third_party/rust_crates/vendor/h2/src/lib.rs - fuchsia - Git at Google

 //! An asynchronous, HTTP/2.0 server and client implementation.
 //!
 //! This library implements the [HTTP/2.0] specification. The implementation is
 //! asynchronous, using [futures] as the basis for the API. The implementation
 //! is also decoupled from TCP or TLS details. The user must handle ALPN and
 //! HTTP/1.1 upgrades themselves.
 //!
 //! # Getting started
 //!
 //! Add the following to your `Cargo.toml` file:
 //!
 //! ```toml
 //! [dependencies]
 //! h2 = "0.2"
 //! ```
 //!
 //! # Layout
 //!
 //! The crate is split into [`client`] and [`server`] modules. Types that are
 //! common to both clients and servers are located at the root of the crate.
 //!
 //! See module level documentation for more details on how to use `h2`.
 //!
 //! # Handshake
 //!
 //! Both the client and the server require a connection to already be in a state
 //! ready to start the HTTP/2.0 handshake. This library does not provide
 //! facilities to do this.
 //!
 //! There are three ways to reach an appropriate state to start the HTTP/2.0
 //! handshake.
 //!
 //! * Opening an HTTP/1.1 connection and performing an [upgrade].
 //! * Opening a connection with TLS and use ALPN to negotiate the protocol.
 //! * Open a connection with prior knowledge, i.e. both the client and the
 //!   server assume that the connection is immediately ready to start the
 //!   HTTP/2.0 handshake once opened.
 //!
 //! Once the connection is ready to start the HTTP/2.0 handshake, it can be
 //! passed to [`server::handshake`] or [`client::handshake`]. At this point, the
 //! library will start the handshake process, which consists of:
 //!
 //! * The client sends the connection preface (a predefined sequence of 24
 //! octets).
 //! * Both the client and the server sending a SETTINGS frame.
 //!
 //! See the [Starting HTTP/2] in the specification for more details.
 //!
 //! # Flow control
 //!
 //! [Flow control] is a fundamental feature of HTTP/2.0. The `h2` library
 //! exposes flow control to the user.
 //!
 //! An HTTP/2.0 client or server may not send unlimited data to the peer. When a
 //! stream is initiated, both the client and the server are provided with an
 //! initial window size for that stream.  A window size is the number of bytes
 //! the endpoint can send to the peer. At any point in time, the peer may
 //! increase this window size by sending a `WINDOW_UPDATE` frame. Once a client
 //! or server has sent data filling the window for a stream, no further data may
 //! be sent on that stream until the peer increases the window.
 //!
 //! There is also a **connection level** window governing data sent across all
 //! streams.
 //!
 //! Managing flow control for inbound data is done through [`FlowControl`].
 //! Managing flow control for outbound data is done through [`SendStream`]. See
 //! the struct level documentation for those two types for more details.
 //!
 //! [HTTP/2.0]: https://http2.github.io/
 //! [futures]: https://docs.rs/futures/
 //! [`client`]: client/index.html
 //! [`server`]: server/index.html
 //! [Flow control]: http://httpwg.org/specs/rfc7540.html#FlowControl
 //! [`FlowControl`]: struct.FlowControl.html
 //! [`SendStream`]: struct.SendStream.html
 //! [Starting HTTP/2]: http://httpwg.org/specs/rfc7540.html#starting
 //! [upgrade]: https://developer.mozilla.org/en-US/docs/Web/HTTP/Protocol_upgrade_mechanism
 //! [`server::handshake`]: server/fn.handshake.html
 //! [`client::handshake`]: client/fn.handshake.html

 #![doc(html_root_url = "https://docs.rs/h2/0.2.5")]
 #![deny(missing_debug_implementations, missing_docs)]
 #![cfg_attr(test, deny(warnings))]

 macro_rules! proto_err {
     (conn: $($msg:tt)+) => {
         log::debug!("connection error PROTOCOL_ERROR -- {};", format_args!($($msg)+))
     };
     (stream: $($msg:tt)+) => {
         log::debug!("stream error PROTOCOL_ERROR -- {};", format_args!($($msg)+))
     };
 }

 macro_rules! ready {
     ($e:expr) => {
         match $e {
             ::std::task::Poll::Ready(r) => r,
             ::std::task::Poll::Pending => return ::std::task::Poll::Pending,
         }
     };
 }

