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/*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "Shell.h"
#include <LibCore/ArgsParser.h>
#include <LibCore/Event.h>
#include <LibCore/EventLoop.h>
#include <LibCore/File.h>
#include <LibCore/System.h>
#include <LibMain/Main.h>
#include <signal.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
RefPtr<Line::Editor> editor;
Shell::Shell* s_shell;
ErrorOr<int> serenity_main(Main::Arguments arguments)
{
Core::EventLoop loop;
Core::EventLoop::register_signal(SIGINT, [](int) {
s_shell->kill_job(s_shell->current_job(), SIGINT);
});
Core::EventLoop::register_signal(SIGWINCH, [](int) {
s_shell->kill_job(s_shell->current_job(), SIGWINCH);
});
Core::EventLoop::register_signal(SIGTTIN, [](int) {});
Core::EventLoop::register_signal(SIGTTOU, [](int) {});
Core::EventLoop::register_signal(SIGHUP, [](int) {
for (auto& it : s_shell->jobs)
s_shell->kill_job(it.value.ptr(), SIGHUP);
s_shell->editor()->save_history(s_shell->get_history_path());
});
#ifdef __serenity__
TRY(Core::System::pledge("stdio rpath wpath cpath proc exec tty sigaction unix fattr"));
#endif
RefPtr<::Shell::Shell> shell;
bool attempt_interactive = false;
auto initialize = [&] {
editor = Line::Editor::construct();
editor->initialize();
shell = Shell::Shell::construct(*editor, attempt_interactive);
s_shell = shell.ptr();
s_shell->setup_signals();
#ifndef __serenity__
sigset_t blocked;
sigemptyset(&blocked);
sigaddset(&blocked, SIGTTOU);
sigaddset(&blocked, SIGTTIN);
pthread_sigmask(SIG_BLOCK, &blocked, nullptr);
#endif
shell->termios = editor->termios();
shell->default_termios = editor->default_termios();
editor->on_display_refresh = [&](auto& editor) {
editor.strip_styles();
if (shell->should_format_live()) {
auto line = editor.line();
ssize_t cursor = editor.cursor();
editor.clear_line();
editor.insert(shell->format(line, cursor));
if (cursor >= 0)
editor.set_cursor(cursor);
}
shell->highlight(editor);
};
editor->on_tab_complete = [&](const Line::Editor&) {
return shell->complete();
};
editor->on_paste = [&](Utf32View data, Line::Editor& editor) {
auto line = editor.line(editor.cursor());
Shell::Parser parser(line, false);
auto ast = parser.parse();
if (!ast) {
editor.insert(data);
return;
}
auto hit_test_result = ast->hit_test_position(editor.cursor());
// If the argument isn't meant to be an entire command, escape it.
// This allows copy-pasting entire commands where commands are expected, and otherwise escapes everything.
auto should_escape = false;
if (!hit_test_result.matching_node && hit_test_result.closest_command_node) {
// There's *some* command, but our cursor is immediate after it
should_escape = editor.cursor() >= hit_test_result.closest_command_node->position().end_offset;
hit_test_result.matching_node = hit_test_result.closest_command_node;
} else if (hit_test_result.matching_node && hit_test_result.closest_command_node) {
// There's a command, and we're at the end of or in the middle of some node.
