// SPDX-License-Identifier: GPL-3.0-only #[cfg(feature = "debug")] use crate::state::Fps; use crate::{ backend::render, state::{BackendData, Common, State}, utils::GlobalDrop, }; use anyhow::{Context, Result}; use smithay::{ backend::{ allocator::{gbm::GbmDevice, Format}, drm::{DrmDevice, DrmEvent, DrmEventTime, DrmNode, GbmBufferedSurface, NodeType}, egl::{EGLContext, EGLDevice, EGLDisplay}, libinput::{LibinputInputBackend, LibinputSessionInterface}, renderer::{ multigpu::{egl::EglGlesBackend, GpuManager}, Bind, }, session::{auto::AutoSession, Session, Signal}, udev::{all_gpus, primary_gpu, UdevBackend, UdevEvent}, }, reexports::{ calloop::{ timer::{Timer, TimerHandle}, Dispatcher, EventLoop, LoopHandle, RegistrationToken, }, drm::control::{connector, crtc, Device as ControlDevice}, input::Libinput, nix::{fcntl::OFlag, sys::stat::dev_t}, wayland_server::{protocol::wl_output, Display}, }, utils::signaling::{Linkable, Signaler}, wayland::output::{Mode as OutputMode, Output, PhysicalProperties}, }; use std::{ cell::RefCell, collections::{HashMap, HashSet}, path::PathBuf, rc::Rc, time::{Duration, Instant, SystemTime}, }; mod drm_helpers; mod session_fd; use session_fd::*; pub struct KmsState { devices: HashMap, api: GpuManager, primary: DrmNode, session: AutoSession, signaler: Signaler, tokens: Vec, } pub struct Device { render_node: DrmNode, surfaces: HashMap, allocator: Rc>>, drm: Dispatcher<'static, DrmDevice, State>, formats: HashSet, supports_atomic: bool, event_token: Option, } pub struct Surface { surface: GbmBufferedSurface>>, SessionFd>, output: Output, _global: GlobalDrop, last_submit: Option, refresh_rate: u32, vrr: bool, pending: bool, render_timer: TimerHandle<(DrmNode, crtc::Handle)>, render_timer_token: Option, #[cfg(feature = "debug")] fps: Fps, } pub fn init_backend(event_loop: &mut EventLoop, state: &mut State) -> Result<()> { let (session, notifier) = AutoSession::new(None).context("Failed to acquire session")?; let signaler = notifier.signaler(); let udev_backend = UdevBackend::new(session.seat(), None)?; let mut libinput_context = Libinput::new_with_udev::>(session.clone().into()); libinput_context .udev_assign_seat(&session.seat()) .map_err(|_| anyhow::anyhow!("Failed to assign seat to libinput"))?; let mut libinput_backend = LibinputInputBackend::new(libinput_context, None); libinput_backend.link(signaler.clone()); let libinput_event_source = event_loop .handle() .insert_source(libinput_backend, move |event, _, state| { state.common.process_input_event(event); for output in state.common.spaces.outputs() { state.backend.kms().schedule_render(output); } }) .map_err(|err| err.error) .context("Failed to initialize libinput event source")?; let session_event_source = event_loop .handle() .insert_source(notifier, |(), &mut (), _state| {}) .map_err(|err| err.error) .context("Failed to initialize session event source")?; let api = GpuManager::new(EglGlesBackend, None).context("Failed to initialize renderers")?; // TODO get this info from system76-power, if available and setup a watcher let primary = if let Some(path) = std::env::var("COSMIC_RENDER_DEVICE") .ok() .and_then(|x| DrmNode::from_path(x).ok()) { path } else { primary_gpu(session.seat()) .ok() .flatten() .and_then(|x| DrmNode::from_path(x).ok()) .and_then(|x| x.node_with_type(NodeType::Render).and_then(Result::ok)) .unwrap_or_else(|| { for dev in all_gpus(session.seat()).expect("No GPU found") { if let Some(node) = DrmNode::from_path(dev) .ok() .and_then(|x| x.node_with_type(NodeType::Render).and_then(Result::ok)) { return node; } } panic!