//! size computation for non linux use { super::FileSize, crate::task_sync::TaskLifetime, crossbeam::{channel::unbounded, sync::WaitGroup}, std::{ fs, path::{Path, PathBuf}, sync::atomic::{AtomicIsize, AtomicUsize, Ordering}, sync::Arc, thread, time::Duration, }, super::FileSize, }; // Note that this version doesn't try to compute the real size taken // on disk but report the value given by the `len` function pub fn compute_dir_size(path: &Path, tl: &TaskLifetime) -> Option { let size = Arc::new(AtomicUsize::new(0)); // this MPMC channel contains the directory paths which must be handled let (dirs_sender, dirs_receiver) = unbounded(); // busy is the number of directories which are either being processed or queued // We use this count to determine when threads can stop waiting for tasks let busy = Arc::new(AtomicIsize::new(0)); busy.fetch_add(1, Ordering::Relaxed); dirs_sender.send(Some(PathBuf::from(path))).unwrap(); let wg = WaitGroup::new(); let period = Duration::from_micros(50); for _ in 0..8 { let size = Arc::clone(&size); let busy = Arc::clone(&busy); let wg = wg.clone(); let (dirs_sender, dirs_receiver) = (dirs_sender.clone(), dirs_receiver.clone()); let tl = tl.clone(); thread::spawn(move || { loop { let o = dirs_receiver.recv_timeout(period); if let Ok(Some(open_dir)) = o { if let Ok(entries) = fs::read_dir(&open_dir) { for e in entries.flatten() { if let Ok(md) = e.metadata() { if md.is_dir() { busy.fetch_add(1, Ordering::Relaxed); dirs_sender.send(Some(e.path())).unwrap(); } size.fetch_add(md.len() as usize, Ordering::Relaxed); } } } busy.fetch_sub(1, Ordering::Relaxed); dirs_sender.send(None).unwrap(); } else if busy.load(Ordering::Relaxed) < 1 { break; } if tl.is_expired() { break; } } drop(wg); }); } wg.wait(); if tl.is_expired() { return None; } let size: usize = size.load(Ordering::Relaxed); let size: u64 = size as u64; Some(size) } pub fn compute_file_size(path: &Path) -> FileSize { match fs::metadata(path) { Ok(m) => FileSize::new(m.len(), false), Err(_) => FileSize::new(0, false), } }