/* * Copyright (c) 2021, Daniel Bertalan * Copyright (c) 2022, Alex Major * * SPDX-License-Identifier: BSD-2-Clause */ #define __USE_MISC #define TTYDEFCHARS #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include constexpr option long_options[] = { { "all", no_argument, 0, 'a' }, { "save", no_argument, 0, 'g' }, { "file", required_argument, 0, 'F' }, { 0, 0, 0, 0 } }; struct TermiosFlag { StringView name; tcflag_t value; tcflag_t mask; }; struct BaudRate { speed_t speed; unsigned long numeric_value; }; struct ControlCharacter { StringView name; unsigned index; }; constexpr TermiosFlag all_iflags[] = { { "ignbrk", IGNBRK, IGNBRK }, { "brkint", BRKINT, BRKINT }, { "ignpar", IGNPAR, IGNPAR }, { "parmer", PARMRK, PARMRK }, { "inpck", INPCK, INPCK }, { "istrip", ISTRIP, ISTRIP }, { "inlcr", INLCR, INLCR }, { "igncr", IGNCR, IGNCR }, { "icrnl", ICRNL, ICRNL }, { "iuclc", IUCLC, IUCLC }, { "ixon", IXON, IXON }, { "ixany", IXANY, IXANY }, { "ixoff", IXOFF, IXOFF }, { "imaxbel", IMAXBEL, IMAXBEL }, { "iutf8", IUTF8, IUTF8 } }; constexpr TermiosFlag all_oflags[] = { { "opost", OPOST, OPOST }, { "olcuc", OLCUC, OPOST }, { "onlcr", ONLCR, ONLCR }, { "onlret", ONLRET, ONLRET }, { "ofill", OFILL, OFILL }, { "ofdel", OFDEL, OFDEL }, }; constexpr TermiosFlag all_cflags[] = { { "cs5", CS5, CSIZE }, { "cs6", CS6, CSIZE }, { "cs7", CS7, CSIZE }, { "cs8", CS8, CSIZE }, { "cstopb", CSTOPB, CSTOPB }, { "cread", CREAD, CREAD }, { "parenb", PARENB, PARENB }, { "parodd", PARODD, PARODD }, { "hupcl", HUPCL, HUPCL }, { "clocal", CLOCAL, CLOCAL }, }; constexpr TermiosFlag all_lflags[] = { { "isig", ISIG, ISIG }, { "icanon", ICANON, ICANON }, { "echo", ECHO, ECHO }, { "echoe", ECHOE, ECHOE }, { "echok", ECHOK, ECHOK }, { "echonl", ECHONL, ECHONL }, { "noflsh", NOFLSH, NOFLSH }, { "tostop", TOSTOP, TOSTOP }, { "iexten", IEXTEN, IEXTEN } }; constexpr BaudRate baud_rates[] = { { B0, 0 }, { B50, 50 }, { B75, 75 }, { B110, 110 }, { B134, 134 }, { B150, 150 }, { B200, 200 }, { B300, 300 }, { B600, 600 }, { B1200, 1200 }, { B1800, 1800 }, { B2400, 2400 }, { B4800, 4800 }, { B9600, 9600 }, { B19200, 19200 }, { B38400, 38400 }, { B57600, 57600 }, { B115200, 115200 }, { B230400, 230400 }, { B460800, 460800 }, { B500000, 500000 }, { B576000, 576000 }, { B921600, 921600 }, { B1000000, 1000000 }, { B1152000, 1152000 }, { B1500000, 1500000 }, { B2000000, 2000000 }, { B2500000, 2500000 }, { B3000000, 3000000 }, { B3500000, 3500000 }, { B4000000, 4000000 } }; constexpr ControlCharacter control_characters[] = { { "intr", VINTR }, { "quit", VQUIT }, { "erase", VERASE }, { "kill", VKILL }, { "eof", VEOF }, /* time and min are handled separately */ { "swtc", VSWTC }, { "start", VSTART }, { "stop", VSTOP }, { "susp", VSUSP }, { "eol", VEOL }, { "reprint", VREPRINT }, { "discard", VDISCARD }, { "werase", VWERASE }, { "lnext", VLNEXT }, { "eol2", VEOL2 } }; Optional numeric_value_to_speed(unsigned long); Optional speed_to_numeric_value(speed_t); void print_stty_readable(termios const&); void print_human_readable(termios const&, winsize const&, bool); Result apply_stty_readable_modes(StringView, termios&); Result apply_modes(size_t, char**, termios&, winsize&); Optional numeric_value_to_speed(unsigned long numeric_value) { for (auto rate : baud_rates) { if (rate.numeric_value == numeric_value) return rate.speed; } return {}; } Optional speed_to_numeric_value(speed_t speed) { for (auto rate : baud_rates) { if (rate.speed == speed) return rate.numeric_value; } return {}; } void print_stty_readable(termios const& modes) { out("{:x}:{:x}:{:x}:{:x}", modes.c_iflag, modes.c_oflag, modes.c_cflag, modes.c_lflag); for (size_t i = 0; i < NCCS; ++i) out(":{:x}", modes.c_cc[i]); out(":{:x}:{:x}\n", modes.c_ispeed, modes.c_ospeed); } void print_human_readable(termios const& modes, winsize const& ws, bool verbose_mode) { auto print_speed = [&] { if (verbose_mode && modes.c_ispeed != modes.c_ospeed) { out("ispeed {} baud; ospeed {} baud;", speed_to_numeric_value(modes.c_ispeed).value(), speed_to_numeric_value(modes.c_ospeed).value()); } else { out("speed {} baud;", speed_to_numeric_value(modes.c_ispeed).value()); } }; auto print_winsize = [&] { out("rows {}; columns {};", ws.ws_row, ws.ws_col); }; auto escape_character = [&](u8 ch) { StringBuilder sb; if (ch <= 0x20) { sb.append("^"); sb.append(ch + 0x40); } else if (ch == 0x7f) { sb.append("^?"); } else { sb.append(ch); } return sb.to_string(); }; auto print_control_characters = [&] { bool first_in_line = true; for (auto cc : control_characters) { if (verbose_mode || modes.c_cc[cc.index] != ttydefchars[cc.index]) { out("{}{} = {};", (first_in_line) ? "" : " ", cc.name, escape_character(modes.c_cc[cc.index])); first_in_line = false; } } if (!first_in_line) out("\n"); }; auto print_flags_of_type = [&](const TermiosFlag flags[], size_t flag_count, tcflag_t field_value, tcflag_t field_default) { bool first_in_line = true; for (size_t i = 0; i < flag_count; ++i) { auto& flag = flags[i]; if (verbose_mode || (field_value & flag.mask) != (field_default & flag.mask)) { bool set = (field_value & flag.mask) == flag.value; out("{}{}{}", first_in_line ? "" : " ", set ? "" : "-", flag.name); first_in_line = false; } } if (!first_in_line) out("\n"); }; auto print_flags = [&] { print_flags_of_type(all_cflags, sizeof(all_cflags) / sizeof(TermiosFlag), modes.c_cflag, TTYDEF_CFLAG); print_flags_of_type(all_oflags, sizeof(all_oflags) / sizeof(TermiosFlag), modes.c_oflag, TTYDEF_OFLAG); print_flags_of_type(all_iflags, sizeof(all_iflags) / sizeof(TermiosFlag), modes.c_iflag, TTYDEF_IFLAG); print_flags_of_type(all_lflags, sizeof(all_lflags) / sizeof(TermiosFlag), modes.c_lflag, TTYDEF_LFLAG); }; print_speed(); out(" "); print_winsize(); out("\n"); print_control_characters(); print_flags(); } Result apply_stty_readable_modes(StringView mode_string, termios& t) { auto split = mode_string.split_view(':'); if (split.size() != 4 + NCCS + 2) { warnln("Save string has an incorrect number of parameters"); return 1; } auto parse_hex = [&](StringView v) { tcflag_t ret = 0; for (auto c : v) { c = tolower(c); ret *= 16; if (isdigit(c)) { ret += c - '0'; } else { VERIFY(c >= 'a' && c <= 'f'); ret += c - 'a'; } } return ret; }; t.c_iflag = parse_hex(split[0]); t.c_oflag = parse_hex(split[1]); t.c_cflag = parse_hex(split[2]); t.c_lflag = parse_hex(split[3]); for (size_t i = 0; i < NCCS; ++i) { t.c_cc[i] = (cc_t)parse_hex(split[4 + i]); } t.c_ispeed = parse_hex(split[4 + NCCS]); t.c_ospeed = parse_hex(split[4 + NCCS + 1]); return {}; } Result apply_modes(size_t parameter_count, char** raw_parameters, termios& t, winsize& w) { Vector parameters; parameters.ensure_capacity(parameter_count); for (size_t i = 0; i < parameter_count; ++i) parameters.append(StringView(raw_parameters[i])); auto parse_baud = [&](size_t idx) -> Optional { auto maybe_numeric_value = parameters[idx].to_uint(); if (maybe_numeric_value.has_value()) return numeric_value_to_speed(maybe_numeric_value.value()); return {}; }; auto parse_number = [&](size_t idx) -> Optional { return parameters[idx].to_uint(); }; auto looks_like_stty_readable = [&](size_t idx) { bool contains_colon = false; for (auto c : parameters[idx]) { c = tolower(c); if (!isdigit(c) && !(c >= 'a' && c <= 'f') && c != ':') return false; if (c == ':') contains_colon = true; } return contains_colon; }; auto parse_control_character = [&](size_t idx) -> Optional { VERIFY(!parameters[idx].is_empty()); if (parameters[idx] == "^-" || parameters[idx] == "undef") { // FIXME: disabling characters is a bit wonky right now in TTY. // We should add the _POSIX_VDISABLE macro. return 0; } else if (parameters[idx][0] == '^' && parameters[idx].length() == 2) { return toupper(parameters[idx][1]) - 0x40; } else if (parameters[idx].starts_with("0x")) { cc_t value = 0; if (parameters[idx].length() == 2) { warnln("Invalid hexadecimal character code {}", parameters[idx]); return {}; } for (size_t i = 2; i < parameters[idx].length(); ++i) { char ch = tolower(parameters[idx][i]); if (!isdigit(ch) && !