12c23cb7cSEd Maste /*- 23ef90571SEd Maste * Copyright (c) 2009-2015 Kai Wang 32c23cb7cSEd Maste * All rights reserved. 42c23cb7cSEd Maste * 52c23cb7cSEd Maste * Redistribution and use in source and binary forms, with or without 62c23cb7cSEd Maste * modification, are permitted provided that the following conditions 72c23cb7cSEd Maste * are met: 82c23cb7cSEd Maste * 1. Redistributions of source code must retain the above copyright 92c23cb7cSEd Maste * notice, this list of conditions and the following disclaimer. 102c23cb7cSEd Maste * 2. Redistributions in binary form must reproduce the above copyright 112c23cb7cSEd Maste * notice, this list of conditions and the following disclaimer in the 122c23cb7cSEd Maste * documentation and/or other materials provided with the distribution. 132c23cb7cSEd Maste * 142c23cb7cSEd Maste * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 152c23cb7cSEd Maste * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 162c23cb7cSEd Maste * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 172c23cb7cSEd Maste * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 182c23cb7cSEd Maste * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 192c23cb7cSEd Maste * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 202c23cb7cSEd Maste * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 212c23cb7cSEd Maste * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 222c23cb7cSEd Maste * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 232c23cb7cSEd Maste * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 242c23cb7cSEd Maste * SUCH DAMAGE. 252c23cb7cSEd Maste */ 262c23cb7cSEd Maste 272c23cb7cSEd Maste #include <sys/param.h> 282c23cb7cSEd Maste #include <sys/queue.h> 292c23cb7cSEd Maste #include <ar.h> 3071edbbfdSEd Maste #include <assert.h> 312c23cb7cSEd Maste #include <ctype.h> 322c23cb7cSEd Maste #include <dwarf.h> 332c23cb7cSEd Maste #include <err.h> 342c23cb7cSEd Maste #include <fcntl.h> 352c23cb7cSEd Maste #include <gelf.h> 362c23cb7cSEd Maste #include <getopt.h> 372c23cb7cSEd Maste #include <libdwarf.h> 382c23cb7cSEd Maste #include <libelftc.h> 392c23cb7cSEd Maste #include <libgen.h> 402c23cb7cSEd Maste #include <stdarg.h> 413dc58d9cSEd Maste #include <stdint.h> 422c23cb7cSEd Maste #include <stdio.h> 432c23cb7cSEd Maste #include <stdlib.h> 442c23cb7cSEd Maste #include <string.h> 452c23cb7cSEd Maste #include <time.h> 462c23cb7cSEd Maste #include <unistd.h> 472c23cb7cSEd Maste 482c23cb7cSEd Maste #include "_elftc.h" 492c23cb7cSEd Maste 50*95fd7f26SEd Maste ELFTC_VCSID("$Id: readelf.c 3271 2015-12-11 18:53:08Z kaiwang27 $"); 512c23cb7cSEd Maste 522c23cb7cSEd Maste /* 532c23cb7cSEd Maste * readelf(1) options. 542c23cb7cSEd Maste */ 552c23cb7cSEd Maste #define RE_AA 0x00000001 562c23cb7cSEd Maste #define RE_C 0x00000002 572c23cb7cSEd Maste #define RE_DD 0x00000004 582c23cb7cSEd Maste #define RE_D 0x00000008 592c23cb7cSEd Maste #define RE_G 0x00000010 602c23cb7cSEd Maste #define RE_H 0x00000020 612c23cb7cSEd Maste #define RE_II 0x00000040 622c23cb7cSEd Maste #define RE_I 0x00000080 632c23cb7cSEd Maste #define RE_L 0x00000100 642c23cb7cSEd Maste #define RE_NN 0x00000200 652c23cb7cSEd Maste #define RE_N 0x00000400 662c23cb7cSEd Maste #define RE_P 0x00000800 672c23cb7cSEd Maste #define RE_R 0x00001000 682c23cb7cSEd Maste #define RE_SS 0x00002000 692c23cb7cSEd Maste #define RE_S 0x00004000 702c23cb7cSEd Maste #define RE_T 0x00008000 712c23cb7cSEd Maste #define RE_U 0x00010000 722c23cb7cSEd Maste #define RE_VV 0x00020000 732c23cb7cSEd Maste #define RE_WW 0x00040000 742c23cb7cSEd Maste #define RE_W 0x00080000 752c23cb7cSEd Maste #define RE_X 0x00100000 762c23cb7cSEd Maste 772c23cb7cSEd Maste /* 782c23cb7cSEd Maste * dwarf dump options. 792c23cb7cSEd Maste */ 802c23cb7cSEd Maste #define DW_A 0x00000001 812c23cb7cSEd Maste #define DW_FF 0x00000002 822c23cb7cSEd Maste #define DW_F 0x00000004 832c23cb7cSEd Maste #define DW_I 0x00000008 842c23cb7cSEd Maste #define DW_LL 0x00000010 852c23cb7cSEd Maste #define DW_L 0x00000020 862c23cb7cSEd Maste #define DW_M 0x00000040 872c23cb7cSEd Maste #define DW_O 0x00000080 882c23cb7cSEd Maste #define DW_P 0x00000100 892c23cb7cSEd Maste #define DW_RR 0x00000200 902c23cb7cSEd Maste #define DW_R 0x00000400 912c23cb7cSEd Maste #define DW_S 0x00000800 922c23cb7cSEd Maste 932c23cb7cSEd Maste #define DW_DEFAULT_OPTIONS (DW_A | DW_F | DW_I | DW_L | DW_O | DW_P | \ 942c23cb7cSEd Maste DW_R | DW_RR | DW_S) 952c23cb7cSEd Maste 962c23cb7cSEd Maste /* 972c23cb7cSEd Maste * readelf(1) run control flags. 982c23cb7cSEd Maste */ 992c23cb7cSEd Maste #define DISPLAY_FILENAME 0x0001 1002c23cb7cSEd Maste 1012c23cb7cSEd Maste /* 1022c23cb7cSEd Maste * Internal data structure for sections. 1032c23cb7cSEd Maste */ 1042c23cb7cSEd Maste struct section { 1052c23cb7cSEd Maste const char *name; /* section name */ 1062c23cb7cSEd Maste Elf_Scn *scn; /* section scn */ 1072c23cb7cSEd Maste uint64_t off; /* section offset */ 1082c23cb7cSEd Maste uint64_t sz; /* section size */ 1092c23cb7cSEd Maste uint64_t entsize; /* section entsize */ 1102c23cb7cSEd Maste uint64_t align; /* section alignment */ 1112c23cb7cSEd Maste uint64_t type; /* section type */ 1122c23cb7cSEd Maste uint64_t flags; /* section flags */ 1132c23cb7cSEd Maste uint64_t addr; /* section virtual addr */ 1142c23cb7cSEd Maste uint32_t link; /* section link ndx */ 1152c23cb7cSEd Maste uint32_t info; /* section info ndx */ 1162c23cb7cSEd Maste }; 1172c23cb7cSEd Maste 1182c23cb7cSEd Maste struct dumpop { 1192c23cb7cSEd Maste union { 1202c23cb7cSEd Maste size_t si; /* section index */ 1212c23cb7cSEd Maste const char *sn; /* section name */ 1222c23cb7cSEd Maste } u; 1232c23cb7cSEd Maste enum { 1242c23cb7cSEd Maste DUMP_BY_INDEX = 0, 1252c23cb7cSEd Maste DUMP_BY_NAME 1262c23cb7cSEd Maste } type; /* dump type */ 1272c23cb7cSEd Maste #define HEX_DUMP 0x0001 1282c23cb7cSEd Maste #define STR_DUMP 0x0002 1292c23cb7cSEd Maste int op; /* dump operation */ 1302c23cb7cSEd Maste STAILQ_ENTRY(dumpop) dumpop_list; 1312c23cb7cSEd Maste }; 1322c23cb7cSEd Maste 1332c23cb7cSEd Maste struct symver { 1342c23cb7cSEd Maste const char *name; 1352c23cb7cSEd Maste int type; 1362c23cb7cSEd Maste }; 1372c23cb7cSEd Maste 1382c23cb7cSEd Maste /* 1392c23cb7cSEd Maste * Structure encapsulates the global data for readelf(1). 1402c23cb7cSEd Maste */ 1412c23cb7cSEd Maste struct readelf { 1422c23cb7cSEd Maste const char *filename; /* current processing file. */ 1432c23cb7cSEd Maste int options; /* command line options. */ 1442c23cb7cSEd Maste int flags; /* run control flags. */ 1452c23cb7cSEd Maste int dop; /* dwarf dump options. */ 1462c23cb7cSEd Maste Elf *elf; /* underlying ELF descriptor. */ 1472c23cb7cSEd Maste Elf *ar; /* archive ELF descriptor. */ 1482c23cb7cSEd Maste Dwarf_Debug dbg; /* DWARF handle. */ 149cf781b2eSEd Maste Dwarf_Half cu_psize; /* DWARF CU pointer size. */ 150cf781b2eSEd Maste Dwarf_Half cu_osize; /* DWARF CU offset size. */ 151cf781b2eSEd Maste Dwarf_Half cu_ver; /* DWARF CU version. */ 1522c23cb7cSEd Maste GElf_Ehdr ehdr; /* ELF header. */ 1532c23cb7cSEd Maste int ec; /* ELF class. */ 1542c23cb7cSEd Maste size_t shnum; /* #sections. */ 1552c23cb7cSEd Maste struct section *vd_s; /* Verdef section. */ 1562c23cb7cSEd Maste struct section *vn_s; /* Verneed section. */ 1572c23cb7cSEd Maste struct section *vs_s; /* Versym section. */ 1582c23cb7cSEd Maste uint16_t *vs; /* Versym array. */ 1592c23cb7cSEd Maste int vs_sz; /* Versym array size. */ 1602c23cb7cSEd Maste struct symver *ver; /* Version array. */ 1612c23cb7cSEd Maste int ver_sz; /* Size of version array. */ 1622c23cb7cSEd Maste struct section *sl; /* list of sections. */ 1632c23cb7cSEd Maste STAILQ_HEAD(, dumpop) v_dumpop; /* list of dump ops. */ 1642c23cb7cSEd Maste uint64_t (*dw_read)(Elf_Data *, uint64_t *, int); 1652c23cb7cSEd Maste uint64_t (*dw_decode)(uint8_t **, int); 1662c23cb7cSEd Maste }; 1672c23cb7cSEd Maste 1682c23cb7cSEd Maste enum options 1692c23cb7cSEd Maste { 1702c23cb7cSEd Maste OPTION_DEBUG_DUMP 1712c23cb7cSEd Maste }; 1722c23cb7cSEd Maste 1732c23cb7cSEd Maste static struct option longopts[] = { 1742c23cb7cSEd Maste {"all", no_argument, NULL, 'a'}, 1752c23cb7cSEd Maste {"arch-specific", no_argument, NULL, 'A'}, 1762c23cb7cSEd Maste {"archive-index", no_argument, NULL, 'c'}, 1772c23cb7cSEd Maste {"debug-dump", optional_argument, NULL, OPTION_DEBUG_DUMP}, 1782c23cb7cSEd Maste {"dynamic", no_argument, NULL, 'd'}, 1792c23cb7cSEd Maste {"file-header", no_argument, NULL, 'h'}, 1802c23cb7cSEd Maste {"full-section-name", no_argument, NULL, 'N'}, 1812c23cb7cSEd Maste {"headers", no_argument, NULL, 'e'}, 1822c23cb7cSEd Maste {"help", no_argument, 0, 'H'}, 1832c23cb7cSEd Maste {"hex-dump", required_argument, NULL, 'x'}, 1842c23cb7cSEd Maste {"histogram", no_argument, NULL, 'I'}, 1852c23cb7cSEd Maste {"notes", no_argument, NULL, 'n'}, 1862c23cb7cSEd Maste {"program-headers", no_argument, NULL, 'l'}, 1872c23cb7cSEd Maste {"relocs", no_argument, NULL, 'r'}, 1882c23cb7cSEd Maste {"sections", no_argument, NULL, 'S'}, 1892c23cb7cSEd Maste {"section-headers", no_argument, NULL, 'S'}, 1902c23cb7cSEd Maste {"section-groups", no_argument, NULL, 'g'}, 1912c23cb7cSEd Maste {"section-details", no_argument, NULL, 't'}, 1922c23cb7cSEd Maste {"segments", no_argument, NULL, 'l'}, 1932c23cb7cSEd Maste {"string-dump", required_argument, NULL, 'p'}, 1942c23cb7cSEd Maste {"symbols", no_argument, NULL, 's'}, 1952c23cb7cSEd Maste {"syms", no_argument, NULL, 's'}, 1962c23cb7cSEd Maste {"unwind", no_argument, NULL, 'u'}, 1972c23cb7cSEd Maste {"use-dynamic", no_argument, NULL, 'D'}, 1982c23cb7cSEd Maste {"version-info", no_argument, 0, 'V'}, 1992c23cb7cSEd Maste {"version", no_argument, 0, 'v'}, 2002c23cb7cSEd Maste {"wide", no_argument, 0, 'W'}, 2012c23cb7cSEd Maste {NULL, 0, NULL, 0} 2022c23cb7cSEd Maste }; 2032c23cb7cSEd Maste 2042c23cb7cSEd Maste struct eflags_desc { 2052c23cb7cSEd Maste uint64_t flag; 2062c23cb7cSEd Maste const char *desc; 2072c23cb7cSEd Maste }; 2082c23cb7cSEd Maste 2092c23cb7cSEd Maste struct mips_option { 2102c23cb7cSEd Maste uint64_t flag; 2112c23cb7cSEd Maste const char *desc; 2122c23cb7cSEd Maste }; 2132c23cb7cSEd Maste 2142c23cb7cSEd Maste static void add_dumpop(struct readelf *re, size_t si, const char *sn, int op, 2152c23cb7cSEd Maste int t); 2162c23cb7cSEd Maste static const char *aeabi_adv_simd_arch(uint64_t simd); 2172c23cb7cSEd Maste static const char *aeabi_align_needed(uint64_t an); 2182c23cb7cSEd Maste static const char *aeabi_align_preserved(uint64_t ap); 2192c23cb7cSEd Maste static const char *aeabi_arm_isa(uint64_t ai); 2202c23cb7cSEd Maste static const char *aeabi_cpu_arch(uint64_t arch); 2212c23cb7cSEd Maste static const char *aeabi_cpu_arch_profile(uint64_t pf); 2222c23cb7cSEd Maste static const char *aeabi_div(uint64_t du); 2232c23cb7cSEd Maste static const char *aeabi_enum_size(uint64_t es); 2242c23cb7cSEd Maste static const char *aeabi_fp_16bit_format(uint64_t fp16); 2252c23cb7cSEd Maste static const char *aeabi_fp_arch(uint64_t fp); 2262c23cb7cSEd Maste static const char *aeabi_fp_denormal(uint64_t fd); 2272c23cb7cSEd Maste static const char *aeabi_fp_exceptions(uint64_t fe); 2282c23cb7cSEd Maste static const char *aeabi_fp_hpext(uint64_t fh); 2292c23cb7cSEd Maste static const char *aeabi_fp_number_model(uint64_t fn); 2302c23cb7cSEd Maste static const char *aeabi_fp_optm_goal(uint64_t fog); 2312c23cb7cSEd Maste static const char *aeabi_fp_rounding(uint64_t fr); 2322c23cb7cSEd Maste static const char *aeabi_hardfp(uint64_t hfp); 2332c23cb7cSEd Maste static const char *aeabi_mpext(uint64_t mp); 2342c23cb7cSEd Maste static const char *aeabi_optm_goal(uint64_t og); 2352c23cb7cSEd Maste static const char *aeabi_pcs_config(uint64_t pcs); 2362c23cb7cSEd Maste static const char *aeabi_pcs_got(uint64_t got); 2372c23cb7cSEd Maste static const char *aeabi_pcs_r9(uint64_t r9); 2382c23cb7cSEd Maste static const char *aeabi_pcs_ro(uint64_t ro); 2392c23cb7cSEd Maste static const char *aeabi_pcs_rw(uint64_t rw); 2402c23cb7cSEd Maste static const char *aeabi_pcs_wchar_t(uint64_t wt); 2412c23cb7cSEd Maste static const char *aeabi_t2ee(uint64_t t2ee); 2422c23cb7cSEd Maste static const char *aeabi_thumb_isa(uint64_t ti); 2432c23cb7cSEd Maste static const char *aeabi_fp_user_exceptions(uint64_t fu); 2442c23cb7cSEd Maste static const char *aeabi_unaligned_access(uint64_t ua); 2452c23cb7cSEd Maste static const char *aeabi_vfp_args(uint64_t va); 2462c23cb7cSEd Maste static const char *aeabi_virtual(uint64_t vt); 2472c23cb7cSEd Maste static const char *aeabi_wmmx_arch(uint64_t wmmx); 2482c23cb7cSEd Maste static const char *aeabi_wmmx_args(uint64_t wa); 2492c23cb7cSEd Maste static const char *elf_class(unsigned int class); 2502c23cb7cSEd Maste static const char *elf_endian(unsigned int endian); 2512c23cb7cSEd Maste static const char *elf_machine(unsigned int mach); 2522c23cb7cSEd Maste static const char *elf_osabi(unsigned int abi); 2532c23cb7cSEd Maste static const char *elf_type(unsigned int type); 2542c23cb7cSEd Maste static const char *elf_ver(unsigned int ver); 2552c23cb7cSEd Maste static const char *dt_type(unsigned int mach, unsigned int dtype); 2562c23cb7cSEd Maste static void dump_ar(struct readelf *re, int); 2572c23cb7cSEd Maste static void dump_arm_attributes(struct readelf *re, uint8_t *p, uint8_t *pe); 2582c23cb7cSEd Maste static void dump_attributes(struct readelf *re); 259*95fd7f26SEd Maste static uint8_t *dump_compatibility_tag(uint8_t *p, uint8_t *pe); 2602c23cb7cSEd Maste static void dump_dwarf(struct readelf *re); 261cf781b2eSEd Maste static void dump_dwarf_abbrev(struct readelf *re); 262cf781b2eSEd Maste static void dump_dwarf_aranges(struct readelf *re); 263cf781b2eSEd Maste static void dump_dwarf_block(struct readelf *re, uint8_t *b, 264cf781b2eSEd Maste Dwarf_Unsigned len); 265cf781b2eSEd Maste static void dump_dwarf_die(struct readelf *re, Dwarf_Die die, int level); 266cf781b2eSEd Maste static void dump_dwarf_frame(struct readelf *re, int alt); 267cf781b2eSEd Maste static void dump_dwarf_frame_inst(struct readelf *re, Dwarf_Cie cie, 268cf781b2eSEd Maste uint8_t *insts, Dwarf_Unsigned len, Dwarf_Unsigned caf, Dwarf_Signed daf, 269cf781b2eSEd Maste Dwarf_Addr pc, Dwarf_Debug dbg); 270cf781b2eSEd Maste static int dump_dwarf_frame_regtable(struct readelf *re, Dwarf_Fde fde, 271cf781b2eSEd Maste Dwarf_Addr pc, Dwarf_Unsigned func_len, Dwarf_Half cie_ra); 272cf781b2eSEd Maste static void dump_dwarf_frame_section(struct readelf *re, struct section *s, 273cf781b2eSEd Maste int alt); 274cf781b2eSEd Maste static void dump_dwarf_info(struct readelf *re, Dwarf_Bool is_info); 275cf781b2eSEd Maste static void dump_dwarf_macinfo(struct readelf *re); 276cf781b2eSEd Maste static void dump_dwarf_line(struct readelf *re); 277cf781b2eSEd Maste static void dump_dwarf_line_decoded(struct readelf *re); 278cf781b2eSEd Maste static void dump_dwarf_loc(struct readelf *re, Dwarf_Loc *lr); 279cf781b2eSEd Maste static void dump_dwarf_loclist(struct readelf *re); 280cf781b2eSEd Maste static void dump_dwarf_pubnames(struct readelf *re); 281cf781b2eSEd Maste static void dump_dwarf_ranges(struct readelf *re); 282cf781b2eSEd Maste static void dump_dwarf_ranges_foreach(struct readelf *re, Dwarf_Die die, 283cf781b2eSEd Maste Dwarf_Addr base); 284cf781b2eSEd Maste static void dump_dwarf_str(struct readelf *re); 2852c23cb7cSEd Maste static void dump_eflags(struct readelf *re, uint64_t e_flags); 2862c23cb7cSEd Maste static void dump_elf(struct readelf *re); 2872c23cb7cSEd Maste static void dump_dyn_val(struct readelf *re, GElf_Dyn *dyn, uint32_t stab); 2882c23cb7cSEd Maste static void dump_dynamic(struct readelf *re); 2892c23cb7cSEd Maste static void dump_liblist(struct readelf *re); 2902c23cb7cSEd Maste static void dump_mips_attributes(struct readelf *re, uint8_t *p, uint8_t *pe); 2912c23cb7cSEd Maste static void dump_mips_odk_reginfo(struct readelf *re, uint8_t *p, size_t sz); 2922c23cb7cSEd Maste static void dump_mips_options(struct readelf *re, struct section *s); 2932c23cb7cSEd Maste static void dump_mips_option_flags(const char *name, struct mips_option *opt, 2942c23cb7cSEd Maste uint64_t info); 2952c23cb7cSEd Maste static void dump_mips_reginfo(struct readelf *re, struct section *s); 2962c23cb7cSEd Maste static void dump_mips_specific_info(struct readelf *re); 2972c23cb7cSEd Maste static void dump_notes(struct readelf *re); 2982c23cb7cSEd Maste static void dump_notes_content(struct readelf *re, const char *buf, size_t sz, 2992c23cb7cSEd Maste off_t off); 3002c23cb7cSEd Maste static void dump_svr4_hash(struct section *s); 3012c23cb7cSEd Maste static void dump_svr4_hash64(struct readelf *re, struct section *s); 3022c23cb7cSEd Maste static void dump_gnu_hash(struct readelf *re, struct section *s); 3032c23cb7cSEd Maste static void dump_hash(struct readelf *re); 3042c23cb7cSEd Maste static void dump_phdr(struct readelf *re); 3052c23cb7cSEd Maste static void dump_ppc_attributes(uint8_t *p, uint8_t *pe); 3063ef90571SEd Maste static void dump_section_groups(struct readelf *re); 3072c23cb7cSEd Maste static void dump_symtab(struct readelf *re, int i); 3082c23cb7cSEd Maste static void dump_symtabs(struct readelf *re); 309*95fd7f26SEd Maste static uint8_t *dump_unknown_tag(uint64_t tag, uint8_t *p, uint8_t *pe); 3102c23cb7cSEd Maste static void dump_ver(struct readelf *re); 3112c23cb7cSEd Maste static void dump_verdef(struct readelf *re, int dump); 3122c23cb7cSEd Maste static void dump_verneed(struct readelf *re, int dump); 3132c23cb7cSEd Maste static void dump_versym(struct readelf *re); 314cf781b2eSEd Maste static const char *dwarf_reg(unsigned int mach, unsigned int reg); 315cf781b2eSEd Maste static const char *dwarf_regname(struct readelf *re, unsigned int num); 316cf781b2eSEd Maste static struct dumpop *find_dumpop(struct readelf *re, size_t si, 317cf781b2eSEd Maste const char *sn, int op, int t); 31871edbbfdSEd Maste static int get_ent_count(struct section *s, int *ent_count); 319cf781b2eSEd Maste static char *get_regoff_str(struct readelf *re, Dwarf_Half reg, 320cf781b2eSEd Maste Dwarf_Addr off); 3212c23cb7cSEd Maste static const char *get_string(struct readelf *re, int strtab, size_t off); 3222c23cb7cSEd Maste static const char *get_symbol_name(struct readelf *re, int symtab, int i); 3232c23cb7cSEd Maste static uint64_t get_symbol_value(struct readelf *re, int symtab, int i); 3242c23cb7cSEd Maste static void load_sections(struct readelf *re); 3252c23cb7cSEd Maste static const char *mips_abi_fp(uint64_t fp); 32602b08c90SEd Maste static const char *note_type(const char *note_name, unsigned int et, 3272c23cb7cSEd Maste unsigned int nt); 32802b08c90SEd Maste static const char *note_type_freebsd(unsigned int nt); 32902b08c90SEd Maste static const char *note_type_freebsd_core(unsigned int nt); 33002b08c90SEd Maste static const char *note_type_linux_core(unsigned int nt); 33102b08c90SEd Maste static const char *note_type_gnu(unsigned int nt); 33202b08c90SEd Maste static const char *note_type_netbsd(unsigned int nt); 33302b08c90SEd Maste static const char *note_type_openbsd(unsigned int nt); 33402b08c90SEd Maste static const char *note_type_unknown(unsigned int nt); 335895f86f1SEd Maste static const char *note_type_xen(unsigned int nt); 3362c23cb7cSEd Maste static const char *option_kind(uint8_t kind); 3372c23cb7cSEd Maste static const char *phdr_type(unsigned int ptype); 3382c23cb7cSEd Maste static const char *ppc_abi_fp(uint64_t fp); 3392c23cb7cSEd Maste static const char *ppc_abi_vector(uint64_t vec); 3402c23cb7cSEd Maste static const char *r_type(unsigned int mach, unsigned int type); 3412c23cb7cSEd Maste static void readelf_usage(void); 3422c23cb7cSEd Maste static void readelf_version(void); 343cf781b2eSEd Maste static void search_loclist_at(struct readelf *re, Dwarf_Die die, 344cf781b2eSEd Maste Dwarf_Unsigned lowpc); 3452c23cb7cSEd Maste static void search_ver(struct readelf *re); 3462c23cb7cSEd Maste static const char *section_type(unsigned int mach, unsigned int stype); 347cf781b2eSEd Maste static void set_cu_context(struct readelf *re, Dwarf_Half psize, 348cf781b2eSEd Maste Dwarf_Half osize, Dwarf_Half ver); 3492c23cb7cSEd Maste static const char *st_bind(unsigned int sbind); 3502c23cb7cSEd Maste static const char *st_shndx(unsigned int shndx); 3512c23cb7cSEd Maste static const char *st_type(unsigned int stype); 3522c23cb7cSEd Maste static const char *st_vis(unsigned int svis); 3532c23cb7cSEd Maste static const char *top_tag(unsigned int tag); 3542c23cb7cSEd Maste static void unload_sections(struct readelf *re); 3552c23cb7cSEd Maste static uint64_t _read_lsb(Elf_Data *d, uint64_t *offsetp, 3562c23cb7cSEd Maste int bytes_to_read); 3572c23cb7cSEd Maste static uint64_t _read_msb(Elf_Data *d, uint64_t *offsetp, 3582c23cb7cSEd Maste int bytes_to_read); 3592c23cb7cSEd Maste static uint64_t _decode_lsb(uint8_t **data, int bytes_to_read); 3602c23cb7cSEd Maste static uint64_t _decode_msb(uint8_t **data, int bytes_to_read); 361*95fd7f26SEd Maste static int64_t _decode_sleb128(uint8_t **dp, uint8_t *dpe); 362*95fd7f26SEd Maste static uint64_t _decode_uleb128(uint8_t **dp, uint8_t *dpe); 3632c23cb7cSEd Maste 3642c23cb7cSEd Maste static struct eflags_desc arm_eflags_desc[] = { 3652c23cb7cSEd Maste {EF_ARM_RELEXEC, "relocatable executable"}, 3662c23cb7cSEd Maste {EF_ARM_HASENTRY, "has entry point"}, 3672c23cb7cSEd Maste {EF_ARM_SYMSARESORTED, "sorted symbol tables"}, 3682c23cb7cSEd Maste {EF_ARM_DYNSYMSUSESEGIDX, "dynamic symbols use segment index"}, 3692c23cb7cSEd Maste {EF_ARM_MAPSYMSFIRST, "mapping symbols precede others"}, 3702c23cb7cSEd Maste {EF_ARM_BE8, "BE8"}, 3712c23cb7cSEd Maste {EF_ARM_LE8, "LE8"}, 3722c23cb7cSEd Maste {EF_ARM_INTERWORK, "interworking enabled"}, 3732c23cb7cSEd Maste {EF_ARM_APCS_26, "uses APCS/26"}, 3742c23cb7cSEd Maste {EF_ARM_APCS_FLOAT, "uses APCS/float"}, 3752c23cb7cSEd Maste {EF_ARM_PIC, "position independent"}, 3762c23cb7cSEd Maste {EF_ARM_ALIGN8, "8 bit structure alignment"}, 3772c23cb7cSEd Maste {EF_ARM_NEW_ABI, "uses new ABI"}, 3782c23cb7cSEd Maste {EF_ARM_OLD_ABI, "uses old ABI"}, 3792c23cb7cSEd Maste {EF_ARM_SOFT_FLOAT, "software FP"}, 3802c23cb7cSEd Maste {EF_ARM_VFP_FLOAT, "VFP"}, 3812c23cb7cSEd Maste {EF_ARM_MAVERICK_FLOAT, "Maverick FP"}, 3822c23cb7cSEd Maste {0, NULL} 3832c23cb7cSEd Maste }; 3842c23cb7cSEd Maste 3852c23cb7cSEd Maste static struct eflags_desc mips_eflags_desc[] = { 3862c23cb7cSEd Maste {EF_MIPS_NOREORDER, "noreorder"}, 3872c23cb7cSEd Maste {EF_MIPS_PIC, "pic"}, 3882c23cb7cSEd Maste {EF_MIPS_CPIC, "cpic"}, 3892c23cb7cSEd Maste {EF_MIPS_UCODE, "ugen_reserved"}, 3902c23cb7cSEd Maste {EF_MIPS_ABI2, "abi2"}, 3912c23cb7cSEd Maste {EF_MIPS_OPTIONS_FIRST, "odk first"}, 3922c23cb7cSEd Maste {EF_MIPS_ARCH_ASE_MDMX, "mdmx"}, 3932c23cb7cSEd Maste {EF_MIPS_ARCH_ASE_M16, "mips16"}, 3942c23cb7cSEd Maste {0, NULL} 3952c23cb7cSEd Maste }; 3962c23cb7cSEd Maste 3972c23cb7cSEd Maste static struct eflags_desc powerpc_eflags_desc[] = { 3982c23cb7cSEd Maste {EF_PPC_EMB, "emb"}, 3992c23cb7cSEd Maste {EF_PPC_RELOCATABLE, "relocatable"}, 4002c23cb7cSEd Maste {EF_PPC_RELOCATABLE_LIB, "relocatable-lib"}, 4012c23cb7cSEd Maste {0, NULL} 4022c23cb7cSEd Maste }; 4032c23cb7cSEd Maste 4042c23cb7cSEd Maste static struct eflags_desc sparc_eflags_desc[] = { 4052c23cb7cSEd Maste {EF_SPARC_32PLUS, "v8+"}, 4062c23cb7cSEd Maste {EF_SPARC_SUN_US1, "ultrasparcI"}, 4072c23cb7cSEd Maste {EF_SPARC_HAL_R1, "halr1"}, 4082c23cb7cSEd Maste {EF_SPARC_SUN_US3, "ultrasparcIII"}, 4092c23cb7cSEd Maste {0, NULL} 4102c23cb7cSEd Maste }; 4112c23cb7cSEd Maste 4122c23cb7cSEd Maste static const char * 4132c23cb7cSEd Maste elf_osabi(unsigned int abi) 4142c23cb7cSEd Maste { 4152c23cb7cSEd Maste static char s_abi[32]; 4162c23cb7cSEd Maste 4172c23cb7cSEd Maste switch(abi) { 418453b09caSEd Maste case ELFOSABI_NONE: return "NONE"; 419473c31f1SEd Maste case ELFOSABI_HPUX: return "HPUX"; 4202c23cb7cSEd Maste case ELFOSABI_NETBSD: return "NetBSD"; 4212c23cb7cSEd Maste case ELFOSABI_GNU: return "GNU"; 4222c23cb7cSEd Maste case ELFOSABI_HURD: return "HURD"; 4232c23cb7cSEd Maste case ELFOSABI_86OPEN: return "86OPEN"; 4242c23cb7cSEd Maste case ELFOSABI_SOLARIS: return "Solaris"; 4252c23cb7cSEd Maste case ELFOSABI_AIX: return "AIX"; 4262c23cb7cSEd Maste case ELFOSABI_IRIX: return "IRIX"; 4272c23cb7cSEd Maste case ELFOSABI_FREEBSD: return "FreeBSD"; 4282c23cb7cSEd Maste case ELFOSABI_TRU64: return "TRU64"; 4292c23cb7cSEd Maste case ELFOSABI_MODESTO: return "MODESTO"; 4302c23cb7cSEd Maste case ELFOSABI_OPENBSD: return "OpenBSD"; 4312c23cb7cSEd Maste case ELFOSABI_OPENVMS: return "OpenVMS"; 4322c23cb7cSEd Maste case ELFOSABI_NSK: return "NSK"; 4332c23cb7cSEd Maste case ELFOSABI_ARM: return "ARM"; 4342c23cb7cSEd Maste case ELFOSABI_STANDALONE: return "StandAlone"; 4352c23cb7cSEd Maste default: 4362c23cb7cSEd Maste snprintf(s_abi, sizeof(s_abi), "<unknown: %#x>", abi); 4372c23cb7cSEd Maste return (s_abi); 4382c23cb7cSEd Maste } 4392c23cb7cSEd Maste }; 4402c23cb7cSEd Maste 4412c23cb7cSEd Maste static const char * 4422c23cb7cSEd Maste elf_machine(unsigned int mach) 4432c23cb7cSEd Maste { 4442c23cb7cSEd Maste static char s_mach[32]; 4452c23cb7cSEd Maste 4462c23cb7cSEd Maste switch (mach) { 4472c23cb7cSEd Maste case EM_NONE: return "Unknown machine"; 4482c23cb7cSEd Maste case EM_M32: return "AT&T WE32100"; 4492c23cb7cSEd Maste case EM_SPARC: return "Sun SPARC"; 4502c23cb7cSEd Maste case EM_386: return "Intel i386"; 4512c23cb7cSEd Maste case EM_68K: return "Motorola 68000"; 4523ef90571SEd Maste case EM_IAMCU: return "Intel MCU"; 4532c23cb7cSEd Maste case EM_88K: return "Motorola 88000"; 4542c23cb7cSEd Maste case EM_860: return "Intel i860"; 4552c23cb7cSEd Maste case EM_MIPS: return "MIPS R3000 Big-Endian only"; 4562c23cb7cSEd Maste case EM_S370: return "IBM System/370"; 4572c23cb7cSEd Maste case EM_MIPS_RS3_LE: return "MIPS R3000 Little-Endian"; 4582c23cb7cSEd Maste case EM_PARISC: return "HP PA-RISC"; 4592c23cb7cSEd Maste case EM_VPP500: return "Fujitsu VPP500"; 4602c23cb7cSEd Maste case EM_SPARC32PLUS: return "SPARC v8plus"; 4612c23cb7cSEd Maste case EM_960: return "Intel 80960"; 4622c23cb7cSEd Maste case EM_PPC: return "PowerPC 32-bit"; 4632c23cb7cSEd Maste case EM_PPC64: return "PowerPC 64-bit"; 4642c23cb7cSEd Maste case EM_S390: return "IBM System/390"; 4652c23cb7cSEd Maste case EM_V800: return "NEC V800"; 4662c23cb7cSEd Maste case EM_FR20: return "Fujitsu FR20"; 4672c23cb7cSEd Maste case EM_RH32: return "TRW RH-32"; 4682c23cb7cSEd Maste case EM_RCE: return "Motorola RCE"; 4692c23cb7cSEd Maste case EM_ARM: return "ARM"; 4702c23cb7cSEd Maste case EM_SH: return "Hitachi SH"; 4712c23cb7cSEd Maste case EM_SPARCV9: return "SPARC v9 64-bit"; 4722c23cb7cSEd Maste case EM_TRICORE: return "Siemens TriCore embedded processor"; 4732c23cb7cSEd Maste case EM_ARC: return "Argonaut RISC Core"; 4742c23cb7cSEd Maste case EM_H8_300: return "Hitachi H8/300"; 4752c23cb7cSEd Maste case EM_H8_300H: return "Hitachi H8/300H"; 4762c23cb7cSEd Maste case EM_H8S: return "Hitachi H8S"; 4772c23cb7cSEd Maste case EM_H8_500: return "Hitachi H8/500"; 4782c23cb7cSEd Maste case EM_IA_64: return "Intel IA-64 Processor"; 4792c23cb7cSEd Maste case EM_MIPS_X: return "Stanford MIPS-X"; 4802c23cb7cSEd Maste case EM_COLDFIRE: return "Motorola ColdFire"; 4812c23cb7cSEd Maste case EM_68HC12: return "Motorola M68HC12"; 4822c23cb7cSEd Maste case EM_MMA: return "Fujitsu MMA"; 4832c23cb7cSEd Maste case EM_PCP: return "Siemens PCP"; 4842c23cb7cSEd Maste case EM_NCPU: return "Sony nCPU"; 4852c23cb7cSEd Maste case EM_NDR1: return "Denso NDR1 microprocessor"; 4862c23cb7cSEd Maste case EM_STARCORE: return "Motorola Star*Core processor"; 4872c23cb7cSEd Maste case EM_ME16: return "Toyota ME16 processor"; 4882c23cb7cSEd Maste case EM_ST100: return "STMicroelectronics ST100 processor"; 4892c23cb7cSEd Maste case EM_TINYJ: return "Advanced Logic Corp. TinyJ processor"; 4902c23cb7cSEd Maste case EM_X86_64: return "Advanced Micro Devices x86-64"; 4912c23cb7cSEd Maste case EM_PDSP: return "Sony DSP Processor"; 4922c23cb7cSEd Maste case EM_FX66: return "Siemens FX66 microcontroller"; 4932c23cb7cSEd Maste case EM_ST9PLUS: return "STMicroelectronics ST9+ 8/16 microcontroller"; 4942c23cb7cSEd Maste case EM_ST7: return "STmicroelectronics ST7 8-bit microcontroller"; 4952c23cb7cSEd Maste case EM_68HC16: return "Motorola MC68HC16 microcontroller"; 4962c23cb7cSEd Maste case EM_68HC11: return "Motorola MC68HC11 microcontroller"; 4972c23cb7cSEd Maste case EM_68HC08: return "Motorola MC68HC08 microcontroller"; 4982c23cb7cSEd Maste case EM_68HC05: return "Motorola MC68HC05 microcontroller"; 4992c23cb7cSEd Maste case EM_SVX: return "Silicon Graphics SVx"; 5002c23cb7cSEd Maste case EM_ST19: return "STMicroelectronics ST19 8-bit mc"; 5012c23cb7cSEd Maste case EM_VAX: return "Digital VAX"; 5022c23cb7cSEd Maste case EM_CRIS: return "Axis Communications 32-bit embedded processor"; 5032c23cb7cSEd Maste case EM_JAVELIN: return "Infineon Tech. 32bit embedded processor"; 5042c23cb7cSEd Maste case EM_FIREPATH: return "Element 14 64-bit DSP Processor"; 5052c23cb7cSEd Maste case EM_ZSP: return "LSI Logic 16-bit DSP Processor"; 5062c23cb7cSEd Maste case EM_MMIX: return "Donald Knuth's educational 64-bit proc"; 5072c23cb7cSEd Maste case EM_HUANY: return "Harvard University MI object files"; 5082c23cb7cSEd Maste case EM_PRISM: return "SiTera Prism"; 5092c23cb7cSEd Maste case EM_AVR: return "Atmel AVR 8-bit microcontroller"; 5102c23cb7cSEd Maste case EM_FR30: return "Fujitsu FR30"; 5112c23cb7cSEd Maste case EM_D10V: return "Mitsubishi D10V"; 5122c23cb7cSEd Maste case EM_D30V: return "Mitsubishi D30V"; 5132c23cb7cSEd Maste case EM_V850: return "NEC v850"; 5142c23cb7cSEd Maste case EM_M32R: return "Mitsubishi M32R"; 5152c23cb7cSEd Maste case EM_MN10300: return "Matsushita MN10300"; 5162c23cb7cSEd Maste case EM_MN10200: return "Matsushita MN10200"; 5172c23cb7cSEd Maste case EM_PJ: return "picoJava"; 5182c23cb7cSEd Maste case EM_OPENRISC: return "OpenRISC 32-bit embedded processor"; 5192c23cb7cSEd Maste case EM_ARC_A5: return "ARC Cores Tangent-A5"; 5202c23cb7cSEd Maste case EM_XTENSA: return "Tensilica Xtensa Architecture"; 5212c23cb7cSEd Maste case EM_VIDEOCORE: return "Alphamosaic VideoCore processor"; 5222c23cb7cSEd Maste case EM_TMM_GPP: return "Thompson Multimedia General Purpose Processor"; 5232c23cb7cSEd Maste case EM_NS32K: return "National Semiconductor 32000 series"; 5242c23cb7cSEd Maste case EM_TPC: return "Tenor Network TPC processor"; 5252c23cb7cSEd Maste case EM_SNP1K: return "Trebia SNP 1000 processor"; 5262c23cb7cSEd Maste case EM_ST200: return "STMicroelectronics ST200 microcontroller"; 5272c23cb7cSEd Maste case EM_IP2K: return "Ubicom IP2xxx microcontroller family"; 5282c23cb7cSEd Maste case EM_MAX: return "MAX Processor"; 5292c23cb7cSEd Maste case EM_CR: return "National Semiconductor CompactRISC microprocessor"; 5302c23cb7cSEd Maste case EM_F2MC16: return "Fujitsu F2MC16"; 5312c23cb7cSEd Maste case EM_MSP430: return "TI embedded microcontroller msp430"; 5322c23cb7cSEd Maste case EM_BLACKFIN: return "Analog Devices Blackfin (DSP) processor"; 5332c23cb7cSEd Maste case EM_SE_C33: return "S1C33 Family of Seiko Epson processors"; 5342c23cb7cSEd Maste case EM_SEP: return "Sharp embedded microprocessor"; 5352c23cb7cSEd Maste case EM_ARCA: return "Arca RISC Microprocessor"; 5362c23cb7cSEd Maste case EM_UNICORE: return "Microprocessor series from PKU-Unity Ltd"; 537b3f26809SEd Maste case EM_AARCH64: return "AArch64"; 538119b7592SEd Maste case EM_RISCV: return "RISC-V"; 5392c23cb7cSEd Maste default: 5402c23cb7cSEd Maste snprintf(s_mach, sizeof(s_mach), "<unknown: %#x>", mach); 5412c23cb7cSEd Maste return (s_mach); 5422c23cb7cSEd Maste } 5432c23cb7cSEd Maste 5442c23cb7cSEd Maste } 5452c23cb7cSEd Maste 5462c23cb7cSEd Maste static const char * 5472c23cb7cSEd Maste elf_class(unsigned int class) 5482c23cb7cSEd Maste { 5492c23cb7cSEd Maste static char s_class[32]; 5502c23cb7cSEd Maste 5512c23cb7cSEd Maste switch (class) { 5522c23cb7cSEd Maste case ELFCLASSNONE: return "none"; 5532c23cb7cSEd Maste case ELFCLASS32: return "ELF32"; 5542c23cb7cSEd Maste case ELFCLASS64: return "ELF64"; 5552c23cb7cSEd Maste default: 5562c23cb7cSEd Maste snprintf(s_class, sizeof(s_class), "<unknown: %#x>", class); 5572c23cb7cSEd Maste return (s_class); 5582c23cb7cSEd Maste } 5592c23cb7cSEd Maste } 5602c23cb7cSEd Maste 5612c23cb7cSEd Maste static const char * 5622c23cb7cSEd Maste elf_endian(unsigned int endian) 5632c23cb7cSEd Maste { 5642c23cb7cSEd Maste static char s_endian[32]; 5652c23cb7cSEd Maste 5662c23cb7cSEd Maste switch (endian) { 5672c23cb7cSEd Maste case ELFDATANONE: return "none"; 5682c23cb7cSEd Maste case ELFDATA2LSB: return "2's complement, little endian"; 5692c23cb7cSEd Maste case ELFDATA2MSB: return "2's complement, big endian"; 5702c23cb7cSEd Maste default: 5712c23cb7cSEd Maste snprintf(s_endian, sizeof(s_endian), "<unknown: %#x>", endian); 5722c23cb7cSEd Maste return (s_endian); 5732c23cb7cSEd Maste } 5742c23cb7cSEd Maste } 5752c23cb7cSEd Maste 5762c23cb7cSEd Maste static const char * 5772c23cb7cSEd Maste elf_type(unsigned int type) 5782c23cb7cSEd Maste { 5792c23cb7cSEd Maste static char s_type[32]; 5802c23cb7cSEd Maste 5812c23cb7cSEd Maste switch (type) { 5822c23cb7cSEd Maste case ET_NONE: return "NONE (None)"; 5832c23cb7cSEd Maste case ET_REL: return "REL (Relocatable file)"; 5842c23cb7cSEd Maste case ET_EXEC: return "EXEC (Executable file)"; 5852c23cb7cSEd Maste case ET_DYN: return "DYN (Shared object file)"; 5862c23cb7cSEd Maste case ET_CORE: return "CORE (Core file)"; 5872c23cb7cSEd Maste default: 5882c23cb7cSEd Maste if (type >= ET_LOPROC) 5892c23cb7cSEd Maste snprintf(s_type, sizeof(s_type), "<proc: %#x>", type); 5902c23cb7cSEd Maste else if (type >= ET_LOOS && type <= ET_HIOS) 5912c23cb7cSEd Maste snprintf(s_type, sizeof(s_type), "<os: %#x>", type); 5922c23cb7cSEd Maste else 5932c23cb7cSEd Maste snprintf(s_type, sizeof(s_type), "<unknown: %#x>", 5942c23cb7cSEd Maste type); 5952c23cb7cSEd Maste return (s_type); 5962c23cb7cSEd Maste } 5972c23cb7cSEd Maste } 5982c23cb7cSEd Maste 5992c23cb7cSEd Maste static const char * 6002c23cb7cSEd Maste elf_ver(unsigned int ver) 6012c23cb7cSEd Maste { 6022c23cb7cSEd Maste static char s_ver[32]; 6032c23cb7cSEd Maste 6042c23cb7cSEd Maste switch (ver) { 6052c23cb7cSEd Maste case EV_CURRENT: return "(current)"; 6062c23cb7cSEd Maste case EV_NONE: return "(none)"; 6072c23cb7cSEd Maste default: 6082c23cb7cSEd Maste snprintf(s_ver, sizeof(s_ver), "<unknown: %#x>", 6092c23cb7cSEd Maste ver); 6102c23cb7cSEd Maste return (s_ver); 6112c23cb7cSEd Maste } 6122c23cb7cSEd Maste } 6132c23cb7cSEd Maste 6142c23cb7cSEd Maste static const char * 6152c23cb7cSEd Maste phdr_type(unsigned int ptype) 6162c23cb7cSEd Maste { 6172c23cb7cSEd Maste static char s_ptype[32]; 6182c23cb7cSEd Maste 6192c23cb7cSEd Maste switch (ptype) { 6202c23cb7cSEd Maste case PT_NULL: return "NULL"; 6212c23cb7cSEd Maste case PT_LOAD: return "LOAD"; 6222c23cb7cSEd Maste case PT_DYNAMIC: return "DYNAMIC"; 6232c23cb7cSEd Maste case PT_INTERP: return "INTERP"; 6242c23cb7cSEd Maste case PT_NOTE: return "NOTE"; 6252c23cb7cSEd Maste case PT_SHLIB: return "SHLIB"; 6262c23cb7cSEd Maste case PT_PHDR: return "PHDR"; 6272c23cb7cSEd Maste case PT_TLS: return "TLS"; 6282c23cb7cSEd Maste case PT_GNU_EH_FRAME: return "GNU_EH_FRAME"; 6292c23cb7cSEd Maste case PT_GNU_STACK: return "GNU_STACK"; 6302c23cb7cSEd Maste case PT_GNU_RELRO: return "GNU_RELRO"; 6312c23cb7cSEd Maste default: 6322c23cb7cSEd Maste if (ptype >= PT_LOPROC && ptype <= PT_HIPROC) 6332c23cb7cSEd Maste snprintf(s_ptype, sizeof(s_ptype), "LOPROC+%#x", 6342c23cb7cSEd Maste ptype - PT_LOPROC); 6352c23cb7cSEd Maste else if (ptype >= PT_LOOS && ptype <= PT_HIOS) 6362c23cb7cSEd Maste snprintf(s_ptype, sizeof(s_ptype), "LOOS+%#x", 6372c23cb7cSEd Maste ptype - PT_LOOS); 6382c23cb7cSEd Maste else 6392c23cb7cSEd Maste snprintf(s_ptype, sizeof(s_ptype), "<unknown: %#x>", 6402c23cb7cSEd Maste ptype); 6412c23cb7cSEd Maste return (s_ptype); 6422c23cb7cSEd Maste } 6432c23cb7cSEd Maste } 6442c23cb7cSEd Maste 6452c23cb7cSEd Maste static const char * 6462c23cb7cSEd Maste section_type(unsigned int mach, unsigned int stype) 6472c23cb7cSEd Maste { 6482c23cb7cSEd Maste static char s_stype[32]; 6492c23cb7cSEd Maste 6502c23cb7cSEd Maste if (stype >= SHT_LOPROC && stype <= SHT_HIPROC) { 6512c23cb7cSEd Maste switch (mach) { 6522c23cb7cSEd Maste case EM_X86_64: 6532c23cb7cSEd Maste switch (stype) { 6542c23cb7cSEd Maste case SHT_AMD64_UNWIND: return "AMD64_UNWIND"; 6552c23cb7cSEd Maste default: 6562c23cb7cSEd Maste break; 6572c23cb7cSEd Maste } 6582c23cb7cSEd Maste break; 6592c23cb7cSEd Maste case EM_MIPS: 6602c23cb7cSEd Maste case EM_MIPS_RS3_LE: 6612c23cb7cSEd Maste switch (stype) { 6622c23cb7cSEd Maste case SHT_MIPS_LIBLIST: return "MIPS_LIBLIST"; 6632c23cb7cSEd Maste case SHT_MIPS_MSYM: return "MIPS_MSYM"; 6642c23cb7cSEd Maste case SHT_MIPS_CONFLICT: return "MIPS_CONFLICT"; 6652c23cb7cSEd Maste case SHT_MIPS_GPTAB: return "MIPS_GPTAB"; 6662c23cb7cSEd Maste case SHT_MIPS_UCODE: return "MIPS_UCODE"; 6672c23cb7cSEd Maste case SHT_MIPS_DEBUG: return "MIPS_DEBUG"; 6682c23cb7cSEd Maste case SHT_MIPS_REGINFO: return "MIPS_REGINFO"; 6692c23cb7cSEd Maste case SHT_MIPS_PACKAGE: return "MIPS_PACKAGE"; 6702c23cb7cSEd Maste case SHT_MIPS_PACKSYM: return "MIPS_PACKSYM"; 6712c23cb7cSEd Maste case SHT_MIPS_RELD: return "MIPS_RELD"; 6722c23cb7cSEd Maste case SHT_MIPS_IFACE: return "MIPS_IFACE"; 6732c23cb7cSEd Maste case SHT_MIPS_CONTENT: return "MIPS_CONTENT"; 6742c23cb7cSEd Maste case SHT_MIPS_OPTIONS: return "MIPS_OPTIONS"; 6752c23cb7cSEd Maste case SHT_MIPS_DELTASYM: return "MIPS_DELTASYM"; 6762c23cb7cSEd Maste case SHT_MIPS_DELTAINST: return "MIPS_DELTAINST"; 6772c23cb7cSEd Maste case SHT_MIPS_DELTACLASS: return "MIPS_DELTACLASS"; 6782c23cb7cSEd Maste case SHT_MIPS_DWARF: return "MIPS_DWARF"; 6792c23cb7cSEd Maste case SHT_MIPS_DELTADECL: return "MIPS_DELTADECL"; 6802c23cb7cSEd Maste case SHT_MIPS_SYMBOL_LIB: return "MIPS_SYMBOL_LIB"; 6812c23cb7cSEd Maste case SHT_MIPS_EVENTS: return "MIPS_EVENTS"; 6822c23cb7cSEd Maste case SHT_MIPS_TRANSLATE: return "MIPS_TRANSLATE"; 6832c23cb7cSEd Maste case SHT_MIPS_PIXIE: return "MIPS_PIXIE"; 6842c23cb7cSEd Maste case SHT_MIPS_XLATE: return "MIPS_XLATE"; 6852c23cb7cSEd Maste case SHT_MIPS_XLATE_DEBUG: return "MIPS_XLATE_DEBUG"; 6862c23cb7cSEd Maste case SHT_MIPS_WHIRL: return "MIPS_WHIRL"; 6872c23cb7cSEd Maste case SHT_MIPS_EH_REGION: return "MIPS_EH_REGION"; 6882c23cb7cSEd Maste case SHT_MIPS_XLATE_OLD: return "MIPS_XLATE_OLD"; 6892c23cb7cSEd Maste case SHT_MIPS_PDR_EXCEPTION: return "MIPS_PDR_EXCEPTION"; 6902c23cb7cSEd Maste default: 6912c23cb7cSEd Maste break; 6922c23cb7cSEd Maste } 6932c23cb7cSEd Maste break; 6942c23cb7cSEd Maste default: 6952c23cb7cSEd Maste break; 6962c23cb7cSEd Maste } 6972c23cb7cSEd Maste 6982c23cb7cSEd Maste snprintf(s_stype, sizeof(s_stype), "LOPROC+%#x", 6992c23cb7cSEd Maste stype - SHT_LOPROC); 7002c23cb7cSEd Maste return (s_stype); 7012c23cb7cSEd Maste } 7022c23cb7cSEd Maste 7032c23cb7cSEd Maste switch (stype) { 7042c23cb7cSEd Maste case SHT_NULL: return "NULL"; 7052c23cb7cSEd Maste case SHT_PROGBITS: return "PROGBITS"; 7062c23cb7cSEd Maste case SHT_SYMTAB: return "SYMTAB"; 7072c23cb7cSEd Maste case SHT_STRTAB: return "STRTAB"; 7082c23cb7cSEd Maste case SHT_RELA: return "RELA"; 7092c23cb7cSEd Maste case SHT_HASH: return "HASH"; 7102c23cb7cSEd Maste case SHT_DYNAMIC: return "DYNAMIC"; 7112c23cb7cSEd Maste case SHT_NOTE: return "NOTE"; 7122c23cb7cSEd Maste case SHT_NOBITS: return "NOBITS"; 7132c23cb7cSEd Maste case SHT_REL: return "REL"; 7142c23cb7cSEd Maste case SHT_SHLIB: return "SHLIB"; 7152c23cb7cSEd Maste case SHT_DYNSYM: return "DYNSYM"; 7162c23cb7cSEd Maste case SHT_INIT_ARRAY: return "INIT_ARRAY"; 7172c23cb7cSEd Maste case SHT_FINI_ARRAY: return "FINI_ARRAY"; 7182c23cb7cSEd Maste case SHT_PREINIT_ARRAY: return "PREINIT_ARRAY"; 7192c23cb7cSEd Maste case SHT_GROUP: return "GROUP"; 7202c23cb7cSEd Maste case SHT_SYMTAB_SHNDX: return "SYMTAB_SHNDX"; 7212c23cb7cSEd Maste case SHT_SUNW_dof: return "SUNW_dof"; 7222c23cb7cSEd Maste case SHT_SUNW_cap: return "SUNW_cap"; 7232c23cb7cSEd Maste case SHT_GNU_HASH: return "GNU_HASH"; 7242c23cb7cSEd Maste case SHT_SUNW_ANNOTATE: return "SUNW_ANNOTATE"; 7252c23cb7cSEd Maste case SHT_SUNW_DEBUGSTR: return "SUNW_DEBUGSTR"; 7262c23cb7cSEd Maste case SHT_SUNW_DEBUG: return "SUNW_DEBUG"; 7272c23cb7cSEd Maste case SHT_SUNW_move: return "SUNW_move"; 7282c23cb7cSEd Maste case SHT_SUNW_COMDAT: return "SUNW_COMDAT"; 7292c23cb7cSEd Maste case SHT_SUNW_syminfo: return "SUNW_syminfo"; 7302c23cb7cSEd Maste case SHT_SUNW_verdef: return "SUNW_verdef"; 7312c23cb7cSEd Maste case SHT_SUNW_verneed: return "SUNW_verneed"; 7322c23cb7cSEd Maste case SHT_SUNW_versym: return "SUNW_versym"; 7332c23cb7cSEd Maste default: 7342c23cb7cSEd Maste if (stype >= SHT_LOOS && stype <= SHT_HIOS) 7352c23cb7cSEd Maste snprintf(s_stype, sizeof(s_stype), "LOOS+%#x", 7362c23cb7cSEd Maste stype - SHT_LOOS); 7372c23cb7cSEd Maste else if (stype >= SHT_LOUSER) 7382c23cb7cSEd Maste snprintf(s_stype, sizeof(s_stype), "LOUSER+%#x", 7392c23cb7cSEd Maste stype - SHT_LOUSER); 7402c23cb7cSEd Maste else 7412c23cb7cSEd Maste snprintf(s_stype, sizeof(s_stype), "<unknown: %#x>", 7422c23cb7cSEd Maste stype); 7432c23cb7cSEd Maste return (s_stype); 7442c23cb7cSEd Maste } 7452c23cb7cSEd Maste } 7462c23cb7cSEd Maste 7472c23cb7cSEd Maste static const char * 7482c23cb7cSEd Maste dt_type(unsigned int mach, unsigned int dtype) 7492c23cb7cSEd Maste { 7502c23cb7cSEd Maste static char s_dtype[32]; 7512c23cb7cSEd Maste 7522c23cb7cSEd Maste if (dtype >= DT_LOPROC && dtype <= DT_HIPROC) { 7532c23cb7cSEd Maste switch (mach) { 7542c23cb7cSEd Maste case EM_ARM: 7552c23cb7cSEd Maste switch (dtype) { 7562c23cb7cSEd Maste case DT_ARM_SYMTABSZ: 7572c23cb7cSEd Maste return "ARM_SYMTABSZ"; 7582c23cb7cSEd Maste default: 7592c23cb7cSEd Maste break; 7602c23cb7cSEd Maste } 7612c23cb7cSEd Maste break; 7622c23cb7cSEd Maste case EM_MIPS: 7632c23cb7cSEd Maste case EM_MIPS_RS3_LE: 7642c23cb7cSEd Maste switch (dtype) { 7652c23cb7cSEd Maste case DT_MIPS_RLD_VERSION: 7662c23cb7cSEd Maste return "MIPS_RLD_VERSION"; 7672c23cb7cSEd Maste case DT_MIPS_TIME_STAMP: 7682c23cb7cSEd Maste return "MIPS_TIME_STAMP"; 7692c23cb7cSEd Maste case DT_MIPS_ICHECKSUM: 7702c23cb7cSEd Maste return "MIPS_ICHECKSUM"; 7712c23cb7cSEd Maste case DT_MIPS_IVERSION: 7722c23cb7cSEd Maste return "MIPS_IVERSION"; 7732c23cb7cSEd Maste case DT_MIPS_FLAGS: 7742c23cb7cSEd Maste return "MIPS_FLAGS"; 7752c23cb7cSEd Maste case DT_MIPS_BASE_ADDRESS: 7762c23cb7cSEd Maste return "MIPS_BASE_ADDRESS"; 7772c23cb7cSEd Maste case DT_MIPS_CONFLICT: 7782c23cb7cSEd Maste return "MIPS_CONFLICT"; 7792c23cb7cSEd Maste case DT_MIPS_LIBLIST: 7802c23cb7cSEd Maste return "MIPS_LIBLIST"; 7812c23cb7cSEd Maste case DT_MIPS_LOCAL_GOTNO: 7822c23cb7cSEd Maste return "MIPS_LOCAL_GOTNO"; 7832c23cb7cSEd Maste case DT_MIPS_CONFLICTNO: 7842c23cb7cSEd Maste return "MIPS_CONFLICTNO"; 7852c23cb7cSEd Maste case DT_MIPS_LIBLISTNO: 7862c23cb7cSEd Maste return "MIPS_LIBLISTNO"; 7872c23cb7cSEd Maste case DT_MIPS_SYMTABNO: 7882c23cb7cSEd Maste return "MIPS_SYMTABNO"; 7892c23cb7cSEd Maste case DT_MIPS_UNREFEXTNO: 7902c23cb7cSEd Maste return "MIPS_UNREFEXTNO"; 7912c23cb7cSEd Maste case DT_MIPS_GOTSYM: 7922c23cb7cSEd Maste return "MIPS_GOTSYM"; 7932c23cb7cSEd Maste case DT_MIPS_HIPAGENO: 7942c23cb7cSEd Maste return "MIPS_HIPAGENO"; 7952c23cb7cSEd Maste case DT_MIPS_RLD_MAP: 7962c23cb7cSEd Maste return "MIPS_RLD_MAP"; 7972c23cb7cSEd Maste case DT_MIPS_DELTA_CLASS: 7982c23cb7cSEd Maste return "MIPS_DELTA_CLASS"; 7992c23cb7cSEd Maste case DT_MIPS_DELTA_CLASS_NO: 8002c23cb7cSEd Maste return "MIPS_DELTA_CLASS_NO"; 8012c23cb7cSEd Maste case DT_MIPS_DELTA_INSTANCE: 8022c23cb7cSEd Maste return "MIPS_DELTA_INSTANCE"; 8032c23cb7cSEd Maste case DT_MIPS_DELTA_INSTANCE_NO: 8042c23cb7cSEd Maste return "MIPS_DELTA_INSTANCE_NO"; 8052c23cb7cSEd Maste case DT_MIPS_DELTA_RELOC: 8062c23cb7cSEd Maste return "MIPS_DELTA_RELOC"; 8072c23cb7cSEd Maste case DT_MIPS_DELTA_RELOC_NO: 8082c23cb7cSEd Maste return "MIPS_DELTA_RELOC_NO"; 8092c23cb7cSEd Maste case DT_MIPS_DELTA_SYM: 8102c23cb7cSEd Maste return "MIPS_DELTA_SYM"; 8112c23cb7cSEd Maste case DT_MIPS_DELTA_SYM_NO: 8122c23cb7cSEd Maste return "MIPS_DELTA_SYM_NO"; 8132c23cb7cSEd Maste case