1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License (the "License"). 6 * You may not use this file except in compliance with the License. 7 * 8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9 * or http://www.opensolaris.org/os/licensing. 10 * See the License for the specific language governing permissions 11 * and limitations under the License. 12 * 13 * When distributing Covered Code, include this CDDL HEADER in each 14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15 * If applicable, add the following below this CDDL HEADER, with the 16 * fields enclosed by brackets "[]" replaced with your own identifying 17 * information: Portions Copyright [yyyy] [name of copyright owner] 18 * 19 * CDDL HEADER END 20 */ 21 22 /* 23 * Copyright (c) 1988 AT&T 24 * All Rights Reserved 25 * 26 * Copyright (c) 1989, 2010, Oracle and/or its affiliates. All rights reserved. 27 */ 28 29 /* 30 * Local include file for ld library. 31 */ 32 33 #ifndef _LIBLD_DOT_H 34 #define _LIBLD_DOT_H 35 36 #include <libld.h> 37 #include <_libelf.h> 38 #include <debug.h> 39 #include <conv.h> 40 #include <msg.h> 41 #include <reloc_defs.h> 42 43 #ifdef __cplusplus 44 extern "C" { 45 #endif 46 47 /* 48 * In order to allow for cross linking, we need to be able to build 49 * libld with support for multiple targets within a single object. 50 * This is done using a global variable (ld_targ) of type Target to 51 * access target-specific code for the current target via indirection. 52 */ 53 54 /* 55 * Machine information for target 56 */ 57 typedef struct { 58 Half m_mach; /* ELF machine code for target */ 59 Half m_machplus; /* Alt ELF machine code for target */ 60 /* Used for EM_SPARC32PLUS */ 61 Word m_flagsplus; /* ELF header flags used to identify */ 62 /* a machplus object */ 63 uchar_t m_class; /* Target ELFCLASS */ 64 uchar_t m_data; /* Target byte order */ 65 66 Xword m_segm_align; /* segment alignment */ 67 Xword m_segm_origin; /* Default 1st segment origin */ 68 Xword m_segm_aorigin; /* Alternative 1st segment origin */ 69 Word m_dataseg_perm; /* data segment permission mask */ 70 Word m_stack_perm; /* ABI default stack permission mask */ 71 Word m_word_align; /* alignment to use for Word sections */ 72 const char *m_def_interp; /* Def. interpreter for dyn objects */ 73 74 /* Relocation type codes */ 75 Word m_r_arrayaddr; 76 Word m_r_copy; 77 Word m_r_glob_dat; 78 Word m_r_jmp_slot; 79 Word m_r_num; 80 Word m_r_none; 81 Word m_r_relative; 82 Word m_r_register; 83 84 /* Relocation related constants */ 85 Word m_rel_dt_count; /* Either DT_REL or DT_RELA */ 86 Word m_rel_dt_ent; /* Either DT_RELENT or DT_RELAENT */ 87 Word m_rel_dt_size; /* Either DT_RELSZ or DT_RELASZ */ 88 Word m_rel_dt_type; /* Either DT_RELCOUNT or DT_RELACOUNT */ 89 Word m_rel_sht_type; /* Either SHT_REL or SHT_RELA */ 90 91 /* GOT related constants */ 92 Word m_got_entsize; 93 Word m_got_xnumber; /* reserved # of got ents */ 94 95 /* PLT related constants */ 96 Word m_plt_align; 97 Word m_plt_entsize; 98 Word m_plt_reservsz; 99 Word m_plt_shf_flags; 100 101 /* Section type of .eh_frame/.eh_frame_hdr sections */ 102 Word m_sht_unwind; 103 104 Word m_dt_register; 105 } Target_mach; 106 107 108 /* 109 * Section identifiers, used to order sections in output object 110 */ 111 typedef struct { 112 Word id_array; 113 Word id_bss; 114 Word id_cap; 115 Word id_capinfo; 116 Word id_capchain; 117 Word id_data; 118 Word id_dynamic; 119 Word id_dynsort; 120 Word id_dynstr; 121 Word id_dynsym; 122 Word id_dynsym_ndx; 123 Word id_got; 124 Word id_gotdata; 125 Word id_hash; 126 Word id_interp; 127 Word id_lbss; 128 Word id_ldynsym; 129 Word id_note; 130 Word id_null; 131 Word id_plt; 132 Word id_rel; 133 Word id_strtab; 134 Word id_syminfo; 135 Word id_symtab; 136 Word id_symtab_ndx; 137 Word id_text; 138 Word id_tls; 139 Word id_tlsbss; 140 Word id_unknown; 141 Word id_unwind; 142 Word id_unwindhdr; 143 Word id_user; 144 Word id_version; 145 } Target_machid; 146 147 /* 148 * Target_nullfunc supplies machine code for generating a 149 * 150 * void (*)(void) 151 * 152 * unnamed function. Such a function can be called, and returns 153 * immediately without doing any work. This is used to back FUNC 154 * symbol definitions added with a mapfile. 155 * 156 * The machine instructions are specified as an array of bytes rather 157 * than a larger integer type in order to avoid byte order issues that 158 * can otherwise occur in cross linking. 159 */ 160 typedef struct { 161 const uchar_t *nf_template; /* Array of machine inst. bytes */ 162 size_t nf_size; /* # bytes in nf_template */ 163 } Target_nullfunc; 164 165 /* 166 * Target_fill supplies machine code for fill bytes in executable output 167 * sections. Normally, libelf fills the gaps caused by alignment and size 168 * requirements of the constituent input sections with 0. Depending on the 169 * target architecture, it may be desirable to instead fill with executable 170 * NOP instructions. There are two reasons to do this: 171 * 172 * - So that .init/.fini sections will not contain unexecutable gaps 173 * that cause the executing program to trap and die. 174 * 175 * - To eliminate confusing garbage instructions between sections containing 176 * executable code when viewed with a disassembler. 