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client.go
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client.go
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package gorpc
import (
"fmt"
"io"
"runtime"
"sync"
"sync/atomic"
"time"
)
// Client implements RPC client.
//
// The client must be started with Client.Start() before use.
//
// It is absolutely safe and encouraged using a single client across arbitrary
// number of concurrently running goroutines.
//
// Default client settings are optimized for high load, so don't override
// them without valid reason.
type Client struct {
// Server address to connect to.
//
// The address format depends on the underlying transport provided
// by Client.Dial. The following transports are provided out of the box:
// * TCP - see NewTCPClient() and NewTCPServer().
// * TLS - see NewTLSClient() and NewTLSServer().
// * Unix sockets - see NewUnixClient() and NewUnixServer().
//
// By default TCP transport is used.
Addr string
// The number of concurrent connections the client should establish
// to the sever.
// By default only one connection is established.
Conns int
// The maximum number of pending requests in the queue.
//
// The number of pending requsts should exceed the expected number
// of concurrent goroutines calling client's methods.
// Otherwise a lot of ClientError.Overflow errors may appear.
//
// Default is DefaultPendingMessages.
PendingRequests int
// Delay between request flushes.
//
// Negative values lead to immediate requests' sending to the server
// without their buffering. This minimizes rpc latency at the cost
// of higher CPU and network usage.
//
// Default value is DefaultFlushDelay.
FlushDelay time.Duration
// Maximum request time.
// Default value is DefaultRequestTimeout.
RequestTimeout time.Duration
// Disable data compression.
// By default data compression is enabled.
DisableCompression bool
// Size of send buffer per each underlying connection in bytes.
// Default value is DefaultBufferSize.
SendBufferSize int
// Size of recv buffer per each underlying connection in bytes.
// Default value is DefaultBufferSize.
RecvBufferSize int
// OnConnect is called whenever connection to server is established.
// The callback can be used for authentication/authorization/encryption
// and/or for custom transport wrapping.
//
// See also Dial callback, which can be used for sophisticated
// transport implementation.
OnConnect OnConnectFunc
// The client calls this callback when it needs new connection
// to the server.
// The client passes Client.Addr into Dial().
//
// Override this callback if you want custom underlying transport
// and/or authentication/authorization.
// Don't forget overriding Server.Listener accordingly.
//
// See also OnConnect for authentication/authorization purposes.
//
// * NewTLSClient() and NewTLSServer() can be used for encrypted rpc.
// * NewUnixClient() and NewUnixServer() can be used for fast local
// inter-process rpc.
//
// By default it returns TCP connections established to the Client.Addr.
Dial DialFunc
// LogError is used for error logging.
//
// By default the function set via SetErrorLogger() is used.
LogError LoggerFunc
// Connection statistics.
//
// The stats doesn't reset automatically. Feel free resetting it
// any time you wish.
Stats ConnStats
pendingRequestsCount uint32
requestsChan chan *AsyncResult
clientStopChan chan struct{}
stopWg sync.WaitGroup
}
// Start starts rpc client. Establishes connection to the server on Client.Addr.
//
// All the request and response types the client may use must be registered
// via RegisterType() before starting the client.
// There is no need in registering base Go types such as int, string, bool,
// float64, etc. or arrays, slices and maps containing base Go types.
func (c *Client) Start() {
if c.LogError == nil {
c.LogError = errorLogger
}
if c.clientStopChan != nil {
panic("gorpc.Client: the given client is already started. Call Client.Stop() before calling Client.Start() again!")