DT_MIPS_DELTA_CLASSSYM: 8142c23cb7cSEd Maste return "MIPS_DELTA_CLASSSYM"; 8152c23cb7cSEd Maste case DT_MIPS_DELTA_CLASSSYM_NO: 8162c23cb7cSEd Maste return "MIPS_DELTA_CLASSSYM_NO"; 8172c23cb7cSEd Maste case DT_MIPS_CXX_FLAGS: 8182c23cb7cSEd Maste return "MIPS_CXX_FLAGS"; 8192c23cb7cSEd Maste case DT_MIPS_PIXIE_INIT: 8202c23cb7cSEd Maste return "MIPS_PIXIE_INIT"; 8212c23cb7cSEd Maste case DT_MIPS_SYMBOL_LIB: 8222c23cb7cSEd Maste return "MIPS_SYMBOL_LIB"; 8232c23cb7cSEd Maste case DT_MIPS_LOCALPAGE_GOTIDX: 8242c23cb7cSEd Maste return "MIPS_LOCALPAGE_GOTIDX"; 8252c23cb7cSEd Maste case DT_MIPS_LOCAL_GOTIDX: 8262c23cb7cSEd Maste return "MIPS_LOCAL_GOTIDX"; 8272c23cb7cSEd Maste case DT_MIPS_HIDDEN_GOTIDX: 8282c23cb7cSEd Maste return "MIPS_HIDDEN_GOTIDX"; 8292c23cb7cSEd Maste case DT_MIPS_PROTECTED_GOTIDX: 8302c23cb7cSEd Maste return "MIPS_PROTECTED_GOTIDX"; 8312c23cb7cSEd Maste case DT_MIPS_OPTIONS: 8322c23cb7cSEd Maste return "MIPS_OPTIONS"; 8332c23cb7cSEd Maste case DT_MIPS_INTERFACE: 8342c23cb7cSEd Maste return "MIPS_INTERFACE"; 8352c23cb7cSEd Maste case DT_MIPS_DYNSTR_ALIGN: 8362c23cb7cSEd Maste return "MIPS_DYNSTR_ALIGN"; 8372c23cb7cSEd Maste case DT_MIPS_INTERFACE_SIZE: 8382c23cb7cSEd Maste return "MIPS_INTERFACE_SIZE"; 8392c23cb7cSEd Maste case DT_MIPS_RLD_TEXT_RESOLVE_ADDR: 8402c23cb7cSEd Maste return "MIPS_RLD_TEXT_RESOLVE_ADDR"; 8412c23cb7cSEd Maste case DT_MIPS_PERF_SUFFIX: 8422c23cb7cSEd Maste return "MIPS_PERF_SUFFIX"; 8432c23cb7cSEd Maste case DT_MIPS_COMPACT_SIZE: 8442c23cb7cSEd Maste return "MIPS_COMPACT_SIZE"; 8452c23cb7cSEd Maste case DT_MIPS_GP_VALUE: 8462c23cb7cSEd Maste return "MIPS_GP_VALUE"; 8472c23cb7cSEd Maste case DT_MIPS_AUX_DYNAMIC: 8482c23cb7cSEd Maste return "MIPS_AUX_DYNAMIC"; 8492c23cb7cSEd Maste case DT_MIPS_PLTGOT: 8502c23cb7cSEd Maste return "MIPS_PLTGOT"; 8512c23cb7cSEd Maste case DT_MIPS_RLD_OBJ_UPDATE: 8522c23cb7cSEd Maste return "MIPS_RLD_OBJ_UPDATE"; 8532c23cb7cSEd Maste case DT_MIPS_RWPLT: 8542c23cb7cSEd Maste return "MIPS_RWPLT"; 8552c23cb7cSEd Maste default: 8562c23cb7cSEd Maste break; 8572c23cb7cSEd Maste } 8582c23cb7cSEd Maste break; 8592c23cb7cSEd Maste case EM_SPARC: 8602c23cb7cSEd Maste case EM_SPARC32PLUS: 8612c23cb7cSEd Maste case EM_SPARCV9: 8622c23cb7cSEd Maste switch (dtype) { 8632c23cb7cSEd Maste case DT_SPARC_REGISTER: 8642c23cb7cSEd Maste return "DT_SPARC_REGISTER"; 8652c23cb7cSEd Maste default: 8662c23cb7cSEd Maste break; 8672c23cb7cSEd Maste } 8682c23cb7cSEd Maste break; 8692c23cb7cSEd Maste default: 8702c23cb7cSEd Maste break; 8712c23cb7cSEd Maste } 8722c23cb7cSEd Maste snprintf(s_dtype, sizeof(s_dtype), "<unknown: %#x>", dtype); 8732c23cb7cSEd Maste return (s_dtype); 8742c23cb7cSEd Maste } 8752c23cb7cSEd Maste 8762c23cb7cSEd Maste switch (dtype) { 8772c23cb7cSEd Maste case DT_NULL: return "NULL"; 8782c23cb7cSEd Maste case DT_NEEDED: return "NEEDED"; 8792c23cb7cSEd Maste case DT_PLTRELSZ: return "PLTRELSZ"; 8802c23cb7cSEd Maste case DT_PLTGOT: return "PLTGOT"; 8812c23cb7cSEd Maste case DT_HASH: return "HASH"; 8822c23cb7cSEd Maste case DT_STRTAB: return "STRTAB"; 8832c23cb7cSEd Maste case DT_SYMTAB: return "SYMTAB"; 8842c23cb7cSEd Maste case DT_RELA: return "RELA"; 8852c23cb7cSEd Maste case DT_RELASZ: return "RELASZ"; 8862c23cb7cSEd Maste case DT_RELAENT: return "RELAENT"; 8872c23cb7cSEd Maste case DT_STRSZ: return "STRSZ"; 8882c23cb7cSEd Maste case DT_SYMENT: return "SYMENT"; 8892c23cb7cSEd Maste case DT_INIT: return "INIT"; 8902c23cb7cSEd Maste case DT_FINI: return "FINI"; 8912c23cb7cSEd Maste case DT_SONAME: return "SONAME"; 8922c23cb7cSEd Maste case DT_RPATH: return "RPATH"; 8932c23cb7cSEd Maste case DT_SYMBOLIC: return "SYMBOLIC"; 8942c23cb7cSEd Maste case DT_REL: return "REL"; 8952c23cb7cSEd Maste case DT_RELSZ: return "RELSZ"; 8962c23cb7cSEd Maste case DT_RELENT: return "RELENT"; 8972c23cb7cSEd Maste case DT_PLTREL: return "PLTREL"; 8982c23cb7cSEd Maste case DT_DEBUG: return "DEBUG"; 8992c23cb7cSEd Maste case DT_TEXTREL: return "TEXTREL"; 9002c23cb7cSEd Maste case DT_JMPREL: return "JMPREL"; 9012c23cb7cSEd Maste case DT_BIND_NOW: return "BIND_NOW"; 9022c23cb7cSEd Maste case DT_INIT_ARRAY: return "INIT_ARRAY"; 9032c23cb7cSEd Maste case DT_FINI_ARRAY: return "FINI_ARRAY"; 9042c23cb7cSEd Maste case DT_INIT_ARRAYSZ: return "INIT_ARRAYSZ"; 9052c23cb7cSEd Maste case DT_FINI_ARRAYSZ: return "FINI_ARRAYSZ"; 9062c23cb7cSEd Maste case DT_RUNPATH: return "RUNPATH"; 9072c23cb7cSEd Maste case DT_FLAGS: return "FLAGS"; 9082c23cb7cSEd Maste case DT_PREINIT_ARRAY: return "PREINIT_ARRAY"; 9092c23cb7cSEd Maste case DT_PREINIT_ARRAYSZ: return "PREINIT_ARRAYSZ"; 9102c23cb7cSEd Maste case DT_MAXPOSTAGS: return "MAXPOSTAGS"; 9112c23cb7cSEd Maste case DT_SUNW_AUXILIARY: return "SUNW_AUXILIARY"; 9122c23cb7cSEd Maste case DT_SUNW_RTLDINF: return "SUNW_RTLDINF"; 9132c23cb7cSEd Maste case DT_SUNW_FILTER: return "SUNW_FILTER"; 9142c23cb7cSEd Maste case DT_SUNW_CAP: return "SUNW_CAP"; 9152c23cb7cSEd Maste case DT_CHECKSUM: return "CHECKSUM"; 9162c23cb7cSEd Maste case DT_PLTPADSZ: return "PLTPADSZ"; 9172c23cb7cSEd Maste case DT_MOVEENT: return "MOVEENT"; 9182c23cb7cSEd Maste case DT_MOVESZ: return "MOVESZ"; 9192013b96eSEd Maste case DT_FEATURE: return "FEATURE"; 9202c23cb7cSEd Maste case DT_POSFLAG_1: return "POSFLAG_1"; 9212c23cb7cSEd Maste case DT_SYMINSZ: return "SYMINSZ"; 9222c23cb7cSEd Maste case DT_SYMINENT: return "SYMINENT"; 9232c23cb7cSEd Maste case DT_GNU_HASH: return "GNU_HASH"; 9242c23cb7cSEd Maste case DT_GNU_CONFLICT: return "GNU_CONFLICT"; 9252c23cb7cSEd Maste case DT_GNU_LIBLIST: return "GNU_LIBLIST"; 9262c23cb7cSEd Maste case DT_CONFIG: return "CONFIG"; 9272c23cb7cSEd Maste case DT_DEPAUDIT: return "DEPAUDIT"; 9282c23cb7cSEd Maste case DT_AUDIT: return "AUDIT"; 9292c23cb7cSEd Maste case DT_PLTPAD: return "PLTPAD"; 9302c23cb7cSEd Maste case DT_MOVETAB: return "MOVETAB"; 9312c23cb7cSEd Maste case DT_SYMINFO: return "SYMINFO"; 9322c23cb7cSEd Maste case DT_VERSYM: return "VERSYM"; 9332c23cb7cSEd Maste case DT_RELACOUNT: return "RELACOUNT"; 9342c23cb7cSEd Maste case DT_RELCOUNT: return "RELCOUNT"; 9352c23cb7cSEd Maste case DT_FLAGS_1: return "FLAGS_1"; 9362c23cb7cSEd Maste case DT_VERDEF: return "VERDEF"; 9372c23cb7cSEd Maste case DT_VERDEFNUM: return "VERDEFNUM"; 9382c23cb7cSEd Maste case DT_VERNEED: return "VERNEED"; 9392c23cb7cSEd Maste case DT_VERNEEDNUM: return "VERNEEDNUM"; 9402c23cb7cSEd Maste case DT_AUXILIARY: return "AUXILIARY"; 9412c23cb7cSEd Maste case DT_USED: return "USED"; 9422c23cb7cSEd Maste case DT_FILTER: return "FILTER"; 9432c23cb7cSEd Maste case DT_GNU_PRELINKED: return "GNU_PRELINKED"; 9442c23cb7cSEd Maste case DT_GNU_CONFLICTSZ: return "GNU_CONFLICTSZ"; 9452c23cb7cSEd Maste case DT_GNU_LIBLISTSZ: return "GNU_LIBLISTSZ"; 9462c23cb7cSEd Maste default: 9472c23cb7cSEd Maste snprintf(s_dtype, sizeof(s_dtype), "<unknown: %#x>", dtype); 9482c23cb7cSEd Maste return (s_dtype); 9492c23cb7cSEd Maste } 9502c23cb7cSEd Maste } 9512c23cb7cSEd Maste 9522c23cb7cSEd Maste static const char * 9532c23cb7cSEd Maste st_bind(unsigned int sbind) 9542c23cb7cSEd Maste { 9552c23cb7cSEd Maste static char s_sbind[32]; 9562c23cb7cSEd Maste 9572c23cb7cSEd Maste switch (sbind) { 9582c23cb7cSEd Maste case STB_LOCAL: return "LOCAL"; 9592c23cb7cSEd Maste case STB_GLOBAL: return "GLOBAL"; 9602c23cb7cSEd Maste case STB_WEAK: return "WEAK"; 9612c23cb7cSEd Maste default: 9622c23cb7cSEd Maste if (sbind >= STB_LOOS && sbind <= STB_HIOS) 9632c23cb7cSEd Maste return "OS"; 9642c23cb7cSEd Maste else if (sbind >= STB_LOPROC && sbind <= STB_HIPROC) 9652c23cb7cSEd Maste return "PROC"; 9662c23cb7cSEd Maste else 9672c23cb7cSEd Maste snprintf(s_sbind, sizeof(s_sbind), "<unknown: %#x>", 9682c23cb7cSEd Maste sbind); 9692c23cb7cSEd Maste return (s_sbind); 9702c23cb7cSEd Maste } 9712c23cb7cSEd Maste } 9722c23cb7cSEd Maste 9732c23cb7cSEd Maste static const char * 9742c23cb7cSEd Maste st_type(unsigned int stype) 9752c23cb7cSEd Maste { 9762c23cb7cSEd Maste static char s_stype[32]; 9772c23cb7cSEd Maste 9782c23cb7cSEd Maste switch (stype) { 9792c23cb7cSEd Maste case STT_NOTYPE: return "NOTYPE"; 9802c23cb7cSEd Maste case STT_OBJECT: return "OBJECT"; 9812c23cb7cSEd Maste case STT_FUNC: return "FUNC"; 9822c23cb7cSEd Maste case STT_SECTION: return "SECTION"; 9832c23cb7cSEd Maste case STT_FILE: return "FILE"; 9842c23cb7cSEd Maste case STT_COMMON: return "COMMON"; 9852c23cb7cSEd Maste case STT_TLS: return "TLS"; 9862c23cb7cSEd Maste default: 9872c23cb7cSEd Maste if (stype >= STT_LOOS && stype <= STT_HIOS) 9882c23cb7cSEd Maste snprintf(s_stype, sizeof(s_stype), "OS+%#x", 9892c23cb7cSEd Maste stype - STT_LOOS); 9902c23cb7cSEd Maste else if (stype >= STT_LOPROC && stype <= STT_HIPROC) 9912c23cb7cSEd Maste snprintf(s_stype, sizeof(s_stype), "PROC+%#x", 9922c23cb7cSEd Maste stype - STT_LOPROC); 9932c23cb7cSEd Maste else 9942c23cb7cSEd Maste snprintf(s_stype, sizeof(s_stype), "<unknown: %#x>", 9952c23cb7cSEd Maste stype); 9962c23cb7cSEd Maste return (s_stype); 9972c23cb7cSEd Maste } 9982c23cb7cSEd Maste } 9992c23cb7cSEd Maste 10002c23cb7cSEd Maste static const char * 10012c23cb7cSEd Maste st_vis(unsigned int svis) 10022c23cb7cSEd Maste { 10032c23cb7cSEd Maste static char s_svis[32]; 10042c23cb7cSEd Maste 10052c23cb7cSEd Maste switch(svis) { 10062c23cb7cSEd Maste case STV_DEFAULT: return "DEFAULT"; 10072c23cb7cSEd Maste case STV_INTERNAL: return "INTERNAL"; 10082c23cb7cSEd Maste case STV_HIDDEN: return "HIDDEN"; 10092c23cb7cSEd Maste case STV_PROTECTED: return "PROTECTED"; 10102c23cb7cSEd Maste default: 10112c23cb7cSEd Maste snprintf(s_svis, sizeof(s_svis), "<unknown: %#x>", svis); 10122c23cb7cSEd Maste return (s_svis); 10132c23cb7cSEd Maste } 10142c23cb7cSEd Maste } 10152c23cb7cSEd Maste 10162c23cb7cSEd Maste static const char * 10172c23cb7cSEd Maste st_shndx(unsigned int shndx) 10182c23cb7cSEd Maste { 10192c23cb7cSEd Maste static char s_shndx[32]; 10202c23cb7cSEd Maste 10212c23cb7cSEd Maste switch (shndx) { 10222c23cb7cSEd Maste case SHN_UNDEF: return "UND"; 10232c23cb7cSEd Maste case SHN_ABS: return "ABS"; 10242c23cb7cSEd Maste case SHN_COMMON: return "COM"; 10252c23cb7cSEd Maste default: 10262c23cb7cSEd Maste if (shndx >= SHN_LOPROC && shndx <= SHN_HIPROC) 10272c23cb7cSEd Maste return "PRC"; 10282c23cb7cSEd Maste else if (shndx >= SHN_LOOS && shndx <= SHN_HIOS) 10292c23cb7cSEd Maste return "OS"; 10302c23cb7cSEd Maste else 10312c23cb7cSEd Maste snprintf(s_shndx, sizeof(s_shndx), "%u", shndx); 10322c23cb7cSEd Maste return (s_shndx); 10332c23cb7cSEd Maste } 10342c23cb7cSEd Maste } 10352c23cb7cSEd Maste 10362c23cb7cSEd Maste static struct { 10372c23cb7cSEd Maste const char *ln; 10382c23cb7cSEd Maste char sn; 10392c23cb7cSEd Maste int value; 10402c23cb7cSEd Maste } section_flag[] = { 10412c23cb7cSEd Maste {"WRITE", 'W', SHF_WRITE}, 10422c23cb7cSEd Maste {"ALLOC", 'A', SHF_ALLOC}, 10432c23cb7cSEd Maste {"EXEC", 'X', SHF_EXECINSTR}, 10442c23cb7cSEd Maste {"MERGE", 'M', SHF_MERGE}, 10452c23cb7cSEd Maste {"STRINGS", 'S', SHF_STRINGS}, 10462c23cb7cSEd Maste {"INFO LINK", 'I', SHF_INFO_LINK}, 10472c23cb7cSEd Maste {"OS NONCONF", 'O', SHF_OS_NONCONFORMING}, 10482c23cb7cSEd Maste {"GROUP", 'G', SHF_GROUP}, 10492c23cb7cSEd Maste {"TLS", 'T', SHF_TLS}, 10502c23cb7cSEd Maste {NULL, 0, 0} 10512c23cb7cSEd Maste }; 10522c23cb7cSEd Maste 10532c23cb7cSEd Maste static const char * 10542c23cb7cSEd Maste r_type(unsigned int mach, unsigned int type) 10552c23cb7cSEd Maste { 10562c23cb7cSEd Maste switch(mach) { 10572c23cb7cSEd Maste case EM_NONE: return ""; 10582c23cb7cSEd Maste case EM_386: 10593ef90571SEd Maste case EM_IAMCU: 10602c23cb7cSEd Maste switch(type) { 10612c23cb7cSEd Maste case 0: return "R_386_NONE"; 10622c23cb7cSEd Maste case 1: return "R_386_32"; 10632c23cb7cSEd Maste case 2: return "R_386_PC32"; 10642c23cb7cSEd Maste case 3: return "R_386_GOT32"; 10652c23cb7cSEd Maste case 4: return "R_386_PLT32"; 10662c23cb7cSEd Maste case 5: return "R_386_COPY"; 10672c23cb7cSEd Maste case 6: return "R_386_GLOB_DAT"; 10682c23cb7cSEd Maste case 7: return "R_386_JMP_SLOT"; 10692c23cb7cSEd Maste case 8: return "R_386_RELATIVE"; 10702c23cb7cSEd Maste case 9: return "R_386_GOTOFF"; 10712c23cb7cSEd Maste case 10: return "R_386_GOTPC"; 10722c23cb7cSEd Maste case 14: return "R_386_TLS_TPOFF"; 10732c23cb7cSEd Maste case 15: return "R_386_TLS_IE"; 10742c23cb7cSEd Maste case 16: return "R_386_TLS_GOTIE"; 10752c23cb7cSEd Maste case 17: return "R_386_TLS_LE"; 10762c23cb7cSEd Maste case 18: return "R_386_TLS_GD"; 10772c23cb7cSEd Maste case 19: return "R_386_TLS_LDM"; 10782c23cb7cSEd Maste case 24: return "R_386_TLS_GD_32"; 10792c23cb7cSEd Maste case 25: return "R_386_TLS_GD_PUSH"; 10802c23cb7cSEd Maste case 26: return "R_386_TLS_GD_CALL"; 10812c23cb7cSEd Maste case 27: return "R_386_TLS_GD_POP"; 10822c23cb7cSEd Maste case 28: return "R_386_TLS_LDM_32"; 10832c23cb7cSEd Maste case 29: return "R_386_TLS_LDM_PUSH"; 10842c23cb7cSEd Maste case 30: return "R_386_TLS_LDM_CALL"; 10852c23cb7cSEd Maste case 31: return "R_386_TLS_LDM_POP"; 10862c23cb7cSEd Maste case 32: return "R_386_TLS_LDO_32"; 10872c23cb7cSEd Maste case 33: return "R_386_TLS_IE_32"; 10882c23cb7cSEd Maste case 34: return "R_386_TLS_LE_32"; 10892c23cb7cSEd Maste case 35: return "R_386_TLS_DTPMOD32"; 10902c23cb7cSEd Maste case 36: return "R_386_TLS_DTPOFF32"; 10912c23cb7cSEd Maste case 37: return "R_386_TLS_TPOFF32"; 10922c23cb7cSEd Maste default: return ""; 10932c23cb7cSEd Maste } 1094b3f26809SEd Maste case EM_AARCH64: 1095b3f26809SEd Maste switch(type) { 1096b3f26809SEd Maste case 0: return "R_AARCH64_NONE"; 1097b3f26809SEd Maste case 257: return "R_AARCH64_ABS64"; 1098b3f26809SEd Maste case 258: return "R_AARCH64_ABS32"; 1099b3f26809SEd Maste case 259: return "R_AARCH64_ABS16"; 1100b3f26809SEd Maste case 260: return "R_AARCH64_PREL64"; 1101b3f26809SEd Maste case 261: return "R_AARCH64_PREL32"; 1102b3f26809SEd Maste case 262: return "R_AARCH64_PREL16"; 1103b3f26809SEd Maste case 263: return "R_AARCH64_MOVW_UABS_G0"; 1104b3f26809SEd Maste case 264: return "R_AARCH64_MOVW_UABS_G0_NC"; 1105b3f26809SEd Maste case 265: return "R_AARCH64_MOVW_UABS_G1"; 1106b3f26809SEd Maste case 266: return "R_AARCH64_MOVW_UABS_G1_NC"; 1107b3f26809SEd Maste case 267: return "R_AARCH64_MOVW_UABS_G2"; 1108b3f26809SEd Maste case 268: return "R_AARCH64_MOVW_UABS_G2_NC"; 1109b3f26809SEd Maste case 269: return "R_AARCH64_MOVW_UABS_G3"; 1110b3f26809SEd Maste case 270: return "R_AARCH64_MOVW_SABS_G0"; 1111b3f26809SEd Maste case 271: return "R_AARCH64_MOVW_SABS_G1"; 1112b3f26809SEd Maste case 272: return "R_AARCH64_MOVW_SABS_G2"; 1113b3f26809SEd Maste case 273: return "R_AARCH64_LD_PREL_LO19"; 1114b3f26809SEd Maste case 274: return "R_AARCH64_ADR_PREL_LO21"; 1115b3f26809SEd Maste case 275: return "R_AARCH64_ADR_PREL_PG_HI21"; 1116b3f26809SEd Maste case 276: return "R_AARCH64_ADR_PREL_PG_HI21_NC"; 1117b3f26809SEd Maste case 277: return "R_AARCH64_ADD_ABS_LO12_NC"; 1118b3f26809SEd Maste case 278: return "R_AARCH64_LDST8_ABS_LO12_NC"; 1119b3f26809SEd Maste case 279: return "R_AARCH64_TSTBR14"; 1120b3f26809SEd Maste case 280: return "R_AARCH64_CONDBR19"; 1121b3f26809SEd Maste case 282: return "R_AARCH64_JUMP26"; 1122b3f26809SEd Maste case 283: return "R_AARCH64_CALL26"; 1123b3f26809SEd Maste case 284: return "R_AARCH64_LDST16_ABS_LO12_NC"; 1124b3f26809SEd Maste case 285: return "R_AARCH64_LDST32_ABS_LO12_NC"; 1125b3f26809SEd Maste case 286: return "R_AARCH64_LDST64_ABS_LO12_NC"; 1126b3f26809SEd Maste case 287: return "R_AARCH64_MOVW_PREL_G0"; 1127b3f26809SEd Maste case 288: return "R_AARCH64_MOVW_PREL_G0_NC"; 1128b3f26809SEd Maste case 289: return "R_AARCH64_MOVW_PREL_G1"; 1129b3f26809SEd Maste case 290: return "R_AARCH64_MOVW_PREL_G1_NC"; 1130b3f26809SEd Maste case 291: return "R_AARCH64_MOVW_PREL_G2"; 1131b3f26809SEd Maste case 292: return "R_AARCH64_MOVW_PREL_G2_NC"; 1132b3f26809SEd Maste case 293: return "R_AARCH64_MOVW_PREL_G3"; 1133b3f26809SEd Maste case 299: return "R_AARCH64_LDST128_ABS_LO12_NC"; 1134b3f26809SEd Maste case 300: return "R_AARCH64_MOVW_GOTOFF_G0"; 1135b3f26809SEd Maste case 301: return "R_AARCH64_MOVW_GOTOFF_G0_NC"; 1136b3f26809SEd Maste case 302: return "R_AARCH64_MOVW_GOTOFF_G1"; 1137b3f26809SEd Maste case 303: return "R_AARCH64_MOVW_GOTOFF_G1_NC"; 1138b3f26809SEd Maste case 304: return "R_AARCH64_MOVW_GOTOFF_G2"; 1139b3f26809SEd Maste case 305: return "R_AARCH64_MOVW_GOTOFF_G2_NC"; 1140b3f26809SEd Maste case 306: return "R_AARCH64_MOVW_GOTOFF_G3"; 1141b3f26809SEd Maste case 307: return "R_AARCH64_GOTREL64"; 1142b3f26809SEd Maste case 308: return "R_AARCH64_GOTREL32"; 1143b3f26809SEd Maste case 309: return "R_AARCH64_GOT_LD_PREL19"; 1144b3f26809SEd Maste case 310: return "R_AARCH64_LD64_GOTOFF_LO15"; 1145b3f26809SEd Maste case 311: return "R_AARCH64_ADR_GOT_PAGE"; 1146b3f26809SEd Maste case 312: return "R_AARCH64_LD64_GOT_LO12_NC"; 1147b3f26809SEd Maste case 313: return "R_AARCH64_LD64_GOTPAGE_LO15"; 1148b3f26809SEd Maste case 1024: return "R_AARCH64_COPY"; 1149b3f26809SEd Maste case 1025: return "R_AARCH64_GLOB_DAT"; 1150b3f26809SEd Maste case 1026: return "R_AARCH64_JUMP_SLOT"; 1151b3f26809SEd Maste case 1027: return "R_AARCH64_RELATIVE"; 115267d97fe7SEd Maste case 1028: return "R_AARCH64_TLS_DTPREL64"; 115367d97fe7SEd Maste case 1029: return "R_AARCH64_TLS_DTPMOD64"; 115467d97fe7SEd Maste case 1030: return "R_AARCH64_TLS_TPREL64"; 1155b3f26809SEd Maste case 1031: return "R_AARCH64_TLSDESC"; 115667d97fe7SEd Maste case 1032: return "R_AARCH64_IRELATIVE"; 1157b3f26809SEd Maste default: return ""; 1158b3f26809SEd Maste } 11592c23cb7cSEd Maste case EM_ARM: 11602c23cb7cSEd Maste switch(type) { 11612c23cb7cSEd Maste case 0: return "R_ARM_NONE"; 11622c23cb7cSEd Maste case 1: return "R_ARM_PC24"; 11632c23cb7cSEd Maste case 2: return "R_ARM_ABS32"; 11642c23cb7cSEd Maste case 3: return "R_ARM_REL32"; 11652c23cb7cSEd Maste case 4: return "R_ARM_PC13"; 11662c23cb7cSEd Maste case 5: return "R_ARM_ABS16"; 11672c23cb7cSEd Maste case 6: return "R_ARM_ABS12"; 11682c23cb7cSEd Maste case 7: return "R_ARM_THM_ABS5"; 11692c23cb7cSEd Maste case 8: return "R_ARM_ABS8"; 11702c23cb7cSEd Maste case 9: return "R_ARM_SBREL32"; 11712c23cb7cSEd Maste case 10: return "R_ARM_THM_PC22"; 11722c23cb7cSEd Maste case 11: return "R_ARM_THM_PC8"; 11732c23cb7cSEd Maste case 12: return "R_ARM_AMP_VCALL9"; 1174*95fd7f26SEd Maste case 13: return "R_ARM_TLS_DESC"; 1175*95fd7f26SEd Maste /* Obsolete R_ARM_SWI24 is also 13 */ 11762c23cb7cSEd Maste case 14: return "R_ARM_THM_SWI8"; 11772c23cb7cSEd Maste case 15: return "R_ARM_XPC25"; 11782c23cb7cSEd Maste case 16: return "R_ARM_THM_XPC22"; 1179*95fd7f26SEd Maste case 17: return "R_ARM_TLS_DTPMOD32"; 1180*95fd7f26SEd Maste case 18: return "R_ARM_TLS_DTPOFF32"; 1181*95fd7f26SEd Maste case 19: return "R_ARM_TLS_TPOFF32"; 11822c23cb7cSEd Maste case 20: return "R_ARM_COPY"; 11832c23cb7cSEd Maste case 21: return "R_ARM_GLOB_DAT"; 11842c23cb7cSEd Maste case 22: return "R_ARM_JUMP_SLOT"; 11852c23cb7cSEd Maste case 23: return "R_ARM_RELATIVE"; 11862c23cb7cSEd Maste case 24: return "R_ARM_GOTOFF"; 11872c23cb7cSEd Maste case 25: return "R_ARM_GOTPC"; 11882c23cb7cSEd Maste case 26: return "R_ARM_GOT32"; 11892c23cb7cSEd Maste case 27: return "R_ARM_PLT32"; 1190*95fd7f26SEd Maste case 28: return "R_ARM_CALL"; 1191*95fd7f26SEd Maste case 29: return "R_ARM_JUMP24"; 1192*95fd7f26SEd Maste case 30: return "R_ARM_THM_JUMP24"; 1193*95fd7f26SEd Maste case 31: return "R_ARM_BASE_ABS"; 1194*95fd7f26SEd Maste case 38: return "R_ARM_TARGET1"; 1195*95fd7f26SEd Maste case 40: return "R_ARM_V4BX"; 1196*95fd7f26SEd Maste case 42: return "R_ARM_PREL31"; 1197*95fd7f26SEd Maste case 43: return "R_ARM_MOVW_ABS_NC"; 1198*95fd7f26SEd Maste case 44: return "R_ARM_MOVT_ABS"; 1199*95fd7f26SEd Maste case 45: return "R_ARM_MOVW_PREL_NC"; 1200*95fd7f26SEd Maste case 46: return "R_ARM_MOVT_PREL"; 12012c23cb7cSEd Maste case 100: return "R_ARM_GNU_VTENTRY"; 12022c23cb7cSEd Maste case 101: return "R_ARM_GNU_VTINHERIT"; 12032c23cb7cSEd Maste case 250: return "R_ARM_RSBREL32"; 12042c23cb7cSEd Maste case 251: return "R_ARM_THM_RPC22"; 12052c23cb7cSEd Maste case 252: return "R_ARM_RREL32"; 12062c23cb7cSEd Maste case 253: return "R_ARM_RABS32"; 12072c23cb7cSEd Maste case 254: return "R_ARM_RPC24"; 12082c23cb7cSEd Maste case 255: return "R_ARM_RBASE"; 12092c23cb7cSEd Maste default: return ""; 12102c23cb7cSEd Maste } 12112c23cb7cSEd Maste case EM_IA_64: 12122c23cb7cSEd Maste switch(type) { 12132c23cb7cSEd Maste case 0: return "R_IA_64_NONE"; 12142c23cb7cSEd Maste case 33: return "R_IA_64_IMM14"; 12152c23cb7cSEd Maste case 34: return "R_IA_64_IMM22"; 12162c23cb7cSEd Maste case 35: return "R_IA_64_IMM64"; 12172c23cb7cSEd Maste case 36: return "R_IA_64_DIR32MSB"; 12182c23cb7cSEd Maste case 37: return "R_IA_64_DIR32LSB"; 12192c23cb7cSEd Maste case 38: return "R_IA_64_DIR64MSB"; 12202c23cb7cSEd Maste case 39: return "R_IA_64_DIR64LSB"; 12212c23cb7cSEd Maste case 42: return "R_IA_64_GPREL22"; 12222c23cb7cSEd Maste case 43: return "R_IA_64_GPREL64I"; 12232c23cb7cSEd Maste case 44: return "R_IA_64_GPREL32MSB"; 12242c23cb7cSEd Maste case 45: return "R_IA_64_GPREL32LSB"; 12252c23cb7cSEd Maste case 46: return "R_IA_64_GPREL64MSB"; 12262c23cb7cSEd Maste case 47: return "R_IA_64_GPREL64LSB"; 12272c23cb7cSEd Maste case 50: return "R_IA_64_LTOFF22"; 12282c23cb7cSEd Maste case 51: return "R_IA_64_LTOFF64I"; 12292c23cb7cSEd Maste case 58: return "R_IA_64_PLTOFF22"; 12302c23cb7cSEd Maste case 59: return "R_IA_64_PLTOFF64I"; 12312c23cb7cSEd Maste case 62: return "R_IA_64_PLTOFF64MSB"; 12322c23cb7cSEd Maste case 63: return "R_IA_64_PLTOFF64LSB"; 12332c23cb7cSEd Maste case 67: return "R_IA_64_FPTR64I"; 12342c23cb7cSEd Maste case 68: return "R_IA_64_FPTR32MSB"; 12352c23cb7cSEd Maste case 69: return "R_IA_64_FPTR32LSB"; 12362c23cb7cSEd Maste case 70: return "R_IA_64_FPTR64MSB"; 12372c23cb7cSEd Maste case 71: return "R_IA_64_FPTR64LSB"; 12382c23cb7cSEd Maste case 72: return "R_IA_64_PCREL60B"; 12392c23cb7cSEd Maste case 73: return "R_IA_64_PCREL21B"; 12402c23cb7cSEd Maste case 74: return "R_IA_64_PCREL21M"; 12412c23cb7cSEd Maste case 75: return "R_IA_64_PCREL21F"; 12422c23cb7cSEd Maste case 76: return "R_IA_64_PCREL32MSB"; 12432c23cb7cSEd Maste case 77: return "R_IA_64_PCREL32LSB"; 12442c23cb7cSEd Maste case 78: return "R_IA_64_PCREL64MSB"; 12452c23cb7cSEd Maste case 79: return "R_IA_64_PCREL64LSB"; 12462c23cb7cSEd Maste case 82: return "R_IA_64_LTOFF_FPTR22"; 12472c23cb7cSEd Maste case 83: return "R_IA_64_LTOFF_FPTR64I"; 12482c23cb7cSEd Maste case 84: return "R_IA_64_LTOFF_FPTR32MSB"; 12492c23cb7cSEd Maste case 85: return "R_IA_64_LTOFF_FPTR32LSB"; 12502c23cb7cSEd Maste case 86: return "R_IA_64_LTOFF_FPTR64MSB"; 12512c23cb7cSEd Maste case 87: return "R_IA_64_LTOFF_FPTR64LSB"; 12522c23cb7cSEd Maste case 92: return "R_IA_64_SEGREL32MSB"; 12532c23cb7cSEd Maste case 93: return "R_IA_64_SEGREL32LSB"; 12542c23cb7cSEd Maste case 94: return "R_IA_64_SEGREL64MSB"; 12552c23cb7cSEd Maste case 95: return "R_IA_64_SEGREL64LSB"; 12562c23cb7cSEd Maste case 100: return "R_IA_64_SECREL32MSB"; 12572c23cb7cSEd Maste case 101: return "R_IA_64_SECREL32LSB"; 12582c23cb7cSEd Maste case 102: return "R_IA_64_SECREL64MSB"; 12592c23cb7cSEd Maste case 103: return "R_IA_64_SECREL64LSB"; 12602c23cb7cSEd Maste case 108: return "R_IA_64_REL32MSB"; 12612c23cb7cSEd Maste case 109: return "R_IA_64_REL32LSB"; 12622c23cb7cSEd Maste case 110: return "R_IA_64_REL64MSB"; 12632c23cb7cSEd Maste case 111: return "R_IA_64_REL64LSB"; 12642c23cb7cSEd Maste case 116: return "R_IA_64_LTV32MSB"; 12652c23cb7cSEd Maste case 117: return "R_IA_64_LTV32LSB"; 12662c23cb7cSEd Maste case 118: return "R_IA_64_LTV64MSB"; 12672c23cb7cSEd Maste case 119: return "R_IA_64_LTV64LSB"; 12682c23cb7cSEd Maste case 121: return "R_IA_64_PCREL21BI"; 12692c23cb7cSEd Maste case 122: return "R_IA_64_PCREL22"; 12702c23cb7cSEd Maste case 123: return "R_IA_64_PCREL64I"; 12712c23cb7cSEd Maste case 128: return "R_IA_64_IPLTMSB"; 12722c23cb7cSEd Maste case 129: return "R_IA_64_IPLTLSB"; 12732c23cb7cSEd Maste case 133: return "R_IA_64_SUB"; 12742c23cb7cSEd Maste case 134: return "R_IA_64_LTOFF22X"; 12752c23cb7cSEd Maste case 135: return "R_IA_64_LDXMOV"; 12762c23cb7cSEd Maste case 145: return "R_IA_64_TPREL14"; 12772c23cb7cSEd Maste case 146: return "R_IA_64_TPREL22"; 12782c23cb7cSEd Maste case 147: return "R_IA_64_TPREL64I"; 12792c23cb7cSEd Maste case 150: return "R_IA_64_TPREL64MSB"; 12802c23cb7cSEd Maste case 151: return "R_IA_64_TPREL64LSB"; 12812c23cb7cSEd Maste case 154: return "R_IA_64_LTOFF_TPREL22"; 12822c23cb7cSEd Maste case 166: return "R_IA_64_DTPMOD64MSB"; 12832c23cb7cSEd Maste case 167: return "R_IA_64_DTPMOD64LSB"; 12842c23cb7cSEd Maste case 170: return "R_IA_64_LTOFF_DTPMOD22"; 12852c23cb7cSEd Maste case 177: return "R_IA_64_DTPREL14"; 12862c23cb7cSEd Maste case 178: return "R_IA_64_DTPREL22"; 12872c23cb7cSEd Maste case 179: return "R_IA_64_DTPREL64I"; 12882c23cb7cSEd Maste case 180: return "R_IA_64_DTPREL32MSB"; 12892c23cb7cSEd Maste case 181: return "R_IA_64_DTPREL32LSB"; 12902c23cb7cSEd Maste case 182: return "R_IA_64_DTPREL64MSB"; 12912c23cb7cSEd Maste case 183: return "R_IA_64_DTPREL64LSB"; 12922c23cb7cSEd Maste case 186: return "R_IA_64_LTOFF_DTPREL22"; 12932c23cb7cSEd Maste default: return ""; 12942c23cb7cSEd Maste } 12952c23cb7cSEd Maste case EM_MIPS: 12962c23cb7cSEd Maste switch(type) { 12972c23cb7cSEd Maste case 0: return "R_MIPS_NONE"; 12982c23cb7cSEd Maste case 1: return "R_MIPS_16"; 12992c23cb7cSEd Maste case 2: return "R_MIPS_32"; 13002c23cb7cSEd Maste case 3: return "R_MIPS_REL32"; 13012c23cb7cSEd Maste case 4: return "R_MIPS_26"; 13022c23cb7cSEd Maste case 5: return "R_MIPS_HI16"; 13032c23cb7cSEd Maste case 6: return "R_MIPS_LO16"; 13042c23cb7cSEd Maste case 7: return "R_MIPS_GPREL16"; 13052c23cb7cSEd Maste case 8: return "R_MIPS_LITERAL"; 13062c23cb7cSEd Maste case 9: return "R_MIPS_GOT16"; 13072c23cb7cSEd Maste case 10: return "R_MIPS_PC16"; 13082c23cb7cSEd Maste case 11: return "R_MIPS_CALL16"; 13092c23cb7cSEd Maste case 12: return "R_MIPS_GPREL32"; 13102c23cb7cSEd Maste case 21: return "R_MIPS_GOTHI16"; 13112c23cb7cSEd Maste case 22: return "R_MIPS_GOTLO16"; 13122c23cb7cSEd Maste case 30: return "R_MIPS_CALLHI16"; 13132c23cb7cSEd Maste case 31: return "R_MIPS_CALLLO16"; 1314da1cc412SAlexander Kabaev case 38: return "R_MIPS_TLS_DTPMOD32"; 1315da1cc412SAlexander Kabaev case 39: return "R_MIPS_TLS_DTPREL32"; 1316da1cc412SAlexander Kabaev case 40: return "R_MIPS_TLS_DTPMOD64"; 1317da1cc412SAlexander Kabaev case 41: return "R_MIPS_TLS_DTPREL64"; 1318da1cc412SAlexander Kabaev case 42: return "R_MIPS_TLS_GD"; 1319da1cc412SAlexander Kabaev case 43: return "R_MIPS_TLS_LDM"; 1320da1cc412SAlexander Kabaev case 44: return "R_MIPS_TLS_DTPREL_HI16"; 1321da1cc412SAlexander Kabaev case 45: return "R_MIPS_TLS_DTPREL_LO16"; 1322da1cc412SAlexander Kabaev case 46: return "R_MIPS_TLS_GOTTPREL"; 1323da1cc412SAlexander Kabaev case 47: return "R_MIPS_TLS_TPREL32"; 1324da1cc412SAlexander Kabaev case 48: return "R_MIPS_TLS_TPREL64"; 1325da1cc412SAlexander Kabaev case 49: return "R_MIPS_TLS_TPREL_HI16"; 1326da1cc412SAlexander Kabaev case 50: return "R_MIPS_TLS_TPREL_LO16"; 1327da1cc412SAlexander Kabaev 13282c23cb7cSEd Maste default: return ""; 13292c23cb7cSEd Maste } 13302c23cb7cSEd Maste case EM_PPC: 13312c23cb7cSEd Maste switch(type) { 13322c23cb7cSEd Maste case 0: return "R_PPC_NONE"; 13332c23cb7cSEd Maste case 1: return "R_PPC_ADDR32"; 13342c23cb7cSEd Maste case 2: return "R_PPC_ADDR24"; 13352c23cb7cSEd Maste case 3: return "R_PPC_ADDR16"; 13362c23cb7cSEd Maste case 4: return "R_PPC_ADDR16_LO"; 13372c23cb7cSEd Maste case 5: return "R_PPC_ADDR16_HI"; 13382c23cb7cSEd Maste case 6: return "R_PPC_ADDR16_HA"; 13392c23cb7cSEd Maste case 7: return "R_PPC_ADDR14"; 13402c23cb7cSEd Maste case 8: return "R_PPC_ADDR14_BRTAKEN"; 13412c23cb7cSEd Maste case 9: return "R_PPC_ADDR14_BRNTAKEN"; 13422c23cb7cSEd Maste case 10: return "R_PPC_REL24"; 13432c23cb7cSEd Maste case 11: return "R_PPC_REL14"; 13442c23cb7cSEd Maste case 12: return "R_PPC_REL14_BRTAKEN"; 13452c23cb7cSEd Maste case 13: return "R_PPC_REL14_BRNTAKEN"; 13462c23cb7cSEd Maste case 14: return "R_PPC_GOT16"; 13472c23cb7cSEd Maste case 15: return "R_PPC_GOT16_LO"; 13482c23cb7cSEd Maste case 16: return "R_PPC_GOT16_HI"; 13492c23cb7cSEd Maste case 17: return "R_PPC_GOT16_HA"; 13502c23cb7cSEd Maste case 18: return "R_PPC_PLTREL24"; 13512c23cb7cSEd Maste case 19: return "R_PPC_COPY"; 13522c23cb7cSEd Maste case 20: return "R_PPC_GLOB_DAT"; 13532c23cb7cSEd Maste case 21: return "R_PPC_JMP_SLOT"; 13542c23cb7cSEd Maste case 22: return "R_PPC_RELATIVE"; 13552c23cb7cSEd Maste case 23: return "R_PPC_LOCAL24PC"; 13562c23cb7cSEd Maste case 24: return "R_PPC_UADDR32"; 13572c23cb7cSEd Maste case 25: return "R_PPC_UADDR16"; 13582c23cb7cSEd Maste case 26: return "R_PPC_REL32"; 13592c23cb7cSEd Maste case 27: return "R_PPC_PLT32"; 13602c23cb7cSEd Maste case 28: return "R_PPC_PLTREL32"; 13612c23cb7cSEd Maste case 29: return "R_PPC_PLT16_LO"; 13622c23cb7cSEd Maste case 30: return "R_PPC_PLT16_HI"; 13632c23cb7cSEd Maste case 31: return "R_PPC_PLT16_HA"; 13642c23cb7cSEd Maste case 32: return "R_PPC_SDAREL16"; 13652c23cb7cSEd Maste case 33: return "R_PPC_SECTOFF"; 13662c23cb7cSEd Maste case 34: return "R_PPC_SECTOFF_LO"; 13672c23cb7cSEd Maste case 35: return "R_PPC_SECTOFF_HI"; 13682c23cb7cSEd Maste case 36: return "R_PPC_SECTOFF_HA"; 13692c23cb7cSEd Maste case 67: return "R_PPC_TLS"; 13702c23cb7cSEd Maste case 68: return "R_PPC_DTPMOD32"; 13712c23cb7cSEd Maste case 69: return "R_PPC_TPREL16"; 13722c23cb7cSEd Maste case 70: return "R_PPC_TPREL16_LO"; 13732c23cb7cSEd Maste case 71: return "R_PPC_TPREL16_HI"; 13742c23cb7cSEd Maste case 72: return "R_PPC_TPREL16_HA"; 13752c23cb7cSEd Maste case 73: return "R_PPC_TPREL32"; 13762c23cb7cSEd Maste case 74: return "R_PPC_DTPREL16"; 13772c23cb7cSEd Maste case 75: return "R_PPC_DTPREL16_LO"; 13782c23cb7cSEd Maste case 76: return "R_PPC_DTPREL16_HI"; 13792c23cb7cSEd Maste case 77: return "R_PPC_DTPREL16_HA"; 13802c23cb7cSEd Maste case 78: return "R_PPC_DTPREL32"; 13812c23cb7cSEd Maste case 79: return "R_PPC_GOT_TLSGD16"; 13822c23cb7cSEd Maste case 80: return "R_PPC_GOT_TLSGD16_LO"; 13832c23cb7cSEd Maste case 81: return "R_PPC_GOT_TLSGD16_HI"; 13842c23cb7cSEd Maste case 82: return "R_PPC_GOT_TLSGD16_HA"; 13852c23cb7cSEd Maste case 83: return "R_PPC_GOT_TLSLD16"; 13862c23cb7cSEd Maste case 84: return "R_PPC_GOT_TLSLD16_LO"; 13872c23cb7cSEd Maste case 85: return "R_PPC_GOT_TLSLD16_HI"; 13882c23cb7cSEd Maste case 86: return "R_PPC_GOT_TLSLD16_HA"; 13892c23cb7cSEd Maste case 87: return "R_PPC_GOT_TPREL16"; 13902c23cb7cSEd Maste case 88: return "R_PPC_GOT_TPREL16_LO"; 13912c23cb7cSEd Maste case 89: return "R_PPC_GOT_TPREL16_HI"; 13922c23cb7cSEd Maste case 90: return "R_PPC_GOT_TPREL16_HA"; 13932c23cb7cSEd Maste case 101: return "R_PPC_EMB_NADDR32"; 13942c23cb7cSEd Maste case 102: return "R_PPC_EMB_NADDR16"; 13952c23cb7cSEd Maste case 103: return "R_PPC_EMB_NADDR16_LO"; 13962c23cb7cSEd Maste case 104: return "R_PPC_EMB_NADDR16_HI"; 13972c23cb7cSEd Maste case 105: return "R_PPC_EMB_NADDR16_HA"; 13982c23cb7cSEd Maste case 106: return "R_PPC_EMB_SDAI16"; 13992c23cb7cSEd Maste case 107: return "R_PPC_EMB_SDA2I16"; 14002c23cb7cSEd Maste case 108: return "R_PPC_EMB_SDA2REL"; 14012c23cb7cSEd Maste case 109: return "R_PPC_EMB_SDA21"; 14022c23cb7cSEd Maste case 110: return "R_PPC_EMB_MRKREF"; 14032c23cb7cSEd Maste case 111: return "R_PPC_EMB_RELSEC16"; 14042c23cb7cSEd Maste case 112: return "R_PPC_EMB_RELST_LO"; 14052c23cb7cSEd Maste case 113: return "R_PPC_EMB_RELST_HI"; 14062c23cb7cSEd Maste case 114: return "R_PPC_EMB_RELST_HA"; 14072c23cb7cSEd Maste case 115: return "R_PPC_EMB_BIT_FLD"; 14082c23cb7cSEd Maste case 116: return "R_PPC_EMB_RELSDA"; 14092c23cb7cSEd Maste default: return ""; 14102c23cb7cSEd Maste } 1411656f49f8SEd Maste case EM_RISCV: 1412656f49f8SEd Maste switch(type) { 1413656f49f8SEd Maste case 0: return "R_RISCV_NONE"; 1414656f49f8SEd Maste case 1: return "R_RISCV_32"; 1415656f49f8SEd Maste case 2: return "R_RISCV_64"; 1416656f49f8SEd Maste case 3: return "R_RISCV_RELATIVE"; 1417656f49f8SEd Maste case 4: return "R_RISCV_COPY"; 1418656f49f8SEd Maste case 5: return "R_RISCV_JUMP_SLOT"; 1419656f49f8SEd Maste case 6: return "R_RISCV_TLS_DTPMOD32"; 1420656f49f8SEd Maste case 7: return "R_RISCV_TLS_DTPMOD64"; 1421656f49f8SEd Maste case 8: return "R_RISCV_TLS_DTPREL32"; 1422656f49f8SEd Maste case 9: return "R_RISCV_TLS_DTPREL64"; 1423656f49f8SEd Maste case 10: return "R_RISCV_TLS_TPREL32"; 1424656f49f8SEd Maste case 11: return "R_RISCV_TLS_TPREL64"; 1425656f49f8SEd Maste case 16: return "R_RISCV_BRANCH"; 1426656f49f8SEd Maste case 17: return "R_RISCV_JAL"; 1427656f49f8SEd Maste case 18: return "R_RISCV_CALL"; 1428656f49f8SEd Maste case 19: return "R_RISCV_CALL_PLT"; 1429656f49f8SEd Maste case 20: return "R_RISCV_GOT_HI20"; 1430656f49f8SEd Maste case 21: return "R_RISCV_TLS_GOT_HI20"; 1431656f49f8SEd Maste case 22: return "R_RISCV_TLS_GD_HI20"; 1432656f49f8SEd Maste case 23: return "R_RISCV_PCREL_HI20"; 1433656f49f8SEd Maste case 24: return "R_RISCV_PCREL_LO12_I"; 1434656f49f8SEd Maste case 25: return "R_RISCV_PCREL_LO12_S"; 1435656f49f8SEd Maste case 26: return "R_RISCV_HI20"; 1436656f49f8SEd Maste case 27: return "R_RISCV_LO12_I"; 1437656f49f8SEd Maste case 28: return "R_RISCV_LO12_S"; 1438656f49f8SEd Maste case 29: return "R_RISCV_TPREL_HI20"; 1439656f49f8SEd Maste case 30: return "R_RISCV_TPREL_LO12_I"; 1440656f49f8SEd Maste case 31: return "R_RISCV_TPREL_LO12_S"; 1441656f49f8SEd Maste case 32: return "R_RISCV_TPREL_ADD"; 1442656f49f8SEd Maste case 33: return "R_RISCV_ADD8"; 1443656f49f8SEd Maste case 34: return "R_RISCV_ADD16"; 1444656f49f8SEd Maste case 35: return "R_RISCV_ADD32"; 1445656f49f8SEd Maste case 36: return "R_RISCV_ADD64"; 1446656f49f8SEd Maste case 37: return "R_RISCV_SUB8"; 1447656f49f8SEd Maste case 38: return "R_RISCV_SUB16"; 1448656f49f8SEd Maste case 39: return "R_RISCV_SUB32"; 1449656f49f8SEd Maste case 40: return "R_RISCV_SUB64"; 1450656f49f8SEd Maste case 41: return "R_RISCV_GNU_VTINHERIT"; 1451656f49f8SEd Maste case 42: return "R_RISCV_GNU_VTENTRY"; 1452656f49f8SEd Maste case 43: return "R_RISCV_ALIGN"; 1453656f49f8SEd Maste case 44: return "R_RISCV_RVC_BRANCH"; 1454656f49f8SEd Maste case 45: return "R_RISCV_RVC_JUMP"; 1455656f49f8SEd Maste } 14562c23cb7cSEd Maste case EM_SPARC: 14572c23cb7cSEd Maste case EM_SPARCV9: 14582c23cb7cSEd Maste switch(type) { 14592c23cb7cSEd Maste case 0: return "R_SPARC_NONE"; 14602c23cb7cSEd Maste case 1: return "R_SPARC_8"; 14612c23cb7cSEd Maste case 2: return "R_SPARC_16"; 14622c23cb7cSEd Maste case 3: return "R_SPARC_32"; 14632c23cb7cSEd Maste case 4: return "R_SPARC_DISP8"; 14642c23cb7cSEd Maste case 5: return "R_SPARC_DISP16"; 14652c23cb7cSEd Maste case 6: return "R_SPARC_DISP32"; 14662c23cb7cSEd Maste case 7: return "R_SPARC_WDISP30"; 14672c23cb7cSEd Maste case 8: return "R_SPARC_WDISP22"; 14682c23cb7cSEd Maste case 9: return "R_SPARC_HI22"; 14692c23cb7cSEd Maste case 10: return "R_SPARC_22"; 14702c23cb7cSEd Maste case 11: return "R_SPARC_13"; 14712c23cb7cSEd Maste case 12: return "R_SPARC_LO10"; 14722c23cb7cSEd Maste case 13: return "R_SPARC_GOT10"; 14732c23cb7cSEd Maste case 14: return "R_SPARC_GOT13"; 14742c23cb7cSEd Maste case 15: return "R_SPARC_GOT22"; 14752c23cb7cSEd Maste case 16: return "R_SPARC_PC10"; 14762c23cb7cSEd Maste case 17: return "R_SPARC_PC22"; 14772c23cb7cSEd Maste case 18: return "R_SPARC_WPLT30"; 14782c23cb7cSEd Maste case 19: return "R_SPARC_COPY"; 14792c23cb7cSEd Maste case 20: return "R_SPARC_GLOB_DAT"; 14802c23cb7cSEd Maste case 21: return "R_SPARC_JMP_SLOT"; 14812c23cb7cSEd Maste case 22: return "R_SPARC_RELATIVE"; 14822c23cb7cSEd Maste case 23: return "R_SPARC_UA32"; 14832c23cb7cSEd Maste case 24: return "R_SPARC_PLT32"; 14842c23cb7cSEd Maste case 25: return "R_SPARC_HIPLT22"; 14852c23cb7cSEd Maste case 26: return "R_SPARC_LOPLT10"; 14862c23cb7cSEd Maste case 27: return "R_SPARC_PCPLT32"; 14872c23cb7cSEd Maste case 28: return "R_SPARC_PCPLT22"; 14882c23cb7cSEd Maste case 29: return "R_SPARC_PCPLT10"; 14892c23cb7cSEd Maste case 30: return "R_SPARC_10"; 14902c23cb7cSEd Maste case 31: return "R_SPARC_11"; 14912c23cb7cSEd Maste case 32: return "R_SPARC_64"; 14922c23cb7cSEd Maste case 33: return "R_SPARC_OLO10"; 14932c23cb7cSEd Maste case 34: return "R_SPARC_HH22"; 14942c23cb7cSEd Maste case 35: return "R_SPARC_HM10"; 14952c23cb7cSEd Maste case 36: return "R_SPARC_LM22"; 14962c23cb7cSEd Maste case 37: return "R_SPARC_PC_HH22"; 14972c23cb7cSEd Maste case 38: return "R_SPARC_PC_HM10"; 14982c23cb7cSEd Maste case 39: return "R_SPARC_PC_LM22"; 14992c23cb7cSEd Maste case 40: return "R_SPARC_WDISP16"; 15002c23cb7cSEd Maste case 41: return "R_SPARC_WDISP19"; 15012c23cb7cSEd Maste case 42: return "R_SPARC_GLOB_JMP"; 15022c23cb7cSEd Maste case 43: return "R_SPARC_7"; 15032c23cb7cSEd Maste case 44: return "R_SPARC_5"; 15042c23cb7cSEd Maste case 45: return "R_SPARC_6"; 15052c23cb7cSEd Maste case 46: return "R_SPARC_DISP64"; 15062c23cb7cSEd Maste case 47: return "R_SPARC_PLT64"; 15072c23cb7cSEd Maste case 48: return "R_SPARC_HIX22"; 15082c23cb7cSEd Maste case 49: return "R_SPARC_LOX10"; 15092c23cb7cSEd Maste case 50: return "R_SPARC_H44"; 15102c23cb7cSEd Maste case 51: return "R_SPARC_M44"; 15112c23cb7cSEd Maste case 52: return "R_SPARC_L44"; 15122c23cb7cSEd Maste case 53: return "R_SPARC_REGISTER"; 15132c23cb7cSEd Maste case 54: return "R_SPARC_UA64"; 15142c23cb7cSEd Maste case 55: return "R_SPARC_UA16"; 15152c23cb7cSEd Maste case 56: return "R_SPARC_TLS_GD_HI22"; 15162c23cb7cSEd Maste case 57: return "R_SPARC_TLS_GD_LO10"; 15172c23cb7cSEd Maste case 58: return "R_SPARC_TLS_GD_ADD"; 15182c23cb7cSEd Maste case 59: return "R_SPARC_TLS_GD_CALL"; 15192c23cb7cSEd Maste case 60: return "R_SPARC_TLS_LDM_HI22"; 15202c23cb7cSEd Maste case 61: return "R_SPARC_TLS_LDM_LO10"; 15212c23cb7cSEd Maste case 62: return "R_SPARC_TLS_LDM_ADD"; 15222c23cb7cSEd Maste case 63: return "R_SPARC_TLS_LDM_CALL"; 15232c23cb7cSEd Maste case 64: return "R_SPARC_TLS_LDO_HIX22"; 15242c23cb7cSEd Maste case 65: return "R_SPARC_TLS_LDO_LOX10"; 15252c23cb7cSEd Maste case 66: return "R_SPARC_TLS_LDO_ADD"; 15262c23cb7cSEd Maste case 67: return "R_SPARC_TLS_IE_HI22"; 15272c23cb7cSEd Maste case 68: return "R_SPARC_TLS_IE_LO10"; 15282c23cb7cSEd Maste case 69: return "R_SPARC_TLS_IE_LD"; 15292c23cb7cSEd Maste case 70: return "R_SPARC_TLS_IE_LDX"; 15302c23cb7cSEd Maste case 71: return "R_SPARC_TLS_IE_ADD"; 15312c23cb7cSEd Maste case 72: return "R_SPARC_TLS_LE_HIX22"; 15322c23cb7cSEd Maste case 73: return "R_SPARC_TLS_LE_LOX10"; 15332c23cb7cSEd Maste case 74: return "R_SPARC_TLS_DTPMOD32"; 15342c23cb7cSEd Maste case 75: return "R_SPARC_TLS_DTPMOD64"; 15352c23cb7cSEd Maste case 76: return "R_SPARC_TLS_DTPOFF32"; 15362c23cb7cSEd Maste case 77: return "R_SPARC_TLS_DTPOFF64"; 15372c23cb7cSEd Maste case 78: return "R_SPARC_TLS_TPOFF32"; 15382c23cb7cSEd Maste case 79: return "R_SPARC_TLS_TPOFF64"; 15392c23cb7cSEd Maste default: return ""; 15402c23cb7cSEd Maste } 15412c23cb7cSEd Maste case EM_X86_64: 15422c23cb7cSEd Maste switch(type) { 15432c23cb7cSEd Maste case 0: return "R_X86_64_NONE"; 15442c23cb7cSEd Maste case 1: return "R_X86_64_64"; 15452c23cb7cSEd Maste case 2: return "R_X86_64_PC32"; 15462c23cb7cSEd Maste case 3: return "R_X86_64_GOT32"; 15472c23cb7cSEd Maste case 4: return "R_X86_64_PLT32"; 15482c23cb7cSEd Maste case 5: return "R_X86_64_COPY"; 15492c23cb7cSEd Maste case 6: return "R_X86_64_GLOB_DAT"; 15502c23cb7cSEd Maste case 7: return "R_X86_64_JMP_SLOT"; 15512c23cb7cSEd Maste case 8: return "R_X86_64_RELATIVE"; 15522c23cb7cSEd Maste case 9: return "R_X86_64_GOTPCREL"; 15532c23cb7cSEd Maste case 10: return "R_X86_64_32"; 15542c23cb7cSEd Maste case 11: return "R_X86_64_32S"; 15552c23cb7cSEd Maste case 12: return "R_X86_64_16"; 15562c23cb7cSEd Maste case 13: return "R_X86_64_PC16"; 15572c23cb7cSEd Maste case 14: return "R_X86_64_8"; 15582c23cb7cSEd Maste case 15: return "R_X86_64_PC8"; 15592c23cb7cSEd Maste case 16: return "R_X86_64_DTPMOD64"; 15602c23cb7cSEd Maste case 17: return "R_X86_64_DTPOFF64"; 15612c23cb7cSEd Maste case 18: return "R_X86_64_TPOFF64"; 15622c23cb7cSEd Maste case 19: return "R_X86_64_TLSGD"; 15632c23cb7cSEd Maste case 20: return "R_X86_64_TLSLD"; 15642c23cb7cSEd Maste case 21: return "R_X86_64_DTPOFF32"; 15652c23cb7cSEd Maste case 22: return "R_X86_64_GOTTPOFF"; 15662c23cb7cSEd Maste case 23: return "R_X86_64_TPOFF32"; 156757736250SEd Maste case 24: return "R_X86_64_PC64"; 156857736250SEd Maste case 25: return "R_X86_64_GOTOFF64"; 156957736250SEd Maste case 26: return "R_X86_64_GOTPC32"; 157057736250SEd Maste case 27: return "R_X86_64_GOT64"; 157157736250SEd Maste case 28: return "R_X86_64_GOTPCREL64"; 157257736250SEd Maste case 29: return "R_X86_64_GOTPC64"; 157357736250SEd Maste case 30: return "R_X86_64_GOTPLT64"; 157457736250SEd Maste case 31: return "R_X86_64_PLTOFF64"; 157557736250SEd Maste case 32: return "R_X86_64_SIZE32"; 157657736250SEd Maste case 33: return "R_X86_64_SIZE64"; 157757736250SEd Maste case 34: return "R_X86_64_GOTPC32_TLSDESC"; 157857736250SEd Maste case 35: return "R_X86_64_TLSDESC_CALL"; 157957736250SEd Maste case 36: return "R_X86_64_TLSDESC"; 158057736250SEd Maste case 37: return "R_X86_64_IRELATIVE"; 15812c23cb7cSEd Maste default: return ""; 15822c23cb7cSEd Maste } 15832c23cb7cSEd Maste default: return ""; 15842c23cb7cSEd Maste } 15852c23cb7cSEd Maste } 15862c23cb7cSEd Maste 15872c23cb7cSEd Maste static const char * 158802b08c90SEd Maste note_type(const char *name, unsigned int et, unsigned int nt) 158902b08c90SEd Maste { 159071a0c925SEd Maste if ((strcmp(name, "CORE") == 0 || strcmp(name, "LINUX") == 0) && 159171a0c925SEd Maste et == ET_CORE) 159202b08c90SEd Maste return note_type_linux_core(nt); 159302b08c90SEd Maste else if (strcmp(name, "FreeBSD") == 0) 159402b08c90SEd Maste if (et == ET_CORE) 159502b08c90SEd Maste return note_type_freebsd_core(nt); 159602b08c90SEd Maste else 159702b08c90SEd Maste return note_type_freebsd(nt); 159802b08c90SEd Maste else if (strcmp(name, "GNU") == 0 && et != ET_CORE) 159902b08c90SEd Maste return note_type_gnu(nt); 160002b08c90SEd Maste else if (strcmp(name, "NetBSD") == 0 && et != ET_CORE) 160102b08c90SEd Maste return note_type_netbsd(nt); 160202b08c90SEd Maste else if (strcmp(name, "OpenBSD") == 0 && et != ET_CORE) 160302b08c90SEd Maste return note_type_openbsd(nt); 1604895f86f1SEd Maste else if (strcmp(name, "Xen") == 0 && et != ET_CORE) 1605895f86f1SEd Maste return note_type_xen(nt); 160602b08c90SEd Maste return note_type_unknown(nt); 160702b08c90SEd Maste } 160802b08c90SEd Maste 160902b08c90SEd Maste static const char * 161002b08c90SEd Maste note_type_freebsd(unsigned int nt) 161102b08c90SEd Maste { 161202b08c90SEd Maste switch (nt) { 161302b08c90SEd Maste case 1: return "NT_FREEBSD_ABI_TAG"; 161402b08c90SEd Maste case 2: return "NT_FREEBSD_NOINIT_TAG"; 161502b08c90SEd Maste case 3: return "NT_FREEBSD_ARCH_TAG"; 161602b08c90SEd Maste default: return (note_type_unknown(nt)); 161702b08c90SEd Maste } 161802b08c90SEd Maste } 161902b08c90SEd Maste 162002b08c90SEd Maste static const char * 162102b08c90SEd Maste note_type_freebsd_core(unsigned int nt) 162202b08c90SEd Maste { 162302b08c90SEd Maste switch (nt) { 162402b08c90SEd Maste case 1: return "NT_PRSTATUS"; 162502b08c90SEd Maste case 2: return "NT_FPREGSET"; 162602b08c90SEd Maste case 3: return "NT_PRPSINFO"; 162702b08c90SEd Maste case 7: return "NT_THRMISC"; 162802b08c90SEd Maste case 8: return "NT_PROCSTAT_PROC"; 162902b08c90SEd Maste case 9: return "NT_PROCSTAT_FILES"; 163002b08c90SEd Maste case 10: return "NT_PROCSTAT_VMMAP"; 163102b08c90SEd Maste case 11: return "NT_PROCSTAT_GROUPS"; 163202b08c90SEd Maste case 12: return "NT_PROCSTAT_UMASK"; 163302b08c90SEd Maste case 13: return "NT_PROCSTAT_RLIMIT"; 163402b08c90SEd Maste case 14: return "NT_PROCSTAT_OSREL"; 163502b08c90SEd Maste case 15: return "NT_PROCSTAT_PSSTRINGS"; 163602b08c90SEd Maste case 16: return "NT_PROCSTAT_AUXV"; 163702b08c90SEd Maste case 0x202: return "NT_X86_XSTATE (x86 XSAVE extended state)"; 163802b08c90SEd Maste default: return (note_type_unknown(nt)); 163902b08c90SEd Maste } 164002b08c90SEd Maste } 164102b08c90SEd Maste 164202b08c90SEd Maste static const char * 164302b08c90SEd Maste note_type_linux_core(unsigned int nt) 164402b08c90SEd Maste { 164502b08c90SEd Maste switch (nt) { 