1 | /* $Id: DBGFCoreWrite.cpp 76553 2019-01-01 01:45:53Z vboxsync $ */
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2 | /** @file
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3 | * DBGF - Debugger Facility, Guest Core Dump.
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4 | */
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5 |
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6 | /*
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7 | * Copyright (C) 2010-2019 Oracle Corporation
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8 | *
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9 | * This file is part of VirtualBox Open Source Edition (OSE), as
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10 | * available from http://www.virtualbox.org. This file is free software;
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11 | * you can redistribute it and/or modify it under the terms of the GNU
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12 | * General Public License (GPL) as published by the Free Software
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13 | * Foundation, in version 2 as it comes in the "COPYING" file of the
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14 | * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
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15 | * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
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16 | */
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17 |
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18 | /** @page pg_dbgf_vmcore VMCore Format
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19 | *
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20 | * The VirtualBox VMCore Format:
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21 | * [ ELF 64 Header] -- Only 1
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22 | *
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23 | * [ PT_NOTE ] -- Only 1
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24 | * - Offset into CoreDescriptor followed by list of Notes (Note Hdr + data) of VBox CPUs.
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25 | * - (Any Additional custom Note sections).
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26 | *
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27 | * [ PT_LOAD ] -- One for each contiguous memory chunk
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28 | * - Memory offset (physical).
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29 | * - File offset.
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30 | *
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31 | * CoreDescriptor
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32 | * - Magic, VBox version.
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33 | * - Number of CPus.
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34 | *
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35 | * Per-CPU register dump
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36 | * - CPU 1 Note Hdr + Data.
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37 | * - CPU 2 Note Hdr + Data.
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38 | * ...
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39 | * (Additional custom notes Hdr+data)
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40 | * - VBox 1 Note Hdr + Data.
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41 | * - VBox 2 Note Hdr + Data.
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42 | * ...
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43 | * Memory dump
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44 | *
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45 | */
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46 |
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47 |
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48 | /*********************************************************************************************************************************
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49 | * Header Files *
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50 | *********************************************************************************************************************************/
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51 | #define LOG_GROUP LOG_GROUP_DBGF
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52 | #include <iprt/param.h>
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53 | #include <iprt/file.h>
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54 | #include <iprt/mem.h>
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55 | #include <iprt/formats/elf64.h>
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56 |
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57 | #include "DBGFInternal.h"
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58 |
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59 | #include <VBox/vmm/cpum.h>
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60 | #include <VBox/vmm/pgm.h>
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61 | #include <VBox/vmm/apic.h>
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62 | #include <VBox/vmm/dbgf.h>
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63 | #include <VBox/vmm/dbgfcorefmt.h>
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64 | #include <VBox/vmm/mm.h>
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65 | #include <VBox/vmm/vm.h>
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66 | #include <VBox/vmm/uvm.h>
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67 |
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68 | #include <VBox/err.h>
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69 | #include <VBox/log.h>
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70 | #include <VBox/version.h>
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71 |
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72 |
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73 | /*********************************************************************************************************************************
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74 | * Defined Constants And Macros *
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75 | *********************************************************************************************************************************/
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76 | #define DBGFLOG_NAME "DBGFCoreWrite"
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77 |
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78 |
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79 | /*********************************************************************************************************************************
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80 | * Global Variables *
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81 | *********************************************************************************************************************************/
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82 | static const int g_NoteAlign = 8;
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83 | static const int g_cbNoteName = 16;
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84 |
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85 | /* The size of these strings (incl. NULL terminator) must align to 8 bytes (g_NoteAlign) and -not- 4 bytes. */
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86 | static const char *g_pcszCoreVBoxCore = "VBCORE";
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87 | static const char *g_pcszCoreVBoxCpu = "VBCPU";
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88 |
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89 |
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90 | /*********************************************************************************************************************************
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91 | * Structures and Typedefs *
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92 | *********************************************************************************************************************************/
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93 | /**
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94 | * Guest core writer data.
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95 | *
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96 | * Used to pass parameters from DBGFR3CoreWrite to dbgfR3CoreWriteRendezvous().
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97 | */
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98 | typedef struct DBGFCOREDATA
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99 | {
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100 | /** The name of the file to write the file to. */
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101 | const char *pszFilename;
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102 | /** Whether to replace (/overwrite) any existing file. */
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103 | bool fReplaceFile;
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104 | } DBGFCOREDATA;
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105 | /** Pointer to the guest core writer data. */
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106 | typedef DBGFCOREDATA *PDBGFCOREDATA;
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107 |
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108 |
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109 |
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110 | /**
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111 | * ELF function to write 64-bit ELF header.
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112 | *
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113 | * @param hFile The file to write to.
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114 | * @param cProgHdrs Number of program headers.
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115 | * @param cSecHdrs Number of section headers.
