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428
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1 /* Copyright (C) 1985, 1986, 1987, 1988, 1990, 1992, 1993
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2 Free Software Foundation, Inc.
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3
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4 This file is part of XEmacs.
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5
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6 XEmacs is free software; you can redistribute it and/or modify it
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7 under the terms of the GNU General Public License as published by the
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8 Free Software Foundation; either version 2, or (at your option) any
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9 later version.
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10
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11 XEmacs is distributed in the hope that it will be useful, but WITHOUT
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12 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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13 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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14 for more details.
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15
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16 You should have received a copy of the GNU General Public License
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17 along with XEmacs; see the file COPYING. If not, write to
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18 the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
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19 Boston, MA 02111-1307, USA. */
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20
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21 /* Synched up with: FSF 20.4. */
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22
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23 /*
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24 * unexec.c - Convert a running program into an a.out file.
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25 *
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26 * Author: Spencer W. Thomas
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27 * Computer Science Dept.
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28 * University of Utah
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29 * Date: Tue Mar 2 1982
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30 * Modified heavily since then.
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31 *
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32 * Synopsis:
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33 * unexec (new_name, a_name, data_start, bss_start, entry_address)
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34 * char *new_name, *a_name;
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35 * unsigned data_start, bss_start, entry_address;
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36 *
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37 * Takes a snapshot of the program and makes an a.out format file in the
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38 * file named by the string argument new_name.
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39 * If a_name is non-NULL, the symbol table will be taken from the given file.
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40 * On some machines, an existing a_name file is required.
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41 *
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42 * The boundaries within the a.out file may be adjusted with the data_start
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43 * and bss_start arguments. Either or both may be given as 0 for defaults.
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44 *
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45 * Data_start gives the boundary between the text segment and the data
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46 * segment of the program. The text segment can contain shared, read-only
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47 * program code and literal data, while the data segment is always unshared
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48 * and unprotected. Data_start gives the lowest unprotected address.
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49 * The value you specify may be rounded down to a suitable boundary
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50 * as required by the machine you are using.
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51 *
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52 * Specifying zero for data_start means the boundary between text and data
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53 * should not be the same as when the program was loaded.
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54 * If NO_REMAP is defined, the argument data_start is ignored and the
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55 * segment boundaries are never changed.
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56 *
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57 * Bss_start indicates how much of the data segment is to be saved in the
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58 * a.out file and restored when the program is executed. It gives the lowest
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59 * unsaved address, and is rounded up to a page boundary. The default when 0
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60 * is given assumes that the entire data segment is to be stored, including
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61 * the previous data and bss as well as any additional storage allocated with
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62 * break (2).
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63 *
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64 * The new file is set up to start at entry_address.
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65 *
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66 * If you make improvements I'd like to get them too.
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67 * harpo!utah-cs!thomas, thomas@Utah-20
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68 *
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69 */
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70
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71 /* Even more heavily modified by james@bigtex.cactus.org of Dell Computer Co.
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72 * ELF support added.
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73 *
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74 * Basic theory: the data space of the running process needs to be
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75 * dumped to the output file. Normally we would just enlarge the size
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76 * of .data, scooting everything down. But we can't do that in ELF,
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77 * because there is often something between the .data space and the
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78 * .bss space.
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79 *
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80 * In the temacs dump below, notice that the Global Offset Table
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81 * (.got) and the Dynamic link data (.dynamic) come between .data1 and
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82 * .bss. It does not work to overlap .data with these fields.
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83 *
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84 * The solution is to create a new .data segment. This segment is
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85 * filled with data from the current process. Since the contents of
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86 * various sections refer to sections by index, the new .data segment
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87 * is made the last in the table to avoid changing any existing index.
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88
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89 * This is an example of how the section headers are changed. "Addr"
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90 * is a process virtual address. "Offset" is a file offset.
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91
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92 raid:/nfs/raid/src/dist-18.56/src> dump -h temacs
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93
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94 temacs:
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95
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96 **** SECTION HEADER TABLE ****
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97 [No] Type Flags Addr Offset Size Name
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98 Link Info Adralgn Entsize
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99
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100 [1] 1 2 0x80480d4 0xd4 0x13 .interp
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101 0 0 0x1 0
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102
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103 [2] 5 2 0x80480e8 0xe8 0x388 .hash
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104 3 0 0x4 0x4
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105
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106 [3] 11 2 0x8048470 0x470 0x7f0 .dynsym
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107 4 1 0x4 0x10
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108
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109 [4] 3 2 0x8048c60 0xc60 0x3ad .dynstr
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110 0 0 0x1 0
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111
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112 [5] 9 2 0x8049010 0x1010 0x338 .rel.plt
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113 3 7 0x4 0x8
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114
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115 [6] 1 6 0x8049348 0x1348 0x3 .init
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116 0 0 0x4 0
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117
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118 [7] 1 6 0x804934c 0x134c 0x680 .plt
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119 0 0 0x4 0x4
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120
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121 [8] 1 6 0x80499cc 0x19cc 0x3c56f .text
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122 0 0 0x4 0
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123
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124 [9] 1 6 0x8085f3c 0x3df3c 0x3 .fini
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125 0 0 0x4 0
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126
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127 [10] 1 2 0x8085f40 0x3df40 0x69c .rodata
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128 0 0 0x4 0
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129
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130 [11] 1 2 0x80865dc 0x3e5dc 0xd51 .rodata1
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131 0 0 0x4 0
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132
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133 [12] 1 3 0x8088330 0x3f330 0x20afc .data
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134 0 0 0x4 0
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135
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136 [13] 1 3 0x80a8e2c 0x5fe2c 0x89d .data1
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137 0 0 0x4 0
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138
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139 [14] 1 3 0x80a96cc 0x606cc 0x1a8 .got
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140 0 0 0x4 0x4
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141
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142 [15] 6 3 0x80a9874 0x60874 0x80 .dynamic
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143 4 0 0x4 0x8
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144
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145 [16] 8 3 0x80a98f4 0x608f4 0x449c .bss
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146 0 0 0x4 0
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147
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148 [17] 2 0 0 0x608f4 0x9b90 .symtab
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149 18 371 0x4 0x10
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150
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151 [18] 3 0 0 0x6a484 0x8526 .strtab
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152 0 0 0x1 0
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153
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154 [19] 3 0 0 0x729aa 0x93 .shstrtab
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155 0 0 0x1 0
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156
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157 [20] 1 0 0 0x72a3d 0x68b7 .comment
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158 0 0 0x1 0
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159
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160 raid:/nfs/raid/src/dist-18.56/src> dump -h xemacs
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161
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162 xemacs:
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163
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164 **** SECTION HEADER TABLE ****
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165 [No] Type Flags Addr Offset Size Name
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166 Link Info Adralgn Entsize
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167
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168 [1] 1 2 0x80480d4 0xd4 0x13 .interp
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169 0 0 0x1 0
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170
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171 [2] 5 2 0x80480e8 0xe8 0x388 .hash
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172 3 0 0x4 0x4
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173
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174 [3] 11 2 0x8048470 0x470 0x7f0 .dynsym
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175 4 1 0x4 0x10
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176
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177 [4] 3 2 0x8048c60 0xc60 0x3ad .dynstr
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178 0 0 0x1 0
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179
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180 [5] 9 2 0x8049010 0x1010 0x338 .rel.plt
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181 3 7 0x4 0x8
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182
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183 [6] 1 6 0x8049348 0x1348 0x3 .init
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184 0 0 0x4 0
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185
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186 [7] 1 6 0x804934c 0x134c 0x680 .plt
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187 0 0 0x4 0x4
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188
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189 [8] 1 6 0x80499cc 0x19cc 0x3c56f .text
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190 0 0 0x4 0
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191
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192 [9] 1 6 0x8085f3c 0x3df3c 0x3 .fini
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193 0 0 0x4 0
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194
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195 [10] 1 2 0x8085f40 0x3df40 0x69c .rodata
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196 0 0 0x4 0
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197
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198 [11] 1 2 0x80865dc 0x3e5dc 0xd51 .rodata1
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199 0 0 0x4 0
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200
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201 [12] 1 3 0x8088330 0x3f330 0x20afc .data
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202 0 0 0x4 0
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203
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204 [13] 1 3 0x80a8e2c 0x5fe2c 0x89d .data1
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205 0 0 0x4 0
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206
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207 [14] 1 3 0x80a96cc 0x606cc 0x1a8 .got
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208 0 0 0x4 0x4
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209
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210 [15] 6 3 0x80a9874 0x60874 0x80 .dynamic
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211 4 0 0x4 0x8
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212
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213 [16] 8 3 0x80c6800 0x7d800 0 .bss
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214 0 0 0x4 0
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215
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216 [17] 2 0 0 0x7d800 0x9b90 .symtab
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217 18 371 0x4 0x10
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218
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219 [18] 3 0 0 0x87390 0x8526 .strtab
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220 0 0 0x1 0
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221
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222 [19] 3 0 0 0x8f8b6 0x93 .shstrtab
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223 0 0 0x1 0
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224
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225 [20] 1 0 0 0x8f949 0x68b7 .comment
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226 0 0 0x1 0
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227
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228 [21] 1 3 0x80a98f4 0x608f4 0x1cf0c .data
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229 0 0 0x4 0
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230
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231 * This is an example of how the file header is changed. "Shoff" is
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232 * the section header offset within the file. Since that table is
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233 * after the new .data section, it is moved. "Shnum" is the number of
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234 * sections, which we increment.