164602b08c90SEd Maste case 1: return "NT_PRSTATUS (Process status)"; 164702b08c90SEd Maste case 2: return "NT_FPREGSET (Floating point information)"; 164802b08c90SEd Maste case 3: return "NT_PRPSINFO (Process information)"; 164971a0c925SEd Maste case 4: return "NT_TASKSTRUCT (Task structure)"; 165002b08c90SEd Maste case 6: return "NT_AUXV (Auxiliary vector)"; 165102b08c90SEd Maste case 10: return "NT_PSTATUS (Linux process status)"; 165202b08c90SEd Maste case 12: return "NT_FPREGS (Linux floating point regset)"; 165302b08c90SEd Maste case 13: return "NT_PSINFO (Linux process information)"; 165402b08c90SEd Maste case 16: return "NT_LWPSTATUS (Linux lwpstatus_t type)"; 165502b08c90SEd Maste case 17: return "NT_LWPSINFO (Linux lwpinfo_t type)"; 165671a0c925SEd Maste case 18: return "NT_WIN32PSTATUS (win32_pstatus structure)"; 165771a0c925SEd Maste case 0x100: return "NT_PPC_VMX (ppc Altivec registers)"; 165871a0c925SEd Maste case 0x102: return "NT_PPC_VSX (ppc VSX registers)"; 165971a0c925SEd Maste case 0x202: return "NT_X86_XSTATE (x86 XSAVE extended state)"; 166071a0c925SEd Maste case 0x300: return "NT_S390_HIGH_GPRS (s390 upper register halves)"; 166171a0c925SEd Maste case 0x301: return "NT_S390_TIMER (s390 timer register)"; 166271a0c925SEd Maste case 0x302: return "NT_S390_TODCMP (s390 TOD comparator register)"; 166371a0c925SEd Maste case 0x303: return "NT_S390_TODPREG (s390 TOD programmable register)"; 166471a0c925SEd Maste case 0x304: return "NT_S390_CTRS (s390 control registers)"; 166571a0c925SEd Maste case 0x305: return "NT_S390_PREFIX (s390 prefix register)"; 166671a0c925SEd Maste case 0x400: return "NT_ARM_VFP (arm VFP registers)"; 166771a0c925SEd Maste case 0x46494c45UL: return "NT_FILE (mapped files)"; 166871a0c925SEd Maste case 0x46E62B7FUL: return "NT_PRXFPREG (Linux user_xfpregs structure)"; 166971a0c925SEd Maste case 0x53494749UL: return "NT_SIGINFO (siginfo_t data)"; 167002b08c90SEd Maste default: return (note_type_unknown(nt)); 167102b08c90SEd Maste } 167202b08c90SEd Maste } 167302b08c90SEd Maste 167402b08c90SEd Maste static const char * 167502b08c90SEd Maste note_type_gnu(unsigned int nt) 167602b08c90SEd Maste { 167702b08c90SEd Maste switch (nt) { 167802b08c90SEd Maste case 1: return "NT_GNU_ABI_TAG"; 167902b08c90SEd Maste case 2: return "NT_GNU_HWCAP (Hardware capabilities)"; 168002b08c90SEd Maste case 3: return "NT_GNU_BUILD_ID (Build id set by ld(1))"; 168102b08c90SEd Maste case 4: return "NT_GNU_GOLD_VERSION (GNU gold version)"; 168202b08c90SEd Maste default: return (note_type_unknown(nt)); 168302b08c90SEd Maste } 168402b08c90SEd Maste } 168502b08c90SEd Maste 168602b08c90SEd Maste static const char * 168702b08c90SEd Maste note_type_netbsd(unsigned int nt) 168802b08c90SEd Maste { 168902b08c90SEd Maste switch (nt) { 169002b08c90SEd Maste case 1: return "NT_NETBSD_IDENT"; 169102b08c90SEd Maste default: return (note_type_unknown(nt)); 169202b08c90SEd Maste } 169302b08c90SEd Maste } 169402b08c90SEd Maste 169502b08c90SEd Maste static const char * 169602b08c90SEd Maste note_type_openbsd(unsigned int nt) 169702b08c90SEd Maste { 169802b08c90SEd Maste switch (nt) { 169902b08c90SEd Maste case 1: return "NT_OPENBSD_IDENT"; 170002b08c90SEd Maste default: return (note_type_unknown(nt)); 170102b08c90SEd Maste } 170202b08c90SEd Maste } 170302b08c90SEd Maste 170402b08c90SEd Maste static const char * 170502b08c90SEd Maste note_type_unknown(unsigned int nt) 17062c23cb7cSEd Maste { 17072c23cb7cSEd Maste static char s_nt[32]; 17082c23cb7cSEd Maste 170971a0c925SEd Maste snprintf(s_nt, sizeof(s_nt), 171071a0c925SEd Maste nt >= 0x100 ? "<unknown: 0x%x>" : "<unknown: %u>", nt); 17112c23cb7cSEd Maste return (s_nt); 17122c23cb7cSEd Maste } 17132c23cb7cSEd Maste 1714895f86f1SEd Maste static const char * 1715895f86f1SEd Maste note_type_xen(unsigned int nt) 1716895f86f1SEd Maste { 1717895f86f1SEd Maste switch (nt) { 1718895f86f1SEd Maste case 0: return "XEN_ELFNOTE_INFO"; 1719895f86f1SEd Maste case 1: return "XEN_ELFNOTE_ENTRY"; 1720895f86f1SEd Maste case 2: return "XEN_ELFNOTE_HYPERCALL_PAGE"; 1721895f86f1SEd Maste case 3: return "XEN_ELFNOTE_VIRT_BASE"; 1722895f86f1SEd Maste case 4: return "XEN_ELFNOTE_PADDR_OFFSET"; 1723895f86f1SEd Maste case 5: return "XEN_ELFNOTE_XEN_VERSION"; 1724895f86f1SEd Maste case 6: return "XEN_ELFNOTE_GUEST_OS"; 1725895f86f1SEd Maste case 7: return "XEN_ELFNOTE_GUEST_VERSION"; 1726895f86f1SEd Maste case 8: return "XEN_ELFNOTE_LOADER"; 1727895f86f1SEd Maste case 9: return "XEN_ELFNOTE_PAE_MODE"; 1728895f86f1SEd Maste case 10: return "XEN_ELFNOTE_FEATURES"; 1729895f86f1SEd Maste case 11: return "XEN_ELFNOTE_BSD_SYMTAB"; 1730895f86f1SEd Maste case 12: return "XEN_ELFNOTE_HV_START_LOW"; 1731895f86f1SEd Maste case 13: return "XEN_ELFNOTE_L1_MFN_VALID"; 1732895f86f1SEd Maste case 14: return "XEN_ELFNOTE_SUSPEND_CANCEL"; 1733895f86f1SEd Maste case 15: return "XEN_ELFNOTE_INIT_P2M"; 1734895f86f1SEd Maste case 16: return "XEN_ELFNOTE_MOD_START_PFN"; 1735895f86f1SEd Maste case 17: return "XEN_ELFNOTE_SUPPORTED_FEATURES"; 1736895f86f1SEd Maste default: return (note_type_unknown(nt)); 1737895f86f1SEd Maste } 1738895f86f1SEd Maste } 1739895f86f1SEd Maste 17402c23cb7cSEd Maste static struct { 17412c23cb7cSEd Maste const char *name; 17422c23cb7cSEd Maste int value; 17432c23cb7cSEd Maste } l_flag[] = { 17442c23cb7cSEd Maste {"EXACT_MATCH", LL_EXACT_MATCH}, 17452c23cb7cSEd Maste {"IGNORE_INT_VER", LL_IGNORE_INT_VER}, 17462c23cb7cSEd Maste {"REQUIRE_MINOR", LL_REQUIRE_MINOR}, 17472c23cb7cSEd Maste {"EXPORTS", LL_EXPORTS}, 17482c23cb7cSEd Maste {"DELAY_LOAD", LL_DELAY_LOAD}, 17492c23cb7cSEd Maste {"DELTA", LL_DELTA}, 17502c23cb7cSEd Maste {NULL, 0} 17512c23cb7cSEd Maste }; 17522c23cb7cSEd Maste 17532c23cb7cSEd Maste static struct mips_option mips_exceptions_option[] = { 17542c23cb7cSEd Maste {OEX_PAGE0, "PAGE0"}, 17552c23cb7cSEd Maste {OEX_SMM, "SMM"}, 17562c23cb7cSEd Maste {OEX_PRECISEFP, "PRECISEFP"}, 17572c23cb7cSEd Maste {OEX_DISMISS, "DISMISS"}, 17582c23cb7cSEd Maste {0, NULL} 17592c23cb7cSEd Maste }; 17602c23cb7cSEd Maste 17612c23cb7cSEd Maste static struct mips_option mips_pad_option[] = { 17622c23cb7cSEd Maste {OPAD_PREFIX, "PREFIX"}, 17632c23cb7cSEd Maste {OPAD_POSTFIX, "POSTFIX"}, 17642c23cb7cSEd Maste {OPAD_SYMBOL, "SYMBOL"}, 17652c23cb7cSEd Maste {0, NULL} 17662c23cb7cSEd Maste }; 17672c23cb7cSEd Maste 17682c23cb7cSEd Maste static struct mips_option mips_hwpatch_option[] = { 17692c23cb7cSEd Maste {OHW_R4KEOP, "R4KEOP"}, 17702c23cb7cSEd Maste {OHW_R8KPFETCH, "R8KPFETCH"}, 17712c23cb7cSEd Maste {OHW_R5KEOP, "R5KEOP"}, 17722c23cb7cSEd Maste {OHW_R5KCVTL, "R5KCVTL"}, 17732c23cb7cSEd Maste {0, NULL} 17742c23cb7cSEd Maste }; 17752c23cb7cSEd Maste 17762c23cb7cSEd Maste static struct mips_option mips_hwa_option[] = { 17772c23cb7cSEd Maste {OHWA0_R4KEOP_CHECKED, "R4KEOP_CHECKED"}, 17782c23cb7cSEd Maste {OHWA0_R4KEOP_CLEAN, "R4KEOP_CLEAN"}, 17792c23cb7cSEd Maste {0, NULL} 17802c23cb7cSEd Maste }; 17812c23cb7cSEd Maste 17822c23cb7cSEd Maste static struct mips_option mips_hwo_option[] = { 17832c23cb7cSEd Maste {OHWO0_FIXADE, "FIXADE"}, 17842c23cb7cSEd Maste {0, NULL} 17852c23cb7cSEd Maste }; 17862c23cb7cSEd Maste 17872c23cb7cSEd Maste static const char * 17882c23cb7cSEd Maste option_kind(uint8_t kind) 17892c23cb7cSEd Maste { 17902c23cb7cSEd Maste static char s_kind[32]; 17912c23cb7cSEd Maste 17922c23cb7cSEd Maste switch (kind) { 17932c23cb7cSEd Maste case ODK_NULL: return "NULL"; 17942c23cb7cSEd Maste case ODK_REGINFO: return "REGINFO"; 17952c23cb7cSEd Maste case ODK_EXCEPTIONS: return "EXCEPTIONS"; 17962c23cb7cSEd Maste case ODK_PAD: return "PAD"; 17972c23cb7cSEd Maste case ODK_HWPATCH: return "HWPATCH"; 17982c23cb7cSEd Maste case ODK_FILL: return "FILL"; 17992c23cb7cSEd Maste case ODK_TAGS: return "TAGS"; 18002c23cb7cSEd Maste case ODK_HWAND: return "HWAND"; 18012c23cb7cSEd Maste case ODK_HWOR: return "HWOR"; 18022c23cb7cSEd Maste case ODK_GP_GROUP: return "GP_GROUP"; 18032c23cb7cSEd Maste case ODK_IDENT: return "IDENT"; 18042c23cb7cSEd Maste default: 18052c23cb7cSEd Maste snprintf(s_kind, sizeof(s_kind), "<unknown: %u>", kind); 18062c23cb7cSEd Maste return (s_kind); 18072c23cb7cSEd Maste } 18082c23cb7cSEd Maste } 18092c23cb7cSEd Maste 18102c23cb7cSEd Maste static const char * 18112c23cb7cSEd Maste top_tag(unsigned int tag) 18122c23cb7cSEd Maste { 18132c23cb7cSEd Maste static char s_top_tag[32]; 18142c23cb7cSEd Maste 18152c23cb7cSEd Maste switch (tag) { 18162c23cb7cSEd Maste case 1: return "File Attributes"; 18172c23cb7cSEd Maste case 2: return "Section Attributes"; 18182c23cb7cSEd Maste case 3: return "Symbol Attributes"; 18192c23cb7cSEd Maste default: 18202c23cb7cSEd Maste snprintf(s_top_tag, sizeof(s_top_tag), "Unknown tag: %u", tag); 18212c23cb7cSEd Maste return (s_top_tag); 18222c23cb7cSEd Maste } 18232c23cb7cSEd Maste } 18242c23cb7cSEd Maste 18252c23cb7cSEd Maste static const char * 18262c23cb7cSEd Maste aeabi_cpu_arch(uint64_t arch) 18272c23cb7cSEd Maste { 18282c23cb7cSEd Maste static char s_cpu_arch[32]; 18292c23cb7cSEd Maste 18302c23cb7cSEd Maste switch (arch) { 18312c23cb7cSEd Maste case 0: return "Pre-V4"; 18322c23cb7cSEd Maste case 1: return "ARM v4"; 18332c23cb7cSEd Maste case 2: return "ARM v4T"; 18342c23cb7cSEd Maste case 3: return "ARM v5T"; 18352c23cb7cSEd Maste case 4: return "ARM v5TE"; 18362c23cb7cSEd Maste case 5: return "ARM v5TEJ"; 18372c23cb7cSEd Maste case 6: return "ARM v6"; 18382c23cb7cSEd Maste case 7: return "ARM v6KZ"; 18392c23cb7cSEd Maste case 8: return "ARM v6T2"; 18402c23cb7cSEd Maste case 9: return "ARM v6K"; 18412c23cb7cSEd Maste case 10: return "ARM v7"; 18422c23cb7cSEd Maste case 11: return "ARM v6-M"; 18432c23cb7cSEd Maste case 12: return "ARM v6S-M"; 18442c23cb7cSEd Maste case 13: return "ARM v7E-M"; 18452c23cb7cSEd Maste default: 18462c23cb7cSEd Maste snprintf(s_cpu_arch, sizeof(s_cpu_arch), 18472c23cb7cSEd Maste "Unknown (%ju)", (uintmax_t) arch); 18482c23cb7cSEd Maste return (s_cpu_arch); 18492c23cb7cSEd Maste } 18502c23cb7cSEd Maste } 18512c23cb7cSEd Maste 18522c23cb7cSEd Maste static const char * 18532c23cb7cSEd Maste aeabi_cpu_arch_profile(uint64_t pf) 18542c23cb7cSEd Maste { 18552c23cb7cSEd Maste static char s_arch_profile[32]; 18562c23cb7cSEd Maste 18572c23cb7cSEd Maste switch (pf) { 18582c23cb7cSEd Maste case 0: 18592c23cb7cSEd Maste return "Not applicable"; 18602c23cb7cSEd Maste case 0x41: /* 'A' */ 18612c23cb7cSEd Maste return "Application Profile"; 18622c23cb7cSEd Maste case 0x52: /* 'R' */ 18632c23cb7cSEd Maste return "Real-Time Profile"; 18642c23cb7cSEd Maste case 0x4D: /* 'M' */ 18652c23cb7cSEd Maste return "Microcontroller Profile"; 18662c23cb7cSEd Maste case 0x53: /* 'S' */ 18672c23cb7cSEd Maste return "Application or Real-Time Profile"; 18682c23cb7cSEd Maste default: 18692c23cb7cSEd Maste snprintf(s_arch_profile, sizeof(s_arch_profile), 18702c23cb7cSEd Maste "Unknown (%ju)\n", (uintmax_t) pf); 18712c23cb7cSEd Maste return (s_arch_profile); 18722c23cb7cSEd Maste } 18732c23cb7cSEd Maste } 18742c23cb7cSEd Maste 18752c23cb7cSEd Maste static const char * 18762c23cb7cSEd Maste aeabi_arm_isa(uint64_t ai) 18772c23cb7cSEd Maste { 18782c23cb7cSEd Maste static char s_ai[32]; 18792c23cb7cSEd Maste 18802c23cb7cSEd Maste switch (ai) { 18812c23cb7cSEd Maste case 0: return "No"; 18822c23cb7cSEd Maste case 1: return "Yes"; 18832c23cb7cSEd Maste default: 18842c23cb7cSEd Maste snprintf(s_ai, sizeof(s_ai), "Unknown (%ju)\n", 18852c23cb7cSEd Maste (uintmax_t) ai); 18862c23cb7cSEd Maste return (s_ai); 18872c23cb7cSEd Maste } 18882c23cb7cSEd Maste } 18892c23cb7cSEd Maste 18902c23cb7cSEd Maste static const char * 18912c23cb7cSEd Maste aeabi_thumb_isa(uint64_t ti) 18922c23cb7cSEd Maste { 18932c23cb7cSEd Maste static char s_ti[32]; 18942c23cb7cSEd Maste 18952c23cb7cSEd Maste switch (ti) { 18962c23cb7cSEd Maste case 0: return "No"; 18972c23cb7cSEd Maste case 1: return "16-bit Thumb"; 18982c23cb7cSEd Maste case 2: return "32-bit Thumb"; 18992c23cb7cSEd Maste default: 19002c23cb7cSEd Maste snprintf(s_ti, sizeof(s_ti), "Unknown (%ju)\n", 19012c23cb7cSEd Maste (uintmax_t) ti); 19022c23cb7cSEd Maste return (s_ti); 19032c23cb7cSEd Maste } 19042c23cb7cSEd Maste } 19052c23cb7cSEd Maste 19062c23cb7cSEd Maste static const char * 19072c23cb7cSEd Maste aeabi_fp_arch(uint64_t fp) 19082c23cb7cSEd Maste { 19092c23cb7cSEd Maste static char s_fp_arch[32]; 19102c23cb7cSEd Maste 19112c23cb7cSEd Maste switch (fp) { 19122c23cb7cSEd Maste case 0: return "No"; 19132c23cb7cSEd Maste case 1: return "VFPv1"; 19142c23cb7cSEd Maste case 2: return "VFPv2"; 19152c23cb7cSEd Maste case 3: return "VFPv3"; 19162c23cb7cSEd Maste case 4: return "VFPv3-D16"; 19172c23cb7cSEd Maste case 5: return "VFPv4"; 19182c23cb7cSEd Maste case 6: return "VFPv4-D16"; 19192c23cb7cSEd Maste default: 19202c23cb7cSEd Maste snprintf(s_fp_arch, sizeof(s_fp_arch), "Unknown (%ju)", 19212c23cb7cSEd Maste (uintmax_t) fp); 19222c23cb7cSEd Maste return (s_fp_arch); 19232c23cb7cSEd Maste } 19242c23cb7cSEd Maste } 19252c23cb7cSEd Maste 19262c23cb7cSEd Maste static const char * 19272c23cb7cSEd Maste aeabi_wmmx_arch(uint64_t wmmx) 19282c23cb7cSEd Maste { 19292c23cb7cSEd Maste static char s_wmmx[32]; 19302c23cb7cSEd Maste 19312c23cb7cSEd Maste switch (wmmx) { 19322c23cb7cSEd Maste case 0: return "No"; 19332c23cb7cSEd Maste case 1: return "WMMXv1"; 19342c23cb7cSEd Maste case 2: return "WMMXv2"; 19352c23cb7cSEd Maste default: 19362c23cb7cSEd Maste snprintf(s_wmmx, sizeof(s_wmmx), "Unknown (%ju)", 19372c23cb7cSEd Maste (uintmax_t) wmmx); 19382c23cb7cSEd Maste return (s_wmmx); 19392c23cb7cSEd Maste } 19402c23cb7cSEd Maste } 19412c23cb7cSEd Maste 19422c23cb7cSEd Maste static const char * 19432c23cb7cSEd Maste aeabi_adv_simd_arch(uint64_t simd) 19442c23cb7cSEd Maste { 19452c23cb7cSEd Maste static char s_simd[32]; 19462c23cb7cSEd Maste 19472c23cb7cSEd Maste switch (simd) { 19482c23cb7cSEd Maste case 0: return "No"; 19492c23cb7cSEd Maste case 1: return "NEONv1"; 19502c23cb7cSEd Maste case 2: return "NEONv2"; 19512c23cb7cSEd Maste default: 19522c23cb7cSEd Maste snprintf(s_simd, sizeof(s_simd), "Unknown (%ju)", 19532c23cb7cSEd Maste (uintmax_t) simd); 19542c23cb7cSEd Maste return (s_simd); 19552c23cb7cSEd Maste } 19562c23cb7cSEd Maste } 19572c23cb7cSEd Maste 19582c23cb7cSEd Maste static const char * 19592c23cb7cSEd Maste aeabi_pcs_config(uint64_t pcs) 19602c23cb7cSEd Maste { 19612c23cb7cSEd Maste static char s_pcs[32]; 19622c23cb7cSEd Maste 19632c23cb7cSEd Maste switch (pcs) { 19642c23cb7cSEd Maste case 0: return "None"; 19652c23cb7cSEd Maste case 1: return "Bare platform"; 19662c23cb7cSEd Maste case 2: return "Linux"; 19672c23cb7cSEd Maste case 3: return "Linux DSO"; 19682c23cb7cSEd Maste case 4: return "Palm OS 2004"; 19692c23cb7cSEd Maste case 5: return "Palm OS (future)"; 19702c23cb7cSEd Maste case 6: return "Symbian OS 2004"; 19712c23cb7cSEd Maste case 7: return "Symbian OS (future)"; 19722c23cb7cSEd Maste default: 19732c23cb7cSEd Maste snprintf(s_pcs, sizeof(s_pcs), "Unknown (%ju)", 19742c23cb7cSEd Maste (uintmax_t) pcs); 19752c23cb7cSEd Maste return (s_pcs); 19762c23cb7cSEd Maste } 19772c23cb7cSEd Maste } 19782c23cb7cSEd Maste 19792c23cb7cSEd Maste static const char * 19802c23cb7cSEd Maste aeabi_pcs_r9(uint64_t r9) 19812c23cb7cSEd Maste { 19822c23cb7cSEd Maste static char s_r9[32]; 19832c23cb7cSEd Maste 19842c23cb7cSEd Maste switch (r9) { 19852c23cb7cSEd Maste case 0: return "V6"; 19862c23cb7cSEd Maste case 1: return "SB"; 19872c23cb7cSEd Maste case 2: return "TLS pointer"; 19882c23cb7cSEd Maste case 3: return "Unused"; 19892c23cb7cSEd Maste default: 19902c23cb7cSEd Maste snprintf(s_r9, sizeof(s_r9), "Unknown (%ju)", (uintmax_t) r9); 19912c23cb7cSEd Maste return (s_r9); 19922c23cb7cSEd Maste } 19932c23cb7cSEd Maste } 19942c23cb7cSEd Maste 19952c23cb7cSEd Maste static const char * 19962c23cb7cSEd Maste aeabi_pcs_rw(uint64_t rw) 19972c23cb7cSEd Maste { 19982c23cb7cSEd Maste static char s_rw[32]; 19992c23cb7cSEd Maste 20002c23cb7cSEd Maste switch (rw) { 20012c23cb7cSEd Maste case 0: return "Absolute"; 20022c23cb7cSEd Maste case 1: return "PC-relative"; 20032c23cb7cSEd Maste case 2: return "SB-relative"; 20042c23cb7cSEd Maste case 3: return "None"; 20052c23cb7cSEd Maste default: 20062c23cb7cSEd Maste snprintf(s_rw, sizeof(s_rw), "Unknown (%ju)", (uintmax_t) rw); 20072c23cb7cSEd Maste return (s_rw); 20082c23cb7cSEd Maste } 20092c23cb7cSEd Maste } 20102c23cb7cSEd Maste 20112c23cb7cSEd Maste static const char * 20122c23cb7cSEd Maste aeabi_pcs_ro(uint64_t ro) 20132c23cb7cSEd Maste { 20142c23cb7cSEd Maste static char s_ro[32]; 20152c23cb7cSEd Maste 20162c23cb7cSEd Maste switch (ro) { 20172c23cb7cSEd Maste case 0: return "Absolute"; 20182c23cb7cSEd Maste case 1: return "PC-relative"; 20192c23cb7cSEd Maste case 2: return "None"; 20202c23cb7cSEd Maste default: 20212c23cb7cSEd Maste snprintf(s_ro, sizeof(s_ro), "Unknown (%ju)", (uintmax_t) ro); 20222c23cb7cSEd Maste return (s_ro); 20232c23cb7cSEd Maste } 20242c23cb7cSEd Maste } 20252c23cb7cSEd Maste 20262c23cb7cSEd Maste static const char * 20272c23cb7cSEd Maste aeabi_pcs_got(uint64_t got) 20282c23cb7cSEd Maste { 20292c23cb7cSEd Maste static char s_got[32]; 20302c23cb7cSEd Maste 20312c23cb7cSEd Maste switch (got) { 20322c23cb7cSEd Maste case 0: return "None"; 20332c23cb7cSEd Maste case 1: return "direct"; 20342c23cb7cSEd Maste case 2: return "indirect via GOT"; 20352c23cb7cSEd Maste default: 20362c23cb7cSEd Maste snprintf(s_got, sizeof(s_got), "Unknown (%ju)", 20372c23cb7cSEd Maste (uintmax_t) got); 20382c23cb7cSEd Maste return (s_got); 20392c23cb7cSEd Maste } 20402c23cb7cSEd Maste } 20412c23cb7cSEd Maste 20422c23cb7cSEd Maste static const char * 20432c23cb7cSEd Maste aeabi_pcs_wchar_t(uint64_t wt) 20442c23cb7cSEd Maste { 20452c23cb7cSEd Maste static char s_wt[32]; 20462c23cb7cSEd Maste 20472c23cb7cSEd Maste switch (wt) { 20482c23cb7cSEd Maste case 0: return "None"; 20492c23cb7cSEd Maste case 2: return "wchar_t size 2"; 20502c23cb7cSEd Maste case 4: return "wchar_t size 4"; 20512c23cb7cSEd Maste default: 20522c23cb7cSEd Maste snprintf(s_wt, sizeof(s_wt), "Unknown (%ju)", (uintmax_t) wt); 20532c23cb7cSEd Maste return (s_wt); 20542c23cb7cSEd Maste } 20552c23cb7cSEd Maste } 20562c23cb7cSEd Maste 20572c23cb7cSEd Maste static const char * 20582c23cb7cSEd Maste aeabi_enum_size(uint64_t es) 20592c23cb7cSEd Maste { 20602c23cb7cSEd Maste static char s_es[32]; 20612c23cb7cSEd Maste 20622c23cb7cSEd Maste switch (es) { 20632c23cb7cSEd Maste case 0: return "None"; 20642c23cb7cSEd Maste case 1: return "smallest"; 20652c23cb7cSEd Maste case 2: return "32-bit"; 20662c23cb7cSEd Maste case 3: return "visible 32-bit"; 20672c23cb7cSEd Maste default: 20682c23cb7cSEd Maste snprintf(s_es, sizeof(s_es), "Unknown (%ju)", (uintmax_t) es); 20692c23cb7cSEd Maste return (s_es); 20702c23cb7cSEd Maste } 20712c23cb7cSEd Maste } 20722c23cb7cSEd Maste 20732c23cb7cSEd Maste static const char * 20742c23cb7cSEd Maste aeabi_align_needed(uint64_t an) 20752c23cb7cSEd Maste { 20762c23cb7cSEd Maste static char s_align_n[64]; 20772c23cb7cSEd Maste 20782c23cb7cSEd Maste switch (an) { 20792c23cb7cSEd Maste case 0: return "No"; 20802c23cb7cSEd Maste case 1: return "8-byte align"; 20812c23cb7cSEd Maste case 2: return "4-byte align"; 20822c23cb7cSEd Maste case 3: return "Reserved"; 20832c23cb7cSEd Maste default: 20842c23cb7cSEd Maste if (an >= 4 && an <= 12) 20852c23cb7cSEd Maste snprintf(s_align_n, sizeof(s_align_n), "8-byte align" 20862c23cb7cSEd Maste " and up to 2^%ju-byte extended align", 20872c23cb7cSEd Maste (uintmax_t) an); 20882c23cb7cSEd Maste else 20892c23cb7cSEd Maste snprintf(s_align_n, sizeof(s_align_n), "Unknown (%ju)", 20902c23cb7cSEd Maste (uintmax_t) an); 20912c23cb7cSEd Maste return (s_align_n); 20922c23cb7cSEd Maste } 20932c23cb7cSEd Maste } 20942c23cb7cSEd Maste 20952c23cb7cSEd Maste static const char * 20962c23cb7cSEd Maste aeabi_align_preserved(uint64_t ap) 20972c23cb7cSEd Maste { 20982c23cb7cSEd Maste static char s_align_p[128]; 20992c23cb7cSEd Maste 21002c23cb7cSEd Maste switch (ap) { 21012c23cb7cSEd Maste case 0: return "No"; 21022c23cb7cSEd Maste case 1: return "8-byte align"; 21032c23cb7cSEd Maste case 2: return "8-byte align and SP % 8 == 0"; 21042c23cb7cSEd Maste case 3: return "Reserved"; 21052c23cb7cSEd Maste default: 21062c23cb7cSEd Maste if (ap >= 4 && ap <= 12) 21072c23cb7cSEd Maste snprintf(s_align_p, sizeof(s_align_p), "8-byte align" 21082c23cb7cSEd Maste " and SP %% 8 == 0 and up to 2^%ju-byte extended" 21092c23cb7cSEd Maste " align", (uintmax_t) ap); 21102c23cb7cSEd Maste else 21112c23cb7cSEd Maste snprintf(s_align_p, sizeof(s_align_p), "Unknown (%ju)", 21122c23cb7cSEd Maste (uintmax_t) ap); 21132c23cb7cSEd Maste return (s_align_p); 21142c23cb7cSEd Maste } 21152c23cb7cSEd Maste } 21162c23cb7cSEd Maste 21172c23cb7cSEd Maste static const char * 21182c23cb7cSEd Maste aeabi_fp_rounding(uint64_t fr) 21192c23cb7cSEd Maste { 21202c23cb7cSEd Maste static char s_fp_r[32]; 21212c23cb7cSEd Maste 21222c23cb7cSEd Maste switch (fr) { 21232c23cb7cSEd Maste case 0: return "Unused"; 21242c23cb7cSEd Maste case 1: return "Needed"; 21252c23cb7cSEd Maste default: 21262c23cb7cSEd Maste snprintf(s_fp_r, sizeof(s_fp_r), "Unknown (%ju)", 21272c23cb7cSEd Maste (uintmax_t) fr); 21282c23cb7cSEd Maste return (s_fp_r); 21292c23cb7cSEd Maste } 21302c23cb7cSEd Maste } 21312c23cb7cSEd Maste 21322c23cb7cSEd Maste static const char * 21332c23cb7cSEd Maste aeabi_fp_denormal(uint64_t fd) 21342c23cb7cSEd Maste { 21352c23cb7cSEd Maste static char s_fp_d[32]; 21362c23cb7cSEd Maste 21372c23cb7cSEd Maste switch (fd) { 21382c23cb7cSEd Maste case 0: return "Unused"; 21392c23cb7cSEd Maste case 1: return "Needed"; 21402c23cb7cSEd Maste case 2: return "Sign Only"; 21412c23cb7cSEd Maste default: 21422c23cb7cSEd Maste snprintf(s_fp_d, sizeof(s_fp_d), "Unknown (%ju)", 21432c23cb7cSEd Maste (uintmax_t) fd); 21442c23cb7cSEd Maste return (s_fp_d); 21452c23cb7cSEd Maste } 21462c23cb7cSEd Maste } 21472c23cb7cSEd Maste 21482c23cb7cSEd Maste static const char * 21492c23cb7cSEd Maste aeabi_fp_exceptions(uint64_t fe) 21502c23cb7cSEd Maste { 21512c23cb7cSEd Maste static char s_fp_e[32]; 21522c23cb7cSEd Maste 21532c23cb7cSEd Maste switch (fe) { 21542c23cb7cSEd Maste case 0: return "Unused"; 21552c23cb7cSEd Maste case 1: return "Needed"; 21562c23cb7cSEd Maste default: 21572c23cb7cSEd Maste snprintf(s_fp_e, sizeof(s_fp_e), "Unknown (%ju)", 21582c23cb7cSEd Maste (uintmax_t) fe); 21592c23cb7cSEd Maste return (s_fp_e); 21602c23cb7cSEd Maste } 21612c23cb7cSEd Maste } 21622c23cb7cSEd Maste 21632c23cb7cSEd Maste static const char * 21642c23cb7cSEd Maste aeabi_fp_user_exceptions(uint64_t fu) 21652c23cb7cSEd Maste { 21662c23cb7cSEd Maste static char s_fp_u[32]; 21672c23cb7cSEd Maste 21682c23cb7cSEd Maste switch (fu) { 21692c23cb7cSEd Maste case 0: return "Unused"; 21702c23cb7cSEd Maste case 1: return "Needed"; 21712c23cb7cSEd Maste default: 21722c23cb7cSEd Maste snprintf(s_fp_u, sizeof(s_fp_u), "Unknown (%ju)", 21732c23cb7cSEd Maste (uintmax_t) fu); 21742c23cb7cSEd Maste return (s_fp_u); 21752c23cb7cSEd Maste } 21762c23cb7cSEd Maste } 21772c23cb7cSEd Maste 21782c23cb7cSEd Maste static const char * 21792c23cb7cSEd Maste aeabi_fp_number_model(uint64_t fn) 21802c23cb7cSEd Maste { 21812c23cb7cSEd Maste static char s_fp_n[32]; 21822c23cb7cSEd Maste 21832c23cb7cSEd Maste switch (fn) { 21842c23cb7cSEd Maste case 0: return "Unused"; 21852c23cb7cSEd Maste case 1: return "IEEE 754 normal"; 21862c23cb7cSEd Maste case 2: return "RTABI"; 21872c23cb7cSEd Maste case 3: return "IEEE 754"; 21882c23cb7cSEd Maste default: 21892c23cb7cSEd Maste snprintf(s_fp_n, sizeof(s_fp_n), "Unknown (%ju)", 21902c23cb7cSEd Maste (uintmax_t) fn); 21912c23cb7cSEd Maste return (s_fp_n); 21922c23cb7cSEd Maste } 21932c23cb7cSEd Maste } 21942c23cb7cSEd Maste 21952c23cb7cSEd Maste static const char * 21962c23cb7cSEd Maste aeabi_fp_16bit_format(uint64_t fp16) 21972c23cb7cSEd Maste { 21982c23cb7cSEd Maste static char s_fp_16[64]; 21992c23cb7cSEd Maste 22002c23cb7cSEd Maste switch (fp16) { 22012c23cb7cSEd Maste case 0: return "None"; 22022c23cb7cSEd Maste case 1: return "IEEE 754"; 22032c23cb7cSEd Maste case 2: return "VFPv3/Advanced SIMD (alternative format)"; 22042c23cb7cSEd Maste default: 22052c23cb7cSEd Maste snprintf(s_fp_16, sizeof(s_fp_16), "Unknown (%ju)", 22062c23cb7cSEd Maste (uintmax_t) fp16); 22072c23cb7cSEd Maste return (s_fp_16); 22082c23cb7cSEd Maste } 22092c23cb7cSEd Maste } 22102c23cb7cSEd Maste 22112c23cb7cSEd Maste static const char * 22122c23cb7cSEd Maste aeabi_mpext(uint64_t mp) 22132c23cb7cSEd Maste { 22142c23cb7cSEd Maste static char s_mp[32]; 22152c23cb7cSEd Maste 22162c23cb7cSEd Maste switch (mp) { 22172c23cb7cSEd Maste case 0: return "Not allowed"; 22182c23cb7cSEd Maste case 1: return "Allowed"; 22192c23cb7cSEd Maste default: 22202c23cb7cSEd Maste snprintf(s_mp, sizeof(s_mp), "Unknown (%ju)", 22212c23cb7cSEd Maste (uintmax_t) mp); 22222c23cb7cSEd Maste return (s_mp); 22232c23cb7cSEd Maste } 22242c23cb7cSEd Maste } 22252c23cb7cSEd Maste 22262c23cb7cSEd Maste static const char * 22272c23cb7cSEd Maste aeabi_div(uint64_t du) 22282c23cb7cSEd Maste { 22292c23cb7cSEd Maste static char s_du[32]; 22302c23cb7cSEd Maste 22312c23cb7cSEd Maste switch (du) { 22322c23cb7cSEd Maste case 0: return "Yes (V7-R/V7-M)"; 22332c23cb7cSEd Maste case 1: return "No"; 22342c23cb7cSEd Maste case 2: return "Yes (V7-A)"; 22352c23cb7cSEd Maste default: 22362c23cb7cSEd Maste snprintf(s_du, sizeof(s_du), "Unknown (%ju)", 22372c23cb7cSEd Maste (uintmax_t) du); 22382c23cb7cSEd Maste return (s_du); 22392c23cb7cSEd Maste } 22402c23cb7cSEd Maste } 22412c23cb7cSEd Maste 22422c23cb7cSEd Maste static const char * 22432c23cb7cSEd Maste aeabi_t2ee(uint64_t t2ee) 22442c23cb7cSEd Maste { 22452c23cb7cSEd Maste static char s_t2ee[32]; 22462c23cb7cSEd Maste 22472c23cb7cSEd Maste switch (t2ee) { 22482c23cb7cSEd Maste case 0: return "Not allowed"; 22492c23cb7cSEd Maste case 1: return "Allowed"; 22502c23cb7cSEd Maste default: 22512c23cb7cSEd Maste snprintf(s_t2ee, sizeof(s_t2ee), "Unknown(%ju)", 22522c23cb7cSEd Maste (uintmax_t) t2ee); 22532c23cb7cSEd Maste return (s_t2ee); 22542c23cb7cSEd Maste } 22552c23cb7cSEd Maste 22562c23cb7cSEd Maste } 22572c23cb7cSEd Maste 22582c23cb7cSEd Maste static const char * 22592c23cb7cSEd Maste aeabi_hardfp(uint64_t hfp) 22602c23cb7cSEd Maste { 22612c23cb7cSEd Maste static char s_hfp[32]; 22622c23cb7cSEd Maste 22632c23cb7cSEd Maste switch (hfp) { 22642c23cb7cSEd Maste case 0: return "Tag_FP_arch"; 22652c23cb7cSEd Maste case 1: return "only SP"; 22662c23cb7cSEd Maste case 2: return "only DP"; 22672c23cb7cSEd Maste case 3: return "both SP and DP"; 22682c23cb7cSEd Maste default: 22692c23cb7cSEd Maste snprintf(s_hfp, sizeof(s_hfp), "Unknown (%ju)", 22702c23cb7cSEd Maste (uintmax_t) hfp); 22712c23cb7cSEd Maste return (s_hfp); 22722c23cb7cSEd Maste } 22732c23cb7cSEd Maste } 22742c23cb7cSEd Maste 22752c23cb7cSEd Maste static const char * 22762c23cb7cSEd Maste aeabi_vfp_args(uint64_t va) 22772c23cb7cSEd Maste { 22782c23cb7cSEd Maste static char s_va[32]; 22792c23cb7cSEd Maste 22802c23cb7cSEd Maste switch (va) { 22812c23cb7cSEd Maste case 0: return "AAPCS (base variant)"; 22822c23cb7cSEd Maste case 1: return "AAPCS (VFP variant)"; 22832c23cb7cSEd Maste case 2: return "toolchain-specific"; 22842c23cb7cSEd Maste default: 22852c23cb7cSEd Maste snprintf(s_va, sizeof(s_va), "Unknown (%ju)", (uintmax_t) va); 22862c23cb7cSEd Maste return (s_va); 22872c23cb7cSEd Maste } 22882c23cb7cSEd Maste } 22892c23cb7cSEd Maste 22902c23cb7cSEd Maste static const char * 22912c23cb7cSEd Maste aeabi_wmmx_args(uint64_t wa) 22922c23cb7cSEd Maste { 22932c23cb7cSEd Maste static char s_wa[32]; 22942c23cb7cSEd Maste 22952c23cb7cSEd Maste switch (wa) { 22962c23cb7cSEd Maste case 0: return "AAPCS (base variant)"; 22972c23cb7cSEd Maste case 1: return "Intel WMMX"; 22982c23cb7cSEd Maste case 2: return "toolchain-specific"; 22992c23cb7cSEd Maste default: 23002c23cb7cSEd Maste snprintf(s_wa, sizeof(s_wa), "Unknown(%ju)", (uintmax_t) wa); 23012c23cb7cSEd Maste return (s_wa); 23022c23cb7cSEd Maste } 23032c23cb7cSEd Maste } 23042c23cb7cSEd Maste 23052c23cb7cSEd Maste static const char * 23062c23cb7cSEd Maste aeabi_unaligned_access(uint64_t ua) 23072c23cb7cSEd Maste { 23082c23cb7cSEd Maste static char s_ua[32]; 23092c23cb7cSEd Maste 23102c23cb7cSEd Maste switch (ua) { 23112c23cb7cSEd Maste case 0: return "Not allowed"; 23122c23cb7cSEd Maste case 1: return "Allowed"; 23132c23cb7cSEd Maste default: 23142c23cb7cSEd Maste snprintf(s_ua, sizeof(s_ua), "Unknown(%ju)", (uintmax_t) ua); 23152c23cb7cSEd Maste return (s_ua); 23162c23cb7cSEd Maste } 23172c23cb7cSEd Maste } 23182c23cb7cSEd Maste 23192c23cb7cSEd Maste static const char * 23202c23cb7cSEd Maste aeabi_fp_hpext(uint64_t fh) 23212c23cb7cSEd Maste { 23222c23cb7cSEd Maste static char s_fh[32]; 23232c23cb7cSEd Maste 23242c23cb7cSEd Maste switch (fh) { 23252c23cb7cSEd Maste case 0: return "Not allowed"; 23262c23cb7cSEd Maste case 1: return "Allowed"; 23272c23cb7cSEd Maste default: 23282c23cb7cSEd Maste snprintf(s_fh, sizeof(s_fh), "Unknown(%ju)", (uintmax_t) fh); 23292c23cb7cSEd Maste return (s_fh); 23302c23cb7cSEd Maste } 23312c23cb7cSEd Maste } 23322c23cb7cSEd Maste 23332c23cb7cSEd Maste static const char * 23342c23cb7cSEd Maste aeabi_optm_goal(uint64_t og) 23352c23cb7cSEd Maste { 23362c23cb7cSEd Maste static char s_og[32]; 23372c23cb7cSEd Maste 23382c23cb7cSEd Maste switch (og) { 23392c23cb7cSEd Maste case 0: return "None"; 23402c23cb7cSEd Maste case 1: return "Speed"; 23412c23cb7cSEd Maste case 2: return "Speed aggressive"; 23422c23cb7cSEd Maste case 3: return "Space"; 23432c23cb7cSEd Maste case 4: return "Space aggressive"; 23442c23cb7cSEd Maste case 5: return "Debugging"; 23452c23cb7cSEd Maste case 6: return "Best Debugging"; 23462c23cb7cSEd Maste default: 23472c23cb7cSEd Maste snprintf(s_og, sizeof(s_og), "Unknown(%ju)", (uintmax_t) og); 23482c23cb7cSEd Maste return (s_og); 23492c23cb7cSEd Maste } 23502c23cb7cSEd Maste } 23512c23cb7cSEd Maste 23522c23cb7cSEd Maste static const char * 23532c23cb7cSEd Maste aeabi_fp_optm_goal(uint64_t fog) 23542c23cb7cSEd Maste { 23552c23cb7cSEd Maste static char s_fog[32]; 23562c23cb7cSEd Maste 23572c23cb7cSEd Maste switch (fog) { 23582c23cb7cSEd Maste case 0: return "None"; 23592c23cb7cSEd Maste case 1: return "Speed"; 23602c23cb7cSEd Maste case 2: return "Speed aggressive"; 23612c23cb7cSEd Maste case 3: return "Space"; 23622c23cb7cSEd Maste case 4: return "Space aggressive"; 23632c23cb7cSEd Maste case 5: return "Accurary"; 23642c23cb7cSEd Maste case 6: return "Best Accurary"; 23652c23cb7cSEd Maste default: 23662c23cb7cSEd Maste snprintf(s_fog, sizeof(s_fog), "Unknown(%ju)", 23672c23cb7cSEd Maste (uintmax_t) fog); 23682c23cb7cSEd Maste return (s_fog); 23692c23cb7cSEd Maste } 23702c23cb7cSEd Maste } 23712c23cb7cSEd Maste 23722c23cb7cSEd Maste static const char * 23732c23cb7cSEd Maste aeabi_virtual(uint64_t vt) 23742c23cb7cSEd Maste { 23752c23cb7cSEd Maste static char s_virtual[64]; 23762c23cb7cSEd Maste 23772c23cb7cSEd Maste switch (vt) { 23782c23cb7cSEd Maste case 0: return "No"; 23792c23cb7cSEd Maste case 1: return "TrustZone"; 23802c23cb7cSEd Maste case 2: return "Virtualization extension"; 23812c23cb7cSEd Maste case 3: return "TrustZone and virtualization extension"; 23822c23cb7cSEd Maste default: 23832c23cb7cSEd Maste snprintf(s_virtual, sizeof(s_virtual), "Unknown(%ju)", 23842c23cb7cSEd Maste (uintmax_t) vt); 23852c23cb7cSEd Maste return (s_virtual); 23862c23cb7cSEd Maste } 23872c23cb7cSEd Maste } 23882c23cb7cSEd Maste 23892c23cb7cSEd Maste static struct { 23902c23cb7cSEd Maste uint64_t tag; 23912c23cb7cSEd Maste const char *s_tag; 23922c23cb7cSEd Maste const char *(*get_desc)(uint64_t val); 23932c23cb7cSEd Maste } aeabi_tags[] = { 23942c23cb7cSEd Maste {4, "Tag_CPU_raw_name", NULL}, 23952c23cb7cSEd Maste {5, "Tag_CPU_name", NULL}, 23962c23cb7cSEd Maste {6, "Tag_CPU_arch", aeabi_cpu_arch}, 23972c23cb7cSEd Maste {7, "Tag_CPU_arch_profile", aeabi_cpu_arch_profile}, 23982c23cb7cSEd Maste {8, "Tag_ARM_ISA_use", aeabi_arm_isa}, 23992c23cb7cSEd Maste {9, "Tag_THUMB_ISA_use", aeabi_thumb_isa}, 24002c23cb7cSEd Maste {10, "Tag_FP_arch", aeabi_fp_arch}, 24012c23cb7cSEd Maste {11, "Tag_WMMX_arch", aeabi_wmmx_arch}, 24022c23cb7cSEd Maste {12, "Tag_Advanced_SIMD_arch", aeabi_adv_simd_arch}, 24032c23cb7cSEd Maste {13, "Tag_PCS_config", aeabi_pcs_config}, 24042c23cb7cSEd Maste {14, "Tag_ABI_PCS_R9_use", aeabi_pcs_r9}, 24052c23cb7cSEd Maste {15, "Tag_ABI_PCS_RW_data", aeabi_pcs_rw}, 24062c23cb7cSEd Maste {16, "Tag_ABI_PCS_RO_data", aeabi_pcs_ro}, 24072c23cb7cSEd Maste {17, "Tag_ABI_PCS_GOT_use", aeabi_pcs_got}, 24082c23cb7cSEd Maste {18, "Tag_ABI_PCS_wchar_t", aeabi_pcs_wchar_t}, 24092c23cb7cSEd Maste {19, "Tag_ABI_FP_rounding", aeabi_fp_rounding}, 24102c23cb7cSEd Maste {20, "Tag_ABI_FP_denormal", aeabi_fp_denormal}, 24112c23cb7cSEd Maste {21, "Tag_ABI_FP_exceptions", aeabi_fp_exceptions}, 24122c23cb7cSEd Maste {22, "Tag_ABI_FP_user_exceptions", aeabi_fp_user_exceptions}, 24132c23cb7cSEd Maste {23, "Tag_ABI_FP_number_model", aeabi_fp_number_model}, 24142c23cb7cSEd Maste {24, "Tag_ABI_align_needed", aeabi_align_needed}, 24152c23cb7cSEd Maste {25, "Tag_ABI_align_preserved", aeabi_align_preserved}, 24162c23cb7cSEd Maste {26, "Tag_ABI_enum_size", aeabi_enum_size}, 24172c23cb7cSEd Maste {27, "Tag_ABI_HardFP_use", aeabi_hardfp}, 24182c23cb7cSEd Maste {28, "Tag_ABI_VFP_args", aeabi_vfp_args}, 24192c23cb7cSEd Maste {29, "Tag_ABI_WMMX_args", aeabi_wmmx_args}, 24202c23cb7cSEd Maste {30, "Tag_ABI_optimization_goals", aeabi_optm_goal}, 24212c23cb7cSEd Maste {31, "Tag_ABI_FP_optimization_goals", aeabi_fp_optm_goal}, 24222c23cb7cSEd Maste {32, "Tag_compatibility", NULL}, 24232c23cb7cSEd Maste {34, "Tag_CPU_unaligned_access", aeabi_unaligned_access}, 24242c23cb7cSEd Maste {36, "Tag_FP_HP_extension", aeabi_fp_hpext}, 24252c23cb7cSEd Maste {38, "Tag_ABI_FP_16bit_format", aeabi_fp_16bit_format}, 24262c23cb7cSEd Maste {42, "Tag_MPextension_use", aeabi_mpext}, 24272c23cb7cSEd Maste {44, "Tag_DIV_use", aeabi_div}, 24282c23cb7cSEd Maste {64, "Tag_nodefaults", NULL}, 24292c23cb7cSEd Maste {65, "Tag_also_compatible_with", NULL}, 24302c23cb7cSEd Maste {66, "Tag_T2EE_use", aeabi_t2ee}, 24312c23cb7cSEd Maste {67, "Tag_conformance", NULL}, 24322c23cb7cSEd Maste {68, "Tag_Virtualization_use", aeabi_virtual}, 24332c23cb7cSEd Maste {70, "Tag_MPextension_use", aeabi_mpext}, 24342c23cb7cSEd Maste }; 24352c23cb7cSEd Maste 24362c23cb7cSEd Maste static const char * 24372c23cb7cSEd Maste mips_abi_fp(uint64_t fp) 24382c23cb7cSEd Maste { 24392c23cb7cSEd Maste static char s_mips_abi_fp[64]; 24402c23cb7cSEd Maste 24412c23cb7cSEd Maste switch (fp) { 24422c23cb7cSEd Maste case 0: return "N/A"; 24432c23cb7cSEd Maste case 1: return "Hard float (double precision)"; 24442c23cb7cSEd Maste case 2: return "Hard float (single precision)"; 24452c23cb7cSEd Maste case 3: return "Soft float"; 24462c23cb7cSEd Maste case 4: return "64-bit float (-mips32r2 -mfp64)"; 24472c23cb7cSEd Maste default: 24482c23cb7cSEd Maste snprintf(s_mips_abi_fp, sizeof(s_mips_abi_fp), "Unknown(%ju)", 24492c23cb7cSEd Maste (uintmax_t) fp); 24502c23cb7cSEd Maste return (s_mips_abi_fp); 24512c23cb7cSEd Maste } 24522c23cb7cSEd Maste } 24532c23cb7cSEd Maste 24542c23cb7cSEd Maste static const char * 24552c23cb7cSEd Maste ppc_abi_fp(uint64_t fp) 24562c23cb7cSEd Maste { 24572c23cb7cSEd Maste static char s_ppc_abi_fp[64]; 24582c23cb7cSEd Maste 24592c23cb7cSEd Maste switch (fp) { 24602c23cb7cSEd Maste case 0: return "N/A"; 24612c23cb7cSEd Maste case 1: return "Hard float (double precision)"; 24622c23cb7cSEd Maste case 2: return "Soft float"; 24632c23cb7cSEd Maste case 3: return "Hard float (single precision)"; 24642c23cb7cSEd Maste default: 24652c23cb7cSEd Maste snprintf(s_ppc_abi_fp, sizeof(s_ppc_abi_fp), "Unknown(%ju)", 24662c23cb7cSEd Maste (uintmax_t) fp); 24672c23cb7cSEd Maste return (s_ppc_abi_fp); 24682c23cb7cSEd Maste } 24692c23cb7cSEd Maste } 24702c23cb7cSEd Maste 24712c23cb7cSEd Maste static const char * 24722c23cb7cSEd Maste ppc_abi_vector(uint64_t vec) 24732c23cb7cSEd Maste { 24742c23cb7cSEd Maste static char s_vec[64]; 24752c23cb7cSEd Maste 24762c23cb7cSEd Maste switch (vec) { 24772c23cb7cSEd Maste case 0: return "N/A"; 24782c23cb7cSEd Maste case 1: return "Generic purpose registers"; 24792c23cb7cSEd Maste case 2: return "AltiVec registers"; 24802c23cb7cSEd Maste case 3: return "SPE registers"; 24812c23cb7cSEd Maste default: 24822c23cb7cSEd Maste snprintf(s_vec, sizeof(s_vec), "Unknown(%ju)", (uintmax_t) vec); 24832c23cb7cSEd Maste return (s_vec); 24842c23cb7cSEd Maste } 24852c23cb7cSEd Maste } 24862c23cb7cSEd Maste 2487cf781b2eSEd Maste static const char * 2488cf781b2eSEd Maste dwarf_reg(unsigned int mach, unsigned int reg) 2489cf781b2eSEd Maste { 2490cf781b2eSEd Maste 2491cf781b2eSEd Maste switch (mach) { 2492cf781b2eSEd Maste case EM_386: 24933ef90571SEd Maste case EM_IAMCU: 2494cf781b2eSEd Maste switch (reg) { 2495cf781b2eSEd Maste case 0: return "eax"; 2496cf781b2eSEd Maste case 1: return "ecx"; 2497cf781b2eSEd Maste case 2: return "edx"; 2498cf781b2eSEd Maste case 3: return "ebx"; 2499cf781b2eSEd Maste case 4: return "esp"; 2500cf781b2eSEd Maste case 5: return "ebp"; 2501cf781b2eSEd Maste case 6: return "esi"; 2502cf781b2eSEd Maste case 7: return "edi"; 2503cf781b2eSEd Maste case 8: return "eip"; 2504cf781b2eSEd Maste case 9: return "eflags"; 2505cf781b2eSEd Maste case 11: return "st0"; 2506cf781b2eSEd Maste case 12: return "st1"; 2507cf781b2eSEd Maste case 13: return "st2"; 2508cf781b2eSEd Maste case 14: return "st3"; 2509cf781b2eSEd Maste case 15: return "st4"; 2510cf781b2eSEd Maste case 16: return "st5"; 2511cf781b2eSEd Maste case 17: return "st6"; 2512cf781b2eSEd Maste case 18: return "st7"; 2513cf781b2eSEd Maste case 21: return "xmm0"; 2514cf781b2eSEd Maste case 22: return "xmm1"; 2515cf781b2eSEd Maste case 23: return "xmm2"; 2516cf781b2eSEd Maste case 24: return "xmm3"; 2517cf781b2eSEd Maste case 25: return "xmm4"; 2518cf781b2eSEd Maste case 26: return "xmm5"; 2519cf781b2eSEd Maste case 27: return "xmm6"; 2520cf781b2eSEd Maste case 28: return "xmm7"; 2521cf781b2eSEd Maste case 29: return "mm0"; 2522cf781b2eSEd Maste case 30: return "mm1"; 2523cf781b2eSEd Maste case 31: return "mm2"; 2524cf781b2eSEd Maste case 32: return "mm3"; 2525cf781b2eSEd Maste case 33: return "mm4"; 2526cf781b2eSEd Maste case 34: return "mm5"; 2527cf781b2eSEd Maste case 35: return "mm6"; 2528cf781b2eSEd Maste case 36: return "mm7"; 2529cf781b2eSEd Maste case 37: return "fcw"; 2530cf781b2eSEd Maste case 38: return "fsw"; 2531cf781b2eSEd Maste case 39: return "mxcsr"; 2532cf781b2eSEd Maste case 40: return "es"; 2533cf781b2eSEd Maste case 41: return "cs"; 2534cf781b2eSEd Maste case 42: return "ss"; 2535cf781b2eSEd Maste case 43: return "ds"; 2536cf781b2eSEd Maste case 44: return "fs"; 2537cf781b2eSEd Maste case 45: return "gs"; 2538cf781b2eSEd Maste case 48: return "tr"; 2539cf781b2eSEd Maste case 49: return "ldtr"; 2540cf781b2eSEd Maste default: return (NULL); 2541cf781b2eSEd Maste } 2542cf781b2eSEd Maste case EM_X86_64: 2543cf781b2eSEd Maste switch (reg) { 2544cf781b2eSEd Maste case 0: return "rax"; 2545cf781b2eSEd Maste case 1: return "rdx"; 2546cf781b2eSEd Maste case 2: return "rcx"; 2547cf781b2eSEd Maste case 3: return "rbx"; 2548cf781b2eSEd Maste case 4: return "rsi"; 2549cf781b2eSEd Maste case 5: return "rdi"; 2550cf781b2eSEd Maste case 6: return "rbp"; 2551cf781b2eSEd Maste case 7: return "rsp"; 2552cf781b2eSEd Maste case 16: return "rip"; 2553cf781b2eSEd Maste case 17: return "xmm0"; 2554cf781b2eSEd Maste case 18: return "xmm1"; 2555cf781b2eSEd Maste case 19: return "xmm2"; 2556cf781b2eSEd Maste case 20: return "xmm3"; 2557cf781b2eSEd Maste case 21: return "xmm4"; 2558cf781b2eSEd Maste case 22: return "xmm5"; 2559cf781b2eSEd Maste case 23: return "xmm6"; 2560cf781b2eSEd Maste case 24: return "xmm7"; 2561cf781b2eSEd Maste case 25: return "xmm8"; 2562cf781b2eSEd Maste case 26: return "xmm9"; 2563cf781b2eSEd Maste case 27: return "xmm10"; 2564cf781b2eSEd Maste case 28: return "xmm11"; 2565cf781b2eSEd Maste case 29: return "xmm12"; 2566cf781b2eSEd Maste case 30: return "xmm13"; 2567cf781b2eSEd Maste case 31: return "xmm14"; 2568cf781b2eSEd Maste case 32: return "xmm15"; 2569cf781b2eSEd Maste case 33: return "st0"; 2570cf781b2eSEd Maste case 34: return "st1"; 2571cf781b2eSEd Maste case 35: return "st2"; 2572cf781b2eSEd Maste case 36: return "st3"; 2573cf781b2eSEd Maste case 37: return "st4"; 2574cf781b2eSEd Maste case 38: return "st5"; 2575cf781b2eSEd Maste case 39: return "st6"; 2576cf781b2eSEd Maste case 40: return "st7"; 2577cf781b2eSEd Maste case 41: return "mm0"; 2578cf781b2eSEd Maste case 42: return "mm1"; 2579cf781b2eSEd Maste case 43: return "mm2"; 2580cf781b2eSEd Maste case 44: return "mm3"; 2581cf781b2eSEd Maste case 45: return "mm4"; 2582cf781b2eSEd Maste case 46: return "mm5"; 2583cf781b2eSEd Maste case 47: return "mm6"; 2584cf781b2eSEd Maste case 48: return "mm7"; 2585cf781b2eSEd Maste case 49: return "rflags"; 2586cf781b2eSEd Maste case 50: return "es"; 2587cf781b2eSEd Maste case 51: return "cs"; 2588cf781b2eSEd Maste case 52: return "ss"; 2589cf781b2eSEd Maste case 53: return "ds"; 2590cf781b2eSEd Maste case 54: return "fs"; 2591cf781b2eSEd Maste case 55: return "gs"; 2592cf781b2eSEd Maste case 58: return "fs.base"; 2593cf781b2eSEd Maste case 59: return "gs.base"; 2594cf781b2eSEd Maste case 62: return "tr"; 2595cf781b2eSEd Maste case 63: return "ldtr"; 2596cf781b2eSEd Maste case 64: return "mxcsr"; 2597cf781b2eSEd Maste case 65: return "fcw"; 2598cf781b2eSEd Maste case 66: return "fsw"; 2599cf781b2eSEd Maste default: return (NULL); 2600cf781b2eSEd Maste } 2601cf781b2eSEd Maste default: 2602cf781b2eSEd Maste return (NULL); 2603cf781b2eSEd Maste } 2604cf781b2eSEd Maste } 2605cf781b2eSEd Maste 26062c23cb7cSEd Maste static void 26072c23cb7cSEd Maste dump_ehdr(struct readelf *re) 26082c23cb7cSEd Maste { 26092c23cb7cSEd Maste size_t shnum, shstrndx; 26102c23cb7cSEd Maste int i; 26112c23cb7cSEd Maste 26122c23cb7cSEd Maste printf("ELF Header:\n"); 26132c23cb7cSEd Maste 26142c23cb7cSEd Maste /* e_ident[]. */ 26152c23cb7cSEd Maste printf(" Magic: "); 26162c23cb7cSEd Maste for (i = 0; i < EI_NIDENT; i++) 26172c23cb7cSEd Maste printf("%.2x ", re->ehdr.e_ident[i]); 26182c23cb7cSEd Maste putchar('\n'); 26192c23cb7cSEd Maste 26202c23cb7cSEd Maste /* EI_CLASS. */ 26212c23cb7cSEd Maste printf("%-37s%s\n", " Class:", elf_class(re->ehdr.e_ident[EI_CLASS])); 26222c23cb7cSEd Maste 26232c23cb7cSEd Maste /* EI_DATA. */ 26242c23cb7cSEd Maste printf("%-37s%s\n", " Data:", elf_endian(re->ehdr.e_ident[EI_DATA])); 26252c23cb7cSEd Maste 26262c23cb7cSEd Maste /* EI_VERSION. */ 26272c23cb7cSEd Maste printf("%-37s%d %s\n", " Version:", re->ehdr.e_ident[EI_VERSION], 26282c23cb7cSEd Maste elf_ver(re->ehdr.e_ident[EI_VERSION])); 26292c23cb7cSEd Maste 26302c23cb7cSEd Maste /* EI_OSABI. */ 26312c23cb7cSEd Maste printf("%-37s%s\n", " OS/ABI:", elf_osabi(re->ehdr.e_ident[EI_OSABI])); 26322c23cb7cSEd Maste 26332c23cb7cSEd Maste /* EI_ABIVERSION. */ 26342c23cb7cSEd Maste printf("%-37s%d\n", " ABI Version:", re->ehdr.e_ident[EI_ABIVERSION]); 26352c23cb7cSEd Maste 26362c23cb7cSEd Maste /* e_type. */ 26372c23cb7cSEd Maste printf("%-37s%s\n", " Type:", elf_type(re->ehdr.e_type)); 26382c23cb7cSEd Maste 26392c23cb7cSEd Maste /* e_machine. */ 26402c23cb7cSEd Maste printf("%-37s%s\n", " Machine:", elf_machine(re->ehdr.e_machine)); 26412c23cb7cSEd Maste 26422c23cb7cSEd Maste /* e_version. */ 26432c23cb7cSEd Maste printf("%-37s%#x\n", " Version:", re->ehdr.e_version); 26442c23cb7cSEd Maste 26452c23cb7cSEd Maste /* e_entry. */ 26462c23cb7cSEd Maste printf("%-37s%#jx\n", " Entry point address:", 26472c23cb7cSEd Maste (uintmax_t)re->ehdr.e_entry); 26482c23cb7cSEd Maste 26492c23cb7cSEd Maste /* e_phoff. */ 26502c23cb7cSEd Maste printf("%-37s%ju (bytes into file)\n", " Start of program headers:", 26512c23cb7cSEd Maste (uintmax_t)re->ehdr.e_phoff); 26522c23cb7cSEd Maste 26532c23cb7cSEd Maste /* e_shoff. */ 26542c23cb7cSEd Maste printf("%-37s%ju (bytes into file)\n", " Start of section headers:", 26552c23cb7cSEd Maste (uintmax_t)re->ehdr.e_shoff); 26562c23cb7cSEd Maste 26572c23cb7cSEd Maste /* e_flags. */ 26582c23cb7cSEd Maste printf("%-37s%#x", " Flags:", re->ehdr.e_flags); 26592c23cb7cSEd Maste dump_eflags(re, re->ehdr.e_flags); 26602c23cb7cSEd Maste putchar('\n'); 26612c23cb7cSEd Maste 26622c23cb7cSEd Maste /* e_ehsize. */ 26632c23cb7cSEd Maste printf("%-37s%u (bytes)\n", " Size of this header:", 26642c23cb7cSEd Maste re->ehdr.e_ehsize); 26652c23cb7cSEd Maste 26662c23cb7cSEd Maste /* e_phentsize. */ 26672c23cb7cSEd Maste printf("%-37s%u (bytes)\n", " Size of program headers:", 26682c23cb7cSEd Maste re->ehdr.e_phentsize); 26692c23cb7cSEd Maste 26702c23cb7cSEd Maste /* e_phnum. */ 26712c23cb7cSEd Maste printf("%-37s%u\n", " Number of program headers:", re->ehdr.e_phnum); 26722c23cb7cSEd Maste 26732c23cb7cSEd Maste /* e_shentsize. */ 26742c23cb7cSEd Maste printf("%-37s%u (bytes)\n", " Size of section headers:", 26752c23cb7cSEd Maste re->ehdr.e_shentsize); 26762c23cb7cSEd Maste 26772c23cb7cSEd Maste /* e_shnum. */ 26782c23cb7cSEd Maste printf("%-37s%u", " Number of section headers:", re->ehdr.e_shnum); 26792c23cb7cSEd Maste if (re->ehdr.e_shnum == SHN_UNDEF) { 26802c23cb7cSEd Maste /* Extended section numbering is in use. */ 26812c23cb7cSEd Maste if (elf_getshnum(re->elf, &shnum)) 26822c23cb7cSEd Maste printf(" (%ju)", (uintmax_t)shnum); 26832c23cb7cSEd Maste } 26842c23cb7cSEd Maste putchar('\n'); 26852c23cb7cSEd Maste 26862c23cb7cSEd Maste /* e_shstrndx. */ 26872c23cb7cSEd Maste printf("%-37s%u", " Section header string table index:", 26882c23cb7cSEd Maste re->ehdr.e_shstrndx); 26892c23cb7cSEd Maste if (re->ehdr.e_shstrndx == SHN_XINDEX) { 26902c23cb7cSEd Maste /* Extended section numbering is in use. */ 26912c23cb7cSEd Maste if (elf_getshstrndx(re->elf, &shstrndx)) 26922c23cb7cSEd Maste printf(" (%ju)", (uintmax_t)shstrndx); 26932c23cb7cSEd Maste } 26942c23cb7cSEd Maste putchar('\n'); 26952c23cb7cSEd Maste } 26962c23cb7cSEd Maste 26972c23cb7cSEd Maste static void 26982c23cb7cSEd Maste dump_eflags(struct readelf *re, uint64_t e_flags) 26992c23cb7cSEd Maste { 27002c23cb7cSEd Maste struct eflags_desc *edesc; 27012c23cb7cSEd Maste int arm_eabi; 27022c23cb7cSEd Maste 27032c23cb7cSEd Maste edesc = NULL; 27042c23cb7cSEd Maste switch (re->ehdr.e_machine) { 27052c23cb7cSEd Maste case EM_ARM: 27062c23cb7cSEd Maste arm_eabi = (e_flags & EF_ARM_EABIMASK) >> 24; 27072c23cb7cSEd Maste if (arm_eabi == 0) 27082c23cb7cSEd Maste printf(", GNU EABI"); 27092c23cb7cSEd Maste else if (arm_eabi <= 5) 27102c23cb7cSEd Maste printf(", Version%d EABI", arm_eabi); 27112c23cb7cSEd Maste edesc = arm_eflags_desc; 27122c23cb7cSEd Maste break; 27132c23cb7cSEd Maste case EM_MIPS: 27142c23cb7cSEd Maste case EM_MIPS_RS3_LE: 27152c23cb7cSEd Maste switch ((e_flags & EF_MIPS_ARCH) >> 28) { 27162c23cb7cSEd Maste case 0: printf(", mips1"); break; 27172c23cb7cSEd Maste case 1: printf(", mips2"); break; 27182c23cb7cSEd Maste case 2: printf(", mips3"); break; 27192c23cb7cSEd Maste case 3: printf(", mips4"); break; 27202c23cb7cSEd Maste case 4: printf(", mips5"); break; 27212c23cb7cSEd Maste case 5: printf(", mips32"); break; 27222c23cb7cSEd Maste case 6: printf(", mips64"); break; 27232c23cb7cSEd Maste case 7: printf(", mips32r2"); break; 27242c23cb7cSEd Maste case 8: printf(", mips64r2"); break; 27252c23cb7cSEd Maste default: break; 27262c23cb7cSEd Maste } 27272c23cb7cSEd Maste switch ((e_flags & 0x00FF0000) >> 16) { 27282c23cb7cSEd Maste case 0x81: printf(", 3900"); break; 27292c23cb7cSEd Maste case 0x82: printf(", 4010"); break; 27302c23cb7cSEd Maste case 0x83: printf(", 4100"); break; 27312c23cb7cSEd Maste case 0x85: printf(", 4650"); break; 27322c23cb7cSEd Maste case 0x87: printf(", 4120"); break; 27332c23cb7cSEd Maste case 0x88: printf(", 4111"); break; 27342c23cb7cSEd Maste case 0x8a: printf(", sb1"); break; 27352c23cb7cSEd Maste case 0x8b: printf(", octeon"); break; 27362c23cb7cSEd Maste case 0x8c: printf(", xlr"); break; 27372c23cb7cSEd Maste case 0x91: printf(", 5400"); break; 27382c23cb7cSEd Maste case 0x98: printf(", 5500"); break; 27392c23cb7cSEd Maste case 0x99: printf(", 9000"); break; 27402c23cb7cSEd Maste case 0xa0: printf(", loongson-2e"); break; 27412c23cb7cSEd Maste case 0xa1: printf(", loongson-2f"); break; 27422c23cb7cSEd Maste default: break; 27432c23cb7cSEd Maste } 27442c23cb7cSEd Maste switch ((e_flags & 0x0000F000) >> 12) { 27452c23cb7cSEd Maste case 1: printf(", o32"); break; 27462c23cb7cSEd Maste case 2: printf(", o64"); break; 27472c23cb7cSEd Maste case 3: printf(", eabi32"); break; 27482c23cb7cSEd Maste case 4: printf(", eabi64"); break; 27492c23cb7cSEd Maste default: break; 27502c23cb7cSEd Maste } 27512c23cb7cSEd Maste edesc = mips_eflags_desc; 27522c23cb7cSEd Maste break; 27532c23cb7cSEd Maste case EM_PPC: 27542c23cb7cSEd Maste case EM_PPC64: 27552c23cb7cSEd Maste edesc = powerpc_eflags_desc; 27562c23cb7cSEd Maste break; 27572c23cb7cSEd Maste case EM_SPARC: 27582c23cb7cSEd Maste case EM_SPARC32PLUS: 27592c23cb7cSEd Maste case EM_SPARCV9: 27602c23cb7cSEd Maste switch ((e_flags & EF_SPARCV9_MM)) { 27612c23cb7cSEd Maste case EF_SPARCV9_TSO: printf(", tso"); break; 27622c23cb7cSEd Maste case EF_SPARCV9_PSO: printf(", pso"); break; 27632c23cb7cSEd Maste case EF_SPARCV9_MM: printf(", rmo"); break; 27642c23cb7cSEd Maste default: break; 27652c23cb7cSEd Maste } 27662c23cb7cSEd Maste edesc = sparc_eflags_desc; 27672c23cb7cSEd Maste break; 27682c23cb7cSEd Maste default: 27692c23cb7cSEd Maste break; 27702c23cb7cSEd Maste } 27712c23cb7cSEd Maste 27722c23cb7cSEd Maste if (edesc != NULL) { 27732c23cb7cSEd Maste while (edesc->desc != NULL) { 27742c23cb7cSEd Maste if (e_flags & edesc->flag) 27752c23cb7cSEd Maste printf(", %s", edesc->desc); 27762c23cb7cSEd Maste edesc++; 27772c23cb7cSEd Maste } 27782c23cb7cSEd Maste } 27792c23cb7cSEd Maste } 27802c23cb7cSEd Maste 27812c23cb7cSEd Maste static void 27822c23cb7cSEd Maste dump_phdr(struct readelf *re) 27832c23cb7cSEd Maste { 27842c23cb7cSEd Maste const char *rawfile; 27852c23cb7cSEd Maste GElf_Phdr phdr; 2786b00fe64fSEd Maste size_t phnum, size; 27872c23cb7cSEd Maste int i, j; 27882c23cb7cSEd Maste 27892c23cb7cSEd Maste #define PH_HDR "Type", "Offset", "VirtAddr", "PhysAddr", "FileSiz", \ 27902c23cb7cSEd Maste "MemSiz", "Flg", "Align" 27912c23cb7cSEd Maste #define PH_CT phdr_type(phdr.p_type), (uintmax_t)phdr.p_offset, \ 27922c23cb7cSEd Maste (uintmax_t)phdr.p_vaddr, (uintmax_t)phdr.p_paddr, \ 27932c23cb7cSEd Maste (uintmax_t)phdr.p_filesz, (uintmax_t)phdr.p_memsz, \ 27942c23cb7cSEd Maste phdr.p_flags & PF_R ? 