Remove default features. You need to enable required features
explicitly now. As a quick workaround, you may want to use the
new `full` feature which activates all features.
Instead of having a mix of `poll_event`, `poll_outbound` and `poll_close`, we
flatten the entire interface of `StreamMuxer` into 4 individual functions:
- `poll_inbound`
- `poll_outbound`
- `poll_address_change`
- `poll_close`
This design is closer to the design of other async traits like `AsyncRead` and
`AsyncWrite`. It also allows us to delete the `StreamMuxerEvent`.
Remove the concept of individual `Transport::Listener` streams from `Transport`.
Instead the `Transport` is polled directly via `Transport::poll`. The
`Transport` is now responsible for driving its listeners.
This commit removes the `Clone` implementation on `GenTcpConfig` and consequently the `Clone`
implementations on `GenDnsConfig` and `WsConfig`.
When port-reuse is enabled, `GenTcpConfig` tracks the addresses it is listening in a `HashSet`. This
`HashSet` is shared with the `TcpListenStream`s via an `Arc<Mutex<_>>`. Given that `Clone` is
`derive`d on `GenTcpConfig`, cloning a `GenTcpConfig`, results in both instances sharing the same
set of listen addresses. This is not intuitive.
This behavior is for example error prone in the scenario where one wants to speak both plain DNS/TCP and
Websockets. Say a user creates the transport in the following way:
``` Rust
let transport = {
let tcp = tcp::TcpConfig::new().nodelay(true).port_reuse(true);
let dns_tcp = dns::DnsConfig::system(tcp).await?;
let ws_dns_tcp = websocket::WsConfig::new(dns_tcp.clone());
dns_tcp.or_transport(ws_dns_tcp)
};
```
Both `dns_tcp` and `ws_dns_tcp` share the set of listen addresses, given the `dns_tcp.clone()` to
create the `ws_dns_tcp`. Thus, with port-reuse, a Websocket dial might reuse a DNS/TCP listening
port instead of a Websocket listening port.
With this commit a user is forced to do the below, preventing the above error:
``` Rust
let transport = {
let dns_tcp = dns::DnsConfig::system(tcp::TcpConfig::new().nodelay(true).port_reuse(true)).await?;
let ws_dns_tcp = websocket::WsConfig::new(
dns::DnsConfig::system(tcp::TcpConfig::new().nodelay(true).port_reuse(true)).await?,
);
dns_tcp.or_transport(ws_dns_tcp)
};
```
Co-authored-by: Thomas Eizinger <thomas@eizinger.io>
Previously `libp2p-swarm` required a `Transport` to be `Clone`. Methods
on `Transport`, e.g. `Transport::dial` would take ownership, requiring
e.g. a `Clone::clone` before calling `Transport::dial`.
The requirement of `Transport` to be `Clone` is no longer needed in
`libp2p-swarm`. E.g. concurrent dialing can be done without a clone per
dial.
This commit removes the requirement of `Clone` for `Transport` in
`libp2p-swarm`. As a follow-up methods on `Transport` no longer take
ownership, but instead a mutable reference (`&mut self`).
On the one hand this simplifies `libp2p-swarm`, on the other it
simplifies implementations of `Transport`.
Allows `NetworkBehaviour` implementations to dial a peer, but instruct
the dialed connection to be upgraded as if it were the listening
endpoint.
This is needed when establishing direct connections through NATs and/or
Firewalls (hole punching). When hole punching via TCP (QUIC is different
but similar) both ends dial the other at the same time resulting in a
simultaneously opened TCP connection. To disambiguate who is the dialer
and who the listener there are two options:
1. Use the Simultaneous Open Extension of Multistream Select. See
[sim-open] specification and [sim-open-rust] Rust implementation.
2. Disambiguate the role (dialer or listener) based on the role within
the DCUtR [dcutr] protocol. More specifically the node initiating the
DCUtR process will act as a listener and the other as a dialer.
This commit enables (2), i.e. enables the DCUtR protocol to specify the
role used once the connection is established.
While on the positive side (2) requires one round trip less than (1), on
the negative side (2) only works for coordinated simultaneous dials.
