Line data Source code
1 : use std::{
2 : cmp::Ordering,
3 : collections::BinaryHeap,
4 : ops::DerefMut,
5 : sync::{
6 : atomic::{AtomicU32, AtomicU64},
7 : Arc,
8 : },
9 : };
10 :
11 : use parking_lot::Mutex;
12 : use tracing::trace;
13 :
14 : use crate::executor::ThreadContext;
15 :
16 : /// Holds current time and all pending wakeup events.
17 : pub struct Timing {
18 : /// Current world's time.
19 : current_time: AtomicU64,
20 : /// Pending timers.
21 : queue: Mutex<BinaryHeap<Pending>>,
22 : /// Global nonce. Makes picking events from binary heap queue deterministic
23 : /// by appending a number to events with the same timestamp.
24 : nonce: AtomicU32,
25 : /// Used to schedule fake events.
26 : fake_context: Arc<ThreadContext>,
27 : }
28 :
29 : impl Default for Timing {
30 0 : fn default() -> Self {
31 0 : Self::new()
32 0 : }
33 : }
34 :
35 : impl Timing {
36 : /// Create a new empty clock with time set to 0.
37 528 : pub fn new() -> Timing {
38 528 : Timing {
39 528 : current_time: AtomicU64::new(0),
40 528 : queue: Mutex::new(BinaryHeap::new()),
41 528 : nonce: AtomicU32::new(0),
42 528 : fake_context: Arc::new(ThreadContext::new()),
43 528 : }
44 528 : }
45 :
46 : /// Return the current world's time.
47 2169065 : pub fn now(&self) -> u64 {
48 2169065 : self.current_time.load(std::sync::atomic::Ordering::SeqCst)
49 2169065 : }
50 :
51 : /// Tick-tock the global clock. Return the event ready to be processed
52 : /// or move the clock forward and then return the event.
53 223962 : pub(crate) fn step(&self) -> Option<Arc<ThreadContext>> {
54 223962 : let mut queue = self.queue.lock();
55 223962 :
56 223962 : if queue.is_empty() {
57 : // no future events
58 548 : return None;
59 223414 : }
60 223414 :
61 223414 : if !self.is_event_ready(queue.deref_mut()) {
62 163344 : let next_time = queue.peek().unwrap().time;
63 163344 : self.current_time
64 163344 : .store(next_time, std::sync::atomic::Ordering::SeqCst);
65 163344 : trace!("rewind time to {}", next_time);
66 163344 : assert!(self.is_event_ready(queue.deref_mut()));
67 60070 : }
68 :
69 223414 : Some(queue.pop().unwrap().wake_context)
70 223962 : }
71 :
72 : /// Append an event to the queue, to wakeup the thread in `ms` milliseconds.
73 211586 : pub(crate) fn schedule_wakeup(&self, ms: u64, wake_context: Arc<ThreadContext>) {
74 211586 : self.nonce.fetch_add(1, std::sync::atomic::Ordering::SeqCst);
75 211586 : let nonce = self.nonce.load(std::sync::atomic::Ordering::SeqCst);
76 211586 : self.queue.lock().push(Pending {
77 211586 : time: self.now() + ms,
78 211586 : nonce,
79 211586 : wake_context,
80 211586 : })
81 211586 : }
82 :
83 : /// Append a fake event to the queue, to prevent clocks from skipping this time.
84 25286 : pub fn schedule_fake(&self, ms: u64) {
85 25286 : self.queue.lock().push(Pending {
86 25286 : time: self.now() + ms,
87 25286 : nonce: 0,
88 25286 : wake_context: self.fake_context.clone(),
89 25286 : });
90 25286 : }
91 :
92 : /// Return true if there is a ready event.
93 386758 : fn is_event_ready(&self, queue: &mut BinaryHeap<Pending>) -> bool {
94 386758 : queue.peek().map_or(false, |x| x.time <= self.now())
95 386758 : }
96 :
97 : /// Clear all pending events.
98 503 : pub(crate) fn clear(&self) {
99 503 : self.queue.lock().clear();
100 503 : }
101 : }
102 :
103 : struct Pending {
104 : time: u64,
105 : nonce: u32,
106 : wake_context: Arc<ThreadContext>,
107 : }
108 :
109 : // BinaryHeap is a max-heap, and we want a min-heap. Reverse the ordering here
110 : // to get that.
111 : impl PartialOrd for Pending {
112 1825404 : fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
113 1825404 : Some(self.cmp(other))
114 1825404 : }
115 : }
116 :
117 : impl Ord for Pending {
118 1825404 : fn cmp(&self, other: &Self) -> Ordering {
119 1825404 : (other.time, other.nonce).cmp(&(self.time, self.nonce))
120 1825404 : }
121 : }
122 :
123 : impl PartialEq for Pending {
124 0 : fn eq(&self, other: &Self) -> bool {
125 0 : (other.time, other.nonce) == (self.time, self.nonce)
126 0 : }
127 : }
128 :
129 : impl Eq for Pending {}
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