/* Copyright (C) 2021-2024 Free Software Foundation, Inc. Contributed by Oracle. This file is part of GNU Binutils. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */ #include "config.h" #include #include "util.h" #include "bfd.h" #include "elf-bfd.h" #include "Elf.h" #include "Map.h" #include "StringBuilder.h" #include "DbeFile.h" typedef uint32_t Elf32_Word; typedef uint32_t Elf64_Word; typedef uint32_t Elf32_Addr; typedef uint64_t Elf64_Addr; typedef uint64_t Elf64_Xword; typedef int32_t Elf32_Sword; typedef int64_t Elf64_Sxword; typedef uint16_t Elf32_Half; typedef uint16_t Elf64_Half; // Ancillary entry typedef struct { Elf32_Word a_tag; /* how to interpret value */ union { Elf32_Word a_val; Elf32_Addr a_ptr; } a_un; } Elf32_Ancillary; struct S_Elf64_Ancillary { Elf64_Xword a_tag; /* how to interpret value */ union { Elf64_Xword a_val; Elf64_Addr a_ptr; } a_un; }; /* Dynamic section entry. */ typedef struct { Elf32_Sword d_tag; /* Dynamic entry type */ union { Elf32_Word d_val; /* Integer value */ Elf32_Addr d_ptr; /* Address value */ } d_un; } Elf32_Dyn; struct S_Elf64_Dyn { Elf64_Sxword d_tag; /* Dynamic entry type */ union { Elf64_Xword d_val; /* Integer value */ Elf64_Addr d_ptr; /* Address value */ } d_un; }; // Symbol table typedef struct { Elf32_Word st_name; Elf32_Addr st_value; Elf32_Word st_size; unsigned char st_info; /* bind, type: ELF_32_ST_... */ unsigned char st_other; Elf32_Half st_shndx; /* SHN_... */ } Elf32_Sym; typedef struct { Elf64_Word st_name; unsigned char st_info; /* bind, type: ELF_64_ST_... */ unsigned char st_other; Elf64_Half st_shndx; /* SHN_... */ Elf64_Addr st_value; Elf64_Xword st_size; } Elf64_Sym; // Relocation typedef struct { Elf32_Addr r_offset; Elf32_Word r_info; /* sym, type: ELF32_R_... */ } Elf32_Rel; typedef struct { Elf32_Addr r_offset; Elf32_Word r_info; /* sym, type: ELF32_R_... */ Elf32_Sword r_addend; } Elf32_Rela; typedef struct { Elf64_Addr r_offset; Elf64_Xword r_info; /* sym, type: ELF64_R_... */ } Elf64_Rel; typedef struct { Elf64_Addr r_offset; Elf64_Xword r_info; /* sym, type: ELF64_R_... */ Elf64_Sxword r_addend; } Elf64_Rela; int Elf::bfd_status = -1; void Elf::elf_init () { if (bfd_status == -1) bfd_status = bfd_init (); } Elf::Elf (char *filename) : DbeMessages (), Data_window (filename) { ehdrp = NULL; data = NULL; ancillary_files = NULL; elfSymbols = NULL; gnu_debug_file = NULL; dbeFile = NULL; abfd = NULL; bfd_symcnt = -1; bfd_dynsymcnt = -1; bfd_synthcnt = -1; bfd_sym = NULL; bfd_dynsym = NULL; bfd_synthsym = NULL; synthsym = NULL; if (bfd_status != BFD_INIT_MAGIC) { status = ELF_ERR_CANT_OPEN_FILE; return; } abfd = bfd_openr (filename, NULL); if (abfd == NULL) { status = ELF_ERR_CANT_OPEN_FILE; return; } abfd->flags |= BFD_DECOMPRESS; if (!bfd_check_format (abfd, bfd_object)) { bfd_close (abfd); abfd = NULL; status = ELF_ERR_CANT_OPEN_FILE; return; } ehdrp = elf_getehdr (); if (ehdrp == NULL) { bfd_close (abfd); abfd = NULL; status = ELF_ERR_BAD_ELF_FORMAT; return; } elf_class = ehdrp->e_ident[EI_CLASS]; elf_datatype = ehdrp->e_ident[EI_DATA]; if (not_opened ()) { status = ELF_ERR_CANT_OPEN_FILE; return; } status = ELF_ERR_NONE; #if ARCH(SPARC) need_swap_endian = is_Intel (); #else need_swap_endian = !is_Intel (); #endif analyzerInfo = 0; SUNW_ldynsym = 0; gnuLink = 0; stab = 0; stabStr = 0; stabIndex = 