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https://github.com/LadybirdBrowser/ladybird.git
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e2e7c4d574
In a bunch of cases, this actually ends up simplifying the code as to_number will handle something such as: ``` Optional<I> opt; if constexpr (IsSigned<I>) opt = view.to_int<I>(); else opt = view.to_uint<I>(); ``` For us. The main goal here however is to have a single generic number conversion API between all of the String classes.
358 lines
12 KiB
C++
358 lines
12 KiB
C++
/*
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* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/ByteString.h>
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#include <AK/HashMap.h>
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#include <AK/JsonArray.h>
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#include <AK/JsonObject.h>
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#include <AK/QuickSort.h>
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#include <AK/Vector.h>
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#include <LibCore/ArgsParser.h>
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#include <LibCore/ProcessStatisticsReader.h>
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#include <LibCore/System.h>
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#include <LibMain/Main.h>
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#include <signal.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <sys/ioctl.h>
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#include <unistd.h>
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struct TopOption {
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enum class SortBy {
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Pid,
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Tid,
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Priority,
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UserName,
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State,
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Virt,
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Phys,
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Cpu,
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Name
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};
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SortBy sort_by { SortBy::Cpu };
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int delay_time { 1 };
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HashTable<pid_t> pids_to_filter_by;
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};
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struct ThreadData {
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int tid;
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pid_t pid;
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pid_t pgid;
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pid_t pgp;
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pid_t sid;
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uid_t uid;
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gid_t gid;
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pid_t ppid;
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ByteString name;
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ByteString tty;
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size_t amount_virtual;
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size_t amount_resident;
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size_t amount_shared;
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unsigned syscall_count;
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unsigned inode_faults;
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unsigned zero_faults;
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unsigned cow_faults;
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u64 time_scheduled;
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u64 time_scheduled_since_prev { 0 };
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unsigned cpu_percent { 0 };
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unsigned cpu_percent_decimal { 0 };
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u32 priority;
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ByteString username;
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ByteString state;
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};
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struct PidAndTid {
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bool operator==(PidAndTid const& other) const
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{
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return pid == other.pid && tid == other.tid;
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}
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pid_t pid;
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int tid;
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};
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namespace AK {
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template<>
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struct Traits<PidAndTid> : public DefaultTraits<PidAndTid> {
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static unsigned hash(PidAndTid const& value) { return pair_int_hash(value.pid, value.tid); }
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};
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}
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struct Snapshot {
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HashMap<PidAndTid, ThreadData> map;
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u64 total_time_scheduled { 0 };
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u64 total_time_scheduled_kernel { 0 };
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};
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static ErrorOr<Snapshot> get_snapshot(HashTable<pid_t> const& pids)
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{
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auto all_processes = TRY(Core::ProcessStatisticsReader::get_all());
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Snapshot snapshot;
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for (auto& process : all_processes.processes) {
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if (!pids.is_empty() && !pids.contains(process.pid))
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continue;
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for (auto& thread : process.threads) {
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ThreadData thread_data;
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thread_data.tid = thread.tid;
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thread_data.pid = process.pid;
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thread_data.pgid = process.pgid;
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thread_data.pgp = process.pgp;
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thread_data.sid = process.sid;
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thread_data.uid = process.uid;
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thread_data.gid = process.gid;
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thread_data.ppid = process.ppid;
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thread_data.name = process.name;
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thread_data.tty = process.tty;
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thread_data.amount_virtual = process.amount_virtual;
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thread_data.amount_resident = process.amount_resident;
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thread_data.amount_shared = process.amount_shared;
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thread_data.syscall_count = thread.syscall_count;
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thread_data.inode_faults = thread.inode_faults;
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thread_data.zero_faults = thread.zero_faults;
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thread_data.cow_faults = thread.cow_faults;
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thread_data.time_scheduled = (u64)thread.time_user + (u64)thread.time_kernel;
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thread_data.priority = thread.priority;
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thread_data.state = thread.state;
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thread_data.username = process.username;
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snapshot.map.set({ process.pid, thread.tid }, move(thread_data));
