// // The main loop of the fish program. /* Copyright (C) 2005-2008 Axel Liljencrantz This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License version 2 as published by the Free Software Foundation. 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, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #include "config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "builtin.h" #include "common.h" #include "env.h" #include "event.h" #include "expand.h" #include "fallback.h" // IWYU pragma: keep #include "fish_version.h" #include "flog.h" #include "function.h" #include "future_feature_flags.h" #include "history.h" #include "intern.h" #include "io.h" #include "parser.h" #include "path.h" #include "proc.h" #include "reader.h" #include "signal.h" #include "wutil.h" // IWYU pragma: keep // container to hold the options specified within the command line class fish_cmd_opts_t { public: // Future feature flags values string wcstring features; // File path for debug output. std::string debug_output; // Commands to be executed in place of interactive shell. std::vector batch_cmds; // Commands to execute after the shell's config has been read. std::vector postconfig_cmds; /// Whether to print rusage-self stats after execution. bool print_rusage_self{false}; /// Whether no-exec is set. bool no_exec{false}; /// Whether this is a login shell. bool is_login{false}; /// Whether this is an interactive session. bool is_interactive_session{false}; }; /// If we are doing profiling, the filename to output to. static const char *s_profiling_output_filename = NULL; /// \return a timeval converted to milliseconds. long long tv_to_msec(const struct timeval &tv) { long long msec = static_cast(tv.tv_sec) * 1000; // milliseconds per second msec += tv.tv_usec / 1000; // microseconds per millisecond return msec; } static void print_rusage_self(FILE *fp) { #ifndef HAVE_GETRUSAGE fprintf(fp, "getrusage() not supported on this platform"); return; #else struct rusage rs; if (getrusage(RUSAGE_SELF, &rs)) { perror("getrusage"); return; } #if defined(__APPLE__) && defined(__MACH__) // Macs use bytes. long rss_kb = rs.ru_maxrss / 1024; #else // Everyone else uses KB. long rss_kb = rs.ru_maxrss; #endif fprintf(fp, " rusage self:\n"); fprintf(fp, " user time: %llu ms\n", tv_to_msec(rs.ru_utime)); fprintf(fp, " sys time: %llu ms\n", tv_to_msec(rs.ru_stime)); fprintf(fp, " total time: %llu ms\n", tv_to_msec(rs.ru_utime) + tv_to_msec(rs.ru_stime)); fprintf(fp, " max rss: %ld kb\n", rss_kb); fprintf(fp, " signals: %ld\n", rs.ru_nsignals); #endif } static bool has_suffix(const std::string &path, const char *suffix, bool ignore_case) { size_t pathlen = path.size(), suffixlen = std::strlen(suffix); return pathlen >= suffixlen && !(ignore_case ? strcasecmp : std::strcmp)(path.c_str() + pathlen - suffixlen, suffix); } /// Modifies the given path by calling realpath. Returns true if realpath succeeded, false /// otherwise. static bool get_realpath(std::string &path) { char buff[PATH_MAX], *ptr; if ((ptr = realpath(path.c_str(), buff))) { path = ptr; } return ptr != NULL; } static struct config_paths_t determine_config_directory_paths(const char *argv0) { struct config_paths_t paths; bool done = false; std::string exec_path = get_executable_path(argv0); if (get_realpath(exec_path)) { debug(2, L"exec_path: '%s', argv[0]: '%s'", exec_path.c_str(), argv0); // TODO: we should determine program_name from argv0 somewhere in this file #ifdef CMAKE_BINARY_DIR // Detect if we're running right out of the CMAKE build directory if (string_prefixes_string(CMAKE_BINARY_DIR, exec_path.c_str())) { debug(2, "Running out of build directory, using paths relative to CMAKE_SOURCE_DIR:\n %s", CMAKE_SOURCE_DIR); done = true; paths.data = wcstring{L"" CMAKE_SOURCE_DIR} + L"/share"; paths.sysconf = wcstring{L"" CMAKE_SOURCE_DIR} + L"/etc"; paths.doc = wcstring{L"" CMAKE_SOURCE_DIR} + L"/user_doc/html"; paths.bin = wcstring{L"" CMAKE_BINARY_DIR}; } #endif if (!done) { // The next check is that we are in a reloctable directory tree const char *installed_suffix = "/bin/fish"; const char *just_a_fish = "/fish"; const char *suffix = NULL; if (has_suffix(exec_path, installed_suffix, false)) { suffix = installed_suffix; } else if (has_suffix(exec_path, just_a_fish, false)) { debug(2, L"'fish' not in a 'bin/', trying paths relative to source tree"); suffix = just_a_fish; } if (suffix) { bool seems_installed = (suffix == installed_suffix); wcstring base_path = str2wcstring(exec_path); base_path.resize(base_path.size() - std::strlen(suffix)); paths.data = base_path + (seems_installed ? L"/share/fish" : L"/share"); paths.sysconf = base_path + (seems_installed ? L"/etc/fish" : L"/etc"); paths.doc = base_path + (seems_installed ? L"/share/doc/fish" : L"/user_doc/html"); paths.bin = base_path + (seems_installed ? L"/bin" : L""); // Check only that the data and sysconf directories exist. Handle the doc // directories separately. struct stat buf; if (0 == wstat(paths.data, &buf) && 0 == wstat(paths.sysconf, &buf)) { // The docs dir may not exist; in that case fall back to the compiled in path. if (0 != wstat(paths.doc, &buf)) { paths.doc = L"" DOCDIR; } done = true; } } } } if (!done) { // Fall back to what got compiled in. debug(2, L"Using compiled in paths:"); paths.data = L"" DATADIR "/fish"; paths.sysconf = L"" SYSCONFDIR "/fish"; paths.doc = L"" DOCDIR; paths.bin = L"" BINDIR; } debug(2, L"determine_config_directory_paths() results:\npaths.data: %ls\npaths.sysconf: " L"%ls\npaths.doc: %ls\npaths.bin: %ls", paths.data.c_str(), paths.sysconf.c_str(), paths.doc.c_str(), paths.bin.c_str()); return paths; } // Source the file config.fish in the given directory. static void source_config_in_directory(const wcstring &dir) { // If the config.fish file doesn't exist or isn't readable silently return. Fish versions up // thru 2.2.0 would instead try to source the file with stderr redirected to /dev/null to deal // with that possibility. // // This introduces a race condition since the readability of the file can change between this // test and the execution of the 'source' command. However, that is not a security problem in // this context so we ignore it. const wcstring config_pathname = dir + L"/config.fish"; const wcstring escaped_dir = escape_string(dir, ESCAPE_ALL); const wcstring escaped_pathname = escaped_dir + L"/config.fish"; if (waccess(config_pathname, R_OK) != 0) { debug(2, L"not sourcing %ls (not readable or does not exist)", escaped_pathname.c_str()); return; } debug(2, L"sourcing %ls", escaped_pathname.c_str()); const wcstring cmd = L"builtin source " + escaped_pathname; parser_t &parser = parser_t::principal_parser(); set_is_within_fish_initialization(true); parser.eval(cmd, io_chain_t(), TOP); set_is_within_fish_initialization(false); } /// Parse init files. exec_path is the path of fish executable as determined by argv[0]. static int read_init(const struct config_paths_t &paths) { source_config_in_directory(paths.data); source_config_in_directory(paths.sysconf); // We need to get the configuration directory before we can source the user configuration file. // If path_get_config returns false then we have no configuration directory and no custom config // to load. wcstring config_dir; if (path_get_config(config_dir)) { source_config_in_directory(config_dir); } return 1; } int run_command_list(std::vector *cmds, const io_chain_t &io) { int res = 1; parser_t &parser = parser_t::principal_parser(); for (size_t i = 0; i < cmds->size(); i++) { const wcstring cmd_wcs = str2wcstring(cmds->at(i)); res = parser.eval(cmd_wcs, io, TOP); } return res; } /// Parse the argument list, return the index of the first non-flag arguments. static int fish_parse_opt(int argc, char **argv, fish_cmd_opts_t *opts) { static const char *const short_opts = "+hPilnvc:C:p:d:f:D:"; static const struct option long_opts[] = {{"command", required_argument, NULL, 'c'}, {"init-command", required_argument, NULL, 'C'}, {"features", required_argument, NULL, 'f'}, {"debug", required_argument, NULL, 'd'}, {"debug-output", required_argument, NULL, 'o'}, {"debug-stack-frames", required_argument, NULL, 'D'}, {"interactive", no_argument, NULL, 'i'}, {"login", no_argument, NULL, 'l'}, {"no-execute", no_argument, NULL, 'n'}, {"print-rusage-self", no_argument, NULL, 1}, {"print-debug-categories", no_argument, NULL, 2}, {"profile", required_argument, NULL, 'p'}, {"private", no_argument, NULL, 'P'}, {"help", no_argument, NULL, 'h'}, {"version", no_argument, NULL, 'v'}, {NULL, 0, NULL, 0}}; int opt; while ((opt = getopt_long(argc, argv, short_opts, long_opts, NULL)) != -1) { switch (opt) { case 'c': { opts->batch_cmds.push_back(optarg); break; } case 'C': { opts->postconfig_cmds.push_back(optarg); break; } case 'd': { char *end; long tmp; errno = 0; tmp = strtol(optarg, &end, 10); if (tmp >= 0 && tmp <= 10 && !*end && !errno) { debug_level = static_cast(tmp); } else { activate_flog_categories_by_pattern(str2wcstring(optarg)); } break; } case 'o': { opts->debug_output = optarg; break; } case 'f': { opts->features = str2wcstring(optarg); break; } case 'h': { opts->batch_cmds.push_back("__fish_print_help fish"); break; } case 'i': { opts->is_interactive_session = true; break; } case 'l': { opts->is_login = true; break; } case 'n': { opts->no_exec = true; break; } case 1: { opts->print_rusage_self = true; break; } case 2: { auto cats = get_flog_categories(); // Compute width of longest name. int name_width = 0; for (const auto *cat : cats) { name_width = std::max(name_width, static_cast(wcslen(cat->name))); } // A little extra space. name_width += 2; for (const auto *cat : cats) { // Negating the name width left-justifies. printf("%*ls %ls\n", -name_width, cat->name, _(cat->description)); } exit(0); break; } case 'p': { s_profiling_output_filename = optarg; g_profiling_active = true; break; } case 'P': { start_private_mode(); break; } case 'v': { std::fwprintf(stdout, _(L"%s, version %s\n"), PACKAGE_NAME, get_fish_version()); exit(0); break; } case 'D': { char *end; long tmp; errno = 0; tmp = strtol(optarg, &end, 10); if (tmp > 0 && tmp <= 128 && !*end && !errno) { set_debug_stack_frames(static_cast(tmp)); } else { std::fwprintf(stderr, _(L"Invalid value '%s' for debug-stack-frames flag"), optarg); exit(1); } break; } default: { // We assume getopt_long() has already emitted a diagnostic msg. exit(1); break; } } } // If our command name begins with a dash that implies we're a login shell. opts->is_login |= argv[0][0] == '-'; // We are an interactive session if we have not been given an explicit // command or file to execute and stdin is a tty. Note that the -i or // --interactive options also force interactive mode. if (opts->batch_cmds.empty() && optind == argc && isatty(STDIN_FILENO)) { set_interactive_session(true); } return optind; } int main(int argc, char **argv) { int res = 1; int my_optind = 0; program_name = L"fish"; set_main_thread(); setup_fork_guards(); signal_unblock_all(); setlocale(LC_ALL, ""); // struct stat tmp; // stat("----------FISH_HIT_MAIN----------", &tmp); const char *dummy_argv[2] = {"fish", NULL}; if (!argv[0]) { argv = (char **)dummy_argv; //!OCLINT(parameter reassignment) argc = 1; //!OCLINT(parameter