// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // -*- Mode: C++ -*- // // Copyright (C) 2013-2020 Red Hat, Inc. // // Author: Dodji Seketeli /// @file /// /// This program reads an elf file, try to load its debug info (in /// DWARF format) and emit it back in a set of "text sections" in native /// libabigail XML format. #include "config.h" #include #include #include #include #include #include #include #include #include #include #include "abg-config.h" #include "abg-tools-utils.h" #include "abg-corpus.h" #include "abg-dwarf-reader.h" #ifdef WITH_CTF #include "abg-ctf-reader.h" #endif #include "abg-writer.h" #include "abg-reader.h" #include "abg-comparison.h" using std::string; using std::cerr; using std::cout; using std::ostream; using std::ofstream; using std::vector; using std::shared_ptr; using abigail::tools_utils::emit_prefix; using abigail::tools_utils::temp_file; using abigail::tools_utils::temp_file_sptr; using abigail::tools_utils::check_file; using abigail::tools_utils::build_corpus_group_from_kernel_dist_under; using abigail::tools_utils::timer; using abigail::ir::environment_sptr; using abigail::ir::environment; using abigail::corpus; using abigail::corpus_sptr; using abigail::translation_units; using abigail::suppr::suppression_sptr; using abigail::suppr::suppressions_type; using abigail::suppr::read_suppressions; using abigail::comparison::corpus_diff; using abigail::comparison::corpus_diff_sptr; using abigail::comparison::compute_diff; using abigail::comparison::diff_context_sptr; using abigail::comparison::diff_context; using abigail::xml_writer::SEQUENCE_TYPE_ID_STYLE; using abigail::xml_writer::HASH_TYPE_ID_STYLE; using abigail::xml_writer::create_write_context; using abigail::xml_writer::type_id_style_kind; using abigail::xml_writer::write_context_sptr; using abigail::xml_writer::write_corpus; using abigail::xml_reader::read_corpus_from_native_xml_file; using abigail::xml_reader::create_native_xml_read_context; using namespace abigail; struct options { string wrong_option; string in_file_path; string out_file_path; vector di_root_paths; vector prepared_di_root_paths; vector headers_dirs; vector header_files; string vmlinux; vector suppression_paths; vector kabi_whitelist_paths; suppressions_type kabi_whitelist_supprs; bool display_version; bool display_abixml_version; bool check_alt_debug_info_path; bool show_base_name_alt_debug_info_path; bool write_architecture; bool write_corpus_path; bool write_comp_dir; bool write_elf_needed; bool write_parameter_names; bool short_locs; bool default_sizes; bool load_all_types; bool linux_kernel_mode; bool corpus_group_for_linux; bool show_stats; bool noout; #ifdef WITH_CTF bool use_ctf; #endif bool show_locs; bool abidiff; #ifdef WITH_DEBUG_SELF_COMPARISON bool debug_abidiff; #endif #ifdef WITH_DEBUG_TYPE_CANONICALIZATION bool debug_type_canonicalization; #endif bool annotate; bool do_log; bool drop_private_types; bool drop_undefined_syms; type_id_style_kind type_id_style; #ifdef WITH_DEBUG_SELF_COMPARISON string type_id_file_path; #endif options() : display_version(), display_abixml_version(), check_alt_debug_info_path(), show_base_name_alt_debug_info_path(), write_architecture(true), write_corpus_path(true), write_comp_dir(true), write_elf_needed(true), write_parameter_names(true), short_locs(false), default_sizes(true), load_all_types(), linux_kernel_mode(true), corpus_group_for_linux(false), show_stats(), noout(), #ifdef WITH_CTF use_ctf(false), #endif