 #[cfg_attr(feature = "unstable", allow(missing_docs))]
 mod codec;
 mod error;
 mod hpack;
 mod proto;

 #[cfg(not(feature = "unstable"))]
 mod frame;

 #[cfg(feature = "unstable")]
 #[allow(missing_docs)]
 pub mod frame;

 pub mod client;
 pub mod server;
 mod share;

 pub use crate::error::{Error, Reason};
 pub use crate::share::{FlowControl, Ping, PingPong, Pong, RecvStream, SendStream, StreamId};

 #[cfg(feature = "unstable")]
 pub use codec::{Codec, RecvError, SendError, UserError};

 use std::task::Poll;

 // TODO: Get rid of this trait once https://github.com/rust-lang/rust/pull/63512
 // is stablized.
 trait PollExt<T, E> {
     /// Changes the success value of this `Poll` with the closure provided.
     fn map_ok_<U, F>(self, f: F) -> Poll<Option<Result<U, E>>>
     where
         F: FnOnce(T) -> U;
     /// Changes the error value of this `Poll` with the closure provided.
     fn map_err_<U, F>(self, f: F) -> Poll<Option<Result<T, U>>>
     where
         F: FnOnce(E) -> U;
 }

 impl<T, E> PollExt<T, E> for Poll<Option<Result<T, E>>> {
     fn map_ok_<U, F>(self, f: F) -> Poll<Option<Result<U, E>>>
     where
         F: FnOnce(T) -> U,
     {
         match self {
             Poll::Ready(Some(Ok(t))) => Poll::Ready(Some(Ok(f(t)))),
             Poll::Ready(Some(Err(e))) => Poll::Ready(Some(Err(e))),
             Poll::Ready(None) => Poll::Ready(None),
             Poll::Pending => Poll::Pending,
         }
     }

     fn map_err_<U, F>(self, f: F) -> Poll<Option<Result<T, U>>>
     where
         F: FnOnce(E) -> U,
     {
         match self {
             Poll::Ready(Some(Ok(t))) => Poll::Ready(Some(Ok(t))),
             Poll::Ready(Some(Err(e))) => Poll::Ready(Some(Err(f(e)))),
             Poll::Ready(None) => Poll::Ready(None),
             Poll::Pending => Poll::Pending,
         }
     }
 }
	//! An asynchronous, HTTP/2.0 server and client implementation.
	//!
	//! This library implements the [HTTP/2.0] specification. The implementation is
	//! asynchronous, using [futures] as the basis for the API. The implementation
	//! is also decoupled from TCP or TLS details. The user must handle ALPN and
	//! HTTP/1.1 upgrades themselves.
	//!
	//! # Getting started
	//!
	//! Add the following to your `Cargo.toml` file:
	//!
	//! ```toml
	//! [dependencies]
	//! h2 = "0.2"
	//! ```
	//!
	//! # Layout
	//!
	//! The crate is split into [`client`] and [`server`] modules. Types that are
	//! common to both clients and servers are located at the root of the crate.
	//!
	//! See module level documentation for more details on how to use `h2`.
	//!
	//! # Handshake
	//!
	//! Both the client and the server require a connection to already be in a state
	//! ready to start the HTTP/2.0 handshake. This library does not provide
	//! facilities to do this.
	//!
	//! There are three ways to reach an appropriate state to start the HTTP/2.0
	//! handshake.
	//!
	//! * Opening an HTTP/1.1 connection and performing an [upgrade].
	//! * Opening a connection with TLS and use ALPN to negotiate the protocol.
	//! * Open a connection with prior knowledge, i.e. both the client and the
	//! server assume that the connection is immediately ready to start the
	//! HTTP/2.0 handshake once opened.
	//!
	//! Once the connection is ready to start the HTTP/2.0 handshake, it can be
	//! passed to [`server::handshake`] or [`client::handshake`]. At this point, the
	//! library will start the handshake process, which consists of:
	//!
	//! * The client sends the connection preface (a predefined sequence of 24
	//! octets).
	//! * Both the client and the server sending a SETTINGS frame.
	//!
	//! See the [Starting HTTP/2] in the specification for more details.
	//!
	//! # Flow control
	//!
	//! [Flow control] is a fundamental feature of HTTP/2.0. The `h2` library
	//! exposes flow control to the user.
	//!
	//! An HTTP/2.0 client or server may not send unlimited data to the peer. When a
	//! stream is initiated, both the client and the server are provided with an
	//! initial window size for that stream. A window size is the number of bytes
	//! the endpoint can send to the peer. At any point in time, the peer may
	//! increase this window size by sending a `WINDOW_UPDATE` frame. Once a client
	//! or server has sent data filling the window for a stream, no further data may
	//! be sent on that stream until the peer increases the window.
	//!
	//! There is also a connection level window governing data sent across all
	//! streams.
	//!
	//! Managing flow control for inbound data is done through [`FlowControl`].
	//! Managing flow control for outbound data is done through [`SendStream`]. See
	//! the struct level documentation for those two types for more details.
	//!
	//! [HTTP/2.0]: https://http2.github.io/
	//! [futures]: https://docs.rs/futures/
	//! [`client`]: client/index.html
	//! [`server`]: server/index.html
	//! [Flow control]: http://httpwg.org/specs/rfc7540.html#FlowControl
	//! [`FlowControl`]: struct.FlowControl.html
	//! [`SendStream`]: struct.SendStream.html
	//! [Starting HTTP/2]: http://httpwg.org/specs/rfc7540.html#starting
	//! [upgrade]: https://developer.mozilla.org/en-US/docs/Web/HTTP/Protocol_upgrade_mechanism
	//! [`server::handshake`]: server/fn.handshake.html
	//! [`client::handshake`]: client/fn.handshake.html

