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Waybar/src/modules/power_profiles_daemon.cpp

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#include "modules/power_profiles_daemon.hpp"
#include <fmt/args.h>
#include <glibmm.h>
#include <glibmm/variant.h>
#include <spdlog/spdlog.h>
namespace waybar::modules {
PowerProfilesDaemon::PowerProfilesDaemon(const std::string& id, const Json::Value& config)
: ALabel(config, "power-profiles-daemon", id, "{icon}", 0, false, true), connected_(false) {
if (config_["tooltip-format"].isString()) {
tooltipFormat_ = config_["tooltip-format"].asString();
} else {
tooltipFormat_ = "Power profile: {profile}\nDriver: {driver}";
}
// Fasten your seatbelt, we're up for quite a ride. The rest of the
// init is performed asynchronously. There's 2 callbacks involved.
// Here's the overall idea:
// 1. Async connect to the system bus.
// 2. In the system bus connect callback, try to call
// org.freedesktop.DBus.Properties.GetAll to see if
// power-profiles-daemon is able to respond.
// 3. In the GetAll callback, connect the activeProfile monitoring
// callback, consider the init to be successful. Meaning start
// drawing the module.
//
// There's sadly no other way around that, we have to try to call a
// method on the proxy to see whether or not something's responding
// on the other side.
// NOTE: the DBus adresses are under migration. They should be
// changed to org.freedesktop.UPower.PowerProfiles at some point.
//
// See
// https://gitlab.freedesktop.org/upower/power-profiles-daemon/-/releases/0.20
//
// The old name is still announced for now. Let's rather use the old
// adresses for compatibility sake.
//
// Revisit this in 2026, systems should be updated by then.
Gio::DBus::Proxy::create_for_bus(Gio::DBus::BusType::BUS_TYPE_SYSTEM, "net.hadess.PowerProfiles",
"/net/hadess/PowerProfiles", "net.hadess.PowerProfiles",
sigc::mem_fun(*this, &PowerProfilesDaemon::busConnectedCb));
// Schedule update to set the initial visibility
dp.emit();
}
void PowerProfilesDaemon::busConnectedCb(Glib::RefPtr<Gio::AsyncResult>& r) {
try {
powerProfilesProxy_ = Gio::DBus::Proxy::create_for_bus_finish(r);
using GetAllProfilesVar = Glib::Variant<std::tuple<Glib::ustring>>;
auto callArgs = GetAllProfilesVar::create(std::make_tuple("net.hadess.PowerProfiles"));
powerProfilesProxy_->call("org.freedesktop.DBus.Properties.GetAll",
sigc::mem_fun(*this, &PowerProfilesDaemon::getAllPropsCb), callArgs);
// Connect active profile callback
} catch (const std::exception& e) {
spdlog::error("Failed to create the power profiles daemon DBus proxy: {}", e.what());
} catch (const Glib::Error& e) {
spdlog::error("Failed to create the power profiles daemon DBus proxy: {}",
std::string(e.what()));
}
}
// Callback for the GetAll call.
//
// We're abusing this call to make sure power-profiles-daemon is
// available on the host. We're not really using
void PowerProfilesDaemon::getAllPropsCb(Glib::RefPtr<Gio::AsyncResult>& r) {
try {
auto _ = powerProfilesProxy_->call_finish(r);
// Power-profiles-daemon responded something, we can assume it's
// available, we can safely attach the activeProfile monitoring
// now.
connected_ = true;
powerProfilesProxy_->signal_properties_changed().connect(
sigc::mem_fun(*this, &PowerProfilesDaemon::profileChangedCb));
populateInitState();
} catch (const std::exception& err) {
spdlog::error("Failed to query power-profiles-daemon via dbus: {}", err.what());
} catch (const Glib::Error& err) {
spdlog::error("Failed to query power-profiles-daemon via dbus: {}", std::string(err.what()));
}
}
void PowerProfilesDaemon::populateInitState() {
// Retrieve current active profile
Glib::Variant<std::string> profileStr;
powerProfilesProxy_->get_cached_property(profileStr, "ActiveProfile");
// Retrieve profiles list, it's aa{sv}.
