/* SPDX-License-Identifier: GPL-2.0-only Copyright (C) 2006 Mandriva Conectiva S.A. Copyright (C) 2006 Arnaldo Carvalho de Melo Copyright (C) 2007 Arnaldo Carvalho de Melo */ #include #include #include #include #include #include #include #include #include #include "dwarves.h" #include "dwarves_emit.h" #include "dutil.h" #include "elf_symtab.h" static int verbose; static int show_inline_expansions; static int show_variables; static int show_externals; static int show_cc_inlined; static int show_cc_uninlined; static char *symtab_name; static bool show_prototypes; static bool expand_types; static bool compilable_output; static struct type_emissions emissions; static uint64_t addr; static char *class_name; static char *function_name; static struct conf_fprintf conf; static struct conf_load conf_load = { .conf_fprintf = &conf, }; struct fn_stats { struct list_head node; struct tag *tag; const struct cu *cu; uint32_t nr_expansions; uint32_t size_expansions; uint32_t nr_files; }; static struct fn_stats *fn_stats__new(struct tag *tag, const struct cu *cu) { struct fn_stats *stats = malloc(sizeof(*stats)); if (stats != NULL) { const struct function *fn = tag__function(tag); stats->tag = tag; stats->cu = cu; stats->nr_files = 1; stats->nr_expansions = fn->cu_total_nr_inline_expansions; stats->size_expansions = fn->cu_total_size_inline_expansions; } return stats; } static void fn_stats__delete(struct fn_stats *stats) { free(stats); } static LIST_HEAD(fn_stats__list); static struct fn_stats *fn_stats__find(const char *name) { struct fn_stats *pos; list_for_each_entry(pos, &fn_stats__list, node) if (strcmp(function__name(tag__function(pos->tag)), name) == 0) return pos; return NULL; } static void fn_stats__delete_list(void) { struct fn_stats *pos, *n; list_for_each_entry_safe(pos, n, &fn_stats__list, node) { list_del_init(&pos->node); fn_stats__delete(pos); } } static void fn_stats__add(struct tag *tag, const struct cu *cu) { struct fn_stats *fns = fn_stats__new(tag, cu); if (fns != NULL) list_add(&fns->node, &fn_stats__list); } static void fn_stats_inline_exps_fmtr(const struct fn_stats *stats) { struct function *fn = tag__function(stats->tag); if (fn->lexblock.nr_inline_expansions > 0) printf("%s: %u %d\n", function__name(fn), fn->lexblock.nr_inline_expansions, fn->lexblock.size_inline_expansions); } static void fn_stats_labels_fmtr(const struct fn_stats *stats) { struct function *fn = tag__function(stats->tag); if (fn->lexblock.nr_labels > 0) printf("%s: %u\n", function__name(fn), fn->lexblock.nr_labels); } static void fn_stats_variables_fmtr(const struct fn_stats *stats) { struct function *fn = tag__function(stats->tag); if (fn->lexblock.nr_variables > 0) printf("%s: %u\n", function__name(fn), fn->lexblock.nr_variables); } static void fn_stats_nr_parms_fmtr(const struct fn_stats *stats) { struct function *fn = tag__function(stats->tag); printf("%s: %u\n", function__name(fn), fn->proto.nr_parms); } static void fn_stats_name_len_fmtr(const struct fn_stats *stats) { struct function *fn = tag__function(stats->tag); const char *name = function__name(fn); printf("%s: %zd\n", name, strlen(name)); } static void fn_stats_size_fmtr(const struct fn_stats *stats) { struct function *fn = tag__function(stats->tag); const size_t size = function__size(fn); if (size != 0) printf("%s: %zd\n", function__name(fn), size); } static void fn_stats_fmtr(const struct fn_stats *stats) { if (verbose || show_prototypes) { tag__fprintf(stats->tag, stats->cu, &conf, stdout); putchar('\n'); if (show_prototypes) return; if (show_variables || show_inline_expansions) function__fprintf_stats(stats->tag, stats->cu, &conf, stdout); printf("/* definitions: %u */\n", stats->nr_files); putchar('\n'); } else { struct function *fn = tag__function(stats->tag); puts(function__name(fn)); } } static void print_fn_stats(void (*formatter)(const struct fn_stats *f)) { struct fn_stats *pos; list_for_each_entry(pos, &fn_stats__list, node) formatter(pos); } static void fn_stats_inline_stats_fmtr(const struct fn_stats *stats) { if (stats->nr_expansions > 1) printf("%-31.31s %6u %7u %6u %6u\n", function__name(tag__function(stats->tag)), stats->size_expansions, stats->nr_expansions, stats->size_expansions / stats->nr_expansions, stats->nr_files); } static void print_total_inline_stats(void) { printf("%-32.32s %5.5s / %5.5s = %5.5s %s\n", "name", "totsz", "exp#", "avgsz", "src#"); print_fn_stats(fn_stats_inline_stats_fmtr); } static void fn_stats__dupmsg(struct function *func, const struct cu *func_cu, struct function *dup __maybe_unused, const struct cu *dup_cu, char *hdr, const char *fmt, ...) { va_list args; if (!*hdr) printf("function: %s\nfirst: %s\ncurrent: %s\n", function__name(func), func_cu->name, dup_cu->name); va_start(args, fmt); vprintf(fmt, args); va_end(args); *hdr = 1; } static void fn_stats__chkdupdef(struct function *func, const struct cu *func_cu, struct function *dup, const struct cu *dup_cu) { char hdr = 0; const size_t func_size = function__size(func); const size_t dup_size = function__size(dup); if (func_size != dup_size) fn_stats__dupmsg(func, func_cu, dup, dup_cu, &hdr, "size: %zd != %zd\n", func_size, dup_size); if (func->proto.nr_parms != dup->proto.nr_parms) fn_stats__dupmsg(func, func_cu, dup, dup_cu, &hdr, "nr_parms: %u != %u\n", func->proto.nr_parms, dup->proto.nr_parms); /* XXX put more checks here: member types, member ordering, etc */ if (hdr) putchar('\n'); } static bool function__filter(struct function *function, struct cu *cu) { struct fn_stats *fstats; const char *name; if (!function__tag(function)->top_level) return true; /* * FIXME: remove this check and try to fix the parameter abstract * origin code someday... */ if (!function->name) return true; name = function__name(function); if (show_externals && !function->external) return true; if (show_cc_uninlined && function->inlined != DW_INL_declared_not_inlined) return true; if (show_cc_inlined && function->inlined != DW_INL_inlined) return true; fstats = fn_stats__find(name); if (fstats != NULL) { struct function *fn = tag__function(fstats->tag); if (!fn->external) return false; if (verbose) fn_stats__chkdupdef(fn, fstats->cu, function, cu); fstats->nr_expansions += function->cu_total_nr_inline_expansions; fstats->size_expansions += function->cu_total_size_inline_expansions; fstats->nr_files++; return true; } return false; } static int cu_unique_iterator(struct cu *cu, void *cookie __maybe_unused) { cu__account_inline_expansions(cu); struct function *pos; uint32_t id; cu__for_each_function(cu, id, pos) if (!function__filter(pos, cu)) fn_stats__add(function__tag(pos), cu); return 0; } static int cu_class_iterator(struct cu *cu, void *cookie) { type_id_t target_id; struct tag *target = cu__find_struct_by_name(cu, cookie, 0, &target_id); if (target == NULL) return 0; struct function *pos; uint32_t id; cu__for_each_function(cu, id, pos) { if (pos->inlined || !ftype__has_parm_of_type(&pos->proto, target_id, cu)) continue; if (verbose) tag__fprintf(function__tag(pos), cu, &conf, stdout); else fputs(function__name(pos), stdout); putchar('\n'); } return 