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116 | *
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117 | * @return IPRT status code.
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118 | */
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119 | static int Elf64WriteElfHdr(RTFILE hFile, uint16_t cProgHdrs, uint16_t cSecHdrs)
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120 | {
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121 | Elf64_Ehdr ElfHdr;
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122 | RT_ZERO(ElfHdr);
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123 | ElfHdr.e_ident[EI_MAG0] = ELFMAG0;
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124 | ElfHdr.e_ident[EI_MAG1] = ELFMAG1;
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125 | ElfHdr.e_ident[EI_MAG2] = ELFMAG2;
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126 | ElfHdr.e_ident[EI_MAG3] = ELFMAG3;
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127 | ElfHdr.e_ident[EI_DATA] = ELFDATA2LSB;
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128 | ElfHdr.e_type = ET_CORE;
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129 | ElfHdr.e_version = EV_CURRENT;
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130 | ElfHdr.e_ident[EI_CLASS] = ELFCLASS64;
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131 | /* 32-bit builds will produce cores with e_machine EM_386. */
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132 | #ifdef RT_ARCH_AMD64
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133 | ElfHdr.e_machine = EM_X86_64;
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134 | #else
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135 | ElfHdr.e_machine = EM_386;
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136 | #endif
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137 | ElfHdr.e_phnum = cProgHdrs;
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138 | ElfHdr.e_shnum = cSecHdrs;
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139 | ElfHdr.e_ehsize = sizeof(ElfHdr);
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140 | ElfHdr.e_phoff = sizeof(ElfHdr);
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141 | ElfHdr.e_phentsize = sizeof(Elf64_Phdr);
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142 | ElfHdr.e_shentsize = sizeof(Elf64_Shdr);
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143 |
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144 | return RTFileWrite(hFile, &ElfHdr, sizeof(ElfHdr), NULL /* all */);
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145 | }
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146 |
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147 |
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148 | /**
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149 | * ELF function to write 64-bit program header.
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150 | *
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151 | * @param hFile The file to write to.
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152 | * @param Type Type of program header (PT_*).
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153 | * @param fFlags Flags (access permissions, PF_*).
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154 | * @param offFileData File offset of contents.
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155 | * @param cbFileData Size of contents in the file.
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156 | * @param cbMemData Size of contents in memory.
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157 | * @param Phys Physical address, pass zero if not applicable.
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158 | *
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159 | * @return IPRT status code.
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160 | */
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161 | static int Elf64WriteProgHdr(RTFILE hFile, uint32_t Type, uint32_t fFlags, uint64_t offFileData, uint64_t cbFileData,
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162 | uint64_t cbMemData, RTGCPHYS Phys)
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163 | {
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164 | Elf64_Phdr ProgHdr;
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165 | RT_ZERO(ProgHdr);
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166 | ProgHdr.p_type = Type;
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167 | ProgHdr.p_flags = fFlags;
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168 | ProgHdr.p_offset = offFileData;
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169 | ProgHdr.p_filesz = cbFileData;
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170 | ProgHdr.p_memsz = cbMemData;
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171 | ProgHdr.p_paddr = Phys;
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172 |
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173 | return RTFileWrite(hFile, &ProgHdr, sizeof(ProgHdr), NULL /* all */);
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174 | }
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175 |
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176 |
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177 | /**
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178 | * Returns the size of the NOTE section given the name and size of the data.
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179 | *
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180 | * @param pszName Name of the note section.
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181 | * @param cbData Size of the data portion of the note section.
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182 | *
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183 | * @return The size of the NOTE section as rounded to the file alignment.
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184 | */
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185 | static uint64_t Elf64NoteSectionSize(const char *pszName, uint64_t cbData)
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186 | {
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187 | uint64_t cbNote = sizeof(Elf64_Nhdr);
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188 |
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189 | size_t cbName = strlen(pszName) + 1;
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190 | size_t cbNameAlign = RT_ALIGN_Z(cbName, g_NoteAlign);
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191 |
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192 | cbNote += cbNameAlign;
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193 | cbNote += RT_ALIGN_64(cbData, g_NoteAlign);
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194 | return cbNote;
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195 | }
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196 |
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197 |
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198 | /**
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199 | * Elf function to write 64-bit note header.
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200 | *
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201 | * @param hFile The file to write to.
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202 | * @param Type Type of this section.
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203 | * @param pszName Name of this section.
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204 | * @param pvData Opaque pointer to the data, if NULL only computes size.
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205 | * @param cbData Size of the data.
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206 | *
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207 | * @returns IPRT status code.
