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polybar/src/x11/tray_manager.cpp

800 lines
20 KiB
C++

#include "x11/tray_manager.hpp"
#include <xcb/xcb_image.h>
#include <thread>
#include <utility>
#include "cairo/context.hpp"
#include "cairo/surface.hpp"
#include "components/config.hpp"
#include "errors.hpp"
#include "events/signal.hpp"
#include "utils/color.hpp"
#include "utils/factory.hpp"
#include "utils/math.hpp"
#include "utils/memory.hpp"
#include "utils/process.hpp"
#include "utils/units.hpp"
#include "x11/ewmh.hpp"
#include "x11/icccm.hpp"
#include "x11/window.hpp"
#include "x11/winspec.hpp"
#include "x11/xembed.hpp"
/*
* Tray implementation according to the System Tray Protocol.
*
* Ref: https://specifications.freedesktop.org/systemtray-spec/systemtray-spec-latest.html
*
* This class manages embedded tray icons by placing them on the bar in the correct positions; the start position is
* requested by the renderer.
*
* The tray manager needs to trigger bar updates only when the size of the entire tray changes (e.g. when tray icons are
* added/removed). Everything else can be handled without an update.
*/
POLYBAR_NS
namespace tray {
manager::manager(
connection& conn, signal_emitter& emitter, const logger& logger, const bar_settings& bar_opts, on_update on_update)
: m_connection(conn), m_sig(emitter), m_log(logger), m_bar_opts(bar_opts), m_on_update(std::move(on_update)) {
m_connection.attach_sink(this, SINK_PRIORITY_TRAY);
}
manager::~manager() {
if (m_delaythread.joinable()) {
m_delaythread.join();
}
m_connection.detach_sink(this, SINK_PRIORITY_TRAY);
deactivate();
}
void manager::setup(const config& conf, const string& section_name) {
unsigned client_height = m_bar_opts.inner_area().height;
// Add user-defined padding
m_opts.spacing = conf.get<unsigned>(section_name, "tray-padding", 0);
auto maxsize = conf.get<unsigned>(section_name, "tray-maxsize", 16);
if (client_height > maxsize) {
m_opts.spacing += (client_height - maxsize) / 2;
client_height = maxsize;
}
// Apply user-defined scaling
// TODO maybe remove
auto scale = conf.get(section_name, "tray-scale", 1.0);
client_height *= scale;
m_opts.client_size = {client_height, client_height};
// Set user-defined foreground and background colors.
// TODO maybe remove
// TODO only run background manager, etc. when the background has transparency.
m_opts.background = conf.get(section_name, "tray-background", m_bar_opts.background);
m_opts.foreground = conf.get(section_name, "tray-foreground", m_bar_opts.foreground);
m_opts.selection_owner = m_bar_opts.x_data.window;
if (m_bar_opts.x_data.window == XCB_NONE) {
m_log.err("tray: No bar window found, disabling tray");
return;
}
// Activate the tray manager
query_atom();
activate();
}
unsigned manager::get_width() const {
return m_tray_width;
}
bool manager::is_active() const {
return m_state == state::ACTIVE;
}
bool manager::is_inactive() const {
return m_state == state::INACTIVE;
}
bool manager::is_waiting() const {
return m_state == state::WAITING;
}
bool manager::is_visible() const {
return is_active() && !m_hidden;
}
/**
* Activate systray management
*/
void manager::activate() {
if (is_active()) {
return;
}
m_log.info("tray: Activating tray manager");
try {
set_tray_colors();
set_tray_orientation();
// TODO
// set_tray_visual();
} catch (const exception& err) {
m_log.err(err.what());
m_log.err("Cannot activate tray manager... failed to setup window");
deactivate();
return;
}
// Attempt to get control of the systray selection
xcb_window_t other_owner = XCB_NONE;
if (!acquire_selection(other_owner)) {
// Transition to WAITING state
wait_for_selection(other_owner);
return;
}
m_sig.attach(this);
m_othermanager = XCB_NONE;
m_state = state::ACTIVE;
notify_clients();
// Send delayed notification
// TODO try to remove this?
