/* * Copyright (c) 2018-2021, Andreas Kling * Copyright (c) 2021, Undefine * Copyright (c) 2022, the SerenityOS developers. * * SPDX-License-Identifier: BSD-2-Clause */ #include "GraphWidget.h" #include "MemoryStatsWidget.h" #include "NetworkStatisticsWidget.h" #include "ProcessFileDescriptorMapWidget.h" #include "ProcessMemoryMapWidget.h" #include "ProcessModel.h" #include "ProcessStateWidget.h" #include "ProcessUnveiledPathsWidget.h" #include "ThreadStackWidget.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static ErrorOr> build_process_window(pid_t); static void build_performance_tab(GUI::Widget&); static RefPtr statusbar; namespace SystemMonitor { class ProgressbarPaintingDelegate final : public GUI::TableCellPaintingDelegate { public: virtual ~ProgressbarPaintingDelegate() override = default; virtual void paint(GUI::Painter& painter, Gfx::IntRect const& a_rect, Palette const& palette, GUI::ModelIndex const& index) override { auto rect = a_rect.shrunken(2, 2); auto percentage = index.data(GUI::ModelRole::Custom).to_i32(); auto data = index.data(); String text; if (data.is_string()) text = data.as_string(); Gfx::StylePainter::paint_progressbar(painter, rect, palette, 0, 100, percentage, text); painter.draw_rect(rect, Color::Black); } }; class UnavailableProcessWidget final : public GUI::Frame { C_OBJECT(UnavailableProcessWidget) public: virtual ~UnavailableProcessWidget() override = default; String const& text() const { return m_text; } void set_text(String text) { m_text = move(text); update(); } private: UnavailableProcessWidget() { REGISTER_STRING_PROPERTY("text", text, set_text); } virtual void paint_event(GUI::PaintEvent& event) override { Frame::paint_event(event); if (text().is_empty()) return; GUI::Painter painter(*this); painter.add_clip_rect(event.rect()); painter.draw_text(frame_inner_rect(), text(), Gfx::TextAlignment::Center, palette().window_text(), Gfx::TextElision::Right); } String m_text; }; class HardwareTabWidget final : public GUI::LazyWidget { C_OBJECT(HardwareTabWidget) public: HardwareTabWidget() { auto db_creator = Threading::BackgroundAction::construct([this](auto&) { auto db = PCIDB::Database::open(); if (!db) warnln("Couldn't open PCI ID database!"); m_db = db; m_loader_complete.store(true); return 0; }, nullptr); this->on_first_show = [this](GUI::LazyWidget& self) { { Vector processors_field; processors_field.empend("processor", "Processor", Gfx::TextAlignment::CenterRight); processors_field.empend("vendor_id", "Vendor ID", Gfx::TextAlignment::CenterLeft); processors_field.empend("brand", "Brand", Gfx::TextAlignment::CenterLeft); processors_field.empend("Features", Gfx::TextAlignment::CenterLeft, [](auto& object) { StringBuilder builder; auto features = object.get("features").as_array(); for (auto& feature : features.values()) { builder.append(feature.to_string()); builder.append(' '); } return GUI::Variant(builder.to_string()); }); processors_field.empend("family", "Family", Gfx::TextAlignment::CenterRight); processors_field.empend("model", "Model", Gfx::TextAlignment::CenterRight); processors_field.empend("stepping", "Stepping", Gfx::TextAlignment::CenterRight); processors_field.empend("type", "Type", Gfx::TextAlignment::CenterRight); auto& processors_table_view = *self.find_descendant_of_type_named("cpus_table"); auto json_model = GUI::JsonArrayModel::create("/proc/cpuinfo", move(processors_field)); processors_table_view.set_model(json_model); json_model->invalidate(); } { while (!m_loader_complete.load()) ; Vector pci_fields; pci_fields.empend( "Address", Gfx::TextAlignment::CenterLeft, [](const JsonObject& object) { auto seg = object.get("seg").to_u32(); auto bus = object.get("bus").to_u32(); auto device = object.get("device").to_u32(); auto function = object.get("function").to_u32(); return String::formatted("{:04x}:{:02x}:{:02x}.