}
if c.PendingRequests <= 0 {
c.PendingRequests = DefaultPendingMessages
}
if c.FlushDelay == 0 {
c.FlushDelay = DefaultFlushDelay
}
if c.RequestTimeout <= 0 {
c.RequestTimeout = DefaultRequestTimeout
}
if c.SendBufferSize <= 0 {
c.SendBufferSize = DefaultBufferSize
}
if c.RecvBufferSize <= 0 {
c.RecvBufferSize = DefaultBufferSize
}
c.requestsChan = make(chan *AsyncResult, c.PendingRequests)
c.clientStopChan = make(chan struct{})
if c.Conns <= 0 {
c.Conns = 1
}
if c.Dial == nil {
c.Dial = defaultDial
}
for i := 0; i < c.Conns; i++ {
c.stopWg.Add(1)
go clientHandler(c)
}
}
// Stop stops rpc client. Stopped client can be started again.
func (c *Client) Stop() {
if c.clientStopChan == nil {
panic("gorpc.Client: the client must be started before stopping it")
}
close(c.clientStopChan)
c.stopWg.Wait()
c.clientStopChan = nil
}
// PendingRequestsCount returns the instant number of pending requests.
//
// The main purpose of this function is to use in load-balancing schemes where
// load should be balanced between multiple rpc clients.
//
// Don't forget starting the client with Client.Start() before calling
// this function.
func (c *Client) PendingRequestsCount() int {
n := atomic.LoadUint32(&c.pendingRequestsCount)
return int(n) + len(c.requestsChan)
}
// Call sends the given request to the server and obtains response
// from the server.
// Returns non-nil error if the response cannot be obtained during
// Client.RequestTimeout or server connection problems occur.
// The returned error can be casted to ClientError.
//
// Request and response types may be arbitrary. All the request and response
// types the client may use must be registered via RegisterType() before
// starting the client.
// There is no need in registering base Go types such as int, string, bool,
// float64, etc. or arrays, slices and maps containing base Go types.
//
// Hint: use Dispatcher for distinct calls' construction.
//
// Don't forget starting the client with Client.Start() before calling Client.Call().
func (c *Client) Call(request interface{}) (response interface{}, err error) {
return c.CallTimeout(request, c.RequestTimeout)
}
// CallTimeout sends the given request to the server and obtains response
// from the server.
// Returns non-nil error if the response cannot be obtained during
// the given timeout or server connection problems occur.
// The returned error can be casted to ClientError.
//
// Request and response types may be arbitrary. All the request and response
// types the client may use must be registered via RegisterType() before
// starting the client.
// There is no need in registering base Go types such as int, string, bool,
// float64, etc. or arrays, slices and maps containing base Go types.
//
// Hint: use Dispatcher for distinct calls' construction.
//
// Don't forget starting the client with Client.Start() before calling Client.Call().
func (c *Client) CallTimeout(request interface{}, timeout time.Duration) (response interface{}, err error) {
var m *AsyncResult
if m, err = c.callAsync(request, false, true); err != nil {
return nil, err
}
t := acquireTimer(timeout)
select {
case <-m.Done:
response, err = m.Response, m.Error
releaseAsyncResult(m)
case <-t.C:
m.Cancel()
err = getClientTimeoutError(c, timeout)
}
releaseTimer(t)
return
}
func acquireAsyncResult() *AsyncResult {
v := asyncResultPool.Get()
if v == nil {
return &AsyncResult{}
}
return v.(*AsyncResult)
}
var zeroTime time.Time
func releaseAsyncResult(m *AsyncResult) {
m.Response = nil
m.Error = nil
m.Done = nil
m.request = nil
m.t = zeroTime
m.done = nil
asyncResultPool.Put(m)
}
var asyncResultPool sync.Pool
func getClientTimeoutError(c *Client, timeout time.Duration) error {
err := fmt.Errorf("gorpc.Client: [%s]. Cannot obtain response during timeout=%s", c.Addr, timeout)
c.LogError("%s", err)
return &ClientError{
Timeout: true,
err: err,
}
}
// Send sends the given request to the server and doesn't wait for response.
//
// Since this is 'fire and forget' function, which never waits for response,
// it cannot guarantee that the server receives and successfully processes
// the given request. Though in most cases under normal conditions requests
// should reach the server and it should successfully process them.
