#include #include #include "components/bar.hpp" #include "components/config.hpp" #include "components/controller.hpp" #include "components/eventloop.hpp" #include "components/ipc.hpp" #include "components/logger.hpp" #include "components/signals.hpp" #include "modules/backlight.hpp" #include "modules/battery.hpp" #include "modules/bspwm.hpp" #include "modules/counter.hpp" #include "modules/cpu.hpp" #include "modules/date.hpp" #include "modules/fs.hpp" #include "modules/ipc.hpp" #include "modules/memory.hpp" #include "modules/menu.hpp" #include "modules/script.hpp" #include "modules/temperature.hpp" #include "modules/text.hpp" #include "modules/xbacklight.hpp" #include "modules/xwindow.hpp" #include "modules/xworkspaces.hpp" #include "utils/process.hpp" #include "utils/string.hpp" #if ENABLE_I3 #include "modules/i3.hpp" #endif #if ENABLE_MPD #include "modules/mpd.hpp" #endif #if ENABLE_NETWORK #include "modules/network.hpp" #endif #if ENABLE_ALSA #include "modules/volume.hpp" #endif #if WITH_XKB #include "modules/xkeyboard.hpp" #endif #if not(ENABLE_I3 && ENABLE_MPD && ENABLE_NETWORK && ENABLE_ALSA && WITH_XKB) #include "modules/unsupported.hpp" #endif POLYBAR_NS using namespace modules; namespace chrono = std::chrono; /** * Configure injection module */ di::injector> configure_controller(watch_t& confwatch) { // clang-format off return di::make_injector( di::bind<>().to(confwatch), configure_connection(), configure_logger(), configure_config(), configure_eventloop(), configure_bar()); // clang-format on } /** * Stop modules and cleanup X components, * threads and spawned processes */ controller::~controller() { pthread_sigmask(SIG_UNBLOCK, &m_blockmask, nullptr); sigset_t sig; sigemptyset(&sig); sigaddset(&sig, SIGALRM); pthread_sigmask(SIG_BLOCK, &sig, nullptr); if (m_command) { m_log.info("Terminating running shell command"); m_command.reset(); } if (m_bar) { m_log.info("Deconstructing bar"); m_bar.reset(); } if (m_ipc) { m_log.info("Deconstructing ipc"); m_ipc.reset(); } if (m_eventloop) { m_log.info("Deconstructing eventloop"); m_eventloop.reset(); } if (!m_writeback) { m_log.info("Interrupting X event loop"); m_connection.send_dummy_event(m_connection.root()); } m_log.info("Joining active threads"); for (auto&& th : m_threads) { if (th.second.joinable()) { th.second.join(); } } m_log.info("Waiting for spawned processes"); while (process_util::notify_childprocess()) { ; } m_connection.flush(); } /** * Initialize components and setup X environment */ void controller::bootstrap(bool writeback, bool dump_wmname) { // Add all signals to the block mask sigfillset(&m_blockmask); if (pthread_sigmask(SIG_BLOCK, &m_blockmask, nullptr) == -1) { throw system_error("Failed to block signals"); } m_writeback = writeback; m_log.trace("controller: Initialize X atom cache"); m_connection.preload_atoms(); m_log.trace("controller: Query X extension data"); m_connection.query_extensions(); if (m_conf.get(m_conf.bar_section(), "enable-ipc", false)) { m_log.trace("controller: Create IPC handler"); m_ipc = configure_ipc().create(); m_ipc->attach_callback(bind(&controller::on_ipc_action, this, placeholders::_1)); } else { m_log.info("Inter-process messaging disabled"); } // Listen for events on the root window to be able to // break the blocking wait call when cleaning up m_log.trace("controller: Listen for events on the root window"); const uint32_t value_list[2]{XCB_EVENT_MASK_PROPERTY_CHANGE | XCB_EVENT_MASK_STRUCTURE_NOTIFY}; m_connection.change_window_attributes_checked(m_connection.root(), XCB_CW_EVENT_MASK, value_list); m_log.trace("controller: Setup bar"); m_bar->bootstrap(m_writeback || dump_wmname); m_bar->bootstrap_tray(); if (dump_wmname) { std::cout << m_bar->settings().wmname << std::endl; return; } m_log.trace("controller: Attach eventloop update callback"); m_eventloop->set_update_cb(bind(&controller::on_update, this)); if (!m_writeback) { m_log.trace("controller: Attach eventloop input callback"); g_signals::bar::action_click = bind(&controller::on_mouse_event, this, placeholders::_1); m_eventloop->set_input_db(bind(&controller::on_unrecognized_action, this, placeholders::_1)); } m_log.trace("controller: Setup user-defined modules"); bootstrap_modules(); } /** * Launch the controller */ bool controller::run() { assert(!m_connection.connection_has_error()); m_log.info("Starting application"); m_running = true; if (m_confwatch && !m_writeback) { m_threads[thread_role::CONF_LISTENER] = thread(&controller::wait_for_configwatch, this); } // Start ipc receiver if its enabled if (m_conf.get(m_conf.bar_section(), "enable-ipc", false)) { m_threads[thread_role::IPC_LISTENER] = thread(&ipc::receive_messages, m_ipc.get()); } // Listen for X events in separate thread if (!m_writeback) { m_threads[thread_role::EVENT_QUEUE_X] = thread(&controller::wait_for_xevent, this); } // Start event loop if (m_eventloop) { m_threads[thread_role::EVENT_QUEUE] = thread(&controller::wait_for_eventloop, this); } m_log.trace("controller: Wait for signal"); m_waiting = true; sigemptyset(&m_waitmask); sigaddset(&m_waitmask, SIGINT); sigaddset(&m_waitmask, SIGQUIT); sigaddset(&m_waitmask, SIGTERM); sigaddset(&m_waitmask, SIGUSR1); sigaddset(&m_waitmask, SIGALRM); int caught_signal = 0; sigwait(&m_waitmask, &caught_signal); m_running = false; m_waiting = false; if (caught_signal == SIGUSR1) { m_reload = true; } m_log.warn("Termination signal received, shutting down..."); m_log.trace("controller: Caught signal %d", caught_signal); if (m_eventloop) { m_log.trace("controller: Stopping event loop"); m_eventloop->stop(); } if (!m_writeback && m_confwatch) { m_log.trace("controller: Removing config watch"); m_confwatch->remove(true); } return !m_running && !m_reload; } /** * Listen for changes to the config file */ void controller::wait_for_configwatch() { try { m_log.trace("controller: Attach config watch"); m_confwatch->attach(IN_MODIFY); m_log.trace("controller: Wait for config file inotify event"); if (m_confwatch->await_match() && m_running) { m_log.info("Configuration file changed"); kill(getpid(), SIGUSR1); } } catch (const system_error& err) { m_log.err(err.what()); m_log.trace("controller: Reset config watch"); m_confwatch.reset(); } } /** * Wait for X events and forward them to * the event registry */ void controller::wait_for_xevent() { m_log.trace("controller: Listen for X events"); m_connection.flush(); shared_ptr evt; while (m_running) { try { if ((evt = m_connection.wait_for_event()) != nullptr && m_running) { m_connection.dispatch_event(evt); } } catch (xpp::connection_error& err) { m_log.err("X connection error, terminating... (what: %s)", m_connection.error_str(err.code())); } catch (const exception& err) { m_log.err("Error in X event loop: %s", err.what()); } if (m_connection.connection_has_error()) { break; } } if (m_running) { kill(getpid(), SIGTERM); } } /** * Start event loop and wait for it to finish */ void controller::wait_for_eventloop() { m_eventloop->start(); m_eventloop->wait(); this_thread::sleep_for(250ms); if (m_running) { m_log.trace("controller: eventloop ended, raising SIGALRM"); kill(getpid(), SIGALRM); } } /** * Create and initialize bar modules */ void controller::bootstrap_modules() { const bar_settings bar{m_bar->settings()}; string bs{m_conf.bar_section()}; for (int i = 0; i < 3; i++) { alignment align = static_cast(i + 1); string confkey; switch (align) { case alignment::LEFT: confkey = "modules-left"; break; case alignment::CENTER: confkey = "modules-center"; break; case alignment::RIGHT: confkey = "modules-right"; break; default: break; } for (auto& module_name : string_util::split(m_conf.get(bs, confkey, ""), ' ')) { if (module_name.empty()) { continue; } try { auto type = m_conf.get("module/" + module_name, "type"); module_t module; if (type == "internal/counter") { module.reset(new counter_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/backlight") { module.reset(new backlight_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/battery") { module.reset(new battery_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/bspwm") { module.reset(new bspwm_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/cpu") { module.reset(new cpu_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/date") { module.reset(new date_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/fs") { module.reset(new fs_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/memory") { module.reset(new memory_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/i3") { module.reset(new i3_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/mpd") { module.reset(new mpd_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/volume") { module.reset(new volume_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/network") { module.reset(new network_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/temperature") { module.reset(new temperature_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/xbacklight") { module.reset(new xbacklight_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/xkeyboard") { module.reset(new xkeyboard_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/xwindow") { module.reset(new xwindow_module(bar, m_log, m_conf, module_name)); } else if (type == "internal/xworkspaces") { module.reset(new xworkspaces_module(bar, m_log, m_conf, module_name)); } else if (type == "custom/text") { module.reset(new text_module(bar, m_log, m_conf, module_name)); } else if (type == "custom/script") { module.reset(new