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208 | */
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209 | static int Elf64WriteNoteHdr(RTFILE hFile, uint16_t Type, const char *pszName, const void *pvData, uint64_t cbData)
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210 | {
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211 | AssertReturn(pvData, VERR_INVALID_POINTER);
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212 | AssertReturn(cbData > 0, VERR_NO_DATA);
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213 |
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214 | char szNoteName[g_cbNoteName];
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215 | RT_ZERO(szNoteName);
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216 | RTStrCopy(szNoteName, sizeof(szNoteName), pszName);
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217 |
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218 | size_t cbName = strlen(szNoteName) + 1;
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219 | size_t cbNameAlign = RT_ALIGN_Z(cbName, g_NoteAlign);
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220 | uint64_t cbDataAlign = RT_ALIGN_64(cbData, g_NoteAlign);
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221 |
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222 | /*
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223 | * Yell loudly and bail if we are going to be writing a core file that is not compatible with
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224 | * both Solaris and the 64-bit ELF spec. which dictates 8-byte alignment. See @bugref{5211#c3}.
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225 | */
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226 | if (cbNameAlign - cbName > 3)
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227 | {
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228 | LogRel((DBGFLOG_NAME ": Elf64WriteNoteHdr pszName=%s cbName=%u cbNameAlign=%u, cbName aligns to 4 not 8-bytes!\n",
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229 | pszName, cbName, cbNameAlign));
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230 | return VERR_INVALID_PARAMETER;
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231 | }
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232 |
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233 | if (cbDataAlign - cbData > 3)
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234 | {
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235 | LogRel((DBGFLOG_NAME ": Elf64WriteNoteHdr pszName=%s cbData=%u cbDataAlign=%u, cbData aligns to 4 not 8-bytes!\n",
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236 | pszName, cbData, cbDataAlign));
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237 | return VERR_INVALID_PARAMETER;
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238 | }
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239 |
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240 | static const char s_achPad[7] = { 0, 0, 0, 0, 0, 0, 0 };
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241 | AssertCompile(sizeof(s_achPad) >= g_NoteAlign - 1);
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242 |
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243 | Elf64_Nhdr ElfNoteHdr;
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244 | RT_ZERO(ElfNoteHdr);
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245 | ElfNoteHdr.n_namesz = (Elf64_Word)cbName - 1; /* Again, a discrepancy between ELF-64 and Solaris,
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246 | we will follow ELF-64, see @bugref{5211#c3}. */
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247 | ElfNoteHdr.n_type = Type;
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248 | ElfNoteHdr.n_descsz = (Elf64_Word)cbDataAlign;
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249 |
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250 | /*
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251 | * Write note header.
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252 | */
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253 | int rc = RTFileWrite(hFile, &ElfNoteHdr, sizeof(ElfNoteHdr), NULL /* all */);
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254 | if (RT_SUCCESS(rc))
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255 | {
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256 | /*
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257 | * Write note name.
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258 | */
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259 | rc = RTFileWrite(hFile, szNoteName, cbName, NULL /* all */);
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260 | if (RT_SUCCESS(rc))
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261 | {
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262 | /*
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263 | * Write note name padding if required.
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264 | */
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265 | if (cbNameAlign > cbName)
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266 | rc = RTFileWrite(hFile, s_achPad, cbNameAlign - cbName, NULL);
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267 |
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268 | if (RT_SUCCESS(rc))
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269 | {
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270 | /*
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271 | * Write note data.
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272 | */
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273 | rc = RTFileWrite(hFile, pvData, cbData, NULL /* all */);
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274 | if (RT_SUCCESS(rc))
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275 | {
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276 | /*
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277 | * Write note data padding if required.
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278 | */
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279 | if (cbDataAlign > cbData)
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280 | rc = RTFileWrite(hFile, s_achPad, cbDataAlign - cbData, NULL /* all*/);
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281 | }
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282 | }
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283 | }
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284 | }
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285 |
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286 | if (RT_FAILURE(rc))
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287 | LogRel((DBGFLOG_NAME ": RTFileWrite failed. rc=%Rrc pszName=%s cbName=%u cbNameAlign=%u cbData=%u cbDataAlign=%u\n",
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288 | rc, pszName, cbName, cbNameAlign, cbData, cbDataAlign));
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289 |
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290 | return rc;
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291 | }
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292 |
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293 |
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294 | /**
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295 | * Count the number of memory ranges that go into the core file.
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296 | *
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297 | * We cannot do a page-by-page dump of the entire guest memory as there will be
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298 | * way too many program header entries. Also we don't want to dump MMIO regions
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299 | * which means we cannot have a 1:1 mapping between core file offset and memory
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300 | * offset. Instead we dump the memory in ranges. A memory range is a contiguous
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301 | * memory area suitable for dumping to a core file.
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302 | *
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303 | * @param pVM The cross context VM structure.