0; } static int function__emit_type_definitions(struct function *func, struct cu *cu, FILE *fp) { struct parameter *pos; struct ftype *proto = func->btf ? tag__ftype(cu__type(cu, func->proto.tag.type)) : &func->proto; struct tag *type = cu__type(cu, proto->tag.type); retry_return_type: /* type == NULL means the return is void */ if (type == NULL) goto do_parameters; if (tag__is_pointer(type) || tag__is_modifier(type)) { type = cu__type(cu, type->type); goto retry_return_type; } if (tag__is_type(type) && !tag__type(type)->definition_emitted) { type__emit_definitions(type, cu, &emissions, fp); type__emit(type, cu, NULL, NULL, fp); } do_parameters: ftype__for_each_parameter(proto, pos) { type = cu__type(cu, pos->tag.type); try_again: if (type == NULL) continue; if (tag__is_pointer(type) || tag__is_modifier(type)) { type = cu__type(cu, type->type); goto try_again; } if (type->tag == DW_TAG_subroutine_type) { ftype__emit_definitions(tag__ftype(type), cu, &emissions, fp); } else if (tag__is_type(type) && !tag__type(type)->definition_emitted) { type__emit_definitions(type, cu, &emissions, fp); if (!tag__is_typedef(type)) type__emit(type, cu, NULL, NULL, fp); putchar('\n'); } } return 0; } static void function__show(struct function *func, struct cu *cu) { struct tag *tag = function__tag(func); if (func->abstract_origin || func->external) return; if (expand_types) function__emit_type_definitions(func, cu, stdout); tag__fprintf(tag, cu, &conf, stdout); if (compilable_output) { struct tag *type = cu__type(cu, func->proto.tag.type); fprintf(stdout, "\n{"); if (type != NULL && type->type != 0) { /* NULL == void */ if (tag__is_pointer(type)) fprintf(stdout, "\n\treturn (void *)0;"); else if (tag__is_struct(type)) fprintf(stdout, "\n\treturn *(struct %s *)1;", class__name(tag__class(type))); else if (tag__is_union(type)) fprintf(stdout, "\n\treturn *(union %s *)1;", type__name(tag__type(type))); else if (tag__is_typedef(type)) fprintf(stdout, "\n\treturn *(%s *)1;", type__name(tag__type(type))); else fprintf(stdout, "\n\treturn 0;"); } fprintf(stdout, "\n}\n"); } putchar('\n'); if (show_variables || show_inline_expansions) function__fprintf_stats(tag, cu, &conf, stdout); } static int cu_function_iterator(struct cu *cu, void *cookie) { struct function *function; uint32_t id; cu__for_each_function(cu, id, function) { if (cookie && strcmp(function__name(function), cookie) != 0) continue; function__show(function, cu); if (!expand_types) return 1; } return 0; } int elf_symtab__show(char *filename) { int fd = open(filename, O_RDONLY), err = -1; if (fd < 0) return -1; if (elf_version(EV_CURRENT) == EV_NONE) { fprintf(stderr, "%s: cannot set libelf version.\n", __func__); goto out_close; } Elf *elf = elf_begin(fd, ELF_C_READ_MMAP, NULL); if (elf == NULL) { fprintf(stderr, "%s: cannot read %s ELF file.\n", __func__, filename); goto out_close; } GElf_Ehdr ehdr; if (gelf_getehdr(elf, &ehdr) == NULL) { fprintf(stderr, "%s: cannot get elf header.\n", __func__); goto out_elf_end; } struct elf_symtab *symtab = elf_symtab__new(symtab_name, elf); if (symtab == NULL) goto out_elf_end; GElf_Sym sym; uint32_t index; int longest_name = 0; elf_symtab__for_each_symbol(symtab, index, sym) { if (!elf_sym__is_local_function(&sym)) continue; int len = strlen(elf_sym__name(&sym, symtab)); if (len > longest_name) longest_name = len; } if (longest_name > 32) longest_name = 32; int index_spacing = 0; int nr = elf_symtab__nr_symbols(symtab); while (nr) { ++index_spacing; nr /= 10; } elf_symtab__for_each_symbol(symtab, index, sym) { if (!elf_sym__is_local_function(&sym)) continue; printf("%*d: %-*s %#llx %5u\n", index_spacing, index, longest_name, elf_sym__name(&sym, symtab), (unsigned long long)elf_sym__value(&sym), elf_sym__size(&sym)); } elf_symtab__delete(symtab); err = 0; out_elf_end: elf_end(elf); out_close: close(fd); return err; } int elf_symtabs__show(char *filenames[]) { int i = 0; while (filenames[i] != NULL) { if (elf_symtab__show(filenames[i])) return EXIT_FAILURE; ++i; } return EXIT_SUCCESS; } static enum load_steal_kind pfunct_stealer(struct cu *cu, struct conf_load *conf_load __maybe_unused) { if (function_name) { struct tag *tag = cu__find_function_by_name(cu, function_name); if (tag) { function__show(tag__function(tag), cu); return LSK__STOP_LOADING; } } else if (class_name) { cu_class_iterator(cu, class_name); } return LSK__DELETE; } /* Name and version of program. */ ARGP_PROGRAM_VERSION_HOOK_DEF = dwarves_print_version; #define ARGP_symtab 300 #define ARGP_no_parm_names 301 #define ARGP_compile 302 static const struct argp_option pfunct__options[] = { { .key = 'a', .name = "addr", .arg = "ADDR", .doc = "show just the function that where ADDR is", }, { .key = 'b', .name = "expand_types", .doc = "Expand types needed by the prototype", }, { .key = 'c', .name = "class", .arg = "CLASS", .doc = "functions that have CLASS pointer parameters", }, { .key = 'E', .name = "externals", .doc = "show just external functions", }, { .key = 'f', .name = "function", .arg = "FUNCTION", .doc = "show just FUNCTION", }, { .name = "format_path", .key = 'F', .arg = "FORMAT_LIST", .doc = "List of debugging formats to try" }, { .key = 'g', .name = "goto_labels", .doc = "show number of goto labels", }, { .key = 'G', .name = "cc_uninlined", .doc = "declared inline, uninlined by compiler", }, { .key = 'H', .name = "cc_inlined", .doc = "not declared inline, inlined by compiler", }, { .key = 'i', .name = "inline_expansions", .doc = "show inline expansions", }, { .key = 'I', .name = "inline_expansions_stats", .doc = "show inline expansions stats", }, { .key = 'l', .name = "decl_info", .doc = "show source code info", }, { .key = 't', .name = "total_inline_stats", .doc = "show Multi-CU total inline expansions stats", }, { .key = 's', .name = "sizes", .doc = "show size of functions", }, { .key = 'N', .name = "function_name_len", .doc = "show size of functions names", }, { .key = 'p', .name = "nr_parms", .doc = "show number of parameters", }, { .key = 'P', .name = "prototypes", .doc = "show function prototypes", }, { .key = 'S', .name = "nr_variables", .doc = "show number of variables", }, { .key = 'T', .name = "variables", .doc = "show variables", }, { .key = 'V', .name = "verbose", .doc = "be verbose", }, { .name = "symtab", .key = ARGP_symtab, .arg = "NAME", .flags = OPTION_ARG_OPTIONAL, .doc = "show symbol table NAME (Default .symtab)", }, { .name = "compile", .key = ARGP_compile, .arg = "FUNCTION", .flags = OPTION_ARG_OPTIONAL, .doc = "Generate compilable source code with types expanded (Default all functions)", }, { .name = "no_parm_names", .key = ARGP_no_parm_names, .doc = "Don't show parameter names", }, { .name = NULL, } }; static void (*formatter)(const struct fn_stats *f) = fn_stats_fmtr; static int show_total_inline_expansion_stats; static error_t pfunct__options_parser(int key, char *arg, struct argp_state *state) { switch (key) { case ARGP_KEY_INIT: if (state->child_inputs != NULL) state->child_inputs[0] = state->input; break; case 'a': addr = strtoull(arg, NULL, 0); conf_load.get_addr_info = true; break; case 'b': expand_types = true; type_emissions__init(&emissions); break; case 'c': class_name = arg; break; case 'f': function_name = arg; break; case 'F': conf_load.format_path = arg; break; case 'E': show_externals = 1; break; case 's': formatter = fn_stats_size_fmtr; conf_load.get_addr_info = true; break; case 'S': formatter = fn_stats_variables_fmtr; break; case 'p': formatter = fn_stats_nr_parms_fmtr; break; case 'P': show_prototypes = true; break; case 'g': formatter = fn_stats_labels_fmtr; break; case 'G': show_cc_uninlined = 1; break; case 'H': show_cc_inlined = 1; break; case 'i': show_inline_expansions = verbose = 1; conf_load.extra_dbg_info = true; conf_load.get_addr_info = true; break; case 'I': formatter = fn_stats_inline_exps_fmtr; conf_load.get_addr_info = true; break; case 'l': conf.show_decl_info = 1; conf_load.extra_dbg_info = 1; break; case 't': show_total_inline_expansion_stats = true; conf_load.get_addr_info = true; break; case 'T': show_variables = 1; break; case 'N': formatter = fn_stats_name_len_fmtr; break; case 'V': verbose = 1; conf_load.extra_dbg_info = true; conf_load.get_addr_info = true; break; case ARGP_symtab: symtab_name = arg ?: ".symtab"; break; case ARGP_no_parm_names: conf.no_parm_names = 1; break; case ARGP_compile: expand_types = true; type_emissions__init(&emissions); compilable_output = true; conf.no_semicolon = true; conf.strip_inline = true; if (arg) function_name = arg; break; default: return ARGP_ERR_UNKNOWN; } return 0; } static const char pfunct__args_doc[] = "FILE"; static struct argp pfunct__argp = { .options = pfunct__options, .parser = pfunct__options_parser, .args_doc = pfunct__args_doc, }; int main(int argc, char *argv[]) { int err, remaining, rc = EXIT_FAILURE; if (argp_parse(&pfunct__argp, argc, argv, 0, &remaining, NULL) || (remaining == argc && class_name == NULL && function_name == NULL)) { argp_help(&pfunct__argp, stderr, ARGP_HELP_SEE, argv[0]); goto out; } if (symtab_name != NULL) return elf_symtabs__show(argv + remaining); if (dwarves__init()) { fputs("pfunct: insufficient memory\n", stderr); goto out; } dwarves__resolve_cacheline_size(&conf_load, 0); struct cus *cus = cus__new(); if (cus == NULL) { fputs("pfunct: insufficient memory\n", stderr); goto out_dwarves_exit; } if (function_name || class_name) conf_load.steal = pfunct_stealer; try_sole_arg_as_function_name: err = cus__load_files(cus, &conf_load, argv + remaining); if (err != 0) { if (function_name == NULL) { function_name = argv[remaining]; if (access(function_name, R_OK) == 0) { fprintf(stderr, "pfunct: file '%s' has no %s type information.\n", function_name, conf_load.format_path ?: "supported"); goto out_dwarves_exit; } conf_load.steal = pfunct_stealer; remaining = argc; goto try_sole_arg_as_function_name; } cus__fprintf_load_files_err(cus, "pfunct", argv + remaining, err, stderr); goto out_cus_delete; } cus__for_each_cu(cus, cu_unique_iterator, NULL, NULL); if (addr) { struct cu *cu; struct function *f = cus__find_function_at_addr(cus, addr, &cu); if (f == NULL) { fprintf(stderr, "pfunct: No function found at %#llx!\n", (unsigned long long)addr); goto out_cus_delete; } function__show(f, cu); } else if (show_total_inline_expansion_stats) print_total_inline_stats(); else if (function_name != NULL || expand_types) cus__for_each_cu(cus, cu_function_iterator, function_name, NULL); else print_fn_stats(formatter); rc = EXIT_SUCCESS; out_cus_delete: cus__delete(cus); fn_stats__delete_list(); out_dwarves_exit: dwarves__exit(); out: return rc; }