Files
RedBear-OS/graphics/driver-graphics/src/lib.rs
T
bjorn3 fe31bd0578 inputd: Remove deactivate event
It is no longer useful now that virtio-gpud permanently takes over
control of the display when it starts.
2025-03-01 20:00:29 +01:00

256 lines
8.0 KiB
Rust

use std::collections::{BTreeMap, HashMap};
use std::io;
use graphics_ipc::legacy::Damage;
use inputd::{VtEvent, VtEventKind};
use libredox::errno::EOPNOTSUPP;
use libredox::Fd;
use redox_scheme::{RequestKind, Response, Scheme, SignalBehavior, Socket};
use syscall::{Error, MapFlags, Result, EAGAIN, EBADF, EINVAL};
pub trait GraphicsAdapter {
type Resource: Resource;
fn displays(&self) -> Vec<usize>;
fn display_size(&self, display_id: usize) -> (u32, u32);
fn create_resource(&mut self, width: u32, height: u32) -> Self::Resource;
fn map_resource(&mut self, resource: &Self::Resource) -> *mut u8;
fn set_scanout(&mut self, display_id: usize, resource: &Self::Resource);
fn flush_resource(
&mut self,
display_id: usize,
resource: &Self::Resource,
damage: Option<&[Damage]>,
);
}
pub trait Resource {
fn width(&self) -> u32;
fn height(&self) -> u32;
}
pub struct GraphicsScheme<T: GraphicsAdapter> {
adapter: T,
scheme_name: String,
socket: Socket,
next_id: usize,
handles: BTreeMap<usize, Handle>,
active_vt: usize,
vts_res: HashMap<usize, HashMap<usize, T::Resource>>,
}
enum Handle {
Screen { vt: usize, screen: usize },
}
impl<T: GraphicsAdapter> GraphicsScheme<T> {
pub fn new(adapter: T, scheme_name: String) -> Self {
assert!(scheme_name.starts_with("display"));
let socket = Socket::nonblock(&scheme_name).expect("failed to create graphics scheme");
GraphicsScheme {
adapter,
scheme_name,
socket,
next_id: 0,
handles: BTreeMap::new(),
active_vt: 0,
vts_res: HashMap::new(),
}
}
pub fn event_handle(&self) -> &Fd {
self.socket.inner()
}
pub fn adapter(&self) -> &T {
&self.adapter
}
pub fn adapter_mut(&mut self) -> &mut T {
&mut self.adapter
}
pub fn handle_vt_event(&mut self, vt_event: VtEvent) {
match vt_event.kind {
VtEventKind::Activate => {
log::info!("activate {}", vt_event.vt);
for display_id in self.adapter.displays() {
let resource = self
.vts_res
.entry(vt_event.vt)
.or_default()
.entry(display_id)
.or_insert_with(|| {
let (width, height) = self.adapter.display_size(display_id);
self.adapter.create_resource(width, height)
});
self.adapter.set_scanout(display_id, resource);
self.active_vt = vt_event.vt;
}
}
VtEventKind::Resize => {
log::warn!("driver-graphics: resize is not implemented yet")
}
}
}
/// Process new scheme requests.
///
/// This needs to be called each time there is a new event on the scheme
/// file.
