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polybar/src/modules/network.cpp
2017-01-14 18:00:35 +01:00

182 lines
6.4 KiB
C++

#include "modules/network.hpp"
#include "drawtypes/animation.hpp"
#include "drawtypes/label.hpp"
#include "drawtypes/ramp.hpp"
#include "utils/factory.hpp"
#include "modules/meta/base.inl"
POLYBAR_NS
namespace modules {
template class module<network_module>;
network_module::network_module(const bar_settings& bar, string name_)
: timer_module<network_module>(bar, move(name_)) {
// Load configuration values
m_interface = m_conf.get(name(), "interface", m_interface);
m_ping_nth_update = m_conf.get(name(), "ping-interval", m_ping_nth_update);
m_udspeed_minwidth = m_conf.get(name(), "udspeed-minwidth", m_udspeed_minwidth);
m_accumulate = m_conf.get(name(), "accumulate-stats", m_accumulate);
m_interval = m_conf.get<decltype(m_interval)>(name(), "interval", 1s);
m_conf.warn_deprecated(name(), "udspeed-minwidth", "%downspeed:min:max% and %upspeed:min:max%");
// 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 = factory_util::unique<net::wireless_network>(m_interface);
} else {
m_wired = factory_util::unique<net::wired_network>(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<net::network*>(m_wireless.get()) : static_cast<net::network*>(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, const 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<double>(framerate);
while (running()) {
if (m_connected && m_packetloss) {
broadcast();
}
sleep(dur);
}
m_log.trace("%s: Reached end of network subthread", name());
}
}
POLYBAR_NS_END