(ch >= 'a' && ch <= 'f')) { warnln("Invalid hexadecimal character code {}", parameters[idx]); return {}; } value = 16 * value + (isdigit(ch)) ? (ch - '0') : (ch - 'a'); } return value; } else if (parameters[idx].starts_with("0")) { cc_t value = 0; for (size_t i = 1; i < parameters[idx].length(); ++i) { char ch = parameters[idx][i]; if (!(ch >= '0' && ch <= '7')) { warnln("Invalid octal character code {}", parameters[idx]); return {}; } value = 8 * value + (ch - '0'); } return value; } else if (isdigit(parameters[idx][0])) { auto maybe_value = parameters[idx].to_uint(); if (!maybe_value.has_value()) { warnln("Invalid decimal character code {}", parameters[idx]); return {}; } return maybe_value.value(); } else if (parameters[idx].length() == 1) { return parameters[idx][0]; } warnln("Invalid control character {}", parameters[idx]); return {}; }; size_t parameter_idx = 0; auto parse_flag_or_char = [&]() -> Result { if (parameters[parameter_idx][0] != '-') { if (parameters[parameter_idx] == "min") { auto maybe_number = parse_number(++parameter_idx); if (!maybe_number.has_value()) { warnln("Error parsing min: {} is not a number", parameters[parameter_idx]); return 1; } return {}; } else if (parameters[parameter_idx] == "time") { auto maybe_number = parse_number(++parameter_idx); if (!maybe_number.has_value()) { warnln("Error parsing time: {} is not a number", parameters[parameter_idx]); return 1; } return {}; } else { for (auto cc : control_characters) { if (cc.name == parameters[parameter_idx]) { if (parameter_idx == parameter_count - 1) { warnln("No control character specified for {}", cc.name); return 1; } auto maybe_control_character = parse_control_character(++parameter_idx); if (!maybe_control_character.has_value()) return 1; t.c_cc[cc.index] = maybe_control_character.value(); return {}; } } } } // We fall through to here if what we are setting is not a control character. bool negate = false; if (parameters[parameter_idx][0] == '-') { negate = true; parameters[parameter_idx] = parameters[parameter_idx].substring_view(1); } auto perform_masking = [&](tcflag_t value, tcflag_t mask, tcflag_t& dest) { if (negate) dest &= ~mask; else dest = (dest & (~mask)) | value; }; for (auto flag : all_iflags) { if (flag.name == parameters[parameter_idx]) { perform_masking(flag.value, flag.mask, t.c_iflag); return {}; } } for (auto flag : all_oflags) { if (flag.name == parameters[parameter_idx]) { perform_masking(flag.value, flag.mask, t.c_oflag); return {}; } } for (auto flag : all_cflags) { if (flag.name == parameters[parameter_idx]) { perform_masking(flag.value, flag.mask, t.c_cflag); return {}; } } for (auto flag : all_lflags) { if (flag.name == parameters[parameter_idx]) { perform_masking(flag.value, flag.mask, t.c_lflag); return {}; } } warnln("Invalid control flag or control character name {}", parameters[parameter_idx]); return 1; }; while (parameter_idx < parameter_count) { if (looks_like_stty_readable(parameter_idx)) { auto maybe_error = apply_stty_readable_modes(parameters[parameter_idx], t); if (maybe_error.is_error()) return maybe_error.error(); } else if (isdigit(parameters[parameter_idx][0])) { auto new_baud = parse_baud(parameter_idx); if (!new_baud.has_value()) { warnln("Invalid baud rate {}", parameters[parameter_idx]); return 1; } t.c_ispeed = t.c_ospeed = new_baud.value(); } else if (parameters[parameter_idx] == "ispeed") { if (parameter_idx == parameter_count - 1) { warnln("No baud rate specified for ispeed"); return 1; } auto new_baud = parse_baud(++parameter_idx); if (!new_baud.has_value()) { warnln("Invalid input baud rate {}", parameters[parameter_idx]); return 1; } t.c_ispeed = new_baud.value(); } else if (parameters[parameter_idx] == "ospeed") { if (parameter_idx == parameter_count - 1) { warnln("No baud rate specified for ospeed"); return 1; } auto new_baud = parse_baud(++parameter_idx); if (!new_baud.has_value()) { warnln("Invalid output baud rate {}", parameters[parameter_idx]); return 1; } t.c_ospeed = new_baud.value(); } else if (parameters[parameter_idx] == "columns" || parameters[parameter_idx] == "cols") { auto maybe_number = parse_number(++parameter_idx); if (!maybe_number.has_value()) { warnln("Invalid column count {}", parameters[parameter_idx]); return 1; } w.ws_col = maybe_number.value(); } else if (parameters[parameter_idx] == "rows") { auto maybe_number = parse_number(++parameter_idx); if (!maybe_number.has_value()) { warnln("Invalid row count {}", parameters[parameter_idx]); return 1; } w.ws_row = maybe_number.value(); } else if (parameters[parameter_idx] == "evenp" || parameters[parameter_idx] == "parity") { t.c_cflag &= ~(CSIZE | PARODD); t.c_cflag |= CS7 | PARENB; } else if (parameters[parameter_idx] == "oddp") { t.c_cflag &= ~(CSIZE); t.c_cflag |= CS7 | PARENB | PARODD; } else if (parameters[parameter_idx] == "-parity" || parameters[parameter_idx] == "-evenp" || parameters[parameter_idx] == "-oddp") { t.c_cflag &= ~(PARENB | CSIZE); t.c_cflag |= CS8; } else if (parameters[parameter_idx] == "raw") { cfmakeraw(&t); } else if (parameters[parameter_idx] == "nl") { t.c_iflag &= ~ICRNL; } else if (parameters[parameter_idx] == "-nl") { t.c_cflag &= ~(INLCR & IGNCR); t.c_iflag |= ICRNL; } else if (parameters[parameter_idx] == "ek") { t.c_cc[VERASE] = CERASE; t.c_cc[VKILL] = CKILL; } else if (parameters[parameter_idx] == "sane") { t.c_iflag = TTYDEF_IFLAG; t.c_oflag = TTYDEF_OFLAG; t.c_cflag = TTYDEF_CFLAG; t.c_lflag = TTYDEF_LFLAG; for (size_t i = 0; i < NCCS; ++i) t.c_cc[i] = ttydefchars[i]; t.c_ispeed = t.c_ospeed = TTYDEF_SPEED; } else { auto maybe_error = parse_flag_or_char(); if (maybe_error.is_error()) return maybe_error.error(); } ++parameter_idx; } return {}; } ErrorOr serenity_main(Main::Arguments arguments) { TRY(Core::System::pledge("stdio tty rpath")); TRY(Core::System::unveil("/dev", "r")); TRY(Core::System::unveil(nullptr, nullptr)); String device_file; bool stty_readable = false; bool all_settings = false; // Core::ArgsParser can't handle the weird syntax of stty, so we use getopt_long instead. int argc = arguments.argc; char** argv = arguments.argv; opterr = 0; // We handle unknown flags gracefully by starting to parse the arguments in `apply_modes`. int optc; bool should_quit = false; while (!should_quit && ((optc = getopt_long(argc, argv, "-agF:", long_options, nullptr)) != -1)) { switch (optc) { case 'a': all_settings = true; break; case 'g': stty_readable = true; break; case 'F': if (!device_file.is_empty()) { warnln("Only one device may be specified"); exit(1); } device_file = optarg; break; default: should_quit = true; break; } } if (stty_readable && all_settings) { warnln("Save mode and all-settings mode are mutually exclusive"); exit(1); } int terminal_fd = STDIN_FILENO; if (!device_file.is_empty()) { if ((terminal_fd = open(device_file.characters(), O_RDONLY, 0)) < 0) { perror("open"); exit(1); } } ScopeGuard file_close_guard = [&] { close(terminal_fd); }; termios initial_termios = TRY(Core::System::tcgetattr(terminal_fd)); winsize initial_winsize; TRY(Core::System::ioctl(terminal_fd, TIOCGWINSZ, &initial_winsize)); if (optind < argc) { if (stty_readable || all_settings) { warnln("Modes cannot be set when printing settings"); exit(1); } auto result = apply_modes(argc - optind, argv + optind, initial_termios, initial_winsize); if (result.is_error()) return result.error(); TRY(Core::System::tcsetattr(terminal_fd, TCSADRAIN, initial_termios)); TRY(Core::System::ioctl(terminal_fd, TIOCSWINSZ, &initial_winsize)); } else if (stty_readable) { print_stty_readable(initial_termios); } else { print_human_readable(initial_termios, initial_winsize, all_settings); } return 0; }