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// Copyright 2018 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.
//! Implementation of the `Kademlia` network behaviour.
mod test;
use crate::addresses::Addresses;
use crate::handler::{
KademliaHandlerConfig, KademliaHandlerEvent, KademliaHandlerIn, KademliaHandlerProto,
KademliaRequestId,
};
use crate::jobs::*;
use crate::kbucket::{self, Distance, KBucketsTable, NodeStatus};
use crate::protocol::{KadConnectionType, KadPeer, KademliaProtocolConfig};
use crate::query::{Query, QueryConfig, QueryId, QueryPool, QueryPoolState};
use crate::record::{
self,
store::{self, RecordStore},
ProviderRecord, Record,
};
use crate::K_VALUE;
use fnv::{FnvHashMap, FnvHashSet};
use instant::Instant;
use libp2p_core::{connection::ConnectionId, ConnectedPoint, Multiaddr, PeerId};
use libp2p_swarm::behaviour::{
AddressChange, ConnectionClosed, ConnectionEstablished, DialFailure, ExpiredListenAddr,
FromSwarm, NewExternalAddr, NewListenAddr,
};
use libp2p_swarm::{
dial_opts::{self, DialOpts},
DialError, NetworkBehaviour, NetworkBehaviourAction, NotifyHandler, PollParameters,
};
use log::{debug, info, warn};
use smallvec::SmallVec;
use std::collections::{BTreeMap, HashSet, VecDeque};
use std::fmt;
use std::num::NonZeroUsize;
use std::task::{Context, Poll};
use std::vec;
use std::{borrow::Cow, time::Duration};
use thiserror::Error;
pub use crate::query::QueryStats;
/// `Kademlia` is a `NetworkBehaviour` that implements the libp2p
/// Kademlia protocol.
pub struct Kademlia<TStore> {
/// The Kademlia routing table.
kbuckets: KBucketsTable<kbucket::Key<PeerId>, Addresses>,
/// The k-bucket insertion strategy.
kbucket_inserts: KademliaBucketInserts,
/// Configuration of the wire protocol.
protocol_config: KademliaProtocolConfig,
/// Configuration of [`RecordStore`] filtering.
record_filtering: KademliaStoreInserts,
/// The currently active (i.e. in-progress) queries.
queries: QueryPool<QueryInner>,
/// The currently connected peers.
///
/// This is a superset of the connected peers currently in the routing table.
connected_peers: FnvHashSet<PeerId>,
/// Periodic job for re-publication of provider records for keys
/// provided by the local node.
add_provider_job: Option<AddProviderJob>,
/// Periodic job for (re-)replication and (re-)publishing of
/// regular (value-)records.
put_record_job: Option<PutRecordJob>,
/// The TTL of regular (value-)records.
record_ttl: Option<Duration>,
/// The TTL of provider records.
provider_record_ttl: Option<Duration>,
/// How long to keep connections alive when they're idle.
connection_idle_timeout: Duration,
/// Queued events to return when the behaviour is being polled.
queued_events: VecDeque<NetworkBehaviourAction<KademliaEvent, KademliaHandlerProto<QueryId>>>,
/// The currently known addresses of the local node.
local_addrs: HashSet<Multiaddr>,
/// See [`KademliaConfig::caching`].
caching: KademliaCaching,
/// The record storage.
store: TStore,
}
/// The configurable strategies for the insertion of peers
/// and their addresses into the k-buckets of the Kademlia
/// routing table.
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
pub enum KademliaBucketInserts {
/// Whenever a connection to a peer is established as a
/// result of a dialing attempt and that peer is not yet
/// in the routing table, it is inserted as long as there
/// is a free slot in the corresponding k-bucket. If the
/// k-bucket is full but still has a free pending slot,
/// it may be inserted into the routing table at a later time if an unresponsive
/// disconnected peer is evicted from the bucket.
OnConnected,
/// New peers and addresses are only added to the routing table via
/// explicit calls to [`Kademlia::add_address`].
///
/// > **Note**: Even though peers can only get into the
/// > routing table as a result of [`Kademlia::add_address`],
/// > routing table entries are still updated as peers
/// > connect and disconnect (i.e. the order of the entries
/// > as well as the network addresses).
Manual,
}
/// The configurable filtering strategies for the acceptance of
/// incoming records.
///
/// This can be used for e.g. signature verification or validating
/// the accompanying [`Key`].
///
/// [`Key`]: crate::record::Key
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
pub enum KademliaStoreInserts {
/// Whenever a (provider) record is received,
/// the record is forwarded immediately to the [`RecordStore`].
Unfiltered,
/// Whenever a (provider) record is received, an event is emitted.
/// Provider records generate a [`InboundRequest::AddProvider`] under [`KademliaEvent::InboundRequest`],
/// normal records generate a [`InboundRequest::PutRecord`] under [`KademliaEvent::InboundRequest`].
///
/// When deemed valid, a (provider) record needs to be explicitly stored in
/// the [`RecordStore`] via [`RecordStore::put`] or [`RecordStore::add_provider`],
/// whichever is applicable. A mutable reference to the [`RecordStore`] can
/// be retrieved via [`Kademlia::store_mut`].
FilterBoth,
}
/// The configuration for the `Kademlia` behaviour.
///
/// The configuration is consumed by [`Kademlia::new`].
#[derive(Debug, Clone)]
pub struct KademliaConfig {
kbucket_pending_timeout: Duration,
query_config: QueryConfig,
protocol_config: KademliaProtocolConfig,
record_ttl: Option<Duration>,
record_replication_interval: Option<Duration>,
record_publication_interval: Option<Duration>,
record_filtering: KademliaStoreInserts,
provider_record_ttl: Option<Duration>,
provider_publication_interval: Option<Duration>,
connection_idle_timeout: Duration,
kbucket_inserts: KademliaBucketInserts,
caching: KademliaCaching,
}
impl Default for KademliaConfig {
fn default() -> Self {
KademliaConfig {
kbucket_pending_timeout: Duration::from_secs(60),
query_config: QueryConfig::default(),
protocol_config: Default::default(),
record_ttl: Some(Duration::from_secs(36 * 60 * 60)),
record_replication_interval: Some(Duration::from_secs(60 * 60)),
record_publication_interval: Some(Duration::from_secs(24 * 60 * 60)),
record_filtering: KademliaStoreInserts::Unfiltered,
provider_publication_interval: Some(Duration::from_secs(12 * 60 * 60)),
provider_record_ttl: Some(Duration::from_secs(24 * 60 * 60)),
connection_idle_timeout: Duration::from_secs(10),
kbucket_inserts: KademliaBucketInserts::OnConnected,
caching: KademliaCaching::Enabled { max_peers: 1 },
}
}
}
/// The configuration for Kademlia "write-back" caching after successful
/// lookups via [`Kademlia::get_record`].
#[derive(Debug, Clone)]
pub enum KademliaCaching {
/// Caching is disabled and the peers closest to records being looked up
/// that do not return a record are not tracked, i.e.
/// [`GetRecordOk::FinishedWithNoAdditionalRecord`] is always empty.
Disabled,
/// Up to `max_peers` peers not returning a record that are closest to the key
/// being looked up are tracked and returned in [`GetRecordOk::FinishedWithNoAdditionalRecord`].
/// The write-back operation must be performed explicitly, if
/// desired and after choosing a record from the results, via [`Kademlia::put_record_to`].
Enabled { max_peers: u16 },
}
impl KademliaConfig {
/// Sets custom protocol names.
///
/// Kademlia nodes only communicate with other nodes using the same protocol
/// name. Using custom name(s) therefore allows to segregate the DHT from
/// others, if that is desired.
///
/// More than one protocol name can be supplied. In this case the node will
/// be able to talk to other nodes supporting any of the provided names.
/// Multiple names must be used with caution to avoid network partitioning.
pub fn set_protocol_names(&mut self, names: Vec<Cow<'static, [u8]>>) -> &mut Self {
self.protocol_config.set_protocol_names(names);
self
}
/// Sets the timeout for a single query.
///
/// > **Note**: A single query usually comprises at least as many requests
/// > as the replication factor, i.e. this is not a request timeout.
///
/// The default is 60 seconds.
pub fn set_query_timeout(&mut self, timeout: Duration) -> &mut Self {
self.query_config.timeout = timeout;
self
}
/// Sets the replication factor to use.
///
/// The replication factor determines to how many closest peers
/// a record is replicated. The default is [`K_VALUE`].
pub fn set_replication_factor(&mut self, replication_factor: NonZeroUsize) -> &mut Self {
self.query_config.replication_factor = replication_factor;
self
}
/// Sets the allowed level of parallelism for iterative queries.
///
/// The `α` parameter in the Kademlia paper. The maximum number of peers
/// that an iterative query is allowed to wait for in parallel while
/// iterating towards the closest nodes to a target. Defaults to
/// `ALPHA_VALUE`.
///
/// This only controls the level of parallelism of an iterative query, not
/// the level of parallelism of a query to a fixed set of peers.
///
/// When used with [`KademliaConfig::disjoint_query_paths`] it equals
/// the amount of disjoint paths used.
pub fn set_parallelism(&mut self, parallelism: NonZeroUsize) -> &mut Self {
self.query_config.parallelism = parallelism;
self
}
/// Require iterative queries to use disjoint paths for increased resiliency
/// in the presence of potentially adversarial nodes.
///
/// When enabled the number of disjoint paths used equals the configured
/// parallelism.
///
/// See the S/Kademlia paper for more information on the high level design
/// as well as its security improvements.
pub fn disjoint_query_paths(&mut self, enabled: bool) -> &mut Self {
self.query_config.disjoint_query_paths = enabled;
self
}
/// Sets the TTL for stored records.
///
/// The TTL should be significantly longer than the (re-)publication
/// interval, to avoid premature expiration of records. The default is 36
/// hours.
///
/// `None` means records never expire.
///
/// Does not apply to provider records.
pub fn set_record_ttl(&mut self, record_ttl: Option<Duration>) -> &mut Self {
self.record_ttl = record_ttl;
self
}
/// Sets whether or not records should be filtered before being stored.
///
/// See [`KademliaStoreInserts`] for the different values.
/// Defaults to [`KademliaStoreInserts::Unfiltered`].
pub fn set_record_filtering(&mut self, filtering: KademliaStoreInserts) -> &mut Self {
self.record_filtering = filtering;
self
}
/// Sets the (re-)replication interval for stored records.
///
/// Periodic replication of stored records ensures that the records
/// are always replicated to the available nodes closest to the key in the
/// context of DHT topology changes (i.e. nodes joining and leaving), thus
/// ensuring persistence until the record expires. Replication does not
/// prolong the regular lifetime of a record (for otherwise it would live
/// forever regardless of the configured TTL). The expiry of a record
/// is only extended through re-publication.
///
/// This interval should be significantly shorter than the publication
/// interval, to ensure persistence between re-publications. The default
/// is 1 hour.
///
/// `None` means that stored records are never re-replicated.
///
/// Does not apply to provider records.
pub fn set_replication_interval(&mut self, interval: Option<Duration>) -> &mut Self {
self.record_replication_interval = interval;
self
}
/// Sets the (re-)publication interval of stored records.
///
/// Records persist in the DHT until they expire. By default, published
/// records are re-published in regular intervals for as long as the record
/// exists in the local storage of the original publisher, thereby extending
/// the records lifetime.
///
/// This interval should be significantly shorter than the record TTL, to
/// ensure records do not expire prematurely. The default is 24 hours.
///
/// `None` means that stored records are never automatically re-published.
///
/// Does not apply to provider records.
pub fn set_publication_interval(&mut self, interval: Option<Duration>) -> &mut Self {
self.record_publication_interval = interval;
self
}
/// Sets the TTL for provider records.