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304 | *
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305 | * @return Number of memory ranges
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306 | */
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307 | static uint32_t dbgfR3GetRamRangeCount(PVM pVM)
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308 | {
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309 | return PGMR3PhysGetRamRangeCount(pVM);
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310 | }
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311 |
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312 |
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313 | /**
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314 | * Gets the guest-CPU context suitable for dumping into the core file.
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315 | *
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316 | * @param pVCpu The cross context virtual CPU structure.
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317 | * @param pDbgfCpu Where to dump the guest-CPU data.
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318 | */
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319 | static void dbgfR3GetCoreCpu(PVMCPU pVCpu, PDBGFCORECPU pDbgfCpu)
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320 | {
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321 | #define DBGFCOPYSEL(a_dbgfsel, a_cpumselreg) \
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322 | do { \
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323 | (a_dbgfsel).uBase = (a_cpumselreg).u64Base; \
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324 | (a_dbgfsel).uLimit = (a_cpumselreg).u32Limit; \
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325 | (a_dbgfsel).uAttr = (a_cpumselreg).Attr.u; \
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326 | (a_dbgfsel).uSel = (a_cpumselreg).Sel; \
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327 | } while (0)
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328 |
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329 | PVM pVM = pVCpu->CTX_SUFF(pVM);
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330 | PCCPUMCTX pCtx = CPUMQueryGuestCtxPtr(pVCpu);
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331 | pDbgfCpu->rax = pCtx->rax;
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332 | pDbgfCpu->rbx = pCtx->rbx;
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333 | pDbgfCpu->rcx = pCtx->rcx;
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334 | pDbgfCpu->rdx = pCtx->rdx;
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335 | pDbgfCpu->rsi = pCtx->rsi;
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336 | pDbgfCpu->rdi = pCtx->rdi;
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337 | pDbgfCpu->r8 = pCtx->r8;
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338 | pDbgfCpu->r9 = pCtx->r9;
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339 | pDbgfCpu->r10 = pCtx->r10;
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340 | pDbgfCpu->r11 = pCtx->r11;
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341 | pDbgfCpu->r12 = pCtx->r12;
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342 | pDbgfCpu->r13 = pCtx->r13;
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343 | pDbgfCpu->r14 = pCtx->r14;
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344 | pDbgfCpu->r15 = pCtx->r15;
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345 | pDbgfCpu->rip = pCtx->rip;
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346 | pDbgfCpu->rsp = pCtx->rsp;
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347 | pDbgfCpu->rbp = pCtx->rbp;
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348 | pDbgfCpu->rflags = pCtx->rflags.u;
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349 | DBGFCOPYSEL(pDbgfCpu->cs, pCtx->cs);
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350 | DBGFCOPYSEL(pDbgfCpu->ds, pCtx->ds);
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351 | DBGFCOPYSEL(pDbgfCpu->es, pCtx->es);
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352 | DBGFCOPYSEL(pDbgfCpu->fs, pCtx->fs);
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353 | DBGFCOPYSEL(pDbgfCpu->gs, pCtx->gs);
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354 | DBGFCOPYSEL(pDbgfCpu->ss, pCtx->ss);
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355 | pDbgfCpu->cr0 = pCtx->cr0;
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356 | pDbgfCpu->cr2 = pCtx->cr2;
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357 | pDbgfCpu->cr3 = pCtx->cr3;
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358 | pDbgfCpu->cr4 = pCtx->cr4;
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359 | AssertCompile(RT_ELEMENTS(pDbgfCpu->dr) == RT_ELEMENTS(pCtx->dr));
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360 | for (unsigned i = 0; i < RT_ELEMENTS(pDbgfCpu->dr); i++)
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361 | pDbgfCpu->dr[i] = pCtx->dr[i];
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362 | pDbgfCpu->gdtr.uAddr = pCtx->gdtr.pGdt;
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363 | pDbgfCpu->gdtr.cb = pCtx->gdtr.cbGdt;
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364 | pDbgfCpu->idtr.uAddr = pCtx->idtr.pIdt;
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365 | pDbgfCpu->idtr.cb = pCtx->idtr.cbIdt;
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366 | DBGFCOPYSEL(pDbgfCpu->ldtr, pCtx->ldtr);
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367 | DBGFCOPYSEL(pDbgfCpu->tr, pCtx->tr);
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368 | pDbgfCpu->sysenter.cs = pCtx->SysEnter.cs;
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369 | pDbgfCpu->sysenter.eip = pCtx->SysEnter.eip;
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370 | pDbgfCpu->sysenter.esp = pCtx->SysEnter.esp;
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371 | pDbgfCpu->msrEFER = pCtx->msrEFER;
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372 | pDbgfCpu->msrSTAR = pCtx->msrSTAR;
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373 | pDbgfCpu->msrPAT = pCtx->msrPAT;
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374 | pDbgfCpu->msrLSTAR = pCtx->msrLSTAR;
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375 | pDbgfCpu->msrCSTAR = pCtx->msrCSTAR;
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376 | pDbgfCpu->msrSFMASK = pCtx->msrSFMASK;
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377 | pDbgfCpu->msrKernelGSBase = pCtx->msrKERNELGSBASE;
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378 | pDbgfCpu->msrApicBase = APICGetBaseMsrNoCheck(pVCpu);
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379 | pDbgfCpu->aXcr[0] = pCtx->aXcr[0];
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380 | pDbgfCpu->aXcr[1] = pCtx->aXcr[1];
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381 | AssertCompile(sizeof(pDbgfCpu->ext) == sizeof(*pCtx->pXStateR3));
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382 | pDbgfCpu->cbExt = pVM->cpum.ro.GuestFeatures.cbMaxExtendedState;
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383 | if (RT_LIKELY(pDbgfCpu->cbExt))
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384 | memcpy(&pDbgfCpu->ext, pCtx->pXStateR3, pDbgfCpu->cbExt);
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385 |
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386 | #undef DBGFCOPYSEL
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387 | }
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388 |
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389 |
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390 | /**
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391 | * Worker function for dbgfR3CoreWrite() which does the writing.