// Send semantics is similar to UDP messages' semantics.
//
// The server may return arbitrary response on Send() request, but the response
// is totally ignored.
//
// All the request types the client may use must be registered
// via RegisterType() before starting the client.
// There is no need in registering base Go types such as int, string, bool,
// float64, etc. or arrays, slices and maps containing base Go types.
//
// Don't forget starting the client with Client.Start() before calling Client.Send().
func (c *Client) Send(request interface{}) error {
_, err := c.callAsync(request, true, true)
return err
}
// AsyncResult is a result returned from Client.CallAsync().
type AsyncResult struct {
// The response can be read only after <-Done unblocks.
Response interface{}
// The error can be read only after <-Done unblocks.
// The error can be casted to ClientError.
Error error
// Response and Error become available after <-Done unblocks.
Done <-chan struct{}
request interface{}
t time.Time
done chan struct{}
canceled uint32
}
// Cancel cancels async call.
//
// Canceled call isn't sent to the server unless it is already sent there.
// Canceled call may successfully complete if it has been already sent
// to the server before Cancel call.
//
// It is safe calling this function multiple times from concurrently
// running goroutines.
func (m *AsyncResult) Cancel() {
atomic.StoreUint32(&m.canceled, 1)
}
func (m *AsyncResult) isCanceled() bool {
return atomic.LoadUint32(&m.canceled) != 0
}
// CallAsync starts async rpc call.
//
// Rpc call is complete after <-AsyncResult.Done unblocks.
// If you want canceling the request, just throw away the returned AsyncResult.
//
// CallAsync doesn't respect Client.RequestTimeout - response timeout
// may be controlled by the caller via something like:
//
// r := c.CallAsync("foobar")
// select {
// case <-time.After(c.RequestTimeout):
// log.Printf("rpc timeout!")
// case <-r.Done:
// processResponse(r.Response, r.Error)
// }
//
// Request and response types may be arbitrary. All the request and response
// types the client may use must be registered via RegisterType() before
// starting the client.
// There is no need in registering base Go types such as int, string, bool,
// float64, etc. or arrays, slices and maps containing base Go types.
//
// Don't forget starting the client with Client.Start() before
// calling Client.CallAsync().
func (c *Client) CallAsync(request interface{}) (*AsyncResult, error) {
return c.callAsync(request, false, false)
}
func (c *Client) callAsync(request interface{}, skipResponse bool, usePool bool) (m *AsyncResult, err error) {
if skipResponse {
usePool = true
}
if usePool {
m = acquireAsyncResult()
} else {
m = &AsyncResult{}
}
m.request = request
if !skipResponse {
m.t = time.Now()
m.done = make(chan struct{})
m.Done = m.done
}
select {
case c.requestsChan <- m:
return m, nil
default:
// Try substituting the oldest async request by the new one
// on requests' queue overflow.
// This increases the chances for new request to succeed
// without timeout.
if skipResponse {
// Immediately notify the caller not interested
// in the response on requests' queue overflow, since
// there are no other ways to notify it later.
releaseAsyncResult(m)
return nil, overflowClientError(c)
}
select {
case mm := <-c.requestsChan:
if mm.done != nil {
mm.Error = overflowClientError(c)
close(mm.done)
} else {
releaseAsyncResult(mm)
}
default:
}
select {
case c.requestsChan <- m:
return m, nil
default:
// Release m even if usePool = true, since m wasn't exposed
// to the caller yet.
releaseAsyncResult(m)
return nil, overflowClientError(c)
}
}
}
func overflowClientError(c *Client) error {
err := fmt.Errorf("gorpc.Client: [%s]. Requests' queue with size=%d is overflown. Try increasing Client.PendingRequests value", c.Addr, cap(c.requestsChan))
c.LogError("%s", err)
return &ClientError{
Overflow: true,
err: fmt.Errorf("gorpc.Client: [%s]. Requests' queue with size=%d is overflown. "+
"Try increasing Client.PendingRequests value", c.Addr, cap(c.requestsChan)),
}
}
// Batch allows grouping and executing multiple RPCs in a single batch.
