// Implementation of the bind builtin. #include "config.h" // IWYU pragma: keep #include "builtin_bind.h" #include #include #include #include #include #include #include "builtin.h" #include "common.h" #include "fallback.h" // IWYU pragma: keep #include "input.h" // IWYU pragma: keep #include "io.h" // IWYU pragma: keep #include "wgetopt.h" #include "wutil.h" // IWYU pragma: keep enum { BIND_INSERT, BIND_ERASE, BIND_KEY_NAMES, BIND_FUNCTION_NAMES }; struct bind_cmd_opts_t { bool all = false; bool bind_mode_given = false; bool list_modes = false; bool print_help = false; bool silent = false; bool use_terminfo = false; bool have_user = false; bool user = false; bool have_preset = false; bool preset = false; int mode = BIND_INSERT; const wchar_t *bind_mode = DEFAULT_BIND_MODE; const wchar_t *sets_bind_mode = L""; }; // Here follows the definition of all builtin commands. The function names are all of the form // builtin_NAME where NAME is the name of the builtin. so the function name for the builtin 'fg' is // 'builtin_fg'. // // A few builtins, including 'while', 'command' and 'builtin' are not defined here as they are // handled directly by the parser. (They are not parsed as commands, instead they only alter the // parser state) // // The builtins 'break' and 'continue' are so closely related that they share the same // implementation, namely 'builtin_break_continue. // // Several other builtins, including jobs, ulimit and set are so big that they have been given their // own module. These files are all named 'builtin_NAME.cpp', where NAME is the name of the builtin. /// List a single key binding. /// Returns false if no binding with that sequence and mode exists. bool builtin_bind_t::list_one(const wcstring &seq, const wcstring &bind_mode, bool user, io_streams_t &streams) { wcstring_list_t ecmds; wcstring sets_mode; if (!input_mappings_->get(seq, bind_mode, &ecmds, user, &sets_mode)) { return false; } streams.out.append(L"bind"); // Append the mode flags if applicable. if (!user) { streams.out.append(L" --preset"); } if (bind_mode != DEFAULT_BIND_MODE) { const wcstring emode = escape_string(bind_mode, ESCAPE_ALL); streams.out.append(L" -M "); streams.out.append(emode); } if (!sets_mode.empty() && sets_mode != bind_mode) { const wcstring esets_mode = escape_string(sets_mode, ESCAPE_ALL); streams.out.append(L" -m "); streams.out.append(esets_mode); } // Append the name. wcstring tname; if (input_terminfo_get_name(seq, &tname)) { // Note that we show -k here because we have an input key name. streams.out.append_format(L" -k %ls", tname.c_str()); } else { // No key name, so no -k; we show the escape sequence directly. const wcstring eseq = escape_string(seq, ESCAPE_ALL); streams.out.append_format(L" %ls", eseq.c_str()); } // Now show the list of commands. for (const auto &ecmd : ecmds) { const wcstring escaped_ecmd = escape_string(ecmd, ESCAPE_ALL); streams.out.push_back(' '); streams.out.append(escaped_ecmd); } streams.out.push_back(L'\n'); return true; } // Overload with both kinds of bindings. // Returns false only if neither exists. bool builtin_bind_t::list_one(const wcstring &seq, const wcstring &bind_mode, bool user, bool preset, io_streams_t &streams) { bool retval = false; if (preset) { retval |= list_one(seq, bind_mode, false, streams); } if (user) { retval |= list_one(seq, bind_mode, true, streams); } return retval; } /// List all current key bindings. void builtin_bind_t::list(const wchar_t *bind_mode, bool user, io_streams_t &streams) { const std::vector lst = input_mappings_->get_names(user); for (const input_mapping_name_t &binding : lst) { if (bind_mode && bind_mode != binding.mode) { continue; } list_one(binding.seq, binding.mode, user, streams); } } /// Print terminfo key binding names to string buffer used for standard output. /// /// \param all if set, all terminfo key binding names will be printed. If not set, only ones that /// are defined for this terminal are printed. void builtin_bind_t::key_names(bool all, io_streams_t &streams) { const wcstring_list_t names = input_terminfo_get_names(!all); for (const wcstring &name : names) { streams.out.append(name); streams.out.append(L'\n'); } } /// Print all the special key