///
/// `None` means that stored provider records never expire.
///
/// Must be significantly larger than the provider publication interval.
pub fn set_provider_record_ttl(&mut self, ttl: Option<Duration>) -> &mut Self {
self.provider_record_ttl = ttl;
self
}
/// Sets the interval at which provider records for keys provided
/// by the local node are re-published.
///
/// `None` means that stored provider records are never automatically
/// re-published.
///
/// Must be significantly less than the provider record TTL.
pub fn set_provider_publication_interval(&mut self, interval: Option<Duration>) -> &mut Self {
self.provider_publication_interval = interval;
self
}
/// Sets the amount of time to keep connections alive when they're idle.
pub fn set_connection_idle_timeout(&mut self, duration: Duration) -> &mut Self {
self.connection_idle_timeout = duration;
self
}
/// Modifies the maximum allowed size of individual Kademlia packets.
///
/// It might be necessary to increase this value if trying to put large
/// records.
pub fn set_max_packet_size(&mut self, size: usize) -> &mut Self {
self.protocol_config.set_max_packet_size(size);
self
}
/// Sets the k-bucket insertion strategy for the Kademlia routing table.
pub fn set_kbucket_inserts(&mut self, inserts: KademliaBucketInserts) -> &mut Self {
self.kbucket_inserts = inserts;
self
}
/// Sets the [`KademliaCaching`] strategy to use for successful lookups.
///
/// The default is [`KademliaCaching::Enabled`] with a `max_peers` of 1.
/// Hence, with default settings and a lookup quorum of 1, a successful lookup
/// will result in the record being cached at the closest node to the key that
/// did not return the record, i.e. the standard Kademlia behaviour.
pub fn set_caching(&mut self, c: KademliaCaching) -> &mut Self {
self.caching = c;
self
}
}
impl<TStore> Kademlia<TStore>
where
for<'a> TStore: RecordStore<'a>,
TStore: Send + 'static,
{
/// Creates a new `Kademlia` network behaviour with a default configuration.
pub fn new(id: PeerId, store: TStore) -> Self {
Self::with_config(id, store, Default::default())
}
/// Get the protocol name of this kademlia instance.
pub fn protocol_names(&self) -> &[Cow<'static, [u8]>] {
self.protocol_config.protocol_names()
}
/// Creates a new `Kademlia` network behaviour with the given configuration.
pub fn with_config(id: PeerId, store: TStore, config: KademliaConfig) -> Self {
let local_key = kbucket::Key::from(id);
let put_record_job = config
.record_replication_interval
.or(config.record_publication_interval)
.map(|interval| {
PutRecordJob::new(
id,
interval,
config.record_publication_interval,
config.record_ttl,
)
});
let add_provider_job = config
.provider_publication_interval
.map(AddProviderJob::new);
Kademlia {
store,
caching: config.caching,
kbuckets: KBucketsTable::new(local_key, config.kbucket_pending_timeout),
kbucket_inserts: config.kbucket_inserts,
protocol_config: config.protocol_config,
record_filtering: config.record_filtering,
queued_events: VecDeque::with_capacity(config.query_config.replication_factor.get()),
queries: QueryPool::new(config.query_config),
connected_peers: Default::default(),
add_provider_job,
put_record_job,
record_ttl: config.record_ttl,
provider_record_ttl: config.provider_record_ttl,
connection_idle_timeout: config.connection_idle_timeout,
local_addrs: HashSet::new(),
}
}
/// Gets an iterator over immutable references to all running queries.
pub fn iter_queries(&self) -> impl Iterator<Item = QueryRef<'_>> {
self.queries.iter().filter_map(|query| {
if !query.is_finished() {
Some(QueryRef { query })
} else {
None
}
})
}
/// Gets an iterator over mutable references to all running queries.
pub fn iter_queries_mut(&mut self) -> impl Iterator<Item = QueryMut<'_>> {
self.queries.iter_mut().filter_map(|query| {
if !query.is_finished() {
Some(QueryMut { query })
} else {
None
}
})
}
/// Gets an immutable reference to a running query, if it exists.
pub fn query(&self, id: &QueryId) -> Option<QueryRef<'_>> {
self.queries.get(id).and_then(|query| {
if !query.is_finished() {
Some(QueryRef { query })
} else {
None
}
})
}
/// Gets a mutable reference to a running query, if it exists.
pub fn query_mut<'a>(&'a mut self, id: &QueryId) -> Option<QueryMut<'a>> {
self.queries.get_mut(id).and_then(|query| {
if !query.is_finished() {
Some(QueryMut { query })
} else {
None
}
})
}
/// Adds a known listen address of a peer participating in the DHT to the
/// routing table.
///
/// Explicitly adding addresses of peers serves two purposes:
///
/// 1. In order for a node to join the DHT, it must know about at least
/// one other node of the DHT.
///
/// 2. When a remote peer initiates a connection and that peer is not
/// yet in the routing table, the `Kademlia` behaviour must be
/// informed of an address on which that peer is listening for
/// connections before it can be added to the routing table
/// from where it can subsequently be discovered by all peers
/// in the DHT.
///
/// If the routing table has been updated as a result of this operation,
/// a [`KademliaEvent::RoutingUpdated`] event is emitted.
pub fn add_address(&mut self, peer: &PeerId, address: Multiaddr) -> RoutingUpdate {
let key = kbucket::Key::from(*peer);
match self.kbuckets.entry(&key) {
kbucket::Entry::Present(mut entry, _) => {
if entry.value().insert(address) {
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::RoutingUpdated {
peer: *peer,
is_new_peer: false,
addresses: entry.value().clone(),
old_peer: None,
bucket_range: self
.kbuckets
.bucket(&key)
.map(|b| b.range())
.expect("Not kbucket::Entry::SelfEntry."),
},
))
}
RoutingUpdate::Success
}
kbucket::Entry::Pending(mut entry, _) => {
entry.value().insert(address);
RoutingUpdate::Pending
}
kbucket::Entry::Absent(entry) => {
let addresses = Addresses::new(address);
let status = if self.connected_peers.contains(peer) {
NodeStatus::Connected
} else {
NodeStatus::Disconnected
};
match entry.insert(addresses.clone(), status) {
kbucket::InsertResult::Inserted => {
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::RoutingUpdated {
peer: *peer,
is_new_peer: true,
addresses,
old_peer: None,
bucket_range: self
.kbuckets
.bucket(&key)
.map(|b| b.range())
.expect("Not kbucket::Entry::SelfEntry."),
},
));
RoutingUpdate::Success
}
kbucket::InsertResult::Full => {
debug!("Bucket full. Peer not added to routing table: {}", peer);
RoutingUpdate::Failed
}
kbucket::InsertResult::Pending { disconnected } => {
let handler = self.new_handler();
self.queued_events.push_back(NetworkBehaviourAction::Dial {
opts: DialOpts::peer_id(disconnected.into_preimage()).build(),
handler,
});
RoutingUpdate::Pending
}
}
}
kbucket::Entry::SelfEntry => RoutingUpdate::Failed,
}
}
/// Removes an address of a peer from the routing table.
///
/// If the given address is the last address of the peer in the
/// routing table, the peer is removed from the routing table
/// and `Some` is returned with a view of the removed entry.
/// The same applies if the peer is currently pending insertion
/// into the routing table.
///
/// If the given peer or address is not in the routing table,
/// this is a no-op.
pub fn remove_address(
&mut self,
peer: &PeerId,
address: &Multiaddr,
) -> Option<kbucket::EntryView<kbucket::Key<PeerId>, Addresses>> {
let key = kbucket::Key::from(*peer);
match self.kbuckets.entry(&key) {
kbucket::Entry::Present(mut entry, _) => {
if entry.value().remove(address).is_err() {
Some(entry.remove()) // it is the last address, thus remove the peer.
} else {
None
}
}
kbucket::Entry::Pending(mut entry, _) => {
if entry.value().remove(address).is_err() {
Some(entry.remove()) // it is the last address, thus remove the peer.
} else {
None
}
}
kbucket::Entry::Absent(..) | kbucket::Entry::SelfEntry => None,
}
}
/// Removes a peer from the routing table.
///
/// Returns `None` if the peer was not in the routing table,
/// not even pending insertion.
pub fn remove_peer(
&mut self,
peer: &PeerId,
) -> Option<kbucket::EntryView<kbucket::Key<PeerId>, Addresses>> {
let key = kbucket::Key::from(*peer);
match self.kbuckets.entry(&key) {
kbucket::Entry::Present(entry, _) => Some(entry.remove()),
kbucket::Entry::Pending(entry, _) => Some(entry.remove()),
kbucket::Entry::Absent(..) | kbucket::Entry::SelfEntry => None,
}
}
/// Returns an iterator over all non-empty buckets in the routing table.
pub fn kbuckets(
&mut self,
) -> impl Iterator<Item = kbucket::KBucketRef<'_, kbucket::Key<PeerId>, Addresses>> {
self.kbuckets.iter().filter(|b| !b.is_empty())
}
/// Returns the k-bucket for the distance to the given key.
///
/// Returns `None` if the given key refers to the local key.
pub fn kbucket<K>(
&mut self,
key: K,
) -> Option<kbucket::KBucketRef<'_, kbucket::Key<PeerId>, Addresses>>
where
K: Into<kbucket::Key<K>> + Clone,
{
self.kbuckets.bucket(&key.into())
}
/// Initiates an iterative query for the closest peers to the given key.
///
/// The result of the query is delivered in a
/// [`KademliaEvent::OutboundQueryCompleted{QueryResult::GetClosestPeers}`].
pub fn get_closest_peers<K>(&mut self, key: K) -> QueryId
where
K: Into<kbucket::Key<K>> + Into<Vec<u8>> + Clone,
{
let target: kbucket::Key<K> = key.clone().into();
let key: Vec<u8> = key.into();
let info = QueryInfo::GetClosestPeers {
key,
step: ProgressStep::first(),
};
let peer_keys: Vec<kbucket::Key<PeerId>> = self.kbuckets.closest_keys(&target).collect();
let inner = QueryInner::new(info);
self.queries.add_iter_closest(target, peer_keys, inner)
}
/// Returns closest peers to the given key; takes peers from local routing table only.
pub fn get_closest_local_peers<'a, K: Clone>(
&'a mut self,
key: &'a kbucket::Key<K>,
) -> impl Iterator<Item = kbucket::Key<PeerId>> + 'a {
self.kbuckets.closest_keys(key)
}
/// Performs a lookup for a record in the DHT.
///
/// The result of this operation is delivered in a
/// [`KademliaEvent::OutboundQueryCompleted{QueryResult::GetRecord}`].
pub fn get_record(&mut self, key: record::Key) -> QueryId {
let record = if let Some(record) = self.store.get(&key) {
if record.is_expired(Instant::now()) {
self.store.remove(&key);
None
} else {
Some(PeerRecord {
peer: None,
record: record.into_owned(),
})
}
} else {
None
};
let step = ProgressStep::first();
let target = kbucket::Key::new(key.clone());
let info = if record.is_some() {
QueryInfo::GetRecord {
key,
step: step.next(),
found_a_record: true,
cache_candidates: BTreeMap::new(),
}
} else {
QueryInfo::GetRecord {
key,
step: step.clone(),
found_a_record: false,
cache_candidates: BTreeMap::new(),
}
};
let peers = self.kbuckets.closest_keys(&target);
let inner = QueryInner::new(info);
let id = self.queries.add_iter_closest(target.clone(), peers, inner);
// No queries were actually done for the results yet.
let stats = QueryStats::empty();
if let Some(record) = record {
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::OutboundQueryProgressed {
id,
result: QueryResult::GetRecord(Ok(GetRecordOk::FoundRecord(record))),
step,
stats,
},
));
}
id
}
/// Stores a record in the DHT, locally as well as at the nodes
/// closest to the key as per the xor distance metric.
