#include "SNI.h" #include "Log.h" #include "Widget.h" #include "Config.h" #include "Common.h" #ifdef WITH_SNI #include #include #include #include #define STB_IMAGE_IMPLEMENTATION #include #include #include #include namespace SNI { sniWatcher* watcherSkeleton; guint watcherID; GDBusConnection* dbusConnection = nullptr; guint hostID; struct Item { std::string name; std::string object; size_t w = 0; size_t h = 0; GdkPixbuf* pixbuf = nullptr; std::string tooltip = ""; std::string menuObjectPath = ""; EventBox* gtkEvent = nullptr; int watcherID = -1; int propertyChangeWatcherID = -1; }; std::vector items; std::unordered_map clientsToQuery; std::unordered_set reloadedNames; // Gtk stuff, TODO: Allow more than one instance // Simply removing the gtk_drawing_areas doesn't trigger proper redrawing // HACK: Make an outer permanent and an inner box, which will be deleted and readded Widget* parentBox; Widget* iconBox; // Swap channels for the render format and create a pixbuf out of it static GdkPixbuf* ToPixbuf(uint8_t* sniData, int32_t width, int32_t height) { for (int i = 0; i < width * height; i++) { struct Px { // This should be bgra... // Since source is ARGB32 in network order(=big-endian) // and x86 Linux is little-endian, we *should* swap b and r... uint8_t a, r, g, b; }; Px& pixel = ((Px*)sniData)[i]; // Swap to create rgba pixel = {pixel.r, pixel.g, pixel.b, pixel.a}; } return gdk_pixbuf_new_from_data( sniData, GDK_COLORSPACE_RGB, true, 8, width, height, width * 4, +[](uint8_t* data, void*) { delete[] data; }, nullptr); } static bool ItemMatchesFilter(const Item& item, const std::string& filter, bool& wasExplicitOverride) { auto& filterString = item.tooltip == "" ? item.object : item.tooltip; if (filterString.find(filter) != std::string::npos) { wasExplicitOverride = true; return true; } else if (filter == "*" && !wasExplicitOverride) { return true; } return false; } static Item CreateItem(std::string&& name, std::string&& object) { Item item{}; item.name = name; item.object = object; auto getProperty = [&](const char* prop) -> GVariant* { GError* err = nullptr; GVariant* params[2]; params[0] = g_variant_new_string("org.kde.StatusNotifierItem"); params[1] = g_variant_new_string(prop); GVariant* param = g_variant_new_tuple(params, 2); GVariant* res = g_dbus_connection_call_sync(dbusConnection, name.c_str(), object.c_str(), "org.freedesktop.DBus.Properties", "Get", param, G_VARIANT_TYPE("(v)"), G_DBUS_CALL_FLAGS_NONE, -1, nullptr, &err); if (err) { g_error_free(err); return nullptr; } // g_dbus_connection_call_sync consumes the parameter and its children, so no need to unref return res; }; // Query tooltip(Steam e.g. doesn't have one) GVariant* tooltip = getProperty("ToolTip"); if (tooltip) { GVariant* tooltipVar; g_variant_get_child(tooltip, 0, "v", &tooltipVar); const gchar* title = nullptr; if (g_variant_is_container(tooltipVar) && g_variant_n_children(tooltipVar) >= 4) { // According to spec, ToolTip is of type (sa(iiab)ss) => 4 children // Most icons only set the "title" component (e.g. Discord, KeePassXC, ...) g_variant_get_child(tooltipVar, 2, "s", &title); } else { // TeamViewer only exposes a string, which is not according to spec! title = g_variant_get_string(tooltipVar, nullptr); } if (title != nullptr) { item.tooltip = title; } else { LOG("SNI: Error querying tooltip"); } LOG("SNI: Title: " << item.tooltip); g_variant_unref(tooltip); g_variant_unref(tooltipVar); } // Query menu GVariant* menuPath = getProperty("Menu"); if (menuPath) { GVariant* menuVariant; g_variant_get_child(menuPath, 0, "v", &menuVariant); const char* objectPath; g_variant_get(menuVariant, "o", &objectPath); LOG("SNI: Menu object path: " << objectPath); item.menuObjectPath = objectPath; g_variant_unref(menuVariant); g_variant_unref(menuPath); } bool wasExplicitOverride = false; // First try icon theme querying std::string iconName; for (auto& [filter, name] : Config::Get().sniIconNames) { if (ItemMatchesFilter(item, filter, wasExplicitOverride)) { iconName = name; } } if (iconName == "") { GVariant* iconNameVariant = getProperty("IconName"); if (iconNameVariant) { GVariant* iconNameStr; g_variant_get(iconNameVariant, "(v)", &iconNameStr); iconName = g_variant_get_string(iconNameStr, nullptr); g_variant_unref(iconNameVariant); g_variant_unref(iconNameStr); } } if (iconName != "") { GError* err = nullptr; GtkIconTheme* defaultTheme = gtk_icon_theme_get_default(); GdkPixbuf* pixbuf = gtk_icon_theme_load_icon(defaultTheme, iconName.c_str(), 64, GTK_ICON_LOOKUP_FORCE_SVG, &err); if (err) { LOG("SNI: gtk_icon_theme_load_icon failed: " << err->message); g_error_free(err); } else if (pixbuf) { LOG("SNI: Creating icon from \"" << iconName << "\""); item.pixbuf = pixbuf; item.w = gdk_pixbuf_get_width(pixbuf); item.h = gdk_pixbuf_get_height(pixbuf); } } if (item.pixbuf == nullptr) { GVariant* iconPixmap = getProperty("IconPixmap"); // Only get first item GVariant* arr = nullptr; g_variant_get(iconPixmap, "(v)", &arr); GVariantIter* arrIter = nullptr; g_variant_get(arr, "a(iiay)", &arrIter); if (g_variant_iter_n_children(arrIter) != 0) { int width; int height; GVariantIter* data = nullptr; g_variant_iter_next(arrIter, "(iiay)", &width, &height, &data); LOG("SNI: Width: " << width); LOG("SNI: Height: " << height); item.w = width; item.h = height; uint8_t* iconData = new uint8_t[width * height * 4]; uint8_t px = 0; int i = 0; while (g_variant_iter_next(data, "y", &px)) { iconData[i] = px; i++; } LOG("SNI: Creating icon from pixmap"); item.pixbuf = ToPixbuf(iconData, width, height); g_variant_iter_free(data); } g_variant_iter_free(arrIter); g_variant_unref(arr); g_variant_unref(iconPixmap); } return item; } static void InvalidateWidget(); static void DBusNameVanished(GDBusConnection*, const char* name, void*) { auto it = std::find_if(items.begin(), items.end(), [&](const Item& item) { return item.name == name; }); if (it != items.end()) { LOG("SNI: " << name << " vanished!"); g_bus_unwatch_name(it->watcherID); g_dbus_connection_signal_unsubscribe(dbusConnection, it->propertyChangeWatcherID); g_free(it->pixbuf); items.erase(it); InvalidateWidget(); return; } auto toRegisterIt = clientsToQuery.find(name); if (toRegisterIt != clientsToQuery.end()) { clientsToQuery.erase(toRegisterIt); } LOG("SNI: Cannot remove unregistered bus name " << name); return; } static void ItemPropertyChanged(GDBusConnection*, const char* senderName, const char* object, const char*, const char*, GVariant*, void* name) { // I think the multiple calling of this callback is a symptom of not unsubscribing the ItemPropertyChanged callback. Since this is now done, I // think the reloadedNames and object path checking is no longer needed. Since it doesn't do any harm (except being a little bit pointless) // I'll leave the checks here for now. // TODO: Investigate whether it is now actually fixed if (reloadedNames.insert(senderName).second == false) { // senderName has already requested a change, ignore LOG("SNI: " << senderName << " already signaled property change"); return; } std::string nameStr = (const char*)name; LOG("SNI: Reloading " << (const char*)name << " " << object << " (Sender: " << senderName << ")"); // We can't trust the object path given to us, since ItemPropertyChanged is called multiple times with the same name, but with different // object paths. auto it = std::find_if(items.begin(), items.end(), [&](const Item& item) { return item.name == nameStr; }); std::string itemObjectPath; if (it != items.end()) { itemObjectPath = it->object; } else { // Item not already registered, fallback to provided name and hope the object path provided is accurate LOG("SNI: Couldn't find name for actual object path!"); itemObjectPath = object; } // We don't care about *what* changed, just remove and reload LOG("SNI: Actual object