Merge pull request #437 from i509VCB/x11/fix-error-drop

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Victoria Brekenfeld 2021-12-21 02:18:59 +01:00 committed by GitHub
commit 0afebf5fdb
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5 changed files with 278 additions and 303 deletions

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@ -73,6 +73,7 @@
- EGLBufferReader now checks if buffers are alive before using them.
- LibSeat no longer panics on seat disable event.
- X11 backend will report an error when trying to present a dmabuf fails.
### Anvil

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@ -29,54 +29,23 @@
use std::sync::atomic::Ordering;
use super::{Window, X11Error};
use super::{PresentError, Window, X11Error};
use drm_fourcc::DrmFourcc;
use nix::fcntl;
use x11rb::connection::Connection;
use x11rb::protocol::dri3::ConnectionExt as _;
use x11rb::protocol::present::{self, ConnectionExt};
use x11rb::protocol::xproto::PixmapWrapper;
use x11rb::rust_connection::{ConnectionError, ReplyOrIdError};
use x11rb::utils::RawFdContainer;
use x11rb::{
connection::Connection,
protocol::{
dri3::ConnectionExt as _,
present::{self, ConnectionExt},
xproto::PixmapWrapper,
},
utils::RawFdContainer,
};
use crate::backend::allocator::dmabuf::Dmabuf;
use crate::backend::allocator::Buffer;
use crate::backend::allocator::{dmabuf::Dmabuf, Buffer};
// Shm can be easily supported in the future using, xcb_shm_create_pixmap.
#[derive(Debug, thiserror::Error)]
pub enum CreatePixmapError {
#[error("An x11 protocol error occured")]
Protocol(X11Error),
#[error("The Dmabuf had too many planes")]
TooManyPlanes,
#[error("Duplicating the file descriptors for the dmabuf handles failed")]
DupFailed(String),
#[error("Buffer had incorrect format, expected: {0}")]
IncorrectFormat(DrmFourcc),
}
impl From<X11Error> for CreatePixmapError {
fn from(e: X11Error) -> Self {
CreatePixmapError::Protocol(e)
}
}
impl From<ReplyOrIdError> for CreatePixmapError {
fn from(e: ReplyOrIdError) -> Self {
X11Error::from(e).into()
}
}
impl From<ConnectionError> for CreatePixmapError {
fn from(e: ConnectionError) -> Self {
X11Error::from(e).into()
}
}
pub trait PixmapWrapperExt<'c, C>
where
C: Connection,
@ -88,7 +57,7 @@ where
connection: &'c C,
window: &Window,
dmabuf: &Dmabuf,
) -> Result<PixmapWrapper<'c, C>, CreatePixmapError>;
) -> Result<PixmapWrapper<'c, C>, X11Error>;
/// Presents the pixmap to the window.
///
@ -108,9 +77,9 @@ where
connection: &'c C,
window: &Window,
dmabuf: &Dmabuf,
) -> Result<PixmapWrapper<'c, C>, CreatePixmapError> {
) -> Result<PixmapWrapper<'c, C>, X11Error> {
if dmabuf.format().code != window.format() {
return Err(CreatePixmapError::IncorrectFormat(window.format()));
return Err(PresentError::IncorrectFormat(window.format()).into());
}
let mut fds = Vec::new();
@ -121,7 +90,7 @@ where
handle,
fcntl::FcntlArg::F_DUPFD_CLOEXEC(3), // Set to 3 so the fd cannot become stdin, stdout or stderr
)
.map_err(|e| CreatePixmapError::DupFailed(e.to_string()))?;
.map_err(|e| PresentError::DupFailed(e.to_string()))?;
fds.push(RawFdContainer::new(fd))
}
@ -129,7 +98,7 @@ where
// We need dri3 >= 1.2 in order to use the enhanced dri3_pixmap_from_buffers function.
let xid = if window.0.extensions.dri3 >= Some((1, 2)) {
if dmabuf.num_planes() > 4 {
return Err(CreatePixmapError::TooManyPlanes);
return Err(PresentError::TooManyPlanes.into());
}
let xid = connection.generate_id()?;
@ -165,7 +134,7 @@ where
} else {
// Old codepath can only create a pixmap using one plane from a dmabuf.
if dmabuf.num_planes() != 1 {
return Err(CreatePixmapError::TooManyPlanes);
return Err(PresentError::TooManyPlanes.into());
}
let xid = connection.generate_id()?;

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@ -6,24 +6,26 @@ use x11rb::rust_connection::{ConnectError, ConnectionError, ReplyError, ReplyOrI
use crate::backend::{allocator::gbm::GbmConvertError, drm::CreateDrmNodeError};
use super::PresentError;
/// An error emitted by the X11 backend during setup.
