// Copyright 2019 Parity Technologies (UK) Ltd. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the "Software"), // to deal in the Software without restriction, including without limitation // the rights to use, copy, modify, merge, publish, distribute, sublicense, // and/or sell copies of the Software, and to permit persons to whom the // Software is furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING // FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER // DEALINGS IN THE SOFTWARE. //! The `Entry` API for querying and modifying the entries of a `KBucketsTable` //! representing the nodes participating in the Kademlia DHT. pub(crate) use super::bucket::{AppliedPending, InsertResult, Node, K_VALUE}; pub use super::key::*; use super::*; /// An immutable by-reference view of a bucket entry. pub struct EntryRefView<'a, TPeerId, TVal> { /// The node represented by the entry. pub node: NodeRefView<'a, TPeerId, TVal>, /// The status of the node identified by the key. pub status: NodeStatus, } /// An immutable by-reference view of a `Node`. pub struct NodeRefView<'a, TKey, TVal> { pub key: &'a TKey, pub value: &'a TVal, } impl EntryRefView<'_, TKey, TVal> { pub fn to_owned(&self) -> EntryView where TKey: Clone, TVal: Clone, { EntryView { node: Node { key: self.node.key.clone(), value: self.node.value.clone(), }, status: self.status, } } } /// A cloned, immutable view of an entry that is either present in a bucket /// or pending insertion. #[derive(Clone, Debug)] pub struct EntryView { /// The node represented by the entry. pub node: Node, /// The status of the node. pub status: NodeStatus, } impl, TVal> AsRef for EntryView { fn as_ref(&self) -> &KeyBytes { self.node.key.as_ref() } } /// A reference into a single entry of a `KBucketsTable`. #[derive(Debug)] pub(crate) enum Entry<'a, TPeerId, TVal> { /// The entry is present in a bucket. Present(PresentEntry<'a, TPeerId, TVal>, NodeStatus), /// The entry is pending insertion in a bucket. Pending(PendingEntry<'a, TPeerId, TVal>, NodeStatus), /// The entry is absent and may be inserted. Absent(AbsentEntry<'a, TPeerId, TVal>), } /// The internal representation of the different states of an `Entry`, /// referencing the associated key and bucket. #[derive(Debug)] struct EntryRef<'a, TKey, TVal> { bucket: &'a mut KBucket, key: &'a TKey, } impl<'a, TKey, TVal> Entry<'a, TKey, TVal> where TKey: Clone + AsRef, TVal: Clone, { /// Creates a new `Entry` for a `Key`, encapsulating access to a bucket. pub(super) fn new(bucket: &'a mut KBucket, key: &'a TKey) -> Self { if let Some(pos) = bucket.position(key) { let status = bucket.status(pos); Entry::Present(PresentEntry::new(bucket, key), status) } else if let Some(pending) = bucket.as_pending(key) { let status = pending.status(); Entry::Pending(PendingEntry::new(bucket, key), status) } else { Entry::Absent(AbsentEntry::new(bucket, key)) } } /// Creates an immutable by-reference view of the entry. /// /// Returns `None` if the entry is neither present in a bucket nor /// pending insertion into a bucket. pub(crate) fn view(&'a mut self) -> Option> { match self { Entry::Present(entry, status) => Some(EntryRefView { node: NodeRefView { key: entry.0.key, value: entry.value(), }, status: *status, }), Entry::Pending(entry, status) => Some(EntryRefView { node: NodeRefView { key: entry.0.key, value: entry.value(), }, status: *status, }), _ => None, } } /// Returns the value associated with the entry. /// /// Returns `None` if the entry is absent from any bucket or refers to the /// local node. pub(crate) fn value(&mut self) -> Option<&mut TVal> { match self { Entry::Present(entry, _) => Some(entry.value()), Entry::Pending(entry, _) => Some(entry.value()), Entry::Absent(_) => None, } } } /// An entry present in a bucket. #[derive(Debug)] pub(crate) struct PresentEntry<'a, TKey, TVal>(EntryRef<'a, TKey, TVal>); impl<'a, TKey, TVal> PresentEntry<'a, TKey, TVal> where TKey: Clone + AsRef, TVal: Clone, { fn new(bucket: &'a mut KBucket, key: &'a TKey) -> Self { PresentEntry(EntryRef { bucket, key }) } /// Returns the value associated with the key. pub(crate) fn value(&mut self) -> &mut TVal { &mut self .0 .bucket .get_mut(self.0.key) .expect("We can only build a PresentEntry if the entry is in the bucket; QED") .value } /// Sets the status of the entry to the provided [`NodeStatus`]. pub(crate) fn update(&mut self, status: NodeStatus) { self.0.bucket.update(self.0.key, status); } /// Removes the entry from the bucket. pub(crate) fn remove(self) -> EntryView { let (node, status, _pos) = self .0 .bucket .remove(self.0.key) .expect("We can only build a PresentEntry if the entry is in the bucket; QED"); EntryView { node, status } } } /// An entry waiting for a slot to be available in a bucket. #[derive(Debug)] pub(crate) struct PendingEntry<'a, TKey, TVal>(EntryRef<'a, TKey, TVal>); impl<'a, TKey, TVal> PendingEntry<'a, TKey, TVal> where TKey: Clone + AsRef, TVal: Clone, { fn new(bucket: &'a mut KBucket, key: &'a TKey) -> Self { PendingEntry(EntryRef { bucket, key }) } /// Returns the value associated with the key. pub(crate) fn value(&mut self) -> &mut TVal { self.0 .bucket .pending_mut() .expect("We can only build a ConnectedPendingEntry if the entry is pending; QED") .value_mut() } /// Updates the status of the pending entry. pub(crate) fn update(self, status: NodeStatus) -> PendingEntry<'a, TKey, TVal> { self.0.bucket.update_pending(status); PendingEntry::new(self.0.bucket, self.0.key) } /// Removes the pending entry from the bucket. pub(crate) fn remove(self) -> EntryView { let pending = self.0.bucket.remove_pending().expect( "We can only build a PendingEntry if the entry is pending insertion into the bucket; QED", ); let status = pending.status(); let node = pending.into_node(); EntryView { node, status } } } /// An entry that is not present in any bucket. #[derive(Debug)] pub(crate) struct AbsentEntry<'a, TKey, TVal>(EntryRef<'a, TKey, TVal>); impl<'a, TKey, TVal> AbsentEntry<'a, TKey, TVal> where TKey: Clone + AsRef, TVal: Clone, { fn new(bucket: &'a mut KBucket, key: &'a TKey) -> Self { AbsentEntry(EntryRef { bucket, key }) } /// Attempts to insert the entry into a bucket. pub(crate) fn insert(self, value: TVal, status: NodeStatus) -> InsertResult { self.0.bucket.insert( Node { key: self.0.key.clone(), value, }, status, ) } }