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|
use super::*;
use slab;
use indexmap::{self, IndexMap};
use std::convert::Infallible;
use std::fmt;
use std::marker::PhantomData;
use std::ops;
/// Storage for streams
#[derive(Debug)]
pub(super) struct Store {
slab: slab::Slab<Stream>,
ids: IndexMap<StreamId, SlabIndex>,
}
/// "Pointer" to an entry in the store
pub(super) struct Ptr<'a> {
key: Key,
store: &'a mut Store,
}
/// References an entry in the store.
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub(crate) struct Key {
index: SlabIndex,
/// Keep the stream ID in the key as an ABA guard, since slab indices
/// could be re-used with a new stream.
stream_id: StreamId,
}
// We can never have more than `StreamId::MAX` streams in the store,
// so we can save a smaller index (u32 vs usize).
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
struct SlabIndex(u32);
#[derive(Debug)]
pub(super) struct Queue<N> {
indices: Option<store::Indices>,
_p: PhantomData<N>,
}
pub(super) trait Next {
fn next(stream: &Stream) -> Option<Key>;
fn set_next(stream: &mut Stream, key: Option<Key>);
fn take_next(stream: &mut Stream) -> Option<Key>;
fn is_queued(stream: &Stream) -> bool;
fn set_queued(stream: &mut Stream, val: bool);
}
/// A linked list
#[derive(Debug, Clone, Copy)]
struct Indices {
pub head: Key,
pub tail: Key,
}
pub(super) enum Entry<'a> {
Occupied(OccupiedEntry<'a>),
Vacant(VacantEntry<'a>),
}
pub(super) struct OccupiedEntry<'a> {
ids: indexmap::map::OccupiedEntry<'a, StreamId, SlabIndex>,
}
pub(super) struct VacantEntry<'a> {
ids: indexmap::map::VacantEntry<'a, StreamId, SlabIndex>,
slab: &'a mut slab::Slab<Stream>,
}
pub(super) trait Resolve {
fn resolve(&mut self, key: Key) -> Ptr;
}
// ===== impl Store =====
impl Store {
pub fn new() -> Self {
Store {
slab: slab::Slab::new(),
ids: IndexMap::new(),
}
}
pub fn find_mut(&mut self, id: &StreamId) -> Option<Ptr> {
let index = match self.ids.get(id) {
Some(key) => *key,
None => return None,
};
Some(Ptr {
key: Key {
index,
stream_id: *id,
},
store: self,
})
}
pub fn insert(&mut self, id: StreamId, val: Stream) -> Ptr {
let index = SlabIndex(self.slab.insert(val) as u32);
assert!(self.ids.insert(id, index).is_none());
Ptr {
key: Key {
index,
stream_id: id,
},
store: self,
}
}
pub fn find_entry(&mut self, id: StreamId) -> Entry {
use self::indexmap::map::Entry::*;
match self.ids.entry(id) {
Occupied(e) => Entry::Occupied(OccupiedEntry { ids: e }),
Vacant(e) => Entry::Vacant(VacantEntry {
ids: e,
slab: &mut self.slab,
}),
}
}
pub(crate) fn for_each<F>(&mut self, mut f: F)
where
F: FnMut(Ptr),
{
match self.try_for_each(|ptr| {
f(ptr);
Ok::<_, Infallible>(())
}) {
Ok(()) => (),
Err(infallible) => match infallible {},
}
}
pub fn try_for_each<F, E>(&mut self, mut f: F) -> Result<(), E>
where
F: FnMut(Ptr) -> Result<(), E>,
{
let mut len = self.ids.len();
let mut i = 0;
while i < len {
// Get the key by index, this makes the borrow checker happy
let (stream_id, index) = {
let entry = self.ids.get_index(i).unwrap();
(*entry.0, *entry.1)
};
f(Ptr {
key: Key { index, stream_id },
store: self,
})?;
// TODO: This logic probably could be better...
let new_len = self.ids.len();
if new_len < len {
debug_assert!(new_len == len - 1);
len -= 1;
} else {
i += 1;
}
}
Ok(())
}
}
impl Resolve for Store {
fn resolve(&mut self, key: Key) -> Ptr {
Ptr { key, store: self }
}
}
impl ops::Index<Key> for Store {
type Output = Stream;
fn index(&self, key: Key) -> &Self::Output {
self.slab
.get(key.index.0 as usize)
.filter(|s| s.id == key.stream_id)
.unwrap_or_else(|| {
panic!("dangling store key for stream_id={:?}", key.stream_id);
})
}
}
impl ops::IndexMut<Key> for Store {
fn index_mut(&mut self, key: Key) -> &mut Self::Output {
self.slab
.get_mut(key.index.0 as usize)
.filter(|s| s.id == key.stream_id)
.unwrap_or_else(|| {
panic!("dangling store key for stream_id={:?}", key.stream_id);
})
}
}
impl Store {
#[cfg(feature = "unstable")]
pub fn num_active_streams(&self) -> usize {
self.ids.len()
}
#[cfg(feature = "unstable")]
pub fn num_wired_streams(&self) -> usize {
self.slab.len()
}
}
// While running h2 unit/integration tests, enable this debug assertion.