{}", seg, bus, device, function); }); pci_fields.empend( "Class", Gfx::TextAlignment::CenterLeft, [this](const JsonObject& object) { auto class_id = object.get("class").to_u32(); String class_name = m_db ? m_db->get_class(class_id) : nullptr; return class_name.is_empty() ? String::formatted("Unknown class: {:04x}", class_id) : class_name; }); pci_fields.empend( "Vendor", Gfx::TextAlignment::CenterLeft, [this](const JsonObject& object) { auto vendor_id = object.get("vendor_id").to_u32(); String vendor_name = m_db ? m_db->get_vendor(vendor_id) : nullptr; return vendor_name.is_empty() ? String::formatted("Unknown vendor: {:02x}", vendor_id) : vendor_name; }); pci_fields.empend( "Device", Gfx::TextAlignment::CenterLeft, [this](const JsonObject& object) { auto vendor_id = object.get("vendor_id").to_u32(); auto device_id = object.get("device_id").to_u32(); String device_name = m_db ? m_db->get_device(vendor_id, device_id) : nullptr; return device_name.is_empty() ? String::formatted("Unknown device: {:02x}", device_id) : device_name; }); pci_fields.empend( "Revision", Gfx::TextAlignment::CenterRight, [](const JsonObject& object) { auto revision_id = object.get("revision_id").to_u32(); return String::formatted("{:02x}", revision_id); }); auto& pci_table_view = *self.find_descendant_of_type_named("pci_dev_table"); pci_table_view.set_model(MUST(GUI::SortingProxyModel::create(GUI::JsonArrayModel::create("/proc/pci", move(pci_fields))))); pci_table_view.model()->invalidate(); } }; } private: RefPtr m_db; Atomic m_loader_complete { false }; }; class StorageTabWidget final : public GUI::LazyWidget { C_OBJECT(StorageTabWidget) public: StorageTabWidget() { this->on_first_show = [](GUI::LazyWidget& self) { auto& fs_table_view = *self.find_child_of_type_named("storage_table"); Vector df_fields; df_fields.empend("mount_point", "Mount point", Gfx::TextAlignment::CenterLeft); df_fields.empend("class_name", "Class", Gfx::TextAlignment::CenterLeft); df_fields.empend("source", "Source", Gfx::TextAlignment::CenterLeft); df_fields.empend( "Size", Gfx::TextAlignment::CenterRight, [](const JsonObject& object) { StringBuilder size_builder; size_builder.append(" "); size_builder.append(human_readable_size(object.get("total_block_count").to_u64() * object.get("block_size").to_u64())); size_builder.append(" "); return size_builder.to_string(); }, [](const JsonObject& object) { return object.get("total_block_count").to_u64() * object.get("block_size").to_u64(); }, [](const JsonObject& object) { auto total_blocks = object.get("total_block_count").to_u64(); if (total_blocks == 0) return 0; auto free_blocks = object.get("free_block_count").to_u64(); auto used_blocks = total_blocks - free_blocks; int percentage = (static_cast(used_blocks) / static_cast(total_blocks) * 100.0); return percentage; }); df_fields.empend( "Used", Gfx::TextAlignment::CenterRight, [](const JsonObject& object) { auto total_blocks = object.get("total_block_count").to_u64(); auto free_blocks = object.get("free_block_count").to_u64(); auto used_blocks = total_blocks - free_blocks; return human_readable_size(used_blocks * object.get("block_size").to_u64()); }, [](const JsonObject& object) { auto total_blocks = object.get("total_block_count").to_u64(); auto free_blocks = object.get("free_block_count").to_u64(); auto used_blocks = total_blocks - free_blocks; return used_blocks * object.get("block_size").to_u64(); }); df_fields.empend( "Available", Gfx::TextAlignment::CenterRight, [](const JsonObject& object) { return human_readable_size(object.get("free_block_count").to_u64() * object.get("block_size").to_u64()); }, [](const JsonObject& object) { return object.get("free_block_count").to_u64() * object.get("block_size").to_u64(); }); df_fields.empend("Access", Gfx::TextAlignment::CenterLeft, [](const JsonObject& object) { bool readonly = object.get("readonly").to_bool(); int mount_flags = object.get("mount_flags").to_int(); return readonly || (mount_flags & MS_RDONLY) ? "Read-only" : "Read/Write"; }); df_fields.empend("Mount flags", Gfx::TextAlignment::CenterLeft, [](const JsonObject& object) { int mount_flags = object.get("mount_flags").to_int(); StringBuilder builder; bool first = true; auto check = [&](int flag, const char* name) { if (!