From f215e02bf85f68d3a6106c2a1f4f7f063f819064 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Thu, 11 Apr 2024 10:17:27 +0200 Subject: Adding upstream version 7.0.14-dfsg. Signed-off-by: Daniel Baumann --- src/VBox/ValidationKit/utils/cpu/cidet.h | 1092 ++++++++++++++++++++++++++++++ 1 file changed, 1092 insertions(+) create mode 100644 src/VBox/ValidationKit/utils/cpu/cidet.h (limited to 'src/VBox/ValidationKit/utils/cpu/cidet.h') diff --git a/src/VBox/ValidationKit/utils/cpu/cidet.h b/src/VBox/ValidationKit/utils/cpu/cidet.h new file mode 100644 index 00000000..2273b7b0 --- /dev/null +++ b/src/VBox/ValidationKit/utils/cpu/cidet.h @@ -0,0 +1,1092 @@ +/* $Id: cidet.h $ */ +/** @file + * CPU Instruction Decoding & Execution Tests - C/C++ Header. + */ + +/* + * Copyright (C) 2014-2023 Oracle and/or its affiliates. + * + * This file is part of VirtualBox base platform packages, as + * available from https://www.virtualbox.org. + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation, in version 3 of the + * License. + * + * This program is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, see . + * + * The contents of this file may alternatively be used under the terms + * of the Common Development and Distribution License Version 1.0 + * (CDDL), a copy of it is provided in the "COPYING.CDDL" file included + * in the VirtualBox distribution, in which case the provisions of the + * CDDL are applicable instead of those of the GPL. + * + * You may elect to license modified versions of this file under the + * terms and conditions of either the GPL or the CDDL or both. + * + * SPDX-License-Identifier: GPL-3.0-only OR CDDL-1.0 + */ + +#ifndef VBOX_INCLUDED_SRC_cpu_cidet_h +#define VBOX_INCLUDED_SRC_cpu_cidet_h +#ifndef RT_WITHOUT_PRAGMA_ONCE +# pragma once +#endif + +#include +#include + + +/** @name CIDET - Operand flags. + * @{ */ +#define CIDET_OF_FIXED_MASK UINT32_C(0x0000001f) /**< Fixed register/whatever mask. */ + +#define CIDET_OF_Z_SHIFT 8 /**< Size shift. */ +#define CIDET_OF_Z_MASK UINT32_C(0x00000f00) /**< Size mask. */ +#define CIDET_OF_Z_NONE UINT32_C(0x00000000) /**< Unused zero value. */ +#define CIDET_OF_Z_BYTE UINT32_C(0x00000100) /**< Byte size. */ +#define CIDET_OF_Z_WORD UINT32_C(0x00000200) /**< Word (2 bytes) size. */ +#define CIDET_OF_Z_DWORD UINT32_C(0x00000300) /**< Double word (4 bytes) size. */ +#define CIDET_OF_Z_QWORD UINT32_C(0x00000400) /**< Quad word (8 bytes) size. */ +#define CIDET_OF_Z_TBYTE UINT32_C(0x00000500) /**< Ten byte (10 bytes) size - aka TWORD. */ +#define CIDET_OF_Z_OWORD UINT32_C(0x00000600) /**< Octa word (16 bytes) size - aka DQWORD. */ +#define CIDET_OF_Z_YWORD UINT32_C(0x00000700) /**< Yxx sized, i.e. 32 bytes. */ +#define CIDET_OF_Z_ZWORD UINT32_C(0x00000800) /**< Zxx sized, i.e. 64 bytes. */ +#define CIDET_OF_Z_VAR_WDQ UINT32_C(0x00000900) /**< Variable size depending on size prefix (2, 4, or 8 bytes). */ +#define CIDET_OF_Z_SPECIAL UINT32_C(0x00000f00) /**< Special size, see instruction flags or smth. */ + +#define CIDET_OF_K_MASK UINT32_C(0x0000f000) /**< Kind of operand. */ +#define CIDET_OF_K_NONE UINT32_C(0x00000000) /**< Unused zero value. */ +#define CIDET_OF_K_GPR UINT32_C(0x00001000) /**< General purpose register. Includes memory when used with CIDET_OF_M_RM. */ +#define CIDET_OF_K_SREG UINT32_C(0x00002000) /**< Segment register. */ +#define CIDET_OF_K_CR UINT32_C(0x00003000) /**< Control register. */ +#define CIDET_OF_K_SSE UINT32_C(0x00004000) /**< SSE register. */ +#define CIDET_OF_K_AVX UINT32_C(0x00005000) /**< AVX register. */ +#define CIDET_OF_K_AVX512 UINT32_C(0x00006000) /**< AVX-512 register. */ +#define CIDET_OF_K_AVXFUTURE UINT32_C(0x00007000) /**< Reserved for future AVX register set. */ +#define CIDET_OF_K_VRX_TST_MASK UINT32_C(0x0000c000) /**< Used for testing for VRX register kind, see CIDET_OF_K_IS_VRX. */ +#define CIDET_OF_K_VRX_TST_RES UINT32_C(0x00004000) /**< Used for testing for VRX register kind, see CIDET_OF_K_IS_VRX. */ +#define CIDET_OF_K_FPU UINT32_C(0x00008000) /**< FPU register. */ +#define CIDET_OF_K_MMX UINT32_C(0x00009000) /**< MMX register. */ +#define CIDET_OF_K_TEST UINT32_C(0x0000a000) /**< Test register. */ +#define CIDET_OF_K_IMM UINT32_C(0x0000d000) /**< Immediate. */ +#define CIDET_OF_K_MEM UINT32_C(0x0000e000) /**< Memory. */ +#define CIDET_OF_K_SPECIAL UINT32_C(0x0000f000) /**< Special. */ +/** Check if @a a_fOp is a general purpose register. */ +#define CIDET_OF_K_IS_GPR(a_fOp) ( ((a_fOp) & CIDET_OF_K_MASK) == CIDET_OF_K_GPR ) +/** Check if @a a_fOp is a XMM (SSE), YMM (AVX), ZMM (AVX-512) or similar register. */ +#define CIDET_OF_K_IS_VRX(a_fOp) ( ((a_fOp) & CIDET_OF_K_VRX_TST_MASK) == CIDET_OF_K_VRX_TST_RES ) +/** Check if @a a_fOp1 and @a a_fOp2 specify the same kind of register, + * treating SSE, AVX, AVX-512 and AVX-future as the same kind and ignoring the + * special register kind. */ +#define CIDET_OF_K_IS_SAME(a_fOp1, a_fOp2) \ + ( ((a_fOp1) & CIDET_OF_K_MASK) == ((a_fOp2) & CIDET_OF_K_MASK) \ + ? ((a_fOp1) & CIDET_OF_K_MASK) != CIDET_OF_K_SPECIAL \ + : (CIDET_OF_K_IS_VRX(a_fOp1) && CIDET_OF_K_IS_VRX(a_fOp2)) ) + +#define CIDET_OF_M_RM_ONLY_R UINT32_C(0x00010000) +#define CIDET_OF_M_RM_ONLY_M UINT32_C(0x00020000) +#define CIDET_OF_M_RM (CIDET_OF_M_RM_ONLY_R | CIDET_OF_M_RM_ONLY_M) +#define CIDET_OF_M_REG UINT32_C(0x00040000) + +#define CIDET_OF_A_R UINT32_C(0x00080000) /**< Read access. */ +#define CIDET_OF_A_W UINT32_C(0x00100000) /**< Write access. */ +#define CIDET_OF_A_RW UINT32_C(0x00180000) /**< Read & write access. */ + +/** The operand defaults to 64-bit width in 64-bit mode, making 32-bit width + * inaccessible. */ +#define CIDET_OF_DEFAULT_64BIT UINT32_C(0x40000000) +/** Operand always uses the ES segment for memory accesses. */ +#define CIDET_OF_ALWAYS_SEG_ES UINT32_C(0x80000000) +/** @} */ + + +/** @name CIDET - Instruction flags. + * @{ */ +#define CIDET_IF_MODRM RT_BIT_64(0) /**< ModR/M encoded. */ +#define CIDET_IF_PRIVILEGED RT_BIT_64(1) /**< Privileged. */ +/** @} */ + + +/** + * Callback function for setting up the input and expected output CPU contexts. + * + * @returns VBox status code. + * @retval VINF_EOF when static test data wraps (first entry is returned). + * @retval VERR_NO_DATA if @a fInvalid is set and there are no invalid operand + * values for this instruction. + * @retval VERR_NOT_SUPPORTED if something in the setup prevents us from + * comming up with working set of inputs and outputs. + * + * @param pThis The core CIDET state structure. The InCtx + * and ExpectedCtx members will be modified. + * @param fInvalid When set, get the next invalid operands that will + * cause exceptions/faults. + */ +typedef DECLCALLBACKTYPE(int, FNCIDETSETUPINOUT,(struct CIDETCORE *pThis, bool fInvalid)); +/** Pointer to a FNCIDETSETUPINOUT function. */ +typedef FNCIDETSETUPINOUT *PFNCIDETSETUPINOUT; + + +/** + * Instruction test descriptor. + */ +typedef struct CIDETINSTR +{ + /** The mnemonic (kind of). */ + const char *pszMnemonic; + /** Setup input and outputs. */ + PFNCIDETSETUPINOUT pfnSetupInOut; + /** Number of opcode bytes. */ + uint8_t cbOpcode; + /** Opcode byte(s). */ + uint8_t abOpcode[3]; + /** Mandatory prefix (zero if not applicable). */ + uint8_t bMandatoryPrefix; + /** Number of operands. */ + uint8_t cOperands; + /** Operand flags. */ + uint32_t afOperands[4]; + /** Flags. */ + uint64_t fFlags; +} CIDETINSTR; +/** Pointer to an instruction test descriptor. */ +typedef CIDETINSTR const *PCCIDETINSTR; + + +/** + * CPU Context with a few extra bits for expectations and results. + */ +typedef struct CIDETCPUCTX +{ + uint64_t rip; + uint64_t rfl; + uint64_t aGRegs[16]; + uint16_t aSRegs[6]; + +#ifndef CIDET_REDUCED_CTX + uint16_t tr; + uint16_t ldtr; + uint64_t cr0; +#else + uint16_t au16Padding[2]; +#endif + uint64_t cr2; +#ifndef CIDET_REDUCED_CTX + uint64_t cr3; + uint64_t cr4; + uint64_t cr8; + uint64_t dr0; + uint64_t dr1; + uint64_t dr2; + uint64_t dr3; + uint64_t dr6; + uint64_t dr7; +#endif + + uint64_t uErr; /**< Exception error code. UINT64_MAX if not applicable. (Not for input context.) */ + uint32_t uXcpt; /**< Exception number. UINT32_MAX if no exception. (Not for input context.) */ + + uint32_t fIgnoredRFlags; /**< Only for expected result. */ + bool fTrickyStack; /**< Set if the stack might be bad. May come at the cost of accurate flags (32-bit). */ +} CIDETCPUCTX; +typedef CIDETCPUCTX *PCIDETCPUCTX; +typedef CIDETCPUCTX const *PCCIDETCPUCTX; + +/** Number of bytes of CIDETCPUCTX that can be compared quickly using memcmp. + * Anything following these bytes are not relevant to the compare. */ +#define CIDETCPUCTX_COMPARE_SIZE RT_UOFFSETOF(CIDETCPUCTX, fIgnoredRFlags) + + +/** @name CPU mode + bits + environment. + * @{ */ +#define CIDETMODE_BIT_MASK UINT8_C(0x0e) /**< The instruction bit count. Results in byte size when masked. */ +#define CIDETMODE_BIT_16 UINT8_C(0x02) /**< 16-bit instructions. */ +#define CIDETMODE_BIT_32 UINT8_C(0x04) /**< 32-bit instructions. */ +#define CIDETMODE_BIT_64 UINT8_C(0x08) /**< 64-bit instructions. */ +#define CIDETMODE_MODE_MASK UINT8_C(0x70) /**< CPU mode mask. */ +#define CIDETMODE_MODE_RM UINT8_C(0x00) /**< Real mode. */ +#define CIDETMODE_MODE_PE UINT8_C(0x10) /**< Protected mode without paging. */ +#define CIDETMODE_MODE_PP UINT8_C(0x20) /**< Paged protected mode. */ +#define CIDETMODE_MODE_PAE UINT8_C(0x30) /**< PAE protected mode (paged). */ +#define CIDETMODE_MODE_LM UINT8_C(0x40) /**< Long mode (paged). */ +#define CIDETMODE_ENV_MASK UINT8_C(0x81) /**< Execution environment. */ +#define CIDETMODE_ENV_NORMAL UINT8_C(0x01) /**< Normal environment. */ +#define CIDETMODE_ENV_V86 UINT8_C(0x80) /**< V8086 environment. */ +#define CIDETMODE_RM (CIDETMODE_MODE_RM | CIDETMODE_BIT_16 | CIDETMODE_ENV_NORMAL) +#define CIDETMODE_PE_16 (CIDETMODE_MODE_PE | CIDETMODE_BIT_16 | CIDETMODE_ENV_NORMAL) +#define CIDETMODE_PE_32 (CIDETMODE_MODE_PE | CIDETMODE_BIT_32 | CIDETMODE_ENV_NORMAL) +#define