path: " << itemObjectPath) if (it != items.end()) { g_bus_unwatch_name(it->watcherID); g_dbus_connection_signal_unsubscribe(dbusConnection, it->propertyChangeWatcherID); g_free(it->pixbuf); items.erase(it); } else { LOG("SNI: Coudn't remove item " << nameStr << " when reloading"); } clientsToQuery[nameStr] = {nameStr, itemObjectPath}; } static TimerResult UpdateWidgets(Box&) { // Flush connection, so we hopefully don't deadlock with any client GError* err = nullptr; g_dbus_connection_flush_sync(dbusConnection, nullptr, &err); if (err) { LOG("SNI: g_dbus_connection_call_sync failed: " << err->message); g_error_free(err); } if (RuntimeConfig::Get().hasSNI == false || Config::Get().enableSNI == false) { // Don't bother return TimerResult::Delete; } for (auto& [name, client] : clientsToQuery) { LOG("SNI: Creating Item " << client.name << " " << client.object); Item item = CreateItem(std::move(client.name), std::move(client.object)); // Add handler for removing item.watcherID = g_bus_watch_name_on_connection(dbusConnection, item.name.c_str(), G_BUS_NAME_WATCHER_FLAGS_NONE, nullptr, DBusNameVanished, nullptr, nullptr); // Add handler for icon change char* staticBuf = new char[item.name.size() + 1]{0x0}; memcpy(staticBuf, item.name.c_str(), item.name.size()); LOG("SNI: Allocating static name buffer for " << item.name); item.propertyChangeWatcherID = g_dbus_connection_signal_subscribe( dbusConnection, item.name.c_str(), "org.kde.StatusNotifierItem", nullptr, nullptr, nullptr, G_DBUS_SIGNAL_FLAGS_NONE, ItemPropertyChanged, staticBuf, +[](void* ptr) { LOG("SNI: Delete static name buffer for " << (char*)ptr); delete[] (char*)ptr; }); items.push_back(std::move(item)); } if (clientsToQuery.size() > 0) { InvalidateWidget(); } clientsToQuery.clear(); return TimerResult::Ok; } // SNI implements the GTK-Thingies itself internally static void InvalidateWidget() { LOG("SNI: Clearing old children"); parentBox->RemoveChild(iconBox); // Allow further updates from the icon reloadedNames.clear(); auto container = Widget::Create(); container->SetSpacing({4, false}); container->SetOrientation(Utils::GetOrientation()); Utils::SetTransform(*container, {-1, true, Alignment::Fill, 0, 8}); iconBox = container.get(); // Sort items, so they don't jump around randomly std::sort(items.begin(), items.end(), [](const Item& a, const Item& b) { return a.name < b.name; }); bool rotatedIcons = (Config::Get().location == 'L' || Config::Get().location == 'R') && Config::Get().iconsAlwaysUp; for (auto& item : items) { if (item.pixbuf) { auto eventBox = Widget::Create(); item.gtkEvent = eventBox.get(); eventBox->SetOnCreate( [&](Widget& w) { auto clickFn = [](GtkWidget*, GdkEventButton* event, void* data) -> gboolean { if (event->button == 1) { Item* item = (Item*)data; GtkMenu* menu = (GtkMenu*)dbusmenu_gtkmenu_new(item->name.data(), item->menuObjectPath.data()); LOG(menu); gtk_menu_attach_to_widget(menu, item->gtkEvent->Get(), nullptr); gtk_menu_popup_at_pointer(menu, (GdkEvent*)event); LOG(item->menuObjectPath << " click"); } return GDK_EVENT_STOP; }; g_signal_connect(w.Get(), "button-release-event", G_CALLBACK(+clickFn), &item); }); LOG("SNI: Add " << item.name << " to widget"); auto texture = Widget::Create(); bool wasExplicitOverride = false; int size = 24; for (auto& [filter, iconSize] : Config::Get().sniIconSizes) { if (ItemMatchesFilter(item, filter, wasExplicitOverride)) { size = iconSize; } } wasExplicitOverride = false; for (auto& [filter, padding] : Config::Get().sniPaddingTop) { if (ItemMatchesFilter(item, filter, wasExplicitOverride)) { texture->AddPaddingTop(padding); } } Utils::SetTransform(*texture, {size, true, Alignment::Fill}, {size, true, Alignment::Fill, 0, rotatedIcons ? 6 : 0}); texture->SetBuf(item.pixbuf, item.w, item.h); texture->SetTooltip(item.tooltip); texture->SetAngle(Utils::GetAngle() == 270 ? 