SRPC

Introduction

SRPC is an RPC system developed by Sogou. Its main features include:

Base on Sogou C++ Workflow, with the following features:
- High performance
- Low development and access cost
- Compatible with SeriesWork and ParallelWork in Workflow
- One-click migration for existing projects with protobuf/thrift
Support several IDL formats, including:
- Protobuf
- Thrift
Support several data formats, including:
- Protobuf serialize
- Thrift Binary serialize
- JSON serialize
Support several compression formats transparently, including:
- gzip
- zlib
- snappy
- lz4
Support several communication protocols transparently, including:
- tcp
- http
- sctp
- ssl
- https
With HTTP+JSON, you can use any language:
- As a server, you can accept POST requests with HTTP server developed in any language and parse the HTTP headers.
- As a client, you can send POST requests with HTTP client developed in any language and add the required HTTP headers.
Built-in client/server which can seamlessly communicate with a server/client in other RPC frameworks, including:
- BRPC
- TRPC (the only open-source implementation of TRPC protocol so far)
- ~~GRPC~~
- Thrift Framed Binary
- Thrift Http Binary
How to use it together with Workflow:
- You can use the interface to create an RPC task
- You can put the RPC task into SeriesWork or ParallelWork, and you can also get the current SeriesWork in the callback.
- You can also use other features supported by Workflow, including upstream, calculation scheduling, asynchronous file IO, etc.
More features and layers

Installation

srpc is a static library, libsrpc.a. You only need to add the libsrpc as a dependency in the development environment, and it is not required in the compiled binary release.
srpc depends on Workflow and protobuf3.
- For protobuf, you must install protobuf v3.0.0 or above by yourself.
- For Workflow, it`s added as dependency automatically via git submodule.
- For snappy and lz4, source codes are also included as third_party via git submodule.

git clone --recursive https://github.com/sogou/srpc.git
cd srpc
make
sudo make install

Tutorial

Easy to compile tutorial with these commands:

cd tutorial
make

Quick Start

1. example.proto

syntax = "proto2";// You can use either proto2 or proto3. Both are supported by srpc

message EchoRequest {
    optional string message = 1;
    optional string name = 2;
};

message EchoResponse {
    optional string message = 1;
};

service Example {
    rpc Echo(EchoRequest) returns (EchoResponse);
};

2. generate code

protoc example.proto --cpp_out=./ --proto_path=./
srpc_generator protobuf ./example.proto ./

3. server.cc

#include <stdio.h>
#include <signal.h>
#include "example.srpc.h"

using namespace srpc;

class ExampleServiceImpl : public Example::Service
{
public:
    void Echo(EchoRequest *request, EchoResponse *response, RPCContext *ctx) override
    {
        response->set_message("Hi, " + request->name());

        // gzip/zlib/snappy/lz4/none
        // ctx->set_compress_type(RPCCompressGzip);

        // protobuf/json
        // ctx->set_data_type(RPCDataJson);

        printf("get_req:\n%s\nset_resp:\n%s\n",
                request->DebugString().c_str(), response->DebugString().c_str());
    }
};

void sig_handler(int signo) { }

int main()
{
    signal(SIGINT, sig_handler);
    signal(SIGTERM, sig_handler);

    SRPCServer server_tcp;
    SRPCHttpServer server_http;

    ExampleServiceImpl impl;
    server_tcp.add_service(&impl);
    server_http.add_service(&impl);

    server_tcp.start(1412);
    server_http.start(8811);
    getchar(); // press "Enter" to end.
    server_http.stop();
    server_tcp.stop();

    return 0;
}

4. client.cc

#include <stdio.h>
#include "example.srpc.h"

using namespace srpc;

int main()
{
    Example::SRPCClient client("127.0.0.1", 1412);
    EchoRequest req;
    req.set_message("Hello, srpc!");
    req.set_name("workflow");

    client.Echo(&req, [](EchoResponse *response, RPCContext *ctx) {
        if (ctx->success())
            printf("%s\n", response->DebugString().c_str());
        else
            printf("status[%d] error[%d] errmsg:%s\n",
                    ctx->get_status_code(), ctx->get_error(), ctx->get_errmsg());
    });

    getchar(); // press "Enter" to end.
    return 0;
}

5. make

These compile commands are only for Linux system. On other system, complete cmake in tutorial is recommanded.

