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// Copyright 2019-2021 Parity Technologies (UK) Ltd.
//
// Permission is hereby granted, free of charge, to any
// person obtaining a copy of this software and associated
// documentation files (the "Software"), to deal in the
// Software without restriction, including without
// limitation the rights to use, copy, modify, merge,
// publish, distribute, sublicense, and/or sell copies of
// the Software, and to permit persons to whom the Software
// is furnished to do so, subject to the following
// conditions:
//
// The above copyright notice and this permission notice
// shall be included in all copies or substantial portions
// of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF
// ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED
// TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
// PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT
// SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
// CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR
// IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
// DEALINGS IN THE SOFTWARE.
use std::cmp;
use std::future::Future;
use std::net::{SocketAddr, TcpListener, ToSocketAddrs};
use std::pin::Pin;
use std::task::{Context, Poll};
use crate::response::{internal_error, malformed};
use futures_channel::mpsc;
use futures_util::{future::join_all, stream::StreamExt, FutureExt};
use hyper::header::{HeaderMap, HeaderValue};
use hyper::server::{conn::AddrIncoming, Builder as HyperBuilder};
use hyper::service::{make_service_fn, service_fn};
use hyper::{Error as HyperError, Method};
use jsonrpsee_core::error::{Error, GenericTransportError};
use jsonrpsee_core::http_helpers::{self, read_body};
use jsonrpsee_core::id_providers::NoopIdProvider;
use jsonrpsee_core::middleware::Middleware;
use jsonrpsee_core::server::helpers::{collect_batch_response, prepare_error, MethodSink};
use jsonrpsee_core::server::resource_limiting::Resources;
use jsonrpsee_core::server::rpc_module::{MethodResult, Methods};
use jsonrpsee_core::TEN_MB_SIZE_BYTES;
use jsonrpsee_types::{Id, Notification, Request};
use serde_json::value::RawValue;
/// Builder to create JSON-RPC HTTP server.
#[derive(Debug)]
max_request_body_size: u32,
keep_alive: bool,
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/// Custom tokio runtime to run the server on.
tokio_runtime: Option<tokio::runtime::Handle>,
middleware: M,
}
impl Default for Builder {
fn default() -> Self {
Self {
max_request_body_size: TEN_MB_SIZE_BYTES,
resources: Resources::default(),
access_control: AccessControl::default(),
keep_alive: true,
tokio_runtime: None,
middleware: (),
}
}
/// Create a default server builder.
pub fn new() -> Self {
Self::default()
}
}
impl<M> Builder<M> {
/// Add a middleware to the builder [`Middleware`](../jsonrpsee_core/middleware/trait.Middleware.html).
///
/// ```
/// use std::time::Instant;
///
/// use jsonrpsee_core::middleware::Middleware;
/// use jsonrpsee_http_server::HttpServerBuilder;
///
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/// #[derive(Clone)]
/// struct MyMiddleware;
///
/// impl Middleware for MyMiddleware {
/// type Instant = Instant;
///
/// fn on_request(&self) -> Instant {
/// Instant::now()
/// }
///
/// fn on_result(&self, name: &str, success: bool, started_at: Instant) {
/// println!("Call to '{}' took {:?}", name, started_at.elapsed());
/// }
/// }
///
/// let builder = HttpServerBuilder::new().set_middleware(MyMiddleware);
/// ```
pub fn set_middleware<T: Middleware>(self, middleware: T) -> Builder<T> {
Builder {
max_request_body_size: self.max_request_body_size,
resources: self.resources,
access_control: self.access_control,
keep_alive: self.keep_alive,
tokio_runtime: self.tokio_runtime,
middleware,
}
}
/// Sets the maximum size of a request body in bytes (default is 10 MiB).
pub fn max_request_body_size(mut self, size: u32) -> Self {
self.max_request_body_size = size;
self
}
/// Sets access control settings.
pub fn set_access_control(mut self, acl: AccessControl) -> Self {
self.access_control = acl;
self
}
/// Enables or disables HTTP keep-alive.
