/* * Copyright (c) 2020, The SerenityOS developers. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "AST.h" #include "Shell.h" #include #include #include #include #include #include #include #include #include #include extern char** environ; namespace Shell { int Shell::builtin_dump(int argc, const char** argv) { if (argc != 2) return 1; Parser { argv[1] }.parse()->dump(0); return 0; } int Shell::builtin_alias(int argc, const char** argv) { Vector arguments; Core::ArgsParser parser; parser.add_positional_argument(arguments, "List of name[=values]'s", "name[=value]", Core::ArgsParser::Required::No); if (!parser.parse(argc, const_cast(argv), false)) return 1; if (arguments.is_empty()) { for (auto& alias : m_aliases) printf("%s=%s\n", escape_token(alias.key).characters(), escape_token(alias.value).characters()); return 0; } bool fail = false; for (auto& argument : arguments) { auto parts = String { argument }.split_limit('=', 2, true); if (parts.size() == 1) { auto alias = m_aliases.get(parts[0]); if (alias.has_value()) { printf("%s=%s\n", escape_token(parts[0]).characters(), escape_token(alias.value()).characters()); } else { fail = true; } } else { m_aliases.set(parts[0], parts[1]); add_entry_to_cache(parts[0]); } } return fail ? 1 : 0; } int Shell::builtin_bg(int argc, const char** argv) { int job_id = -1; Core::ArgsParser parser; parser.add_positional_argument(job_id, "Job ID to run in background", "job-id", Core::ArgsParser::Required::No); if (!parser.parse(argc, const_cast(argv), false)) return 1; if (job_id == -1 && !jobs.is_empty()) job_id = find_last_job_id(); auto* job = const_cast(find_job(job_id)); if (!job) { if (job_id == -1) { fprintf(stderr, "bg: no current job\n"); } else { fprintf(stderr, "bg: job with id %d not found\n", job_id); } return 1; } job->set_running_in_background(true); job->set_should_announce_exit(true); job->set_shell_did_continue(true); dbgln("Resuming {} ({})", job->pid(), job->cmd()); warnln("Resuming job {} - {}", job->job_id(), job->cmd().characters()); // Try using the PGID, but if that fails, just use the PID. if (killpg(job->pgid(), SIGCONT) < 0) { if (kill(job->pid(), SIGCONT) < 0) { perror("kill"); return 1; } } return 0; } int Shell::builtin_cd(int argc, const char** argv) { const char* arg_path = nullptr; Core::ArgsParser parser; parser.add_positional_argument(arg_path, "Path to change to", "path", Core::ArgsParser::Required::No); if (!parser.parse(argc, const_cast(argv), false)) return 1; String new_path; if (!arg_path) { new_path = home; } else { if (strcmp(arg_path, "-") == 0) { char* oldpwd = getenv("OLDPWD"); if (oldpwd == nullptr) return 1; new_path = oldpwd; } else if (arg_path[0] == '/') { new_path = argv[1]; } else { StringBuilder builder; builder.append(cwd); builder.append('/'); builder.append(arg_path); new_path = builder.to_string(); } } auto real_path = Core::File::real_path_for(new_path); if (real_path.is_empty()) { fprintf(stderr, "Invalid path '%s'\n", new_path.characters()); return 1; } if (cd_history.is_empty() || cd_history.last() != real_path) cd_history.enqueue(real_path); const char* path = real_path.characters(); int rc = chdir(path); if (rc < 0) { if (errno == ENOTDIR) { fprintf(stderr, "Not a directory: %s\n", path); } else { fprintf(stderr, "chdir(%s) failed: %s\n", path, strerror(errno)); } return 1; } setenv("OLDPWD", cwd.characters(), 1); cwd = real_path; setenv("PWD", cwd.characters(), 1); return 0; } int Shell::builtin_cdh(int argc, const char** argv) { int index = -1; Core::ArgsParser parser; parser.add_positional_argument(index, "Index of the cd history entry (leave out for a list)", "index", Core::ArgsParser::Required::No); if (!parser.parse(argc, const_cast(argv), false)) return 1; if (index == -1) { if (cd_history.is_empty()) { fprintf(stderr, "cdh: no history available\n"); return 0; } for (ssize_t i = cd_history.size() - 1; i >= 0; --i) printf("%lu: %s\n", cd_history.size() - i, cd_history.at(i).characters()); return 0; } if (index < 1 || (size_t)index > cd_history.size()) { fprintf(stderr, "cdh: history index out of bounds: %d not in (0, %zu)\n", index, cd_history.size()); return 