///
/// Returns `Ok` if a record has been stored locally, providing the
/// `QueryId` of the initial query that replicates the record in the DHT.
/// The result of the query is eventually reported as a
/// [`KademliaEvent::OutboundQueryCompleted{QueryResult::PutRecord}`].
///
/// The record is always stored locally with the given expiration. If the record's
/// expiration is `None`, the common case, it does not expire in local storage
/// but is still replicated with the configured record TTL. To remove the record
/// locally and stop it from being re-published in the DHT, see [`Kademlia::remove_record`].
///
/// After the initial publication of the record, it is subject to (re-)replication
/// and (re-)publication as per the configured intervals. Periodic (re-)publication
/// does not update the record's expiration in local storage, thus a given record
/// with an explicit expiration will always expire at that instant and until then
/// is subject to regular (re-)replication and (re-)publication.
pub fn put_record(
&mut self,
mut record: Record,
quorum: Quorum,
) -> Result<QueryId, store::Error> {
record.publisher = Some(*self.kbuckets.local_key().preimage());
self.store.put(record.clone())?;
record.expires = record
.expires
.or_else(|| self.record_ttl.map(|ttl| Instant::now() + ttl));
let quorum = quorum.eval(self.queries.config().replication_factor);
let target = kbucket::Key::new(record.key.clone());
let peers = self.kbuckets.closest_keys(&target);
let context = PutRecordContext::Publish;
let info = QueryInfo::PutRecord {
context,
record,
quorum,
phase: PutRecordPhase::GetClosestPeers,
};
let inner = QueryInner::new(info);
Ok(self.queries.add_iter_closest(target.clone(), peers, inner))
}
/// Stores a record at specific peers, without storing it locally.
///
/// The given [`Quorum`] is understood in the context of the total
/// number of distinct peers given.
///
/// If the record's expiration is `None`, the configured record TTL is used.
///
/// > **Note**: This is not a regular Kademlia DHT operation. It needs to be
/// > used to selectively update or store a record to specific peers
/// > for the purpose of e.g. making sure these peers have the latest
/// > "version" of a record or to "cache" a record at further peers
/// > to increase the lookup success rate on the DHT for other peers.
/// >
/// > In particular, there is no automatic storing of records performed, and this
/// > method must be used to ensure the standard Kademlia
/// > procedure of "caching" (i.e. storing) a found record at the closest
/// > node to the key that _did not_ return it.
pub fn put_record_to<I>(&mut self, mut record: Record, peers: I, quorum: Quorum) -> QueryId
where
I: ExactSizeIterator<Item = PeerId>,
{
let quorum = if peers.len() > 0 {
quorum.eval(NonZeroUsize::new(peers.len()).expect("> 0"))
} else {
// If no peers are given, we just let the query fail immediately
// due to the fact that the quorum must be at least one, instead of
// introducing a new kind of error.
NonZeroUsize::new(1).expect("1 > 0")
};
record.expires = record
.expires
.or_else(|| self.record_ttl.map(|ttl| Instant::now() + ttl));
let context = PutRecordContext::Custom;
let info = QueryInfo::PutRecord {
context,
record,
quorum,
phase: PutRecordPhase::PutRecord {
success: Vec::new(),
get_closest_peers_stats: QueryStats::empty(),
},
};
let inner = QueryInner::new(info);
self.queries.add_fixed(peers, inner)
}
/// Removes the record with the given key from _local_ storage,
/// if the local node is the publisher of the record.
///
/// Has no effect if a record for the given key is stored locally but
/// the local node is not a publisher of the record.
///
/// This is a _local_ operation. However, it also has the effect that
/// the record will no longer be periodically re-published, allowing the
/// record to eventually expire throughout the DHT.
pub fn remove_record(&mut self, key: &record::Key) {
if let Some(r) = self.store.get(key) {
if r.publisher.as_ref() == Some(self.kbuckets.local_key().preimage()) {
self.store.remove(key)
}
}
}
/// Gets a mutable reference to the record store.
pub fn store_mut(&mut self) -> &mut TStore {
&mut self.store
}
/// Bootstraps the local node to join the DHT.
///
/// Bootstrapping is a multi-step operation that starts with a lookup of the local node's
/// own ID in the DHT. This introduces the local node to the other nodes
/// in the DHT and populates its routing table with the closest neighbours.
///
/// Subsequently, all buckets farther from the bucket of the closest neighbour are
/// refreshed by initiating an additional bootstrapping query for each such
/// bucket with random keys.
///
/// Returns `Ok` if bootstrapping has been initiated with a self-lookup, providing the
/// `QueryId` for the entire bootstrapping process. The progress of bootstrapping is
/// reported via [`KademliaEvent::OutboundQueryCompleted{QueryResult::Bootstrap}`] events,
/// with one such event per bootstrapping query.
///
/// Returns `Err` if bootstrapping is impossible due an empty routing table.
///
/// > **Note**: Bootstrapping requires at least one node of the DHT to be known.
/// > See [`Kademlia::add_address`].
pub fn bootstrap(&mut self) -> Result<QueryId, NoKnownPeers> {
let local_key = self.kbuckets.local_key().clone();
let info = QueryInfo::Bootstrap {
peer: *local_key.preimage(),
remaining: None,
step: ProgressStep::first(),
};
let peers = self.kbuckets.closest_keys(&local_key).collect::<Vec<_>>();
if peers.is_empty() {
Err(NoKnownPeers())
} else {
let inner = QueryInner::new(info);
Ok(self.queries.add_iter_closest(local_key, peers, inner))
}
}
/// Establishes the local node as a provider of a value for the given key.
///
/// This operation publishes a provider record with the given key and
/// identity of the local node to the peers closest to the key, thus establishing
/// the local node as a provider.
///
/// Returns `Ok` if a provider record has been stored locally, providing the
/// `QueryId` of the initial query that announces the local node as a provider.
///
/// The publication of the provider records is periodically repeated as per the
/// configured interval, to renew the expiry and account for changes to the DHT
/// topology. A provider record may be removed from local storage and
/// thus no longer re-published by calling [`Kademlia::stop_providing`].
///
/// In contrast to the standard Kademlia push-based model for content distribution
/// implemented by [`Kademlia::put_record`], the provider API implements a
/// pull-based model that may be used in addition or as an alternative.
/// The means by which the actual value is obtained from a provider is out of scope
/// of the libp2p Kademlia provider API.
///
/// The results of the (repeated) provider announcements sent by this node are
/// reported via [`KademliaEvent::OutboundQueryCompleted{QueryResult::StartProviding}`].
pub fn start_providing(&mut self, key: record::Key) -> Result<QueryId, store::Error> {
// Note: We store our own provider records locally without local addresses
// to avoid redundant storage and outdated addresses. Instead these are
// acquired on demand when returning a `ProviderRecord` for the local node.
let local_addrs = Vec::new();
let record = ProviderRecord::new(
key.clone(),
*self.kbuckets.local_key().preimage(),
local_addrs,
);
self.store.add_provider(record)?;
let target = kbucket::Key::new(key.clone());
let peers = self.kbuckets.closest_keys(&target);
let context = AddProviderContext::Publish;
let info = QueryInfo::AddProvider {
context,
key,
phase: AddProviderPhase::GetClosestPeers,
};
let inner = QueryInner::new(info);
let id = self.queries.add_iter_closest(target.clone(), peers, inner);
Ok(id)
}
/// Stops the local node from announcing that it is a provider for the given key.
///
/// This is a local operation. The local node will still be considered as a
/// provider for the key by other nodes until these provider records expire.
pub fn stop_providing(&mut self, key: &record::Key) {
self.store
.remove_provider(key, self.kbuckets.local_key().preimage());
}
/// Performs a lookup for providers of a value to the given key.
///
/// The result of this operation is delivered in a
/// reported via [`KademliaEvent::OutboundQueryCompleted{QueryResult::GetProviders}`].
pub fn get_providers(&mut self, key: record::Key) -> QueryId {
let providers: HashSet<_> = self
.store
.providers(&key)
.into_iter()
.filter(|p| !p.is_expired(Instant::now()))
.map(|p| p.provider)
.collect();
let step = ProgressStep::first();
let info = QueryInfo::GetProviders {
key: key.clone(),
providers_found: providers.len(),
step: if providers.is_empty() {
step.clone()
} else {
step.next()
},
};
let target = kbucket::Key::new(key.clone());
let peers = self.kbuckets.closest_keys(&target);
let inner = QueryInner::new(info);
let id = self.queries.add_iter_closest(target.clone(), peers, inner);
// No queries were actually done for the results yet.
let stats = QueryStats::empty();
if !providers.is_empty() {
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::OutboundQueryProgressed {
id,
result: QueryResult::GetProviders(Ok(GetProvidersOk::FoundProviders {
key,
providers,
})),
step,
stats,
},
));
}
id
}
/// Processes discovered peers from a successful request in an iterative `Query`.
fn discovered<'a, I>(&'a mut self, query_id: &QueryId, source: &PeerId, peers: I)
where
I: Iterator<Item = &'a KadPeer> + Clone,
{
let local_id = self.kbuckets.local_key().preimage();
let others_iter = peers.filter(|p| &p.node_id != local_id);
if let Some(query) = self.queries.get_mut(query_id) {
log::trace!("Request to {:?} in query {:?} succeeded.", source, query_id);
for peer in others_iter.clone() {
log::trace!(
"Peer {:?} reported by {:?} in query {:?}.",
peer,
source,
query_id
);
let addrs = peer.multiaddrs.iter().cloned().collect();
query.inner.addresses.insert(peer.node_id, addrs);
}
query.on_success(source, others_iter.cloned().map(|kp| kp.node_id))
}
}
/// Finds the closest peers to a `target` in the context of a request by
/// the `source` peer, such that the `source` peer is never included in the
/// result.
fn find_closest<T: Clone>(
&mut self,
target: &kbucket::Key<T>,
source: &PeerId,
) -> Vec<KadPeer> {
if target == self.kbuckets.local_key() {
Vec::new()
} else {
self.kbuckets
.closest(target)
.filter(|e| e.node.key.preimage() != source)
.take(self.queries.config().replication_factor.get())
.map(KadPeer::from)
.collect()
}
}
/// Collects all peers who are known to be providers of the value for a given `Multihash`.
fn provider_peers(&mut self, key: &record::Key, source: &PeerId) -> Vec<KadPeer> {
let kbuckets = &mut self.kbuckets;
let connected = &mut self.connected_peers;
let local_addrs = &self.local_addrs;
self.store
.providers(key)
.into_iter()
.filter_map(move |p| {
if &p.provider != source {
let node_id = p.provider;
let multiaddrs = p.addresses;
let connection_ty = if connected.contains(&node_id) {
KadConnectionType::Connected
} else {
KadConnectionType::NotConnected
};
if multiaddrs.is_empty() {
// The provider is either the local node and we fill in
// the local addresses on demand, or it is a legacy
// provider record without addresses, in which case we
// try to find addresses in the routing table, as was
// done before provider records were stored along with
// their addresses.
if &node_id == kbuckets.local_key().preimage() {
Some(local_addrs.iter().cloned().collect::<Vec<_>>())
} else {
let key = kbucket::Key::from(node_id);
kbuckets
.entry(&key)
.view()
.map(|e| e.node.value.clone().into_vec())
}
} else {
Some(multiaddrs)
}
.map(|multiaddrs| KadPeer {
node_id,
multiaddrs,
connection_ty,
})
} else {
None
}
})
.take(self.queries.config().replication_factor.get())
.collect()
}
/// Starts an iterative `ADD_PROVIDER` query for the given key.