// if (!m_firstactivation) {
// notify_clients();
// } else {
// notify_clients_delayed();
// }
m_firstactivation = false;
}
/**
* Transitions tray manager to WAITING state
*
* @param other window id for current selection owner
*/
void manager::wait_for_selection(xcb_window_t other) {
if (is_waiting() || other == XCB_NONE) {
return;
}
m_log.info("tray: Waiting for systray selection (current owner: %s)", m_connection.id(other));
m_sig.detach(this);
m_othermanager = other;
track_selection_owner(other);
m_log.trace("tray: Unembed clients");
m_clients.clear();
m_connection.flush();
m_state = state::WAITING;
reconfigure_window();
}
/**
* Deactivate systray management
*/
void manager::deactivate() {
if (is_inactive()) {
return;
}
m_log.info("tray: Deactivating tray manager");
m_sig.detach(this);
// Unset selection owner if we currently own the atom
if (!m_connection.connection_has_error() && is_active()) {
m_log.trace("tray: Unset selection owner");
m_connection.set_selection_owner(XCB_NONE, m_atom, XCB_CURRENT_TIME);
}
m_log.trace("tray: Unembed clients");
m_clients.clear();
m_connection.flush();
m_othermanager = XCB_NONE;
m_state = state::INACTIVE;
reconfigure_window();
}
/**
* Reconfigure tray
*/
void manager::reconfigure() {
if (!m_opts.selection_owner) {
return;
}
reconfigure_window();
try {
reconfigure_clients();
} catch (const exception& err) {
m_log.err("Failed to reconfigure tray clients (%s)", err.what());
}
m_connection.flush();
}
/**
* Reconfigure container window
*
* TODO should we call update_width directly?
*/
void manager::reconfigure_window() {
m_log.trace("tray: Reconfigure window (hidden=%i, clients=%i)", m_hidden, m_clients.size());
update_width();
}
/**
* TODO make sure this is always called when m_clients changes
*/
void manager::update_width() {
unsigned new_width = calculate_w();
if (m_tray_width != new_width) {
m_tray_width = new_width;
m_log.trace("tray: new width (width: %d, clients: %d)", m_tray_width, m_clients.size());
m_on_update();
}
}
/**
* Reconfigure clients
*/
void manager::reconfigure_clients() {
m_log.trace("tray: Reconfigure clients");
int x = calculate_x() + m_opts.spacing;
bool has_error = false;
for (auto& client : m_clients) {
try {
client->ensure_state();
if (client->mapped()) {
client->set_position(x, calculate_client_y());
}
x += m_opts.client_size.w + m_opts.spacing;
} catch (const xpp::x::error::window& err) {
m_log.err("Failed to reconfigure %s, removing ... (%s)", client->name(), err.what());
client.reset();
has_error = true;
}
}
if (has_error) {
clean_clients();
}
}
/**
* Redraw client windows.
*/
void manager::redraw_clients() {
if (!is_visible()) {
return;
}
m_log.trace("tray: Refreshing clients");
for (auto& client : m_clients) {
try {
if (client->mapped()) {
client->update_bg();
}
} catch (const std::exception& e) {
m_log.err("tray: Failed to clear %s (%s)", client->name(), e.what());
}
}
m_connection.flush();
}
/**
* Find the systray selection atom
*/
void manager::query_atom() {
m_log.trace("tray: Find systray selection atom for the default screen");
string name{"_NET_SYSTEM_TRAY_S" + to_string(m_connection.default_screen())};
auto reply = m_connection.intern_atom(false, name.length(), name.c_str());
m_atom = reply.atom();
}
/**
* Set color atom used by clients when determing icon theme
*/
void manager::set_tray_colors() {
m_log.trace("tray: Set _NET_SYSTEM_TRAY_COLORS to 0x%08x", m_opts.foreground);
auto r = m_opts.foreground.red_i();
auto g = m_opts.foreground.green_i();
auto b = m_opts.foreground.blue_i();
const uint16_t r16 = (r << 8) | r;
const uint16_t g16 = (g << 8) | g;
const uint16_t b16 = (b << 8) | b;
const array<uint32_t, 12> colors = {
r16, g16, b16, // normal
r16, g16, b16, // error
r16, g16, b16, // warning
r16, g16, b16, // success
};
m_connection.change_property(XCB_PROP_MODE_REPLACE, m_opts.selection_owner, _NET_SYSTEM_TRAY_COLORS,
XCB_ATOM_CARDINAL, 32, colors.size(), colors.data());
}
/**
* Set the _NET_SYSTEM_TRAY_ORIENTATION atom
*/
void manager::set_tray_orientation() {
const uint32_t orientation = _NET_SYSTEM_TRAY_ORIENTATION_HORZ;
