Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
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// Copyright 2019 Parity Technologies (UK) Ltd.
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//
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// Permission is hereby granted, free of charge, to any person obtaining a
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// copy of this software and associated documentation files (the "Software"),
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// to deal in the Software without restriction, including without limitation
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// the rights to use, copy, modify, merge, publish, distribute, sublicense,
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// and/or sell copies of the Software, and to permit persons to whom the
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// Software is furnished to do so, subject to the following conditions:
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//
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// The above copyright notice and this permission notice shall be included in
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// all copies or substantial portions of the Software.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
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// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
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// DEALINGS IN THE SOFTWARE.
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2019-09-16 11:08:44 +02:00
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use futures::prelude::*;
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2022-09-19 17:32:02 +10:00
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use libp2p::core::identity;
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use libp2p::core::transport::{MemoryTransport, Transport};
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use libp2p::core::upgrade::{self, InboundUpgrade, OutboundUpgrade, UpgradeInfo};
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use libp2p::mplex::MplexConfig;
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use libp2p::noise;
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2019-12-06 11:03:19 +01:00
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use multiaddr::{Multiaddr, Protocol};
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Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
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use rand::random;
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2019-10-21 15:14:31 +00:00
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use std::{io, pin::Pin};
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
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#[derive(Clone)]
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struct HelloUpgrade {}
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impl UpgradeInfo for HelloUpgrade {
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type Info = &'static str;
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type InfoIter = std::iter::Once<Self::Info>;
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fn protocol_info(&self) -> Self::InfoIter {
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std::iter::once("/hello/1")
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}
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}
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impl<C> InboundUpgrade<C> for HelloUpgrade
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where
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2019-10-21 15:14:31 +00:00
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C: AsyncRead + AsyncWrite + Send + Unpin + 'static,
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
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{
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2020-01-13 14:34:43 +01:00
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type Output = C;
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
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type Error = io::Error;
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2019-10-21 15:14:31 +00:00
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type Future = Pin<Box<dyn Future<Output = Result<Self::Output, Self::Error>> + Send>>;
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
|
|
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|
2020-01-13 14:34:43 +01:00
|
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fn upgrade_inbound(self, mut socket: C, _: Self::Info) -> Self::Future {
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2019-10-21 15:14:31 +00:00
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Box::pin(async move {
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let mut buf = [0u8; 5];
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socket.read_exact(&mut buf).await.unwrap();
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
|
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|
assert_eq!(&buf[..], "hello".as_bytes());
|
2019-10-21 15:14:31 +00:00
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|
Ok(socket)
|
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})
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
|
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|
}
|
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}
|
|
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impl<C> OutboundUpgrade<C> for HelloUpgrade
|
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|
where