0; stabIndexStr = 0; stabExcl = 0; stabExclStr = 0; symtab = 0; dynsym = 0; info = 0; plt = 0; dwarf = false; for (unsigned int sec = 1; sec < elf_getehdr ()->e_shnum; sec++) { char *name = get_sec_name (sec); if (name == NULL) continue; if (streq (name, NTXT (".stab"))) stab = sec; else if (streq (name, NTXT (".stabstr"))) stabStr = sec; else if (streq (name, NTXT (".stab.index"))) stabIndex = sec; else if (streq (name, NTXT (".stab.indexstr"))) stabIndexStr = sec; else if (streq (name, NTXT (".stab.excl"))) stabExcl = sec; else if (streq (name, NTXT (".stab.exclstr"))) stabExclStr = sec; else if (streq (name, NTXT (".gnu_debuglink"))) gnuLink = sec; else if (streq (name, NTXT (".__analyzer_info"))) analyzerInfo = sec; else if (streq (name, NTXT (".info"))) info = true; else if (streq (name, NTXT (".plt"))) plt = sec; else if (streq (name, NTXT (".SUNW_ldynsym"))) SUNW_ldynsym = sec; else if (streq (name, NTXT (".dynsym"))) dynsym = sec; else if (streq (name, NTXT (".symtab"))) symtab = sec; else if (strncmp (name, NTXT (".debug"), 6) == 0) dwarf = true; } if (fd != -1) { close (fd); fd = -1; } } Elf::~Elf () { if (data) { for (int i = 0; i < (int) ehdrp->e_shnum; i++) { Elf_Data *p = data[i]; if (p && !mmap_on_file && (p->d_flags & SHF_SUNW_ABSENT) == 0) free (p->d_buf); delete p; } free (data); } if (ancillary_files) { ancillary_files->destroy (); delete ancillary_files; } delete elfSymbols; delete gnu_debug_file; delete dbeFile; delete synthsym; free (bfd_sym); free (bfd_dynsym); free (bfd_synthsym); if (abfd) bfd_close (abfd); } Elf_Internal_Ehdr * Elf::elf_getehdr () { if (ehdrp == NULL && abfd) ehdrp = elf_elfheader (abfd); return ehdrp; } Elf_Internal_Phdr * Elf::get_phdr (unsigned int ndx) { if (ehdrp == NULL || ndx >= ehdrp->e_phnum) return NULL; return &(elf_tdata (abfd)->phdr[ndx]); } Elf_Internal_Shdr * Elf::get_shdr (unsigned int ndx) { if (ehdrp == NULL || ndx >= ehdrp->e_shnum) return NULL; return elf_elfsections (abfd)[ndx]; } Elf64_Dyn * Elf::elf_getdyn (Elf_Internal_Phdr *phdr, unsigned int ndx, Elf64_Dyn *pdyn) { if (elf_getclass () == ELFCLASS32) { if (ndx * sizeof (Elf32_Dyn) >= phdr->p_filesz) return NULL; Elf32_Dyn *hdr = (Elf32_Dyn*) bind (phdr->p_offset + ndx * sizeof (Elf32_Dyn), sizeof (Elf32_Dyn)); if (hdr == NULL) return NULL; pdyn->d_tag = decode (hdr->d_tag); pdyn->d_un.d_val = decode (hdr->d_un.d_val); } else { if (ndx * sizeof (Elf64_Dyn) >= phdr->p_filesz) return NULL; Elf64_Dyn *hdr = (Elf64_Dyn*) bind (phdr->p_offset + ndx * sizeof (Elf64_Dyn), sizeof (Elf64_Dyn)); if (hdr == NULL) return NULL; pdyn->d_tag = decode (hdr->d_tag); pdyn->d_un.d_val = decode (hdr->d_un.d_val); } return pdyn; } unsigned Elf::elf_version (unsigned ver) { // We compile locally, no need to check the version return ver; } Elf * Elf::elf_begin (char *fname, Elf_status *stp) { if (fname == NULL) { if (stp) *stp = ELF_ERR_CANT_OPEN_FILE; return NULL; } Elf *elf = new Elf (fname); if (stp) *stp = elf->status; if (elf->status != ELF_ERR_NONE) { delete elf; return NULL; } #if DEBUG if (DUMP_ELF_SEC) { char *str = elf->dump (); fprintf (stderr, NTXT ("%s\n\n"), str); free (str); } #endif /* DEBUG */ return elf; } unsigned int Elf::elf_get_sec_num (const char *name) { if (name == NULL || ehdrp == NULL) return 0; for (unsigned int sec = 1; sec < ehdrp->e_shnum; sec++) { Elf_Internal_Shdr *shdr = get_shdr (sec); if (shdr == NULL) continue; char *sname = elf_strptr (ehdrp->e_shstrndx, shdr->sh_name); if (sname != NULL && strcmp (name, sname) == 0) return sec; } return 0; } char * Elf::get_sec_name (unsigned int sec) { Elf_Internal_Shdr *shdr = get_shdr (sec); if (ehdrp == NULL || shdr == NULL) return NULL; return elf_strptr (ehdrp->e_shstrndx, shdr->sh_name); } Elf_Data * Elf::elf_getdata (unsigned int sec) { if (data == NULL) { data = (Elf_Data **) malloc (ehdrp->e_shnum * sizeof (Elf_Data *)); for (int i = 0; i < (int) ehdrp->e_shnum; i++) data[i] = NULL; } Elf_Data *edta = data[sec]; if (edta == NULL) { Elf_Internal_Shdr *shdr = get_shdr (sec); if (shdr == NULL) return NULL; edta = new Elf_Data; data[sec] = edta; if ((shdr->sh_flags & SHF_SUNW_ABSENT) != 0) { char *sname = get_sec_name (sec); for (int i = 0, sz = VecSize(ancillary_files); i < sz; i++) { Elf *ancElf = ancillary_files->fetch (i); int secNum = sec; if (dbe_strcmp (sname, ancElf->get_sec_name (sec)) != 0) { append_msg (CMSG_WARN, "Warning: the section #%d (%s) is mismatch in ancillary file '%s')\n", sec, STR (sname), STR (ancElf->fname)); secNum = ancElf->elf_get_sec_num (sname); } if (secNum > 0) { Elf_Data *ed = ancElf->elf_getdata (secNum); if (ed && ed->d_buf) { *edta = *ed; edta->d_flags |= SHF_SUNW_ABSENT; return edta; } } } } edta->d_buf = get_data (shdr->sh_offset, (size_t) shdr->sh_size, NULL); edta->d_flags = shdr->sh_flags; edta->d_size = ((edta->d_buf == NULL) || (shdr->sh_type == SHT_NOBITS)) ? 0 : shdr->sh_size; edta->d_off = shdr->sh_offset; edta->d_align = shdr->sh_addralign; } return edta; } int64_t Elf::elf_checksum () { if (ehdrp == NULL) return 0; int64_t chk = 0; for (unsigned int ndx = 0; ndx < ehdrp->e_phnum; ndx++) { Elf_Internal_Phdr *phdr = get_phdr (ndx); if (phdr == NULL) continue; if (phdr->p_type == PT_DYNAMIC) { Elf64_Dyn edyn; for (unsigned int i = 0; elf_getdyn (phdr, i, &edyn) != NULL; i++) { if (!edyn.d_tag) break; if (edyn.d_tag == DT_CHECKSUM) { chk = edyn.d_un.d_val; break; } } } } return normalize_checksum (chk); } uint64_t Elf::get_baseAddr () { uint64_t addr = 0; for (unsigned int pnum = 0; pnum < elf_getehdr ()->e_phnum; pnum++) { Elf_Internal_Phdr *phdr = get_phdr (pnum); if (phdr->p_type == PT_LOAD && phdr->p_flags == (PF_R | PF_X)) { if (addr == 0) addr = phdr->p_vaddr; else { addr = 0; break; } } } return addr; } char * Elf::elf_strptr (unsigned int sec, uint64_t off) { Elf_Data *edta = elf_getdata (sec); if (edta && edta->d_buf && edta->d_size > off) return ((char *) edta->d_buf) + off; return NULL; } Elf_Internal_Sym * Elf::elf_getsym (Elf_Data *edta, unsigned int ndx, Elf_Internal_Sym *dst) { if (dst == NULL || edta == NULL) return NULL; if (elf_getclass () == ELFCLASS32) { if (edta->d_size <= ndx * sizeof (Elf32_Sym)) return NULL; Elf32_Sym *hdr = (Elf32_Sym*) bind (edta->d_off + ndx * sizeof (Elf32_Sym), sizeof (Elf32_Sym)); if (hdr == NULL) return NULL; dst->st_name = decode (hdr->st_name); dst->st_value = decode (hdr->st_value); dst->st_size = decode (hdr->st_size); dst->st_info = ELF64_ST_INFO (ELF32_ST_BIND (decode (hdr->st_info)), ELF32_ST_TYPE (decode (hdr->st_info))); dst->st_other = decode (hdr->st_other); dst->st_shndx = decode (hdr->st_shndx); } else { if (edta->d_size <= ndx * sizeof (Elf64_Sym)) return NULL; Elf64_Sym *hdr = (Elf64_Sym*) bind (edta->d_off + ndx * sizeof (Elf64_Sym), sizeof (Elf64_Sym)); if (hdr == NULL) return NULL; dst->st_name = decode (hdr->st_name); dst->st_value = decode (hdr->st_value); dst->st_size = decode (hdr->st_size); dst->st_info = decode (hdr->st_info); dst->st_other = decode (hdr->st_other); dst->st_shndx = decode (hdr->st_shndx); } return dst; } Elf_Internal_Rela * Elf::elf_getrel (Elf_Data *edta, unsigned int ndx, Elf_Internal_Rela *dst) { if (dst == NULL || edta == NULL || edta->d_buf == NULL) return NULL; if (elf_getclass () == ELFCLASS32) { Elf32_Rel *rel = ((Elf32_Rel *) edta->d_buf) + ndx; dst->r_offset = decode (rel->r_offset); dst->r_info = ELF64_R_INFO (ELF32_R_SYM (decode (rel->r_info)), ELF32_R_TYPE (decode (rel->r_info))); } else { Elf64_Rel *rel = ((Elf64_Rel *) edta->d_buf) + ndx; dst->r_offset = decode (rel->r_offset); dst->r_info = decode (rel->r_info); } return dst; } Elf_Internal_Rela * Elf::elf_getrela (Elf_Data *edta, unsigned int ndx, Elf_Internal_Rela *dst) { if (dst == NULL || edta == NULL || edta->d_buf == NULL) return NULL; if (elf_getclass () == ELFCLASS32) { Elf32_Rela *rela = ((Elf32_Rela *) edta->d_buf) + ndx; dst->r_offset = decode (rela->r_offset); dst->r_addend = decode (rela->r_addend); dst->r_info = ELF64_R_INFO (ELF32_R_SYM (decode (rela->r_info)), ELF32_R_TYPE (decode (rela->r_info))); } else { Elf64_Rela *rela = ((Elf64_Rela *) edta->d_buf) + ndx; dst->r_offset = decode (rela->r_offset); dst->r_addend = decode (rela->r_addend); dst->r_info = decode (rela->r_info); } return dst; } Elf64_Ancillary * Elf::elf_getancillary (Elf_Data *edta, unsigned int ndx, Elf64_Ancillary *dst) { if (dst == NULL || edta == NULL || edta->d_buf == NULL) return NULL; if (elf_getclass () == ELFCLASS32) { Elf32_Ancillary *p = ((Elf32_Ancillary *) edta->d_buf) + ndx; dst->a_tag = decode (p->a_tag); dst->a_un.a_val = decode (p->a_un.a_val); } else { Elf64_Ancillary *p = ((Elf64_Ancillary *) edta->d_buf) + ndx; dst->a_tag = decode (p->a_tag); dst->a_un.a_val = decode (p->a_un.a_val); } return dst; } Elf * Elf::get_related_file (const char *lo_name, const char *nm) { DbeFile *df; if (*nm == '/') { df = new DbeFile (nm); df->filetype |= (DbeFile::F_FILE | DbeFile::F_DEBUG_FILE); } else { char *bname = get_basename (lo_name); char *fnm = dbe_sprintf ("%.*s/%s", (int) (bname - lo_name), lo_name, nm); df = new DbeFile (fnm); df->filetype |= (DbeFile::F_FILE | DbeFile::F_DEBUG_FILE); free (fnm); } Dprintf (DEBUG_STABS, "get_related_file: %s -> '%s'\n", nm, df->get_name ()); Elf_status st = ELF_ERR_CANT_OPEN_FILE; Elf *elf = elf_begin (df->get_location (), &st); if (elf) { elf->dbeFile = df; return elf; } switch (st) { case ELF_ERR_CANT_OPEN_FILE: append_msg (CMSG_ERROR, GTXT ("Cannot open file `%s'"), df->get_name ()); break; case ELF_ERR_BAD_ELF_FORMAT: default: append_msg (CMSG_ERROR, GTXT ("Cannot read ELF header of `%s'"), df->get_name ()); break; } delete df; return NULL; } Elf * Elf::find_ancillary_files (char *lo_name) { // read the .gnu_debuglink and .SUNW_ancillary seections if (gnu_debug_file) return gnu_debug_file; unsigned int sec = elf_get_sec_num (NTXT (".gnu_debuglink")); if (sec > 0) { Elf_Data *dp = elf_getdata (sec); if (dp) { gnu_debug_file = get_related_file (lo_name, (char *) (dp->d_buf)); if (gnu_debug_file) return gnu_debug_file; } } sec = elf_get_sec_num (NTXT (".SUNW_ancillary")); if (sec > 0) { Elf_Internal_Shdr *shdr = get_shdr (sec); uint64_t check_sum = 0; char *ancName = NULL; if (shdr) { Elf_Data *dp = elf_getdata (sec); for (int i = 0, sz = (int) (shdr->sh_size / shdr->sh_entsize); i < sz; i++) { Elf64_Ancillary anc; if (elf_getancillary (dp, i, &anc) == NULL || anc.a_tag == ANC_SUNW_NULL) break; if (anc.a_tag == ANC_SUNW_MEMBER) ancName = elf_strptr (shdr->sh_link, anc.a_un.a_ptr); else if (anc.a_tag == ANC_SUNW_CHECKSUM) { if (i == 0) { check_sum = anc.a_un.a_val; continue; } if (check_sum == anc.a_un.a_val) ancName = NULL; if (ancName) { Elf *ancElf = get_related_file (lo_name, ancName); if (ancElf == NULL) continue; int ancSec = ancElf->elf_get_sec_num (".SUNW_ancillary"); if (ancSec > 0) { Elf_Internal_Shdr *ancHdr = ancElf->get_shdr (ancSec); if (ancHdr) { Elf_Data *anc_dp = ancElf->elf_getdata (ancSec); Elf64_Ancillary anc1; if (ancElf->elf_getancillary (anc_dp, 0, &anc1) && (anc1.a_tag == ANC_SUNW_CHECKSUM) && anc1.a_un.a_val == anc.a_un.a_val) { if (ancillary_files == NULL) ancillary_files = new Vector(2); ancillary_files->append (ancElf); } else append_msg (CMSG_WARN, GTXT ("Load Object: '%s' (checksum Ox%lld). The .anc file '%s' has checksum Ox%llx"), STR (fname), (long long) check_sum, STR (ancElf->dbeFile->get_location ()), (long long) anc1.a_un.a_val); } } ancName = NULL; } } } } } return NULL; } void Elf::get_bfd_symbols() { if (bfd_symcnt < 0) { if ((bfd_get_file_flags (abfd) & HAS_SYMS) != 0) bfd_symcnt = bfd_get_symtab_upper_bound (abfd); if (bfd_symcnt > 0) { bfd_sym = (asymbol **) malloc (bfd_symcnt); bfd_symcnt = bfd_canonicalize_symtab (abfd, bfd_sym); if (bfd_symcnt < 0) { free (bfd_sym); bfd_sym = NULL; } } else bfd_symcnt = 0; } if (bfd_dynsymcnt < 0) { bfd_dynsymcnt = bfd_get_dynamic_symtab_upper_bound (abfd); if (bfd_dynsymcnt > 0) { bfd_dynsym = (asymbol **) malloc (bfd_dynsymcnt); bfd_dynsymcnt = bfd_canonicalize_dynamic_symtab (abfd, bfd_dynsym); if (bfd_dynsymcnt < 0) { free (bfd_dynsym); bfd_dynsym = NULL; } } else bfd_dynsymcnt = 0; } if (bfd_synthcnt < 0) { bfd_synthcnt = bfd_get_synthetic_symtab (abfd, bfd_symcnt, bfd_sym, bfd_dynsymcnt, bfd_dynsym, &bfd_synthsym); if (bfd_synthcnt < 0) bfd_synthcnt = 0; } } static int cmp_sym_addr (const void *a, const void *b) { asymbol *sym1 = *((asymbol **) a); asymbol *sym2 = *((asymbol **) b); uint64_t a1 = sym1->value; uint64_t a2 = sym2->value; if (sym1->section) a1 += sym1->section->vma; if (sym2->section) a2 += sym2->section->vma; return a1 < a2 ? -1 : (a1 == a2 ? 0 : 1); } const char * Elf::get_funcname_in_plt (uint64_t pc) { if (synthsym == NULL) { get_bfd_symbols(); synthsym = new Vector (bfd_synthcnt + 1); for (long i = 0; i < bfd_synthcnt; i++) synthsym->append (bfd_synthsym + i); synthsym->sort (cmp_sym_addr); } asymbol sym, *symp = &sym; sym.section = NULL; sym.value = pc; long ind = synthsym->bisearch (0, -1, &symp, cmp_sym_addr); if (ind >= 0) return synthsym->get (ind)->name; return NULL; } char* Elf::get_location () { return dbeFile ? dbeFile->get_location () : fname; } #define RET_S(x) if (t == x) return (char *) #x static char * get_elf_class_name (int t) { RET_S (ELFCLASSNONE); RET_S (ELFCLASS32); RET_S (ELFCLASS64); return NTXT ("ELFCLASS_UNKNOWN"); } static char * get_elf_data_name (int t) { RET_S (ELFDATANONE); RET_S (ELFDATA2LSB); RET_S (ELFDATA2MSB); return NTXT ("ELFDATA_UNKNOWN"); } static char * get_elf_osabi_name (int t) { RET_S (ELFOSABI_NONE); RET_S (ELFOSABI_HPUX); RET_S (ELFOSABI_NETBSD); RET_S (ELFOSABI_LINUX); RET_S (ELFOSABI_SOLARIS); RET_S (ELFOSABI_AIX); RET_S (ELFOSABI_IRIX); RET_S (ELFOSABI_FREEBSD); RET_S (ELFOSABI_TRU64); RET_S (ELFOSABI_MODESTO); RET_S (ELFOSABI_OPENBSD); return NTXT ("ELFOSABI_UNKNOWN"); } static char * get_elf_etype_name (int t) { RET_S (ET_NONE); RET_S (ET_REL); RET_S (ET_EXEC); RET_S (ET_DYN); RET_S (ET_CORE); RET_S (ET_LOPROC); RET_S (ET_HIPROC); return NTXT ("ETYPE_UNKNOWN"); } static char * get_elf_ptype_name (int t) { RET_S (PT_NULL); RET_S (PT_LOAD); RET_S (PT_DYNAMIC); RET_S (PT_INTERP); RET_S (PT_NOTE); RET_S (PT_SHLIB); RET_S (PT_PHDR); RET_S (PT_TLS); RET_S (PT_LOOS); RET_S (PT_GNU_EH_FRAME); RET_S (PT_GNU_EH_FRAME); RET_S (PT_HIOS); RET_S (PT_LOPROC); RET_S (PT_HIPROC); return NTXT ("PTYPE_UNKNOWN"); } static char * get_elf_shtype_name (unsigned int t) { RET_S (SHT_NULL); RET_S (SHT_PROGBITS); RET_S (SHT_SYMTAB); RET_S (SHT_STRTAB); RET_S (SHT_RELA); RET_S (SHT_HASH); RET_S (SHT_DYNAMIC); RET_S (SHT_NOTE); RET_S (SHT_NOBITS); RET_S (SHT_REL); RET_S (SHT_SHLIB); RET_S (SHT_DYNSYM); RET_S (SHT_INIT_ARRAY); RET_S (SHT_FINI_ARRAY); RET_S (SHT_PREINIT_ARRAY); RET_S (SHT_GROUP); RET_S (SHT_SYMTAB_SHNDX); RET_S (SHT_LOOS); RET_S (SHT_SUNW_verdef); RET_S (SHT_SUNW_verneed); RET_S (SHT_HIOS); RET_S (SHT_LOPROC); RET_S (SHT_HIPROC); RET_S (SHT_LOUSER); RET_S (SHT_HIUSER); return NTXT ("SHTYPE_UNKNOWN"); } static char * get_elf_machine_name (int t) { RET_S (EM_NONE); RET_S (EM_M32); RET_S (EM_SPARC); RET_S (EM_386); RET_S (EM_68K); RET_S (EM_88K); RET_S (EM_860); RET_S (EM_MIPS); RET_S (EM_S370); RET_S (EM_MIPS_RS3_LE); RET_S (EM_SPARC32PLUS); RET_S (EM_960); RET_S (EM_PPC); RET_S (EM_PPC64); RET_S (EM_V800); RET_S (EM_FR20); RET_S (EM_RH32); RET_S (EM_RCE); RET_S (EM_ARM); RET_S (EM_ALPHA); RET_S (EM_SH); RET_S (EM_SPARCV9); RET_S (EM_TRICORE); RET_S (EM_ARC); RET_S (EM_H8_300); RET_S (EM_H8_300H); RET_S (EM_H8S); RET_S (EM_H8_500); RET_S (EM_IA_64); RET_S (EM_MIPS_X); RET_S (EM_COLDFIRE); RET_S (EM_68HC12); RET_S (EM_MMA); RET_S (EM_PCP); RET_S (EM_NCPU); RET_S (EM_NDR1); RET_S (EM_STARCORE); RET_S (EM_ME16); RET_S (EM_ST100); RET_S (EM_TINYJ); RET_S (EM_X86_64); RET_S (EM_PDSP); RET_S (EM_FX66); RET_S (EM_ST9PLUS); RET_S (EM_ST7); RET_S (EM_68HC16); RET_S (EM_68HC11); RET_S (EM_68HC08); RET_S (EM_68HC05); RET_S (EM_SVX); RET_S (EM_ST19); RET_S (EM_VAX); RET_S (EM_CRIS); RET_S (EM_JAVELIN); RET_S (EM_FIREPATH); RET_S (EM_ZSP); RET_S (EM_MMIX); RET_S (EM_HUANY); RET_S (EM_PRISM); RET_S (EM_AVR); RET_S (EM_FR30); RET_S (EM_D10V); RET_S (EM_D30V); RET_S (EM_V850); RET_S (EM_M32R); RET_S (EM_MN10300); RET_S (EM_MN10200); RET_S (EM_PJ); RET_S (EM_OPENRISC); RET_S (EM_XTENSA); return NTXT ("ELFMACHINE_UNKNOWN"); } static char * get_elf_version_name (int t) { RET_S (EV_NONE); RET_S (EV_CURRENT); return NTXT ("VERSION_UNKNOWN"); } static char * get_elf_ancillary_tag (int t) { RET_S (ANC_SUNW_NULL); RET_S (ANC_SUNW_CHECKSUM); RET_S (ANC_SUNW_MEMBER); RET_S (ANC_SUNW_NUM); return NTXT ("ANCILLARY_TAG_UNKNOWN"); } #define ADD_S(x) if ((f & (x)) == (x)) { sb->append(' '); sb->append(#x); f &= ~(x); } static void dump_sh_flags (StringBuilder *sb, long long