(mount_flags & flag)) return; if (!first) builder.append(','); builder.append(name); first = false; }; check(MS_NODEV, "nodev"); check(MS_NOEXEC, "noexec"); check(MS_NOSUID, "nosuid"); check(MS_BIND, "bind"); check(MS_RDONLY, "ro"); check(MS_WXALLOWED, "wxallowed"); if (builder.string_view().is_empty()) return String("defaults"); return builder.to_string(); }); df_fields.empend("free_block_count", "Free blocks", Gfx::TextAlignment::CenterRight); df_fields.empend("total_block_count", "Total blocks", Gfx::TextAlignment::CenterRight); df_fields.empend("free_inode_count", "Free inodes", Gfx::TextAlignment::CenterRight); df_fields.empend("total_inode_count", "Total inodes", Gfx::TextAlignment::CenterRight); df_fields.empend("block_size", "Block size", Gfx::TextAlignment::CenterRight); fs_table_view.set_model(MUST(GUI::SortingProxyModel::create(GUI::JsonArrayModel::create("/proc/df", move(df_fields))))); fs_table_view.set_column_painting_delegate(3, make()); fs_table_view.model()->invalidate(); }; } }; } REGISTER_WIDGET(SystemMonitor, HardwareTabWidget) REGISTER_WIDGET(SystemMonitor, StorageTabWidget) REGISTER_WIDGET(SystemMonitor, UnavailableProcessWidget) static bool can_access_pid(pid_t pid) { int rc = kill(pid, 0); return rc == 0; } ErrorOr serenity_main(Main::Arguments arguments) { { // Before we do anything else, boost our process priority to the maximum allowed. // It's very frustrating when the system is bogged down under load and you just want // System Monitor to work. sched_param param { .sched_priority = THREAD_PRIORITY_MAX, }; sched_setparam(0, ¶m); } TRY(Core::System::pledge("stdio thread proc recvfd sendfd rpath exec unix")); auto app = TRY(GUI::Application::try_create(arguments)); Config::pledge_domain("SystemMonitor"); TRY(Core::System::unveil("/etc/passwd", "r")); TRY(Core::System::unveil("/res", "r")); TRY(Core::System::unveil("/proc", "r")); TRY(Core::System::unveil("/dev", "r")); TRY(Core::System::unveil("/bin", "r")); TRY(Core::System::unveil("/usr/lib", "r")); // This directory only exists if ports are installed if (auto result = Core::System::unveil("/usr/local/bin", "r"); result.is_error() && result.error().code() != ENOENT) return result.release_error(); if (auto result = Core::System::unveil("/usr/local/lib", "r"); result.is_error() && result.error().code() != ENOENT) return result.release_error(); // This file is only accesible when running as root if (auto result = Core::System::unveil("/boot/Kernel.debug", "r"); result.is_error() && result.error().code() != EACCES) return result.release_error(); TRY(Core::System::unveil("/bin/Profiler", "rx")); TRY(Core::System::unveil("/bin/Inspector", "rx")); TRY(Core::System::unveil(nullptr, nullptr)); StringView args_tab = "processes"sv; Core::ArgsParser parser; parser.add_option(args_tab, "Tab, one of 'processes', 'graphs', 'fs', 'hardware', or 'network'", "open-tab", 't', "tab"); parser.parse(arguments); StringView args_tab_view = args_tab; auto app_icon = GUI::Icon::default_icon("app-system-monitor"); auto window = GUI::Window::construct(); window->set_title("System Monitor"); window->resize(560, 430); auto main_widget = TRY(window->try_set_main_widget()); main_widget->load_from_gml(system_monitor_gml); auto& tabwidget = *main_widget->find_descendant_of_type_named("main_tabs"); statusbar = main_widget->find_descendant_of_type_named("statusbar"); auto& process_table_container = *tabwidget.find_descendant_of_type_named("processes"); auto process_model = ProcessModel::create(); process_model->on_state_update = [&](int process_count, int thread_count) { statusbar->set_text(0, String::formatted("Processes: {}", process_count)); statusbar->set_text(1, String::formatted("Threads: {}", thread_count)); }; auto& performance_widget = *tabwidget.find_descendant_of_type_named("performance"); build_performance_tab(performance_widget); auto& process_table_view = *process_table_container.find_child_of_type_named("process_table"); process_table_view.set_model(TRY(GUI::SortingProxyModel::create(process_model))); for (auto column = 0; column < ProcessModel::Column::__Count; ++column) process_table_view.set_column_visible(column, false); process_table_view.set_column_visible(ProcessModel::Column::PID, true); process_table_view.set_column_visible(ProcessModel::Column::TID, true); process_table_view.set_column_visible(ProcessModel::Column::Name, true); process_table_view.set_column_visible(ProcessModel::Column::CPU, true); process_table_view.set_column_visible(ProcessModel::Column::User, true); process_table_view.set_column_visible(ProcessModel::Column::Virtual, true); process_table_view.set_column_visible(ProcessModel::Column::DirtyPrivate, true); process_table_view.set_key_column_and_sort_order(ProcessModel::Column::CPU, GUI::SortOrder::Descending); process_model->update(); i32 frequency = Config::read_i32("SystemMonitor", "Monitor", "Frequency", 3); if (frequency != 1 && frequency != 3 && frequency != 5) { frequency = 3; Config::write_i32("SystemMonitor", "Monitor", "Frequency", frequency); } auto& refresh_timer = window->add( frequency * 1000, [&] { // FIXME: remove the primitive re-toggling code once persistent model indices work. auto toggled_indices = process_table_view.selection().indices(); toggled_indices.remove_all_matching([&](auto const& index) { return !process_table_view.is_toggled(index); }); process_model->update(); if (!process_table_view.selection().is_empty()) process_table_view.selection().for_each_index([&](auto& selection) { if (toggled_indices.contains_slow(selection)) process_table_view.expand_all_parents_of(selection); }); if (auto* memory_stats_widget = SystemMonitor::MemoryStatsWidget::the()) memory_stats_widget->refresh(); }); auto selected_id = [&](ProcessModel::Column column) -> pid_t { if (process_table_view.selection().is_empty()) return -1; auto pid_index = process_table_view.model()->index(process_table_view.selection().first().row(), column, process_table_view.selection().first().parent()); return pid_index.data().to_i32(); }; auto selected_name = [&](ProcessModel::Column column) -> String { if (process_table_view.selection().is_empty()) return {}; auto pid_index = process_table_view.model()->index(process_table_view.selection().first().row(), column, process_table_view.selection().first().parent()); return pid_index.data().to_string(); }; auto kill_action = GUI::Action::create( "&Kill Process", { Mod_Ctrl, Key_K }, { Key_Delete }, Gfx::Bitmap::try_load_from_file("/res/icons/16x16/kill.png").release_value_but_fixme_should_propagate_errors(), [&](const GUI::Action&) { pid_t pid = selected_id(ProcessModel::Column::PID); if (pid == -1) return; auto rc = GUI::MessageBox::show(window, String::formatted("Do you really want to kill \"{}\" (PID {})?", selected_name(ProcessModel::Column::Name), pid), "System Monitor", GUI::MessageBox::Type::Question, GUI::MessageBox::InputType::YesNo); if (rc == GUI::Dialog::ExecYes) kill(pid, SIGKILL); }, &process_table_view); auto stop_action = GUI::Action::create( "&Stop Process", { Mod_Ctrl, Key_S }, Gfx::Bitmap::try_load_from_file("/res/icons/16x16/stop-hand.png").release_value_but_fixme_should_propagate_errors(), [&](const GUI::Action&) { pid_t pid = selected_id(ProcessModel::Column::PID); if (pid == -1) return; auto rc = GUI::MessageBox::show(window, String::formatted("Do you really want to stop \"{}\" (PID {})?", selected_name(ProcessModel::Column::Name), pid), "System Monitor", GUI::MessageBox::Type::Question, GUI::MessageBox::InputType::YesNo); if (rc == GUI::Dialog::ExecYes) kill(pid, SIGSTOP); }, &process_table_view); auto continue_action = GUI::Action::create( "&Continue Process", { Mod_Ctrl, Key_C }, Gfx::Bitmap::try_load_from_file("/res/icons/16x16/continue.png").release_value_but_fixme_should_propagate_errors(), [&](const GUI::Action&) { pid_t pid = selected_id(ProcessModel::Column::PID); if (pid != -1) kill(pid, SIGCONT); }, &process_table_view); auto profile_action = GUI::Action::create( "&Profile Process", { Mod_Ctrl, Key_P }, Gfx::Bitmap::try_load_from_file("/res/icons/16x16/app-profiler.png").release_value_but_fixme_should_propagate_errors(), [&](auto&) { pid_t pid = selected_id(ProcessModel::Column::PID); if (pid != -1) { auto pid_string = String::number(pid); pid_t child; const