#[derive(Debug, thiserror::Error)]
pub enum X11Error {
/// Connecting to the X server failed.
#[error("Connecting to the X server failed")]
ConnectionFailed(ConnectError),
ConnectionFailed(#[from] ConnectError),
/// A required X11 extension was not present or has the right version.
#[error("{0}")]
MissingExtension(MissingExtensionError),
MissingExtension(#[from] MissingExtensionError),
/// Some protocol error occurred during setup.
#[error("Some protocol error occurred during setup")]
Protocol(ReplyOrIdError),
Protocol(#[from] ReplyOrIdError),
/// Creating the window failed.
#[error("Creating the window failed")]
CreateWindow(CreateWindowError),
CreateWindow(#[from] CreateWindowError),
/// An X11 surface already exists for this window.
#[error("An X11 surface already exists for this window")]
@ -42,13 +44,11 @@ pub enum X11Error {
/// Failed to allocate buffers needed to present to the window.
#[error("Failed to allocate buffers needed to present to the window")]
Allocation(AllocateBuffersError),
}
Allocation(#[from] AllocateBuffersError),
impl From<ConnectError> for X11Error {
fn from(err: ConnectError) -> Self {
Self::ConnectionFailed(err)
}
/// Error while presenting to a window.
#[error(transparent)]
Present(#[from] PresentError),
}
impl From<ReplyError> for X11Error {
@ -63,12 +63,6 @@ impl From<ConnectionError> for X11Error {
}
}
impl From<ReplyOrIdError> for X11Error {
fn from(err: ReplyOrIdError) -> Self {
Self::Protocol(err)
}
}
/// An error that occurs when a required X11 extension is not present.
#[derive(Debug, thiserror::Error)]
pub enum MissingExtensionError {
@ -99,12 +93,6 @@ pub enum MissingExtensionError {
},
}
impl From<MissingExtensionError> for X11Error {
fn from(err: MissingExtensionError) -> Self {
Self::MissingExtension(err)
}
}
/// An error which may occur when creating an X11 window.
#[derive(Debug, thiserror::Error)]
pub enum CreateWindowError {
@ -117,12 +105,6 @@ pub enum CreateWindowError {
NoVisual,
}
impl From<CreateWindowError> for X11Error {
fn from(err: CreateWindowError) -> Self {
Self::CreateWindow(err)
}
}
/// An error which may occur when allocating buffers for presentation to the window.
#[derive(Debug, thiserror::Error)]
pub enum AllocateBuffersError {
@ -165,9 +147,3 @@ impl From<CreateDrmNodeError> for AllocateBuffersError {
}
}
}
impl From<AllocateBuffersError> for X11Error {
fn from(err: AllocateBuffersError) -> Self {
Self::Allocation(err)
}
}

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@ -79,15 +79,12 @@ mod error;
#[macro_use]
mod extension;
mod input;
mod surface;
mod window_inner;
use self::{buffer::PixmapWrapperExt, window_inner::WindowInner};
use crate::{
backend::{
allocator::{
dmabuf::{AsDmabuf, Dmabuf},
Slot, Swapchain,
},
allocator::Swapchain,
drm::{node::path_to_type, CreateDrmNodeError, DrmNode, NodeType},
egl::{native::X11DefaultDisplay, EGLDevice, EGLDisplay, Error as EGLError},
input::{Axis, ButtonState, InputEvent, KeyState},
@ -96,7 +93,6 @@ use crate::{
};
use calloop::{EventSource, Poll, PostAction, Readiness, Token, TokenFactory};
use drm_fourcc::{DrmFourcc, DrmModifier};
use gbm::BufferObject;
use nix::{
fcntl::{self, OFlag},
sys::stat::Mode,
@ -104,12 +100,11 @@ use nix::{
use slog::{error, info, o, Logger};
use std::{
collections::HashMap,
io, mem,
io,
os::unix::prelude::AsRawFd,
sync::{
atomic::{AtomicU32, Ordering},
mpsc::{self, Receiver},
Arc, Mutex, MutexGuard, Weak,
mpsc, Arc, Mutex, Weak,
},
};
use x11rb::{
@ -118,18 +113,17 @@ use x11rb::{
protocol::{
self as x11,
dri3::ConnectionExt as _,
xproto::{
ColormapAlloc, ConnectionExt, CreateWindowAux, PixmapWrapper, VisualClass, WindowClass,
WindowWrapper,
},
xproto::{ColormapAlloc, ConnectionExt, CreateWindowAux, VisualClass, WindowClass, WindowWrapper},
ErrorKind,
},
rust_connection::{ReplyError, RustConnection},
};
use self::{extension::Extensions, window_inner::WindowInner};
pub use self::error::*;
use self::extension::Extensions;
pub use self::input::*;
pub use self::surface::*;
/// An event emitted by the X11 backend.