'R' : ' ', \ 27952c23cb7cSEd Maste phdr.p_flags & PF_W ? 'W' : ' ', \ 27962c23cb7cSEd Maste phdr.p_flags & PF_X ? 'E' : ' ', \ 27972c23cb7cSEd Maste (uintmax_t)phdr.p_align 27982c23cb7cSEd Maste 27992c23cb7cSEd Maste if (elf_getphnum(re->elf, &phnum) == 0) { 28002c23cb7cSEd Maste warnx("elf_getphnum failed: %s", elf_errmsg(-1)); 28012c23cb7cSEd Maste return; 28022c23cb7cSEd Maste } 28032c23cb7cSEd Maste if (phnum == 0) { 28042c23cb7cSEd Maste printf("\nThere are no program headers in this file.\n"); 28052c23cb7cSEd Maste return; 28062c23cb7cSEd Maste } 28072c23cb7cSEd Maste 28082c23cb7cSEd Maste printf("\nElf file type is %s", elf_type(re->ehdr.e_type)); 28092c23cb7cSEd Maste printf("\nEntry point 0x%jx\n", (uintmax_t)re->ehdr.e_entry); 28102c23cb7cSEd Maste printf("There are %ju program headers, starting at offset %ju\n", 28112c23cb7cSEd Maste (uintmax_t)phnum, (uintmax_t)re->ehdr.e_phoff); 28122c23cb7cSEd Maste 28132c23cb7cSEd Maste /* Dump program headers. */ 28142c23cb7cSEd Maste printf("\nProgram Headers:\n"); 28152c23cb7cSEd Maste if (re->ec == ELFCLASS32) 28162c23cb7cSEd Maste printf(" %-15s%-9s%-11s%-11s%-8s%-8s%-4s%s\n", PH_HDR); 28172c23cb7cSEd Maste else if (re->options & RE_WW) 28182c23cb7cSEd Maste printf(" %-15s%-9s%-19s%-19s%-9s%-9s%-4s%s\n", PH_HDR); 28192c23cb7cSEd Maste else 28202c23cb7cSEd Maste printf(" %-15s%-19s%-19s%s\n %-19s%-20s" 28212c23cb7cSEd Maste "%-7s%s\n", PH_HDR); 28222c23cb7cSEd Maste for (i = 0; (size_t) i < phnum; i++) { 28232c23cb7cSEd Maste if (gelf_getphdr(re->elf, i, &phdr) != &phdr) { 28242c23cb7cSEd Maste warnx("gelf_getphdr failed: %s", elf_errmsg(-1)); 28252c23cb7cSEd Maste continue; 28262c23cb7cSEd Maste } 28272c23cb7cSEd Maste /* TODO: Add arch-specific segment type dump. */ 28282c23cb7cSEd Maste if (re->ec == ELFCLASS32) 28292c23cb7cSEd Maste printf(" %-14.14s 0x%6.6jx 0x%8.8jx 0x%8.8jx " 28302c23cb7cSEd Maste "0x%5.5jx 0x%5.5jx %c%c%c %#jx\n", PH_CT); 28312c23cb7cSEd Maste else if (re->options & RE_WW) 28322c23cb7cSEd Maste printf(" %-14.14s 0x%6.6jx 0x%16.16jx 0x%16.16jx " 28332c23cb7cSEd Maste "0x%6.6jx 0x%6.6jx %c%c%c %#jx\n", PH_CT); 28342c23cb7cSEd Maste else 28352c23cb7cSEd Maste printf(" %-14.14s 0x%16.16jx 0x%16.16jx 0x%16.16jx\n" 28362c23cb7cSEd Maste " 0x%16.16jx 0x%16.16jx %c%c%c" 28372c23cb7cSEd Maste " %#jx\n", PH_CT); 28382c23cb7cSEd Maste if (phdr.p_type == PT_INTERP) { 2839b00fe64fSEd Maste if ((rawfile = elf_rawfile(re->elf, &size)) == NULL) { 28402c23cb7cSEd Maste warnx("elf_rawfile failed: %s", elf_errmsg(-1)); 28412c23cb7cSEd Maste continue; 28422c23cb7cSEd Maste } 2843b00fe64fSEd Maste if (phdr.p_offset >= size) { 2844b00fe64fSEd Maste warnx("invalid program header offset"); 2845b00fe64fSEd Maste continue; 2846b00fe64fSEd Maste } 28472c23cb7cSEd Maste printf(" [Requesting program interpreter: %s]\n", 28482c23cb7cSEd Maste rawfile + phdr.p_offset); 28492c23cb7cSEd Maste } 28502c23cb7cSEd Maste } 28512c23cb7cSEd Maste 28522c23cb7cSEd Maste /* Dump section to segment mapping. */ 28532c23cb7cSEd Maste if (re->shnum == 0) 28542c23cb7cSEd Maste return; 28552c23cb7cSEd Maste printf("\n Section to Segment mapping:\n"); 28562c23cb7cSEd Maste printf(" Segment Sections...\n"); 28572c23cb7cSEd Maste for (i = 0; (size_t)i < phnum; i++) { 28582c23cb7cSEd Maste if (gelf_getphdr(re->elf, i, &phdr) != &phdr) { 28592c23cb7cSEd Maste warnx("gelf_getphdr failed: %s", elf_errmsg(-1)); 28602c23cb7cSEd Maste continue; 28612c23cb7cSEd Maste } 28622c23cb7cSEd Maste printf(" %2.2d ", i); 28632c23cb7cSEd Maste /* skip NULL section. */ 28642c23cb7cSEd Maste for (j = 1; (size_t)j < re->shnum; j++) 2865*95fd7f26SEd Maste if (re->sl[j].addr >= phdr.p_vaddr && 2866*95fd7f26SEd Maste re->sl[j].addr + re->sl[j].sz <= 2867*95fd7f26SEd Maste phdr.p_vaddr + phdr.p_memsz) 28682c23cb7cSEd Maste printf("%s ", re->sl[j].name); 28692c23cb7cSEd Maste printf("\n"); 28702c23cb7cSEd Maste } 28712c23cb7cSEd Maste #undef PH_HDR 28722c23cb7cSEd Maste #undef PH_CT 28732c23cb7cSEd Maste } 28742c23cb7cSEd Maste 28752c23cb7cSEd Maste static char * 28762c23cb7cSEd Maste section_flags(struct readelf *re, struct section *s) 28772c23cb7cSEd Maste { 28782c23cb7cSEd Maste #define BUF_SZ 256 28792c23cb7cSEd Maste static char buf[BUF_SZ]; 28802c23cb7cSEd Maste int i, p, nb; 28812c23cb7cSEd Maste 28822c23cb7cSEd Maste p = 0; 28832c23cb7cSEd Maste nb = re->ec == ELFCLASS32 ? 8 : 16; 28842c23cb7cSEd Maste if (re->options & RE_T) { 28852c23cb7cSEd Maste snprintf(buf, BUF_SZ, "[%*.*jx]: ", nb, nb, 28862c23cb7cSEd Maste (uintmax_t)s->flags); 28872c23cb7cSEd Maste p += nb + 4; 28882c23cb7cSEd Maste } 28892c23cb7cSEd Maste for (i = 0; section_flag[i].ln != NULL; i++) { 28902c23cb7cSEd Maste if ((s->flags & section_flag[i].value) == 0) 28912c23cb7cSEd Maste continue; 28922c23cb7cSEd Maste if (re->options & RE_T) { 28932c23cb7cSEd Maste snprintf(&buf[p], BUF_SZ - p, "%s, ", 28942c23cb7cSEd Maste section_flag[i].ln); 28952c23cb7cSEd Maste p += strlen(section_flag[i].ln) + 2; 28962c23cb7cSEd Maste } else 28972c23cb7cSEd Maste buf[p++] = section_flag[i].sn; 28982c23cb7cSEd Maste } 28992c23cb7cSEd Maste if (re->options & RE_T && p > nb + 4) 29002c23cb7cSEd Maste p -= 2; 29012c23cb7cSEd Maste buf[p] = '\0'; 29022c23cb7cSEd Maste 29032c23cb7cSEd Maste return (buf); 29042c23cb7cSEd Maste } 29052c23cb7cSEd Maste 29062c23cb7cSEd Maste static void 29072c23cb7cSEd Maste dump_shdr(struct readelf *re) 29082c23cb7cSEd Maste { 29092c23cb7cSEd Maste struct section *s; 29102c23cb7cSEd Maste int i; 29112c23cb7cSEd Maste 29122c23cb7cSEd Maste #define S_HDR "[Nr] Name", "Type", "Addr", "Off", "Size", "ES", \ 29132c23cb7cSEd Maste "Flg", "Lk", "Inf", "Al" 29142c23cb7cSEd Maste #define S_HDRL "[Nr] Name", "Type", "Address", "Offset", "Size", \ 29152c23cb7cSEd Maste "EntSize", "Flags", "Link", "Info", "Align" 29162c23cb7cSEd Maste #define ST_HDR "[Nr] Name", "Type", "Addr", "Off", "Size", "ES", \ 29172c23cb7cSEd Maste "Lk", "Inf", "Al", "Flags" 29182c23cb7cSEd Maste #define ST_HDRL "[Nr] Name", "Type", "Address", "Offset", "Link", \ 29192c23cb7cSEd Maste "Size", "EntSize", "Info", "Align", "Flags" 29202c23cb7cSEd Maste #define S_CT i, s->name, section_type(re->ehdr.e_machine, s->type), \ 29212c23cb7cSEd Maste (uintmax_t)s->addr, (uintmax_t)s->off, (uintmax_t)s->sz,\ 29222c23cb7cSEd Maste (uintmax_t)s->entsize, section_flags(re, s), \ 29232c23cb7cSEd Maste s->link, s->info, (uintmax_t)s->align 29242c23cb7cSEd Maste #define ST_CT i, s->name, section_type(re->ehdr.e_machine, s->type), \ 29252c23cb7cSEd Maste (uintmax_t)s->addr, (uintmax_t)s->off, (uintmax_t)s->sz,\ 29262c23cb7cSEd Maste (uintmax_t)s->entsize, s->link, s->info, \ 29272c23cb7cSEd Maste (uintmax_t)s->align, section_flags(re, s) 29282c23cb7cSEd Maste #define ST_CTL i, s->name, section_type(re->ehdr.e_machine, s->type), \ 29292c23cb7cSEd Maste (uintmax_t)s->addr, (uintmax_t)s->off, s->link, \ 29302c23cb7cSEd Maste (uintmax_t)s->sz, (uintmax_t)s->entsize, s->info, \ 29312c23cb7cSEd Maste (uintmax_t)s->align, section_flags(re, s) 29322c23cb7cSEd Maste 29332c23cb7cSEd Maste if (re->shnum == 0) { 29342c23cb7cSEd Maste printf("\nThere are no sections in this file.\n"); 29352c23cb7cSEd Maste return; 29362c23cb7cSEd Maste } 29372c23cb7cSEd Maste printf("There are %ju section headers, starting at offset 0x%jx:\n", 29382c23cb7cSEd Maste (uintmax_t)re->shnum, (uintmax_t)re->ehdr.e_shoff); 29392c23cb7cSEd Maste printf("\nSection Headers:\n"); 29402c23cb7cSEd Maste if (re->ec == ELFCLASS32) { 29412c23cb7cSEd Maste if (re->options & RE_T) 29422c23cb7cSEd Maste printf(" %s\n %-16s%-9s%-7s%-7s%-5s%-3s%-4s%s\n" 29432c23cb7cSEd Maste "%12s\n", ST_HDR); 29442c23cb7cSEd Maste else 29452c23cb7cSEd Maste printf(" %-23s%-16s%-9s%-7s%-7s%-3s%-4s%-3s%-4s%s\n", 29462c23cb7cSEd Maste S_HDR); 29472c23cb7cSEd Maste } else if (re->options & RE_WW) { 29482c23cb7cSEd Maste if (re->options & RE_T) 29492c23cb7cSEd Maste printf(" %s\n %-16s%-17s%-7s%-7s%-5s%-3s%-4s%s\n" 29502c23cb7cSEd Maste "%12s\n", ST_HDR); 29512c23cb7cSEd Maste else 29522c23cb7cSEd Maste printf(" %-23s%-16s%-17s%-7s%-7s%-3s%-4s%-3s%-4s%s\n", 29532c23cb7cSEd Maste S_HDR); 29542c23cb7cSEd Maste } else { 29552c23cb7cSEd Maste if (re->options & RE_T) 29562c23cb7cSEd Maste printf(" %s\n %-18s%-17s%-18s%s\n %-18s" 29572c23cb7cSEd Maste "%-17s%-18s%s\n%12s\n", ST_HDRL); 29582c23cb7cSEd Maste else 29592c23cb7cSEd Maste printf(" %-23s%-17s%-18s%s\n %-18s%-17s%-7s%" 29602c23cb7cSEd Maste "-6s%-6s%s\n", S_HDRL); 29612c23cb7cSEd Maste } 29622c23cb7cSEd Maste for (i = 0; (size_t)i < re->shnum; i++) { 29632c23cb7cSEd Maste s = &re->sl[i]; 29642c23cb7cSEd Maste if (re->ec == ELFCLASS32) { 29652c23cb7cSEd Maste if (re->options & RE_T) 29662c23cb7cSEd Maste printf(" [%2d] %s\n %-15.15s %8.8jx" 29672c23cb7cSEd Maste " %6.6jx %6.6jx %2.2jx %2u %3u %2ju\n" 29682c23cb7cSEd Maste " %s\n", ST_CT); 29692c23cb7cSEd Maste else 29702c23cb7cSEd Maste printf(" [%2d] %-17.17s %-15.15s %8.8jx" 29712c23cb7cSEd Maste " %6.6jx %6.6jx %2.2jx %3s %2u %3u %2ju\n", 29722c23cb7cSEd Maste S_CT); 29732c23cb7cSEd Maste } else if (re->options & RE_WW) { 29742c23cb7cSEd Maste if (re->options & RE_T) 29752c23cb7cSEd Maste printf(" [%2d] %s\n %-15.15s %16.16jx" 29762c23cb7cSEd Maste " %6.6jx %6.6jx %2.2jx %2u %3u %2ju\n" 29772c23cb7cSEd Maste " %s\n", ST_CT); 29782c23cb7cSEd Maste else 29792c23cb7cSEd Maste printf(" [%2d] %-17.17s %-15.15s %16.16jx" 29802c23cb7cSEd Maste " %6.6jx %6.6jx %2.2jx %3s %2u %3u %2ju\n", 29812c23cb7cSEd Maste S_CT); 29822c23cb7cSEd Maste } else { 29832c23cb7cSEd Maste if (re->options & RE_T) 29842c23cb7cSEd Maste printf(" [%2d] %s\n %-15.15s %16.16jx" 29852c23cb7cSEd Maste " %16.16jx %u\n %16.16jx %16.16jx" 29862c23cb7cSEd Maste " %-16u %ju\n %s\n", ST_CTL); 29872c23cb7cSEd Maste else 29882c23cb7cSEd Maste printf(" [%2d] %-17.17s %-15.15s %16.16jx" 29892c23cb7cSEd Maste " %8.8jx\n %16.16jx %16.16jx " 29902c23cb7cSEd Maste "%3s %2u %3u %ju\n", S_CT); 29912c23cb7cSEd Maste } 29922c23cb7cSEd Maste } 29932c23cb7cSEd Maste if ((re->options & RE_T) == 0) 29942c23cb7cSEd Maste printf("Key to Flags:\n W (write), A (alloc)," 29952c23cb7cSEd Maste " X (execute), M (merge), S (strings)\n" 29962c23cb7cSEd Maste " I (info), L (link order), G (group), x (unknown)\n" 29972c23cb7cSEd Maste " O (extra OS processing required)" 29982c23cb7cSEd Maste " o (OS specific), p (processor specific)\n"); 29992c23cb7cSEd Maste 30002c23cb7cSEd Maste #undef S_HDR 30012c23cb7cSEd Maste #undef S_HDRL 30022c23cb7cSEd Maste #undef ST_HDR 30032c23cb7cSEd Maste #undef ST_HDRL 30042c23cb7cSEd Maste #undef S_CT 30052c23cb7cSEd Maste #undef ST_CT 30062c23cb7cSEd Maste #undef ST_CTL 30072c23cb7cSEd Maste } 30082c23cb7cSEd Maste 300971edbbfdSEd Maste /* 301071edbbfdSEd Maste * Return number of entries in the given section. We'd prefer ent_count be a 301171edbbfdSEd Maste * size_t *, but libelf APIs already use int for section indices. 301271edbbfdSEd Maste */ 301371edbbfdSEd Maste static int 301471edbbfdSEd Maste get_ent_count(struct section *s, int *ent_count) 301571edbbfdSEd Maste { 301671edbbfdSEd Maste if (s->entsize == 0) { 301771edbbfdSEd Maste warnx("section %s has entry size 0", s->name); 301871edbbfdSEd Maste return (0); 301971edbbfdSEd Maste } else if (s->sz / s->entsize > INT_MAX) { 302071edbbfdSEd Maste warnx("section %s has invalid section count", s->name); 302171edbbfdSEd Maste return (0); 302271edbbfdSEd Maste } 302371edbbfdSEd Maste *ent_count = (int)(s->sz / s->entsize); 302471edbbfdSEd Maste return (1); 302571edbbfdSEd Maste } 302671edbbfdSEd Maste 30272c23cb7cSEd Maste static void 30282c23cb7cSEd Maste dump_dynamic(struct readelf *re) 30292c23cb7cSEd Maste { 30302c23cb7cSEd Maste GElf_Dyn dyn; 30312c23cb7cSEd Maste Elf_Data *d; 30322c23cb7cSEd Maste struct section *s; 30332c23cb7cSEd Maste int elferr, i, is_dynamic, j, jmax, nentries; 30342c23cb7cSEd Maste 30352c23cb7cSEd Maste is_dynamic = 0; 30362c23cb7cSEd Maste 30372c23cb7cSEd Maste for (i = 0; (size_t)i < re->shnum; i++) { 30382c23cb7cSEd Maste s = &re->sl[i]; 30392c23cb7cSEd Maste if (s->type != SHT_DYNAMIC) 30402c23cb7cSEd Maste continue; 30412c23cb7cSEd Maste (void) elf_errno(); 30422c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 30432c23cb7cSEd Maste elferr = elf_errno(); 30442c23cb7cSEd Maste if (elferr != 0) 30452c23cb7cSEd Maste warnx("elf_getdata failed: %s", elf_errmsg(-1)); 30462c23cb7cSEd Maste continue; 30472c23cb7cSEd Maste } 30482c23cb7cSEd Maste if (d->d_size <= 0) 30492c23cb7cSEd Maste continue; 30502c23cb7cSEd Maste 30512c23cb7cSEd Maste is_dynamic = 1; 30522c23cb7cSEd Maste 30532c23cb7cSEd Maste /* Determine the actual number of table entries. */ 30542c23cb7cSEd Maste nentries = 0; 305571edbbfdSEd Maste if (!get_ent_count(s, &jmax)) 305671edbbfdSEd Maste continue; 30572c23cb7cSEd Maste for (j = 0; j < jmax; j++) { 30582c23cb7cSEd Maste if (gelf_getdyn(d, j, &dyn) != &dyn) { 30592c23cb7cSEd Maste warnx("gelf_getdyn failed: %s", 30602c23cb7cSEd Maste elf_errmsg(-1)); 30612c23cb7cSEd Maste continue; 30622c23cb7cSEd Maste } 30632c23cb7cSEd Maste nentries ++; 30642c23cb7cSEd Maste if (dyn.d_tag == DT_NULL) 30652c23cb7cSEd Maste break; 30662c23cb7cSEd Maste } 30672c23cb7cSEd Maste 30682c23cb7cSEd Maste printf("\nDynamic section at offset 0x%jx", (uintmax_t)s->off); 30692c23cb7cSEd Maste printf(" contains %u entries:\n", nentries); 30702c23cb7cSEd Maste 30712c23cb7cSEd Maste if (re->ec == ELFCLASS32) 30722c23cb7cSEd Maste printf("%5s%12s%28s\n", "Tag", "Type", "Name/Value"); 30732c23cb7cSEd Maste else 30742c23cb7cSEd Maste printf("%5s%20s%28s\n", "Tag", "Type", "Name/Value"); 30752c23cb7cSEd Maste 30762c23cb7cSEd Maste for (j = 0; j < nentries; j++) { 30772c23cb7cSEd Maste if (gelf_getdyn(d, j, &dyn) != &dyn) 30782c23cb7cSEd Maste continue; 30792c23cb7cSEd Maste /* Dump dynamic entry type. */ 30802c23cb7cSEd Maste if (re->ec == ELFCLASS32) 30812c23cb7cSEd Maste printf(" 0x%8.8jx", (uintmax_t)dyn.d_tag); 30822c23cb7cSEd Maste else 30832c23cb7cSEd Maste printf(" 0x%16.16jx", (uintmax_t)dyn.d_tag); 30842c23cb7cSEd Maste printf(" %-20s", dt_type(re->ehdr.e_machine, 30852c23cb7cSEd Maste dyn.d_tag)); 30862c23cb7cSEd Maste /* Dump dynamic entry value. */ 30872c23cb7cSEd Maste dump_dyn_val(re, &dyn, s->link); 30882c23cb7cSEd Maste } 30892c23cb7cSEd Maste } 30902c23cb7cSEd Maste 30912c23cb7cSEd Maste if (!is_dynamic) 30922c23cb7cSEd Maste printf("\nThere is no dynamic section in this file.\n"); 30932c23cb7cSEd Maste } 30942c23cb7cSEd Maste 30952c23cb7cSEd Maste static char * 30962c23cb7cSEd Maste timestamp(time_t ti) 30972c23cb7cSEd Maste { 30982c23cb7cSEd Maste static char ts[32]; 30992c23cb7cSEd Maste struct tm *t; 31002c23cb7cSEd Maste 31012c23cb7cSEd Maste t = gmtime(&ti); 31022c23cb7cSEd Maste snprintf(ts, sizeof(ts), "%04d-%02d-%02dT%02d:%02d:%02d", 31032c23cb7cSEd Maste t->tm_year + 1900, t->tm_mon + 1, t->tm_mday, t->tm_hour, 31042c23cb7cSEd Maste t->tm_min, t->tm_sec); 31052c23cb7cSEd Maste 31062c23cb7cSEd Maste return (ts); 31072c23cb7cSEd Maste } 31082c23cb7cSEd Maste 31092c23cb7cSEd Maste static const char * 31102c23cb7cSEd Maste dyn_str(struct readelf *re, uint32_t stab, uint64_t d_val) 31112c23cb7cSEd Maste { 31122c23cb7cSEd Maste const char *name; 31132c23cb7cSEd Maste 31142c23cb7cSEd Maste if (stab == SHN_UNDEF) 31152c23cb7cSEd Maste name = "ERROR"; 31162c23cb7cSEd Maste else if ((name = elf_strptr(re->elf, stab, d_val)) == NULL) { 31172c23cb7cSEd Maste (void) elf_errno(); /* clear error */ 31182c23cb7cSEd Maste name = "ERROR"; 31192c23cb7cSEd Maste } 31202c23cb7cSEd Maste 31212c23cb7cSEd Maste return (name); 31222c23cb7cSEd Maste } 31232c23cb7cSEd Maste 31242c23cb7cSEd Maste static void 31252c23cb7cSEd Maste dump_arch_dyn_val(struct readelf *re, GElf_Dyn *dyn, uint32_t stab) 31262c23cb7cSEd Maste { 31272c23cb7cSEd Maste const char *name; 31282c23cb7cSEd Maste 31292c23cb7cSEd Maste switch (re->ehdr.e_machine) { 31302c23cb7cSEd Maste case EM_MIPS: 31312c23cb7cSEd Maste case EM_MIPS_RS3_LE: 31322c23cb7cSEd Maste switch (dyn->d_tag) { 31332c23cb7cSEd Maste case DT_MIPS_RLD_VERSION: 31342c23cb7cSEd Maste case DT_MIPS_LOCAL_GOTNO: 31352c23cb7cSEd Maste case DT_MIPS_CONFLICTNO: 31362c23cb7cSEd Maste case DT_MIPS_LIBLISTNO: 31372c23cb7cSEd Maste case DT_MIPS_SYMTABNO: 31382c23cb7cSEd Maste case DT_MIPS_UNREFEXTNO: 31392c23cb7cSEd Maste case DT_MIPS_GOTSYM: 31402c23cb7cSEd Maste case DT_MIPS_HIPAGENO: 31412c23cb7cSEd Maste case DT_MIPS_DELTA_CLASS_NO: 31422c23cb7cSEd Maste case DT_MIPS_DELTA_INSTANCE_NO: 31432c23cb7cSEd Maste case DT_MIPS_DELTA_RELOC_NO: 31442c23cb7cSEd Maste case DT_MIPS_DELTA_SYM_NO: 31452c23cb7cSEd Maste case DT_MIPS_DELTA_CLASSSYM_NO: 31462c23cb7cSEd Maste case DT_MIPS_LOCALPAGE_GOTIDX: 31472c23cb7cSEd Maste case DT_MIPS_LOCAL_GOTIDX: 31482c23cb7cSEd Maste case DT_MIPS_HIDDEN_GOTIDX: 31492c23cb7cSEd Maste case DT_MIPS_PROTECTED_GOTIDX: 31502c23cb7cSEd Maste printf(" %ju\n", (uintmax_t) dyn->d_un.d_val); 31512c23cb7cSEd Maste break; 31522c23cb7cSEd Maste case DT_MIPS_ICHECKSUM: 31532c23cb7cSEd Maste case DT_MIPS_FLAGS: 31542c23cb7cSEd Maste case DT_MIPS_BASE_ADDRESS: 31552c23cb7cSEd Maste case DT_MIPS_CONFLICT: 31562c23cb7cSEd Maste case DT_MIPS_LIBLIST: 31572c23cb7cSEd Maste case DT_MIPS_RLD_MAP: 31582c23cb7cSEd Maste case DT_MIPS_DELTA_CLASS: 31592c23cb7cSEd Maste case DT_MIPS_DELTA_INSTANCE: 31602c23cb7cSEd Maste case DT_MIPS_DELTA_RELOC: 31612c23cb7cSEd Maste case DT_MIPS_DELTA_SYM: 31622c23cb7cSEd Maste case DT_MIPS_DELTA_CLASSSYM: 31632c23cb7cSEd Maste case DT_MIPS_CXX_FLAGS: 31642c23cb7cSEd Maste case DT_MIPS_PIXIE_INIT: 31652c23cb7cSEd Maste case DT_MIPS_SYMBOL_LIB: 31662c23cb7cSEd Maste case DT_MIPS_OPTIONS: 31672c23cb7cSEd Maste case DT_MIPS_INTERFACE: 31682c23cb7cSEd Maste case DT_MIPS_DYNSTR_ALIGN: 31692c23cb7cSEd Maste case DT_MIPS_INTERFACE_SIZE: 31702c23cb7cSEd Maste case DT_MIPS_RLD_TEXT_RESOLVE_ADDR: 31712c23cb7cSEd Maste case DT_MIPS_COMPACT_SIZE: 31722c23cb7cSEd Maste case DT_MIPS_GP_VALUE: 31732c23cb7cSEd Maste case DT_MIPS_AUX_DYNAMIC: 31742c23cb7cSEd Maste case DT_MIPS_PLTGOT: 31752c23cb7cSEd Maste case DT_MIPS_RLD_OBJ_UPDATE: 31762c23cb7cSEd Maste case DT_MIPS_RWPLT: 31772c23cb7cSEd Maste printf(" 0x%jx\n", (uintmax_t) dyn->d_un.d_val); 31782c23cb7cSEd Maste break; 31792c23cb7cSEd Maste case DT_MIPS_IVERSION: 31802c23cb7cSEd Maste case DT_MIPS_PERF_SUFFIX: 31812c23cb7cSEd Maste case DT_AUXILIARY: 31822c23cb7cSEd Maste case DT_FILTER: 31832c23cb7cSEd Maste name = dyn_str(re, stab, dyn->d_un.d_val); 31842c23cb7cSEd Maste printf(" %s\n", name); 31852c23cb7cSEd Maste break; 31862c23cb7cSEd Maste case DT_MIPS_TIME_STAMP: 31872c23cb7cSEd Maste printf(" %s\n", timestamp(dyn->d_un.d_val)); 31882c23cb7cSEd Maste break; 31892c23cb7cSEd Maste } 31902c23cb7cSEd Maste break; 31912c23cb7cSEd Maste default: 31922c23cb7cSEd Maste printf("\n"); 31932c23cb7cSEd Maste break; 31942c23cb7cSEd Maste } 31952c23cb7cSEd Maste } 31962c23cb7cSEd Maste 31972c23cb7cSEd Maste static void 31982c23cb7cSEd Maste dump_dyn_val(struct readelf *re, GElf_Dyn *dyn, uint32_t stab) 31992c23cb7cSEd Maste { 32002c23cb7cSEd Maste const char *name; 32012c23cb7cSEd Maste 32022c23cb7cSEd Maste if (dyn->d_tag >= DT_LOPROC && dyn->d_tag <= DT_HIPROC) { 32032c23cb7cSEd Maste dump_arch_dyn_val(re, dyn, stab); 32042c23cb7cSEd Maste return; 32052c23cb7cSEd Maste } 32062c23cb7cSEd Maste 32072c23cb7cSEd Maste /* These entry values are index into the string table. */ 32082c23cb7cSEd Maste name = NULL; 32092c23cb7cSEd Maste if (dyn->d_tag == DT_NEEDED || dyn->d_tag == DT_SONAME || 32102c23cb7cSEd Maste dyn->d_tag == DT_RPATH || dyn->d_tag == DT_RUNPATH) 32112c23cb7cSEd Maste name = dyn_str(re, stab, dyn->d_un.d_val); 32122c23cb7cSEd Maste 32132c23cb7cSEd Maste switch(dyn->d_tag) { 32142c23cb7cSEd Maste case DT_NULL: 32152c23cb7cSEd Maste case DT_PLTGOT: 32162c23cb7cSEd Maste case DT_HASH: 32172c23cb7cSEd Maste case DT_STRTAB: 32182c23cb7cSEd Maste case DT_SYMTAB: 32192c23cb7cSEd Maste case DT_RELA: 32202c23cb7cSEd Maste case DT_INIT: 32212c23cb7cSEd Maste case DT_SYMBOLIC: 32222c23cb7cSEd Maste case DT_REL: 32232c23cb7cSEd Maste case DT_DEBUG: 32242c23cb7cSEd Maste case DT_TEXTREL: 32252c23cb7cSEd Maste case DT_JMPREL: 32262c23cb7cSEd Maste case DT_FINI: 32272c23cb7cSEd Maste case DT_VERDEF: 32282c23cb7cSEd Maste case DT_VERNEED: 32292c23cb7cSEd Maste case DT_VERSYM: 32302c23cb7cSEd Maste case DT_GNU_HASH: 32312c23cb7cSEd Maste case DT_GNU_LIBLIST: 32322c23cb7cSEd Maste case DT_GNU_CONFLICT: 32332c23cb7cSEd Maste printf(" 0x%jx\n", (uintmax_t) dyn->d_un.d_val); 32342c23cb7cSEd Maste break; 32352c23cb7cSEd Maste case DT_PLTRELSZ: 32362c23cb7cSEd Maste case DT_RELASZ: 32372c23cb7cSEd Maste case DT_RELAENT: 32382c23cb7cSEd Maste case DT_STRSZ: 32392c23cb7cSEd Maste case DT_SYMENT: 32402c23cb7cSEd Maste case DT_RELSZ: 32412c23cb7cSEd Maste case DT_RELENT: 32422c23cb7cSEd Maste case DT_INIT_ARRAYSZ: 32432c23cb7cSEd Maste case DT_FINI_ARRAYSZ: 32442c23cb7cSEd Maste case DT_GNU_CONFLICTSZ: 32452c23cb7cSEd Maste case DT_GNU_LIBLISTSZ: 32462c23cb7cSEd Maste printf(" %ju (bytes)\n", (uintmax_t) dyn->d_un.d_val); 32472c23cb7cSEd Maste break; 32482c23cb7cSEd Maste case DT_RELACOUNT: 32492c23cb7cSEd Maste case DT_RELCOUNT: 32502c23cb7cSEd Maste case DT_VERDEFNUM: 32512c23cb7cSEd Maste case DT_VERNEEDNUM: 32522c23cb7cSEd Maste printf(" %ju\n", (uintmax_t) dyn->d_un.d_val); 32532c23cb7cSEd Maste break; 32542c23cb7cSEd Maste case DT_NEEDED: 32552c23cb7cSEd Maste printf(" Shared library: [%s]\n", name); 32562c23cb7cSEd Maste break; 32572c23cb7cSEd Maste case DT_SONAME: 32582c23cb7cSEd Maste printf(" Library soname: [%s]\n", name); 32592c23cb7cSEd Maste break; 32602c23cb7cSEd Maste case DT_RPATH: 32612c23cb7cSEd Maste printf(" Library rpath: [%s]\n", name); 32622c23cb7cSEd Maste break; 32632c23cb7cSEd Maste case DT_RUNPATH: 32642c23cb7cSEd Maste printf(" Library runpath: [%s]\n", name); 32652c23cb7cSEd Maste break; 32662c23cb7cSEd Maste case DT_PLTREL: 32672c23cb7cSEd Maste printf(" %s\n", dt_type(re->ehdr.e_machine, dyn->d_un.d_val)); 32682c23cb7cSEd Maste break; 32692c23cb7cSEd Maste case DT_GNU_PRELINKED: 32702c23cb7cSEd Maste printf(" %s\n", timestamp(dyn->d_un.d_val)); 32712c23cb7cSEd Maste break; 32722c23cb7cSEd Maste default: 32732c23cb7cSEd Maste printf("\n"); 32742c23cb7cSEd Maste } 32752c23cb7cSEd Maste } 32762c23cb7cSEd Maste 32772c23cb7cSEd Maste static void 32782c23cb7cSEd Maste dump_rel(struct readelf *re, struct section *s, Elf_Data *d) 32792c23cb7cSEd Maste { 32802c23cb7cSEd Maste GElf_Rel r; 32812c23cb7cSEd Maste const char *symname; 32822c23cb7cSEd Maste uint64_t symval; 32832c23cb7cSEd Maste int i, len; 32842c23cb7cSEd Maste 3285656f49f8SEd Maste if (s->link >= re->shnum) 3286656f49f8SEd Maste return; 3287656f49f8SEd Maste 32882c23cb7cSEd Maste #define REL_HDR "r_offset", "r_info", "r_type", "st_value", "st_name" 32892c23cb7cSEd Maste #define REL_CT32 (uintmax_t)r.r_offset, (uintmax_t)r.r_info, \ 32902c23cb7cSEd Maste r_type(re->ehdr.e_machine, ELF32_R_TYPE(r.r_info)), \ 32912c23cb7cSEd Maste (uintmax_t)symval, symname 32922c23cb7cSEd Maste #define REL_CT64 (uintmax_t)r.r_offset, (uintmax_t)r.r_info, \ 32932c23cb7cSEd Maste r_type(re->ehdr.e_machine, ELF64_R_TYPE(r.r_info)), \ 32942c23cb7cSEd Maste (uintmax_t)symval, symname 32952c23cb7cSEd Maste 32962c23cb7cSEd Maste printf("\nRelocation section (%s):\n", s->name); 32972c23cb7cSEd Maste if (re->ec == ELFCLASS32) 32982c23cb7cSEd Maste printf("%-8s %-8s %-19s %-8s %s\n", REL_HDR); 32992c23cb7cSEd Maste else { 33002c23cb7cSEd Maste if (re->options & RE_WW) 33012c23cb7cSEd Maste printf("%-16s %-16s %-24s %-16s %s\n", REL_HDR); 33022c23cb7cSEd Maste else 33032c23cb7cSEd Maste printf("%-12s %-12s %-19s %-16s %s\n", REL_HDR); 33042c23cb7cSEd Maste } 330571edbbfdSEd Maste assert(d->d_size == s->sz); 330671edbbfdSEd Maste if (!get_ent_count(s, &len)) 330771edbbfdSEd Maste return; 33082c23cb7cSEd Maste for (i = 0; i < len; i++) { 33092c23cb7cSEd Maste if (gelf_getrel(d, i, &r) != &r) { 33102c23cb7cSEd Maste warnx("gelf_getrel failed: %s", elf_errmsg(-1)); 33112c23cb7cSEd Maste continue; 33122c23cb7cSEd Maste } 33132c23cb7cSEd Maste symname = get_symbol_name(re, s->link, GELF_R_SYM(r.r_info)); 33142c23cb7cSEd Maste symval = get_symbol_value(re, s->link, GELF_R_SYM(r.r_info)); 33152c23cb7cSEd Maste if (re->ec == ELFCLASS32) { 33162c23cb7cSEd Maste r.r_info = ELF32_R_INFO(ELF64_R_SYM(r.r_info), 33172c23cb7cSEd Maste ELF64_R_TYPE(r.r_info)); 33182c23cb7cSEd Maste printf("%8.8jx %8.8jx %-19.19s %8.8jx %s\n", REL_CT32); 33192c23cb7cSEd Maste } else { 33202c23cb7cSEd Maste if (re->options & RE_WW) 33212c23cb7cSEd Maste printf("%16.16jx %16.16jx %-24.24s" 33222c23cb7cSEd Maste " %16.16jx %s\n", REL_CT64); 33232c23cb7cSEd Maste else 33242c23cb7cSEd Maste printf("%12.12jx %12.12jx %-19.19s" 33252c23cb7cSEd Maste " %16.16jx %s\n", REL_CT64); 33262c23cb7cSEd Maste } 33272c23cb7cSEd Maste } 33282c23cb7cSEd Maste 33292c23cb7cSEd Maste #undef REL_HDR 33302c23cb7cSEd Maste #undef REL_CT 33312c23cb7cSEd Maste } 33322c23cb7cSEd Maste 33332c23cb7cSEd Maste static void 33342c23cb7cSEd Maste dump_rela(struct readelf *re, struct section *s, Elf_Data *d) 33352c23cb7cSEd Maste { 33362c23cb7cSEd Maste GElf_Rela r; 33372c23cb7cSEd Maste const char *symname; 33382c23cb7cSEd Maste uint64_t symval; 33392c23cb7cSEd Maste int i, len; 33402c23cb7cSEd Maste 3341656f49f8SEd Maste if (s->link >= re->shnum) 3342656f49f8SEd Maste return; 3343656f49f8SEd Maste 33442c23cb7cSEd Maste #define RELA_HDR "r_offset", "r_info", "r_type", "st_value", \ 33452c23cb7cSEd Maste "st_name + r_addend" 33462c23cb7cSEd Maste #define RELA_CT32 (uintmax_t)r.r_offset, (uintmax_t)r.r_info, \ 33472c23cb7cSEd Maste r_type(re->ehdr.e_machine, ELF32_R_TYPE(r.r_info)), \ 33482c23cb7cSEd Maste (uintmax_t)symval, symname 33492c23cb7cSEd Maste #define RELA_CT64 (uintmax_t)r.r_offset, (uintmax_t)r.r_info, \ 33502c23cb7cSEd Maste r_type(re->ehdr.e_machine, ELF64_R_TYPE(r.r_info)), \ 33512c23cb7cSEd Maste (uintmax_t)symval, symname 33522c23cb7cSEd Maste 33532c23cb7cSEd Maste printf("\nRelocation section with addend (%s):\n", s->name); 33542c23cb7cSEd Maste if (re->ec == ELFCLASS32) 33552c23cb7cSEd Maste printf("%-8s %-8s %-19s %-8s %s\n", RELA_HDR); 33562c23cb7cSEd Maste else { 33572c23cb7cSEd Maste if (re->options & RE_WW) 33582c23cb7cSEd Maste printf("%-16s %-16s %-24s %-16s %s\n", RELA_HDR); 33592c23cb7cSEd Maste else 33602c23cb7cSEd Maste printf("%-12s %-12s %-19s %-16s %s\n", RELA_HDR); 33612c23cb7cSEd Maste } 336271edbbfdSEd Maste assert(d->d_size == s->sz); 336371edbbfdSEd Maste if (!get_ent_count(s, &len)) 336471edbbfdSEd Maste return; 33652c23cb7cSEd Maste for (i = 0; i < len; i++) { 33662c23cb7cSEd Maste if (gelf_getrela(d, i, &r) != &r) { 33672c23cb7cSEd Maste warnx("gelf_getrel failed: %s", elf_errmsg(-1)); 33682c23cb7cSEd Maste continue; 33692c23cb7cSEd Maste } 33702c23cb7cSEd Maste symname = get_symbol_name(re, s->link, GELF_R_SYM(r.r_info)); 33712c23cb7cSEd Maste symval = get_symbol_value(re, s->link, GELF_R_SYM(r.r_info)); 33722c23cb7cSEd Maste if (re->ec == ELFCLASS32) { 33732c23cb7cSEd Maste r.r_info = ELF32_R_INFO(ELF64_R_SYM(r.r_info), 33742c23cb7cSEd Maste ELF64_R_TYPE(r.r_info)); 33752c23cb7cSEd Maste printf("%8.8jx %8.8jx %-19.19s %8.8jx %s", RELA_CT32); 33762c23cb7cSEd Maste printf(" + %x\n", (uint32_t) r.r_addend); 33772c23cb7cSEd Maste } else { 33782c23cb7cSEd Maste if (re->options & RE_WW) 33792c23cb7cSEd Maste printf("%16.16jx %16.16jx %-24.24s" 33802c23cb7cSEd Maste " %16.16jx %s", RELA_CT64); 33812c23cb7cSEd Maste else 33822c23cb7cSEd Maste printf("%12.12jx %12.12jx %-19.19s" 33832c23cb7cSEd Maste " %16.16jx %s", RELA_CT64); 33842c23cb7cSEd Maste printf(" + %jx\n", (uintmax_t) r.r_addend); 33852c23cb7cSEd Maste } 33862c23cb7cSEd Maste } 33872c23cb7cSEd Maste 33882c23cb7cSEd Maste #undef RELA_HDR 33892c23cb7cSEd Maste #undef RELA_CT 33902c23cb7cSEd Maste } 33912c23cb7cSEd Maste 33922c23cb7cSEd Maste static void 33932c23cb7cSEd Maste dump_reloc(struct readelf *re) 33942c23cb7cSEd Maste { 33952c23cb7cSEd Maste struct section *s; 33962c23cb7cSEd Maste Elf_Data *d; 33972c23cb7cSEd Maste int i, elferr; 33982c23cb7cSEd Maste 33992c23cb7cSEd Maste for (i = 0; (size_t)i < re->shnum; i++) { 34002c23cb7cSEd Maste s = &re->sl[i]; 34012c23cb7cSEd Maste if (s->type == SHT_REL || s->type == SHT_RELA) { 34022c23cb7cSEd Maste (void) elf_errno(); 34032c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 34042c23cb7cSEd Maste elferr = elf_errno(); 34052c23cb7cSEd Maste if (elferr != 0) 34062c23cb7cSEd Maste warnx("elf_getdata failed: %s", 34072c23cb7cSEd Maste elf_errmsg(elferr)); 34082c23cb7cSEd Maste continue; 34092c23cb7cSEd Maste } 34102c23cb7cSEd Maste if (s->type == SHT_REL) 34112c23cb7cSEd Maste dump_rel(re, s, d); 34122c23cb7cSEd Maste else 34132c23cb7cSEd Maste dump_rela(re, s, d); 34142c23cb7cSEd Maste } 34152c23cb7cSEd Maste } 34162c23cb7cSEd Maste } 34172c23cb7cSEd Maste 34182c23cb7cSEd Maste static void 34192c23cb7cSEd Maste dump_symtab(struct readelf *re, int i) 34202c23cb7cSEd Maste { 34212c23cb7cSEd Maste struct section *s; 34222c23cb7cSEd Maste Elf_Data *d; 34232c23cb7cSEd Maste GElf_Sym sym; 34242c23cb7cSEd Maste const char *name; 3425656f49f8SEd Maste uint32_t stab; 3426656f49f8SEd Maste int elferr, j, len; 3427656f49f8SEd Maste uint16_t vs; 34282c23cb7cSEd Maste 34292c23cb7cSEd Maste s = &re->sl[i]; 3430656f49f8SEd Maste if (s->link >= re->shnum) 3431656f49f8SEd Maste return; 34322c23cb7cSEd Maste stab = s->link; 34332c23cb7cSEd Maste (void) elf_errno(); 34342c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 34352c23cb7cSEd Maste elferr = elf_errno(); 34362c23cb7cSEd Maste if (elferr != 0) 34372c23cb7cSEd Maste warnx("elf_getdata failed: %s", elf_errmsg(elferr)); 34382c23cb7cSEd Maste return; 34392c23cb7cSEd Maste } 34402c23cb7cSEd Maste if (d->d_size <= 0) 34412c23cb7cSEd Maste return; 344271edbbfdSEd Maste if (!get_ent_count(s, &len)) 344371edbbfdSEd Maste return; 34442c23cb7cSEd Maste printf("Symbol table (%s)", s->name); 344571edbbfdSEd Maste printf(" contains %d entries:\n", len); 34462c23cb7cSEd Maste printf("%7s%9s%14s%5s%8s%6s%9s%5s\n", "Num:", "Value", "Size", "Type", 34472c23cb7cSEd Maste "Bind", "Vis", "Ndx", "Name"); 34482c23cb7cSEd Maste 344971edbbfdSEd Maste for (j = 0; j < len; j++) { 34502c23cb7cSEd Maste if (gelf_getsym(d, j, &sym) != &sym) { 34512c23cb7cSEd Maste warnx("gelf_getsym failed: %s", elf_errmsg(-1)); 34522c23cb7cSEd Maste continue; 34532c23cb7cSEd Maste } 34542c23cb7cSEd Maste printf("%6d:", j); 34552c23cb7cSEd Maste printf(" %16.16jx", (uintmax_t)sym.st_value); 34562c23cb7cSEd Maste printf(" %5ju", sym.st_size); 34572c23cb7cSEd Maste printf(" %-7s", st_type(GELF_ST_TYPE(sym.st_info))); 34582c23cb7cSEd Maste printf(" %-6s", st_bind(GELF_ST_BIND(sym.st_info))); 34592c23cb7cSEd Maste printf(" %-8s", st_vis(GELF_ST_VISIBILITY(sym.st_other))); 34602c23cb7cSEd Maste printf(" %3s", st_shndx(sym.st_shndx)); 34612c23cb7cSEd Maste if ((name = elf_strptr(re->elf, stab, sym.st_name)) != NULL) 34622c23cb7cSEd Maste printf(" %s", name); 34632c23cb7cSEd Maste /* Append symbol version string for SHT_DYNSYM symbol table. */ 34642c23cb7cSEd Maste if (s->type == SHT_DYNSYM && re->ver != NULL && 34652c23cb7cSEd Maste re->vs != NULL && re->vs[j] > 1) { 3466656f49f8SEd Maste vs = re->vs[j] & VERSYM_VERSION; 3467656f49f8SEd Maste if (vs >= re->ver_sz || re->ver[vs].name == NULL) { 3468656f49f8SEd Maste warnx("invalid versym version index %u", vs); 3469656f49f8SEd Maste break; 3470656f49f8SEd Maste } 3471656f49f8SEd Maste if (re->vs[j] & VERSYM_HIDDEN || re->ver[vs].type == 0) 3472656f49f8SEd Maste printf("@%s (%d)", re->ver[vs].name, vs); 34732c23cb7cSEd Maste else 3474656f49f8SEd Maste printf("@@%s (%d)", re->ver[vs].name, vs); 34752c23cb7cSEd Maste } 34762c23cb7cSEd Maste putchar('\n'); 34772c23cb7cSEd Maste } 34782c23cb7cSEd Maste 34792c23cb7cSEd Maste } 34802c23cb7cSEd Maste 34812c23cb7cSEd Maste static void 34822c23cb7cSEd Maste dump_symtabs(struct readelf *re) 34832c23cb7cSEd Maste { 34842c23cb7cSEd Maste GElf_Dyn dyn; 34852c23cb7cSEd Maste Elf_Data *d; 34862c23cb7cSEd Maste struct section *s; 34872c23cb7cSEd Maste uint64_t dyn_off; 348871edbbfdSEd Maste int elferr, i, len; 34892c23cb7cSEd Maste 34902c23cb7cSEd Maste /* 34912c23cb7cSEd Maste * If -D is specified, only dump the symbol table specified by 34922c23cb7cSEd Maste * the DT_SYMTAB entry in the .dynamic section. 