/* * Copyright (c) 2018-2020, Andreas Kling * 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 "DevicesModel.h" #include "GraphWidget.h" #include "MemoryStatsWidget.h" #include "NetworkStatisticsWidget.h" #include "ProcessFileDescriptorMapWidget.h" #include "ProcessMemoryMapWidget.h" #include "ProcessModel.h" #include "ProcessStacksWidget.h" #include "ProcessTableView.h" #include "ProcessUnveiledPathsWidget.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 static String human_readable_size(u32 size) { if (size < (64 * KB)) return String::format("%u", size); if (size < MB) return String::format("%u KB", size / KB); if (size < GB) return String::format("%u MB", size / MB); return String::format("%u GB", size / GB); } static NonnullRefPtr build_file_systems_tab(); static NonnullRefPtr build_pci_devices_tab(); static NonnullRefPtr build_devices_tab(); static NonnullRefPtr build_graphs_tab(); int main(int argc, char** argv) { if (pledge("stdio proc shared_buffer accept rpath unix cpath fattr", nullptr) < 0) { perror("pledge"); return 1; } GUI::Application app(argc, argv); if (pledge("stdio proc shared_buffer accept rpath", nullptr) < 0) { perror("pledge"); return 1; } if (unveil("/etc/passwd", "r") < 0) { perror("unveil"); return 1; } if (unveil("/res", "r") < 0) { perror("unveil"); return 1; } if (unveil("/proc", "r") < 0) { perror("unveil"); return 1; } if (unveil("/dev", "r") < 0) { perror("unveil"); return 1; } unveil(nullptr, nullptr); auto window = GUI::Window::construct(); window->set_title("System Monitor"); window->set_rect(20, 200, 680, 400); auto& keeper = window->set_main_widget(); keeper.set_layout(); keeper.set_fill_with_background_color(true); keeper.layout()->set_margins({ 4, 4, 4, 4 }); auto& tabwidget = keeper.add(); auto process_container_splitter = tabwidget.add_tab("Processes"); auto& process_table_container = process_container_splitter->add(); tabwidget.add_widget("Graphs", build_graphs_tab()); tabwidget.add_widget("File systems", build_file_systems_tab()); tabwidget.add_widget("PCI devices", build_pci_devices_tab()); tabwidget.add_widget("Devices", build_devices_tab()); auto network_stats_widget = NetworkStatisticsWidget::construct(); tabwidget.add_widget("Network", network_stats_widget); process_table_container.set_layout(); process_table_container.layout()->set_margins({ 4, 0, 4, 0 }); process_table_container.layout()->set_spacing(0); auto& toolbar = process_table_container.add(); toolbar.set_has_frame(false); auto& process_table_view = process_table_container.add(); auto& refresh_timer = window->add( 1000, [&] { process_table_view.refresh(); if (auto* memory_stats_widget = MemoryStatsWidget::the()) memory_stats_widget->refresh(); }); auto kill_action = GUI::Action::create("Kill process", { Mod_Ctrl, Key_K }, Gfx::Bitmap::load_from_file("/res/icons/kill16.png"), [&process_table_view](const GUI::Action&) { pid_t pid = process_table_view.selected_pid(); if (pid != -1) kill(pid, SIGKILL); }); auto stop_action = GUI::Action::create("Stop process", { Mod_Ctrl, Key_S }, Gfx::Bitmap::load_from_file("/res/icons/stop16.png"), [&process_table_view](const GUI::Action&) { pid_t pid = process_table_view.selected_pid(); if (pid != -1) kill(pid, SIGSTOP); }); auto continue_action = GUI::Action::create("Continue process", { Mod_Ctrl, Key_C }, Gfx::Bitmap::load_from_file("/res/icons/continue16.png"), [&process_table_view](const GUI::Action&) { pid_t pid = process_table_view.selected_pid(); if (pid != -1) kill(pid, SIGCONT); }); toolbar.add_action(kill_action); toolbar.add_action(stop_action); toolbar.add_action(continue_action); auto menubar = make(); auto app_menu = GUI::Menu::construct("System Monitor"); app_menu->add_action(GUI::CommonActions::make_quit_action([](auto&) { GUI::Application::the().quit(0); return; })); menubar->add_menu(move(app_menu)); auto process_menu = GUI::Menu::construct("Process"); process_menu->add_action(kill_action); process_menu->add_action(stop_action); process_menu->add_action(continue_action); menubar->add_menu(move(process_menu)); 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_table_view.on_context_menu_request = [&](const GUI::ModelIndex& index, const