smithay/examples/udev.rs

extern crate drm;
#[macro_use]
extern crate glium;
extern crate rand;
extern crate input as libinput;
extern crate image;
extern crate udev;
#[macro_use(define_roles)]
extern crate smithay;
extern crate xkbcommon;
extern crate wayland_server;

#[macro_use]
extern crate slog;
extern crate slog_async;
extern crate slog_term;

extern crate ctrlc;

mod helpers;

use drm::control::{Device as ControlDevice, ResourceInfo};
use drm::control::connector::{Info as ConnectorInfo, State as ConnectorState};
use drm::control::encoder::Info as EncoderInfo;
use drm::control::crtc;
use drm::result::Error as DrmError;
use glium::{Blend, Surface};
use image::{ImageBuffer, Rgba};
use libinput::{Libinput, Device as LibinputDevice, event};
use libinput::event::keyboard::KeyboardEventTrait;
use helpers::{init_shell, GliumDrawer, MyWindowMap, Roles, SurfaceData, Buffer};
use slog::{Drain, Logger};
use smithay::backend::drm::{DrmBackend, DrmDevice, DrmHandler, DevPath};
use smithay::backend::graphics::GraphicsBackend;
use smithay::backend::graphics::egl::EGLGraphicsBackend;
use smithay::backend::graphics::egl::wayland::{EGLWaylandExtensions, EGLDisplay, Format};
use smithay::backend::input::{self, Event, InputBackend, InputHandler, KeyboardKeyEvent, PointerButtonEvent,
                              PointerAxisEvent, KeyState};
use smithay::backend::libinput::{LibinputInputBackend, libinput_bind, PointerAxisEvent as LibinputPointerAxisEvent, LibinputSessionInterface};
use smithay::backend::udev::{UdevBackend, UdevHandler, udev_backend_bind, primary_gpu, SessionFdDrmDevice};
use smithay::backend::session::{Session, SessionNotifier};
use smithay::backend::session::direct::{direct_session_bind, DirectSession};
use smithay::wayland::compositor::{CompositorToken, SubsurfaceRole, TraversalAction};
use smithay::wayland::compositor::roles::Role;
use smithay::wayland::output::{Mode, Output, PhysicalProperties};
use smithay::wayland::seat::{KeyboardHandle, PointerHandle, Seat};
use smithay::wayland::shm::init_shm_global;
use std::cell::RefCell;
use std::collections::HashMap;
use std::io::Error as IoError;
use std::rc::Rc;
use std::sync::Arc;
use std::sync::atomic::{AtomicBool, Ordering};
use std::time::Duration;
use std::path::PathBuf;
use std::process::Command;
use xkbcommon::xkb::keysyms as xkb;
use wayland_server::{Display, StateToken, StateProxy};
use wayland_server::protocol::{wl_output, wl_pointer};

struct LibinputInputHandler {
    log: Logger,
    pointer: PointerHandle,
    keyboard: KeyboardHandle,
    window_map: Rc<RefCell<MyWindowMap>>,
    pointer_location: Rc<RefCell<(f64, f64)>>,
    screen_size: (u32, u32),
    serial: u32,
    running: Arc<AtomicBool>,
}

impl LibinputInputHandler {
    fn next_serial(&mut self) -> u32 {
        self.serial += 1;
        self.serial
    }
}

impl InputHandler<LibinputInputBackend> for LibinputInputHandler {
    fn on_seat_created(&mut self, _: &input::Seat) {
        /* we just create a single static one */
    }
    fn on_seat_destroyed(&mut self, _: &input::Seat) {
        /* we just create a single static one */
    }
    fn on_seat_changed(&mut self, _: &input::Seat) {
        /* we just create a single static one */
    }
    fn on_keyboard_key(&mut self, _: &input::Seat, evt: event::keyboard::KeyboardKeyEvent) {
        let keycode = evt.key();
        let state = evt.state();
        debug!(self.log, "key"; "keycode" => keycode, "state" => format!("{:?}", state));

