#pragma once #include #include #include #include #include "common.hpp" #include "components/builder.hpp" #include "components/config.hpp" #include "components/logger.hpp" #include "utils/inotify.hpp" #include "utils/string.hpp" #include "utils/threading.hpp" LEMONBUDDY_NS #define DEFAULT_FORMAT "format" #define DEFINE_MODULE(name, type) struct name : public type #define CONST_CAST_MODULE(name) static_cast(*this) #define CAST_MODULE(name) static_cast(this) namespace modules { using namespace drawtypes; DEFINE_ERROR(module_error); DEFINE_CHILD_ERROR(undefined_format, module_error); DEFINE_CHILD_ERROR(undefined_format_tag, module_error); // class definition : module_format {{{ struct module_format { string value; vector tags; string fg; string bg; string ul; string ol; int spacing; int padding; int margin; int offset; string decorate(builder* builder, string output) { if (offset != 0) builder->offset(offset); if (margin > 0) builder->space(margin); if (!bg.empty()) builder->background(bg); if (!fg.empty()) builder->color(fg); if (!ul.empty()) builder->underline(ul); if (!ol.empty()) builder->overline(ol); if (padding > 0) builder->space(padding); builder->append(output); if (padding > 0) builder->space(padding); if (!ol.empty()) builder->overline_close(); if (!ul.empty()) builder->underline_close(); if (!fg.empty()) builder->color_close(); if (!bg.empty()) builder->background_close(); if (margin > 0) builder->space(margin); return builder->flush(); } }; // }}} // class definition : module_formatter {{{ class module_formatter { public: explicit module_formatter(const config& conf, string modname) : m_conf(conf), m_modname(modname) {} void add(string name, string fallback, vector&& tags, vector&& whitelist = {}) { auto format = make_unique(); format->value = m_conf.get(m_modname, name, fallback); format->fg = m_conf.get(m_modname, name + "-foreground", ""); format->bg = m_conf.get(m_modname, name + "-background", ""); format->ul = m_conf.get(m_modname, name + "-underline", ""); format->ol = m_conf.get(m_modname, name + "-overline", ""); format->spacing = m_conf.get(m_modname, name + "-spacing", DEFAULT_SPACING); format->padding = m_conf.get(m_modname, name + "-padding", 0); format->margin = m_conf.get(m_modname, name + "-margin", 0); format->offset = m_conf.get(m_modname, name + "-offset", 0); format->tags.swap(tags); for (auto&& tag : string_util::split(format->value, ' ')) { if (tag[0] != '<' || tag[tag.length() - 1] != '>') continue; if (std::find(format->tags.begin(), format->tags.end(), tag) != format->tags.end()) continue; if (std::find(whitelist.begin(), whitelist.end(), tag) != whitelist.end()) continue; throw undefined_format_tag("[" + m_modname + "] Undefined \"" + name + "\" tag: " + tag); } m_formats.insert(make_pair(name, std::move(format))); } shared_ptr get(string format_name) { auto format = m_formats.find(format_name); if (format == m_formats.end()) throw undefined_format("Format \"" + format_name + "\" has not been added"); return format->second; } bool has(string tag, string format_name) { auto format = m_formats.find(format_name); if (format == m_formats.end()) throw undefined_format(format_name.c_str()); return format->second->value.find(tag) != string::npos; } bool has(string tag) { for (auto&& format : m_formats) if (format.second->value.find(tag) != string::npos) return true; return false; } protected: const config& m_conf; string m_modname; map> m_formats; }; // }}} // class definition : module_interface {{{ struct module_interface { public: virtual ~module_interface() {} virtual string name() const = 0; virtual void setup() = 0; virtual void start() = 0; virtual void stop() = 0; virtual void refresh() = 0; virtual string contents() = 0; virtual bool handle_event(string cmd) = 0; virtual bool receive_events() const = 0; delegate::Signal1 on_update; }; // }}} // class definition : module {{{ template class module : public module_interface { public: module(const bar_settings bar, const logger& logger, const config& config, string name) : m_bar(bar) , m_log(logger) , m_conf(config) , m_name("module/" + name) , m_builder(make_unique(bar)) , m_formatter(make_unique(m_conf, m_name)) {} ~module() { if (enabled()) stop(); std::lock_guard lck(this->update_lock); { for (auto&& thread_ : m_threads) { if (thread_.joinable()) thread_.join(); } m_threads.clear(); } m_log.trace("%s: Done cleaning up", name()); } string name() const { return m_name; } void setup() { m_log.trace("%s: Setup", name()); CAST_MODULE(Impl)->setup(); } void stop() { // std::lock_guard lck(this->broadcast_lock); // std::lock_guard lck(this->update_lock); m_log.trace("%s: Stop", name()); enable(false); wakeup(); } void refresh() { m_cache = CAST_MODULE(Impl)->get_output(); } string contents() { return m_cache; } bool handle_event(string cmd) { return CAST_MODULE(Impl)->handle_event(cmd); } bool receive_events() const { return false; } protected: bool enabled() const { return