("Failed to initialize any GPU"); }) }; slog_scope::info!("Using {} as primary gpu for rendering", primary); state.backend = BackendData::Kms(KmsState { api, tokens: vec![libinput_event_source, session_event_source], primary, session, signaler, devices: HashMap::new(), }); for (dev, path) in udev_backend.device_list() { state .device_added(dev, path.into()) .with_context(|| format!("Failed to add drm device: {}", path.display()))?; } let udev_event_source = event_loop .handle() .insert_source(udev_backend, move |event, _, state| { match match event { UdevEvent::Added { device_id, path } => state .device_added(device_id, path) .with_context(|| format!("Failed to add drm device: {}", device_id)), UdevEvent::Changed { device_id } => state .device_changed(device_id) .with_context(|| format!("Failed to update drm device: {}", device_id)), UdevEvent::Removed { device_id } => state .device_removed(device_id) .with_context(|| format!("Failed to remove drm device: {}", device_id)), } { Ok(()) => { slog_scope::debug!("Successfully handled udev event") } Err(err) => { slog_scope::error!("Error while handling udev event: {}", err) } } }) .unwrap(); state.backend.kms().tokens.push(udev_event_source); Ok(()) } impl State { fn device_added(&mut self, dev: dev_t, path: PathBuf) -> Result<()> { let fd = SessionFd::new( self.backend .kms() .session .open( &path, OFlag::O_RDWR | OFlag::O_CLOEXEC | OFlag::O_NOCTTY | OFlag::O_NONBLOCK, ) .with_context(|| { format!( "Failed to optain file descriptor for drm device: {}", path.display() ) })?, ); let mut drm = DrmDevice::new(fd.clone(), false, None) .with_context(|| format!("Failed to initialize drm device for: {}", path.display()))?; let drm_node = DrmNode::from_dev_id(dev)?; let supports_atomic = drm.is_atomic(); let gbm = GbmDevice::new(fd) .with_context(|| format!("Failed to initialize GBM device for {}", path.display()))?; let egl_display = EGLDisplay::new(&gbm, None).with_context(|| { format!("Failed to create EGLDisplay for device: {}", path.display()) })?; let egl_device = EGLDevice::device_for_display(&egl_display).with_context(|| { format!("Unable to find matching egl device for {}", path.display()) })?; let render_node = egl_device .try_get_render_node() .ok() .and_then(std::convert::identity) .with_context(|| { format!( "Failed to determine path of egl device for {}", path.display() ) })?; let egl_context = EGLContext::new(&egl_display, None).with_context(|| { format!( "Failed to create EGLContext for device {:?}:{}", egl_device, path.display() ) })?; let formats = egl_context.dmabuf_render_formats().clone(); drm.link(self.backend.kms().signaler.clone()); let dispatcher = Dispatcher::new(drm, move |event, metadata, state: &mut State| match event { DrmEvent::VBlank(crtc) => { if let Some(device) = state.backend.kms().devices.get_mut(&drm_node) { if let Some(surface) = device.surfaces.get_mut(&crtc) { match surface.surface.frame_submitted() { Ok(_) => { surface.last_submit = metadata.take().map(|data| data.time); surface.pending = false; state .common .spaces .active_space_mut(&surface.output) .send_frames( state.common.start_time.elapsed().as_millis() as u32, ); } Err(err) => slog_scope::warn!("Failed to submit frame: {}", err), }; } } } DrmEvent::Error(err) => { slog_scope::warn!("Failed to read events of device {:?}: {}", dev, err); } }); let token = self .common .event_loop_handle .register_dispatcher(dispatcher.clone()) .with_context(|| format!