#[derive(Debug)]
@ -161,16 +155,6 @@ pub struct X11Backend {
inner: Arc<Mutex<X11Inner>>,
}
atom_manager! {
pub(crate) Atoms: AtomCollectionCookie {
WM_PROTOCOLS,
WM_DELETE_WINDOW,
_NET_WM_NAME,
UTF8_STRING,
_SMITHAY_X11_BACKEND_CLOSE,
}
}
impl X11Backend {
/// Initializes the X11 backend by connecting to the X server.
pub fn new<L>(logger: L) -> Result<X11Backend, X11Error>
@ -277,19 +261,6 @@ impl X11Backend {
}
}
/// An X11 surface which uses GBM to allocate and present buffers.
#[derive(Debug)]
pub struct X11Surface {
connection: Weak<RustConnection>,
window: Weak<WindowInner>,
resize: Receiver<Size<u16, Logical>>,
swapchain: Swapchain<Arc<Mutex<gbm::Device<DrmNode>>>, BufferObject<()>>,
format: DrmFourcc,
width: u16,
height: u16,
buffer: Option<Slot<BufferObject<()>>>,
}
#[derive(Debug, thiserror::Error)]
enum EGLInitError {
#[error(transparent)]
@ -298,81 +269,6 @@ enum EGLInitError {
IO(#[from] io::Error),
}
fn egl_init(_: &X11Inner) -> Result<DrmNode, EGLInitError> {
let display = EGLDisplay::new(&X11DefaultDisplay, None)?;
let device = EGLDevice::device_for_display(&display)?;
let path = path_to_type(device.drm_device_path()?, NodeType::Render)?;
fcntl::open(&path, OFlag::O_RDWR | OFlag::O_CLOEXEC, Mode::empty())
.map_err(Into::<io::Error>::into)
.and_then(|fd| {
DrmNode::from_fd(fd).map_err(|err| match err {
CreateDrmNodeError::Io(err) => err,
_ => unreachable!(),
})
})
.map_err(EGLInitError::IO)
}
fn dri3_init(x11: &X11Inner) -> Result<DrmNode, X11Error> {
let connection = &x11.connection;
// Determine which drm-device the Display is using.
let screen = &connection.setup().roots[x11.screen_number];
// provider being NONE tells the X server to use the RandR provider.
let dri3 = match connection.dri3_open(screen.root, x11rb::NONE)?.reply() {
Ok(reply) => reply,
Err(err) => {
return Err(if let ReplyError::X11Error(ref protocol_error) = err {
match protocol_error.error_kind {
// Implementation is risen when the renderer is not capable of X server is not capable
// of rendering at all.
ErrorKind::Implementation => X11Error::CannotDirectRender,
// Match may occur when the node cannot be authenticated for the client.
ErrorKind::Match => X11Error::CannotDirectRender,
_ => err.into(),
}
} else {
err.into()
});
}
};
// Take ownership of the container's inner value so we do not need to duplicate the fd.