show_locs(true), abidiff(), #ifdef WITH_DEBUG_SELF_COMPARISON debug_abidiff(), #endif #ifdef WITH_DEBUG_TYPE_CANONICALIZATION debug_type_canonicalization(), #endif annotate(), do_log(), drop_private_types(false), drop_undefined_syms(false), type_id_style(SEQUENCE_TYPE_ID_STYLE) {} ~options() { for (vector::iterator i = di_root_paths.begin(); i != di_root_paths.end(); ++i) free(*i); prepared_di_root_paths.clear(); } }; static void display_usage(const string& prog_name, ostream& out) { emit_prefix(prog_name, out) << "usage: " << prog_name << " [options] []\n" << " where options can be: \n" << " --help|-h display this message\n" << " --version|-v display program version information and exit\n" << " --abixml-version display the version of the ABIXML ABI format\n" << " --debug-info-dir|-d look for debug info under 'dir-path'\n" << " --headers-dir|--hd the path to headers of the elf file\n" << " --header-file|--hf the path one header of the elf file\n" << " --out-file write the output to 'file-path'\n" << " --noout do not emit anything after reading the binary\n" << " --suppressions|--suppr specify a suppression file\n" << " --no-architecture do not emit architecture info in the output\n" << " --no-corpus-path do not take the path to the corpora into account\n" << " --no-show-locs do not show location information\n" << " --short-locs only print filenames rather than paths\n" << " --drop-private-types drop private types from representation\n" << " --drop-undefined-syms drop undefined symbols from representation\n" << " --no-comp-dir-path do not show compilation path information\n" << " --no-elf-needed do not show the DT_NEEDED information\n" << " --no-write-default-sizes do not emit pointer size when it equals" " the default address size of the translation unit\n" << " --no-parameter-names do not show names of function parameters\n" << " --type-id-style type id style (sequence(default): " "\"type-id-\" + number; hash: hex-digits)\n" << " --check-alternate-debug-info check alternate debug info " "of \n" << " --check-alternate-debug-info-base-name check alternate " "debug info of , and show its base name\n" << " --load-all-types read all types including those not reachable from " "exported declarations\n" << " --no-linux-kernel-mode don't consider the input binary as " "a Linux Kernel binary\n" << " --kmi-whitelist|-w path to a linux kernel " "abi whitelist\n" << " --linux-tree|--lt emit the ABI for the union of a " "vmlinux and its modules\n" << " --vmlinux the path to the vmlinux binary to consider to emit " "the ABI of the union of vmlinux and its modules\n" << " --abidiff compare the loaded ABI against itself\n" #ifdef WITH_DEBUG_SELF_COMPARISON << " --debug-abidiff debug the process of comparing the loaded ABI against itself\n" #endif #ifdef WITH_DEBUG_TYPE_CANONICALIZATION << " --debug-tc debug the type canonicalization process\n" #endif #ifdef WITH_CTF << " --ctf use CTF instead of DWARF in ELF files\n" #endif << " --annotate annotate the ABI artifacts emitted in the output\n" << " --stats show statistics about various internal stuff\n" << " --verbose show verbose messages about internal stuff\n"; ; } static bool parse_command_line(int argc, char* argv[], options& opts) { if (argc < 2) return false; for (int i = 1; i < argc; ++i) { if (argv[i][0] != '-') { if (opts.in_file_path.empty()) opts.in_file_path = argv[i]; else return false; } else if (!strcmp(argv[i], "--version") || !strcmp(argv[i], "-v")) opts.display_version = true; else if (!strcmp(argv[i], "--abixml-version") || !strcmp(argv[i], "-v")) opts.display_abixml_version = true; else if (!strcmp(argv[i], "--debug-info-dir") || !strcmp(argv[i], "-d")) { if (argc <= i + 1 || argv[i + 1][0] == '-') return false; // elfutils wants the root path to the debug info to be // absolute. opts.di_root_paths.push_back (abigail::tools_utils::make_path_absolute_to_be_freed(argv[i + 1])); ++i; } else if (!strcmp(argv[i], "--headers-dir") || !strcmp(argv[i], "--hd")) { int j = i + 1; if (j >= argc) return false; opts.headers_dirs.push_back(argv[j]); ++i; } else if (!strcmp(argv[i], "--header-file") || !strcmp(argv[i], "--hf")) { int j = i + 1; if (j >= argc) return false; opts.header_files.push_back(argv[j]); ++i; } else if (!strcmp(argv[i], "--out-file")) { if (argc <= i + 1 || argv[i + 1][0] == '-' || !opts.out_file_path.empty()) return false; opts.out_file_path = argv[i + 1]; ++i; } else if (!strcmp(argv[i], "--suppressions") || !strcmp(argv[i], "--suppr")) { int j = i + 1; if (j >= argc) return false; opts.suppression_paths.push_back(argv[j]); ++i; } else if (!strcmp(argv[i], "--kmi-whitelist") || !strcmp(argv[i], "-w")) { int j = i + 1; if (j >= argc) return false; opts.kabi_whitelist_paths.push_back(argv[j]); ++i; } else if (!strcmp(argv[i], "--linux-tree") || !strcmp(argv[i], "--lt")) opts.corpus_group_for_linux = true; else if (!strcmp(argv[i], "--vmlinux")) { int j = i + 1; if (j >= argc) return false; opts.vmlinux = argv[j]; ++i; } else if (!strcmp(argv[i], "--noout")) opts.noout = true; #ifdef WITH_CTF else if (!strcmp(argv[i], "--ctf")) opts.use_ctf = true; #endif else if (!strcmp(argv[i], "--no-architecture")) opts.write_architecture = false; else if (!strcmp(argv[i], "--no-corpus-path")) opts.write_corpus_path = false; else if (!strcmp(argv[i], "--no-show-locs")) opts.show_locs = false; else if (!strcmp(argv[i], "--short-locs")) opts.short_locs = true; else if (!strcmp(argv[i], "--no-comp-dir-path")) opts.write_comp_dir = false; else if (!strcmp(argv[i], "--no-elf-needed")) opts.write_elf_needed = false; else if (!strcmp(argv[i], "--no-write-default-sizes")) opts.default_sizes = false; else if (!strcmp(argv[i], "--no-parameter-names")) opts.write_parameter_names = false; else if (!strcmp(argv[i], "--type-id-style")) { ++i; if (i >= argc) return false; if (!strcmp(argv[i], "sequence")) opts.type_id_style = SEQUENCE_TYPE_ID_STYLE; else if (!strcmp(argv[i], "hash")) opts.type_id_style = HASH_TYPE_ID_STYLE; else return false; } else if (!strcmp(argv[i], "--check-alternate-debug-info") || !strcmp(argv[i], "--check-alternate-debug-info-base-name")) { if (argc <= i + 1 || argv[i + 1][0] == '-' || !opts.in_file_path.empty()) return false; if (!strcmp(argv[i], "--check-alternate-debug-info-base-name")) opts.show_base_name_alt_debug_info_path = true; opts.check_alt_debug_info_path = true; opts.in_file_path = argv[i + 1]; ++i; } else if (!strcmp(argv[i], "--load-all-types")) opts.load_all_types = true; else if (!strcmp(argv[i], "--drop-private-types")) opts.drop_private_types = true; else if (!strcmp(argv[i], "--drop-undefined-syms")) opts.drop_undefined_syms = true; else if (!strcmp(argv[i], "--no-linux-kernel-mode")) opts.linux_kernel_mode = false; else if (!strcmp(argv[i], "--abidiff")) opts.abidiff = true; #ifdef WITH_DEBUG_SELF_COMPARISON else if (!strcmp(argv[i], "--debug-abidiff")) { opts.abidiff = true; opts.debug_abidiff = true; } #endif #ifdef WITH_DEBUG_TYPE_CANONICALIZATION else if (!strcmp(argv[i], "--debug-tc") || !strcmp(argv[i], "debug-type-canonicalization")) opts.debug_type_canonicalization = true; #endif else if (!strcmp(argv[i], "--annotate")) opts.annotate = true; else if (!strcmp(argv[i], "--stats")) opts.show_stats = true; else if (!strcmp(argv[i], "--verbose")) opts.do_log = true; else if (!strcmp(argv[i], "--help") || !strcmp(argv[i], "--h")) return false; else { if (strlen(argv[i]) >= 2 && argv[i][0] == '-' && argv[i][1] == '-') opts.wrong_option = argv[i]; return false; } } return true; } /// Initialize the context use for driving ABI comparison. /// /// @param ctxt the context to initialize. static void set_diff_context(diff_context_sptr& ctxt) { ctxt->default_output_stream(&cerr); ctxt->error_output_stream(&cerr); // Filter out changes that are not meaningful from an ABI // standpoint, from the diff output. ctxt->switch_categories_off (abigail::comparison::ACCESS_CHANGE_CATEGORY | abigail::comparison::COMPATIBLE_TYPE_CHANGE_CATEGORY | abigail::comparison::HARMLESS_DECL_NAME_CHANGE_CATEGORY); } /// Check that the suppression specification files supplied are /// present. If not, emit an error on stderr. /// /// @param opts the options instance to use. /// /// @return true if all suppression specification files are present, /// false otherwise. static bool maybe_check_suppression_files(const options& opts) { for (vector::const_iterator i = opts.suppression_paths.begin(); i != opts.suppression_paths.end(); ++i) if (!check_file(*i, cerr, "abidw")) return false; for (vector::const_iterator i = opts.kabi_whitelist_paths.begin(); i != opts.kabi_whitelist_paths.end(); ++i) if (!check_file(*i, cerr, "abidw")) return false; return true; } /// Check that the header files supplied are present. /// If not, emit an error on stderr. /// /// @param opts the options instance to use. /// /// @return true if all header files are present, false otherwise. static bool maybe_check_header_files(const options& opts) { for (vector::const_iterator file = opts.header_files.begin(); file != opts.header_files.end(); ++file) if (!check_file(*file, cerr, "abidw")) return false; return true; } /// Set suppression specifications to the @p read_context used to load /// the ABI corpus from the ELF/DWARF file. /// /// These suppression specifications are going to be applied to drop /// some ABI artifacts on the floor (while reading the ELF/DWARF file) /// and thus minimize the size of the resulting ABI corpus. /// /// @param read_ctxt the read context to apply the suppression /// specifications to. /// /// @param opts the options where to get the suppression /// specifications from. static void set_suppressions(dwarf_reader::read_context& read_ctxt, options& opts) { suppressions_type supprs; for (vector::const_iterator i = opts.suppression_paths.begin(); i != opts.suppression_paths.end(); ++i) read_suppressions(*i, supprs); suppression_sptr suppr = abigail::tools_utils::gen_suppr_spec_from_headers(opts.headers_dirs, opts.header_files); if (suppr) { if (opts.drop_private_types) suppr->set_drops_artifact_from_ir(true); supprs.push_back(suppr); } using abigail::tools_utils::gen_suppr_spec_from_kernel_abi_whitelists; const suppressions_type& wl_suppr = gen_suppr_spec_from_kernel_abi_whitelists(opts.kabi_whitelist_paths); opts.kabi_whitelist_supprs.insert(opts.kabi_whitelist_supprs.end(), wl_suppr.begin(), wl_suppr.end()); add_read_context_suppressions(read_ctxt, supprs); add_read_context_suppressions(read_ctxt, opts.kabi_whitelist_supprs); } /// Load an ABI @ref corpus (the internal