177 * 178 * The ff_execfill function is allowed to be NULL if the underlying target 179 * does not require a special fill for executable sections. 180 */ 181 typedef struct { 182 _elf_execfill_func_t *ff_execfill; 183 } Target_fillfunc; 184 185 /* 186 * Target_machrel holds pointers to the reloc_table and machrel functions 187 * for a given target machine. 188 * 189 * The following function pointers are allowed to be NULL, if the 190 * underlying target does not require the specified operation. All 191 * other functions must be supplied: 192 * 193 * mr_assign_got 194 * mr_reloc_register 195 * mr_reloc_GOTOP 196 * mr_allocate_got 197 */ 198 typedef struct { 199 const Rel_entry *mr_reloc_table; 200 201 Word (* mr_init_rel)(Rel_desc *, Word *, void *); 202 void (* mr_mach_eflags)(Ehdr *, Ofl_desc *); 203 void (* mr_mach_make_dynamic)(Ofl_desc *, size_t *); 204 void (* mr_mach_update_odynamic)(Ofl_desc *, Dyn **); 205 Xword (* mr_calc_plt_addr)(Sym_desc *, Ofl_desc *); 206 uintptr_t (* mr_perform_outreloc)(Rel_desc *, Ofl_desc *, 207 Boolean *); 208 uintptr_t (* mr_do_activerelocs)(Ofl_desc *); 209 uintptr_t (* mr_add_outrel)(Word, Rel_desc *, Ofl_desc *); 210 uintptr_t (* mr_reloc_register)(Rel_desc *, Is_desc *, 211 Ofl_desc *); 212 uintptr_t (* mr_reloc_local)(Rel_desc *, Ofl_desc *); 213 uintptr_t (* mr_reloc_GOTOP)(Boolean, Rel_desc *, Ofl_desc *); 214 uintptr_t (* mr_reloc_TLS)(Boolean, Rel_desc *, Ofl_desc *); 215 uintptr_t (* mr_assign_got)(Ofl_desc *, Sym_desc *); 216 217 Gotndx *(* mr_find_got_ndx)(Alist *, Gotref, Ofl_desc *, 218 Rel_desc *); 219 Xword (* mr_calc_got_offset)(Rel_desc *, Ofl_desc *); 220 uintptr_t (* mr_assign_got_ndx)(Alist **, Gotndx *, Gotref, 221 Ofl_desc *, Rel_desc *, Sym_desc *); 222 void (* mr_assign_plt_ndx)(Sym_desc *, Ofl_desc *); 223 uintptr_t (* mr_allocate_got)(Ofl_desc *); 224 uintptr_t (* mr_fillin_gotplt)(Ofl_desc *); 225 } Target_machrel; 226 227 228 /* 229 * Target_machsym holds pointers to the machsym functions 230 * for a given target machine. 231 * 232 * These fields are allowed to be NULL for targets that do not require 233 * special handling of register symbols. Register symbols are used by 234 * sparc targets. If any of these fields are non-NULL, all of them are 235 * required to be present (use empty stub routines if necessary). 236 */ 237 typedef struct { 238 int (* ms_reg_check)(Sym_desc *, Sym *, const char *, 239 Ifl_desc *, Ofl_desc *); 240 int (* ms_mach_sym_typecheck)(Sym_desc *, Sym *, 241 Ifl_desc *, Ofl_desc *); 242 const char *(* ms_is_regsym)(Ofl_desc *, Ifl_desc *, Sym *, 243 const char *, int, Word, const char *, sd_flag_t *); 244 Sym_desc *(* ms_reg_find)(Sym * sym, Ofl_desc * ofl); 245 int (* ms_reg_enter)(Sym_desc *, Ofl_desc *); 246 } Target_machsym; 247 248 typedef struct { 249 Target_mach t_m; 250 Target_machid t_id; 251 Target_nullfunc t_nf; 252 Target_fillfunc t_ff; 253 Target_machrel t_mr; 254 Target_machsym t_ms; 255 } Target; 256 257 /* 258 * Structure to manage the update of weak symbols from their associated alias. 259 */ 260 typedef struct wk_desc { 261 Sym *wk_symtab; /* the .symtab entry */ 262 Sym *wk_dynsym; /* the .dynsym entry */ 263 Sym_desc *wk_weak; /* the original weak symbol */ 264 Sym_desc *wk_alias; /* the real symbol */ 265 } Wk_desc; 266 267 /* 268 * Structure to manage the support library interfaces. 269 */ 270 typedef struct func_list { 271 const char *fl_obj; /* name of support object */ 272 /* function is from */ 273 void (*fl_fptr)(); /* function pointer */ 274 uint_t fl_version; /* ld_version() level */ 275 } Func_list; 276 277 typedef struct support_list { 278 const char *sup_name; /* ld_support function name */ 279 Alist *sup_funcs; /* list of support functions */ 280 } Support_list; 281 282 /* 283 * Structure to manage a sorted output relocation list. 284 * 285 * rl_key1 -> pointer to needed ndx 286 * rl_key2 -> pointer to symbol relocation is against 287 * rl_key3 -> virtual offset of relocation 288 */ 289 typedef struct reloc_list { 290 Sym_desc *rl_key2; 291 Xword rl_key3; 292 Rel_desc *rl_rsp; 293 Half rl_key1; 294 } Reloc_list; 295 296 297 typedef struct sym_s_list { 298 Word sl_hval; 299 Sym_desc *sl_sdp; 300 } Sym_s_list; 301 302 /* 303 * ld heap management structure 304 */ 305 typedef struct _ld_heap Ld_heap; 306 struct _ld_heap { 307 Ld_heap *lh_next; 308 void *lh_free; 309 void *lh_end; 310 }; 311 312 #define HEAPBLOCK 0x800000 /* default allocation block size */ 313 #define HEAPALIGN 0x8 /* heap blocks alignment requirement */ 314 315 /* 316 * Dynamic per-symbol filtee string table descriptor. This associates filtee 317 * strings that will be created in the .dynstr, with .dynamic entries. 318 */ 319 typedef struct { 320 const char *dft_str; /* dynstr string */ 321 Word dft_flag; /* auxiliary/filtee type */ 322 Half dft_ndx; /* eventual ndx into .dynamic */ 323 } Dfltr_desc; 324 325 /* 326 * Per-symbol filtee descriptor. This associates symbol definitions with 327 * their filtees. 