//
// Batch may be created via Client.NewBatch().
type Batch struct {
c *Client
ops []*BatchResult
opsLock sync.Mutex
}
// BatchResult is a result returned from Batch.Add*().
type BatchResult struct {
// The response can be read only after Batch.Call*() returns.
Response interface{}
// The error can be read only after Batch.Call*() returns.
// The error can be casted to ClientError.
Error error
// <-Done unblocks after Batch.Call*() returns.
// Response and Error become available after <-Done unblocks.
Done <-chan struct{}
request interface{}
ctx interface{}
done chan struct{}
}
// NewBatch creates new RPC batch.
//
// It is safe creating multiple concurrent batches from a single client.
//
// Don't forget starting the client with Client.Start() before working
// with batched RPC.
func (c *Client) NewBatch() *Batch {
return &Batch{
c: c,
}
}
// Add ads new request to the RPC batch.
//
// The order of batched RPCs execution on the server is unspecified.
//
// All the requests added to the batch are sent to the server at once
// when Batch.Call*() is called.
//
// Request and response types may be arbitrary. All the request and response
// types the client may use must be registered via RegisterType() before
// starting the client.
// There is no need in registering base Go types such as int, string, bool,
// float64, etc. or arrays, slices and maps containing base Go types.
//
// It is safe adding multiple requests to the same batch from concurrently
// running goroutines.
func (b *Batch) Add(request interface{}) *BatchResult {
return b.add(request, false)
}
// AddSkipResponse adds new request to the RPC batch and doesn't care
// about the response.
//
// The order of batched RPCs execution on the server is unspecified.
//
// All the requests added to the batch are sent to the server at once
// when Batch.Call*() is called.
//
// All the request types the client may use must be registered
// via RegisterType() before starting the client.
// There is no need in registering base Go types such as int, string, bool,
// float64, etc. or arrays, slices and maps containing base Go types.
//
// It is safe adding multiple requests to the same batch from concurrently
// running goroutines.
func (b *Batch) AddSkipResponse(request interface{}) {
b.add(request, true)
}
func (b *Batch) add(request interface{}, skipResponse bool) *BatchResult {
br := &BatchResult{
request: request,
}
if !skipResponse {
br.done = make(chan struct{})
br.Done = br.done
}
b.opsLock.Lock()
b.ops = append(b.ops, br)
b.opsLock.Unlock()
return br
}
// Call calls all the RPCs added via Batch.Add().
//
// The order of batched RPCs execution on the server is unspecified.
// Usually batched RPCs are executed concurrently on the server.
//
// The caller may read all BatchResult contents returned from Batch.Add()
// after the Call returns.
//
// It is guaranteed that all <-BatchResult.Done channels are unblocked after
// the Call returns.
func (b *Batch) Call() error {
return b.CallTimeout(b.c.RequestTimeout)
}
// CallTimeout calls all the RPCs added via Batch.Add() and waits for
// all the RPC responses during the given timeout.
//
// The order of batched RPCs execution on the server is unspecified.
// Usually batched RPCs are executed concurrently on the server.
//
// The caller may read all BatchResult contents returned from Batch.Add()
// after the CallTimeout returns.
//
// It is guaranteed that all <-BatchResult.Done channels are unblocked after
// the CallTimeout returns.
