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denoland-deno/cli/util/file_watcher.rs

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// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
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use crate::args::Flags;
use crate::colors;
use crate::util::fs::canonicalize_path;
use deno_core::error::AnyError;
use deno_core::error::JsError;
use deno_core::futures::Future;
use deno_core::futures::FutureExt;
use deno_core::parking_lot::Mutex;
use deno_runtime::fmt_errors::format_js_error;
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use log::info;
use notify::event::Event as NotifyEvent;
use notify::event::EventKind;
use notify::Error as NotifyError;
use notify::RecommendedWatcher;
use notify::RecursiveMode;
use notify::Watcher;
use std::cell::RefCell;
use std::collections::HashSet;
use std::io::IsTerminal;
use std::path::PathBuf;
use std::rc::Rc;
use std::sync::Arc;
use std::time::Duration;
use tokio::select;
use tokio::sync::mpsc;
use tokio::sync::mpsc::UnboundedReceiver;
use tokio::time::sleep;
const CLEAR_SCREEN: &str = "\x1B[2J\x1B[1;1H";
const DEBOUNCE_INTERVAL: Duration = Duration::from_millis(200);
struct DebouncedReceiver {
// The `recv()` call could be used in a tokio `select!` macro,
// and so we store this state on the struct to ensure we don't
// lose items if a `recv()` never completes
received_items: HashSet<PathBuf>,
receiver: UnboundedReceiver<Vec<PathBuf>>,
}
impl DebouncedReceiver {
fn new_with_sender() -> (Arc<mpsc::UnboundedSender<Vec<PathBuf>>>, Self) {
let (sender, receiver) = mpsc::unbounded_channel();
(
Arc::new(sender),
Self {
receiver,
received_items: HashSet::new(),
},
)
}
async fn recv(&mut self) -> Option<Vec<PathBuf>> {
if self.received_items.is_empty() {
self
.received_items
.extend(self.receiver.recv().await?.into_iter());
}
loop {
select! {
items = self.receiver.recv() => {
self.received_items.extend(items?);
}
_ = sleep(DEBOUNCE_INTERVAL) => {
return Some(self.received_items.drain().collect());
}
}
}
}
}
async fn error_handler<F>(watch_future: F) -> bool
where
F: Future<Output = Result<(), AnyError>>,
{
let result = watch_future.await;
if let Err(err) = result {
let error_string = match err.downcast_ref::<JsError>() {
Some(e) => format_js_error(e),
None => format!("{err:?}"),
};
eprintln!(
"{}: {}",
colors::red_bold("error"),
error_string.trim_start_matches("error: ")
);
false
} else {
true
}
}
pub struct PrintConfig {
banner: &'static str,
/// Printing watcher status to terminal.
job_name: &'static str,
/// Determine whether to clear the terminal screen; applicable to TTY environments only.
clear_screen: bool,
}
impl PrintConfig {
/// By default `PrintConfig` uses "Watcher" as a banner name that will
/// be printed in color. If you need to customize it, use
/// `PrintConfig::new_with_banner` instead.
pub fn new(job_name: &'static str, clear_screen: bool) -> Self {
Self {
banner: "Watcher",
job_name,
clear_screen,
}
}
pub fn new_with_banner(
banner: &'static str,
job_name: &'static str,
clear_screen: bool,
) -> Self {
Self {
banner,
job_name,
clear_screen,
}
}
}
fn create_print_after_restart_fn(
banner: &'static str,
clear_screen: bool,
) -> impl Fn() {
move || {
if clear_screen && std::io::stderr().is_terminal() {
eprint!("{CLEAR_SCREEN}");
}
info!(
"{} File change detected! Restarting!",
colors::intense_blue(banner),
);
}
}
/// An interface to interact with Deno's CLI file watcher.
