#include "libiberty.h" #include "gprof.h" #include "core.h" #include "symtab.h" bfd *core_bfd; int core_num_syms; asymbol **core_syms; asection *core_text_sect; PTR core_text_space; int min_insn_size; int offset_to_code; /* For mapping symbols to specific .o files during file ordering. */ struct function_map { char *function_name; char *file_name; }; struct function_map *symbol_map; int symbol_map_count; extern void i386_find_call PARAMS ((Sym *, bfd_vma, bfd_vma)); extern void alpha_find_call PARAMS ((Sym *, bfd_vma, bfd_vma)); extern void vax_find_call PARAMS ((Sym *, bfd_vma, bfd_vma)); extern void tahoe_find_call PARAMS ((Sym *, bfd_vma, bfd_vma)); extern void sparc_find_call PARAMS ((Sym *, bfd_vma, bfd_vma)); static void DEFUN (read_function_mappings, (filename), const char *filename) { FILE *file = fopen (filename, "r"); char dummy[1024]; int count = 0; if (!file) { fprintf (stderr, "%s: could not open %s.\n", whoami, filename); done (1); } /* First parse the mapping file so we know how big we need to make our tables. We also do some sanity checks at this time. */ while (!feof (file)) { int matches; matches = fscanf (file, "%[^\n:]", dummy); if (!matches) { fprintf (stderr, "%s: unable to parse mapping file %s.\n", whoami, filename); done (1); } /* Just skip messages about files with no symbols. */ if (!strncmp (dummy, "No symbols in ", 14)) { fscanf (file, "\n"); continue; } /* Don't care what else is on this line at this point. */ fscanf (file, "%[^\n]\n", dummy); count++; } /* Now we know how big we need to make our table. */ symbol_map = ((struct function_map *) xmalloc (count * sizeof (struct function_map))); /* Rewind the input file so we can read it again. */ rewind (file); /* Read each entry and put it into the table. */ count = 0; while (!feof (file)) { int matches; char *tmp; matches = fscanf (file, "%[^\n:]", dummy); if (!matches) { fprintf (stderr, "%s: unable to parse mapping file %s.\n", whoami, filename); done (1); } /* Just skip messages about files with no symbols. */ if (!strncmp (dummy, "No symbols in ", 14)) { fscanf (file, "\n"); continue; } /* dummy has the filename, go ahead and copy it. */ symbol_map[count].file_name = xmalloc (strlen (dummy) + 1); strcpy (symbol_map[count].file_name, dummy); /* Now we need the function name. */ fscanf (file, "%[^\n]\n", dummy); tmp = strrchr (dummy, ' ') + 1; symbol_map[count].function_name = xmalloc (strlen (tmp) + 1); strcpy (symbol_map[count].function_name, tmp); count++; } /* Record the size of the map table for future reference. */ symbol_map_count = count; } void DEFUN (core_init, (a_out_name), const char *a_out_name) { core_bfd = bfd_openr (a_out_name, 0); if (!core_bfd) { perror (a_out_name); done (1); } if (!bfd_check_format (core_bfd, bfd_object)) { fprintf (stderr, "%s: %s: not in a.out format\n", whoami, a_out_name); done (1); } /* get core's text section: */ core_text_sect = bfd_get_section_by_name (core_bfd, ".text"); if (!core_text_sect) { core_text_sect = bfd_get_section_by_name (core_bfd, "$CODE$"); if (!core_text_sect) { fprintf (stderr, "%s: can't find .text section in %s\n", whoami, a_out_name); done (1); } } /* read core's symbol table: */ /* this will probably give us more than we need, but that's ok: */ core_num_syms = bfd_get_symtab_upper_bound (core_bfd); if (core_num_syms < 0) { fprintf (stderr, "%s: %s: %s\n", whoami, a_out_name, bfd_errmsg (bfd_get_error ())); done (1); } core_syms = (asymbol **) xmalloc (core_num_syms); core_num_syms = bfd_canonicalize_symtab (core_bfd, core_syms); if (core_num_syms < 0) { fprintf (stderr, "%s: %s: %s\n", whoami, a_out_name, bfd_errmsg (bfd_get_error ())); done (1); } min_insn_size = 1; offset_to_code = 0; switch (bfd_get_arch (core_bfd)) { case bfd_arch_vax: case bfd_arch_tahoe: offset_to_code = 2; break; case bfd_arch_alpha: min_insn_size = 4; break; default: break; } if (function_mapping_file) read_function_mappings (function_mapping_file); } /* * Read in the text space of an a.out file */ void DEFUN (core_get_text_space, (core_bfd), bfd * core_bfd) { core_text_space = (PTR) malloc (core_text_sect->_raw_size); if (!core_text_space) { fprintf (stderr, "%s: ran out room for %ld bytes of text