// Copyright 2019 Parity Technologies (UK) Ltd. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the "Software"), // to deal in the Software without restriction, including without limitation // the rights to use, copy, modify, merge, publish, distribute, sublicense, // and/or sell copies of the Software, and to permit persons to whom the // Software is furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING // FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER // DEALINGS IN THE SOFTWARE. mod either; mod external_addresses; mod listen_addresses; pub mod toggle; pub use external_addresses::ExternalAddresses; pub use listen_addresses::ListenAddresses; use crate::connection::ConnectionId; use crate::dial_opts::DialOpts; use crate::{ ConnectionDenied, ConnectionHandler, DialError, ListenError, THandler, THandlerInEvent, THandlerOutEvent, }; use libp2p_core::{transport::ListenerId, ConnectedPoint, Endpoint, Multiaddr}; use libp2p_identity::PeerId; use std::{task::Context, task::Poll}; /// A [`NetworkBehaviour`] defines the behaviour of the local node on the network. /// /// In contrast to [`Transport`](libp2p_core::Transport) which defines **how** to send bytes on the /// network, [`NetworkBehaviour`] defines **what** bytes to send and **to whom**. /// /// Each protocol (e.g. `libp2p-ping`, `libp2p-identify` or `libp2p-kad`) implements /// [`NetworkBehaviour`]. Multiple implementations of [`NetworkBehaviour`] can be composed into a /// hierarchy of [`NetworkBehaviour`]s where parent implementations delegate to child /// implementations. Finally the root of the [`NetworkBehaviour`] hierarchy is passed to /// [`Swarm`](crate::Swarm) where it can then control the behaviour of the local node on a libp2p /// network. /// /// # Hierarchy of [`NetworkBehaviour`] /// /// To compose multiple [`NetworkBehaviour`] implementations into a single [`NetworkBehaviour`] /// implementation, potentially building a multi-level hierarchy of [`NetworkBehaviour`]s, one can /// use one of the [`NetworkBehaviour`] combinators, and/or use the [`NetworkBehaviour`] derive /// macro. /// /// ## Combinators /// /// [`NetworkBehaviour`] combinators wrap one or more [`NetworkBehaviour`] implementations and /// implement [`NetworkBehaviour`] themselves. Example is the /// [`Toggle`](crate::behaviour::toggle::Toggle) [`NetworkBehaviour`]. /// /// ``` rust /// # use libp2p_swarm::dummy; /// # use libp2p_swarm::behaviour::toggle::Toggle; /// let my_behaviour = dummy::Behaviour; /// let my_toggled_behaviour = Toggle::from(Some(my_behaviour)); /// ``` /// /// ## Custom [`NetworkBehaviour`] with the Derive Macro /// /// One can derive [`NetworkBehaviour`] for a custom `struct` via the `#[derive(NetworkBehaviour)]` /// proc macro re-exported by the `libp2p` crate. The macro generates a delegating `trait` /// implementation for the custom `struct`. Each [`NetworkBehaviour`] trait method is simply /// delegated to each `struct` member in the order the `struct` is defined. For example for /// [`NetworkBehaviour::poll`] it will first poll the first `struct` member until it returns /// [`Poll::Pending`] before moving on to later members. /// /// Events ([`NetworkBehaviour::ToSwarm`]) returned by each `struct` member are wrapped in a new /// `enum` event, with an `enum` variant for each `struct` member. Users can define this event /// `enum` themselves and provide the name to the derive macro via `#[behaviour(to_swarm = /// "MyCustomOutEvent")]`. If the user does not specify an `to_swarm`, the derive macro generates /// the event definition itself, naming it `Event`. /// /// The aforementioned conversion of each of the event types generated by the struct members to the /// custom `to_swarm` is handled by [`From`] implementations which the user needs to define in /// addition to the event `enum` itself. /// /// ``` rust /// # use libp2p_identify as