMode The mode value (BS3_MODE_XXX).
1528 */
1529BS3_CMN_PROTO_STUB(const char BS3_FAR *, Bs3GetModeNameShortLower,(uint8_t bMode));
1530
1531/** CPU vendors. */
1532typedef enum BS3CPUVENDOR
1533{
1534 BS3CPUVENDOR_INVALID = 0,
1535 BS3CPUVENDOR_INTEL,
1536 BS3CPUVENDOR_AMD,
1537 BS3CPUVENDOR_VIA,
1538 BS3CPUVENDOR_CYRIX,
1539 BS3CPUVENDOR_SHANGHAI,
1540 BS3CPUVENDOR_HYGON,
1541 BS3CPUVENDOR_UNKNOWN,
1542 BS3CPUVENDOR_END
1543} BS3CPUVENDOR;
1544
1545/**
1546 * Tries to detect the CPU vendor.
1547 *
1548 * @returns CPU vendor.
1549 */
1550BS3_CMN_PROTO_STUB(BS3CPUVENDOR, Bs3GetCpuVendor,(void));
1551
1552/**
1553 * Shutdown the system, never returns.
1554 *
1555 * This currently only works for VMs. When running on real systems it will
1556 * just halt the CPU.
1557 */
1558BS3_CMN_PROTO_NOSB(void, Bs3Shutdown,(void));
1559
1560/**
1561 * Prints a 32-bit unsigned value as decimal to the screen.
1562 *
1563 * @param uValue The 32-bit value.
1564 */
1565BS3_CMN_PROTO_NOSB(void, Bs3PrintU32,(uint32_t uValue));
1566
1567/**
1568 * Prints a 32-bit unsigned value as hex to the screen.
1569 *
1570 * @param uValue The 32-bit value.
1571 */
1572BS3_CMN_PROTO_NOSB(void, Bs3PrintX32,(uint32_t uValue));
1573
1574/**
1575 * Formats and prints a string to the screen.
1576 *
1577 * See #Bs3StrFormatV for supported format types.
1578 *
1579 * @param pszFormat The format string.
1580 * @param ... Format arguments.
1581 */
1582BS3_CMN_PROTO_STUB(size_t, Bs3Printf,(const char BS3_FAR *pszFormat, ...));
1583
1584/**
1585 * Formats and prints a string to the screen, va_list version.
1586 *
1587 * See #Bs3StrFormatV for supported format types.
1588 *
1589 * @param pszFormat The format string.
1590 * @param va Format arguments.
1591 */
1592BS3_CMN_PROTO_STUB(size_t, Bs3PrintfV,(const char BS3_FAR *pszFormat, va_list BS3_FAR va));
1593
1594/**
1595 * Prints a string to the screen.
1596 *
1597 * @param pszString The string to print.
1598 */
1599BS3_CMN_PROTO_STUB(void, Bs3PrintStr,(const char BS3_FAR *pszString));
1600
1601/**
1602 * Prints a string to the screen.
1603 *
1604 * @param pszString The string to print. Any terminator charss will be printed.
1605 * @param cchString The exact number of characters to print.
1606 */
1607BS3_CMN_PROTO_NOSB(void, Bs3PrintStrN,(const char BS3_FAR *pszString, size_t cchString));
1608
1609/**
1610 * Prints a char to the screen.
1611 *
1612 * @param ch The character to print.
1613 */
1614BS3_CMN_PROTO_NOSB(void, Bs3PrintChr,(char ch));
1615
1616
1617/**
1618 * An output function for #Bs3StrFormatV.
1619 *
1620 * @returns Number of characters written.
1621 * @param ch The character to write. Zero in the final call.
1622 * @param pvUser User argument supplied to #Bs3StrFormatV.
1623 */
1624typedef BS3_DECL_CALLBACK(size_t) FNBS3STRFORMATOUTPUT(char ch, void BS3_FAR *pvUser);
1625/** Pointer to an output function for #Bs3StrFormatV. */
1626typedef FNBS3STRFORMATOUTPUT *PFNBS3STRFORMATOUTPUT;
1627
1628/**
1629 * Formats a string, sending the output to @a pfnOutput.
1630 *
1631 * Supported types:
1632 * - %RI8, %RI16, %RI32, %RI64
1633 * - %RU8, %RU16, %RU32, %RU64
1634 * - %RX8, %RX16, %RX32, %RX64
1635 * - %i, %d
1636 * - %u
1637 * - %x
1638 * - %c
1639 * - %p (far pointer)
1640 * - %s (far pointer)
1641 *
1642 * @returns Sum of @a pfnOutput return values.
1643 * @param pszFormat The format string.
1644 * @param va Format arguments.
1645 * @param pfnOutput The output function.
1646 * @param pvUser The user argument for the output function.
1647 */
1648BS3_CMN_PROTO_STUB(size_t, Bs3StrFormatV,(const char BS3_FAR *pszFormat, va_list BS3_FAR va,
1649 PFNBS3STRFORMATOUTPUT pfnOutput, void BS3_FAR *pvUser));
1650
1651/**
1652 * Formats a string into a buffer.
1653 *
1654 * See #Bs3StrFormatV for supported format types.
1655 *
1656 * @returns The length of the formatted string (excluding terminator).
1657 * This will be higher or equal to @c cbBuf in case of an overflow.
1658 * @param pszBuf The output buffer.
1659 * @param cbBuf The size of the output buffer.
1660 * @param pszFormat The format string.
1661 * @param va Format arguments.
1662 */
1663BS3_CMN_PROTO_STUB(size_t, Bs3StrPrintfV,(char BS3_FAR *pszBuf, size_t cbBuf, const char BS3_FAR *pszFormat, va_list BS3_FAR va));
1664
1665/**
1666 * Formats a string into a buffer.
1667 *
1668 * See #Bs3StrFormatV for supported format types.
1669 *
1670 * @returns The length of the formatted string (excluding terminator).
1671 * This will be higher or equal to @c cbBuf in case of an overflow.
1672 * @param pszBuf The output buffer.
1673 * @param cbBuf The size of the output buffer.
1674 * @param pszFormat The format string.
1675 * @param ... Format arguments.
1676 */
1677BS3_CMN_PROTO_STUB(size_t, Bs3StrPrintf,(char BS3_FAR *pszBuf, size_t cbBuf, const char BS3_FAR *pszFormat, ...));
1678
1679
1680/**
1681 * Finds the length of a zero terminated string.
1682 *
1683 * @returns String length in chars/bytes.
1684 * @param pszString The string to examine.
1685 */
1686BS3_CMN_PROTO_STUB(size_t, Bs3StrLen,(const char BS3_FAR *pszString));
1687
1688/**
1689 * Finds the length of a zero terminated string, but with a max length.
1690 *
1691 * @returns String length in chars/bytes, or @a cchMax if no zero-terminator
1692 * was found before we reached the limit.
1693 * @param pszString The string to examine.
1694 * @param cchMax The max length to examine.
1695 */
1696BS3_CMN_PROTO_STUB(size_t, Bs3StrNLen,(const char BS3_FAR *pszString, size_t cchMax));
1697
1698/**
1699 * CRT style unsafe strcpy.
1700 *
1701 * @returns pszDst.
1702 * @param pszDst The destination buffer. Must be large enough to
1703 * hold the source string.
1704 * @param pszSrc The source string.
1705 */
1706BS3_CMN_PROTO_STUB(char BS3_FAR *, Bs3StrCpy,(char BS3_FAR *pszDst, const char BS3_FAR *pszSrc));
1707
1708/**
1709 * CRT style memcpy.
1710 *
1711 * @returns pvDst
1712 * @param pvDst The destination buffer.
1713 * @param pvSrc The source buffer.
1714 * @param cbToCopy The number of bytes to copy.
1715 */
1716BS3_CMN_PROTO_STUB(void BS3_FAR *, Bs3MemCpy,(void BS3_FAR *pvDst, const void BS3_FAR *pvSrc, size_t cbToCopy));
1717
1718/**
1719 * GNU (?) style mempcpy.
1720 *
1721 * @returns pvDst + cbCopy
1722 * @param pvDst The destination buffer.
1723 * @param pvSrc The source buffer.
1724 * @param cbToCopy The number of bytes to copy.
1725 */
1726BS3_CMN_PROTO_STUB(void BS3_FAR *, Bs3MemPCpy,(void BS3_FAR *pvDst, const void BS3_FAR *pvSrc, size_t cbToCopy));
1727
1728/**
1729 * CRT style memmove (overlapping buffers is fine).
1730 *
1731 * @returns pvDst
1732 * @param pvDst The destination buffer.
1733 * @param pvSrc The source buffer.
1734 * @param cbToCopy The number of bytes to copy.
1735 */
1736BS3_CMN_PROTO_STUB(void BS3_FAR *, Bs3MemMove,(void BS3_FAR *pvDst, const void BS3_FAR *pvSrc, size_t cbToCopy));
1737
1738/**
1739 * BSD style bzero.
1740 *
1741 * @param pvDst The buffer to be zeroed.
1742 * @param cbDst The number of bytes to zero.
1743 */
1744BS3_CMN_PROTO_NOSB(void, Bs3MemZero,(void BS3_FAR *pvDst, size_t cbDst));
1745
1746/**
1747 * CRT style memset.
1748 *
1749 * @param pvDst The buffer to be fill.
1750 * @param bFiller The filler byte.
1751 * @param cbDst The number of bytes to fill.
1752 */
1753BS3_CMN_PROTO_NOSB(void, Bs3MemSet,(void BS3_FAR *pvDst, uint8_t bFiller, size_t cbDst));
1754
1755/**
1756 * CRT style memchr.
1757 *
1758 * @param pvHaystack The memory to scan for @a bNeedle.
1759 * @param bNeedle The byte to search for.
1760 * @param cbHaystack The amount of memory to search.
1761 */
1762BS3_CMN_PROTO_NOSB(void BS3_FAR *, Bs3MemChr,(void const BS3_FAR *pvHaystack, uint8_t bNeedle, size_t cbHaystack));
1763
1764/**
1765 * CRT style memcmp.
1766 *
1767 * @returns 0 if equal. Negative if the left side is 'smaller' than the right
1768 * side, and positive in the other case.
1769 * @param pv1 The left hand memory.
1770 * @param pv2 The right hand memory.
1771 * @param cb The number of bytes to compare.
1772 */
1773BS3_CMN_PROTO_NOSB(int, Bs3MemCmp,(void const BS3_FAR *pv1, void const BS3_FAR *pv2, size_t cb));
1774
1775BS3_CMN_PROTO_STUB(void, Bs3UInt64Div,(RTUINT64U uDividend, RTUINT64U uDivisor, RTUINT64U BS3_FAR *paQuotientReminder));
1776BS3_CMN_PROTO_STUB(void, Bs3UInt32Div,(RTUINT32U uDividend, RTUINT32U uDivisor, RTUINT32U BS3_FAR *paQuotientReminder));
1777
1778
1779/**
1780 * Converts a protected mode 32-bit far pointer to a 32-bit flat address.
1781 *
1782 * @returns 32-bit flat address.
1783 * @param off The segment offset.
1784 * @param uSel The protected mode segment selector.
1785 */
1786BS3_CMN_PROTO_STUB(uint32_t, Bs3SelProtFar32ToFlat32,(uint32_t off, uint16_t uSel));
1787
1788/**
1789 * Converts a current mode 32-bit far pointer to a 32-bit flat address.
1790 *
1791 * @returns 32-bit flat address.
1792 * @param off The segment offset.
1793 * @param uSel The current mode segment selector.
1794 */
1795BS3_CMN_PROTO_STUB(uint32_t, Bs3SelFar32ToFlat32,(uint32_t off, uint16_t uSel));
1796
1797/**
1798 * Wrapper around Bs3SelFar32ToFlat32 that makes it easier to use in tight
1799 * assembly spots.
1800 *
1801 * @returns 32-bit flat address.
1802 * @param off The segment offset.
1803 * @param uSel The current mode segment selector.
1804 * @remarks All register are preserved, except return.
1805 * @remarks No 20h scratch space required in 64-bit mode.
1806 */
1807BS3_CMN_PROTO_FARSTUB(6, uint32_t, Bs3SelFar32ToFlat32NoClobber,(uint32_t off, uint16_t uSel));
1808
1809/**
1810 * Converts a real mode code segment to a protected mode code segment selector.
1811 *
1812 * @returns protected mode segment selector.
1813 * @param uRealSeg Real mode code segment.
1814 * @remarks All register are preserved, except return and parameter.
1815 */
1816BS3_CMN_PROTO_NOSB(uint16_t, Bs3SelRealModeCodeToProtMode,(uint16_t uRealSeg));
1817
1818/**
1819 * Converts a real mode code segment to a protected mode code segment selector.
1820 *
1821 * @returns protected mode segment selector.
1822 * @param uProtSel Real mode code segment.
1823 * @remarks All register are preserved, except return and parameter.
1824 */
1825BS3_CMN_PROTO_NOSB(uint16_t, Bs3SelProtModeCodeToRealMode,(uint16_t uProtSel));
1826
1827/**
1828 * Converts a flat code address to a real mode segment and offset.
1829 *
1830 * @returns Far real mode address (high 16-bit is segment, low is offset).
1831 * @param uFlatAddr Flat code address.
1832 * @remarks All register are preserved, except return and parameter.
1833 */
1834BS3_CMN_PROTO_NOSB(uint32_t, Bs3SelFlatCodeToRealMode,(uint32_t uFlatAddr));
1835
1836/**
1837 * Converts a flat code address to a protected mode 16-bit far pointer (ring-0).
1838 *
1839 * @returns Far 16-bit protected mode address (high 16-bit is segment selector,
1840 * low is segment offset).
1841 * @param uFlatAddr Flat code address.
1842 * @remarks All register are preserved, except return and parameter.
1843 */
1844BS3_CMN_PROTO_NOSB(uint32_t, Bs3SelFlatCodeToProtFar16,(uint32_t uFlatAddr));
1845
1846/**
1847 * Converts a far 16:16 real mode (code) address to a flat address.
1848 *
1849 * @returns 32-bit flat address.
1850 * @param uFar1616 Far real mode address (high 16-bit is segment, low
1851 * is offset).
1852 * @remarks All register are preserved, except return.
1853 * @remarks No 20h scratch space required in 64-bit mode.
1854 * @remarks Exactly the same as Bs3SelRealModeDataToFlat, except for param.
1855 */
1856BS3_CMN_PROTO_FARSTUB(4, uint32_t, Bs3SelRealModeCodeToFlat,(PFNBS3FARADDRCONV uFar1616));
1857
1858/**
1859 * Converts a flat data address to a real mode segment and offset.
1860 *
1861 * @returns Far real mode address (high 16-bit is segment, low is offset)
1862 * @param uFlatAddr Flat code address.
1863 * @remarks All register are preserved, except return.
