1 /* Conversion functions for versioning information. 2 Copyright (C) 1998, 1999, 2000, 2002, 2003, 2015 Red Hat, Inc. 3 This file is part of elfutils. 4 Written by Ulrich Drepper <drepper (at) redhat.com>, 1998. 5 6 This file is free software; you can redistribute it and/or modify 7 it under the terms of either 8 9 * the GNU Lesser General Public License as published by the Free 10 Software Foundation; either version 3 of the License, or (at 11 your option) any later version 12 13 or 14 15 * the GNU General Public License as published by the Free 16 Software Foundation; either version 2 of the License, or (at 17 your option) any later version 18 19 or both in parallel, as here. 20 21 elfutils is distributed in the hope that it will be useful, but 22 WITHOUT ANY WARRANTY; without even the implied warranty of 23 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 24 General Public License for more details. 25 26 You should have received copies of the GNU General Public License and 27 the GNU Lesser General Public License along with this program. If 28 not, see <http://www.gnu.org/licenses/>. */ 29 30 #include <assert.h> 31 #include <gelf.h> 32 33 #include "libelfP.h" 34 35 36 static void 37 elf_cvt_Verdef (void *dest, const void *src, size_t len, int encode) 38 { 39 /* We have two different record types: ElfXX_Verndef and ElfXX_Verdaux. 40 To recognize them we have to walk the data structure and convert 41 them one after the other. The ENCODE parameter specifies whether 42 we are encoding or decoding. When we are encoding we can immediately 43 use the data in the buffer; if not, we have to decode the data before 44 using it. */ 45 size_t def_offset = 0; 46 GElf_Verdef *ddest; 47 GElf_Verdef *dsrc; 48 49 /* We rely on the types being all the same size. */ 50 assert (sizeof (GElf_Verdef) == sizeof (Elf32_Verdef)); 51 assert (sizeof (GElf_Verdaux) == sizeof (Elf32_Verdaux)); 52 assert (sizeof (GElf_Verdef) == sizeof (Elf64_Verdef)); 53 assert (sizeof (GElf_Verdaux) == sizeof (Elf64_Verdaux)); 54 55 if (len == 0) 56 return; 57 58 /* Below we rely on the next field offsets to be correct, start by 59 copying over all data as is in case some data isn't translated. 60 We don't want to leave (undefined) garbage in the dest buffer. */ 61 memmove (dest, src, len); 62 63 do 64 { 65 size_t aux_offset; 66 GElf_Verdaux *asrc; 67 68 /* Test for correct offset. */ 69 if (def_offset > len || len - def_offset < sizeof (GElf_Verdef)) 70 return; 71 72 /* Work the tree from the first record. */ 73 ddest = (GElf_Verdef *) ((char *) dest + def_offset); 74 dsrc = (GElf_Verdef *) ((char *) src + def_offset); 75 76 /* Decode first if necessary. */ 77 if (! encode) 78 { 79 ddest->vd_version = bswap_16 (dsrc->vd_version); 80 ddest->vd_flags = bswap_16 (dsrc->vd_flags); 81 ddest->vd_ndx = bswap_16 (dsrc->vd_ndx); 82 ddest->vd_cnt = bswap_16 (dsrc->vd_cnt); 83 ddest->vd_hash = bswap_32 (dsrc->vd_hash); 84 ddest->vd_aux = bswap_32 (dsrc->vd_aux); 85 ddest->vd_next = bswap_32 (dsrc->vd_next); 86 87 aux_offset = def_offset + ddest->vd_aux; 88 } 89 else 90 aux_offset = def_offset + dsrc->vd_aux; 91 92 /* Handle all the auxiliary records belonging to this definition. */ 93 do 94 { 95 GElf_Verdaux *adest; 96 97 /* Test for correct offset. */ 98 if (aux_offset > len || len - aux_offset < sizeof (GElf_Verdaux)) 99 return; 100 101 adest = (GElf_Verdaux *) ((char *) dest + aux_offset); 102 asrc = (GElf_Verdaux *) ((char *) src + aux_offset); 103 104 if (encode) 105 aux_offset += asrc->vda_next; 106 107 adest->vda_name = bswap_32 (asrc->vda_name); 108 adest->vda_next = bswap_32 (asrc->vda_next); 109 110 if (! encode) 111 aux_offset += adest->vda_next; 