fn start_add_provider(&mut self, key: record::Key, context: AddProviderContext) {
let info = QueryInfo::AddProvider {
context,
key: key.clone(),
phase: AddProviderPhase::GetClosestPeers,
};
let target = kbucket::Key::new(key);
let peers = self.kbuckets.closest_keys(&target);
let inner = QueryInner::new(info);
self.queries.add_iter_closest(target.clone(), peers, inner);
}
/// Starts an iterative `PUT_VALUE` query for the given record.
fn start_put_record(&mut self, record: Record, quorum: Quorum, context: PutRecordContext) {
let quorum = quorum.eval(self.queries.config().replication_factor);
let target = kbucket::Key::new(record.key.clone());
let peers = self.kbuckets.closest_keys(&target);
let info = QueryInfo::PutRecord {
record,
quorum,
context,
phase: PutRecordPhase::GetClosestPeers,
};
let inner = QueryInner::new(info);
self.queries.add_iter_closest(target.clone(), peers, inner);
}
/// Updates the routing table with a new connection status and address of a peer.
fn connection_updated(
&mut self,
peer: PeerId,
address: Option<Multiaddr>,
new_status: NodeStatus,
) {
let key = kbucket::Key::from(peer);
match self.kbuckets.entry(&key) {
kbucket::Entry::Present(mut entry, old_status) => {
if old_status != new_status {
entry.update(new_status)
}
if let Some(address) = address {
if entry.value().insert(address) {
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::RoutingUpdated {
peer,
is_new_peer: false,
addresses: entry.value().clone(),
old_peer: None,
bucket_range: self
.kbuckets
.bucket(&key)
.map(|b| b.range())
.expect("Not kbucket::Entry::SelfEntry."),
},
))
}
}
}
kbucket::Entry::Pending(mut entry, old_status) => {
if let Some(address) = address {
entry.value().insert(address);
}
if old_status != new_status {
entry.update(new_status);
}
}
kbucket::Entry::Absent(entry) => {
// Only connected nodes with a known address are newly inserted.
if new_status != NodeStatus::Connected {
return;
}
match (address, self.kbucket_inserts) {
(None, _) => {
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::UnroutablePeer { peer },
));
}
(Some(a), KademliaBucketInserts::Manual) => {
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::RoutablePeer { peer, address: a },
));
}
(Some(a), KademliaBucketInserts::OnConnected) => {
let addresses = Addresses::new(a);
match entry.insert(addresses.clone(), new_status) {
kbucket::InsertResult::Inserted => {
let event = KademliaEvent::RoutingUpdated {
peer,
is_new_peer: true,
addresses,
old_peer: None,
bucket_range: self
.kbuckets
.bucket(&key)
.map(|b| b.range())
.expect("Not kbucket::Entry::SelfEntry."),
};
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(event));
}
kbucket::InsertResult::Full => {
debug!("Bucket full. Peer not added to routing table: {}", peer);
let address = addresses.first().clone();
self.queued_events.push_back(
NetworkBehaviourAction::GenerateEvent(
KademliaEvent::RoutablePeer { peer, address },
),
);
}
kbucket::InsertResult::Pending { disconnected } => {
let address = addresses.first().clone();
self.queued_events.push_back(
NetworkBehaviourAction::GenerateEvent(
KademliaEvent::PendingRoutablePeer { peer, address },
),
);
// `disconnected` might already be in the process of re-connecting.
// In other words `disconnected` might have already re-connected but
// is not yet confirmed to support the Kademlia protocol via
// [`KademliaHandlerEvent::ProtocolConfirmed`].
//
// Only try dialing peer if not currently connected.
if !self.connected_peers.contains(disconnected.preimage()) {
let handler = self.new_handler();
self.queued_events.push_back(NetworkBehaviourAction::Dial {
opts: DialOpts::peer_id(disconnected.into_preimage())
.build(),
handler,
})
}
}
}
}
}
}
_ => {}
}
}
/// Handles a finished (i.e. successful) query.
fn query_finished(
&mut self,
q: Query<QueryInner>,
params: &mut impl PollParameters,
) -> Option<KademliaEvent> {
let query_id = q.id();
log::trace!("Query {:?} finished.", query_id);
let result = q.into_result();
match result.inner.info {
QueryInfo::Bootstrap {
peer,
remaining,
mut step,
} => {
let local_key = self.kbuckets.local_key().clone();
let mut remaining = remaining.unwrap_or_else(|| {
debug_assert_eq!(&peer, local_key.preimage());
// The lookup for the local key finished. To complete the bootstrap process,
// a bucket refresh should be performed for every bucket farther away than
// the first non-empty bucket (which are most likely no more than the last
// few, i.e. farthest, buckets).
self.kbuckets
.iter()
.skip_while(|b| b.is_empty())
.skip(1) // Skip the bucket with the closest neighbour.
.map(|b| {
// Try to find a key that falls into the bucket. While such keys can
// be generated fully deterministically, the current libp2p kademlia
// wire protocol requires transmission of the preimages of the actual
// keys in the DHT keyspace, hence for now this is just a "best effort"
// to find a key that hashes into a specific bucket. The probabilities
// of finding a key in the bucket `b` with as most 16 trials are as
// follows:
//
// Pr(bucket-255) = 1 - (1/2)^16 ~= 1
// Pr(bucket-254) = 1 - (3/4)^16 ~= 1
// Pr(bucket-253) = 1 - (7/8)^16 ~= 0.88
// Pr(bucket-252) = 1 - (15/16)^16 ~= 0.64
// ...
let mut target = kbucket::Key::from(PeerId::random());
for _ in 0..16 {
let d = local_key.distance(&target);
if b.contains(&d) {
break;
}
target = kbucket::Key::from(PeerId::random());
}
target
})
.collect::<Vec<_>>()
.into_iter()
});
let num_remaining = remaining.len() as u32;
if let Some(target) = remaining.next() {
let info = QueryInfo::Bootstrap {
peer: *target.preimage(),
remaining: Some(remaining),
step: step.next(),
};
let peers = self.kbuckets.closest_keys(&target);
let inner = QueryInner::new(info);
self.queries
.continue_iter_closest(query_id, target.clone(), peers, inner);
} else {
step.last = true;
};
Some(KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: result.stats,
result: QueryResult::Bootstrap(Ok(BootstrapOk {
peer,
num_remaining,
})),
step,
})
}
QueryInfo::GetClosestPeers { key, mut step } => {
step.last = true;
Some(KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: result.stats,
result: QueryResult::GetClosestPeers(Ok(GetClosestPeersOk {
key,
peers: result.peers.collect(),
})),
step,
})
}
QueryInfo::GetProviders { mut step, .. } => {
step.last = true;
Some(KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: result.stats,
result: QueryResult::GetProviders(Ok(
GetProvidersOk::FinishedWithNoAdditionalRecord {
closest_peers: result.peers.collect(),
},
)),
step,
})
}
QueryInfo::AddProvider {
context,
key,
phase: AddProviderPhase::GetClosestPeers,
} => {
let provider_id = *params.local_peer_id();
let external_addresses = params.external_addresses().map(|r| r.addr).collect();
let inner = QueryInner::new(QueryInfo::AddProvider {
context,
key,
phase: AddProviderPhase::AddProvider {
provider_id,
external_addresses,
get_closest_peers_stats: result.stats,
},
});
self.queries.continue_fixed(query_id, result.peers, inner);
None
}
QueryInfo::AddProvider {
context,
key,
phase:
AddProviderPhase::AddProvider {
get_closest_peers_stats,
..
},
} => match context {
AddProviderContext::Publish => Some(KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: get_closest_peers_stats.merge(result.stats),
result: QueryResult::StartProviding(Ok(AddProviderOk { key })),
step: ProgressStep::first_and_last(),
}),
AddProviderContext::Republish => Some(KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: get_closest_peers_stats.merge(result.stats),
result: QueryResult::RepublishProvider(Ok(AddProviderOk { key })),
step: ProgressStep::first_and_last(),
}),
},
QueryInfo::GetRecord {
key,
mut step,
found_a_record,
cache_candidates,
} => {
step.last = true;
let results = if found_a_record {
Ok(GetRecordOk::FinishedWithNoAdditionalRecord { cache_candidates })
} else {
Err(GetRecordError::NotFound {
key,
closest_peers: result.peers.collect(),
})
};
Some(KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: result.stats,
result: QueryResult::GetRecord(results),
step,
})
}
QueryInfo::PutRecord {
context,
record,
quorum,
phase: PutRecordPhase::GetClosestPeers,
} => {
let info = QueryInfo::PutRecord {
context,
record,
quorum,
phase: PutRecordPhase::PutRecord {
success: vec![],
get_closest_peers_stats: result.stats,
},
};
let inner = QueryInner::new(info);
self.queries.continue_fixed(query_id, result.peers, inner);
None
}
QueryInfo::PutRecord {
context,
record,
quorum,
phase:
PutRecordPhase::PutRecord {
success,
get_closest_peers_stats,
},
} => {
let mk_result = |key: record::Key| {
if success.len() >= quorum.get() {
Ok(PutRecordOk { key })
} else {
Err(PutRecordError::QuorumFailed {
key,
quorum,
success,
})
}
};
match context {
PutRecordContext::Publish | PutRecordContext::Custom => {
Some(KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: get_closest_peers_stats.merge(result.stats),
result: QueryResult::PutRecord(mk_result(record.key)),
step: ProgressStep::first_and_last(),
})
}
PutRecordContext::Republish => Some(KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: get_closest_peers_stats.merge(result.stats),
result: QueryResult::RepublishRecord(mk_result(record.key)),
step: ProgressStep::first_and_last(),
}),
PutRecordContext::Replicate => {
debug!("Record replicated: {:?}", record.key);
None
}
}
}
}
}
/// Handles a query that timed out.
fn query_timeout(&mut self, query: Query<QueryInner>) -> Option<KademliaEvent> {
let query_id = query.id();
log::trace!("Query {:?} timed out.", query_id);
let result = query.into_result();
match result.inner.info {
QueryInfo::Bootstrap {
peer,
mut remaining,
mut step,
} => {
let num_remaining = remaining.as_ref().map(|r| r.len().saturating_sub(1) as u32);
// Continue with the next bootstrap query if `remaining` is not empty.
if let Some((target, remaining)) =
remaining.take().and_then(|mut r| Some((r.next()?, r)))
{
let info = QueryInfo::Bootstrap {
peer: target.clone().into_preimage(),
remaining: Some(remaining),
step: step.next(),
};
let peers = self.kbuckets.closest_keys(&target);
let inner = QueryInner::new(info);
self.queries
.continue_iter_closest(query_id, target.clone(), peers, inner);
} else {
step.last = true;
}
Some(KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: result.stats,
result: QueryResult::Bootstrap(Err(BootstrapError::Timeout {
peer,
num_remaining,
})),
step,
})
}
QueryInfo::AddProvider { context, key, .. } => Some(match context {
AddProviderContext::Publish => KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: result.stats,
result: QueryResult::StartProviding(Err(AddProviderError::Timeout { key })),
step: ProgressStep::first_and_last(),
},
AddProviderContext::Republish => KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: result.stats,
result: QueryResult::RepublishProvider(Err(AddProviderError::Timeout { key })),
step: ProgressStep::first_and_last(),
},
}),
QueryInfo::GetClosestPeers { key, mut step } => {
step.last = true;
Some(KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: result.stats,
result: QueryResult::GetClosestPeers(Err(GetClosestPeersError::Timeout {
key,
peers: result.peers.collect(),
})),
step,
})
}
QueryInfo::PutRecord {
record,
quorum,
context,
phase,
} => {
let err = Err(PutRecordError::Timeout {
key: record.key,
quorum,
success: match phase {
PutRecordPhase::GetClosestPeers => vec![],
PutRecordPhase::PutRecord { ref success, .. } => success.clone(),
},
});
match context {
PutRecordContext::Publish | PutRecordContext::Custom => {
Some(KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: result.stats,
result: QueryResult::PutRecord(err),
step: ProgressStep::first_and_last(),
})
}
PutRecordContext::Republish => Some(KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: result.stats,
result: QueryResult::RepublishRecord(err),
step: ProgressStep::first_and_last(),
}),
PutRecordContext::Replicate => match phase {
PutRecordPhase::GetClosestPeers => {
warn!("Locating closest peers for replication failed: {:?}", err);
None
}
PutRecordPhase::PutRecord { .. } => {
debug!("Replicating record failed: {:?}", err);
None
}
},
}
}
QueryInfo::GetRecord { key, mut step, .. } => {
step.last = true;
Some(KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: result.stats,
result: QueryResult::GetRecord(Err(GetRecordError::Timeout { key })),
step,
})
}
QueryInfo::GetProviders { key, mut step, .. } => {
step.last = true;
Some(KademliaEvent::OutboundQueryProgressed {
id: query_id,
stats: result.stats,
result: QueryResult::GetProviders(Err(GetProvidersError::Timeout {
key,
closest_peers: result.peers.collect(),
})),
step,
})
}
}
}
/// Processes a record received from a peer.