1864 * @remarks No 20h scratch space required in 64-bit mode.
1865 */
1866BS3_CMN_PROTO_FARSTUB(4, uint32_t, Bs3SelFlatDataToRealMode,(uint32_t uFlatAddr));
1867
1868/**
1869 * Converts a flat data address to a real mode segment and offset.
1870 *
1871 * @returns Far 16-bit protected mode address (high 16-bit is segment selector,
1872 * low is segment offset).
1873 * @param uFlatAddr Flat code address.
1874 * @remarks All register are preserved, except return.
1875 * @remarks No 20h scratch space required in 64-bit mode.
1876 */
1877BS3_CMN_PROTO_FARSTUB(4, uint32_t, Bs3SelFlatDataToProtFar16,(uint32_t uFlatAddr));
1878
1879/**
1880 * Converts a far 16:16 data address to a real mode segment and offset.
1881 *
1882 * @returns Far real mode address (high 16-bit is segment, low is offset)
1883 * @param uFar1616 Far 16-bit protected mode address (high 16-bit is
1884 * segment selector, low is segment offset).
1885 * @remarks All register are preserved, except return.
1886 * @remarks No 20h scratch space required in 64-bit mode.
1887 */
1888BS3_CMN_PROTO_FARSTUB(4, uint32_t, Bs3SelProtFar16DataToRealMode,(uint32_t uFar1616));
1889
1890/**
1891 * Converts a far 16:16 real mode address to a 16-bit protected mode address.
1892 *
1893 * @returns Far real mode address (high 16-bit is segment, low is offset)
1894 * @param uFar1616 Far real mode address (high 16-bit is segment, low
1895 * is offset).
1896 * @remarks All register are preserved, except return.
1897 * @remarks No 20h scratch space required in 64-bit mode.
1898 */
1899BS3_CMN_PROTO_FARSTUB(4, uint32_t, Bs3SelRealModeDataToProtFar16,(uint32_t uFar1616));
1900
1901/**
1902 * Converts a far 16:16 data address to a flat 32-bit address.
1903 *
1904 * @returns 32-bit flat address.
1905 * @param uFar1616 Far 16-bit protected mode address (high 16-bit is
1906 * segment selector, low is segment offset).
1907 * @remarks All register are preserved, except return.
1908 * @remarks No 20h scratch space required in 64-bit mode.
1909 */
1910BS3_CMN_PROTO_FARSTUB(4, uint32_t, Bs3SelProtFar16DataToFlat,(uint32_t uFar1616));
1911
1912/**
1913 * Converts a far 16:16 real mode address to a flat address.
1914 *
1915 * @returns 32-bit flat address.
1916 * @param uFar1616 Far real mode address (high 16-bit is segment, low
1917 * is offset).
1918 * @remarks All register are preserved, except return.
1919 * @remarks No 20h scratch space required in 64-bit mode.
1920 */
1921BS3_CMN_PROTO_FARSTUB(4, uint32_t, Bs3SelRealModeDataToFlat,(uint32_t uFar1616));
1922
1923/**
1924 * Gets a flat address from a working poitner.
1925 *
1926 * @returns flat address (32-bit or 64-bit).
1927 * @param pv Current context pointer.
1928 */
1929DECLINLINE(RTCCUINTXREG) Bs3SelPtrToFlat(void BS3_FAR *pv)
1930{
1931#if ARCH_BITS == 16
1932 return BS3_CMN_FN_NM(Bs3SelFar32ToFlat32)(BS3_FP_OFF(pv), BS3_FP_SEG(pv));
1933#else
1934 return (uintptr_t)pv;
1935#endif
1936}
1937
1938/**
1939 * Sets up a 16-bit read-write data selector with ring-3 access and 64KB limit.
1940 *
1941 * @param pDesc Pointer to the descriptor table entry.
1942 * @param uBaseAddr The base address of the descriptor.
1943 */
1944BS3_CMN_PROTO_STUB(void, Bs3SelSetup16BitData,(X86DESC BS3_FAR *pDesc, uint32_t uBaseAddr));
1945
1946/**
1947 * Sets up a 16-bit execute-read selector with a 64KB limit.
1948 *
1949 * @param pDesc Pointer to the descriptor table entry.
1950 * @param uBaseAddr The base address of the descriptor.
1951 * @param bDpl The descriptor privilege level.
1952 */
1953BS3_CMN_PROTO_STUB(void, Bs3SelSetup16BitCode,(X86DESC BS3_FAR *pDesc, uint32_t uBaseAddr, uint8_t bDpl));
1954
1955
1956/**
1957 * Slab control structure list head.
1958 *
1959 * The slabs on the list must all have the same chunk size.
1960 */
1961typedef struct BS3SLABHEAD
1962{
1963 /** Pointer to the first slab. */
1964 BS3_XPTR_MEMBER(struct BS3SLABCTL, pFirst);
1965 /** The allocation chunk size. */
1966 uint16_t cbChunk;
1967 /** Number of slabs in the list. */
1968 uint16_t cSlabs;
1969 /** Number of chunks in the list. */
1970 uint32_t cChunks;
1971 /** Number of free chunks. */
1972 uint32_t cFreeChunks;
1973} BS3SLABHEAD;
1974AssertCompileSize(BS3SLABHEAD, 16);
1975/** Pointer to a slab list head. */
1976typedef BS3SLABHEAD BS3_FAR *PBS3SLABHEAD;
1977
1978/**
1979 * Allocation slab control structure.
1980 *
1981 * This may live at the start of the slab for 4KB slabs, while in a separate
1982 * static location for the larger ones.
1983 */
1984typedef struct BS3SLABCTL
1985{
1986 /** Pointer to the next slab control structure in this list. */
1987 BS3_XPTR_MEMBER(struct BS3SLABCTL, pNext);
1988 /** Pointer to the slab list head. */
1989 BS3_XPTR_MEMBER(BS3SLABHEAD, pHead);
1990 /** The base address of the slab. */
1991 BS3_XPTR_MEMBER(uint8_t, pbStart);
1992 /** Number of chunks in this slab. */
1993 uint16_t cChunks;
1994 /** Number of currently free chunks. */
1995 uint16_t cFreeChunks;
1996 /** The chunk size. */
1997 uint16_t cbChunk;
1998 /** The shift count corresponding to cbChunk.
1999 * This is for turning a chunk number into a byte offset and vice versa. */
2000 uint16_t cChunkShift;
2001 /** Bitmap where set bits indicates allocated blocks (variable size,
2002 * multiple of 4). */
2003 uint8_t bmAllocated[4];
2004} BS3SLABCTL;
2005/** Pointer to a bs3kit slab control structure. */
2006typedef BS3SLABCTL BS3_FAR *PBS3SLABCTL;
2007
2008/** The chunks must all be in the same 16-bit segment tile. */
2009#define BS3_SLAB_ALLOC_F_SAME_TILE UINT16_C(0x0001)
2010
2011/**
2012 * Initializes a slab.
2013 *
2014 * @param pSlabCtl The slab control structure to initialize.
2015 * @param cbSlabCtl The size of the slab control structure.
2016 * @param uFlatSlabPtr The base address of the slab.
2017 * @param cbSlab The size of the slab.
2018 * @param cbChunk The chunk size.
2019 */
2020BS3_CMN_PROTO_STUB(void, Bs3SlabInit,(PBS3SLABCTL pSlabCtl, size_t cbSlabCtl, uint32_t uFlatSlabPtr,
2021 uint32_t cbSlab, uint16_t cbChunk));
2022
2023/**
2024 * Allocates one chunk from a slab.
2025 *
2026 * @returns Pointer to a chunk on success, NULL if we're out of chunks.
2027 * @param pSlabCtl The slab constrol structure to allocate from.
2028 */
2029BS3_CMN_PROTO_STUB(void BS3_FAR *, Bs3SlabAlloc,(PBS3SLABCTL pSlabCtl));
2030
2031/**
2032 * Allocates one or more chunks rom a slab.
2033 *
2034 * @returns Pointer to the request number of chunks on success, NULL if we're
2035 * out of chunks.
2036 * @param pSlabCtl The slab constrol structure to allocate from.
2037 * @param cChunks The number of contiguous chunks we want.
2038 * @param fFlags Flags, see BS3_SLAB_ALLOC_F_XXX
2039 */
2040BS3_CMN_PROTO_STUB(void BS3_FAR *, Bs3SlabAllocEx,(PBS3SLABCTL pSlabCtl, uint16_t cChunks, uint16_t fFlags));
2041
2042/**
2043 * Frees one or more chunks from a slab.
2044 *
2045 * @returns Number of chunks actually freed. When correctly used, this will
2046 * match the @a cChunks parameter, of course.
2047 * @param pSlabCtl The slab constrol structure to free from.
2048 * @param uFlatChunkPtr The flat address of the chunks to free.
2049 * @param cChunks The number of contiguous chunks to free.
2050 */
2051BS3_CMN_PROTO_STUB(uint16_t, Bs3SlabFree,(PBS3SLABCTL pSlabCtl, uint32_t uFlatChunkPtr, uint16_t cChunks));
2052
2053
2054/**
2055 * Initializes the given slab list head.
2056 *
2057 * @param pHead The slab list head.
2058 * @param cbChunk The chunk size.
2059 */
2060BS3_CMN_PROTO_STUB(void, Bs3SlabListInit,(PBS3SLABHEAD pHead, uint16_t cbChunk));
2061
2062/**
2063 * Adds an initialized slab control structure to the list.
2064 *
2065 * @param pHead The slab list head to add it to.
2066 * @param pSlabCtl The slab control structure to add.
2067 */
2068BS3_CMN_PROTO_STUB(void, Bs3SlabListAdd,(PBS3SLABHEAD pHead, PBS3SLABCTL pSlabCtl));
2069
2070/**
2071 * Allocates one chunk.
2072 *
2073 * @returns Pointer to a chunk on success, NULL if we're out of chunks.
2074 * @param pHead The slab list to allocate from.
2075 */
2076BS3_CMN_PROTO_STUB(void BS3_FAR *, Bs3SlabListAlloc,(PBS3SLABHEAD pHead));
2077
2078/**
2079 * Allocates one or more chunks.
2080 *
2081 * @returns Pointer to the request number of chunks on success, NULL if we're
2082 * out of chunks.
2083 * @param pHead The slab list to allocate from.
2084 * @param cChunks The number of contiguous chunks we want.
2085 * @param fFlags Flags, see BS3_SLAB_ALLOC_F_XXX
2086 */
2087BS3_CMN_PROTO_STUB(void BS3_FAR *, Bs3SlabListAllocEx,(PBS3SLABHEAD pHead, uint16_t cChunks, uint16_t fFlags));
2088
2089/**
2090 * Frees one or more chunks from a slab list.
2091 *
2092 * @param pHead The slab list to allocate from.
2093 * @param pvChunks Pointer to the first chunk to free.
2094 * @param cChunks The number of contiguous chunks to free.
2095 */
2096BS3_CMN_PROTO_STUB(void, Bs3SlabListFree,(PBS3SLABHEAD pHead, void BS3_FAR *pvChunks, uint16_t cChunks));
2097
2098/**
2099 * Allocation addressing constraints.
2100 */
2101typedef enum BS3MEMKIND
2102{
2103 /** Invalid zero type. */
2104 BS3MEMKIND_INVALID = 0,
2105 /** Real mode addressable memory. */
2106 BS3MEMKIND_REAL,
2107 /** Memory addressable using the 16-bit protected mode tiling. */
2108 BS3MEMKIND_TILED,
2109 /** Memory addressable using 32-bit flat addressing. */
2110 BS3MEMKIND_FLAT32,
2111 /** Memory addressable using 64-bit flat addressing. */
2112 BS3MEMKIND_FLAT64,
2113 /** End of valid types. */
2114 BS3MEMKIND_END,
2115} BS3MEMKIND;
2116
2117/**
2118 * Allocates low memory.
2119 *
2120 * @returns Pointer to a chunk on success, NULL if we're out of chunks.
2121 * @param enmKind The kind of addressing constraints imposed on the
2122 * allocation.
2123 * @param cb How much to allocate. Must be 4KB or less.
2124 */
2125BS3_CMN_PROTO_STUB(void BS3_FAR *, Bs3MemAlloc,(BS3MEMKIND enmKind, size_t cb));
2126
2127/**
2128 * Allocates zero'ed memory.
2129 *
2130 * @param enmKind The kind of addressing constraints imposed on the
2131 * allocation.
2132 * @param cb How much to allocate. Must be 4KB or less.
2133 */
2134BS3_CMN_PROTO_STUB(void BS3_FAR *, Bs3MemAllocZ,(BS3MEMKIND enmKind, size_t cb));
2135
2136/**
2137 * Frees memory.
2138 *
2139 * @returns Pointer to a chunk on success, NULL if we're out of chunks.
2140 * @param pv The memory to free (returned by #Bs3MemAlloc).
2141 * @param cb The size of the allocation.
2142 */
2143BS3_CMN_PROTO_STUB(void, Bs3MemFree,(void BS3_FAR *pv, size_t cb));
2144
2145/**
2146 * Allocates a page with non-present pages on each side.
2147 *
2148 * @returns Pointer to the usable page. NULL on failure. Use
2149 * Bs3MemGuardedTestPageFree to free the allocation.
2150 * @param enmKind The kind of addressing constraints imposed on the
2151 * allocation.
2152 */
2153BS3_CMN_PROTO_STUB(void BS3_FAR *, Bs3MemGuardedTestPageAlloc,(BS3MEMKIND enmKind));
2154
2155/**
2156 * Allocates a page with pages on each side to the @a fPte specification.
2157 *
2158 * @returns Pointer to the usable page. NULL on failure. Use
2159 * Bs3MemGuardedTestPageFree to free the allocation.
2160 * @param enmKind The kind of addressing constraints imposed on the
2161 * allocation.
2162 * @param fPte The page table entry specification for the guard pages.
2163 */
2164BS3_CMN_PROTO_STUB(void BS3_FAR *, Bs3MemGuardedTestPageAllocEx,(BS3MEMKIND enmKind, uint64_t fPte));
2165
2166/**
2167 * Frees guarded page allocated by Bs3MemGuardedTestPageAlloc or
2168 * Bs3MemGuardedTestPageAllocEx.
2169 *
2170 * @param pvGuardedPage Pointer returned by Bs3MemGuardedTestPageAlloc or
2171 * Bs3MemGuardedTestPageAllocEx. NULL is ignored.
2172 */
2173BS3_CMN_PROTO_STUB(void, Bs3MemGuardedTestPageFree,(void BS3_FAR *pvGuardedPage));
2174
2175/**
2176 * Print all heap info.
2177 */
2178BS3_CMN_PROTO_STUB(void, Bs3MemPrintInfo, (void));
2179
2180/** Highes RAM byte below 4G. */
2181extern uint32_t g_uBs3EndOfRamBelow4G;
2182
2183
2184/**
2185 * Enables the A20 gate.