CIDETMODE_PE_V86 (CIDETMODE_MODE_PE | CIDETMODE_BIT_16 | CIDETMODE_ENV_V86) +#define CIDETMODE_PP_16 (CIDETMODE_MODE_PP | CIDETMODE_BIT_16 | CIDETMODE_ENV_NORMAL) +#define CIDETMODE_PP_32 (CIDETMODE_MODE_PP | CIDETMODE_BIT_32 | CIDETMODE_ENV_NORMAL) +#define CIDETMODE_PP_V86 (CIDETMODE_MODE_PP | CIDETMODE_BIT_16 | CIDETMODE_ENV_V86) +#define CIDETMODE_PAE_16 (CIDETMODE_MODE_PAE | CIDETMODE_BIT_16 | CIDETMODE_ENV_NORMAL) +#define CIDETMODE_PAE_32 (CIDETMODE_MODE_PAE | CIDETMODE_BIT_32 | CIDETMODE_ENV_NORMAL) +#define CIDETMODE_PAE_V86 (CIDETMODE_MODE_PAE | CIDETMODE_BIT_16 | CIDETMODE_ENV_V86) +#define CIDETMODE_LM_16 (CIDETMODE_MODE_LM | CIDETMODE_BIT_16 | CIDETMODE_ENV_NORMAL) +#define CIDETMODE_LM_32 (CIDETMODE_MODE_LM | CIDETMODE_BIT_32 | CIDETMODE_ENV_NORMAL) +#define CIDETMODE_LM_64 (CIDETMODE_MODE_LM | CIDETMODE_BIT_64 | CIDETMODE_ENV_NORMAL) +/** Test if @a a_bMode is a 16-bit mode. */ +#define CIDETMODE_IS_16BIT(a_bMode) ( ((a_bMode) & CIDETMODE_BIT_MASK) == CIDETMODE_BIT_16 ) +/** Test if @a a_bMode is a 32-bit mode. */ +#define CIDETMODE_IS_32BIT(a_bMode) ( ((a_bMode) & CIDETMODE_BIT_MASK) == CIDETMODE_BIT_32 ) +/** Test if @a a_bMode is a 64-bit mode. */ +#define CIDETMODE_IS_64BIT(a_bMode) ( ((a_bMode) & CIDETMODE_BIT_MASK) == CIDETMODE_BIT_64 ) +/** Get the instruction bit count. */ +#define CIDETMODE_GET_BIT_COUNT(a_bMode) ( CIDETMODE_GET_BYTE_COUNT(a_bMode) * 8 ) +/** Get the instruction byte count. */ +#define CIDETMODE_GET_BYTE_COUNT(a_bMode) ( (a_bMode) & CIDETMODE_BIT_MASK ) +/** Test if @a a_bMode long mode. */ +#define CIDETMODE_IS_LM(a_bMode) ( ((a_bMode) & CIDETMODE_MODE_MASK) == CIDETMODE_MODE_LM ) +/** Test if @a a_bMode some kind of protected mode. */ +#define CIDETMODE_IS_PROT(a_bMode) ( ((a_bMode) & CIDETMODE_MODE_MASK) >= CIDETMODE_MODE_PE ) + +/** @} */ + + +/** @name Test Configuration Flags. + * @{ */ +#define CIDET_TESTCFG_SEG_PRF_CS UINT64_C(0x0000000000000001) +#define CIDET_TESTCFG_SEG_PRF_SS UINT64_C(0x0000000000000002) +#define CIDET_TESTCFG_SEG_PRF_DS UINT64_C(0x0000000000000004) +#define CIDET_TESTCFG_SEG_PRF_ES UINT64_C(0x0000000000000008) +#define CIDET_TESTCFG_SEG_PRF_FS UINT64_C(0x0000000000000010) +#define CIDET_TESTCFG_SEG_PRF_GS UINT64_C(0x0000000000000020) +#define CIDET_TESTCFG_SEG_PRF_MASK UINT64_C(0x000000000000003f) +/** @} */ + +/** */ +typedef enum CIDETREG +{ + kCidetReg_Gpr_Invalid = 0, + + kCidetReg_Gpr_al, + kCidetReg_Gpr_cl, + kCidetReg_Gpr_dl, + kCidetReg_Gpr_bl, + kCidetReg_Gpr_spl, + kCidetReg_Gpr_bpl, + kCidetReg_Gpr_sil, + kCidetReg_Gpr_dil, + kCidetReg_Gpr_r8b, + kCidetReg_Gpr_r9b, + kCidetReg_Gpr_r10b, + kCidetReg_Gpr_r11b, + kCidetReg_Gpr_r12b, + kCidetReg_Gpr_r13b, + kCidetReg_Gpr_r14b, + kCidetReg_Gpr_r15b, + kCidetReg_Gpr_ah, + kCidetReg_Gpr_ch, + kCidetReg_Gpr_dh, + kCidetReg_Gpr_bh, +#define kCidetReg_Gpr_Byte_First kCidetReg_Gpr_al +#define kCidetReg_Gpr_Byte_First_Upper kCidetReg_Gpr_ah +#define kCidetReg_Gpr_Byte_Last kCidetReg_Gpr_bh + + kCidetReg_Gpr_ax, + kCidetReg_Gpr_cx, + kCidetReg_Gpr_dx, + kCidetReg_Gpr_bx, + kCidetReg_Gpr_sp, + kCidetReg_Gpr_bp, + kCidetReg_Gpr_si, + kCidetReg_Gpr_di, + kCidetReg_Gpr_r8w, + kCidetReg_Gpr_r9w, + kCidetReg_Gpr_r10w, + kCidetReg_Gpr_r11w, + kCidetReg_Gpr_r12w, + kCidetReg_Gpr_r13w, + kCidetReg_Gpr_r14w, + kCidetReg_Gpr_r15w, +#define kCidetReg_Gpr_Word_First kCidetReg_Gpr_ax +#define kCidetReg_Gpr_Word_Last kCidetReg_Gpr_r15w + + kCidetReg_Gpr_eax, + kCidetReg_Gpr_ecx, + kCidetReg_Gpr_edx, + kCidetReg_Gpr_ebx, + kCidetReg_Gpr_esp, + kCidetReg_Gpr_ebp, + kCidetReg_Gpr_esi, + kCidetReg_Gpr_edi, + kCidetReg_Gpr_r8d, + kCidetReg_Gpr_r9d, + kCidetReg_Gpr_r10d, + kCidetReg_Gpr_r11d, + kCidetReg_Gpr_r12d, + kCidetReg_Gpr_r13d, + kCidetReg_Gpr_r14d, + kCidetReg_Gpr_r15d, +#define kCidetReg_Gpr_DWord_First kCidetReg_Gpr_eax +#define kCidetReg_Gpr_DWord_Last kCidetReg_Gpr_r15d + + kCidetReg_Gpr_rax, + kCidetReg_Gpr_rcx, + kCidetReg_Gpr_rdx, + kCidetReg_Gpr_rbx, + kCidetReg_Gpr_rsp, + kCidetReg_Gpr_rbp, + kCidetReg_Gpr_rsi, + kCidetReg_Gpr_rdi, + kCidetReg_Gpr_r8, + kCidetReg_Gpr_r9, + kCidetReg_Gpr_r10, + kCidetReg_Gpr_r11, + kCidetReg_Gpr_r12, + kCidetReg_Gpr_r13, + kCidetReg_Gpr_r14, + kCidetReg_Gpr_r15, +#define kCidetReg_Gpr_QWord_First kCidetReg_Gpr_rax +#define kCidetReg_Gpr_QWord_Last kCidetReg_Gpr_r15 + + kCidetReg_Seg_es, + kCidetReg_Seg_cs, + kCidetReg_Seg_ss, + kCidetReg_Seg_ds, + kCidetReg_Seg_fs, + kCidetReg_Seg_gs, + kCidetReg_Seg_Inv6, + kCidetReg_Seg_Inv7, +#define kCidetReg_Seg_First kCidetReg_Seg_es +#define kCidetReg_Seg_Last kCidetReg_Seg_gs +#define kCidetReg_Seg_Last_Inv kCidetReg_Seg_Inv7 + + kCidetReg_Misc_ip, + kCidetReg_Misc_eip, + kCidetReg_Misc_rip, + kCidetReg_Misc_flags, + kCidetReg_Misc_eflags, + kCidetReg_Misc_rflags, + kCidetReg_Misc_tr, + kCidetReg_Misc_ldtr, + kCidetReg_Misc_gdtr, + kCidetReg_Misc_idtr, + + kCidetReg_Ctrl_cr0, + kCidetReg_Ctrl_cr1, + kCidetReg_Ctrl_cr2, + kCidetReg_Ctrl_cr3, + kCidetReg_Ctrl_cr4, + kCidetReg_Ctrl_cr5, + kCidetReg_Ctrl_cr6, + kCidetReg_Ctrl_cr7, + kCidetReg_Ctrl_cr8, + kCidetReg_Ctrl_cr9, + kCidetReg_Ctrl_cr10, + kCidetReg_Ctrl_cr11, + kCidetReg_Ctrl_cr12, + kCidetReg_Ctrl_cr13, + kCidetReg_Ctrl_cr14, + kCidetReg_Ctrl_cr15, +#define