watchexec/src/main.rs

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Rust
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#[macro_use]
extern crate clap;
extern crate globset;
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extern crate env_logger;
extern crate libc;
#[macro_use]
extern crate log;
#[macro_use]
extern crate lazy_static;
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extern crate notify;
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#[cfg(unix)]
extern crate nix;
#[cfg(windows)]
extern crate winapi;
#[cfg(windows)]
extern crate kernel32;
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#[cfg(test)]
extern crate mktemp;
mod cli;
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mod gitignore;
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mod notification_filter;
mod process;
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mod signal;
mod watcher;
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use std::collections::HashMap;
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use std::path::{Path, PathBuf};
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use std::sync::{Arc, RwLock};
use std::sync::mpsc::{channel, Receiver};
use std::time::Duration;
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use notification_filter::NotificationFilter;
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use process::Process;
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use signal::Signal;
use watcher::{Event, Watcher};
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fn init_logger(debug: bool) {
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let mut log_builder = env_logger::LogBuilder::new();
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let level = if debug {
log::LogLevelFilter::Debug
} else {
log::LogLevelFilter::Warn
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};
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log_builder
.format(|r| format!("*** {}", r.args()))
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.filter(None, level);
log_builder.init().expect("unable to initialize logger");
}
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fn main() {
let args = cli::get_args();
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let child_process: Arc<RwLock<Option<Process>>> = Arc::new(RwLock::new(None));
let weak_child = Arc::downgrade(&child_process);
// Convert signal string to the corresponding integer
let signal = signal::new(args.signal);
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signal::install_handler(move |sig: Signal| {
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if let Some(lock) = weak_child.upgrade() {
let strong = lock.read().unwrap();
if let Some(ref child) = *strong {
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match sig {
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Signal::SIGCHLD => child.reap(), // SIGCHLD is special, initiate reap()
_ => child.signal(sig),
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}
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}
}
});
init_logger(args.debug);
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let paths: Vec<PathBuf> = args.paths
.iter()
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.map(|p| {
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Path::new(&p)
.canonicalize()
.expect(&format!("unable to canonicalize \"{}\"", &p))
.to_owned()
})
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.collect();
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let gitignore = if !args.no_vcs_ignore {
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gitignore::load(&paths)
} else {
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gitignore::load(&[])
};
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let filter = NotificationFilter::new(args.filters, args.ignores, gitignore)
.expect("unable to create notification filter");
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let (tx, rx) = channel();
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let watcher =
Watcher::new(tx, &paths, args.poll, args.poll_interval).expect("unable to create watcher");
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if watcher.is_polling() {
warn!("Polling for changes every {} ms", args.poll_interval);
}
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// Start child process initially, if necessary
if args.run_initially && !args.once {
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if args.clear_screen {
cli::clear_screen();
}
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let mut guard = child_process.write().unwrap();
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*guard = Some(process::spawn(&args.cmd, vec![]));
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}
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loop {
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debug!("Waiting for filesystem activity");
let paths = wait_fs(&rx, &filter);
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if let Some(path) = paths.get(0) {
debug!("Path updated: {:?}", path);
}
// We have three scenarios here:
//
// 1. Make sure the previous run was ended, then run the command again
// 2. Just send a specified signal to the child, do nothing more
// 3. Send SIGTERM to the child, wait for it to exit, then run the command again
// 4. Send a specified signal to the child, wait for it to exit, then run the command again
//
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let scenario = (args.restart, signal.is_some());
match scenario {
// Custom restart behaviour (--restart was given, and --signal specified):
// Send specified signal to the child, wait for it to exit, then run the command again
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(true, true) => {
signal_process(&child_process, signal, true);
// Launch child process
if args.clear_screen {
cli::clear_screen();
}
debug!("Launching child process");
{
let mut guard = child_process.write().unwrap();
*guard = Some(process::spawn(&args.cmd, paths));
}
}
// Default restart behaviour (--restart was given, but --signal wasn't specified):
// Send SIGTERM to the child, wait for it to exit, then run the command again
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(true, false) => {
let sigterm = signal::new(Some("SIGTERM".to_owned()));
signal_process(&child_process, sigterm, true);
// Launch child process
if args.clear_screen {
cli::clear_screen();
}
debug!("Launching child process");
{
let mut guard = child_process.write().unwrap();
*guard = Some(process::spawn(&args.cmd, paths));
}
}
// SIGHUP scenario: --signal was given, but --restart was not
// Just send a signal (e.g. SIGHUP) to the child, do nothing more
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(false, true) => signal_process(&child_process, signal, false),
// Default behaviour (neither --signal nor --restart specified):
// Make sure the previous run was ended, then run the command again
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(false, false) => {
signal_process(&child_process, None, true);
// Launch child process
if args.clear_screen {
cli::clear_screen();
}
debug!("Launching child process");
{
let mut guard = child_process.write().unwrap();
*guard = Some(process::spawn(&args.cmd, paths));
}
}
}
// Handle once option for integration testing
if args.once {
signal_process(&child_process, signal, false);
break;
}
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}
}
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fn wait_fs(rx: &Receiver<Event>, filter: &NotificationFilter) -> Vec<PathBuf> {
let mut paths = vec![];
let mut cache = HashMap::new();
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loop {
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let e = rx.recv().expect("error when reading event");
if let Some(ref path) = e.path {
// Ignore cache for the initial file. Otherwise, in
// debug mode it's hard to track what's going on
let excluded = filter.is_excluded(path);
if !cache.contains_key(path) {
cache.insert(path.to_owned(), excluded);
}
if !excluded {
paths.push(path.to_owned());
break;
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}
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}
}
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// Wait for filesystem activity to cool off
let timeout = Duration::from_millis(500);
while let Ok(e) = rx.recv_timeout(timeout) {
if let Some(ref path) = e.path {
if cache.contains_key(path) {
continue;
}
let excluded = filter.is_excluded(path);
let p = path.to_owned();
cache.insert(p.clone(), excluded);
if !excluded {
paths.push(p);
}
}
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}
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paths
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}
// signal_process sends signal to process. It waits for the process to exit if wait is true
fn signal_process(process: &RwLock<Option<Process>>, signal: Option<Signal>, wait: bool) {
let guard = process.read().unwrap();
if let Some(ref child) = *guard {
if let Some(s) = signal {
child.signal(s);
}
if wait {
debug!("Waiting for process to exit...");
child.wait();
}
}
}