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235 *
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236 * "Phoff" is the file offset to the program header. "Phentsize" and
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237 * "Shentsz" are the program and section header entries sizes respectively.
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238 * These can be larger than the apparent struct sizes.
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239
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240 raid:/nfs/raid/src/dist-18.56/src> dump -f temacs
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241
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242 temacs:
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243
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244 **** ELF HEADER ****
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245 Class Data Type Machine Version
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246 Entry Phoff Shoff Flags Ehsize
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247 Phentsize Phnum Shentsz Shnum Shstrndx
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248
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249 1 1 2 3 1
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250 0x80499cc 0x34 0x792f4 0 0x34
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251 0x20 5 0x28 21 19
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252
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253 raid:/nfs/raid/src/dist-18.56/src> dump -f xemacs
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254
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255 xemacs:
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256
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257 **** ELF HEADER ****
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258 Class Data Type Machine Version
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259 Entry Phoff Shoff Flags Ehsize
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260 Phentsize Phnum Shentsz Shnum Shstrndx
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261
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262 1 1 2 3 1
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263 0x80499cc 0x34 0x96200 0 0x34
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264 0x20 5 0x28 22 19
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265
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266 * These are the program headers. "Offset" is the file offset to the
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267 * segment. "Vaddr" is the memory load address. "Filesz" is the
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268 * segment size as it appears in the file, and "Memsz" is the size in
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269 * memory. Below, the third segment is the code and the fourth is the
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270 * data: the difference between Filesz and Memsz is .bss
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271
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272 raid:/nfs/raid/src/dist-18.56/src> dump -o temacs
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273
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274 temacs:
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275 ***** PROGRAM EXECUTION HEADER *****
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276 Type Offset Vaddr Paddr
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277 Filesz Memsz Flags Align
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278
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279 6 0x34 0x8048034 0
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280 0xa0 0xa0 5 0
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281
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282 3 0xd4 0 0
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283 0x13 0 4 0
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284
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285 1 0x34 0x8048034 0
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286 0x3f2f9 0x3f2f9 5 0x1000
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287
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288 1 0x3f330 0x8088330 0
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289 0x215c4 0x25a60 7 0x1000
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290
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291 2 0x60874 0x80a9874 0
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292 0x80 0 7 0
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293
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294 raid:/nfs/raid/src/dist-18.56/src> dump -o xemacs
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295
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296 xemacs:
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297 ***** PROGRAM EXECUTION HEADER *****
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298 Type Offset Vaddr Paddr
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299 Filesz Memsz Flags Align
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300
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301 6 0x34 0x8048034 0
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302 0xa0 0xa0 5 0
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303
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304 3 0xd4 0 0
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305 0x13 0 4 0
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306
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307 1 0x34 0x8048034 0
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308 0x3f2f9 0x3f2f9 5 0x1000
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309
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310 1 0x3f330 0x8088330 0
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311 0x3e4d0 0x3e4d0 7 0x1000
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312
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313 2 0x60874 0x80a9874 0
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314 0x80 0 7 0
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315
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316
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317 */
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318 �
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319 /* Modified by wtien@urbana.mcd.mot.com of Motorola Inc.
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320 *
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321 * The above mechanism does not work if the unexeced ELF file is being
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322 * re-layout by other applications (such as `strip'). All the applications
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323 * that re-layout the internal of ELF will layout all sections in ascending
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324 * order of their file offsets. After the re-layout, the data2 section will
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325 * still be the LAST section in the section header vector, but its file offset
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326 * is now being pushed far away down, and causes part of it not to be mapped
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327 * in (ie. not covered by the load segment entry in PHDR vector), therefore
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328 * causes the new binary to fail.
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329 *
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330 * The solution is to modify the unexec algorithm to insert the new data2
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331 * section header right before the new bss section header, so their file
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332 * offsets will be in the ascending order. Since some of the section's (all
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333 * sections AFTER the bss section) indexes are now changed, we also need to
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334 * modify some fields to make them point to the right sections. This is done
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335 * by macro PATCH_INDEX. All the fields that need to be patched are:
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336 *
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337 * 1. ELF header e_shstrndx field.
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338 * 2. section header sh_link and sh_info field.
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339 * 3. symbol table entry st_shndx field.