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392 | *
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393 | * @returns VBox status code
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394 | * @param pVM The cross context VM structure.
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395 | * @param hFile The file to write to. Caller closes this.
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396 | */
|
---|
397 | static int dbgfR3CoreWriteWorker(PVM pVM, RTFILE hFile)
|
---|
398 | {
|
---|
399 | /*
|
---|
400 | * Collect core information.
|
---|
401 | */
|
---|
402 | uint32_t const cu32MemRanges = dbgfR3GetRamRangeCount(pVM);
|
---|
403 | uint16_t const cMemRanges = cu32MemRanges < UINT16_MAX - 1 ? cu32MemRanges : UINT16_MAX - 1; /* One PT_NOTE Program header */
|
---|
404 | uint16_t const cProgHdrs = cMemRanges + 1;
|
---|
405 |
|
---|
406 | DBGFCOREDESCRIPTOR CoreDescriptor;
|
---|
407 | RT_ZERO(CoreDescriptor);
|
---|
408 | CoreDescriptor.u32Magic = DBGFCORE_MAGIC;
|
---|
409 | CoreDescriptor.u32FmtVersion = DBGFCORE_FMT_VERSION;
|
---|
410 | CoreDescriptor.cbSelf = sizeof(CoreDescriptor);
|
---|
411 | CoreDescriptor.u32VBoxVersion = VBOX_FULL_VERSION;
|
---|
412 | CoreDescriptor.u32VBoxRevision = VMMGetSvnRev();
|
---|
413 | CoreDescriptor.cCpus = pVM->cCpus;
|
---|
414 |
|
---|
415 | Log((DBGFLOG_NAME ": CoreDescriptor Version=%u Revision=%u\n", CoreDescriptor.u32VBoxVersion, CoreDescriptor.u32VBoxRevision));
|
---|
416 |
|
---|
417 | /*
|
---|
418 | * Compute the file layout (see pg_dbgf_vmcore).
|
---|
419 | */
|
---|
420 | uint64_t const offElfHdr = RTFileTell(hFile);
|
---|
421 | uint64_t const offNoteSection = offElfHdr + sizeof(Elf64_Ehdr);
|
---|
422 | uint64_t const offLoadSections = offNoteSection + sizeof(Elf64_Phdr);
|
---|
423 | uint64_t const cbLoadSections = cMemRanges * sizeof(Elf64_Phdr);
|
---|
424 | uint64_t const offCoreDescriptor = offLoadSections + cbLoadSections;
|
---|
425 | uint64_t const cbCoreDescriptor = Elf64NoteSectionSize(g_pcszCoreVBoxCore, sizeof(CoreDescriptor));
|
---|
426 | uint64_t const offCpuDumps = offCoreDescriptor + cbCoreDescriptor;
|
---|
427 | uint64_t const cbCpuDumps = pVM->cCpus * Elf64NoteSectionSize(g_pcszCoreVBoxCpu, sizeof(DBGFCORECPU));
|
---|
428 | uint64_t const offMemory = offCpuDumps + cbCpuDumps;
|
---|
429 |
|
---|
430 | uint64_t const offNoteSectionData = offCoreDescriptor;
|
---|
431 | uint64_t const cbNoteSectionData = cbCoreDescriptor + cbCpuDumps;
|
---|
432 |
|
---|
433 | /*
|
---|
434 | * Write ELF header.
|
---|
435 | */
|
---|
436 | int rc = Elf64WriteElfHdr(hFile, cProgHdrs, 0 /* cSecHdrs */);
|
---|
437 | if (RT_FAILURE(rc))
|
---|
438 | {
|
---|
439 | LogRel((DBGFLOG_NAME ": Elf64WriteElfHdr failed. rc=%Rrc\n", rc));
|
---|
440 | return rc;
|
---|
441 | }
|
---|
442 |
|
---|
443 | /*
|
---|
444 | * Write PT_NOTE program header.
