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client.go
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client.go
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// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package geerpc
import (
"bufio"
"context"
"encoding/json"
"errors"
"fmt"
"geerpc/codec"
"io"
"log"
"net"
"net/http"
"strings"
"sync"
"time"
)
// Call represents an active RPC.
type Call struct {
Seq uint64
ServiceMethod string // format "<service>.<method>"
Args interface{} // arguments to the function
Reply interface{} // reply from the function
Error error // if error occurs, it will be set
Done chan *Call // Strobes when call is complete.
}
func (call *Call) done() {
call.Done <- call
}
// Client represents an RPC Client.
// There may be multiple outstanding Calls associated
// with a single Client, and a Client may be used by
// multiple goroutines simultaneously.
type Client struct {
cc codec.Codec
opt *Option
sending sync.Mutex // protect following
header codec.Header
mu sync.Mutex // protect following
seq uint64
pending map[uint64]*Call
closing bool // user has called Close
shutdown bool // server has told us to stop
}
var _ io.Closer = (*Client)(nil)
var ErrShutdown = errors.New("connection is shut down")
// Close the connection
func (client *Client) Close() error {
client.mu.Lock()
defer client.mu.Unlock()
if client.closing {
return ErrShutdown
}
client.closing = true
return client.cc.Close()
}
// IsAvailable return true if the client does work
func (client *Client) IsAvailable() bool {
client.mu.Lock()
defer client.mu.Unlock()
return !client.shutdown && !client.closing
}
func (client *Client) registerCall(call *Call) (uint64, error) {
client.mu.Lock()
defer client.mu.Unlock()
if client.closing || client.shutdown {
return 0, ErrShutdown
}
call.Seq = client.seq
client.pending[call.Seq] = call
client.seq++
return call.Seq, nil
}
func (client *Client) removeCall(seq uint64) *Call {
client.mu.Lock()
defer client.mu.Unlock()
call := client.pending[seq]
delete(client.pending, seq)
return call
}
func (client *Client) terminateCalls(err error) {
client.sending.Lock()
defer client.sending.Unlock()
client.mu.Lock()
defer client.mu.Unlock()
client.shutdown = true
for _, call := range client.pending {
call.Error = err
call.done()
}
}
func (client *Client) send(call *Call) {
// make sure that the client will send a complete request
client.sending.Lock()
defer client.sending.Unlock()
// register this call.
seq, err := client.registerCall(call)
if err != nil {
call.Error = err
call.done()
return
}
// prepare request header
client.header.ServiceMethod = call.ServiceMethod
client.header.Seq = seq
client.header.Error = ""
// encode and send the request
if err := client.cc.Write(&client.header, call.Args); err != nil {
call := client.removeCall(seq)
// call may be nil, it usually means that Write partially failed,
// client has received the response and handled
if call != nil {
call.Error = err
call.done()
}
}
}
func (client *Client) receive() {
var err error
for err == nil {
var h codec.Header
if err = client.cc.ReadHeader(&h); err != nil {
break
}
call := client.removeCall(h.Seq)
switch {
case call == nil:
// it usually means that Write partially failed
// and call was already removed.
err = client.cc.ReadBody(nil)
case h.Error != "":
call.Error = fmt.Errorf(h.Error)
err = client.cc.ReadBody(nil)
call.done()
default:
err = client.cc.ReadBody(call.Reply)
if err != nil {
call.Error = errors.New("reading body " + err.Error())
}
call.done()
}
}
// error occurs, so terminateCalls pending calls
client.terminateCalls(err)
}
// Go invokes the function asynchronously.
// It returns the Call structure representing the invocation.
func (client *Client) Go(serviceMethod string, args, reply interface{}, done chan *Call) *Call {
if done == nil {
done = make(chan *Call, 10)
} else if cap(done) == 0 {
log.Panic("rpc client: done channel is unbuffered")
}
call := &Call{
ServiceMethod: serviceMethod,
Args: args,
Reply: reply,
Done: done,
}
client.send(call)
return call
}
// Call invokes the named function, waits for it to complete,
// and returns its error status.