#[derive(Debug)]
pub struct WatcherCommunicator {
/// Send a list of paths that should be watched for changes.
paths_to_watch_tx: tokio::sync::mpsc::UnboundedSender<Vec<PathBuf>>,
/// Listen for a list of paths that were changed.
changed_paths_rx: tokio::sync::broadcast::Receiver<Option<Vec<PathBuf>>>,
/// Send a message to force a restart.
restart_tx: tokio::sync::mpsc::UnboundedSender<()>,
restart_mode: Mutex<WatcherRestartMode>,
banner: String,
}
impl WatcherCommunicator {
pub fn watch_paths(&self, paths: Vec<PathBuf>) -> Result<(), AnyError> {
self.paths_to_watch_tx.send(paths).map_err(AnyError::from)
}
pub fn force_restart(&self) -> Result<(), AnyError> {
// Change back to automatic mode, so that HMR can set up watching
// from scratch.
*self.restart_mode.lock() = WatcherRestartMode::Automatic;
self.restart_tx.send(()).map_err(AnyError::from)
}
pub async fn watch_for_changed_paths(
&self,
) -> Result<Option<Vec<PathBuf>>, AnyError> {
let mut rx = self.changed_paths_rx.resubscribe();
rx.recv().await.map_err(AnyError::from)
}
pub fn change_restart_mode(&self, restart_mode: WatcherRestartMode) {
*self.restart_mode.lock() = restart_mode;
}
pub fn print(&self, msg: String) {
log::info!("{} {}", self.banner, msg);
}
}
/// Creates a file watcher.
///
/// - `operation` is the actual operation we want to run every time the watcher detects file
/// changes. For example, in the case where we would like to bundle, then `operation` would
/// have the logic for it like bundling the code.
pub async fn watch_func<O, F>(
flags: Flags,
print_config: PrintConfig,
operation: O,
) -> Result<(), AnyError>
where
O: FnMut(
Flags,
Arc<WatcherCommunicator>,
Option<Vec<PathBuf>>,
) -> Result<F, AnyError>,
F: Future<Output = Result<(), AnyError>>,
{
let fut = watch_recv(
flags,
print_config,
WatcherRestartMode::Automatic,
operation,
)
.boxed_local();
fut.await
}
#[derive(Clone, Copy, Debug)]
pub enum WatcherRestartMode {
/// When a file path changes the process is restarted.
Automatic,
/// When a file path changes the caller will trigger a restart, using
/// `WatcherInterface.restart_tx`.
Manual,
}
/// Creates a file watcher.
///
/// - `operation` is the actual operation we want to run every time the watcher detects file
/// changes. For example, in the case where we would like to bundle, then `operation` would
/// have the logic for it like bundling the code.
pub async fn watch_recv<O, F>(
mut flags: Flags,
print_config: PrintConfig,
restart_mode: WatcherRestartMode,
mut operation: O,
) -> Result<(), AnyError>
where
O: FnMut(
Flags,
Arc<WatcherCommunicator>,
Option<Vec<PathBuf>>,
) -> Result<F, AnyError>,
F: Future<Output = Result<(), AnyError>>,
{
let (paths_to_watch_tx, mut paths_to_watch_rx) =
tokio::sync::mpsc::unbounded_channel();
let (restart_tx, mut restart_rx) = tokio::sync::mpsc::unbounded_channel();
let (changed_paths_tx, changed_paths_rx) = tokio::sync::broadcast::channel(4);
let (watcher_sender, mut watcher_receiver) =
DebouncedReceiver::new_with_sender();
let PrintConfig {
banner,
job_name,
clear_screen,
} = print_config;
let print_after_restart = create_print_after_restart_fn(banner, clear_screen);
let watcher_communicator = Arc::new(WatcherCommunicator {
paths_to_watch_tx: paths_to_watch_tx.clone(),
changed_paths_rx: changed_paths_rx.resubscribe(),
restart_tx: restart_tx.clone(),
restart_mode: Mutex::new(restart_mode),
banner: colors::intense_blue(banner).to_string(),
});
info!("{} {} started.", colors::intense_blue(banner), job_name);
let changed_paths = Rc::new(RefCell::new(None));
let changed_paths_ = changed_paths.clone();
let watcher_ = watcher_communicator.clone();
deno_core::unsync::spawn(async move {
loop {
let received_changed_paths = watcher_receiver.recv().await;
*changed_paths_.borrow_mut() = received_changed_paths.clone();
match *watcher_.restart_mode.lock() {
WatcherRestartMode::Automatic => {
let _ = restart_tx.send(());
}
WatcherRestartMode::Manual => {
// TODO(bartlomieju): should we fail on sending changed paths?