34932c23cb7cSEd Maste */ 34942c23cb7cSEd Maste dyn_off = 0; 34952c23cb7cSEd Maste if (re->options & RE_DD) { 34962c23cb7cSEd Maste s = NULL; 34972c23cb7cSEd Maste for (i = 0; (size_t)i < re->shnum; i++) 34982c23cb7cSEd Maste if (re->sl[i].type == SHT_DYNAMIC) { 34992c23cb7cSEd Maste s = &re->sl[i]; 35002c23cb7cSEd Maste break; 35012c23cb7cSEd Maste } 35022c23cb7cSEd Maste if (s == NULL) 35032c23cb7cSEd Maste return; 35042c23cb7cSEd Maste (void) elf_errno(); 35052c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 35062c23cb7cSEd Maste elferr = elf_errno(); 35072c23cb7cSEd Maste if (elferr != 0) 35082c23cb7cSEd Maste warnx("elf_getdata failed: %s", elf_errmsg(-1)); 35092c23cb7cSEd Maste return; 35102c23cb7cSEd Maste } 35112c23cb7cSEd Maste if (d->d_size <= 0) 35122c23cb7cSEd Maste return; 351371edbbfdSEd Maste if (!get_ent_count(s, &len)) 351471edbbfdSEd Maste return; 35152c23cb7cSEd Maste 351671edbbfdSEd Maste for (i = 0; i < len; i++) { 35172c23cb7cSEd Maste if (gelf_getdyn(d, i, &dyn) != &dyn) { 35182c23cb7cSEd Maste warnx("gelf_getdyn failed: %s", elf_errmsg(-1)); 35192c23cb7cSEd Maste continue; 35202c23cb7cSEd Maste } 35212c23cb7cSEd Maste if (dyn.d_tag == DT_SYMTAB) { 35222c23cb7cSEd Maste dyn_off = dyn.d_un.d_val; 35232c23cb7cSEd Maste break; 35242c23cb7cSEd Maste } 35252c23cb7cSEd Maste } 35262c23cb7cSEd Maste } 35272c23cb7cSEd Maste 35282c23cb7cSEd Maste /* Find and dump symbol tables. */ 35292c23cb7cSEd Maste for (i = 0; (size_t)i < re->shnum; i++) { 35302c23cb7cSEd Maste s = &re->sl[i]; 35312c23cb7cSEd Maste if (s->type == SHT_SYMTAB || s->type == SHT_DYNSYM) { 35322c23cb7cSEd Maste if (re->options & RE_DD) { 35332c23cb7cSEd Maste if (dyn_off == s->addr) { 35342c23cb7cSEd Maste dump_symtab(re, i); 35352c23cb7cSEd Maste break; 35362c23cb7cSEd Maste } 35372c23cb7cSEd Maste } else 35382c23cb7cSEd Maste dump_symtab(re, i); 35392c23cb7cSEd Maste } 35402c23cb7cSEd Maste } 35412c23cb7cSEd Maste } 35422c23cb7cSEd Maste 35432c23cb7cSEd Maste static void 35442c23cb7cSEd Maste dump_svr4_hash(struct section *s) 35452c23cb7cSEd Maste { 35462c23cb7cSEd Maste Elf_Data *d; 35472c23cb7cSEd Maste uint32_t *buf; 35482c23cb7cSEd Maste uint32_t nbucket, nchain; 35492c23cb7cSEd Maste uint32_t *bucket, *chain; 35502c23cb7cSEd Maste uint32_t *bl, *c, maxl, total; 35512c23cb7cSEd Maste int elferr, i, j; 35522c23cb7cSEd Maste 35532c23cb7cSEd Maste /* Read and parse the content of .hash section. */ 35542c23cb7cSEd Maste (void) elf_errno(); 35552c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 35562c23cb7cSEd Maste elferr = elf_errno(); 35572c23cb7cSEd Maste if (elferr != 0) 35582c23cb7cSEd Maste warnx("elf_getdata failed: %s", elf_errmsg(elferr)); 35592c23cb7cSEd Maste return; 35602c23cb7cSEd Maste } 35612c23cb7cSEd Maste if (d->d_size < 2 * sizeof(uint32_t)) { 35622c23cb7cSEd Maste warnx(".hash section too small"); 35632c23cb7cSEd Maste return; 35642c23cb7cSEd Maste } 35652c23cb7cSEd Maste buf = d->d_buf; 35662c23cb7cSEd Maste nbucket = buf[0]; 35672c23cb7cSEd Maste nchain = buf[1]; 35682c23cb7cSEd Maste if (nbucket <= 0 || nchain <= 0) { 35692c23cb7cSEd Maste warnx("Malformed .hash section"); 35702c23cb7cSEd Maste return; 35712c23cb7cSEd Maste } 35722c23cb7cSEd Maste if (d->d_size != (nbucket + nchain + 2) * sizeof(uint32_t)) { 35732c23cb7cSEd Maste warnx("Malformed .hash section"); 35742c23cb7cSEd Maste return; 35752c23cb7cSEd Maste } 35762c23cb7cSEd Maste bucket = &buf[2]; 35772c23cb7cSEd Maste chain = &buf[2 + nbucket]; 35782c23cb7cSEd Maste 35792c23cb7cSEd Maste maxl = 0; 35802c23cb7cSEd Maste if ((bl = calloc(nbucket, sizeof(*bl))) == NULL) 35812c23cb7cSEd Maste errx(EXIT_FAILURE, "calloc failed"); 35822c23cb7cSEd Maste for (i = 0; (uint32_t)i < nbucket; i++) 35832c23cb7cSEd Maste for (j = bucket[i]; j > 0 && (uint32_t)j < nchain; j = chain[j]) 35842c23cb7cSEd Maste if (++bl[i] > maxl) 35852c23cb7cSEd Maste maxl = bl[i]; 35862c23cb7cSEd Maste if ((c = calloc(maxl + 1, sizeof(*c))) == NULL) 35872c23cb7cSEd Maste errx(EXIT_FAILURE, "calloc failed"); 35882c23cb7cSEd Maste for (i = 0; (uint32_t)i < nbucket; i++) 35892c23cb7cSEd Maste c[bl[i]]++; 35902c23cb7cSEd Maste printf("\nHistogram for bucket list length (total of %u buckets):\n", 35912c23cb7cSEd Maste nbucket); 35922c23cb7cSEd Maste printf(" Length\tNumber\t\t%% of total\tCoverage\n"); 35932c23cb7cSEd Maste total = 0; 35942c23cb7cSEd Maste for (i = 0; (uint32_t)i <= maxl; i++) { 35952c23cb7cSEd Maste total += c[i] * i; 35962c23cb7cSEd Maste printf("%7u\t%-10u\t(%5.1f%%)\t%5.1f%%\n", i, c[i], 35972c23cb7cSEd Maste c[i] * 100.0 / nbucket, total * 100.0 / (nchain - 1)); 35982c23cb7cSEd Maste } 35992c23cb7cSEd Maste free(c); 36002c23cb7cSEd Maste free(bl); 36012c23cb7cSEd Maste } 36022c23cb7cSEd Maste 36032c23cb7cSEd Maste static void 36042c23cb7cSEd Maste dump_svr4_hash64(struct readelf *re, struct section *s) 36052c23cb7cSEd Maste { 36062c23cb7cSEd Maste Elf_Data *d, dst; 36072c23cb7cSEd Maste uint64_t *buf; 36082c23cb7cSEd Maste uint64_t nbucket, nchain; 36092c23cb7cSEd Maste uint64_t *bucket, *chain; 36102c23cb7cSEd Maste uint64_t *bl, *c, maxl, total; 36112c23cb7cSEd Maste int elferr, i, j; 36122c23cb7cSEd Maste 36132c23cb7cSEd Maste /* 36142c23cb7cSEd Maste * ALPHA uses 64-bit hash entries. Since libelf assumes that 36152c23cb7cSEd Maste * .hash section contains only 32-bit entry, an explicit 36162c23cb7cSEd Maste * gelf_xlatetom is needed here. 36172c23cb7cSEd Maste */ 36182c23cb7cSEd Maste (void) elf_errno(); 36192c23cb7cSEd Maste if ((d = elf_rawdata(s->scn, NULL)) == NULL) { 36202c23cb7cSEd Maste elferr = elf_errno(); 36212c23cb7cSEd Maste if (elferr != 0) 36222c23cb7cSEd Maste warnx("elf_rawdata failed: %s", 36232c23cb7cSEd Maste elf_errmsg(elferr)); 36242c23cb7cSEd Maste return; 36252c23cb7cSEd Maste } 36262c23cb7cSEd Maste d->d_type = ELF_T_XWORD; 36272c23cb7cSEd Maste memcpy(&dst, d, sizeof(Elf_Data)); 36282c23cb7cSEd Maste if (gelf_xlatetom(re->elf, &dst, d, 36292c23cb7cSEd Maste re->ehdr.e_ident[EI_DATA]) != &dst) { 36302c23cb7cSEd Maste warnx("gelf_xlatetom failed: %s", elf_errmsg(-1)); 36312c23cb7cSEd Maste return; 36322c23cb7cSEd Maste } 36332c23cb7cSEd Maste if (dst.d_size < 2 * sizeof(uint64_t)) { 36342c23cb7cSEd Maste warnx(".hash section too small"); 36352c23cb7cSEd Maste return; 36362c23cb7cSEd Maste } 36372c23cb7cSEd Maste buf = dst.d_buf; 36382c23cb7cSEd Maste nbucket = buf[0]; 36392c23cb7cSEd Maste nchain = buf[1]; 36402c23cb7cSEd Maste if (nbucket <= 0 || nchain <= 0) { 36412c23cb7cSEd Maste warnx("Malformed .hash section"); 36422c23cb7cSEd Maste return; 36432c23cb7cSEd Maste } 36442c23cb7cSEd Maste if (d->d_size != (nbucket + nchain + 2) * sizeof(uint32_t)) { 36452c23cb7cSEd Maste warnx("Malformed .hash section"); 36462c23cb7cSEd Maste return; 36472c23cb7cSEd Maste } 36482c23cb7cSEd Maste bucket = &buf[2]; 36492c23cb7cSEd Maste chain = &buf[2 + nbucket]; 36502c23cb7cSEd Maste 36512c23cb7cSEd Maste maxl = 0; 36522c23cb7cSEd Maste if ((bl = calloc(nbucket, sizeof(*bl))) == NULL) 36532c23cb7cSEd Maste errx(EXIT_FAILURE, "calloc failed"); 36542c23cb7cSEd Maste for (i = 0; (uint32_t)i < nbucket; i++) 36552c23cb7cSEd Maste for (j = bucket[i]; j > 0 && (uint32_t)j < nchain; j = chain[j]) 36562c23cb7cSEd Maste if (++bl[i] > maxl) 36572c23cb7cSEd Maste maxl = bl[i]; 36582c23cb7cSEd Maste if ((c = calloc(maxl + 1, sizeof(*c))) == NULL) 36592c23cb7cSEd Maste errx(EXIT_FAILURE, "calloc failed"); 36602c23cb7cSEd Maste for (i = 0; (uint64_t)i < nbucket; i++) 36612c23cb7cSEd Maste c[bl[i]]++; 36622c23cb7cSEd Maste printf("Histogram for bucket list length (total of %ju buckets):\n", 36632c23cb7cSEd Maste (uintmax_t)nbucket); 36642c23cb7cSEd Maste printf(" Length\tNumber\t\t%% of total\tCoverage\n"); 36652c23cb7cSEd Maste total = 0; 36662c23cb7cSEd Maste for (i = 0; (uint64_t)i <= maxl; i++) { 36672c23cb7cSEd Maste total += c[i] * i; 36682c23cb7cSEd Maste printf("%7u\t%-10ju\t(%5.1f%%)\t%5.1f%%\n", i, (uintmax_t)c[i], 36692c23cb7cSEd Maste c[i] * 100.0 / nbucket, total * 100.0 / (nchain - 1)); 36702c23cb7cSEd Maste } 36712c23cb7cSEd Maste free(c); 36722c23cb7cSEd Maste free(bl); 36732c23cb7cSEd Maste } 36742c23cb7cSEd Maste 36752c23cb7cSEd Maste static void 36762c23cb7cSEd Maste dump_gnu_hash(struct readelf *re, struct section *s) 36772c23cb7cSEd Maste { 36782c23cb7cSEd Maste struct section *ds; 36792c23cb7cSEd Maste Elf_Data *d; 36802c23cb7cSEd Maste uint32_t *buf; 36812c23cb7cSEd Maste uint32_t *bucket, *chain; 3682cf781b2eSEd Maste uint32_t nbucket, nchain, symndx, maskwords; 36832c23cb7cSEd Maste uint32_t *bl, *c, maxl, total; 36842c23cb7cSEd Maste int elferr, dynsymcount, i, j; 36852c23cb7cSEd Maste 36862c23cb7cSEd Maste (void) elf_errno(); 36872c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 36882c23cb7cSEd Maste elferr = elf_errno(); 36892c23cb7cSEd Maste if (elferr != 0) 36902c23cb7cSEd Maste warnx("elf_getdata failed: %s", 36912c23cb7cSEd Maste elf_errmsg(elferr)); 36922c23cb7cSEd Maste return; 36932c23cb7cSEd Maste } 36942c23cb7cSEd Maste if (d->d_size < 4 * sizeof(uint32_t)) { 36952c23cb7cSEd Maste warnx(".gnu.hash section too small"); 36962c23cb7cSEd Maste return; 36972c23cb7cSEd Maste } 36982c23cb7cSEd Maste buf = d->d_buf; 36992c23cb7cSEd Maste nbucket = buf[0]; 37002c23cb7cSEd Maste symndx = buf[1]; 37012c23cb7cSEd Maste maskwords = buf[2]; 37022c23cb7cSEd Maste buf += 4; 3703656f49f8SEd Maste if (s->link >= re->shnum) 3704656f49f8SEd Maste return; 37052c23cb7cSEd Maste ds = &re->sl[s->link]; 370671edbbfdSEd Maste if (!get_ent_count(ds, &dynsymcount)) 370771edbbfdSEd Maste return; 37082c23cb7cSEd Maste nchain = dynsymcount - symndx; 37092c23cb7cSEd Maste if (d->d_size != 4 * sizeof(uint32_t) + maskwords * 37102c23cb7cSEd Maste (re->ec == ELFCLASS32 ? sizeof(uint32_t) : sizeof(uint64_t)) + 37112c23cb7cSEd Maste (nbucket + nchain) * sizeof(uint32_t)) { 37122c23cb7cSEd Maste warnx("Malformed .gnu.hash section"); 37132c23cb7cSEd Maste return; 37142c23cb7cSEd Maste } 37152c23cb7cSEd Maste bucket = buf + (re->ec == ELFCLASS32 ? maskwords : maskwords * 2); 37162c23cb7cSEd Maste chain = bucket + nbucket; 37172c23cb7cSEd Maste 37182c23cb7cSEd Maste maxl = 0; 37192c23cb7cSEd Maste if ((bl = calloc(nbucket, sizeof(*bl))) == NULL) 37202c23cb7cSEd Maste errx(EXIT_FAILURE, "calloc failed"); 37212c23cb7cSEd Maste for (i = 0; (uint32_t)i < nbucket; i++) 37222c23cb7cSEd Maste for (j = bucket[i]; j > 0 && (uint32_t)j - symndx < nchain; 37232c23cb7cSEd Maste j++) { 37242c23cb7cSEd Maste if (++bl[i] > maxl) 37252c23cb7cSEd Maste maxl = bl[i]; 37262c23cb7cSEd Maste if (chain[j - symndx] & 1) 37272c23cb7cSEd Maste break; 37282c23cb7cSEd Maste } 37292c23cb7cSEd Maste if ((c = calloc(maxl + 1, sizeof(*c))) == NULL) 37302c23cb7cSEd Maste errx(EXIT_FAILURE, "calloc failed"); 37312c23cb7cSEd Maste for (i = 0; (uint32_t)i < nbucket; i++) 37322c23cb7cSEd Maste c[bl[i]]++; 37332c23cb7cSEd Maste printf("Histogram for bucket list length (total of %u buckets):\n", 37342c23cb7cSEd Maste nbucket); 37352c23cb7cSEd Maste printf(" Length\tNumber\t\t%% of total\tCoverage\n"); 37362c23cb7cSEd Maste total = 0; 37372c23cb7cSEd Maste for (i = 0; (uint32_t)i <= maxl; i++) { 37382c23cb7cSEd Maste total += c[i] * i; 37392c23cb7cSEd Maste printf("%7u\t%-10u\t(%5.1f%%)\t%5.1f%%\n", i, c[i], 37402c23cb7cSEd Maste c[i] * 100.0 / nbucket, total * 100.0 / (nchain - 1)); 37412c23cb7cSEd Maste } 37422c23cb7cSEd Maste free(c); 37432c23cb7cSEd Maste free(bl); 37442c23cb7cSEd Maste } 37452c23cb7cSEd Maste 37462c23cb7cSEd Maste static void 37472c23cb7cSEd Maste dump_hash(struct readelf *re) 37482c23cb7cSEd Maste { 37492c23cb7cSEd Maste struct section *s; 37502c23cb7cSEd Maste int i; 37512c23cb7cSEd Maste 37522c23cb7cSEd Maste for (i = 0; (size_t) i < re->shnum; i++) { 37532c23cb7cSEd Maste s = &re->sl[i]; 37542c23cb7cSEd Maste if (s->type == SHT_HASH || s->type == SHT_GNU_HASH) { 37552c23cb7cSEd Maste if (s->type == SHT_GNU_HASH) 37562c23cb7cSEd Maste dump_gnu_hash(re, s); 37572c23cb7cSEd Maste else if (re->ehdr.e_machine == EM_ALPHA && 37582c23cb7cSEd Maste s->entsize == 8) 37592c23cb7cSEd Maste dump_svr4_hash64(re, s); 37602c23cb7cSEd Maste else 37612c23cb7cSEd Maste dump_svr4_hash(s); 37622c23cb7cSEd Maste } 37632c23cb7cSEd Maste } 37642c23cb7cSEd Maste } 37652c23cb7cSEd Maste 37662c23cb7cSEd Maste static void 37672c23cb7cSEd Maste dump_notes(struct readelf *re) 37682c23cb7cSEd Maste { 37692c23cb7cSEd Maste struct section *s; 37702c23cb7cSEd Maste const char *rawfile; 37712c23cb7cSEd Maste GElf_Phdr phdr; 37722c23cb7cSEd Maste Elf_Data *d; 37732c23cb7cSEd Maste size_t phnum; 37742c23cb7cSEd Maste int i, elferr; 37752c23cb7cSEd Maste 37762c23cb7cSEd Maste if (re->ehdr.e_type == ET_CORE) { 37772c23cb7cSEd Maste /* 37782c23cb7cSEd Maste * Search program headers in the core file for 37792c23cb7cSEd Maste * PT_NOTE entry. 37802c23cb7cSEd Maste */ 37812c23cb7cSEd Maste if (elf_getphnum(re->elf, &phnum) == 0) { 37822c23cb7cSEd Maste warnx("elf_getphnum failed: %s", elf_errmsg(-1)); 37832c23cb7cSEd Maste return; 37842c23cb7cSEd Maste } 37852c23cb7cSEd Maste if (phnum == 0) 37862c23cb7cSEd Maste return; 37872c23cb7cSEd Maste if ((rawfile = elf_rawfile(re->elf, NULL)) == NULL) { 37882c23cb7cSEd Maste warnx("elf_rawfile failed: %s", elf_errmsg(-1)); 37892c23cb7cSEd Maste return; 37902c23cb7cSEd Maste } 37912c23cb7cSEd Maste for (i = 0; (size_t) i < phnum; i++) { 37922c23cb7cSEd Maste if (gelf_getphdr(re->elf, i, &phdr) != &phdr) { 37932c23cb7cSEd Maste warnx("gelf_getphdr failed: %s", 37942c23cb7cSEd Maste elf_errmsg(-1)); 37952c23cb7cSEd Maste continue; 37962c23cb7cSEd Maste } 37972c23cb7cSEd Maste if (phdr.p_type == PT_NOTE) 37982c23cb7cSEd Maste dump_notes_content(re, rawfile + phdr.p_offset, 37992c23cb7cSEd Maste phdr.p_filesz, phdr.p_offset); 38002c23cb7cSEd Maste } 38012c23cb7cSEd Maste 38022c23cb7cSEd Maste } else { 38032c23cb7cSEd Maste /* 38042c23cb7cSEd Maste * For objects other than core files, Search for 38052c23cb7cSEd Maste * SHT_NOTE sections. 38062c23cb7cSEd Maste */ 38072c23cb7cSEd Maste for (i = 0; (size_t) i < re->shnum; i++) { 38082c23cb7cSEd Maste s = &re->sl[i]; 38092c23cb7cSEd Maste if (s->type == SHT_NOTE) { 38102c23cb7cSEd Maste (void) elf_errno(); 38112c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 38122c23cb7cSEd Maste elferr = elf_errno(); 38132c23cb7cSEd Maste if (elferr != 0) 38142c23cb7cSEd Maste warnx("elf_getdata failed: %s", 38152c23cb7cSEd Maste elf_errmsg(elferr)); 38162c23cb7cSEd Maste continue; 38172c23cb7cSEd Maste } 38182c23cb7cSEd Maste dump_notes_content(re, d->d_buf, d->d_size, 38192c23cb7cSEd Maste s->off); 38202c23cb7cSEd Maste } 38212c23cb7cSEd Maste } 38222c23cb7cSEd Maste } 38232c23cb7cSEd Maste } 38242c23cb7cSEd Maste 38252c23cb7cSEd Maste static void 38262c23cb7cSEd Maste dump_notes_content(struct readelf *re, const char *buf, size_t sz, off_t off) 38272c23cb7cSEd Maste { 38282c23cb7cSEd Maste Elf_Note *note; 382902b08c90SEd Maste const char *end, *name; 38302c23cb7cSEd Maste 38312c23cb7cSEd Maste printf("\nNotes at offset %#010jx with length %#010jx:\n", 38322c23cb7cSEd Maste (uintmax_t) off, (uintmax_t) sz); 38332c23cb7cSEd Maste printf(" %-13s %-15s %s\n", "Owner", "Data size", "Description"); 38342c23cb7cSEd Maste end = buf + sz; 38352c23cb7cSEd Maste while (buf < end) { 383602b08c90SEd Maste if (buf + sizeof(*note) > end) { 383702b08c90SEd Maste warnx("invalid note header"); 383802b08c90SEd Maste return; 383902b08c90SEd Maste } 38402c23cb7cSEd Maste note = (Elf_Note *)(uintptr_t) buf; 384102b08c90SEd Maste name = (char *)(uintptr_t)(note + 1); 384202b08c90SEd Maste /* 384302b08c90SEd Maste * The name field is required to be nul-terminated, and 384402b08c90SEd Maste * n_namesz includes the terminating nul in observed 384502b08c90SEd Maste * implementations (contrary to the ELF-64 spec). A special 384602b08c90SEd Maste * case is needed for cores generated by some older Linux 384702b08c90SEd Maste * versions, which write a note named "CORE" without a nul 384802b08c90SEd Maste * terminator and n_namesz = 4. 384902b08c90SEd Maste */ 385002b08c90SEd Maste if (note->n_namesz == 0) 385102b08c90SEd Maste name = ""; 385202b08c90SEd Maste else if (note->n_namesz == 4 && strncmp(name, "CORE", 4) == 0) 385302b08c90SEd Maste name = "CORE"; 385402b08c90SEd Maste else if (strnlen(name, note->n_namesz) >= note->n_namesz) 385502b08c90SEd Maste name = "<invalid>"; 385602b08c90SEd Maste printf(" %-13s %#010jx", name, (uintmax_t) note->n_descsz); 385702b08c90SEd Maste printf(" %s\n", note_type(name, re->ehdr.e_type, 385802b08c90SEd Maste note->n_type)); 385934e3f146SEd Maste buf += sizeof(Elf_Note) + roundup2(note->n_namesz, 4) + 38602c23cb7cSEd Maste roundup2(note->n_descsz, 4); 38612c23cb7cSEd Maste } 38622c23cb7cSEd Maste } 38632c23cb7cSEd Maste 38642c23cb7cSEd Maste /* 38652c23cb7cSEd Maste * Symbol versioning sections are the same for 32bit and 64bit 38662c23cb7cSEd Maste * ELF objects. 38672c23cb7cSEd Maste */ 38682c23cb7cSEd Maste #define Elf_Verdef Elf32_Verdef 38692c23cb7cSEd Maste #define Elf_Verdaux Elf32_Verdaux 38702c23cb7cSEd Maste #define Elf_Verneed Elf32_Verneed 38712c23cb7cSEd Maste #define Elf_Vernaux Elf32_Vernaux 38722c23cb7cSEd Maste 38732c23cb7cSEd Maste #define SAVE_VERSION_NAME(x, n, t) \ 38742c23cb7cSEd Maste do { \ 38752c23cb7cSEd Maste while (x >= re->ver_sz) { \ 38762c23cb7cSEd Maste nv = realloc(re->ver, \ 38772c23cb7cSEd Maste sizeof(*re->ver) * re->ver_sz * 2); \ 38782c23cb7cSEd Maste if (nv == NULL) { \ 38792c23cb7cSEd Maste warn("realloc failed"); \ 38802c23cb7cSEd Maste free(re->ver); \ 38812c23cb7cSEd Maste return; \ 38822c23cb7cSEd Maste } \ 38832c23cb7cSEd Maste re->ver = nv; \ 38842c23cb7cSEd Maste for (i = re->ver_sz; i < re->ver_sz * 2; i++) { \ 38852c23cb7cSEd Maste re->ver[i].name = NULL; \ 38862c23cb7cSEd Maste re->ver[i].type = 0; \ 38872c23cb7cSEd Maste } \ 38882c23cb7cSEd Maste re->ver_sz *= 2; \ 38892c23cb7cSEd Maste } \ 38902c23cb7cSEd Maste if (x > 1) { \ 38912c23cb7cSEd Maste re->ver[x].name = n; \ 38922c23cb7cSEd Maste re->ver[x].type = t; \ 38932c23cb7cSEd Maste } \ 38942c23cb7cSEd Maste } while (0) 38952c23cb7cSEd Maste 38962c23cb7cSEd Maste 38972c23cb7cSEd Maste static void 38982c23cb7cSEd Maste dump_verdef(struct readelf *re, int dump) 38992c23cb7cSEd Maste { 39002c23cb7cSEd Maste struct section *s; 39012c23cb7cSEd Maste struct symver *nv; 39022c23cb7cSEd Maste Elf_Data *d; 39032c23cb7cSEd Maste Elf_Verdef *vd; 39042c23cb7cSEd Maste Elf_Verdaux *vda; 39052c23cb7cSEd Maste uint8_t *buf, *end, *buf2; 39062c23cb7cSEd Maste const char *name; 39072c23cb7cSEd Maste int elferr, i, j; 39082c23cb7cSEd Maste 39092c23cb7cSEd Maste if ((s = re->vd_s) == NULL) 39102c23cb7cSEd Maste return; 3911656f49f8SEd Maste if (s->link >= re->shnum) 3912656f49f8SEd Maste return; 39132c23cb7cSEd Maste 39142c23cb7cSEd Maste if (re->ver == NULL) { 39152c23cb7cSEd Maste re->ver_sz = 16; 39162c23cb7cSEd Maste if ((re->ver = calloc(re->ver_sz, sizeof(*re->ver))) == 39172c23cb7cSEd Maste NULL) { 39182c23cb7cSEd Maste warn("calloc failed"); 39192c23cb7cSEd Maste return; 39202c23cb7cSEd Maste } 39212c23cb7cSEd Maste re->ver[0].name = "*local*"; 39222c23cb7cSEd Maste re->ver[1].name = "*global*"; 39232c23cb7cSEd Maste } 39242c23cb7cSEd Maste 39252c23cb7cSEd Maste if (dump) 39262c23cb7cSEd Maste printf("\nVersion definition section (%s):\n", s->name); 39272c23cb7cSEd Maste (void) elf_errno(); 39282c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 39292c23cb7cSEd Maste elferr = elf_errno(); 39302c23cb7cSEd Maste if (elferr != 0) 39312c23cb7cSEd Maste warnx("elf_getdata failed: %s", elf_errmsg(elferr)); 39322c23cb7cSEd Maste return; 39332c23cb7cSEd Maste } 39342c23cb7cSEd Maste if (d->d_size == 0) 39352c23cb7cSEd Maste return; 39362c23cb7cSEd Maste 39372c23cb7cSEd Maste buf = d->d_buf; 39382c23cb7cSEd Maste end = buf + d->d_size; 39392c23cb7cSEd Maste while (buf + sizeof(Elf_Verdef) <= end) { 39402c23cb7cSEd Maste vd = (Elf_Verdef *) (uintptr_t) buf; 39412c23cb7cSEd Maste if (dump) { 39422c23cb7cSEd Maste printf(" 0x%4.4lx", (unsigned long) 39432c23cb7cSEd Maste (buf - (uint8_t *)d->d_buf)); 39442c23cb7cSEd Maste printf(" vd_version: %u vd_flags: %d" 39452c23cb7cSEd Maste " vd_ndx: %u vd_cnt: %u", vd->vd_version, 39462c23cb7cSEd Maste vd->vd_flags, vd->vd_ndx, vd->vd_cnt); 39472c23cb7cSEd Maste } 39482c23cb7cSEd Maste buf2 = buf + vd->vd_aux; 39492c23cb7cSEd Maste j = 0; 39502c23cb7cSEd Maste while (buf2 + sizeof(Elf_Verdaux) <= end && j < vd->vd_cnt) { 39512c23cb7cSEd Maste vda = (Elf_Verdaux *) (uintptr_t) buf2; 39522c23cb7cSEd Maste name = get_string(re, s->link, vda->vda_name); 39532c23cb7cSEd Maste if (j == 0) { 39542c23cb7cSEd Maste if (dump) 39552c23cb7cSEd Maste printf(" vda_name: %s\n", name); 39562c23cb7cSEd Maste SAVE_VERSION_NAME((int)vd->vd_ndx, name, 1); 39572c23cb7cSEd Maste } else if (dump) 39582c23cb7cSEd Maste printf(" 0x%4.4lx parent: %s\n", 39592c23cb7cSEd Maste (unsigned long) (buf2 - 39602c23cb7cSEd Maste (uint8_t *)d->d_buf), name); 39612c23cb7cSEd Maste if (vda->vda_next == 0) 39622c23cb7cSEd Maste break; 39632c23cb7cSEd Maste buf2 += vda->vda_next; 39642c23cb7cSEd Maste j++; 39652c23cb7cSEd Maste } 39662c23cb7cSEd Maste if (vd->vd_next == 0) 39672c23cb7cSEd Maste break; 39682c23cb7cSEd Maste buf += vd->vd_next; 39692c23cb7cSEd Maste } 39702c23cb7cSEd Maste } 39712c23cb7cSEd Maste 39722c23cb7cSEd Maste static void 39732c23cb7cSEd Maste dump_verneed(struct readelf *re, int dump) 39742c23cb7cSEd Maste { 39752c23cb7cSEd Maste struct section *s; 39762c23cb7cSEd Maste struct symver *nv; 39772c23cb7cSEd Maste Elf_Data *d; 39782c23cb7cSEd Maste Elf_Verneed *vn; 39792c23cb7cSEd Maste Elf_Vernaux *vna; 39802c23cb7cSEd Maste uint8_t *buf, *end, *buf2; 39812c23cb7cSEd Maste const char *name; 39822c23cb7cSEd Maste int elferr, i, j; 39832c23cb7cSEd Maste 39842c23cb7cSEd Maste if ((s = re->vn_s) == NULL) 39852c23cb7cSEd Maste return; 3986656f49f8SEd Maste if (s->link >= re->shnum) 3987656f49f8SEd Maste return; 39882c23cb7cSEd Maste 39892c23cb7cSEd Maste if (re->ver == NULL) { 39902c23cb7cSEd Maste re->ver_sz = 16; 39912c23cb7cSEd Maste if ((re->ver = calloc(re->ver_sz, sizeof(*re->ver))) == 39922c23cb7cSEd Maste NULL) { 39932c23cb7cSEd Maste warn("calloc failed"); 39942c23cb7cSEd Maste return; 39952c23cb7cSEd Maste } 39962c23cb7cSEd Maste re->ver[0].name = "*local*"; 39972c23cb7cSEd Maste re->ver[1].name = "*global*"; 39982c23cb7cSEd Maste } 39992c23cb7cSEd Maste 40002c23cb7cSEd Maste if (dump) 40012c23cb7cSEd Maste printf("\nVersion needed section (%s):\n", s->name); 40022c23cb7cSEd Maste (void) elf_errno(); 40032c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 40042c23cb7cSEd Maste elferr = elf_errno(); 40052c23cb7cSEd Maste if (elferr != 0) 40062c23cb7cSEd Maste warnx("elf_getdata failed: %s", elf_errmsg(elferr)); 40072c23cb7cSEd Maste return; 40082c23cb7cSEd Maste } 40092c23cb7cSEd Maste if (d->d_size == 0) 40102c23cb7cSEd Maste return; 40112c23cb7cSEd Maste 40122c23cb7cSEd Maste buf = d->d_buf; 40132c23cb7cSEd Maste end = buf + d->d_size; 40142c23cb7cSEd Maste while (buf + sizeof(Elf_Verneed) <= end) { 40152c23cb7cSEd Maste vn = (Elf_Verneed *) (uintptr_t) buf; 40162c23cb7cSEd Maste if (dump) { 40172c23cb7cSEd Maste printf(" 0x%4.4lx", (unsigned long) 40182c23cb7cSEd Maste (buf - (uint8_t *)d->d_buf)); 40192c23cb7cSEd Maste printf(" vn_version: %u vn_file: %s vn_cnt: %u\n", 40202c23cb7cSEd Maste vn->vn_version, 40212c23cb7cSEd Maste get_string(re, s->link, vn->vn_file), 40222c23cb7cSEd Maste vn->vn_cnt); 40232c23cb7cSEd Maste } 40242c23cb7cSEd Maste buf2 = buf + vn->vn_aux; 40252c23cb7cSEd Maste j = 0; 40262c23cb7cSEd Maste while (buf2 + sizeof(Elf_Vernaux) <= end && j < vn->vn_cnt) { 40272c23cb7cSEd Maste vna = (Elf32_Vernaux *) (uintptr_t) buf2; 40282c23cb7cSEd Maste if (dump) 40292c23cb7cSEd Maste printf(" 0x%4.4lx", (unsigned long) 40302c23cb7cSEd Maste (buf2 - (uint8_t *)d->d_buf)); 40312c23cb7cSEd Maste name = get_string(re, s->link, vna->vna_name); 40322c23cb7cSEd Maste if (dump) 40332c23cb7cSEd Maste printf(" vna_name: %s vna_flags: %u" 40342c23cb7cSEd Maste " vna_other: %u\n", name, 40352c23cb7cSEd Maste vna->vna_flags, vna->vna_other); 40362c23cb7cSEd Maste SAVE_VERSION_NAME((int)vna->vna_other, name, 0); 40372c23cb7cSEd Maste if (vna->vna_next == 0) 40382c23cb7cSEd Maste break; 40392c23cb7cSEd Maste buf2 += vna->vna_next; 40402c23cb7cSEd Maste j++; 40412c23cb7cSEd Maste } 40422c23cb7cSEd Maste if (vn->vn_next == 0) 40432c23cb7cSEd Maste break; 40442c23cb7cSEd Maste buf += vn->vn_next; 40452c23cb7cSEd Maste } 40462c23cb7cSEd Maste } 40472c23cb7cSEd Maste 40482c23cb7cSEd Maste static void 40492c23cb7cSEd Maste dump_versym(struct readelf *re) 40502c23cb7cSEd Maste { 40512c23cb7cSEd Maste int i; 4052656f49f8SEd Maste uint16_t vs; 40532c23cb7cSEd Maste 40542c23cb7cSEd Maste if (re->vs_s == NULL || re->ver == NULL || re->vs == NULL) 40552c23cb7cSEd Maste return; 40562c23cb7cSEd Maste printf("\nVersion symbol section (%s):\n", re->vs_s->name); 40572c23cb7cSEd Maste for (i = 0; i < re->vs_sz; i++) { 40582c23cb7cSEd Maste if ((i & 3) == 0) { 40592c23cb7cSEd Maste if (i > 0) 40602c23cb7cSEd Maste putchar('\n'); 40612c23cb7cSEd Maste printf(" %03x:", i); 40622c23cb7cSEd Maste } 4063656f49f8SEd Maste vs = re->vs[i] & VERSYM_VERSION; 4064656f49f8SEd Maste if (vs >= re->ver_sz || re->ver[vs].name == NULL) { 4065656f49f8SEd Maste warnx("invalid versym version index %u", re->vs[i]); 4066656f49f8SEd Maste break; 4067656f49f8SEd Maste } 4068656f49f8SEd Maste if (re->vs[i] & VERSYM_HIDDEN) 4069656f49f8SEd Maste printf(" %3xh %-12s ", vs, 4070656f49f8SEd Maste re->ver[re->vs[i] & VERSYM_VERSION].name); 40712c23cb7cSEd Maste else 4072656f49f8SEd Maste printf(" %3x %-12s ", vs, re->ver[re->vs[i]].name); 40732c23cb7cSEd Maste } 40742c23cb7cSEd Maste putchar('\n'); 40752c23cb7cSEd Maste } 40762c23cb7cSEd Maste 40772c23cb7cSEd Maste static void 40782c23cb7cSEd Maste dump_ver(struct readelf *re) 40792c23cb7cSEd Maste { 40802c23cb7cSEd Maste 40812c23cb7cSEd Maste if (re->vs_s && re->ver && re->vs) 40822c23cb7cSEd Maste dump_versym(re); 40832c23cb7cSEd Maste if (re->vd_s) 40842c23cb7cSEd Maste dump_verdef(re, 1); 40852c23cb7cSEd Maste if (re->vn_s) 40862c23cb7cSEd Maste dump_verneed(re, 1); 40872c23cb7cSEd Maste } 40882c23cb7cSEd Maste 40892c23cb7cSEd Maste static void 40902c23cb7cSEd Maste search_ver(struct readelf *re) 40912c23cb7cSEd Maste { 40922c23cb7cSEd Maste struct section *s; 40932c23cb7cSEd Maste Elf_Data *d; 40942c23cb7cSEd Maste int elferr, i; 40952c23cb7cSEd Maste 40962c23cb7cSEd Maste for (i = 0; (size_t) i < re->shnum; i++) { 40972c23cb7cSEd Maste s = &re->sl[i]; 40982c23cb7cSEd Maste if (s->type == SHT_SUNW_versym) 40992c23cb7cSEd Maste re->vs_s = s; 41002c23cb7cSEd Maste if (s->type == SHT_SUNW_verneed) 41012c23cb7cSEd Maste re->vn_s = s; 41022c23cb7cSEd Maste if (s->type == SHT_SUNW_verdef) 41032c23cb7cSEd Maste re->vd_s = s; 41042c23cb7cSEd Maste } 41052c23cb7cSEd Maste if (re->vd_s) 41062c23cb7cSEd Maste dump_verdef(re, 0); 41072c23cb7cSEd Maste if (re->vn_s) 41082c23cb7cSEd Maste dump_verneed(re, 0); 41092c23cb7cSEd Maste if (re->vs_s && re->ver != NULL) { 41102c23cb7cSEd Maste (void) elf_errno(); 41112c23cb7cSEd Maste if ((d = elf_getdata(re->vs_s->scn, NULL)) == NULL) { 41122c23cb7cSEd Maste elferr = elf_errno(); 41132c23cb7cSEd Maste if (elferr != 0) 41142c23cb7cSEd Maste warnx("elf_getdata failed: %s", 41152c23cb7cSEd Maste elf_errmsg(elferr)); 41162c23cb7cSEd Maste return; 41172c23cb7cSEd Maste } 41182c23cb7cSEd Maste if (d->d_size == 0) 41192c23cb7cSEd Maste return; 41202c23cb7cSEd Maste re->vs = d->d_buf; 41212c23cb7cSEd Maste re->vs_sz = d->d_size / sizeof(Elf32_Half); 41222c23cb7cSEd Maste } 41232c23cb7cSEd Maste } 41242c23cb7cSEd Maste 41252c23cb7cSEd Maste #undef Elf_Verdef 41262c23cb7cSEd Maste #undef Elf_Verdaux 41272c23cb7cSEd Maste #undef Elf_Verneed 41282c23cb7cSEd Maste #undef Elf_Vernaux 41292c23cb7cSEd Maste #undef SAVE_VERSION_NAME 41302c23cb7cSEd Maste 41312c23cb7cSEd Maste /* 41322c23cb7cSEd Maste * Elf32_Lib and Elf64_Lib are identical. 41332c23cb7cSEd Maste */ 41342c23cb7cSEd Maste #define Elf_Lib Elf32_Lib 41352c23cb7cSEd Maste 41362c23cb7cSEd Maste static void 41372c23cb7cSEd Maste dump_liblist(struct readelf *re) 41382c23cb7cSEd Maste { 41392c23cb7cSEd Maste struct section *s; 41402c23cb7cSEd Maste struct tm *t; 41412c23cb7cSEd Maste time_t ti; 41422c23cb7cSEd Maste char tbuf[20]; 41432c23cb7cSEd Maste Elf_Data *d; 41442c23cb7cSEd Maste Elf_Lib *lib; 414571edbbfdSEd Maste int i, j, k, elferr, first, len; 41462c23cb7cSEd Maste 41472c23cb7cSEd Maste for (i = 0; (size_t) i < re->shnum; i++) { 41482c23cb7cSEd Maste s = &re->sl[i]; 41492c23cb7cSEd Maste if (s->type != SHT_GNU_LIBLIST) 41502c23cb7cSEd Maste continue; 4151656f49f8SEd Maste if (s->link >= re->shnum) 4152656f49f8SEd Maste continue; 41532c23cb7cSEd Maste (void) elf_errno(); 41542c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 41552c23cb7cSEd Maste elferr = elf_errno(); 41562c23cb7cSEd Maste if (elferr != 0) 41572c23cb7cSEd Maste warnx("elf_getdata failed: %s", 41582c23cb7cSEd Maste elf_errmsg(elferr)); 41592c23cb7cSEd Maste continue; 41602c23cb7cSEd Maste } 41612c23cb7cSEd Maste if (d->d_size <= 0) 41622c23cb7cSEd Maste continue; 41632c23cb7cSEd Maste lib = d->d_buf; 416471edbbfdSEd Maste if (!get_ent_count(s, &len)) 416571edbbfdSEd Maste continue; 41662c23cb7cSEd Maste printf("\nLibrary list section '%s' ", s->name); 416771edbbfdSEd Maste printf("contains %d entries:\n", len); 41682c23cb7cSEd Maste printf("%12s%24s%18s%10s%6s\n", "Library", "Time Stamp", 41692c23cb7cSEd Maste "Checksum", "Version", "Flags"); 41702c23cb7cSEd Maste for (j = 0; (uint64_t) j < s->sz / s->entsize; j++) { 41712c23cb7cSEd Maste printf("%3d: ", j); 41722c23cb7cSEd Maste printf("%-20.20s ", 41732c23cb7cSEd Maste get_string(re, s->link, lib->l_name)); 41742c23cb7cSEd Maste ti = lib->l_time_stamp; 41752c23cb7cSEd Maste t = gmtime(&ti); 41762c23cb7cSEd Maste snprintf(tbuf, sizeof(tbuf), "%04d-%02d-%02dT%02d:%02d" 41772c23cb7cSEd Maste ":%2d", t->tm_year + 1900, t->tm_mon + 1, 41782c23cb7cSEd Maste t->tm_mday, t->tm_hour, t->tm_min, t->tm_sec); 41792c23cb7cSEd Maste printf("%-19.19s ", tbuf); 41802c23cb7cSEd Maste printf("0x%08x ", lib->l_checksum); 41812c23cb7cSEd Maste printf("%-7d %#x", lib->l_version, lib->l_flags); 41822c23cb7cSEd Maste if (lib->l_flags != 0) { 41832c23cb7cSEd Maste first = 1; 41842c23cb7cSEd Maste putchar('('); 41852c23cb7cSEd Maste for (k = 0; l_flag[k].name != NULL; k++) { 41862c23cb7cSEd Maste if ((l_flag[k].value & lib->l_flags) == 41872c23cb7cSEd Maste 0) 41882c23cb7cSEd Maste continue; 41892c23cb7cSEd Maste if (!first) 41902c23cb7cSEd Maste putchar(','); 41912c23cb7cSEd Maste else 41922c23cb7cSEd Maste first = 0; 41932c23cb7cSEd Maste printf("%s", l_flag[k].name); 41942c23cb7cSEd Maste } 41952c23cb7cSEd Maste putchar(')'); 41962c23cb7cSEd Maste } 41972c23cb7cSEd Maste putchar('\n'); 41982c23cb7cSEd Maste lib++; 41992c23cb7cSEd Maste } 42002c23cb7cSEd Maste } 42012c23cb7cSEd Maste } 42022c23cb7cSEd Maste 42032c23cb7cSEd Maste #undef Elf_Lib 42042c23cb7cSEd Maste 42053ef90571SEd Maste static void 42063ef90571SEd Maste dump_section_groups(struct readelf *re) 42073ef90571SEd Maste { 42083ef90571SEd Maste struct section *s; 42093ef90571SEd Maste const char *symname; 42103ef90571SEd Maste Elf_Data *d; 42113ef90571SEd Maste uint32_t *w; 42123ef90571SEd Maste int i, j, elferr; 42133ef90571SEd Maste size_t n; 42143ef90571SEd Maste 42153ef90571SEd Maste for (i = 0; (size_t) i < re->shnum; i++) { 42163ef90571SEd Maste s = &re->sl[i]; 42173ef90571SEd Maste if (s->type != SHT_GROUP) 42183ef90571SEd Maste continue; 4219656f49f8SEd Maste if (s->link >= re->shnum) 4220656f49f8SEd Maste continue; 42213ef90571SEd Maste (void) elf_errno(); 42223ef90571SEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 42233ef90571SEd Maste elferr = elf_errno(); 42243ef90571SEd Maste if (elferr != 0) 42253ef90571SEd Maste warnx("elf_getdata failed: %s", 42263ef90571SEd Maste elf_errmsg(elferr)); 42273ef90571SEd Maste continue; 42283ef90571SEd Maste } 42293ef90571SEd Maste if (d->d_size <= 0) 42303ef90571SEd Maste continue; 42313ef90571SEd Maste 42323ef90571SEd Maste w = d->d_buf; 42333ef90571SEd Maste 42343ef90571SEd Maste /* We only support COMDAT section. */ 42353ef90571SEd Maste #ifndef GRP_COMDAT 42363ef90571SEd Maste #define GRP_COMDAT 0x1 42373ef90571SEd Maste #endif 42383ef90571SEd Maste if ((*w++ & GRP_COMDAT) == 0) 42393ef90571SEd Maste return; 42403ef90571SEd Maste 42413ef90571SEd Maste if (s->entsize == 0) 42423ef90571SEd Maste s->entsize = 4; 42433ef90571SEd Maste 42443ef90571SEd Maste symname = get_symbol_name(re, s->link, s->info); 42453ef90571SEd Maste n = s->sz / s->entsize; 42463ef90571SEd Maste if (n-- < 1) 42473ef90571SEd Maste return; 42483ef90571SEd Maste 42493ef90571SEd Maste printf("\nCOMDAT group section [%5d] `%s' [%s] contains %ju" 42503ef90571SEd Maste " sections:\n", i, s->name, symname, (uintmax_t)n); 42513ef90571SEd Maste printf(" %-10.10s %s\n", "[Index]", "Name"); 42523ef90571SEd Maste for (j = 0; (size_t) j < n; j++, w++) { 42533ef90571SEd Maste if (*w >= re->shnum) { 42543ef90571SEd Maste warnx("invalid section index: %u", *w); 42553ef90571SEd Maste continue; 42563ef90571SEd Maste } 42573ef90571SEd Maste printf(" [%5u] %s\n", *w, re->sl[*w].name); 42583ef90571SEd Maste } 42593ef90571SEd Maste } 42603ef90571SEd Maste } 42613ef90571SEd Maste 42622c23cb7cSEd Maste static uint8_t * 4263*95fd7f26SEd Maste dump_unknown_tag(uint64_t tag, uint8_t *p, uint8_t *pe) 42642c23cb7cSEd Maste { 42652c23cb7cSEd Maste uint64_t val; 42662c23cb7cSEd Maste 42672c23cb7cSEd Maste /* 42682c23cb7cSEd Maste * According to ARM EABI: For tags > 32, even numbered tags have 42692c23cb7cSEd Maste * a ULEB128 param and odd numbered ones have NUL-terminated 42702c23cb7cSEd Maste * string param. This rule probably also applies for tags <= 32 42712c23cb7cSEd Maste * if the object arch is not ARM. 42722c23cb7cSEd Maste */ 42732c23cb7cSEd Maste 42742c23cb7cSEd Maste printf(" Tag_unknown_%ju: ", (uintmax_t) tag); 42752c23cb7cSEd Maste 42762c23cb7cSEd Maste if (tag & 1) { 42772c23cb7cSEd Maste printf("%s\n", (char *) p); 42782c23cb7cSEd Maste p += strlen((char *) p) + 1; 42792c23cb7cSEd Maste } else { 4280*95fd7f26SEd Maste val = _decode_uleb128(&p, pe); 42812c23cb7cSEd Maste printf("%ju\n", (uintmax_t) val); 42822c23cb7cSEd Maste } 42832c23cb7cSEd Maste 42842c23cb7cSEd Maste return (p); 42852c23cb7cSEd Maste } 42862c23cb7cSEd Maste 42872c23cb7cSEd Maste static uint8_t * 4288*95fd7f26SEd Maste dump_compatibility_tag(uint8_t *p, uint8_t *pe) 42892c23cb7cSEd Maste { 42902c23cb7cSEd Maste uint64_t val; 42912c23cb7cSEd Maste 4292*95fd7f26SEd Maste val = _decode_uleb128(&p, pe); 42932c23cb7cSEd Maste printf("flag = %ju, vendor = %s\n", val, p); 42942c23cb7cSEd Maste p += strlen((char *) p) + 1; 42952c23cb7cSEd Maste 42962c23cb7cSEd Maste return (p); 42972c23cb7cSEd Maste } 42982c23cb7cSEd Maste 42992c23cb7cSEd Maste static void 43002c23cb7cSEd Maste dump_arm_attributes(struct readelf *re, uint8_t *p, uint8_t *pe) 43012c23cb7cSEd Maste { 43022c23cb7cSEd Maste uint64_t tag, val; 43032c23cb7cSEd Maste size_t i; 43042c23cb7cSEd Maste int found, desc; 43052c23cb7cSEd Maste 43062c23cb7cSEd Maste (void) re; 43072c23cb7cSEd Maste 43082c23cb7cSEd Maste while (p < pe) { 4309*95fd7f26SEd Maste tag = _decode_uleb128(&p, pe); 43102c23cb7cSEd Maste found = desc = 0; 43112c23cb7cSEd Maste for (i = 0; i < sizeof(aeabi_tags) / sizeof(aeabi_tags[0]); 43122c23cb7cSEd Maste i++) { 43132c23cb7cSEd Maste if (tag == aeabi_tags[i].tag) { 43142c23cb7cSEd Maste found = 1; 43152c23cb7cSEd Maste printf(" %s: ", aeabi_tags[i].s_tag); 43162c23cb7cSEd Maste if (aeabi_tags[i].get_desc) { 43172c23cb7cSEd Maste desc = 1; 4318*95fd7f26SEd Maste val = _decode_uleb128(&p, pe); 43192c23cb7cSEd Maste printf("%s\n", 43202c23cb7cSEd Maste aeabi_tags[i].get_desc(val)); 43212c23cb7cSEd Maste } 43222c23cb7cSEd Maste break; 43232c23cb7cSEd Maste } 43242c23cb7cSEd Maste if (tag < aeabi_tags[i].tag) 43252c23cb7cSEd Maste break; 43262c23cb7cSEd Maste } 43272c23cb7cSEd Maste if (!found) { 4328*95fd7f26SEd Maste p = dump_unknown_tag(tag, p, pe); 43292c23cb7cSEd Maste continue; 43302c23cb7cSEd Maste } 43312c23cb7cSEd Maste if (desc) 43322c23cb7cSEd Maste continue; 43332c23cb7cSEd Maste 43342c23cb7cSEd Maste switch (tag) { 43352c23cb7cSEd Maste case 4: /* Tag_CPU_raw_name */ 43362c23cb7cSEd Maste case 5: /* Tag_CPU_name */ 43372c23cb7cSEd Maste case 67: /* Tag_conformance */ 43382c23cb7cSEd Maste printf("%s\n", (char *) p); 43392c23cb7cSEd Maste p += strlen((char *) p) + 1; 43402c23cb7cSEd Maste break; 43412c23cb7cSEd Maste case 32: /* Tag_compatibility */ 4342*95fd7f26SEd Maste p = dump_compatibility_tag(p, pe); 43432c23cb7cSEd Maste break; 43442c23cb7cSEd Maste case 64: /* Tag_nodefaults */ 43452c23cb7cSEd Maste /* ignored, written as 0. */ 4346*95fd7f26SEd Maste (void) _decode_uleb128(&p, pe); 43472c23cb7cSEd Maste printf("True\n"); 43482c23cb7cSEd Maste break; 43492c23cb7cSEd Maste case 65: /* Tag_also_compatible_with */ 4350*95fd7f26SEd Maste val = _decode_uleb128(&p, pe); 43512c23cb7cSEd Maste /* Must be Tag_CPU_arch */ 43522c23cb7cSEd Maste if (val != 6) { 43532c23cb7cSEd Maste printf("unknown\n"); 43542c23cb7cSEd Maste break; 43552c23cb7cSEd Maste } 4356*95fd7f26SEd Maste val = _decode_uleb128(&p, pe); 43572c23cb7cSEd Maste printf("%s\n", aeabi_cpu_arch(val)); 43582c23cb7cSEd Maste /* Skip NUL terminator. */ 43592c23cb7cSEd Maste p++; 43602c23cb7cSEd Maste break; 43612c23cb7cSEd Maste default: 43622c23cb7cSEd Maste putchar('\n'); 43632c23cb7cSEd Maste break; 43642c23cb7cSEd Maste } 43652c23cb7cSEd Maste } 43662c23cb7cSEd Maste } 43672c23cb7cSEd Maste 43682c23cb7cSEd Maste #ifndef Tag_GNU_MIPS_ABI_FP 43692c23cb7cSEd Maste #define Tag_GNU_MIPS_ABI_FP 4 43702c23cb7cSEd Maste #endif 43712c23cb7cSEd Maste 43722c23cb7cSEd Maste static void 43732c23cb7cSEd Maste dump_mips_attributes(struct readelf *re, uint8_t *p, uint8_t *pe) 43742c23cb7cSEd Maste { 43752c23cb7cSEd Maste uint64_t tag, val; 43762c23cb7cSEd Maste 43772c23cb7cSEd Maste (void) re; 43782c23cb7cSEd Maste 43792c23cb7cSEd Maste while (p < pe) { 4380*95fd7f26SEd Maste tag = _decode_uleb128(&p, pe); 43812c23cb7cSEd Maste switch (tag) { 43822c23cb7cSEd Maste case Tag_GNU_MIPS_ABI_FP: 4383*95fd7f26SEd Maste val = _decode_uleb128(&p, pe); 43842c23cb7cSEd Maste printf(" Tag_GNU_MIPS_ABI_FP: %s\n", mips_abi_fp(val)); 43852c23cb7cSEd Maste break; 43862c23cb7cSEd Maste case 32: /* Tag_compatibility */ 4387*95fd7f26SEd Maste p = dump_compatibility_tag(p, pe); 43882c23cb7cSEd Maste break; 43892c23cb7cSEd Maste default: 4390*95fd7f26SEd Maste p = dump_unknown_tag(tag, p, pe); 43912c23cb7cSEd Maste break; 43922c23cb7cSEd Maste } 43932c23cb7cSEd Maste } 43942c23cb7cSEd Maste } 43952c23cb7cSEd Maste 43962c23cb7cSEd Maste #ifndef Tag_GNU_Power_ABI_FP 43972c23cb7cSEd Maste #define Tag_GNU_Power_ABI_FP 4 43982c23cb7cSEd Maste #endif 43992c23cb7cSEd Maste 44002c23cb7cSEd Maste #ifndef Tag_GNU_Power_ABI_Vector 44012c23cb7cSEd Maste #define Tag_GNU_Power_ABI_Vector 8 44022c23cb7cSEd Maste #endif 44032c23cb7cSEd Maste 44042c23cb7cSEd Maste static void 44052c23cb7cSEd Maste dump_ppc_attributes(uint8_t *p, uint8_t *pe) 44062c23cb7cSEd Maste { 44072c23cb7cSEd Maste uint64_t tag, val; 44082c23cb7cSEd Maste 44092c23cb7cSEd Maste while (p < pe) { 4410*95fd7f26SEd Maste tag = _decode_uleb128(&p, pe); 44112c23cb7cSEd Maste switch (tag) { 44122c23cb7cSEd Maste case Tag_GNU_Power_ABI_FP: 4413*95fd7f26SEd Maste val = _decode_uleb128(&p, pe); 44142c23cb7cSEd Maste printf(" Tag_GNU_Power_ABI_FP: %s\n", ppc_abi_fp(val)); 44152c23cb7cSEd Maste break; 44162c23cb7cSEd Maste case Tag_GNU_Power_ABI_Vector: 4417*95fd7f26SEd Maste val = _decode_uleb128(&p, pe); 44182c23cb7cSEd Maste printf(" Tag_GNU_Power_ABI_Vector: %s\n", 44192c23cb7cSEd Maste ppc_abi_vector(val)); 44202c23cb7cSEd Maste break; 44212c23cb7cSEd Maste case 32: /* Tag_compatibility */ 4422*95fd7f26SEd Maste p = dump_compatibility_tag(p, pe); 44232c23cb7cSEd Maste break; 44242c23cb7cSEd Maste default: 4425*95fd7f26SEd Maste p = dump_unknown_tag(tag, p, pe); 44262c23cb7cSEd Maste break; 44272c23cb7cSEd Maste } 44282c23cb7cSEd Maste } 44292c23cb7cSEd Maste } 44302c23cb7cSEd Maste 44312c23cb7cSEd Maste static void 44322c23cb7cSEd Maste dump_attributes(struct readelf *re) 44332c23cb7cSEd Maste { 44342c23cb7cSEd Maste struct section *s; 44352c23cb7cSEd Maste Elf_Data *d; 4436*95fd7f26SEd Maste uint8_t *p, *pe, *sp; 44372c23cb7cSEd Maste size_t len, seclen, nlen, sublen; 44382c23cb7cSEd Maste uint64_t val; 44392c23cb7cSEd Maste int tag, i, elferr; 44402c23cb7cSEd Maste 44412c23cb7cSEd Maste for (i = 0; (size_t) i < re->shnum; i++) { 44422c23cb7cSEd Maste s = &re->sl[i]; 44432c23cb7cSEd Maste if (s->type != SHT_GNU_ATTRIBUTES && 44442c23cb7cSEd Maste (re->ehdr.e_machine != EM_ARM || s->type != SHT_LOPROC + 3)) 44452c23cb7cSEd Maste continue; 44462c23cb7cSEd Maste (void) elf_errno(); 44472c23cb7cSEd Maste if ((d = elf_rawdata(s->scn, NULL)) == NULL) { 44482c23cb7cSEd Maste elferr = elf_errno(); 44492c23cb7cSEd Maste if (elferr != 0) 44502c23cb7cSEd Maste warnx("elf_rawdata failed: %s", 44512c23cb7cSEd Maste elf_errmsg(elferr)); 44522c23cb7cSEd Maste continue; 44532c23cb7cSEd Maste } 44542c23cb7cSEd Maste if (d->d_size <= 0) 44552c23cb7cSEd Maste continue; 44562c23cb7cSEd Maste p = d->d_buf; 4457*95fd7f26SEd Maste pe = p + d->d_size; 44582c23cb7cSEd Maste if (*p != 'A') { 44592c23cb7cSEd Maste printf("Unknown Attribute Section Format: %c\n", 44602c23cb7cSEd Maste (char) *p); 44612c23cb7cSEd Maste continue; 44622c23cb7cSEd Maste } 44632c23cb7cSEd Maste len = d->d_size - 1; 44642c23cb7cSEd Maste p++; 44652c23cb7cSEd Maste while (len > 0) { 446671a0c925SEd Maste if (len < 4) { 446771a0c925SEd Maste warnx("truncated attribute section length"); 4468*95fd7f26SEd Maste return; 446971a0c925SEd Maste } 44702c23cb7cSEd Maste seclen = re->dw_decode(&p, 4); 44712c23cb7cSEd Maste if (seclen > len) { 44722c23cb7cSEd Maste warnx("invalid attribute section length"); 4473*95fd7f26SEd Maste return; 44742c23cb7cSEd Maste } 44752c23cb7cSEd Maste len -= seclen; 44762c23cb7cSEd Maste nlen = strlen((char *) p) + 1; 447771a0c925SEd Maste if (nlen + 4 > seclen) { 447871a0c925SEd Maste warnx("invalid attribute section name"); 4479*95fd7f26SEd Maste return; 448071a0c925SEd Maste } 448171a0c925SEd Maste printf("Attribute Section: %s\n", (char *) p); 44822c23cb7cSEd Maste p += nlen; 44832c23cb7cSEd Maste seclen -= nlen + 4; 44842c23cb7cSEd Maste while (seclen > 0) { 44852c23cb7cSEd Maste sp = p; 44862c23cb7cSEd Maste tag = *p++; 44872c23cb7cSEd Maste sublen = re->dw_decode(&p, 4); 44882c23cb7cSEd Maste if (sublen > seclen) { 44892c23cb7cSEd Maste warnx("invalid attribute sub-section" 44902c23cb7cSEd Maste " length"); 4491*95fd7f26SEd Maste return; 44922c23cb7cSEd Maste } 44932c23cb7cSEd Maste seclen -= sublen; 44942c23cb7cSEd Maste printf("%s", top_tag(tag)); 44952c23cb7cSEd Maste if (tag == 2 || tag == 3) { 44962c23cb7cSEd Maste putchar(':'); 44972c23cb7cSEd Maste for (;;) { 4498*95fd7f26SEd Maste val = _decode_uleb128(&p, pe); 44992c23cb7cSEd Maste if (val == 0) 45002c23cb7cSEd Maste break; 45012c23cb7cSEd Maste printf(" %ju", (uintmax_t) val); 45022c23cb7cSEd Maste } 45032c23cb7cSEd Maste } 45042c23cb7cSEd Maste putchar('\n'); 45052c23cb7cSEd Maste if (re->ehdr.e_machine == EM_ARM && 45062c23cb7cSEd Maste s->type == SHT_LOPROC + 3) 45072c23cb7cSEd Maste dump_arm_attributes(re, p, sp + sublen); 45082c23cb7cSEd Maste else if (re->ehdr.e_machine == EM_MIPS || 45092c23cb7cSEd Maste re->ehdr.e_machine == EM_MIPS_RS3_LE) 45102c23cb7cSEd Maste dump_mips_attributes(re, p, 45112c23cb7cSEd Maste sp + sublen); 45122c23cb7cSEd Maste else if (re->ehdr.e_machine == EM_PPC) 45132c23cb7cSEd Maste dump_ppc_attributes(p, sp + sublen); 45142c23cb7cSEd Maste p = sp + sublen; 45152c23cb7cSEd Maste } 45162c23cb7cSEd Maste } 45172c23cb7cSEd Maste } 45182c23cb7cSEd Maste } 45192c23cb7cSEd Maste 45202c23cb7cSEd Maste static void 45212c23cb7cSEd Maste dump_mips_specific_info(struct readelf *re) 45222c23cb7cSEd Maste { 45232c23cb7cSEd Maste struct section *s; 45242c23cb7cSEd Maste int i, options_found; 45252c23cb7cSEd Maste 45262c23cb7cSEd Maste options_found = 0; 45272c23cb7cSEd Maste s = NULL; 45282c23cb7cSEd Maste for (i = 0; (size_t) i < re->shnum; i++) { 45292c23cb7cSEd Maste s = &re->sl[i]; 45302c23cb7cSEd Maste if (s->name != NULL && (!strcmp(s->name, ".MIPS.options") || 45312c23cb7cSEd Maste (s->type == SHT_MIPS_OPTIONS))) { 45322c23cb7cSEd Maste dump_mips_options(re, s); 45332c23cb7cSEd Maste options_found = 1; 45342c23cb7cSEd Maste } 45352c23cb7cSEd Maste } 45362c23cb7cSEd Maste 45372c23cb7cSEd Maste /* 45382c23cb7cSEd Maste * According to SGI mips64 spec, .reginfo should be ignored if 45392c23cb7cSEd Maste * .MIPS.options section is present. 