|
---|
445 | */
|
---|
446 | Assert(RTFileTell(hFile) == offNoteSection);
|
---|
447 | rc = Elf64WriteProgHdr(hFile, PT_NOTE, PF_R,
|
---|
448 | offNoteSectionData, /* file offset to contents */
|
---|
449 | cbNoteSectionData, /* size in core file */
|
---|
450 | cbNoteSectionData, /* size in memory */
|
---|
451 | 0); /* physical address */
|
---|
452 | if (RT_FAILURE(rc))
|
---|
453 | {
|
---|
454 | LogRel((DBGFLOG_NAME ": Elf64WritreProgHdr failed for PT_NOTE. rc=%Rrc\n", rc));
|
---|
455 | return rc;
|
---|
456 | }
|
---|
457 |
|
---|
458 | /*
|
---|
459 | * Write PT_LOAD program header for each memory range.
|
---|
460 | */
|
---|
461 | Assert(RTFileTell(hFile) == offLoadSections);
|
---|
462 | uint64_t offMemRange = offMemory;
|
---|
463 | for (uint16_t iRange = 0; iRange < cMemRanges; iRange++)
|
---|
464 | {
|
---|
465 | RTGCPHYS GCPhysStart;
|
---|
466 | RTGCPHYS GCPhysEnd;
|
---|
467 | bool fIsMmio;
|
---|
468 | rc = PGMR3PhysGetRange(pVM, iRange, &GCPhysStart, &GCPhysEnd, NULL /* pszDesc */, &fIsMmio);
|
---|
469 | if (RT_FAILURE(rc))
|
---|
470 | {
|
---|
471 | LogRel((DBGFLOG_NAME ": PGMR3PhysGetRange failed for iRange(%u) rc=%Rrc\n", iRange, rc));
|
---|
472 | return rc;
|
---|
473 | }
|
---|
474 |
|
---|
475 | uint64_t cbMemRange = GCPhysEnd - GCPhysStart + 1;
|
---|
476 | uint64_t cbFileRange = fIsMmio ? 0 : cbMemRange;
|
---|
477 |
|
---|
478 | Log((DBGFLOG_NAME ": PGMR3PhysGetRange iRange=%u GCPhysStart=%#x GCPhysEnd=%#x cbMemRange=%u\n",
|
---|
479 | iRange, GCPhysStart, GCPhysEnd, cbMemRange));
|
---|
480 |
|
---|
481 | rc = Elf64WriteProgHdr(hFile, PT_LOAD, PF_R,
|
---|
482 | offMemRange, /* file offset to contents */
|
---|
483 | cbFileRange, /* size in core file */
|
---|
484 | cbMemRange, /* size in memory */
|
---|
485 | GCPhysStart); /* physical address */
|
---|
486 | if (RT_FAILURE(rc))
|
---|
487 | {
|
---|
488 | LogRel((DBGFLOG_NAME ": Elf64WriteProgHdr failed for memory range(%u) cbFileRange=%u cbMemRange=%u rc=%Rrc\n",
|
---|
489 | iRange, cbFileRange, cbMemRange, rc));
|
---|
490 | return rc;
|
---|
491 | }
|
---|
492 |
|
---|
493 | offMemRange += cbFileRange;
|
---|
494 | }
|
---|
495 |
|
---|
496 | /*
|
---|
497 | * Write the Core descriptor note header and data.
|
---|
498 | */
|
---|
499 | Assert(RTFileTell(hFile) == offCoreDescriptor);
|
---|
500 | rc = Elf64WriteNoteHdr(hFile, NT_VBOXCORE, g_pcszCoreVBoxCore, &CoreDescriptor, sizeof(CoreDescriptor));
|
---|
501 | if (RT_FAILURE(rc))
|
---|
502 | {
|
---|
503 | LogRel((DBGFLOG_NAME ": Elf64WriteNoteHdr failed for Note '%s' rc=%Rrc\n", g_pcszCoreVBoxCore, rc));
|
---|
504 | return rc;
|
---|
505 | }
|
---|
506 |
|
---|
507 | /*
|
---|
508 | * Write the CPU context note headers and data.
|
---|
509 | * We allocate the DBGFCORECPU struct. rather than using the stack as it can be pretty large due to X86XSAVEAREA.