m_log.trace("tray: Set _NET_SYSTEM_TRAY_ORIENTATION to 0x%x", orientation);
m_connection.change_property_checked(XCB_PROP_MODE_REPLACE, m_opts.selection_owner, _NET_SYSTEM_TRAY_ORIENTATION,
XCB_ATOM_CARDINAL, 32, 1, &orientation);
}
// TODO remove, we should probably not set a visual at all (or only a 24-bit one)
void manager::set_tray_visual() {
// TODO use bar visual
const uint32_t visualid = m_connection.visual_type(XCB_VISUAL_CLASS_TRUE_COLOR, 32)->visual_id;
m_log.trace("tray: Set _NET_SYSTEM_TRAY_VISUAL to 0x%x", visualid);
m_connection.change_property_checked(
XCB_PROP_MODE_REPLACE, m_opts.selection_owner, _NET_SYSTEM_TRAY_VISUAL, XCB_ATOM_VISUALID, 32, 1, &visualid);
}
/**
* Acquire the systray selection
*
* @param other_owner is set to the current owner if the function fails
* @returns Whether we acquired the selection
*/
bool manager::acquire_selection(xcb_window_t& other_owner) {
other_owner = XCB_NONE;
xcb_window_t owner = m_connection.get_selection_owner(m_atom).owner();
if (owner == m_opts.selection_owner) {
m_log.trace("tray: Already managing the systray selection");
return true;
} else if (owner == XCB_NONE) {
m_log.trace("tray: Change selection owner to %s", m_connection.id(m_opts.selection_owner));
m_connection.set_selection_owner_checked(m_opts.selection_owner, m_atom, XCB_CURRENT_TIME);
if (m_connection.get_selection_owner_unchecked(m_atom)->owner != m_opts.selection_owner) {
throw application_error("Failed to get control of the systray selection");
}
return true;
} else {
other_owner = owner;
m_log.warn("Systray selection already managed (window=%s)", m_connection.id(owner));
return false;
}
}
/**
* Notify pending clients about the new systray MANAGER
*/
void manager::notify_clients() {
if (is_active()) {
m_log.info("tray: Notifying pending tray clients");
auto message = m_connection.make_client_message(MANAGER, m_connection.root());
message.data.data32[0] = XCB_CURRENT_TIME;
message.data.data32[1] = m_atom;
message.data.data32[2] = m_opts.selection_owner;
m_connection.send_client_message(message, m_connection.root());
}
}
/**
* Send delayed notification to pending clients
*/
void manager::notify_clients_delayed() {
if (m_delaythread.joinable()) {
m_delaythread.join();
}
m_delaythread = thread([this]() {
this_thread::sleep_for(1s);
notify_clients();
});
}
/**
* Track changes to the given selection owner
* If it gets destroyed or goes away we can reactivate the tray_manager
*/
void manager::track_selection_owner(xcb_window_t owner) {
if (owner != XCB_NONE) {
const uint32_t mask{XCB_CW_EVENT_MASK};
const uint32_t value{XCB_EVENT_MASK_STRUCTURE_NOTIFY};
m_connection.change_window_attributes(owner, mask, &value);
}
}
/**
* Process client docking request
*/
void manager::process_docking_request(xcb_window_t win) {
m_log.info("tray: Processing docking request from '%s' (%s)", ewmh_util::get_wm_name(win), m_connection.id(win));
try {
auto cl = make_unique<client>(
m_log, m_connection, m_opts.selection_owner, win, m_opts.client_size, m_opts.background);
try {
cl->query_xembed();
} catch (const xpp::x::error::window& err) {
m_log.err("Failed to query _XEMBED_INFO, removing %s ... (%s)", cl->name(), err.what());
return;
}
cl->update_client_attributes();
cl->reparent();
cl->add_to_save_set();
cl->ensure_state();
cl->notify_xembed();
m_clients.emplace_back(std::move(cl));
} catch (const std::exception& err) {
m_log.err("tray: Failed to setup tray client removing... (%s)", err.what());
return;
}
}
/**
* Calculate x position of tray window
*/
int manager::calculate_x() const {
return m_bar_opts.inner_area(false).x + m_pos.x;
}
int manager::calculate_y() const {
return m_bar_opts.inner_area(false).y + m_pos.y;
}
unsigned manager::calculate_w() const {
unsigned width = m_opts.spacing;
unsigned count{0};
for (const auto& client : m_clients) {
if (client->mapped()) {
count++;
width += m_opts.spacing + m_opts.client_size.w;
}
}
return count ? width : 0;
}
/**
* Calculate y position of client window
*/
int manager::calculate_client_y() {
return (m_bar_opts.inner_area(true).height - m_opts.client_size.h) / 2;
}
/**
* Check if the given window is embedded.