binding functions to string buffer used for standard output. void builtin_bind_t::function_names(io_streams_t &streams) { wcstring_list_t names = input_function_get_names(); for (const auto &name : names) { auto seq = name.c_str(); streams.out.append_format(L"%ls\n", seq); } } /// Wraps input_terminfo_get_sequence(), appending the correct error messages as needed. bool builtin_bind_t::get_terminfo_sequence(const wcstring &seq, wcstring *out_seq, io_streams_t &streams) const { if (input_terminfo_get_sequence(seq, out_seq)) { return true; } wcstring eseq = escape_string(seq, 0); if (!opts->silent) { if (errno == ENOENT) { streams.err.append_format(_(L"%ls: No key with name '%ls' found\n"), L"bind", eseq.c_str()); } else if (errno == EILSEQ) { streams.err.append_format(_(L"%ls: Key with name '%ls' does not have any mapping\n"), L"bind", eseq.c_str()); } else { streams.err.append_format(_(L"%ls: Unknown error trying to bind to key named '%ls'\n"), L"bind", eseq.c_str()); } } return false; } /// Add specified key binding. bool builtin_bind_t::add(const wcstring &seq, const wchar_t *const *cmds, size_t cmds_len, const wchar_t *mode, const wchar_t *sets_mode, bool terminfo, bool user, io_streams_t &streams) { if (terminfo) { wcstring seq2; if (get_terminfo_sequence(seq, &seq2, streams)) { input_mappings_->add(seq2, cmds, cmds_len, mode, sets_mode, user); } else { return true; } } else { input_mappings_->add(seq, cmds, cmds_len, mode, sets_mode, user); } return false; } /// Erase specified key bindings /// /// @param seq /// an array of all key bindings to erase /// @param all /// if specified, _all_ key bindings will be erased /// @param mode /// if specified, only bindings from that mode will be erased. If not given /// and @c all is @c false, @c DEFAULT_BIND_MODE will be used. /// @param use_terminfo /// Whether to look use terminfo -k name /// bool builtin_bind_t::erase(wchar_t **seq, bool all, const wchar_t *mode, bool use_terminfo, bool user, io_streams_t &streams) { if (all) { input_mappings_->clear(mode, user); return false; } bool res = false; if (mode == nullptr) mode = DEFAULT_BIND_MODE; //!OCLINT(parameter reassignment) while (*seq) { if (use_terminfo) { wcstring seq2; if (get_terminfo_sequence(*seq++, &seq2, streams)) { input_mappings_->erase(seq2, mode, user); } else { res = true; } } else { input_mappings_->erase(*seq++, mode, user); } } return res; } bool builtin_bind_t::insert(int optind, int argc, wchar_t **argv, io_streams_t &streams) { wchar_t *cmd = argv[0]; int arg_count = argc - optind; if (arg_count < 2) { // If we get both or neither preset/user, we list both. if (!opts->have_preset && !opts->have_user) { opts->preset = true; opts->user = true; } } else { // Inserting both on the other hand makes no sense. if (opts->have_preset && opts->have_user) { streams.err.append_format( BUILTIN_ERR_COMBO2, cmd, L"--preset and --user can not be used together when inserting bindings."); return true; } } if (arg_count == 0) { // We don't overload this with user and def because we want them to be grouped. // First the presets, then the users (because of scrolling). if (opts->preset) { list(opts->bind_mode_given ? opts->bind_mode : nullptr, false, streams); } if (opts->user) { list(opts->bind_mode_given ? opts->bind_mode : nullptr, true, streams); } } else if (arg_count == 1) { wcstring seq; if (opts->use_terminfo) { if (!get_terminfo_sequence(argv[optind], &seq, streams)) { // get_terminfo_sequence already printed the error. return true; } } else { seq = argv[optind]; } if (!list_one(seq, opts->bind_mode, opts->user, opts->preset, streams)) { wcstring eseq = escape_string(argv[optind], 0); if (!opts->silent) { if (opts->use_terminfo) { streams.err.append_format(_(L"%ls: No binding found for key '%ls'\n"), cmd, eseq.c_str()); } else { streams.err.append_format(_(L"%ls: No binding found for sequence '%ls'\n"), cmd, eseq.c_str()); } } return true; } } else { // Actually insert! if (add(argv[optind], argv + (optind + 1), argc - (optind + 1), opts->bind_mode, opts->sets_bind_mode, opts->use_terminfo, opts->user, streams)) { return true; } } return false; } /// List all current bind modes. void builtin_bind_t::list_modes(io_streams_t &streams) { // List