2186 */
2187BS3_CMN_PROTO_NOSB(void, Bs3A20Enable,(void));
2188
2189/**
2190 * Enables the A20 gate via the keyboard controller
2191 */
2192BS3_CMN_PROTO_NOSB(void, Bs3A20EnableViaKbd,(void));
2193
2194/**
2195 * Enables the A20 gate via the PS/2 control port A.
2196 */
2197BS3_CMN_PROTO_NOSB(void, Bs3A20EnableViaPortA,(void));
2198
2199/**
2200 * Disables the A20 gate.
2201 */
2202BS3_CMN_PROTO_NOSB(void, Bs3A20Disable,(void));
2203
2204/**
2205 * Disables the A20 gate via the keyboard controller
2206 */
2207BS3_CMN_PROTO_NOSB(void, Bs3A20DisableViaKbd,(void));
2208
2209/**
2210 * Disables the A20 gate via the PS/2 control port A.
2211 */
2212BS3_CMN_PROTO_NOSB(void, Bs3A20DisableViaPortA,(void));
2213
2214
2215/**
2216 * Initializes root page tables for page protected mode (PP16, PP32).
2217 *
2218 * @returns IPRT status code.
2219 * @remarks Must not be called in real-mode!
2220 */
2221BS3_CMN_PROTO_STUB(int, Bs3PagingInitRootForPP,(void));
2222
2223/**
2224 * Initializes root page tables for PAE page protected mode (PAE16, PAE32).
2225 *
2226 * @returns IPRT status code.
2227 * @remarks The default long mode page tables depends on the PAE ones.
2228 * @remarks Must not be called in real-mode!
2229 */
2230BS3_CMN_PROTO_STUB(int, Bs3PagingInitRootForPAE,(void));
2231
2232/**
2233 * Initializes root page tables for long mode (LM16, LM32, LM64).
2234 *
2235 * @returns IPRT status code.
2236 * @remarks The default long mode page tables depends on the PAE ones.
2237 * @remarks Must not be called in real-mode!
2238 */
2239BS3_CMN_PROTO_STUB(int, Bs3PagingInitRootForLM,(void));
2240
2241/**
2242 * Modifies the page table protection of an address range.
2243 *
2244 * This only works on the lowest level of the page tables in the current mode.
2245 *
2246 * Since we generally use the largest pages available when setting up the
2247 * initial page tables, this function will usually have to allocate and create
2248 * more tables. This may fail if we're low on memory.
2249 *
2250 * @returns IPRT status code.
2251 * @param uFlat The flat address of the first page in the range (rounded
2252 * down nearest page boundrary).
2253 * @param cb The range size from @a pv (rounded up to nearest page boundrary).
2254 * @param fSet Mask of zero or more X86_PTE_XXX values to set for the range.
2255 * @param fClear Mask of zero or more X86_PTE_XXX values to clear for the range.
2256 */
2257BS3_CMN_PROTO_STUB(int, Bs3PagingProtect,(uint64_t uFlat, uint64_t cb, uint64_t fSet, uint64_t fClear));
2258
2259/**
2260 * Modifies the page table protection of an address range.
2261 *
2262 * This only works on the lowest level of the page tables in the current mode.
2263 *
2264 * Since we generally use the largest pages available when setting up the
2265 * initial page tables, this function will usually have to allocate and create
2266 * more tables. This may fail if we're low on memory.
2267 *
2268 * @returns IPRT status code.
2269 * @param pv The address of the first page in the range (rounded
2270 * down nearest page boundrary).
2271 * @param cb The range size from @a pv (rounded up to nearest page boundrary).
2272 * @param fSet Mask of zero or more X86_PTE_XXX values to set for the range.
2273 * @param fClear Mask of zero or more X86_PTE_XXX values to clear for the range.
2274 */
2275BS3_CMN_PROTO_STUB(int, Bs3PagingProtectPtr,(void BS3_FAR *pv, size_t cb, uint64_t fSet, uint64_t fClear));
2276
2277/**
2278 * Aliases (maps) one or more contiguous physical pages to a virtual range.
2279 *
2280 * @returns VBox status code.
2281 * @retval VERR_INVALID_PARAMETER if we're in legacy paging mode and @a uDst or
2282 * @a uPhysToAlias are not compatible with legacy paging.
2283 * @retval VERR_OUT_OF_RANGE if we cannot traverse the page tables in this mode
2284 * (typically real mode or v86, maybe 16-bit PE).
2285 * @retval VERR_NO_MEMORY if we cannot allocate page tables for splitting up
2286 * the necessary large pages. No aliasing was performed.
2287 *
2288 * @param uDst The virtual address to map it at. Rounded down
2289 * to the nearest page (@a cbHowMuch is adjusted
2290 * up).
2291 * @param uPhysToAlias The physical address of the first page in the
2292 * (contiguous) range to map. Chopped down to
2293 * nearest page boundrary (@a cbHowMuch is not
2294 * adjusted).
2295 * @param cbHowMuch How much to map. Rounded up to nearest page.
2296 * @param fPte The PTE flags.
2297 */
2298BS3_CMN_PROTO_STUB(int, Bs3PagingAlias,(uint64_t uDst, uint64_t uPhysToAlias, uint32_t cbHowMuch, uint64_t fPte));
2299
2300/**
2301 * Unaliases memory, i.e. restores the 1:1 mapping.
2302 *
2303 * @returns VBox status code. Cannot fail if @a uDst and @a cbHowMuch specify
2304 * the range of a successful Bs3PagingAlias call, however it may run
2305 * out of memory if it's breaking new ground.
2306 *
2307 * @param uDst The virtual address to restore to 1:1 mapping.
2308 * Rounded down to the nearest page (@a cbHowMuch
2309 * is adjusted up).
2310 * @param cbHowMuch How much to restore. Rounded up to nearest page.
2311 */
2312BS3_CMN_PROTO_STUB(int, Bs3PagingUnalias,(uint64_t uDst, uint32_t cbHowMuch));
2313
2314/**
2315 * Get the pointer to the PTE for the given address.
2316 *
2317 * @returns Pointer to the PTE.
2318 * @param uFlat The flat address of the page which PTE we want.
2319 * @param prc Where to return additional error info. Optional.
2320 */
2321BS3_CMN_PROTO_STUB(void BS3_FAR *, Bs3PagingGetPte,(uint64_t uFlat, int *prc));
2322
2323/**
2324 * Paging information for an address.
2325 */
2326typedef struct BS3PAGINGINFO4ADDR
2327{
2328 /** The depth of the system's paging mode.
2329 * This is always 2 for legacy, 3 for PAE and 4 for long mode. */
2330 uint8_t cEntries;
2331 /** The size of the page structures (the entires). */
2332 uint8_t cbEntry;
2333 /** Flags defined for future fun, currently zero. */
2334 uint16_t fFlags;
2335 /** Union display different view on the entry pointers. */
2336 union
2337 {
2338 /** Pointer to the page structure entries, starting with the PTE as 0.
2339 * If large pages are involved, the first entry will be NULL (first two if 1GB
2340 * page). Same if the address is invalid on a higher level. */
2341 uint8_t BS3_FAR *apbEntries[4];
2342 /** Alternative view for legacy mode. */
2343 struct
2344 {
2345 X86PTE BS3_FAR *pPte;
2346 X86PDE BS3_FAR *pPde;
2347 void *pvUnused2;
2348 void *pvUnused3;
2349 } Legacy;
2350 /** Alternative view for PAE and Long mode. */
2351 struct
2352 {
2353 X86PTEPAE BS3_FAR *pPte;
2354 X86PDEPAE BS3_FAR *pPde;
2355 X86PDPE BS3_FAR *pPdpe;
2356 X86PML4E BS3_FAR *pPml4e;
2357 } Pae;
2358 } u;
2359} BS3PAGINGINFO4ADDR;
2360/** Pointer to paging information for and address. */
2361typedef BS3PAGINGINFO4ADDR BS3_FAR *PBS3PAGINGINFO4ADDR;
2362
2363/**
2364 * Queries paging information about the given virtual address.
2365 *
2366 * @returns VBox status code.
2367 * @param uFlat The flat address to query information about.
2368 * @param pPgInfo Where to return the information.
2369 */
2370BS3_CMN_PROTO_STUB(int, Bs3PagingQueryAddressInfo,(uint64_t uFlat, PBS3PAGINGINFO4ADDR pPgInfo));
2371
2372
2373/** The physical / flat address of the buffer backing the canonical traps.
2374 * This buffer is spread equally on each side of the 64-bit non-canonical
2375 * address divide. Non-64-bit code can use this to setup trick shots and
2376 * inspect their results. */
2377extern uint32_t g_uBs3PagingCanonicalTrapsAddr;
2378/** The size of the buffer at g_uPagingCanonicalTraps (both sides). */
2379extern uint16_t g_cbBs3PagingCanonicalTraps;
2380/** The size of one trap buffer (low or high).
2381 * This is g_cbBs3PagingCanonicalTraps divided by two. */
2382extern uint16_t g_cbBs3PagingOneCanonicalTrap;
2383
2384/**
2385 * Sets up the 64-bit canonical address space trap buffers, if neceessary.
2386 *
2387 * @returns Pointer to the buffers (i.e. the first page of the low one) on
2388 * success. NULL on failure.
2389 */
2390BS3_CMN_PROTO_STUB(void BS3_FAR *, Bs3PagingSetupCanonicalTraps,(void));
2391
2392/**
2393 * Waits for the keyboard controller to become ready.
2394 */
2395BS3_CMN_PROTO_NOSB(void, Bs3KbdWait,(void));
2396
2397/**
2398 * Sends a read command to the keyboard controller and gets the result.
2399 *
2400 * The caller is responsible for making sure the keyboard controller is ready
2401 * for a command (call #Bs3KbdWait if unsure).
2402 *
2403 * @returns The value read is returned (in al).
2404 * @param bCmd The read command.
2405 */
2406BS3_CMN_PROTO_NOSB(uint8_t, Bs3KbdRead,(uint8_t bCmd));
2407
2408/**
2409 * Sends a write command to the keyboard controller and then sends the data.
2410 *
2411 * The caller is responsible for making sure the keyboard controller is ready
2412 * for a command (call #Bs3KbdWait if unsure).
2413 *
2414 * @param bCmd The write command.
2415 * @param bData The data to write.
2416 */
2417BS3_CMN_PROTO_NOSB(void, Bs3KbdWrite,(uint8_t bCmd, uint8_t bData));
2418
2419
2420/**
2421 * Configures the PIC, once only.
2422 *
2423 * Subsequent calls to this function will not do anything.
2424 *
2425 * The PIC will be programmed to use IDT/IVT vectors 0x70 thru 0x7f, auto
2426 * end-of-interrupt, and all IRQs masked. The individual PIC users will have to
2427 * use #Bs3PicUpdateMask unmask their IRQ once they've got all the handlers
2428 * installed.
2429 */
2430BS3_CMN_PROTO_STUB(void, Bs3PicSetup,(void));
2431
2432/**
2433 * Updates the PIC masks.
2434 *
2435 * @returns The new mask - master in low, slave in high byte.
2436 * @param fAndMask Things to keep as-is. Master in low, slave in high byte.
2437 * @param fOrMask Things to start masking. Ditto wrt bytes.
2438 */
2439BS3_CMN_PROTO_STUB(uint16_t, Bs3PicUpdateMask,(uint16_t fAndMask, uint16_t fOrMask));
2440
2441/**
2442 * Disables all IRQs on the PIC.
2443 */
2444BS3_CMN_PROTO_STUB(void, Bs3PicMaskAll,(void));
2445
2446
2447/**
2448 * Sets up the PIT for periodic callback.
2449 *
2450 * @param cHzDesired The desired Hz. Zero means max interval length
2451 * (18.2Hz). Plase check the various PIT globals for
2452 * the actual interval length.
2453 */
2454BS3_CMN_PROTO_STUB(void, Bs3PitSetupAndEnablePeriodTimer,(uint16_t cHzDesired));
2455
2456/**
2457 * Disables the PIT if active.
2458 */
2459BS3_CMN_PROTO_STUB(void, Bs3PitDisable,(void));
2460
2461/** Nano seconds (approx) since last the PIT timer was started. */
2462extern uint64_t volatile g_cBs3PitNs;
2463/** Milliseconds seconds (very approx) since last the PIT timer was started. */
2464extern uint64_t volatile g_cBs3PitMs;
2465/** Number of ticks since last the PIT timer was started. */
2466extern uint32_t volatile g_cBs3PitTicks;
2467/** The current interval in nanon seconds. */
2468extern uint32_t g_cBs3PitIntervalNs;
2469/** The current interval in milliseconds (approximately).
2470 * This is 0 if not yet started (used for checking the state internally). */
2471extern uint16_t volatile g_cBs3PitIntervalMs;
2472/** The current PIT frequency (approximately). 0 if not yet started. */
2473extern uint16_t g_cBs3PitIntervalHz;
2474
2475
2476/**
2477 * Call 16-bit prot mode function from v8086 mode.
2478 *
2479 * This switches from v8086 mode to 16-bit protected mode (code) and executed
2480 * @a fpfnCall with @a cbParams bytes of parameters pushed on the stack.
2481 * Afterwards it switches back to v8086 mode and returns a 16-bit status code.
2482 *
2483 * @returns 16-bit status code if the function returned anything.
2484 * @param fpfnCall Far real mode pointer to the function to call.
2485 * @param cbParams The size of the parameter list, in bytes.
2486 * @param ... The parameters.
2487 * @sa Bs3SwitchTo32BitAndCallC
2488 */
2489BS3_CMN_PROTO_STUB(int, Bs3SwitchFromV86To16BitAndCallC,(FPFNBS3FAR fpfnCall, unsigned cbParams, ...));
2490
2491
2492/**
2493 * BS3 integer register.
2494 */
2495typedef union BS3REG
2496{
2497 /** 8-bit unsigned integer. */
2498 uint8_t u8;
2499 /** 16-bit unsigned integer. */
2500 uint16_t u16;
2501 /** 32-bit unsigned integer. */
2502 uint32_t u32;
2503 /** 64-bit unsigned integer. */
2504 uint64_t u64;
2505 /** Full unsigned integer. */
2506 uint64_t u;
2507 /** High/low byte view. */
2508 struct
2509 {
2510 uint8_t bLo;
2511 uint8_t bHi;
2512 } b;
2513 /** 8-bit view. */
2514 uint8_t au8[8];
2515 /** 16-bit view. */
2516 uint16_t au16[4];
2517 /** 32-bit view. */
2518 uint32_t au32[2];
2519} BS3REG;
2520/** Pointer to an integer register. */
2521typedef BS3REG BS3_FAR *PBS3REG;
2522/** Pointer to a const integer register. */
2523typedef BS3REG const BS3_FAR *PCBS3REG;
2524
2525/**
2526 * Register context (without FPU).