identify; /// # use libp2p_ping as ping; /// # use libp2p_swarm_derive::NetworkBehaviour; /// #[derive(NetworkBehaviour)] /// #[behaviour(to_swarm = "Event")] /// # #[behaviour(prelude = "libp2p_swarm::derive_prelude")] /// struct MyBehaviour { /// identify: identify::Behaviour, /// ping: ping::Behaviour, /// } /// /// enum Event { /// Identify(identify::Event), /// Ping(ping::Event), /// } /// /// impl From for Event { /// fn from(event: identify::Event) -> Self { /// Self::Identify(event) /// } /// } /// /// impl From for Event { /// fn from(event: ping::Event) -> Self { /// Self::Ping(event) /// } /// } /// ``` pub trait NetworkBehaviour: 'static { /// Handler for all the protocols the network behaviour supports. type ConnectionHandler: ConnectionHandler; /// Event generated by the `NetworkBehaviour` and that the swarm will report back. type ToSwarm: Send + 'static; /// Callback that is invoked for every new inbound connection. /// /// At this point in the connection lifecycle, only the remote's and our local address are known. /// We have also already allocated a [`ConnectionId`]. /// /// Any error returned from this function will immediately abort the dial attempt. fn handle_pending_inbound_connection( &mut self, _connection_id: ConnectionId, _local_addr: &Multiaddr, _remote_addr: &Multiaddr, ) -> Result<(), ConnectionDenied> { Ok(()) } /// Callback that is invoked for every established inbound connection. /// /// This is invoked once another peer has successfully dialed us. /// /// At this point, we have verified their [`PeerId`] and we know, which particular [`Multiaddr`] succeeded in the dial. /// In order to actually use this connection, this function must return a [`ConnectionHandler`](crate::ConnectionHandler). /// Returning an error will immediately close the connection. fn handle_established_inbound_connection( &mut self, _connection_id: ConnectionId, peer: PeerId, local_addr: &Multiaddr, remote_addr: &Multiaddr, ) -> Result, ConnectionDenied>; /// Callback that is invoked for every outbound connection attempt. /// /// We have access to: /// /// - The [`PeerId`], if known. Remember that we can dial without a [`PeerId`]. /// - All addresses passed to [`DialOpts`] are passed in here too. /// - The effective [`Role`](Endpoint) of this peer in the dial attempt. Typically, this is set to [`Endpoint::Dialer`] except if we are attempting a hole-punch. /// - The [`ConnectionId`] identifying the future connection resulting from this dial, if successful. /// /// Note that the addresses returned from this function are only used for dialing if [`WithPeerIdWithAddresses::extend_addresses_through_behaviour`](crate::dial_opts::WithPeerIdWithAddresses::extend_addresses_through_behaviour) is set. /// /// Any error returned from this function will immediately abort the dial attempt. fn handle_pending_outbound_connection( &mut self, _connection_id: ConnectionId, _maybe_peer: Option, _addresses: &[Multiaddr], _effective_role: Endpoint, ) -> Result, ConnectionDenied> { Ok(vec![]) } /// Callback that is invoked for every established outbound connection. /// /// This is invoked once we have successfully dialed a peer. /// At this point, we have verified their [`PeerId`] and we know, which particular [`Multiaddr`] succeeded in the dial. /// In order to actually use this connection, this function must return a [`ConnectionHandler`](crate::ConnectionHandler). /// Returning an error will immediately close the connection. fn handle_established_outbound_connection( &mut self, _connection_id: ConnectionId, peer: PeerId, addr: &Multiaddr, role_override: Endpoint, ) -> Result, ConnectionDenied>; /// Informs the behaviour about an event from the [`Swarm`](crate::Swarm). fn on_swarm_event(&mut self, event: FromSwarm); /// Informs the behaviour about an event generated by the [`ConnectionHandler`](crate::ConnectionHandler) /// dedicated