///
/// Default is true.
pub fn keep_alive(mut self, keep_alive: bool) -> Self {
self.keep_alive = keep_alive;
self
}
/// Register a new resource kind. Errors if `label` is already registered, or if the number of
/// registered resources on this server instance would exceed 8.
///
/// See the module documentation for [`resurce_limiting`](../jsonrpsee_utils/server/resource_limiting/index.html#resource-limiting)
/// for details.
pub fn register_resource(mut self, label: &'static str, capacity: u16, default: u16) -> Result<Self, Error> {
self.resources.register(label, capacity, default)?;
Ok(self)
}
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/// Configure a custom [`tokio::runtime::Handle`] to run the server on.
///
/// Default: [`tokio::spawn`]
pub fn custom_tokio_runtime(mut self, rt: tokio::runtime::Handle) -> Self {
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self.tokio_runtime = Some(rt);
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}
/// Finalizes the configuration of the server.
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///
/// ```rust
/// #[tokio::main]
/// async fn main() {
/// let listener = std::net::TcpListener::bind("127.0.0.1:0").unwrap();
/// let occupied_addr = listener.local_addr().unwrap();
/// let addrs: &[std::net::SocketAddr] = &[
/// occupied_addr,
/// "127.0.0.1:0".parse().unwrap(),
/// ];
/// assert!(jsonrpsee_http_server::HttpServerBuilder::default().build(occupied_addr).is_err());
/// assert!(jsonrpsee_http_server::HttpServerBuilder::default().build(addrs).is_ok());
/// }
/// ```
pub fn build(self, addrs: impl ToSocketAddrs) -> Result<Server<M>, Error> {
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let mut err: Option<Error> = None;
for addr in addrs.to_socket_addrs()? {
let (listener, local_addr) = match self.inner_builder(addr) {
Ok(res) => res,
Err(e) => {
err = Some(e);
continue;
}
};
return Ok(Server {
listener,
local_addr,
access_control: self.access_control,
max_request_body_size: self.max_request_body_size,
resources: self.resources,
tokio_runtime: self.tokio_runtime,
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});
}
let err = err.unwrap_or_else(|| std::io::Error::new(std::io::ErrorKind::NotFound, "No address found").into());
Err(err)
}
fn inner_builder(
&self,
addr: SocketAddr,
) -> Result<(hyper::server::Builder<hyper::server::conn::AddrIncoming>, Option<SocketAddr>), Error> {
let domain = Domain::for_address(addr);
let socket = Socket::new(domain, Type::STREAM, None)?;
socket.set_nodelay(true)?;
socket.set_reuse_address(true)?;
socket.set_nonblocking(true)?;
socket.set_keepalive(self.keep_alive)?;
let address = addr.into();
socket.bind(&address)?;
socket.listen(128)?;
let listener: TcpListener = socket.into();
let local_addr = listener.local_addr().ok();
let listener = hyper::Server::from_tcp(listener)?;
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Ok((listener, local_addr))
/// Handle used to run or stop the server.
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#[derive(Debug)]
pub(crate) handle: Option<tokio::task::JoinHandle<()>>,
/// Requests server to stop. Returns an error if server was already stopped.
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pub fn stop(mut self) -> Result<tokio::task::JoinHandle<()>, Error> {
let stop = self.stop_sender.try_send(()).map(|_| self.handle.take());
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match stop {
Ok(Some(handle)) => Ok(handle),
_ => Err(Error::AlreadyStopped),
}
impl Future for ServerHandle {
type Output = ();
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let handle = match &mut self.handle {
Some(handle) => handle,
None => return Poll::Ready(()),
};
handle.poll_unpin(cx).map(|_| ())
}
}
/// An HTTP JSON RPC server.
