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|
pub mod builder;
pub mod channel;
pub mod pubsub_service;
mod response_queue;
pub mod service;
use std::{collections::HashMap, sync::Arc};
use log::{debug, error, trace, warn};
use karyon_core::async_util::{select, Either, TaskGroup, TaskResult};
use karyon_net::{Conn, Endpoint, Listener};
use crate::{message, Error, PubSubRPCService, RPCService, Result};
use channel::Channel;
use response_queue::ResponseQueue;
pub const INVALID_REQUEST_ERROR_MSG: &str = "Invalid request";
pub const FAILED_TO_PARSE_ERROR_MSG: &str = "Failed to parse";
pub const METHOD_NOT_FOUND_ERROR_MSG: &str = "Method not found";
pub const UNSUPPORTED_JSONRPC_VERSION: &str = "Unsupported jsonrpc version";
struct NewRequest {
srvc_name: String,
method_name: String,
msg: message::Request,
}
enum SanityCheckResult {
NewReq(NewRequest),
ErrRes(message::Response),
}
/// Represents an RPC server
pub struct Server {
listener: Listener<serde_json::Value>,
task_group: TaskGroup,
services: HashMap<String, Arc<dyn RPCService + 'static>>,
pubsub_services: HashMap<String, Arc<dyn PubSubRPCService + 'static>>,
}
impl Server {
/// Returns the local endpoint.
pub fn local_endpoint(&self) -> Result<Endpoint> {
self.listener.local_endpoint().map_err(Error::from)
}
/// Starts the RPC server
pub fn start(self: &Arc<Self>) {
let on_complete = |result: TaskResult<Result<()>>| async move {
if let TaskResult::Completed(Err(err)) = result {
error!("Accept loop stopped: {err}");
}
};
let selfc = self.clone();
// Spawns a new task for each new incoming connection
self.task_group.spawn(
async move {
loop {
match selfc.listener.accept().await {
Ok(conn) => {
if let Err(err) = selfc.handle_conn(conn).await {
error!("Failed to handle a new conn: {err}")
}
}
Err(err) => {
error!("Failed to accept a new conn: {err}")
}
}
}
},
on_complete,
);
}
/// Shuts down the RPC server
pub async fn shutdown(&self) {
self.task_group.cancel().await;
}
/// Handles a new connection
async fn handle_conn(self: &Arc<Self>, conn: Conn<serde_json::Value>) -> Result<()> {
let endpoint = conn.peer_endpoint().expect("get peer endpoint");
debug!("Handle a new connection {endpoint}");
let conn = Arc::new(conn);
let (ch_tx, ch_rx) = async_channel::unbounded();
// Create a new connection channel for managing subscriptions
let channel = Channel::new(ch_tx);
// Create a response queue
let queue = ResponseQueue::new();
let chan = channel.clone();
let on_complete = |result: TaskResult<Result<()>>| async move {
if let TaskResult::Completed(Err(err)) = result {
debug!("Notification loop stopped: {err}");
}
// Close the connection subscription channel
chan.close();
};
let conn_cloned = conn.clone();
let queue_cloned = queue.clone();
// Start listening for responses in the queue or new notifications
self.task_group.spawn(
async move {
loop {
// The select function will prioritize the first future if both futures are ready.
// This gives priority to the responses in the response queue.
match select(queue_cloned.recv(), ch_rx.recv()).await {
Either::Left(res) => {
conn_cloned.send(res).await?;
}
Either::Right(notification) => {
let nt = notification?;
let params = Some(serde_json::json!(message::NotificationResult {
subscription: nt.sub_id,
result: Some(nt.result),
}));
let notification = message::Notification {
jsonrpc: message::JSONRPC_VERSION.to_string(),
method: nt.method,
params,
};
// debug!("--> {notification}");
conn_cloned.send(serde_json::json!(notification)).await?;
}
}
}
},
on_complete,
);
let chan = channel.clone();
let on_complete = |result: TaskResult<Result<()>>| async move {
if let TaskResult::Completed(Err(err)) = result {
error!("Connection {} dropped: {}", endpoint, err);
} else {
warn!("Connection {} dropped", endpoint);
}
// Close the subscription channel when the connection dropped
chan.close();
};
let selfc = self.clone();
// Spawn a new task and wait for requests.