representation of the ABI of /// a binary) and write it out as an abixml. /// /// @param argv the arguments the program was called with. /// /// @param env the environment the ABI artifacts are being created in. /// /// @param opts the options of the program. /// /// @return the exit code: 0 if everything went fine, non-zero /// otherwise. static int load_corpus_and_write_abixml(char* argv[], environment_sptr& env, options& opts) { int exit_code = 0; timer t; #ifdef WITH_DEBUG_SELF_COMPARISON if (opts.debug_abidiff) env->self_comparison_debug_is_on(true); #endif #ifdef WITH_DEBUG_TYPE_CANONICALIZATION if (opts.debug_type_canonicalization) env->debug_type_canonicalization_is_on(true); #endif // First of all, read a libabigail IR corpus from the file specified // in OPTS. corpus_sptr corp; elf_reader::status s = elf_reader::STATUS_UNKNOWN; #ifdef WITH_CTF if (opts.use_ctf) { abigail::ctf_reader::read_context_sptr ctxt = abigail::ctf_reader::create_read_context (opts.in_file_path, env.get()); assert (ctxt); t.start(); corp = abigail::ctf_reader::read_corpus (ctxt, s); t.stop(); if (opts.do_log) emit_prefix(argv[0], cerr) << "read corpus from elf file in: " << t << "\n"; } else #endif { dwarf_reader::read_context_sptr c = abigail::dwarf_reader::create_read_context(opts.in_file_path, opts.prepared_di_root_paths, env.get(), opts.load_all_types, opts.linux_kernel_mode); dwarf_reader::read_context& ctxt = *c; set_drop_undefined_syms(ctxt, opts.drop_undefined_syms); set_show_stats(ctxt, opts.show_stats); set_suppressions(ctxt, opts); abigail::dwarf_reader::set_do_log(ctxt, opts.do_log); if (opts.check_alt_debug_info_path) { bool has_alt_di = false; string alt_di_path; abigail::elf_reader::status status = abigail::dwarf_reader::has_alt_debug_info(ctxt, has_alt_di, alt_di_path); if (status & abigail::elf_reader::STATUS_OK) { if (alt_di_path.empty()) ; else { cout << "found the alternate debug info file"; if (opts.show_base_name_alt_debug_info_path) { tools_utils::base_name(alt_di_path, alt_di_path); cout << " '" << alt_di_path << "'"; } cout << "\n"; } return 0; } else { emit_prefix(argv[0], cerr) << "could not find alternate debug info file\n"; return 1; } } t.start(); corp = dwarf_reader::read_corpus_from_elf(ctxt, s); t.stop(); if (opts.do_log) emit_prefix(argv[0], cerr) << "read corpus from elf file in: " << t << "\n"; t.start(); c.reset(); t.stop(); if (opts.do_log) emit_prefix(argv[0], cerr) << "reset read context in: " << t << "\n"; } // If we couldn't create a corpus, emit some (hopefully) useful // diagnostics and return and error. if (!corp) { if (s == elf_reader::STATUS_DEBUG_INFO_NOT_FOUND) { if (opts.di_root_paths.empty()) { emit_prefix(argv[0], cerr) << "Could not read debug info from " << opts.in_file_path << "\n"; emit_prefix(argv[0], cerr) << "You might want to supply the root directory where " "to search debug info from, using the " "--debug-info-dir option " "(e.g --debug-info-dir /usr/lib/debug)\n"; } else { emit_prefix(argv[0], cerr) << "Could not read debug info for '" << opts.in_file_path << "' from debug info root directory '"; for (vector::const_iterator i = opts.di_root_paths.begin(); i != opts.di_root_paths.end(); ++i) { if (i != opts.di_root_paths.begin()) cerr << ", "; cerr << *i; } } } else if (s == elf_reader::STATUS_NO_SYMBOLS_FOUND) emit_prefix(argv[0], cerr) << "Could not read ELF symbol information from " << opts.in_file_path << "\n"; return 1; } // Now create a write context and write out an ABI XML description // of the read corpus. t.start(); const write_context_sptr& write_ctxt = create_write_context(corp->get_environment(), cout); set_common_options(*write_ctxt, opts); t.stop(); if (opts.do_log) emit_prefix(argv[0], cerr) << "created & initialized write context in: " << t << "\n"; if (opts.abidiff) { // Save the abi in abixml format in a temporary file, read // it back, and compare the ABI of what we've read back // against the ABI of the input ELF file. temp_file_sptr tmp_file = temp_file::create(); set_ostream(*write_ctxt, tmp_file->get_stream()); write_corpus(*write_ctxt, corp, 0); tmp_file->get_stream().flush(); #ifdef WITH_DEBUG_SELF_COMPARISON if (opts.debug_abidiff) { opts.type_id_file_path = tmp_file->get_path() + string(".typeid"); write_canonical_type_ids(*write_ctxt, opts.type_id_file_path); } #endif xml_reader::read_context_sptr read_ctxt = create_native_xml_read_context(tmp_file->get_path(), env.get()); #ifdef WITH_DEBUG_SELF_COMPARISON if (opts.debug_abidiff && !opts.type_id_file_path.empty()) load_canonical_type_ids(*read_ctxt, opts.type_id_file_path); #endif t.start(); corpus_sptr corp2 = read_corpus_from_input(*read_ctxt); t.stop(); if (opts.do_log) emit_prefix(argv[0], cerr) << "Read corpus in: " << t << "\n"; if (!corp2) { emit_prefix(argv[0], cerr) << "Could not read temporary XML representation of " "elf file back\n"; return 1; } diff_context_sptr ctxt(new diff_context); set_diff_context(ctxt); ctxt->show_locs(opts.show_locs); t.start(); corpus_diff_sptr diff = compute_diff(corp, corp2, ctxt); t.stop(); if (opts.do_log) emit_prefix(argv[0], cerr) << "computed diff in: " << t << "\n"; bool has_error = diff->has_changes(); if (has_error) { t.start(); diff->report(cerr); t.stop(); if (opts.do_log) emit_prefix(argv[0], cerr) << "emitted report in: " << t << "\n"; return 1; } return 0; } #ifdef WITH_DEBUG_SELF_COMPARISON if (opts.debug_abidiff && !opts.type_id_file_path.empty()) remove(opts.type_id_file_path.c_str()); #endif if (opts.noout) return 0; if (!opts.out_file_path.empty()) { ofstream of(opts.out_file_path.c_str(), std::ios_base::trunc); if (!of.is_open()) { emit_prefix(argv[0], cerr) << "could not open output file '" << opts.out_file_path << "'\n"; return 1; } set_ostream(*write_ctxt, of); t.start(); write_corpus(*write_ctxt, corp, 0); t.stop(); if (opts.do_log) emit_prefix(argv[0], cerr) << "emitted abixml output in: " << t << "\n"; of.close(); return 0; } else { t.start(); exit_code = !write_corpus(*write_ctxt, corp, 0); t.stop(); if (opts.do_log) emit_prefix(argv[0], cerr) << "emitted abixml out in: " << t << "\n"; } return exit_code; } /// Load a corpus group representing the union of a Linux Kernel /// vmlinux binary and its modules, and emit an abixml representation /// for it. /// /// @param argv the arguments this program was called with. /// /// @param env the environment the ABI artifacts are created in. /// /// @param opts the options this program was created with. /// /// @return the exit code. Zero if everything went well, non-zero /// otherwise. static int load_kernel_corpus_group_and_write_abixml(char* argv[], environment_sptr& env, options& opts) { if (!(tools_utils::is_dir(opts.in_file_path) && opts.corpus_group_for_linux)) return 1; int exit_code = 0; if (!opts.vmlinux.empty()) if (!abigail::tools_utils::check_file(opts.vmlinux, cerr, argv[0])) return 1; timer t, global_timer; suppressions_type supprs; if (opts.do_log) emit_prefix(argv[0], cerr) << "going to build ABI representation of the Linux Kernel ...