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340 *
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341 * The above example now should look like:
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342
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343 **** SECTION HEADER TABLE ****
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344 [No] Type Flags Addr Offset Size Name
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345 Link Info Adralgn Entsize
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346
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347 [1] 1 2 0x80480d4 0xd4 0x13 .interp
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348 0 0 0x1 0
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349
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350 [2] 5 2 0x80480e8 0xe8 0x388 .hash
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351 3 0 0x4 0x4
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352
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353 [3] 11 2 0x8048470 0x470 0x7f0 .dynsym
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354 4 1 0x4 0x10
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355
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356 [4] 3 2 0x8048c60 0xc60 0x3ad .dynstr
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357 0 0 0x1 0
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358
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359 [5] 9 2 0x8049010 0x1010 0x338 .rel.plt
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360 3 7 0x4 0x8
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361
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362 [6] 1 6 0x8049348 0x1348 0x3 .init
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363 0 0 0x4 0
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364
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365 [7] 1 6 0x804934c 0x134c 0x680 .plt
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366 0 0 0x4 0x4
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367
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368 [8] 1 6 0x80499cc 0x19cc 0x3c56f .text
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369 0 0 0x4 0
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370
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371 [9] 1 6 0x8085f3c 0x3df3c 0x3 .fini
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372 0 0 0x4 0
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373
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374 [10] 1 2 0x8085f40 0x3df40 0x69c .rodata
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375 0 0 0x4 0
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376
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377 [11] 1 2 0x80865dc 0x3e5dc 0xd51 .rodata1
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378 0 0 0x4 0
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379
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380 [12] 1 3 0x8088330 0x3f330 0x20afc .data
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381 0 0 0x4 0
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382
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383 [13] 1 3 0x80a8e2c 0x5fe2c 0x89d .data1
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384 0 0 0x4 0
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385
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386 [14] 1 3 0x80a96cc 0x606cc 0x1a8 .got
|
|
|
387 0 0 0x4 0x4
|
|
|
388
|
|
|
389 [15] 6 3 0x80a9874 0x60874 0x80 .dynamic
|
|
|
390 4 0 0x4 0x8
|
|
|
391
|
|
|
392 [16] 1 3 0x80a98f4 0x608f4 0x1cf0c .data
|
|
|
393 0 0 0x4 0
|
|
|
394
|
|
|
395 [17] 8 3 0x80c6800 0x7d800 0 .bss
|
|
|
396 0 0 0x4 0
|
|
|
397
|
|
|
398 [18] 2 0 0 0x7d800 0x9b90 .symtab
|
|
|
399 19 371 0x4 0x10
|
|
|
400
|
|
|
401 [19] 3 0 0 0x87390 0x8526 .strtab
|
|
|
402 0 0 0x1 0
|
|
|
403
|
|
|
404 [20] 3 0 0 0x8f8b6 0x93 .shstrtab
|
|
|
405 0 0 0x1 0
|
|
|
406
|
|
|
407 [21] 1 0 0 0x8f949 0x68b7 .comment
|
|
|
408 0 0 0x1 0
|
|
|
409
|
|
|
410 */
|
|
|
411 �
|
|
|
412 #ifndef emacs
|
|
|
413 #define fatal(a, b, c) fprintf (stderr, a, b, c), exit (1)
|
|
|
414 #else
|
|
|
415 #include <config.h>
|
|
442
|
416 extern void fatal (const char *, ...);
|
|
428
|
417 #endif
|
|
|
418
|
|
|
419 #include <sys/types.h>
|
|
|
420 #include <stdio.h>
|
|
|
421 #include <sys/stat.h>
|
|
|
422 #include <memory.h>
|
|
|
423 #include <string.h>
|
|
|
424 #include <errno.h>
|
|
|
425 #include <unistd.h>
|
|
|
426 #include <fcntl.h>
|
|
446
|
427 #ifdef HAVE_ELF_H
|
|
428
|
428 #include <elf.h>
|
|
|
429 #endif
|
|
|
430 #include <sys/mman.h>
|
|
|
431 #if defined (__sony_news) && defined (_SYSTYPE_SYSV)
|
|
|
432 #include <sys/elf_mips.h>
|
|
|
433 #include <sym.h>
|
|
|
434 #endif /* __sony_news && _SYSTYPE_SYSV */
|
|
|
435 #ifdef __sgi
|
|
|
436 #include <sym.h> /* for HDRR declaration */
|
|
|
437 #endif /* __sgi */
|
|
|
438
|
|
2286
|
439 #include "compiler.h"
|
|
|
440
|
|
428
|
441 #if defined (__alpha__) && !defined (__NetBSD__) && !defined (__OpenBSD__)
|
|
|
442 /* Declare COFF debugging symbol table. This used to be in
|
|
|
443 /usr/include/sym.h, but this file is no longer included in Red Hat
|
|
|
444 5.0 and presumably in any other glibc 2.x based distribution. */
|
|
|
445 typedef struct {
|
|
|
446 short magic;
|
|
|
447 short vstamp;
|
|
|
448 int ilineMax;
|
|
|
449 int idnMax;
|
|
|
450 int ipdMax;
|
|
|
451 int isymMax;
|
|
|
452 int ioptMax;
|
|
|
453 int iauxMax;
|
|
|
454 int issMax;
|
|
|
455 int issExtMax;
|
|
|
456 int ifdMax;
|
|
|
457 int crfd;
|
|
|
458 int iextMax;
|
|
|
459 long cbLine;
|
|
|
460 long cbLineOffset;
|
|
|
461 long cbDnOffset;
|
|
|
462 long cbPdOffset;
|
|
|
463 long cbSymOffset;
|
|
|
464 long cbOptOffset;
|
|
|
465 long cbAuxOffset;
|
|
|
466 long cbSsOffset;
|
|
|
467 long cbSsExtOffset;
|
|
|
468 long cbFdOffset;
|
|
|
469 long cbRfdOffset;
|
|
|
470 long cbExtOffset;
|
|
|
471 } HDRR, *pHDRR;
|
|
|
472 #define cbHDRR sizeof(HDRR)
|
|
|
473 #define hdrNil ((pHDRR)0)
|
|
|
474 #endif
|
|
|
475
|
|
|
476 #ifdef __OpenBSD__
|
|
|
477 # include <sys/exec_elf.h>
|
|
|
478 #endif
|
|
|
479
|
|
|
480 #if __GNU_LIBRARY__ - 0 >= 6
|
|
|
481 # include <link.h> /* get ElfW etc */
|
|
|
482 #endif
|
|
|
483
|
|
|
484 #ifndef ElfW
|
|
|
485 # ifdef __STDC__
|
|
|
486 # define ElfW(type) Elf32_##type
|
|
|
487 # else
|
|
|
488 # define ElfW(type) Elf32_/**/type
|
|
|
489 # endif
|
|
|
490 #endif
|
|
|
491
|
|
|
492 #ifndef ELF_BSS_SECTION_NAME
|
|
|
493 #define ELF_BSS_SECTION_NAME ".bss"
|
|
|
494 #endif
|
|
|
495
|
|
|
496 /* Get the address of a particular section or program header entry,
|
|
|
497 * accounting for the size of the entries.
|
|
|
498 */
|
|
|
499 /*
|
|
|
500 On PPC Reference Platform running Solaris 2.5.1
|
|
|
501 the plt section is also of type NOBI like the bss section.
|
|
|
502 (not really stored) and therefore sections after the bss
|
|
|
503 section start at the plt offset. The plt section is always
|
|
|
504 the one just before the bss section.
|
|
|
505 Thus, we modify the test from
|
|
|
506 if (NEW_SECTION_H (nn).sh_offset >= new_data2_offset)
|
|
|
507 to
|
|
|
508 if (NEW_SECTION_H (nn).sh_offset >=
|
|
|
509 OLD_SECTION_H (old_bss_index-1).sh_offset)
|
|
|
510 This is just a hack. We should put the new data section
|
|
|
511 before the .plt section.
|
|
|
512 And we should not have this routine at all but use
|
|
|
513 the libelf library to read the old file and create the new
|
|
|
514 file.
|
|
|
515 The changed code is minimal and depends on prep set in m/prep.h
|
|
|
516 Erik Deumens
|
|
|
517 Quantum Theory Project
|
|
|
518 University of Florida
|
|
|
519 deumens@qtp.ufl.edu
|
|
|
520 Apr 23, 1996
|
|
|
521 */
|
|
|
522
|
|
|
523 #define OLD_SECTION_H(n) \
|
|
|
524 (*(ElfW(Shdr) *) ((byte *) old_section_h + old_file_h->e_shentsize * (n)))
|
|
|
525 #define NEW_SECTION_H(n) \
|
|
|
526 (*(ElfW(Shdr) *) ((byte *) new_section_h + new_file_h->e_shentsize * (n)))
|
|
|
527 #define OLD_PROGRAM_H(n) \
|
|
|
528 (*(ElfW(Phdr) *) ((byte *) old_program_h + old_file_h->e_phentsize * (n)))
|
|
|
529 #define NEW_PROGRAM_H(n) \
|
|
|
530 (*(ElfW(Phdr) *) ((byte *) new_program_h + new_file_h->e_phentsize * (n)))
|
|
|
531
|
|
|
532 #define PATCH_INDEX(n) \
|
|
|
533 do { \
|
|
|
534 if ((int) (n) >= old_bss_index) \
|
|
|
535 (n)++; } while (0)
|
|
|
536 typedef unsigned char byte;
|
|
|
537
|
|
|
538 /* Round X up to a multiple of Y. */
|
|
|
539
|
|
|
540 static ElfW(Addr)
|
|
|
541 round_up (ElfW(Addr) x, ElfW(Addr) y)
|
|
|
542 {
|
|
|
543 int rem = x % y;
|
|
|
544 if (rem == 0)
|
|
|
545 return x;
|
|
|
546 return x - rem + y;
|
|
|
547 }
|
|
|
548
|
|
|
549 /* ****************************************************************
|
|
|
550 * unexec
|
|
|
551 *
|
|
|
552 * driving logic.