45402c23cb7cSEd Maste */ 45412c23cb7cSEd Maste if (!options_found) { 45422c23cb7cSEd Maste for (i = 0; (size_t) i < re->shnum; i++) { 45432c23cb7cSEd Maste s = &re->sl[i]; 45442c23cb7cSEd Maste if (s->name != NULL && (!strcmp(s->name, ".reginfo") || 45452c23cb7cSEd Maste (s->type == SHT_MIPS_REGINFO))) 45462c23cb7cSEd Maste dump_mips_reginfo(re, s); 45472c23cb7cSEd Maste } 45482c23cb7cSEd Maste } 45492c23cb7cSEd Maste } 45502c23cb7cSEd Maste 45512c23cb7cSEd Maste static void 45522c23cb7cSEd Maste dump_mips_reginfo(struct readelf *re, struct section *s) 45532c23cb7cSEd Maste { 45542c23cb7cSEd Maste Elf_Data *d; 455571edbbfdSEd Maste int elferr, len; 45562c23cb7cSEd Maste 45572c23cb7cSEd Maste (void) elf_errno(); 45582c23cb7cSEd Maste if ((d = elf_rawdata(s->scn, NULL)) == NULL) { 45592c23cb7cSEd Maste elferr = elf_errno(); 45602c23cb7cSEd Maste if (elferr != 0) 45612c23cb7cSEd Maste warnx("elf_rawdata failed: %s", 45622c23cb7cSEd Maste elf_errmsg(elferr)); 45632c23cb7cSEd Maste return; 45642c23cb7cSEd Maste } 45652c23cb7cSEd Maste if (d->d_size <= 0) 45662c23cb7cSEd Maste return; 456771edbbfdSEd Maste if (!get_ent_count(s, &len)) 456871edbbfdSEd Maste return; 45692c23cb7cSEd Maste 457071edbbfdSEd Maste printf("\nSection '%s' contains %d entries:\n", s->name, len); 45712c23cb7cSEd Maste dump_mips_odk_reginfo(re, d->d_buf, d->d_size); 45722c23cb7cSEd Maste } 45732c23cb7cSEd Maste 45742c23cb7cSEd Maste static void 45752c23cb7cSEd Maste dump_mips_options(struct readelf *re, struct section *s) 45762c23cb7cSEd Maste { 45772c23cb7cSEd Maste Elf_Data *d; 45782c23cb7cSEd Maste uint32_t info; 45792c23cb7cSEd Maste uint16_t sndx; 45802c23cb7cSEd Maste uint8_t *p, *pe; 45812c23cb7cSEd Maste uint8_t kind, size; 45822c23cb7cSEd Maste int elferr; 45832c23cb7cSEd Maste 45842c23cb7cSEd Maste (void) elf_errno(); 45852c23cb7cSEd Maste if ((d = elf_rawdata(s->scn, NULL)) == NULL) { 45862c23cb7cSEd Maste elferr = elf_errno(); 45872c23cb7cSEd Maste if (elferr != 0) 45882c23cb7cSEd Maste warnx("elf_rawdata failed: %s", 45892c23cb7cSEd Maste elf_errmsg(elferr)); 45902c23cb7cSEd Maste return; 45912c23cb7cSEd Maste } 45922c23cb7cSEd Maste if (d->d_size == 0) 45932c23cb7cSEd Maste return; 45942c23cb7cSEd Maste 45952c23cb7cSEd Maste printf("\nSection %s contains:\n", s->name); 45962c23cb7cSEd Maste p = d->d_buf; 45972c23cb7cSEd Maste pe = p + d->d_size; 45982c23cb7cSEd Maste while (p < pe) { 4599b00fe64fSEd Maste if (pe - p < 8) { 4600b00fe64fSEd Maste warnx("Truncated MIPS option header"); 4601b00fe64fSEd Maste return; 4602b00fe64fSEd Maste } 46032c23cb7cSEd Maste kind = re->dw_decode(&p, 1); 46042c23cb7cSEd Maste size = re->dw_decode(&p, 1); 46052c23cb7cSEd Maste sndx = re->dw_decode(&p, 2); 46062c23cb7cSEd Maste info = re->dw_decode(&p, 4); 4607b00fe64fSEd Maste if (size < 8 || size - 8 > pe - p) { 4608b00fe64fSEd Maste warnx("Malformed MIPS option header"); 4609b00fe64fSEd Maste return; 4610b00fe64fSEd Maste } 4611b00fe64fSEd Maste size -= 8; 46122c23cb7cSEd Maste switch (kind) { 46132c23cb7cSEd Maste case ODK_REGINFO: 4614b00fe64fSEd Maste dump_mips_odk_reginfo(re, p, size); 46152c23cb7cSEd Maste break; 46162c23cb7cSEd Maste case ODK_EXCEPTIONS: 46172c23cb7cSEd Maste printf(" EXCEPTIONS FPU_MIN: %#x\n", 46182c23cb7cSEd Maste info & OEX_FPU_MIN); 46192c23cb7cSEd Maste printf("%11.11s FPU_MAX: %#x\n", "", 46202c23cb7cSEd Maste info & OEX_FPU_MAX); 46212c23cb7cSEd Maste dump_mips_option_flags("", mips_exceptions_option, 46222c23cb7cSEd Maste info); 46232c23cb7cSEd Maste break; 46242c23cb7cSEd Maste case ODK_PAD: 46252c23cb7cSEd Maste printf(" %-10.10s section: %ju\n", "OPAD", 46262c23cb7cSEd Maste (uintmax_t) sndx); 46272c23cb7cSEd Maste dump_mips_option_flags("", mips_pad_option, info); 46282c23cb7cSEd Maste break; 46292c23cb7cSEd Maste case ODK_HWPATCH: 46302c23cb7cSEd Maste dump_mips_option_flags("HWPATCH", mips_hwpatch_option, 46312c23cb7cSEd Maste info); 46322c23cb7cSEd Maste break; 46332c23cb7cSEd Maste case ODK_HWAND: 46342c23cb7cSEd Maste dump_mips_option_flags("HWAND", mips_hwa_option, info); 46352c23cb7cSEd Maste break; 46362c23cb7cSEd Maste case ODK_HWOR: 46372c23cb7cSEd Maste dump_mips_option_flags("HWOR", mips_hwo_option, info); 46382c23cb7cSEd Maste break; 46392c23cb7cSEd Maste case ODK_FILL: 46402c23cb7cSEd Maste printf(" %-10.10s %#jx\n", "FILL", (uintmax_t) info); 46412c23cb7cSEd Maste break; 46422c23cb7cSEd Maste case ODK_TAGS: 46432c23cb7cSEd Maste printf(" %-10.10s\n", "TAGS"); 46442c23cb7cSEd Maste break; 46452c23cb7cSEd Maste case ODK_GP_GROUP: 46462c23cb7cSEd Maste printf(" %-10.10s GP group number: %#x\n", "GP_GROUP", 46472c23cb7cSEd Maste info & 0xFFFF); 46482c23cb7cSEd Maste if (info & 0x10000) 46492c23cb7cSEd Maste printf(" %-10.10s GP group is " 46502c23cb7cSEd Maste "self-contained\n", ""); 46512c23cb7cSEd Maste break; 46522c23cb7cSEd Maste case ODK_IDENT: 46532c23cb7cSEd Maste printf(" %-10.10s default GP group number: %#x\n", 46542c23cb7cSEd Maste "IDENT", info & 0xFFFF); 46552c23cb7cSEd Maste if (info & 0x10000) 46562c23cb7cSEd Maste printf(" %-10.10s default GP group is " 46572c23cb7cSEd Maste "self-contained\n", ""); 46582c23cb7cSEd Maste break; 46592c23cb7cSEd Maste case ODK_PAGESIZE: 46602c23cb7cSEd Maste printf(" %-10.10s\n", "PAGESIZE"); 46612c23cb7cSEd Maste break; 46622c23cb7cSEd Maste default: 46632c23cb7cSEd Maste break; 46642c23cb7cSEd Maste } 4665b00fe64fSEd Maste p += size; 46662c23cb7cSEd Maste } 46672c23cb7cSEd Maste } 46682c23cb7cSEd Maste 46692c23cb7cSEd Maste static void 46702c23cb7cSEd Maste dump_mips_option_flags(const char *name, struct mips_option *opt, uint64_t info) 46712c23cb7cSEd Maste { 46722c23cb7cSEd Maste int first; 46732c23cb7cSEd Maste 46742c23cb7cSEd Maste first = 1; 46752c23cb7cSEd Maste for (; opt->desc != NULL; opt++) { 46762c23cb7cSEd Maste if (info & opt->flag) { 46772c23cb7cSEd Maste printf(" %-10.10s %s\n", first ? name : "", 46782c23cb7cSEd Maste opt->desc); 46792c23cb7cSEd Maste first = 0; 46802c23cb7cSEd Maste } 46812c23cb7cSEd Maste } 46822c23cb7cSEd Maste } 46832c23cb7cSEd Maste 46842c23cb7cSEd Maste static void 46852c23cb7cSEd Maste dump_mips_odk_reginfo(struct readelf *re, uint8_t *p, size_t sz) 46862c23cb7cSEd Maste { 46872c23cb7cSEd Maste uint32_t ri_gprmask; 46882c23cb7cSEd Maste uint32_t ri_cprmask[4]; 46892c23cb7cSEd Maste uint64_t ri_gp_value; 46902c23cb7cSEd Maste uint8_t *pe; 46912c23cb7cSEd Maste int i; 46922c23cb7cSEd Maste 46932c23cb7cSEd Maste pe = p + sz; 46942c23cb7cSEd Maste while (p < pe) { 46952c23cb7cSEd Maste ri_gprmask = re->dw_decode(&p, 4); 46962c23cb7cSEd Maste /* Skip ri_pad padding field for mips64. */ 46972c23cb7cSEd Maste if (re->ec == ELFCLASS64) 46982c23cb7cSEd Maste re->dw_decode(&p, 4); 46992c23cb7cSEd Maste for (i = 0; i < 4; i++) 47002c23cb7cSEd Maste ri_cprmask[i] = re->dw_decode(&p, 4); 47012c23cb7cSEd Maste if (re->ec == ELFCLASS32) 47022c23cb7cSEd Maste ri_gp_value = re->dw_decode(&p, 4); 47032c23cb7cSEd Maste else 47042c23cb7cSEd Maste ri_gp_value = re->dw_decode(&p, 8); 47052c23cb7cSEd Maste printf(" %s ", option_kind(ODK_REGINFO)); 47062c23cb7cSEd Maste printf("ri_gprmask: 0x%08jx\n", (uintmax_t) ri_gprmask); 47072c23cb7cSEd Maste for (i = 0; i < 4; i++) 47082c23cb7cSEd Maste printf("%11.11s ri_cprmask[%d]: 0x%08jx\n", "", i, 47092c23cb7cSEd Maste (uintmax_t) ri_cprmask[i]); 47102c23cb7cSEd Maste printf("%12.12s", ""); 47112c23cb7cSEd Maste printf("ri_gp_value: %#jx\n", (uintmax_t) ri_gp_value); 47122c23cb7cSEd Maste } 47132c23cb7cSEd Maste } 47142c23cb7cSEd Maste 47152c23cb7cSEd Maste static void 47162c23cb7cSEd Maste dump_arch_specific_info(struct readelf *re) 47172c23cb7cSEd Maste { 47182c23cb7cSEd Maste 47192c23cb7cSEd Maste dump_liblist(re); 47202c23cb7cSEd Maste dump_attributes(re); 47212c23cb7cSEd Maste 47222c23cb7cSEd Maste switch (re->ehdr.e_machine) { 47232c23cb7cSEd Maste case EM_MIPS: 47242c23cb7cSEd Maste case EM_MIPS_RS3_LE: 47252c23cb7cSEd Maste dump_mips_specific_info(re); 47262c23cb7cSEd Maste default: 47272c23cb7cSEd Maste break; 47282c23cb7cSEd Maste } 47292c23cb7cSEd Maste } 47302c23cb7cSEd Maste 4731cf781b2eSEd Maste static const char * 4732cf781b2eSEd Maste dwarf_regname(struct readelf *re, unsigned int num) 4733cf781b2eSEd Maste { 4734cf781b2eSEd Maste static char rx[32]; 4735cf781b2eSEd Maste const char *rn; 4736cf781b2eSEd Maste 4737cf781b2eSEd Maste if ((rn = dwarf_reg(re->ehdr.e_machine, num)) != NULL) 4738cf781b2eSEd Maste return (rn); 4739cf781b2eSEd Maste 4740cf781b2eSEd Maste snprintf(rx, sizeof(rx), "r%u", num); 4741cf781b2eSEd Maste 4742cf781b2eSEd Maste return (rx); 4743cf781b2eSEd Maste } 4744cf781b2eSEd Maste 47452c23cb7cSEd Maste static void 47462c23cb7cSEd Maste dump_dwarf_line(struct readelf *re) 47472c23cb7cSEd Maste { 47482c23cb7cSEd Maste struct section *s; 47492c23cb7cSEd Maste Dwarf_Die die; 47502c23cb7cSEd Maste Dwarf_Error de; 47512c23cb7cSEd Maste Dwarf_Half tag, version, pointer_size; 47522c23cb7cSEd Maste Dwarf_Unsigned offset, endoff, length, hdrlen, dirndx, mtime, fsize; 47532c23cb7cSEd Maste Dwarf_Small minlen, defstmt, lrange, opbase, oplen; 47542c23cb7cSEd Maste Elf_Data *d; 47552c23cb7cSEd Maste char *pn; 47562c23cb7cSEd Maste uint64_t address, file, line, column, isa, opsize, udelta; 47572c23cb7cSEd Maste int64_t sdelta; 47582c23cb7cSEd Maste uint8_t *p, *pe; 47592c23cb7cSEd Maste int8_t lbase; 4760cf781b2eSEd Maste int i, is_stmt, dwarf_size, elferr, ret; 47612c23cb7cSEd Maste 47622c23cb7cSEd Maste printf("\nDump of debug contents of section .debug_line:\n"); 47632c23cb7cSEd Maste 47642c23cb7cSEd Maste s = NULL; 47652c23cb7cSEd Maste for (i = 0; (size_t) i < re->shnum; i++) { 47662c23cb7cSEd Maste s = &re->sl[i]; 47672c23cb7cSEd Maste if (s->name != NULL && !strcmp(s->name, ".debug_line")) 47682c23cb7cSEd Maste break; 47692c23cb7cSEd Maste } 47702c23cb7cSEd Maste if ((size_t) i >= re->shnum) 47712c23cb7cSEd Maste return; 47722c23cb7cSEd Maste 47732c23cb7cSEd Maste (void) elf_errno(); 47742c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 47752c23cb7cSEd Maste elferr = elf_errno(); 47762c23cb7cSEd Maste if (elferr != 0) 47772c23cb7cSEd Maste warnx("elf_getdata failed: %s", elf_errmsg(-1)); 47782c23cb7cSEd Maste return; 47792c23cb7cSEd Maste } 47802c23cb7cSEd Maste if (d->d_size <= 0) 47812c23cb7cSEd Maste return; 47822c23cb7cSEd Maste 47832c23cb7cSEd Maste while ((ret = dwarf_next_cu_header(re->dbg, NULL, NULL, NULL, NULL, 47842c23cb7cSEd Maste NULL, &de)) == DW_DLV_OK) { 47852c23cb7cSEd Maste die = NULL; 47862c23cb7cSEd Maste while (dwarf_siblingof(re->dbg, die, &die, &de) == DW_DLV_OK) { 47872c23cb7cSEd Maste if (dwarf_tag(die, &tag, &de) != DW_DLV_OK) { 47882c23cb7cSEd Maste warnx("dwarf_tag failed: %s", 47892c23cb7cSEd Maste dwarf_errmsg(de)); 47902c23cb7cSEd Maste return; 47912c23cb7cSEd Maste } 47922c23cb7cSEd Maste /* XXX: What about DW_TAG_partial_unit? */ 47932c23cb7cSEd Maste if (tag == DW_TAG_compile_unit) 47942c23cb7cSEd Maste break; 47952c23cb7cSEd Maste } 47962c23cb7cSEd Maste if (die == NULL) { 47972c23cb7cSEd Maste warnx("could not find DW_TAG_compile_unit die"); 47982c23cb7cSEd Maste return; 47992c23cb7cSEd Maste } 48002c23cb7cSEd Maste if (dwarf_attrval_unsigned(die, DW_AT_stmt_list, &offset, 48012c23cb7cSEd Maste &de) != DW_DLV_OK) 48022c23cb7cSEd Maste continue; 48032c23cb7cSEd Maste 48042c23cb7cSEd Maste length = re->dw_read(d, &offset, 4); 48052c23cb7cSEd Maste if (length == 0xffffffff) { 48062c23cb7cSEd Maste dwarf_size = 8; 48072c23cb7cSEd Maste length = re->dw_read(d, &offset, 8); 48082c23cb7cSEd Maste } else 48092c23cb7cSEd Maste dwarf_size = 4; 48102c23cb7cSEd Maste 48112c23cb7cSEd Maste if (length > d->d_size - offset) { 48122c23cb7cSEd Maste warnx("invalid .dwarf_line section"); 48132c23cb7cSEd Maste continue; 48142c23cb7cSEd Maste } 48152c23cb7cSEd Maste 48162c23cb7cSEd Maste endoff = offset + length; 48172c23cb7cSEd Maste version = re->dw_read(d, &offset, 2); 48182c23cb7cSEd Maste hdrlen = re->dw_read(d, &offset, dwarf_size); 48192c23cb7cSEd Maste minlen = re->dw_read(d, &offset, 1); 48202c23cb7cSEd Maste defstmt = re->dw_read(d, &offset, 1); 48212c23cb7cSEd Maste lbase = re->dw_read(d, &offset, 1); 48222c23cb7cSEd Maste lrange = re->dw_read(d, &offset, 1); 48232c23cb7cSEd Maste opbase = re->dw_read(d, &offset, 1); 48242c23cb7cSEd Maste 48252c23cb7cSEd Maste printf("\n"); 48262c23cb7cSEd Maste printf(" Length:\t\t\t%ju\n", (uintmax_t) length); 48272c23cb7cSEd Maste printf(" DWARF version:\t\t%u\n", version); 48282c23cb7cSEd Maste printf(" Prologue Length:\t\t%ju\n", (uintmax_t) hdrlen); 48292c23cb7cSEd Maste printf(" Minimum Instruction Length:\t%u\n", minlen); 48302c23cb7cSEd Maste printf(" Initial value of 'is_stmt':\t%u\n", defstmt); 48312c23cb7cSEd Maste printf(" Line Base:\t\t\t%d\n", lbase); 48322c23cb7cSEd Maste printf(" Line Range:\t\t\t%u\n", lrange); 48332c23cb7cSEd Maste printf(" Opcode Base:\t\t\t%u\n", opbase); 48342c23cb7cSEd Maste (void) dwarf_get_address_size(re->dbg, &pointer_size, &de); 48352c23cb7cSEd Maste printf(" (Pointer size:\t\t%u)\n", pointer_size); 48362c23cb7cSEd Maste 48372c23cb7cSEd Maste printf("\n"); 48382c23cb7cSEd Maste printf(" Opcodes:\n"); 48392c23cb7cSEd Maste for (i = 1; i < opbase; i++) { 48402c23cb7cSEd Maste oplen = re->dw_read(d, &offset, 1); 48412c23cb7cSEd Maste printf(" Opcode %d has %u args\n", i, oplen); 48422c23cb7cSEd Maste } 48432c23cb7cSEd Maste 48442c23cb7cSEd Maste printf("\n"); 48452c23cb7cSEd Maste printf(" The Directory Table:\n"); 48462c23cb7cSEd Maste p = (uint8_t *) d->d_buf + offset; 48472c23cb7cSEd Maste while (*p != '\0') { 48482c23cb7cSEd Maste printf(" %s\n", (char *) p); 48492c23cb7cSEd Maste p += strlen((char *) p) + 1; 48502c23cb7cSEd Maste } 48512c23cb7cSEd Maste 48522c23cb7cSEd Maste p++; 48532c23cb7cSEd Maste printf("\n"); 48542c23cb7cSEd Maste printf(" The File Name Table:\n"); 48552c23cb7cSEd Maste printf(" Entry\tDir\tTime\tSize\tName\n"); 48562c23cb7cSEd Maste i = 0; 48572c23cb7cSEd Maste while (*p != '\0') { 48582c23cb7cSEd Maste i++; 48592c23cb7cSEd Maste pn = (char *) p; 48602c23cb7cSEd Maste p += strlen(pn) + 1; 4861*95fd7f26SEd Maste dirndx = _decode_uleb128(&p, pe); 4862*95fd7f26SEd Maste mtime = _decode_uleb128(&p, pe); 4863*95fd7f26SEd Maste fsize = _decode_uleb128(&p, pe); 48642c23cb7cSEd Maste printf(" %d\t%ju\t%ju\t%ju\t%s\n", i, 48652c23cb7cSEd Maste (uintmax_t) dirndx, (uintmax_t) mtime, 48662c23cb7cSEd Maste (uintmax_t) fsize, pn); 48672c23cb7cSEd Maste } 48682c23cb7cSEd Maste 48692c23cb7cSEd Maste #define RESET_REGISTERS \ 48702c23cb7cSEd Maste do { \ 48712c23cb7cSEd Maste address = 0; \ 48722c23cb7cSEd Maste file = 1; \ 48732c23cb7cSEd Maste line = 1; \ 48742c23cb7cSEd Maste column = 0; \ 48752c23cb7cSEd Maste is_stmt = defstmt; \ 48762c23cb7cSEd Maste } while(0) 48772c23cb7cSEd Maste 48782c23cb7cSEd Maste #define LINE(x) (lbase + (((x) - opbase) % lrange)) 48792c23cb7cSEd Maste #define ADDRESS(x) ((((x) - opbase) / lrange) * minlen) 48802c23cb7cSEd Maste 48812c23cb7cSEd Maste p++; 48822c23cb7cSEd Maste pe = (uint8_t *) d->d_buf + endoff; 48832c23cb7cSEd Maste printf("\n"); 48842c23cb7cSEd Maste printf(" Line Number Statements:\n"); 48852c23cb7cSEd Maste 48862c23cb7cSEd Maste RESET_REGISTERS; 48872c23cb7cSEd Maste 48882c23cb7cSEd Maste while (p < pe) { 48892c23cb7cSEd Maste 48902c23cb7cSEd Maste if (*p == 0) { 48912c23cb7cSEd Maste /* 48922c23cb7cSEd Maste * Extended Opcodes. 48932c23cb7cSEd Maste */ 48942c23cb7cSEd Maste p++; 4895*95fd7f26SEd Maste opsize = _decode_uleb128(&p, pe); 48962c23cb7cSEd Maste printf(" Extended opcode %u: ", *p); 48972c23cb7cSEd Maste switch (*p) { 48982c23cb7cSEd Maste case DW_LNE_end_sequence: 48992c23cb7cSEd Maste p++; 49002c23cb7cSEd Maste RESET_REGISTERS; 49012c23cb7cSEd Maste printf("End of Sequence\n"); 49022c23cb7cSEd Maste break; 49032c23cb7cSEd Maste case DW_LNE_set_address: 49042c23cb7cSEd Maste p++; 49052c23cb7cSEd Maste address = re->dw_decode(&p, 49062c23cb7cSEd Maste pointer_size); 49072c23cb7cSEd Maste printf("set Address to %#jx\n", 49082c23cb7cSEd Maste (uintmax_t) address); 49092c23cb7cSEd Maste break; 49102c23cb7cSEd Maste case DW_LNE_define_file: 49112c23cb7cSEd Maste p++; 49122c23cb7cSEd Maste pn = (char *) p; 49132c23cb7cSEd Maste p += strlen(pn) + 1; 4914*95fd7f26SEd Maste dirndx = _decode_uleb128(&p, pe); 4915*95fd7f26SEd Maste mtime = _decode_uleb128(&p, pe); 4916*95fd7f26SEd Maste fsize = _decode_uleb128(&p, pe); 49172c23cb7cSEd Maste printf("define new file: %s\n", pn); 49182c23cb7cSEd Maste break; 49192c23cb7cSEd Maste default: 49202c23cb7cSEd Maste /* Unrecognized extened opcodes. */ 49212c23cb7cSEd Maste p += opsize; 49222c23cb7cSEd Maste printf("unknown opcode\n"); 49232c23cb7cSEd Maste } 49242c23cb7cSEd Maste } else if (*p > 0 && *p < opbase) { 49252c23cb7cSEd Maste /* 49262c23cb7cSEd Maste * Standard Opcodes. 49272c23cb7cSEd Maste */ 49282c23cb7cSEd Maste switch(*p++) { 49292c23cb7cSEd Maste case DW_LNS_copy: 49302c23cb7cSEd Maste printf(" Copy\n"); 49312c23cb7cSEd Maste break; 49322c23cb7cSEd Maste case DW_LNS_advance_pc: 4933*95fd7f26SEd Maste udelta = _decode_uleb128(&p, pe) * 49342c23cb7cSEd Maste minlen; 49352c23cb7cSEd Maste address += udelta; 49362c23cb7cSEd Maste printf(" Advance PC by %ju to %#jx\n", 49372c23cb7cSEd Maste (uintmax_t) udelta, 49382c23cb7cSEd Maste (uintmax_t) address); 49392c23cb7cSEd Maste break; 49402c23cb7cSEd Maste case DW_LNS_advance_line: 4941*95fd7f26SEd Maste sdelta = _decode_sleb128(&p, pe); 49422c23cb7cSEd Maste line += sdelta; 49432c23cb7cSEd Maste printf(" Advance Line by %jd to %ju\n", 49442c23cb7cSEd Maste (intmax_t) sdelta, 49452c23cb7cSEd Maste (uintmax_t) line); 49462c23cb7cSEd Maste break; 49472c23cb7cSEd Maste case DW_LNS_set_file: 4948*95fd7f26SEd Maste file = _decode_uleb128(&p, pe); 49492c23cb7cSEd Maste printf(" Set File to %ju\n", 49502c23cb7cSEd Maste (uintmax_t) file); 49512c23cb7cSEd Maste break; 49522c23cb7cSEd Maste case DW_LNS_set_column: 4953*95fd7f26SEd Maste column = _decode_uleb128(&p, pe); 49542c23cb7cSEd Maste printf(" Set Column to %ju\n", 49552c23cb7cSEd Maste (uintmax_t) column); 49562c23cb7cSEd Maste break; 49572c23cb7cSEd Maste case DW_LNS_negate_stmt: 49582c23cb7cSEd Maste is_stmt = !is_stmt; 49592c23cb7cSEd Maste printf(" Set is_stmt to %d\n", is_stmt); 49602c23cb7cSEd Maste break; 49612c23cb7cSEd Maste case DW_LNS_set_basic_block: 49622c23cb7cSEd Maste printf(" Set basic block flag\n"); 49632c23cb7cSEd Maste break; 49642c23cb7cSEd Maste case DW_LNS_const_add_pc: 49652c23cb7cSEd Maste address += ADDRESS(255); 49662c23cb7cSEd Maste printf(" Advance PC by constant %ju" 49672c23cb7cSEd Maste " to %#jx\n", 49682c23cb7cSEd Maste (uintmax_t) ADDRESS(255), 49692c23cb7cSEd Maste (uintmax_t) address); 49702c23cb7cSEd Maste break; 49712c23cb7cSEd Maste case DW_LNS_fixed_advance_pc: 49722c23cb7cSEd Maste udelta = re->dw_decode(&p, 2); 49732c23cb7cSEd Maste address += udelta; 49742c23cb7cSEd Maste printf(" Advance PC by fixed value " 49752c23cb7cSEd Maste "%ju to %#jx\n", 49762c23cb7cSEd Maste (uintmax_t) udelta, 49772c23cb7cSEd Maste (uintmax_t) address); 49782c23cb7cSEd Maste break; 49792c23cb7cSEd Maste case DW_LNS_set_prologue_end: 49802c23cb7cSEd Maste printf(" Set prologue end flag\n"); 49812c23cb7cSEd Maste break; 49822c23cb7cSEd Maste case DW_LNS_set_epilogue_begin: 49832c23cb7cSEd Maste printf(" Set epilogue begin flag\n"); 49842c23cb7cSEd Maste break; 49852c23cb7cSEd Maste case DW_LNS_set_isa: 4986*95fd7f26SEd Maste isa = _decode_uleb128(&p, pe); 49872c23cb7cSEd Maste printf(" Set isa to %ju\n", isa); 49882c23cb7cSEd Maste break; 49892c23cb7cSEd Maste default: 49902c23cb7cSEd Maste /* Unrecognized extended opcodes. */ 49912c23cb7cSEd Maste printf(" Unknown extended opcode %u\n", 49922c23cb7cSEd Maste *(p - 1)); 49932c23cb7cSEd Maste break; 49942c23cb7cSEd Maste } 49952c23cb7cSEd Maste 49962c23cb7cSEd Maste } else { 49972c23cb7cSEd Maste /* 49982c23cb7cSEd Maste * Special Opcodes. 49992c23cb7cSEd Maste */ 50002c23cb7cSEd Maste line += LINE(*p); 50012c23cb7cSEd Maste address += ADDRESS(*p); 50022c23cb7cSEd Maste printf(" Special opcode %u: advance Address " 50032c23cb7cSEd Maste "by %ju to %#jx and Line by %jd to %ju\n", 50042c23cb7cSEd Maste *p - opbase, (uintmax_t) ADDRESS(*p), 50052c23cb7cSEd Maste (uintmax_t) address, (intmax_t) LINE(*p), 50062c23cb7cSEd Maste (uintmax_t) line); 50072c23cb7cSEd Maste p++; 50082c23cb7cSEd Maste } 50092c23cb7cSEd Maste 50102c23cb7cSEd Maste 50112c23cb7cSEd Maste } 50122c23cb7cSEd Maste } 50132c23cb7cSEd Maste if (ret == DW_DLV_ERROR) 50142c23cb7cSEd Maste warnx("dwarf_next_cu_header: %s", dwarf_errmsg(de)); 50152c23cb7cSEd Maste 50162c23cb7cSEd Maste #undef RESET_REGISTERS 50172c23cb7cSEd Maste #undef LINE 50182c23cb7cSEd Maste #undef ADDRESS 50192c23cb7cSEd Maste } 50202c23cb7cSEd Maste 50212c23cb7cSEd Maste static void 50222c23cb7cSEd Maste dump_dwarf_line_decoded(struct readelf *re) 50232c23cb7cSEd Maste { 50242c23cb7cSEd Maste Dwarf_Die die; 50252c23cb7cSEd Maste Dwarf_Line *linebuf, ln; 50262c23cb7cSEd Maste Dwarf_Addr lineaddr; 50272c23cb7cSEd Maste Dwarf_Signed linecount, srccount; 50282c23cb7cSEd Maste Dwarf_Unsigned lineno, fn; 50292c23cb7cSEd Maste Dwarf_Error de; 50302c23cb7cSEd Maste const char *dir, *file; 50312c23cb7cSEd Maste char **srcfiles; 50322c23cb7cSEd Maste int i, ret; 50332c23cb7cSEd Maste 50342c23cb7cSEd Maste printf("Decoded dump of debug contents of section .debug_line:\n\n"); 50352c23cb7cSEd Maste while ((ret = dwarf_next_cu_header(re->dbg, NULL, NULL, NULL, NULL, 50362c23cb7cSEd Maste NULL, &de)) == DW_DLV_OK) { 50372c23cb7cSEd Maste if (dwarf_siblingof(re->dbg, NULL, &die, &de) != DW_DLV_OK) 50382c23cb7cSEd Maste continue; 50392c23cb7cSEd Maste if (dwarf_attrval_string(die, DW_AT_name, &file, &de) != 50402c23cb7cSEd Maste DW_DLV_OK) 50412c23cb7cSEd Maste file = NULL; 50422c23cb7cSEd Maste if (dwarf_attrval_string(die, DW_AT_comp_dir, &dir, &de) != 50432c23cb7cSEd Maste DW_DLV_OK) 50442c23cb7cSEd Maste dir = NULL; 50452c23cb7cSEd Maste printf("CU: "); 50462c23cb7cSEd Maste if (dir && file) 50472c23cb7cSEd Maste printf("%s/", dir); 50482c23cb7cSEd Maste if (file) 50492c23cb7cSEd Maste printf("%s", file); 50502c23cb7cSEd Maste putchar('\n'); 50512c23cb7cSEd Maste printf("%-37s %11s %s\n", "Filename", "Line Number", 50522c23cb7cSEd Maste "Starting Address"); 50532c23cb7cSEd Maste if (dwarf_srclines(die, &linebuf, &linecount, &de) != DW_DLV_OK) 50542c23cb7cSEd Maste continue; 50552c23cb7cSEd Maste if (dwarf_srcfiles(die, &srcfiles, &srccount, &de) != DW_DLV_OK) 50562c23cb7cSEd Maste continue; 50572c23cb7cSEd Maste for (i = 0; i < linecount; i++) { 50582c23cb7cSEd Maste ln = linebuf[i]; 50592c23cb7cSEd Maste if (dwarf_line_srcfileno(ln, &fn, &de) != DW_DLV_OK) 50602c23cb7cSEd Maste continue; 50612c23cb7cSEd Maste if (dwarf_lineno(ln, &lineno, &de) != DW_DLV_OK) 50622c23cb7cSEd Maste continue; 50632c23cb7cSEd Maste if (dwarf_lineaddr(ln, &lineaddr, &de) != DW_DLV_OK) 50642c23cb7cSEd Maste continue; 50652c23cb7cSEd Maste printf("%-37s %11ju %#18jx\n", 50662c23cb7cSEd Maste basename(srcfiles[fn - 1]), (uintmax_t) lineno, 50672c23cb7cSEd Maste (uintmax_t) lineaddr); 50682c23cb7cSEd Maste } 50692c23cb7cSEd Maste putchar('\n'); 50702c23cb7cSEd Maste } 50712c23cb7cSEd Maste } 50722c23cb7cSEd Maste 50732c23cb7cSEd Maste static void 50742c23cb7cSEd Maste dump_dwarf_die(struct readelf *re, Dwarf_Die die, int level) 50752c23cb7cSEd Maste { 50762c23cb7cSEd Maste Dwarf_Attribute *attr_list; 50772c23cb7cSEd Maste Dwarf_Die ret_die; 5078cf781b2eSEd Maste Dwarf_Off dieoff, cuoff, culen, attroff; 5079cf781b2eSEd Maste Dwarf_Unsigned ate, lang, v_udata, v_sig; 50802c23cb7cSEd Maste Dwarf_Signed attr_count, v_sdata; 50812c23cb7cSEd Maste Dwarf_Off v_off; 50822c23cb7cSEd Maste Dwarf_Addr v_addr; 50832c23cb7cSEd Maste Dwarf_Half tag, attr, form; 50842c23cb7cSEd Maste Dwarf_Block *v_block; 5085cf781b2eSEd Maste Dwarf_Bool v_bool, is_info; 5086cf781b2eSEd Maste Dwarf_Sig8 v_sig8; 50872c23cb7cSEd Maste Dwarf_Error de; 5088cf781b2eSEd Maste Dwarf_Ptr v_expr; 5089cf781b2eSEd Maste const char *tag_str, *attr_str, *ate_str, *lang_str; 5090cf781b2eSEd Maste char unk_tag[32], unk_attr[32]; 50912c23cb7cSEd Maste char *v_str; 5092cf781b2eSEd Maste uint8_t *b, *p; 50932c23cb7cSEd Maste int i, j, abc, ret; 50942c23cb7cSEd Maste 50952c23cb7cSEd Maste if (dwarf_dieoffset(die, &dieoff, &de) != DW_DLV_OK) { 50962c23cb7cSEd Maste warnx("dwarf_dieoffset failed: %s", dwarf_errmsg(de)); 50972c23cb7cSEd Maste goto cont_search; 50982c23cb7cSEd Maste } 50992c23cb7cSEd Maste 51002c23cb7cSEd Maste printf(" <%d><%jx>: ", level, (uintmax_t) dieoff); 51012c23cb7cSEd Maste 51022c23cb7cSEd Maste if (dwarf_die_CU_offset_range(die, &cuoff, &culen, &de) != DW_DLV_OK) { 51032c23cb7cSEd Maste warnx("dwarf_die_CU_offset_range failed: %s", 51042c23cb7cSEd Maste dwarf_errmsg(de)); 51052c23cb7cSEd Maste cuoff = 0; 51062c23cb7cSEd Maste } 51072c23cb7cSEd Maste 51082c23cb7cSEd Maste abc = dwarf_die_abbrev_code(die); 51092c23cb7cSEd Maste if (dwarf_tag(die, &tag, &de) != DW_DLV_OK) { 51102c23cb7cSEd Maste warnx("dwarf_tag failed: %s", dwarf_errmsg(de)); 51112c23cb7cSEd Maste goto cont_search; 51122c23cb7cSEd Maste } 51132c23cb7cSEd Maste if (dwarf_get_TAG_name(tag, &tag_str) != DW_DLV_OK) { 5114cf781b2eSEd Maste snprintf(unk_tag, sizeof(unk_tag), "[Unknown Tag: %#x]", tag); 5115cf781b2eSEd Maste tag_str = unk_tag; 51162c23cb7cSEd Maste } 51172c23cb7cSEd Maste 51182c23cb7cSEd Maste printf("Abbrev Number: %d (%s)\n", abc, tag_str); 51192c23cb7cSEd Maste 51202c23cb7cSEd Maste if ((ret = dwarf_attrlist(die, &attr_list, &attr_count, &de)) != 51212c23cb7cSEd Maste DW_DLV_OK) { 51222c23cb7cSEd Maste if (ret == DW_DLV_ERROR) 51232c23cb7cSEd Maste warnx("dwarf_attrlist failed: %s", dwarf_errmsg(de)); 51242c23cb7cSEd Maste goto cont_search; 51252c23cb7cSEd Maste } 51262c23cb7cSEd Maste 51272c23cb7cSEd Maste for (i = 0; i < attr_count; i++) { 51282c23cb7cSEd Maste if (dwarf_whatform(attr_list[i], &form, &de) != DW_DLV_OK) { 51292c23cb7cSEd Maste warnx("dwarf_whatform failed: %s", dwarf_errmsg(de)); 51302c23cb7cSEd Maste continue; 51312c23cb7cSEd Maste } 51322c23cb7cSEd Maste if (dwarf_whatattr(attr_list[i], &attr, &de) != DW_DLV_OK) { 51332c23cb7cSEd Maste warnx("dwarf_whatattr failed: %s", dwarf_errmsg(de)); 51342c23cb7cSEd Maste continue; 51352c23cb7cSEd Maste } 51362c23cb7cSEd Maste if (dwarf_get_AT_name(attr, &attr_str) != DW_DLV_OK) { 5137cf781b2eSEd Maste snprintf(unk_attr, sizeof(unk_attr), 5138cf781b2eSEd Maste "[Unknown AT: %#x]", attr); 5139cf781b2eSEd Maste attr_str = unk_attr; 51402c23cb7cSEd Maste } 5141cf781b2eSEd Maste if (dwarf_attroffset(attr_list[i], &attroff, &de) != 5142cf781b2eSEd Maste DW_DLV_OK) { 5143cf781b2eSEd Maste warnx("dwarf_attroffset failed: %s", dwarf_errmsg(de)); 5144cf781b2eSEd Maste attroff = 0; 5145cf781b2eSEd Maste } 5146cf781b2eSEd Maste printf(" <%jx> %-18s: ", (uintmax_t) attroff, attr_str); 51472c23cb7cSEd Maste switch (form) { 51482c23cb7cSEd Maste case DW_FORM_ref_addr: 5149cf781b2eSEd Maste case DW_FORM_sec_offset: 51502c23cb7cSEd Maste if (dwarf_global_formref(attr_list[i], &v_off, &de) != 51512c23cb7cSEd Maste DW_DLV_OK) { 51522c23cb7cSEd Maste warnx("dwarf_global_formref failed: %s", 51532c23cb7cSEd Maste dwarf_errmsg(de)); 51542c23cb7cSEd Maste continue; 51552c23cb7cSEd Maste } 5156cf781b2eSEd Maste if (form == DW_FORM_ref_addr) 5157cf781b2eSEd Maste printf("<0x%jx>", (uintmax_t) v_off); 5158cf781b2eSEd Maste else 5159cf781b2eSEd Maste printf("0x%jx", (uintmax_t) v_off); 51602c23cb7cSEd Maste break; 51612c23cb7cSEd Maste 51622c23cb7cSEd Maste case DW_FORM_ref1: 51632c23cb7cSEd Maste case DW_FORM_ref2: 51642c23cb7cSEd Maste case DW_FORM_ref4: 51652c23cb7cSEd Maste case DW_FORM_ref8: 51662c23cb7cSEd Maste case DW_FORM_ref_udata: 51672c23cb7cSEd Maste if (dwarf_formref(attr_list[i], &v_off, &de) != 51682c23cb7cSEd Maste DW_DLV_OK) { 51692c23cb7cSEd Maste warnx("dwarf_formref failed: %s", 51702c23cb7cSEd Maste dwarf_errmsg(de)); 51712c23cb7cSEd Maste continue; 51722c23cb7cSEd Maste } 51732c23cb7cSEd Maste v_off += cuoff; 5174cf781b2eSEd Maste printf("<0x%jx>", (uintmax_t) v_off); 51752c23cb7cSEd Maste break; 51762c23cb7cSEd Maste 51772c23cb7cSEd Maste case DW_FORM_addr: 51782c23cb7cSEd Maste if (dwarf_formaddr(attr_list[i], &v_addr, &de) != 51792c23cb7cSEd Maste DW_DLV_OK) { 51802c23cb7cSEd Maste warnx("dwarf_formaddr failed: %s", 51812c23cb7cSEd Maste dwarf_errmsg(de)); 51822c23cb7cSEd Maste continue; 51832c23cb7cSEd Maste } 51842c23cb7cSEd Maste printf("%#jx", (uintmax_t) v_addr); 51852c23cb7cSEd Maste break; 51862c23cb7cSEd Maste 51872c23cb7cSEd Maste case DW_FORM_data1: 51882c23cb7cSEd Maste case DW_FORM_data2: 51892c23cb7cSEd Maste case DW_FORM_data4: 51902c23cb7cSEd Maste case DW_FORM_data8: 51912c23cb7cSEd Maste case DW_FORM_udata: 51922c23cb7cSEd Maste if (dwarf_formudata(attr_list[i], &v_udata, &de) != 51932c23cb7cSEd Maste DW_DLV_OK) { 51942c23cb7cSEd Maste warnx("dwarf_formudata failed: %s", 51952c23cb7cSEd Maste dwarf_errmsg(de)); 51962c23cb7cSEd Maste continue; 51972c23cb7cSEd Maste } 5198cf781b2eSEd Maste if (attr == DW_AT_high_pc) 5199cf781b2eSEd Maste printf("0x%jx", (uintmax_t) v_udata); 5200cf781b2eSEd Maste else 52012c23cb7cSEd Maste printf("%ju", (uintmax_t) v_udata); 52022c23cb7cSEd Maste break; 52032c23cb7cSEd Maste 52042c23cb7cSEd Maste case DW_FORM_sdata: 52052c23cb7cSEd Maste if (dwarf_formsdata(attr_list[i], &v_sdata, &de) != 52062c23cb7cSEd Maste DW_DLV_OK) { 52072c23cb7cSEd Maste warnx("dwarf_formudata failed: %s", 52082c23cb7cSEd Maste dwarf_errmsg(de)); 52092c23cb7cSEd Maste continue; 52102c23cb7cSEd Maste } 52112c23cb7cSEd Maste printf("%jd", (intmax_t) v_sdata); 52122c23cb7cSEd Maste break; 52132c23cb7cSEd Maste 52142c23cb7cSEd Maste case DW_FORM_flag: 52152c23cb7cSEd Maste if (dwarf_formflag(attr_list[i], &v_bool, &de) != 52162c23cb7cSEd Maste DW_DLV_OK) { 52172c23cb7cSEd Maste warnx("dwarf_formflag failed: %s", 52182c23cb7cSEd Maste dwarf_errmsg(de)); 52192c23cb7cSEd Maste continue; 52202c23cb7cSEd Maste } 52212c23cb7cSEd Maste printf("%jd", (intmax_t) v_bool); 52222c23cb7cSEd Maste break; 52232c23cb7cSEd Maste 5224cf781b2eSEd Maste case DW_FORM_flag_present: 5225cf781b2eSEd Maste putchar('1'); 5226cf781b2eSEd Maste break; 5227cf781b2eSEd Maste 52282c23cb7cSEd Maste case DW_FORM_string: 52292c23cb7cSEd Maste case DW_FORM_strp: 52302c23cb7cSEd Maste if (dwarf_formstring(attr_list[i], &v_str, &de) != 52312c23cb7cSEd Maste DW_DLV_OK) { 52322c23cb7cSEd Maste warnx("dwarf_formstring failed: %s", 52332c23cb7cSEd Maste dwarf_errmsg(de)); 52342c23cb7cSEd Maste continue; 52352c23cb7cSEd Maste } 52362c23cb7cSEd Maste if (form == DW_FORM_string) 52372c23cb7cSEd Maste printf("%s", v_str); 52382c23cb7cSEd Maste else 52392c23cb7cSEd Maste printf("(indirect string) %s", v_str); 52402c23cb7cSEd Maste break; 52412c23cb7cSEd Maste 52422c23cb7cSEd Maste case DW_FORM_block: 52432c23cb7cSEd Maste case DW_FORM_block1: 52442c23cb7cSEd Maste case DW_FORM_block2: 52452c23cb7cSEd Maste case DW_FORM_block4: 52462c23cb7cSEd Maste if (dwarf_formblock(attr_list[i], &v_block, &de) != 52472c23cb7cSEd Maste DW_DLV_OK) { 52482c23cb7cSEd Maste warnx("dwarf_formblock failed: %s", 52492c23cb7cSEd Maste dwarf_errmsg(de)); 52502c23cb7cSEd Maste continue; 52512c23cb7cSEd Maste } 5252cf781b2eSEd Maste printf("%ju byte block:", (uintmax_t) v_block->bl_len); 52532c23cb7cSEd Maste b = v_block->bl_data; 52542c23cb7cSEd Maste for (j = 0; (Dwarf_Unsigned) j < v_block->bl_len; j++) 52552c23cb7cSEd Maste printf(" %x", b[j]); 5256cf781b2eSEd Maste printf("\t("); 5257cf781b2eSEd Maste dump_dwarf_block(re, v_block->bl_data, v_block->bl_len); 5258cf781b2eSEd Maste putchar(')'); 52592c23cb7cSEd Maste break; 5260cf781b2eSEd Maste 5261cf781b2eSEd Maste case DW_FORM_exprloc: 5262cf781b2eSEd Maste if (dwarf_formexprloc(attr_list[i], &v_udata, &v_expr, 5263cf781b2eSEd Maste &de) != DW_DLV_OK) { 5264cf781b2eSEd Maste warnx("dwarf_formexprloc failed: %s", 5265cf781b2eSEd Maste dwarf_errmsg(de)); 5266cf781b2eSEd Maste continue; 5267cf781b2eSEd Maste } 5268cf781b2eSEd Maste printf("%ju byte block:", (uintmax_t) v_udata); 5269cf781b2eSEd Maste b = v_expr; 5270cf781b2eSEd Maste for (j = 0; (Dwarf_Unsigned) j < v_udata; j++) 5271cf781b2eSEd Maste printf(" %x", b[j]); 5272cf781b2eSEd Maste printf("\t("); 5273cf781b2eSEd Maste dump_dwarf_block(re, v_expr, v_udata); 5274cf781b2eSEd Maste putchar(')'); 5275cf781b2eSEd Maste break; 5276cf781b2eSEd Maste 5277cf781b2eSEd Maste case DW_FORM_ref_sig8: 5278cf781b2eSEd Maste if (dwarf_formsig8(attr_list[i], &v_sig8, &de) != 5279cf781b2eSEd Maste DW_DLV_OK) { 5280cf781b2eSEd Maste warnx("dwarf_formsig8 failed: %s", 5281cf781b2eSEd Maste dwarf_errmsg(de)); 5282cf781b2eSEd Maste continue; 5283cf781b2eSEd Maste } 5284cf781b2eSEd Maste p = (uint8_t *)(uintptr_t) &v_sig8.signature[0]; 5285cf781b2eSEd Maste v_sig = re->dw_decode(&p, 8); 5286cf781b2eSEd Maste printf("signature: 0x%jx", (uintmax_t) v_sig); 52872c23cb7cSEd Maste } 52882c23cb7cSEd Maste switch (attr) { 52892c23cb7cSEd Maste case DW_AT_encoding: 52902c23cb7cSEd Maste if (dwarf_attrval_unsigned(die, attr, &ate, &de) != 52912c23cb7cSEd Maste DW_DLV_OK) 52922c23cb7cSEd Maste break; 52932c23cb7cSEd Maste if (dwarf_get_ATE_name(ate, &ate_str) != DW_DLV_OK) 5294cf781b2eSEd Maste ate_str = "DW_ATE_UNKNOWN"; 52952c23cb7cSEd Maste printf("\t(%s)", &ate_str[strlen("DW_ATE_")]); 52962c23cb7cSEd Maste break; 5297cf781b2eSEd Maste 5298cf781b2eSEd Maste case DW_AT_language: 5299cf781b2eSEd Maste if (dwarf_attrval_unsigned(die, attr, &lang, &de) != 5300cf781b2eSEd Maste DW_DLV_OK) 5301cf781b2eSEd Maste break; 5302cf781b2eSEd Maste if (dwarf_get_LANG_name(lang, &lang_str) != DW_DLV_OK) 5303cf781b2eSEd Maste break; 5304cf781b2eSEd Maste printf("\t(%s)", &lang_str[strlen("DW_LANG_")]); 5305cf781b2eSEd Maste break; 5306cf781b2eSEd Maste 5307cf781b2eSEd Maste case DW_AT_location: 5308cf781b2eSEd Maste case DW_AT_string_length: 5309cf781b2eSEd Maste case DW_AT_return_addr: 5310cf781b2eSEd Maste case DW_AT_data_member_location: 5311cf781b2eSEd Maste case DW_AT_frame_base: 5312cf781b2eSEd Maste case DW_AT_segment: 5313cf781b2eSEd Maste case DW_AT_static_link: 5314cf781b2eSEd Maste case DW_AT_use_location: 5315cf781b2eSEd Maste case DW_AT_vtable_elem_location: 5316cf781b2eSEd Maste switch (form) { 5317cf781b2eSEd Maste case DW_FORM_data4: 5318cf781b2eSEd Maste case DW_FORM_data8: 5319cf781b2eSEd Maste case DW_FORM_sec_offset: 5320cf781b2eSEd Maste printf("\t(location list)"); 5321cf781b2eSEd Maste break; 5322cf781b2eSEd Maste default: 5323cf781b2eSEd Maste break; 5324cf781b2eSEd Maste } 5325cf781b2eSEd Maste 53262c23cb7cSEd Maste default: 53272c23cb7cSEd Maste break; 53282c23cb7cSEd Maste } 53292c23cb7cSEd Maste putchar('\n'); 53302c23cb7cSEd Maste } 53312c23cb7cSEd Maste 53322c23cb7cSEd Maste 53332c23cb7cSEd Maste cont_search: 53342c23cb7cSEd Maste /* Search children. */ 53352c23cb7cSEd Maste ret = dwarf_child(die, &ret_die, &de); 53362c23cb7cSEd Maste if (ret == DW_DLV_ERROR) 53372c23cb7cSEd Maste warnx("dwarf_child: %s", dwarf_errmsg(de)); 53382c23cb7cSEd Maste else if (ret == DW_DLV_OK) 53392c23cb7cSEd Maste dump_dwarf_die(re, ret_die, level + 1); 53402c23cb7cSEd Maste 53412c23cb7cSEd Maste /* Search sibling. */ 5342cf781b2eSEd Maste is_info = dwarf_get_die_infotypes_flag(die); 5343cf781b2eSEd Maste ret = dwarf_siblingof_b(re->dbg, die, &ret_die, is_info, &de); 53442c23cb7cSEd Maste if (ret == DW_DLV_ERROR) 53452c23cb7cSEd Maste warnx("dwarf_siblingof: %s", dwarf_errmsg(de)); 53462c23cb7cSEd Maste else if (ret == DW_DLV_OK) 53472c23cb7cSEd Maste dump_dwarf_die(re, ret_die, level); 53482c23cb7cSEd Maste 53492c23cb7cSEd Maste dwarf_dealloc(re->dbg, die, DW_DLA_DIE); 53502c23cb7cSEd Maste } 53512c23cb7cSEd Maste 53522c23cb7cSEd Maste static void 5353cf781b2eSEd Maste set_cu_context(struct readelf *re, Dwarf_Half psize, Dwarf_Half osize, 5354cf781b2eSEd Maste Dwarf_Half ver) 5355cf781b2eSEd Maste { 5356cf781b2eSEd Maste 5357cf781b2eSEd Maste re->cu_psize = psize; 5358cf781b2eSEd Maste re->cu_osize = osize; 5359cf781b2eSEd Maste re->cu_ver = ver; 5360cf781b2eSEd Maste } 5361cf781b2eSEd Maste 5362cf781b2eSEd Maste static void 5363cf781b2eSEd Maste dump_dwarf_info(struct readelf *re, Dwarf_Bool is_info) 53642c23cb7cSEd Maste { 53652c23cb7cSEd Maste struct section *s; 53662c23cb7cSEd Maste Dwarf_Die die; 53672c23cb7cSEd Maste Dwarf_Error de; 5368cf781b2eSEd Maste Dwarf_Half tag, version, pointer_size, off_size; 53692c23cb7cSEd Maste Dwarf_Off cu_offset, cu_length; 53702c23cb7cSEd Maste Dwarf_Off aboff; 5371cf781b2eSEd Maste Dwarf_Unsigned typeoff; 5372cf781b2eSEd Maste Dwarf_Sig8 sig8; 5373cf781b2eSEd Maste Dwarf_Unsigned sig; 5374cf781b2eSEd Maste uint8_t *p; 5375cf781b2eSEd Maste const char *sn; 5376cf781b2eSEd Maste int i, ret; 53772c23cb7cSEd Maste 5378cf781b2eSEd Maste sn = is_info ? ".debug_info" : ".debug_types"; 53792c23cb7cSEd Maste 53802c23cb7cSEd Maste s = NULL; 53812c23cb7cSEd Maste for (i = 0; (size_t) i < re->shnum; i++) { 53822c23cb7cSEd Maste s = &re->sl[i]; 5383cf781b2eSEd Maste if (s->name != NULL && !strcmp(s->name, sn)) 53842c23cb7cSEd Maste break; 53852c23cb7cSEd Maste } 53862c23cb7cSEd Maste if ((size_t) i >= re->shnum) 53872c23cb7cSEd Maste return; 53882c23cb7cSEd Maste 5389cf781b2eSEd Maste do { 5390cf781b2eSEd Maste printf("\nDump of debug contents of section %s:\n", sn); 53912c23cb7cSEd Maste 5392cf781b2eSEd Maste while ((ret = dwarf_next_cu_header_c(re->dbg, is_info, NULL, 5393cf781b2eSEd Maste &version, &aboff, &pointer_size, &off_size, NULL, &sig8, 5394cf781b2eSEd Maste &typeoff, NULL, &de)) == DW_DLV_OK) { 5395cf781b2eSEd Maste set_cu_context(re, pointer_size, off_size, version); 53962c23cb7cSEd Maste die = NULL; 5397cf781b2eSEd Maste while (dwarf_siblingof_b(re->dbg, die, &die, is_info, 5398cf781b2eSEd Maste &de) == DW_DLV_OK) { 53992c23cb7cSEd Maste if (dwarf_tag(die, &tag, &de) != DW_DLV_OK) { 54002c23cb7cSEd Maste warnx("dwarf_tag failed: %s", 54012c23cb7cSEd Maste dwarf_errmsg(de)); 5402cf781b2eSEd Maste continue; 54032c23cb7cSEd Maste } 54042c23cb7cSEd Maste /* XXX: What about DW_TAG_partial_unit? */ 5405cf781b2eSEd Maste if ((is_info && tag == DW_TAG_compile_unit) || 5406cf781b2eSEd Maste (!is_info && tag == DW_TAG_type_unit)) 54072c23cb7cSEd Maste break; 54082c23cb7cSEd Maste } 5409cf781b2eSEd Maste if (die == NULL && is_info) { 5410cf781b2eSEd Maste warnx("could not find DW_TAG_compile_unit " 5411cf781b2eSEd Maste "die"); 5412cf781b2eSEd Maste continue; 5413cf781b2eSEd Maste } else if (die == NULL && !is_info) { 5414cf781b2eSEd Maste warnx("could not find DW_TAG_type_unit die"); 5415cf781b2eSEd Maste continue; 54162c23cb7cSEd Maste } 54172c23cb7cSEd Maste 5418cf781b2eSEd Maste if (dwarf_die_CU_offset_range(die, &cu_offset, 5419cf781b2eSEd Maste &cu_length, &de) != DW_DLV_OK) { 54202c23cb7cSEd Maste warnx("dwarf_die_CU_offset failed: %s", 54212c23cb7cSEd Maste dwarf_errmsg(de)); 54222c23cb7cSEd Maste continue; 54232c23cb7cSEd Maste } 54242c23cb7cSEd Maste 5425cf781b2eSEd Maste cu_length -= off_size == 4 ? 4 : 12; 5426cf781b2eSEd Maste 5427cf781b2eSEd Maste sig = 0; 5428cf781b2eSEd Maste if (!is_info) { 5429cf781b2eSEd Maste p = (uint8_t *)(uintptr_t) &sig8.signature[0]; 5430cf781b2eSEd Maste sig = re->dw_decode(&p, 8); 5431cf781b2eSEd Maste } 5432cf781b2eSEd Maste 5433cf781b2eSEd Maste printf("\n Type Unit @ offset 0x%jx:\n", 5434cf781b2eSEd Maste (uintmax_t) cu_offset); 5435cf781b2eSEd Maste printf(" Length:\t\t%#jx (%d-bit)\n", 5436cf781b2eSEd Maste (uintmax_t) cu_length, off_size == 4 ? 32 : 64); 54372c23cb7cSEd Maste printf(" Version:\t\t%u\n", version); 5438cf781b2eSEd Maste printf(" Abbrev Offset:\t0x%jx\n", 5439cf781b2eSEd Maste (uintmax_t) aboff); 54402c23cb7cSEd Maste printf(" Pointer Size:\t%u\n", pointer_size); 5441cf781b2eSEd Maste if (!is_info) { 5442cf781b2eSEd Maste printf(" Signature:\t\t0x%016jx\n", 5443cf781b2eSEd Maste (uintmax_t) sig); 5444cf781b2eSEd Maste printf(" Type Offset:\t0x%jx\n", 5445cf781b2eSEd Maste (uintmax_t) typeoff); 5446cf781b2eSEd Maste } 54472c23cb7cSEd Maste 54482c23cb7cSEd Maste dump_dwarf_die(re, die, 0); 54492c23cb7cSEd Maste } 54502c23cb7cSEd Maste if (ret == DW_DLV_ERROR) 54512c23cb7cSEd Maste warnx("dwarf_next_cu_header: %s", dwarf_errmsg(de)); 5452cf781b2eSEd Maste if (is_info) 5453cf781b2eSEd Maste break; 5454cf781b2eSEd Maste } while (dwarf_next_types_section(re->dbg, &de) == DW_DLV_OK); 54552c23cb7cSEd Maste } 54562c23cb7cSEd Maste 54572c23cb7cSEd Maste static void 54582c23cb7cSEd Maste dump_dwarf_abbrev(struct readelf *re) 54592c23cb7cSEd Maste { 54602c23cb7cSEd Maste Dwarf_Abbrev ab; 54612c23cb7cSEd Maste Dwarf_Off aboff, atoff; 54622c23cb7cSEd Maste Dwarf_Unsigned length, attr_count; 54632c23cb7cSEd Maste Dwarf_Signed flag, form; 54642c23cb7cSEd Maste Dwarf_Half tag, attr; 54652c23cb7cSEd Maste Dwarf_Error de; 54662c23cb7cSEd Maste const char *tag_str, *attr_str, *form_str; 5467cf781b2eSEd Maste char unk_tag[32], unk_attr[32], unk_form[32]; 54682c23cb7cSEd Maste int i, j, ret; 54692c23cb7cSEd Maste 54702c23cb7cSEd Maste printf("\nContents of section .debug_abbrev:\n\n"); 54712c23cb7cSEd Maste 54722c23cb7cSEd Maste while ((ret = dwarf_next_cu_header(re->dbg, NULL, NULL, &aboff, 54732c23cb7cSEd Maste NULL, NULL, &de)) == DW_DLV_OK) { 54742c23cb7cSEd Maste printf(" Number TAG\n"); 54752c23cb7cSEd Maste i = 0; 54762c23cb7cSEd Maste while ((ret = dwarf_get_abbrev(re->dbg, aboff, &ab, &length, 54772c23cb7cSEd Maste &attr_count, &de)) == DW_DLV_OK) { 54782c23cb7cSEd Maste if (length == 1) { 54792c23cb7cSEd Maste dwarf_dealloc(re->dbg, ab, DW_DLA_ABBREV); 54802c23cb7cSEd Maste break; 54812c23cb7cSEd Maste } 54822c23cb7cSEd Maste aboff += length; 54832c23cb7cSEd Maste printf("%4d", ++i); 54842c23cb7cSEd Maste if (dwarf_get_abbrev_tag(ab, &tag, &de) != DW_DLV_OK) { 54852c23cb7cSEd Maste warnx("dwarf_get_abbrev_tag failed: %s", 54862c23cb7cSEd Maste dwarf_errmsg(de)); 54872c23cb7cSEd Maste goto next_abbrev; 54882c23cb7cSEd Maste } 54892c23cb7cSEd Maste if (dwarf_get_TAG_name(tag, &tag_str) != DW_DLV_OK) { 5490cf781b2eSEd Maste snprintf(unk_tag, sizeof(unk_tag), 5491cf781b2eSEd Maste "[Unknown Tag: %#x]", tag); 5492cf781b2eSEd Maste tag_str = unk_tag; 54932c23cb7cSEd Maste } 54942c23cb7cSEd Maste if (dwarf_get_abbrev_children_flag(ab, &flag, &de) != 54952c23cb7cSEd Maste DW_DLV_OK) { 54962c23cb7cSEd Maste warnx("dwarf_get_abbrev_children_flag failed:" 54972c23cb7cSEd Maste " %s", dwarf_errmsg(de)); 54982c23cb7cSEd Maste goto next_abbrev; 54992c23cb7cSEd Maste } 55002c23cb7cSEd Maste printf(" %s %s\n", tag_str, 55012c23cb7cSEd Maste flag ? "[has children]" : "[no children]"); 55022c23cb7cSEd Maste for (j = 0; (Dwarf_Unsigned) j < attr_count; j++) { 55032c23cb7cSEd Maste if (dwarf_get_abbrev_entry(ab, (Dwarf_Signed) j, 55042c23cb7cSEd Maste &attr, &form, &atoff, &de) != DW_DLV_OK) { 55052c23cb7cSEd Maste warnx("dwarf_get_abbrev_entry failed:" 55062c23cb7cSEd Maste " %s", dwarf_errmsg(de)); 55072c23cb7cSEd Maste continue; 55082c23cb7cSEd Maste } 55092c23cb7cSEd Maste if (dwarf_get_AT_name(attr, &attr_str) != 55102c23cb7cSEd Maste DW_DLV_OK) { 5511cf781b2eSEd Maste snprintf(unk_attr, sizeof(unk_attr), 5512cf781b2eSEd Maste "[Unknown AT: %#x]", attr); 5513cf781b2eSEd Maste attr_str = unk_attr; 55142c23cb7cSEd Maste } 55152c23cb7cSEd Maste if (dwarf_get_FORM_name(form, &form_str) != 55162c23cb7cSEd Maste DW_DLV_OK) { 5517cf781b2eSEd Maste snprintf(unk_form, sizeof(unk_form), 5518cf781b2eSEd Maste "[Unknown Form: %#x]", 5519cf781b2eSEd Maste (Dwarf_Half) form); 5520cf781b2eSEd Maste form_str = unk_form; 55212c23cb7cSEd Maste } 55222c23cb7cSEd Maste printf(" %-18s %s\n", attr_str, form_str); 55232c23cb7cSEd Maste } 55242c23cb7cSEd Maste next_abbrev: 55252c23cb7cSEd Maste dwarf_dealloc(re->dbg, ab, DW_DLA_ABBREV); 55262c23cb7cSEd Maste } 55272c23cb7cSEd Maste if (ret != DW_DLV_OK) 55282c23cb7cSEd Maste warnx("dwarf_get_abbrev: %s", dwarf_errmsg(de)); 55292c23cb7cSEd Maste } 55302c23cb7cSEd Maste if (ret == DW_DLV_ERROR) 55312c23cb7cSEd Maste warnx("dwarf_next_cu_header: %s", dwarf_errmsg(de)); 55322c23cb7cSEd Maste } 55332c23cb7cSEd Maste 55342c23cb7cSEd Maste static void 55352c23cb7cSEd Maste dump_dwarf_pubnames(struct readelf *re) 55362c23cb7cSEd Maste { 55372c23cb7cSEd Maste struct section *s; 55382c23cb7cSEd Maste Dwarf_Off die_off; 55392c23cb7cSEd Maste Dwarf_Unsigned offset, length, nt_cu_offset, nt_cu_length; 55402c23cb7cSEd Maste Dwarf_Signed cnt; 55412c23cb7cSEd Maste Dwarf_Global *globs; 55422c23cb7cSEd Maste Dwarf_Half nt_version; 55432c23cb7cSEd Maste Dwarf_Error de; 55442c23cb7cSEd Maste Elf_Data *d; 55452c23cb7cSEd Maste char *glob_name; 55462c23cb7cSEd Maste int i, dwarf_size, elferr; 55472c23cb7cSEd Maste 55482c23cb7cSEd Maste printf("\nContents of the .debug_pubnames section:\n"); 55492c23cb7cSEd Maste 55502c23cb7cSEd Maste s = NULL; 55512c23cb7cSEd Maste for (i = 0; (size_t) i < re->shnum; i++) { 55522c23cb7cSEd Maste s = &re->sl[i]; 55532c23cb7cSEd Maste if (s->name != NULL && !strcmp(s->name, ".debug_pubnames")) 55542c23cb7cSEd Maste break; 55552c23cb7cSEd Maste } 55562c23cb7cSEd Maste if ((size_t) i >= re->shnum) 55572c23cb7cSEd Maste return; 55582c23cb7cSEd Maste 55592c23cb7cSEd Maste (void) elf_errno(); 55602c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 55612c23cb7cSEd Maste elferr = elf_errno(); 55622c23cb7cSEd Maste if (elferr != 0) 55632c23cb7cSEd Maste warnx("elf_getdata failed: %s", elf_errmsg(-1)); 55642c23cb7cSEd Maste return; 55652c23cb7cSEd Maste } 55662c23cb7cSEd Maste if (d->d_size <= 0) 55672c23cb7cSEd Maste return; 55682c23cb7cSEd Maste 55692c23cb7cSEd Maste /* Read in .debug_pubnames section table header. */ 55702c23cb7cSEd Maste offset = 0; 55712c23cb7cSEd Maste length = re->dw_read(d, &offset, 4); 55722c23cb7cSEd Maste if (length == 0xffffffff) { 55732c23cb7cSEd Maste dwarf_size = 8; 55742c23cb7cSEd Maste length = re->dw_read(d, &offset, 8); 55752c23cb7cSEd Maste } else 55762c23cb7cSEd Maste dwarf_size = 4; 55772c23cb7cSEd Maste 55782c23cb7cSEd Maste if (length > d->d_size - offset) { 55792c23cb7cSEd Maste warnx("invalid .dwarf_pubnames section"); 55802c23cb7cSEd Maste return; 55812c23cb7cSEd Maste } 55822c23cb7cSEd Maste 55832c23cb7cSEd Maste nt_version = re->dw_read(d, &offset, 2); 55842c23cb7cSEd Maste nt_cu_offset = re->dw_read(d, &offset, dwarf_size); 55852c23cb7cSEd Maste nt_cu_length = re->dw_read(d, &offset, dwarf_size); 55862c23cb7cSEd Maste printf(" Length:\t\t\t\t%ju\n", (uintmax_t) length); 55872c23cb7cSEd Maste printf(" Version:\t\t\t\t%u\n", nt_version); 55882c23cb7cSEd Maste printf(" Offset into .debug_info section:\t%ju\n", 55892c23cb7cSEd Maste (uintmax_t) nt_cu_offset); 55902c23cb7cSEd Maste printf(" Size of area in .debug_info section:\t%ju\n", 55912c23cb7cSEd Maste (uintmax_t) nt_cu_length); 55922c23cb7cSEd Maste 55932c23cb7cSEd Maste if (dwarf_get_globals(re->dbg, &globs, &cnt, &de) != DW_DLV_OK) { 55942c23cb7cSEd Maste warnx("dwarf_get_globals failed: %s", dwarf_errmsg(de)); 55952c23cb7cSEd Maste return; 55962c23cb7cSEd Maste } 55972c23cb7cSEd Maste 55982c23cb7cSEd Maste printf("\n Offset Name\n"); 55992c23cb7cSEd Maste for (i = 0; i < cnt; i++) { 56002c23cb7cSEd Maste if (dwarf_globname(globs[i], &glob_name, &de) != DW_DLV_OK) { 56012c23cb7cSEd Maste warnx("dwarf_globname failed: %s", dwarf_errmsg(de)); 56022c23cb7cSEd Maste continue; 56032c23cb7cSEd Maste } 56042c23cb7cSEd Maste if (dwarf_global_die_offset(globs[i], &die_off, &de) != 56052c23cb7cSEd Maste DW_DLV_OK) { 56062c23cb7cSEd Maste warnx("dwarf_global_die_offset failed: %s", 56072c23cb7cSEd Maste dwarf_errmsg(de)); 56082c23cb7cSEd Maste continue; 56092c23cb7cSEd Maste } 56102c23cb7cSEd Maste printf(" %-11ju %s\n", (uintmax_t) die_off, glob_name); 56112c23cb7cSEd Maste } 56122c23cb7cSEd Maste } 56132c23cb7cSEd Maste 56142c23cb7cSEd Maste static void 56152c23cb7cSEd Maste dump_dwarf_aranges(struct readelf *re) 56162c23cb7cSEd Maste { 56172c23cb7cSEd Maste struct section *s; 56182c23cb7cSEd Maste Dwarf_Arange *aranges; 56192c23cb7cSEd Maste Dwarf_Addr start; 56202c23cb7cSEd Maste Dwarf_Unsigned offset, length, as_cu_offset; 56212c23cb7cSEd Maste Dwarf_Off die_off; 56222c23cb7cSEd Maste Dwarf_Signed cnt; 56232c23cb7cSEd Maste Dwarf_Half as_version, as_addrsz, as_segsz; 56242c23cb7cSEd Maste Dwarf_Error de; 56252c23cb7cSEd Maste Elf_Data *d; 56262c23cb7cSEd Maste int i, dwarf_size, elferr; 56272c23cb7cSEd Maste 56282c23cb7cSEd Maste printf("\nContents of section .debug_aranges:\n"); 56292c23cb7cSEd Maste 56302c23cb7cSEd Maste s = NULL; 56312c23cb7cSEd Maste for (i = 0; (size_t) i < re->shnum; i++) { 56322c23cb7cSEd Maste s = &re->sl[i]; 56332c23cb7cSEd Maste if (s->name != NULL && !strcmp(s->name, ".debug_aranges")) 56342c23cb7cSEd Maste break; 56352c23cb7cSEd Maste } 56362c23cb7cSEd Maste if ((size_t) i >= re->shnum) 56372c23cb7cSEd Maste return; 56382c23cb7cSEd Maste 56392c23cb7cSEd Maste (void) elf_errno(); 56402c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 56412c23cb7cSEd Maste elferr = elf_errno(); 56422c23cb7cSEd Maste if (elferr != 0) 56432c23cb7cSEd Maste warnx("elf_getdata failed: %s", elf_errmsg(-1)); 56442c23cb7cSEd Maste return; 56452c23cb7cSEd Maste } 56462c23cb7cSEd Maste if (d->d_size <= 0) 56472c23cb7cSEd Maste return; 56482c23cb7cSEd Maste 56492c23cb7cSEd Maste /* Read in the .debug_aranges section table header. */ 56502c23cb7cSEd Maste offset = 0; 56512c23cb7cSEd Maste length = re->dw_read(d, &offset, 4); 56522c23cb7cSEd Maste if (length == 0xffffffff) { 56532c23cb7cSEd Maste dwarf_size = 8; 56542c23cb7cSEd Maste length = re->dw_read(d, &offset, 