|
2019-10-21 15:14:31 +00:00
|
|
|
C: AsyncWrite + AsyncRead + Send + Unpin + 'static,
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
|
|
|
{
|
2020-01-13 14:34:43 +01:00
|
|
|
type Output = C;
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
|
|
|
type Error = io::Error;
|
2019-10-21 15:14:31 +00:00
|
|
|
type Future = Pin<Box<dyn Future<Output = Result<Self::Output, Self::Error>> + Send>>;
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
|
|
|
|
2020-01-13 14:34:43 +01:00
|
|
|
fn upgrade_outbound(self, mut socket: C, _: Self::Info) -> Self::Future {
|
2019-10-21 15:14:31 +00:00
|
|
|
Box::pin(async move {
|
|
|
|
|
socket.write_all(b"hello").await.unwrap();
|
|
|
|
|
socket.flush().await.unwrap();
|
|
|
|
|
Ok(socket)
|
|
|
|
|
})
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
|
|
|
}
|
|
|
|
|
}
|
|
|
|
|
|
|
|
|
|
#[test]
|
|
|
|
|
fn upgrade_pipeline() {
|
|
|
|
|
let listener_keys = identity::Keypair::generate_ed25519();
|
2021-07-22 22:34:13 +02:00
|
|
|
let listener_id = listener_keys.public().to_peer_id();
|
2022-04-06 20:23:16 +02:00
|
|
|
let mut listener_transport = MemoryTransport::default()
|
2019-10-10 11:31:44 +02:00
|
|
|
.upgrade(upgrade::Version::V1)
|
2022-09-16 11:41:35 +10:00
|
|
|
.authenticate(noise::NoiseAuthenticated::xx(&listener_keys).unwrap())
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
|
|
|
.apply(HelloUpgrade {})
|
|
|
|
|
.apply(HelloUpgrade {})
|
|
|
|
|
.apply(HelloUpgrade {})
|
|
|
|
|
.multiplex(MplexConfig::default())
|
2022-07-04 04:16:57 +02:00
|
|
|
.boxed();
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
|
|
|
|
|
|
|
|
let dialer_keys = identity::Keypair::generate_ed25519();
|
2021-07-22 22:34:13 +02:00
|
|
|
let dialer_id = dialer_keys.public().to_peer_id();
|
2022-04-06 20:23:16 +02:00
|
|
|
let mut dialer_transport = MemoryTransport::default()
|
2019-10-10 11:31:44 +02:00
|
|
|
.upgrade(upgrade::Version::V1)
|
2022-09-16 11:41:35 +10:00
|
|
|
.authenticate(noise::NoiseAuthenticated::xx(&dialer_keys).unwrap())
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
|
|
|
.apply(HelloUpgrade {})
|
|
|
|
|
.apply(HelloUpgrade {})
|
|
|
|
|
.apply(HelloUpgrade {})
|
|
|
|
|
.multiplex(MplexConfig::default())
|
2022-07-04 04:16:57 +02:00
|
|
|
.boxed();
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
|
|
|
|
2019-12-06 11:03:19 +01:00
|
|
|
let listen_addr1 = Multiaddr::from(Protocol::Memory(random::<u64>()));
|
|
|
|
|
let listen_addr2 = listen_addr1.clone();
|
2019-10-28 18:04:01 +01:00
|
|
|
|
2022-07-04 04:16:57 +02:00
|
|
|
listener_transport.listen_on(listen_addr1).unwrap();
|
2019-12-06 11:03:19 +01:00
|
|
|
|
|
|
|
|
let server = async move {
|
|
|
|
|
loop {
|
2022-07-04 04:16:57 +02:00
|
|
|
let (upgrade, _send_back_addr) =
|
|
|
|
|
match listener_transport.select_next_some().await.into_incoming() {
|
2019-10-21 15:14:31 +00:00
|
|
|
Some(u) => u,
|
|
|
|
|
None => continue,
|
|
|
|
|
};
|
2019-12-06 11:03:19 +01:00
|
|
|
let (peer, _mplex) = upgrade.await.unwrap();
|
|
|
|
|
assert_eq!(peer, dialer_id);
|
2019-10-21 15:14:31 +00:00
|
|
|
}
|
2019-12-06 11:03:19 +01:00
|
|
|
};
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
|
|
|
|
2019-12-06 11:03:19 +01:00
|
|
|
let client = async move {
|
|
|
|
|
let (peer, _mplex) = dialer_transport.dial(listen_addr2).unwrap().await.unwrap();
|
2019-10-21 15:14:31 +00:00
|
|
|
assert_eq!(peer, listener_id);
|
2019-12-06 11:03:19 +01:00
|
|
|
};
|
|
|
|
|
|
|
|
|
|
async_std::task::spawn(server);
|
|
|
|
|
async_std::task::block_on(client);
|
Rework the transport upgrade API. (#1240)
* Rework the transport upgrade API.
ALthough transport upgrades must follow a specific pattern
in order fot the resulting transport to be usable with a
`Network` or `Swarm`, that pattern is currently not well
reflected in the transport upgrade API. Rather, transport
upgrades are rather laborious and involve non-trivial code
duplication.
This commit introduces a `transport::upgrade::Builder` that is
obtained from `Transport::upgrade`. The `Builder` encodes the
previously implicit rules for transport upgrades:
1. Authentication upgrades must happen first.
2. Any number of upgrades may follow.
3. A multiplexer upgrade must happen last.
Since multiplexing is the last (regular) transport upgrade (because
that upgrade yields a `StreamMuxer` which is no longer a `AsyncRead`
/ `AsyncWrite` resource, which the upgrade process is based on),
the upgrade starts with `Transport::upgrade` and ends with
`Builder::multiplex`, which drops back down to the `Transport`,
providing a fluent API.
Authentication and multiplexer upgrades must furthermore adhere
to a minimal contract w.r.t their outputs:
1. An authentication upgrade is given an (async) I/O resource `C`
and must produce a pair `(I, D)` where `I: ConnectionInfo` and
`D` is a new (async) I/O resource `D`.
2. A multiplexer upgrade is given an (async) I/O resource `C`
and must produce a `M: StreamMuxer`.
To that end, two changes to the `secio` and `noise` protocols have been
made:
1. The `secio` upgrade now outputs a pair of `(PeerId, SecioOutput)`.
The former implements `ConnectionInfo` and the latter `AsyncRead` /
`AsyncWrite`, fulfilling the `Builder` contract.
2. A new `NoiseAuthenticated` upgrade has been added that wraps around
any noise upgrade (i.e. `NoiseConfig`) and has an output of
`(PeerId, NoiseOutput)`, i.e. it checks if the `RemoteIdentity` from
the handshake output is an `IdentityKey`, failing if that is not the
case. This is the standard upgrade procedure one wants for integrating
noise with libp2p-core/swarm.
* Cleanup
* Add a new integration test.
* Add missing license.
2019-09-10 15:42:45 +02:00
|
|
|
}
|