flags) { long long f = flags; if (f != 0) { sb->append (NTXT (" [")); ADD_S (SHF_WRITE) ADD_S (SHF_ALLOC) ADD_S (SHF_EXECINSTR) ADD_S (SHF_MERGE) ADD_S (SHF_STRINGS) ADD_S (SHF_INFO_LINK) ADD_S (SHF_LINK_ORDER) ADD_S (SHF_OS_NONCONFORMING) ADD_S (SHF_GROUP) ADD_S (SHF_TLS) ADD_S (SHF_SUNW_ABSENT) ADD_S (SHF_EXCLUDE) if (f != 0 && f != flags) sb->appendf (NTXT (" 0x%llx"), (long long) f); sb->append (NTXT (" ]")); } sb->append (NTXT ("\n")); } static void dump_p_flags (StringBuilder *sb, long long flags) { long long f = flags; if (f != 0) { sb->append (NTXT (" [")); ADD_S (PF_X) ADD_S (PF_W) ADD_S (PF_R) ADD_S (PF_MASKPROC) if (f != 0 && f != flags) sb->appendf (NTXT (" 0x%llx"), (long long) f); sb->append (NTXT (" ]")); } sb->append (NTXT ("\n")); } char * Elf::dump () { StringBuilder sb; sb.sprintf (NTXT ("ELF Header: %s\n"), fname ? fname : GTXT ("(unknown)")); if (ehdrp == NULL) { sb.appendf (GTXT ("\n\n Cannot read Elf header\n")); return sb.toString (); } sb.appendf (NTXT (" %-15s "), NTXT ("e_ident")); for (int i = 0; i < EI_NIDENT; i++) sb.appendf (NTXT ("%x"), ehdrp->e_ident[i]); sb.append (NTXT ("\n")); char *fmt0 = NTXT (" %-15s %10lld ( %s )\n"); char *fmt1 = NTXT (" %-15s 0x%08llx ( %lld )\n"); char *fmt2 = NTXT (" %-15s 0x%08llx"); sb.appendf (fmt0, NTXT ("EI_CLASS"), (long long) ehdrp->e_ident[EI_CLASS], get_elf_class_name (ehdrp->e_ident[EI_CLASS])); sb.appendf (fmt0, NTXT ("EI_DATA"), (long long) ehdrp->e_ident[EI_DATA], get_elf_data_name (ehdrp->e_ident[EI_DATA])); sb.appendf (fmt0, NTXT ("EI_OSABI"), (long long) ehdrp->e_ident[EI_OSABI], get_elf_osabi_name (ehdrp->e_ident[EI_OSABI])); sb.appendf (fmt0, NTXT ("e_type"), (long long) ehdrp->e_type, get_elf_etype_name (ehdrp->e_type)); sb.appendf (fmt0, NTXT ("e_machine"), (long long) ehdrp->e_machine, get_elf_machine_name (ehdrp->e_machine)); sb.appendf (fmt0, NTXT ("e_version"), (long long) ehdrp->e_version, get_elf_version_name (ehdrp->e_version)); sb.appendf (fmt1, NTXT ("e_entry"), (long long) ehdrp->e_entry, (long long) ehdrp->e_entry); sb.appendf (fmt1, NTXT ("e_phoff"), (long long) ehdrp->e_phoff, (long long) ehdrp->e_phoff); sb.appendf (fmt1, NTXT ("e_shoff"), (long long) ehdrp->e_shoff, (long long) ehdrp->e_shoff); sb.appendf (fmt1, NTXT ("e_flags"), (long long) ehdrp->e_flags, (long long) ehdrp->e_flags); sb.appendf (fmt1, NTXT ("e_ehsize"), (long long) ehdrp->e_ehsize, (long long) ehdrp->e_ehsize); sb.appendf (fmt1, NTXT ("e_phentsize"), (long long) ehdrp->e_phentsize, (long long) ehdrp->e_phentsize); sb.appendf (fmt1, NTXT ("e_phnum"), (long long) ehdrp->e_phnum, (long long) ehdrp->e_phnum); sb.appendf (fmt1, NTXT ("e_shentsize"), (long long) ehdrp->e_shentsize, (long long) ehdrp->e_shentsize); sb.appendf (fmt1, NTXT ("e_shnum"), (long long) ehdrp->e_shnum, (long long) ehdrp->e_shnum); sb.appendf (fmt1, NTXT ("e_shstrndx"), (long long) ehdrp->e_shstrndx, (long long) ehdrp->e_shstrndx); for (unsigned int i = 0; i < ehdrp->e_phnum; i++) { sb.appendf (NTXT ("\nProgram Header[%d]:\n"), i); Elf_Internal_Phdr *phdr = get_phdr (i); if (phdr == NULL) { sb.appendf (NTXT (" ERROR: get_phdr(%d) failed\n"), i); continue; } sb.appendf (fmt0, "p_type", (long long) phdr->p_type, get_elf_ptype_name (phdr->p_type)); sb.appendf (fmt2, "p_flags", (long long) phdr->p_flags); dump_p_flags (&sb, phdr->p_flags); sb.appendf (fmt1, "p_offset", (long long) phdr->p_offset, (long long) phdr->p_offset); sb.appendf (fmt1, "p_vaddr", (long long) phdr->p_vaddr, (long long) phdr->p_vaddr); sb.appendf (fmt1, "p_paddr", (long long) phdr->p_paddr, (long long) phdr->p_paddr); sb.appendf (fmt1, "p_filesz", (long long) phdr->p_filesz, (long long) phdr->p_filesz); sb.appendf (fmt1, "p_memsz", (long long) phdr->p_memsz, (long long) phdr->p_memsz); sb.appendf (fmt1, "p_align", (long long) phdr->p_align, (long long) phdr->p_align); } for (unsigned int i = 1; i < ehdrp->e_shnum; i++) { sb.appendf (NTXT ("\nSection Header[%d]:\n"), i); Elf_Internal_Shdr *shdr = get_shdr (i); if (shdr == NULL) { sb.appendf (NTXT (" ERROR: get_shdr(%d) failed\n"), i); continue; } char *s = get_sec_name (i); sb.appendf (fmt0, "sh_name", (long long) shdr->sh_name, s ? s : NTXT ("NULL")); sb.appendf (fmt0, "sh_type", (long long) shdr->sh_type, get_elf_shtype_name (shdr->sh_type)); sb.appendf (fmt2, "sh_flags", (long long) shdr->sh_flags); dump_sh_flags (&sb, shdr->sh_flags); sb.appendf (fmt1, "sh_addr", (long long) shdr->sh_addr, (long long) shdr->sh_addr); sb.appendf (fmt1, "sh_offset", (long long) shdr->sh_offset, (long long) shdr->sh_offset); sb.appendf (fmt1, "sh_size", (long long) shdr->sh_size, (long long) shdr->sh_size); sb.appendf (fmt1, "sh_link", (long long) shdr->sh_link, (long long) shdr->sh_link); sb.appendf (fmt1, "sh_info", (long long) shdr->sh_info, (long long) shdr->sh_info); sb.appendf (fmt1, "sh_addralign", (long long) shdr->sh_addralign, (long long) shdr->sh_addralign); sb.appendf (fmt1, "sh_entsize", (long long) shdr->sh_entsize, (long long) shdr->sh_entsize); } for (unsigned int i = 1; i < ehdrp->e_shnum; i++) { Elf_Internal_Shdr *shdr = get_shdr (i); if (shdr == NULL) continue; char *secName = get_sec_name (i); if (secName == NULL) continue; if (strcmp (NTXT (".SUNW_ancillary"), secName) == 0) { sb.appendf (NTXT ("\nSection[%d]: %s\n"), i, secName); Elf_Data *dp = elf_getdata (i); for (int j = 0, cnt = (int) (shdr->sh_size / shdr->sh_entsize); j < cnt; j++) { Elf64_Ancillary anc; if (elf_getancillary (dp, j, &anc) == NULL) break; sb.appendf (NTXT ("%10d %-20s 0x%08llx %6lld"), j, get_elf_ancillary_tag ((int) anc.a_tag), (long long) anc.a_un.a_ptr, (long long) anc.a_un.a_ptr); if (anc.a_tag == ANC_SUNW_MEMBER) sb.appendf (NTXT (" %s\n"), STR (elf_strptr (shdr->sh_link, anc.a_un.a_ptr))); else sb.append (NTXT ("\n")); } } } return sb.toString (); } void Elf::dump_elf_sec () { if (!DUMP_ELF_SEC) return; if (ehdrp == NULL) return; Dprintf (DUMP_ELF_SEC, "======= DwarfLib::dump_elf_sec\n" " N |type|flags| sh_addr | sh_offset | sh_size | sh_link |" " sh_info | sh_addralign | sh_entsize | sh_name | name\n"); for (unsigned int sec = 1; sec < ehdrp->e_shnum; sec++) { Elf_Internal_Shdr *shdr = get_shdr (sec); if (shdr == NULL) continue; char *name = elf_strptr (ehdrp->e_shstrndx, shdr->sh_name); Dprintf (DUMP_ELF_SEC, "%3d:%3d |%4d |%9lld | %9lld |%8lld |%8lld |" "%8lld |%14d |%11lld | %6lld %s\n", sec, (int) shdr->sh_type, (int) shdr->sh_flags, (long long) shdr->sh_addr, (long long) shdr->sh_offset, (long long) shdr->sh_size, (long long) shdr->sh_link, (long long) shdr->sh_info, (int) shdr->sh_addralign, (long long) shdr->sh_entsize, (long long) shdr->sh_name, name ? name : NTXT ("NULL")); } Dprintf (DUMP_ELF_SEC, NTXT ("\n")); }