//
// In practice, we don't need to ensure this. But the integration tests
// help to make sure we've cleaned up in cases where we could (like, the
// runtime isn't suddenly dropping the task for unknown reasons).
#[cfg(feature = "unstable")]
impl Drop for Store {
fn drop(&mut self) {
use std::thread;
if !thread::panicking() {
debug_assert!(self.slab.is_empty());
}
}
}
// ===== impl Queue =====
impl<N> Queue<N>
where
N: Next,
{
pub fn new() -> Self {
Queue {
indices: None,
_p: PhantomData,
}
}
pub fn take(&mut self) -> Self {
Queue {
indices: self.indices.take(),
_p: PhantomData,
}
}
/// Queue the stream.
///
/// If the stream is already contained by the list, return `false`.
pub fn push(&mut self, stream: &mut store::Ptr) -> bool {
tracing::trace!("Queue::push");
if N::is_queued(stream) {
tracing::trace!(" -> already queued");
return false;
}
N::set_queued(stream, true);
// The next pointer shouldn't be set
debug_assert!(N::next(stream).is_none());
// Queue the stream
match self.indices {
Some(ref mut idxs) => {
tracing::trace!(" -> existing entries");
// Update the current tail node to point to `stream`
let key = stream.key();
N::set_next(&mut stream.resolve(idxs.tail), Some(key));
// Update the tail pointer
idxs.tail = stream.key();
}
None => {
tracing::trace!(" -> first entry");
self.indices = Some(store::Indices {
head: stream.key(),
tail: stream.key(),
});
}
}
true
}
pub fn pop<'a, R>(&mut self, store: &'a mut R) -> Option<store::Ptr<'a>>
where
R: Resolve,
{
if let Some(mut idxs) = self.indices {
let mut stream = store.resolve(idxs.head);
if idxs.head == idxs.tail {
assert!(N::next(&*stream).is_none());
self.indices = None;
} else {
idxs.head = N::take_next(&mut *stream).unwrap();
self.indices = Some(idxs);
}
debug_assert!(N::is_queued(&*stream));
N::set_queued(&mut *stream, false);
return Some(stream);
}
None
}
pub fn is_empty(&self) -> bool {
self.indices.is_none()
}
pub fn pop_if<'a, R, F>(&mut self, store: &'a mut R, f: F) -> Option<store::Ptr<'a>>
where
R: Resolve,
F: Fn(&Stream) -> bool,
{
if let Some(idxs) = self.indices {
let should_pop = f(&store.resolve(idxs.head));
if should_pop {
return self.pop(store);
}
}
None
}
}
// ===== impl Ptr =====
impl<'a> Ptr<'a> {
/// Returns the Key associated with the stream
pub fn key(&self) -> Key {
self.key
}
pub fn store_mut(&mut self) -> &mut Store {
&mut self.store
}
/// Remove the stream from the store
pub fn remove(self) -> StreamId {
// The stream must have been unlinked before this point
debug_assert!(!self.store.ids.contains_key(&self.key.stream_id));
// Remove the stream state
let stream = self.store.slab.remove(self.key.index.0 as usize);
assert_eq!(stream.id, self.key.stream_id);
stream.id
}
/// Remove the StreamId -> stream state association.
///
/// This will effectively remove the stream as far as the H2 protocol is
/// concerned.
pub fn unlink(&mut self) {
let id = self.key.stream_id;
self.store.ids.swap_remove(&id);
}
}
impl<'a> Resolve for Ptr<'a> {
fn resolve(&mut self, key: Key) -> Ptr {
Ptr {
key,
store: &mut *self.store,
}
}
}
impl<'a> ops::Deref for Ptr<'a> {
type Target = Stream;
fn deref(&self) -> &Stream {
&self.store[self.key]
}
}
impl<'a> ops::DerefMut for Ptr<'a> {
fn deref_mut(&mut self) -> &mut Stream {
&mut self.store[self.key]
}
}
impl<'a> fmt::Debug for Ptr<'a> {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
(**self).fmt(fmt)
}
}
// ===== impl OccupiedEntry =====
impl<'a> OccupiedEntry<'a> {
pub fn key(&self) -> Key {
let stream_id = *self.ids.key();
let index = *self.ids.get();
Key { index, stream_id }
}
}
// ===== impl VacantEntry =====
impl<'a> VacantEntry<'a> {
pub fn insert(self, value: Stream) -> Key {
// Insert the value in the slab
let stream_id = value.id;
let index = SlabIndex(self.slab.insert(value) as u32);
// Insert the handle in the ID map
self.ids.insert(index);
Key { index, stream_id }
}
}
|