	#![doc(html_root_url = "https://docs.rs/h2/0.2.5")]
	#![deny(missing_debug_implementations, missing_docs)]
	#![cfg_attr(test, deny(warnings))]

	macro_rules! proto_err {
	(conn: $($msg:tt)+) => {
	log::debug!("connection error PROTOCOL_ERROR -- {};", format_args!($($msg)+))
	};
	(stream: $($msg:tt)+) => {
	log::debug!("stream error PROTOCOL_ERROR -- {};", format_args!($($msg)+))
	};
	}

	macro_rules! ready {
	($e:expr) => {
	match $e {
	::std::task::Poll::Ready(r) => r,
	::std::task::Poll::Pending => return ::std::task::Poll::Pending,
	}
	};
	}

	#[cfg_attr(feature = "unstable", allow(missing_docs))]
	mod codec;
	mod error;
	mod hpack;
	mod proto;

	#[cfg(not(feature = "unstable"))]
	mod frame;

	#[cfg(feature = "unstable")]
	#[allow(missing_docs)]
	pub mod frame;

	pub mod client;
	pub mod server;
	mod share;

	pub use crate::error::{Error, Reason};
	pub use crate::share::{FlowControl, Ping, PingPong, Pong, RecvStream, SendStream, StreamId};

	#[cfg(feature = "unstable")]
	pub use codec::{Codec, RecvError, SendError, UserError};

	use std::task::Poll;

	// TODO: Get rid of this trait once https://github.com/rust-lang/rust/pull/63512
	// is stablized.
	trait PollExt<T, E> {
	/// Changes the success value of this `Poll` with the closure provided.
	fn map_ok_<U, F>(self, f: F) -> Poll<Option<Result<U, E>>>
	where
	F: FnOnce(T) -> U;
	/// Changes the error value of this `Poll` with the closure provided.
	fn map_err_<U, F>(self, f: F) -> Poll<Option<Result<T, U>>>
	where
	F: FnOnce(E) -> U;
	}

	impl<T, E> PollExt<T, E> for Poll<Option<Result<T, E>>> {
	fn map_ok_<U, F>(self, f: F) -> Poll<Option<Result<U, E>>>
	where
	F: FnOnce(T) -> U,
	{
	match self {
	Poll::Ready(Some(Ok(t))) => Poll::Ready(Some(Ok(f(t)))),
	Poll::Ready(Some(Err(e))) => Poll::Ready(Some(Err(e))),
	Poll::Ready(None) => Poll::Ready(None),
	Poll::Pending => Poll::Pending,
	}
	}

	fn map_err_<U, F>(self, f: F) -> Poll<Option<Result<T, U>>>
	where
	F: FnOnce(E) -> U,
	{
	match self {
	Poll::Ready(Some(Ok(t))) => Poll::Ready(Some(Ok(t))),
	Poll::Ready(Some(Err(e))) => Poll::Ready(Some(Err(f(e)))),
	Poll::Ready(None) => Poll::Ready(None),
	Poll::Pending => Poll::Pending,
	}
	}
	}