|
|
|
553 *
|
|
|
554 * In ELF, this works by replacing the old .bss section with a new
|
|
|
555 * .data section, and inserting an empty .bss immediately afterwards.
|
|
|
556 *
|
|
|
557 */
|
|
|
558 void unexec (char *new_name, char *old_name, unsigned int data_start,
|
|
|
559 unsigned int bss_start, unsigned int entry_address);
|
|
|
560 void
|
|
2286
|
561 unexec (char *new_name, char *old_name, unsigned int UNUSED (data_start),
|
|
|
562 unsigned int UNUSED (bss_start), unsigned int UNUSED (entry_address))
|
|
428
|
563 {
|
|
|
564 int new_file, old_file, new_file_size;
|
|
|
565
|
|
|
566 /* Pointers to the base of the image of the two files. */
|
|
|
567 caddr_t old_base, new_base;
|
|
|
568
|
|
|
569 /* Pointers to the file, program and section headers for the old and new
|
|
|
570 * files.
|
|
|
571 */
|
|
|
572 ElfW(Ehdr) *old_file_h, *new_file_h;
|
|
|
573 ElfW(Phdr) *old_program_h, *new_program_h;
|
|
|
574 ElfW(Shdr) *old_section_h, *new_section_h;
|
|
|
575
|
|
|
576 /* Point to the section name table in the old file */
|
|
|
577 char *old_section_names;
|
|
|
578
|
|
|
579 ElfW(Addr) old_bss_addr, new_bss_addr;
|
|
|
580 ElfW(Word) old_bss_size, new_data2_size;
|
|
|
581 ElfW(Off) new_data2_offset;
|
|
|
582 ElfW(Addr) new_data2_addr;
|
|
|
583
|
|
|
584 int n, nn, old_bss_index, old_data_index, new_data2_index;
|
|
|
585 int old_sbss_index, old_mdebug_index;
|
|
|
586 struct stat stat_buf;
|
|
|
587
|
|
|
588 /* Open the old file & map it into the address space. */
|
|
|
589
|
|
|
590 old_file = open (old_name, O_RDONLY);
|
|
|
591
|
|
|
592 if (old_file < 0)
|
|
|
593 fatal ("Can't open %s for reading: errno %d\n", old_name, errno);
|
|
|
594
|
|
|
595 if (fstat (old_file, &stat_buf) == -1)
|
|
|
596 fatal ("Can't fstat (%s): errno %d\n", old_name, errno);
|
|
|
597
|
|
|
598 old_base = (caddr_t) mmap (0, stat_buf.st_size, PROT_READ, MAP_SHARED, old_file, 0);
|
|
|
599
|
|
|
600 if (old_base == (caddr_t) -1)
|
|
|
601 fatal ("Can't mmap (%s): errno %d\n", old_name, errno);
|
|
|
602
|
|
|
603 #ifdef DEBUG
|
|
|
604 fprintf (stderr, "mmap (%s, %x) -> %x\n", old_name, stat_buf.st_size,
|
|
|
605 old_base);
|
|
|
606 #endif
|
|
|
607
|
|
|
608 /* Get pointers to headers & section names */
|
|
|
609
|
|
|
610 old_file_h = (ElfW(Ehdr) *) old_base;
|
|
|
611 old_program_h = (ElfW(Phdr) *) ((byte *) old_base + old_file_h->e_phoff);
|
|
|
612 old_section_h = (ElfW(Shdr) *) ((byte *) old_base + old_file_h->e_shoff);
|
|
|
613 old_section_names = (char *) old_base
|
|
|
614 + OLD_SECTION_H (old_file_h->e_shstrndx).sh_offset;
|
|
|
615
|
|
|
616 /* Find the old .bss section. Figure out parameters of the new
|
|
|
617 * data2 and bss sections.
|
|
|
618 */
|
|
|
619
|
|
|
620 for (old_bss_index = 1; old_bss_index < (int) old_file_h->e_shnum;
|
|
|
621 old_bss_index++)
|
|
|
622 {
|
|
|
623 #ifdef DEBUG
|
|
|
624 fprintf (stderr, "Looking for .bss - found %s\n",
|
|
|
625 old_section_names + OLD_SECTION_H (old_bss_index).sh_name);
|
|
|
626 #endif
|
|
|
627 if (!strcmp (old_section_names + OLD_SECTION_H (old_bss_index).sh_name,
|
|
|
628 ELF_BSS_SECTION_NAME))
|
|
|
629 break;
|
|
|
630 }
|
|
|
631 if (old_bss_index == old_file_h->e_shnum)
|
|
|
632 fatal ("Can't find .bss in %s.\n", old_name, 0);
|
|
|
633
|
|
|
634 for (old_sbss_index = 1; old_sbss_index < (int) old_file_h->e_shnum;
|
|
|
635 old_sbss_index++)
|
|
|
636 {
|
|
|
637 #ifdef DEBUG
|
|
|
638 fprintf (stderr, "Looking for .sbss - found %s\n",
|
|
|
639 old_section_names + OLD_SECTION_H (old_sbss_index).sh_name);
|
|
|
640 #endif
|
|
|
641 if (!strcmp (old_section_names + OLD_SECTION_H (old_sbss_index).sh_name,
|
|
|
642 ".sbss"))
|
|
|
643 break;
|
|
|
644 }
|
|
|
645 if (old_sbss_index == old_file_h->e_shnum)
|
|
|
646 {
|
|
|
647 old_sbss_index = -1;
|
|
|
648 old_bss_addr = OLD_SECTION_H(old_bss_index).sh_addr;
|
|
|
649 old_bss_size = OLD_SECTION_H(old_bss_index).sh_size;
|
|
|
650 new_data2_index = old_bss_index;
|
|
|
651 }
|
|
|
652 else
|
|
|
653 {
|
|
|
654 old_bss_addr = OLD_SECTION_H(old_sbss_index).sh_addr;
|
|
|
655 old_bss_size = OLD_SECTION_H(old_bss_index).sh_size
|
|
|
656 + OLD_SECTION_H(old_sbss_index).sh_size;
|
|
|
657 new_data2_index = old_sbss_index;
|
|
|
658 }
|
|
|
659
|
|
|
660 for (old_mdebug_index = 1; old_mdebug_index < (int) old_file_h->e_shnum;
|
|
|
661 old_mdebug_index++)
|
|
|
662 {
|
|
|
663 #ifdef DEBUG
|
|
|
664 fprintf (stderr, "Looking for .mdebug - found %s\n",
|
|
|
665 old_section_names + OLD_SECTION_H (old_mdebug_index).sh_name);
|
|
|
666 #endif
|
|
|
667 if (!strcmp (old_section_names + OLD_SECTION_H (old_mdebug_index).sh_name,
|
|
|
668 ".mdebug"))
|
|
|
669 break;
|
|
|
670 }
|
|
|
671 if (old_mdebug_index == old_file_h->e_shnum)
|
|
|
672 old_mdebug_index = 0;
|
|
|
673
|
|
442
|
674 for (old_data_index = 1; old_data_index < (int) old_file_h->e_shnum;
|
|
|
675 old_data_index++)
|
|
|
676 {
|
|
|
677 #ifdef DEBUG
|
|
|
678 fprintf (stderr, "Looking for .data - found %s\n",
|
|
|
679 old_section_names + OLD_SECTION_H (old_data_index).sh_name);
|
|
|
680 #endif
|
|
|
681 if (!strcmp (old_section_names + OLD_SECTION_H (old_data_index).sh_name,
|
|
|
682 ".data"))
|
|
|
683 break;
|
|
|
684 }
|
|
|
685 if (old_data_index == old_file_h->e_shnum)
|
|
|
686 old_data_index = 0;
|
|
|
687
|
|
428
|
688 #if defined (emacs) || !defined (DEBUG)
|
|
|
689 new_bss_addr = (ElfW(Addr)) sbrk (0);
|
|
|
690 #else
|
|
|
691 new_bss_addr = old_bss_addr + old_bss_size + 0x1234;
|
|
|
692 #endif
|
|
|
693 new_data2_addr = old_bss_addr;
|
|
|
694 new_data2_size = new_bss_addr - old_bss_addr;
|
|
442
|
695 new_data2_offset = OLD_SECTION_H (old_data_index).sh_offset +
|
|
|
696 (new_data2_addr - OLD_SECTION_H (old_data_index).sh_addr);
|
|
428
|
697
|
|
|
698 #ifdef DEBUG
|
|
|
699 fprintf (stderr, "old_bss_index %d\n", old_bss_index);
|
|
|
700 fprintf (stderr, "old_bss_addr %x\n", old_bss_addr);
|
|
|
701 fprintf (stderr, "old_bss_size %x\n", old_bss_size);
|
|
|
702 fprintf (stderr, "new_bss_addr %x\n", new_bss_addr);
|
|
|
703 fprintf (stderr, "new_data2_addr %x\n", new_data2_addr);
|
|
|
704 fprintf (stderr, "new_data2_size %x\n", new_data2_size);
|
|
|
705 fprintf (stderr, "new_data2_offset %x\n", new_data2_offset);
|
|
|
706 #endif
|
|
|
707
|
|
|
708 if ((unsigned) new_bss_addr < (unsigned) old_bss_addr + old_bss_size)
|
|
|
709 fatal (".bss shrank when undumping???\n", 0, 0);
|
|
|
710
|
|
|
711 /* Set the output file to the right size and mmap it. Set
|
|
|
712 * pointers to various interesting objects. stat_buf still has
|
|
|
713 * old_file data.