GUI::ContextMenuEvent& event) { (void)index; process_context_menu->popup(event.screen_position()); }; auto frequency_menu = GUI::Menu::construct("Frequency"); GUI::ActionGroup frequency_action_group; frequency_action_group.set_exclusive(true); auto make_frequency_action = [&](auto& title, int interval, bool checked = false) { auto action = GUI::Action::create(title, [&refresh_timer, interval](auto& action) { refresh_timer.restart(interval); action.set_checked(true); }); action->set_checkable(true); action->set_checked(checked); frequency_action_group.add_action(*action); frequency_menu->add_action(*action); }; make_frequency_action("0.25 sec", 250); make_frequency_action("0.5 sec", 500); make_frequency_action("1 sec", 1000, true); make_frequency_action("3 sec", 3000); make_frequency_action("5 sec", 5000); menubar->add_menu(move(frequency_menu)); auto help_menu = GUI::Menu::construct("Help"); help_menu->add_action(GUI::Action::create("About", [&](const GUI::Action&) { GUI::AboutDialog::show("System Monitor", Gfx::Bitmap::load_from_file("/res/icons/32x32/app-system-monitor.png"), window); })); menubar->add_menu(move(help_menu)); app.set_menubar(move(menubar)); auto& process_tab_widget = process_container_splitter->add(); auto memory_map_widget = process_tab_widget.add_tab("Memory map"); auto open_files_widget = process_tab_widget.add_tab("Open files"); auto unveiled_paths_widget = process_tab_widget.add_tab("Unveiled paths"); auto stacks_widget = process_tab_widget.add_tab("Stacks"); process_table_view.on_process_selected = [&](pid_t pid) { open_files_widget->set_pid(pid); stacks_widget->set_pid(pid); memory_map_widget->set_pid(pid); unveiled_paths_widget->set_pid(pid); }; window->show(); window->set_icon(Gfx::Bitmap::load_from_file("/res/icons/16x16/app-system-monitor.png")); return app.exec(); } class ProgressBarPaintingDelegate final : public GUI::TableCellPaintingDelegate { public: virtual ~ProgressBarPaintingDelegate() override {} virtual void paint(GUI::Painter& painter, const Gfx::Rect& a_rect, const Palette& palette, const GUI::Model& model, const GUI::ModelIndex& index) override { auto rect = a_rect.shrunken(2, 2); auto percentage = model.data(index, GUI::Model::Role::Custom).to_i32(); auto data = model.data(index, GUI::Model::Role::Display); String text; if (data.is_string()) text = data.as_string(); Gfx::StylePainter::paint_progress_bar(painter, rect, palette, 0, 100, percentage, text); painter.draw_rect(rect, Color::Black); } }; NonnullRefPtr build_file_systems_tab() { auto fs_widget = GUI::LazyWidget::construct(); fs_widget->on_first_show = [](GUI::LazyWidget& self) { self.set_layout(); self.layout()->set_margins({ 4, 4, 4, 4 }); auto& fs_table_view = self.add(); fs_table_view.set_size_columns_to_fit_content(true); 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("device", "Device", 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_u32() * object.get("block_size").to_u32())); size_builder.append(" "); return size_builder.to_string(); }, [](const JsonObject& object) { return object.get("total_block_count").to_u32() * object.get("block_size").to_u32(); }, [](const JsonObject& object) { auto total_blocks = object.get("total_block_count").to_u32(); if (total_blocks == 0) return 0; auto free_blocks = object.get("free_block_count").to_u32(); auto used_blocks = total_blocks - free_blocks; int percentage = (int)((float)used_blocks / (float)total_blocks * 100.0f); return percentage; }); df_fields.empend( "Used", Gfx::TextAlignment::CenterRight, [](const JsonObject& object) { auto total_blocks = object.get("total_block_count").to_u32(); auto free_blocks = object.get("free_block_count").to_u32(); auto used_blocks = total_blocks - free_blocks; return human_readable_size(used_blocks * object.get("block_size").to_u32()); }, [](const JsonObject& object) { auto total_blocks = object.get("total_block_count").to_u32(); auto free_blocks = object.get("free_block_count").to_u32(); auto used_blocks = total_blocks - free_blocks; return used_blocks * object.get("block_size").to_u32(); }); df_fields.empend( "Available", Gfx::TextAlignment::CenterRight, [](const JsonObject& object) { return human_readable_size(object.get("free_block_count").to_u32() * object.get("block_size").to_u32()); }, [](const