g++ -o server server.cc example.pb.cc -std=c++11 -lsrpc
g++ -o client client.cc example.pb.cc -std=c++11 -lsrpc

6. run

Terminal 1

./server

Terminal 2

./client
curl 127.0.0.1:8811/Example/Echo -H 'Content-Type: application/json' -d '{message:"from curl",name:"CURL"}'

Output of Terminal 1

get_req:
message: "Hello, srpc!"
name: "workflow"

set_resp:
message: "Hi, workflow"

get_req:
message: "from curl"
name: "CURL"

set_resp:
message: "Hi, CURL"

Output of Terminal 2

message: "Hi, workflow"
{"message":"Hi, CURL"}

Benchmark

CPU 2-chip/8-core/32-processor Intel(R) Xeon(R) CPU E5-2630 v3 @2.40GHz
Memory all 128G
10 Gigabit Ethernet
BAIDU brpc-client in pooled (connection pool) mode

QPS at cross-machine single client→ single server under different concurrency

Client = 1
ClientThread = 64, 128, 256, 512, 1024
RequestSize = 32
Duration = 20s
Server = 1
ServerIOThread = 16
ServerHandlerThread = 16

QPS at cross-machine multi-client→ single server under different client processes

Client = 1, 2, 4, 8, 16
ClientThread = 32
RequestSize = 32
Duration = 20s
Server = 1
ServerIOThread = 16
ServerHandlerThread = 16

QPS at same-machine single client→ single server under different concurrency

Client = 1
ClientThread = 1, 2, 4, 8, 16, 32, 64, 128, 256
RequestSize = 1024
Duration = 20s
Server = 1
ServerIOThread = 16
ServerHandlerThread = 16

QPS at same-machine single client→ single server under different request sizes

Client = 1
ClientThread = 100
RequestSize = 16, 32, 64, 128, 256, 512, 1024, 2048, 4096, 8192, 16384, 32768
Duration = 20s
Server = 1
ServerIOThread = 16
ServerHandlerThread = 16

Latency CDF for fixed QPS at same-machine single client→ single server

Client = 1
ClientThread = 50
ClientQPS = 10000
RequestSize = 1024
Duration = 20s
Server = 1
ServerIOThread = 16
ServerHandlerThread = 16
Outiler = 1%

Latency CDF for fixed QPS at cross-machine multi-client→ single server

Client = 32
ClientThread = 16
ClientQPS = 2500
RequestSize = 512
Duration = 20s
Server = 1
ServerIOThread = 16
ServerHandlerThread = 16
Outiler = 1%

Contact

Email - liyingxin@sogou-inc.com - main author
Issue - You are very welcome to post questions to issues list.
QQ - Group number: 618773193

ryvius_key / srpc

SRPC

Introduction

SRPC is an RPC system developed by Sogou. Its main features include:

Installation

Tutorial

Quick Start

1. example.proto

2. generate code

3. server.cc

4. client.cc

5. make

6. run

Benchmark

QPS at cross-machine single client→ single server under different concurrency

QPS at cross-machine multi-client→ single server under different client processes

QPS at same-machine single client→ single server under different concurrency

QPS at same-machine single client→ single server under different request sizes

Latency CDF for fixed QPS at same-machine single client→ single server

Latency CDF for fixed QPS at cross-machine multi-client→ single server

Contact

简介

发行版

贡献者

近期动态

ryvius_key / srpc .gitee-modal { width: 500px !important; }

SRPC

Introduction

SRPC is an RPC system developed by Sogou. Its main features include:

Installation

Tutorial

Quick Start

1. example.proto

2. generate code

3. server.cc

4. client.cc

5. make

6. run

Benchmark

QPS at cross-machine single client→ single server under different concurrency

QPS at cross-machine multi-client→ single server under different client processes

QPS at same-machine single client→ single server under different concurrency

QPS at same-machine single client→ single server under different request sizes

Latency CDF for fixed QPS at same-machine single client→ single server

Latency CDF for fixed QPS at cross-machine multi-client→ single server

Contact

简介

发行版

贡献者

近期动态

搜索帮助

ryvius_key / srpc