reassignment) } fish_cmd_opts_t opts{}; my_optind = fish_parse_opt(argc, argv, &opts); // Direct any debug output right away. FILE *debug_output = nullptr; if (!opts.debug_output.empty()) { debug_output = fopen(opts.debug_output.c_str(), "w"); if (!debug_output) { fprintf(stderr, "Could not open file %s\n", opts.debug_output.c_str()); perror("fopen"); exit(-1); } set_cloexec(fileno(debug_output)); setlinebuf(debug_output); set_flog_output_file(debug_output); } // No-exec is prohibited when in interactive mode. if (opts.is_interactive_session && opts.no_exec) { debug(1, _(L"Can not use the no-execute mode when running an interactive session")); opts.no_exec = false; } // Apply our options. if (opts.is_login) mark_login(); if (opts.no_exec) mark_no_exec(); if (opts.is_interactive_session) set_interactive_session(true); // Only save (and therefore restore) the fg process group if we are interactive. See issues // #197 and #1002. if (is_interactive_session()) { save_term_foreground_process_group(); } const struct config_paths_t paths = determine_config_directory_paths(argv[0]); env_init(&paths); // Set features early in case other initialization depends on them. // Start with the ones set in the environment, then those set on the command line (so the // command line takes precedence). if (auto features_var = env_stack_t::globals().get(L"fish_features")) { for (const wcstring &s : features_var->as_list()) { mutable_fish_features().set_from_string(s); } } mutable_fish_features().set_from_string(opts.features); proc_init(); builtin_init(); misc_init(); reader_init(); parser_t &parser = parser_t::principal_parser(); if (read_init(paths)) { // Stomp the exit status of any initialization commands (issue #635). parser.set_last_statuses(statuses_t::just(STATUS_CMD_OK)); // Run post-config commands specified as arguments, if any. if (!opts.postconfig_cmds.empty()) { res = run_command_list(&opts.postconfig_cmds, {}); } if (!opts.batch_cmds.empty()) { // Run the commands specified as arguments, if any. if (get_login()) { // Do something nasty to support OpenSUSE assuming we're bash. This may modify cmds. fish_xdm_login_hack_hack_hack_hack(&opts.batch_cmds, argc - my_optind, argv + my_optind); } res = run_command_list(&opts.batch_cmds, {}); reader_set_end_loop(false); } else if (my_optind == argc) { // Implicitly interactive mode. res = reader_read(parser, STDIN_FILENO, {}); } else { char *file = *(argv + (my_optind++)); int fd = open(file, O_RDONLY); if (fd == -1) { perror(file); } else { // OK to not do this atomically since we cannot have gone multithreaded yet. set_cloexec(fd); wcstring_list_t list; for (char **ptr = argv + my_optind; *ptr; ptr++) { list.push_back(str2wcstring(*ptr)); } parser.vars().set(L"argv", ENV_DEFAULT, list); auto &ld = parser.libdata(); wcstring rel_filename = str2wcstring(file); scoped_push filename_push{&ld.current_filename, intern(rel_filename.c_str())}; res = reader_read(parser, fd, {}); if (res) { debug(1, _(L"Error while reading file %ls\n"), ld.current_filename ? ld.current_filename : _(L"Standard input")); } } } } int exit_status = res ? STATUS_CMD_UNKNOWN : parser.get_last_status(); event_fire(parser, proc_create_event(L"PROCESS_EXIT", event_type_t::exit, getpid(), exit_status)); // Trigger any exit handlers. wcstring_list_t event_args = {to_string(exit_status)}; event_fire_generic(parser, L"fish_exit", &event_args); restore_term_mode(); restore_term_foreground_process_group(); if (g_profiling_active) { parser.emit_profiling(s_profiling_output_filename); } history_save_all(); if (opts.print_rusage_self) { print_rusage_self(stderr); } if (debug_output) { fclose(debug_output); } exit_without_destructors(exit_status); return EXIT_FAILURE; // above line should always exit }