#include "modules/network.hpp" #include "drawtypes/animation.hpp" #include "drawtypes/label.hpp" #include "drawtypes/ramp.hpp" #include "modules/meta/base.inl" #include "modules/meta/timer_module.inl" POLYBAR_NS namespace modules { template class module; template class timer_module; void network_module::setup() { // Load configuration values REQ_CONFIG_VALUE(name(), m_interface, "interface"); GET_CONFIG_VALUE(name(), m_ping_nth_update, "ping-interval"); GET_CONFIG_VALUE(name(), m_udspeed_minwidth, "udspeed-minwidth"); GET_CONFIG_VALUE(name(), m_accumulate, "accumulate-stats"); m_interval = chrono::duration(m_conf.get(name(), "interval", 1)); // Add formats m_formatter->add(FORMAT_CONNECTED, TAG_LABEL_CONNECTED, {TAG_RAMP_SIGNAL, TAG_RAMP_QUALITY, TAG_LABEL_CONNECTED}); m_formatter->add(FORMAT_DISCONNECTED, TAG_LABEL_DISCONNECTED, {TAG_LABEL_DISCONNECTED}); // Create elements for format-connected if (m_formatter->has(TAG_RAMP_SIGNAL, FORMAT_CONNECTED)) m_ramp_signal = load_ramp(m_conf, name(), TAG_RAMP_SIGNAL); if (m_formatter->has(TAG_RAMP_QUALITY, FORMAT_CONNECTED)) m_ramp_quality = load_ramp(m_conf, name(), TAG_RAMP_QUALITY); if (m_formatter->has(TAG_LABEL_CONNECTED, FORMAT_CONNECTED)) { m_label[connection_state::CONNECTED] = load_optional_label(m_conf, name(), TAG_LABEL_CONNECTED, "%ifname% %local_ip%"); } // Create elements for format-disconnected if (m_formatter->has(TAG_LABEL_DISCONNECTED, FORMAT_DISCONNECTED)) { m_label[connection_state::DISCONNECTED] = load_optional_label(m_conf, name(), TAG_LABEL_DISCONNECTED, ""); m_label[connection_state::DISCONNECTED]->reset_tokens(); m_label[connection_state::DISCONNECTED]->replace_token("%ifname%", m_interface); } // Create elements for format-packetloss if we are told to test connectivity if (m_ping_nth_update > 0) { m_formatter->add(FORMAT_PACKETLOSS, TAG_LABEL_CONNECTED, {TAG_ANIMATION_PACKETLOSS, TAG_LABEL_PACKETLOSS, TAG_LABEL_CONNECTED}); if (m_formatter->has(TAG_LABEL_PACKETLOSS, FORMAT_PACKETLOSS)) { m_label[connection_state::PACKETLOSS] = load_optional_label(m_conf, name(), TAG_LABEL_PACKETLOSS, ""); } if (m_formatter->has(TAG_ANIMATION_PACKETLOSS, FORMAT_PACKETLOSS)) m_animation_packetloss = load_animation(m_conf, name(), TAG_ANIMATION_PACKETLOSS); } // Get an intstance of the network interface if (net::is_wireless_interface(m_interface)) m_wireless = net::wireless_t{new net::wireless_t::element_type(m_interface)}; else m_wired = net::wired_t{new net::wired_t::element_type(m_interface)}; // We only need to start the subthread if the packetloss animation is used if (m_animation_packetloss) m_threads.emplace_back(thread(&network_module::subthread_routine, this)); } void network_module::teardown() { m_wireless.reset(); m_wired.reset(); } bool network_module::update() { net::network* network = m_wireless ? static_cast(m_wireless.get()) : static_cast(m_wired.get()); if (!network->query(m_accumulate)) { m_log.warn("%s: Failed to query interface '%s'", name(), m_interface); return false; } try { if (m_wireless) { m_signal = m_wireless->signal(); m_quality = m_wireless->quality(); } } catch (const net::network_error& err) { m_log.warn("%s: Error getting interface data (%s)", name(), err.what()); } m_connected = network->connected(); // Ignore the first run if (m_counter == -1) { m_counter = 0; } else if (m_ping_nth_update > 0 && m_connected && (++m_counter % m_ping_nth_update) == 0) { m_packetloss = !network->ping(); m_counter = 0; } auto upspeed = network->upspeed(m_udspeed_minwidth); auto downspeed = network->downspeed(m_udspeed_minwidth); // Update label contents const auto replace_tokens = [&](label_t& label) { label->reset_tokens(); label->replace_token("%ifname%", m_interface); label->replace_token("%local_ip%", network->ip()); label->replace_token("%upspeed%", upspeed); label->replace_token("%downspeed%", downspeed); if (m_wired) { label->replace_token("%linkspeed%", m_wired->linkspeed()); } else if (m_wireless) { label->replace_token("%essid%", m_wireless->essid()); label->replace_token("%signal%", to_string(m_signal) + "%"); label->replace_token("%quality%", to_string(m_quality) + "%"); } }; if (m_label[connection_state::CONNECTED]) replace_tokens(m_label[connection_state::CONNECTED]); if (m_label[connection_state::PACKETLOSS]) replace_tokens(m_label[connection_state::PACKETLOSS]); return true; } string network_module::get_format() const { if (!m_connected) return FORMAT_DISCONNECTED; else if (m_packetloss && m_ping_nth_update > 0) return FORMAT_PACKETLOSS; else return FORMAT_CONNECTED; } bool network_module::build(builder* builder, string tag) const { if (tag == TAG_LABEL_CONNECTED) builder->node(m_label.at(connection_state::CONNECTED)); else if (tag == TAG_LABEL_DISCONNECTED) builder->node(m_label.at(connection_state::DISCONNECTED)); else if (tag == TAG_LABEL_PACKETLOSS) builder->node(m_label.at(connection_state::PACKETLOSS)); else if (tag == TAG_ANIMATION_PACKETLOSS) builder->node(m_animation_packetloss->get()); else if (tag == TAG_RAMP_SIGNAL) builder->node(m_ramp_signal->get_by_percentage(m_signal)); else if (tag == TAG_RAMP_QUALITY) builder->node(m_ramp_quality->get_by_percentage(m_quality)); else return false; return true; } void network_module::subthread_routine() { const chrono::milliseconds framerate{m_animation_packetloss->framerate()}; const auto dur = chrono::duration(framerate); while (running()) { if (m_connected && m_packetloss) broadcast(); sleep(dur); } m_log.trace("%s: Reached end of network subthread", name()); } } POLYBAR_NS_END