Module x11rb::event_loop_integration
source · Expand description
§Integrating x11rb with an Event Loop
To integrate x11rb with an event loop,
std::os::unix::io::AsRawFd
is
implemented by RustConnection
’s
DefaultStream
and
XCBConnection
. This allows to integrate
with an event loop that also handles timeouts or network I/O. See
xclock_utc
for an
example.
The general form of such an integration could be as follows:
#[cfg(unix)]
use std::os::unix::io::{AsRawFd, RawFd};
#[cfg(windows)]
use std::os::windows::io::{AsRawSocket, RawSocket};
use x11rb::connection::Connection;
use x11rb::rust_connection::RustConnection;
use x11rb::errors::ConnectionError;
fn main_loop(conn: &RustConnection) -> Result<(), ConnectionError> {
#[cfg(unix)]
let raw_handle = conn.stream().as_raw_fd();
#[cfg(windows)]
let raw_handle = conn.stream().as_raw_socket();
loop {
while let Some(event) = conn.poll_for_event()? {
handle_event(event);
}
poll_for_readable(raw_handle);
// Do other work here.
}
}
The function poll_for_readable
could wait for any number of I/O streams (besides the one from
x11rb) to become readable. It can also implement timeouts, as seen in the
xclock_utc
example.
§Threads and Races
Both RustConnection
and
XCBConnection
are Sync+Send
. However, it is still
possible to see races in the presence of threads and an event loop.
The underlying problem is that the following two points are not equivalent:
- A new event is available and can be returned from
conn.poll_for_event()
. - The underlying I/O stream is readable.
The reason for this is an internal buffer that is required: When an event is received from the
X11 server, but we are currently not in conn.poll_for_event()
, then this event is added to an
internal buffer. Thus, it can happen that there is an event available, but the stream is not
readable.
An example for such an other function is conn.get_input_focus()?.reply()?
: The
GetInputFocus
request is sent to the server and then reply()
waits for the reply. It does
so by reading X11 packets from the X11 server until the right reply arrives. Any events that
are read during this are buffered internally in the Connection
.
If this race occurs, the main loop would sit in poll_for_readable
and wait, while the already
buffered event is available. When something else wakes up the main loop and
conn.poll_for_event()
is called the next time, the event is finally processed.
There are two ways around this:
- Only interact with x11rb from one thread.
- Use a dedicated thread for waiting for event.
In case (1), one can call conn.poll_for_event()
before waiting for the underlying I/O stream
to be readable. Since there are no other threads, nothing can read a new event from the stream
after conn.poll_for_event()
returned None
.
Option (2) is to start a thread that calls conn.wait_for_event()
in a loop. This is basically
a dedicated event loop for fetching events from the X11 server. All other threads can now
freely use the X11 connection without events possibly getting stuck and only being processed
later.