328 */ 329 typedef struct { 330 Sym_desc *sft_sdp; /* symbol descriptor */ 331 Aliste sft_idx; /* index into dtstr descriptor */ 332 } Sfltr_desc; 333 334 /* 335 * Capabilities descriptor, and capabilities group descriptor, used to track 336 * the symbol capabilities of any input files and the output file. 337 * 338 * A relocatable object input file may contain one or more symbol capabilities 339 * groups. The Cap_desc structures keep track of all unique groups that are 340 * collected for the output file. Relocatable objects that contain an object 341 * capabilities group, and the -z symbolcap option is in effect, have their 342 * object group translated to a symbol capabilities group. 343 * 344 * Individual capabilities groups are maintained with the Cap_group descriptor. 345 * A group can consist of one or more capabilities definitions. One or more 346 * symbols can be associated with each group. 347 * 348 * For the output file, capabilities families are used to track the symbols of 349 * a given family, each symbol being associated with a different group. This 350 * collection of data is used to create the final Capinfo structure, and for 351 * dynamic objects, the Capchain structure. 352 * 353 * For example, an object may contain two capabilities groups: 354 * 355 * CA_SUNW_MACH - sun4u CA_SUNW_MACH - sun4v 356 * 357 * Two symbols can be associated with each group: 358 * 359 * foo%sun4u foo%sun4v 360 * bar%sun4u bar%sun4v 361 * 362 * Two families are maintained, and include the generic, or lead, instance of 363 * the capabilities members: 364 * 365 * foo, foo%sun4u, foo%sun4v 366 * bar, bar%sun4u, bar%sun4v 367 */ 368 struct cap_desc { 369 APlist *ca_groups; /* capabilities groups (Cap_group) */ 370 APlist *ca_syms; /* copies of symbols that are being */ 371 /* translated from object to */ 372 }; /* symbol capabilities */ 373 374 typedef struct { 375 Objcapset cg_set; /* unpacked SHT_SUNW_cap elements */ 376 APlist *cg_secs; /* sections, and hence files, that */ 377 /* use this descriptor */ 378 Word cg_num; /* number of comparable elements in */ 379 /* the group */ 380 Word cg_ndx; /* final capability group index */ 381 } Cap_group; 382 383 /* 384 * A Capabilities family node, extends a symbol node, and provides for tracking 385 * capabilities families. A family is defined by its lead symbol (for example, 386 * a generic, non-capabilities aware foo()), and one or more capabilities 387 * members (for example, capabilities instances foo%sun4u(), foo%sun4v(), etc.). 388 * 389 * Each member associates a symbol with its group using a Cap_sym structure. 390 */ 391 typedef struct { 392 Sym_avlnode cn_symavlnode; 393 APlist *cn_members; 394 APlist *cn_aliases; 395 } Cap_avlnode; 396 397 typedef struct { 398 Sym_desc *cs_sdp; /* capabilities symbol descriptor */ 399 Cap_group *cs_group; /* associated capabilities group */ 400 } Cap_sym; 401 402 /* 403 * Define Alist initialization sizes. 404 */ 405 #define AL_CNT_IFL_GROUPS 20 /* ifl_groups */ 406 #define AL_CNT_IFL_RELSECS 6 /* ifl_relsect */ 407 408 #define AL_CNT_CAP_DESCS 4 /* symbol capabilities descriptors */ 409 #define AL_CNT_CAP_SYMS 20 /* capabilities symbols */ 410 #define AL_CNT_CAP_SECS 10 /* capabilities sections */ 411 #define AL_CNT_CAP_NAMES 10 /* Objcapset platform and machine */ 412 /* names */ 413 #define AL_CNT_CAP_MEMS 10 /* capability family members */ 414 #define AL_CNT_CAP_PAIRS 10 /* capability symbol pairs */ 415 #define AL_CNT_CAP_ALIASES 2 /* capability lead symbol aliases */ 416 417 #define AL_CNT_OFL_DTSFLTRS 4 /* ofl_dtsfltrs */ 418 #define AL_CNT_OFL_SYMFLTRS 20 /* ofl_symfltrs */ 419 #define AL_CNT_OFL_MAPSECS 10 /* ofl_map{text|data} */ 420 #define AL_CNT_OFL_OBJS 50 /* ofl_objs */ 421 #define AL_CNT_OFL_LIBS 10 /* ofl_sos */ 422 #define AL_CNT_OFL_LIBDIRS 10 /* ofl_[ud]libdirs */ 423 #define AL_CNT_OFL_MAPFILES 6 /* ofl_maps */ 424 #define AL_CNT_OFL_ENTRANCE 10 /* ofl_ents */ 425 #define AL_CNT_OFL_RELS 4 /* ofl_outrels */ 426 #define AL_CNT_OFL_COPYRELS 10 /* ofl_copyrels */ 427 #define AL_CNT_OFL_ARRAYS 10 /* ofl_{init|fini|prei}array */ 428 #define AL_CNT_OFL_OSGROUPS 10 /* ofl_osgroups */ 429 #define AL_CNT_OFL_OSTLSSEG 4 /* ofl_ostlsseg */ 430 #define AL_CNT_OFL_ORDERED 4 /* ofl_ordered */ 431 #define AL_CNT_OFL_SYMINFOSYMS 50 /* ofl_syminfsyms */ 432 #define AL_CNT_OFL_MOVE 10 /* ofl_ismove */ 433 #define AL_CNT_OFL_UNWIND 1 /* ofl_unwind */ 434 #define AL_CNT_OFL_PARSYMS 10 /* ofl_parsyms */ 435 436 #define AL_CNT_OS_MSTRISDESCS 10 /* os_mstrisdescs */ 437 #define AL_CNT_OS_RELISDESCS 100 /* os_relisdescs */ 438 #define AL_CNT_OS_COMDATS 20 /* os_comdats */ 439 #define AL_CNT_OS_ISDESCS_BA 4 /* os_isdesc: BEFORE|AFTER */ 440 #define AL_CNT_OS_ISDESCS 60 /* os_isdesc: ORDERED|DEFAULT */ 441 442 #define AL_CNT_SG_IS_ORDER 40 /* sg_is_order */ 443 #define AL_CNT_SG_OSDESC 40 /* sg_osdescs */ 444 #define AL_CNT_SG_SECORDER 40 /* sg_secorder */ 445 #define AL_CNT_SG_SIZESYM 1 /* sg_sizesym */ 446 447 #define AL_CNT_SDP_GOT 1 /* sd_GOTndxs */ 448 #define AL_CNT_SDP_MOVE 1 /* sd_move */ 449 #define AL_CNT_SDP_DFILES 1 /* sa_dfiles */ 450 451 #define AL_CNT_SDF_VERSIONS 2 /* sdf_{vers|verneed} */ 452 453 #define AL_CNT_EC_FILES 1 /* ec_files */ 454 455 #define AL_CNT_VERDESCS 