func (b *Batch) CallTimeout(timeout time.Duration) error {
b.opsLock.Lock()
ops := b.ops
b.ops = nil
b.opsLock.Unlock()
results := make([]*AsyncResult, len(ops))
for i := range ops {
op := ops[i]
m, err := callAsyncRetry(b.c, op.request, op.done == nil, 5)
if err != nil {
return err
}
results[i] = m
}
t := acquireTimer(timeout)
for i := range results {
m := results[i]
op := ops[i]
if op.done == nil {
continue
}
select {
case <-m.Done:
op.Response, op.Error = m.Response, m.Error
close(op.done)
case <-t.C:
releaseTimer(t)
err := getClientTimeoutError(b.c, timeout)
for ; i < len(results); i++ {
results[i].Cancel()
op = ops[i]
op.Error = err
if op.done != nil {
close(op.done)
}
}
return err
}
}
releaseTimer(t)
return nil
}
func callAsyncRetry(c *Client, request interface{}, skipResponse bool, retriesCount int) (*AsyncResult, error) {
retriesCount++
for {
m, err := c.callAsync(request, skipResponse, false)
if err == nil {
return m, nil
}
if !err.(*ClientError).Overflow {
return nil, err
}
retriesCount--
if retriesCount <= 0 {
return nil, err
}
time.Sleep(10 * time.Millisecond)
}
}
// ClientError is an error Client methods can return.
type ClientError struct {
// Set if the error is timeout-related.
Timeout bool
// Set if the error is connection-related.
Connection bool
// Set if the error is server-related.
Server bool
// Set if the error is related to internal resources' overflow.
// Increase PendingRequests if you see a lot of such errors.
Overflow bool
// May be set if AsyncResult.Cancel is called.
Canceled bool
err error
}
func (e *ClientError) Error() string {
return e.err.Error()
}
// ErrCanceled may be returned from rpc call if AsyncResult.Cancel
// has been called.
var ErrCanceled = &ClientError{
Canceled: true,
err: fmt.Errorf("the call has been canceled"),
}
func clientHandler(c *Client) {
defer c.stopWg.Done()
var conn io.ReadWriteCloser
var err error
var stopping atomic.Value
for {
dialChan := make(chan struct{})
go func() {
if conn, err = c.Dial(c.Addr); err != nil {
if stopping.Load() == nil {
c.LogError("gorpc.Client: [%s]. Cannot establish rpc connection: [%s]", c.Addr, err)
}
}
close(dialChan)
}()
select {
case <-c.clientStopChan:
stopping.Store(true)
<-dialChan
return
case <-dialChan:
c.Stats.incDialCalls()
}
if err != nil {
c.Stats.incDialErrors()
select {
case <-c.clientStopChan:
return
case <-time.After(time.Second):
}
continue
}
clientHandleConnection(c, conn)
select {
case <-c.clientStopChan:
return
default:
}
}
}
func clientHandleConnection(c *Client, conn io.ReadWriteCloser) {
if c.OnConnect != nil {
newConn, err := c.OnConnect(c.Addr, conn)
if err != nil {
c.LogError("gorpc.Client: [%s]. OnConnect error: [%s]", c.Addr, err)
conn.Close()
return
}
conn = newConn
}
var buf [1]byte
if !c.DisableCompression {
buf[0] = 1
}
_, err := conn.Write(buf[:])
if err != nil {
c.LogError("gorpc.Client: [%s]. Error when writing handshake to server: [%s]", c.Addr, err)
conn.Close()
return
}
stopChan := make(chan struct{})
pendingRequests := make(map[uint64]*AsyncResult)
var pendingRequestsLock sync.Mutex
writerDone := make(chan error, 1)
go clientWriter(c, conn, pendingRequests, &pendingRequestsLock, stopChan, writerDone)
readerDone := make(chan error, 1)
go clientReader(c, conn, pendingRequests, &pendingRequestsLock, readerDone)
select {
case err = <-writerDone:
close(stopChan)