// This is fine because the X server will always open a new file descriptor.
let drm_device_fd = dri3.device_fd.into_raw_fd();
let fd_flags =
fcntl::fcntl(drm_device_fd.as_raw_fd(), fcntl::F_GETFD).map_err(AllocateBuffersError::from)?;
// Enable the close-on-exec flag.
fcntl::fcntl(
drm_device_fd,
fcntl::F_SETFD(fcntl::FdFlag::from_bits_truncate(fd_flags) | fcntl::FdFlag::FD_CLOEXEC),
)
.map_err(AllocateBuffersError::from)?;
let drm_node = DrmNode::from_fd(drm_device_fd).map_err(Into::<AllocateBuffersError>::into)?;
if drm_node.ty() != NodeType::Render && drm_node.has_render() {
// Try to get the render node.
if let Some(path) = drm_node.dev_path_with_type(NodeType::Render) {
return Ok(fcntl::open(&path, OFlag::O_RDWR | OFlag::O_CLOEXEC, Mode::empty())
.map_err(Into::<std::io::Error>::into)
.map_err(CreateDrmNodeError::Io)
.and_then(DrmNode::from_fd)
.unwrap_or_else(|err| {
slog::warn!(&x11.log, "Could not create render node from existing DRM node ({}), falling back to primary node", err);
drm_node
}));
}
}
slog::warn!(
&x11.log,
"DRM Device does not have a render node, falling back to primary node"
);
Ok(drm_node)
}
/// A handle to the X11 backend.
///
/// This is the primary object used to interface with the backend.
@ -482,115 +378,6 @@ impl X11Handle {
}
}
impl X11Surface {
/// Returns the window the surface presents to.
///
/// This will return [`None`] if the window has been destroyed.
pub fn window(&self) -> Option<impl AsRef<Window> + '_> {
let window = self.window.upgrade().map(Window).map(WindowTemporary);
struct WindowTemporary(Window);
impl AsRef<Window> for WindowTemporary {
fn as_ref(&self) -> &Window {
&self.0
}
}
window
}
/// Returns a handle to the GBM device used to allocate buffers.
pub fn device(&self) -> MutexGuard<'_, gbm::Device<DrmNode>> {
self.swapchain.allocator.lock().unwrap()
}
/// Returns the format of the buffers the surface accepts.
pub fn format(&self) -> DrmFourcc {
self.format
}
/// Returns the next buffer that will be presented to the Window and its age.
///
/// You may bind this buffer to a renderer to render.
/// This function will return the same buffer until [`submit`](Self::submit) is called
/// or [`reset_buffers`](Self::reset_buffer) is used to reset the buffers.
pub fn buffer(&mut self) -> Result<(Dmabuf, u8), AllocateBuffersError> {
if let Some(new_size) = self.resize.try_iter().last() {
self.resize(new_size)?;
}
if self.buffer.is_none() {
self.buffer = Some(
self.swapchain
.acquire()
.map_err(Into::<AllocateBuffersError>::into)?
.ok_or(AllocateBuffersError::NoFreeSlots)?,
);
}
let slot = self.buffer.as_ref().unwrap();
let age = slot.age();
match slot.userdata().get::<Dmabuf>() {
Some(dmabuf) => Ok((dmabuf.clone(), age)),
None => {
let dmabuf = slot.export().map_err(Into::<AllocateBuffersError>::into)?;
slot.userdata().insert_if_missing(|| dmabuf.clone());
Ok((dmabuf, age))
}
}
}
/// Consume and submit the buffer to the window.
pub fn submit(&mut self) -> Result<(), AllocateBuffersError> {
if let Some(connection) = self.connection.upgrade() {
// Get a new buffer
let mut next = self
.swapchain
.acquire()
.map_err(Into::<AllocateBuffersError>::into)?
.ok_or(AllocateBuffersError::NoFreeSlots)?;
// Swap the buffers
if let Some(current) = self.buffer.as_mut() {
mem::swap(&mut next, current);
}
let window = self.window().ok_or(AllocateBuffersError::WindowDestroyed)?;
if let Ok(pixmap) = PixmapWrapper::with_dmabuf(
&*connection,
window.as_ref(),
next.userdata().get::<Dmabuf>().unwrap(),
) {
// Now present the current buffer
let _ = pixmap.present(&*connection, window.as_ref());
}
self.swapchain.submitted(next);
// Flush the connection after presenting to the window to ensure we don't run out of buffer space in the X11 connection.
let _ = connection.flush();
}
Ok(())
}
/// Resets the internal buffers, e.g. to reset age values
pub fn reset_buffers(&mut self) {
self.swapchain.reset_buffers();
self.buffer = None;
}
fn resize(&mut self, size: Size<u16, Logical>) -> Result<(), AllocateBuffersError> {
self.swapchain.resize(size.w as u32, size.h as u32);
self.buffer = None;
self.width = size.w;
self.height = size.h;
Ok(())
}
}
/// Builder used to construct a window.