*
* The given window ID can be the ID of the wrapper or the embedded window
*/
bool manager::is_embedded(const xcb_window_t& win) {
return find_client(win) != nullptr;
}
/**
* Find tray client object from the wrapper or embedded window
*/
client* manager::find_client(const xcb_window_t& win) {
auto client = std::find_if(m_clients.begin(), m_clients.end(),
[win](const auto& client) { return client->match(win) || client->embedder() == win; });
if (client == m_clients.end()) {
return nullptr;
} else {
return client->get();
}
}
/**
* Remove tray client
*/
void manager::remove_client(const client& c) {
remove_client(c.client_window());
}
/**
* Remove tray client by window
*/
void manager::remove_client(xcb_window_t win) {
auto old_size = m_clients.size();
m_clients.erase(
std::remove_if(m_clients.begin(), m_clients.end(), [win](const auto& client) { return client->match(win); }));
if (old_size != m_clients.size()) {
manager::reconfigure();
}
}
/**
* Remove all null pointers from client list.
*
* Removing clients is often done in two steps:
* 1. When removing a client during iteration, the unique_ptr is reset.
* 2. Afterwards all null pointers are removed from the list.
*/
void manager::clean_clients() {
m_clients.erase(
std::remove_if(m_clients.begin(), m_clients.end(), [](const auto& client) { return client.get() == nullptr; }));
}
bool manager::change_visibility(bool visible) {
if (!is_active() || m_hidden == !visible) {
return false;
}
m_log.trace("tray: visibility_change (new_state)", visible ? "visible" : "hidden");
m_hidden = !visible;
for (auto& client : m_clients) {
client->hidden(m_hidden);
client->ensure_state();
}
if (!m_hidden) {
redraw_clients();
}
m_connection.flush();
return true;
}
/**
* Event callback : XCB_EXPOSE
*/
void manager::handle(const evt::expose& evt) {
if (is_active() && !m_clients.empty() && evt->count == 0) {
redraw_clients();
}
}
/**
* Event callback : XCB_CLIENT_MESSAGE
*/
void manager::handle(const evt::client_message& evt) {
if (!is_active()) {
return;
}
// Our selection owner window was deleted
if (evt->type == WM_PROTOCOLS && evt->data.data32[0] == WM_DELETE_WINDOW && evt->window == m_opts.selection_owner) {
m_log.notice("Received WM_DELETE for selection owner");
deactivate();
} else if (evt->type == _NET_SYSTEM_TRAY_OPCODE && evt->format == 32) {
m_log.trace("tray: Received client_message");
// Docking request
if (SYSTEM_TRAY_REQUEST_DOCK == evt->data.data32[1]) {
xcb_window_t win = evt->data.data32[2];
if (is_embedded(win)) {
m_log.warn("Tray client %s already embedded, ignoring request...", m_connection.id(win));
} else {
process_docking_request(win);
}
}
}
}
/**
* Event callback : XCB_CONFIGURE_REQUEST
*
* Called when a tray client thinks he's part of the free world and
* wants to reconfigure its window. This is of course nothing we appreciate
* so we return an answer that'll put him in place.