conn.Close()
<-readerDone
case err = <-readerDone:
close(stopChan)
conn.Close()
<-writerDone
case <-c.clientStopChan:
close(stopChan)
conn.Close()
<-readerDone
<-writerDone
}
if err != nil {
c.LogError("%s", err)
err = &ClientError{
Connection: true,
err: err,
}
}
for _, m := range pendingRequests {
atomic.AddUint32(&c.pendingRequestsCount, ^uint32(0))
m.Error = err
if m.done != nil {
close(m.done)
}
}
}
func clientWriter(c *Client, w io.Writer, pendingRequests map[uint64]*AsyncResult, pendingRequestsLock *sync.Mutex, stopChan <-chan struct{}, done chan<- error) {
var err error
defer func() { done <- err }()
e := newMessageEncoder(w, c.SendBufferSize, !c.DisableCompression, &c.Stats)
defer e.Close()
t := time.NewTimer(c.FlushDelay)
var flushChan <-chan time.Time
var wr wireRequest
var msgID uint64
for {
var m *AsyncResult
select {
case m = <-c.requestsChan:
default:
// Give the last chance for ready goroutines filling c.requestsChan :)
runtime.Gosched()
select {
case <-stopChan:
return
case m = <-c.requestsChan:
case <-flushChan:
if err = e.Flush(); err != nil {
err = fmt.Errorf("gorpc.Client: [%s]. Cannot flush requests to underlying stream: [%s]", c.Addr, err)
return
}
flushChan = nil
continue
}
}
if flushChan == nil {
flushChan = getFlushChan(t, c.FlushDelay)
}
if m.isCanceled() {
if m.done != nil {
m.Error = ErrCanceled
close(m.done)
} else {
releaseAsyncResult(m)
}
continue
}
if m.done == nil {
wr.ID = 0
} else {
msgID++
if msgID == 0 {
msgID = 1
}
pendingRequestsLock.Lock()
n := len(pendingRequests)
for {
if _, ok := pendingRequests[msgID]; !ok {
break
}
msgID++
}
pendingRequests[msgID] = m
pendingRequestsLock.Unlock()
atomic.AddUint32(&c.pendingRequestsCount, 1)
if n > 10*c.PendingRequests {
err = fmt.Errorf("gorpc.Client: [%s]. The server didn't return %d responses yet. Closing server connection in order to prevent client resource leaks", c.Addr, n)
return
}
wr.ID = msgID
}
wr.Request = m.request
if m.done == nil {
c.Stats.incRPCCalls()
releaseAsyncResult(m)
}
if err = e.Encode(wr); err != nil {
err = fmt.Errorf("gorpc.Client: [%s]. Cannot send request to wire: [%s]", c.Addr, err)
return
}
wr.Request = nil
}
}
func clientReader(c *Client, r io.Reader, pendingRequests map[uint64]*AsyncResult, pendingRequestsLock *sync.Mutex, done chan<- error) {
var err error
defer func() {
if r := recover(); r != nil {
if err == nil {
err = fmt.Errorf("gorpc.Client: [%s]. Panic when reading data from server: %v", c.Addr, r)
}
}
done <- err
}()
d := newMessageDecoder(r, c.RecvBufferSize, !c.DisableCompression, &c.Stats)
defer d.Close()
var wr wireResponse
for {
if err = d.Decode(&wr); err != nil {
err = fmt.Errorf("gorpc.Client: [%s]. Cannot decode response: [%s]", c.Addr, err)
return
}
pendingRequestsLock.Lock()
m, ok := pendingRequests[wr.ID]
if ok {
delete(pendingRequests, wr.ID)
}
pendingRequestsLock.Unlock()
if !ok {
err = fmt.Errorf("gorpc.Client: [%s]. Unexpected msgID=[%d] obtained from server", c.Addr, wr.ID)
return
}
atomic.AddUint32(&c.pendingRequestsCount, ^uint32(0))
m.Response = wr.Response
wr.ID = 0
wr.Response = nil
if wr.Error != "" {
m.Error = &ClientError{
Server: true,
err: fmt.Errorf("gorpc.Client: [%s]. Server error: [%s]", c.Addr, wr.Error),
}
wr.Error = ""
}
c.Stats.incRPCCalls()
c.Stats.incRPCTime(uint64(time.Since(m.t).Seconds() * 1000))
close(m.done)
}
}