#[derive(Debug)]
pub struct WindowBuilder<'a> {
@ -755,6 +542,16 @@ impl EventSource for X11Backend {
}
}
atom_manager! {
pub(crate) Atoms: AtomCollectionCookie {
WM_PROTOCOLS,
WM_DELETE_WINDOW,
_NET_WM_NAME,
UTF8_STRING,
_SMITHAY_X11_BACKEND_CLOSE,
}
}
#[derive(Debug)]
pub(crate) struct X11Inner {
log: Logger,
@ -1032,3 +829,78 @@ impl X11Inner {
}
}
}
fn egl_init(_: &X11Inner) -> Result<DrmNode, EGLInitError> {
let display = EGLDisplay::new(&X11DefaultDisplay, None)?;
let device = EGLDevice::device_for_display(&display)?;
let path = path_to_type(device.drm_device_path()?, NodeType::Render)?;
fcntl::open(&path, OFlag::O_RDWR | OFlag::O_CLOEXEC, Mode::empty())
.map_err(Into::<io::Error>::into)
.and_then(|fd| {
DrmNode::from_fd(fd).map_err(|err| match err {
CreateDrmNodeError::Io(err) => err,
_ => unreachable!(),
})
})
.map_err(EGLInitError::IO)
}
fn dri3_init(x11: &X11Inner) -> Result<DrmNode, X11Error> {
let connection = &x11.connection;
// Determine which drm-device the Display is using.
let screen = &connection.setup().roots[x11.screen_number];
// provider being NONE tells the X server to use the RandR provider.
let dri3 = match connection.dri3_open(screen.root, x11rb::NONE)?.reply() {
Ok(reply) => reply,
Err(err) => {
return Err(if let ReplyError::X11Error(ref protocol_error) = err {
match protocol_error.error_kind {
// Implementation is risen when the renderer is not capable of X server is not capable
// of rendering at all.
ErrorKind::Implementation => X11Error::CannotDirectRender,
// Match may occur when the node cannot be authenticated for the client.
ErrorKind::Match => X11Error::CannotDirectRender,
_ => err.into(),
}
} else {
err.into()
});
}
};
// Take ownership of the container's inner value so we do not need to duplicate the fd.
// This is fine because the X server will always open a new file descriptor.
let drm_device_fd = dri3.device_fd.into_raw_fd();
let fd_flags =
fcntl::fcntl(drm_device_fd.as_raw_fd(), fcntl::F_GETFD).map_err(AllocateBuffersError::from)?;
// Enable the close-on-exec flag.
fcntl::fcntl(
drm_device_fd,
fcntl::F_SETFD(fcntl::FdFlag::from_bits_truncate(fd_flags) | fcntl::FdFlag::FD_CLOEXEC),
)
.map_err(AllocateBuffersError::from)?;
let drm_node = DrmNode::from_fd(drm_device_fd).map_err(Into::<AllocateBuffersError>::into)?;
if drm_node.ty() != NodeType::Render && drm_node.has_render() {
// Try to get the render node.
if let Some(path) = drm_node.dev_path_with_type(NodeType::Render) {
return Ok(fcntl::open(&path, OFlag::O_RDWR | OFlag::O_CLOEXEC, Mode::empty())
.map_err(Into::<std::io::Error>::into)
.map_err(CreateDrmNodeError::Io)
.and_then(DrmNode::from_fd)
.unwrap_or_else(|err| {
slog::warn!(&x11.log, "Could not create render node from existing DRM node ({}), falling back to primary node", err);
drm_node
}));
}
}
slog::warn!(
&x11.log,
"DRM Device does not have a render node, falling back to primary node"
);
Ok(drm_node)
}

157
src/backend/x11/surface.rs Normal file
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@ -0,0 +1,157 @@
use std::{
mem,
sync::{mpsc::Receiver, Arc, Mutex, MutexGuard, Weak},
};
use drm_fourcc::DrmFourcc;
use gbm::BufferObject;
use x11rb::{connection::Connection, protocol::xproto::PixmapWrapper, rust_connection::RustConnection};
use crate::{
backend::{
allocator::{
dmabuf::{AsDmabuf, Dmabuf},
Slot, Swapchain,
},
drm::DrmNode,
x11::{buffer::PixmapWrapperExt, window_inner::WindowInner, AllocateBuffersError, Window},
},
utils::{Logical, Size},
};
use super::X11Error;
/// An error that may occur when presenting.