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}
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}
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snapshot.total_time_scheduled = all_processes.total_time_scheduled;
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snapshot.total_time_scheduled_kernel = all_processes.total_time_scheduled_kernel;
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return snapshot;
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}
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static bool g_window_size_changed = true;
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static struct winsize g_window_size;
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static void parse_args(Main::Arguments arguments, TopOption& top_option)
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{
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Core::ArgsParser::Option sort_by_option {
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Core::ArgsParser::OptionArgumentMode::Required,
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"Sort by field [pid, tid, pri, user, state, virt, phys, cpu, name]",
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"sort-by",
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's',
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nullptr,
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[&top_option](StringView sort_by_option) {
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if (sort_by_option == "pid"sv)
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top_option.sort_by = TopOption::SortBy::Pid;
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else if (sort_by_option == "tid"sv)
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top_option.sort_by = TopOption::SortBy::Tid;
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else if (sort_by_option == "pri"sv)
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top_option.sort_by = TopOption::SortBy::Priority;
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else if (sort_by_option == "user"sv)
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top_option.sort_by = TopOption::SortBy::UserName;
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else if (sort_by_option == "state"sv)
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top_option.sort_by = TopOption::SortBy::State;
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else if (sort_by_option == "virt"sv)
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top_option.sort_by = TopOption::SortBy::Virt;
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else if (sort_by_option == "phys"sv)
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top_option.sort_by = TopOption::SortBy::Phys;
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else if (sort_by_option == "cpu"sv)
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top_option.sort_by = TopOption::SortBy::Cpu;
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else if (sort_by_option == "name"sv)
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top_option.sort_by = TopOption::SortBy::Name;
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else
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return false;
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return true;
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}
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};
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HashTable<pid_t> pids;
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Core::ArgsParser args_parser;
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args_parser.set_general_help("Display information about processes");
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args_parser.add_option(top_option.delay_time, "Delay time interval in seconds", "delay-time", 'd', nullptr);
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args_parser.add_option(Core::ArgsParser::Option {
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.argument_mode = Core::ArgsParser::OptionArgumentMode::Required,
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.help_string = "A comma-separated list of pids to filter by",
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.long_name = "pids",
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.short_name = 'p',
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.accept_value = [&pids](auto comma_separated_pids) {
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for (auto pid : comma_separated_pids.split_view(',')) {
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auto maybe_integer = pid.template to_number<pid_t>();
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if (!maybe_integer.has_value())
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return false;
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pids.set(maybe_integer.value());
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}
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return true;
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},
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});
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args_parser.add_option(move(sort_by_option));
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args_parser.parse(arguments);
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top_option.pids_to_filter_by = move(pids);
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}
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static bool check_quit()
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{
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char c = '\0';
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read(STDIN_FILENO, &c, sizeof(c));
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return c == 'q' || c == 'Q';
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}
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static struct termios g_previous_tty_settings;
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static int g_old_stdin_status_flags;
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static ErrorOr<void> setup_tty()
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{
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g_old_stdin_status_flags = TRY(Core::System::fcntl(STDIN_FILENO, F_GETFL));
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TRY(Core::System::fcntl(STDIN_FILENO, F_SETFL, g_old_stdin_status_flags | O_NONBLOCK));
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g_previous_tty_settings = TRY(Core::System::tcgetattr(STDOUT_FILENO));
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struct termios raw = g_previous_tty_settings;
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raw.c_lflag &= ~(ECHO | ICANON);
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// Disable echo and line buffering
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TRY(Core::System::tcsetattr(STDOUT_FILENO, TCSAFLUSH, raw));
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return {};
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}
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static void restore_tty()
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{
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auto maybe_error = Core::System::tcsetattr(STDOUT_FILENO, TCSAFLUSH, g_previous_tty_settings);
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if (maybe_error.is_error())
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warnln("Failed to reset original terminal state: {}", strerror(maybe_error.error().code()));
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auto maybe_fcntl_error = Core::System::fcntl(STDIN_FILENO, F_SETFL, g_old_stdin_status_flags);
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if (maybe_fcntl_error.is_error())
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warnln("Error restoring STDIN status flags: {}", strerror(maybe_error.error().code()));
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}
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ErrorOr<int> serenity_main(Main::Arguments arguments)
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{
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TRY(Core::System::pledge("stdio rpath tty sigaction"));
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TRY(Core::System::unveil("/sys/kernel/processes", "r"));
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TRY(Core::System::unveil("/etc/passwd", "r"));
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unveil(nullptr, nullptr);
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TRY(Core::System::signal(SIGWINCH, [](int) {
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g_window_size_changed = true;
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}));