JsonObject& object) { return object.get("free_block_count").to_u32() * object.get("block_size").to_u32(); }); df_fields.empend("Access", Gfx::TextAlignment::CenterLeft, [](const JsonObject& object) { return object.get("readonly").to_bool() ? "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"); 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(GUI::SortingProxyModel::create(GUI::JsonArrayModel::create("/proc/df", move(df_fields)))); fs_table_view.set_cell_painting_delegate(3, make()); fs_table_view.model()->update(); }; return fs_widget; } NonnullRefPtr build_pci_devices_tab() { auto pci_widget = GUI::LazyWidget::construct(); pci_widget->on_first_show = [](GUI::LazyWidget& self) { self.set_layout(); self.layout()->set_margins({ 4, 4, 4, 4 }); auto& pci_table_view = self.add(); pci_table_view.set_size_columns_to_fit_content(true); auto db = PCIDB::Database::open(); 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 slot = object.get("slot").to_u32(); auto function = object.get("function").to_u32(); return String::format("%04x:%02x:%02x.%d", seg, bus, slot, function); }); pci_fields.empend( "Class", Gfx::TextAlignment::CenterLeft, [db](const JsonObject& object) { auto class_id = object.get("class").to_u32(); String class_name = db->get_class(class_id); return class_name == "" ? String::format("%04x", class_id) : class_name; }); pci_fields.empend( "Vendor", Gfx::TextAlignment::CenterLeft, [db](const JsonObject& object) { auto vendor_id = object.get("vendor_id").to_u32(); String vendor_name = db->get_vendor(vendor_id); return vendor_name == "" ? String::format("%02x", vendor_id) : vendor_name; }); pci_fields.empend( "Device", Gfx::TextAlignment::CenterLeft, [db](const JsonObject& object) { auto vendor_id = object.get("vendor_id").to_u32(); auto device_id = object.get("device_id").to_u32(); String device_name = db->get_device(vendor_id, device_id); return device_name == "" ? String::format("%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::format("%02x", revision_id); }); pci_table_view.set_model(GUI::SortingProxyModel::create(GUI::JsonArrayModel::create("/proc/pci", move(pci_fields)))); pci_table_view.model()->update(); }; return pci_widget; } NonnullRefPtr build_devices_tab() { auto devices_widget = GUI::LazyWidget::construct(); devices_widget->on_first_show = [](GUI::LazyWidget& self) { self.set_layout(); self.layout()->set_margins({ 4, 4, 4, 4 }); auto& devices_table_view = self.add(); devices_table_view.set_size_columns_to_fit_content(true); devices_table_view.set_model(GUI::SortingProxyModel::create(DevicesModel::create())); devices_table_view.model()->update(); }; return devices_widget; } NonnullRefPtr build_graphs_tab() { auto graphs_container = GUI::LazyWidget::construct(); graphs_container->on_first_show = [](GUI::LazyWidget& self) { self.set_fill_with_background_color(true); self.set_background_role(ColorRole::Button); self.set_layout(); self.layout()->set_margins({ 4, 4, 4, 4 }); auto& cpu_graph_group_box = self.add("CPU usage"); cpu_graph_group_box.set_layout(); cpu_graph_group_box.layout()->set_margins({ 6, 16, 6, 6 }); cpu_graph_group_box.set_size_policy(GUI::SizePolicy::Fill, GUI::SizePolicy::Fixed); cpu_graph_group_box.set_preferred_size(0, 120); auto& cpu_graph = cpu_graph_group_box.add(); cpu_graph.set_max(100); cpu_graph.set_text_color(Color::Green); cpu_graph.set_graph_color(Color::from_rgb(0x00bb00)); cpu_graph.text_formatter = [](int value, int) { return String::format("%d%%", value); }; ProcessModel::the().on_new_cpu_data_point = [graph = &cpu_graph](float cpu_percent) { graph->add_value(cpu_percent); }; auto& memory_graph_group_box = self.add("Memory usage"); memory_graph_group_box.set_layout(); memory_graph_group_box.layout()->set_margins({ 6, 16, 6, 6 }); memory_graph_group_box.set_size_policy(GUI::SizePolicy::Fill, GUI::SizePolicy::Fixed); memory_graph_group_box.set_preferred_size(0, 120); auto& memory_graph = memory_graph_group_box.add(); memory_graph.set_text_color(Color::Cyan); memory_graph.set_graph_color(Color::from_rgb(0x00bbbb)); memory_graph.text_formatter = [](int value, int max) { return String::format("%d / %d KB", value, max); }; self.add(memory_graph); }; return graphs_container; }