20 /* version desc */ 456 #define AL_CNT_WEAK 20 /* weak desc */ 457 #define AL_CNT_SUPPORT 2 /* support libraries */ 458 #define AL_CNT_STRMRGREL 500 /* ld_make_strmerge() reloc alist cnt */ 459 #define AL_CNT_STRMRGSYM 20 /* ld_make_strmerge() sym alist cnt */ 460 #define AL_CNT_SEGMENTS 20 /* ofl_segs */ 461 462 #define AL_CNT_ASSDEFLIB 4 /* ofl_assdeflib exceptions count */ 463 464 /* 465 * Return codes for {tls|got}_fixups() routines 466 */ 467 typedef enum { 468 FIX_ERROR, /* fatal error - time to punt */ 469 FIX_DONE, /* relocation done - no further processing required */ 470 FIX_RELOC /* do_reloc() relocation processing required */ 471 } Fixupret; 472 473 #ifndef FILENAME_MAX 474 #define FILENAME_MAX BUFSIZ /* maximum length of a path name */ 475 #endif 476 477 /* 478 * We pad the end of the .dynstr section with a block of DYNSTR_EXTRA_PAD 479 * bytes, and we insert DYNAMIC_EXTRA_ELTS unused items into the 480 * .dynamic section (with value DT_NULL). This provides the resources needed 481 * to add and/or alter string items in the .dynamic section, such as runpath. 482 */ 483 #define DYNSTR_EXTRA_PAD 512 484 #define DYNAMIC_EXTRA_ELTS 10 485 486 /* 487 * Default relocation cache allocation unit. This number should be small 488 * enough to not hurt memory use significantly, but large enough to avoid 489 * the need for too many subsequent allocations. 490 */ 491 #define REL_CACHEBUF_ALLOC 3000 492 #define RELAUX_CACHEBUF_ALLOC 1500 493 494 /* 495 * Given a symbol of a type that is allowed within a .SUNW_dynsymsort or 496 * .SUNW_dyntlssort section, examine the symbol attributes to determine 497 * if this particular symbol should be included or not. 498 * 499 * entry: 500 * The symbol must have an allowed type: Either a type verified by 501 * dynsymsort_symtype[] or STT_TLS. 502 * 503 * _sdp - Pointer to symbol descriptor 504 * _sym - Pointer to symbol referenced by _sdp. 505 * 506 * _sym is derivable from _sdp: _sdp->sd_sym 507 * However, most callers assign it to a local variable for efficiency, 508 * and this macro allows such a variable to be used within. If you 509 * don't have such a variable, supply _sdp->sd_sym. 510 * 511 * The tests used require some explanation: 512 * 513 * (_sdp->sd_flags & FLG_SY_DYNSORT) 514 * Some special symbols are kept even if they don't meet the 515 * usual requirements. These symbols have the FLG_SY_DYNSORT 516 * bit set. If this bit isn't set then we look at the other 517 * attributes. 518 * 519 * (((_sdp->sd_ref != REF_DYN_NEED) && 520 * (_sdp->sd_sym->st_shndx != SHN_UNDEF)) 521 * || (_sdp->sd_flags & FLG_SY_MVTOCOMM)) 522 * We do not want to include symbols that are not defined within 523 * the object we are creating. REF_DYN_NEED corresponds to those 524 * UNDEF items. However, if the symbol is the target of a copy 525 * relocation, then it effectively becomes defined within the 526 * object after all. FLG_SY_MVTOCOMM indicates a copy relocation, 527 * and prevents us from culling those exceptions. 528 * 529 * (_sym->st_size != 0) 530 * Symbols with 0 length are labels injected by the compilers 531 * or the linker for purposes of code generation, and do 532 * not directly correspond to actual code. In fact, most of the 533 * symbols we mark with FLG_SY_DYNSORT need that flag set because 534 * they have size 0. This size test filters out the others. 535 * 536 * !(_sdp->sd_flags & FLG_SY_NODYNSORT) 537 * Some symbols are not kept, even though they do meet the usual 538 * requirements. These symbols have FLG_SY_NODYNSORT set. 539 * For example, if there are weak and non-weak versions of a given 540 * symbol, we only want to keep one of them. So, we set 541 * FLG_SY_NODYNSORT on the one we don't want. 542 */ 543 #define DYNSORT_TEST_ATTR(_sdp, _sym) \ 544 ((_sdp->sd_flags & FLG_SY_DYNSORT) || \ 545 ((((_sdp->sd_ref != REF_DYN_NEED) && \ 546 (_sdp->sd_sym->st_shndx != SHN_UNDEF)) || \ 547 (_sdp->sd_flags & FLG_SY_MVTOCOMM)) && \ 548 (_sym->st_size != 0) && \ 549 !(_sdp->sd_flags & FLG_SY_NODYNSORT))) 550 551 /* 552 * We use output section descriptor counters to add up the number of 553 * symbol indexes to put in the .SUNW_dynsort and .SUNW_dyntlssort sections. 554 * Non-TLS symbols are counted by ofl->ofl_dynsymsortcnt, while TLS symbols are 555 * counted by ofl->ofl_dyntlssortcnt. This computation is done inline in 556 * several places. The DYNSORT_COUNT macro allows us to generate this from 557 * a single description. 558 * 559 * entry: 560 * _sdp, _sym - As per DYNSORT_TEST_ATTR 561 * _type - Type of symbol (STT_*) 562 * _inc_or_dec_op - Either ++, or --. This specifies the operation 563 * to be applied to the counter, and determines whether we 564 * are adding, or removing, a symbol from .SUNW_dynsymsort. 565 * 566 * Note that _type is derivable from _sym: ELF_ST_TYPE(_sdp->sd_sym->st_info). 567 * Most callers already have it in a variable, so this allows us to use that 568 * variable. If you don't have such a variable, use ELF_ST_TYPE() as shown. 