using ProfilesType = std::vector<std::map<Glib::ustring, Glib::Variant<std::string>>>;
Glib::Variant<ProfilesType> profilesVariant;
powerProfilesProxy_->get_cached_property(profilesVariant, "Profiles");
for (auto& variantDict : profilesVariant.get()) {
Glib::ustring name;
Glib::ustring driver;
if (auto p = variantDict.find("Profile"); p != variantDict.end()) {
name = p->second.get();
}
if (auto d = variantDict.find("Driver"); d != variantDict.end()) {
driver = d->second.get();
}
if (!name.empty()) {
availableProfiles_.emplace_back(std::move(name), std::move(driver));
} else {
spdlog::error(
"Power profiles daemon: power-profiles-daemon sent us an empty power profile name. "
"Something is wrong.");
}
}
// Find the index of the current activated mode (to toggle)
std::string str = profileStr.get();
switchToProfile(str);
}
void PowerProfilesDaemon::profileChangedCb(
const Gio::DBus::Proxy::MapChangedProperties& changedProperties,
const std::vector<Glib::ustring>& invalidatedProperties) {
// We're likely connected if this callback gets triggered.
// But better be safe than sorry.
if (connected_) {
if (auto activeProfileVariant = changedProperties.find("ActiveProfile");
activeProfileVariant != changedProperties.end()) {
std::string activeProfile =
Glib::VariantBase::cast_dynamic<Glib::Variant<std::string>>(activeProfileVariant->second)
.get();
switchToProfile(activeProfile);
}
}
}
// Look for the profile str in our internal profiles list. Using a
// vector to store the profiles ain't the smartest move
// complexity-wise, but it makes toggling between the mode easy. This
// vector is 3 elements max, we'll be fine :P
void PowerProfilesDaemon::switchToProfile(std::string const& str) {
auto pred = [str](Profile const& p) { return p.name == str; };
this->activeProfile_ = std::find_if(availableProfiles_.begin(), availableProfiles_.end(), pred);
if (activeProfile_ == availableProfiles_.end()) {
spdlog::error(
"Power profile daemon: can't find the active profile {} in the available profiles list",
str);
}
dp.emit();
}
auto PowerProfilesDaemon::update() -> void {
if (connected_ && activeProfile_ != availableProfiles_.end()) {
auto profile = (*activeProfile_);
// Set label
fmt::dynamic_format_arg_store<fmt::format_context> store;
store.push_back(fmt::arg("profile", profile.name));
store.push_back(fmt::arg("driver", profile.driver));
store.push_back(fmt::arg("icon", getIcon(0, profile.name)));
label_.set_markup(fmt::vformat(format_, store));
if (tooltipEnabled()) {
label_.set_tooltip_text(fmt::vformat(tooltipFormat_, store));
}
// Set CSS class
if (!currentStyle_.empty()) {
label_.get_style_context()->remove_class(currentStyle_);
}
label_.get_style_context()->add_class(profile.name);
currentStyle_ = profile.name;
event_box_.set_visible(true);
} else {
event_box_.set_visible(false);
}
ALabel::update();
}
bool PowerProfilesDaemon::handleToggle(GdkEventButton* const& e) {
if (e->type == GdkEventType::GDK_BUTTON_PRESS && connected_) {
if (e->button == 1) /* left click */ {
activeProfile_++;
if (activeProfile_ == availableProfiles_.end()) {
activeProfile_ = availableProfiles_.begin();
}
} else {
if (activeProfile_ == availableProfiles_.begin()) {
activeProfile_ = availableProfiles_.end();
}
activeProfile_--;
}
using VarStr = Glib::Variant<Glib::ustring>;
using SetPowerProfileVar = Glib::Variant<std::tuple<Glib::ustring, Glib::ustring, VarStr>>;
VarStr activeProfileVariant = VarStr::create(activeProfile_->name);
auto callArgs = SetPowerProfileVar::create(
std::make_tuple("net.hadess.PowerProfiles", "ActiveProfile", activeProfileVariant));
powerProfilesProxy_->call("org.freedesktop.DBus.Properties.Set",
sigc::mem_fun(*this, &PowerProfilesDaemon::setPropCb), callArgs);
}
return true;
}
void PowerProfilesDaemon::setPropCb(Glib::RefPtr<Gio::AsyncResult>& r) {
try {
auto _ = powerProfilesProxy_->call_finish(r);
dp.emit();
} catch (const std::exception& e) {
spdlog::error("Failed to set the the active power profile: {}", e.what());
} catch (const Glib::Error& e) {
spdlog::error("Failed to set the active power profile: {}", std::string(e.what()));
}
}
} // namespace waybar::modules
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