func (client *Client) Call(ctx context.Context, serviceMethod string, args, reply interface{}) error {
call := client.Go(serviceMethod, args, reply, make(chan *Call, 1))
select {
case <-ctx.Done():
client.removeCall(call.Seq)
return errors.New("rpc client: call failed: " + ctx.Err().Error())
case call := <-call.Done:
return call.Error
}
}
func parseOptions(opts ...*Option) (*Option, error) {
// if opts is nil or pass nil as parameter
if len(opts) == 0 || opts[0] == nil {
return DefaultOption, nil
}
if len(opts) != 1 {
return nil, errors.New("number of options is more than 1")
}
opt := opts[0]
opt.MagicNumber = DefaultOption.MagicNumber
if opt.CodecType == "" {
opt.CodecType = DefaultOption.CodecType
}
return opt, nil
}
func NewClient(conn net.Conn, opt *Option) (*Client, error) {
f := codec.NewCodecFuncMap[opt.CodecType]
if f == nil {
err := fmt.Errorf("invalid codec type %s", opt.CodecType)
log.Println("rpc client: codec error:", err)
return nil, err
}
// send options with server
if err := json.NewEncoder(conn).Encode(opt); err != nil {
log.Println("rpc client: options error: ", err)
_ = conn.Close()
return nil, err
}
return newClientCodec(f(conn), opt), nil
}
func newClientCodec(cc codec.Codec, opt *Option) *Client {
client := &Client{
seq: 1, // seq starts with 1, 0 means invalid call
cc: cc,
opt: opt,
pending: make(map[uint64]*Call),
}
go client.receive()
return client
}
type clientResult struct {
client *Client
err error
}
type newClientFunc func(conn net.Conn, opt *Option) (client *Client, err error)
func dialTimeout(f newClientFunc, network, address string, opts ...*Option) (client *Client, err error) {
opt, err := parseOptions(opts...)
if err != nil {
return nil, err
}
conn, err := net.DialTimeout(network, address, opt.ConnectTimeout)
if err != nil {
return nil, err
}
// close the connection if client is nil
defer func() {
if err != nil {
_ = conn.Close()
}
}()
ch := make(chan clientResult)
go func() {
client, err := f(conn, opt)
ch <- clientResult{client: client, err: err}
}()
if opt.ConnectTimeout == 0 {
result := <-ch
return result.client, result.err
}
select {
case <-time.After(opt.ConnectTimeout):
return nil, fmt.Errorf("rpc client: connect timeout: expect within %s", opt.ConnectTimeout)
case result := <-ch:
return result.client, result.err
}
}
// Dial connects to an RPC server at the specified network address
func Dial(network, address string, opts ...*Option) (*Client, error) {
return dialTimeout(NewClient, network, address, opts...)
}
// NewHTTPClient new a Client instance via HTTP as transport protocol
func NewHTTPClient(conn net.Conn, opt *Option) (*Client, error) {
_, _ = io.WriteString(conn, fmt.Sprintf("CONNECT %s HTTP/1.0\n\n", defaultRPCPath))
// Require successful HTTP response
// before switching to RPC protocol.
resp, err := http.ReadResponse(bufio.NewReader(conn), &http.Request{Method: "CONNECT"})
if err == nil && resp.Status == connected {
return NewClient(conn, opt)
}
if err == nil {
err = errors.New("unexpected HTTP response: " + resp.Status)
}
return nil, err
}
// DialHTTP connects to an HTTP RPC server at the specified network address
// listening on the default HTTP RPC path.
func DialHTTP(network, address string, opts ...*Option) (*Client, error) {
return dialTimeout(NewHTTPClient, network, address, opts...)
}
// XDial calls different functions to connect to a RPC server
// according the first parameter rpcAddr.
// rpcAddr is a general format (protocol@addr) to represent a rpc server
// eg, [email protected]:7001, [email protected]:9999, unix@/tmp/geerpc.sock
func XDial(rpcAddr string, opts ...*Option) (*Client, error) {
parts := strings.Split(rpcAddr, "@")
if len(parts) != 2 {
return nil, fmt.Errorf("rpc client err: wrong format '%s', expect protocol@addr", rpcAddr)
}
protocol, addr := parts[0], parts[1]
switch protocol {
case "http":
return DialHTTP("tcp", addr, opts...)
default:
// tcp, unix or other transport protocol
return Dial(protocol, addr, opts...)
}
}