// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. use deno_core::error::AnyError; use deno_core::OpState; use deno_core::ResourceId; use deno_net::raw::take_network_stream_listener_resource; use deno_net::raw::take_network_stream_resource; use deno_net::raw::NetworkStream; use deno_net::raw::NetworkStreamAddress; use deno_net::raw::NetworkStreamListener; use deno_net::raw::NetworkStreamType; use hyper::HeaderMap; use hyper::Uri; use hyper1::header::HOST; use std::borrow::Cow; use std::net::Ipv4Addr; use std::net::SocketAddr; use std::net::SocketAddrV4; use std::rc::Rc; // TODO(mmastrac): I don't like that we have to clone this, but it's one-time setup #[derive(Clone)] pub struct HttpListenProperties { pub scheme: &'static str, pub fallback_host: String, pub local_port: Option, pub stream_type: NetworkStreamType, } #[derive(Clone)] pub struct HttpConnectionProperties { pub peer_address: Rc, pub peer_port: Option, pub local_port: Option, pub stream_type: NetworkStreamType, } pub struct HttpRequestProperties { pub authority: Option, } /// Pluggable trait to determine listen, connection and request properties /// for embedders that wish to provide alternative routes for incoming HTTP. #[async_trait::async_trait(?Send)] pub trait HttpPropertyExtractor { type Listener: 'static; type Connection; /// Given a listener [`ResourceId`], returns the [`HttpPropertyExtractor::Listener`]. fn get_listener_for_rid( state: &mut OpState, listener_rid: ResourceId, ) -> Result; /// Given a connection [`ResourceId`], returns the [`HttpPropertyExtractor::Connection`]. fn get_connection_for_rid( state: &mut OpState, connection_rid: ResourceId, ) -> Result; /// Determines the listener properties. fn listen_properties_from_listener( listener: &Self::Listener, ) -> Result; /// Determines the listener properties given a [`HttpPropertyExtractor::Connection`]. fn listen_properties_from_connection( connection: &Self::Connection, ) -> Result; /// Accept a new [`HttpPropertyExtractor::Connection`] from the given listener [`HttpPropertyExtractor::Listener`]. async fn accept_connection_from_listener( listener: &Self::Listener, ) -> Result; /// Determines the connection properties. fn connection_properties( listen_properties: &HttpListenProperties, connection: &Self::Connection, ) -> HttpConnectionProperties; /// Turn a given [`HttpPropertyExtractor::Connection`] into a [`NetworkStream`]. fn to_network_stream_from_connection( connection: Self::Connection, ) -> NetworkStream; /// Determines the request properties. fn request_properties( connection_properties: &HttpConnectionProperties, uri: &Uri, headers: &HeaderMap, ) -> HttpRequestProperties; } pub struct DefaultHttpPropertyExtractor {} #[async_trait::async_trait(?Send)] impl HttpPropertyExtractor for DefaultHttpPropertyExtractor { type Listener = NetworkStreamListener; type Connection = NetworkStream; fn get_listener_for_rid( state: &mut OpState, listener_rid: ResourceId, ) -> Result { take_network_stream_listener_resource( &mut state.resource_table, listener_rid, ) } fn get_connection_for_rid( state: &mut OpState, stream_rid: ResourceId, ) -> Result { take_network_stream_resource(&mut state.resource_table, stream_rid) } async fn accept_connection_from_listener( listener: &NetworkStreamListener, ) -> Result { listener.accept().await.map_err(Into::into) } fn listen_properties_from_listener( listener: &NetworkStreamListener, ) -> Result { let stream_type = listener.stream(); let local_address = listener.listen_address()?; listener_properties(stream_type, local_address) } fn listen_properties_from_connection( connection: &Self::Connection, ) -> Result { let stream_type = connection.stream(); let local_address = connection.local_address()?; listener_properties(stream_type, local_address) } fn to_network_stream_from_connection( connection: Self::Connection, ) -> NetworkStream { connection } fn connection_properties( listen_properties: &HttpListenProperties, connection: &NetworkStream, ) -> HttpConnectionProperties { // We always want some sort of peer address. If we can't get one, just make up one. let peer_address = connection.peer_address().unwrap_or_else(|_| { NetworkStreamAddress::Ip(SocketAddr::V4(SocketAddrV4::new( Ipv4Addr::new(0, 0, 0, 0), 0, ))) }); let peer_port: Option = match peer_address { NetworkStreamAddress::Ip(ip) => Some(ip.port()), #[cfg(unix)] NetworkStreamAddress::Unix(_) => None, }; let peer_address = match peer_address { NetworkStreamAddress::Ip(addr) => Rc::from(addr.ip().to_string()), #[cfg(unix)] NetworkStreamAddress::Unix(_) => Rc::from("unix"), }; let local_port = listen_properties.local_port; let stream_type = listen_properties.stream_type; HttpConnectionProperties { peer_address, peer_port, local_port, stream_type, } } fn request_properties( connection_properties: &HttpConnectionProperties, uri: &Uri, headers: &HeaderMap, ) -> HttpRequestProperties { let authority = req_host( uri, headers, connection_properties.stream_type, connection_properties.local_port.unwrap_or_default(), ) .map(|s| s.into_owned()); HttpRequestProperties { authority } } } fn listener_properties( stream_type: NetworkStreamType, local_address: NetworkStreamAddress, ) -> Result { let scheme = req_scheme_from_stream_type(stream_type); let fallback_host = req_host_from_addr(stream_type, &local_address); let local_port: Option = match local_address { NetworkStreamAddress::Ip(ip) => Some(ip.port()), #[cfg(unix)] NetworkStreamAddress::Unix(_) => None, }; Ok(HttpListenProperties { scheme, fallback_host, local_port, stream_type, }) } /// Compute the fallback address from the [`NetworkStreamListenAddress`]. If the request has no authority/host in /// its URI, and there is no [`HeaderName::HOST`] header, we fall back to this. fn req_host_from_addr( stream_type: NetworkStreamType, addr: &NetworkStreamAddress, ) -> String { match addr { NetworkStreamAddress::Ip(addr) => { if (stream_type == NetworkStreamType::Tls && addr.port() == 443) || (stream_type == NetworkStreamType::Tcp && addr.port() == 80) { if addr.ip().is_loopback() || addr.ip().is_unspecified() { return "localhost".to_owned(); } addr.ip().to_string() } else { if addr.ip().is_loopback() || addr.ip().is_unspecified() { return format!("localhost:{}", addr.port()); } addr.to_string() } } // There is no standard way for unix domain socket URLs // nginx and nodejs request use http://unix:[socket_path]:/ but it is not a valid URL // httpie uses http+unix://[percent_encoding_of_path]/ which we follow #[cfg(unix)] NetworkStreamAddress::Unix(unix) => percent_encoding::percent_encode( unix .as_pathname() .and_then(|x| x.to_str()) .unwrap_or_default() .as_bytes(), percent_encoding::NON_ALPHANUMERIC, ) .to_string(), } } fn req_scheme_from_stream_type(stream_type: NetworkStreamType) -> &'static str { match stream_type { NetworkStreamType::Tcp => "http://", NetworkStreamType::Tls => "https://", #[cfg(unix)] NetworkStreamType::Unix => "http+unix://", } } fn req_host<'a>( uri: &'a Uri, headers: &'a HeaderMap, addr_type: NetworkStreamType, port: u16, ) -> Option> { // Unix sockets always use the socket address #[cfg(unix)] if addr_type == NetworkStreamType::Unix { return None; } // It is rare that an authority will be passed, but if it does, it takes priority if let Some(auth) = uri.authority() { match addr_type { NetworkStreamType::Tcp => { if port == 80 { return Some(Cow::Borrowed(auth.host())); } } NetworkStreamType::Tls => { if port == 443 { return Some(Cow::Borrowed(auth.host())); } } #[cfg(unix)] NetworkStreamType::Unix => {} } return Some(Cow::Borrowed(auth.as_str())); } // TODO(mmastrac): Most requests will use this path and we probably will want to optimize it in the future if let Some(host) = headers.get(HOST) { return Some(match host.to_str() { Ok(host) => Cow::Borrowed(host), Err(_) => Cow::Owned( host .as_bytes() .iter() .cloned() .map(char::from) .collect::(), ), }); } None }