569 */ 570 #define DYNSORT_COUNT(_sdp, _sym, _type, _inc_or_dec_op) \ 571 { \ 572 Word *_cnt_var; \ 573 \ 574 if (dynsymsort_symtype[_type]) { /* Non-TLS counter */ \ 575 _cnt_var = &ofl->ofl_dynsymsortcnt; \ 576 } else if ((_type) == STT_TLS) { /* TLS counter */ \ 577 _cnt_var = &ofl->ofl_dyntlssortcnt; \ 578 } else { /* Don't count this symbol */ \ 579 _cnt_var = NULL; \ 580 } \ 581 if ((_cnt_var != NULL) && DYNSORT_TEST_ATTR(_sdp, _sym)) \ 582 (*_cnt_var)_inc_or_dec_op; /* Increment/Decrement */ \ 583 } 584 585 /* 586 * The OFL_SWAP_RELOC macros are used to determine whether 587 * relocation processing needs to swap the data being relocated. 588 * It is an optimization to ld_swap_reloc_data(), as it avoids 589 * the function call in the case where the linker host and the 590 * target have the same byte order. 591 */ 592 #define OFL_SWAP_RELOC_DATA(_ofl, _rel) \ 593 (((_ofl)->ofl_flags1 & FLG_OF1_ENCDIFF) && \ 594 ld_swap_reloc_data(_ofl, _rel)) 595 596 /* 597 * Define an AVL node for maintaining input section descriptors. AVL trees of 598 * these descriptors are used to process group and COMDAT section. 599 * 600 * Pure COMDAT uses the input section name as the search key, while 601 * SHT_GROUP sections use the name of a special signature symbol. We 602 * support both by using the isd_name field to carry the name. An alternative 603 * design would be to use a separate type for each use, saving the cost 604 * of the unneeded pointer for pure COMDAT. We favor a single implementation 605 * because we believe that SHT_GROUP comdat will be more common going forward, 606 * particularly in the largest objects produced by C++ where SHT_GROUP is 607 * needed to manage the complex section relationships. In contrast, we think 608 * that pure COMDAT is both more rare, and used in smaller objects where the 609 * cost of an extra pointer per node is relatively unimportant. 610 */ 611 typedef struct { 612 avl_node_t isd_avl; /* avl book-keeping (see SGSOFFSETOF) */ 613 Is_desc *isd_isp; /* input section descriptor */ 614 const char *isd_name; /* name used as search key */ 615 uint_t isd_hash; /* input section name hash value */ 616 } Isd_node; 617 618 /* 619 * Type used to break down an input file path into its component parts, 620 * as used by ld_place_section() to compare an input file path to 621 * entrance criteria ec_files file strings. 622 * 623 * We define a path in the usual Unix '/' separated manner, augmented 624 * with an optional archive member suffix enclosed in parenthesis: 625 * 626 * /dir/.../dir/basename(armember) 627 * 628 * The basename is the final path component, and includes the archive 629 * member, if present. The meaning of "object name" depends on whether or 630 * not the file comes from an archive or not. If not an archive, it is the 631 * same as the basename. If an archive, it is the name of the archive member 632 * from within the file. 633 * 634 * Variables of this type are initialized with ld_place_path_info_init(). 635 */ 636 typedef struct { 637 const char *ppi_path; /* Full path */ 638 const char *ppi_bname; /* basename(ppi_path) */ 639 const char *ppi_oname; /* object name: Not NULL terminated */ 640 Boolean ppi_isar; /* TRUE if path has archive member */ 641 size_t ppi_path_len; /* strlen(ppi_path) */ 642 size_t ppi_bname_len; /* strlen(ppi_bname) */ 643 size_t ppi_oname_len; /* strlen(ppi_oname) */ 644 } Place_path_info; 645 646 /* 647 * Local data items. 648 */ 649 extern char *Plibpath; 650 extern char *Llibdir; 651 extern char *Ulibdir; 652 extern Ld_heap *ld_heap; 653 extern APlist *lib_support; 654 extern int demangle_flag; 655 extern const Msg reject[]; 656 extern int Verbose; 657 extern const int ldynsym_symtype[]; 658 extern const int dynsymsort_symtype[]; 659 660 /* 661 * Local functions. 662 */ 663 extern char *add_string(char *, char *); 664 extern const char *demangle(const char *); 665 extern int cap_names_match(Alist *, Alist *); 666 667 extern void lds_atexit(Ofl_desc *, int); 668 669 extern void libld_free(void *); 670 extern void *libld_malloc(size_t); 671 extern void *libld_realloc(void *, size_t); 672 673 extern int isdavl_compare(const void *, const void *); 674 675 extern Sdf_desc *sdf_add(const char *, APlist **); 676 extern Sdf_desc *sdf_find(const char *, APlist *); 677 678 #if defined(_ELF64) 679 680 #define ld_add_actrel ld64_add_actrel 681 #define ld_add_libdir ld64_add_libdir 682 #define ld_adj_movereloc ld64_adj_movereloc 683 #define ld_am_I_partial ld64_am_I_partial 684 #define ld_ar_member ld64_ar_member 685 #define ld_ar_setup ld64_ar_setup 686 #define ld_assign_got_TLS ld64_assign_got_TLS 687 #define ld_bswap_Word ld64_bswap_Word 688 #define ld_bswap_Xword ld64_bswap_Xword 689 #define ld_cap_add_family ld64_cap_add_family 690 #define ld_cap_move_symtoobj ld64_cap_move_symtoobj 691 #define ld_comdat_validate ld64_comdat_validate 692 #define ld_disp_errmsg ld64_disp_errmsg 693 #define ld_ent_check ld64_ent_check 694 #define ld_ent_lookup ld64_ent_lookup 695 #define ld_eprintf ld64_eprintf 696 #define ld_exit ld64_exit 697 #define ld_find_library ld64_find_library 698 #define ld_finish_libs ld64_finish_libs 699 #define ld_get_group ld64_get_group 700 #define ld_group_process ld64_group_process 701 #define ld_lib_setup ld64_lib_setup 702 #define ld_init_sighandler ld64_init_sighandler 703 #define