fn record_received(
&mut self,
source: PeerId,
connection: ConnectionId,
request_id: KademliaRequestId,
mut record: Record,
) {
if record.publisher.as_ref() == Some(self.kbuckets.local_key().preimage()) {
// If the (alleged) publisher is the local node, do nothing. The record of
// the original publisher should never change as a result of replication
// and the publisher is always assumed to have the "right" value.
self.queued_events
.push_back(NetworkBehaviourAction::NotifyHandler {
peer_id: source,
handler: NotifyHandler::One(connection),
event: KademliaHandlerIn::PutRecordRes {
key: record.key,
value: record.value,
request_id,
},
});
return;
}
let now = Instant::now();
// Calculate the expiration exponentially inversely proportional to the
// number of nodes between the local node and the closest node to the key
// (beyond the replication factor). This ensures avoiding over-caching
// outside of the k closest nodes to a key.
let target = kbucket::Key::new(record.key.clone());
let num_between = self.kbuckets.count_nodes_between(&target);
let k = self.queries.config().replication_factor.get();
let num_beyond_k = (usize::max(k, num_between) - k) as u32;
let expiration = self
.record_ttl
.map(|ttl| now + exp_decrease(ttl, num_beyond_k));
// The smaller TTL prevails. Only if neither TTL is set is the record
// stored "forever".
record.expires = record.expires.or(expiration).min(expiration);
if let Some(job) = self.put_record_job.as_mut() {
// Ignore the record in the next run of the replication
// job, since we can assume the sender replicated the
// record to the k closest peers. Effectively, only
// one of the k closest peers performs a replication
// in the configured interval, assuming a shared interval.
job.skip(record.key.clone())
}
// While records received from a publisher, as well as records that do
// not exist locally should always (attempted to) be stored, there is a
// choice here w.r.t. the handling of replicated records whose keys refer
// to records that exist locally: The value and / or the publisher may
// either be overridden or left unchanged. At the moment and in the
// absence of a decisive argument for another option, both are always
// overridden as it avoids having to load the existing record in the
// first place.
if !record.is_expired(now) {
// The record is cloned because of the weird libp2p protocol
// requirement to send back the value in the response, although this
// is a waste of resources.
match self.record_filtering {
KademliaStoreInserts::Unfiltered => match self.store.put(record.clone()) {
Ok(()) => {
debug!(
"Record stored: {:?}; {} bytes",
record.key,
record.value.len()
);
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::InboundRequest {
request: InboundRequest::PutRecord {
source,
connection,
record: None,
},
},
));
}
Err(e) => {
info!("Record not stored: {:?}", e);
self.queued_events
.push_back(NetworkBehaviourAction::NotifyHandler {
peer_id: source,
handler: NotifyHandler::One(connection),
event: KademliaHandlerIn::Reset(request_id),
});
return;
}
},
KademliaStoreInserts::FilterBoth => {
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::InboundRequest {
request: InboundRequest::PutRecord {
source,
connection,
record: Some(record.clone()),
},
},
));
}
}
}
// The remote receives a [`KademliaHandlerIn::PutRecordRes`] even in the
// case where the record is discarded due to being expired. Given that
// the remote sent the local node a [`KademliaHandlerEvent::PutRecord`]
// request, the remote perceives the local node as one node among the k
// closest nodes to the target. In addition returning
// [`KademliaHandlerIn::PutRecordRes`] does not reveal any internal
// information to a possibly malicious remote node.
self.queued_events
.push_back(NetworkBehaviourAction::NotifyHandler {
peer_id: source,
handler: NotifyHandler::One(connection),
event: KademliaHandlerIn::PutRecordRes {
key: record.key,
value: record.value,
request_id,
},
})
}
/// Processes a provider record received from a peer.
fn provider_received(&mut self, key: record::Key, provider: KadPeer) {
if &provider.node_id != self.kbuckets.local_key().preimage() {
let record = ProviderRecord {
key,
provider: provider.node_id,
expires: self.provider_record_ttl.map(|ttl| Instant::now() + ttl),
addresses: provider.multiaddrs,
};
match self.record_filtering {
KademliaStoreInserts::Unfiltered => {
if let Err(e) = self.store.add_provider(record) {
info!("Provider record not stored: {:?}", e);
return;
}
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::InboundRequest {
request: InboundRequest::AddProvider { record: None },
},
));
}
KademliaStoreInserts::FilterBoth => {
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::InboundRequest {
request: InboundRequest::AddProvider {
record: Some(record),
},
},
));
}
}
}
}
fn address_failed(&mut self, peer_id: PeerId, address: &Multiaddr) {
let key = kbucket::Key::from(peer_id);
if let Some(addrs) = self.kbuckets.entry(&key).value() {
// TODO: Ideally, the address should only be removed if the error can
// be classified as "permanent" but since `err` is currently a borrowed
// trait object without a `'static` bound, even downcasting for inspection
// of the error is not possible (and also not truly desirable or ergonomic).
// The error passed in should rather be a dedicated enum.
if addrs.remove(address).is_ok() {
debug!(
"Address '{}' removed from peer '{}' due to error.",
address, peer_id
);
} else {
// Despite apparently having no reachable address (any longer),
// the peer is kept in the routing table with the last address to avoid
// (temporary) loss of network connectivity to "flush" the routing
// table. Once in, a peer is only removed from the routing table
// if it is the least recently connected peer, currently disconnected
// and is unreachable in the context of another peer pending insertion
// into the same bucket. This is handled transparently by the
// `KBucketsTable` and takes effect through `KBucketsTable::take_applied_pending`
// within `Kademlia::poll`.
debug!(
"Last remaining address '{}' of peer '{}' is unreachable.",
address, peer_id,
)
}
}
for query in self.queries.iter_mut() {
if let Some(addrs) = query.inner.addresses.get_mut(&peer_id) {
addrs.retain(|a| a != address);
}
}
}
fn on_connection_established(
&mut self,
ConnectionEstablished {
peer_id,
failed_addresses,
other_established,
..
}: ConnectionEstablished,
) {
for addr in failed_addresses {
self.address_failed(peer_id, addr);
}
// When a connection is established, we don't know yet whether the
// remote supports the configured protocol name. Only once a connection
// handler reports [`KademliaHandlerEvent::ProtocolConfirmed`] do we
// update the local routing table.
// Peer's first connection.
if other_established == 0 {
// Queue events for sending pending RPCs to the connected peer.
// There can be only one pending RPC for a particular peer and query per definition.
for (peer_id, event) in self.queries.iter_mut().filter_map(|q| {
q.inner
.pending_rpcs
.iter()
.position(|(p, _)| p == &peer_id)
.map(|p| q.inner.pending_rpcs.remove(p))
}) {
self.queued_events
.push_back(NetworkBehaviourAction::NotifyHandler {
peer_id,
event,
handler: NotifyHandler::Any,
});
}
self.connected_peers.insert(peer_id);
}
}
fn on_address_change(
&mut self,
AddressChange {
peer_id: peer,
old,
new,
..
}: AddressChange,
) {
let (old, new) = (old.get_remote_address(), new.get_remote_address());
// Update routing table.
if let Some(addrs) = self.kbuckets.entry(&kbucket::Key::from(peer)).value() {
if addrs.replace(old, new) {
debug!(
"Address '{}' replaced with '{}' for peer '{}'.",
old, new, peer
);
} else {
debug!(
"Address '{}' not replaced with '{}' for peer '{}' as old address wasn't \
present.",
old, new, peer
);
}
} else {
debug!(
"Address '{}' not replaced with '{}' for peer '{}' as peer is not present in the \
routing table.",
old, new, peer
);
}
// Update query address cache.
//
// Given two connected nodes: local node A and remote node B. Say node B
// is not in node A's routing table. Additionally node B is part of the
// `QueryInner::addresses` list of an ongoing query on node A. Say Node
// B triggers an address change and then disconnects. Later on the
// earlier mentioned query on node A would like to connect to node B.
// Without replacing the address in the `QueryInner::addresses` set node
// A would attempt to dial the old and not the new address.
//
// While upholding correctness, iterating through all discovered
// addresses of a peer in all currently ongoing queries might have a
// large performance impact. If so, the code below might be worth
// revisiting.
for query in self.queries.iter_mut() {
if let Some(addrs) = query.inner.addresses.get_mut(&peer) {
for addr in addrs.iter_mut() {
if addr == old {
*addr = new.clone();
}
}
}
}
}
fn on_dial_failure(
&mut self,
DialFailure { peer_id, error, .. }: DialFailure<
<Self as NetworkBehaviour>::ConnectionHandler,
>,
) {
let peer_id = match peer_id {
Some(id) => id,
// Not interested in dial failures to unknown peers.
None => return,
};
match error {
DialError::Banned
| DialError::ConnectionLimit(_)
| DialError::LocalPeerId
| DialError::InvalidPeerId { .. }
| DialError::WrongPeerId { .. }
| DialError::Aborted
| DialError::ConnectionIo(_)
| DialError::Transport(_)
| DialError::NoAddresses => {
if let DialError::Transport(addresses) = error {
for (addr, _) in addresses {
self.address_failed(peer_id, addr)
}
}
for query in self.queries.iter_mut() {
query.on_failure(&peer_id);
}
}
DialError::DialPeerConditionFalse(
dial_opts::PeerCondition::Disconnected | dial_opts::PeerCondition::NotDialing,
) => {
// We might (still) be connected, or about to be connected, thus do not report the
// failure to the queries.
}
DialError::DialPeerConditionFalse(dial_opts::PeerCondition::Always) => {
unreachable!("DialPeerCondition::Always can not trigger DialPeerConditionFalse.");
}
}
}
fn on_connection_closed(
&mut self,
ConnectionClosed {
peer_id,
remaining_established,
..