        let serial = self.next_serial();
        self.keyboard.input(keycode, state, serial, |modifiers, keysym| {
            if modifiers.ctrl && modifiers.alt && keysym == xkb::KEY_BackSpace {
                self.running.store(false, Ordering::SeqCst);
                false
            } else if modifiers.logo && keysym == xkb::KEY_Return && state == KeyState::Pressed {
                let _ = Command::new("weston-terminal").spawn();
                false
            } else {
                true
            }
        });
    }
    fn on_pointer_move(&mut self, _: &input::Seat, evt: event::pointer::PointerMotionEvent) {
        let (x, y) = (evt.dx(), evt.dy());
        let serial = self.next_serial();
        let mut location = self.pointer_location.borrow_mut();
        location.0 += x;
        location.1 += y;
        let under = self.window_map.borrow().get_surface_under((location.0, location.1));
        self.pointer.motion(
            under.as_ref().map(|&(ref s, (x, y))| (s, x, y)),
            serial,
            evt.time(),
        );
    }
    fn on_pointer_move_absolute(&mut self, _: &input::Seat, evt: event::pointer::PointerMotionAbsoluteEvent) {
        let (x, y) = (evt.absolute_x_transformed(self.screen_size.0), evt.absolute_y_transformed(self.screen_size.1));
        *self.pointer_location.borrow_mut() = (x, y);
        let serial = self.next_serial();
        let under = self.window_map.borrow().get_surface_under((x, y));
        self.pointer.motion(
            under.as_ref().map(|&(ref s, (x, y))| (s, x, y)),
            serial,
            evt.time(),
        );
    }
    fn on_pointer_button(&mut self, _: &input::Seat, evt: event::pointer::PointerButtonEvent) {
        let serial = self.next_serial();
        let button = evt.button();
        let state = match evt.state() {
            input::MouseButtonState::Pressed => {
                // change the keyboard focus
                let under = self.window_map
                    .borrow_mut()
                    .get_surface_and_bring_to_top(*self.pointer_location.borrow());
                self.keyboard
                    .set_focus(under.as_ref().map(|&(ref s, _)| s), serial);
                wl_pointer::ButtonState::Pressed
            }
            input::MouseButtonState::Released => wl_pointer::ButtonState::Released,
        };
        self.pointer.button(button, state, serial, evt.time());
    }
    fn on_pointer_axis(&mut self, _: &input::Seat, evt: LibinputPointerAxisEvent) {
        let axis = match evt.axis() {
            input::Axis::Vertical => wayland_server::protocol::wl_pointer::Axis::VerticalScroll,
            input::Axis::Horizontal => wayland_server::protocol::wl_pointer::Axis::HorizontalScroll,
        };
        self.pointer.axis(axis, evt.amount(), evt.time());
    }
    fn on_touch_down(&mut self, _: &input::Seat, _: event::touch::TouchDownEvent) {
        /* not done in this example */
    }
    fn on_touch_motion(&mut self, _: &input::Seat, _: event::touch::TouchMotionEvent) {
        /* not done in this example */
    }
    fn on_touch_up(&mut self, _: &input::Seat, _: event::touch::TouchUpEvent) {
        /* not done in this example */
    }
    fn on_touch_cancel(&mut self, _: &input::Seat, _: event::touch::TouchCancelEvent) {
        /* not done in this example */
    }
    fn on_touch_frame(&mut self, _: &input::Seat, _: event::touch::TouchFrameEvent) {
        /* not done in this example */
    }
    fn on_input_config_changed(&mut self, _: &mut [LibinputDevice]) {
        /* not done in this example */
    }
}

fn main() {
    let active_egl_context = Rc::new(RefCell::new(None));

    // A logger facility, here we use the terminal for this example
    let log = Logger::root(
        slog_term::FullFormat::new(slog_term::PlainSyncDecorator::new(std::io::stdout())).build().fuse(),
        o!(),
    );

    // Initialize the wayland server
    let (mut display, mut event_loop) = wayland_server::create_display();

    /*
     * Add a listening socket
     */
    let name = display.add_socket_auto().unwrap().into_string().unwrap();
    println!("Listening on socket: {}", name);
    let display = Rc::new(display);

    /*
     * Initialize the compositor
     */
    init_shm_global(&mut event_loop, vec![], log.clone());

    let (compositor_token, _shell_state_token, window_map) = init_shell(&mut event_loop, log.clone(), active_egl_context.clone());