8); 56552c23cb7cSEd Maste } else 56562c23cb7cSEd Maste dwarf_size = 4; 56572c23cb7cSEd Maste 56582c23cb7cSEd Maste if (length > d->d_size - offset) { 56592c23cb7cSEd Maste warnx("invalid .dwarf_aranges section"); 56602c23cb7cSEd Maste return; 56612c23cb7cSEd Maste } 56622c23cb7cSEd Maste 56632c23cb7cSEd Maste as_version = re->dw_read(d, &offset, 2); 56642c23cb7cSEd Maste as_cu_offset = re->dw_read(d, &offset, dwarf_size); 56652c23cb7cSEd Maste as_addrsz = re->dw_read(d, &offset, 1); 56662c23cb7cSEd Maste as_segsz = re->dw_read(d, &offset, 1); 56672c23cb7cSEd Maste 56682c23cb7cSEd Maste printf(" Length:\t\t\t%ju\n", (uintmax_t) length); 56692c23cb7cSEd Maste printf(" Version:\t\t\t%u\n", as_version); 56702c23cb7cSEd Maste printf(" Offset into .debug_info:\t%ju\n", (uintmax_t) as_cu_offset); 56712c23cb7cSEd Maste printf(" Pointer Size:\t\t\t%u\n", as_addrsz); 56722c23cb7cSEd Maste printf(" Segment Size:\t\t\t%u\n", as_segsz); 56732c23cb7cSEd Maste 56742c23cb7cSEd Maste if (dwarf_get_aranges(re->dbg, &aranges, &cnt, &de) != DW_DLV_OK) { 56752c23cb7cSEd Maste warnx("dwarf_get_aranges failed: %s", dwarf_errmsg(de)); 56762c23cb7cSEd Maste return; 56772c23cb7cSEd Maste } 56782c23cb7cSEd Maste 56792c23cb7cSEd Maste printf("\n Address Length\n"); 56802c23cb7cSEd Maste for (i = 0; i < cnt; i++) { 56812c23cb7cSEd Maste if (dwarf_get_arange_info(aranges[i], &start, &length, 56822c23cb7cSEd Maste &die_off, &de) != DW_DLV_OK) { 56832c23cb7cSEd Maste warnx("dwarf_get_arange_info failed: %s", 56842c23cb7cSEd Maste dwarf_errmsg(de)); 56852c23cb7cSEd Maste continue; 56862c23cb7cSEd Maste } 56872c23cb7cSEd Maste printf(" %08jx %ju\n", (uintmax_t) start, 56882c23cb7cSEd Maste (uintmax_t) length); 56892c23cb7cSEd Maste } 56902c23cb7cSEd Maste } 56912c23cb7cSEd Maste 56922c23cb7cSEd Maste static void 56932c23cb7cSEd Maste dump_dwarf_ranges_foreach(struct readelf *re, Dwarf_Die die, Dwarf_Addr base) 56942c23cb7cSEd Maste { 56952c23cb7cSEd Maste Dwarf_Attribute *attr_list; 56962c23cb7cSEd Maste Dwarf_Ranges *ranges; 56972c23cb7cSEd Maste Dwarf_Die ret_die; 56982c23cb7cSEd Maste Dwarf_Error de; 56992c23cb7cSEd Maste Dwarf_Addr base0; 57002c23cb7cSEd Maste Dwarf_Half attr; 57012c23cb7cSEd Maste Dwarf_Signed attr_count, cnt; 57022c23cb7cSEd Maste Dwarf_Unsigned off, bytecnt; 57032c23cb7cSEd Maste int i, j, ret; 57042c23cb7cSEd Maste 57052c23cb7cSEd Maste if ((ret = dwarf_attrlist(die, &attr_list, &attr_count, &de)) != 57062c23cb7cSEd Maste DW_DLV_OK) { 57072c23cb7cSEd Maste if (ret == DW_DLV_ERROR) 57082c23cb7cSEd Maste warnx("dwarf_attrlist failed: %s", dwarf_errmsg(de)); 57092c23cb7cSEd Maste goto cont_search; 57102c23cb7cSEd Maste } 57112c23cb7cSEd Maste 57122c23cb7cSEd Maste for (i = 0; i < attr_count; i++) { 57132c23cb7cSEd Maste if (dwarf_whatattr(attr_list[i], &attr, &de) != DW_DLV_OK) { 57142c23cb7cSEd Maste warnx("dwarf_whatattr failed: %s", dwarf_errmsg(de)); 57152c23cb7cSEd Maste continue; 57162c23cb7cSEd Maste } 57172c23cb7cSEd Maste if (attr != DW_AT_ranges) 57182c23cb7cSEd Maste continue; 57192c23cb7cSEd Maste if (dwarf_formudata(attr_list[i], &off, &de) != DW_DLV_OK) { 57202c23cb7cSEd Maste warnx("dwarf_formudata failed: %s", dwarf_errmsg(de)); 57212c23cb7cSEd Maste continue; 57222c23cb7cSEd Maste } 57232c23cb7cSEd Maste if (dwarf_get_ranges(re->dbg, (Dwarf_Off) off, &ranges, &cnt, 57242c23cb7cSEd Maste &bytecnt, &de) != DW_DLV_OK) 57252c23cb7cSEd Maste continue; 57262c23cb7cSEd Maste base0 = base; 57272c23cb7cSEd Maste for (j = 0; j < cnt; j++) { 57282c23cb7cSEd Maste printf(" %08jx ", (uintmax_t) off); 57292c23cb7cSEd Maste if (ranges[j].dwr_type == DW_RANGES_END) { 57302c23cb7cSEd Maste printf("%s\n", "<End of list>"); 57312c23cb7cSEd Maste continue; 57322c23cb7cSEd Maste } else if (ranges[j].dwr_type == 57332c23cb7cSEd Maste DW_RANGES_ADDRESS_SELECTION) { 57342c23cb7cSEd Maste base0 = ranges[j].dwr_addr2; 57352c23cb7cSEd Maste continue; 57362c23cb7cSEd Maste } 57372c23cb7cSEd Maste if (re->ec == ELFCLASS32) 57382c23cb7cSEd Maste printf("%08jx %08jx\n", 57392c23cb7cSEd Maste ranges[j].dwr_addr1 + base0, 57402c23cb7cSEd Maste ranges[j].dwr_addr2 + base0); 57412c23cb7cSEd Maste else 57422c23cb7cSEd Maste printf("%016jx %016jx\n", 57432c23cb7cSEd Maste ranges[j].dwr_addr1 + base0, 57442c23cb7cSEd Maste ranges[j].dwr_addr2 + base0); 57452c23cb7cSEd Maste } 57462c23cb7cSEd Maste } 57472c23cb7cSEd Maste 57482c23cb7cSEd Maste cont_search: 57492c23cb7cSEd Maste /* Search children. */ 57502c23cb7cSEd Maste ret = dwarf_child(die, &ret_die, &de); 57512c23cb7cSEd Maste if (ret == DW_DLV_ERROR) 57522c23cb7cSEd Maste warnx("dwarf_child: %s", dwarf_errmsg(de)); 57532c23cb7cSEd Maste else if (ret == DW_DLV_OK) 57542c23cb7cSEd Maste dump_dwarf_ranges_foreach(re, ret_die, base); 57552c23cb7cSEd Maste 57562c23cb7cSEd Maste /* Search sibling. */ 57572c23cb7cSEd Maste ret = dwarf_siblingof(re->dbg, die, &ret_die, &de); 57582c23cb7cSEd Maste if (ret == DW_DLV_ERROR) 57592c23cb7cSEd Maste warnx("dwarf_siblingof: %s", dwarf_errmsg(de)); 57602c23cb7cSEd Maste else if (ret == DW_DLV_OK) 57612c23cb7cSEd Maste dump_dwarf_ranges_foreach(re, ret_die, base); 57622c23cb7cSEd Maste } 57632c23cb7cSEd Maste 57642c23cb7cSEd Maste static void 57652c23cb7cSEd Maste dump_dwarf_ranges(struct readelf *re) 57662c23cb7cSEd Maste { 57672c23cb7cSEd Maste Dwarf_Ranges *ranges; 57682c23cb7cSEd Maste Dwarf_Die die; 57692c23cb7cSEd Maste Dwarf_Signed cnt; 57702c23cb7cSEd Maste Dwarf_Unsigned bytecnt; 57712c23cb7cSEd Maste Dwarf_Half tag; 57722c23cb7cSEd Maste Dwarf_Error de; 57732c23cb7cSEd Maste Dwarf_Unsigned lowpc; 57742c23cb7cSEd Maste int ret; 57752c23cb7cSEd Maste 57762c23cb7cSEd Maste if (dwarf_get_ranges(re->dbg, 0, &ranges, &cnt, &bytecnt, &de) != 57772c23cb7cSEd Maste DW_DLV_OK) 57782c23cb7cSEd Maste return; 57792c23cb7cSEd Maste 57802c23cb7cSEd Maste printf("Contents of the .debug_ranges section:\n\n"); 57812c23cb7cSEd Maste if (re->ec == ELFCLASS32) 57822c23cb7cSEd Maste printf(" %-8s %-8s %s\n", "Offset", "Begin", "End"); 57832c23cb7cSEd Maste else 57842c23cb7cSEd Maste printf(" %-8s %-16s %s\n", "Offset", "Begin", "End"); 57852c23cb7cSEd Maste 57862c23cb7cSEd Maste while ((ret = dwarf_next_cu_header(re->dbg, NULL, NULL, NULL, NULL, 57872c23cb7cSEd Maste NULL, &de)) == DW_DLV_OK) { 57882c23cb7cSEd Maste die = NULL; 57892c23cb7cSEd Maste if (dwarf_siblingof(re->dbg, die, &die, &de) != DW_DLV_OK) 57902c23cb7cSEd Maste continue; 57912c23cb7cSEd Maste if (dwarf_tag(die, &tag, &de) != DW_DLV_OK) { 57922c23cb7cSEd Maste warnx("dwarf_tag failed: %s", dwarf_errmsg(de)); 57932c23cb7cSEd Maste continue; 57942c23cb7cSEd Maste } 57952c23cb7cSEd Maste /* XXX: What about DW_TAG_partial_unit? */ 57962c23cb7cSEd Maste lowpc = 0; 57972c23cb7cSEd Maste if (tag == DW_TAG_compile_unit) { 57982c23cb7cSEd Maste if (dwarf_attrval_unsigned(die, DW_AT_low_pc, &lowpc, 57992c23cb7cSEd Maste &de) != DW_DLV_OK) 58002c23cb7cSEd Maste lowpc = 0; 58012c23cb7cSEd Maste } 58022c23cb7cSEd Maste 58032c23cb7cSEd Maste dump_dwarf_ranges_foreach(re, die, (Dwarf_Addr) lowpc); 58042c23cb7cSEd Maste } 58052c23cb7cSEd Maste putchar('\n'); 58062c23cb7cSEd Maste } 58072c23cb7cSEd Maste 58082c23cb7cSEd Maste static void 58092c23cb7cSEd Maste dump_dwarf_macinfo(struct readelf *re) 58102c23cb7cSEd Maste { 58112c23cb7cSEd Maste Dwarf_Unsigned offset; 58122c23cb7cSEd Maste Dwarf_Signed cnt; 58132c23cb7cSEd Maste Dwarf_Macro_Details *md; 58142c23cb7cSEd Maste Dwarf_Error de; 58152c23cb7cSEd Maste const char *mi_str; 5816cf781b2eSEd Maste char unk_mi[32]; 58172c23cb7cSEd Maste int i; 58182c23cb7cSEd Maste 58192c23cb7cSEd Maste #define _MAX_MACINFO_ENTRY 65535 58202c23cb7cSEd Maste 58212c23cb7cSEd Maste printf("\nContents of section .debug_macinfo:\n\n"); 58222c23cb7cSEd Maste 58232c23cb7cSEd Maste offset = 0; 58242c23cb7cSEd Maste while (dwarf_get_macro_details(re->dbg, offset, _MAX_MACINFO_ENTRY, 58252c23cb7cSEd Maste &cnt, &md, &de) == DW_DLV_OK) { 58262c23cb7cSEd Maste for (i = 0; i < cnt; i++) { 58272c23cb7cSEd Maste offset = md[i].dmd_offset + 1; 58282c23cb7cSEd Maste if (md[i].dmd_type == 0) 58292c23cb7cSEd Maste break; 58302c23cb7cSEd Maste if (dwarf_get_MACINFO_name(md[i].dmd_type, &mi_str) != 58312c23cb7cSEd Maste DW_DLV_OK) { 5832cf781b2eSEd Maste snprintf(unk_mi, sizeof(unk_mi), 5833cf781b2eSEd Maste "[Unknown MACINFO: %#x]", md[i].dmd_type); 5834cf781b2eSEd Maste mi_str = unk_mi; 58352c23cb7cSEd Maste } 58362c23cb7cSEd Maste printf(" %s", mi_str); 58372c23cb7cSEd Maste switch (md[i].dmd_type) { 58382c23cb7cSEd Maste case DW_MACINFO_define: 58392c23cb7cSEd Maste case DW_MACINFO_undef: 58402c23cb7cSEd Maste printf(" - lineno : %jd macro : %s\n", 58412c23cb7cSEd Maste (intmax_t) md[i].dmd_lineno, 58422c23cb7cSEd Maste md[i].dmd_macro); 58432c23cb7cSEd Maste break; 58442c23cb7cSEd Maste case DW_MACINFO_start_file: 58452c23cb7cSEd Maste printf(" - lineno : %jd filenum : %jd\n", 58462c23cb7cSEd Maste (intmax_t) md[i].dmd_lineno, 58472c23cb7cSEd Maste (intmax_t) md[i].dmd_fileindex); 58482c23cb7cSEd Maste break; 58492c23cb7cSEd Maste default: 58502c23cb7cSEd Maste putchar('\n'); 58512c23cb7cSEd Maste break; 58522c23cb7cSEd Maste } 58532c23cb7cSEd Maste } 58542c23cb7cSEd Maste } 58552c23cb7cSEd Maste 58562c23cb7cSEd Maste #undef _MAX_MACINFO_ENTRY 58572c23cb7cSEd Maste } 58582c23cb7cSEd Maste 58592c23cb7cSEd Maste static void 5860cf781b2eSEd Maste dump_dwarf_frame_inst(struct readelf *re, Dwarf_Cie cie, uint8_t *insts, 5861cf781b2eSEd Maste Dwarf_Unsigned len, Dwarf_Unsigned caf, Dwarf_Signed daf, Dwarf_Addr pc, 5862cf781b2eSEd Maste Dwarf_Debug dbg) 58632c23cb7cSEd Maste { 58642c23cb7cSEd Maste Dwarf_Frame_Op *oplist; 58652c23cb7cSEd Maste Dwarf_Signed opcnt, delta; 58662c23cb7cSEd Maste Dwarf_Small op; 58672c23cb7cSEd Maste Dwarf_Error de; 58682c23cb7cSEd Maste const char *op_str; 5869cf781b2eSEd Maste char unk_op[32]; 58702c23cb7cSEd Maste int i; 58712c23cb7cSEd Maste 58722c23cb7cSEd Maste if (dwarf_expand_frame_instructions(cie, insts, len, &oplist, 58732c23cb7cSEd Maste &opcnt, &de) != DW_DLV_OK) { 58742c23cb7cSEd Maste warnx("dwarf_expand_frame_instructions failed: %s", 58752c23cb7cSEd Maste dwarf_errmsg(de)); 58762c23cb7cSEd Maste return; 58772c23cb7cSEd Maste } 58782c23cb7cSEd Maste 58792c23cb7cSEd Maste for (i = 0; i < opcnt; i++) { 58802c23cb7cSEd Maste if (oplist[i].fp_base_op != 0) 58812c23cb7cSEd Maste op = oplist[i].fp_base_op << 6; 58822c23cb7cSEd Maste else 58832c23cb7cSEd Maste op = oplist[i].fp_extended_op; 58842c23cb7cSEd Maste if (dwarf_get_CFA_name(op, &op_str) != DW_DLV_OK) { 5885cf781b2eSEd Maste snprintf(unk_op, sizeof(unk_op), "[Unknown CFA: %#x]", 5886cf781b2eSEd Maste op); 5887cf781b2eSEd Maste op_str = unk_op; 58882c23cb7cSEd Maste } 58892c23cb7cSEd Maste printf(" %s", op_str); 58902c23cb7cSEd Maste switch (op) { 58912c23cb7cSEd Maste case DW_CFA_advance_loc: 58922c23cb7cSEd Maste delta = oplist[i].fp_offset * caf; 58932c23cb7cSEd Maste pc += delta; 58942c23cb7cSEd Maste printf(": %ju to %08jx", (uintmax_t) delta, 58952c23cb7cSEd Maste (uintmax_t) pc); 58962c23cb7cSEd Maste break; 58972c23cb7cSEd Maste case DW_CFA_offset: 58982c23cb7cSEd Maste case DW_CFA_offset_extended: 58992c23cb7cSEd Maste case DW_CFA_offset_extended_sf: 59002c23cb7cSEd Maste delta = oplist[i].fp_offset * daf; 5901cf781b2eSEd Maste printf(": r%u (%s) at cfa%+jd", oplist[i].fp_register, 5902cf781b2eSEd Maste dwarf_regname(re, oplist[i].fp_register), 59032c23cb7cSEd Maste (intmax_t) delta); 59042c23cb7cSEd Maste break; 59052c23cb7cSEd Maste case DW_CFA_restore: 5906cf781b2eSEd Maste printf(": r%u (%s)", oplist[i].fp_register, 5907cf781b2eSEd Maste dwarf_regname(re, oplist[i].fp_register)); 59082c23cb7cSEd Maste break; 59092c23cb7cSEd Maste case DW_CFA_set_loc: 59102c23cb7cSEd Maste pc = oplist[i].fp_offset; 59112c23cb7cSEd Maste printf(": to %08jx", (uintmax_t) pc); 59122c23cb7cSEd Maste break; 59132c23cb7cSEd Maste case DW_CFA_advance_loc1: 59142c23cb7cSEd Maste case DW_CFA_advance_loc2: 59152c23cb7cSEd Maste case DW_CFA_advance_loc4: 59162c23cb7cSEd Maste pc += oplist[i].fp_offset; 59172c23cb7cSEd Maste printf(": %jd to %08jx", (intmax_t) oplist[i].fp_offset, 59182c23cb7cSEd Maste (uintmax_t) pc); 59192c23cb7cSEd Maste break; 59202c23cb7cSEd Maste case DW_CFA_def_cfa: 5921cf781b2eSEd Maste printf(": r%u (%s) ofs %ju", oplist[i].fp_register, 5922cf781b2eSEd Maste dwarf_regname(re, oplist[i].fp_register), 59232c23cb7cSEd Maste (uintmax_t) oplist[i].fp_offset); 59242c23cb7cSEd Maste break; 59252c23cb7cSEd Maste case DW_CFA_def_cfa_sf: 5926cf781b2eSEd Maste printf(": r%u (%s) ofs %jd", oplist[i].fp_register, 5927cf781b2eSEd Maste dwarf_regname(re, oplist[i].fp_register), 59282c23cb7cSEd Maste (intmax_t) (oplist[i].fp_offset * daf)); 59292c23cb7cSEd Maste break; 59302c23cb7cSEd Maste case DW_CFA_def_cfa_register: 5931cf781b2eSEd Maste printf(": r%u (%s)", oplist[i].fp_register, 5932cf781b2eSEd Maste dwarf_regname(re, oplist[i].fp_register)); 59332c23cb7cSEd Maste break; 59342c23cb7cSEd Maste case DW_CFA_def_cfa_offset: 59352c23cb7cSEd Maste printf(": %ju", (uintmax_t) oplist[i].fp_offset); 59362c23cb7cSEd Maste break; 59372c23cb7cSEd Maste case DW_CFA_def_cfa_offset_sf: 59382c23cb7cSEd Maste printf(": %jd", (intmax_t) (oplist[i].fp_offset * daf)); 59392c23cb7cSEd Maste break; 59402c23cb7cSEd Maste default: 59412c23cb7cSEd Maste break; 59422c23cb7cSEd Maste } 59432c23cb7cSEd Maste putchar('\n'); 59442c23cb7cSEd Maste } 59452c23cb7cSEd Maste 59462c23cb7cSEd Maste dwarf_dealloc(dbg, oplist, DW_DLA_FRAME_BLOCK); 59472c23cb7cSEd Maste } 59482c23cb7cSEd Maste 59492c23cb7cSEd Maste static char * 5950cf781b2eSEd Maste get_regoff_str(struct readelf *re, Dwarf_Half reg, Dwarf_Addr off) 59512c23cb7cSEd Maste { 59522c23cb7cSEd Maste static char rs[16]; 59532c23cb7cSEd Maste 59542c23cb7cSEd Maste if (reg == DW_FRAME_UNDEFINED_VAL || reg == DW_FRAME_REG_INITIAL_VALUE) 59552c23cb7cSEd Maste snprintf(rs, sizeof(rs), "%c", 'u'); 59562c23cb7cSEd Maste else if (reg == DW_FRAME_CFA_COL) 59572c23cb7cSEd Maste snprintf(rs, sizeof(rs), "c%+jd", (intmax_t) off); 59582c23cb7cSEd Maste else 5959cf781b2eSEd Maste snprintf(rs, sizeof(rs), "%s%+jd", dwarf_regname(re, reg), 5960cf781b2eSEd Maste (intmax_t) off); 59612c23cb7cSEd Maste 59622c23cb7cSEd Maste return (rs); 59632c23cb7cSEd Maste } 59642c23cb7cSEd Maste 59652c23cb7cSEd Maste static int 5966cf781b2eSEd Maste dump_dwarf_frame_regtable(struct readelf *re, Dwarf_Fde fde, Dwarf_Addr pc, 5967cf781b2eSEd Maste Dwarf_Unsigned func_len, Dwarf_Half cie_ra) 59682c23cb7cSEd Maste { 59692c23cb7cSEd Maste Dwarf_Regtable rt; 59702c23cb7cSEd Maste Dwarf_Addr row_pc, end_pc, pre_pc, cur_pc; 59712c23cb7cSEd Maste Dwarf_Error de; 59722c23cb7cSEd Maste char *vec; 59732c23cb7cSEd Maste int i; 59742c23cb7cSEd Maste 59752c23cb7cSEd Maste #define BIT_SET(v, n) (v[(n)>>3] |= 1U << ((n) & 7)) 59762c23cb7cSEd Maste #define BIT_CLR(v, n) (v[(n)>>3] &= ~(1U << ((n) & 7))) 59772c23cb7cSEd Maste #define BIT_ISSET(v, n) (v[(n)>>3] & (1U << ((n) & 7))) 59782c23cb7cSEd Maste #define RT(x) rt.rules[(x)] 59792c23cb7cSEd Maste 59802c23cb7cSEd Maste vec = calloc((DW_REG_TABLE_SIZE + 7) / 8, 1); 59812c23cb7cSEd Maste if (vec == NULL) 59822c23cb7cSEd Maste err(EXIT_FAILURE, "calloc failed"); 59832c23cb7cSEd Maste 59842c23cb7cSEd Maste pre_pc = ~((Dwarf_Addr) 0); 59852c23cb7cSEd Maste cur_pc = pc; 59862c23cb7cSEd Maste end_pc = pc + func_len; 59872c23cb7cSEd Maste for (; cur_pc < end_pc; cur_pc++) { 59882c23cb7cSEd Maste if (dwarf_get_fde_info_for_all_regs(fde, cur_pc, &rt, &row_pc, 59892c23cb7cSEd Maste &de) != DW_DLV_OK) { 59902c23cb7cSEd Maste warnx("dwarf_get_fde_info_for_all_regs failed: %s\n", 59912c23cb7cSEd Maste dwarf_errmsg(de)); 59922c23cb7cSEd Maste return (-1); 59932c23cb7cSEd Maste } 59942c23cb7cSEd Maste if (row_pc == pre_pc) 59952c23cb7cSEd Maste continue; 59962c23cb7cSEd Maste pre_pc = row_pc; 59972c23cb7cSEd Maste for (i = 1; i < DW_REG_TABLE_SIZE; i++) { 59982c23cb7cSEd Maste if (rt.rules[i].dw_regnum != DW_FRAME_REG_INITIAL_VALUE) 59992c23cb7cSEd Maste BIT_SET(vec, i); 60002c23cb7cSEd Maste } 60012c23cb7cSEd Maste } 60022c23cb7cSEd Maste 60032c23cb7cSEd Maste printf(" LOC CFA "); 60042c23cb7cSEd Maste for (i = 1; i < DW_REG_TABLE_SIZE; i++) { 60052c23cb7cSEd Maste if (BIT_ISSET(vec, i)) { 60062c23cb7cSEd Maste if ((Dwarf_Half) i == cie_ra) 60072c23cb7cSEd Maste printf("ra "); 6008cf781b2eSEd Maste else 6009cf781b2eSEd Maste printf("%-5s", 6010cf781b2eSEd Maste dwarf_regname(re, (unsigned int) i)); 60112c23cb7cSEd Maste } 60122c23cb7cSEd Maste } 60132c23cb7cSEd Maste putchar('\n'); 60142c23cb7cSEd Maste 60152c23cb7cSEd Maste pre_pc = ~((Dwarf_Addr) 0); 60162c23cb7cSEd Maste cur_pc = pc; 60172c23cb7cSEd Maste end_pc = pc + func_len; 60182c23cb7cSEd Maste for (; cur_pc < end_pc; cur_pc++) { 60192c23cb7cSEd Maste if (dwarf_get_fde_info_for_all_regs(fde, cur_pc, &rt, &row_pc, 60202c23cb7cSEd Maste &de) != DW_DLV_OK) { 60212c23cb7cSEd Maste warnx("dwarf_get_fde_info_for_all_regs failed: %s\n", 60222c23cb7cSEd Maste dwarf_errmsg(de)); 60232c23cb7cSEd Maste return (-1); 60242c23cb7cSEd Maste } 60252c23cb7cSEd Maste if (row_pc == pre_pc) 60262c23cb7cSEd Maste continue; 60272c23cb7cSEd Maste pre_pc = row_pc; 60282c23cb7cSEd Maste printf("%08jx ", (uintmax_t) row_pc); 6029cf781b2eSEd Maste printf("%-8s ", get_regoff_str(re, RT(0).dw_regnum, 60302c23cb7cSEd Maste RT(0).dw_offset)); 60312c23cb7cSEd Maste for (i = 1; i < DW_REG_TABLE_SIZE; i++) { 60322c23cb7cSEd Maste if (BIT_ISSET(vec, i)) { 6033cf781b2eSEd Maste printf("%-5s", get_regoff_str(re, 6034cf781b2eSEd Maste RT(i).dw_regnum, RT(i).dw_offset)); 60352c23cb7cSEd Maste } 60362c23cb7cSEd Maste } 60372c23cb7cSEd Maste putchar('\n'); 60382c23cb7cSEd Maste } 60392c23cb7cSEd Maste 60402c23cb7cSEd Maste free(vec); 60412c23cb7cSEd Maste 60422c23cb7cSEd Maste return (0); 60432c23cb7cSEd Maste 60442c23cb7cSEd Maste #undef BIT_SET 60452c23cb7cSEd Maste #undef BIT_CLR 60462c23cb7cSEd Maste #undef BIT_ISSET 60472c23cb7cSEd Maste #undef RT 60482c23cb7cSEd Maste } 60492c23cb7cSEd Maste 60502c23cb7cSEd Maste static void 60512c23cb7cSEd Maste dump_dwarf_frame_section(struct readelf *re, struct section *s, int alt) 60522c23cb7cSEd Maste { 60532c23cb7cSEd Maste Dwarf_Cie *cie_list, cie, pre_cie; 60542c23cb7cSEd Maste Dwarf_Fde *fde_list, fde; 60552c23cb7cSEd Maste Dwarf_Off cie_offset, fde_offset; 60562c23cb7cSEd Maste Dwarf_Unsigned cie_length, fde_instlen; 60572c23cb7cSEd Maste Dwarf_Unsigned cie_caf, cie_daf, cie_instlen, func_len, fde_length; 60582c23cb7cSEd Maste Dwarf_Signed cie_count, fde_count, cie_index; 60592c23cb7cSEd Maste Dwarf_Addr low_pc; 60602c23cb7cSEd Maste Dwarf_Half cie_ra; 60612c23cb7cSEd Maste Dwarf_Small cie_version; 60622c23cb7cSEd Maste Dwarf_Ptr fde_addr, fde_inst, cie_inst; 60632c23cb7cSEd Maste char *cie_aug, c; 60642c23cb7cSEd Maste int i, eh_frame; 60652c23cb7cSEd Maste Dwarf_Error de; 60662c23cb7cSEd Maste 60672c23cb7cSEd Maste printf("\nThe section %s contains:\n\n", s->name); 60682c23cb7cSEd Maste 60692c23cb7cSEd Maste if (!strcmp(s->name, ".debug_frame")) { 60702c23cb7cSEd Maste eh_frame = 0; 60712c23cb7cSEd Maste if (dwarf_get_fde_list(re->dbg, &cie_list, &cie_count, 60722c23cb7cSEd Maste &fde_list, &fde_count, &de) != DW_DLV_OK) { 60732c23cb7cSEd Maste warnx("dwarf_get_fde_list failed: %s", 60742c23cb7cSEd Maste dwarf_errmsg(de)); 60752c23cb7cSEd Maste return; 60762c23cb7cSEd Maste } 60772c23cb7cSEd Maste } else if (!strcmp(s->name, ".eh_frame")) { 60782c23cb7cSEd Maste eh_frame = 1; 60792c23cb7cSEd Maste if (dwarf_get_fde_list_eh(re->dbg, &cie_list, &cie_count, 60802c23cb7cSEd Maste &fde_list, &fde_count, &de) != DW_DLV_OK) { 60812c23cb7cSEd Maste warnx("dwarf_get_fde_list_eh failed: %s", 60822c23cb7cSEd Maste dwarf_errmsg(de)); 60832c23cb7cSEd Maste return; 60842c23cb7cSEd Maste } 60852c23cb7cSEd Maste } else 60862c23cb7cSEd Maste return; 60872c23cb7cSEd Maste 60882c23cb7cSEd Maste pre_cie = NULL; 60892c23cb7cSEd Maste for (i = 0; i < fde_count; i++) { 60902c23cb7cSEd Maste if (dwarf_get_fde_n(fde_list, i, &fde, &de) != DW_DLV_OK) { 60912c23cb7cSEd Maste warnx("dwarf_get_fde_n failed: %s", dwarf_errmsg(de)); 60922c23cb7cSEd Maste continue; 60932c23cb7cSEd Maste } 60942c23cb7cSEd Maste if (dwarf_get_cie_of_fde(fde, &cie, &de) != DW_DLV_OK) { 60952c23cb7cSEd Maste warnx("dwarf_get_fde_n failed: %s", dwarf_errmsg(de)); 60962c23cb7cSEd Maste continue; 60972c23cb7cSEd Maste } 60982c23cb7cSEd Maste if (dwarf_get_fde_range(fde, &low_pc, &func_len, &fde_addr, 60992c23cb7cSEd Maste &fde_length, &cie_offset, &cie_index, &fde_offset, 61002c23cb7cSEd Maste &de) != DW_DLV_OK) { 61012c23cb7cSEd Maste warnx("dwarf_get_fde_range failed: %s", 61022c23cb7cSEd Maste dwarf_errmsg(de)); 61032c23cb7cSEd Maste continue; 61042c23cb7cSEd Maste } 61052c23cb7cSEd Maste if (dwarf_get_fde_instr_bytes(fde, &fde_inst, &fde_instlen, 61062c23cb7cSEd Maste &de) != DW_DLV_OK) { 61072c23cb7cSEd Maste warnx("dwarf_get_fde_instr_bytes failed: %s", 61082c23cb7cSEd Maste dwarf_errmsg(de)); 61092c23cb7cSEd Maste continue; 61102c23cb7cSEd Maste } 61112c23cb7cSEd Maste if (pre_cie == NULL || cie != pre_cie) { 61122c23cb7cSEd Maste pre_cie = cie; 61132c23cb7cSEd Maste if (dwarf_get_cie_info(cie, &cie_length, &cie_version, 61142c23cb7cSEd Maste &cie_aug, &cie_caf, &cie_daf, &cie_ra, 61152c23cb7cSEd Maste &cie_inst, &cie_instlen, &de) != DW_DLV_OK) { 61162c23cb7cSEd Maste warnx("dwarf_get_cie_info failed: %s", 61172c23cb7cSEd Maste dwarf_errmsg(de)); 61182c23cb7cSEd Maste continue; 61192c23cb7cSEd Maste } 61202c23cb7cSEd Maste printf("%08jx %08jx %8.8jx CIE", 61212c23cb7cSEd Maste (uintmax_t) cie_offset, 61222c23cb7cSEd Maste (uintmax_t) cie_length, 61232c23cb7cSEd Maste (uintmax_t) (eh_frame ? 0 : ~0U)); 61242c23cb7cSEd Maste if (!alt) { 61252c23cb7cSEd Maste putchar('\n'); 61262c23cb7cSEd Maste printf(" Version:\t\t\t%u\n", cie_version); 61272c23cb7cSEd Maste printf(" Augmentation:\t\t\t\""); 61282c23cb7cSEd Maste while ((c = *cie_aug++) != '\0') 61292c23cb7cSEd Maste putchar(c); 61302c23cb7cSEd Maste printf("\"\n"); 61312c23cb7cSEd Maste printf(" Code alignment factor:\t%ju\n", 61322c23cb7cSEd Maste (uintmax_t) cie_caf); 61332c23cb7cSEd Maste printf(" Data alignment factor:\t%jd\n", 61342c23cb7cSEd Maste (intmax_t) cie_daf); 61352c23cb7cSEd Maste printf(" Return address column:\t%ju\n", 61362c23cb7cSEd Maste (uintmax_t) cie_ra); 61372c23cb7cSEd Maste putchar('\n'); 6138cf781b2eSEd Maste dump_dwarf_frame_inst(re, cie, cie_inst, 61392c23cb7cSEd Maste cie_instlen, cie_caf, cie_daf, 0, 61402c23cb7cSEd Maste re->dbg); 61412c23cb7cSEd Maste putchar('\n'); 61422c23cb7cSEd Maste } else { 61432c23cb7cSEd Maste printf(" \""); 61442c23cb7cSEd Maste while ((c = *cie_aug++) != '\0') 61452c23cb7cSEd Maste putchar(c); 61462c23cb7cSEd Maste putchar('"'); 61472c23cb7cSEd Maste printf(" cf=%ju df=%jd ra=%ju\n", 61482c23cb7cSEd Maste (uintmax_t) cie_caf, 61492c23cb7cSEd Maste (uintmax_t) cie_daf, 61502c23cb7cSEd Maste (uintmax_t) cie_ra); 6151cf781b2eSEd Maste dump_dwarf_frame_regtable(re, fde, low_pc, 1, 61522c23cb7cSEd Maste cie_ra); 61532c23cb7cSEd Maste putchar('\n'); 61542c23cb7cSEd Maste } 61552c23cb7cSEd Maste } 61562c23cb7cSEd Maste printf("%08jx %08jx %08jx FDE cie=%08jx pc=%08jx..%08jx\n", 61572c23cb7cSEd Maste (uintmax_t) fde_offset, (uintmax_t) fde_length, 61582c23cb7cSEd Maste (uintmax_t) cie_offset, 61592c23cb7cSEd Maste (uintmax_t) (eh_frame ? fde_offset + 4 - cie_offset : 61602c23cb7cSEd Maste cie_offset), 61612c23cb7cSEd Maste (uintmax_t) low_pc, (uintmax_t) (low_pc + func_len)); 61622c23cb7cSEd Maste if (!alt) 6163cf781b2eSEd Maste dump_dwarf_frame_inst(re, cie, fde_inst, fde_instlen, 61642c23cb7cSEd Maste cie_caf, cie_daf, low_pc, re->dbg); 61652c23cb7cSEd Maste else 6166cf781b2eSEd Maste dump_dwarf_frame_regtable(re, fde, low_pc, func_len, 61672c23cb7cSEd Maste cie_ra); 61682c23cb7cSEd Maste putchar('\n'); 61692c23cb7cSEd Maste } 61702c23cb7cSEd Maste } 61712c23cb7cSEd Maste 61722c23cb7cSEd Maste static void 61732c23cb7cSEd Maste dump_dwarf_frame(struct readelf *re, int alt) 61742c23cb7cSEd Maste { 61752c23cb7cSEd Maste struct section *s; 61762c23cb7cSEd Maste int i; 61772c23cb7cSEd Maste 61782c23cb7cSEd Maste (void) dwarf_set_frame_cfa_value(re->dbg, DW_FRAME_CFA_COL); 61792c23cb7cSEd Maste 61802c23cb7cSEd Maste for (i = 0; (size_t) i < re->shnum; i++) { 61812c23cb7cSEd Maste s = &re->sl[i]; 61822c23cb7cSEd Maste if (s->name != NULL && (!strcmp(s->name, ".debug_frame") || 61832c23cb7cSEd Maste !strcmp(s->name, ".eh_frame"))) 61842c23cb7cSEd Maste dump_dwarf_frame_section(re, s, alt); 61852c23cb7cSEd Maste } 61862c23cb7cSEd Maste } 61872c23cb7cSEd Maste 61882c23cb7cSEd Maste static void 61892c23cb7cSEd Maste dump_dwarf_str(struct readelf *re) 61902c23cb7cSEd Maste { 61912c23cb7cSEd Maste struct section *s; 61922c23cb7cSEd Maste Elf_Data *d; 61932c23cb7cSEd Maste unsigned char *p; 61942c23cb7cSEd Maste int elferr, end, i, j; 61952c23cb7cSEd Maste 61962c23cb7cSEd Maste printf("\nContents of section .debug_str:\n"); 61972c23cb7cSEd Maste 61982c23cb7cSEd Maste s = NULL; 61992c23cb7cSEd Maste for (i = 0; (size_t) i < re->shnum; i++) { 62002c23cb7cSEd Maste s = &re->sl[i]; 62012c23cb7cSEd Maste if (s->name != NULL && !strcmp(s->name, ".debug_str")) 62022c23cb7cSEd Maste break; 62032c23cb7cSEd Maste } 62042c23cb7cSEd Maste if ((size_t) i >= re->shnum) 62052c23cb7cSEd Maste return; 62062c23cb7cSEd Maste 62072c23cb7cSEd Maste (void) elf_errno(); 62082c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 62092c23cb7cSEd Maste elferr = elf_errno(); 62102c23cb7cSEd Maste if (elferr != 0) 62112c23cb7cSEd Maste warnx("elf_getdata failed: %s", elf_errmsg(-1)); 62122c23cb7cSEd Maste return; 62132c23cb7cSEd Maste } 62142c23cb7cSEd Maste if (d->d_size <= 0) 62152c23cb7cSEd Maste return; 62162c23cb7cSEd Maste 62172c23cb7cSEd Maste for (i = 0, p = d->d_buf; (size_t) i < d->d_size; i += 16) { 62182c23cb7cSEd Maste printf(" 0x%08x", (unsigned int) i); 62192c23cb7cSEd Maste if ((size_t) i + 16 > d->d_size) 62202c23cb7cSEd Maste end = d->d_size; 62212c23cb7cSEd Maste else 62222c23cb7cSEd Maste end = i + 16; 62232c23cb7cSEd Maste for (j = i; j < i + 16; j++) { 62242c23cb7cSEd Maste if ((j - i) % 4 == 0) 62252c23cb7cSEd Maste putchar(' '); 62262c23cb7cSEd Maste if (j >= end) { 62272c23cb7cSEd Maste printf(" "); 62282c23cb7cSEd Maste continue; 62292c23cb7cSEd Maste } 62302c23cb7cSEd Maste printf("%02x", (uint8_t) p[j]); 62312c23cb7cSEd Maste } 62322c23cb7cSEd Maste putchar(' '); 62332c23cb7cSEd Maste for (j = i; j < end; j++) { 62342c23cb7cSEd Maste if (isprint(p[j])) 62352c23cb7cSEd Maste putchar(p[j]); 62362c23cb7cSEd Maste else if (p[j] == 0) 62372c23cb7cSEd Maste putchar('.'); 62382c23cb7cSEd Maste else 62392c23cb7cSEd Maste putchar(' '); 62402c23cb7cSEd Maste } 62412c23cb7cSEd Maste putchar('\n'); 62422c23cb7cSEd Maste } 62432c23cb7cSEd Maste } 62442c23cb7cSEd Maste 62452c23cb7cSEd Maste struct loc_at { 62462c23cb7cSEd Maste Dwarf_Attribute la_at; 62472c23cb7cSEd Maste Dwarf_Unsigned la_off; 62482c23cb7cSEd Maste Dwarf_Unsigned la_lowpc; 6249cf781b2eSEd Maste Dwarf_Half la_cu_psize; 6250cf781b2eSEd Maste Dwarf_Half la_cu_osize; 6251cf781b2eSEd Maste Dwarf_Half la_cu_ver; 62522c23cb7cSEd Maste TAILQ_ENTRY(loc_at) la_next; 62532c23cb7cSEd Maste }; 62542c23cb7cSEd Maste 62552c23cb7cSEd Maste static TAILQ_HEAD(, loc_at) lalist = TAILQ_HEAD_INITIALIZER(lalist); 62562c23cb7cSEd Maste 62572c23cb7cSEd Maste static void 62582c23cb7cSEd Maste search_loclist_at(struct readelf *re, Dwarf_Die die, Dwarf_Unsigned lowpc) 62592c23cb7cSEd Maste { 62602c23cb7cSEd Maste Dwarf_Attribute *attr_list; 62612c23cb7cSEd Maste Dwarf_Die ret_die; 62622c23cb7cSEd Maste Dwarf_Unsigned off; 6263cf781b2eSEd Maste Dwarf_Off ref; 62642c23cb7cSEd Maste Dwarf_Signed attr_count; 62652c23cb7cSEd Maste Dwarf_Half attr, form; 6266cf781b2eSEd Maste Dwarf_Bool is_info; 62672c23cb7cSEd Maste Dwarf_Error de; 62682c23cb7cSEd Maste struct loc_at *la, *nla; 62692c23cb7cSEd Maste int i, ret; 62702c23cb7cSEd Maste 6271cf781b2eSEd Maste is_info = dwarf_get_die_infotypes_flag(die); 6272cf781b2eSEd Maste 62732c23cb7cSEd Maste if ((ret = dwarf_attrlist(die, &attr_list, &attr_count, &de)) != 62742c23cb7cSEd Maste DW_DLV_OK) { 62752c23cb7cSEd Maste if (ret == DW_DLV_ERROR) 62762c23cb7cSEd Maste warnx("dwarf_attrlist failed: %s", dwarf_errmsg(de)); 62772c23cb7cSEd Maste goto cont_search; 62782c23cb7cSEd Maste } 62792c23cb7cSEd Maste for (i = 0; i < attr_count; i++) { 62802c23cb7cSEd Maste if (dwarf_whatattr(attr_list[i], &attr, &de) != DW_DLV_OK) { 62812c23cb7cSEd Maste warnx("dwarf_whatattr failed: %s", dwarf_errmsg(de)); 62822c23cb7cSEd Maste continue; 62832c23cb7cSEd Maste } 62842c23cb7cSEd Maste if (attr != DW_AT_location && 62852c23cb7cSEd Maste attr != DW_AT_string_length && 62862c23cb7cSEd Maste attr != DW_AT_return_addr && 62872c23cb7cSEd Maste attr != DW_AT_data_member_location && 62882c23cb7cSEd Maste attr != DW_AT_frame_base && 62892c23cb7cSEd Maste attr != DW_AT_segment && 62902c23cb7cSEd Maste attr != DW_AT_static_link && 62912c23cb7cSEd Maste attr != DW_AT_use_location && 62922c23cb7cSEd Maste attr != DW_AT_vtable_elem_location) 62932c23cb7cSEd Maste continue; 62942c23cb7cSEd Maste if (dwarf_whatform(attr_list[i], &form, &de) != DW_DLV_OK) { 62952c23cb7cSEd Maste warnx("dwarf_whatform failed: %s", dwarf_errmsg(de)); 62962c23cb7cSEd Maste continue; 62972c23cb7cSEd Maste } 6298cf781b2eSEd Maste if (form == DW_FORM_data4 || form == DW_FORM_data8) { 6299cf781b2eSEd Maste if (dwarf_formudata(attr_list[i], &off, &de) != 6300cf781b2eSEd Maste DW_DLV_OK) { 6301cf781b2eSEd Maste warnx("dwarf_formudata failed: %s", 6302cf781b2eSEd Maste dwarf_errmsg(de)); 63032c23cb7cSEd Maste continue; 63042c23cb7cSEd Maste } 6305cf781b2eSEd Maste } else if (form == DW_FORM_sec_offset) { 6306cf781b2eSEd Maste if (dwarf_global_formref(attr_list[i], &ref, &de) != 6307cf781b2eSEd Maste DW_DLV_OK) { 6308cf781b2eSEd Maste warnx("dwarf_global_formref failed: %s", 6309cf781b2eSEd Maste dwarf_errmsg(de)); 6310cf781b2eSEd Maste continue; 6311cf781b2eSEd Maste } 6312cf781b2eSEd Maste off = ref; 6313cf781b2eSEd Maste } else 6314cf781b2eSEd Maste continue; 6315cf781b2eSEd Maste 63162c23cb7cSEd Maste TAILQ_FOREACH(la, &lalist, la_next) { 63172c23cb7cSEd Maste if (off == la->la_off) 63182c23cb7cSEd Maste break; 63192c23cb7cSEd Maste if (off < la->la_off) { 63202c23cb7cSEd Maste if ((nla = malloc(sizeof(*nla))) == NULL) 63212c23cb7cSEd Maste err(EXIT_FAILURE, "malloc failed"); 63222c23cb7cSEd Maste nla->la_at = attr_list[i]; 63232c23cb7cSEd Maste nla->la_off = off; 63242c23cb7cSEd Maste nla->la_lowpc = lowpc; 6325cf781b2eSEd Maste nla->la_cu_psize = re->cu_psize; 6326cf781b2eSEd Maste nla->la_cu_osize = re->cu_osize; 6327cf781b2eSEd Maste nla->la_cu_ver = re->cu_ver; 63282c23cb7cSEd Maste TAILQ_INSERT_BEFORE(la, nla, la_next); 63292c23cb7cSEd Maste break; 63302c23cb7cSEd Maste } 63312c23cb7cSEd Maste } 63322c23cb7cSEd Maste if (la == NULL) { 63332c23cb7cSEd Maste if ((nla = malloc(sizeof(*nla))) == NULL) 63342c23cb7cSEd Maste err(EXIT_FAILURE, "malloc failed"); 63352c23cb7cSEd Maste nla->la_at = attr_list[i]; 63362c23cb7cSEd Maste nla->la_off = off; 63372c23cb7cSEd Maste nla->la_lowpc = lowpc; 6338cf781b2eSEd Maste nla->la_cu_psize = re->cu_psize; 6339cf781b2eSEd Maste nla->la_cu_osize = re->cu_osize; 6340cf781b2eSEd Maste nla->la_cu_ver = re->cu_ver; 63412c23cb7cSEd Maste TAILQ_INSERT_TAIL(&lalist, nla, la_next); 63422c23cb7cSEd Maste } 63432c23cb7cSEd Maste } 63442c23cb7cSEd Maste 63452c23cb7cSEd Maste cont_search: 63462c23cb7cSEd Maste /* Search children. */ 63472c23cb7cSEd Maste ret = dwarf_child(die, &ret_die, &de); 63482c23cb7cSEd Maste if (ret == DW_DLV_ERROR) 63492c23cb7cSEd Maste warnx("dwarf_child: %s", dwarf_errmsg(de)); 63502c23cb7cSEd Maste else if (ret == DW_DLV_OK) 63512c23cb7cSEd Maste search_loclist_at(re, ret_die, lowpc); 63522c23cb7cSEd Maste 63532c23cb7cSEd Maste /* Search sibling. */ 6354cf781b2eSEd Maste ret = dwarf_siblingof_b(re->dbg, die, &ret_die, is_info, &de); 63552c23cb7cSEd Maste if (ret == DW_DLV_ERROR) 63562c23cb7cSEd Maste warnx("dwarf_siblingof: %s", dwarf_errmsg(de)); 63572c23cb7cSEd Maste else if (ret == DW_DLV_OK) 63582c23cb7cSEd Maste search_loclist_at(re, ret_die, lowpc); 63592c23cb7cSEd Maste } 63602c23cb7cSEd Maste 63612c23cb7cSEd Maste static void 6362cf781b2eSEd Maste dump_dwarf_loc(struct readelf *re, Dwarf_Loc *lr) 63632c23cb7cSEd Maste { 63642c23cb7cSEd Maste const char *op_str; 6365cf781b2eSEd Maste char unk_op[32]; 6366cf781b2eSEd Maste uint8_t *b, n; 6367cf781b2eSEd Maste int i; 63682c23cb7cSEd Maste 63692c23cb7cSEd Maste if (dwarf_get_OP_name(lr->lr_atom, &op_str) != 63702c23cb7cSEd Maste DW_DLV_OK) { 6371cf781b2eSEd Maste snprintf(unk_op, sizeof(unk_op), 6372cf781b2eSEd Maste "[Unknown OP: %#x]", lr->lr_atom); 6373cf781b2eSEd Maste op_str = unk_op; 63742c23cb7cSEd Maste } 63752c23cb7cSEd Maste 63762c23cb7cSEd Maste printf("%s", op_str); 63772c23cb7cSEd Maste 63782c23cb7cSEd Maste switch (lr->lr_atom) { 63792c23cb7cSEd Maste case DW_OP_reg0: 63802c23cb7cSEd Maste case DW_OP_reg1: 63812c23cb7cSEd Maste case DW_OP_reg2: 63822c23cb7cSEd Maste case DW_OP_reg3: 63832c23cb7cSEd Maste case DW_OP_reg4: 63842c23cb7cSEd Maste case DW_OP_reg5: 63852c23cb7cSEd Maste case DW_OP_reg6: 63862c23cb7cSEd Maste case DW_OP_reg7: 63872c23cb7cSEd Maste case DW_OP_reg8: 63882c23cb7cSEd Maste case DW_OP_reg9: 63892c23cb7cSEd Maste case DW_OP_reg10: 63902c23cb7cSEd Maste case DW_OP_reg11: 63912c23cb7cSEd Maste case DW_OP_reg12: 63922c23cb7cSEd Maste case DW_OP_reg13: 63932c23cb7cSEd Maste case DW_OP_reg14: 63942c23cb7cSEd Maste case DW_OP_reg15: 63952c23cb7cSEd Maste case DW_OP_reg16: 63962c23cb7cSEd Maste case DW_OP_reg17: 63972c23cb7cSEd Maste case DW_OP_reg18: 63982c23cb7cSEd Maste case DW_OP_reg19: 63992c23cb7cSEd Maste case DW_OP_reg20: 64002c23cb7cSEd Maste case DW_OP_reg21: 64012c23cb7cSEd Maste case DW_OP_reg22: 64022c23cb7cSEd Maste case DW_OP_reg23: 64032c23cb7cSEd Maste case DW_OP_reg24: 64042c23cb7cSEd Maste case DW_OP_reg25: 64052c23cb7cSEd Maste case DW_OP_reg26: 64062c23cb7cSEd Maste case DW_OP_reg27: 64072c23cb7cSEd Maste case DW_OP_reg28: 64082c23cb7cSEd Maste case DW_OP_reg29: 64092c23cb7cSEd Maste case DW_OP_reg30: 64102c23cb7cSEd Maste case DW_OP_reg31: 6411cf781b2eSEd Maste printf(" (%s)", dwarf_regname(re, lr->lr_atom - DW_OP_reg0)); 6412cf781b2eSEd Maste break; 6413cf781b2eSEd Maste 6414cf781b2eSEd Maste case DW_OP_deref: 64152c23cb7cSEd Maste case DW_OP_lit0: 64162c23cb7cSEd Maste case DW_OP_lit1: 64172c23cb7cSEd Maste case DW_OP_lit2: 64182c23cb7cSEd Maste case DW_OP_lit3: 64192c23cb7cSEd Maste case DW_OP_lit4: 64202c23cb7cSEd Maste case DW_OP_lit5: 64212c23cb7cSEd Maste case DW_OP_lit6: 64222c23cb7cSEd Maste case DW_OP_lit7: 64232c23cb7cSEd Maste case DW_OP_lit8: 64242c23cb7cSEd Maste case DW_OP_lit9: 64252c23cb7cSEd Maste case DW_OP_lit10: 64262c23cb7cSEd Maste case DW_OP_lit11: 64272c23cb7cSEd Maste case DW_OP_lit12: 64282c23cb7cSEd Maste case DW_OP_lit13: 64292c23cb7cSEd Maste case DW_OP_lit14: 64302c23cb7cSEd Maste case DW_OP_lit15: 64312c23cb7cSEd Maste case DW_OP_lit16: 64322c23cb7cSEd Maste case DW_OP_lit17: 64332c23cb7cSEd Maste case DW_OP_lit18: 64342c23cb7cSEd Maste case DW_OP_lit19: 64352c23cb7cSEd Maste case DW_OP_lit20: 64362c23cb7cSEd Maste case DW_OP_lit21: 64372c23cb7cSEd Maste case DW_OP_lit22: 64382c23cb7cSEd Maste case DW_OP_lit23: 64392c23cb7cSEd Maste case DW_OP_lit24: 64402c23cb7cSEd Maste case DW_OP_lit25: 64412c23cb7cSEd Maste case DW_OP_lit26: 64422c23cb7cSEd Maste case DW_OP_lit27: 64432c23cb7cSEd Maste case DW_OP_lit28: 64442c23cb7cSEd Maste case DW_OP_lit29: 64452c23cb7cSEd Maste case DW_OP_lit30: 64462c23cb7cSEd Maste case DW_OP_lit31: 64472c23cb7cSEd Maste case DW_OP_dup: 64482c23cb7cSEd Maste case DW_OP_drop: 64492c23cb7cSEd Maste case DW_OP_over: 64502c23cb7cSEd Maste case DW_OP_swap: 64512c23cb7cSEd Maste case DW_OP_rot: 64522c23cb7cSEd Maste case DW_OP_xderef: 64532c23cb7cSEd Maste case DW_OP_abs: 64542c23cb7cSEd Maste case DW_OP_and: 64552c23cb7cSEd Maste case DW_OP_div: 64562c23cb7cSEd Maste case DW_OP_minus: 64572c23cb7cSEd Maste case DW_OP_mod: 64582c23cb7cSEd Maste case DW_OP_mul: 64592c23cb7cSEd Maste case DW_OP_neg: 64602c23cb7cSEd Maste case DW_OP_not: 64612c23cb7cSEd Maste case DW_OP_or: 64622c23cb7cSEd Maste case DW_OP_plus: 64632c23cb7cSEd Maste case DW_OP_shl: 64642c23cb7cSEd Maste case DW_OP_shr: 64652c23cb7cSEd Maste case DW_OP_shra: 64662c23cb7cSEd Maste case DW_OP_xor: 64672c23cb7cSEd Maste case DW_OP_eq: 64682c23cb7cSEd Maste case DW_OP_ge: 64692c23cb7cSEd Maste case DW_OP_gt: 64702c23cb7cSEd Maste case DW_OP_le: 64712c23cb7cSEd Maste case DW_OP_lt: 64722c23cb7cSEd Maste case DW_OP_ne: 64732c23cb7cSEd Maste case DW_OP_nop: 6474cf781b2eSEd Maste case DW_OP_push_object_address: 6475cf781b2eSEd Maste case DW_OP_form_tls_address: 6476cf781b2eSEd Maste case DW_OP_call_frame_cfa: 6477cf781b2eSEd Maste case DW_OP_stack_value: 6478cf781b2eSEd Maste case DW_OP_GNU_push_tls_address: 6479cf781b2eSEd Maste case DW_OP_GNU_uninit: 64802c23cb7cSEd Maste break; 64812c23cb7cSEd Maste 64822c23cb7cSEd Maste case DW_OP_const1u: 64832c23cb7cSEd Maste case DW_OP_pick: 64842c23cb7cSEd Maste case DW_OP_deref_size: 64852c23cb7cSEd Maste case DW_OP_xderef_size: 64862c23cb7cSEd Maste case DW_OP_const2u: 64872c23cb7cSEd Maste case DW_OP_bra: 64882c23cb7cSEd Maste case DW_OP_skip: 64892c23cb7cSEd Maste case DW_OP_const4u: 64902c23cb7cSEd Maste case DW_OP_const8u: 64912c23cb7cSEd Maste case DW_OP_constu: 64922c23cb7cSEd Maste case DW_OP_plus_uconst: 64932c23cb7cSEd Maste case DW_OP_regx: 64942c23cb7cSEd Maste case DW_OP_piece: 64952c23cb7cSEd Maste printf(": %ju", (uintmax_t) 64962c23cb7cSEd Maste lr->lr_number); 64972c23cb7cSEd Maste break; 64982c23cb7cSEd Maste 6499cf781b2eSEd Maste case DW_OP_const1s: 6500cf781b2eSEd Maste case DW_OP_const2s: 6501cf781b2eSEd Maste case DW_OP_const4s: 6502cf781b2eSEd Maste case DW_OP_const8s: 65032c23cb7cSEd Maste case DW_OP_consts: 6504cf781b2eSEd Maste printf(": %jd", (intmax_t) 6505cf781b2eSEd Maste lr->lr_number); 6506cf781b2eSEd Maste break; 6507cf781b2eSEd Maste 65082c23cb7cSEd Maste case DW_OP_breg0: 65092c23cb7cSEd Maste case DW_OP_breg1: 65102c23cb7cSEd Maste case DW_OP_breg2: 65112c23cb7cSEd Maste case DW_OP_breg3: 65122c23cb7cSEd Maste case DW_OP_breg4: 65132c23cb7cSEd Maste case DW_OP_breg5: 65142c23cb7cSEd Maste case DW_OP_breg6: 65152c23cb7cSEd Maste case DW_OP_breg7: 65162c23cb7cSEd Maste case DW_OP_breg8: 65172c23cb7cSEd Maste case DW_OP_breg9: 65182c23cb7cSEd Maste case DW_OP_breg10: 65192c23cb7cSEd Maste case DW_OP_breg11: 65202c23cb7cSEd Maste case DW_OP_breg12: 65212c23cb7cSEd Maste case DW_OP_breg13: 65222c23cb7cSEd Maste case DW_OP_breg14: 65232c23cb7cSEd Maste case DW_OP_breg15: 65242c23cb7cSEd Maste case DW_OP_breg16: 65252c23cb7cSEd Maste case DW_OP_breg17: 65262c23cb7cSEd Maste case DW_OP_breg18: 65272c23cb7cSEd Maste case DW_OP_breg19: 65282c23cb7cSEd Maste case DW_OP_breg20: 65292c23cb7cSEd Maste case DW_OP_breg21: 65302c23cb7cSEd Maste case DW_OP_breg22: 65312c23cb7cSEd Maste case DW_OP_breg23: 65322c23cb7cSEd Maste case DW_OP_breg24: 65332c23cb7cSEd Maste case DW_OP_breg25: 65342c23cb7cSEd Maste case DW_OP_breg26: 65352c23cb7cSEd Maste case DW_OP_breg27: 65362c23cb7cSEd Maste case DW_OP_breg28: 65372c23cb7cSEd Maste case DW_OP_breg29: 65382c23cb7cSEd Maste case DW_OP_breg30: 65392c23cb7cSEd Maste case DW_OP_breg31: 6540cf781b2eSEd Maste printf(" (%s): %jd", 6541cf781b2eSEd Maste dwarf_regname(re, lr->lr_atom - DW_OP_breg0), 6542cf781b2eSEd Maste (intmax_t) lr->lr_number); 6543cf781b2eSEd Maste break; 6544cf781b2eSEd Maste 65452c23cb7cSEd Maste case DW_OP_fbreg: 65462c23cb7cSEd Maste printf(": %jd", (intmax_t) 65472c23cb7cSEd Maste lr->lr_number); 65482c23cb7cSEd Maste break; 65492c23cb7cSEd Maste 65502c23cb7cSEd Maste case DW_OP_bregx: 6551cf781b2eSEd Maste printf(": %ju (%s) %jd", 65522c23cb7cSEd Maste (uintmax_t) lr->lr_number, 6553cf781b2eSEd Maste dwarf_regname(re, (unsigned int) lr->lr_number), 65542c23cb7cSEd Maste (intmax_t) lr->lr_number2); 65552c23cb7cSEd Maste break; 65562c23cb7cSEd Maste 65572c23cb7cSEd Maste case DW_OP_addr: 6558cf781b2eSEd Maste case DW_OP_GNU_encoded_addr: 65592c23cb7cSEd Maste printf(": %#jx", (uintmax_t) 65602c23cb7cSEd Maste lr->lr_number); 65612c23cb7cSEd Maste break; 6562cf781b2eSEd Maste 6563cf781b2eSEd Maste case DW_OP_GNU_implicit_pointer: 6564cf781b2eSEd Maste printf(": <0x%jx> %jd", (uintmax_t) lr->lr_number, 6565cf781b2eSEd Maste (intmax_t) lr->lr_number2); 6566cf781b2eSEd Maste break; 6567cf781b2eSEd Maste 6568cf781b2eSEd Maste case DW_OP_implicit_value: 6569cf781b2eSEd Maste printf(": %ju byte block:", (uintmax_t) lr->lr_number); 6570cf781b2eSEd Maste b = (uint8_t *)(uintptr_t) lr->lr_number2; 6571cf781b2eSEd Maste for (i = 0; (Dwarf_Unsigned) i < lr->lr_number; i++) 6572cf781b2eSEd Maste printf(" %x", b[i]); 6573cf781b2eSEd Maste break; 6574cf781b2eSEd Maste 6575cf781b2eSEd Maste case DW_OP_GNU_entry_value: 6576cf781b2eSEd Maste printf(": ("); 6577cf781b2eSEd Maste dump_dwarf_block(re, (uint8_t *)(uintptr_t) lr->lr_number2, 6578cf781b2eSEd Maste lr->lr_number); 6579cf781b2eSEd Maste putchar(')'); 6580cf781b2eSEd Maste break; 6581cf781b2eSEd Maste 6582cf781b2eSEd Maste case DW_OP_GNU_const_type: 6583cf781b2eSEd Maste printf(": <0x%jx> ", (uintmax_t) lr->lr_number); 6584cf781b2eSEd Maste b = (uint8_t *)(uintptr_t) lr->lr_number2; 6585cf781b2eSEd Maste n = *b; 6586cf781b2eSEd Maste for (i = 1; (uint8_t) i < n; i++) 6587cf781b2eSEd Maste printf(" %x", b[i]); 6588cf781b2eSEd Maste break; 6589cf781b2eSEd Maste 6590cf781b2eSEd Maste case DW_OP_GNU_regval_type: 6591cf781b2eSEd Maste printf(": %ju (%s) <0x%jx>", (uintmax_t) lr->lr_number, 6592cf781b2eSEd Maste dwarf_regname(re, (unsigned int) lr->lr_number), 6593cf781b2eSEd Maste (uintmax_t) lr->lr_number2); 6594cf781b2eSEd Maste break; 6595cf781b2eSEd Maste 6596cf781b2eSEd Maste case DW_OP_GNU_convert: 6597cf781b2eSEd Maste case DW_OP_GNU_deref_type: 6598cf781b2eSEd Maste case DW_OP_GNU_parameter_ref: 6599cf781b2eSEd Maste case DW_OP_GNU_reinterpret: 6600cf781b2eSEd Maste printf(": <0x%jx>", (uintmax_t) lr->lr_number); 6601cf781b2eSEd Maste break; 6602cf781b2eSEd Maste 6603cf781b2eSEd Maste default: 6604cf781b2eSEd Maste break; 66052c23cb7cSEd Maste } 6606cf781b2eSEd Maste } 6607cf781b2eSEd Maste 6608cf781b2eSEd Maste static void 6609cf781b2eSEd Maste dump_dwarf_block(struct readelf *re, uint8_t *b, Dwarf_Unsigned len) 6610cf781b2eSEd Maste { 6611cf781b2eSEd Maste Dwarf_Locdesc *llbuf; 6612cf781b2eSEd Maste Dwarf_Signed lcnt; 6613cf781b2eSEd Maste Dwarf_Error de; 6614cf781b2eSEd Maste int i; 6615cf781b2eSEd Maste 6616cf781b2eSEd Maste if (dwarf_loclist_from_expr_b(re->dbg, b, len, re->cu_psize, 6617cf781b2eSEd Maste re->cu_osize, re->cu_ver, &llbuf, &lcnt, &de) != DW_DLV_OK) { 6618cf781b2eSEd Maste warnx("dwarf_loclist_form_expr_b: %s", dwarf_errmsg(de)); 6619cf781b2eSEd Maste return; 6620cf781b2eSEd Maste } 6621cf781b2eSEd Maste 6622cf781b2eSEd Maste for (i = 0; (Dwarf_Half) i < llbuf->ld_cents; i++) { 6623cf781b2eSEd Maste dump_dwarf_loc(re, &llbuf->ld_s[i]); 6624cf781b2eSEd Maste if (i < llbuf->ld_cents - 1) 6625cf781b2eSEd Maste printf("; "); 6626cf781b2eSEd Maste } 6627cf781b2eSEd Maste 6628cf781b2eSEd Maste dwarf_dealloc(re->dbg, llbuf->ld_s, DW_DLA_LOC_BLOCK); 6629cf781b2eSEd Maste dwarf_dealloc(re->dbg, llbuf, DW_DLA_LOCDESC); 6630cf781b2eSEd Maste } 6631cf781b2eSEd Maste 6632cf781b2eSEd Maste static void 6633cf781b2eSEd Maste dump_dwarf_loclist(struct readelf *re) 6634cf781b2eSEd Maste { 6635cf781b2eSEd Maste Dwarf_Die die; 6636cf781b2eSEd Maste Dwarf_Locdesc **llbuf; 6637cf781b2eSEd Maste Dwarf_Unsigned lowpc; 6638cf781b2eSEd Maste Dwarf_Signed lcnt; 6639cf781b2eSEd Maste Dwarf_Half tag, version, pointer_size, off_size; 6640cf781b2eSEd Maste Dwarf_Error de; 6641cf781b2eSEd Maste struct loc_at *la; 6642cf781b2eSEd Maste int i, j, ret; 6643cf781b2eSEd Maste 6644cf781b2eSEd Maste printf("\nContents of section .debug_loc:\n"); 6645cf781b2eSEd Maste 6646cf781b2eSEd Maste /* Search .debug_info section. */ 6647cf781b2eSEd Maste while ((ret = dwarf_next_cu_header_b(re->dbg, NULL, &version, NULL, 6648cf781b2eSEd Maste &pointer_size, &off_size, NULL, NULL, &de)) == DW_DLV_OK) { 6649cf781b2eSEd Maste set_cu_context(re, pointer_size, off_size, version); 6650cf781b2eSEd Maste die = NULL; 6651cf781b2eSEd Maste if (dwarf_siblingof(re->dbg, die, &die, &de) != DW_DLV_OK) 6652cf781b2eSEd Maste continue; 6653cf781b2eSEd Maste if (dwarf_tag(die, &tag, &de) != DW_DLV_OK) { 6654cf781b2eSEd Maste warnx("dwarf_tag failed: %s", dwarf_errmsg(de)); 6655cf781b2eSEd Maste continue; 6656cf781b2eSEd Maste } 6657cf781b2eSEd Maste /* XXX: What about DW_TAG_partial_unit? */ 6658cf781b2eSEd Maste lowpc = 0; 6659cf781b2eSEd Maste if (tag == DW_TAG_compile_unit) { 6660cf781b2eSEd Maste if (dwarf_attrval_unsigned(die, DW_AT_low_pc, 6661cf781b2eSEd Maste &lowpc, &de) != DW_DLV_OK) 6662cf781b2eSEd Maste lowpc = 0; 6663cf781b2eSEd Maste } 6664cf781b2eSEd Maste 6665cf781b2eSEd Maste /* Search attributes for reference to .debug_loc section. */ 6666cf781b2eSEd Maste search_loclist_at(re, die, lowpc); 6667cf781b2eSEd Maste } 6668cf781b2eSEd Maste if (ret == DW_DLV_ERROR) 6669cf781b2eSEd Maste warnx("dwarf_next_cu_header: %s", dwarf_errmsg(de)); 6670cf781b2eSEd Maste 6671cf781b2eSEd Maste /* Search .debug_types section. */ 6672cf781b2eSEd Maste do { 6673cf781b2eSEd Maste while ((ret = dwarf_next_cu_header_c(re->dbg, 0, NULL, 6674cf781b2eSEd Maste &version, NULL, &pointer_size, &off_size, NULL, NULL, 6675cf781b2eSEd Maste NULL, NULL, &de)) == DW_DLV_OK) { 6676cf781b2eSEd Maste set_cu_context(re, pointer_size, off_size, version); 6677cf781b2eSEd Maste die = NULL; 6678cf781b2eSEd Maste if (dwarf_siblingof(re->dbg, die, &die, &de) != 6679cf781b2eSEd Maste DW_DLV_OK) 6680cf781b2eSEd Maste continue; 6681cf781b2eSEd Maste if (dwarf_tag(die, &tag, &de) != DW_DLV_OK) { 6682cf781b2eSEd Maste warnx("dwarf_tag failed: %s", 6683cf781b2eSEd Maste dwarf_errmsg(de)); 6684cf781b2eSEd Maste continue; 6685cf781b2eSEd Maste } 6686cf781b2eSEd Maste 6687cf781b2eSEd Maste lowpc = 0; 6688cf781b2eSEd Maste if (tag == DW_TAG_type_unit) { 6689cf781b2eSEd Maste if (dwarf_attrval_unsigned(die, DW_AT_low_pc, 6690cf781b2eSEd Maste &lowpc, &de) != DW_DLV_OK) 6691cf781b2eSEd Maste lowpc = 0; 6692cf781b2eSEd Maste } 6693cf781b2eSEd Maste 6694cf781b2eSEd Maste /* 6695cf781b2eSEd Maste * Search attributes for reference to .debug_loc 6696cf781b2eSEd Maste * section. 