1; } const char* path = cd_history.at(cd_history.size() - index).characters(); const char* cd_args[] = { "cd", path, nullptr }; return Shell::builtin_cd(2, cd_args); } int Shell::builtin_dirs(int argc, const char** argv) { // The first directory in the stack is ALWAYS the current directory directory_stack.at(0) = cwd.characters(); bool clear = false; bool print = false; bool number_when_printing = false; char separator = ' '; Vector paths; Core::ArgsParser parser; parser.add_option(clear, "Clear the directory stack", "clear", 'c'); parser.add_option(print, "Print directory entries one per line", "print", 'p'); parser.add_option(number_when_printing, "Number the directories in the stack when printing", "number", 'v'); parser.add_positional_argument(paths, "Extra paths to put on the stack", "path", Core::ArgsParser::Required::No); if (!parser.parse(argc, const_cast(argv), false)) return 1; // -v implies -p print = print || number_when_printing; if (print) { if (!paths.is_empty()) { fprintf(stderr, "dirs: 'print' and 'number' are not allowed when any path is specified"); return 1; } separator = '\n'; } if (clear) { for (size_t i = 1; i < directory_stack.size(); i++) directory_stack.remove(i); } for (auto& path : paths) directory_stack.append(path); if (print || (!clear && paths.is_empty())) { int index = 0; for (auto& directory : directory_stack) { if (number_when_printing) printf("%d ", index++); print_path(directory); fputc(separator, stdout); } } return 0; } int Shell::builtin_exec(int argc, const char** argv) { if (argc < 2) { fprintf(stderr, "Shell: No command given to exec\n"); return 1; } Vector argv_vector; argv_vector.append(argv + 1, argc - 1); argv_vector.append(nullptr); execute_process(move(argv_vector)); } int Shell::builtin_exit(int argc, const char** argv) { int exit_code = 0; Core::ArgsParser parser; parser.add_positional_argument(exit_code, "Exit code", "code", Core::ArgsParser::Required::No); if (!parser.parse(argc, const_cast(argv))) return 1; if (m_is_interactive) { if (!jobs.is_empty()) { if (!m_should_ignore_jobs_on_next_exit) { fprintf(stderr, "Shell: You have %zu active job%s, run 'exit' again to really exit.\n", jobs.size(), jobs.size() > 1 ? "s" : ""); m_should_ignore_jobs_on_next_exit = true; return 1; } } } stop_all_jobs(); if (m_is_interactive) { m_editor->save_history(get_history_path()); printf("Good-bye!\n"); } exit(exit_code); return 0; } int Shell::builtin_export(int argc, const char** argv) { Vector vars; Core::ArgsParser parser; parser.add_positional_argument(vars, "List of variable[=value]'s", "values", Core::ArgsParser::Required::No); if (!parser.parse(argc, const_cast(argv), false)) return 1; if (vars.is_empty()) { for (size_t i = 0; environ[i]; ++i) puts(environ[i]); return 0; } for (auto& value : vars) { auto parts = String { value }.split_limit('=', 2); if (parts.size() == 1) { auto value = lookup_local_variable(parts[0]); if (value) { auto values = value->resolve_as_list(*this); StringBuilder builder; builder.join(" ", values); parts.append(builder.to_string()); } else { // Ignore the export. continue; } } int setenv_return = setenv(parts[0].characters(), parts[1].characters(), 1); if (setenv_return != 0) { perror("setenv"); return 1; } if (parts[0] == "PATH") cache_path(); } return 0; } int Shell::builtin_glob(int argc, const char** argv) { Vector globs; Core::ArgsParser parser; parser.add_positional_argument(globs, "Globs to resolve", "glob"); if (!parser.parse(argc, const_cast(argv), false)) return 1; for (auto& glob : globs) { for (auto& expanded : expand_globs(glob, cwd)) outln("{}", expanded); } return 0; } int Shell::builtin_fg(int argc, const char** argv) { int job_id = -1; Core::ArgsParser parser; parser.add_positional_argument(job_id, "Job ID to bring to foreground", "job-id", Core::ArgsParser::Required::No); if (!parser.parse(argc, const_cast(argv), false)) return 1; if (job_id == -1 && !jobs.is_empty()) job_id = find_last_job_id(); RefPtr job = find_job(job_id); if (!job) { if (job_id == -1) { fprintf(stderr, "fg: no current job\n"); } else { fprintf(stderr, "fg: job with