kCidetReg_Ctrl_First kCidetReg_Ctrl_cr0 +#define kCidetReg_Ctrl_Last kCidetReg_Ctrl_cr15 +#define CIDETREG_CTRL_IS_VALID(a_iReg) ( (a_iReg) == kCidetReg_Ctrl_cr0 \ + && (a_iReg) == kCidetReg_Ctrl_cr2 \ + && (a_iReg) == kCidetReg_Ctrl_cr3 \ + && (a_iReg) == kCidetReg_Ctrl_cr4 \ + && (a_iReg) == kCidetReg_Ctrl_cr8 ) + + kCidetReg_Dbg_dr0, + kCidetReg_Dbg_dr1, + kCidetReg_Dbg_dr2, + kCidetReg_Dbg_dr3, + kCidetReg_Dbg_dr4, + kCidetReg_Dbg_dr5, + kCidetReg_Dbg_dr6, + kCidetReg_Dbg_dr7, + kCidetReg_Dbg_dr8, + kCidetReg_Dbg_dr9, + kCidetReg_Dbg_dr10, + kCidetReg_Dbg_dr11, + kCidetReg_Dbg_dr12, + kCidetReg_Dbg_dr13, + kCidetReg_Dbg_dr14, + kCidetReg_Dbg_dr15, +#define kCidetReg_Dbg_First kCidetReg_Dbg_dr0 +#define kCidetReg_Dbg_Last kCidetReg_Dbg_dr15 +#define CIDETREG_DBG_IS_VALID(a_iReg) ((a_iReg) < kCidetReg_Dbg_dr8 && (a_iReg) >= kCidetReg_Dbg_First) + + kCidetReg_Test_tr0, + kCidetReg_Test_tr1, + kCidetReg_Test_tr2, + kCidetReg_Test_tr3, + kCidetReg_Test_tr4, + kCidetReg_Test_tr5, + kCidetReg_Test_tr6, + kCidetReg_Test_tr7, + kCidetReg_Test_tr8, + kCidetReg_Test_tr9, + kCidetReg_Test_tr10, + kCidetReg_Test_tr11, + kCidetReg_Test_tr12, + kCidetReg_Test_tr13, + kCidetReg_Test_tr14, + kCidetReg_Test_tr15, +#define kCidetReg_Test_First kCidetReg_Test_tr0 +#define kCidetReg_Test_Last kCidetReg_Test_tr15 + + kCidetReg_Fpu_st0, + kCidetReg_Fpu_st1, + kCidetReg_Fpu_st2, + kCidetReg_Fpu_st3, + kCidetReg_Fpu_st4, + kCidetReg_Fpu_st5, + kCidetReg_Fpu_st6, + kCidetReg_Fpu_st7, +#define kCidetReg_Fpu_First kCidetReg_Mmx_st0 +#define kCidetReg_Fpu_Last kCidetReg_Mmx_st7 + + kCidetReg_FpuMisc_cs, + kCidetReg_FpuMisc_ip, + kCidetReg_FpuMisc_ds, + kCidetReg_FpuMisc_dp, + kCidetReg_FpuMisc_fop, + kCidetReg_FpuMisc_ftw, + kCidetReg_FpuMisc_fsw, + kCidetReg_FpuMisc_fcw, + kCidetReg_FpuMisc_mxcsr_mask, + kCidetReg_FpuMisc_mxcsr, + + kCidetReg_Mmx_mm0, + kCidetReg_Mmx_mm1, + kCidetReg_Mmx_mm2, + kCidetReg_Mmx_mm3, + kCidetReg_Mmx_mm4, + kCidetReg_Mmx_mm5, + kCidetReg_Mmx_mm6, + kCidetReg_Mmx_mm7, +#define kCidetReg_Mmx_First kCidetReg_Mmx_mm0 +#define kCidetReg_Mmx_Last kCidetReg_Mmx_mm7 + + kCidetReg_Sse_xmm0, + kCidetReg_Sse_xmm1, + kCidetReg_Sse_xmm2, + kCidetReg_Sse_xmm3, + kCidetReg_Sse_xmm4, + kCidetReg_Sse_xmm5, + kCidetReg_Sse_xmm6, + kCidetReg_Sse_xmm7, + kCidetReg_Sse_xmm8, + kCidetReg_Sse_xmm9, + kCidetReg_Sse_xmm10, + kCidetReg_Sse_xmm11, + kCidetReg_Sse_xmm12, + kCidetReg_Sse_xmm13, + kCidetReg_Sse_xmm14, + kCidetReg_Sse_xmm15, + kCidetReg_Sse_xmm16, + kCidetReg_Sse_xmm17, + kCidetReg_Sse_xmm18, + kCidetReg_Sse_xmm19, + kCidetReg_Sse_xmm20, + kCidetReg_Sse_xmm21, + kCidetReg_Sse_xmm22, + kCidetReg_Sse_xmm23, + kCidetReg_Sse_xmm24, + kCidetReg_Sse_xmm25, + kCidetReg_Sse_xmm26, + kCidetReg_Sse_xmm27, + kCidetReg_Sse_xmm28, + kCidetReg_Sse_xmm29, + kCidetReg_Sse_xmm30, + kCidetReg_Sse_xmm31, +#define kCidetReg_Sse_First kCidetReg_Mmx_Xmm0 +#define kCidetReg_Sse_Last kCidetReg_Mmx_Xmm15 +#define kCidetReg_Sse_Last_Avx512 kCidetReg_Mmx_Xmm31 + + kCidetReg_Avx_Ymm0, + kCidetReg_Avx_Ymm1, + kCidetReg_Avx_Ymm2, + kCidetReg_Avx_Ymm3, + kCidetReg_Avx_Ymm4, + kCidetReg_Avx_Ymm5, + kCidetReg_Avx_Ymm6, + kCidetReg_Avx_Ymm7, + kCidetReg_Avx_Ymm8, + kCidetReg_Avx_Ymm9, + kCidetReg_Avx_Ymm10, + kCidetReg_Avx_Ymm11, + kCidetReg_Avx_Ymm12, + kCidetReg_Avx_Ymm13, + kCidetReg_Avx_Ymm14, + kCidetReg_Avx_Ymm15, + kCidetReg_Avx_Ymm16, + kCidetReg_Avx_Ymm17, + kCidetReg_Avx_Ymm18, + kCidetReg_Avx_Ymm19, + kCidetReg_Avx_Ymm20, + kCidetReg_Avx_Ymm21, + kCidetReg_Avx_Ymm22, + kCidetReg_Avx_Ymm23, + kCidetReg_Avx_Ymm24, + kCidetReg_Avx_Ymm25, + kCidetReg_Avx_Ymm26, + kCidetReg_Avx_Ymm27, + kCidetReg_Avx_Ymm28, + kCidetReg_Avx_Ymm29, + kCidetReg_Avx_Ymm30, + kCidetReg_Avx_Ymm31, +#define kCidetReg_Avx_First kCidetReg_Avx_Ymm0 +#define kCidetReg_Avx_Last kCidetReg_Avx_Ymm15 +#define kCidetReg_Avx_Last_Avx512 kCidetReg_Avx_Ymm31 + + kCidetReg_Avx512_Zmm0, + kCidetReg_Avx512_Zmm1, + kCidetReg_Avx512_Zmm2, + kCidetReg_Avx512_Zmm3, + kCidetReg_Avx512_Zmm4, + kCidetReg_Avx512_Zmm5, + kCidetReg_Avx512_Zmm6, + kCidetReg_Avx512_Zmm7, + kCidetReg_Avx512_Zmm8, + kCidetReg_Avx512_Zmm9, + kCidetReg_Avx512_Zmm10, + kCidetReg_Avx512_Zmm11, + kCidetReg_Avx512_Zmm12, + kCidetReg_Avx512_Zmm13, + kCidetReg_Avx512_Zmm14, + kCidetReg_Avx512_Zmm15, + kCidetReg_Avx512_Zmm16, + kCidetReg_Avx512_Zmm17, + kCidetReg_Avx512_Zmm18, + kCidetReg_Avx512_Zmm19, + kCidetReg_Avx512_Zmm20, + kCidetReg_Avx512_Zmm21, + kCidetReg_Avx512_Zmm22, + kCidetReg_Avx512_Zmm23, + kCidetReg_Avx512_Zmm24, + kCidetReg_Avx512_Zmm25, + kCidetReg_Avx512_Zmm26, + kCidetReg_Avx512_Zmm27, + kCidetReg_Avx512_Zmm28, + kCidetReg_Avx512_Zmm29, + kCidetReg_Avx512_Zmm30, + kCidetReg_Avx512_Zmm31, +#define kCidetReg_Avx512_First kCidetReg_Avx512_Zmm0 +#define