*/
void manager::handle(const evt::configure_request& evt) {
if (is_active() && is_embedded(evt->window)) {
auto client = find_client(evt->window);
try {
m_log.trace("%s: Client configure request", client->name());
client->configure_notify();
} catch (const xpp::x::error::window& err) {
m_log.err("Failed to reconfigure %s, removing... (%s)", client->name(), err.what());
remove_client(evt->window);
}
}
}
/**
* @see manager::handle(const evt::configure_request&);
*/
void manager::handle(const evt::resize_request& evt) {
if (is_active() && is_embedded(evt->window)) {
auto client = find_client(evt->window);
try {
m_log.trace("%s: Client resize request", client->name());
client->configure_notify();
} catch (const xpp::x::error::window& err) {
m_log.err("Failed to reconfigure %s, removing... (%s)", client->name(), err.what());
remove_client(evt->window);
}
}
}
/**
* Event callback : XCB_SELECTION_CLEAR
*/
void manager::handle(const evt::selection_clear& evt) {
if (is_inactive()) {
return;
} else if (evt->selection != m_atom) {
return;
} else if (evt->owner != m_opts.selection_owner) {
return;
}
m_log.warn("Lost systray selection, deactivating...");
wait_for_selection(m_connection.get_selection_owner(m_atom).owner());
}
/**
* Event callback : XCB_PROPERTY_NOTIFY
*/
void manager::handle(const evt::property_notify& evt) {
if (!is_active()) {
return;
}
if (evt->atom != _XEMBED_INFO) {
return;
}
auto client = find_client(evt->window);
if (!client) {
return;
}
m_log.trace("%s: _XEMBED_INFO", client->name());
if (evt->state == XCB_PROPERTY_NEW_VALUE) {
m_log.trace("tray: _XEMBED_INFO value has changed");
}
try {
client->query_xembed();
} catch (const xpp::x::error::window& err) {
m_log.err("Failed to query _XEMBED_INFO, removing %s ... (%s)", client->name(), err.what());
remove_client(*client);
return;
}
client->ensure_state();
}
/**
* Event callback : XCB_REPARENT_NOTIFY
*/
void manager::handle(const evt::reparent_notify& evt) {
if (!is_active()) {
return;
}
auto client = find_client(evt->window);
if (!client) {
return;
}
// Tray client was reparented to another window
if (evt->parent != client->embedder()) {
m_log.info("%s: Received reparent_notify for client, remove...", client->name());
remove_client(*client);
}
}
/**
* Event callback : XCB_DESTROY_NOTIFY
*/
void manager::handle(const evt::destroy_notify& evt) {
if (is_waiting() && evt->window == m_othermanager) {
m_log.info("Systray selection unmanaged... re-activating");
activate();
} else if (is_active() && is_embedded(evt->window)) {
m_log.info("tray: Received destroy_notify for client, remove...");
remove_client(evt->window);
redraw_clients();
}
}
/**
* Event callback : XCB_MAP_NOTIFY
*/
void manager::handle(const evt::map_notify& evt) {
if (is_active() && evt->window == m_opts.selection_owner) {
m_log.trace("tray: Received map_notify for selection owner");
redraw_clients();
} else if (is_embedded(evt->window)) {
auto client = find_client(evt->window);
// If we received a notification on the wrapped window, we don't want to do anything.
if (client->embedder() != evt->window) {
return;
}
m_log.trace("%s: Received map_notify", client->name());
if (!client->mapped()) {
client->mapped(true);
reconfigure();
}
}
}
/**
* Event callback : XCB_UNMAP_NOTIFY
*/
void manager::handle(const evt::unmap_notify& evt) {
if (is_active() && is_embedded(evt->window)) {
auto client = find_client(evt->window);
// If we received a notification on the wrapped window, we don't want to do anything.
if (client->embedder() != evt->window) {
return;
}
m_log.trace("%s: Received unmap_notify", client->name());
if (client->mapped()) {
client->mapped(false);
reconfigure();
}
}
}
bool manager::on(const signals::ui::update_background&) {
redraw_clients();
return false;
}
bool manager::on(const signals::ui_tray::tray_pos_change& evt) {
int new_x = std::max(0, std::min(evt.cast(), (int)(m_bar_opts.size.w - m_tray_width)));
if (new_x != m_pos.x) {
m_pos.x = new_x;
reconfigure();
}
return true;
}
bool manager::on(const signals::ui_tray::tray_visibility& evt) {
return change_visibility(evt.cast());
}
} // namespace tray
POLYBAR_NS_END