From 1b6a04ca5504955c571d1c97504fb45ea0befee4 Mon Sep 17 00:00:00 2001 From: Valentin Popov Date: Mon, 8 Jan 2024 01:21:28 +0400 Subject: Initial vendor packages Signed-off-by: Valentin Popov --- vendor/crossbeam-epoch/src/sync/list.rs | 487 ++++++++++++++++++++++++++++++++ 1 file changed, 487 insertions(+) create mode 100644 vendor/crossbeam-epoch/src/sync/list.rs (limited to 'vendor/crossbeam-epoch/src/sync/list.rs') diff --git a/vendor/crossbeam-epoch/src/sync/list.rs b/vendor/crossbeam-epoch/src/sync/list.rs new file mode 100644 index 0000000..52ffd6f --- /dev/null +++ b/vendor/crossbeam-epoch/src/sync/list.rs @@ -0,0 +1,487 @@ +//! Lock-free intrusive linked list. +//! +//! Ideas from Michael. High Performance Dynamic Lock-Free Hash Tables and List-Based Sets. SPAA +//! 2002. + +use core::marker::PhantomData; +use core::sync::atomic::Ordering::{Acquire, Relaxed, Release}; + +use crate::{unprotected, Atomic, Guard, Shared}; + +/// An entry in a linked list. +/// +/// An Entry is accessed from multiple threads, so it would be beneficial to put it in a different +/// cache-line than thread-local data in terms of performance. +#[derive(Debug)] +pub(crate) struct Entry { + /// The next entry in the linked list. + /// If the tag is 1, this entry is marked as deleted. + next: Atomic, +} + +/// Implementing this trait asserts that the type `T` can be used as an element in the intrusive +/// linked list defined in this module. `T` has to contain (or otherwise be linked to) an instance +/// of `Entry`. +/// +/// # Example +/// +/// ```ignore +/// struct A { +/// entry: Entry, +/// data: usize, +/// } +/// +/// impl IsElement for A { +/// fn entry_of(a: &A) -> &Entry { +/// let entry_ptr = ((a as usize) + offset_of!(A, entry)) as *const Entry; +/// unsafe { &*entry_ptr } +/// } +/// +/// unsafe fn element_of(entry: &Entry) -> &T { +/// let elem_ptr = ((entry as usize) - offset_of!(A, entry)) as *const T; +/// &*elem_ptr +/// } +/// +/// unsafe fn finalize(entry: &Entry, guard: &Guard) { +/// guard.defer_destroy(Shared::from(Self::element_of(entry) as *const _)); +/// } +/// } +/// ``` +/// +/// This trait is implemented on a type separate from `T` (although it can be just `T`), because +/// one type might be placeable into multiple lists, in which case it would require multiple +/// implementations of `IsElement`. In such cases, each struct implementing `IsElement` +/// represents a distinct `Entry` in `T`. +/// +/// For example, we can insert the following struct into two lists using `entry1` for one +/// and `entry2` for the other: +/// +/// ```ignore +/// struct B { +/// entry1: Entry, +/// entry2: Entry, +/// data: usize, +/// } +/// ``` +/// +pub(crate) trait IsElement { + /// Returns a reference to this element's `Entry`. + fn entry_of(_: &T) -> &Entry; + + /// Given a reference to an element's entry, returns that element. + /// + /// ```ignore + /// let elem = ListElement::new(); + /// assert_eq!(elem.entry_of(), + /// unsafe { ListElement::element_of(elem.entry_of()) } ); + /// ``` + /// + /// # Safety + /// + /// The caller has to guarantee that the `Entry` is called with was retrieved from an instance + /// of the element type (`T`). + unsafe fn element_of(_: &Entry) -> &T; + + /// The function that is called when an entry is unlinked from list. + /// + /// # Safety + /// + /// The caller has to guarantee that the `Entry` is called with was retrieved from an instance + /// of the element type (`T`). + unsafe fn finalize(_: &Entry, _: &Guard); +} + +/// A lock-free, intrusive linked list of type `T`. +#[derive(Debug)] +pub(crate) struct List = T> { + /// The head of the linked list. + head: Atomic, + + /// The phantom data for using `T` and `C`. + _marker: PhantomData<(T, C)>, +} + +/// An iterator used for retrieving values from the list. +pub(crate) struct Iter<'g, T, C: IsElement> { + /// The guard that protects the iteration. + guard: &'g Guard, + + /// Pointer from the predecessor to the current entry. + pred: &'g Atomic, + + /// The current entry. + curr: Shared<'g, Entry>, + + /// The list head, needed for restarting iteration. + head: &'g Atomic, + + /// Logically, we store a borrow of an instance of `T` and + /// use the type information from `C`. + _marker: PhantomData<(&'g T, C)>, +} + +/// An error that occurs during iteration over the list. +#[derive(PartialEq, Debug)] +pub(crate) enum IterError { + /// A concurrent thread modified the state of the list at the same place that this iterator + /// was inspecting. Subsequent iteration will restart from the beginning of the list. + Stalled, +} + +impl Default for Entry { + /// Returns