I.e. when a simultaneous dial happens by chance, and not coordinated via
DCUtR, the connection attempt fails when only (2) is in place.
[sim-open]: https://github.com/libp2p/specs/blob/master/connections/simopen.md
[sim-open-rust]: https://github.com/libp2p/rust-libp2p/pull/2066
[dcutr]: https://github.com/libp2p/specs/blob/master/relay/DCUtR.md
Don't report events of a connection to the `NetworkBehaviour`, if connection has
been established while the remote peer was banned. Among other guarantees this
upholds that `NetworkBehaviour::inject_event` is never called without a previous
`NetworkBehaviour::inject_connection_established` for said connection.
Co-authored-by: Max Inden <mail@max-inden.de>
Pass websocket CLOSE reason to the app as an
`Incoming::Closed(soketto::CloseReason)`.
This PR is a companion to https://github.com/paritytech/soketto/pull/31 and lets
applications know what the remote end claimed to be the reason for closing the
connection (if any).
`IncomingData` is now renamed to `Incoming` and the actual data (text or binary)
is moved into its own `Data` enum, which in turn allows `into_bytes()` and the
`AsRef` impl to apply more sanely to something that is actually data.
Co-authored-by: David Palm <dvdplm@gmail.com>
- Change `PublicKey::into_protobuf_encoding` to
`PublicKey::to_protobuf_encoding`.
- Change `PublicKey::into_peer_id` to `PublicKey::to_peer_id`.
- Change `PeerId::from_public_key(PublicKey)` to
`PeerId::from_public_key(&PublicKey)`.
- Add `From<&PublicKey> for PeerId`.
Co-authored-by: Max Inden <mail@max-inden.de>
* Implement `/dnsaddr` support on `libp2p-dns`.
To that end, since resolving `/dnsaddr` addresses needs
"fully qualified" multiaddresses when dialing, i.e. those
that end with the `/p2p/...` protocol, we make sure that
dialing always uses such fully qualified addresses by
appending the `/p2p` protocol as necessary. As a side-effect,
this adds support for dialing peers via "fully qualified"
addresses, as an alternative to using a `PeerId` together
with a `Multiaddr` with or without the `/p2p` protocol.
* Adapt libp2p-relay.
* Update versions, changelogs and small cleanups.
* Make clippy "happy".
Address all clippy complaints that are not purely stylistic (or even
have corner cases with false positives). Ignore all "style" and "pedantic" lints.
* Fix tests.
* Undo unnecessary API change.
* Update tomls.
* Let transports decide when to translate.
* Improve tcp transport.
* Update stuff.
* Remove background task. Enhance documentation.
To avoid spawning a background task and thread within
`TcpConfig::new()`, with communication via unbounded channels,
a `TcpConfig` now keeps track of the listening addresses
for port reuse in an `Arc<RwLock>`. Furthermore, an `IfWatcher`
is only used by a `TcpListenStream` if it listens on any interface
and directly polls the `IfWatcher` both for initialisation and
new events.
Includes some documentation and test enhancements.
* Reintroduce feature flags for tokio vs async-io.
To avoid having an extra reactor thread running for tokio
users and to make sure all TCP I/O uses the mio-based
tokio reactor.
Thereby run tests with both backends.
* Add missing files.
* Fix docsrs attributes.
* Update transports/tcp/src/lib.rs
Co-authored-by: Max Inden <mail@max-inden.de>
* Restore chat-tokio example.
* Forward poll_write_vectored for tokio's AsyncWrite.
* Update changelogs.
Co-authored-by: David Craven <david@craven.ch>
Co-authored-by: Max Inden <mail@max-inden.de>
`futures-codec` has not been updated in the recent months. It still
depends on `bytes` `v0.5` preventing all downstream dependencies to
upgrade to `bytes` `v1.0`.
This commit replaces `futures_codec` in favor of `asynchronous-codec`
The latter is a fully upgraded fork of the former.
In addition this commit upgrades:
- bytes to v1
- unsigned-varint to v0.6.0
- prost to v0.7