|
|
|
714 */
|
|
|
715
|
|
|
716 new_file = open (new_name, O_RDWR | O_CREAT, 0666);
|
|
|
717 if (new_file < 0)
|
|
|
718 fatal ("Can't creat (%s): errno %d\n", new_name, errno);
|
|
|
719
|
|
|
720 new_file_size = stat_buf.st_size + old_file_h->e_shentsize + new_data2_size;
|
|
|
721
|
|
|
722 if (ftruncate (new_file, new_file_size))
|
|
|
723 fatal ("Can't ftruncate (%s): errno %d\n", new_name, errno);
|
|
|
724
|
|
|
725 new_base = (caddr_t) mmap (0, new_file_size, PROT_READ | PROT_WRITE,
|
|
|
726 #ifdef UNEXEC_USE_MAP_PRIVATE
|
|
|
727 MAP_PRIVATE,
|
|
|
728 #else
|
|
|
729 MAP_SHARED,
|
|
|
730 #endif
|
|
|
731 new_file, 0);
|
|
|
732
|
|
|
733 if (new_base == (caddr_t) -1)
|
|
|
734 fatal ("Can't mmap (%s): errno %d\n", new_name, errno);
|
|
|
735
|
|
|
736 new_file_h = (ElfW(Ehdr) *) new_base;
|
|
|
737 new_program_h = (ElfW(Phdr) *) ((byte *) new_base + old_file_h->e_phoff);
|
|
|
738 new_section_h = (ElfW(Shdr) *)
|
|
|
739 ((byte *) new_base + old_file_h->e_shoff + new_data2_size);
|
|
|
740
|
|
|
741 /* Make our new file, program and section headers as copies of the
|
|
|
742 * originals.
|
|
|
743 */
|
|
|
744
|
|
|
745 memcpy (new_file_h, old_file_h, old_file_h->e_ehsize);
|
|
|
746 memcpy (new_program_h, old_program_h,
|
|
|
747 old_file_h->e_phnum * old_file_h->e_phentsize);
|
|
|
748
|
|
|
749 /* Modify the e_shstrndx if necessary. */
|
|
|
750 PATCH_INDEX (new_file_h->e_shstrndx);
|
|
|
751
|
|
|
752 /* Fix up file header. We'll add one section. Section header is
|
|
|
753 * further away now.
|
|
|
754 */
|
|
|
755
|
|
|
756 new_file_h->e_shoff += new_data2_size;
|
|
|
757 new_file_h->e_shnum += 1;
|
|
|
758
|
|
|
759 #ifdef DEBUG
|
|
|
760 fprintf (stderr, "Old section offset %x\n", old_file_h->e_shoff);
|
|
|
761 fprintf (stderr, "Old section count %d\n", old_file_h->e_shnum);
|
|
|
762 fprintf (stderr, "New section offset %x\n", new_file_h->e_shoff);
|
|
|
763 fprintf (stderr, "New section count %d\n", new_file_h->e_shnum);
|
|
|
764 #endif
|
|
|
765
|
|
|
766 /* Fix up a new program header. Extend the writable data segment so
|
|
|
767 * that the bss area is covered too. Find that segment by looking
|
|
|
768 * for a segment that ends just before the .bss area. Make sure
|
|
|
769 * that no segments are above the new .data2. Put a loop at the end
|
|
|
770 * to adjust the offset and address of any segment that is above
|
|
|
771 * data2, just in case we decide to allow this later.
|
|
|
772 */
|
|
|
773
|
|
|
774 for (n = new_file_h->e_phnum - 1; n >= 0; n--)
|
|
|
775 {
|
|
|
776 /* Compute maximum of all requirements for alignment of section. */
|
|
|
777 ElfW(Word) alignment = (NEW_PROGRAM_H (n)).p_align;
|
|
|
778 if ((OLD_SECTION_H (old_bss_index)).sh_addralign > alignment)
|
|
|
779 alignment = OLD_SECTION_H (old_bss_index).sh_addralign;
|
|
|
780
|
|
|
781 #ifdef __mips
|
|
|
782 /* According to r02kar@x4u2.desy.de (Karsten Kuenne)
|
|
|
783 and oliva@gnu.org (Alexandre Oliva), on IRIX 5.2, we
|
|
|
784 always get "Program segment above .bss" when dumping
|
|
|
785 when the executable doesn't have an sbss section. */
|
|
|
786 if (old_sbss_index != -1)
|
|
|
787 #endif /* __mips */
|
|
|
788 if (NEW_PROGRAM_H (n).p_vaddr + NEW_PROGRAM_H (n).p_filesz
|
|
|
789 > (old_sbss_index == -1
|
|
|
790 ? old_bss_addr
|
|
|
791 : round_up (old_bss_addr, alignment)))
|
|
|
792 fatal ("Program segment above .bss in %s\n", old_name, 0);
|
|
|
793
|
|
|
794 if (NEW_PROGRAM_H (n).p_type == PT_LOAD
|
|
|
795 && (round_up ((NEW_PROGRAM_H (n)).p_vaddr
|
|
|
796 + (NEW_PROGRAM_H (n)).p_filesz,
|
|
|
797 alignment)
|
|
|
798 == round_up (old_bss_addr, alignment)))
|
|
|
799 break;
|
|
|
800 }
|
|
|
801 if (n < 0)
|
|
|
802 fatal ("Couldn't find segment next to .bss in %s\n", old_name, 0);
|
|
|
803
|
|
|
804 /* Make sure that the size includes any padding before the old .bss
|
|
|
805 section. */
|
|
|
806 NEW_PROGRAM_H (n).p_filesz = new_bss_addr - NEW_PROGRAM_H (n).p_vaddr;
|
|
|
807 NEW_PROGRAM_H (n).p_memsz = NEW_PROGRAM_H (n).p_filesz;
|
|
|
808
|
|
|
809 #if 0 /* Maybe allow section after data2 - does this ever happen? */
|
|
|
810 for (n = new_file_h->e_phnum - 1; n >= 0; n--)
|
|
|
811 {
|
|
|
812 if (NEW_PROGRAM_H (n).p_vaddr
|
|
|
813 && NEW_PROGRAM_H (n).p_vaddr >= new_data2_addr)
|
|
|
814 NEW_PROGRAM_H (n).p_vaddr += new_data2_size - old_bss_size;
|
|
|
815
|
|
|
816 if (NEW_PROGRAM_H (n).p_offset >= new_data2_offset)
|
|
|
817 NEW_PROGRAM_H (n).p_offset += new_data2_size;
|
|
|
818 }
|
|
|
819 #endif
|
|
|
820
|
|
|
821 /* Fix up section headers based on new .data2 section. Any section
|
|
|
822 * whose offset or virtual address is after the new .data2 section
|
|
|
823 * gets its value adjusted. .bss size becomes zero and new address
|
|
|
824 * is set. data2 section header gets added by copying the existing
|
|
|
825 * .data header and modifying the offset, address and size.
