#include #include #include #include "ObjectFile/ObjectFileDB.h" #include "common/log/log.h" #include "config.h" #include "common/util/FileUtil.h" #include "common/versions.h" #include "decompiler/data/streamed_audio.h" int main(int argc, char** argv) { using namespace decompiler; lg::set_file(file_util::get_file_path({"log/decompiler.txt"})); lg::set_file_level(lg::level::info); lg::set_stdout_level(lg::level::info); lg::set_flush_level(lg::level::info); lg::initialize(); lg::info("GOAL Decompiler version {}\n", versions::DECOMPILER_VERSION); file_util::init_crc(); init_opcode_info(); if (argc != 4) { printf("Usage: decompiler \n"); return 1; } // collect all files to process Config config; try { config = read_config_file(argv[1]); } catch (const std::exception& e) { lg::error("Failed to parse config"); return 1; } std::string in_folder = argv[2]; std::string out_folder = argv[3]; std::vector dgos, objs, strs; for (const auto& dgo_name : config.dgo_names) { dgos.push_back(file_util::combine_path(in_folder, dgo_name)); } for (const auto& obj_name : config.object_file_names) { objs.push_back(file_util::combine_path(in_folder, obj_name)); } for (const auto& str_name : config.str_file_names) { strs.push_back(file_util::combine_path(in_folder, str_name)); } file_util::create_dir_if_needed(out_folder); // build file database lg::info("Setting up object file DB..."); ObjectFileDB db(dgos, config.obj_file_name_map_file, objs, strs, config); // write out DGO file info file_util::write_text_file(file_util::combine_path(out_folder, "dgo.txt"), db.generate_dgo_listing()); // write out object file map (used for future decompilations, if desired) file_util::write_text_file(file_util::combine_path(out_folder, "obj.txt"), db.generate_obj_listing()); // dump raw objs if (config.dump_objs) { auto path = file_util::combine_path(out_folder, "raw_obj"); file_util::create_dir_if_needed(path); db.dump_raw_objects(path); } // process files (required for all analysis) db.process_link_data(config); db.find_code(config); db.process_labels(); // print disassembly if (config.disassemble_code || config.disassemble_data) { db.write_disassembly(out_folder, config.disassemble_data, config.disassemble_code, config.write_hex_near_instructions); } // regenerate all-types if needed if (config.regenerate_all_types) { db.analyze_functions_ir1(config); file_util::write_text_file(file_util::combine_path(out_folder, "type_defs.gc"), db.all_type_defs); } // main decompile. if (config.decompile_code) { db.analyze_functions_ir2(out_folder, config, {}); } // write out all symbols file_util::write_text_file(file_util::combine_path(out_folder, "all-syms.gc"), db.dts.dump_symbol_types()); if (config.hexdump_code || config.hexdump_data) { db.write_object_file_words(out_folder, config.hexdump_data, config.hexdump_code); } // data stuff if (config.write_scripts) { db.find_and_write_scripts(out_folder); } if (config.process_game_text) { auto result = db.process_game_text_files(); if (!result.empty()) { file_util::write_text_file(file_util::get_file_path({"assets", "game_text.txt"}), result); } } if (config.process_tpages) { auto result = db.process_tpages(); if (!result.empty()) { file_util::write_text_file(file_util::get_file_path({"assets", "tpage-dir.txt"}), result); } } if (config.process_game_count) { auto result = db.process_game_count_file(); if (!result.empty()) { file_util::write_text_file(file_util::get_file_path({"assets", "game_count.txt"}), result); } } if (!config.audio_dir_file_name.empty()) { process_streamed_audio(config.audio_dir_file_name, config.streamed_audio_file_names); } lg::info("Disassembly has completed successfully."); return 0; }