2527 */
2528typedef struct BS3REGCTX
2529{
2530 BS3REG rax; /**< 0x00 */
2531 BS3REG rcx; /**< 0x08 */
2532 BS3REG rdx; /**< 0x10 */
2533 BS3REG rbx; /**< 0x18 */
2534 BS3REG rsp; /**< 0x20 */
2535 BS3REG rbp; /**< 0x28 */
2536 BS3REG rsi; /**< 0x30 */
2537 BS3REG rdi; /**< 0x38 */
2538 BS3REG r8; /**< 0x40 */
2539 BS3REG r9; /**< 0x48 */
2540 BS3REG r10; /**< 0x50 */
2541 BS3REG r11; /**< 0x58 */
2542 BS3REG r12; /**< 0x60 */
2543 BS3REG r13; /**< 0x68 */
2544 BS3REG r14; /**< 0x70 */
2545 BS3REG r15; /**< 0x78 */
2546 BS3REG rflags; /**< 0x80 */
2547 BS3REG rip; /**< 0x88 */
2548 uint16_t cs; /**< 0x90 */
2549 uint16_t ds; /**< 0x92 */
2550 uint16_t es; /**< 0x94 */
2551 uint16_t fs; /**< 0x96 */
2552 uint16_t gs; /**< 0x98 */
2553 uint16_t ss; /**< 0x9a */
2554 uint16_t tr; /**< 0x9c */
2555 uint16_t ldtr; /**< 0x9e */
2556 uint8_t bMode; /**< 0xa0: BS3_MODE_XXX. */
2557 uint8_t bCpl; /**< 0xa1: 0-3, 0 is used for real mode. */
2558 uint8_t fbFlags; /**< 0xa2: BS3REG_CTX_F_XXX */
2559 uint8_t abPadding[5]; /**< 0xa3 */
2560 BS3REG cr0; /**< 0xa8 */
2561 BS3REG cr2; /**< 0xb0 */
2562 BS3REG cr3; /**< 0xb8 */
2563 BS3REG cr4; /**< 0xc0 */
2564 uint64_t uUnused; /**< 0xc8 */
2565} BS3REGCTX;
2566AssertCompileSize(BS3REGCTX, 0xd0);
2567/** Pointer to a register context. */
2568typedef BS3REGCTX BS3_FAR *PBS3REGCTX;
2569/** Pointer to a const register context. */
2570typedef BS3REGCTX const BS3_FAR *PCBS3REGCTX;
2571
2572/** @name BS3REG_CTX_F_XXX - BS3REGCTX::fbFlags masks.
2573 * @{ */
2574/** The CR0 is MSW (only low 16-bit). */
2575#define BS3REG_CTX_F_NO_CR0_IS_MSW UINT8_C(0x01)
2576/** No CR2 and CR3 values. Not in CPL 0 or CPU too old for CR2 & CR3. */
2577#define BS3REG_CTX_F_NO_CR2_CR3 UINT8_C(0x02)
2578/** No CR4 value. The CPU is too old for CR4. */
2579#define BS3REG_CTX_F_NO_CR4 UINT8_C(0x04)
2580/** No TR and LDTR values. Context gathered in real mode or v8086 mode. */
2581#define BS3REG_CTX_F_NO_TR_LDTR UINT8_C(0x08)
2582/** The context doesn't have valid values for AMD64 GPR extensions. */
2583#define BS3REG_CTX_F_NO_AMD64 UINT8_C(0x10)
2584/** @} */
2585
2586/**
2587 * Saves the current register context.
2588 *
2589 * @param pRegCtx Where to store the register context.
2590 */
2591BS3_CMN_PROTO_NOSB(void, Bs3RegCtxSave,(PBS3REGCTX pRegCtx));
2592
2593/**
2594 * Switch to the specified CPU bitcount, reserve additional stack and save the
2595 * CPU context.
2596 *
2597 * This is for writing more flexible test drivers that can test more than the
2598 * CPU bitcount (16-bit, 32-bit, 64-bit, and virtual 8086) of the driver itself.
2599 * For instance a 32-bit driver can do V86 and 16-bit testing, thus saving more
2600 * precious and problematic 16-bit code.
2601 *
2602 * @param pRegCtx Where to store the register context.
2603 * @param bBitMode Bit mode to switch to, BS3_MODE_CODE_XXX. Only
2604 * BS3_MODE_CODE_MASK is used, other bits are ignored
2605 * to make it possible to pass a full mode value.
2606 * @param cbExtraStack Number of bytes of additional stack to allocate.
2607 */
2608BS3_CMN_PROTO_FARSTUB(8, void, Bs3RegCtxSaveEx,(PBS3REGCTX pRegCtx, uint8_t bBitMode, uint16_t cbExtraStack));
2609
2610/**
2611 * Transforms a register context to a different ring.
2612 *
2613 * @param pRegCtx The register context.
2614 * @param bRing The target ring (0..3).
2615 */
2616BS3_CMN_PROTO_STUB(void, Bs3RegCtxConvertToRingX,(PBS3REGCTX pRegCtx, uint8_t bRing));
2617
2618/**
2619 * Restores a register context.
2620 *
2621 * @param pRegCtx The register context to be restored and resumed.
2622 * @param fFlags BS3REGCTXRESTORE_F_XXX.
2623 *
2624 * @remarks Will switch to ring-0.
2625 * @remarks Does not return.
2626 */
2627BS3_CMN_PROTO_NOSB(DECL_NO_RETURN(void), Bs3RegCtxRestore,(PCBS3REGCTX pRegCtx, uint16_t fFlags));
2628#if !defined(BS3_KIT_WITH_NO_RETURN) && defined(__WATCOMC__)
2629# pragma aux Bs3RegCtxRestore_c16 "_Bs3RegCtxRestore_aborts_c16" __aborts
2630# pragma aux Bs3RegCtxRestore_f16 "_Bs3RegCtxRestore_aborts_f16" __aborts
2631# pragma aux Bs3RegCtxRestore_c32 "_Bs3RegCtxRestore_aborts_c32" __aborts
2632#endif
2633
2634/** @name Flags for Bs3RegCtxRestore
2635 * @{ */
2636/** Skip restoring the CRx registers. */
2637#define BS3REGCTXRESTORE_F_SKIP_CRX UINT16_C(0x0001)
2638/** Sets g_fBs3TrapNoV86Assist. */
2639#define BS3REGCTXRESTORE_F_NO_V86_ASSIST UINT16_C(0x0002)
2640/** @} */
2641
2642/**
2643 * Prints the register context.
2644 *
2645 * @param pRegCtx The register context to be printed.
2646 */
2647BS3_CMN_PROTO_STUB(void, Bs3RegCtxPrint,(PCBS3REGCTX pRegCtx));
2648
2649/**
2650 * Sets a GPR and segment register to point at the same location as @a uFlat.
2651 *
2652 * @param pRegCtx The register context.
2653 * @param pGpr The general purpose register to set (points within
2654 * @a pRegCtx).
2655 * @param pSel The selector register (points within @a pRegCtx).
2656 * @param uFlat Flat location address.
2657 */
2658BS3_CMN_PROTO_STUB(void, Bs3RegCtxSetGrpSegFromFlat,(PBS3REGCTX pRegCtx, PBS3REG pGpr, PRTSEL pSel, RTCCUINTXREG uFlat));
2659
2660/**
2661 * Sets a GPR and segment register to point at the same location as @a ovPtr.
2662 *
2663 * @param pRegCtx The register context.
2664 * @param pGpr The general purpose register to set (points within
2665 * @a pRegCtx).
2666 * @param pSel The selector register (points within @a pRegCtx).
2667 * @param pvPtr Current context pointer.
2668 */
2669BS3_CMN_PROTO_STUB(void, Bs3RegCtxSetGrpSegFromCurPtr,(PBS3REGCTX pRegCtx, PBS3REG pGpr, PRTSEL pSel, void BS3_FAR *pvPtr));
2670
2671/**
2672 * Sets a GPR and DS to point at the same location as @a ovPtr.
2673 *
2674 * @param pRegCtx The register context.
2675 * @param pGpr The general purpose register to set (points within
2676 * @a pRegCtx).
2677 * @param pvPtr Current context pointer.
2678 */
2679BS3_CMN_PROTO_STUB(void, Bs3RegCtxSetGrpDsFromCurPtr,(PBS3REGCTX pRegCtx, PBS3REG pGpr, void BS3_FAR *pvPtr));
2680
2681/**
2682 * Sets CS:RIP to point at the same piece of code as @a uFlatCode.
2683 *
2684 * @param pRegCtx The register context.
2685 * @param uFlatCode Flat code pointer
2686 * @sa Bs3RegCtxSetRipCsFromLnkPtr, Bs3RegCtxSetRipCsFromCurPtr
2687 */
2688BS3_CMN_PROTO_STUB(void, Bs3RegCtxSetRipCsFromFlat,(PBS3REGCTX pRegCtx, RTCCUINTXREG uFlatCode));
2689
2690/**
2691 * Sets CS:RIP to point at the same piece of code as @a pfnCode.
2692 *
2693 * The 16-bit edition of this function expects a far 16:16 address as written by
2694 * the linker (i.e. real mode).
2695 *
2696 * @param pRegCtx The register context.
2697 * @param pfnCode Pointer to the code. In 32-bit and 64-bit mode this is a
2698 * flat address, while in 16-bit it's a far 16:16 address
2699 * as fixed up by the linker (real mode selector). This
2700 * address is converted to match the mode of the context.
2701 * @sa Bs3RegCtxSetRipCsFromCurPtr, Bs3RegCtxSetRipCsFromFlat
2702 */
2703BS3_CMN_PROTO_STUB(void, Bs3RegCtxSetRipCsFromLnkPtr,(PBS3REGCTX pRegCtx, FPFNBS3FAR pfnCode));
2704
2705/**
2706 * Sets CS:RIP to point at the same piece of code as @a pfnCode.
2707 *
2708 * @param pRegCtx The register context.
2709 * @param pfnCode Pointer to the code. Current mode pointer.
2710 * @sa Bs3RegCtxSetRipCsFromLnkPtr, Bs3RegCtxSetRipCsFromFlat
2711 */
2712BS3_CMN_PROTO_STUB(void, Bs3RegCtxSetRipCsFromCurPtr,(PBS3REGCTX pRegCtx, FPFNBS3FAR pfnCode));
2713
2714
2715/**
2716 * The method to be used to save and restore the extended context.
2717 */
2718typedef enum BS3EXTCTXMETHOD
2719{
2720 BS3EXTCTXMETHOD_INVALID = 0,
2721 BS3EXTCTXMETHOD_ANCIENT, /**< Ancient fnsave/frstor format. */
2722 BS3EXTCTXMETHOD_FXSAVE, /**< fxsave/fxrstor format. */
2723 BS3EXTCTXMETHOD_XSAVE, /**< xsave/xrstor format. */
2724 BS3EXTCTXMETHOD_END,
2725} BS3EXTCTXMETHOD;
2726
2727
2728/**
2729 * Extended CPU context (FPU, SSE, AVX, ++).
2730 *
2731 * @remarks Also in bs3kit.inc
2732 */
2733typedef struct BS3EXTCTX
2734{
2735 /** Dummy/magic value. */
2736 uint16_t u16Magic;
2737 /** The size of the structure. */
2738 uint16_t cb;
2739 /** The method used to save and restore the context (BS3EXTCTXMETHOD). */
2740 uint8_t enmMethod;
2741 uint8_t abPadding0[3];
2742 /** Nominal XSAVE_C_XXX. */
2743 uint64_t fXcr0Nominal;
2744 /** The saved XCR0 mask (restored after xrstor). */
2745 uint64_t fXcr0Saved;
2746
2747 /** Explicit alignment padding. */
2748 uint8_t abPadding[64 - 2 - 2 - 1 - 3 - 8 - 8];
2749
2750 /** The context, variable size (see above).
2751 * This must be aligned on a 64 byte boundrary. */
2752 union
2753 {
2754 /** fnsave/frstor. */
2755 X86FPUSTATE Ancient;
2756 /** fxsave/fxrstor */
2757 X86FXSTATE x87;
2758 /** xsave/xrstor */
2759 X86XSAVEAREA x;
2760 /** Byte array view. */
2761 uint8_t ab[sizeof(X86XSAVEAREA)];
2762 } Ctx;
2763} BS3EXTCTX;
2764AssertCompileMemberAlignment(BS3EXTCTX, Ctx, 64);
2765/** Pointer to an extended CPU context. */
2766typedef BS3EXTCTX BS3_FAR *PBS3EXTCTX;
2767/** Pointer to a const extended CPU context. */
2768typedef BS3EXTCTX const BS3_FAR *PCBS3EXTCTX;
2769
2770/** Magic value for BS3EXTCTX. */
2771#define BS3EXTCTX_MAGIC UINT16_C(0x1980)
2772
2773/**
2774 * Allocates and initializes the extended CPU context structure.
2775 *
2776 * @returns The new extended CPU context structure.
2777 * @param enmKind The kind of allocation to make.
2778 */
2779BS3_CMN_PROTO_STUB(PBS3EXTCTX, Bs3ExtCtxAlloc,(BS3MEMKIND enmKind));
2780
2781/**
2782 * Frees an extended CPU context structure.
2783 *
2784 * @param pExtCtx The extended CPU context (returned by
2785 * Bs3ExtCtxAlloc).
2786 */
2787BS3_CMN_PROTO_STUB(void, Bs3ExtCtxFree,(PBS3EXTCTX pExtCtx));
2788
2789/**
2790 * Get the size required for a BS3EXTCTX structure.
2791 *
2792 * @returns size in bytes of the whole structure.
2793 * @param pfFlags Where to return flags for Bs3ExtCtxInit.
2794 * @note Use Bs3ExtCtxAlloc when possible.
2795 */
2796BS3_CMN_PROTO_STUB(uint16_t, Bs3ExtCtxGetSize,(uint64_t *pfFlags));
2797
2798/**
2799 * Initializes the extended CPU context structure.
2800 * @returns pExtCtx
2801 * @param pExtCtx The extended CPU context.
2802 * @param cbExtCtx The size of the @a pExtCtx allocation.
2803 * @param fFlags XSAVE_C_XXX flags.
2804 */
2805BS3_CMN_PROTO_STUB(PBS3EXTCTX, Bs3ExtCtxInit,(PBS3EXTCTX pExtCtx, uint16_t cbExtCtx, uint64_t fFlags));
2806
2807/**
2808 * Saves the extended CPU state to the given structure.
2809 *
2810 * @param pExtCtx The extended CPU context.
2811 * @remarks All GPRs preserved.