    /*
     * Initialize session on the current tty
     */
    let (session, mut notifier) = DirectSession::new(None, log.clone()).unwrap();
    let session = Rc::new(RefCell::new(session));

    let running = Arc::new(AtomicBool::new(true));
    let r = running.clone();
    ctrlc::set_handler(move || {
        r.store(false, Ordering::SeqCst);
    }).expect("Error setting Ctrl-C handler");

    let pointer_location = Rc::new(RefCell::new((0.0, 0.0)));

    /*
     * Initialize the udev backend
     */
    let context = udev::Context::new().unwrap();
    let seat = session.seat();

    let primary_gpu = primary_gpu(&context, &seat).unwrap_or_default();

    let bytes = include_bytes!("resources/cursor2.rgba");
    let udev_token
        = UdevBackend::new(&mut event_loop, &context, session.clone(), UdevHandlerImpl {
            compositor_token,
            active_egl_context,
            backends: HashMap::new(),
            display: display.clone(),
            primary_gpu,
            window_map: window_map.clone(),
            pointer_location: pointer_location.clone(),
            pointer_image: ImageBuffer::from_raw(64, 64, bytes.to_vec()).unwrap(),
            logger: log.clone(),
        }, log.clone()).unwrap();

    let udev_session_id = notifier.register(udev_token.clone());

    let (seat_token, _) = Seat::new(&mut event_loop, session.seat().into(), log.clone());

    let pointer = event_loop.state().get_mut(&seat_token).add_pointer();
    let keyboard = event_loop
        .state()
        .get_mut(&seat_token)
        .add_keyboard("", "", "", None, 1000, 500)
        .expect("Failed to initialize the keyboard");

    let (output_token, _output_global) = Output::new(
        &mut event_loop,
        "Drm".into(),
        PhysicalProperties {
            width: 0,
            height: 0,
            subpixel: wl_output::Subpixel::Unknown,
            maker: "Smithay".into(),
            model: "Generic DRM".into(),
        },
        log.clone(),
    );

    let (w, h) = (1920, 1080); // Hardcode full-hd res
    event_loop
        .state()
        .get_mut(&output_token)
        .change_current_state(
            Some(Mode {
                width: w as i32,
                height: h as i32,
                refresh: 60_000,
            }),
            None,
            None,
        );
    event_loop
        .state()
        .get_mut(&output_token)
        .set_preferred(Mode {
            width: w as i32,
            height: h as i32,
            refresh: 60_000,
        });

    /*
     * Initialize libinput backend
     */
    let mut libinput_context = Libinput::new_from_udev::<LibinputSessionInterface<Rc<RefCell<DirectSession>>>>(session.into(), &context);
    let libinput_session_id = notifier.register(libinput_context.clone());
    libinput_context.udev_assign_seat(&seat).unwrap();
    let mut libinput_backend = LibinputInputBackend::new(libinput_context, log.clone());
    libinput_backend.set_handler(LibinputInputHandler {
        log: log.clone(),
        pointer,
        keyboard,
        window_map: window_map.clone(),
        pointer_location,
        screen_size: (w, h),
        serial: 0,
        running: running.clone(),
    });
    let libinput_event_source = libinput_bind(libinput_backend, &mut event_loop).unwrap();

    let session_event_source = direct_session_bind(notifier, &mut event_loop, log.clone()).unwrap();
    let udev_event_source = udev_backend_bind(&mut event_loop, udev_token).unwrap();

    while running.load(Ordering::SeqCst) {
        if let Err(_) = event_loop.dispatch(Some(16)) {
            running.store(false, Ordering::SeqCst);
        } else {
            display.flush_clients();
            window_map.borrow_mut().refresh();
        }
    }

    println!("Bye Bye");

    let mut notifier = session_event_source.remove();
    notifier.unregister(udev_session_id);
    notifier.unregister(libinput_session_id);

    libinput_event_source.remove();

    let udev_token = udev_event_source.remove();
    let udev = event_loop.state().remove(udev_token);
    udev.close(event_loop.state());
}