ld_lcm ld64_lcm 704 #define ld_make_bss ld64_make_bss 705 #define ld_make_data ld64_make_data 706 #define ld_make_got ld64_make_got 707 #define ld_make_parexpn_data ld64_make_parexpn_data 708 #define ld_make_sunwmove ld64_make_sunmove 709 #define ld_make_text ld64_make_text 710 #define ld_map_out ld64_map_out 711 #define ld_map_parse ld64_map_parse 712 #define ld_map_post_process ld64_map_post_process 713 #define ld_open_outfile ld64_open_outfile 714 #define ld_os_first_isdesc ld64_os_first_isdesc 715 #define ld_place_path_info_init ld64_place_path_info_init 716 #define ld_place_section ld64_place_section 717 #define ld_process_archive ld64_process_archive 718 #define ld_process_files ld64_process_files 719 #define ld_process_flags ld64_process_flags 720 #define ld_process_ifl ld64_process_ifl 721 #define ld_process_move ld64_process_move 722 #define ld_process_open ld64_process_open 723 #define ld_process_ordered ld64_process_ordered 724 #define ld_process_sym_reloc ld64_process_sym_reloc 725 #define ld_reloc_enter ld64_reloc_enter 726 #define ld_reloc_GOT_relative ld64_reloc_GOT_relative 727 #define ld_reloc_plt ld64_reloc_plt 728 #define ld_reloc_remain_entry ld64_reloc_remain_entry 729 #define ld_reloc_set_aux_osdesc ld64_reloc_set_aux_osdesc 730 #define ld_reloc_set_aux_usym ld64_reloc_set_aux_usym 731 #define ld_reloc_sym_name ld64_reloc_sym_name 732 #define ld_reloc_targval_get ld64_reloc_targval_get 733 #define ld_reloc_targval_set ld64_reloc_targval_set 734 #define ld_sec_validate ld64_sec_validate 735 #define ld_seg_lookup ld64_seg_lookup 736 #define ld_sort_ordered ld64_sort_ordered 737 #define ld_stt_section_sym_name ld64_stt_section_sym_name 738 #define ld_sunw_ldmach ld64_sunw_ldmach 739 #define ld_sup_atexit ld64_sup_atexit 740 #define ld_sup_open ld64_sup_open 741 #define ld_sup_file ld64_sup_file 742 #define ld_sup_loadso ld64_sup_loadso 743 #define ld_sup_input_done ld64_sup_input_done 744 #define ld_sup_input_section ld64_sup_input_section 745 #define ld_sup_section ld64_sup_section 746 #define ld_sup_start ld64_sup_start 747 #define ld_swap_reloc_data ld64_swap_reloc_data 748 #define ld_sym_add_u ld64_sym_add_u 749 #define ld_sym_adjust_vis ld64_sym_adjust_vis 750 #define ld_sym_avl_comp ld64_sym_avl_comp 751 #define ld_sym_copy ld64_sym_copy 752 #define ld_sym_enter ld64_sym_enter 753 #define ld_sym_find ld64_sym_find 754 #define ld_sym_nodirect ld64_sym_nodirect 755 #define ld_sym_process ld64_sym_process 756 #define ld_sym_resolve ld64_sym_resolve 757 #define ld_sym_reducable ld64_sym_reducable 758 #define ld_sym_spec ld64_sym_spec 759 #define ld_targ ld64_targ 760 #define ld_targ_init_sparc ld64_targ_init_sparc 761 #define ld_targ_init_x86 ld64_targ_init_x86 762 #define ld_unwind_make_hdr ld64_unwind_make_hdr 763 #define ld_unwind_populate_hdr ld64_unwind_populate_hdr 764 #define ld_unwind_register ld64_unwind_register 765 #define ld_vers_base ld64_vers_base 766 #define ld_vers_check_defs ld64_vers_check_defs 767 #define ld_vers_check_need ld64_vers_check_need 768 #define ld_vers_def_process ld64_vers_def_process 769 #define ld_vers_desc ld64_vers_desc 770 #define ld_vers_find ld64_vers_find 771 #define ld_vers_need_process ld64_vers_need_process 772 #define ld_vers_promote ld64_vers_promote 773 #define ld_vers_sym_process ld64_vers_sym_process 774 #define ld_vers_verify ld64_vers_verify 775 #define ld_wrap_enter ld64_wrap_enter 776 777 #else 778 779 #define ld_add_actrel ld32_add_actrel 780 #define ld_add_libdir ld32_add_libdir 781 #define ld_adj_movereloc ld32_adj_movereloc 782 #define ld_am_I_partial ld32_am_I_partial 783 #define ld_ar_member ld32_ar_member 784 #define ld_ar_setup ld32_ar_setup 785 #define ld_assign_got_TLS ld32_assign_got_TLS 786 #define ld_bswap_Word ld32_bswap_Word 787 #define ld_bswap_Xword ld32_bswap_Xword 788 #define ld_cap_add_family ld32_cap_add_family 789 #define ld_cap_move_symtoobj ld32_cap_move_symtoobj 790 #define ld_comdat_validate ld32_comdat_validate 791 #define ld_disp_errmsg ld32_disp_errmsg 792 #define ld_ent_check ld32_ent_check 793 #define ld_ent_lookup ld32_ent_lookup 794 #define ld_eprintf ld32_eprintf 795 #define ld_exit ld32_exit 796 #define ld_find_library ld32_find_library 797 #define ld_finish_libs ld32_finish_libs 798 #define ld_get_group ld32_get_group 799 #define ld_group_process ld32_group_process 800 #define ld_lib_setup ld32_lib_setup 801 #define ld_init_sighandler ld32_init_sighandler 802 #define ld_lcm ld32_lcm 803 #define ld_make_bss ld32_make_bss 804 #define ld_make_data ld32_make_data 805 #define ld_make_got ld32_make_got 806 #define ld_make_parexpn_data ld32_make_parexpn_data 807 #define ld_make_sunwmove ld32_make_sunmove 808 #define ld_make_text ld32_make_text 809 #define ld_map_out ld32_map_out 810 #define ld_map_parse ld32_map_parse 811 #define ld_map_post_process ld32_map_post_process 812 #define ld_open_outfile ld32_open_outfile 813 #define ld_os_first_isdesc ld32_os_first_isdesc 814 #define ld_place_path_info_init ld32_place_path_info_init 815 #define ld_place_section ld32_place_section 816 #define ld_process_archive ld32_process_archive 817 #define ld_process_files ld32_process_files 