2812 */
2813BS3_CMN_PROTO_FARSTUB(4, void, Bs3ExtCtxSave,(PBS3EXTCTX pExtCtx));
2814
2815/**
2816 * Restores the extended CPU state from the given structure.
2817 *
2818 * @param pExtCtx The extended CPU context.
2819 * @remarks All GPRs preserved.
2820 */
2821BS3_CMN_PROTO_FARSTUB(4, void, Bs3ExtCtxRestore,(PBS3EXTCTX pExtCtx));
2822
2823/**
2824 * Copies the state from one context to another.
2825 *
2826 * @returns pDst
2827 * @param pDst The destination extended CPU context.
2828 * @param pSrc The source extended CPU context.
2829 */
2830BS3_CMN_PROTO_STUB(PBS3EXTCTX, Bs3ExtCtxCopy,(PBS3EXTCTX pDst, PCBS3EXTCTX pSrc));
2831
2832
2833/** @name Debug register accessors for V8086 mode (works everwhere).
2834 * @{ */
2835BS3_CMN_PROTO_NOSB(RTCCUINTXREG, Bs3RegGetDr0,(void));
2836BS3_CMN_PROTO_NOSB(RTCCUINTXREG, Bs3RegGetDr1,(void));
2837BS3_CMN_PROTO_NOSB(RTCCUINTXREG, Bs3RegGetDr2,(void));
2838BS3_CMN_PROTO_NOSB(RTCCUINTXREG, Bs3RegGetDr3,(void));
2839BS3_CMN_PROTO_NOSB(RTCCUINTXREG, Bs3RegGetDr6,(void));
2840BS3_CMN_PROTO_NOSB(RTCCUINTXREG, Bs3RegGetDr7,(void));
2841
2842BS3_CMN_PROTO_NOSB(void, Bs3RegSetDr0,(RTCCUINTXREG uValue));
2843BS3_CMN_PROTO_NOSB(void, Bs3RegSetDr1,(RTCCUINTXREG uValue));
2844BS3_CMN_PROTO_NOSB(void, Bs3RegSetDr2,(RTCCUINTXREG uValue));
2845BS3_CMN_PROTO_NOSB(void, Bs3RegSetDr3,(RTCCUINTXREG uValue));
2846BS3_CMN_PROTO_NOSB(void, Bs3RegSetDr6,(RTCCUINTXREG uValue));
2847BS3_CMN_PROTO_NOSB(void, Bs3RegSetDr7,(RTCCUINTXREG uValue));
2848
2849BS3_CMN_PROTO_NOSB(RTCCUINTXREG, Bs3RegGetDrX,(uint8_t iReg));
2850BS3_CMN_PROTO_NOSB(void, Bs3RegSetDrX,(uint8_t iReg, RTCCUINTXREG uValue));
2851/** @} */
2852
2853
2854/** @name Control register accessors for V8086 mode (works everwhere).
2855 * @{ */
2856BS3_CMN_PROTO_NOSB(RTCCUINTXREG, Bs3RegGetCr0,(void));
2857BS3_CMN_PROTO_NOSB(RTCCUINTXREG, Bs3RegGetCr2,(void));
2858BS3_CMN_PROTO_NOSB(RTCCUINTXREG, Bs3RegGetCr3,(void));
2859BS3_CMN_PROTO_NOSB(RTCCUINTXREG, Bs3RegGetCr4,(void));
2860BS3_CMN_PROTO_NOSB(uint16_t, Bs3RegGetTr,(void));
2861BS3_CMN_PROTO_NOSB(uint16_t, Bs3RegGetLdtr,(void));
2862
2863BS3_CMN_PROTO_NOSB(void, Bs3RegSetCr0,(RTCCUINTXREG uValue));
2864BS3_CMN_PROTO_NOSB(void, Bs3RegSetCr2,(RTCCUINTXREG uValue));
2865BS3_CMN_PROTO_NOSB(void, Bs3RegSetCr3,(RTCCUINTXREG uValue));
2866BS3_CMN_PROTO_NOSB(void, Bs3RegSetCr4,(RTCCUINTXREG uValue));
2867BS3_CMN_PROTO_NOSB(void, Bs3RegSetTr,(uint16_t uValue));
2868BS3_CMN_PROTO_NOSB(void, Bs3RegSetLdtr,(uint16_t uValue));
2869/** @} */
2870
2871
2872/**
2873 * Trap frame.
2874 */
2875typedef struct BS3TRAPFRAME
2876{
2877 /** 0x00: Exception/interrupt number. */
2878 uint8_t bXcpt;
2879 /** 0x01: The size of the IRET frame. */
2880 uint8_t cbIretFrame;
2881 /** 0x02: The handler CS. */
2882 uint16_t uHandlerCs;
2883 /** 0x04: The handler SS. */
2884 uint16_t uHandlerSs;
2885 /** 0x06: Explicit alignment. */
2886 uint16_t usAlignment;
2887 /** 0x08: The handler RSP (pointer to the iret frame, skipping ErrCd). */
2888 uint64_t uHandlerRsp;
2889 /** 0x10: The handler RFLAGS value. */
2890 uint64_t fHandlerRfl;
2891 /** 0x18: The error code (if applicable). */
2892 uint64_t uErrCd;
2893 /** 0x20: The register context. */
2894 BS3REGCTX Ctx;
2895} BS3TRAPFRAME;
2896AssertCompileSize(BS3TRAPFRAME, 0x20 + 0xd0);
2897/** Pointer to a trap frame. */
2898typedef BS3TRAPFRAME BS3_FAR *PBS3TRAPFRAME;
2899/** Pointer to a const trap frame. */
2900typedef BS3TRAPFRAME const BS3_FAR *PCBS3TRAPFRAME;
2901
2902
2903/**
2904 * Re-initializes the trap handling for the current mode.
2905 *
2906 * Useful after a test that messes with the IDT/IVT.
2907 *
2908 * @sa Bs3TrapInit
2909 */
2910BS3_CMN_PROTO_STUB(void, Bs3TrapReInit,(void));
2911
2912/**
2913 * Initializes real mode and v8086 trap handling.
2914 *
2915 * @remarks Does not install RM/V86 trap handling, just initializes the
2916 * structures.
2917 */
2918BS3_CMN_PROTO_STUB(void, Bs3TrapRmV86Init,(void));
2919
2920/**
2921 * Initializes real mode and v8086 trap handling, extended version.
2922 *
2923 * @param f386Plus Set if the CPU is 80386 or later and
2924 * extended registers should be saved. Once initialized
2925 * with this parameter set to @a true, the effect cannot be
2926 * reversed.
2927 *
2928 * @remarks Does not install RM/V86 trap handling, just initializes the
2929 * structures.
2930 */
2931BS3_CMN_PROTO_STUB(void, Bs3TrapRmV86InitEx,(bool f386Plus));
2932
2933/**
2934 * Initializes 16-bit (protected mode) trap handling.
2935 *
2936 * @remarks Does not install 16-bit trap handling, just initializes the
2937 * structures.
2938 */
2939BS3_CMN_PROTO_STUB(void, Bs3Trap16Init,(void));
2940
2941/**
2942 * Initializes 16-bit (protected mode) trap handling, extended version.
2943 *
2944 * @param f386Plus Set if the CPU is 80386 or later and
2945 * extended registers should be saved. Once initialized
2946 * with this parameter set to @a true, the effect cannot be
2947 * reversed.
2948 *
2949 * @remarks Does not install 16-bit trap handling, just initializes the
2950 * structures.
2951 */
2952BS3_CMN_PROTO_STUB(void, Bs3Trap16InitEx,(bool f386Plus));
2953
2954/**
2955 * Initializes 32-bit trap handling.
2956 *
2957 * @remarks Does not install 32-bit trap handling, just initializes the
2958 * structures.
2959 */
2960BS3_CMN_PROTO_STUB(void, Bs3Trap32Init,(void));
2961
2962/**
2963 * Initializes 64-bit trap handling
2964 *
2965 * @remarks Does not install 64-bit trap handling, just initializes the
2966 * structures.
2967 */
2968BS3_CMN_PROTO_STUB(void, Bs3Trap64Init,(void));
2969
2970/**
2971 * Modifies the real-mode / V86 IVT entry specified by @a iIvt.
2972 *
2973 * @param iIvt The index of the IDT entry to set.
2974 * @param uSeg The handler real-mode segment.
2975 * @param off The handler offset.
2976 */
2977BS3_CMN_PROTO_STUB(void, Bs3TrapRmV86SetGate,(uint8_t iIvt, uint16_t uSeg, uint16_t off));
2978
2979/**
2980 * Modifies the 16-bit IDT entry (protected mode) specified by @a iIdt.
2981 *
2982 * @param iIdt The index of the IDT entry to set.
2983 * @param bType The gate type (X86_SEL_TYPE_SYS_XXX).
2984 * @param bDpl The DPL.
2985 * @param uSel The handler selector.
2986 * @param off The handler offset (if applicable).
2987 * @param cParams The parameter count (for call gates).
2988 */
2989BS3_CMN_PROTO_STUB(void, Bs3Trap16SetGate,(uint8_t iIdt, uint8_t bType, uint8_t bDpl,
2990 uint16_t uSel, uint16_t off, uint8_t cParams));
2991
2992/** The address of Bs3Trap16GenericEntries.
2993 * Bs3Trap16GenericEntries is an array of interrupt/trap/whatever entry
2994 * points, 8 bytes each, that will create a register frame and call the generic
2995 * C compatible trap handlers. */
2996extern uint32_t g_Bs3Trap16GenericEntriesFlatAddr;
2997
2998/**
2999 * Modifies the 32-bit IDT entry specified by @a iIdt.
3000 *
3001 * @param iIdt The index of the IDT entry to set.
3002 * @param bType The gate type (X86_SEL_TYPE_SYS_XXX).
3003 * @param bDpl The DPL.
3004 * @param uSel The handler selector.
3005 * @param off The handler offset (if applicable).
3006 * @param cParams The parameter count (for call gates).
3007 */
3008BS3_CMN_PROTO_STUB(void, Bs3Trap32SetGate,(uint8_t iIdt, uint8_t bType, uint8_t bDpl,
3009 uint16_t uSel, uint32_t off, uint8_t cParams));
3010
3011/** The address of Bs3Trap32GenericEntries.
3012 * Bs3Trap32GenericEntries is an array of interrupt/trap/whatever entry
3013 * points, 10 bytes each, that will create a register frame and call the generic
3014 * C compatible trap handlers. */
3015extern uint32_t g_Bs3Trap32GenericEntriesFlatAddr;
3016
3017/**
3018 * Modifies the 64-bit IDT entry specified by @a iIdt.
3019 *
3020 * @param iIdt The index of the IDT entry to set.
3021 * @param bType The gate type (X86_SEL_TYPE_SYS_XXX).
3022 * @param bDpl The DPL.
3023 * @param uSel The handler selector.
3024 * @param off The handler offset (if applicable).
3025 * @param bIst The interrupt stack to use.
3026 */
3027BS3_CMN_PROTO_STUB(void, Bs3Trap64SetGate,(uint8_t iIdt, uint8_t bType, uint8_t bDpl, uint16_t uSel, uint64_t off, uint8_t bIst));
3028
3029/** The address of Bs3Trap64GenericEntries.
3030 * Bs3Trap64GenericEntries is an array of interrupt/trap/whatever entry
3031 * points, 8 bytes each, that will create a register frame and call the generic
3032 * C compatible trap handlers. */
3033extern uint32_t g_Bs3Trap64GenericEntriesFlatAddr;
3034
3035/**
3036 * Adjusts the DPL the IDT entry specified by @a iIdt.
3037 *
3038 * The change is applied to the 16-bit, 32-bit and 64-bit IDTs.
3039 *
3040 * @returns Old DPL (from 64-bit IDT).
3041 * @param iIdt The index of the IDT and IVT entry to set.
3042 * @param bDpl The DPL.
3043 */
3044BS3_CMN_PROTO_STUB(uint8_t, Bs3TrapSetDpl,(uint8_t iIdt, uint8_t bDpl));
3045
3046/**
3047 * C-style trap handler.
3048 *
3049 * The caller will resume the context in @a pTrapFrame upon return.
3050 *
3051 * @param pTrapFrame The trap frame. Registers can be modified.
3052 * @note The 16-bit versions must be in CGROUP16!
3053 */
3054typedef BS3_DECL_NEAR_CALLBACK(void) FNBS3TRAPHANDLER(PBS3TRAPFRAME pTrapFrame);
3055/** Pointer to a trap handler (current template context). */
3056typedef FNBS3TRAPHANDLER *PFNBS3TRAPHANDLER;
3057
3058#if ARCH_BITS == 16
3059/** @copydoc FNBS3TRAPHANDLER */
3060typedef FNBS3FAR FNBS3TRAPHANDLER32;
3061/** @copydoc FNBS3TRAPHANDLER */
3062typedef FNBS3FAR FNBS3TRAPHANDLER64;
3063#else
3064/** @copydoc FNBS3TRAPHANDLER */
3065typedef FNBS3TRAPHANDLER FNBS3TRAPHANDLER32;
3066/** @copydoc FNBS3TRAPHANDLER */
3067typedef FNBS3TRAPHANDLER FNBS3TRAPHANDLER64;
3068#endif
3069/** @copydoc PFNBS3TRAPHANDLER */
3070typedef FNBS3TRAPHANDLER32 *PFNBS3TRAPHANDLER32;
3071/** @copydoc PFNBS3TRAPHANDLER */
3072typedef FNBS3TRAPHANDLER64 *PFNBS3TRAPHANDLER64;
3073
3074
3075/**
3076 * C-style trap handler, near 16-bit (CGROUP16).
3077 *
3078 * The caller will resume the context in @a pTrapFrame upon return.
3079 *
3080 * @param pTrapFrame The trap frame. Registers can be modified.
3081 */
3082typedef BS3_DECL_NEAR_CALLBACK(void) FNBS3TRAPHANDLER16(PBS3TRAPFRAME pTrapFrame);
3083/** Pointer to a trap handler (current template context). */
3084typedef FNBS3TRAPHANDLER16 *PFNBS3TRAPHANDLER16;
3085
3086/**
3087 * C-style trap handler, near 16-bit (CGROUP16).
3088 *
3089 * The caller will resume the context in @a pTrapFrame upon return.
3090 *
3091 * @param pTrapFrame The trap frame. Registers can be modified.
3092 */
3093typedef BS3_DECL_CALLBACK(void) FNBS3TRAPHANDLER3264(PBS3TRAPFRAME pTrapFrame);
3094/** Pointer to a trap handler (current template context). */
3095typedef FNBS3TRAPHANDLER3264 *FPFNBS3TRAPHANDLER3264;
3096
3097
3098/**
3099 * Sets a trap handler (C/C++/assembly) for the current bitcount.
3100 *
3101 * @returns Previous handler.
3102 * @param iIdt The index of the IDT entry to set.
