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// Copyright 2017-2018 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. //! Connection-oriented communication channels. //! //! The main entity of this module is the [`Transport`] trait, which provides an //! interface for establishing connections with other nodes, thereby negotiating //! any desired protocols. The rest of the module defines combinators for //! modifying a transport through composition with other transports or protocol upgrades. use crate::ConnectedPoint; use futures::prelude::*; use multiaddr::Multiaddr; use std::{error::Error, fmt}; use std::time::Duration; pub mod and_then; pub mod boxed; pub mod choice; pub mod dummy; pub mod map; pub mod map_err; pub mod memory; pub mod timeout; pub mod upgrade; mod optional; pub use self::choice::OrTransport; pub use self::memory::MemoryTransport; pub use self::optional::OptionalTransport; pub use self::upgrade::Upgrade; /// A transport provides connection-oriented communication between two peers /// through ordered streams of data (i.e. connections). /// /// Connections are established either by [listening](Transport::listen_on) /// or [dialing](Transport::dial) on a [`Transport`]. A peer that /// obtains a connection by listening is often referred to as the *listener* and the /// peer that initiated the connection through dialing as the *dialer*, in /// contrast to the traditional roles of *server* and *client*. /// /// Most transports also provide a form of reliable delivery on the established /// connections but the precise semantics of these guarantees depend on the /// specific transport. /// /// This trait is implemented for concrete connection-oriented transport protocols /// like TCP or Unix Domain Sockets, but also on wrappers that add additional /// functionality to the dialing or listening process (e.g. name resolution via /// the DNS). /// /// Additional protocols can be layered on top of the connections established /// by a [`Transport`] through an upgrade mechanism that is initiated via /// [`upgrade`](Transport::upgrade). /// /// > **Note**: The methods of this trait use `self` and not `&self` or `&mut self`. In other /// > words, listening or dialing consumes the transport object. This has been designed /// > so that you would implement this trait on `&Foo` or `&mut Foo` instead of directly /// > on `Foo`. pub trait Transport { /// The result of a connection setup process, including protocol upgrades. /// /// Typically the output contains at least a handle to a data stream (i.e. a /// connection or a substream multiplexer on top of a connection) that /// provides APIs for sending and receiving data through the connection. type Output; /// An error that occurred during connection setup. type Error: Error; /// A stream of [`Output`](Transport::Output)s for inbound connections. /// /// An item should be produced whenever a connection is received at the lowest level of the /// transport stack. The item must be a [`ListenerUpgrade`](Transport::ListenerUpgrade) future /// that resolves to an [`Output`](Transport::Output) value once all protocol upgrades /// have been applied. /// /// If this stream produces an error, it is considered fatal and the listener is killed. It /// is possible to report non-fatal errors by producing a [`ListenerEvent::Error`]. type Listener: Stream<Item = Result<ListenerEvent<Self::ListenerUpgrade, Self::Error>, Self::Error>>; /// A pending [`Output`](Transport::Output) for an inbound connection, /// obtained from the [`Listener`](Transport::Listener) stream. /// /// After a connection has been accepted by the transport, it may need to go through /// asynchronous post-processing (i.e. protocol upgrade negotiations). Such /// post-processing should not block the `Listener` from producing the next /// connection, hence further connection setup proceeds asynchronously. /// Once a `ListenerUpgrade` future resolves it yields the [`Output`](Transport::Output) /// of the connection setup process. type ListenerUpgrade: Future<Output = Result<Self::Output, Self::Error>>; /// A pending [`Output`](Transport::Output) for an outbound connection, /// obtained from [dialing](Transport::dial). type Dial: Future<Output = Result<Self::Output, Self::Error>>; /// Listens on the given [`Multiaddr`], producing a stream of pending, inbound connections /// and addresses this transport is listening on (cf. [`ListenerEvent`]). /// /// Returning an error from the stream is considered fatal. The listener can also report /// non-fatal errors by producing a [`ListenerEvent::Error`]. fn listen_on(self, addr: Multiaddr) -> Result<Self::Listener, TransportError<Self::Error>> where Self: Sized; /// Dials the given [`Multiaddr`], returning a future for a pending outbound connection. /// /// If [`TransportError::MultiaddrNotSupported`] is returned, it may be desirable to /// try an alternative [`Transport`], if available. fn dial(self, addr: Multiaddr) -> Result<Self::Dial, TransportError<Self::Error>> where Self: Sized; /// Turns the transport into an abstract boxed (i.e. heap-allocated) transport. fn boxed(self) -> boxed::Boxed<Self::Output, Self::Error> where Self: Sized + Clone + Send + Sync + 'static, Self::Dial: Send + 'static, Self::Listener: Send + 'static, Self::ListenerUpgrade: Send + 'static, { boxed::boxed(self) } /// Applies a function on the connections created by the transport. fn map<F, O>(self, f: F) -> map::Map<Self, F> where Self: Sized, F: FnOnce(Self::Output, ConnectedPoint) -> O + Clone { map::Map::new(self, f) } /// Applies a function on the errors generated by the futures of the transport. fn map_err<F, E>(self, f: F) -> map_err::MapErr<Self, F> where Self: Sized, F: FnOnce(Self::Error) -> E + Clone { map_err::MapErr::new(self, f) } /// Adds a fallback transport that is used when encountering errors /// while establishing inbound or outbound connections. /// /// The returned transport will act like `self`, except that if `listen_on` or `dial` /// return an error then `other` will be tried. fn or_transport<U>(self, other: U) -> OrTransport<Self, U> where Self: Sized, U: Transport, <U as Transport>::Error: 'static { OrTransport::new(self, other) } /// Applies a function producing an asynchronous result to every connection /// created by this transport. /// /// This function can be used for ad-hoc protocol upgrades or /// for processing or adapting the output for following configurations. /// /// For the high-level transport upgrade procedure, see [`Transport::upgrade`]. fn and_then<C, F, O>(self, f: C) -> and_then::AndThen<Self, C> where Self: Sized, C: FnOnce(Self::Output, ConnectedPoint) -> F + Clone, F: TryFuture<Ok = O>, <F as TryFuture>::Error: Error + 'static { and_then::AndThen::new(self, f) } /// Adds a timeout to the connection setup (including upgrades) for all /// inbound and outbound connections established through the transport. fn timeout(self, timeout: Duration) -> timeout::TransportTimeout<Self> where Self: Sized { timeout::TransportTimeout::new(self, timeout) } /// Adds a timeout to the connection setup (including upgrades) for all outbound /// connections established through the transport. fn outbound_timeout(self, timeout: Duration) -> timeout::TransportTimeout<Self> where Self: Sized { timeout::TransportTimeout::with_outgoing_timeout(self, timeout) } /// Adds a timeout to the connection setup (including upgrades) for all inbound /// connections established through the transport. fn inbound_timeout(self, timeout: Duration) -> timeout::TransportTimeout<Self> where Self: Sized { timeout::TransportTimeout::with_ingoing_timeout(self, timeout) } /// Begins a series of protocol upgrades via an /// [`upgrade::Builder`](upgrade::Builder). fn upgrade(self, version: upgrade::Version) -> upgrade::Builder<Self> where Self: Sized, Self::Error: 'static { upgrade::Builder::new(self, version) } } /// Event produced by [`Transport::Listener`]s. /// /// Transports are expected to produce `Upgrade` events only for /// listen addresses which have previously been announced via /// a `NewAddress` event and which have not been invalidated by /// an `AddressExpired` event yet. #[derive(Clone, Debug, PartialEq)] pub enum ListenerEvent<TUpgr, TErr> { /// The transport is listening on a new additional [`Multiaddr`]. NewAddress(Multiaddr), /// An upgrade, consisting of the upgrade future, the listener address and the remote address. Upgrade { /// The upgrade. upgrade: TUpgr, /// The local address which produced this upgrade. local_addr: Multiaddr, /// The remote address which produced this upgrade. remote_addr: Multiaddr }, /// A [`Multiaddr`] is no longer used for listening. AddressExpired(Multiaddr), /// A non-fatal error has happened on the listener. /// /// This event should be generated in order to notify the user that something wrong has /// happened. The listener, however, continues to run. Error(TErr), } impl<TUpgr, TErr> ListenerEvent<TUpgr, TErr> { /// In case this [`ListenerEvent`] is an upgrade, apply the given function /// to the upgrade and multiaddress and produce another listener event /// based the the function's result. pub fn map<U>(self, f: impl FnOnce(TUpgr) -> U) -> ListenerEvent<U, TErr> { match self { ListenerEvent::Upgrade { upgrade, local_addr, remote_addr } => { ListenerEvent::Upgrade { upgrade: f(upgrade), local_addr, remote_addr } } ListenerEvent::NewAddress(a) => ListenerEvent::NewAddress(a), ListenerEvent::AddressExpired(a) => ListenerEvent::AddressExpired(a), ListenerEvent::Error(e) => ListenerEvent::Error(e), } } /// In case this [`ListenerEvent`] is an [`Error`](ListenerEvent::Error), /// apply the given function to the error and produce another listener event based on the /// function's result. pub fn map_err<U>(self, f: impl FnOnce(TErr) -> U) -> ListenerEvent<TUpgr, U> { match self { ListenerEvent::Upgrade { upgrade, local_addr, remote_addr } => ListenerEvent::Upgrade { upgrade, local_addr, remote_addr }, ListenerEvent::NewAddress(a) => ListenerEvent::NewAddress(a), ListenerEvent::AddressExpired(a) => ListenerEvent::AddressExpired(a), ListenerEvent::Error(e) => ListenerEvent::Error(f(e)), } } /// Returns `true` if this is an `Upgrade` listener event. pub fn is_upgrade(&self) -> bool { if let ListenerEvent::Upgrade {..} = self { true } else { false } } /// Try to turn this listener event into upgrade parts. /// /// Returns `None` if the event is not actually an upgrade, /// otherwise the upgrade and the remote address. pub fn into_upgrade(self) -> Option<(TUpgr, Multiaddr)> { if let ListenerEvent::Upgrade { upgrade, remote_addr, .. } = self { Some((upgrade, remote_addr)) } else { None } } /// Returns `true` if this is a `NewAddress` listener event. pub fn is_new_address(&self) -> bool { if let ListenerEvent::NewAddress(_) = self { true } else { false } } /// Try to turn this listener event into the `NewAddress` part. /// /// Returns `None` if the event is not actually a `NewAddress`, /// otherwise the address. pub fn into_new_address(self) -> Option<Multiaddr> { if let ListenerEvent::NewAddress(a) = self { Some(a) } else { None } } /// Returns `true` if this is an `AddressExpired` listener event. pub fn is_address_expired(&self) -> bool { if let ListenerEvent::AddressExpired(_) = self { true } else { false } } /// Try to turn this listener event into the `AddressExpired` part. /// /// Returns `None` if the event is not actually a `AddressExpired`, /// otherwise the address. pub fn into_address_expired(self) -> Option<Multiaddr> { if let ListenerEvent::AddressExpired(a) = self { Some(a) } else { None } } /// Returns `true` if this is an `Error` listener event. pub fn is_error(&self) -> bool { if let ListenerEvent::Error(_) = self { true } else { false } } /// Try to turn this listener event into the `Error` part. /// /// Returns `None` if the event is not actually a `Error`, /// otherwise the error. pub fn into_error(self) -> Option<TErr> { if let ListenerEvent::Error(err) = self { Some(err) } else { None } } } /// An error during [dialing][Transport::dial] or [listening][Transport::listen_on] /// on a [`Transport`]. #[derive(Debug, Clone)] pub enum TransportError<TErr> { /// The [`Multiaddr`] passed as parameter is not supported. /// /// Contains back the same address. MultiaddrNotSupported(Multiaddr), /// Any other error that a [`Transport`] may produce. Other(TErr), } impl<TErr> TransportError<TErr> { /// Applies a function to the the error in [`TransportError::Other`]. pub fn map<TNewErr>(self, map: impl FnOnce(TErr) -> TNewErr) -> TransportError<TNewErr> { match self { TransportError::MultiaddrNotSupported(addr) => TransportError::MultiaddrNotSupported(addr), TransportError::Other(err) => TransportError::Other(map(err)), } } } impl<TErr> fmt::Display for TransportError<TErr> where TErr: fmt::Display, { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { TransportError::MultiaddrNotSupported(addr) => write!(f, "Multiaddr is not supported: {}", addr), TransportError::Other(err) => write!(f, "{}", err), } } } impl<TErr> Error for TransportError<TErr> where TErr: Error + 'static, { fn source(&self) -> Option<&(dyn Error + 'static)> { match self { TransportError::MultiaddrNotSupported(_) => None, TransportError::Other(err) => Some(err), } } }