space\n", whoami, core_text_sect->_raw_size); done (1); } if (!bfd_get_section_contents (core_bfd, core_text_sect, core_text_space, 0, core_text_sect->_raw_size)) { bfd_perror ("bfd_get_section_contents"); free (core_text_space); core_text_space = 0; } if (!core_text_space) { fprintf (stderr, "%s: can't do -c\n", whoami); } } void DEFUN (find_call, (parent, p_lowpc, p_highpc), Sym * parent AND bfd_vma p_lowpc AND bfd_vma p_highpc) { switch (bfd_get_arch (core_bfd)) { case bfd_arch_i386: i386_find_call (parent, p_lowpc, p_highpc); break; case bfd_arch_alpha: alpha_find_call (parent, p_lowpc, p_highpc); break; case bfd_arch_vax: vax_find_call (parent, p_lowpc, p_highpc); break; case bfd_arch_sparc: sparc_find_call (parent, p_lowpc, p_highpc); break; case bfd_arch_tahoe: tahoe_find_call (parent, p_lowpc, p_highpc); break; default: fprintf (stderr, "%s: -c not supported on architecture %s\n", whoami, bfd_printable_name(core_bfd)); /* Don't give the error more than once. */ ignore_direct_calls = FALSE; } } /* * Return class of symbol SYM. The returned class can be any of: * 0 -> symbol is not interesting to us * 'T' -> symbol is a global name * 't' -> symbol is a local (static) name */ static int DEFUN (core_sym_class, (sym), asymbol * sym) { symbol_info syminfo; const char *name; char sym_prefix; int i; if (sym->section == NULL || (sym->flags & BSF_DEBUGGING) != 0) { return 0; } /* * Must be a text symbol, and static text symbols don't qualify if * ignore_static_funcs set. */ if (ignore_static_funcs && (sym->flags & BSF_LOCAL)) { DBG (AOUTDEBUG, printf ("[core_sym_class] %s: not a function\n", sym->name)); return 0; } bfd_get_symbol_info (core_bfd, sym, &syminfo); i = syminfo.type; if (i == 'T') { return i; /* it's a global symbol */ } if (i == 'W') { /* Treat weak symbols as text symbols. FIXME: a weak symbol may also be a data symbol. */ return 'T'; } if (i != 't') { /* not a static text symbol */ DBG (AOUTDEBUG, printf ("[core_sym_class] %s is of class %c\n", sym->name, i)); return 0; } /* do some more filtering on static function-names: */ if (ignore_static_funcs) { return 0; } /* * Can't zero-length name or funny characters in name, where * `funny' includes: `.' (.o file names) and `$' (Pascal labels). */ if (!sym->name || sym->name[0] == '\0') { return 0; } for (name = sym->name; *name; ++name) { if (*name == '.' || *name == '$') { return 0; } } /* * On systems where the C compiler adds an underscore to all * names, static names without underscores seem usually to be * labels in hand written assembler in the library. We don't want * these names. This is certainly necessary on a Sparc running * SunOS 4.1 (try profiling a program that does a lot of * division). I don't know whether it has harmful side effects on * other systems. Perhaps it should be made configurable. */ sym_prefix = bfd_get_symbol_leading_char (core_bfd); if ((sym_prefix && sym_prefix != sym->name[0]) /* * GCC may add special symbols to help gdb figure out the file * language. We want to ignore these, since sometimes they mask * the real function. (dj@ctron) */ || !strncmp (sym->name, "__gnu_compiled", 14) || !strncmp (sym->name, "___gnu_compiled", 15)) { return 0; } /* If the object file supports marking of function symbols, then we can zap anything that doesn't have BSF_FUNCTION set. */ if (ignore_non_functions && (sym->flags & BSF_FUNCTION) == 0) return 0; return 't'; /* it's a static text symbol */ } /* * Get whatever source info we can get regarding address ADDR: */ static bool DEFUN (get_src_info, (addr, filename, name, line_num), bfd_vma addr AND const char **filename AND const char **name AND int *line_num) { const char *fname = 0, *func_name = 0; int l = 0; if (bfd_find_nearest_line (core_bfd, core_text_sect, core_syms, addr - core_text_sect->vma, &fname, &func_name, (unsigned int *) &l) && fname && func_name && l) { DBG (AOUTDEBUG, printf ("[get_src_info] 0x%lx -> %s:%d (%s)\n", addr, fname, l, func_name)); *filename = fname; *name = func_name; *line_num = l; return TRUE; } else { DBG (AOUTDEBUG, printf ("[get_src_info] no info for 0x%lx (%s:%d,%s)\n", (long) addr, fname ? fname : "", l, func_name ? func_name : "")); return FALSE; } } /* * Read