let _ = changed_paths_tx.send(received_changed_paths);
}
}
}
});
loop {
// We may need to give the runtime a tick to settle, as cancellations may need to propagate
// to tasks. We choose yielding 10 times to the runtime as a decent heuristic. If watch tests
// start to fail, this may need to be increased.
for _ in 0..10 {
tokio::task::yield_now().await;
}
let mut watcher = new_watcher(watcher_sender.clone())?;
consume_paths_to_watch(&mut watcher, &mut paths_to_watch_rx);
let receiver_future = async {
loop {
let maybe_paths = paths_to_watch_rx.recv().await;
add_paths_to_watcher(&mut watcher, &maybe_paths.unwrap());
}
};
let operation_future = error_handler(operation(
flags.clone(),
watcher_communicator.clone(),
changed_paths.borrow_mut().take(),
)?);
// don't reload dependencies after the first run
flags.reload = false;
select! {
_ = receiver_future => {},
_ = restart_rx.recv() => {
print_after_restart();
continue;
},
success = operation_future => {
consume_paths_to_watch(&mut watcher, &mut paths_to_watch_rx);
// TODO(bartlomieju): print exit code here?
info!(
"{} {} {}. Restarting on file change...",
colors::intense_blue(banner),
job_name,
if success {
"finished"
} else {
"failed"
}
);
},
};
let receiver_future = async {
loop {
let maybe_paths = paths_to_watch_rx.recv().await;
add_paths_to_watcher(&mut watcher, &maybe_paths.unwrap());
}
};
// If we got this far, it means that the `operation` has finished; let's wait
// and see if there are any new paths to watch received or any of the already
// watched paths has changed.
select! {
_ = receiver_future => {},
_ = restart_rx.recv() => {
print_after_restart();
continue;
},
};
}
}
fn new_watcher(
sender: Arc<mpsc::UnboundedSender<Vec<PathBuf>>>,
) -> Result<RecommendedWatcher, AnyError> {
Ok(Watcher::new(
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move |res: Result<NotifyEvent, NotifyError>| {
let Ok(event) = res else {
return;
};
if !matches!(
event.kind,
EventKind::Create(_) | EventKind::Modify(_) | EventKind::Remove(_)
) {
return;
}
let paths = event
.paths
.iter()
.filter_map(|path| canonicalize_path(path).ok())
.collect();
sender.send(paths).unwrap();
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},
Default::default(),
)?)
}
fn add_paths_to_watcher(watcher: &mut RecommendedWatcher, paths: &[PathBuf]) {
// Ignore any error e.g. `PathNotFound`
for path in paths {
let _ = watcher.watch(path, RecursiveMode::Recursive);
}
log::debug!("Watching paths: {:?}", paths);
}
fn consume_paths_to_watch(
watcher: &mut RecommendedWatcher,
receiver: &mut UnboundedReceiver<Vec<PathBuf>>,
) {
loop {
match receiver.try_recv() {
Ok(paths) => {
add_paths_to_watcher(watcher, &paths);
}
Err(e) => match e {
mpsc::error::TryRecvError::Empty => {
break;
}
// there must be at least one receiver alive
_ => unreachable!(),
},
}
}
}