the empty entry. + fn default() -> Self { + Self { + next: Atomic::null(), + } + } +} + +impl Entry { + /// Marks this entry as deleted, deferring the actual deallocation to a later iteration. + /// + /// # Safety + /// + /// The entry should be a member of a linked list, and it should not have been deleted. + /// It should be safe to call `C::finalize` on the entry after the `guard` is dropped, where `C` + /// is the associated helper for the linked list. + pub(crate) unsafe fn delete(&self, guard: &Guard) { + self.next.fetch_or(1, Release, guard); + } +} + +impl> List { + /// Returns a new, empty linked list. + pub(crate) fn new() -> Self { + Self { + head: Atomic::null(), + _marker: PhantomData, + } + } + + /// Inserts `entry` into the head of the list. + /// + /// # Safety + /// + /// You should guarantee that: + /// + /// - `container` is not null + /// - `container` is immovable, e.g. inside an `Owned` + /// - the same `Entry` is not inserted more than once + /// - the inserted object will be removed before the list is dropped + pub(crate) unsafe fn insert<'g>(&'g self, container: Shared<'g, T>, guard: &'g Guard) { + // Insert right after head, i.e. at the beginning of the list. + let to = &self.head; + // Get the intrusively stored Entry of the new element to insert. + let entry: &Entry = C::entry_of(container.deref()); + // Make a Shared ptr to that Entry. + let entry_ptr = Shared::from(entry as *const _); + // Read the current successor of where we want to insert. + let mut next = to.load(Relaxed, guard); + + loop { + // Set the Entry of the to-be-inserted element to point to the previous successor of + // `to`. + entry.next.store(next, Relaxed); + match to.compare_exchange_weak(next, entry_ptr, Release, Relaxed, guard) { + Ok(_) => break, + // We lost the race or weak CAS failed spuriously. Update the successor and try + // again. + Err(err) => next = err.current, + } + } + } + + /// Returns an iterator over all objects. + /// + /// # Caveat + /// + /// Every object that is inserted at the moment this function is called and persists at least + /// until the end of iteration will be returned. Since this iterator traverses a lock-free + /// linked list that may be concurrently modified, some additional caveats apply: + /// + /// 1. If a new object is inserted during iteration, it may or may not be returned. + /// 2. If an object is deleted during iteration, it may or may not be returned. + /// 3. The iteration may be aborted when it lost in a race condition. In this case, the winning + /// thread will continue to iterate over the same list. + pub(crate) fn iter<'g>(&'g self, guard: &'g Guard) -> Iter<'g, T, C> { + Iter { + guard, + pred: &self.head, + curr: self.head.load(Acquire, guard), + head: &self.head, + _marker: PhantomData, + } + } +} + +impl> Drop for List { + fn drop(&mut self) { + unsafe { + let guard = unprotected(); + let mut curr = self.head.load(Relaxed, guard); + while let Some(c) = curr.as_ref() { + let succ = c.next.load(Relaxed, guard); + // Verify that all elements have been removed from the list. + assert_eq!(succ.tag(), 1); + + C::finalize(curr.deref(), guard); + curr = succ; + } + } + } +} + +impl<'g, T: 'g, C: IsElement> Iterator for Iter<'g, T, C> { + type Item = Result<&'g T, IterError>; + + fn next(&mut self) -> Option { + while let Some(c) = unsafe { self.curr.as_ref() } { + let succ = c.next.load(Acquire, self.guard); + + if succ.tag() == 1 { + // This entry was removed. Try unlinking it from the list. + let succ = succ.with_tag(0); + + // The tag should always be zero, because removing a node after a logically deleted + // node leaves the list in an invalid state. + debug_assert!(self.curr.tag() == 0); + + // Try to unlink `curr` from the list, and get the new value of `self.pred`. + let succ = match self + .pred + .compare_exchange(self.curr, succ, Acquire, Acquire, self.guard) + { + Ok(_) => { + // We succeeded in unlinking `curr`, so we have to schedule + // deallocation. Deferred drop is okay, because `list.delete()` can only be + // called if `T: 'static`. + unsafe { + C::finalize(self.curr.deref(), self.guard); + } + + // `succ` is the new value of `self.pred`. + succ + } + Err(e) => { + // `e.current` is the current value of `self.pred`. + e.current + } + }; + + // If the predecessor node is already marked as deleted, we need to restart from + // `head`. + if succ.tag() != 0 { + self.pred = self.head; + self.curr = self.head.load(Acquire, self.guard); + + return Some(Err(IterError::Stalled)); + } + + // Move over the removed by only advancing `curr`, not `pred`. + self.curr = succ; + continue; + } + + // Move one step forward. + self.pred = &c.next; + self.curr = succ; + + return Some(Ok(unsafe { C::element_of(c) })); + } + + // We reached the end of the list. + None + } +} + +#[cfg(all(test, not(crossbeam_loom)))] +mod tests { + use super::*; + use crate::{Collector, Owned}; + use crossbeam_utils::thread; + use std::sync::Barrier; + + impl IsElement for Entry { + fn entry_of(entry: &Entry) -> &Entry { + entry + } + + unsafe fn element_of(entry: &Entry) -> &Entry { + entry + } + + unsafe fn finalize(entry: &Entry, guard: &Guard) { + guard.defer_destroy(Shared::from(Self::element_of(entry) as *const _)); + } + } + + /// Checks whether the list retains inserted elements + /// and returns them in the correct order. + #[test] + fn insert() { + let collector = Collector::new(); + let handle = collector.register(); + let guard = handle.pin(); + + let l: List = List::new(); + + let e1 = Owned::new(Entry::default()).into_shared(&guard); + let e2 = Owned::new(Entry::default()).into_shared(&guard); + let e3 = Owned::new(Entry::default()).into_shared(&guard); + + unsafe { + l.insert(e1, &guard); + l.insert(e2, &guard); + l.insert(e3, &guard); + } + + let mut iter = l.iter(&guard); + let maybe_e3 = iter.next(); + assert!(maybe_e3.is_some()); + assert!(maybe_e3.unwrap().unwrap() as *const Entry == e3.as_raw()); + let maybe_e2 = iter.next(); + assert!(maybe_e2.is_some()); + assert!(maybe_e2.unwrap().unwrap() as *const Entry == e2.as_raw()); + let maybe_e1 = iter.next(); + assert!(maybe_e1.is_some()); + assert!(maybe_e1.unwrap().unwrap() as *const Entry == e1.as_raw()); + assert!(iter.next().is_none()); + + unsafe { + e1.as_ref().unwrap().delete(&guard); + e2.as_ref().unwrap().delete(&guard); + e3.as_ref().unwrap().delete(&guard); + } + } + + /// Checks whether elements can be removed from the list and whether + /// the correct elements are removed. + #[test] + fn delete() { + let collector = Collector::new(); + let handle = collector.register(); + let guard = handle.pin(); + + let l: List = List::new(); + + let e1 = Owned::new(Entry::default()).into_shared(&guard); + let e2 = Owned::new(Entry::default()).into_shared(&guard); + let e3 = Owned::new(Entry::default()).into_shared(&guard); + unsafe { + l.insert(e1, &guard); + l.insert(e2, &guard); + l.insert(e3, &guard); + e2.as_ref().unwrap().delete(&guard); + } + + let mut iter = l.iter(&guard); + let maybe_e3 = iter.next(); + assert!(maybe_e3.is_some()); + assert!(maybe_e3.unwrap().unwrap() as *const Entry == e3.as_raw()); + let maybe_e1 = iter.next(); + assert!(maybe_e1.is_some()); + assert!(maybe_e1.unwrap().unwrap() as *const Entry == e1.as_raw()); + assert!(iter.next().is_none()); + + unsafe { + e1.as_ref().unwrap().delete(&guard); + e3.as_ref().unwrap().delete(&guard); + } + + let mut iter = l.iter(&guard); + assert!(iter.next().is_none()); + } + + const THREADS: usize = 8; + const ITERS: usize = 512; + + /// Contends the list on insert and delete operations to make sure they can run concurrently. + #[test] + fn insert_delete_multi() { + let collector = Collector::new(); + + let l: List = List::new(); + let b = Barrier::new(THREADS); + + thread::scope(|s| { + for _ in 0..THREADS { + s.spawn(|_| { + b.wait(); + + let handle = collector.register(); + let guard: Guard = handle.pin(); + let mut v = Vec::with_capacity(ITERS); + + for _ in 0..ITERS { + let e = Owned::new(Entry::default()).into_shared(&guard); + v.push(e); + unsafe { + l.insert(e, &guard); + } + } + + for e in v { + unsafe { + e.as_ref().unwrap().delete(&guard); + } + } + }); + } + }) + .unwrap(); + + let handle = collector.register(); + let guard = handle.pin(); + + let mut iter = l.iter(&guard); + assert!(iter.next().is_none()); + } + + /// Contends the list on iteration to make sure that it can be iterated over concurrently. + #[test] + fn iter_multi() { + let collector = Collector::new(); + + let l: List = List::new(); + let b = Barrier::new(THREADS); + + thread::scope(|s| { + for _ in 0..THREADS { + s.spawn(|_| { + b.wait(); + + let handle = collector.register(); + let guard: Guard = handle.pin(); + let mut v = Vec::with_capacity(ITERS); + + for _ in 0..ITERS { + let e = Owned::new(Entry::default()).into_shared(&guard); + v.push(e); + unsafe { + l.insert(e, &guard); + } + } + + let mut iter = l.iter(&guard); + for _ in 0..ITERS { + assert!(iter.next().is_some()); + } + + for e in v { + unsafe { + e.as_ref().unwrap().delete(&guard); + } + } + }); + } + }) + .unwrap(); + + let handle = collector.register(); + let guard = handle.pin(); + + let mut iter = l.iter(&guard); + assert!(iter.next().is_none()); + } +} -- cgit v1.2.3