kCidetReg_Avx512_Last kCidetReg_Avx512_Zmm31 + + kCidetReg_End +} CIDETREG; + + +/** @name CIDETBUF_XXX - buffer flags. + * @{ */ +#define CIDETBUF_PROT_MASK UINT32_C(0x0000000f) /**< Page protection mask. */ +#define CIDETBUF_PROT_RWX UINT32_C(0x00000001) /**< Read + write + execute. */ +#define CIDETBUF_PROT_RWNX UINT32_C(0x00000002) /**< Read + write + no execute. */ +#define CIDETBUF_PROT_RX UINT32_C(0x00000003) /**< Read + execute. */ +#define CIDETBUF_PROT_RNX UINT32_C(0x00000004) /**< Read + no execute. */ +#define CIDETBUF_PROT_RWX_1NP UINT32_C(0x00000005) /**< Read + write + execute; 1 page not present. */ +#define CIDETBUF_PROT_RWX_1RWNX UINT32_C(0x00000006) /**< Read + write + execute; 1 page read + write + no execute. */ +#define CIDETBUF_PROT_RWX_1RNX UINT32_C(0x00000007) /**< Read + write + execute; 1 page read + no execute. */ +#define CIDETBUF_PROT_RWX_1RWXS UINT32_C(0x00000008) /**< Read + write + execute; 1 page read + execute + supervisor. */ + +#define CIDETBUF_LOC_MASK UINT32_C(0x000000f0) /**< Location mask. */ +/** Buffer located at top and start of the 32-bit address space. */ +#define CIDETBUF_LOC_32BIT_WRAP UINT32_C(0x00000010) +/** Buffer located at the low canonical boundrary (AMD64). */ +#define CIDETBUF_LOC_CANON_LO UINT32_C(0x00000020) +/** Buffer located at the high canonical boundrary (AMD64). */ +#define CIDETBUF_LOC_CANON_HI UINT32_C(0x00000030) + +/** Segment protection mask. */ +#define CIDETBUF_SEG_MASK UINT32_C(0x00000f00) +#define CIDETBUF_SEG_EO UINT32_C(0x00000100) /**< Execute only */ +#define CIDETBUF_SEG_ER UINT32_C(0x00000200) /**< Execute + read */ +#define CIDETBUF_SEG_EO_CONF UINT32_C(0x00000300) /**< Execute only + conforming. */ +#define CIDETBUF_SEG_ER_CONF UINT32_C(0x00000400) /**< Execute + read + conforming. */ +#define CIDETBUF_SEG_RO UINT32_C(0x00000500) /**< Read only. */ +#define CIDETBUF_SEG_RW UINT32_C(0x00000600) /**< Read + write. */ +#define CIDETBUF_SEG_RO_DOWN UINT32_C(0x00000700) /**< Read only + expand down. */ +#define CIDETBUF_SEG_RW_DOWN UINT32_C(0x00000800) /**< Read + write + expand down. */ + +#define CIDETBUF_DPL_MASK UINT32_C(0x00003000) /**< DPL mask. */ +#define CIDETBUF_DPL_0 UINT32_C(0x00000000) /**< DPL=0. */ +#define CIDETBUF_DPL_1 UINT32_C(0x00001000) /**< DPL=1. */ +#define CIDETBUF_DPL_2 UINT32_C(0x00002000) /**< DPL=2. */ +#define CIDETBUF_DPL_3 UINT32_C(0x00003000) /**< DPL=3. */ +#define CIDETBUF_DPL_SAME UINT32_C(0x00004000) /**< Same DPL as the execution environment. */ + +#define CIDETBUF_SEG_LIMIT_BASE_CAP UINT32_C(0x00008000) /**< Capability to change segment limit and base. */ + +#define CIDETBUF_KIND_DATA UINT32_C(0x00000000) /**< Data buffer. */ +#define CIDETBUF_KIND_CODE UINT32_C(0x80000000) /**< Code buffer. */ +/** Checks if @a a_fFlags describes a code buffer. */ +#define CIDETBUF_IS_CODE(a_fFlags) (((a_fFlags) & CIDETBUF_KIND_CODE) != 0) +/** Checks if @a a_fFlags describes a data buffer. */ +#define CIDETBUF_IS_DATA(a_fFlags) (((a_fFlags) & CIDETBUF_KIND_CODE) == 0) +/** @} */ + +/** Code buffer size. (At least two pages.) */ +#define CIDET_CODE_BUF_SIZE (PAGE_SIZE * 2) +/** Data buffer size. (At least two pages.) */ +#define CIDET_DATA_BUF_SIZE (PAGE_SIZE * 3) + + +/** + * Detailed expected exception. + * + * This is used to internally in the core to calculate the expected exception + * considering all the things that may cause exceptions. + */ +typedef enum CIDETEXPECTXCPT +{ + kCidetExpectXcpt_Invalid = 0, + /** No exception expected. */ + kCidetExpectXcpt_None, + + /** Page not present. */ + kCidetExpectXcpt_PageNotPresent, + /** Write access to a non-writable page. */ + kCidetExpectXcpt_PageNotWritable, + /** Executable access to a non-executable page. */ + kCidetExpectXcpt_PageNotExecutable, + /** Access to supervisor page from user mode code. */ + kCidetExpectXcpt_PagePrivileged, +#define kCidetExpectXcpt_First_PageFault kCidetExpectXcpt_PageNotPresent +#define kCidetExpectXcpt_Last_PageFault kCidetExpectXcpt_PagePrivileged + + /** Read or write access to an execute only segment. */ + kCidetExpectXcpt_SegExecuteOnly, + /** Write to a read only or execute+read segment. */ + kCidetExpectXcpt_SegNotWritable, + /** Exceeded the limit of a non-stack access. */ + kCidetExpectXcpt_SegExceededLimit, + /** Non-canonical address via any segment other than the stack. */ + kCidetExpectXcpt_AddrNotCanonical, + /** Misaligned 16 or 32 byte SSE or AVX operand. */ + kCidetExpectXcpt_MisalignedSseAvx, + /** Privileged instruction. */ + kCidetExpectXcpt_PrivilegedInstruction, +#define kCidetExpectXcpt_First_GeneralProtectionFault kCidetExpectXcpt_SegExecuteOnly +#define kCidetExpectXcpt_Last_GeneralProtectionFault kCidetExpectXcpt_PrivilegedInstruction + + /** Exceeded the limit of a stack access. */ + kCidetExpectXcpt_StackExceededLimit, + /** Non-canonical stack address. */ + kCidetExpectXcpt_StackAddrNotCanonical, +#define kCidetExpectXcpt_First_StackFault kCidetExpectXcpt_StackExceededLimit +#define kCidetExpectXcpt_Last_StackFault kCidetExpectXcpt_StackAddrNotCanonical + + /** Misaligned memory operand (and alignment checking is in effect) if AC is + * enabled (executing in ring-3). */ + kCidetExpectXcpt_MisalignedIfAcEnabled, + /** Misaligned 16 byte memory operand resulting in \#AC if ring-3 and + * enable, otherwise \#GP(0). */ + kCidetExpectXcpt_Misaligned16ByteAcEnabledOrGp, +#define kCidetExpectXcpt_First_AlignmentCheckFault kCidetExpectXcpt_MisalignedIfAcEnabled +#define kCidetExpectXcpt_Last_AlignmentCheckFault kCidetExpectXcpt_Misaligned16ByteAcEnabledOrGp + + kCidetExpectXcpt_End +} CIDETEXPECTXCPT; + + +/** + * Buffer configuration. + */ +typedef struct CIDETBUFCFG +{ + /** The name of this buffer configuration. */ + const char *pszName; + /** The buffer flags (CIDETBUF_XXX) */ + uint32_t fFlags; +} CIDETBUFCFG; +/** Pointer to a constant buffer configuration. */ +typedef CIDETBUFCFG const *PCCIDETBUFCFG; + + +/** + * CIDET buffer for code or data. + * + * ASSUMES page aligned buffers. + */ +typedef struct CIDETBUF +{ + /** @name Owned & modified by the front end. + * @{ */ + /** Effective buffer address. */ + uint64_t uEffBufAddr; + /** The segment base address. */ + uint64_t uSegBase; + /** The active segment limit (see also cbSegLimit). UINT64_MAX if flat. */ + uint64_t cbActiveSegLimit; + /** This specifies the selector to use if a non-flat segment limit or special + * segment flags was requested via pfnSetupBuf. UINT32_MAX if any segment is + * selector works. */ + uint32_t uSeg; + /** The off value at the last pfnReinitBuf call. */ + uint16_t offActive; + /** The cb value at the last pfnReinitBuf call. */ + uint16_t cbActive; + /** Prologue (or front fence) size. */ + uint16_t cbPrologue; + /** Epilogue (or tail fence) size. */ + uint16_t cbEpilogue; + /** @} */ + + /** @name Set by the core before pfnReinitBuf call. + * @{ */ + /** Pointer to the buffer config. */ + PCCIDETBUFCFG pCfg; + /** The configuration index. */ + uint32_t idxCfg; + /** The offset into the buffer of the data / code. */ + uint16_t off; + /** The number of bytes of data / code. */ + uint16_t cb; + /** The segment limit relative to the start of the buffer (last byte included + * in count). UINT16_MAX if maximum segment size should be used. */ + uint16_t cbSegLimit; + /** Desired segment base offset. + * This is for checking where the alignment checks are performed. */ + uint8_t offSegBase; + + /** Set if this buffer is actively being used. */ + bool fActive : 1; + /** The operand index (if data), 7 if not active. */ + uint8_t idxOp : 3; + /** Code: Set if the expected exception is supposed to occur on the + * following insturction, not the instruction unter test. */ + bool fXcptAfterInstruction : 1; + /** Set if the instruction will read from the buffer. */ + bool fRead : 1; + /** Set if the instruction will write to the buffer. */ + bool fWrite : 1; + /** The expected exception. */ + CIDETEXPECTXCPT enmExpectXcpt; + /** @} */ +} CIDETBUF; +/** Pointer to a CIDET buffer for code or data. */ +typedef CIDETBUF *PCIDETBUF; + + +/** + * CPU Instruction Decoding & Execution Testing (CIDET) state. + */ +typedef struct CIDETCORE +{ + /** Magic number (CIDETCORE_MAGIC). */ + uint32_t u32Magic; + + /** The target CPU mode / environment. */ + uint8_t bMode; + /** The target ring. */ + uint8_t iRing; + /** Unused padding bytes. */ + uint8_t abPadding1[2]; + + /** Test configuration. */ + uint64_t fTestCfg; + + /** Code buffer configurations to test. + * The first buffer must be a normal buffer that does not cause any problems. */ + PCCIDETBUFCFG paCodeBufConfigs; + /** The number of code buffer configurations to test (pafCodeBufConfigs). */ + uint32_t cCodeBufConfigs; + /** The number of data buffer configurations to test (pafDataBufConfigs). */ + uint32_t cDataBufConfigs; + /** Data buffer configurations to test. + * The first buffer must be a normal buffer that does not cause any problems. */ + PCCIDETBUFCFG paDataBufConfigs; + + /** The instruction currently under testing. */ + PCCIDETINSTR pCurInstr; + + /** Primary data buffer. */ + CIDETBUF DataBuf; + /** Secondary data buffer. */ + CIDETBUF DataBuf2; + + /** Handle to the random number source. */ + RTRAND hRand; + + /** + * Re-initializes one of the data buffers. + * + * @returns true on succes, false if the request cannot be satisfied. + * @param pThis The core state. + * @param pBuf Pointer to the buffer structure. + */ + DECLCALLBACKMEMBER(bool, pfnReInitDataBuf,(struct CIDETCORE *pThis, PCIDETBUF pBuf)); + + /** + * Copies bytes into the data buffer and sets it up for execution. + * + * @returns true on succes, false if the request cannot be satisfied. + * @param pThis The core state. + * @param pBuf Pointer to the buffer structure. + * @param pvSrc The source bytes (size and destination offset + * given in pfnReinitBuf call). + */ + DECLCALLBACKMEMBER(bool, pfnSetupDataBuf,(struct CIDETCORE *pThis, PCIDETBUF pBuf, void const *pvSrc)); + + /** + * Compares buffer content after test execution. + * + * This also checks any fill bytes in the buffer that the front end may + * have put up. The front end will double buffer the content of supposedly + * inaccessible pages as well as non-existing pages to simplify things for + * the core code. + * + * @returns true if equal, false if not. + * @param pThis The core state. + * @param pBuf Pointer to the buffer structure. + * @param pvExpected Pointer to the expected source bytes (size and + * buffer offset given in pfnReinitBuf call). + */ + DECLCALLBACKMEMBER(bool, pfnIsBufEqual,(struct CIDETCORE *pThis, struct CIDETBUF *pBuf, void const *pvExpected)); + + /** + * Re-initializes the code buffer. + * + * @returns true on succes, false if the request cannot be satisfied. + * @param pThis The core state. + * @param pBuf Pointer to the CodeBuf member. The off and cb + * members represent what the core wants to + * execute. + */ + DECLCALLBACKMEMBER(bool, pfnReInitCodeBuf,(struct CIDETCORE *pThis, PCIDETBUF pBuf)); + + /** + * Emit code into the code buffer, making everything ready for pfnExecute. + * + * @returns VBox status code. + * @param pThis Pointer to the core structure. + * @param pBuf Pointer to the CodeBuf member. + * @param pvInstr Pointer to the encoded instruction bytes. + */ + DECLCALLBACKMEMBER(bool, pfnSetupCodeBuf,(struct CIDETCORE *pThis, PCIDETBUF pBuf, void const *pvInstr)); + + /** + * Executes the code indicated by InCtx, returning the result in ActualCtx. + * + * @returns true if execute, false if skipped. + * @param pThis Pointer to the core structure. + */ + DECLCALLBACKMEMBER(bool, pfnExecute,(struct CIDETCORE *pThis)); + + /** + * Report a test failure. + * + * @param pThis Pointer to the core structure. + * @param pszFormat Format string containing failure details. + * @param va Arguments referenced in @a pszFormat. + */ + DECLCALLBACKMEMBER(void, pfnFailure,(struct CIDETCORE *pThis, const char *pszFormat, va_list va)); + + /** Array of indexes for use by FNCIDETSETUPINOUT. + * Reset when changing instruction or switching between valid and invalid + * inputs. */ + uint32_t aiInOut[4]; + + /** @name Copyied and extracted instruction information. + * @{ */ + /** The flags (CIDET_OF_XXX) for the MODRM.REG operand, 0 if not applicable. */ + uint32_t fMrmRegOp; + /** The flags (CIDET_OF_XXX) for the MODRM.RM operand, 0 if not applicable. */ + uint32_t fMrmRmOp; + /** Instruction flags (CIDETINSTR::fFlags). */ + uint64_t fInstrFlags; + /** Number of operands (CIDETINSTR::cOperands). */ + uint8_t cOperands; + /** Number of memory operands (set by CidetCoreSetupFirstMemoryOperandConfig). */ + uint8_t cMemoryOperands : 3; + /** Set if we're working on a MOD R/M byte. */ + bool fUsesModRm : 1; + /** The index of the MODRM.REG operand, 7 if not applicable. */ + uint8_t idxMrmRegOp : 3; + /** The index of the MODRM.RM operand, 7 if not applicable. */ + uint8_t idxMrmRmOp : 3; + /** Set if the SIB byte uses VEX registers for indexing. */ + bool fUsesVexIndexRegs : 1; + /** @} */ + + /** @name Basic encoding knobs, wheels and indicators. + * @{ */ + /** Set if we're working on a SIB byte. */ + bool fSib : 1; + /** Required segment prefix (X86_SREG_XXX), X86_SREG_COUNT if not. */ + uint8_t uSegPrf : 3; + /** The address size prefix. */ + bool fAddrSizePrf : 1; + /** The operand size prefix. */ + bool fOpSizePrf : 1; + /** The REX.W prefix value. */ + bool fRexW : 1; + /** The REX.R prefix value. */ + bool fRexR : 1; + /** The REX.X prefix value. */ + bool fRexX : 1; + /** The REX.B prefix value. */ + bool fRexB : 1; + /** Set if a REX prefix is required with or without flags (for byte regs). */ + bool fRex : 1; + /** Use VEX encoding. */ + bool fVex : 1; + /** Use EVEX encoding. */ + bool fEvex : 1; + /** Indicator: Effective addressing mode in bytes (2, 4, 8). */ + uint8_t cbAddrMode : 4; + /** Indicator: Set if there is an operand accessing memory. */ + bool fHasMemoryOperand : 1; + /** Indicator: Set if a register is used in two or more operands, and one of + * them being for addressing. */ + bool fHasRegCollisionMem : 1; + /** Indicator: Helper indicator for tracking SIB.BASE collision. */ + bool fHasRegCollisionMemBase : 1; + /** Indicator: Helper indicator for tracking SIB.INDEX collision. */ + bool fHasRegCollisionMemIndex : 1; + /** Indicator: Set if a register is used directly in more than one operand. */ + bool fHasRegCollisionDirect : 1; + + /** Indicator: Set if MODRM.REG is the stack register. */ + bool fHasStackRegInMrmReg : 1; + /** Indicator: Set if MODRM.RM or SIB.BASE is the stack register. */ + bool fHasStackRegInMrmRmBase: 1; + + /** Indicator: High byte-register specified by MODRM.REG. */ + bool fHasHighByteRegInMrmReg : 1; + /** Indicator: High byte-register specified by MODRM.RM. */ + bool fHasHighByteRegInMrmRm : 1; + /** Indicator: Set if REX prefixes are incompatible with the byte-register + * specified by MODRM.REG. */ + bool