3103 * @param pfnHandler Pointer to the handler.
3104 * @sa Bs3TrapSetHandlerEx
3105 */
3106BS3_CMN_PROTO_STUB(PFNBS3TRAPHANDLER, Bs3TrapSetHandler,(uint8_t iIdt, PFNBS3TRAPHANDLER pfnHandler));
3107
3108/**
3109 * Sets a trap handler (C/C++/assembly) for all the bitcounts.
3110 *
3111 * @param iIdt The index of the IDT and IVT entry to set.
3112 * @param pfnHandler16 Pointer to the 16-bit handler. (Assumes linker addresses.)
3113 * @param pfnHandler32 Pointer to the 32-bit handler. (Assumes linker addresses.)
3114 * @param pfnHandler64 Pointer to the 64-bit handler. (Assumes linker addresses.)
3115 * @sa Bs3TrapSetHandler
3116 */
3117BS3_CMN_PROTO_STUB(void, Bs3TrapSetHandlerEx,(uint8_t iIdt, PFNBS3TRAPHANDLER16 pfnHandler16,
3118 PFNBS3TRAPHANDLER32 pfnHandler32, PFNBS3TRAPHANDLER64 pfnHandler64));
3119
3120/**
3121 * Default C/C++ trap handler.
3122 *
3123 * This will check trap record and panic if no match was found.
3124 *
3125 * @param pTrapFrame Trap frame of the trap to handle.
3126 */
3127BS3_CMN_PROTO_STUB(void, Bs3TrapDefaultHandler,(PBS3TRAPFRAME pTrapFrame));
3128
3129/**
3130 * Prints the trap frame (to screen).
3131 * @param pTrapFrame Trap frame to print.
3132 */
3133BS3_CMN_PROTO_STUB(void, Bs3TrapPrintFrame,(PCBS3TRAPFRAME pTrapFrame));
3134
3135/**
3136 * Sets up a long jump from a trap handler.
3137 *
3138 * The long jump will only be performed onced, but will catch any kind of trap,
3139 * fault, interrupt or irq.
3140 *
3141 * @retval true on the initial call.
3142 * @retval false on trap return.
3143 * @param pTrapFrame Where to store the trap information when
3144 * returning @c false.
3145 * @sa #Bs3TrapUnsetJmp
3146 */
3147BS3_CMN_PROTO_NOSB(DECL_RETURNS_TWICE(bool),Bs3TrapSetJmp,(PBS3TRAPFRAME pTrapFrame));
3148
3149/**
3150 * Combination of #Bs3TrapSetJmp and #Bs3RegCtxRestore.
3151 *
3152 * @param pCtxRestore The context to restore.
3153 * @param pTrapFrame Where to store the trap information.
3154 */
3155BS3_CMN_PROTO_STUB(void, Bs3TrapSetJmpAndRestore,(PCBS3REGCTX pCtxRestore, PBS3TRAPFRAME pTrapFrame));
3156
3157/**
3158 * Disables a previous #Bs3TrapSetJmp call.
3159 */
3160BS3_CMN_PROTO_STUB(void, Bs3TrapUnsetJmp,(void));
3161
3162
3163/**
3164 * The current test step.
3165 */
3166extern uint16_t g_usBs3TestStep;
3167
3168/**
3169 * Equivalent to RTTestCreate + RTTestBanner.
3170 *
3171 * @param pszTest The test name.
3172 */
3173BS3_CMN_PROTO_STUB(void, Bs3TestInit,(const char BS3_FAR *pszTest));
3174
3175
3176/**
3177 * Equivalent to RTTestSummaryAndDestroy.
3178 */
3179BS3_CMN_PROTO_STUB(void, Bs3TestTerm,(void));
3180
3181/**
3182 * Equivalent to RTTestISub.
3183 */
3184BS3_CMN_PROTO_STUB(void, Bs3TestSub,(const char BS3_FAR *pszSubTest));
3185
3186/**
3187 * Equivalent to RTTestIFailedF.
3188 */
3189BS3_CMN_PROTO_STUB(void, Bs3TestSubF,(const char BS3_FAR *pszFormat, ...));
3190
3191/**
3192 * Equivalent to RTTestISubV.
3193 */
3194BS3_CMN_PROTO_STUB(void, Bs3TestSubV,(const char BS3_FAR *pszFormat, va_list BS3_FAR va));
3195
3196/**
3197 * Equivalent to RTTestISubDone.
3198 */
3199BS3_CMN_PROTO_STUB(void, Bs3TestSubDone,(void));
3200
3201/**
3202 * Equivalent to RTTestSubErrorCount.
3203 */
3204BS3_CMN_PROTO_STUB(uint16_t, Bs3TestSubErrorCount,(void));
3205
3206/**
3207 * Equivalent to RTTestIPrintf with RTTESTLVL_ALWAYS.
3208 *
3209 * @param pszFormat What to print, format string. Explicit newline char.
3210 * @param ... String format arguments.
3211 */
3212BS3_CMN_PROTO_STUB(void, Bs3TestPrintf,(const char BS3_FAR *pszFormat, ...));
3213
3214/**
3215 * Equivalent to RTTestIPrintfV with RTTESTLVL_ALWAYS.
3216 *
3217 * @param pszFormat What to print, format string. Explicit newline char.
3218 * @param va String format arguments.
3219 */
3220BS3_CMN_PROTO_STUB(void, Bs3TestPrintfV,(const char BS3_FAR *pszFormat, va_list BS3_FAR va));
3221
3222/**
3223 * Same as Bs3TestPrintf, except no guest screen echo.
3224 *
3225 * @param pszFormat What to print, format string. Explicit newline char.
3226 * @param ... String format arguments.
3227 */
3228BS3_CMN_PROTO_STUB(void, Bs3TestHostPrintf,(const char BS3_FAR *pszFormat, ...));
3229
3230/**
3231 * Same as Bs3TestPrintfV, except no guest screen echo.
3232 *
3233 * @param pszFormat What to print, format string. Explicit newline char.
3234 * @param va String format arguments.
3235 */
3236BS3_CMN_PROTO_STUB(void, Bs3TestHostPrintfV,(const char BS3_FAR *pszFormat, va_list BS3_FAR va));
3237
3238/**
3239 * Equivalent to RTTestIFailed.
3240 * @returns false.
3241 */
3242BS3_CMN_PROTO_STUB(bool, Bs3TestFailed,(const char BS3_FAR *pszMessage));
3243
3244/**
3245 * Equivalent to RTTestIFailedF.
3246 * @returns false.
3247 */
3248BS3_CMN_PROTO_STUB(bool, Bs3TestFailedF,(const char BS3_FAR *pszFormat, ...));
3249
3250/**
3251 * Equivalent to RTTestIFailedV.
3252 * @returns false.
3253 */
3254BS3_CMN_PROTO_STUB(bool, Bs3TestFailedV,(const char BS3_FAR *pszFormat, va_list BS3_FAR va));
3255
3256/**
3257 * Equivalent to RTTestISkipped.
3258 *
3259 * @param pszWhy Optional reason why it's being skipped.
3260 */
3261BS3_CMN_PROTO_STUB(void, Bs3TestSkipped,(const char BS3_FAR *pszWhy));
3262
3263/**
3264 * Equivalent to RTTestISkippedF.
3265 *
3266 * @param pszFormat Optional reason why it's being skipped.
3267 * @param ... Format arguments.
3268 */
3269BS3_CMN_PROTO_STUB(void, Bs3TestSkippedF,(const char BS3_FAR *pszFormat, ...));
3270
3271/**
3272 * Equivalent to RTTestISkippedV.
3273 *
3274 * @param pszFormat Optional reason why it's being skipped.
3275 * @param va Format arguments.
3276 */
3277BS3_CMN_PROTO_STUB(void, Bs3TestSkippedV,(const char BS3_FAR *pszFormat, va_list BS3_FAR va));
3278
3279/**
3280 * Compares two register contexts, with PC and SP adjustments.
3281 *
3282 * Differences will be reported as test failures.
3283 *
3284 * @returns true if equal, false if not.
3285 * @param pActualCtx The actual register context.
3286 * @param pExpectedCtx Expected register context.
3287 * @param cbPcAdjust Program counter adjustment (applied to @a pExpectedCtx).
3288 * @param cbSpAdjust Stack pointer adjustment (applied to @a pExpectedCtx).
3289 * @param fExtraEfl Extra EFLAGS to OR into @a pExepctedCtx.
3290 * @param pszMode CPU mode or some other helpful text.
3291 * @param idTestStep Test step identifier.
3292 */
3293BS3_CMN_PROTO_STUB(bool, Bs3TestCheckRegCtxEx,(PCBS3REGCTX pActualCtx, PCBS3REGCTX pExpectedCtx, uint16_t cbPcAdjust,
3294 int16_t cbSpAdjust, uint32_t fExtraEfl, const char *pszMode, uint16_t idTestStep));
3295
3296/**
3297 * Performs the testing for the given mode.
3298 *
3299 * This is called with the CPU already switch to that mode.
3300 *
3301 * @returns 0 on success or directly Bs3TestFailed calls, non-zero to indicate
3302 * where the test when wrong. Special value BS3TESTDOMODE_SKIPPED
3303 * should be returned to indicate that the test has been skipped.
3304 * @param bMode The current CPU mode.
3305 */
3306typedef BS3_DECL_CALLBACK(uint8_t) FNBS3TESTDOMODE(uint8_t bMode);
3307/** Pointer (far) to a test (for 32-bit and 64-bit code, will be flatten). */
3308typedef FNBS3TESTDOMODE *PFNBS3TESTDOMODE;
3309
3310/** Special FNBS3TESTDOMODE return code for indicating a skipped mode test. */
3311#define BS3TESTDOMODE_SKIPPED UINT8_MAX
3312
3313/**
3314 * Mode sub-test entry.
3315 *
3316 * This can only be passed around to functions with the same bit count, as it
3317 * contains function pointers. In 16-bit mode, the 16-bit pointers are near and
3318 * implies BS3TEXT16, whereas the 32-bit and 64-bit pointers are far real mode
3319 * addresses that will be converted to flat address prior to calling them.
3320 * Similarly, in 32-bit and 64-bit the addresses are all flat and the 16-bit
3321 * ones will be converted to BS3TEXT16 based addresses prior to calling.
3322 */
3323typedef struct BS3TESTMODEENTRY
3324{
3325 /** The sub-test name to be passed to Bs3TestSub if not NULL. */
3326 const char * BS3_FAR pszSubTest;
3327
3328 PFNBS3TESTDOMODE pfnDoRM;
3329
3330 PFNBS3TESTDOMODE pfnDoPE16;
3331 PFNBS3TESTDOMODE pfnDoPE16_32;
3332 PFNBS3TESTDOMODE pfnDoPE16_V86;
3333 PFNBS3TESTDOMODE pfnDoPE32;
3334 PFNBS3TESTDOMODE pfnDoPE32_16;
3335 PFNBS3TESTDOMODE pfnDoPEV86;
3336
3337 PFNBS3TESTDOMODE pfnDoPP16;
3338 PFNBS3TESTDOMODE pfnDoPP16_32;
3339 PFNBS3TESTDOMODE pfnDoPP16_V86;
3340 PFNBS3TESTDOMODE pfnDoPP32;
3341 PFNBS3TESTDOMODE pfnDoPP32_16;
3342 PFNBS3TESTDOMODE pfnDoPPV86;
3343
3344 PFNBS3TESTDOMODE pfnDoPAE16;
3345 PFNBS3TESTDOMODE pfnDoPAE16_32;
3346 PFNBS3TESTDOMODE pfnDoPAE16_V86;
3347 PFNBS3TESTDOMODE pfnDoPAE32;
3348 PFNBS3TESTDOMODE pfnDoPAE32_16;
3349 PFNBS3TESTDOMODE pfnDoPAEV86;
3350
3351 PFNBS3TESTDOMODE pfnDoLM16;
3352 PFNBS3TESTDOMODE pfnDoLM32;
3353 PFNBS3TESTDOMODE pfnDoLM64;
3354
3355} BS3TESTMODEENTRY;
3356/** Pointer to a mode sub-test entry. */
3357typedef BS3TESTMODEENTRY const *PCBS3TESTMODEENTRY;
3358
3359/** @def BS3TESTMODEENTRY_CMN
3360 * Produces a BS3TESTMODEENTRY initializer for common (c16,c32,c64) test
3361 * functions. */
3362#define BS3TESTMODEENTRY_CMN(a_szTest, a_BaseNm) \
3363 { /*pszSubTest =*/ a_szTest, \
3364 /*RM*/ RT_CONCAT(a_BaseNm, _c16), \
3365 /*PE16*/ RT_CONCAT(a_BaseNm, _c16), \
3366 /*PE16_32*/ RT_CONCAT(a_BaseNm, _c32), \
3367 /*PE16_V86*/ RT_CONCAT(a_BaseNm, _c16), \
3368 /*PE32*/ RT_CONCAT(a_BaseNm, _c32), \
3369 /*PE32_16*/ RT_CONCAT(a_BaseNm, _c16), \
3370 /*PEV86*/ RT_CONCAT(a_BaseNm, _c16), \
3371 /*PP16*/ RT_CONCAT(a_BaseNm, _c16), \
3372 /*PP16_32*/ RT_CONCAT(a_BaseNm, _c32), \
3373 /*PP16_V86*/ RT_CONCAT(a_BaseNm, _c16), \
3374 /*PP32*/ RT_CONCAT(a_BaseNm, _c32), \
3375 /*PP32_16*/ RT_CONCAT(a_BaseNm, _c16), \
3376 /*PPV86*/ RT_CONCAT(a_BaseNm, _c16), \
3377 /*PAE16*/ RT_CONCAT(a_BaseNm, _c16), \
3378 /*PAE16_32*/ RT_CONCAT(a_BaseNm, _c32), \
3379 /*PAE16_V86*/ RT_CONCAT(a_BaseNm, _c16), \
3380 /*PAE32*/ RT_CONCAT(a_BaseNm, _c32), \
3381 /*PAE32_16*/ RT_CONCAT(a_BaseNm, _c16), \
3382 /*PAEV86*/ RT_CONCAT(a_BaseNm, _c16), \
3383 /*LM16*/ RT_CONCAT(a_BaseNm, _c16), \
3384 /*LM32*/ RT_CONCAT(a_BaseNm, _c32), \
3385 /*LM64*/ RT_CONCAT(a_BaseNm, _c64), \
3386 }
3387
3388/** @def BS3TESTMODE_PROTOTYPES_CMN
3389 * A set of standard protypes to go with #BS3TESTMODEENTRY_CMN. */
3390#define BS3TESTMODE_PROTOTYPES_CMN(a_BaseNm) \
3391 FNBS3TESTDOMODE /*BS3_FAR_CODE*/ RT_CONCAT(a_BaseNm, _c16); \
3392 FNBS3TESTDOMODE /*BS3_FAR_CODE*/ RT_CONCAT(a_BaseNm, _c32); \
