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README.md

KWayland

KWayland is a Qt-style API to interact with the wayland-client and wayland-server API.

Introduction

KWayland provides two libraries:

  • KWayland::Client
  • KWayland::Server

As the names suggest they implement a Client respectively a Server API for the Wayland protocol. The API is Qt-styled removing the needs to interact with a for a Qt developer uncomfortable low-level C-API. For example the callback mechanism from the Wayland API is replaced by signals; data types are adjusted to be what a Qt developer expects, e.g. two arguments of int are represented by a QPoint or a QSize.

KWayland Server

Head-less API

The server library can be used to implement a Wayland server with Qt. The API is head-less meaning it does not perform any output and does not restrict on the way how one wants to render. This allows to easily integrate in existing rendering code based on e.g. OpenGL or QPainter. Applications built on top of KWayland Server integrated the graphics with the following technologies:

  • OpenGL over DRM/KMS
  • OpenGL over X11
  • OpenGL over Wayland
  • OpenGL over Android's hwcomposer enabled through libhybris
  • QPainter over DRM/KMs
  • QPainter over fbdev
  • QPainter over X11
  • QPainter over Wayland
  • QWidget
  • QtQuick

Although the library does not perform any output, it makes it very easy to enable rendering. The representation for a [Buffer](@ref KWayland::Server::BufferInterface) allows easy conversion to a (memory-shared) QImage in case the buffer represents a shared memory buffer. This QImage can be used for rendering in a QPainter based API or to generate an OpenGL texture.

Easy usage of Wayland API

The library hides many Wayland implementation details. For all Wayland interfaces which have double buffered state the classes always only provide access to the committed state. The pending state is an internal detail. On commit of the pending state Qt signals are emitted about what changed.

Buffers are ref-counted and automatically released if it is no longer referenced allowing the client to reuse it. This happens fully automatically when a surface no longer references a buffer. As long as a buffer is attached surface, the surface has it referenced and the user of the API can access the buffer without needing to care about referencing it.

The API of KWayland is hand-crafted to make usage easier. The representation of a [Surface](@ref KWayland::Server::SurfaceInterface) combines multiple aspects about a Surface even if in Wayland API it is added to other elements. E.g. a Surface contains all [SubSurfaces](@ref KWayland::Server::SubSurfaceInterface) attached to it instead of the user having to monitor for which Surface a SubSurface got created.

Similar the representation of a [Seat](@ref KWayland::Server::SeatInterface) combines all aspects of the Seat. A user of the API only needs to interact with the Seat, there is no need to track all the created [keyboards](@ref KWayland::Server::KeyboardInterface), [pointers](@ref KWayland::Server::PointerInterface), etc. The representation of Seat tracks which keyboards are generated and is able to forward events to the proper focus surface, send enter and leave notifications when needed without the user of the API to care about it.

Handling input events

Just like with output the server API does not restrict on how to get input events. This allows to integrate with existing input handlers and also allows to easily filter the input before it is passed to the server and from there delegated to the client. By that one can filter out e.g. global touch gestures or keyboard shortcuts without having to implement handlers inside KWayland. The SeatInterface provides a very easy to use API to forward events which can be easily integrated with Qt's own input event system, e.g. there is a mapping from Qt::MouseButton to the Linux input code.

Applications built on top of KWayland Server integrated input events with the following technologies:

  • libinput
  • X11
  • Wayland
  • Android's inputstack enabled through libhybris
  • QInputEvent

Private IPC with child processes

KWayland Server is well suited for having a private IPC with child processes. The [Display](@ref KWayland::Server::Display) can be setup in a way that it doesn't create a public socket but only allows connections through socket pairs. This allows to create a socketpair, pass one file descriptor to KWayland server and the other to the forked process, e.g. through the WAYLAND_SOCKET environment variable. Thus a dedicated IPC is created which can be used even for running your own custom protocol. For example KDE Plasma uses such a dedicated parent-child Wayland server in it's screen locker architecture.

Of course private sockets can be added at any time in addition to a publicly available socket. This can be used to recognize specific clients and to restrict access to interfaces for only some dedicated clients.

KWayland Client

The idea around KWayland Client is to provide a drop-in API for the Wayland client library which at the same time provides convenience Qt-style API. It is not intended to be used as a replacement for the QtWayland QPA plugin, but rather as a way to interact with Wayland in case one needs Qt to use a different QPA plugin or in combination with QtWayland to allow a more low-level interaction without requiring to write C code.

Convenience API

The convenience API in KWayland Client provides one class wrapping a Wayland object. Each class can be casted into the wrapped Wayland type. The API represents events as signals and provides simple method calls for requests.

Classes representing global Wayland resources can be created through the [Registry](@ref KWayland::Client::Registry). This class eases the interaction with the Wayland registry and emits signals whenever a new global is announced or gets removed. The Registry has a list of known interfaces (e.g. common Wayland protocols like wl_compositor or wl_shell) which have dedicated announce/removed signals and objects can be factored by the Registry for those globals.

Many globals function as a factory for further resources. E.g. the Compositor has a factory method for Surfaces. All objects can also be created in a low-level way interacting directly with the Wayland API, but provide convenience factory methods in addition. This allows both an easy usage or a more low level control of the Wayland API if needed.

Integration with QtWayland QPA

If the QGuiApplication uses the QtWayland QPA, KWayland allows to integrate with it. That is one does not need to create a new connection to the Wayland server, but can reuse the one used by Qt. If there is a way to get a Wayland object from Qt, the respective class provides a static method normally called fromApplication. In addition the API allows to get the Surface from a QWindow.

Using KWayland in your application

With CMake

KWayland installs a CMake Config file which allows to use KWayland as imported targets. There is one library for Client and one for Server.

To find the package use for example:

find_package(KF5Wayland CONFIG)
set_package_properties(KF5Wayland PROPERTIES TYPE OPTIONAL )
add_feature_info("KF5Wayland" KF5Wayland_FOUND "Required for the awesome Wayland on Qt demo")

Now to link against the Client library use:

add_executable(exampleApp example.cpp)
target_link_libraries(exampleApp KF5::WaylandClient)

To link against the Server library use:

add_executable(exampleServer exampleServer.cpp)
target_link_libraries(exampleServer KF5::WaylandServer)

With QMake

KWayland installs .pri files for the Client and Server library allowing easy usage in QMake based applications.

Just use:

QT += KWaylandClient

Respectively:

QT += KWaylandServer

Please make sure that your project is configured with C++11 support:

CONFIG += c++11