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proxmox-backup/proxmox-rest-server/src/state.rs

160 lines
4.0 KiB
Rust
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use anyhow::{Error};
use lazy_static::lazy_static;
use std::sync::Mutex;
use futures::*;
use tokio::signal::unix::{signal, SignalKind};
use proxmox_async::broadcast_future::BroadcastData;
use crate::request_shutdown;
#[derive(PartialEq, Copy, Clone, Debug)]
enum ServerMode {
Normal,
Shutdown,
}
struct ServerState {
mode: ServerMode,
shutdown_listeners: BroadcastData<()>,
last_worker_listeners: BroadcastData<()>,
worker_count: usize,
internal_task_count: usize,
reload_request: bool,
}
lazy_static! {
static ref SERVER_STATE: Mutex<ServerState> = Mutex::new(ServerState {
mode: ServerMode::Normal,
shutdown_listeners: BroadcastData::new(),
last_worker_listeners: BroadcastData::new(),
worker_count: 0,
internal_task_count: 0,
reload_request: false,
});
}
/// Listen to ``SIGINT`` for server shutdown
///
/// This calls [request_shutdown] when receiving the signal.
pub fn catch_shutdown_signal() -> Result<(), Error> {
let mut stream = signal(SignalKind::interrupt())?;
let future = async move {
while stream.recv().await.is_some() {
log::info!("got shutdown request (SIGINT)");
SERVER_STATE.lock().unwrap().reload_request = false;
request_shutdown();
}
}.boxed();
let abort_future = last_worker_future().map_err(|_| {});
let task = futures::future::select(future, abort_future);
tokio::spawn(task.map(|_| ()));
Ok(())
}
/// Listen to ``SIGHUP`` for server reload
///
/// This calls [request_shutdown] when receiving the signal, and tries
/// to restart the server.
pub fn catch_reload_signal() -> Result<(), Error> {
let mut stream = signal(SignalKind::hangup())?;
let future = async move {
while stream.recv().await.is_some() {
log::info!("got reload request (SIGHUP)");
SERVER_STATE.lock().unwrap().reload_request = true;
crate::request_shutdown();
}
}.boxed();
let abort_future = last_worker_future().map_err(|_| {});
let task = futures::future::select(future, abort_future);
tokio::spawn(task.map(|_| ()));
Ok(())
}
pub(crate) fn is_reload_request() -> bool {
let data = SERVER_STATE.lock().unwrap();
data.mode == ServerMode::Shutdown && data.reload_request
}
pub(crate) fn server_shutdown() {
let mut data = SERVER_STATE.lock().unwrap();
log::info!("request_shutdown");
data.mode = ServerMode::Shutdown;
data.shutdown_listeners.notify_listeners(Ok(()));
drop(data); // unlock
check_last_worker();
}
/// Future to signal server shutdown
pub fn shutdown_future() -> impl Future<Output = ()> {
let mut data = SERVER_STATE.lock().unwrap();
data
.shutdown_listeners
.listen()
.map(|_| ())
}
/// Future to signal when last worker task finished
pub fn last_worker_future() -> impl Future<Output = Result<(), Error>> {
let mut data = SERVER_STATE.lock().unwrap();
data.last_worker_listeners.listen()
}
pub(crate) fn set_worker_count(count: usize) {
SERVER_STATE.lock().unwrap().worker_count = count;
check_last_worker();
}
pub(crate) fn check_last_worker() {
let mut data = SERVER_STATE.lock().unwrap();
if !(data.mode == ServerMode::Shutdown && data.worker_count == 0 && data.internal_task_count == 0) { return; }
data.last_worker_listeners.notify_listeners(Ok(()));
}
/// Spawns a tokio task that will be tracked for reload
/// and if it is finished, notify the [last_worker_future] if we
/// are in shutdown mode.
pub fn spawn_internal_task<T>(task: T)
where
T: Future + Send + 'static,
T::Output: Send + 'static,
{
let mut data = SERVER_STATE.lock().unwrap();
data.internal_task_count += 1;
tokio::spawn(async move {
let _ = tokio::spawn(task).await; // ignore errors
{ // drop mutex
let mut data = SERVER_STATE.lock().unwrap();
if data.internal_task_count > 0 {
data.internal_task_count -= 1;
}
}
check_last_worker();
});
}
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