818 #define ld_process_flags ld32_process_flags 819 #define ld_process_ifl ld32_process_ifl 820 #define ld_process_move ld32_process_move 821 #define ld_process_open ld32_process_open 822 #define ld_process_ordered ld32_process_ordered 823 #define ld_process_sym_reloc ld32_process_sym_reloc 824 #define ld_reloc_enter ld32_reloc_enter 825 #define ld_reloc_GOT_relative ld32_reloc_GOT_relative 826 #define ld_reloc_plt ld32_reloc_plt 827 #define ld_reloc_remain_entry ld32_reloc_remain_entry 828 #define ld_reloc_set_aux_osdesc ld32_reloc_set_aux_osdesc 829 #define ld_reloc_set_aux_usym ld32_reloc_set_aux_usym 830 #define ld_reloc_sym_name ld32_reloc_sym_name 831 #define ld_reloc_targval_get ld32_reloc_targval_get 832 #define ld_reloc_targval_set ld32_reloc_targval_set 833 #define ld_sec_validate ld32_sec_validate 834 #define ld_seg_lookup ld32_seg_lookup 835 #define ld_sort_ordered ld32_sort_ordered 836 #define ld_stt_section_sym_name ld32_stt_section_sym_name 837 #define ld_sunw_ldmach ld32_sunw_ldmach 838 #define ld_sup_atexit ld32_sup_atexit 839 #define ld_sup_open ld32_sup_open 840 #define ld_sup_file ld32_sup_file 841 #define ld_sup_loadso ld32_sup_loadso 842 #define ld_sup_input_done ld32_sup_input_done 843 #define ld_sup_input_section ld32_sup_input_section 844 #define ld_sup_section ld32_sup_section 845 #define ld_sup_start ld32_sup_start 846 #define ld_swap_reloc_data ld32_swap_reloc_data 847 #define ld_sym_add_u ld32_sym_add_u 848 #define ld_sym_adjust_vis ld32_sym_adjust_vis 849 #define ld_sym_avl_comp ld32_sym_avl_comp 850 #define ld_sym_copy ld32_sym_copy 851 #define ld_sym_enter ld32_sym_enter 852 #define ld_sym_find ld32_sym_find 853 #define ld_sym_nodirect ld32_sym_nodirect 854 #define ld_sym_process ld32_sym_process 855 #define ld_sym_resolve ld32_sym_resolve 856 #define ld_sym_reducable ld32_sym_reducable 857 #define ld_sym_spec ld32_sym_spec 858 #define ld_targ ld32_targ 859 #define ld_targ_init_sparc ld32_targ_init_sparc 860 #define ld_targ_init_x86 ld32_targ_init_x86 861 #define ld_unwind_make_hdr ld32_unwind_make_hdr 862 #define ld_unwind_populate_hdr ld32_unwind_populate_hdr 863 #define ld_unwind_register ld32_unwind_register 864 #define ld_vers_base ld32_vers_base 865 #define ld_vers_check_defs ld32_vers_check_defs 866 #define ld_vers_check_need ld32_vers_check_need 867 #define ld_vers_def_process ld32_vers_def_process 868 #define ld_vers_desc ld32_vers_desc 869 #define ld_vers_find ld32_vers_find 870 #define ld_vers_need_process ld32_vers_need_process 871 #define ld_vers_promote ld32_vers_promote 872 #define ld_vers_sym_process ld32_vers_sym_process 873 #define ld_vers_verify ld32_vers_verify 874 #define ld_wrap_enter ld32_wrap_enter 875 876 #endif 877 878 extern void dbg_cleanup(void); 879 extern int dbg_setup(Ofl_desc *, const char *, int); 880 881 extern uintptr_t ld_add_actrel(Word, Rel_desc *, Ofl_desc *); 882 extern uintptr_t ld_add_libdir(Ofl_desc *, const char *); 883 extern void ld_adj_movereloc(Ofl_desc *, Rel_desc *); 884 extern Sym_desc * ld_am_I_partial(Rel_desc *, Xword); 885 extern void ld_ar_member(Ar_desc *, Elf_Arsym *, Ar_aux *, 886 Ar_mem *); 887 extern Ar_desc *ld_ar_setup(const char *, Elf *, Ofl_desc *); 888 extern uintptr_t ld_assign_got_TLS(Boolean, Rel_desc *, Ofl_desc *, 889 Sym_desc *, Gotndx *, Gotref, Word, Word, 890 Word, Word); 891 892 extern Word ld_bswap_Word(Word); 893 extern Xword ld_bswap_Xword(Xword); 894 895 extern uintptr_t ld_cap_add_family(Ofl_desc *, Sym_desc *, Sym_desc *, 896 Cap_group *, APlist **); 897 extern void ld_cap_move_symtoobj(Ofl_desc *); 898 899 extern void ld_comdat_validate(Ofl_desc *, Ifl_desc *); 900 901 extern void ld_disp_errmsg(const char *, Rel_desc *, Ofl_desc *); 902 903 extern void ld_ent_check(Ofl_desc *); 904 extern Ent_desc *ld_ent_lookup(Ofl_desc *, const char *name, 905 avl_index_t *where); 906 extern void ld_eprintf(Ofl_desc *, Error, const char *, ...); 907 extern int ld_exit(Ofl_desc *); 908 909 extern uintptr_t ld_find_library(const char *, Ofl_desc *); 910 extern uintptr_t ld_finish_libs(Ofl_desc *); 911 912 extern const char *ld_stt_section_sym_name(Is_desc *); 913 914 extern Group_desc *ld_get_group(Ofl_desc *, Is_desc *); 915 extern uintptr_t ld_group_process(Is_desc *, Ofl_desc *); 916 917 extern uintptr_t ld_lib_setup(Ofl_desc *); 918 919 extern void ld_init_sighandler(Ofl_desc *); 920 921 extern Xword ld_lcm(Xword, Xword); 922 923 extern uintptr_t ld_make_bss(Ofl_desc *, Xword, Xword, uint_t); 924 extern Is_desc *ld_make_data(Ofl_desc *, size_t); 925 extern uintptr_t ld_make_got(Ofl_desc *); 926 extern uintptr_t ld_make_parexpn_data(Ofl_desc *, size_t, Xword); 927 extern uintptr_t ld_make_sunwmove(Ofl_desc *, int); 928 extern Is_desc *ld_make_text(Ofl_desc *, size_t); 929 extern void ld_map_out(Ofl_desc *); 930 extern Boolean ld_map_parse(const char *, Ofl_desc *); 931 extern Boolean ld_map_post_process(Ofl_desc *); 932 933 extern uintptr_t ld_open_outfile(Ofl_desc *); 934 935 extern Is_desc *ld_os_first_isdesc(Os_desc *); 936 extern Place_path_info *ld_place_path_info_init(Ofl_desc *, Ifl_desc *, 937 Place_path_info *); 938 extern Os_desc *ld_place_section(Ofl_desc *, Is_desc *, 939 Place_path_info *path_info, int, const char *); 940 extern Boolean ld_process_archive(const char *, int, Ar_desc *, 941 Ofl_desc *); 942 extern uintptr_t ld_process_files(Ofl_desc *, int, char **); 943 extern uintptr_t ld_process_flags(Ofl_desc *, int, char **); 944 extern uintptr_t ld_process_ifl(const char *, const char *, int, Elf *, 945 Word, Ofl_desc *, Rej_desc *, Ifl_desc **); 946 extern uintptr_t ld_process_move(Ofl_desc *); 947 extern uintptr_t ld_process_open(const char *, const char *, int *, 948 Ofl_desc *, Word, Rej_desc *, Ifl_desc **); 949 extern uintptr_t ld_process_ordered(Ofl_desc *, Ifl_desc *, 950 Place_path_info *path_info, Word); 951 extern uintptr_t ld_process_sym_reloc(Ofl_desc *, Rel_desc *, Rel *, 952 Is_desc *, const char *, Word); 953 954 extern Rel_desc *ld_reloc_enter(Ofl_desc *, Rel_cache *, Rel_desc *, 955 Word); 956 extern uintptr_t ld_reloc_GOT_relative(Boolean, Rel_desc *, Ofl_desc *); 957 extern uintptr_t ld_reloc_plt(Rel_desc *, Ofl_desc *); 958 extern void ld_reloc_remain_entry(Rel_desc *, Os_desc *, 959 Ofl_desc *, Boolean *); 960 extern Boolean ld_reloc_set_aux_osdesc(Ofl_desc *, Rel_desc *, 961 Os_desc *); 962 extern Boolean ld_reloc_set_aux_usym(Ofl_desc *, Rel_desc *, 963 Sym_desc *); 964 965 extern const char *ld_reloc_sym_name(Rel_desc *); 966 extern int ld_reloc_targval_get(Ofl_desc *, Rel_desc *, 967 uchar_t *, Xword *); 968 extern int ld_reloc_targval_set(Ofl_desc *, Rel_desc *, 969 uchar_t *, Xword); 970 971 extern Sg_desc *ld_seg_lookup(Ofl_desc *, const char *, 972 avl_index_t *where); 973 extern void ld_sec_validate(Ofl_desc *); 974 extern uintptr_t ld_sort_ordered(Ofl_desc *); 975 extern Half ld_sunw_ldmach(); 976 extern void ld_sup_atexit(Ofl_desc *, int); 977 extern void ld_sup_open(Ofl_desc *, const char **, const char **, 978 int *, int, Elf **, Elf *ref, size_t, 979 const Elf_Kind); 980 extern void ld_sup_file(Ofl_desc *, const char *, const Elf_Kind, 981 int flags, Elf *); 982 extern uintptr_t ld_sup_loadso(Ofl_desc *, const char *); 983 extern void ld_sup_input_done(Ofl_desc *); 984 extern void ld_sup_section(Ofl_desc *, const char *, Shdr *, Word, 985 Elf_Data *, Elf *); 986 extern uintptr_t ld_sup_input_section(Ofl_desc*, Ifl_desc *, 987 const char *, Shdr **, Word, Elf_Scn *, Elf *); 988 extern void ld_sup_start(Ofl_desc *, const Half, const char *); 989 extern int ld_swap_reloc_data(Ofl_desc *, Rel_desc *); 990 extern Sym_desc *ld_sym_add_u(const char *, Ofl_desc *, Msg); 991 extern void ld_sym_adjust_vis(Sym_desc *, Ofl_desc *); 992 extern int ld_sym_avl_comp(const void *, const void *); 993 extern uintptr_t ld_sym_copy(Sym_desc *); 994 extern Sym_desc *ld_sym_enter(const char *, Sym *, Word, Ifl_desc *, 995 Ofl_desc *, Word, Word, sd_flag_t, avl_index_t *); 996 extern Sym_desc *ld_sym_find(const char *, Word, avl_index_t *, 997 Ofl_desc *); 998 extern uintptr_t ld_sym_nodirect(Is_desc *, Ifl_desc *, Ofl_desc *); 999 extern uintptr_t ld_sym_process(Is_desc *, Ifl_desc *, Ofl_desc *); 1000 extern uintptr_t ld_sym_resolve(Sym_desc *, Sym *, Ifl_desc *, 1001 Ofl_desc *, int, Word, sd_flag_t); 1002 extern Boolean ld_sym_reducable(Ofl_desc *, Sym_desc *); 1003 extern uintptr_t ld_sym_spec(Ofl_desc *); 1004 1005 extern Target ld_targ; 1006 extern const Target *ld_targ_init_sparc(void); 1007 extern const Target *ld_targ_init_x86(void); 1008 1009 extern uintptr_t ld_unwind_make_hdr(Ofl_desc *); 1010 extern uintptr_t ld_unwind_populate_hdr(Ofl_desc *); 1011 extern uintptr_t ld_unwind_register(Os_desc *, Ofl_desc *); 1012 1013 extern Ver_desc *ld_vers_base(Ofl_desc *); 1014 extern uintptr_t ld_vers_check_defs(Ofl_desc *); 1015 extern uintptr_t ld_vers_check_need(Ofl_desc *); 1016 extern uintptr_t ld_vers_def_process(Is_desc *, Ifl_desc *, Ofl_desc *); 1017 extern Ver_desc *ld_vers_desc(const char *, Word, APlist **); 1018 extern Ver_desc *ld_vers_find(const char *, Word, APlist *); 1019 extern uintptr_t ld_vers_need_process(Is_desc *, Ifl_desc *, Ofl_desc *); 1020 extern void ld_vers_promote(Sym_desc *, Word, Ifl_desc *, 1021 Ofl_desc *); 1022 extern int ld_vers_sym_process(Ofl_desc *, Is_desc *, Ifl_desc *); 1023 extern int ld_vers_verify(Ofl_desc *); 1024 extern WrapSymNode *ld_wrap_enter(Ofl_desc *, const char *); 1025 1026 extern uintptr_t add_regsym(Sym_desc *, Ofl_desc *); 1027 extern Word hashbkts(Word); 1028 extern Xword lcm(Xword, Xword); 1029 1030 /* 1031 * Most platforms have both a 32 and 64-bit variant (e.g. EM_SPARC and 1032 * EM_SPARCV9). To support this, there many files in libld that are built 1033 * twice, once for ELFCLASS64 (_ELF64), and once for ELFCLASS32. In these 1034 * files, we sometimes want to supply one value for the ELFCLASS32 case 1035 * and another for ELFCLASS64. The LD_TARG_BYCLASS macro is used to do 1036 * this. It is called with both both alternatives, and yields the one 1037 * that applies to the current compilation environment. 1038 */ 1039 #ifdef _ELF64 1040 #define LD_TARG_BYCLASS(_ec32, _ec64) (_ec64) 1041 #else 1042 #define LD_TARG_BYCLASS(_ec32, _ec64) (_ec32) 1043 #endif 1044 1045 1046 #ifdef __cplusplus 1047 } 1048 #endif 1049 1050 #endif /* _LIBLD_DOT_H */ 1051