// Copyright 2017 PingCAP, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// See the License for the specific language governing permissions and
// limitations under the License.
use futures::Future;
use async::Executor;
use async::Kicker;
use call::client::{
CallOption, ClientCStreamReceiver, ClientCStreamSender, ClientDuplexReceiver,
ClientDuplexSender, ClientSStreamReceiver, ClientUnaryReceiver,
};
use call::{Call, Method};
use channel::Channel;
use error::Result;
/// A generic client for making RPC calls.
#[derive(Clone)]
pub struct Client {
channel: Channel,
// Used to kick its completion queue.
kicker: Kicker,
}
impl Client {
/// Initialize a new [`Client`].
pub fn new(channel: Channel) -> Client {
let kicker = channel.create_kicker().unwrap();
Client { channel, kicker }
}
/// Create a synchronized unary RPC call.
pub fn unary_call<Req, Resp>(
&self,
method: &Method<Req, Resp>,
req: &Req,
opt: CallOption,
) -> Result<Resp> {
let f = self.unary_call_async(method, req, opt)?;
f.wait()
}
/// Create an asynchronized unary RPC call.
pub fn unary_call_async<Req, Resp>(
&self,
method: &Method<Req, Resp>,
req: &Req,
opt: CallOption,
) -> Result<ClientUnaryReceiver<Resp>> {
Call::unary_async(&self.channel, method, req, opt)
}
/// Create an asynchronized client streaming call.
///
/// Client can send a stream of requests and server responds with a single response.
pub fn client_streaming<Req, Resp>(
&self,
method: &Method<Req, Resp>,
opt: CallOption,
) -> Result<(ClientCStreamSender<Req>, ClientCStreamReceiver<Resp>)> {
Call::client_streaming(&self.channel, method, opt)
}
/// Create an asynchronized server streaming call.
///
/// Client sends on request and server responds with a stream of responses.
pub fn server_streaming<Req, Resp>(
&self,
method: &Method<Req, Resp>,
req: &Req,
opt: CallOption,
) -> Result<ClientSStreamReceiver<Resp>> {
Call::server_streaming(&self.channel, method, req, opt)
}
/// Create an asynchronized duplex streaming call.
///
/// Client sends a stream of requests and server responds with a stream of responses.
/// The response stream is completely independent and both side can be sending messages
/// at the same time.
pub fn duplex_streaming<Req, Resp>(
&self,
method: &Method<Req, Resp>,
opt: CallOption,
) -> Result<(ClientDuplexSender<Req>, ClientDuplexReceiver<Resp>)> {
Call::duplex_streaming(&self.channel, method, opt)
}
/// Spawn the future into current gRPC poll thread.
///
/// This can reduce a lot of context switching, but please make
/// sure there is no heavy work in the future.
pub fn spawn<F>(&self, f: F)
where
F: Future<Item = (), Error = ()> + Send + 'static,
{
let kicker = self.kicker.clone();
Executor::new(self.channel.cq()).spawn(f, kicker)
}
}