|
|
|
826 */
|
|
|
827 for (old_data_index = 1; old_data_index < (int) old_file_h->e_shnum;
|
|
|
828 old_data_index++)
|
|
|
829 if (!strcmp (old_section_names + OLD_SECTION_H (old_data_index).sh_name,
|
|
|
830 ".data"))
|
|
|
831 break;
|
|
|
832 if (old_data_index == old_file_h->e_shnum)
|
|
|
833 fatal ("Can't find .data in %s.\n", old_name, 0);
|
|
|
834
|
|
|
835 /* Walk through all section headers, insert the new data2 section right
|
|
|
836 before the new bss section. */
|
|
|
837 for (n = 1, nn = 1; n < (int) old_file_h->e_shnum; n++, nn++)
|
|
|
838 {
|
|
|
839 caddr_t src;
|
|
|
840 /* If it is (s)bss section, insert the new data2 section before it. */
|
|
|
841 /* new_data2_index is the index of either old_sbss or old_bss, that was
|
|
|
842 chosen as a section for new_data2. */
|
|
|
843 if (n == new_data2_index)
|
|
|
844 {
|
|
|
845 /* Steal the data section header for this data2 section. */
|
|
|
846 memcpy (&NEW_SECTION_H (nn), &OLD_SECTION_H (old_data_index),
|
|
|
847 new_file_h->e_shentsize);
|
|
|
848
|
|
|
849 NEW_SECTION_H (nn).sh_addr = new_data2_addr;
|
|
|
850 NEW_SECTION_H (nn).sh_offset = new_data2_offset;
|
|
|
851 NEW_SECTION_H (nn).sh_size = new_data2_size;
|
|
|
852 /* Use the bss section's alignment. This will assure that the
|
|
|
853 new data2 section always be placed in the same spot as the old
|
|
|
854 bss section by any other application. */
|
|
|
855 NEW_SECTION_H (nn).sh_addralign = OLD_SECTION_H (n).sh_addralign;
|
|
|
856
|
|
|
857 /* Now copy over what we have in the memory now. */
|
|
|
858 memcpy (NEW_SECTION_H (nn).sh_offset + new_base,
|
|
|
859 (caddr_t) OLD_SECTION_H (n).sh_addr,
|
|
|
860 new_data2_size);
|
|
|
861 nn++;
|
|
|
862 }
|
|
|
863
|
|
|
864 memcpy (&NEW_SECTION_H (nn), &OLD_SECTION_H (n),
|
|
|
865 old_file_h->e_shentsize);
|
|
|
866
|
|
|
867 if (n == old_bss_index
|
|
|
868 /* The new bss and sbss section's size is zero, and its file offset
|
|
|
869 and virtual address should be off by NEW_DATA2_SIZE. */
|
|
|
870 || n == old_sbss_index
|
|
|
871 )
|
|
|
872 {
|
|
|
873 /* NN should be `old_s?bss_index + 1' at this point. */
|
|
|
874 NEW_SECTION_H (nn).sh_offset =
|
|
|
875 NEW_SECTION_H (new_data2_index).sh_offset + new_data2_size;
|
|
|
876 NEW_SECTION_H (nn).sh_addr =
|
|
|
877 NEW_SECTION_H (new_data2_index).sh_addr + new_data2_size;
|
|
|
878 /* Let the new bss section address alignment be the same as the
|
|
|
879 section address alignment followed the old bss section, so
|
|
|
880 this section will be placed in exactly the same place. */
|
|
|
881 NEW_SECTION_H (nn).sh_addralign = OLD_SECTION_H (nn).sh_addralign;
|
|
|
882 NEW_SECTION_H (nn).sh_size = 0;
|
|
|
883 }
|
|
|
884 else
|
|
|
885 {
|
|
|
886 /* Any section that was original placed AFTER the bss
|
|
|
887 section should now be off by NEW_DATA2_SIZE. */
|
|
|
888 #ifdef SOLARIS_POWERPC
|
|
|
889 /* On PPC Reference Platform running Solaris 2.5.1
|
|
|
890 the plt section is also of type NOBI like the bss section.
|
|
|
891 (not really stored) and therefore sections after the bss
|
|
|
892 section start at the plt offset. The plt section is always
|
|
|
893 the one just before the bss section.
|
|
|
894 It would be better to put the new data section before
|
|
|
895 the .plt section, or use libelf instead.