("Failed to add drm device to event loop: {}", dev))?; let mut device = Device { render_node, surfaces: HashMap::new(), allocator: Rc::new(RefCell::new(gbm)), drm: dispatcher, formats, supports_atomic, event_token: Some(token), }; let outputs = device.enumerate_surfaces()?.added; // There are no removed outputs on newly added devices for (crtc, conn) in outputs { match device.setup_surface( &drm_node, crtc, conn, self.backend.kms().signaler.clone(), &mut self.common.display.borrow_mut(), &mut self.common.event_loop_handle, ) { Ok(output) => self.common.spaces.map_output(&output), Err(err) => slog_scope::warn!("Failed to initialize output: {}", err), }; } self.backend.kms().devices.insert(drm_node, device); Ok(()) } fn device_changed(&mut self, dev: dev_t) -> Result<()> { let drm_node = DrmNode::from_dev_id(dev)?; let signaler = self.backend.kms().signaler.clone(); if let Some(device) = self.backend.kms().devices.get_mut(&drm_node) { let changes = device.enumerate_surfaces()?; for crtc in changes.removed { if let Some(surface) = device.surfaces.get_mut(&crtc) { if let Some(token) = surface.render_timer_token.take() { self.common.event_loop_handle.remove(token); } self.common.spaces.unmap_output(&surface.output); } } for (crtc, conn) in changes.added { match device.setup_surface( &drm_node, crtc, conn, signaler.clone(), &mut self.common.display.borrow_mut(), &mut self.common.event_loop_handle, ) { Ok(output) => self.common.spaces.map_output(&output), Err(err) => slog_scope::warn!("Failed to initialize output: {}", err), }; } } Ok(()) } fn device_removed(&mut self, dev: dev_t) -> Result<()> { let drm_node = DrmNode::from_dev_id(dev)?; if let Some(device) = self.backend.kms().devices.get_mut(&drm_node) { for surface in device.surfaces.values_mut() { if let Some(token) = surface.render_timer_token.take() { self.common.event_loop_handle.remove(token); } self.common.spaces.unmap_output(&surface.output); } if let Some(token) = device.event_token.take() { self.common.event_loop_handle.remove(token); } } Ok(()) } } pub struct OutputChanges { pub added: Vec<(crtc::Handle, connector::Handle)>, pub removed: Vec, } impl Device { pub fn enumerate_surfaces(&mut self) -> Result { let drm = &mut *self.drm.as_source_mut(); // enumerate our outputs let config = drm_helpers::display_configuration(drm, self.supports_atomic)?; let surfaces = self .surfaces .iter() .map(|(c, s)| (*c, s.surface.current_connectors().into_iter().next())) .collect::>>(); let added = config .iter() .filter(|(conn, crtc)| { surfaces .get(&crtc) .map(|c| c.as_ref() != Some(*conn)) .unwrap_or(true) }) .map(|(conn, crtc)| (crtc, conn)) .map(|(crtc, conn)| (*crtc, *conn)) .collect::>(); let removed = surfaces .iter() .filter(|(crtc, conn)| { if let Some(conn) = conn { config.get(conn).map(|c| c != *crtc).unwrap_or(true) } else { true } }) .map(|(crtc, _)| *crtc) .collect::>(); Ok(OutputChanges { added, removed }) } fn setup_surface( &mut self, drm_node: &DrmNode, crtc: crtc::Handle, conn: connector::Handle, signaler: Signaler, display: &mut Display, loop_handle: &mut LoopHandle<'static, State>, ) -> Result { let drm = &mut *self.drm.as_source_mut(); let crtc_info = drm.get_crtc(crtc)?; let conn_info = drm.get_connector(conn)?; let vrr = drm_helpers::set_vrr(drm, crtc, conn, true).unwrap_or(false); let interface = drm_helpers::interface_name(drm, conn)?; let edid_info = drm_helpers::edid_info(drm, conn)?; let mode = crtc_info.mode().unwrap_or(conn_info.modes()[0]); let mut surface = drm.create_surface(crtc, mode, &[conn])?; surface.link(signaler); let target = GbmBufferedSurface::new(surface, self.allocator.clone(), self.formats.clone(), None) .with_context(|| format!