112 } 113 while (asrc->vda_next != 0); 114 115 /* Encode now if necessary. */ 116 if (encode) 117 { 118 def_offset += dsrc->vd_next; 119 120 ddest->vd_version = bswap_16 (dsrc->vd_version); 121 ddest->vd_flags = bswap_16 (dsrc->vd_flags); 122 ddest->vd_ndx = bswap_16 (dsrc->vd_ndx); 123 ddest->vd_cnt = bswap_16 (dsrc->vd_cnt); 124 ddest->vd_hash = bswap_32 (dsrc->vd_hash); 125 ddest->vd_aux = bswap_32 (dsrc->vd_aux); 126 ddest->vd_next = bswap_32 (dsrc->vd_next); 127 } 128 else 129 def_offset += ddest->vd_next; 130 } 131 while (dsrc->vd_next != 0); 132 } 133 134 135 static void 136 elf_cvt_Verneed (void *dest, const void *src, size_t len, int encode) 137 { 138 /* We have two different record types: ElfXX_Verndef and ElfXX_Verdaux. 139 To recognize them we have to walk the data structure and convert 140 them one after the other. The ENCODE parameter specifies whether 141 we are encoding or decoding. When we are encoding we can immediately 142 use the data in the buffer; if not, we have to decode the data before 143 using it. */ 144 size_t need_offset = 0; 145 GElf_Verneed *ndest; 146 GElf_Verneed *nsrc; 147 148 /* We rely on the types being all the same size. */ 149 assert (sizeof (GElf_Verneed) == sizeof (Elf32_Verneed)); 150 assert (sizeof (GElf_Vernaux) == sizeof (Elf32_Vernaux)); 151 assert (sizeof (GElf_Verneed) == sizeof (Elf64_Verneed)); 152 assert (sizeof (GElf_Vernaux) == sizeof (Elf64_Vernaux)); 153 154 if (len == 0) 155 return; 156 157 /* Below we rely on the next field offsets to be correct, start by 158 copying over all data as is in case some data isn't translated. 159 We don't want to leave (undefined) garbage in the dest buffer. */ 160 memmove (dest, src, len); 161 162 do 163 { 164 size_t aux_offset; 165 GElf_Vernaux *asrc; 166 167 /* Test for correct offset. */ 168 if (need_offset > len || len - need_offset < sizeof (GElf_Verneed)) 169 return; 170 171 /* Work the tree from the first record. */ 172 ndest = (GElf_Verneed *) ((char *) dest + need_offset); 173 nsrc = (GElf_Verneed *) ((char *) src + need_offset); 174 175 /* Decode first if necessary. */ 176 if (! encode) 177 { 178 ndest->vn_version = bswap_16 (nsrc->vn_version); 179 ndest->vn_cnt = bswap_16 (nsrc->vn_cnt); 180 ndest->vn_file = bswap_32 (nsrc->vn_file); 181 ndest->vn_aux = bswap_32 (nsrc->vn_aux); 182 ndest->vn_next = bswap_32 (nsrc->vn_next); 183 184 aux_offset = need_offset + ndest->vn_aux; 185 } 186 else 187 aux_offset = need_offset + nsrc->vn_aux; 188 189 /* Handle all the auxiliary records belonging to this requirement. */ 190 do 191 { 192 GElf_Vernaux *adest; 193 194 /* Test for correct offset. */ 195 if (aux_offset > len || len - aux_offset < sizeof (GElf_Vernaux)) 196 return; 197 198 adest = (GElf_Vernaux *) ((char *) dest + aux_offset); 199 asrc = (GElf_Vernaux *) ((char *) src + aux_offset); 200 201 if (encode) 202 aux_offset += asrc->vna_next; 203 204 adest->vna_hash = bswap_32 (asrc->vna_hash); 205 adest->vna_flags = bswap_16 (asrc->vna_flags); 206 adest->vna_other = bswap_16 (asrc->vna_other); 207 adest->vna_name = bswap_32 (asrc->vna_name); 208 adest->vna_next = bswap_32 (asrc->vna_next); 209 210 if (! encode) 211 aux_offset += adest->vna_next; 212 } 213 while (asrc->vna_next != 0); 214 215 /* Encode now if necessary. */ 216 if (encode) 217 { 218 need_offset += nsrc->vn_next; 219 220 ndest->vn_version = bswap_16 (nsrc->vn_version); 221 ndest->vn_cnt = bswap_16 (nsrc->vn_cnt); 222 ndest->vn_file = bswap_32 (nsrc->vn_file); 223 ndest->vn_aux = bswap_32 (nsrc->vn_aux); 224 ndest->vn_next = bswap_32 (nsrc->vn_next); 225 } 226 else 227 need_offset += ndest->vn_next; 228 } 229 while (nsrc->vn_next != 0); 230 } 231