6697cf781b2eSEd Maste */ 6698cf781b2eSEd Maste search_loclist_at(re, die, lowpc); 6699cf781b2eSEd Maste } 6700cf781b2eSEd Maste if (ret == DW_DLV_ERROR) 6701cf781b2eSEd Maste warnx("dwarf_next_cu_header: %s", dwarf_errmsg(de)); 6702cf781b2eSEd Maste } while (dwarf_next_types_section(re->dbg, &de) == DW_DLV_OK); 6703cf781b2eSEd Maste 6704cf781b2eSEd Maste if (TAILQ_EMPTY(&lalist)) 6705cf781b2eSEd Maste return; 6706cf781b2eSEd Maste 6707cf781b2eSEd Maste printf(" Offset Begin End Expression\n"); 6708cf781b2eSEd Maste 6709cf781b2eSEd Maste TAILQ_FOREACH(la, &lalist, la_next) { 6710cf781b2eSEd Maste if (dwarf_loclist_n(la->la_at, &llbuf, &lcnt, &de) != 6711cf781b2eSEd Maste DW_DLV_OK) { 6712cf781b2eSEd Maste warnx("dwarf_loclist_n failed: %s", dwarf_errmsg(de)); 6713cf781b2eSEd Maste continue; 6714cf781b2eSEd Maste } 6715cf781b2eSEd Maste set_cu_context(re, la->la_cu_psize, la->la_cu_osize, 6716cf781b2eSEd Maste la->la_cu_ver); 6717cf781b2eSEd Maste for (i = 0; i < lcnt; i++) { 6718cf781b2eSEd Maste printf(" %8.8jx ", la->la_off); 6719cf781b2eSEd Maste if (llbuf[i]->ld_lopc == 0 && llbuf[i]->ld_hipc == 0) { 6720cf781b2eSEd Maste printf("<End of list>\n"); 6721cf781b2eSEd Maste continue; 6722cf781b2eSEd Maste } 6723cf781b2eSEd Maste 6724cf781b2eSEd Maste /* TODO: handle base selection entry. */ 6725cf781b2eSEd Maste 6726cf781b2eSEd Maste printf("%8.8jx %8.8jx ", 6727cf781b2eSEd Maste (uintmax_t) (la->la_lowpc + llbuf[i]->ld_lopc), 6728cf781b2eSEd Maste (uintmax_t) (la->la_lowpc + llbuf[i]->ld_hipc)); 6729cf781b2eSEd Maste 6730cf781b2eSEd Maste putchar('('); 6731cf781b2eSEd Maste for (j = 0; (Dwarf_Half) j < llbuf[i]->ld_cents; j++) { 6732cf781b2eSEd Maste dump_dwarf_loc(re, &llbuf[i]->ld_s[j]); 67332c23cb7cSEd Maste if (j < llbuf[i]->ld_cents - 1) 6734cf781b2eSEd Maste printf("; "); 67352c23cb7cSEd Maste } 67362c23cb7cSEd Maste putchar(')'); 67372c23cb7cSEd Maste 67382c23cb7cSEd Maste if (llbuf[i]->ld_lopc == llbuf[i]->ld_hipc) 67392c23cb7cSEd Maste printf(" (start == end)"); 67402c23cb7cSEd Maste putchar('\n'); 67412c23cb7cSEd Maste } 6742cf781b2eSEd Maste for (i = 0; i < lcnt; i++) { 6743cf781b2eSEd Maste dwarf_dealloc(re->dbg, llbuf[i]->ld_s, 6744cf781b2eSEd Maste DW_DLA_LOC_BLOCK); 6745cf781b2eSEd Maste dwarf_dealloc(re->dbg, llbuf[i], DW_DLA_LOCDESC); 6746cf781b2eSEd Maste } 6747cf781b2eSEd Maste dwarf_dealloc(re->dbg, llbuf, DW_DLA_LIST); 67482c23cb7cSEd Maste } 67492c23cb7cSEd Maste } 67502c23cb7cSEd Maste 67512c23cb7cSEd Maste /* 67522c23cb7cSEd Maste * Retrieve a string using string table section index and the string offset. 67532c23cb7cSEd Maste */ 67542c23cb7cSEd Maste static const char* 67552c23cb7cSEd Maste get_string(struct readelf *re, int strtab, size_t off) 67562c23cb7cSEd Maste { 67572c23cb7cSEd Maste const char *name; 67582c23cb7cSEd Maste 67592c23cb7cSEd Maste if ((name = elf_strptr(re->elf, strtab, off)) == NULL) 67602c23cb7cSEd Maste return (""); 67612c23cb7cSEd Maste 67622c23cb7cSEd Maste return (name); 67632c23cb7cSEd Maste } 67642c23cb7cSEd Maste 67652c23cb7cSEd Maste /* 67662c23cb7cSEd Maste * Retrieve the name of a symbol using the section index of the symbol 67672c23cb7cSEd Maste * table and the index of the symbol within that table. 67682c23cb7cSEd Maste */ 67692c23cb7cSEd Maste static const char * 67702c23cb7cSEd Maste get_symbol_name(struct readelf *re, int symtab, int i) 67712c23cb7cSEd Maste { 67722c23cb7cSEd Maste struct section *s; 67732c23cb7cSEd Maste const char *name; 67742c23cb7cSEd Maste GElf_Sym sym; 67752c23cb7cSEd Maste Elf_Data *data; 67762c23cb7cSEd Maste int elferr; 67772c23cb7cSEd Maste 67782c23cb7cSEd Maste s = &re->sl[symtab]; 67792c23cb7cSEd Maste if (s->type != SHT_SYMTAB && s->type != SHT_DYNSYM) 67802c23cb7cSEd Maste return (""); 67812c23cb7cSEd Maste (void) elf_errno(); 67822c23cb7cSEd Maste if ((data = elf_getdata(s->scn, NULL)) == NULL) { 67832c23cb7cSEd Maste elferr = elf_errno(); 67842c23cb7cSEd Maste if (elferr != 0) 67852c23cb7cSEd Maste warnx("elf_getdata failed: %s", elf_errmsg(elferr)); 67862c23cb7cSEd Maste return (""); 67872c23cb7cSEd Maste } 67882c23cb7cSEd Maste if (gelf_getsym(data, i, &sym) != &sym) 67892c23cb7cSEd Maste return (""); 67902c23cb7cSEd Maste /* Return section name for STT_SECTION symbol. */ 67912c23cb7cSEd Maste if (GELF_ST_TYPE(sym.st_info) == STT_SECTION && 67922c23cb7cSEd Maste re->sl[sym.st_shndx].name != NULL) 67932c23cb7cSEd Maste return (re->sl[sym.st_shndx].name); 6794656f49f8SEd Maste if (s->link >= re->shnum || 6795656f49f8SEd Maste (name = elf_strptr(re->elf, s->link, sym.st_name)) == NULL) 67962c23cb7cSEd Maste return (""); 67972c23cb7cSEd Maste 67982c23cb7cSEd Maste return (name); 67992c23cb7cSEd Maste } 68002c23cb7cSEd Maste 68012c23cb7cSEd Maste static uint64_t 68022c23cb7cSEd Maste get_symbol_value(struct readelf *re, int symtab, int i) 68032c23cb7cSEd Maste { 68042c23cb7cSEd Maste struct section *s; 68052c23cb7cSEd Maste GElf_Sym sym; 68062c23cb7cSEd Maste Elf_Data *data; 68072c23cb7cSEd Maste int elferr; 68082c23cb7cSEd Maste 68092c23cb7cSEd Maste s = &re->sl[symtab]; 68102c23cb7cSEd Maste if (s->type != SHT_SYMTAB && s->type != SHT_DYNSYM) 68112c23cb7cSEd Maste return (0); 68122c23cb7cSEd Maste (void) elf_errno(); 68132c23cb7cSEd Maste if ((data = elf_getdata(s->scn, NULL)) == NULL) { 68142c23cb7cSEd Maste elferr = elf_errno(); 68152c23cb7cSEd Maste if (elferr != 0) 68162c23cb7cSEd Maste warnx("elf_getdata failed: %s", elf_errmsg(elferr)); 68172c23cb7cSEd Maste return (0); 68182c23cb7cSEd Maste } 68192c23cb7cSEd Maste if (gelf_getsym(data, i, &sym) != &sym) 68202c23cb7cSEd Maste return (0); 68212c23cb7cSEd Maste 68222c23cb7cSEd Maste return (sym.st_value); 68232c23cb7cSEd Maste } 68242c23cb7cSEd Maste 68252c23cb7cSEd Maste static void 68262c23cb7cSEd Maste hex_dump(struct readelf *re) 68272c23cb7cSEd Maste { 68282c23cb7cSEd Maste struct section *s; 68292c23cb7cSEd Maste Elf_Data *d; 68302c23cb7cSEd Maste uint8_t *buf; 68312c23cb7cSEd Maste size_t sz, nbytes; 68322c23cb7cSEd Maste uint64_t addr; 68332c23cb7cSEd Maste int elferr, i, j; 68342c23cb7cSEd Maste 68352c23cb7cSEd Maste for (i = 1; (size_t) i < re->shnum; i++) { 68362c23cb7cSEd Maste s = &re->sl[i]; 68372c23cb7cSEd Maste if (find_dumpop(re, (size_t) i, s->name, HEX_DUMP, -1) == NULL) 68382c23cb7cSEd Maste continue; 68392c23cb7cSEd Maste (void) elf_errno(); 68402c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 68412c23cb7cSEd Maste elferr = elf_errno(); 68422c23cb7cSEd Maste if (elferr != 0) 68432c23cb7cSEd Maste warnx("elf_getdata failed: %s", 68442c23cb7cSEd Maste elf_errmsg(elferr)); 68452c23cb7cSEd Maste continue; 68462c23cb7cSEd Maste } 68472c23cb7cSEd Maste if (d->d_size <= 0 || d->d_buf == NULL) { 68482c23cb7cSEd Maste printf("\nSection '%s' has no data to dump.\n", 68492c23cb7cSEd Maste s->name); 68502c23cb7cSEd Maste continue; 68512c23cb7cSEd Maste } 68522c23cb7cSEd Maste buf = d->d_buf; 68532c23cb7cSEd Maste sz = d->d_size; 68542c23cb7cSEd Maste addr = s->addr; 68552c23cb7cSEd Maste printf("\nHex dump of section '%s':\n", s->name); 68562c23cb7cSEd Maste while (sz > 0) { 68572c23cb7cSEd Maste printf(" 0x%8.8jx ", (uintmax_t)addr); 68582c23cb7cSEd Maste nbytes = sz > 16? 16 : sz; 68592c23cb7cSEd Maste for (j = 0; j < 16; j++) { 68602c23cb7cSEd Maste if ((size_t)j < nbytes) 68612c23cb7cSEd Maste printf("%2.2x", buf[j]); 68622c23cb7cSEd Maste else 68632c23cb7cSEd Maste printf(" "); 68642c23cb7cSEd Maste if ((j & 3) == 3) 68652c23cb7cSEd Maste printf(" "); 68662c23cb7cSEd Maste } 68672c23cb7cSEd Maste for (j = 0; (size_t)j < nbytes; j++) { 68682c23cb7cSEd Maste if (isprint(buf[j])) 68692c23cb7cSEd Maste printf("%c", buf[j]); 68702c23cb7cSEd Maste else 68712c23cb7cSEd Maste printf("."); 68722c23cb7cSEd Maste } 68732c23cb7cSEd Maste printf("\n"); 68742c23cb7cSEd Maste buf += nbytes; 68752c23cb7cSEd Maste addr += nbytes; 68762c23cb7cSEd Maste sz -= nbytes; 68772c23cb7cSEd Maste } 68782c23cb7cSEd Maste } 68792c23cb7cSEd Maste } 68802c23cb7cSEd Maste 68812c23cb7cSEd Maste static void 68822c23cb7cSEd Maste str_dump(struct readelf *re) 68832c23cb7cSEd Maste { 68842c23cb7cSEd Maste struct section *s; 68852c23cb7cSEd Maste Elf_Data *d; 68862c23cb7cSEd Maste unsigned char *start, *end, *buf_end; 68872c23cb7cSEd Maste unsigned int len; 68882c23cb7cSEd Maste int i, j, elferr, found; 68892c23cb7cSEd Maste 68902c23cb7cSEd Maste for (i = 1; (size_t) i < re->shnum; i++) { 68912c23cb7cSEd Maste s = &re->sl[i]; 68922c23cb7cSEd Maste if (find_dumpop(re, (size_t) i, s->name, STR_DUMP, -1) == NULL) 68932c23cb7cSEd Maste continue; 68942c23cb7cSEd Maste (void) elf_errno(); 68952c23cb7cSEd Maste if ((d = elf_getdata(s->scn, NULL)) == NULL) { 68962c23cb7cSEd Maste elferr = elf_errno(); 68972c23cb7cSEd Maste if (elferr != 0) 68982c23cb7cSEd Maste warnx("elf_getdata failed: %s", 68992c23cb7cSEd Maste elf_errmsg(elferr)); 69002c23cb7cSEd Maste continue; 69012c23cb7cSEd Maste } 69022c23cb7cSEd Maste if (d->d_size <= 0 || d->d_buf == NULL) { 69032c23cb7cSEd Maste printf("\nSection '%s' has no data to dump.\n", 69042c23cb7cSEd Maste s->name); 69052c23cb7cSEd Maste continue; 69062c23cb7cSEd Maste } 69072c23cb7cSEd Maste buf_end = (unsigned char *) d->d_buf + d->d_size; 69082c23cb7cSEd Maste start = (unsigned char *) d->d_buf; 69092c23cb7cSEd Maste found = 0; 69102c23cb7cSEd Maste printf("\nString dump of section '%s':\n", s->name); 69112c23cb7cSEd Maste for (;;) { 69122c23cb7cSEd Maste while (start < buf_end && !isprint(*start)) 69132c23cb7cSEd Maste start++; 69142c23cb7cSEd Maste if (start >= buf_end) 69152c23cb7cSEd Maste break; 69162c23cb7cSEd Maste end = start + 1; 69172c23cb7cSEd Maste while (end < buf_end && isprint(*end)) 69182c23cb7cSEd Maste end++; 69192c23cb7cSEd Maste printf(" [%6lx] ", 69202c23cb7cSEd Maste (long) (start - (unsigned char *) d->d_buf)); 69212c23cb7cSEd Maste len = end - start; 69222c23cb7cSEd Maste for (j = 0; (unsigned int) j < len; j++) 69232c23cb7cSEd Maste putchar(start[j]); 69242c23cb7cSEd Maste putchar('\n'); 69252c23cb7cSEd Maste found = 1; 69262c23cb7cSEd Maste if (end >= buf_end) 69272c23cb7cSEd Maste break; 69282c23cb7cSEd Maste start = end + 1; 69292c23cb7cSEd Maste } 69302c23cb7cSEd Maste if (!found) 69312c23cb7cSEd Maste printf(" No strings found in this section."); 69322c23cb7cSEd Maste putchar('\n'); 69332c23cb7cSEd Maste } 69342c23cb7cSEd Maste } 69352c23cb7cSEd Maste 69362c23cb7cSEd Maste static void 69372c23cb7cSEd Maste load_sections(struct readelf *re) 69382c23cb7cSEd Maste { 69392c23cb7cSEd Maste struct section *s; 69402c23cb7cSEd Maste const char *name; 69412c23cb7cSEd Maste Elf_Scn *scn; 69422c23cb7cSEd Maste GElf_Shdr sh; 69432c23cb7cSEd Maste size_t shstrndx, ndx; 69442c23cb7cSEd Maste int elferr; 69452c23cb7cSEd Maste 69462c23cb7cSEd Maste /* Allocate storage for internal section list. */ 69472c23cb7cSEd Maste if (!elf_getshnum(re->elf, &re->shnum)) { 69482c23cb7cSEd Maste warnx("elf_getshnum failed: %s", elf_errmsg(-1)); 69492c23cb7cSEd Maste return; 69502c23cb7cSEd Maste } 69512c23cb7cSEd Maste if (re->sl != NULL) 69522c23cb7cSEd Maste free(re->sl); 69532c23cb7cSEd Maste if ((re->sl = calloc(re->shnum, sizeof(*re->sl))) == NULL) 69542c23cb7cSEd Maste err(EXIT_FAILURE, "calloc failed"); 69552c23cb7cSEd Maste 69562c23cb7cSEd Maste /* Get the index of .shstrtab section. */ 69572c23cb7cSEd Maste if (!elf_getshstrndx(re->elf, &shstrndx)) { 69582c23cb7cSEd Maste warnx("elf_getshstrndx failed: %s", elf_errmsg(-1)); 69592c23cb7cSEd Maste return; 69602c23cb7cSEd Maste } 69612c23cb7cSEd Maste 696271a0c925SEd Maste if ((scn = elf_getscn(re->elf, 0)) == NULL) 69632c23cb7cSEd Maste return; 69642c23cb7cSEd Maste 69652c23cb7cSEd Maste (void) elf_errno(); 69662c23cb7cSEd Maste do { 69672c23cb7cSEd Maste if (gelf_getshdr(scn, &sh) == NULL) { 69682c23cb7cSEd Maste warnx("gelf_getshdr failed: %s", elf_errmsg(-1)); 69692c23cb7cSEd Maste (void) elf_errno(); 69702c23cb7cSEd Maste continue; 69712c23cb7cSEd Maste } 69722c23cb7cSEd Maste if ((name = elf_strptr(re->elf, shstrndx, sh.sh_name)) == NULL) { 69732c23cb7cSEd Maste (void) elf_errno(); 69742c23cb7cSEd Maste name = "ERROR"; 69752c23cb7cSEd Maste } 69762c23cb7cSEd Maste if ((ndx = elf_ndxscn(scn)) == SHN_UNDEF) { 69772c23cb7cSEd Maste if ((elferr = elf_errno()) != 0) 69782c23cb7cSEd Maste warnx("elf_ndxscn failed: %s", 69792c23cb7cSEd Maste elf_errmsg(elferr)); 69802c23cb7cSEd Maste continue; 69812c23cb7cSEd Maste } 69822c23cb7cSEd Maste if (ndx >= re->shnum) { 69832c23cb7cSEd Maste warnx("section index of '%s' out of range", name); 69842c23cb7cSEd Maste continue; 69852c23cb7cSEd Maste } 6986656f49f8SEd Maste if (sh.sh_link >= re->shnum) 6987656f49f8SEd Maste warnx("section link %llu of '%s' out of range", 6988656f49f8SEd Maste (unsigned long long)sh.sh_link, name); 69892c23cb7cSEd Maste s = &re->sl[ndx]; 69902c23cb7cSEd Maste s->name = name; 69912c23cb7cSEd Maste s->scn = scn; 69922c23cb7cSEd Maste s->off = sh.sh_offset; 69932c23cb7cSEd Maste s->sz = sh.sh_size; 69942c23cb7cSEd Maste s->entsize = sh.sh_entsize; 69952c23cb7cSEd Maste s->align = sh.sh_addralign; 69962c23cb7cSEd Maste s->type = sh.sh_type; 69972c23cb7cSEd Maste s->flags = sh.sh_flags; 69982c23cb7cSEd Maste s->addr = sh.sh_addr; 69992c23cb7cSEd Maste s->link = sh.sh_link; 70002c23cb7cSEd Maste s->info = sh.sh_info; 70012c23cb7cSEd Maste } while ((scn = elf_nextscn(re->elf, scn)) != NULL); 70022c23cb7cSEd Maste elferr = elf_errno(); 70032c23cb7cSEd Maste if (elferr != 0) 70042c23cb7cSEd Maste warnx("elf_nextscn failed: %s", elf_errmsg(elferr)); 70052c23cb7cSEd Maste } 70062c23cb7cSEd Maste 70072c23cb7cSEd Maste static void 70082c23cb7cSEd Maste unload_sections(struct readelf *re) 70092c23cb7cSEd Maste { 70102c23cb7cSEd Maste 70112c23cb7cSEd Maste if (re->sl != NULL) { 70122c23cb7cSEd Maste free(re->sl); 70132c23cb7cSEd Maste re->sl = NULL; 70142c23cb7cSEd Maste } 70152c23cb7cSEd Maste re->shnum = 0; 70162c23cb7cSEd Maste re->vd_s = NULL; 70172c23cb7cSEd Maste re->vn_s = NULL; 70182c23cb7cSEd Maste re->vs_s = NULL; 70192c23cb7cSEd Maste re->vs = NULL; 70202c23cb7cSEd Maste re->vs_sz = 0; 70212c23cb7cSEd Maste if (re->ver != NULL) { 70222c23cb7cSEd Maste free(re->ver); 70232c23cb7cSEd Maste re->ver = NULL; 70242c23cb7cSEd Maste re->ver_sz = 0; 70252c23cb7cSEd Maste } 70262c23cb7cSEd Maste } 70272c23cb7cSEd Maste 70282c23cb7cSEd Maste static void 70292c23cb7cSEd Maste dump_elf(struct readelf *re) 70302c23cb7cSEd Maste { 70312c23cb7cSEd Maste 70322c23cb7cSEd Maste /* Fetch ELF header. No need to continue if it fails. */ 70332c23cb7cSEd Maste if (gelf_getehdr(re->elf, &re->ehdr) == NULL) { 70342c23cb7cSEd Maste warnx("gelf_getehdr failed: %s", elf_errmsg(-1)); 70352c23cb7cSEd Maste return; 70362c23cb7cSEd Maste } 70372c23cb7cSEd Maste if ((re->ec = gelf_getclass(re->elf)) == ELFCLASSNONE) { 70382c23cb7cSEd Maste warnx("gelf_getclass failed: %s", elf_errmsg(-1)); 70392c23cb7cSEd Maste return; 70402c23cb7cSEd Maste } 70412c23cb7cSEd Maste if (re->ehdr.e_ident[EI_DATA] == ELFDATA2MSB) { 70422c23cb7cSEd Maste re->dw_read = _read_msb; 70432c23cb7cSEd Maste re->dw_decode = _decode_msb; 70442c23cb7cSEd Maste } else { 70452c23cb7cSEd Maste re->dw_read = _read_lsb; 70462c23cb7cSEd Maste re->dw_decode = _decode_lsb; 70472c23cb7cSEd Maste } 70482c23cb7cSEd Maste 70492c23cb7cSEd Maste if (re->options & ~RE_H) 70502c23cb7cSEd Maste load_sections(re); 70512c23cb7cSEd Maste if ((re->options & RE_VV) || (re->options & RE_S)) 70522c23cb7cSEd Maste search_ver(re); 70532c23cb7cSEd Maste if (re->options & RE_H) 70542c23cb7cSEd Maste dump_ehdr(re); 70552c23cb7cSEd Maste if (re->options & RE_L) 70562c23cb7cSEd Maste dump_phdr(re); 70572c23cb7cSEd Maste if (re->options & RE_SS) 70582c23cb7cSEd Maste dump_shdr(re); 70593ef90571SEd Maste if (re->options & RE_G) 70603ef90571SEd Maste dump_section_groups(re); 70612c23cb7cSEd Maste if (re->options & RE_D) 70622c23cb7cSEd Maste dump_dynamic(re); 70632c23cb7cSEd Maste if (re->options & RE_R) 70642c23cb7cSEd Maste dump_reloc(re); 70652c23cb7cSEd Maste if (re->options & RE_S) 70662c23cb7cSEd Maste dump_symtabs(re); 70672c23cb7cSEd Maste if (re->options & RE_N) 70682c23cb7cSEd Maste dump_notes(re); 70692c23cb7cSEd Maste if (re->options & RE_II) 70702c23cb7cSEd Maste dump_hash(re); 70712c23cb7cSEd Maste if (re->options & RE_X) 70722c23cb7cSEd Maste hex_dump(re); 70732c23cb7cSEd Maste if (re->options & RE_P) 70742c23cb7cSEd Maste str_dump(re); 70752c23cb7cSEd Maste if (re->options & RE_VV) 70762c23cb7cSEd Maste dump_ver(re); 70772c23cb7cSEd Maste if (re->options & RE_AA) 70782c23cb7cSEd Maste dump_arch_specific_info(re); 70792c23cb7cSEd Maste if (re->options & RE_W) 70802c23cb7cSEd Maste dump_dwarf(re); 70812c23cb7cSEd Maste if (re->options & ~RE_H) 70822c23cb7cSEd Maste unload_sections(re); 70832c23cb7cSEd Maste } 70842c23cb7cSEd Maste 70852c23cb7cSEd Maste static void 70862c23cb7cSEd Maste dump_dwarf(struct readelf *re) 70872c23cb7cSEd Maste { 70882c23cb7cSEd Maste int error; 70892c23cb7cSEd Maste Dwarf_Error de; 70902c23cb7cSEd Maste 70912c23cb7cSEd Maste if (dwarf_elf_init(re->elf, DW_DLC_READ, NULL, NULL, &re->dbg, &de)) { 70922c23cb7cSEd Maste if ((error = dwarf_errno(de)) != DW_DLE_DEBUG_INFO_NULL) 70932c23cb7cSEd Maste errx(EXIT_FAILURE, "dwarf_elf_init failed: %s", 70942c23cb7cSEd Maste dwarf_errmsg(de)); 70952c23cb7cSEd Maste return; 70962c23cb7cSEd Maste } 70972c23cb7cSEd Maste 70982c23cb7cSEd Maste if (re->dop & DW_A) 70992c23cb7cSEd Maste dump_dwarf_abbrev(re); 71002c23cb7cSEd Maste if (re->dop & DW_L) 71012c23cb7cSEd Maste dump_dwarf_line(re); 71022c23cb7cSEd Maste if (re->dop & DW_LL) 71032c23cb7cSEd Maste dump_dwarf_line_decoded(re); 7104cf781b2eSEd Maste if (re->dop & DW_I) { 7105cf781b2eSEd Maste dump_dwarf_info(re, 0); 7106cf781b2eSEd Maste dump_dwarf_info(re, 1); 7107cf781b2eSEd Maste } 71082c23cb7cSEd Maste if (re->dop & DW_P) 71092c23cb7cSEd Maste dump_dwarf_pubnames(re); 71102c23cb7cSEd Maste if (re->dop & DW_R) 71112c23cb7cSEd Maste dump_dwarf_aranges(re); 71122c23cb7cSEd Maste if (re->dop & DW_RR) 71132c23cb7cSEd Maste dump_dwarf_ranges(re); 71142c23cb7cSEd Maste if (re->dop & DW_M) 71152c23cb7cSEd Maste dump_dwarf_macinfo(re); 71162c23cb7cSEd Maste if (re->dop & DW_F) 71172c23cb7cSEd Maste dump_dwarf_frame(re, 0); 71182c23cb7cSEd Maste else if (re->dop & DW_FF) 71192c23cb7cSEd Maste dump_dwarf_frame(re, 1); 71202c23cb7cSEd Maste if (re->dop & DW_S) 71212c23cb7cSEd Maste dump_dwarf_str(re); 71222c23cb7cSEd Maste if (re->dop & DW_O) 71232c23cb7cSEd Maste dump_dwarf_loclist(re); 71242c23cb7cSEd Maste 71252c23cb7cSEd Maste dwarf_finish(re->dbg, &de); 71262c23cb7cSEd Maste } 71272c23cb7cSEd Maste 71282c23cb7cSEd Maste static void 71292c23cb7cSEd Maste dump_ar(struct readelf *re, int fd) 71302c23cb7cSEd Maste { 71312c23cb7cSEd Maste Elf_Arsym *arsym; 71322c23cb7cSEd Maste Elf_Arhdr *arhdr; 71332c23cb7cSEd Maste Elf_Cmd cmd; 71342c23cb7cSEd Maste Elf *e; 71352c23cb7cSEd Maste size_t sz; 71362c23cb7cSEd Maste off_t off; 71372c23cb7cSEd Maste int i; 71382c23cb7cSEd Maste 71392c23cb7cSEd Maste re->ar = re->elf; 71402c23cb7cSEd Maste 71412c23cb7cSEd Maste if (re->options & RE_C) { 71422c23cb7cSEd Maste if ((arsym = elf_getarsym(re->ar, &sz)) == NULL) { 71432c23cb7cSEd Maste warnx("elf_getarsym() failed: %s", elf_errmsg(-1)); 71442c23cb7cSEd Maste goto process_members; 71452c23cb7cSEd Maste } 71462c23cb7cSEd Maste printf("Index of archive %s: (%ju entries)\n", re->filename, 71472c23cb7cSEd Maste (uintmax_t) sz - 1); 71482c23cb7cSEd Maste off = 0; 71492c23cb7cSEd Maste for (i = 0; (size_t) i < sz; i++) { 71502c23cb7cSEd Maste if (arsym[i].as_name == NULL) 71512c23cb7cSEd Maste break; 71522c23cb7cSEd Maste if (arsym[i].as_off != off) { 71532c23cb7cSEd Maste off = arsym[i].as_off; 71542c23cb7cSEd Maste if (elf_rand(re->ar, off) != off) { 71552c23cb7cSEd Maste warnx("elf_rand() failed: %s", 71562c23cb7cSEd Maste elf_errmsg(-1)); 71572c23cb7cSEd Maste continue; 71582c23cb7cSEd Maste } 71592c23cb7cSEd Maste if ((e = elf_begin(fd, ELF_C_READ, re->ar)) == 71602c23cb7cSEd Maste NULL) { 71612c23cb7cSEd Maste warnx("elf_begin() failed: %s", 71622c23cb7cSEd Maste elf_errmsg(-1)); 71632c23cb7cSEd Maste continue; 71642c23cb7cSEd Maste } 71652c23cb7cSEd Maste if ((arhdr = elf_getarhdr(e)) == NULL) { 71662c23cb7cSEd Maste warnx("elf_getarhdr() failed: %s", 71672c23cb7cSEd Maste elf_errmsg(-1)); 71682c23cb7cSEd Maste elf_end(e); 71692c23cb7cSEd Maste continue; 71702c23cb7cSEd Maste } 71712c23cb7cSEd Maste printf("Binary %s(%s) contains:\n", 71722c23cb7cSEd Maste re->filename, arhdr->ar_name); 71732c23cb7cSEd Maste } 71742c23cb7cSEd Maste printf("\t%s\n", arsym[i].as_name); 71752c23cb7cSEd Maste } 71762c23cb7cSEd Maste if (elf_rand(re->ar, SARMAG) != SARMAG) { 71772c23cb7cSEd Maste warnx("elf_rand() failed: %s", elf_errmsg(-1)); 71782c23cb7cSEd Maste return; 71792c23cb7cSEd Maste } 71802c23cb7cSEd Maste } 71812c23cb7cSEd Maste 71822c23cb7cSEd Maste process_members: 71832c23cb7cSEd Maste 71842c23cb7cSEd Maste if ((re->options & ~RE_C) == 0) 71852c23cb7cSEd Maste return; 71862c23cb7cSEd Maste 71872c23cb7cSEd Maste cmd = ELF_C_READ; 71882c23cb7cSEd Maste while ((re->elf = elf_begin(fd, cmd, re->ar)) != NULL) { 71892c23cb7cSEd Maste if ((arhdr = elf_getarhdr(re->elf)) == NULL) { 71902c23cb7cSEd Maste warnx("elf_getarhdr() failed: %s", elf_errmsg(-1)); 71912c23cb7cSEd Maste goto next_member; 71922c23cb7cSEd Maste } 71932c23cb7cSEd Maste if (strcmp(arhdr->ar_name, "/") == 0 || 71942c23cb7cSEd Maste strcmp(arhdr->ar_name, "//") == 0 || 71952c23cb7cSEd Maste strcmp(arhdr->ar_name, "__.SYMDEF") == 0) 71962c23cb7cSEd Maste goto next_member; 71972c23cb7cSEd Maste printf("\nFile: %s(%s)\n", re->filename, arhdr->ar_name); 71982c23cb7cSEd Maste dump_elf(re); 71992c23cb7cSEd Maste 72002c23cb7cSEd Maste next_member: 72012c23cb7cSEd Maste cmd = elf_next(re->elf); 72022c23cb7cSEd Maste elf_end(re->elf); 72032c23cb7cSEd Maste } 72042c23cb7cSEd Maste re->elf = re->ar; 72052c23cb7cSEd Maste } 72062c23cb7cSEd Maste 72072c23cb7cSEd Maste static void 72082c23cb7cSEd Maste dump_object(struct readelf *re) 72092c23cb7cSEd Maste { 72102c23cb7cSEd Maste int fd; 72112c23cb7cSEd Maste 72122c23cb7cSEd Maste if ((fd = open(re->filename, O_RDONLY)) == -1) { 72132c23cb7cSEd Maste warn("open %s failed", re->filename); 72142c23cb7cSEd Maste return; 72152c23cb7cSEd Maste } 72162c23cb7cSEd Maste 72172c23cb7cSEd Maste if ((re->flags & DISPLAY_FILENAME) != 0) 72182c23cb7cSEd Maste printf("\nFile: %s\n", re->filename); 72192c23cb7cSEd Maste 72202c23cb7cSEd Maste if ((re->elf = elf_begin(fd, ELF_C_READ, NULL)) == NULL) { 72212c23cb7cSEd Maste warnx("elf_begin() failed: %s", elf_errmsg(-1)); 72222c23cb7cSEd Maste return; 72232c23cb7cSEd Maste } 72242c23cb7cSEd Maste 72252c23cb7cSEd Maste switch (elf_kind(re->elf)) { 72262c23cb7cSEd Maste case ELF_K_NONE: 72272c23cb7cSEd Maste warnx("Not an ELF file."); 72282c23cb7cSEd Maste return; 72292c23cb7cSEd Maste case ELF_K_ELF: 72302c23cb7cSEd Maste dump_elf(re); 72312c23cb7cSEd Maste break; 72322c23cb7cSEd Maste case ELF_K_AR: 72332c23cb7cSEd Maste dump_ar(re, fd); 72342c23cb7cSEd Maste break; 72352c23cb7cSEd Maste default: 72362c23cb7cSEd Maste warnx("Internal: libelf returned unknown elf kind."); 72372c23cb7cSEd Maste return; 72382c23cb7cSEd Maste } 72392c23cb7cSEd Maste 72402c23cb7cSEd Maste elf_end(re->elf); 72412c23cb7cSEd Maste } 72422c23cb7cSEd Maste 72432c23cb7cSEd Maste static void 72442c23cb7cSEd Maste add_dumpop(struct readelf *re, size_t si, const char *sn, int op, int t) 72452c23cb7cSEd Maste { 72462c23cb7cSEd Maste struct dumpop *d; 72472c23cb7cSEd Maste 72482c23cb7cSEd Maste if ((d = find_dumpop(re, si, sn, -1, t)) == NULL) { 72492c23cb7cSEd Maste if ((d = calloc(1, sizeof(*d))) == NULL) 72502c23cb7cSEd Maste err(EXIT_FAILURE, "calloc failed"); 72512c23cb7cSEd Maste if (t == DUMP_BY_INDEX) 72522c23cb7cSEd Maste d->u.si = si; 72532c23cb7cSEd Maste else 72542c23cb7cSEd Maste d->u.sn = sn; 72552c23cb7cSEd Maste d->type = t; 72562c23cb7cSEd Maste d->op = op; 72572c23cb7cSEd Maste STAILQ_INSERT_TAIL(&re->v_dumpop, d, dumpop_list); 72582c23cb7cSEd Maste } else 72592c23cb7cSEd Maste d->op |= op; 72602c23cb7cSEd Maste } 72612c23cb7cSEd Maste 72622c23cb7cSEd Maste static struct dumpop * 72632c23cb7cSEd Maste find_dumpop(struct readelf *re, size_t si, const char *sn, int op, int t) 72642c23cb7cSEd Maste { 72652c23cb7cSEd Maste struct dumpop *d; 72662c23cb7cSEd Maste 72672c23cb7cSEd Maste STAILQ_FOREACH(d, &re->v_dumpop, dumpop_list) { 72682c23cb7cSEd Maste if ((op == -1 || op & d->op) && 72692c23cb7cSEd Maste (t == -1 || (unsigned) t == d->type)) { 72702c23cb7cSEd Maste if ((d->type == DUMP_BY_INDEX && d->u.si == si) || 72712c23cb7cSEd Maste (d->type == DUMP_BY_NAME && !strcmp(d->u.sn, sn))) 72722c23cb7cSEd Maste return (d); 72732c23cb7cSEd Maste } 72742c23cb7cSEd Maste } 72752c23cb7cSEd Maste 72762c23cb7cSEd Maste return (NULL); 72772c23cb7cSEd Maste } 72782c23cb7cSEd Maste 72792c23cb7cSEd Maste static struct { 72802c23cb7cSEd Maste const char *ln; 72812c23cb7cSEd Maste char sn; 72822c23cb7cSEd Maste int value; 72832c23cb7cSEd Maste } dwarf_op[] = { 72842c23cb7cSEd Maste {"rawline", 'l', DW_L}, 72852c23cb7cSEd Maste {"decodedline", 'L', DW_LL}, 72862c23cb7cSEd Maste {"info", 'i', DW_I}, 72872c23cb7cSEd Maste {"abbrev", 'a', DW_A}, 72882c23cb7cSEd Maste {"pubnames", 'p', DW_P}, 72892c23cb7cSEd Maste {"aranges", 'r', DW_R}, 72902c23cb7cSEd Maste {"ranges", 'r', DW_R}, 72912c23cb7cSEd Maste {"Ranges", 'R', DW_RR}, 72922c23cb7cSEd Maste {"macro", 'm', DW_M}, 72932c23cb7cSEd Maste {"frames", 'f', DW_F}, 7294cf781b2eSEd Maste {"frames-interp", 'F', DW_FF}, 72952c23cb7cSEd Maste {"str", 's', DW_S}, 72962c23cb7cSEd Maste {"loc", 'o', DW_O}, 72972c23cb7cSEd Maste {NULL, 0, 0} 72982c23cb7cSEd Maste }; 72992c23cb7cSEd Maste 73002c23cb7cSEd Maste static void 73012c23cb7cSEd Maste parse_dwarf_op_short(struct readelf *re, const char *op) 73022c23cb7cSEd Maste { 73032c23cb7cSEd Maste int i; 73042c23cb7cSEd Maste 73052c23cb7cSEd Maste if (op == NULL) { 73062c23cb7cSEd Maste re->dop |= DW_DEFAULT_OPTIONS; 73072c23cb7cSEd Maste return; 73082c23cb7cSEd Maste } 73092c23cb7cSEd Maste 73102c23cb7cSEd Maste for (; *op != '\0'; op++) { 73112c23cb7cSEd Maste for (i = 0; dwarf_op[i].ln != NULL; i++) { 73122c23cb7cSEd Maste if (dwarf_op[i].sn == *op) { 73132c23cb7cSEd Maste re->dop |= dwarf_op[i].value; 73142c23cb7cSEd Maste break; 73152c23cb7cSEd Maste } 73162c23cb7cSEd Maste } 73172c23cb7cSEd Maste } 73182c23cb7cSEd Maste } 73192c23cb7cSEd Maste 73202c23cb7cSEd Maste static void 73212c23cb7cSEd Maste parse_dwarf_op_long(struct readelf *re, const char *op) 73222c23cb7cSEd Maste { 73232c23cb7cSEd Maste char *p, *token, *bp; 73242c23cb7cSEd Maste int i; 73252c23cb7cSEd Maste 73262c23cb7cSEd Maste if (op == NULL) { 73272c23cb7cSEd Maste re->dop |= DW_DEFAULT_OPTIONS; 73282c23cb7cSEd Maste return; 73292c23cb7cSEd Maste } 73302c23cb7cSEd Maste 73312c23cb7cSEd Maste if ((p = strdup(op)) == NULL) 73322c23cb7cSEd Maste err(EXIT_FAILURE, "strdup failed"); 73332c23cb7cSEd Maste bp = p; 73342c23cb7cSEd Maste 73352c23cb7cSEd Maste while ((token = strsep(&p, ",")) != NULL) { 73362c23cb7cSEd Maste for (i = 0; dwarf_op[i].ln != NULL; i++) { 73372c23cb7cSEd Maste if (!strcmp(token, dwarf_op[i].ln)) { 73382c23cb7cSEd Maste re->dop |= dwarf_op[i].value; 73392c23cb7cSEd Maste break; 73402c23cb7cSEd Maste } 73412c23cb7cSEd Maste } 73422c23cb7cSEd Maste } 73432c23cb7cSEd Maste 73442c23cb7cSEd Maste free(bp); 73452c23cb7cSEd Maste } 73462c23cb7cSEd Maste 73472c23cb7cSEd Maste static uint64_t 73482c23cb7cSEd Maste _read_lsb(Elf_Data *d, uint64_t *offsetp, int bytes_to_read) 73492c23cb7cSEd Maste { 73502c23cb7cSEd Maste uint64_t ret; 73512c23cb7cSEd Maste uint8_t *src; 73522c23cb7cSEd Maste 73532c23cb7cSEd Maste src = (uint8_t *) d->d_buf + *offsetp; 73542c23cb7cSEd Maste 73552c23cb7cSEd Maste ret = 0; 73562c23cb7cSEd Maste switch (bytes_to_read) { 73572c23cb7cSEd Maste case 8: 73582c23cb7cSEd Maste ret |= ((uint64_t) src[4]) << 32 | ((uint64_t) src[5]) << 40; 73592c23cb7cSEd Maste ret |= ((uint64_t) src[6]) << 48 | ((uint64_t) src[7]) << 56; 73602c23cb7cSEd Maste case 4: 73612c23cb7cSEd Maste ret |= ((uint64_t) src[2]) << 16 | ((uint64_t) src[3]) << 24; 73622c23cb7cSEd Maste case 2: 73632c23cb7cSEd Maste ret |= ((uint64_t) src[1]) << 8; 73642c23cb7cSEd Maste case 1: 73652c23cb7cSEd Maste ret |= src[0]; 73662c23cb7cSEd Maste break; 73672c23cb7cSEd Maste default: 73682c23cb7cSEd Maste return (0); 73692c23cb7cSEd Maste } 73702c23cb7cSEd Maste 73712c23cb7cSEd Maste *offsetp += bytes_to_read; 73722c23cb7cSEd Maste 73732c23cb7cSEd Maste return (ret); 73742c23cb7cSEd Maste } 73752c23cb7cSEd Maste 73762c23cb7cSEd Maste static uint64_t 73772c23cb7cSEd Maste _read_msb(Elf_Data *d, uint64_t *offsetp, int bytes_to_read) 73782c23cb7cSEd Maste { 73792c23cb7cSEd Maste uint64_t ret; 73802c23cb7cSEd Maste uint8_t *src; 73812c23cb7cSEd Maste 73822c23cb7cSEd Maste src = (uint8_t *) d->d_buf + *offsetp; 73832c23cb7cSEd Maste 73842c23cb7cSEd Maste switch (bytes_to_read) { 73852c23cb7cSEd Maste case 1: 73862c23cb7cSEd Maste ret = src[0]; 73872c23cb7cSEd Maste break; 73882c23cb7cSEd Maste case 2: 73892c23cb7cSEd Maste ret = src[1] | ((uint64_t) src[0]) << 8; 73902c23cb7cSEd Maste break; 73912c23cb7cSEd Maste case 4: 73922c23cb7cSEd Maste ret = src[3] | ((uint64_t) src[2]) << 8; 73932c23cb7cSEd Maste ret |= ((uint64_t) src[1]) << 16 | ((uint64_t) src[0]) << 24; 73942c23cb7cSEd Maste break; 73952c23cb7cSEd Maste case 8: 73962c23cb7cSEd Maste ret = src[7] | ((uint64_t) src[6]) << 8; 73972c23cb7cSEd Maste ret |= ((uint64_t) src[5]) << 16 | ((uint64_t) src[4]) << 24; 73982c23cb7cSEd Maste ret |= ((uint64_t) src[3]) << 32 | ((uint64_t) src[2]) << 40; 73992c23cb7cSEd Maste ret |= ((uint64_t) src[1]) << 48 | ((uint64_t) src[0]) << 56; 74002c23cb7cSEd Maste break; 74012c23cb7cSEd Maste default: 74022c23cb7cSEd Maste return (0); 74032c23cb7cSEd Maste } 74042c23cb7cSEd Maste 74052c23cb7cSEd Maste *offsetp += bytes_to_read; 74062c23cb7cSEd Maste 74072c23cb7cSEd Maste return (ret); 74082c23cb7cSEd Maste } 74092c23cb7cSEd Maste 74102c23cb7cSEd Maste static uint64_t 74112c23cb7cSEd Maste _decode_lsb(uint8_t **data, int bytes_to_read) 74122c23cb7cSEd Maste { 74132c23cb7cSEd Maste uint64_t ret; 74142c23cb7cSEd Maste uint8_t *src; 74152c23cb7cSEd Maste 74162c23cb7cSEd Maste src = *data; 74172c23cb7cSEd Maste 74182c23cb7cSEd Maste ret = 0; 74192c23cb7cSEd Maste switch (bytes_to_read) { 74202c23cb7cSEd Maste case 8: 74212c23cb7cSEd Maste ret |= ((uint64_t) src[4]) << 32 | ((uint64_t) src[5]) << 40; 74222c23cb7cSEd Maste ret |= ((uint64_t) src[6]) << 48 | ((uint64_t) src[7]) << 56; 74232c23cb7cSEd Maste case 4: 74242c23cb7cSEd Maste ret |= ((uint64_t) src[2]) << 16 | ((uint64_t) src[3]) << 24; 74252c23cb7cSEd Maste case 2: 74262c23cb7cSEd Maste ret |= ((uint64_t) src[1]) << 8; 74272c23cb7cSEd Maste case 1: 74282c23cb7cSEd Maste ret |= src[0]; 74292c23cb7cSEd Maste break; 74302c23cb7cSEd Maste default: 74312c23cb7cSEd Maste return (0); 74322c23cb7cSEd Maste } 74332c23cb7cSEd Maste 74342c23cb7cSEd Maste *data += bytes_to_read; 74352c23cb7cSEd Maste 74362c23cb7cSEd Maste return (ret); 74372c23cb7cSEd Maste } 74382c23cb7cSEd Maste 74392c23cb7cSEd Maste static uint64_t 74402c23cb7cSEd Maste _decode_msb(uint8_t **data, int bytes_to_read) 74412c23cb7cSEd Maste { 74422c23cb7cSEd Maste uint64_t ret; 74432c23cb7cSEd Maste uint8_t *src; 74442c23cb7cSEd Maste 74452c23cb7cSEd Maste src = *data; 74462c23cb7cSEd Maste 74472c23cb7cSEd Maste ret = 0; 74482c23cb7cSEd Maste switch (bytes_to_read) { 74492c23cb7cSEd Maste case 1: 74502c23cb7cSEd Maste ret = src[0]; 74512c23cb7cSEd Maste break; 74522c23cb7cSEd Maste case 2: 74532c23cb7cSEd Maste ret = src[1] | ((uint64_t) src[0]) << 8; 74542c23cb7cSEd Maste break; 74552c23cb7cSEd Maste case 4: 74562c23cb7cSEd Maste ret = src[3] | ((uint64_t) src[2]) << 8; 74572c23cb7cSEd Maste ret |= ((uint64_t) src[1]) << 16 | ((uint64_t) src[0]) << 24; 74582c23cb7cSEd Maste break; 74592c23cb7cSEd Maste case 8: 74602c23cb7cSEd Maste ret = src[7] | ((uint64_t) src[6]) << 8; 74612c23cb7cSEd Maste ret |= ((uint64_t) src[5]) << 16 | ((uint64_t) src[4]) << 24; 74622c23cb7cSEd Maste ret |= ((uint64_t) src[3]) << 32 | ((uint64_t) src[2]) << 40; 74632c23cb7cSEd Maste ret |= ((uint64_t) src[1]) << 48 | ((uint64_t) src[0]) << 56; 74642c23cb7cSEd Maste break; 74652c23cb7cSEd Maste default: 74662c23cb7cSEd Maste return (0); 74672c23cb7cSEd Maste break; 74682c23cb7cSEd Maste } 74692c23cb7cSEd Maste 74702c23cb7cSEd Maste *data += bytes_to_read; 74712c23cb7cSEd Maste 74722c23cb7cSEd Maste return (ret); 74732c23cb7cSEd Maste } 74742c23cb7cSEd Maste 74752c23cb7cSEd Maste static int64_t 7476*95fd7f26SEd Maste _decode_sleb128(uint8_t **dp, uint8_t *dpe) 74772c23cb7cSEd Maste { 74782c23cb7cSEd Maste int64_t ret = 0; 74792c23cb7cSEd Maste uint8_t b; 74802c23cb7cSEd Maste int shift = 0; 74812c23cb7cSEd Maste 74822c23cb7cSEd Maste uint8_t *src = *dp; 74832c23cb7cSEd Maste 74842c23cb7cSEd Maste do { 7485*95fd7f26SEd Maste if (src >= dpe) 7486*95fd7f26SEd Maste break; 74872c23cb7cSEd Maste b = *src++; 74882c23cb7cSEd Maste ret |= ((b & 0x7f) << shift); 74892c23cb7cSEd Maste shift += 7; 74902c23cb7cSEd Maste } while ((b & 0x80) != 0); 74912c23cb7cSEd Maste 74922c23cb7cSEd Maste if (shift < 32 && (b & 0x40) != 0) 74932c23cb7cSEd Maste ret |= (-1 << shift); 74942c23cb7cSEd Maste 74952c23cb7cSEd Maste *dp = src; 74962c23cb7cSEd Maste 74972c23cb7cSEd Maste return (ret); 74982c23cb7cSEd Maste } 74992c23cb7cSEd Maste 75002c23cb7cSEd Maste static uint64_t 7501*95fd7f26SEd Maste _decode_uleb128(uint8_t **dp, uint8_t *dpe) 75022c23cb7cSEd Maste { 75032c23cb7cSEd Maste uint64_t ret = 0; 75042c23cb7cSEd Maste uint8_t b; 75052c23cb7cSEd Maste int shift = 0; 75062c23cb7cSEd Maste 75072c23cb7cSEd Maste uint8_t *src = *dp; 75082c23cb7cSEd Maste 75092c23cb7cSEd Maste do { 7510*95fd7f26SEd Maste if (src >= dpe) 7511*95fd7f26SEd Maste break; 75122c23cb7cSEd Maste b = *src++; 75132c23cb7cSEd Maste ret |= ((b & 0x7f) << shift); 75142c23cb7cSEd Maste shift += 7; 75152c23cb7cSEd Maste } while ((b & 0x80) != 0); 75162c23cb7cSEd Maste 75172c23cb7cSEd Maste *dp = src; 75182c23cb7cSEd Maste 75192c23cb7cSEd Maste return (ret); 75202c23cb7cSEd Maste } 75212c23cb7cSEd Maste 75222c23cb7cSEd Maste static void 75232c23cb7cSEd Maste readelf_version(void) 75242c23cb7cSEd Maste { 75252c23cb7cSEd Maste (void) printf("%s (%s)\n", ELFTC_GETPROGNAME(), 75262c23cb7cSEd Maste elftc_version()); 75272c23cb7cSEd Maste exit(EXIT_SUCCESS); 75282c23cb7cSEd Maste } 75292c23cb7cSEd Maste 75302c23cb7cSEd Maste #define USAGE_MESSAGE "\ 75312c23cb7cSEd Maste Usage: %s [options] file...\n\ 75322c23cb7cSEd Maste Display information about ELF objects and ar(1) archives.\n\n\ 75332c23cb7cSEd Maste Options:\n\ 75342c23cb7cSEd Maste -a | --all Equivalent to specifying options '-dhIlrsASV'.\n\ 75352c23cb7cSEd Maste -c | --archive-index Print the archive symbol table for archives.\n\ 75362c23cb7cSEd Maste -d | --dynamic Print the contents of SHT_DYNAMIC sections.\n\ 75372c23cb7cSEd Maste -e | --headers Print all headers in the object.\n\ 75383ef90571SEd Maste -g | --section-groups Print the contents of the section groups.\n\ 75392c23cb7cSEd Maste -h | --file-header Print the file header for the object.\n\ 75402c23cb7cSEd Maste -l | --program-headers Print the PHDR table for the object.\n\ 75412c23cb7cSEd Maste -n | --notes Print the contents of SHT_NOTE sections.\n\ 75422c23cb7cSEd Maste -p INDEX | --string-dump=INDEX\n\ 75432c23cb7cSEd Maste Print the contents of section at index INDEX.\n\ 75442c23cb7cSEd Maste -r | --relocs Print relocation information.\n\ 75452c23cb7cSEd Maste -s | --syms | --symbols Print symbol tables.\n\ 75462c23cb7cSEd Maste -t | --section-details Print additional information about sections.\n\ 75472c23cb7cSEd Maste -v | --version Print a version identifier and exit.\n\ 75482c23cb7cSEd Maste -x INDEX | --hex-dump=INDEX\n\ 75492c23cb7cSEd Maste Display contents of a section as hexadecimal.\n\ 75502c23cb7cSEd Maste -A | --arch-specific (accepted, but ignored)\n\ 75512c23cb7cSEd Maste -D | --use-dynamic Print the symbol table specified by the DT_SYMTAB\n\ 75522c23cb7cSEd Maste entry in the \".dynamic\" section.\n\ 75532c23cb7cSEd Maste -H | --help Print a help message.\n\ 75542c23cb7cSEd Maste -I | --histogram Print information on bucket list lengths for \n\ 75552c23cb7cSEd Maste hash sections.\n\ 75562c23cb7cSEd Maste -N | --full-section-name (accepted, but ignored)\n\ 75572c23cb7cSEd Maste -S | --sections | --section-headers\n\ 75582c23cb7cSEd Maste Print information about section headers.\n\ 75592c23cb7cSEd Maste -V | --version-info Print symbol versoning information.\n\ 75602c23cb7cSEd Maste -W | --wide Print information without wrapping long lines.\n" 75612c23cb7cSEd Maste 75622c23cb7cSEd Maste 75632c23cb7cSEd Maste static void 75642c23cb7cSEd Maste readelf_usage(void) 75652c23cb7cSEd Maste { 75662c23cb7cSEd Maste fprintf(stderr, USAGE_MESSAGE, ELFTC_GETPROGNAME()); 75672c23cb7cSEd Maste exit(EXIT_FAILURE); 75682c23cb7cSEd Maste } 75692c23cb7cSEd Maste 75702c23cb7cSEd Maste int 75712c23cb7cSEd Maste main(int argc, char **argv) 75722c23cb7cSEd Maste { 75732c23cb7cSEd Maste struct readelf *re, re_storage; 75742c23cb7cSEd Maste unsigned long si; 75752c23cb7cSEd Maste int opt, i; 75762c23cb7cSEd Maste char *ep; 75772c23cb7cSEd Maste 75782c23cb7cSEd Maste re = &re_storage; 75792c23cb7cSEd Maste memset(re, 0, sizeof(*re)); 75802c23cb7cSEd Maste STAILQ_INIT(&re->v_dumpop); 75812c23cb7cSEd Maste 75822c23cb7cSEd Maste while ((opt = getopt_long(argc, argv, "AacDdegHhIi:lNnp:rSstuVvWw::x:", 75832c23cb7cSEd Maste longopts, NULL)) != -1) { 75842c23cb7cSEd Maste switch(opt) { 75852c23cb7cSEd Maste case '?': 75862c23cb7cSEd Maste readelf_usage(); 75872c23cb7cSEd Maste break; 75882c23cb7cSEd Maste case 'A': 75892c23cb7cSEd Maste re->options |= RE_AA; 75902c23cb7cSEd Maste break; 75912c23cb7cSEd Maste case 'a': 75923ef90571SEd Maste re->options |= RE_AA | RE_D | RE_G | RE_H | RE_II | 75933ef90571SEd Maste RE_L | RE_R | RE_SS | RE_S | RE_VV; 75942c23cb7cSEd Maste break; 75952c23cb7cSEd Maste case 'c': 75962c23cb7cSEd Maste re->options |= RE_C; 75972c23cb7cSEd Maste break; 75982c23cb7cSEd Maste case 'D': 75992c23cb7cSEd Maste re->options |= RE_DD; 76002c23cb7cSEd Maste break; 76012c23cb7cSEd Maste case 'd': 76022c23cb7cSEd Maste re->options |= RE_D; 76032c23cb7cSEd Maste break; 76042c23cb7cSEd Maste case 'e': 76052c23cb7cSEd Maste re->options |= RE_H | RE_L | RE_SS; 76062c23cb7cSEd Maste break; 76072c23cb7cSEd Maste case 'g': 76082c23cb7cSEd Maste re->options |= RE_G; 76092c23cb7cSEd Maste break; 76102c23cb7cSEd Maste case 'H': 76112c23cb7cSEd Maste readelf_usage(); 76122c23cb7cSEd Maste break; 76132c23cb7cSEd Maste case 'h': 76142c23cb7cSEd Maste re->options |= RE_H; 76152c23cb7cSEd Maste break; 76162c23cb7cSEd Maste case 'I': 76172c23cb7cSEd Maste re->options |= RE_II; 76182c23cb7cSEd Maste break; 76192c23cb7cSEd Maste case 'i': 76202c23cb7cSEd Maste /* Not implemented yet. */ 76212c23cb7cSEd Maste break; 76222c23cb7cSEd Maste case 'l': 76232c23cb7cSEd Maste re->options |= RE_L; 76242c23cb7cSEd Maste break; 76252c23cb7cSEd Maste case 'N': 76262c23cb7cSEd Maste re->options |= RE_NN; 76272c23cb7cSEd Maste break; 76282c23cb7cSEd Maste case 'n': 76292c23cb7cSEd Maste re->options |= RE_N; 76302c23cb7cSEd Maste break; 76312c23cb7cSEd Maste case 'p': 76322c23cb7cSEd Maste re->options |= RE_P; 76332c23cb7cSEd Maste si = strtoul(optarg, &ep, 10); 76342c23cb7cSEd Maste if (*ep == '\0') 76352c23cb7cSEd Maste add_dumpop(re, (size_t) si, NULL, STR_DUMP, 76362c23cb7cSEd Maste DUMP_BY_INDEX); 76372c23cb7cSEd Maste else 76382c23cb7cSEd Maste add_dumpop(re, 0, optarg, STR_DUMP, 76392c23cb7cSEd Maste DUMP_BY_NAME); 76402c23cb7cSEd Maste break; 76412c23cb7cSEd Maste case 'r': 76422c23cb7cSEd Maste re->options |= RE_R; 76432c23cb7cSEd Maste break; 76442c23cb7cSEd Maste case 'S': 76452c23cb7cSEd Maste re->options |= RE_SS; 76462c23cb7cSEd Maste break; 76472c23cb7cSEd Maste case 's': 76482c23cb7cSEd Maste re->options |= RE_S; 76492c23cb7cSEd Maste break; 76502c23cb7cSEd Maste case 't': 76512c23cb7cSEd Maste re->options |= RE_T; 76522c23cb7cSEd Maste break; 76532c23cb7cSEd Maste case 'u': 76542c23cb7cSEd Maste re->options |= RE_U; 76552c23cb7cSEd Maste break; 76562c23cb7cSEd Maste case 'V': 76572c23cb7cSEd Maste re->options |= RE_VV; 76582c23cb7cSEd Maste break; 76592c23cb7cSEd Maste case 'v': 76602c23cb7cSEd Maste readelf_version(); 76612c23cb7cSEd Maste break; 76622c23cb7cSEd Maste case 'W': 76632c23cb7cSEd Maste re->options |= RE_WW; 76642c23cb7cSEd Maste break; 76652c23cb7cSEd Maste case 'w': 76662c23cb7cSEd Maste re->options |= RE_W; 76672c23cb7cSEd Maste parse_dwarf_op_short(re, optarg); 76682c23cb7cSEd Maste break; 76692c23cb7cSEd Maste case 'x': 76702c23cb7cSEd Maste re->options |= RE_X; 76712c23cb7cSEd Maste si = strtoul(optarg, &ep, 10); 76722c23cb7cSEd Maste if (*ep == '\0') 76732c23cb7cSEd Maste add_dumpop(re, (size_t) si, NULL, HEX_DUMP, 76742c23cb7cSEd Maste DUMP_BY_INDEX); 76752c23cb7cSEd Maste else 76762c23cb7cSEd Maste add_dumpop(re, 0, optarg, HEX_DUMP, 76772c23cb7cSEd Maste DUMP_BY_NAME); 76782c23cb7cSEd Maste break; 76792c23cb7cSEd Maste case OPTION_DEBUG_DUMP: 76802c23cb7cSEd Maste re->options |= RE_W; 76812c23cb7cSEd Maste parse_dwarf_op_long(re, optarg); 76822c23cb7cSEd Maste } 76832c23cb7cSEd Maste } 76842c23cb7cSEd Maste 76852c23cb7cSEd Maste argv += optind; 76862c23cb7cSEd Maste argc -= optind; 76872c23cb7cSEd Maste 76882c23cb7cSEd Maste if (argc == 0 || re->options == 0) 76892c23cb7cSEd Maste readelf_usage(); 76902c23cb7cSEd Maste 76912c23cb7cSEd Maste if (argc > 1) 76922c23cb7cSEd Maste re->flags |= DISPLAY_FILENAME; 76932c23cb7cSEd Maste 76942c23cb7cSEd Maste if (elf_version(EV_CURRENT) == EV_NONE) 76952c23cb7cSEd Maste errx(EXIT_FAILURE, "ELF library initialization failed: %s", 76962c23cb7cSEd Maste elf_errmsg(-1)); 76972c23cb7cSEd Maste 7698b00fe64fSEd Maste for (i = 0; i < argc; i++) { 76992c23cb7cSEd Maste re->filename = argv[i]; 77002c23cb7cSEd Maste dump_object(re); 77012c23cb7cSEd Maste } 77022c23cb7cSEd Maste 77032c23cb7cSEd Maste exit(EXIT_SUCCESS); 77042c23cb7cSEd Maste } 7705