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TopOption top_option;
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parse_args(arguments, top_option);
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TRY(setup_tty());
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ScopeGuard restore_tty_guard([] {
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restore_tty();
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});
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auto restore_tty_sigaction_handler = [](auto) {
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restore_tty();
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exit(1);
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};
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struct sigaction restore_tty_action;
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restore_tty_action.sa_handler = restore_tty_sigaction_handler;
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TRY(Core::System::sigaction(SIGINT, &restore_tty_action, nullptr));
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TRY(Core::System::sigaction(SIGTERM, &restore_tty_action, nullptr));
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TRY(Core::System::pledge("stdio rpath tty"));
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Vector<ThreadData*> threads;
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auto prev = TRY(get_snapshot(top_option.pids_to_filter_by));
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usleep(10000);
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bool should_quit = false;
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while (!should_quit) {
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if (g_window_size_changed) {
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TRY(Core::System::ioctl(STDOUT_FILENO, TIOCGWINSZ, &g_window_size));
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g_window_size_changed = false;
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}
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auto current = TRY(get_snapshot(top_option.pids_to_filter_by));
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auto total_scheduled_diff = current.total_time_scheduled - prev.total_time_scheduled;
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printf("\033[3J\033[H\033[2J");
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printf("\033[47;30m%6s %3s %3s %-9s %-13s %6s %6s %4s %s\033[K\033[0m\n",
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"PID",
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"TID",
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"PRI",
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"USER",
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"STATE",
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"VIRT",
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"PHYS",
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"%CPU",
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"NAME");
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for (auto& it : current.map) {
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auto pid_and_tid = it.key;
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if (pid_and_tid.pid == 0)
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continue;
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auto jt = prev.map.find(pid_and_tid);
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if (jt == prev.map.end())
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continue;
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auto time_scheduled_before = (*jt).value.time_scheduled;
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auto time_scheduled_diff = it.value.time_scheduled - time_scheduled_before;
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it.value.time_scheduled_since_prev = time_scheduled_diff;
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it.value.cpu_percent = total_scheduled_diff > 0 ? ((time_scheduled_diff * 100) / total_scheduled_diff) : 0;
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it.value.cpu_percent_decimal = total_scheduled_diff > 0 ? (((time_scheduled_diff * 1000) / total_scheduled_diff) % 10) : 0;
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threads.append(&it.value);
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}
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quick_sort(threads, [&top_option](auto* p1, auto* p2) {
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switch (top_option.sort_by) {
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case TopOption::SortBy::Pid:
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return p2->pid > p1->pid;
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case TopOption::SortBy::Tid:
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return p2->tid > p1->tid;
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case TopOption::SortBy::Priority:
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return p2->priority > p1->priority;
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case TopOption::SortBy::UserName:
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return p2->username > p1->username;
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case TopOption::SortBy::State:
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return p2->state > p1->state;
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case TopOption::SortBy::Virt:
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return p2->amount_virtual < p1->amount_virtual;
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case TopOption::SortBy::Phys:
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return p2->amount_resident < p1->amount_resident;
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case TopOption::SortBy::Name:
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return p2->name > p1->name;
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case TopOption::SortBy::Cpu:
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return p2->cpu_percent * 10 + p2->cpu_percent_decimal < p1->cpu_percent * 10 + p1->cpu_percent_decimal;
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default:
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return p2->time_scheduled_since_prev < p1->time_scheduled_since_prev;
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}
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});
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int row = 0;
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for (auto* thread : threads) {
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int nprinted = printf("%6d %3d %2u %-9s %-13s %6zu %6zu %2u.%1u ",
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thread->pid,
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thread->tid,
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thread->priority,
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thread->username.characters(),
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thread->state.characters(),
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thread->amount_virtual / 1024,
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thread->amount_resident / 1024,
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thread->cpu_percent,
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thread->cpu_percent_decimal);
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int remaining = g_window_size.ws_col - nprinted;
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fwrite(thread->name.characters(), 1, max(0, min(remaining, (int)thread->name.length())), stdout);
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putchar('\n');
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if (++row >= (g_window_size.ws_row - 2))
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break;
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}
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threads.clear_with_capacity();
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prev = move(current);
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for (int sleep_slice = 0; sleep_slice < top_option.delay_time * 1000; sleep_slice += 100) {
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should_quit = check_quit();
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if (should_quit)
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break;
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usleep(100 * 1000);
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}
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}
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return 0;
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}
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