}: ConnectionClosed<<Self as NetworkBehaviour>::ConnectionHandler>,
) {
if remaining_established == 0 {
for query in self.queries.iter_mut() {
query.on_failure(&peer_id);
}
self.connection_updated(peer_id, None, NodeStatus::Disconnected);
self.connected_peers.remove(&peer_id);
}
}
}
/// Exponentially decrease the given duration (base 2).
fn exp_decrease(ttl: Duration, exp: u32) -> Duration {
Duration::from_secs(ttl.as_secs().checked_shr(exp).unwrap_or(0))
}
impl<TStore> NetworkBehaviour for Kademlia<TStore>
where
for<'a> TStore: RecordStore<'a>,
TStore: Send + 'static,
{
type ConnectionHandler = KademliaHandlerProto<QueryId>;
type OutEvent = KademliaEvent;
fn new_handler(&mut self) -> Self::ConnectionHandler {
KademliaHandlerProto::new(KademliaHandlerConfig {
protocol_config: self.protocol_config.clone(),
allow_listening: true,
idle_timeout: self.connection_idle_timeout,
})
}
fn addresses_of_peer(&mut self, peer_id: &PeerId) -> Vec<Multiaddr> {
// We should order addresses from decreasing likelyhood of connectivity, so start with
// the addresses of that peer in the k-buckets.
let key = kbucket::Key::from(*peer_id);
let mut peer_addrs =
if let kbucket::Entry::Present(mut entry, _) = self.kbuckets.entry(&key) {
let addrs = entry.value().iter().cloned().collect::<Vec<_>>();
debug_assert!(!addrs.is_empty(), "Empty peer addresses in routing table.");
addrs
} else {
Vec::new()
};
// We add to that a temporary list of addresses from the ongoing queries.
for query in self.queries.iter() {
if let Some(addrs) = query.inner.addresses.get(peer_id) {
peer_addrs.extend(addrs.iter().cloned())
}
}
peer_addrs
}
fn on_connection_handler_event(
&mut self,
source: PeerId,
connection: ConnectionId,
event: KademliaHandlerEvent<QueryId>,
) {
match event {
KademliaHandlerEvent::ProtocolConfirmed { endpoint } => {
debug_assert!(self.connected_peers.contains(&source));
// The remote's address can only be put into the routing table,
// and thus shared with other nodes, if the local node is the dialer,
// since the remote address on an inbound connection may be specific
// to that connection (e.g. typically the TCP port numbers).
let address = match endpoint {
ConnectedPoint::Dialer { address, .. } => Some(address),
ConnectedPoint::Listener { .. } => None,
};
self.connection_updated(source, address, NodeStatus::Connected);
}
KademliaHandlerEvent::FindNodeReq { key, request_id } => {
let closer_peers = self.find_closest(&kbucket::Key::new(key), &source);
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::InboundRequest {
request: InboundRequest::FindNode {
num_closer_peers: closer_peers.len(),
},
},
));
self.queued_events
.push_back(NetworkBehaviourAction::NotifyHandler {
peer_id: source,
handler: NotifyHandler::One(connection),
event: KademliaHandlerIn::FindNodeRes {
closer_peers,
request_id,
},
});
}
KademliaHandlerEvent::FindNodeRes {
closer_peers,
user_data,
} => {
self.discovered(&user_data, &source, closer_peers.iter());
}
KademliaHandlerEvent::GetProvidersReq { key, request_id } => {
let provider_peers = self.provider_peers(&key, &source);
let closer_peers = self.find_closest(&kbucket::Key::new(key), &source);
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::InboundRequest {
request: InboundRequest::GetProvider {
num_closer_peers: closer_peers.len(),
num_provider_peers: provider_peers.len(),
},
},
));
self.queued_events
.push_back(NetworkBehaviourAction::NotifyHandler {
peer_id: source,
handler: NotifyHandler::One(connection),
event: KademliaHandlerIn::GetProvidersRes {
closer_peers,
provider_peers,
request_id,
},
});
}
KademliaHandlerEvent::GetProvidersRes {
closer_peers,
provider_peers,
user_data,
} => {
let peers = closer_peers.iter().chain(provider_peers.iter());
self.discovered(&user_data, &source, peers);
if let Some(query) = self.queries.get_mut(&user_data) {
let stats = query.stats().clone();
if let QueryInfo::GetProviders {
ref key,
ref mut providers_found,
ref mut step,
..
} = query.inner.info
{
*providers_found += provider_peers.len();
let providers = provider_peers.iter().map(|p| p.node_id).collect();
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::OutboundQueryProgressed {
id: user_data,
result: QueryResult::GetProviders(Ok(
GetProvidersOk::FoundProviders {
key: key.clone(),
providers,
},
)),
step: step.clone(),
stats,
},
));
*step = step.next();
}
}
}
KademliaHandlerEvent::QueryError { user_data, error } => {
log::debug!(
"Request to {:?} in query {:?} failed with {:?}",
source,
user_data,
error
);
// If the query to which the error relates is still active,
// signal the failure w.r.t. `source`.
if let Some(query) = self.queries.get_mut(&user_data) {
query.on_failure(&source)
}
}
KademliaHandlerEvent::AddProvider { key, provider } => {
// Only accept a provider record from a legitimate peer.
if provider.node_id != source {
return;
}
self.provider_received(key, provider);
}
KademliaHandlerEvent::GetRecord { key, request_id } => {
// Lookup the record locally.
let record = match self.store.get(&key) {
Some(record) => {
if record.is_expired(Instant::now()) {
self.store.remove(&key);
None
} else {
Some(record.into_owned())
}
}
None => None,
};
let closer_peers = self.find_closest(&kbucket::Key::new(key), &source);
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::InboundRequest {
request: InboundRequest::GetRecord {
num_closer_peers: closer_peers.len(),
present_locally: record.is_some(),
},
},
));
self.queued_events
.push_back(NetworkBehaviourAction::NotifyHandler {
peer_id: source,
handler: NotifyHandler::One(connection),
event: KademliaHandlerIn::GetRecordRes {
record,
closer_peers,
request_id,
},
});
}
KademliaHandlerEvent::GetRecordRes {
record,
closer_peers,
user_data,
} => {
if let Some(query) = self.queries.get_mut(&user_data) {
let stats = query.stats().clone();
if let QueryInfo::GetRecord {
key,
ref mut step,
ref mut found_a_record,
cache_candidates,
} = &mut query.inner.info
{
if let Some(record) = record {
*found_a_record = true;
let record = PeerRecord {
peer: Some(source),
record,
};
self.queued_events
.push_back(NetworkBehaviourAction::GenerateEvent(
KademliaEvent::OutboundQueryProgressed {
id: user_data,
result: QueryResult::GetRecord(Ok(
GetRecordOk::FoundRecord(record),
)),
step: step.clone(),
stats,
},
));
*step = step.next();
} else {
log::trace!("Record with key {:?} not found at {}", key, source);
if let KademliaCaching::Enabled { max_peers } = self.caching {
let source_key = kbucket::Key::from(source);
let target_key = kbucket::Key::from(key.clone());
let distance = source_key.distance(&target_key);
cache_candidates.insert(distance, source);
if cache_candidates.len() > max_peers as usize {
// TODO: `pop_last()` would be nice once stabilised.
// See https://github.com/rust-lang/rust/issues/62924.
let last =
*cache_candidates.keys().next_back().expect("len > 0");
cache_candidates.remove(&last);
}
}
}
}
}
self.discovered(&user_data, &source, closer_peers.iter());
}
KademliaHandlerEvent::PutRecord { record, request_id } => {
self.record_received(source, connection, request_id, record);
}
KademliaHandlerEvent::PutRecordRes { user_data, .. } => {
if let Some(query) = self.queries.get_mut(&user_data) {
query.on_success(&source, vec![]);
if let QueryInfo::PutRecord {
phase: PutRecordPhase::PutRecord { success, .. },
quorum,
..
} = &mut query.inner.info
{
success.push(source);
let quorum = quorum.get();
if success.len() >= quorum {
let peers = success.clone();
let finished = query.try_finish(peers.iter());
if !finished {
debug!(
"PutRecord query ({:?}) reached quorum ({}/{}) with response \
from peer {} but could not yet finish.",
user_data,
peers.len(),
quorum,
source,
);
}
}
}
}
}
};
}
fn poll(
&mut self,
cx: &mut Context<'_>,
parameters: &mut impl PollParameters,
) -> Poll<NetworkBehaviourAction<Self::OutEvent, Self::ConnectionHandler>> {
let now = Instant::now();
// Calculate the available capacity for queries triggered by background jobs.
let mut jobs_query_capacity = JOBS_MAX_QUERIES.saturating_sub(self.queries.size());
// Run the periodic provider announcement job.
if let Some(mut job) = self.add_provider_job.take() {
let num = usize::min(JOBS_MAX_NEW_QUERIES, jobs_query_capacity);
for _ in 0..num {
if let Poll::Ready(r) = job.poll(cx, &mut self.store, now) {
self.start_add_provider(r.key, AddProviderContext::Republish)
} else {
break;
}
}
jobs_query_capacity -= num;
self.add_provider_job = Some(job);
}
// Run the periodic record replication / publication job.
if let Some(mut job) = self.put_record_job.take() {
let num = usize::min(JOBS_MAX_NEW_QUERIES, jobs_query_capacity);
for _ in 0..num {
if let Poll::Ready(r) = job.poll(cx, &mut self.store, now) {
let context =
if r.publisher.as_ref() == Some(self.kbuckets.local_key().preimage()) {
PutRecordContext::Republish
} else {
PutRecordContext::Replicate
};
self.start_put_record(r, Quorum::All, context)
} else {
break;
}
}
self.put_record_job = Some(job);
}
loop {
// Drain queued events first.
if let Some(event) = self.queued_events.pop_front() {
return Poll::Ready(event);
}
// Drain applied pending entries from the routing table.
if let Some(entry) = self.kbuckets.take_applied_pending() {
let kbucket::Node { key, value } = entry.inserted;
let event = KademliaEvent::RoutingUpdated {
bucket_range: self
.kbuckets
.bucket(&key)
.map(|b| b.range())
.expect("Self to never be applied from pending."),
peer: key.into_preimage(),
is_new_peer: true,
addresses: value,
old_peer: entry.evicted.map(|n| n.key.into_preimage()),
};
return Poll::Ready(NetworkBehaviourAction::GenerateEvent(event));
}
// Look for a finished query.
loop {
match self.queries.poll(now) {
QueryPoolState::Finished(q) => {
if let Some(event) = self.query_finished(q, parameters) {
return Poll::Ready(NetworkBehaviourAction::GenerateEvent(event));
}
}
QueryPoolState::Timeout(q) => {
if let Some(event) = self.query_timeout(q) {
return Poll::Ready(NetworkBehaviourAction::GenerateEvent(event));
}
}
QueryPoolState::Waiting(Some((query, peer_id))) => {
let event = query.inner.info.to_request(query.id());
// TODO: AddProvider requests yield no response, so the query completes
// as soon as all requests have been sent. However, the handler should
// better emit an event when the request has been sent (and report
// an error if sending fails), instead of immediately reporting
// "success" somewhat prematurely here.
if let QueryInfo::AddProvider {
phase: AddProviderPhase::AddProvider { .. },
..
} = &query.inner.info
{
query.on_success(&peer_id, vec![])
}
if self.connected_peers.contains(&peer_id) {
self.queued_events
.push_back(NetworkBehaviourAction::NotifyHandler {
peer_id,
event,
handler: NotifyHandler::Any,
});
} else if &peer_id != self.kbuckets.local_key().preimage() {
query.inner.pending_rpcs.push((peer_id, event));
let handler = self.new_handler();
self.queued_events.push_back(NetworkBehaviourAction::Dial {
opts: DialOpts::peer_id(peer_id).build(),
handler,
});
}
}
QueryPoolState::Waiting(None) | QueryPoolState::Idle => break,
}
}
// No immediate event was produced as a result of a finished query.