m_enabled; } void enable(bool state) { m_enabled = state; } void broadcast() { if (!enabled()) return; refresh(); if (contents().empty()) return; else if (on_update.empty()) m_log.warn("%s: No signal handlers connected... ignoring broadcast", name()); else on_update.emit(name()); } void idle() {} void sleep(chrono::duration sleep_duration) { std::unique_lock lck(m_sleeplock); m_sleephandler.wait_for(lck, sleep_duration); } void wakeup() { std::unique_lock lck(m_sleeplock); m_log.trace("%s: Release sleep lock", name()); m_sleephandler.notify_all(); } string get_format() const { return DEFAULT_FORMAT; } string get_output() { // std::lock_guard lck(this->output_lock); if (!enabled()) { m_log.trace("%s: Module is disabled", name()); return ""; } auto format_name = CAST_MODULE(Impl)->get_format(); auto format = m_formatter->get(format_name); int i = 0; bool tag_built = true; for (auto tag : string_util::split(format->value, ' ')) { bool is_blankspace = tag.empty(); if (tag[0] == '<' && tag[tag.length() - 1] == '>') { if (i > 0) m_builder->space(format->spacing); if (!(tag_built = CAST_MODULE(Impl)->build(m_builder.get(), tag)) && i > 0) m_builder->remove_trailing_space(format->spacing); if (tag_built) i++; } else if (is_blankspace && tag_built) { m_builder->node(" "); } else if (!is_blankspace) { m_builder->node(tag); } } return format->decorate(m_builder.get(), m_builder->flush()); } protected: // concurrency::SpinLock output_lock; // concurrency::SpinLock broadcast_lock; threading_util::spin_lock update_lock; const bar_settings m_bar; const logger& m_log; const config& m_conf; std::mutex m_sleeplock; std::condition_variable m_sleephandler; string m_name; unique_ptr m_builder; unique_ptr m_formatter; vector m_threads; private: stateflag m_enabled{false}; string m_cache; }; // }}} // class definition : static_module {{{ template class static_module : public module { public: using module::module; void start() { CAST_MODULE(Impl)->setup(); CAST_MODULE(Impl)->enable(true); CAST_MODULE(Impl)->m_threads.emplace_back(thread(&static_module::broadcast, this)); } bool build(builder*, string) { return true; } }; // }}} // class definition : timer_module {{{ using interval_t = chrono::duration; template class timer_module : public module { public: using module::module; void start() { CAST_MODULE(Impl)->enable(true); CAST_MODULE(Impl)->m_threads.emplace_back(thread(&timer_module::runner, this)); } protected: interval_t m_interval = 1s; void runner() { CAST_MODULE(Impl)->setup(); while (CONST_CAST_MODULE(Impl).enabled()) { { std::lock_guard lck(this->update_lock); if (CAST_MODULE(Impl)->update()) CAST_MODULE(Impl)->broadcast(); } CAST_MODULE(Impl)->sleep(m_interval); } } }; // }}} // class definition : event_module {{{ template class event_module : public module { public: using module::module; void start() { CAST_MODULE(Impl)->enable(true); CAST_MODULE(Impl)->m_threads.emplace_back(thread(&event_module::runner, this)); } protected: void runner() { CAST_MODULE(Impl)->setup(); // warmup CAST_MODULE(Impl)->update(); CAST_MODULE(Impl)->broadcast(); while (CONST_CAST_MODULE(Impl).enabled()) { std::lock_guard lck(this->update_lock); if (!CAST_MODULE(Impl)->has_event()) continue; if (!CAST_MODULE(Impl)->update()) continue; CAST_MODULE(Impl)->broadcast(); CAST_MODULE(Impl)->idle(); } } }; // }}} // class definition : inotify_module {{{ template class inotify_module : public module { public: using module::module; void start() { CAST_MODULE(Impl)->enable(true); CAST_MODULE(Impl)->m_threads.emplace_back(thread(&inotify_module::runner, this)); } protected: void runner() { CAST_MODULE(Impl)->setup(); CAST_MODULE(Impl)->on_event(nullptr); // warmup CAST_MODULE(Impl)->broadcast(); while (CAST_MODULE(Impl)->enabled()) { std::lock_guard lck(this->update_lock); try { CAST_MODULE(Impl)->poll_events(); } catch (const system_error& e) { this->m_log.err("%s: Error while polling for events (what: %s)", this->name(), e.what()); return; } } } void watch(string path, int mask = IN_ALL_EVENTS) { this->m_log.trace("%s: Attach inotify at %s", this->name(), path); m_watchlist.insert(make_pair(path, mask)); } void idle() { CAST_MODULE(Impl)->sleep(200ms); } void poll_events() { vector> watches; try { for (auto&& w : m_watchlist) { watches.emplace_back(inotify_util::make_watch(w.first)); watches.back()->attach(w.second); } } catch (const system_error& e) { watches.clear(); this->m_log.err( "%s: Error while creating inotify watch (what: %s)", this->name(), e.what()); CAST_MODULE(Impl)->sleep(0.1s); return; } while (CONST_CAST_MODULE(Impl).enabled()) { for (auto&& w : watches) { this->m_log.trace("%s: Poll inotify watch %s", this->name(), w->path()); if (w->poll(1000 / watches.size())) { auto event = w->get_event(); w->remove(); if (CAST_MODULE(Impl)->on_event(event.get())) CAST_MODULE(Impl)->broadcast(); return; } } CAST_MODULE(Impl)->idle(); } } private: map m_watchlist; }; // }}} } LEMONBUDDY_NS_END