3393 FNBS3TESTDOMODE /*BS3_FAR_CODE*/ RT_CONCAT(a_BaseNm, _c64)
3394
3395/** @def BS3TESTMODEENTRY_CMN_64
3396 * Produces a BS3TESTMODEENTRY initializer for common 64-bit test functions. */
3397#define BS3TESTMODEENTRY_CMN_64(a_szTest, a_BaseNm) \
3398 { /*pszSubTest =*/ a_szTest, \
3399 /*RM*/ NULL, \
3400 /*PE16*/ NULL, \
3401 /*PE16_32*/ NULL, \
3402 /*PE16_V86*/ NULL, \
3403 /*PE32*/ NULL, \
3404 /*PE32_16*/ NULL, \
3405 /*PEV86*/ NULL, \
3406 /*PP16*/ NULL, \
3407 /*PP16_32*/ NULL, \
3408 /*PP16_V86*/ NULL, \
3409 /*PP32*/ NULL, \
3410 /*PP32_16*/ NULL, \
3411 /*PPV86*/ NULL, \
3412 /*PAE16*/ NULL, \
3413 /*PAE16_32*/ NULL, \
3414 /*PAE16_V86*/ NULL, \
3415 /*PAE32*/ NULL, \
3416 /*PAE32_16*/ NULL, \
3417 /*PAEV86*/ NULL, \
3418 /*LM16*/ NULL, \
3419 /*LM32*/ NULL, \
3420 /*LM64*/ RT_CONCAT(a_BaseNm, _c64), \
3421 }
3422
3423/** @def BS3TESTMODE_PROTOTYPES_CMN
3424 * Standard protype to go with #BS3TESTMODEENTRY_CMN_64. */
3425#define BS3TESTMODE_PROTOTYPES_CMN_64(a_BaseNm) \
3426 FNBS3TESTDOMODE /*BS3_FAR_CODE*/ RT_CONCAT(a_BaseNm, _c64)
3427
3428/** @def BS3TESTMODEENTRY_MODE
3429 * Produces a BS3TESTMODEENTRY initializer for a full set of mode test
3430 * functions. */
3431#define BS3TESTMODEENTRY_MODE(a_szTest, a_BaseNm) \
3432 { /*pszSubTest =*/ a_szTest, \
3433 /*RM*/ RT_CONCAT(a_BaseNm, _rm), \
3434 /*PE16*/ RT_CONCAT(a_BaseNm, _pe16), \
3435 /*PE16_32*/ RT_CONCAT(a_BaseNm, _pe16_32), \
3436 /*PE16_V86*/ RT_CONCAT(a_BaseNm, _pe16_v86), \
3437 /*PE32*/ RT_CONCAT(a_BaseNm, _pe32), \
3438 /*PE32_16*/ RT_CONCAT(a_BaseNm, _pe32_16), \
3439 /*PEV86*/ RT_CONCAT(a_BaseNm, _pev86), \
3440 /*PP16*/ RT_CONCAT(a_BaseNm, _pp16), \
3441 /*PP16_32*/ RT_CONCAT(a_BaseNm, _pp16_32), \
3442 /*PP16_V86*/ RT_CONCAT(a_BaseNm, _pp16_v86), \
3443 /*PP32*/ RT_CONCAT(a_BaseNm, _pp32), \
3444 /*PP32_16*/ RT_CONCAT(a_BaseNm, _pp32_16), \
3445 /*PPV86*/ RT_CONCAT(a_BaseNm, _ppv86), \
3446 /*PAE16*/ RT_CONCAT(a_BaseNm, _pae16), \
3447 /*PAE16_32*/ RT_CONCAT(a_BaseNm, _pae16_32), \
3448 /*PAE16_V86*/ RT_CONCAT(a_BaseNm, _pae16_v86), \
3449 /*PAE32*/ RT_CONCAT(a_BaseNm, _pae32), \
3450 /*PAE32_16*/ RT_CONCAT(a_BaseNm, _pae32_16), \
3451 /*PAEV86*/ RT_CONCAT(a_BaseNm, _paev86), \
3452 /*LM16*/ RT_CONCAT(a_BaseNm, _lm16), \
3453 /*LM32*/ RT_CONCAT(a_BaseNm, _lm32), \
3454 /*LM64*/ RT_CONCAT(a_BaseNm, _lm64), \
3455 }
3456
3457/** @def BS3TESTMODE_PROTOTYPES_MODE
3458 * A set of standard protypes to go with #BS3TESTMODEENTRY_MODE. */
3459#define BS3TESTMODE_PROTOTYPES_MODE(a_BaseNm) \
3460 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _rm); \
3461 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pe16); \
3462 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pe16_32); \
3463 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pe16_v86); \
3464 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pe32); \
3465 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pe32_16); \
3466 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pev86); \
3467 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pp16); \
3468 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pp16_32); \
3469 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pp16_v86); \
3470 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pp32); \
3471 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pp32_16); \
3472 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _ppv86); \
3473 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pae16); \
3474 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pae16_32); \
3475 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pae16_v86); \
3476 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pae32); \
3477 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pae32_16); \
3478 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _paev86); \
3479 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _lm16); \
3480 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _lm32); \
3481 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _lm64)
3482
3483
3484/**
3485 * Mode sub-test entry, max bit-count driven
3486 *
3487 * This is an alternative to BS3TESTMODEENTRY where a few workers (test drivers)
3488 * does all the work, using faster 32-bit and 64-bit code where possible. This
3489 * avoids executing workers in V8086 mode. It allows for modifying and checking
3490 * 64-bit register content when testing LM16 and LM32.
3491 *
3492 * The 16-bit workers are only used for real mode and 16-bit protected mode.
3493 * So, the 16-bit version of the code template can be stripped of anything
3494 * related to paging and/or v8086, saving code space.
3495 */
3496typedef struct BS3TESTMODEBYMAXENTRY
3497{
3498 /** The sub-test name to be passed to Bs3TestSub if not NULL. */
3499 const char * BS3_FAR pszSubTest;
3500
3501 PFNBS3TESTDOMODE pfnDoRM;
3502 PFNBS3TESTDOMODE pfnDoPE16;
3503 PFNBS3TESTDOMODE pfnDoPE16_32;
3504 PFNBS3TESTDOMODE pfnDoPE32;
3505 PFNBS3TESTDOMODE pfnDoPP16_32;
3506 PFNBS3TESTDOMODE pfnDoPP32;
3507 PFNBS3TESTDOMODE pfnDoPAE16_32;
3508 PFNBS3TESTDOMODE pfnDoPAE32;
3509 PFNBS3TESTDOMODE pfnDoLM64;
3510
3511 bool fDoRM : 1;
3512
3513 bool fDoPE16 : 1;
3514 bool fDoPE16_32 : 1;
3515 bool fDoPE16_V86 : 1;
3516 bool fDoPE32 : 1;
3517 bool fDoPE32_16 : 1;
3518 bool fDoPEV86 : 1;
3519
3520 bool fDoPP16 : 1;
3521 bool fDoPP16_32 : 1;
3522 bool fDoPP16_V86 : 1;
3523 bool fDoPP32 : 1;
3524 bool fDoPP32_16 : 1;
3525 bool fDoPPV86 : 1;
3526
3527 bool fDoPAE16 : 1;
3528 bool fDoPAE16_32 : 1;
3529 bool fDoPAE16_V86 : 1;
3530 bool fDoPAE32 : 1;
3531 bool fDoPAE32_16 : 1;
3532 bool fDoPAEV86 : 1;
3533
3534 bool fDoLM16 : 1;
3535 bool fDoLM32 : 1;
3536 bool fDoLM64 : 1;
3537
3538} BS3TESTMODEBYMAXENTRY;
3539/** Pointer to a mode-by-max sub-test entry. */
3540typedef BS3TESTMODEBYMAXENTRY const *PCBS3TESTMODEBYMAXENTRY;
3541
3542/** @def BS3TESTMODEBYMAXENTRY_CMN
3543 * Produces a BS3TESTMODEBYMAXENTRY initializer for common (c16,c32,c64) test
3544 * functions. */
3545#define BS3TESTMODEBYMAXENTRY_CMN(a_szTest, a_BaseNm) \
3546 { /*pszSubTest =*/ a_szTest, \
3547 /*RM*/ RT_CONCAT(a_BaseNm, _c16), \
3548 /*PE16*/ RT_CONCAT(a_BaseNm, _c16), \
3549 /*PE16_32*/ RT_CONCAT(a_BaseNm, _c32), \
3550 /*PE32*/ RT_CONCAT(a_BaseNm, _c32), \
3551 /*PP16_32*/ RT_CONCAT(a_BaseNm, _c32), \
3552 /*PP32*/ RT_CONCAT(a_BaseNm, _c32), \
3553 /*PAE16_32*/ RT_CONCAT(a_BaseNm, _c32), \
3554 /*PAE32*/ RT_CONCAT(a_BaseNm, _c32), \
3555 /*LM64*/ RT_CONCAT(a_BaseNm, _c64), \
3556 /*fDoRM*/ true, \
3557 /*fDoPE16*/ true, \
3558 /*fDoPE16_32*/ true, \
3559 /*fDoPE16_V86*/ true, \
3560 /*fDoPE32*/ true, \
3561 /*fDoPE32_16*/ true, \
3562 /*fDoPEV86*/ true, \
3563 /*fDoPP16*/ true, \
3564 /*fDoPP16_32*/ true, \
3565 /*fDoPP16_V86*/ true, \
3566 /*fDoPP32*/ true, \
3567 /*fDoPP32_16*/ true, \
3568 /*fDoPPV86*/ true, \
3569 /*fDoPAE16*/ true, \
3570 /*fDoPAE16_32*/ true, \
3571 /*fDoPAE16_V86*/ true, \
3572 /*fDoPAE32*/ true, \
3573 /*fDoPAE32_16*/ true, \
3574 /*fDoPAEV86*/ true, \
3575 /*fDoLM16*/ true, \
3576 /*fDoLM32*/ true, \
3577 /*fDoLM64*/ true, \
3578 }
3579
3580/** @def BS3TESTMODEBYMAX_PROTOTYPES_CMN
3581 * A set of standard protypes to go with #BS3TESTMODEBYMAXENTRY_CMN. */
3582#define BS3TESTMODEBYMAX_PROTOTYPES_CMN(a_BaseNm) \
3583 FNBS3TESTDOMODE /*BS3_FAR_CODE*/ RT_CONCAT(a_BaseNm, _c16); \
3584 FNBS3TESTDOMODE /*BS3_FAR_CODE*/ RT_CONCAT(a_BaseNm, _c32); \
3585 FNBS3TESTDOMODE /*BS3_FAR_CODE*/ RT_CONCAT(a_BaseNm, _c64)
3586
3587
3588/** @def BS3TESTMODEBYMAXENTRY_MODE
3589 * Produces a BS3TESTMODEBYMAXENTRY initializer for a full set of mode test
3590 * functions. */
3591#define BS3TESTMODEBYMAXENTRY_MODE(a_szTest, a_BaseNm) \
3592 { /*pszSubTest =*/ a_szTest, \
3593 /*RM*/ RT_CONCAT(a_BaseNm, _rm), \
3594 /*PE16*/ RT_CONCAT(a_BaseNm, _pe16), \
3595 /*PE16_32*/ RT_CONCAT(a_BaseNm, _pe16_32), \
3596 /*PE32*/ RT_CONCAT(a_BaseNm, _pe32), \
3597 /*PP16_32*/ RT_CONCAT(a_BaseNm, _pp16_32), \
3598 /*PP32*/ RT_CONCAT(a_BaseNm, _pp32), \
3599 /*PAE16_32*/ RT_CONCAT(a_BaseNm, _pae16_32), \
3600 /*PAE32*/ RT_CONCAT(a_BaseNm, _pae32), \
3601 /*LM64*/ RT_CONCAT(a_BaseNm, _lm64), \
3602 /*fDoRM*/ true, \
3603 /*fDoPE16*/ true, \
3604 /*fDoPE16_32*/ true, \
3605 /*fDoPE16_V86*/ true, \
3606 /*fDoPE32*/ true, \
3607 /*fDoPE32_16*/ true, \
3608 /*fDoPEV86*/ true, \
3609 /*fDoPP16*/ true, \
3610 /*fDoPP16_32*/ true, \
3611 /*fDoPP16_V86*/ true, \
3612 /*fDoPP32*/ true, \
3613 /*fDoPP32_16*/ true, \
3614 /*fDoPPV86*/ true, \
3615 /*fDoPAE16*/ true, \
3616 /*fDoPAE16_32*/ true, \
3617 /*fDoPAE16_V86*/ true, \
3618 /*fDoPAE32*/ true, \
3619 /*fDoPAE32_16*/ true, \
3620 /*fDoPAEV86*/ true, \
3621 /*fDoLM16*/ true, \
3622 /*fDoLM32*/ true, \
3623 /*fDoLM64*/ true, \
3624 }
3625
3626/** @def BS3TESTMODEBYMAX_PROTOTYPES_MODE
3627 * A set of standard protypes to go with #BS3TESTMODEBYMAXENTRY_MODE. */
3628#define BS3TESTMODEBYMAX_PROTOTYPES_MODE(a_BaseNm) \
3629 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _rm); \
3630 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pe16); \
3631 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pe16_32); \
3632 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pe32); \
3633 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pp16_32); \
3634 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pp32); \
3635 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pae16_32); \
3636 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _pae32); \
3637 FNBS3TESTDOMODE RT_CONCAT(a_BaseNm, _lm64)
3638
3639
3640/**
3641 * One worker drives all modes.
3642 *
3643 * This is an alternative to BS3TESTMODEENTRY where one worker, typically
3644 * 16-bit, does all the test driver work. It's called repeatedly from all
3645 * the modes being tested.
3646 */
3647typedef struct BS3TESTMODEBYONEENTRY
3648{
3649 const char * BS3_FAR pszSubTest;
3650 PFNBS3TESTDOMODE pfnWorker;
3651 /** BS3TESTMODEBYONEENTRY_F_XXX. */
3652 uint32_t fFlags;
3653} BS3TESTMODEBYONEENTRY;
3654/** Pointer to a mode-by-one sub-test entry. */
3655typedef BS3TESTMODEBYONEENTRY const *PCBS3TESTMODEBYONEENTRY;
3656
3657/** @name BS3TESTMODEBYONEENTRY_F_XXX - flags.
3658 * @{ */
3659/** Only test modes that has paging enabled. */
3660#define BS3TESTMODEBYONEENTRY_F_ONLY_PAGING RT_BIT_32(0)
3661/** @} */
3662
3663
3664/**
3665 * Sets the full GDTR register.
3666 *
3667 * @param cbLimit The limit.