// If no new events have been queued either, signal `NotReady` to
// be polled again later.
if self.queued_events.is_empty() {
return Poll::Pending;
}
}
}
fn on_swarm_event(&mut self, event: FromSwarm<Self::ConnectionHandler>) {
match event {
FromSwarm::ConnectionEstablished(connection_established) => {
self.on_connection_established(connection_established)
}
FromSwarm::ConnectionClosed(connection_closed) => {
self.on_connection_closed(connection_closed)
}
FromSwarm::DialFailure(dial_failure) => self.on_dial_failure(dial_failure),
FromSwarm::AddressChange(address_change) => self.on_address_change(address_change),
FromSwarm::ExpiredListenAddr(ExpiredListenAddr { addr, .. }) => {
self.local_addrs.remove(addr);
}
FromSwarm::NewExternalAddr(NewExternalAddr { addr }) => {
if self.local_addrs.len() < MAX_LOCAL_EXTERNAL_ADDRS {
self.local_addrs.insert(addr.clone());
}
}
FromSwarm::NewListenAddr(NewListenAddr { addr, .. }) => {
self.local_addrs.insert(addr.clone());
}
FromSwarm::ListenFailure(_)
| FromSwarm::NewListener(_)
| FromSwarm::ListenerClosed(_)
| FromSwarm::ListenerError(_)
| FromSwarm::ExpiredExternalAddr(_) => {}
}
}
}
/// A quorum w.r.t. the configured replication factor specifies the minimum
/// number of distinct nodes that must be successfully contacted in order
/// for a query to succeed.
#[derive(Debug, Copy, Clone, PartialEq, Eq)]
pub enum Quorum {
One,
Majority,
All,
N(NonZeroUsize),
}
impl Quorum {
/// Evaluate the quorum w.r.t a given total (number of peers).
fn eval(&self, total: NonZeroUsize) -> NonZeroUsize {
match self {
Quorum::One => NonZeroUsize::new(1).expect("1 != 0"),
Quorum::Majority => NonZeroUsize::new(total.get() / 2 + 1).expect("n + 1 != 0"),
Quorum::All => total,
Quorum::N(n) => NonZeroUsize::min(total, *n),
}
}
}
/// A record either received by the given peer or retrieved from the local
/// record store.
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct PeerRecord {
/// The peer from whom the record was received. `None` if the record was
/// retrieved from local storage.
pub peer: Option<PeerId>,
pub record: Record,
}
//////////////////////////////////////////////////////////////////////////////
// Events
/// The events produced by the `Kademlia` behaviour.
///
/// See [`NetworkBehaviour::poll`].
#[derive(Debug, Clone)]
#[allow(clippy::large_enum_variant)]
pub enum KademliaEvent {
/// An inbound request has been received and handled.
//
// Note on the difference between 'request' and 'query': A request is a
// single request-response style exchange with a single remote peer. A query
// is made of multiple requests across multiple remote peers.
InboundRequest { request: InboundRequest },
/// An outbound query has made progress.
OutboundQueryProgressed {
/// The ID of the query that finished.
id: QueryId,
/// The intermediate result of the query.
result: QueryResult,
/// Execution statistics from the query.
stats: QueryStats,
/// Indicates which event this is, if therer are multiple responses for a single query.
step: ProgressStep,
},
/// The routing table has been updated with a new peer and / or
/// address, thereby possibly evicting another peer.
RoutingUpdated {
/// The ID of the peer that was added or updated.
peer: PeerId,
/// Whether this is a new peer and was thus just added to the routing
/// table, or whether it is an existing peer who's addresses changed.
is_new_peer: bool,
/// The full list of known addresses of `peer`.
addresses: Addresses,
/// Returns the minimum inclusive and maximum inclusive [`Distance`] for
/// the bucket of the peer.
bucket_range: (Distance, Distance),
/// The ID of the peer that was evicted from the routing table to make
/// room for the new peer, if any.
old_peer: Option<PeerId>,
},
/// A peer has connected for whom no listen address is known.
///
/// If the peer is to be added to the routing table, a known
/// listen address for the peer must be provided via [`Kademlia::add_address`].
UnroutablePeer { peer: PeerId },
/// A connection to a peer has been established for whom a listen address
/// is known but the peer has not been added to the routing table either
/// because [`KademliaBucketInserts::Manual`] is configured or because
/// the corresponding bucket is full.
///
/// If the peer is to be included in the routing table, it must
/// must be explicitly added via [`Kademlia::add_address`], possibly after
/// removing another peer.
///
/// See [`Kademlia::kbucket`] for insight into the contents of
/// the k-bucket of `peer`.
RoutablePeer { peer: PeerId, address: Multiaddr },
/// A connection to a peer has been established for whom a listen address
/// is known but the peer is only pending insertion into the routing table
/// if the least-recently disconnected peer is unresponsive, i.e. the peer
/// may not make it into the routing table.
///
/// If the peer is to be unconditionally included in the routing table,
/// it should be explicitly added via [`Kademlia::add_address`] after
/// removing another peer.
///
/// See [`Kademlia::kbucket`] for insight into the contents of
/// the k-bucket of `peer`.
PendingRoutablePeer { peer: PeerId, address: Multiaddr },
}
/// Information about progress events.
#[derive(Debug, Clone)]
pub struct ProgressStep {
/// The index into the event
pub count: NonZeroUsize,
/// Is this the final event?
pub last: bool,
}
impl ProgressStep {
fn first() -> Self {
Self {
count: NonZeroUsize::new(1).expect("1 to be greater than 0."),
last: false,
}
}
fn first_and_last() -> Self {
let mut first = ProgressStep::first();
first.last = true;
first
}
fn next(&self) -> Self {
assert!(!self.last);
let count = NonZeroUsize::new(self.count.get() + 1).expect("Adding 1 not to result in 0.");
Self { count, last: false }
}
}
/// Information about a received and handled inbound request.
#[derive(Debug, Clone)]
pub enum InboundRequest {
/// Request for the list of nodes whose IDs are the closest to `key`.
FindNode { num_closer_peers: usize },
/// Same as `FindNode`, but should also return the entries of the local
/// providers list for this key.
GetProvider {
num_closer_peers: usize,
num_provider_peers: usize,
},
/// A peer sent a [`KademliaHandlerIn::AddProvider`] request.
/// If filtering [`KademliaStoreInserts::FilterBoth`] is enabled, the [`ProviderRecord`] is
/// included.
///
/// See [`KademliaStoreInserts`] and [`KademliaConfig::set_record_filtering`] for details..
AddProvider { record: Option<ProviderRecord> },
/// Request to retrieve a record.
GetRecord {
num_closer_peers: usize,
present_locally: bool,
},
/// A peer sent a [`KademliaHandlerIn::PutRecord`] request.
/// If filtering [`KademliaStoreInserts::FilterBoth`] is enabled, the [`Record`] is included.
///
/// See [`KademliaStoreInserts`] and [`KademliaConfig::set_record_filtering`].
PutRecord {
source: PeerId,
connection: ConnectionId,
record: Option<Record>,
},
}
/// The results of Kademlia queries.
#[derive(Debug, Clone)]
pub enum QueryResult {
/// The result of [`Kademlia::bootstrap`].
Bootstrap(BootstrapResult),
/// The result of [`Kademlia::get_closest_peers`].
GetClosestPeers(GetClosestPeersResult),
/// The result of [`Kademlia::get_providers`].
GetProviders(GetProvidersResult),
/// The result of [`Kademlia::start_providing`].
StartProviding(AddProviderResult),
/// The result of a (automatic) republishing of a provider record.
RepublishProvider(AddProviderResult),
/// The result of [`Kademlia::get_record`].
GetRecord(GetRecordResult),
/// The result of [`Kademlia::put_record`].
PutRecord(PutRecordResult),
/// The result of a (automatic) republishing of a (value-)record.
RepublishRecord(PutRecordResult),
}
/// The result of [`Kademlia::get_record`].
pub type GetRecordResult = Result<GetRecordOk, GetRecordError>;
/// The successful result of [`Kademlia::get_record`].
#[derive(Debug, Clone)]
pub enum GetRecordOk {
FoundRecord(PeerRecord),
FinishedWithNoAdditionalRecord {
/// If caching is enabled, these are the peers closest
/// _to the record key_ (not the local node) that were queried but
/// did not return the record, sorted by distance to the record key
/// from closest to farthest. How many of these are tracked is configured
/// by [`KademliaConfig::set_caching`]. If the lookup used a quorum of
/// 1, these peers will be sent the record as a means of caching.
/// If the lookup used a quorum > 1, you may wish to use these
/// candidates with [`Kademlia::put_record_to`] after selecting
/// one of the returned records.
cache_candidates: BTreeMap<kbucket::Distance, PeerId>,
},
}
/// The error result of [`Kademlia::get_record`].
#[derive(Debug, Clone, Error)]
pub enum GetRecordError {
#[error("the record was not found")]
NotFound {
key: record::Key,
closest_peers: Vec<PeerId>,
},
#[error("the quorum failed; needed {quorum} peers")]
QuorumFailed {
key: record::Key,
records: Vec<PeerRecord>,
quorum: NonZeroUsize,
},
#[error("the request timed out")]
Timeout { key: record::Key },
}
impl GetRecordError {
/// Gets the key of the record for which the operation failed.
pub fn key(&self) -> &record::Key {
match self {
GetRecordError::QuorumFailed { key, .. } => key,
GetRecordError::Timeout { key, .. } => key,
GetRecordError::NotFound { key, .. } => key,
}
}
/// Extracts the key of the record for which the operation failed,
/// consuming the error.
pub fn into_key(self) -> record::Key {
match self {
GetRecordError::QuorumFailed { key, .. } => key,
GetRecordError::Timeout { key, .. } => key,
GetRecordError::NotFound { key, .. } => key,
}
}
}
/// The result of [`Kademlia::put_record`].
pub type PutRecordResult = Result<PutRecordOk, PutRecordError>;
/// The successful result of [`Kademlia::put_record`].
#[derive(Debug, Clone)]
pub struct PutRecordOk {
pub key: record::Key,
}
/// The error result of [`Kademlia::put_record`].
#[derive(Debug, Clone, Error)]
pub enum PutRecordError {
#[error("the quorum failed; needed {quorum} peers")]
QuorumFailed {
key: record::Key,
/// [`PeerId`]s of the peers the record was successfully stored on.
success: Vec<PeerId>,
quorum: NonZeroUsize,
},
#[error("the request timed out")]
Timeout {
key: record::Key,
/// [`PeerId`]s of the peers the record was successfully stored on.
success: Vec<PeerId>,
quorum: NonZeroUsize,
},
}
impl PutRecordError {
/// Gets the key of the record for which the operation failed.
pub fn key(&self) -> &record::Key {
match self {
PutRecordError::QuorumFailed { key, .. } => key,
PutRecordError::Timeout { key, .. } => key,
}
}
/// Extracts the key of the record for which the operation failed,
/// consuming the error.
pub fn into_key(self) -> record::Key {
match self {
PutRecordError::QuorumFailed { key, .. } => key,
PutRecordError::Timeout { key, .. } => key,
}
}
}
/// The result of [`Kademlia::bootstrap`].
pub type BootstrapResult = Result<BootstrapOk, BootstrapError>;
/// The successful result of [`Kademlia::bootstrap`].
#[derive(Debug, Clone)]
pub struct BootstrapOk {
pub peer: PeerId,
pub num_remaining: u32,
}
/// The error result of [`Kademlia::bootstrap`].
#[derive(Debug, Clone, Error)]
pub enum BootstrapError {
#[error("the request timed out")]
Timeout {
peer: PeerId,
num_remaining: Option<u32>,
},
}
/// The result of [`Kademlia::get_closest_peers`].
pub type GetClosestPeersResult = Result<GetClosestPeersOk, GetClosestPeersError>;
/// The successful result of [`Kademlia::get_closest_peers`].
#[derive(Debug, Clone)]
pub struct GetClosestPeersOk {
pub key: Vec<u8>,
pub peers: Vec<PeerId>,
}
/// The error result of [`Kademlia::get_closest_peers`].