#[derive(Debug)]
/// Hyper server.
listener: HyperBuilder<AddrIncoming>,
/// Local address
local_addr: Option<SocketAddr>,
/// Max request body size.
max_request_body_size: u32,
/// Access control
access_control: AccessControl,
/// Tracker for currently used resources on the server
resources: Resources,
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/// Custom tokio runtime to run the server on.
tokio_runtime: Option<tokio::runtime::Handle>,
/// Returns socket address to which the server is bound.
pub fn local_addr(&self) -> Result<SocketAddr, Error> {
self.local_addr.ok_or_else(|| Error::Custom("Local address not found".into()))
pub fn start(mut self, methods: impl Into<Methods>) -> Result<ServerHandle, Error> {
let max_request_body_size = self.max_request_body_size;
let access_control = self.access_control;
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let (tx, mut rx) = mpsc::channel(1);
let listener = self.listener;
let methods = methods.into().initialize_resources(&resources)?;
let make_service = make_service_fn(move |_| {
let methods = methods.clone();
let access_control = access_control.clone();
async move {
Ok::<_, HyperError>(service_fn(move |request| {
let methods = methods.clone();
let access_control = access_control.clone();
// Run some validation on the http request, then read the body and try to deserialize it into one of
// two cases: a single RPC request or a batch of RPC requests.
async move {
if let Err(e) = access_control_is_valid(&access_control, &request) {
return Ok::<_, HyperError>(e);
}
// Only `POST` and `OPTIONS` methods are allowed.
match *request.method() {
// An OPTIONS request is a CORS preflight request. We've done our access check
// above so we just need to tell the browser that the request is OK.
Method::OPTIONS => {
let origin = match http_helpers::read_header_value(request.headers(), "origin") {
Some(origin) => origin,
None => return Ok(malformed()),
};
let allowed_headers = access_control.allowed_headers().to_cors_header_value();
let allowed_header_bytes = allowed_headers.as_bytes();
let res = hyper::Response::builder()
.header("access-control-allow-origin", origin)
.header("access-control-allow-methods", "POST")
.header("access-control-allow-headers", allowed_header_bytes)
.body(hyper::Body::empty())
.unwrap_or_else(|e| {
tracing::error!("Error forming preflight response: {}", e);
internal_error()
});
Ok(res)
// The actual request. If it's a CORS request we need to remember to add
// the access-control-allow-origin header (despite preflight) to allow it
// to be read in a browser.
Method::POST if content_type_is_json(&request) => {
let origin = return_origin_if_different_from_host(request.headers()).cloned();
let mut res = process_validated_request(
request,
middleware,
methods,
resources,
max_request_body_size,
)
.await?;
if let Some(origin) = origin {
res.headers_mut().insert("access-control-allow-origin", origin);
Ok(res)
// Error scenarios:
Method::POST => Ok(response::unsupported_content_type()),
_ => Ok(response::method_not_allowed()),
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let rt = match self.tokio_runtime.take() {
Some(rt) => rt,
None => tokio::runtime::Handle::current(),
};
let handle = rt.spawn(async move {
let server = listener.serve(make_service);
let _ = server.with_graceful_shutdown(async move { rx.next().await.map_or((), |_| ()) }).await;
});
Ok(ServerHandle { handle: Some(handle), stop_sender: tx })
// Checks the origin and host headers. If they both exist, return the origin if it does not match the host.
// If one of them doesn't exist (origin most probably), or they are identical, return None.
fn return_origin_if_different_from_host(headers: &HeaderMap) -> Option<&HeaderValue> {
if let (Some(origin), Some(host)) = (headers.get("origin"), headers.get("host")) {
if origin != host {
Some(origin)
} else {
None
}
} else {
None
}
}
// Checks to that access control of the received request is the same as configured.
fn access_control_is_valid(
access_control: &AccessControl,
request: &hyper::Request<hyper::Body>,
) -> Result<(), hyper::Response<hyper::Body>> {
if access_control.deny_host(request) {
return Err(response::host_not_allowed());
if access_control.deny_cors_origin(request) {
return Err(response::invalid_allow_origin());
if access_control.deny_cors_header(request) {
return Err(response::invalid_allow_headers());
/// Checks that content type of received request is valid for JSON-RPC.
fn content_type_is_json(request: &hyper::Request<hyper::Body>) -> bool {
is_json(request.headers().get("content-type"))
/// Returns true if the `content_type` header indicates a valid JSON message.
