mirror of
https://github.com/fish-shell/fish-shell
synced 2024-12-27 21:33:09 +00:00
160 lines
5 KiB
Rust
160 lines
5 KiB
Rust
use crate::proc::Pid;
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use crate::wchar::prelude::*;
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use std::cell::Cell;
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use std::rc::Rc;
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/// The non user-visible, never-recycled job ID.
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/// Every job has a unique positive value for this.
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pub type InternalJobId = u64;
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/// The bits of a job necessary to support 'wait' and '--on-process-exit'.
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/// This may outlive the job.
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pub struct WaitHandle {
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/// The pid of this process.
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pub pid: Pid,
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/// The internal job id of the job which contained this process.
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pub internal_job_id: InternalJobId,
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/// The "base name" of this process.
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/// For example if the process is "/bin/sleep" then this will be 'sleep'.
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pub base_name: WString,
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/// The status, if completed; None if not completed.
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status: Cell<Option<i32>>,
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}
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impl WaitHandle {
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/// Return true if this wait handle is completed.
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pub fn is_completed(&self) -> bool {
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self.status.get().is_some()
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}
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pub fn set_status_and_complete(&self, status: i32) {
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assert!(!self.is_completed(), "wait handle already completed");
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self.status.set(Some(status));
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}
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/// Return the status, or None if not yet completed.
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pub fn status(&self) -> Option<i32> {
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self.status.get()
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}
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}
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impl WaitHandle {
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/// Construct from a pid, job id, and base name.
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pub fn new(pid: Pid, internal_job_id: InternalJobId, base_name: WString) -> WaitHandleRef {
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Rc::new(WaitHandle {
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pid,
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internal_job_id,
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base_name,
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status: Default::default(),
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})
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}
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}
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pub type WaitHandleRef = Rc<WaitHandle>;
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const WAIT_HANDLE_STORE_DEFAULT_LIMIT: usize = 1024;
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/// Support for storing a list of wait handles, with a max limit set at initialization.
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/// Note this class is not safe for concurrent access.
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pub struct WaitHandleStore {
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// Map from pid to wait handles.
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cache: lru::LruCache<Pid, WaitHandleRef>,
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}
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impl WaitHandleStore {
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/// Construct with the default capacity.
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pub fn new() -> WaitHandleStore {
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Self::new_with_capacity(WAIT_HANDLE_STORE_DEFAULT_LIMIT)
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}
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pub fn new_with_capacity(capacity: usize) -> WaitHandleStore {
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let capacity = std::num::NonZeroUsize::new(capacity).unwrap();
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WaitHandleStore {
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cache: lru::LruCache::new(capacity),
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}
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}
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/// Add a wait handle to the store. This may remove the oldest handle, if our limit is exceeded.
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/// It may also remove any existing handle with that pid.
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pub fn add(&mut self, wh: WaitHandleRef) {
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self.cache.put(wh.pid, wh);
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}
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/// Return the wait handle for a pid, or None if there is none.
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/// This is a fast lookup.
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pub fn get_by_pid(&self, pid: Pid) -> Option<WaitHandleRef> {
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self.cache.peek(&pid).cloned()
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}
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/// Remove a given wait handle, if present in this store.
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pub fn remove(&mut self, wh: &WaitHandleRef) {
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// Note: this differs from remove_by_pid because we verify that the handle is the same.
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if let Some(key) = self.cache.peek(&wh.pid) {
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if Rc::ptr_eq(key, wh) {
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self.cache.pop(&wh.pid);
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}
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}
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}
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/// Remove the wait handle for a pid, if present in this store.
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pub fn remove_by_pid(&mut self, pid: Pid) {
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self.cache.pop(&pid);
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}
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/// Iterate over wait handles.
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pub fn iter(&self) -> impl Iterator<Item = &WaitHandleRef> {
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self.cache.iter().map(|(_, wh)| wh)
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}
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/// Copy out the list of all wait handles, returning the most-recently-used first.
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pub fn get_list(&self) -> Vec<WaitHandleRef> {
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self.cache.iter().map(|(_, wh)| wh.clone()).collect()
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}
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/// Convenience to return the size, for testing.
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pub fn size(&self) -> usize {
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self.cache.len()
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}
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}
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#[test]
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fn test_wait_handles() {
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let limit: usize = 4;
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let mut whs = WaitHandleStore::new_with_capacity(limit);
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assert_eq!(whs.size(), 0);
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fn p(pid: i32) -> Pid {
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Pid::new(pid).unwrap()
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}
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assert!(whs.get_by_pid(p(5)).is_none());
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// Duplicate pids drop oldest.
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whs.add(WaitHandle::new(p(5), 0, L!("first").to_owned()));
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whs.add(WaitHandle::new(p(5), 0, L!("second").to_owned()));
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assert_eq!(whs.size(), 1);
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assert_eq!(whs.get_by_pid(p(5)).unwrap().base_name, "second");
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whs.remove_by_pid(p(123));
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assert_eq!(whs.size(), 1);
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whs.remove_by_pid(p(5));
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assert_eq!(whs.size(), 0);
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// Test evicting oldest.
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whs.add(WaitHandle::new(p(1), 0, L!("1").to_owned()));
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whs.add(WaitHandle::new(p(2), 0, L!("2").to_owned()));
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whs.add(WaitHandle::new(p(3), 0, L!("3").to_owned()));
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whs.add(WaitHandle::new(p(4), 0, L!("4").to_owned()));
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whs.add(WaitHandle::new(p(5), 0, L!("5").to_owned()));
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assert_eq!(whs.size(), 4);
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let entries = whs.get_list();
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let mut iter = entries.iter();
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assert_eq!(iter.next().unwrap().base_name, "5");
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assert_eq!(iter.next().unwrap().base_name, "4");
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assert_eq!(iter.next().unwrap().base_name, "3");
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assert_eq!(iter.next().unwrap().base_name, "2");
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assert!(iter.next().is_none());
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}
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