("Failed to initialize Gbm surface for {}", interface))?; //let is_nvidia = driver(drm.device_id()).ok().flatten().map(|x| x == "nvidia").unwrap_or(false); let output_mode = OutputMode { size: (mode.size().0 as i32, mode.size().1 as i32).into(), refresh: (mode.vrefresh() * 1000) as i32, }; let (phys_w, phys_h) = conn_info.size().unwrap_or((0, 0)); let (output, output_global) = Output::new( display, interface, PhysicalProperties { size: (phys_w as i32, phys_h as i32).into(), // TODO: We need to read that from the connector properties subpixel: wl_output::Subpixel::Unknown, make: edid_info.manufacturer, model: edid_info.model, }, None, ); output.set_preferred(output_mode.clone()); output.change_current_state( Some(output_mode), // TODO: Readout property for monitor rotation Some(wl_output::Transform::Normal), None, None, ); let timer = Timer::new()?; let timer_handle = timer.handle(); // render timer let timer_token = loop_handle .insert_source(timer, |(dev_id, crtc), _, state| { let backend = state.backend.kms(); if let Some(device) = backend.devices.get_mut(&dev_id) { if let Some(surface) = device.surfaces.get_mut(&crtc) { if let Err(err) = surface.render_output(&mut backend.api, &backend.primary, &device.render_node, &mut state.common) { slog_scope::error!("Error rendering: {}", err); // TODO re-schedule? } } } }) .unwrap(); timer_handle.add_timeout(Duration::ZERO, (*drm_node, crtc)); let data = Surface { output: output.clone(), _global: output_global.into(), surface: target, vrr, refresh_rate: drm_helpers::calculate_refresh_rate(mode), last_submit: None, pending: true, render_timer: timer_handle, render_timer_token: Some(timer_token), #[cfg(feature = "debug")] fps: Fps::default(), }; self.surfaces.insert(crtc, data); Ok(output) } } impl Surface { pub fn render_output( &mut self, api: &mut GpuManager, render_node: &DrmNode, target_node: &DrmNode, state: &mut Common, ) -> Result<()> { let mut renderer = api .renderer(render_node, target_node) .unwrap(); let (buffer, age) = self .surface .next_buffer() .with_context(|| "Failed to allocate buffer")?; renderer .bind(buffer) .with_context(|| "Failed to bind buffer")?; match render::render_output( Some(&render_node), &mut renderer, age, state, &self.output, false, #[cfg(feature = "debug")] &mut self.fps, ) { Ok(_) => { self.surface .queue_buffer() .with_context(|| "Failed to submit buffer for display")?; } Err(err) => { self.surface.reset_buffers(); anyhow::bail!("Rendering failed: {}", err); } }; Ok(()) } } impl KmsState { pub fn schedule_render(&mut self, output: &Output) { if let Some((device, surface)) = self .devices .iter_mut() .flat_map(|(node, d)| d.surfaces.values_mut().map(move |s| (node, s))) .find(|(_, s)| s.output == *output) { if !surface.pending { surface.pending = true; let duration = surface .last_submit .as_ref() .and_then(|x| match x { DrmEventTime::Monotonic(instant) => { instant.checked_duration_since(Instant::now()) } DrmEventTime::Realtime(time) => time.duration_since(SystemTime::now()).ok(), }) .unwrap_or(Duration::ZERO); // + Duration::from_secs_f64((1.0 / surface.refresh_rate as f64) - 20.0); let data = (*device, surface.surface.crtc()); if surface.vrr { surface.render_timer.add_timeout(Duration::ZERO, data); } else { surface.render_timer.add_timeout(duration, data); } } } } }