3668 * @param uBase The base address - 24, 32 or 64 bit depending on the
3669 * CPU mode.
3670 */
3671BS3_CMN_PROTO_NOSB(void, Bs3UtilSetFullGdtr,(uint16_t cbLimit, uint64_t uBase));
3672
3673/**
3674 * Sets the full IDTR register.
3675 *
3676 * @param cbLimit The limit.
3677 * @param uBase The base address - 24, 32 or 64 bit depending on the
3678 * CPU mode.
3679 */
3680BS3_CMN_PROTO_NOSB(void, Bs3UtilSetFullIdtr,(uint16_t cbLimit, uint64_t uBase));
3681
3682
3683/** @} */
3684
3685
3686/**
3687 * Initializes all of boot sector kit \#3.
3688 */
3689BS3_DECL(void) Bs3InitAll_rm(void);
3690
3691/**
3692 * Initializes the REAL and TILED memory pools.
3693 *
3694 * For proper operation on OLDer CPUs, call #Bs3CpuDetect_mmm first.
3695 */
3696BS3_DECL_FAR(void) Bs3InitMemory_rm_far(void);
3697
3698/**
3699 * Initialized the X0TEXT16 and X1TEXT16 GDT entries.
3700 */
3701BS3_DECL_FAR(void) Bs3InitGdt_rm_far(void);
3702
3703
3704
3705/** @defgroup grp_bs3kit_mode Mode Specific Functions and Data
3706 *
3707 * The mode specific functions come in bit count variations and CPU mode
3708 * variations. The bs3kit-template-header.h/mac defines the BS3_NM macro to
3709 * mangle a function or variable name according to the target CPU mode. In
3710 * non-templated code, it's common to spell the name out in full.
3711 *
3712 * @{
3713 */
3714
3715
3716/** @def BS3_MODE_PROTO_INT
3717 * Internal macro for emitting prototypes for mode functions.
3718 *
3719 * @param a_RetType The return type.
3720 * @param a_Name The function basename.
3721 * @param a_Params The parameter list (in parentheses).
3722 * @sa BS3_MODE_PROTO_STUB, BS3_MODE_PROTO_NOSB
3723 */
3724#define BS3_MODE_PROTO_INT(a_RetType, a_Name, a_Params) \
3725 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_rm) a_Params; \
3726 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pe16) a_Params; \
3727 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pe16_32) a_Params; \
3728 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pe16_v86) a_Params; \
3729 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pe32) a_Params; \
3730 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pe32_16) a_Params; \
3731 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pev86) a_Params; \
3732 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pp16) a_Params; \
3733 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pp16_32) a_Params; \
3734 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pp16_v86) a_Params; \
3735 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pp32) a_Params; \
3736 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pp32_16) a_Params; \
3737 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_ppv86) a_Params; \
3738 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pae16) a_Params; \
3739 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pae16_32) a_Params; \
3740 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pae16_v86) a_Params; \
3741 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pae32) a_Params; \
3742 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_pae32_16) a_Params; \
3743 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_paev86) a_Params; \
3744 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_lm16) a_Params; \
3745 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_lm32) a_Params; \
3746 BS3_DECL_NEAR(a_RetType) RT_CONCAT(a_Name,_lm64) a_Params; \
3747 BS3_DECL_FAR(a_RetType) RT_CONCAT(a_Name,_rm_far) a_Params; \
3748 BS3_DECL_FAR(a_RetType) RT_CONCAT(a_Name,_pe16_far) a_Params; \
3749 BS3_DECL_FAR(a_RetType) RT_CONCAT(a_Name,_pe16_v86_far) a_Params; \
3750 BS3_DECL_FAR(a_RetType) RT_CONCAT(a_Name,_pe32_16_far) a_Params; \
3751 BS3_DECL_FAR(a_RetType) RT_CONCAT(a_Name,_pev86_far) a_Params; \
3752 BS3_DECL_FAR(a_RetType) RT_CONCAT(a_Name,_pp16_far) a_Params; \
3753 BS3_DECL_FAR(a_RetType) RT_CONCAT(a_Name,_pp16_v86_far) a_Params; \
3754 BS3_DECL_FAR(a_RetType) RT_CONCAT(a_Name,_pp32_16_far) a_Params; \
3755 BS3_DECL_FAR(a_RetType) RT_CONCAT(a_Name,_ppv86_far) a_Params; \
3756 BS3_DECL_FAR(a_RetType) RT_CONCAT(a_Name,_pae16_far) a_Params; \
3757 BS3_DECL_FAR(a_RetType) RT_CONCAT(a_Name,_pae16_v86_far)a_Params; \
3758 BS3_DECL_FAR(a_RetType) RT_CONCAT(a_Name,_pae32_16_far) a_Params; \
3759 BS3_DECL_FAR(a_RetType) RT_CONCAT(a_Name,_paev86_far) a_Params; \
3760 BS3_DECL_FAR(a_RetType) RT_CONCAT(a_Name,_lm16_far) a_Params
3761
3762/** @def BS3_MODE_PROTO_STUB
3763 * Macro for prototyping all the variations of a mod function with automatic
3764 * near -> far stub.
3765 *
3766 * @param a_RetType The return type.
3767 * @param a_Name The function basename.
3768 * @param a_Params The parameter list (in parentheses).
3769 * @sa BS3_MODE_PROTO_STUB, BS3_MODE_PROTO_NOSB
3770 */
3771#define BS3_MODE_PROTO_STUB(a_RetType, a_Name, a_Params) BS3_MODE_PROTO_INT(a_RetType, a_Name, a_Params)
3772
3773/** @def BS3_MODE_PROTO_STUB
3774 * Macro for prototyping all the variations of a mod function without any
3775 * near -> far stub.
3776 *
3777 * @param a_RetType The return type.
3778 * @param a_Name The function basename.
3779 * @param a_Params The parameter list (in parentheses).
3780 * @sa BS3_MODE_PROTO_STUB, BS3_MODE_PROTO_NOSB
3781 */
3782#define BS3_MODE_PROTO_NOSB(a_RetType, a_Name, a_Params) BS3_MODE_PROTO_INT(a_RetType, a_Name, a_Params)
3783
3784
3785/**
3786 * Macro for reducing typing.
3787 *
3788 * Doxygen knows how to expand this, well, kind of.
3789 *
3790 * @remarks Variables instantiated in assembly code should define two labels,
3791 * with and without leading underscore. Variables instantiated from
3792 * C/C++ code doesn't need to as the object file convert does this for
3793 * 64-bit object files.
3794 */
3795#define BS3_MODE_EXPAND_EXTERN_DATA16(a_VarType, a_VarName, a_Suffix) \
3796 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_rm) a_Suffix; \
3797 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pe16) a_Suffix; \
3798 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pe16_32) a_Suffix; \
3799 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pe16_v86) a_Suffix; \
3800 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pe32) a_Suffix; \
3801 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pe32_16) a_Suffix; \
3802 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pev86) a_Suffix; \
3803 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pp16) a_Suffix; \
3804 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pp16_32) a_Suffix; \
3805 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pp16_v86) a_Suffix; \
3806 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pp32) a_Suffix; \
3807 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pp32_16) a_Suffix; \
3808 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_ppv86) a_Suffix; \
3809 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pae16) a_Suffix; \
3810 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pae16_32) a_Suffix; \
3811 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pae16_v86)a_Suffix; \
3812 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pae32) a_Suffix; \
3813 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_pae32_16) a_Suffix; \
3814 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_paev86) a_Suffix; \
3815 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_lm16) a_Suffix; \
3816 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_lm32) a_Suffix; \
3817 extern a_VarType BS3_FAR_DATA RT_CONCAT(a_VarName,_lm64) a_Suffix
3818
3819
3820/** The TMPL_MODE_STR value for each mode.
3821 * These are all in DATA16 so they can be accessed from any code. */
3822BS3_MODE_EXPAND_EXTERN_DATA16(const char, g_szBs3ModeName, []);
3823/** The TMPL_MODE_LNAME value for each mode.
3824 * These are all in DATA16 so they can be accessed from any code. */
3825BS3_MODE_EXPAND_EXTERN_DATA16(const char, g_szBs3ModeNameShortLower, []);
3826
3827
3828/**
3829 * Basic CPU detection.
3830 *
3831 * This sets the #g_uBs3CpuDetected global variable to the return value.
3832 *
3833 * @returns BS3CPU_XXX value with the BS3CPU_F_CPUID flag set depending on
3834 * capabilities.
3835 */
3836BS3_MODE_PROTO_NOSB(uint8_t, Bs3CpuDetect,(void));
3837
3838/** @name BS3CPU_XXX - CPU detected by BS3CpuDetect_c16() and friends.
3839 * @{ */
3840#define BS3CPU_8086 UINT16_C(0x0001) /**< Both 8086 and 8088. */
3841#define BS3CPU_V20 UINT16_C(0x0002) /**< Both NEC V20, V30 and relatives. */
3842#define BS3CPU_80186 UINT16_C(0x0003) /**< Both 80186 and 80188. */
3843#define BS3CPU_80286 UINT16_C(0x0004)
3844#define BS3CPU_80386 UINT16_C(0x0005)
3845#define BS3CPU_80486 UINT16_C(0x0006)
3846#define BS3CPU_Pentium UINT16_C(0x0007)
3847#define BS3CPU_PPro UINT16_C(0x0008)
3848#define BS3CPU_PProOrNewer UINT16_C(0x0009)
3849/** CPU type mask. This is a full byte so it's possible to use byte access
3850 * without and AND'ing to get the type value. */
3851#define BS3CPU_TYPE_MASK UINT16_C(0x00ff)
3852/** Flag indicating that the CPUID instruction is supported by the CPU. */
3853#define BS3CPU_F_CPUID UINT16_C(0x0100)
3854/** Flag indicating that extend CPUID leaves are available (at least two). */
3855#define BS3CPU_F_CPUID_EXT_LEAVES UINT16_C(0x0200)
3856/** Flag indicating that the CPU supports PAE. */
3857#define BS3CPU_F_PAE UINT16_C(0x0400)
3858/** Flag indicating that the CPU supports the page size extension (4MB pages). */
3859#define BS3CPU_F_PSE UINT16_C(0x0800)
3860/** Flag indicating that the CPU supports long mode. */
3861#define BS3CPU_F_LONG_MODE UINT16_C(0x1000)
3862/** Flag indicating that the CPU supports NX. */
3863#define BS3CPU_F_NX UINT16_C(0x2000)
3864/** @} */
3865
3866/** The return value of #Bs3CpuDetect_mmm. (Initial value is BS3CPU_TYPE_MASK.) */
3867extern uint16_t g_uBs3CpuDetected;
3868
3869/**
3870 * Call 32-bit prot mode C function.
3871 *
3872 * This switches to 32-bit mode and calls the 32-bit @a fpfnCall C code with @a
3873 * cbParams on the stack, then returns in the original mode. When called in
3874 * real mode, this will switch to PE32.
3875 *
3876 * @returns 32-bit status code if the function returned anything.
3877 * @param fpfnCall Address of the 32-bit C function to call. When
3878 * called from 16-bit code, this is a far real mode
3879 * function pointer, i.e. as fixed up by the linker.
3880 * In 32-bit and 64-bit code, this is a flat address.
3881 * @param cbParams The size of the parameter list, in bytes.
3882 * @param ... The parameters.
3883 * @sa Bs3SwitchFromV86To16BitAndCallC
3884 *
3885 * @remarks WARNING! This probably doesn't work in 64-bit mode yet.
3886 * Only tested for 16-bit real mode.
3887 */
3888BS3_MODE_PROTO_STUB(int32_t, Bs3SwitchTo32BitAndCallC,(FPFNBS3FAR fpfnCall, unsigned cbParams, ...));
3889
3890/**
3891 * Initializes trap handling for the current system.
3892 *
3893 * Calls the appropriate Bs3Trap16Init, Bs3Trap32Init or Bs3Trap64Init function.
3894 */
3895BS3_MODE_PROTO_STUB(void, Bs3TrapInit,(void));
3896
3897/**
3898 * Executes the array of tests in every possibly mode.
3899 *
3900 * @param paEntries The mode sub-test entries.
3901 * @param cEntries The number of sub-test entries.
3902 */
3903BS3_MODE_PROTO_NOSB(void, Bs3TestDoModes,(PCBS3TESTMODEENTRY paEntries, size_t cEntries));
3904
3905/**
3906 * Executes the array of tests in every possibly mode, unified driver.
3907 *
3908 * This requires much less code space than Bs3TestDoModes as there is only one
3909 * instace of each sub-test driver code, instead of 3 (cmn) or 22 (per-mode)
3910 * copies.
3911 *
3912 * @param paEntries The mode sub-test-by-one entries.
3913 * @param cEntries The number of sub-test-by-one entries.
3914 * @param fFlags Reserved for the future, MBZ.
3915 */
3916BS3_MODE_PROTO_NOSB(void, Bs3TestDoModesByOne,(PCBS3TESTMODEBYONEENTRY paEntries, size_t cEntries, uint32_t fFlags));
3917
3918/**
3919 * Executes the array of tests in every possibly mode, using the max bit-count
3920 * worker for each.
3921 *
3922 * @param paEntries The mode sub-test entries.
3923 * @param cEntries The number of sub-test entries.
3924 */
3925BS3_MODE_PROTO_NOSB(void, Bs3TestDoModesByMax,(PCBS3TESTMODEBYMAXENTRY paEntries, size_t cEntries));
3926
3927
3928/** @} */
3929
3930/** @} */
3931
3932RT_C_DECLS_END
3933
3934
3935/*
3936 * Include default function symbol mangling.
3937 */
3938#include "bs3kit-mangling-code.h"
3939
3940/*
3941 * Change 16-bit text segment if requested.
3942 */
3943#if defined(BS3_USE_ALT_16BIT_TEXT_SEG) && ARCH_BITS == 16 && !defined(BS3_DONT_CHANGE_TEXT_SEG)
3944# if (defined(BS3_USE_RM_TEXT_SEG) + defined(BS3_USE_X0_TEXT_SEG) + defined(BS3_USE_X1_TEXT_SEG)) != 1
3945# error "Cannot set more than one alternative 16-bit text segment!"
3946# elif defined(BS3_USE_RM_TEXT_SEG)
3947# pragma code_seg("BS3RMTEXT16", "BS3CLASS16RMCODE")
3948# elif defined(BS3_USE_X0_TEXT_SEG)
3949# pragma code_seg("BS3X0TEXT16", "BS3CLASS16X0CODE")
3950# elif defined(BS3_USE_X1_TEXT_SEG)
3951# pragma code_seg("BS3X1TEXT16", "BS3CLASS16X1CODE")
3952# else
3953# error "Huh? Which alternative text segment did you want again?"
3954# endif
3955#endif
3956
3957#endif /* !BS3KIT_INCLUDED_bs3kit_h */
3958
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