|
|
|
896 Erik Deumens, deumens@qtp.ufl.edu. */
|
|
|
897 if (NEW_SECTION_H (nn).sh_offset
|
|
|
898 >= OLD_SECTION_H (old_bss_index-1).sh_offset)
|
|
|
899 NEW_SECTION_H (nn).sh_offset += new_data2_size;
|
|
|
900 #else
|
|
|
901 if (round_up (NEW_SECTION_H (nn).sh_offset,
|
|
|
902 OLD_SECTION_H (old_bss_index).sh_addralign)
|
|
|
903 >= new_data2_offset)
|
|
|
904 NEW_SECTION_H (nn).sh_offset += new_data2_size;
|
|
|
905 #endif
|
|
|
906 /* Any section that was originally placed after the section
|
|
|
907 header table should now be off by the size of one section
|
|
|
908 header table entry. */
|
|
|
909 if (NEW_SECTION_H (nn).sh_offset > new_file_h->e_shoff)
|
|
|
910 NEW_SECTION_H (nn).sh_offset += new_file_h->e_shentsize;
|
|
|
911 }
|
|
|
912
|
|
|
913 /* If any section hdr refers to the section after the new .data
|
|
|
914 section, make it refer to next one because we have inserted
|
|
|
915 a new section in between. */
|
|
|
916
|
|
|
917 PATCH_INDEX (NEW_SECTION_H (nn).sh_link);
|
|
|
918 /* For symbol tables, info is a symbol table index,
|
|
|
919 so don't change it. */
|
|
|
920 if (NEW_SECTION_H (nn).sh_type != SHT_SYMTAB
|
|
|
921 && NEW_SECTION_H (nn).sh_type != SHT_DYNSYM)
|
|
|
922 PATCH_INDEX (NEW_SECTION_H (nn).sh_info);
|
|
|
923
|
|
|
924 /* Now, start to copy the content of sections. */
|
|
|
925 if (NEW_SECTION_H (nn).sh_type == SHT_NULL
|
|
|
926 || NEW_SECTION_H (nn).sh_type == SHT_NOBITS)
|
|
|
927 continue;
|
|
|
928
|
|
|
929 /* Write out the sections. .data and .data1 (and data2, called
|
|
|
930 ".data" in the strings table) get copied from the current process
|
|
|
931 instead of the old file. */
|
|
|
932 if (!strcmp (old_section_names + NEW_SECTION_H (n).sh_name, ".data")
|
|
|
933 || !strcmp ((old_section_names + NEW_SECTION_H (n).sh_name),
|
|
|
934 ".sdata")
|
|
|
935 /* Taking these sections from the current process, breaks
|
|
|
936 Linux in a subtle way. Binaries only run on the
|
|
|
937 architecture (e.g. i586 vs i686) of the dumping machine */
|
|
|
938 #ifdef __sgi
|
|
|
939 || !strcmp ((old_section_names + NEW_SECTION_H (n).sh_name),
|
|
|
940 ".lit4")
|
|
|
941 || !strcmp ((old_section_names + NEW_SECTION_H (n).sh_name),
|
|
|
942 ".lit8")
|
|
|
943 || !strcmp ((old_section_names + NEW_SECTION_H (n).sh_name),
|
|
|
944 ".got")
|
|
|
945 #endif
|
|
|
946 || !strcmp ((old_section_names + NEW_SECTION_H (n).sh_name),
|
|
|
947 ".sdata1")
|
|
|
948 || !strcmp ((old_section_names + NEW_SECTION_H (n).sh_name),
|
|
|
949 ".data1"))
|
|
|
950 src = (caddr_t) OLD_SECTION_H (n).sh_addr;
|
|
|
951 else
|
|
|
952 src = old_base + OLD_SECTION_H (n).sh_offset;
|
|
|
953
|
|
|
954 memcpy (NEW_SECTION_H (nn).sh_offset + new_base, src,
|
|
|
955 NEW_SECTION_H (nn).sh_size);
|
|
|
956
|
|
|
957 #ifdef __alpha__
|
|
|
958 /* Update Alpha COFF symbol table: */
|
|
|
959 if (strcmp (old_section_names + OLD_SECTION_H (n).sh_name, ".mdebug")
|
|
|
960 == 0)
|
|
|
961 {
|
|
|
962 pHDRR symhdr = (pHDRR) (NEW_SECTION_H (nn).sh_offset + new_base);
|
|
|
963
|
|
|
964 symhdr->cbLineOffset += new_data2_size;
|
|
|
965 symhdr->cbDnOffset += new_data2_size;
|
|
|
966 symhdr->cbPdOffset += new_data2_size;
|
|
|
967 symhdr->cbSymOffset += new_data2_size;
|
|
|
968 symhdr->cbOptOffset += new_data2_size;
|
|
|
969 symhdr->cbAuxOffset += new_data2_size;
|
|
|
970 symhdr->cbSsOffset += new_data2_size;
|
|
|
971 symhdr->cbSsExtOffset += new_data2_size;
|
|
|
972 symhdr->cbFdOffset += new_data2_size;
|
|
|
973 symhdr->cbRfdOffset += new_data2_size;
|
|
|
974 symhdr->cbExtOffset += new_data2_size;
|
|
|
975 }
|
|
|
976 #endif /* __alpha__ */
|
|
|
977
|
|
|
978 #if defined (__sony_news) && defined (_SYSTYPE_SYSV)
|
|
|
979 if (NEW_SECTION_H (nn).sh_type == SHT_MIPS_DEBUG && old_mdebug_index)
|
|
|
980 {
|
|
|
981 int diff = NEW_SECTION_H(nn).sh_offset
|
|
|
982 - OLD_SECTION_H(old_mdebug_index).sh_offset;
|
|
|
983 HDRR *phdr = (HDRR *)(NEW_SECTION_H (nn).sh_offset + new_base);
|
|
|
984
|
|
|
985 if (diff)
|
|
|
986 {
|
|
|
987 phdr->cbLineOffset += diff;
|
|
|
988 phdr->cbDnOffset += diff;
|
|
|
989 phdr->cbPdOffset += diff;
|
|
|
990 phdr->cbSymOffset += diff;
|
|
|
991 phdr->cbOptOffset += diff;
|
|
|
992 phdr->cbAuxOffset += diff;
|
|
|
993 phdr->cbSsOffset += diff;
|
|
|
994 phdr->cbSsExtOffset += diff;
|
|
|
995 phdr->cbFdOffset += diff;
|
|
|
996 phdr->cbRfdOffset += diff;
|
|
|
997 phdr->cbExtOffset += diff;
|
|
|
998 }
|
|
|
999 }
|
|
|
1000 #endif /* __sony_news && _SYSTYPE_SYSV */
|
|
|
1001
|
|
|
1002 #ifdef __sgi
|
|
|
1003 /* Adjust the HDRR offsets in .mdebug and copy the
|
|
|
1004 line data if it's in its usual 'hole' in the object.
|
|
|
1005 Makes the new file debuggable with dbx.
|
|
|
1006 patches up two problems: the absolute file offsets
|
|
|
1007 in the HDRR record of .mdebug (see /usr/include/syms.h), and
|
|
|
1008 the ld bug that gets the line table in a hole in the
|
|
|
1009 elf file rather than in the .mdebug section proper.
|
|
|
1010 David Anderson. davea@sgi.com Jan 16,1994. */
|
|
|
1011 if (n == old_mdebug_index)
|
|
|
1012 {
|
|
|
1013 #define MDEBUGADJUST(__ct,__fileaddr) \
|
|
|
1014 if (n_phdrr->__ct > 0) \
|
|
|
1015 { \
|
|
|
1016 n_phdrr->__fileaddr += movement; \
|
|
|
1017 }
|
|
|
1018
|
|
|
1019 HDRR * o_phdrr = (HDRR *)((byte *)old_base + OLD_SECTION_H (n).sh_offset);
|
|
|
1020 HDRR * n_phdrr = (HDRR *)((byte *)new_base + NEW_SECTION_H (nn).sh_offset);
|
|
|
1021 unsigned movement = new_data2_size;
|
|
|
1022
|
|
|
1023 MDEBUGADJUST (idnMax, cbDnOffset);
|
|
|
1024 MDEBUGADJUST (ipdMax, cbPdOffset);
|
|
|
1025 MDEBUGADJUST (isymMax, cbSymOffset);
|
|
|
1026 MDEBUGADJUST (ioptMax, cbOptOffset);
|
|
|
1027 MDEBUGADJUST (iauxMax, cbAuxOffset);
|
|
|
1028 MDEBUGADJUST (issMax, cbSsOffset);
|
|
|
1029 MDEBUGADJUST (issExtMax, cbSsExtOffset);
|
|
|
1030 MDEBUGADJUST (ifdMax, cbFdOffset);
|
|
|
1031 MDEBUGADJUST (crfd, cbRfdOffset);
|
|
|
1032 MDEBUGADJUST (iextMax, cbExtOffset);
|
|
|
1033 /* The Line Section, being possible off in a hole of the object,
|
|
|
1034 requires special handling. */
|
|
|
1035 if (n_phdrr->cbLine > 0)
|
|
|
1036 {
|
|
|
1037 if (o_phdrr->cbLineOffset > (OLD_SECTION_H (n).sh_offset
|
|
|
1038 + OLD_SECTION_H (n).sh_size))
|
|
|
1039 {
|
|
|
1040 /* line data is in a hole in elf. do special copy and adjust
|
|
|
1041 for this ld mistake.