char* argv[] = { "/bin/Profiler", "--pid", pid_string.characters(), nullptr }; if ((errno = posix_spawn(&child, "/bin/Profiler", nullptr, nullptr, const_cast(argv), environ))) { perror("posix_spawn"); } else { if (disown(child) < 0) perror("disown"); } } }, &process_table_view); HashMap> process_windows; auto process_properties_action = GUI::CommonActions::make_properties_action( [&](auto&) { auto pid = selected_id(ProcessModel::Column::PID); if (pid == -1) return; RefPtr process_window; auto it = process_windows.find(pid); if (it == process_windows.end()) { auto process_window_or_error = build_process_window(pid); if (process_window_or_error.is_error()) return; process_window = process_window_or_error.release_value(); process_window->on_close_request = [pid, &process_windows] { process_windows.remove(pid); return GUI::Window::CloseRequestDecision::Close; }; process_windows.set(pid, *process_window); } else { process_window = it->value; } process_window->show(); process_window->move_to_front(); }, &process_table_view); auto& file_menu = window->add_menu("&File"); file_menu.add_action(GUI::CommonActions::make_quit_action([](auto&) { GUI::Application::the()->quit(); })); auto process_context_menu = GUI::Menu::construct(); process_context_menu->add_action(kill_action); process_context_menu->add_action(stop_action); process_context_menu->add_action(continue_action); process_context_menu->add_separator(); process_context_menu->add_action(profile_action); process_context_menu->add_separator(); process_context_menu->add_action(process_properties_action); process_table_view.on_context_menu_request = [&]([[maybe_unused]] const GUI::ModelIndex& index, const GUI::ContextMenuEvent& event) { if (index.is_valid()) process_context_menu->popup(event.screen_position(), process_properties_action); }; auto& frequency_menu = window->add_menu("F&requency"); GUI::ActionGroup frequency_action_group; frequency_action_group.set_exclusive(true); auto make_frequency_action = [&](int seconds) { auto action = GUI::Action::create_checkable(String::formatted("&{} Sec", seconds), [&refresh_timer, seconds](auto&) { Config::write_i32("SystemMonitor", "Monitor", "Frequency", seconds); refresh_timer.restart(seconds * 1000); }); action->set_status_tip(String::formatted("Refresh every {} seconds", seconds)); action->set_checked(frequency == seconds); frequency_action_group.add_action(*action); frequency_menu.add_action(*action); }; make_frequency_action(1); make_frequency_action(3); make_frequency_action(5); auto& help_menu = window->add_menu("&Help"); help_menu.add_action(GUI::CommonActions::make_about_action("System Monitor", app_icon, window)); process_table_view.on_activation = [&](auto&) { if (process_properties_action->is_enabled()) process_properties_action->activate(); }; static pid_t last_selected_pid; process_table_view.on_selection_change = [&] { pid_t pid = selected_id(ProcessModel::Column::PID); if (pid == last_selected_pid || pid < 1) return; last_selected_pid = pid; bool has_access = can_access_pid(pid); kill_action->set_enabled(has_access); stop_action->set_enabled(has_access); continue_action->set_enabled(has_access); profile_action->set_enabled(has_access); process_properties_action->set_enabled(has_access); }; app->on_action_enter = [](GUI::Action const& action) { statusbar->set_override_text(action.status_tip()); }; app->on_action_leave = [](GUI::Action const&) { statusbar->set_override_text({}); }; window->show(); window->set_icon(app_icon.bitmap_for_size(16)); if (args_tab_view == "processes") tabwidget.set_active_widget(&process_table_container); else if (args_tab_view == "graphs") tabwidget.set_active_widget(&performance_widget); else if (args_tab_view == "fs") tabwidget.set_active_widget(tabwidget.find_descendant_of_type_named("storage")); else if (args_tab_view == "hardware") tabwidget.set_active_widget(tabwidget.find_descendant_of_type_named("hardware")); else if (args_tab_view == "network") tabwidget.set_active_widget(tabwidget.find_descendant_of_type_named("network")); return app->exec(); } ErrorOr> build_process_window(pid_t pid) { auto window = GUI::Window::construct(); window->resize(480, 360); window->set_title(String::formatted("PID {} - System Monitor", pid)); auto app_icon = GUI::Icon::default_icon("app-system-monitor"); window->set_icon(app_icon.bitmap_for_size(16)); auto main_widget = TRY(window->try_set_main_widget()); main_widget->load_from_gml(process_window_gml); GUI::ModelIndex process_index; for (int row = 0; row < ProcessModel::the().row_count({}); ++row) { auto index = ProcessModel::the().index(row, ProcessModel::Column::PID); if (index.data().to_i32() == pid) { process_index = index; break; } } VERIFY(process_index.is_valid()); if (auto icon_data = process_index.sibling_at_column(ProcessModel::Column::Icon).data(); icon_data.is_icon()) { main_widget->find_descendant_of_type_named("icon_label")->set_icon(icon_data.as_icon().bitmap_for_size(32)); } main_widget->find_descendant_of_type_named("process_name")->set_text(String::formatted("{} (PID {})", process_index.sibling_at_column(ProcessModel::Column::Name).data().to_string(), pid)); main_widget->find_descendant_of_type_named("process_state")->set_pid(pid); main_widget->find_descendant_of_type_named("open_files")->set_pid(pid); main_widget->find_descendant_of_type_named("thread_stack")->set_ids(pid, pid); main_widget->find_descendant_of_type_named("memory_map")->set_pid(pid); main_widget->find_descendant_of_type_named("unveiled_paths")->set_pid(pid); auto& widget_stack = *main_widget->find_descendant_of_type_named("widget_stack"); auto& unavailable_process_widget = *widget_stack.find_descendant_of_type_named("unavailable_process"); unavailable_process_widget.set_text(String::formatted("Unable to access PID {}", pid)); if (can_access_pid(pid)) widget_stack.set_active_widget(widget_stack.find_descendant_of_type_named("available_process")); else widget_stack.set_active_widget(&unavailable_process_widget); return window; } void build_performance_tab(GUI::Widget& graphs_container) { auto& cpu_graph_group_box = *graphs_container.find_descendant_of_type_named("cpu_graph"); size_t cpu_graphs_per_row = min(4, ProcessModel::the().cpus().size()); auto cpu_graph_rows = ceil_div(ProcessModel::the().cpus().size(), cpu_graphs_per_row); cpu_graph_group_box.set_fixed_height(120u * cpu_graph_rows); Vector cpu_graphs; for (auto row = 0u; row < cpu_graph_rows; ++row) { auto& cpu_graph_row = cpu_graph_group_box.add(); cpu_graph_row.set_layout(); cpu_graph_row.layout()->set_margins(6); cpu_graph_row.set_fixed_height(108); for (auto i = 0u; i < cpu_graphs_per_row; ++i) { auto& cpu_graph = cpu_graph_row.add(); cpu_graph.set_max(100); cpu_graph.set_value_format(0, { .graph_color_role = ColorRole::SyntaxPreprocessorStatement, .text_formatter = [](int value) { return String::formatted("Total: {}%", value); }, }); cpu_graph.set_value_format(1, { .graph_color_role = ColorRole::SyntaxPreprocessorValue, .text_formatter = [](int value) { return String::formatted("Kernel: {}%", value); }, }); cpu_graphs.append(cpu_graph); } } ProcessModel::the().on_cpu_info_change = [cpu_graphs](NonnullOwnPtrVector const& cpus) mutable { float sum_cpu = 0; for (size_t i = 0; i < cpus.size(); ++i) { cpu_graphs[i].add_value({ static_cast(cpus[i].total_cpu_percent), static_cast(cpus[i].total_cpu_percent_kernel) }); sum_cpu += cpus[i].total_cpu_percent; } float cpu_usage = sum_cpu / (float)cpus.size(); statusbar->set_text(2, String::formatted("CPU usage: {}%", (int)roundf(cpu_usage))); }; auto& memory_graph = *graphs_container.find_descendant_of_type_named("memory_graph"); memory_graph.set_value_format(0, { .graph_color_role = ColorRole::SyntaxComment, .text_formatter = [](int bytes) { return String::formatted("Committed: {}", human_readable_size(bytes)); }, }); memory_graph.set_value_format(1, { .graph_color_role = ColorRole::SyntaxPreprocessorStatement, .text_formatter = [](int bytes) { return String::formatted("Allocated: {}", human_readable_size(bytes)); }, }); memory_graph.set_value_format(2, { .graph_color_role = ColorRole::SyntaxPreprocessorValue, .text_formatter = [](int bytes) { return String::formatted("Kernel heap: {}", human_readable_size(bytes)); }, }); }