|
---|
510 | */
|
---|
511 | Assert(RTFileTell(hFile) == offCpuDumps);
|
---|
512 | PDBGFCORECPU pDbgfCoreCpu = (PDBGFCORECPU)RTMemAlloc(sizeof(*pDbgfCoreCpu));
|
---|
513 | if (RT_UNLIKELY(!pDbgfCoreCpu))
|
---|
514 | {
|
---|
515 | LogRel((DBGFLOG_NAME ": Failed to alloc %u bytes for DBGFCORECPU\n", sizeof(*pDbgfCoreCpu)));
|
---|
516 | return VERR_NO_MEMORY;
|
---|
517 | }
|
---|
518 |
|
---|
519 | for (uint32_t iCpu = 0; iCpu < pVM->cCpus; iCpu++)
|
---|
520 | {
|
---|
521 | PVMCPU pVCpu = &pVM->aCpus[iCpu];
|
---|
522 | RT_BZERO(pDbgfCoreCpu, sizeof(*pDbgfCoreCpu));
|
---|
523 | dbgfR3GetCoreCpu(pVCpu, pDbgfCoreCpu);
|
---|
524 |
|
---|
525 | rc = Elf64WriteNoteHdr(hFile, NT_VBOXCPU, g_pcszCoreVBoxCpu, pDbgfCoreCpu, sizeof(*pDbgfCoreCpu));
|
---|
526 | if (RT_FAILURE(rc))
|
---|
527 | {
|
---|
528 | LogRel((DBGFLOG_NAME ": Elf64WriteNoteHdr failed for vCPU[%u] rc=%Rrc\n", iCpu, rc));
|
---|
529 | RTMemFree(pDbgfCoreCpu);
|
---|
530 | return rc;
|
---|
531 | }
|
---|
532 | }
|
---|
533 | RTMemFree(pDbgfCoreCpu);
|
---|
534 | pDbgfCoreCpu = NULL;
|
---|
535 |
|
---|
536 | /*
|
---|
537 | * Write memory ranges.
|
---|
538 | */
|
---|
539 | Assert(RTFileTell(hFile) == offMemory);
|
---|
540 | for (uint16_t iRange = 0; iRange < cMemRanges; iRange++)
|
---|
541 | {
|
---|
542 | RTGCPHYS GCPhysStart;
|
---|
543 | RTGCPHYS GCPhysEnd;
|
---|
544 | bool fIsMmio;
|
---|
545 | rc = PGMR3PhysGetRange(pVM, iRange, &GCPhysStart, &GCPhysEnd, NULL /* pszDesc */, &fIsMmio);
|
---|
546 | if (RT_FAILURE(rc))
|
---|
547 | {
|
---|
548 | LogRel((DBGFLOG_NAME ": PGMR3PhysGetRange(2) failed for iRange(%u) rc=%Rrc\n", iRange, rc));
|
---|
549 | return rc;
|
---|
550 | }
|
---|
551 |
|
---|
552 | if (fIsMmio)
|
---|
553 | continue;
|
---|
554 |
|
---|
555 | /*
|
---|
556 | * Write page-by-page of this memory range.
|
---|
557 | *
|
---|
558 | * The read function may fail on MMIO ranges, we write these as zero
|
---|
559 | * pages for now (would be nice to have the VGA bits there though).
|
---|
560 | */
|
---|
561 | uint64_t cbMemRange = GCPhysEnd - GCPhysStart + 1;
|
---|
562 | uint64_t cPages = cbMemRange >> PAGE_SHIFT;
|
---|
563 | for (uint64_t iPage = 0; iPage < cPages; iPage++)
|
---|
564 | {
|
---|
565 | uint8_t abPage[PAGE_SIZE];
|
---|
566 | rc = PGMPhysSimpleReadGCPhys(pVM, abPage, GCPhysStart + (iPage << PAGE_SHIFT), sizeof(abPage));
|
---|
567 | if (RT_FAILURE(rc))
|
---|
568 | {
|
---|
569 | if (rc != VERR_PGM_PHYS_PAGE_RESERVED)
|
---|
570 | LogRel((DBGFLOG_NAME ": PGMPhysRead failed for iRange=%u iPage=%u. rc=%Rrc. Ignoring...\n", iRange, iPage, rc));
|
---|
571 | RT_ZERO(abPage);
|
---|
572 | }
|
---|
573 |
|
---|
574 | rc = RTFileWrite(hFile, abPage, sizeof(abPage), NULL /* all */);
|
---|
575 | if (RT_FAILURE(rc))
|
---|
576 | {
|
---|
577 | LogRel((DBGFLOG_NAME ": RTFileWrite failed. iRange=%u iPage=%u rc=%Rrc\n", iRange, iPage, rc));
|
---|
578 | return rc;
|
---|
579 | }
|
---|
580 | }
|
---|
581 | }
|
---|
582 |
|
---|
583 | return rc;
|
---|
584 | }
|
---|
585 |
|
---|
586 |
|
---|
587 | /**
|
---|
588 | * EMT Rendezvous worker function for DBGFR3CoreWrite().