all known modes, even if they are only in preset bindings. const std::vector lst = input_mappings_->get_names(true); const std::vector preset_lst = input_mappings_->get_names(false); // A set accomplishes two things for us here: // - It removes duplicates (no twenty "default" entries). // - It sorts it, which makes it nicer on the user. std::set modes; for (const input_mapping_name_t &binding : lst) { modes.insert(binding.mode); } for (const input_mapping_name_t &binding : preset_lst) { modes.insert(binding.mode); } for (const auto &mode : modes) { streams.out.append_format(L"%ls\n", mode.c_str()); } } static int parse_cmd_opts(bind_cmd_opts_t &opts, int *optind, //!OCLINT(high ncss method) int argc, wchar_t **argv, parser_t &parser, io_streams_t &streams) { wchar_t *cmd = argv[0]; static const wchar_t *const short_options = L":aehkKfM:Lm:s"; static const struct woption long_options[] = {{L"all", no_argument, nullptr, 'a'}, {L"erase", no_argument, nullptr, 'e'}, {L"function-names", no_argument, nullptr, 'f'}, {L"help", no_argument, nullptr, 'h'}, {L"key", no_argument, nullptr, 'k'}, {L"key-names", no_argument, nullptr, 'K'}, {L"list-modes", no_argument, nullptr, 'L'}, {L"mode", required_argument, nullptr, 'M'}, {L"preset", no_argument, nullptr, 'p'}, {L"sets-mode", required_argument, nullptr, 'm'}, {L"silent", no_argument, nullptr, 's'}, {L"user", no_argument, nullptr, 'u'}, {nullptr, 0, nullptr, 0}}; int opt; wgetopter_t w; while ((opt = w.wgetopt_long(argc, argv, short_options, long_options, nullptr)) != -1) { switch (opt) { case L'a': { opts.all = true; break; } case L'e': { opts.mode = BIND_ERASE; break; } case L'f': { opts.mode = BIND_FUNCTION_NAMES; break; } case L'h': { opts.print_help = true; break; } case L'k': { opts.use_terminfo = true; break; } case L'K': { opts.mode = BIND_KEY_NAMES; break; } case L'L': { opts.list_modes = true; return STATUS_CMD_OK; } case L'M': { if (!valid_var_name(w.woptarg)) { streams.err.append_format(BUILTIN_ERR_BIND_MODE, cmd, w.woptarg); return STATUS_INVALID_ARGS; } opts.bind_mode = w.woptarg; opts.bind_mode_given = true; break; } case L'm': { if (!valid_var_name(w.woptarg)) { streams.err.append_format(BUILTIN_ERR_BIND_MODE, cmd, w.woptarg); return STATUS_INVALID_ARGS; } opts.sets_bind_mode = w.woptarg; break; } case L'p': { opts.have_preset = true; opts.preset = true; break; } case L's': { opts.silent = true; break; } case L'u': { opts.have_user = true; opts.user = true; break; } case ':': { builtin_missing_argument(parser, streams, cmd, argv[w.woptind - 1]); return STATUS_INVALID_ARGS; } case L'?': { builtin_unknown_option(parser, streams, cmd, argv[w.woptind - 1]); return STATUS_INVALID_ARGS; } default: { DIE("unexpected retval from wgetopt_long"); } } } *optind = w.woptind; return STATUS_CMD_OK; } /// The bind builtin, used for setting character sequences. maybe_t builtin_bind_t::builtin_bind(parser_t &parser, io_streams_t &streams, wchar_t **argv) { wchar_t *cmd = argv[0]; int argc = builtin_count_args(argv); bind_cmd_opts_t opts; this->opts = &opts; int optind; int retval = parse_cmd_opts(opts, &optind, argc, argv, parser, streams); if (retval != STATUS_CMD_OK) return retval; if (opts.list_modes) { list_modes(streams); return STATUS_CMD_OK; } if (opts.print_help) { builtin_print_help(parser, streams, cmd); return STATUS_CMD_OK; } // Default to user mode if (!opts.have_preset && !opts.have_user) opts.user = true; switch (opts.mode) { case BIND_ERASE: { const wchar_t *bind_mode = opts.bind_mode_given ? opts.bind_mode : nullptr; // If we get both, we erase both. if (opts.user) { if (erase(&argv[optind], opts.all, bind_mode, opts.use_terminfo, /* user */ true, streams)) { return STATUS_CMD_ERROR; } } if (opts.preset) { if (erase(&argv[optind], opts.all, bind_mode, opts.use_terminfo, /* user */ false, streams)) { return STATUS_CMD_ERROR; } } break; } case BIND_INSERT: { if (insert(optind, argc, argv, streams)) { return STATUS_CMD_ERROR; } break; } case BIND_KEY_NAMES: { key_names(opts.all, streams); break; } case BIND_FUNCTION_NAMES: { function_names(streams); break; } default: { streams.err.append_format(_(L"%ls: Invalid state\n"), cmd); return STATUS_CMD_ERROR; } } return STATUS_CMD_OK; }