#[derive(Debug, Clone, Error)]
pub enum GetClosestPeersError {
#[error("the request timed out")]
Timeout { key: Vec<u8>, peers: Vec<PeerId> },
}
impl GetClosestPeersError {
/// Gets the key for which the operation failed.
pub fn key(&self) -> &Vec<u8> {
match self {
GetClosestPeersError::Timeout { key, .. } => key,
}
}
/// Extracts the key for which the operation failed,
/// consuming the error.
pub fn into_key(self) -> Vec<u8> {
match self {
GetClosestPeersError::Timeout { key, .. } => key,
}
}
}
/// The result of [`Kademlia::get_providers`].
pub type GetProvidersResult = Result<GetProvidersOk, GetProvidersError>;
/// The successful result of [`Kademlia::get_providers`].
#[derive(Debug, Clone)]
pub enum GetProvidersOk {
FoundProviders {
key: record::Key,
/// The new set of providers discovered.
providers: HashSet<PeerId>,
},
FinishedWithNoAdditionalRecord {
closest_peers: Vec<PeerId>,
},
}
/// The error result of [`Kademlia::get_providers`].
#[derive(Debug, Clone, Error)]
pub enum GetProvidersError {
#[error("the request timed out")]
Timeout {
key: record::Key,
closest_peers: Vec<PeerId>,
},
}
impl GetProvidersError {
/// Gets the key for which the operation failed.
pub fn key(&self) -> &record::Key {
match self {
GetProvidersError::Timeout { key, .. } => key,
}
}
/// Extracts the key for which the operation failed,
/// consuming the error.
pub fn into_key(self) -> record::Key {
match self {
GetProvidersError::Timeout { key, .. } => key,
}
}
}
/// The result of publishing a provider record.
pub type AddProviderResult = Result<AddProviderOk, AddProviderError>;
/// The successful result of publishing a provider record.
#[derive(Debug, Clone)]
pub struct AddProviderOk {
pub key: record::Key,
}
/// The possible errors when publishing a provider record.
#[derive(Debug, Clone, Error)]
pub enum AddProviderError {
#[error("the request timed out")]
Timeout { key: record::Key },
}
impl AddProviderError {
/// Gets the key for which the operation failed.
pub fn key(&self) -> &record::Key {
match self {
AddProviderError::Timeout { key, .. } => key,
}
}
/// Extracts the key for which the operation failed,
pub fn into_key(self) -> record::Key {
match self {
AddProviderError::Timeout { key, .. } => key,
}
}
}
impl From<kbucket::EntryView<kbucket::Key<PeerId>, Addresses>> for KadPeer {
fn from(e: kbucket::EntryView<kbucket::Key<PeerId>, Addresses>) -> KadPeer {
KadPeer {
node_id: e.node.key.into_preimage(),
multiaddrs: e.node.value.into_vec(),
connection_ty: match e.status {
NodeStatus::Connected => KadConnectionType::Connected,
NodeStatus::Disconnected => KadConnectionType::NotConnected,
},
}
}
}
//////////////////////////////////////////////////////////////////////////////
// Internal query state
struct QueryInner {
/// The query-specific state.
info: QueryInfo,
/// Addresses of peers discovered during a query.
addresses: FnvHashMap<PeerId, SmallVec<[Multiaddr; 8]>>,
/// A map of pending requests to peers.
///
/// A request is pending if the targeted peer is not currently connected
/// and these requests are sent as soon as a connection to the peer is established.
pending_rpcs: SmallVec<[(PeerId, KademliaHandlerIn<QueryId>); K_VALUE.get()]>,
}
impl QueryInner {
fn new(info: QueryInfo) -> Self {
QueryInner {
info,
addresses: Default::default(),
pending_rpcs: SmallVec::default(),
}
}
}
/// The context of a [`QueryInfo::AddProvider`] query.
#[derive(Debug, Copy, Clone, PartialEq, Eq)]
pub enum AddProviderContext {
/// The context is a [`Kademlia::start_providing`] operation.
Publish,
/// The context is periodic republishing of provider announcements
/// initiated earlier via [`Kademlia::start_providing`].
Republish,
}
/// The context of a [`QueryInfo::PutRecord`] query.
#[derive(Debug, Copy, Clone, PartialEq, Eq)]
pub enum PutRecordContext {
/// The context is a [`Kademlia::put_record`] operation.
Publish,
/// The context is periodic republishing of records stored
/// earlier via [`Kademlia::put_record`].
Republish,
/// The context is periodic replication (i.e. without extending
/// the record TTL) of stored records received earlier from another peer.
Replicate,
/// The context is a custom store operation targeting specific
/// peers initiated by [`Kademlia::put_record_to`].
Custom,
}
/// Information about a running query.
#[derive(Debug, Clone)]
pub enum QueryInfo {
/// A query initiated by [`Kademlia::bootstrap`].
Bootstrap {
/// The targeted peer ID.
peer: PeerId,
/// The remaining random peer IDs to query, one per
/// bucket that still needs refreshing.
///
/// This is `None` if the initial self-lookup has not
/// yet completed and `Some` with an exhausted iterator
/// if bootstrapping is complete.
remaining: Option<vec::IntoIter<kbucket::Key<PeerId>>>,
step: ProgressStep,
},
/// A (repeated) query initiated by [`Kademlia::get_closest_peers`].
GetClosestPeers {
/// The key being queried (the preimage).
key: Vec<u8>,
/// Current index of events.
step: ProgressStep,
},
/// A (repeated) query initiated by [`Kademlia::get_providers`].
GetProviders {
/// The key for which to search for providers.
key: record::Key,
/// The number of providers found so far.
providers_found: usize,
/// Current index of events.
step: ProgressStep,
},
/// A (repeated) query initiated by [`Kademlia::start_providing`].
AddProvider {
/// The record key.
key: record::Key,
/// The current phase of the query.
phase: AddProviderPhase,
/// The execution context of the query.
context: AddProviderContext,
},
/// A (repeated) query initiated by [`Kademlia::put_record`].
PutRecord {
record: Record,
/// The expected quorum of responses w.r.t. the replication factor.
quorum: NonZeroUsize,
/// The current phase of the query.
phase: PutRecordPhase,
/// The execution context of the query.
context: PutRecordContext,
},
/// A (repeated) query initiated by [`Kademlia::get_record`].
GetRecord {
/// The key to look for.
key: record::Key,
/// Current index of events.
step: ProgressStep,
/// Did we find at least one record?
found_a_record: bool,
/// The peers closest to the `key` that were queried but did not return a record,
/// i.e. the peers that are candidates for caching the record.
cache_candidates: BTreeMap<kbucket::Distance, PeerId>,
},
}
impl QueryInfo {
/// Creates an event for a handler to issue an outgoing request in the
/// context of a query.
fn to_request(&self, query_id: QueryId) -> KademliaHandlerIn<QueryId> {
match &self {
QueryInfo::Bootstrap { peer, .. } => KademliaHandlerIn::FindNodeReq {
key: peer.to_bytes(),
user_data: query_id,
},
QueryInfo::GetClosestPeers { key, .. } => KademliaHandlerIn::FindNodeReq {
key: key.clone(),
user_data: query_id,
},
QueryInfo::GetProviders { key, .. } => KademliaHandlerIn::GetProvidersReq {
key: key.clone(),
user_data: query_id,
},
QueryInfo::AddProvider { key, phase, .. } => match phase {
AddProviderPhase::GetClosestPeers => KademliaHandlerIn::FindNodeReq {
key: key.to_vec(),
user_data: query_id,
},
AddProviderPhase::AddProvider {
provider_id,
external_addresses,
..
} => KademliaHandlerIn::AddProvider {
key: key.clone(),
provider: crate::protocol::KadPeer {
node_id: *provider_id,
multiaddrs: external_addresses.clone(),
connection_ty: crate::protocol::KadConnectionType::Connected,
},
},
},
QueryInfo::GetRecord { key, .. } => KademliaHandlerIn::GetRecord {
key: key.clone(),
user_data: query_id,
},
QueryInfo::PutRecord { record, phase, .. } => match phase {
PutRecordPhase::GetClosestPeers => KademliaHandlerIn::FindNodeReq {
key: record.key.to_vec(),
user_data: query_id,
},
PutRecordPhase::PutRecord { .. } => KademliaHandlerIn::PutRecord {
record: record.clone(),
user_data: query_id,
},
},
}
}
}
/// The phases of a [`QueryInfo::AddProvider`] query.
#[derive(Debug, Clone)]
pub enum AddProviderPhase {
/// The query is searching for the closest nodes to the record key.
GetClosestPeers,
/// The query advertises the local node as a provider for the key to
/// the closest nodes to the key.
AddProvider {
/// The local peer ID that is advertised as a provider.
provider_id: PeerId,
/// The external addresses of the provider being advertised.
external_addresses: Vec<Multiaddr>,
/// Query statistics from the finished `GetClosestPeers` phase.
get_closest_peers_stats: QueryStats,
},
}
/// The phases of a [`QueryInfo::PutRecord`] query.
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum PutRecordPhase {
/// The query is searching for the closest nodes to the record key.
GetClosestPeers,
/// The query is replicating the record to the closest nodes to the key.
PutRecord {
/// A list of peers the given record has been successfully replicated to.
success: Vec<PeerId>,
/// Query statistics from the finished `GetClosestPeers` phase.
get_closest_peers_stats: QueryStats,
},
}
/// A mutable reference to a running query.
pub struct QueryMut<'a> {
query: &'a mut Query<QueryInner>,
}
impl<'a> QueryMut<'a> {
pub fn id(&self) -> QueryId {
self.query.id()
}
/// Gets information about the type and state of the query.
pub fn info(&self) -> &QueryInfo {
&self.query.inner.info
}
/// Gets execution statistics about the query.
///
/// For a multi-phase query such as `put_record`, these are the
/// statistics of the current phase.
pub fn stats(&self) -> &QueryStats {
self.query.stats()
}
/// Finishes the query asap, without waiting for the
/// regular termination conditions.
pub fn finish(&mut self) {
self.query.finish()
}
}
/// An immutable reference to a running query.
pub struct QueryRef<'a> {
query: &'a Query<QueryInner>,
}
impl<'a> QueryRef<'a> {
pub fn id(&self) -> QueryId {
self.query.id()
}
/// Gets information about the type and state of the query.
pub fn info(&self) -> &QueryInfo {
&self.query.inner.info
}
/// Gets execution statistics about the query.
///
/// For a multi-phase query such as `put_record`, these are the
/// statistics of the current phase.
pub fn stats(&self) -> &QueryStats {
self.query.stats()
}
}
/// An operation failed to due no known peers in the routing table.
#[derive(Debug, Clone)]
pub struct NoKnownPeers();
impl fmt::Display for NoKnownPeers {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "No known peers.")
}
}
impl std::error::Error for NoKnownPeers {}
/// The possible outcomes of [`Kademlia::add_address`].
pub enum RoutingUpdate {
/// The given peer and address has been added to the routing
/// table.
Success,
/// The peer and address is pending insertion into
/// the routing table, if a disconnected peer fails
/// to respond. If the given peer and address ends up
/// in the routing table, [`KademliaEvent::RoutingUpdated`]
/// is eventually emitted.
Pending,
/// The routing table update failed, either because the
/// corresponding bucket for the peer is full and the
/// pending slot(s) are occupied, or because the given
/// peer ID is deemed invalid (e.g. refers to the local
/// peer ID).
Failed,
}
/// The maximum number of local external addresses. When reached any
/// further externally reported addresses are ignored. The behaviour always
/// tracks all its listen addresses.
const MAX_LOCAL_EXTERNAL_ADDRS: usize = 20;