fn is_json(content_type: Option<&hyper::header::HeaderValue>) -> bool {
match content_type.and_then(|val| val.to_str().ok()) {
if content.eq_ignore_ascii_case("application/json")
|| content.eq_ignore_ascii_case("application/json; charset=utf-8")
|| content.eq_ignore_ascii_case("application/json;charset=utf-8") =>
{
true
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/// Process a verified request, it implies a POST request with content type JSON.
async fn process_validated_request(
request: hyper::Request<hyper::Body>,
middleware: impl Middleware,
methods: Methods,
resources: Resources,
max_request_body_size: u32,
) -> Result<hyper::Response<hyper::Body>, HyperError> {
let (parts, body) = request.into_parts();
let (body, mut is_single) = match read_body(&parts.headers, body, max_request_body_size).await {
Ok(r) => r,
Err(GenericTransportError::TooLarge) => return Ok(response::too_large()),
Err(GenericTransportError::Malformed) => return Ok(response::malformed()),
Err(GenericTransportError::Inner(e)) => {
tracing::error!("Internal error reading request body: {}", e);
return Ok(response::internal_error());
}
};
let request_start = middleware.on_request();
// NOTE(niklasad1): it's a channel because it's needed for batch requests.
let (tx, mut rx) = mpsc::unbounded::<String>();
let sink = MethodSink::new_with_limit(tx, max_request_body_size);
type Notif<'a> = Notification<'a, Option<&'a RawValue>>;
// Single request or notification
if is_single {
if let Ok(req) = serde_json::from_slice::<Request>(&body) {
middleware.on_call(req.method.as_ref());
// NOTE: we don't need to track connection id on HTTP, so using hardcoded 0 here.
match methods.execute_with_resources(&sink, req, 0, &resources, &NoopIdProvider) {
Ok((name, MethodResult::Sync(success))) => {
middleware.on_result(name, success, request_start);
}
Ok((name, MethodResult::Async(fut))) => {
let success = fut.await;
middleware.on_result(name, success, request_start);
}
Err(name) => {
middleware.on_result(name.as_ref(), false, request_start);
}
}
} else if let Ok(_req) = serde_json::from_slice::<Notif>(&body) {
return Ok::<_, HyperError>(response::ok_response("".into()));
} else {
let (id, code) = prepare_error(&body);
sink.send_error(id, code.into());
}
// Batch of requests or notifications
} else if let Ok(batch) = serde_json::from_slice::<Vec<Request>>(&body) {
if !batch.is_empty() {
let middleware = &middleware;
join_all(batch.into_iter().filter_map(move |req| {
match methods.execute_with_resources(&sink, req, 0, &resources, &NoopIdProvider) {
Ok((name, MethodResult::Sync(success))) => {
middleware.on_result(name, success, request_start);
None
}
Ok((name, MethodResult::Async(fut))) => Some(async move {
let success = fut.await;
middleware.on_result(name, success, request_start);
}),
Err(name) => {
middleware.on_result(name.as_ref(), false, request_start);
None
}
}
}))
.await;
} else {
// "If the batch rpc call itself fails to be recognized as an valid JSON or as an
// Array with at least one value, the response from the Server MUST be a single
// Response object." – The Spec.
is_single = true;
sink.send_error(Id::Null, ErrorCode::InvalidRequest.into());
}
} else if let Ok(_batch) = serde_json::from_slice::<Vec<Notif>>(&body) {
return Ok(response::ok_response("".into()));
} else {
// "If the batch rpc call itself fails to be recognized as an valid JSON or as an
// Array with at least one value, the response from the Server MUST be a single
// Response object." – The Spec.
is_single = true;
let (id, code) = prepare_error(&body);
sink.send_error(id, code.into());
}
// Closes the receiving half of a channel without dropping it. This prevents any further
// messages from being sent on the channel.
rx.close();
let response = if is_single {
rx.next().await.expect("Sender is still alive managed by us above; qed")
} else {
collect_batch_response(rx).await
};
tracing::debug!("[service_fn] sending back: {:?}", &response[..cmp::min(response.len(), 1024)]);
middleware.on_response(request_start);
Ok(response::ok_response(response))
}