struct UdevHandlerImpl {
    compositor_token: CompositorToken<SurfaceData, Roles, Rc<RefCell<Option<EGLDisplay>>>>,
    active_egl_context: Rc<RefCell<Option<EGLDisplay>>>,
    backends: HashMap<u64, Rc<RefCell<HashMap<crtc::Handle, GliumDrawer<DrmBackend<SessionFdDrmDevice>>>>>>,
    display: Rc<Display>,
    primary_gpu: Option<PathBuf>,
    window_map: Rc<RefCell<MyWindowMap>>,
    pointer_location: Rc<RefCell<(f64, f64)>>,
    pointer_image: ImageBuffer<Rgba<u8>, Vec<u8>>,
    logger: ::slog::Logger,
}

impl UdevHandlerImpl {
    pub fn scan_connectors(&self, device: &mut DrmDevice<SessionFdDrmDevice>) -> HashMap<crtc::Handle, GliumDrawer<DrmBackend<SessionFdDrmDevice>>> {
        // Get a set of all modesetting resource handles (excluding planes):
        let res_handles = device.resource_handles().unwrap();

        // Use first connected connector
        let connector_infos: Vec<ConnectorInfo> = res_handles
            .connectors()
            .iter()
            .map(|conn| {
                ConnectorInfo::load_from_device(device, *conn).unwrap()
            })
            .filter(|conn| conn.connection_state() == ConnectorState::Connected)
            .inspect(|conn| info!(self.logger, "Connected: {:?}", conn.connector_type()))
            .collect();

        let mut backends = HashMap::new();

        // very naive way of finding good crtc/encoder/connector combinations. This problem is np-complete
        for connector_info in connector_infos {
            let encoder_infos = connector_info.encoders().iter().flat_map(|encoder_handle| EncoderInfo::load_from_device(device, *encoder_handle)).collect::<Vec<EncoderInfo>>();
            for encoder_info in encoder_infos {
                for crtc in res_handles.filter_crtcs(encoder_info.possible_crtcs()) {
                    if !backends.contains_key(&crtc) {
                        let mode = connector_info.modes()[0]; // Use first mode (usually highest resoltion, but in reality you should filter and sort and check and match with other connectors, if you use more then one.)
                        // create a backend
                        let renderer = GliumDrawer::from(device.create_backend(crtc, mode, vec![connector_info.handle()]).unwrap());

                        // create cursor
                        renderer.set_cursor_representation(&self.pointer_image, (2, 2)).unwrap();

                        // render first frame
                        {
                            let mut frame = renderer.draw();
                            frame.clear_color(0.8, 0.8, 0.9, 1.0);
                            frame.finish().unwrap();
                        }

                        backends.insert(crtc, renderer);
                        break;
                    }
                }
            }
        }

        backends
    }
}

impl UdevHandler<DrmHandlerImpl> for UdevHandlerImpl {
    fn device_added<'a, S: Into<StateProxy<'a>>>(&mut self, _state: S, device: &mut DrmDevice<SessionFdDrmDevice>) -> Option<DrmHandlerImpl>
    {
        // init hardware acceleration on the primary gpu.
        if device.dev_path().and_then(|path| path.canonicalize().ok()) == self.primary_gpu {
            *self.active_egl_context.borrow_mut() = device.bind_wl_display(&*self.display).ok();
        }

        let backends = Rc::new(RefCell::new(self.scan_connectors(device)));
        self.backends.insert(device.device_id(), backends.clone());

        Some(DrmHandlerImpl {
            compositor_token: self.compositor_token.clone(),
            backends,
            window_map: self.window_map.clone(),
            pointer_location: self.pointer_location.clone(),
            logger: self.logger.clone(),
        })
    }

    fn device_changed<'a, S: Into<StateProxy<'a>>>(&mut self, state: S, device: &StateToken<DrmDevice<SessionFdDrmDevice>>) {
        //quick and dirt, just re-init all backends
        let mut state = state.into();
        let backends = self.backends.get(&state.get(device).device_id()).unwrap();
        *backends.borrow_mut() = self.scan_connectors(state.get_mut(device));
    }

    fn device_removed<'a, S: Into<StateProxy<'a>>>(&mut self, state: S, device: &StateToken<DrmDevice<SessionFdDrmDevice>>) {
        let state = state.into();
        let device = state.get(device);

        // drop the backends on this side
        self.backends.remove(&device.device_id());