in symbol table from core. One symbol per function is * entered. */ void DEFUN (core_create_function_syms, (core_bfd), bfd * core_bfd) { bfd_vma min_vma = ~0, max_vma = 0; int class; long i, j, found, skip; /* pass 1 - determine upper bound on number of function names: */ symtab.len = 0; for (i = 0; i < core_num_syms; ++i) { if (!core_sym_class (core_syms[i])) { continue; } /* This should be replaced with a binary search or hashed search. Gross. Don't create a symtab entry for a function that has a mapping to a file, unless it's the first function in the file. */ skip = 0; for (j = 0; j < symbol_map_count; j++) if (!strcmp (core_syms[i]->name, symbol_map[j].function_name)) { if (j > 0 && ! strcmp (symbol_map [j].file_name, symbol_map [j - 1].file_name)) skip = 1; break; } if (!skip) ++symtab.len; } if (symtab.len == 0) { fprintf (stderr, "%s: file `%s' has no symbols\n", whoami, a_out_name); done (1); } /* the "+ 2" is for the sentinels: */ symtab.base = (Sym *) xmalloc ((symtab.len + 2) * sizeof (Sym)); /* pass 2 - create symbols: */ symtab.limit = symtab.base; for (i = 0; i < core_num_syms; ++i) { class = core_sym_class (core_syms[i]); if (!class) { DBG (AOUTDEBUG, printf ("[core_create_function_syms] rejecting: 0x%lx %s\n", core_syms[i]->value, core_syms[i]->name)); continue; } /* This should be replaced with a binary search or hashed search. Gross. */ skip = 0; found = 0; for (j = 0; j < symbol_map_count; j++) if (!strcmp (core_syms[i]->name, symbol_map[j].function_name)) { if (j > 0 && ! strcmp (symbol_map [j].file_name, symbol_map [j - 1].file_name)) skip = 1; else found = j; break; } if (skip) continue; sym_init (symtab.limit); /* symbol offsets are always section-relative: */ symtab.limit->addr = core_syms[i]->value + core_syms[i]->section->vma; if (symbol_map_count && !strcmp (core_syms[i]->name, symbol_map[found].function_name)) { symtab.limit->name = symbol_map[found].file_name; symtab.limit->mapped = 1; } else { symtab.limit->name = core_syms[i]->name; symtab.limit->mapped = 0; } /* Lookup filename and line number, if we can */ { const char *filename, *func_name; if (get_src_info (symtab.limit->addr, &filename, &func_name, &symtab.limit->line_num)) { symtab.limit->file = source_file_lookup_path (filename); /* FIXME: Checking __osf__ here does not work with a cross gprof. */ #ifdef __osf__ /* * Suppress symbols that are not function names. This is * useful to suppress code-labels and aliases. * * This is known to be useful under DEC's OSF/1. Under SunOS 4.x, * labels do not appear in the symbol table info, so this isn't * necessary. */ if (strcmp (symtab.limit->name, func_name) != 0) { /* * The symbol's address maps to a different name, so * it can't be a function-entry point. This happens * for labels, for example. */ DBG (AOUTDEBUG, printf ("[core_create_function_syms: rej %s (maps to %s)\n", symtab.limit->name, func_name)); continue; } #endif } } symtab.limit->is_func = TRUE; symtab.limit->is_bb_head = TRUE; if (class == 't') { symtab.limit->is_static = TRUE; } min_vma = MIN (symtab.limit->addr, min_vma); max_vma = MAX (symtab.limit->addr, max_vma); /* * If we see "main" without an initial '_', we assume names * are *not* prefixed by '_'. */ if (symtab.limit->name[0] == 'm' && discard_underscores && strcmp (symtab.limit->name, "main") == 0) { discard_underscores = 0; } DBG (AOUTDEBUG, printf ("[core_create_function_syms] %ld %s 0x%lx\n", (long) (symtab.limit - symtab.base), symtab.limit->name, symtab.limit->addr)); ++symtab.limit; } /* create sentinels: */ sym_init (symtab.limit); symtab.limit->name = ""; symtab.limit->addr = 0; symtab.limit->end_addr = min_vma - 1; ++symtab.limit; sym_init (symtab.limit); symtab.limit->name = ""; symtab.limit->addr = max_vma + 1; symtab.limit->end_addr = ~0; ++symtab.limit; symtab.len = symtab.limit - symtab.base; symtab_finalize (&symtab); } /* * Read in symbol table from core. One symbol per line of source code * is entered. */ void DEFUN (core_create_line_syms, (core_bfd), bfd * core_bfd) { char prev_name[PATH_MAX], prev_filename[PATH_MAX]; bfd_vma vma, min_vma = ~0, max_vma = 0; bfd_vma offset; Sym *prev, dummy, *sentinel, *sym; const char *filename; int