/* $Id: bs3-mode-TestDoModesByOne.c $ */ /** @file * BS3Kit - Bs3TestDoModesByOne */ /* * Copyright (C) 2007-2023 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 */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #if TMPL_MODE == BS3_MODE_RM # define BS3_USE_RM_TEXT_SEG 1 /* Real mode version in RMTEXT16 segment to save space. */ # include "bs3kit-template-header.h" # include "bs3-cmn-test.h" #else # include "bs3kit-template-header.h" # include "bs3-cmn-test.h" #endif #include "bs3-mode-TestDoModes.h" /********************************************************************************************************************************* * Assembly Symbols * *********************************************************************************************************************************/ /* Assembly helpers for switching to the work bitcount and calling it. */ BS3_DECL_FAR(uint8_t) Bs3TestCallDoerTo16_f16(uint8_t bMode); BS3_DECL_FAR(uint8_t) Bs3TestCallDoerTo16_c32(uint8_t bMode); BS3_DECL_FAR(uint8_t) Bs3TestCallDoerTo16_c64(uint8_t bMode); BS3_DECL_FAR(uint8_t) Bs3TestCallDoerTo32_f16(uint8_t bMode); BS3_DECL_FAR(uint8_t) Bs3TestCallDoerTo32_c32(uint8_t bMode); BS3_DECL_FAR(uint8_t) Bs3TestCallDoerTo32_c64(uint8_t bMode); BS3_DECL_FAR(uint8_t) Bs3TestCallDoerTo64_f16(uint8_t bMode); BS3_DECL_FAR(uint8_t) Bs3TestCallDoerTo64_c32(uint8_t bMode); BS3_DECL_FAR(uint8_t) Bs3TestCallDoerTo64_c64(uint8_t bMode); /** The current worker function, picked up by our assembly helpers. */ #ifndef DOXYGEN_RUNNING # define g_pfnBs3TestDoModesByOneCurrent BS3_CMN_NM(g_pfnBs3TestDoModesByOneCurrent) #endif extern PFNBS3TESTDOMODE g_pfnBs3TestDoModesByOneCurrent; #include #undef Bs3TestDoModesByOne BS3_MODE_DEF(void, Bs3TestDoModesByOne,(PCBS3TESTMODEBYONEENTRY paEntries, size_t cEntries, uint32_t fFlags)) { bool const fVerbose = true; bool const fDoV86Modes = true; bool const fDoWeirdV86Modes = true; uint16_t const uCpuDetected = g_uBs3CpuDetected; uint8_t const bCpuType = uCpuDetected & BS3CPU_TYPE_MASK; bool const fHavePae = RT_BOOL(uCpuDetected & BS3CPU_F_PAE); bool const fHaveLongMode = RT_BOOL(uCpuDetected & BS3CPU_F_LONG_MODE); unsigned i; #if 1 /* debug. */ Bs3Printf("Bs3TestDoModesByOne: uCpuDetected=%#x fHavePae=%d fHaveLongMode=%d\n", uCpuDetected, fHavePae, fHaveLongMode); #endif /* * Inform about modes we won't test (if any). */ if (bCpuType < BS3CPU_80286) Bs3Printf("Only executing real-mode tests as no 80286+ CPU was detected.\n"); else if (bCpuType < BS3CPU_80386) Bs3Printf("80286 CPU: Only executing 16-bit protected and real mode tests.\n"); else if (!fHavePae) Bs3Printf("PAE and long mode tests will be skipped.\n"); else if (!fHaveLongMode) Bs3Printf("Long mode tests will be skipped.\n"); #if ARCH_BITS != 16 Bs3Printf("Real-mode tests will be skipped.\n"); #endif /* * The real run. */ for (i = 0; i < cEntries; i++) { const char *pszFmtStr = "Error #%u (%#x) in %s!