        // don't use hardware acceleration anymore, if this was the primary gpu
        if device.dev_path().and_then(|path| path.canonicalize().ok()) == self.primary_gpu {
            *self.active_egl_context.borrow_mut() = None;
        }
    }

    fn error<'a, S: Into<StateProxy<'a>>>(&mut self, _state: S, error: IoError) {
        error!(self.logger, "{:?}", error);
    }
}

pub struct DrmHandlerImpl {
    compositor_token: CompositorToken<SurfaceData, Roles, Rc<RefCell<Option<EGLDisplay>>>>,
    backends: Rc<RefCell<HashMap<crtc::Handle, GliumDrawer<DrmBackend<SessionFdDrmDevice>>>>>,
    window_map: Rc<RefCell<MyWindowMap>>,
    pointer_location: Rc<RefCell<(f64, f64)>>,
    logger: ::slog::Logger,
}

impl DrmHandler<SessionFdDrmDevice> for DrmHandlerImpl {
    fn ready(&mut self, _device: &mut DrmDevice<SessionFdDrmDevice>, crtc: crtc::Handle, _frame: u32, _duration: Duration) {
        if let Some(drawer) = self.backends.borrow().get(&crtc) {
            {
                let (x, y) = *self.pointer_location.borrow();
                let _ = drawer.set_cursor_position(x.trunc().abs() as u32, y.trunc().abs() as u32);
            }
            let mut frame = drawer.draw();
            frame.clear_color(0.8, 0.8, 0.9, 1.0);
            // redraw the frame, in a simple but inneficient way
            {
                let screen_dimensions = drawer.get_framebuffer_dimensions();
                self.window_map
                .borrow()
                .with_windows_from_bottom_to_top(|toplevel_surface, initial_place| {
                    if let Some(wl_surface) = toplevel_surface.get_surface() {
                        // this surface is a root of a subsurface tree that needs to be drawn
                        self.compositor_token
                            .with_surface_tree_upward(
                                wl_surface,
                                initial_place,
                                |_surface, attributes, role, &(mut x, mut y)| {
                                    // there is actually something to draw !
                                    if attributes.user_data.texture.is_none() {
                                        let mut remove = false;
                                        match attributes.user_data.buffer {
                                            Some(Buffer::Egl { ref images }) => {
                                                match images.format {
                                                    Format::RGB | Format::RGBA => {
                                                        attributes.user_data.texture = drawer.texture_from_egl(&images);
                                                    },
                                                    _ => {
                                                        // we don't handle the more complex formats here.
                                                        attributes.user_data.texture = None;
                                                        remove = true;
                                                    },
                                                };
                                            },
                                            Some(Buffer::Shm { ref data, ref size }) => {
                                                attributes.user_data.texture = Some(drawer.texture_from_mem(data, *size));
                                            },
                                            _ => {},
                                        }
                                        if remove {
                                            attributes.user_data.buffer = None;
                                        }
                                    }

                                    if let Some(ref texture) = attributes.user_data.texture {
                                        if let Ok(subdata) = Role::<SubsurfaceRole>::data(role) {
                                            x += subdata.x;
                                            y += subdata.y;
                                        }
                                        info!(self.logger, "Render window");
                                        drawer.render_texture(
                                            &mut frame,
                                            texture,
                                            match *attributes.user_data.buffer.as_ref().unwrap() {
                                                Buffer::Egl { ref images } => images.y_inverted,
                                                Buffer::Shm { .. } => false,
                                            },
                                            match *attributes.user_data.buffer.as_ref().unwrap() {
                                                Buffer::Egl { ref images } => (images.width, images.height),
                                                Buffer::Shm { ref size, .. } => *size,
                                            },
                                            (x, y),
                                            screen_dimensions,
                                            Blend::alpha_blending(),
                                        );
                                        TraversalAction::DoChildren((x, y))
                                    } else {
                                        // we are not display, so our children are neither
                                        TraversalAction::SkipChildren
                                    }
                                },
                            )
                            .unwrap();
                    }
                });
            }
            if let Err(err) = frame.finish() {
                error!(self.logger, "Error during rendering: {:?}", err);
            }
        }
    }

    fn error(&mut self, _device: &mut DrmDevice<SessionFdDrmDevice>,
             error: DrmError) {
        error!(self.logger, "{:?}", error);
    }
}