id %d not found\n", job_id); } return 1; } job->set_running_in_background(false); job->set_shell_did_continue(true); dbgln("Resuming {} ({})", job->pid(), job->cmd()); warnln("Resuming job {} - {}", job->job_id(), job->cmd().characters()); tcsetpgrp(STDOUT_FILENO, job->pgid()); tcsetpgrp(STDIN_FILENO, job->pgid()); // Try using the PGID, but if that fails, just use the PID. if (killpg(job->pgid(), SIGCONT) < 0) { if (kill(job->pid(), SIGCONT) < 0) { perror("kill"); return 1; } } block_on_job(job); if (job->exited()) return job->exit_code(); else return 0; } int Shell::builtin_disown(int argc, const char** argv) { Vector str_job_ids; Core::ArgsParser parser; parser.add_positional_argument(str_job_ids, "Id of the jobs to disown (omit for current job)", "job_ids", Core::ArgsParser::Required::No); if (!parser.parse(argc, const_cast(argv), false)) return 1; Vector job_ids; for (auto& job_id : str_job_ids) { auto id = StringView(job_id).to_uint(); if (id.has_value()) job_ids.append(id.value()); else fprintf(stderr, "disown: Invalid job id %s\n", job_id); } if (job_ids.is_empty()) job_ids.append(find_last_job_id()); Vector jobs_to_disown; for (auto id : job_ids) { auto job = find_job(id); if (!job) fprintf(stderr, "disown: job with id %zu not found\n", id); else jobs_to_disown.append(job); } if (jobs_to_disown.is_empty()) { if (str_job_ids.is_empty()) fprintf(stderr, "disown: no current job\n"); // An error message has already been printed about the nonexistence of each listed job. return 1; } for (auto job : jobs_to_disown) { job->deactivate(); if (!job->is_running_in_background()) fprintf(stderr, "disown warning: job %" PRIu64 " is currently not running, 'kill -%d %d' to make it continue\n", job->job_id(), SIGCONT, job->pid()); jobs.remove(job->pid()); } return 0; } int Shell::builtin_history(int, const char**) { for (size_t i = 0; i < m_editor->history().size(); ++i) { printf("%6zu %s\n", i, m_editor->history()[i].entry.characters()); } return 0; } int Shell::builtin_jobs(int argc, const char** argv) { bool list = false, show_pid = false; Core::ArgsParser parser; parser.add_option(list, "List all information about jobs", "list", 'l'); parser.add_option(show_pid, "Display the PID of the jobs", "pid", 'p'); if (!parser.parse(argc, const_cast(argv), false)) return 1; Job::PrintStatusMode mode = Job::PrintStatusMode::Basic; if (show_pid) mode = Job::PrintStatusMode::OnlyPID; if (list) mode = Job::PrintStatusMode::ListAll; for (auto& it : jobs) { if (!it.value->print_status(mode)) return 1; } return 0; } int Shell::builtin_popd(int argc, const char** argv) { if (directory_stack.size() <= 1) { fprintf(stderr, "Shell: popd: directory stack empty\n"); return 1; } bool should_not_switch = false; String path = directory_stack.take_last(); Core::ArgsParser parser; parser.add_option(should_not_switch, "Do not switch dirs", "no-switch", 'n'); if (!parser.parse(argc, const_cast(argv), false)) return 1; bool should_switch = !should_not_switch; // When no arguments are given, popd removes the top directory from the stack and performs a cd to the new top directory. if (argc == 1) { int rc = chdir(path.characters()); if (rc < 0) { fprintf(stderr, "chdir(%s) failed: %s\n", path.characters(), strerror(errno)); return 1; } cwd = path; return 0; } LexicalPath lexical_path(path.characters()); if (!lexical_path.is_valid()) { fprintf(stderr, "LexicalPath failed to canonicalize '%s'\n", path.characters()); return 1; } const char* real_path = lexical_path.string().characters(); struct stat st; int rc = stat(real_path, &st); if (rc < 0) { fprintf(stderr, "stat(%s) failed: %s\n", real_path, strerror(errno)); return 1; } if (!S_ISDIR(st.st_mode)) { fprintf(stderr, "Not a directory: %s\n", real_path); return 1; } if (should_switch) { int rc = chdir(real_path); if (rc < 0) { fprintf(stderr, "chdir(%s) failed: %s\n", real_path, strerror(errno)); return 1; } cwd = lexical_path.string(); } return 0; } int Shell::builtin_pushd(int argc, const char** argv) { StringBuilder path_builder; bool should_switch = true; // From the BASH reference manual: https://www.gnu.org/software/bash/manual/html_node/Directory-Stack-Builtins.html // With no arguments, pushd exchanges the top two directories and makes the new top the current directory. if (argc == 1) { if (directory_stack.size() < 2) { fprintf(stderr, "pushd: no other directory\n"); return 1; } String dir1 = directory_stack.take_first(); String dir2 = directory_stack.take_first(); directory_stack.insert(0, dir2); directory_stack.insert(1, dir1); int rc = chdir(dir2.characters()); if (rc < 0) { fprintf(stderr, "chdir(%s) failed: %s\n", dir2.characters(), strerror(errno)); return 1; } cwd = dir2; return 0; } // Let's assume the user's typed in 'pushd ' if (argc == 2) { directory_stack.append(cwd.characters()); if (argv[1][0] == '/') { path_builder.append(argv[1]); } else { path_builder.appendf("%s/%s", cwd.characters(), argv[1]); } } else if (argc == 3) { directory_stack.append(cwd.characters()); for (int i = 1; i < argc; i++) { const char* arg = argv[i]; if (arg[0] != '-') { if (arg[0] == '/') { path_builder.append(arg); } else path_builder.appendf("%s/%s", cwd.characters(), arg); } if (!strcmp(arg, "-n")) should_switch = false; } } LexicalPath lexical_path(path_builder.to_string()); if (!lexical_path.is_valid()) { fprintf(stderr, "LexicalPath failed to canonicalize '%s'\n", path_builder.to_string().characters()); return 1; } const char* real_path = lexical_path.string().characters(); struct stat st; int rc = stat(real_path, &st); if (rc < 0) { fprintf(stderr, "stat(%s) failed: %s\n", real_path, strerror(errno)); return 1; } if (!S_ISDIR(st.st_mode)) { fprintf(stderr, "Not a directory: %s\n", real_path); return 1; } if (should_switch) { int rc = chdir(real_path); if (rc < 0) { fprintf(stderr, "chdir(%s) failed: %s\n", real_path, strerror(errno)); return 1; } cwd = lexical_path.string(); } return 0; } int Shell::builtin_pwd(int, const char**) { print_path(cwd); fputc('\n', stdout); return 0; } int Shell::builtin_setopt(int argc, const char** argv) { if (argc == 1) { #define __ENUMERATE_SHELL_OPTION(name, default_, description) \ if (options.name) \ fprintf(stderr, #name "\n"); ENUMERATE_SHELL_OPTIONS(); #undef __ENUMERATE_SHELL_OPTION } Core::ArgsParser parser; #define __ENUMERATE_SHELL_OPTION(name, default_, description) \ bool name = false; \ bool not_##name = false; \ parser.add_option(name, "Enable: " description, #name, '\0'); \ parser.add_option(not_##name, "Disable: " description, "no_" #name, '\0'); ENUMERATE_SHELL_OPTIONS(); #undef __ENUMERATE_SHELL_OPTION if (!parser.parse(argc, const_cast(argv), false)) return 1; #define __ENUMERATE_SHELL_OPTION(name, default_, description) \ if (name) \ options.name = true; \ if (not_##name) \ options.name = false; ENUMERATE_SHELL_OPTIONS(); #undef __ENUMERATE_SHELL_OPTION return 0; } int Shell::builtin_shift(int argc, const char** argv) { int count = 1; Core::ArgsParser parser; parser.add_positional_argument(count, "Shift count", "count", Core::ArgsParser::Required::No); if (!parser.parse(argc, const_cast(argv), false)) return 1; if (count < 1) return 0; auto argv_ = lookup_local_variable("ARGV"); if (!argv_) { fprintf(stderr, "shift: ARGV is unset\n"); return 1; } if (!argv_->is_list()) argv_ = adopt(*new AST::ListValue({ argv_.release_nonnull() })); auto& values = static_cast(argv_.ptr())->values(); if ((size_t)count > values.size()) { fprintf(stderr, "shift: shift count must not be greater than %zu\n", values.size()); return 1; } for (auto i = 0; i < count; ++i) values.take_first(); return 0; } int Shell::builtin_source(int argc, const char** argv) { const char* file_to_source = nullptr; Vector args; Core::ArgsParser parser; parser.add_positional_argument(file_to_source, "File to read commands from", "path"); parser.add_positional_argument(args, "ARGV for the sourced file", "args", Core::ArgsParser::Required::No); if (!parser.parse(argc, const_cast(argv))) return 1; Vector string_argv; for (auto& arg : args) string_argv.append(arg); auto previous_argv = lookup_local_variable("ARGV"); ScopeGuard guard { [&] { if (!args.is_empty()) set_local_variable("ARGV", move(previous_argv)); } }; if (!args.is_empty()) set_local_variable("ARGV", AST::create(move(string_argv))); if (!run_file(file_to_source, true)) return 126; return 0; } int Shell::builtin_time(int argc, const char** argv) { Vector args; Core::ArgsParser parser; parser.add_positional_argument(args, "Command to execute with arguments", "command", Core::ArgsParser::Required::Yes); if (!parser.parse(argc, const_cast(argv), false)) return 1; AST::Command command; for (auto& arg : args) command.argv.append(arg); auto commands = expand_aliases({ move(command) }); Core::ElapsedTimer timer; int exit_code = 1; timer.start(); for (auto& job : run_commands(commands)) { block_on_job(job); exit_code = job.exit_code(); } fprintf(stderr, "Time: %d ms\n", timer.elapsed()); return exit_code; } int Shell::builtin_umask(int argc, const char** argv) { const char* mask_text = nullptr; Core::ArgsParser parser; parser.add_positional_argument(mask_text, "New mask (omit to get current mask)", "octal-mask", Core::ArgsParser::Required::No); if (!parser.parse(argc, const_cast(argv), false)) return 1; if (!mask_text) { mode_t old_mask = umask(0); printf("%#o\n", old_mask); umask(old_mask); return 0; } unsigned mask; int matches = sscanf(mask_text, "%o", &mask); if (matches == 1) { umask(mask); return 0; } fprintf(stderr, "umask: Invalid mask '%s'\n", mask_text); return 1; } int Shell::builtin_wait(int argc, const char** argv) { Vector job_ids; Core::ArgsParser parser; parser.add_positional_argument(job_ids, "Job IDs to wait for, defaults to all jobs if missing", "jobs", Core::ArgsParser::Required::No); if (!parser.parse(argc, const_cast(argv), false)) return 1; Vector> jobs_to_wait_for; if (job_ids.is_empty()) { for (auto it : jobs) jobs_to_wait_for.append(it.value); } else { for (String id_s : job_ids) { auto id_opt = id_s.to_uint(); if (id_opt.has_value()) { if (auto job = find_job(id_opt.value())) { jobs_to_wait_for.append(*job); continue; } } warnln("wait: invalid or nonexistent job id {}", id_s); return 1; } } for (auto& job : jobs_to_wait_for) { job->set_running_in_background(false); block_on_job(job); } return 0; } int Shell::builtin_unset(int argc, const char** argv) { Vector vars; Core::ArgsParser parser; parser.add_positional_argument(vars, "List of variables", "variables", Core::ArgsParser::Required::Yes); if (!parser.parse(argc, const_cast(argv), false)) return 1; for (auto& value : vars) { if (lookup_local_variable(value)) { unset_local_variable(value); } else { unsetenv(value); } } return 0; } int Shell::builtin_not(int argc, const char** argv) { // FIXME: Use ArgsParser when it can collect unrelated -arguments too. if (argc == 1) return 1; AST::Command command; for (size_t i = 1; i < (size_t)argc; ++i) command.argv.append(argv[i]); auto commands = expand_aliases({ move(command) }); int exit_code = 1; auto found_a_job = false; for (auto& job : run_commands(commands)) { found_a_job = true; block_on_job(job); exit_code = job.exit_code(); } // In case it was a function. if (!found_a_job) exit_code = last_return_code; return exit_code == 0 ? 1 : 0; } bool Shell::run_builtin(const AST::Command& command, const NonnullRefPtrVector& rewirings, int& retval) { if (command.argv.is_empty()) return false; if (!has_builtin(command.argv.first())) return false; Vector argv; for (auto& arg : command.argv) argv.append(arg.characters()); argv.append(nullptr); StringView name = command.argv.first(); SavedFileDescriptors fds { rewirings }; for (auto& rewiring : rewirings) { int rc = dup2(rewiring.old_fd, rewiring.new_fd); if (rc < 0) { perror("dup2(run)"); return false; } } Core::EventLoop loop; setup_signals(); #define __ENUMERATE_SHELL_BUILTIN(builtin) \ if (name == #builtin) { \ retval = builtin_##builtin(argv.size() - 1, argv.data()); \ if (!has_error(ShellError::None)) \ raise_error(m_error, m_error_description, command.position); \ return true; \ } ENUMERATE_SHELL_BUILTINS(); #undef __ENUMERATE_SHELL_BUILTIN return false; } bool Shell::has_builtin(const StringView& name) const { #define __ENUMERATE_SHELL_BUILTIN(builtin) \ if (name == #builtin) { \ return true; \ } ENUMERATE_SHELL_BUILTINS(); #undef __ENUMERATE_SHELL_BUILTIN return false; } }