tinyrpc is a high-performance RPC framework based on protocol buffer
encoding. It is based on net/rpc
and supports multiple compression formats (gzip
, snappy
, zlib
).
Language  English
-
install
protoc
at first :http://github.com/google/protobuf/releases -
install
protoc-gen-go
andprotoc-gen-tinyrpc
:
go install github.com/golang/protobuf/protoc-gen-go@latest
go install github.com/wanzoma/tinyrpc/protoc-gen-tinyrpc@latest
Fisrt, create a demo and import the tinyrpc package:
> go mod init demo
> go get github.com/zehuamama/tinyrpc
under the path of the project, create a protobuf file arith.proto
:
syntax = "proto3";
package message;
option go_package="/message";
// ArithService Defining Computational Digital Services
service ArithService {
// Add addition
rpc Add(ArithRequest) returns (ArithResponse);
// Sub subtraction
rpc Sub(ArithRequest) returns (ArithResponse);
// Mul multiplication
rpc Mul(ArithRequest) returns (ArithResponse);
// Div division
rpc Div(ArithRequest) returns (ArithResponse);
}
message ArithRequest {
int32 a = 1;
int32 b = 2;
}
message ArithResponse {
int32 c = 1;
}
an arithmetic operation service is defined here, using protoc
to generate code:
> protoc --tinyrpc_out=. arith.proto --go_out=. arith.proto
at this time, two files will be generated in the directory message
: arith.pb.go
and arith.svr.go
you can also use
> protoc --tinyrpc_out=gen-cli=true:. arith.proto --go_out=. arith.proto
to generate arith.cli.go
, this file make it easier to call the server.
the code of arith.svr.go
is shown below:
// Code generated by protoc-gen-tinyrpc.
package message
// ArithService Defining Computational Digital Services
type ArithService struct{}
// Add addition
func (this *ArithService) Add(args *ArithRequest, reply *ArithResponse) error {
// define your service ...
return nil
}
// Sub subtraction
func (this *ArithService) Sub(args *ArithRequest, reply *ArithResponse) error {
// define your service ...
return nil
}
// Mul multiplication
func (this *ArithService) Mul(args *ArithRequest, reply *ArithResponse) error {
// define your service ...
return nil
}
// Div division
func (this *ArithService) Div(args *ArithRequest, reply *ArithResponse) error {
// define your service ...
return nil
}
we need to define our services.
Finally, under the path of the project, we create a file named main.go
, the code is shown below:
package main
import (
"demo/message"
"log"
"net"
"github.com/zehuamama/tinyrpc"
)
func main() {
lis, err := net.Listen("tcp", ":8082")
if err != nil {
log.Fatal(err)
}
server := tinyrpc.NewServer()
server.RegisterName("ArithService", new(message.ArithService))
server.Serve(lis)
}
a tinyrpc server is completed.
We can create a tinyrpc client and call it synchronously with the Add
function:
import (
"demo/message"
"github.com/zehuamama/tinyrpc"
)
...
conn, err := net.Dial("tcp", ":8082")
if err != nil {
log.Fatal(err)
}
defer conn.Close()
client := tinyrpc.NewClient(conn)
resq := message.ArithRequest{A: 20, B: 5}
resp := message.ArithResponse{}
err = client.Call("ArithService.Add", &resq, &resp)
log.Printf("Arith.Add(%v, %v): %v ,Error: %v", resq.A, resq.B, resp.C, err)
you can also call asynchronously, which will return a channel of type *rpc.Call:
result := client.AsyncCall("ArithService.Add", &resq, &resp)
select {
case call := <-result:
log.Printf("Arith.Add(%v, %v): %v ,Error: %v", resq.A, resq.B, resp.C, call.Error)
case <-time.After(100 * time.Microsecond):
log.Fatal("time out")
}
of course, you can also compress with three supported formats gzip
, snappy
, zlib
:
import "github.com/zehuamama/tinyrpc/compressor"
...
client := tinyrpc.NewClient(conn, tinyrpc.WithCompress(compressor.Gzip))
If you want to customize the serializer, you must implement the Serializer
interface:
type Serializer interface {
Marshal(message interface{}) ([]byte, error)
Unmarshal(data []byte, message interface{}) error
}
JsonSerializer
is a serializer based Json:
type JsonSerializer struct{}
func (_ JsonSerializer) Marshal(message interface{}) ([]byte, error) {
return json.Marshal(message)
}
func (_ JsonSerializer) Unmarshal(data []byte, message interface{}) error {
return json.Unmarshal(data, message)
}
moving on, we create a HelloService with the following code:
type HelloRequest struct {
Req string `json:"req"`
}
type HelloResponce struct {
Resp string `json:"resp"`
}
type HelloService struct{}
func (_ *HelloService) SayHello(args *HelloRequest, reply *HelloResponce) error {
reply.Resp = args.Req
return nil
}
finally, we need to set the serializer on the rpc server:
func main() {
lis, err := net.Listen("tcp", ":8082")
if err != nil {
log.Fatal(err)
}
server := tinyrpc.NewServer(tinyrpc.WithSerializer(JsonSerializer{}))
server.Register(new(HelloService))
server.Serve(lis)
}
a rpc server based on json serializer is completed.
Remember that when the rpc client calls the service, it also needs to set the serializer:
tinyrpc.NewClient(conn,tinyrpc.WithSerializer(JsonSerializer{}))
If you are intersted in contributing to tinyrpc, please see here: CONTRIBUTING
tinyrpc is licensed under the term of the BSD 2-Clause License