\n"; global_timer.start(); t.start(); corpus::origin origin = #ifdef WITH_CTF opts.use_ctf ? corpus::CTF_ORIGIN : #endif corpus::DWARF_ORIGIN; corpus_group_sptr group = build_corpus_group_from_kernel_dist_under(opts.in_file_path, /*debug_info_root=*/"", opts.vmlinux, opts.suppression_paths, opts.kabi_whitelist_paths, supprs, opts.do_log, env, origin); t.stop(); if (opts.do_log) { emit_prefix(argv[0], cerr) << "built ABI representation of the Linux Kernel in: " << t << "\n"; } if (!group) return 1; if (!opts.noout) { const xml_writer::write_context_sptr& ctxt = xml_writer::create_write_context(group->get_environment(), cout); set_common_options(*ctxt, opts); if (!opts.out_file_path.empty()) { ofstream of(opts.out_file_path.c_str(), std::ios_base::trunc); if (!of.is_open()) { emit_prefix(argv[0], cerr) << "could not open output file '" << opts.out_file_path << "'\n"; return 1; } if (opts.do_log) emit_prefix(argv[0], cerr) << "emitting the abixml output ...\n"; set_ostream(*ctxt, of); t.start(); exit_code = !write_corpus_group(*ctxt, group, 0); t.stop(); if (opts.do_log) emit_prefix(argv[0], cerr) << "emitted abixml output in: " << t << "\n"; } else { if (opts.do_log) emit_prefix(argv[0], cerr) << "emitting the abixml output ...\n"; t.start(); exit_code = !write_corpus_group(*ctxt, group, 0); t.stop(); if (opts.do_log) emit_prefix(argv[0], cerr) << "emitted abixml output in: " << t << "\n"; } } global_timer.stop(); if (opts.do_log) emit_prefix(argv[0], cerr) << "total processing done in " << global_timer << "\n"; return exit_code; } /// Convert options::di_root_paths into /// options::prepared_di_root_paths which is the suitable type format /// that the dwarf_reader expects. /// /// @param o the options to consider. static void prepare_di_root_paths(options& o) { tools_utils::convert_char_stars_to_char_star_stars(o.di_root_paths, o.prepared_di_root_paths); } int main(int argc, char* argv[]) { options opts; if (!parse_command_line(argc, argv, opts) || (opts.in_file_path.empty() && !opts.display_version && !opts.display_abixml_version)) { if (!opts.wrong_option.empty()) emit_prefix(argv[0], cerr) << "unrecognized option: " << opts.wrong_option << "\n"; display_usage(argv[0], cerr); return 1; } if (opts.display_version) { emit_prefix(argv[0], cout) << abigail::tools_utils::get_library_version_string() << "\n"; return 0; } if (opts.display_abixml_version) { emit_prefix(argv[0], cout) << abigail::tools_utils::get_abixml_version_string() << "\n"; return 0; } ABG_ASSERT(!opts.in_file_path.empty()); if (opts.corpus_group_for_linux) { if (!abigail::tools_utils::check_dir(opts.in_file_path, cerr, argv[0])) return 1; } else { if (!abigail::tools_utils::check_file(opts.in_file_path, cerr, argv[0])) return 1; } prepare_di_root_paths(opts); if (!maybe_check_suppression_files(opts)) return 1; if (!maybe_check_header_files(opts)) return 1; abigail::tools_utils::file_type type = abigail::tools_utils::guess_file_type(opts.in_file_path); if (type != abigail::tools_utils::FILE_TYPE_ELF && type != abigail::tools_utils::FILE_TYPE_AR && type != abigail::tools_utils::FILE_TYPE_DIR) { emit_prefix(argv[0], cerr) << "files of the kind of "<< opts.in_file_path << " are not handled\n"; return 1; } environment_sptr env(new environment); int exit_code = 0; if (tools_utils::is_regular_file(opts.in_file_path)) exit_code = load_corpus_and_write_abixml(argv, env, opts); else exit_code = load_kernel_corpus_group_and_write_abixml(argv, env, opts); return exit_code; }