\n"; bool fSkipped = true; bool const fOnlyPaging = RT_BOOL((paEntries[i].fFlags | fFlags) & BS3TESTMODEBYONEENTRY_F_ONLY_PAGING); bool const fMinimal = RT_BOOL((paEntries[i].fFlags | fFlags) & BS3TESTMODEBYONEENTRY_F_MINIMAL); bool const fCurDoV86Modes = fDoV86Modes && !fMinimal; bool const fCurDoWeirdV86Modes = fDoWeirdV86Modes && fCurDoV86Modes; uint8_t bErrNo; Bs3TestSub(paEntries[i].pszSubTest); #define PRE_DO_CALL(a_szModeName) do { if (fVerbose) Bs3TestPrintf("...%s\n", a_szModeName); } while (0) #define CHECK_RESULT(a_szModeName) \ do { \ if (bErrNo != BS3TESTDOMODE_SKIPPED) \ { \ /*Bs3Printf("bErrNo=%#x %s\n", bErrNo, a_szModeName);*/ \ fSkipped = false; \ if (bErrNo != 0) \ Bs3TestFailedF(pszFmtStr, bErrNo, bErrNo, a_szModeName); \ } \ } while (0) g_pfnBs3TestDoModesByOneCurrent = paEntries[i].pfnWorker; #if ARCH_BITS != 64 # if ARCH_BITS == 16 if (!fOnlyPaging) { PRE_DO_CALL(g_szBs3ModeName_rm); bErrNo = TMPL_NM(Bs3TestCallDoerInRM)(CONV_TO_RM_FAR16(paEntries[i].pfnWorker)); CHECK_RESULT(g_szBs3ModeName_rm); } # else if (!fOnlyPaging && (paEntries[i].fFlags | fFlags) & BS3TESTMODEBYONEENTRY_F_REAL_MODE_READY) { PRE_DO_CALL(g_szBs3ModeName_rm); bErrNo = TMPL_NM(Bs3TestCallDoerInPE32)(CONV_TO_FLAT(paEntries[i].pfnWorker), BS3_MODE_RM); CHECK_RESULT(g_szBs3ModeName_rm); } # endif if (bCpuType < BS3CPU_80286) { if (fSkipped) Bs3TestSkipped(NULL); continue; } /* * Unpaged prot mode. */ if (!fOnlyPaging && (!fMinimal || bCpuType < BS3CPU_80386)) { PRE_DO_CALL(g_szBs3ModeName_pe16); # if ARCH_BITS == 16 bErrNo = TMPL_NM(Bs3TestCallDoerInPE16)(CONV_TO_PROT_FAR16(paEntries[i].pfnWorker)); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPE16)(CONV_TO_PROT_FAR16(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_f16))); # endif CHECK_RESULT(g_szBs3ModeName_pe16); } if (bCpuType < BS3CPU_80386) { if (fSkipped) Bs3TestSkipped(NULL); continue; } if (!fOnlyPaging) { PRE_DO_CALL(g_szBs3ModeName_pe16_32); # if ARCH_BITS == 32 bErrNo = TMPL_NM(Bs3TestCallDoerInPE16_32)(CONV_TO_FLAT(paEntries[i].pfnWorker), BS3_MODE_PE16_32); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPE16_32)(CONV_TO_FLAT(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_c32)), BS3_MODE_PE16_32); # endif CHECK_RESULT(g_szBs3ModeName_pe16_32); } if (fCurDoWeirdV86Modes && !fOnlyPaging) { PRE_DO_CALL(g_szBs3ModeName_pe16_v86); # if ARCH_BITS == 16 bErrNo = TMPL_NM(Bs3TestCallDoerInPE16_V86)(CONV_TO_RM_FAR16(paEntries[i].pfnWorker)); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPE16_V86)(CONV_TO_RM_FAR16(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_f16))); # endif CHECK_RESULT(g_szBs3ModeName_pe16_v86); } if (!fOnlyPaging) { PRE_DO_CALL(g_szBs3ModeName_pe32); # if ARCH_BITS == 32 bErrNo = TMPL_NM(Bs3TestCallDoerInPE32)(CONV_TO_FLAT(paEntries[i].pfnWorker), BS3_MODE_PE32); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPE32)(CONV_TO_FLAT(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_c32)), BS3_MODE_PE32); # endif CHECK_RESULT(g_szBs3ModeName_pe32); } if (!fOnlyPaging && !fMinimal) { PRE_DO_CALL(g_szBs3ModeName_pe32_16); # if ARCH_BITS == 16 bErrNo = TMPL_NM(Bs3TestCallDoerInPE32_16)(CONV_TO_PROT_FAR16(paEntries[i].pfnWorker)); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPE32_16)(CONV_TO_PROT_FAR16(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_f16))); # endif CHECK_RESULT(g_szBs3ModeName_pe32_16); } if (fCurDoV86Modes && !fOnlyPaging) { PRE_DO_CALL(g_szBs3ModeName_pev86); # if ARCH_BITS == 16 bErrNo = TMPL_NM(Bs3TestCallDoerInPEV86)(CONV_TO_RM_FAR16(paEntries[i].pfnWorker)); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPEV86)(CONV_TO_RM_FAR16(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_f16))); # endif CHECK_RESULT(g_szBs3ModeName_pev86); } /* * Paged protected mode. */ if (!fMinimal) { PRE_DO_CALL(g_szBs3ModeName_pp16); # if ARCH_BITS == 16 bErrNo = TMPL_NM(Bs3TestCallDoerInPP16)(CONV_TO_PROT_FAR16(paEntries[i].pfnWorker)); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPP16)(CONV_TO_PROT_FAR16(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_f16))); # endif CHECK_RESULT(g_szBs3ModeName_pp16); } if (!fMinimal) { PRE_DO_CALL(g_szBs3ModeName_pp16_32); # if ARCH_BITS == 32 bErrNo = TMPL_NM(Bs3TestCallDoerInPP16_32)(CONV_TO_FLAT(paEntries[i].pfnWorker), BS3_MODE_PP16_32); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPP16_32)(CONV_TO_FLAT(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_c32)), BS3_MODE_PP16_32); # endif CHECK_RESULT(g_szBs3ModeName_pp16_32); } if (fCurDoWeirdV86Modes) { PRE_DO_CALL(g_szBs3ModeName_pp16_v86); # if ARCH_BITS == 16 bErrNo = TMPL_NM(Bs3TestCallDoerInPP16_V86)(CONV_TO_RM_FAR16(paEntries[i].pfnWorker)); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPP16_V86)(CONV_TO_RM_FAR16(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_f16))); # endif CHECK_RESULT(g_szBs3ModeName_pp16_v86); } if (true) { PRE_DO_CALL(g_szBs3ModeName_pp32); # if ARCH_BITS == 32 bErrNo = TMPL_NM(Bs3TestCallDoerInPP32)(CONV_TO_FLAT(paEntries[i].pfnWorker), BS3_MODE_PP32); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPP32)(CONV_TO_FLAT(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_c32)), BS3_MODE_PP32); # endif CHECK_RESULT(g_szBs3ModeName_pp32); } if (!fMinimal) { PRE_DO_CALL(g_szBs3ModeName_pp32_16); # if ARCH_BITS == 16 bErrNo = TMPL_NM(Bs3TestCallDoerInPP32_16)(CONV_TO_PROT_FAR16(paEntries[i].pfnWorker)); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPP32_16)(CONV_TO_PROT_FAR16(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_f16))); # endif CHECK_RESULT(g_szBs3ModeName_pp32_16); } if (fCurDoV86Modes) { PRE_DO_CALL(g_szBs3ModeName_ppv86); # if ARCH_BITS == 16 bErrNo = TMPL_NM(Bs3TestCallDoerInPPV86)(CONV_TO_RM_FAR16(paEntries[i].pfnWorker)); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPPV86)(CONV_TO_RM_FAR16(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_f16))); # endif CHECK_RESULT(g_szBs3ModeName_ppv86); } /* * Protected mode with PAE paging. */ if (!fMinimal) { PRE_DO_CALL(g_szBs3ModeName_pae16); # if ARCH_BITS == 16 bErrNo = TMPL_NM(Bs3TestCallDoerInPAE16)(CONV_TO_PROT_FAR16(paEntries[i].pfnWorker)); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPAE16)(CONV_TO_PROT_FAR16(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_f16))); # endif