Crate quinn[−][src]
QUIC transport protocol support for Tokio
QUIC is a modern transport protocol addressing shortcomings of TCP, such as head-of-line blocking, poor security, slow handshakes, and inefficient congestion control. This crate provides a portable userspace implementation.
The entry point of this crate is the Endpoint
.
let mut runtime = tokio::runtime::Builder::new().basic_scheduler().enable_all().build().unwrap(); let mut builder = quinn::Endpoint::builder(); // <configure builder> let (endpoint_driver, endpoint, _) = runtime.enter(|| builder.bind(&"[::]:0".parse().unwrap()).unwrap()); runtime.spawn(endpoint_driver.unwrap_or_else(|e| panic!("I/O error: {}", e))); // <use endpoint>
About QUIC
A QUIC connection is an association between two endpoints. The endpoint which initiates the connection is termed the client, and the endpoint which accepts it is termed the server. A single endpoint may function as both client and server for different connections, for example in a peer-to-peer application. To communicate application data, each endpoint may open streams up to a limit dictated by its peer. Typically, that limit is increased as old streams are finished.
Streams may be unidirectional or bidirectional, and are cheap to create and disposable. For example, a traditionally datagram-oriented application could use a new stream for every message it wants to send, no longer needing to worry about MTUs. Bidirectional streams behave much like a traditional TCP connection, and are useful for sending messages that have an immediate response, such as an HTTP request. Stream data is delivered reliably, and there is no ordering enforced between data on different streams.
By avoiding head-of-line blocking and providing unified congestion control across all streams of a connection, QUIC is able to provide higher throughput and lower latency than one or multiple TCP connections between the same two hosts, while providing more useful behavior than raw UDP sockets.
QUIC uses encryption and identity verification built directly on TLS 1.3. Just as with a TLS server, it is useful for a QUIC server to be identified by a certificate signed by a trusted authority. If this is infeasible–for example, if servers are short-lived or not associated with a domain name–then as with TLS, self-signed certificates can be used to provide encryption alone.
Modules
crypto | Traits and implementations for the QUIC cryptography protocol |
Structs
Certificate | A single TLS certificate |
CertificateChain | A chain of signed TLS certificates ending the one to be used by a server |
ClientConfigBuilder | Helper for creating new outgoing connections. |
Connecting | In-progress connection attempt future |
Connection | A QUIC connection. |
ConnectionDriver | A future that drives protocol logic for a connection |
ConnectionId | Protocol-level identifier for a connection. |
Datagrams | Stream of unordered, unreliable datagrams sent by the peer |
Endpoint | A QUIC endpoint. |
EndpointBuilder | A helper for constructing an |
EndpointDriver | A future that drives IO on an endpoint |
Incoming | Stream of incoming connections. |
IncomingBiStreams | A stream of bidirectional QUIC streams initiated by a remote peer. |
IncomingUniStreams | A stream of unidirectional QUIC streams initiated by a remote peer. |
NewConnection | Components of a newly established connection |
OpenBi | A future that will resolve into an opened outgoing bidirectional stream |
OpenUni | A future that will resolve into an opened outgoing unidirectional stream |
ParseError | Errors encountered while parsing a TLS certificate or private key |
PrivateKey | The private key of a TLS certificate to be used by a server |
Read | Future produced by |
ReadExact | Future produced by |
ReadToEnd | Future produced by |
RecvStream | A stream that can only be used to receive data |
SendStream | A stream that can only be used to send data |
ServerConfigBuilder | Helper for constructing a |
Transmit | An outgoing packet |
TransportConfig | Parameters governing the core QUIC state machine |
VarInt | An integer less than 2^62 |
Enums
ConnectError | Errors in the parameters being used to create a new connection |
ConnectionError | Reasons why a connection might be lost. |
DatagramEvent | Event resulting from processing a single datagram |
EndpointError | Errors that can occur during the construction of an |
ReadError | Errors that arise from reading from a stream. |
ReadExactError | Errors that arise from reading from a stream. |
ReadToEndError | Error from the ReadToEnd future |
WriteError | Errors that arise from writing to a stream |
Type Definitions
ClientConfig | A |
ServerConfig | A |