pub fn tick(&mut self) -> io::Result<()> {
loop {
let request = match self.socket.next_request(SignalBehavior::Restart) {
Ok(Some(request)) => request,
Ok(None) => {
// Scheme likely got unmounted
std::process::exit(0);
}
Err(err) if err.errno == EAGAIN => break,
Err(err) => panic!("vesad: failed to read display scheme: {err}"),
};
match request.kind() {
RequestKind::Call(call_request) => {
let resp = call_request.handle_scheme(self);
self.socket
.write_response(resp, SignalBehavior::Restart)
.expect("vesad: failed to write display scheme");
}
RequestKind::SendFd(sendfd_request) => {
self.socket.write_response(
Response::for_sendfd(&sendfd_request, Err(syscall::Error::new(EOPNOTSUPP))),
SignalBehavior::Restart,
)?;
}
RequestKind::Cancellation(_cancellation_request) => {}
RequestKind::MsyncMsg | RequestKind::MunmapMsg | RequestKind::MmapMsg => {
unreachable!()
}
}
}
Ok(())
}
}
impl<T: GraphicsAdapter> Scheme for GraphicsScheme<T> {
fn open(&mut self, path: &str, _flags: usize, _uid: u32, _gid: u32) -> Result<usize> {
if path.is_empty() {
return Err(Error::new(EINVAL));
}
let mut parts = path.split('/');
let mut screen = parts.next().unwrap_or("").split('.');
let vt = screen.next().unwrap_or("").parse::<usize>().unwrap();
let id = screen.next().unwrap_or("").parse::<usize>().unwrap_or(0);
dbg!(vt, id);
if id >= self.adapter.displays().len() {
return Err(Error::new(EINVAL));
}
self.vts_res
.entry(vt)
.or_default()
.entry(id)
.or_insert_with(|| {
let (width, height) = self.adapter.display_size(id);
self.adapter.create_resource(width, height)
});
self.next_id += 1;
self.handles
.insert(self.next_id, Handle::Screen { vt, screen: id });
Ok(self.next_id)
}
fn fpath(&mut self, id: usize, buf: &mut [u8]) -> syscall::Result<usize> {
let Handle::Screen { vt, screen } = self.handles.get(&id).ok_or(Error::new(EBADF))?;
let resource = &self.vts_res[vt][screen];
let path = format!(
"{}:{vt}.{screen}/{}/{}",
self.scheme_name,
resource.width(),
resource.height()
);
buf[..path.len()].copy_from_slice(path.as_bytes());
Ok(path.len())
}
fn fsync(&mut self, id: usize) -> syscall::Result<usize> {
let Handle::Screen { vt, screen } = self.handles.get(&id).ok_or(Error::new(EBADF))?;
if *vt != self.active_vt {
// This is a protection against background VT's spamming us with flush requests. We will
// flush the resource on the next VT switch anyway
return Ok(0);
}
let resource = &self.vts_res[vt][screen];
self.adapter.flush_resource(*screen, resource, None);
Ok(0)
}
fn read(
&mut self,
id: usize,
_buf: &mut [u8],
_offset: u64,
_fcntl_flags: u32,
) -> Result<usize> {
let _handle = self.handles.get(&id).ok_or(Error::new(EBADF))?;
Err(Error::new(EINVAL))
}
fn write(&mut self, id: usize, buf: &[u8], _offset: u64, _fcntl_flags: u32) -> Result<usize> {
let Handle::Screen { vt, screen } = self.handles.get(&id).ok_or(Error::new(EBADF))?;
if *vt != self.active_vt {
// This is a protection against background VT's spamming us with flush requests. We will
// flush the resource on the next VT switch anyway
return Ok(buf.len());
}
let resource = &self.vts_res[vt][screen];
let damage = unsafe {
core::slice::from_raw_parts(
buf.as_ptr() as *const Damage,
buf.len() / core::mem::size_of::<Damage>(),
)
};
self.adapter.flush_resource(*screen, resource, Some(damage));
Ok(buf.len())
}
fn close(&mut self, id: usize) -> syscall::Result<usize> {
self.handles.remove(&id).ok_or(Error::new(EBADF))?;
Ok(0)
}
fn mmap_prep(
&mut self,
id: usize,
offset: u64,
size: usize,
flags: MapFlags,
) -> syscall::Result<usize> {
log::info!("KSMSG MMAP {} {:?} {} {}", id, flags, offset, size);
let handle = self.handles.get(&id).ok_or(Error::new(EINVAL))?;
let Handle::Screen { vt, screen } = handle;
let resource = &self.vts_res[vt][screen];
let ptr = T::map_resource(&mut self.adapter, resource);
Ok(ptr as usize)
}
}