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//! The module contains implementations of the transport layer functionality //! that HTTP/2 requires. It exposes APIs that allow the HTTP/2 connection to //! use the transport layer without requiring it to know which exact //! implementation they are using (e.g. a clear-text TCP connection, a TLS //! protected connection, or even a mock implementation). //! //! The types provided here are purely for convenience in being able to easily //! plug in the native Rust socket IO primitives into the HTTP/2 connection API //! without having to write too much boilerplate around them. use std::io; use std::io::{Read, Write}; use std::net::TcpStream; use std::net::Shutdown; /// A trait that any struct that wants to provide the transport layer for /// HTTP/2 needs to implement. /// /// It provides default implementations for some convenience methods, backed /// by the `Read` and `Write` implementations. pub trait TransportStream: Read + Write { /// A convenience method that performs as many `read` calls on the /// underlying `Read` implementation as it takes to fill the given buffer. /// /// The implementation simply calls the `read` in a loop until the /// buffer is filled or an aparent end of file is reached, upon which /// an error is returned. /// /// However, no particular care is taken to limit the number of loop /// iterations and it could theoretically be possible to end up reading /// a single byte at a time into a large buffer, taking a long time to /// return. /// /// Any errors raised by the underlying `Read` implementations are /// propagated. /// /// When an error is raised, the given buffer is only partially filled, /// but there is no way to know how many bytes were actually written to /// the underlying buffer, which means that, effectively, all read bytes /// are lost on any error. fn read_exact(&mut self, buf: &mut [u8]) -> io::Result<()> { let mut total = 0; while total < buf.len() { let read = try!(self.read(&mut buf[total..])); if read == 0 { // We consider this an unexpected end of file and return an // error since we were unable to read the minimum amount of // bytes. return Err(io::Error::new(io::ErrorKind::Other, "Not enough bytes")); } total += read; } Ok(()) } /// Attempts to split the `TransportStream` instance into a new independently /// owned handle to the same underlying stream. fn try_split(&self) -> Result<Self, io::Error>; /// Attempts to shutdown both ends of the transport stream. /// /// If successful, all handles to the stream created by the `try_split` operation will start /// receiving an error for any IO operations. fn close(&mut self) -> Result<(), io::Error>; } impl TransportStream for TcpStream { fn try_split(&self) -> Result<TcpStream, io::Error> { self.try_clone() } fn close(&mut self) -> Result<(), io::Error> { self.shutdown(Shutdown::Both) } } #[cfg(feature="tls")] use openssl::ssl::SslStream; #[cfg(feature="tls")] impl TransportStream for SslStream<TcpStream> { fn try_split(&self) -> Result<SslStream<TcpStream>, io::Error> { self.try_clone() } fn close(&mut self) -> Result<(), io::Error> { self.get_ref().shutdown(Shutdown::Both) } }