CHECK_RESULT(g_szBs3ModeName_pae16); } if (!fMinimal) { PRE_DO_CALL(g_szBs3ModeName_pae16_32); # if ARCH_BITS == 32 bErrNo = TMPL_NM(Bs3TestCallDoerInPAE16_32)(CONV_TO_FLAT(paEntries[i].pfnWorker), BS3_MODE_PAE16_32); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPAE16_32)(CONV_TO_FLAT(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_c32)), BS3_MODE_PAE16_32); # endif CHECK_RESULT(g_szBs3ModeName_pae16_32); } if (fCurDoWeirdV86Modes) { PRE_DO_CALL(g_szBs3ModeName_pae16_v86); # if ARCH_BITS == 16 bErrNo = TMPL_NM(Bs3TestCallDoerInPAE16_V86)(CONV_TO_RM_FAR16(paEntries[i].pfnWorker)); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPAE16_V86)(CONV_TO_RM_FAR16(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_f16))); # endif CHECK_RESULT(g_szBs3ModeName_pae16_v86); } if (true) { PRE_DO_CALL(g_szBs3ModeName_pae32); # if ARCH_BITS == 32 bErrNo = TMPL_NM(Bs3TestCallDoerInPAE32)(CONV_TO_FLAT(paEntries[i].pfnWorker), BS3_MODE_PAE32); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPAE32)(CONV_TO_FLAT(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_c32)), BS3_MODE_PAE32); # endif CHECK_RESULT(g_szBs3ModeName_pae32); } if (!fMinimal) { PRE_DO_CALL(g_szBs3ModeName_pae32_16); # if ARCH_BITS == 16 bErrNo = TMPL_NM(Bs3TestCallDoerInPAE32_16)(CONV_TO_PROT_FAR16(paEntries[i].pfnWorker)); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPAE32_16)(CONV_TO_PROT_FAR16(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_f16))); # endif CHECK_RESULT(g_szBs3ModeName_pae32_16); } if (fCurDoV86Modes) { PRE_DO_CALL(g_szBs3ModeName_paev86); # if ARCH_BITS == 16 bErrNo = TMPL_NM(Bs3TestCallDoerInPAEV86)(CONV_TO_RM_FAR16(paEntries[i].pfnWorker)); # else bErrNo = TMPL_NM(Bs3TestCallDoerInPAEV86)(CONV_TO_RM_FAR16(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_f16))); # endif CHECK_RESULT(g_szBs3ModeName_paev86); } #endif /* ARCH_BITS != 64 */ /* * Long mode. */ if (!fHaveLongMode) { if (fSkipped) Bs3TestSkipped(NULL); continue; } if (!fMinimal) { PRE_DO_CALL(g_szBs3ModeName_lm16); #if ARCH_BITS == 16 bErrNo = TMPL_NM(Bs3TestCallDoerInLM16)(CONV_TO_PROT_FAR16(paEntries[i].pfnWorker)); #else bErrNo = TMPL_NM(Bs3TestCallDoerInLM16)(CONV_TO_PROT_FAR16(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_f16))); #endif CHECK_RESULT(g_szBs3ModeName_lm16); } if (!fMinimal) { PRE_DO_CALL(g_szBs3ModeName_lm32); #if ARCH_BITS == 32 bErrNo = TMPL_NM(Bs3TestCallDoerInLM32)(CONV_TO_FLAT(paEntries[i].pfnWorker)); #else bErrNo = TMPL_NM(Bs3TestCallDoerInLM32)(CONV_TO_FLAT(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_c32))); #endif CHECK_RESULT(g_szBs3ModeName_lm32); } if (true) { PRE_DO_CALL(g_szBs3ModeName_lm64); #if ARCH_BITS == 64 bErrNo = TMPL_NM(Bs3TestCallDoerInLM64)(CONV_TO_FLAT(paEntries[i].pfnWorker), BS3_MODE_LM64); #else bErrNo = TMPL_NM(Bs3TestCallDoerInLM64)(CONV_TO_FLAT(RT_CONCAT3(Bs3TestCallDoerTo,ARCH_BITS,_c64)), BS3_MODE_LM64); #endif CHECK_RESULT(g_szBs3ModeName_lm64); } if (fSkipped) Bs3TestSkipped("skipped\n"); } Bs3TestSubDone(); }