prev_line_num; Sym_Table ltab; /* * Create symbols for functions as usual. This is necessary in * cases where parts of a program were not compiled with -g. For * those parts we still want to get info at the function level: */ core_create_function_syms (core_bfd); /* pass 1 - counter number of symbols: */ /* * To find all line information, walk through all possible * text-space addresses (one by one!) and get the debugging * info for each address. When the debugging info changes, * it is time to create a new symbol. * * Of course, this is rather slow and it would be better if * bfd would provide an iterator for enumerating all line infos */ prev_name[0] = '\0'; ltab.len = 0; prev_filename[0] = '\0'; prev_line_num = 0; for (offset = 0; offset < core_text_sect->_raw_size; offset += min_insn_size) { vma = core_text_sect->vma + offset; if (!get_src_info (vma, &filename, &dummy.name, &dummy.line_num) || (prev_line_num == dummy.line_num && strcmp (prev_name, dummy.name) == 0 && strcmp (prev_filename, filename) == 0)) { continue; } ++ltab.len; prev_line_num = dummy.line_num; strcpy (prev_name, dummy.name); strcpy (prev_filename, filename); min_vma = MIN (vma, min_vma); max_vma = MAX (vma, max_vma); } /* make room for function symbols, too: */ ltab.len += symtab.len; ltab.base = (Sym *) xmalloc (ltab.len * sizeof (Sym)); ltab.limit = ltab.base; /* pass 2 - create symbols: */ /* We now set is_static as we go along, rather than by running through the symbol table at the end. The old way called symtab_finalize before the is_static pass, causing a problem since symtab_finalize uses is_static as part of its address conflict resolution algorithm. Since global symbols were prefered over static symbols, and all line symbols were global at that point, static function names that conflicted with their own line numbers (static, but labeled as global) were rejected in favor of the line num. This was not the desired functionality. We always want to keep our function symbols and discard any conflicting line symbols. Perhaps symtab_finalize should be modified to make this distinction as well, but the current fix works and the code is a lot cleaner now. */ prev = 0; for (offset = 0; offset < core_text_sect->_raw_size; offset += min_insn_size) { sym_init (ltab.limit); if (!get_src_info (core_text_sect->vma + offset, &filename, <ab.limit->name, <ab.limit->line_num) || (prev && prev->line_num == ltab.limit->line_num && strcmp (prev->name, ltab.limit->name) == 0 && strcmp (prev->file->name, filename) == 0)) { continue; } /* make name pointer a malloc'ed string: */ ltab.limit->name = xstrdup (ltab.limit->name); ltab.limit->file = source_file_lookup_path (filename); ltab.limit->addr = core_text_sect->vma + offset; /* Set is_static based on the enclosing function, using either: * 1) the previous symbol, if it's from the same function, or * 2) a symtab lookup */ if (prev && ltab.limit->file == prev->file && strcmp (ltab.limit->name, prev->name) == 0) { ltab.limit->is_static = prev->is_static; } else { sym = sym_lookup(&symtab, ltab.limit->addr); ltab.limit->is_static = sym->is_static; } prev = ltab.limit; /* * If we see "main" without an initial '_', we assume names * are *not* prefixed by '_'. */ if (ltab.limit->name[0] == 'm' && discard_underscores && strcmp (ltab.limit->name, "main") == 0) { discard_underscores = 0; } DBG (AOUTDEBUG, printf ("[core_create_line_syms] %d %s 0x%lx\n", ltab.limit - ltab.base, ltab.limit->name, ltab.limit->addr)); ++ltab.limit; } /* update sentinels: */ sentinel = sym_lookup (&symtab, 0); if (strcmp (sentinel->name, "") == 0 && min_vma <= sentinel->end_addr) { sentinel->end_addr = min_vma - 1; } sentinel = sym_lookup (&symtab, ~0); if (strcmp (sentinel->name, "") == 0 && max_vma >= sentinel->addr) { sentinel->addr = max_vma + 1; } /* copy in function symbols: */ memcpy (ltab.limit, symtab.base, symtab.len * sizeof (Sym)); ltab.limit += symtab.len; if (ltab.limit - ltab.base != ltab.len) { fprintf (stderr, "%s: somebody miscounted: ltab.len=%d instead of %ld\n", whoami, ltab.len, (long) (ltab.limit - ltab.base)); done (1); } /* finalize ltab and make it symbol table: */ symtab_finalize (<ab); free (symtab.base); symtab = ltab; }