script_module(bar, m_log, m_conf, module_name)); } else if (type == "custom/menu") { module.reset(new menu_module(bar, m_log, m_conf, module_name)); } else if (type == "custom/ipc") { if (!m_ipc) { throw application_error("Inter-process messaging needs to be enabled"); } module.reset(new ipc_module(bar, m_log, m_conf, module_name)); m_ipc->attach_callback( bind(&ipc_module::on_message, static_cast(module.get()), placeholders::_1)); } else { throw application_error("Unknown module: " + module_name); } module->set_update_cb( bind(&eventloop::enqueue, m_eventloop.get(), eventloop::entry_t{static_cast(event_type::UPDATE)})); module->set_stop_cb( bind(&eventloop::enqueue, m_eventloop.get(), eventloop::entry_t{static_cast(event_type::CHECK)})); module->setup(); m_eventloop->add_module(align, move(module)); } catch (const std::runtime_error& err) { m_log.err("Disabling module \"%s\" (reason: %s)", module_name, err.what()); } } } if (!m_eventloop->module_count()) { throw application_error("No modules created"); } } /** * Callback for received ipc actions */ void controller::on_ipc_action(const ipc_action& message) { if (!m_eventloop) { return; } string action = message.payload.substr(strlen(ipc_action::prefix)); if (action.empty()) { m_log.err("Cannot enqueue empty IPC action"); return; } eventloop::entry_t evt{static_cast(event_type::INPUT)}; snprintf(evt.data, sizeof(evt.data), "%s", action.c_str()); m_log.info("Enqueuing IPC action: %s", action); m_eventloop->enqueue(evt); } /** * Callback for clicked bar actions */ void controller::on_mouse_event(const string& input) { if (!m_eventloop) { return; } eventloop::entry_t evt{static_cast(event_type::INPUT)}; if (input.length() > sizeof(evt.data)) { return m_log.warn("Ignoring input event (size)"); } snprintf(evt.data, sizeof(evt.data), "%s", input.c_str()); if (!m_eventloop->enqueue_delayed(evt)) { m_log.trace_x("controller: Dispatcher busy"); } } /** * Callback for actions not handled internally by a module */ void controller::on_unrecognized_action(string input) { try { if (m_command) { m_log.warn("Terminating previous shell command"); m_command->terminate(); } m_log.info("Executing shell command: %s", input); m_command = command_util::make_command(input); m_command->exec(); m_command.reset(); } catch (const application_error& err) { m_log.err("controller: Error while forwarding input to shell -> %s", err.what()); } } /** * Callback for module content update */ void controller::on_update() { if (!m_bar) { return; } const bar_settings& bar{m_bar->settings()}; string contents; string separator{bar.separator}; string padding_left(bar.padding.left, ' '); string padding_right(bar.padding.right, ' '); auto margin_left = bar.module_margin.left; auto margin_right = bar.module_margin.right; for (const auto& block : m_eventloop->modules()) { string block_contents; bool is_left = false; bool is_center = false; bool is_right = false; if (block.first == alignment::LEFT) { is_left = true; } else if (block.first == alignment::CENTER) { is_center = true; } else if (block.first == alignment::RIGHT) { is_right = true; } for (const auto& module : block.second) { auto module_contents = module->contents(); if (module_contents.empty()) { continue; } if (!block_contents.empty() && !separator.empty()) { block_contents += separator; } if (!(is_left && module == block.second.front())) { block_contents += string(margin_left, ' '); } block_contents += module->contents(); if (!(is_right && module == block.second.back())) { block_contents += string(margin_right, ' '); } } if (block_contents.empty()) { continue; } if (is_left) { contents += "%{l}"; contents += padding_left; } else if (is_center) { contents += "%{c}"; } else if (is_right) { contents += "%{r}"; block_contents += padding_right; } // Strip unnecessary reset tags block_contents = string_util::replace_all(block_contents, "T-}%{T", "T"); block_contents = string_util::replace_all(block_contents, "B-}%{B#", "B#"); block_contents = string_util::replace_all(block_contents, "F-}%{F#", "F#"); block_contents = string_util::replace_all(block_contents, "U-}%{U#", "U#"); block_contents = string_util::replace_all(block_contents, "u-}%{u#", "u#"); block_contents = string_util::replace_all(block_contents, "o-}%{o#", "o#"); // Join consecutive tags contents += string_util::replace_all(block_contents, "}%{", " "); } if (m_writeback) { std::cout << contents << std::endl; return; } try { m_bar->parse(contents); } catch (const exception& err) { m_log.err("Failed to update bar contents (reason: %s)", err.what()); } try { if (!m_trayactivated) { m_trayactivated = true; m_bar->activate_tray(); } } catch (const exception& err) { m_log.err("Failed to active tray manager (reason: %s)", err.what()); } } POLYBAR_NS_END