auto leftmost_literal = hit_test_result.closest_command_node->leftmost_trivial_literal();
if (leftmost_literal)
should_escape = !hit_test_result.matching_node->position().contains(leftmost_literal->position().start_offset);
}
if (should_escape) {
String escaped_string;
Optional<char> trivia {};
bool starting_trivia_already_provided = false;
auto escape_mode = Shell::Shell::EscapeMode::Bareword;
if (hit_test_result.matching_node->kind() == Shell::AST::Node::Kind::StringLiteral) {
// If we're pasting in a string literal, make sure to only consider that specific escape mode
auto* node = static_cast<Shell::AST::StringLiteral const*>(hit_test_result.matching_node.ptr());
switch (node->enclosure_type()) {
case Shell::AST::StringLiteral::EnclosureType::None:
break;
case Shell::AST::StringLiteral::EnclosureType::SingleQuotes:
escape_mode = Shell::Shell::EscapeMode::SingleQuotedString;
trivia = '\'';
starting_trivia_already_provided = true;
break;
case Shell::AST::StringLiteral::EnclosureType::DoubleQuotes:
escape_mode = Shell::Shell::EscapeMode::DoubleQuotedString;
trivia = '"';
starting_trivia_already_provided = true;
break;
}
}
if (starting_trivia_already_provided) {
escaped_string = shell->escape_token(data, escape_mode);
} else {
escaped_string = shell->escape_token(data, Shell::Shell::EscapeMode::Bareword);
if (auto string = shell->escape_token(data, Shell::Shell::EscapeMode::SingleQuotedString); string.length() + 2 < escaped_string.length()) {
escaped_string = move(string);
trivia = '\'';
}
if (auto string = shell->escape_token(data, Shell::Shell::EscapeMode::DoubleQuotedString); string.length() + 2 < escaped_string.length()) {
escaped_string = move(string);
trivia = '"';
}
}
if (trivia.has_value() && !starting_trivia_already_provided)
editor.insert(*trivia);
editor.insert(escaped_string);
if (trivia.has_value())
editor.insert(*trivia);
} else {
editor.insert(data);
}
};
};
char const* command_to_run = nullptr;
char const* file_to_read_from = nullptr;
Vector<char const*> script_args;
bool skip_rc_files = false;
char const* format = nullptr;
bool should_format_live = false;
bool keep_open = false;
Core::ArgsParser parser;
parser.add_option(command_to_run, "String to read commands from", "command-string", 'c', "command-string");
parser.add_option(skip_rc_files, "Skip running shellrc files", "skip-shellrc", 0);
parser.add_option(format, "Format the given file into stdout and exit", "format", 0, "file");
parser.add_option(should_format_live, "Enable live formatting", "live-formatting", 'f');
parser.add_option(keep_open, "Keep the shell open after running the specified command or file", "keep-open", 0);
parser.add_positional_argument(file_to_read_from, "File to read commands from", "file", Core::ArgsParser::Required::No);
parser.add_positional_argument(script_args, "Extra arguments to pass to the script (via $* and co)", "argument", Core::ArgsParser::Required::No);
parser.set_stop_on_first_non_option(true);
parser.parse(arguments);
if (format) {
auto file = TRY(Core::File::open(format, Core::OpenMode::ReadOnly));
initialize();
ssize_t cursor = -1;
puts(shell->format(file->read_all(), cursor).characters());
return 0;
}
auto pid = getpid();
if (auto sid = getsid(pid); sid == 0) {
if (auto res = Core::System::setsid(); res.is_error())
dbgln("{}", res.release_error());
} else if (sid != pid) {
if (getpgid(pid) != pid) {
if (auto res = Core::System::setpgid(pid, sid); res.is_error())
dbgln("{}", res.release_error());
if (auto res = Core::System::setsid(); res.is_error())
dbgln("{}", res.release_error());
}
}
auto execute_file = file_to_read_from && "-"sv != file_to_read_from;
attempt_interactive = !execute_file;
if (keep_open && !command_to_run && !execute_file) {
warnln("Option --keep-open can only be used in combination with -c or when specifying a file to execute.");
return 1;
}
initialize();
shell->set_live_formatting(should_format_live);
shell->current_script = arguments.strings[0];
if (!skip_rc_files) {
auto run_rc_file = [&](auto& name) {
String file_path = name;
if (file_path.starts_with('~'))
file_path = shell->expand_tilde(file_path);
if (Core::File::exists(file_path)) {
shell->run_file(file_path, false);
}
};
run_rc_file(Shell::Shell::global_init_file_path);
run_rc_file(Shell::Shell::local_init_file_path);
shell->cache_path();
}
{
Vector<String> args;
for (auto* arg : script_args)
args.empend(arg);
shell->set_local_variable("ARGV", adopt_ref(*new Shell::AST::ListValue(move(args))));
}
if (command_to_run) {
dbgln("sh -c '{}'\n", command_to_run);
auto result = shell->run_command(command_to_run);
if (!keep_open)
return result;
}
if (execute_file) {
auto result = shell->run_file(file_to_read_from);
if (!keep_open) {
if (result)
return 0;
return 1;
}
}
shell->add_child(*editor);
Core::EventLoop::current().post_event(*shell, make<Core::CustomEvent>(Shell::Shell::ShellEventType::ReadLine));
return loop.exec();
}
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