90 : 0); eventBox->AddChild(std::move(texture)); iconBox->AddChild(std::move(eventBox)); } } parentBox->AddChild(std::move(container)); } void WidgetSNI(Widget& parent) { if (RuntimeConfig::Get().hasSNI == false || Config::Get().enableSNI == false) { return; } // Add parent box auto box = Widget::Create(); box->AddClass("widget"); box->AddClass("sni"); Utils::SetTransform(*box, {-1, false, Alignment::Fill}); auto container = Widget::Create(); container->AddTimer(UpdateWidgets, 1000, TimerDispatchBehaviour::LateDispatch); iconBox = container.get(); parentBox = box.get(); InvalidateWidget(); box->AddChild(std::move(container)); parent.AddChild(std::move(box)); } // Methods static bool RegisterItem(sniWatcher* watcher, GDBusMethodInvocation* invocation, const char* service) { std::string name; std::string object; if (strncmp(service, "/", 1) == 0) { // service is object (used by e.g. ayatana -> steam, discord) object = service; name = g_dbus_method_invocation_get_sender(invocation); } else { // service is bus name (used by e.g. Telegram) name = service; object = "/StatusNotifierItem"; } auto it = std::find_if(items.begin(), items.end(), [&](const Item& item) { return item.name == name && item.object == object; }); if (it != items.end()) { LOG("Rejecting " << name << " " << object); return false; } sni_watcher_emit_status_notifier_item_registered(watcher, service); sni_watcher_complete_register_status_notifier_item(watcher, invocation); LOG("SNI: Registered Item " << name << " " << object); clientsToQuery[name] = {name, std::move(object)}; return true; } static void RegisterHost(sniWatcher*, GDBusMethodInvocation*, const char*) { LOG("TODO: Implement RegisterHost!"); } // Signals static void ItemRegistered(sniWatcher*, const char*, void*) { // Don't care, since watcher and host will always be from gBar (at least for now) } static void ItemUnregistered(sniWatcher*, const char*, void*) { // Don't care, since watcher and host will always be from gBar (at least for now) } void Init() { if (RuntimeConfig::Get().hasSNI == false || Config::Get().enableSNI == false) { return; } auto busAcquired = [](GDBusConnection* connection, const char*, void*) { GError* err = nullptr; g_dbus_interface_skeleton_export((GDBusInterfaceSkeleton*)watcherSkeleton, connection, "/StatusNotifierWatcher", &err); if (err) { LOG("SNI: Failed to connect to dbus! Disabling SNI. Error: " << err->message); RuntimeConfig::Get().hasSNI = false; g_error_free(err); return; } dbusConnection = connection; // Connect methods and signals g_signal_connect(watcherSkeleton, "handle-register-status-notifier-item", G_CALLBACK(RegisterItem), nullptr); g_signal_connect(watcherSkeleton, "handle-register-status-notifier-host", G_CALLBACK(RegisterHost), nullptr); g_signal_connect(watcherSkeleton, "status-notifier-item-registered", G_CALLBACK(ItemRegistered), nullptr); g_signal_connect(watcherSkeleton, "status-notifier-item-unregistered", G_CALLBACK(ItemUnregistered), nullptr); // Host is always available sni_watcher_set_is_status_notifier_host_registered(watcherSkeleton, true); }; auto emptyCallback = [](GDBusConnection*, const char*, void*) {}; auto lostName = [](GDBusConnection*, const char*, void*) { LOG("SNI: Lost Name! Disabling SNI!"); RuntimeConfig::Get().hasSNI = false; }; auto flags = G_BUS_NAME_OWNER_FLAGS_REPLACE; g_bus_own_name(G_BUS_TYPE_SESSION, "org.kde.StatusNotifierWatcher", (GBusNameOwnerFlags)flags, +busAcquired, +emptyCallback, +lostName, nullptr, nullptr); watcherSkeleton = sni_watcher_skeleton_new(); std::string hostName = "org.kde.StatusNotifierHost-" + std::to_string(getpid()); g_bus_own_name(G_BUS_TYPE_SESSION, hostName.c_str(), (GBusNameOwnerFlags)flags, +emptyCallback, +emptyCallback, +emptyCallback, nullptr, nullptr); // Host is always available sni_watcher_set_is_status_notifier_host_registered(watcherSkeleton, true); sni_watcher_emit_status_notifier_host_registered(watcherSkeleton); } void Shutdown() {} } #endif