to the peer identified by `peer_id`. for the behaviour. /// /// The [`PeerId`] is guaranteed to be in a connected state. In other words, /// [`FromSwarm::ConnectionEstablished`] has previously been received with this [`PeerId`]. fn on_connection_handler_event( &mut self, _peer_id: PeerId, _connection_id: ConnectionId, _event: THandlerOutEvent, ); /// Polls for things that swarm should do. /// /// This API mimics the API of the `Stream` trait. The method may register the current task in /// order to wake it up at a later point in time. fn poll( &mut self, cx: &mut Context<'_>, params: &mut impl PollParameters, ) -> Poll>>; } /// Parameters passed to `poll()`, that the `NetworkBehaviour` has access to. pub trait PollParameters { /// Iterator returned by [`supported_protocols`](PollParameters::supported_protocols). type SupportedProtocolsIter: ExactSizeIterator>; /// Iterator returned by [`listened_addresses`](PollParameters::listened_addresses). type ListenedAddressesIter: ExactSizeIterator; /// Returns the list of protocol the behaviour supports when a remote negotiates a protocol on /// an inbound substream. /// /// The iterator's elements are the ASCII names as reported on the wire. /// /// Note that the list is computed once at initialization and never refreshed. #[deprecated( note = "Use `libp2p_swarm::SupportedProtocols` in your `ConnectionHandler` instead." )] fn supported_protocols(&self) -> Self::SupportedProtocolsIter; /// Returns the list of the addresses we're listening on. #[deprecated( since = "0.42.0", note = "Use `libp2p_swarm::ListenAddresses` instead." )] fn listened_addresses(&self) -> Self::ListenedAddressesIter; /// Returns the peer id of the local node. #[deprecated( since = "0.42.0", note = "Pass the node's `PeerId` into the behaviour instead." )] fn local_peer_id(&self) -> &PeerId; } /// A command issued from a [`NetworkBehaviour`] for the [`Swarm`]. /// /// [`Swarm`]: super::Swarm #[derive(Debug)] pub enum ToSwarm { /// Instructs the `Swarm` to return an event when it is being polled. GenerateEvent(TOutEvent), /// Instructs the swarm to start a dial. /// /// On success, [`NetworkBehaviour::on_swarm_event`] with `ConnectionEstablished` is invoked. /// On failure, [`NetworkBehaviour::on_swarm_event`] with `DialFailure` is invoked. /// /// [`DialOpts`] provides access to the [`ConnectionId`] via [`DialOpts::connection_id`]. /// This [`ConnectionId`] will be used throughout the connection's lifecycle to associate events with it. /// This allows a [`NetworkBehaviour`] to identify a connection that resulted out of its own dial request. Dial { opts: DialOpts }, /// Instructs the `Swarm` to send an event to the handler dedicated to a /// connection with a peer. /// /// If the `Swarm` is connected to the peer, the message is delivered to the /// [`ConnectionHandler`](crate::ConnectionHandler) instance identified by the peer ID and connection ID. /// /// If the specified connection no longer exists, the event is silently dropped. /// /// Typically the connection ID given is the same as the one passed to /// [`NetworkBehaviour::on_connection_handler_event`], i.e. whenever the behaviour wishes to /// respond to a request on the same connection (and possibly the same /// substream, as per the implementation of [`ConnectionHandler`](crate::ConnectionHandler)). /// /// Note that even if the peer is currently connected, connections can get closed /// at any time and thus the event may not reach a handler. NotifyHandler { /// The peer for whom a [`ConnectionHandler`](crate::ConnectionHandler) should be notified. peer_id: PeerId, /// The options w.r.t. which connection handler to notify of the event. handler: NotifyHandler, /// The event to send. event: TInEvent, }, /// Reports a new candidate for an external address to the [`Swarm`](crate::Swarm). /// /// This address will be shared with all [`NetworkBehaviour`]s via [`FromSwarm::NewExternalAddrCandidate`]. /// /// This address could come from a variety of sources: /// - A protocol such as identify obtained it from a remote. /// - The user provided it based on configuration. /// - We made an educated guess based on one of our listen addresses. /// - We established a new relay connection. NewExternalAddrCandidate(Multiaddr), /// Indicates to the [`Swarm`](crate::Swarm) that the provided address is confirmed to be externally reachable. /// /// This is intended to be issued in response to a [`FromSwarm::NewExternalAddrCandidate`] if we are indeed externally reachable on this address. /// This address will be shared with all [`NetworkBehaviour`]s via [`FromSwarm::ExternalAddrConfirmed`]. ExternalAddrConfirmed(Multiaddr), /// Indicates to the [`Swarm`](crate::Swarm) that we are no longer externally reachable under the provided address. /// /// This expires an address that was earlier confirmed via [`ToSwarm::ExternalAddrConfirmed`]. /// This address will be shared with all [`NetworkBehaviour`]s via [`FromSwarm::ExternalAddrExpired`]. ExternalAddrExpired(Multiaddr), /// Instructs the `Swarm` to initiate a graceful close of one or all connections /// with the given peer. /// /// Note: Closing a connection via /// [`ToSwarm::CloseConnection`] does not inform the /// corresponding [`ConnectionHandler`](crate::ConnectionHandler). /// Closing a connection via a [`ConnectionHandler`](crate::ConnectionHandler) can be done /// either in a collaborative manner across [`ConnectionHandler`](crate::ConnectionHandler)s /// with [`ConnectionHandler::connection_keep_alive`](crate::ConnectionHandler::connection_keep_alive) or directly with /// [`ConnectionHandlerEvent::Close`](crate::ConnectionHandlerEvent::Close). CloseConnection { /// The peer to disconnect. peer_id: PeerId, /// Whether to close a specific or all connections to the given peer. connection: CloseConnection, }, } impl ToSwarm { /// Map the handler event. pub fn map_in( self, f: impl FnOnce(TInEventOld) -> TInEventNew, ) -> ToSwarm { match self { ToSwarm::GenerateEvent(e) => ToSwarm::GenerateEvent(e), ToSwarm::Dial { opts } => ToSwarm::Dial { opts }, ToSwarm::NotifyHandler { peer_id, handler, event, } => ToSwarm::NotifyHandler { peer_id, handler, event: f(event), }, ToSwarm::CloseConnection { peer_id, connection, } => ToSwarm::CloseConnection { peer_id, connection, }, ToSwarm::NewExternalAddrCandidate(addr) => ToSwarm::NewExternalAddrCandidate(addr), ToSwarm::ExternalAddrConfirmed(addr) => ToSwarm::ExternalAddrConfirmed(addr), ToSwarm::ExternalAddrExpired(addr) => ToSwarm::ExternalAddrExpired(addr), } } } impl ToSwarm { /// Map the event the swarm will return. pub fn map_out(self, f: impl FnOnce(TOutEvent) -> E) -> ToSwarm { match self { ToSwarm::GenerateEvent(e) => ToSwarm::GenerateEvent(f(e)), ToSwarm::Dial { opts } => ToSwarm::Dial { opts }, ToSwarm::NotifyHandler { peer_id, handler, event, } => ToSwarm::NotifyHandler { peer_id, handler, event, }, ToSwarm::NewExternalAddrCandidate(addr) => ToSwarm::NewExternalAddrCandidate(addr), ToSwarm::ExternalAddrConfirmed(addr) => ToSwarm::ExternalAddrConfirmed(addr), ToSwarm::ExternalAddrExpired(addr) => ToSwarm::ExternalAddrExpired(addr), ToSwarm::CloseConnection { peer_id, connection, } => ToSwarm::CloseConnection { peer_id, connection, }, } } } /// The options w.r.t. which connection handler to notify of an event. #[derive(Debug, Clone)] pub enum NotifyHandler { /// Notify a particular connection handler. One(ConnectionId), /// Notify an arbitrary connection handler. Any, } /// The options which connections to close. #[derive(Debug, Clone, Default)] pub enum CloseConnection { /// Disconnect a particular connection. One(ConnectionId), /// Disconnect all connections. #[default] All, } /// Enumeration with the list of the possible events /// to pass to [`on_swarm_event`](NetworkBehaviour::on_swarm_event). #[allow(deprecated)] pub enum FromSwarm<'a, Handler> { /// Informs the behaviour about a newly established connection to a peer. ConnectionEstablished(ConnectionEstablished<'a>), /// Informs the behaviour about a closed connection to a peer. /// /// This event is always paired with an earlier /// [`FromSwarm::ConnectionEstablished`] with the same peer ID, connection ID /// and endpoint. ConnectionClosed(ConnectionClosed<'a, Handler>), /// Informs the behaviour that the [`ConnectedPoint`] of an existing /// connection has changed. AddressChange(AddressChange<'a>), /// Informs the behaviour that the dial to a known /// or unknown node failed. DialFailure(DialFailure<'a>), /// Informs the behaviour that an error /// happened on an incoming connection during its initial handshake. /// /// This can include, for example, an error during the handshake of the encryption layer, or the /// connection unexpectedly closed. ListenFailure(ListenFailure<'a>), /// Informs the behaviour that a new listener was created. NewListener(NewListener), /// Informs the behaviour that we have started listening on a new multiaddr. NewListenAddr(NewListenAddr<'a>), /// Informs the behaviour that a multiaddr /// we were listening on has expired, /// which means that we are no longer listening on it. ExpiredListenAddr(ExpiredListenAddr<'a>), /// Informs the behaviour that a listener experienced an error. ListenerError(ListenerError<'a>), /// Informs the behaviour that a listener closed. ListenerClosed(ListenerClosed<'a>), /// Informs the behaviour that we have discovered a new candidate for an external address for us. NewExternalAddrCandidate(NewExternalAddrCandidate<'a>), /// Informs the behaviour that an external address of the local node was removed. ExternalAddrConfirmed(ExternalAddrConfirmed<'a>), /// Informs the behaviour that an external address of the local node expired, i.e. is no-longer confirmed. ExternalAddrExpired(ExternalAddrExpired<'a>), } /// [`FromSwarm`] variant that informs the behaviour about a newly established connection to a peer. #[derive(Clone, Copy)] pub struct ConnectionEstablished<'a> { pub peer_id: PeerId, pub connection_id: ConnectionId, pub endpoint: &'a ConnectedPoint, pub failed_addresses: &'a [Multiaddr], pub other_established: usize, } /// [`FromSwarm`] variant that informs the behaviour about a closed connection to a peer. /// /// This event is always paired with an earlier /// [`FromSwarm::ConnectionEstablished`] with the same peer ID, connection ID /// and endpoint. #[allow(deprecated)] pub struct ConnectionClosed<'a, Handler> { pub peer_id: PeerId, pub connection_id: ConnectionId, pub endpoint: &'a ConnectedPoint, pub handler: Handler, pub remaining_established: usize, } /// [`FromSwarm`] variant that informs the behaviour that the [`ConnectedPoint`] of an existing /// connection has changed. #[derive(Clone, Copy)] pub struct AddressChange<'a> { pub peer_id: PeerId, pub connection_id: ConnectionId, pub old: &'a ConnectedPoint, pub new: &'a ConnectedPoint, } /// [`FromSwarm`] variant that informs the behaviour that the dial to a known /// or unknown node failed. #[derive(Clone, Copy)] pub struct DialFailure<'a> { pub peer_id: Option, pub error: &'a DialError, pub connection_id: ConnectionId, } /// [`FromSwarm`] variant that informs the behaviour that an error /// happened on an incoming connection during its initial handshake. /// /// This can include, for example, an error during the handshake of the encryption layer, or the /// connection unexpectedly closed. #[derive(Clone, Copy)] pub struct ListenFailure<'a> { pub local_addr: &'a Multiaddr, pub send_back_addr: &'a Multiaddr, pub error: &'a ListenError, pub connection_id: ConnectionId, } /// [`FromSwarm`] variant that informs the behaviour that a new listener was created. #[derive(Clone, Copy)] pub struct NewListener { pub listener_id: ListenerId, } /// [`FromSwarm`] variant that informs the behaviour /// that we have started listening on a new multiaddr. #[derive(Clone, Copy)] pub struct NewListenAddr<'a> { pub listener_id: ListenerId, pub addr: &'a Multiaddr, } /// [`FromSwarm`] variant that informs the behaviour that a multiaddr /// we were listening on has expired, /// which means that we are no longer listening on it. #[derive(Clone, Copy)] pub struct ExpiredListenAddr<'a> { pub listener_id: ListenerId, pub addr: &'a Multiaddr, } /// [`FromSwarm`] variant that informs the behaviour that a listener experienced an error. #[derive(Clone, Copy)] pub struct ListenerError<'a> { pub listener_id: ListenerId, pub err: &'a (dyn std::error::Error + 'static), } /// [`FromSwarm`] variant that informs the behaviour that a listener closed. #[derive(Clone, Copy)] pub struct ListenerClosed<'a> { pub listener_id: ListenerId, pub reason: Result<(), &'a std::io::Error>, } /// [`FromSwarm`] variant that informs the behaviour /// that we have discovered a new candidate for an external address for us. #[derive(Clone, Copy)] pub struct NewExternalAddrCandidate<'a> { pub addr: &'a Multiaddr, } /// [`FromSwarm`] variant that informs the behaviour that an external address was removed. #[derive(Clone, Copy)] pub struct ExternalAddrConfirmed<'a> { pub addr: &'a Multiaddr, } /// [`FromSwarm`] variant that informs the behaviour that an external address was removed. #[derive(Clone, Copy)] pub struct ExternalAddrExpired<'a> { pub addr: &'a Multiaddr, } impl<'a, Handler> FromSwarm<'a, Handler> { fn map_handler( self, map_handler: impl FnOnce(Handler) -> NewHandler, ) -> FromSwarm<'a, NewHandler> { self.maybe_map_handler(|h| Some(map_handler(h))) .expect("To return Some as all closures return Some.") } fn maybe_map_handler( self, map_handler: impl FnOnce(Handler) -> Option, ) -> Option> { match self { FromSwarm::ConnectionClosed(ConnectionClosed { peer_id, connection_id, endpoint, handler, remaining_established, }) => Some(FromSwarm::ConnectionClosed(ConnectionClosed { peer_id, connection_id, endpoint, handler: map_handler(handler)?, remaining_established, })), FromSwarm::ConnectionEstablished(ConnectionEstablished { peer_id, connection_id, endpoint, failed_addresses, other_established, }) => Some(FromSwarm::ConnectionEstablished(ConnectionEstablished { peer_id, connection_id, endpoint, failed_addresses, other_established, })), FromSwarm::AddressChange(AddressChange { peer_id, connection_id, old, new, }) => Some(FromSwarm::AddressChange(AddressChange { peer_id, connection_id, old, new, })), FromSwarm::DialFailure(DialFailure { peer_id, error, connection_id, }) => Some(FromSwarm::DialFailure(DialFailure { peer_id, error, connection_id, })), FromSwarm::ListenFailure(ListenFailure { local_addr, send_back_addr, connection_id, error, }) => Some(FromSwarm::ListenFailure(ListenFailure { local_addr, send_back_addr, connection_id, error, })), FromSwarm::NewListener(NewListener { listener_id }) => { Some(FromSwarm::NewListener(NewListener { listener_id })) } FromSwarm::NewListenAddr(NewListenAddr { listener_id, addr }) => { Some(FromSwarm::NewListenAddr(NewListenAddr { listener_id, addr, })) } FromSwarm::ExpiredListenAddr(ExpiredListenAddr { listener_id, addr }) => { Some(FromSwarm::ExpiredListenAddr(ExpiredListenAddr { listener_id, addr, })) } FromSwarm::ListenerError(ListenerError { listener_id, err }) => { Some(FromSwarm::ListenerError(ListenerError { listener_id, err })) } FromSwarm::ListenerClosed(ListenerClosed { listener_id, reason, }) => Some(FromSwarm::ListenerClosed(ListenerClosed { listener_id, reason, })), FromSwarm::NewExternalAddrCandidate(e) => Some(FromSwarm::NewExternalAddrCandidate(e)), FromSwarm::ExternalAddrExpired(e) => Some(FromSwarm::ExternalAddrExpired(e)), FromSwarm::ExternalAddrConfirmed(e) => Some(FromSwarm::ExternalAddrConfirmed(e)), } } }