|
---|
589 | *
|
---|
590 | * @param pVM The cross context VM structure.
|
---|
591 | * @param pVCpu The cross context virtual CPU structure of the calling EMT.
|
---|
592 | * @param pvData Opaque data.
|
---|
593 | *
|
---|
594 | * @return VBox status code.
|
---|
595 | */
|
---|
596 | static DECLCALLBACK(VBOXSTRICTRC) dbgfR3CoreWriteRendezvous(PVM pVM, PVMCPU pVCpu, void *pvData)
|
---|
597 | {
|
---|
598 | /*
|
---|
599 | * Validate input.
|
---|
600 | */
|
---|
601 | AssertReturn(pVM, VERR_INVALID_VM_HANDLE);
|
---|
602 | AssertReturn(pVCpu, VERR_INVALID_VMCPU_HANDLE);
|
---|
603 | AssertReturn(pvData, VERR_INVALID_POINTER);
|
---|
604 |
|
---|
605 | PDBGFCOREDATA pDbgfData = (PDBGFCOREDATA)pvData;
|
---|
606 |
|
---|
607 | /*
|
---|
608 | * Create the core file.
|
---|
609 | */
|
---|
610 | uint32_t fFlags = (pDbgfData->fReplaceFile ? RTFILE_O_CREATE_REPLACE : RTFILE_O_CREATE)
|
---|
611 | | RTFILE_O_WRITE
|
---|
612 | | RTFILE_O_DENY_ALL
|
---|
613 | | (0600 << RTFILE_O_CREATE_MODE_SHIFT);
|
---|
614 | RTFILE hFile;
|
---|
615 | int rc = RTFileOpen(&hFile, pDbgfData->pszFilename, fFlags);
|
---|
616 | if (RT_SUCCESS(rc))
|
---|
617 | {
|
---|
618 | rc = dbgfR3CoreWriteWorker(pVM, hFile);
|
---|
619 | RTFileClose(hFile);
|
---|
620 | }
|
---|
621 | else
|
---|
622 | LogRel((DBGFLOG_NAME ": RTFileOpen failed for '%s' rc=%Rrc\n", pDbgfData->pszFilename, rc));
|
---|
623 | return rc;
|
---|
624 | }
|
---|
625 |
|
---|
626 |
|
---|
627 | /**
|
---|
628 | * Write core dump of the guest.
|
---|
629 | *
|
---|
630 | * @returns VBox status code.
|
---|
631 | * @param pUVM The user mode VM handle.
|
---|
632 | * @param pszFilename The name of the file to which the guest core
|
---|
633 | * dump should be written.
|
---|
634 | * @param fReplaceFile Whether to replace the file or not.
|
---|
635 | *
|
---|
636 | * @remarks The VM may need to be suspended before calling this function in
|
---|
637 | * order to truly stop all device threads and drivers. This function
|
---|
638 | * only synchronizes EMTs.
|
---|
639 | */
|
---|
640 | VMMR3DECL(int) DBGFR3CoreWrite(PUVM pUVM, const char *pszFilename, bool fReplaceFile)
|
---|
641 | {
|
---|
642 | UVM_ASSERT_VALID_EXT_RETURN(pUVM, VERR_INVALID_VM_HANDLE);
|
---|
643 | PVM pVM = pUVM->pVM;
|
---|
644 | VM_ASSERT_VALID_EXT_RETURN(pVM, VERR_INVALID_VM_HANDLE);
|
---|
645 | AssertReturn(pszFilename, VERR_INVALID_HANDLE);
|
---|
646 |
|
---|
647 | /*
|
---|
648 | * Pass the core write request down to EMT rendezvous which makes sure
|
---|
649 | * other EMTs, if any, are not running. IO threads could still be running
|
---|
650 | * but we don't care about them.
|
---|
651 | */
|
---|
652 | DBGFCOREDATA CoreData;
|
---|
653 | RT_ZERO(CoreData);
|
---|
654 | CoreData.pszFilename = pszFilename;
|
---|
655 | CoreData.fReplaceFile = fReplaceFile;
|
---|
656 |
|
---|
657 | int rc = VMMR3EmtRendezvous(pVM, VMMEMTRENDEZVOUS_FLAGS_TYPE_ONCE, dbgfR3CoreWriteRendezvous, &CoreData);
|
---|
658 | if (RT_SUCCESS(rc))
|
---|
659 | LogRel((DBGFLOG_NAME ": Successfully wrote guest core dump '%s'\n", pszFilename));
|
---|
660 | else
|
---|
661 | LogRel((DBGFLOG_NAME ": Failed to write guest core dump '%s'. rc=%Rrc\n", pszFilename, rc));
|
---|
662 | return rc;
|
---|
663 | }
|
---|
664 |
|
---|