|
|
|
1042 */
|
|
|
1043 n_phdrr->cbLineOffset += movement;
|
|
|
1044
|
|
|
1045 memcpy (n_phdrr->cbLineOffset + new_base,
|
|
|
1046 o_phdrr->cbLineOffset + old_base, n_phdrr->cbLine);
|
|
|
1047 }
|
|
|
1048 else
|
|
|
1049 {
|
|
|
1050 /* somehow line data is in .mdebug as it is supposed to be. */
|
|
|
1051 MDEBUGADJUST (cbLine, cbLineOffset);
|
|
|
1052 }
|
|
|
1053 }
|
|
|
1054 }
|
|
|
1055 #endif /* __sgi */
|
|
|
1056
|
|
|
1057 /* If it is the symbol table, its st_shndx field needs to be patched. */
|
|
|
1058 if (NEW_SECTION_H (nn).sh_type == SHT_SYMTAB
|
|
|
1059 || NEW_SECTION_H (nn).sh_type == SHT_DYNSYM)
|
|
|
1060 {
|
|
|
1061 ElfW(Shdr) *spt = &NEW_SECTION_H (nn);
|
|
|
1062 unsigned int num = spt->sh_size / spt->sh_entsize;
|
|
|
1063 ElfW(Sym) * sym = (ElfW(Sym) *) (NEW_SECTION_H (nn).sh_offset +
|
|
|
1064 new_base);
|
|
|
1065 for (; num--; sym++)
|
|
|
1066 {
|
|
|
1067 if ((sym->st_shndx == SHN_UNDEF)
|
|
|
1068 || (sym->st_shndx == SHN_ABS)
|
|
|
1069 || (sym->st_shndx == SHN_COMMON))
|
|
|
1070 continue;
|
|
|
1071
|
|
|
1072 PATCH_INDEX (sym->st_shndx);
|
|
|
1073 }
|
|
|
1074 }
|
|
|
1075 }
|
|
|
1076
|
|
|
1077 /* Update the symbol values of _edata and _end. */
|
|
|
1078 for (n = new_file_h->e_shnum - 1; n; n--)
|
|
|
1079 {
|
|
|
1080 byte *symnames;
|
|
|
1081 ElfW(Sym) *symp, *symendp;
|
|
|
1082
|
|
|
1083 if (NEW_SECTION_H (n).sh_type != SHT_DYNSYM
|
|
|
1084 && NEW_SECTION_H (n).sh_type != SHT_SYMTAB)
|
|
|
1085 continue;
|
|
|
1086
|
|
|
1087 symnames = ((byte *) new_base
|
|
|
1088 + NEW_SECTION_H (NEW_SECTION_H (n).sh_link).sh_offset);
|
|
|
1089 symp = (ElfW(Sym) *) (NEW_SECTION_H (n).sh_offset + new_base);
|
|
|
1090 symendp = (ElfW(Sym) *) ((byte *)symp + NEW_SECTION_H (n).sh_size);
|
|
|
1091
|
|
|
1092 for (; symp < symendp; symp ++)
|
|
|
1093 if (strcmp ((char *) (symnames + symp->st_name), "_end") == 0
|
|
|
1094 || strcmp ((char *) (symnames + symp->st_name), "end") == 0
|
|
|
1095 || strcmp ((char *) (symnames + symp->st_name), "_edata") == 0
|
|
|
1096 || strcmp ((char *) (symnames + symp->st_name), "edata") == 0)
|
|
|
1097 memcpy (&symp->st_value, &new_bss_addr, sizeof (new_bss_addr));
|
|
|
1098 }
|
|
|
1099
|
|
|
1100 /* This loop seeks out relocation sections for the data section, so
|
|
|
1101 that it can undo relocations performed by the runtime linker. */
|
|
|
1102 for (n = new_file_h->e_shnum - 1; n; n--)
|
|
|
1103 {
|
|
|
1104 ElfW(Shdr) section = NEW_SECTION_H (n);
|
|
|
1105 switch (section.sh_type) {
|
|
|
1106 default:
|
|
|
1107 break;
|
|
|
1108 case SHT_REL:
|
|
|
1109 case SHT_RELA:
|
|
|
1110 /* This code handles two different size structs, but there should
|
|
|
1111 be no harm in that provided that r_offset is always the first
|
|
|
1112 member. */
|
|
|
1113 nn = section.sh_info;
|
|
|
1114 if (!strcmp (old_section_names + NEW_SECTION_H (nn).sh_name, ".data")
|
|
|
1115 || !strcmp ((old_section_names + NEW_SECTION_H (nn).sh_name),
|
|
|
1116 ".sdata")
|
|
|
1117 #ifdef __sgi
|
|
|
1118 || !strcmp ((old_section_names + NEW_SECTION_H (nn).sh_name),
|
|
|
1119 ".lit4")
|
|
|
1120 || !strcmp ((old_section_names + NEW_SECTION_H (nn).sh_name),
|
|
|
1121 ".lit8")
|
|
|
1122 || !strcmp ((old_section_names + NEW_SECTION_H (nn).sh_name),
|
|
|
1123 ".got")
|
|
|
1124 #endif
|
|
|
1125 || !strcmp ((old_section_names + NEW_SECTION_H (nn).sh_name),
|
|
|
1126 ".sdata1")
|
|
|
1127 || !strcmp ((old_section_names + NEW_SECTION_H (nn).sh_name),
|
|
|
1128 ".data1"))
|
|
|
1129 {
|
|
|
1130 ElfW(Addr) offset = NEW_SECTION_H (nn).sh_addr -
|
|
|
1131 NEW_SECTION_H (nn).sh_offset;
|
|
|
1132 caddr_t reloc = old_base + section.sh_offset, end;
|
|
|
1133 for (end = reloc + section.sh_size; reloc < end;
|
|
|
1134 reloc += section.sh_entsize)
|
|
|
1135 {
|
|
|
1136 ElfW(Addr) addr = ((ElfW(Rel) *) reloc)->r_offset - offset;
|
|
|
1137 #ifdef __alpha__
|
|
|
1138 /* The Alpha ELF binutils currently have a bug that
|
|
|
1139 sometimes results in relocs that contain all
|
|
|
1140 zeroes. Work around this for now... */
|
|
|
1141 if (((ElfW(Rel) *) reloc)->r_offset == 0)
|
|
|
1142 continue;
|
|
|
1143 #endif
|
|
|
1144 memcpy (new_base + addr, old_base + addr, sizeof(ElfW(Addr)));
|
|
|
1145 }
|
|
|
1146 }
|
|
|
1147 break;
|
|
|
1148 }
|
|
|
1149 }
|
|
|
1150
|
|
|
1151 #ifdef UNEXEC_USE_MAP_PRIVATE
|
|
|
1152 if (lseek (new_file, 0, SEEK_SET) == -1)
|
|
|
1153 fatal ("Can't rewind (%s): errno %d\n", new_name, errno);
|
|
|
1154
|
|
|
1155 if (write (new_file, new_base, new_file_size) != new_file_size)
|
|
|
1156 fatal ("Can't write (%s): errno %d\n", new_name, errno);
|
|
|
1157 #endif
|
|
|
1158
|
|
|
1159 /* Close the files and make the new file executable. */
|
|
|
1160
|
|
|
1161 if (close (old_file))
|
|
|
1162 fatal ("Can't close (%s): errno %d\n", old_name, errno);
|
|
|
1163
|
|
|
1164 if (close (new_file))
|
|
|
1165 fatal ("Can't close (%s): errno %d\n", new_name, errno);
|
|
|
1166
|
|
|
1167 if (stat (new_name, &stat_buf) == -1)
|
|
|
1168 fatal ("Can't stat (%s): errno %d\n", new_name, errno);
|
|
|
1169
|
|
|
1170 n = umask (777);
|
|
|
1171 umask (n);
|
|
|
1172 stat_buf.st_mode |= 0111 & ~n;
|
|
|
1173 if (chmod (new_name, stat_buf.st_mode) == -1)
|
|
|
1174 fatal ("Can't chmod (%s): errno %d\n", new_name, errno);
|
|
|
1175 }
|