self.task_group.spawn(
async move {
loop {
let msg = conn.recv().await?;
selfc.new_request(queue.clone(), channel.clone(), msg).await;
}
},
on_complete,
);
Ok(())
}
fn sanity_check(&self, request: serde_json::Value) -> SanityCheckResult {
let rpc_msg = match serde_json::from_value::<message::Request>(request) {
Ok(m) => m,
Err(_) => {
let response = message::Response {
error: Some(message::Error {
code: message::PARSE_ERROR_CODE,
message: FAILED_TO_PARSE_ERROR_MSG.to_string(),
data: None,
}),
..Default::default()
};
return SanityCheckResult::ErrRes(response);
}
};
if rpc_msg.jsonrpc != message::JSONRPC_VERSION {
let response = message::Response {
error: Some(message::Error {
code: message::INVALID_REQUEST_ERROR_CODE,
message: UNSUPPORTED_JSONRPC_VERSION.to_string(),
data: None,
}),
id: Some(rpc_msg.id),
..Default::default()
};
return SanityCheckResult::ErrRes(response);
}
debug!("<-- {rpc_msg}");
// Parse the service name and its method
let srvc_method_str = rpc_msg.method.clone();
let srvc_method: Vec<&str> = srvc_method_str.split('.').collect();
if srvc_method.len() < 2 {
let response = message::Response {
error: Some(message::Error {
code: message::INVALID_REQUEST_ERROR_CODE,
message: INVALID_REQUEST_ERROR_MSG.to_string(),
data: None,
}),
id: Some(rpc_msg.id),
..Default::default()
};
return SanityCheckResult::ErrRes(response);
}
let srvc_name = srvc_method[0].to_string();
let method_name = srvc_method[1].to_string();
SanityCheckResult::NewReq(NewRequest {
srvc_name,
method_name,
msg: rpc_msg,
})
}
/// Spawns a new task for handling the new request
async fn new_request(
self: &Arc<Self>,
queue: Arc<ResponseQueue<serde_json::Value>>,
channel: Arc<Channel>,
msg: serde_json::Value,
) {
trace!("--> new request {msg}");
let on_complete = |result: TaskResult<Result<()>>| async move {
if let TaskResult::Completed(Err(err)) = result {
error!("Failed to handle a request: {err}");
}
};
let selfc = self.clone();
// Spawns a new task for handling the new request, and push the
// response to the response queue.
self.task_group.spawn(
async move {
let response = selfc.handle_request(channel, msg).await;
debug!("--> {response}");
queue.push(serde_json::json!(response)).await;
Ok(())
},
on_complete,
);
}
/// Handles the new request, and returns an RPC Response that has either
/// an error or result
async fn handle_request(
&self,
channel: Arc<Channel>,
msg: serde_json::Value,
) -> message::Response {
let req = match self.sanity_check(msg) {
SanityCheckResult::NewReq(req) => req,
SanityCheckResult::ErrRes(res) => return res,
};
let mut response = message::Response {
error: None,
result: None,
id: Some(req.msg.id.clone()),
..Default::default()
};
// Check if the service exists in pubsub services list
if let Some(service) = self.pubsub_services.get(&req.srvc_name) {
// Check if the method exists within the service
if let Some(method) = service.get_pubsub_method(&req.method_name) {
let name = format!("{}.{}", service.name(), req.method_name);
let params = req.msg.params.unwrap_or(serde_json::json!(()));
response.result = match method(channel, name, params).await {
Ok(res) => Some(res),
Err(err) => return err.to_response(Some(req.msg.id), None),
};
return response;
}
}
// Check if the service exists in services list
if let Some(service) = self.services.get(&req.srvc_name) {
// Check if the method exists within the service
if let Some(method) = service.get_method(&req.method_name) {
let params = req.msg.params.unwrap_or(serde_json::json!(()));
response.result = match method(params).await {
Ok(res) => Some(res),
Err(err) => return err.to_response(Some(req.msg.id), None),
};
return response;
}
}
response.error = Some(message::Error {
code: message::METHOD_NOT_FOUND_ERROR_CODE,
message: METHOD_NOT_FOUND_ERROR_MSG.to_string(),
data: None,
});
response
}
}
|