#[derive(Debug, thiserror::Error)]
pub enum PresentError {
/// The dmabuf being presented has too many planes.
#[error("The Dmabuf had too many planes")]
TooManyPlanes,
/// Duplicating the dmabuf handles failed.
#[error("Duplicating the file descriptors for the dmabuf handles failed")]
DupFailed(String),
/// The format dmabuf presented does not match the format of the window.
#[error("Buffer had incorrect format, expected: {0}")]
IncorrectFormat(DrmFourcc),
}
/// An X11 surface which uses GBM to allocate and present buffers.
#[derive(Debug)]
pub struct X11Surface {
pub(crate) connection: Weak<RustConnection>,
pub(crate) window: Weak<WindowInner>,
pub(crate) resize: Receiver<Size<u16, Logical>>,
pub(crate) swapchain: Swapchain<Arc<Mutex<gbm::Device<DrmNode>>>, BufferObject<()>>,
pub(crate) format: DrmFourcc,
pub(crate) width: u16,
pub(crate) height: u16,
pub(crate) buffer: Option<Slot<BufferObject<()>>>,
}
impl X11Surface {
/// Returns the window the surface presents to.
///
/// This will return [`None`] if the window has been destroyed.
pub fn window(&self) -> Option<impl AsRef<Window> + '_> {
let window = self.window.upgrade().map(Window).map(WindowTemporary);
struct WindowTemporary(Window);
impl AsRef<Window> for WindowTemporary {
fn as_ref(&self) -> &Window {
&self.0
}
}
window
}
/// Returns a handle to the GBM device used to allocate buffers.
pub fn device(&self) -> MutexGuard<'_, gbm::Device<DrmNode>> {
self.swapchain.allocator.lock().unwrap()
}
/// Returns the format of the buffers the surface accepts.
pub fn format(&self) -> DrmFourcc {
self.format
}
/// Returns the next buffer that will be presented to the Window and its age.
///
/// You may bind this buffer to a renderer to render.
/// This function will return the same buffer until [`submit`](Self::submit) is called
/// or [`reset_buffers`](Self::reset_buffer) is used to reset the buffers.
pub fn buffer(&mut self) -> Result<(Dmabuf, u8), AllocateBuffersError> {
if let Some(new_size) = self.resize.try_iter().last() {
self.resize(new_size);
}
if self.buffer.is_none() {
self.buffer = Some(
self.swapchain
.acquire()
.map_err(Into::<AllocateBuffersError>::into)?
.ok_or(AllocateBuffersError::NoFreeSlots)?,
);
}
let slot = self.buffer.as_ref().unwrap();
let age = slot.age();
match slot.userdata().get::<Dmabuf>() {
Some(dmabuf) => Ok((dmabuf.clone(), age)),
None => {
let dmabuf = slot.export().map_err(Into::<AllocateBuffersError>::into)?;
slot.userdata().insert_if_missing(|| dmabuf.clone());
Ok((dmabuf, age))
}
}
}
/// Consume and submit the buffer to the window.
pub fn submit(&mut self) -> Result<(), X11Error> {
if let Some(connection) = self.connection.upgrade() {
// Get a new buffer
let mut next = self
.swapchain
.acquire()
.map_err(Into::<AllocateBuffersError>::into)?
.ok_or(AllocateBuffersError::NoFreeSlots)?;
// Swap the buffers
if let Some(current) = self.buffer.as_mut() {
mem::swap(&mut next, current);
}
let window = self.window().ok_or(AllocateBuffersError::WindowDestroyed)?;
let pixmap = PixmapWrapper::with_dmabuf(
&*connection,
window.as_ref(),
next.userdata().get::<Dmabuf>().unwrap(),
)?;
// Now present the current buffer
let _ = pixmap.present(&*connection, window.as_ref())?;
self.swapchain.submitted(next);
// Flush the connection after presenting to the window to ensure we don't run out of buffer space in the X11 connection.
let _ = connection.flush();
}
Ok(())
}
/// Resets the internal buffers, e.g. to reset age values
pub fn reset_buffers(&mut self) {
self.swapchain.reset_buffers();
self.buffer = None;
}
fn resize(&mut self, size: Size<u16, Logical>) {
self.swapchain.resize(size.w as u32, size.h as u32);
self.buffer = None;
self.width = size.w;
self.height = size.h;
}
}