fNoRexPrefixMrmReg : 1; + /** Indicator: Set if REX prefixes are incompatible with the byte-register + * specified by MODRM.RM. */ + bool fNoRexPrefixMrmRm : 1; + /** Indicator: fNoRexPrefixMrmReg || fNoRexPrefixMrmMr. */ + bool fNoRexPrefix : 1; + /** The MOD R/M byte we're working on (if fUsesModRm is set). */ + uint8_t bModRm; + /** The SIB/VSIB byte we're working on (if fSib is set). */ + uint8_t bSib; + /** @} */ + + /** The effective instruction address. (See InCtx.rip and InCtx.cs for the + * rest of the instruction addressing stuff.) */ + uint64_t uInstrEffAddr; + + /** Operand information, mainly for the FNCIDETSETUPINOUT and similar. */ + struct + { + /** The operand flags copied from (CIDETINSTR::afOperands). */ + uint32_t fFlags; + /** The encoded register number, if register, UINT8_MAX if not. */ + uint8_t iReg; + /** The actual operand size (encoded). */ + uint8_t cb; + /** Set if immediate value. */ + bool fIsImmediate : 1; + /** Set if memory access. */ + bool fIsMem : 1; + /** Set if addressing is relative to RIP. */ + bool fIsRipRelative : 1; + /** Set if it's a high byte register. */ + bool fIsHighByteRegister : 1; + /** Size of the disposition, 0 if none. */ + uint8_t cbMemDisp; + /** Base register, UINT8_MAX if not applicable. */ + uint8_t iMemBaseReg; + /** Index register, UINT8_MAX if not applicable. */ + uint8_t iMemIndexReg; + /** Index register, 1 if not applicable. */ + uint8_t uMemScale; + /** Effective segment register, UINT8_MAX if not memory access. */ + uint8_t iEffSeg; + /** Segment offset if memory access. Undefined if not memory access. */ + uint64_t offSeg; + /** The effective address if memory access. */ + uint64_t uEffAddr; + /** Immediate or displacement value. */ + uint64_t uImmDispValue; + /** Base register value, undefined if irrelevant. */ + uint64_t uMemBaseRegValue; + /** Index register value, undefined if irrelevant. */ + uint64_t uMemIndexRegValue; + /** Points to where the input data for this operand should be placed, + * when possible. In the fIsMem = true case, it either points directly + * to the input buffer or to a temporary one. While in the other case, + * it'll point into InCtx when possible. */ + RTPTRUNION In; + /** Points to where the expected output data for this operand should be + * stored, when possible. In the fIsMem = false case, it'll point into + * ExpectedCtx when possible. */ + RTPTRUNION Expected; + /** Pointer to the data buffer for this operand. */ + PCIDETBUF pDataBuf; + } aOperands[4]; + + /** Buffer where we assemble the instruction. */ + uint8_t abInstr[45]; + /** The size of the instruction in abInstr. */ + uint8_t cbInstr; + /** Offset of the instruction into the buffer. */ + uint16_t offInstr; + /** Current code buffer. */ + CIDETBUF CodeBuf; + + /** The input context. Initalized by driver and FNCIDETSETUPINOUT. */ + CIDETCPUCTX InCtx; + /** The expected output context. */ + CIDETCPUCTX ExpectedCtx; + /** The actual output context. */ + CIDETCPUCTX ActualCtx; + /** Template input context, initialized when setting the mode. */ + CIDETCPUCTX InTemplateCtx; + + /** Input and expected output temporary memory buffers. */ + uint8_t abBuf[0x2000]; + + + /** Number of skipped tests because of pfnSetupInOut failures. */ + uint32_t cSkippedSetupInOut; + /** Number of skipped tests because of pfnReInitDataBuf failures. */ + uint32_t cSkippedReInitDataBuf; + /** Number of skipped tests because of pfnSetupDataBuf failures. */ + uint32_t cSkippedSetupDataBuf; + /** Number of skipped tests because RIP relative addressing constraints. */ + uint32_t cSkippedDataBufWrtRip; + /** Number of skipped tests because of assemble failures. */ + uint32_t cSkippedAssemble; + /** Number of skipped tests because of pfnReInitCodeBuf failures. */ + uint32_t cSkippedReInitCodeBuf; + /** Number of skipped tests because of pfnSetupCodeBuf failures. */ + uint32_t cSkippedSetupCodeBuf; + /** Number of skipped tests because the base and index registers are the same + * one and there was a remainder when trying to point to the data buffer. */ + uint32_t cSkippedSameBaseIndexRemainder; + /** Number of skipped tests because index-only addressing left a remainder. */ + uint32_t cSkippedOnlyIndexRemainder; + /** Number of skipped tests because of direct addressing overflowed. */ + uint32_t cSkippedDirectAddressingOverflow; + + +} CIDETCORE; +/** Pointer to the CIDET core state. */ +typedef CIDETCORE *PCIDETCORE; + +/** Magic number for CIDETCORE (Lee Konitz). */ +#define CIDETCORE_MAGIC UINT32_C(0x19271013) + + +int CidetCoreInit(PCIDETCORE pThis, RTRAND hRand); +void CidetCoreDelete(PCIDETCORE pThis); +int CidetCoreSetTargetMode(PCIDETCORE pThis, uint8_t bMode); +uint32_t CidetCoreGetOperandSize(PCIDETCORE pThis, uint8_t iOp); +bool CidetCoreTestInstruction(PCIDETCORE pThis, PCCIDETINSTR pInstr); + + +extern const CIDETINSTR g_aCidetInstructions1[]; +extern const uint32_t g_cCidetInstructions1; + +#endif /* !VBOX_INCLUDED_SRC_cpu_cidet_h */ + -- cgit v1.2.3