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// Copyright 2020 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 jsonrpc2
import (
"context"
"errors"
"io"
"runtime"
"strings"
"sync"
"syscall"
"time"
)
// Listener is implemented by protocols to accept new inbound connections.
type Listener interface {
// Accept accepts an inbound connection to a server.
// It blocks until either an inbound connection is made, or the listener is closed.
Accept(context.Context) (io.ReadWriteCloser, error)
// Close closes the listener.
// Any blocked Accept or Dial operations will unblock and return errors.
Close() error
// Dialer returns a dialer that can be used to connect to this listener
// locally.
// If a listener does not implement this it will return nil.
Dialer() Dialer
}
// Dialer is used by clients to dial a server.
type Dialer interface {
// Dial returns a new communication byte stream to a listening server.
Dial(ctx context.Context) (io.ReadWriteCloser, error)
}
// Server is a running server that is accepting incoming connections.
type Server struct {
listener Listener
binder Binder
async *async
}
// Dial uses the dialer to make a new connection, wraps the returned
// reader and writer using the framer to make a stream, and then builds
// a connection on top of that stream using the binder.
func Dial(ctx context.Context, dialer Dialer, binder Binder) (*Connection, error) {
// dial a server
rwc, err := dialer.Dial(ctx)
if err != nil {
return nil, err
}
return newConnection(ctx, rwc, binder)
}
// Serve starts a new server listening for incoming connections and returns
// it.
// This returns a fully running and connected server, it does not block on
// the listener.
// You can call Wait to block on the server, or Shutdown to get the sever to
// terminate gracefully.
// To notice incoming connections, use an intercepting Binder.
func Serve(ctx context.Context, listener Listener, binder Binder) (*Server, error) {
server := &Server{
listener: listener,
binder: binder,
async: newAsync(),
}
go server.run(ctx)
return server, nil
}
// Wait returns only when the server has shut down.
func (s *Server) Wait() error {
return s.async.wait()
}
// run accepts incoming connections from the listener,
// If IdleTimeout is non-zero, run exits after there are no clients for this
// duration, otherwise it exits only on error.
func (s *Server) run(ctx context.Context) {
defer s.async.done()
var activeConns []*Connection
for {
// we never close the accepted connection, we rely on the other end
// closing or the socket closing itself naturally
rwc, err := s.listener.Accept(ctx)
if err != nil {
if !isClosingError(err) {
s.async.setError(err)
}
// we are done generating new connections for good
break
}
// see if any connections were closed while we were waiting
activeConns = onlyActive(activeConns)
// a new inbound connection,
conn, err := newConnection(ctx, rwc, s.binder)
if err != nil {
if !isClosingError(err) {
s.async.setError(err)
}
continue
}
activeConns = append(activeConns, conn)
}
// wait for all active conns to finish
for _, c := range activeConns {
c.Wait()
}
}
func onlyActive(conns []*Connection) []*Connection {
i := 0
for _, c := range conns {
if !c.async.isDone() {
conns[i] = c
i++
}
}
// trim the slice down
return conns[:i]
}
// isClosingError reports if the error occurs normally during the process of
// closing a network connection. It uses imperfect heuristics that err on the
// side of false negatives, and should not be used for anything critical.
func isClosingError(err error) bool {
if err == nil {
return false
}
// Fully unwrap the error, so the following tests work.
for wrapped := err; wrapped != nil; wrapped = errors.Unwrap(err) {
err = wrapped
}
// Was it based on an EOF error?
if err == io.EOF {
return true
}
// Was it based on a closed pipe?
if err == io.ErrClosedPipe {
return true
}
// Per https://github.com/golang/go/issues/4373, this error string should not
// change. This is not ideal, but since the worst that could happen here is
// some superfluous logging, it is acceptable.
if err.Error() == "use of closed network connection" {
return true
}
if runtime.GOOS == "plan9" {
// Error reading from a closed connection.
if err == syscall.EINVAL {
return true
}
// Error trying to accept a new connection from a closed listener.
if strings.HasSuffix(err.Error(), " listen hungup") {
return true
}
}
return false
}
// NewIdleListener wraps a listener with an idle timeout.
// When there are no active connections for at least the timeout duration a
// call to accept will fail with ErrIdleTimeout.
func NewIdleListener(timeout time.Duration, wrap Listener) Listener {
l := &idleListener{
timeout: timeout,
wrapped: wrap,
newConns: make(chan *idleCloser),
closed: make(chan struct{}),
wasTimeout: make(chan struct{}),
}
go l.run()
return l
}
type idleListener struct {
wrapped Listener
timeout time.Duration
newConns chan *idleCloser
closed chan struct{}
wasTimeout chan struct{}
closeOnce sync.Once
}
type idleCloser struct {
wrapped io.ReadWriteCloser
closed chan struct{}
closeOnce sync.Once
}
func (c *idleCloser) Read(p []byte) (int, error) {
n, err := c.wrapped.Read(p)
if err != nil && isClosingError(err) {
c.closeOnce.Do(func() { close(c.closed) })
}
return n, err
}
func (c *idleCloser) Write(p []byte) (int, error) {
// we do not close on write failure, we rely on the wrapped writer to do that
// if it is appropriate, which we will detect in the next read.
return c.wrapped.Write(p)
}
func (c *idleCloser) Close() error {
// we rely on closing the wrapped stream to signal to the next read that we
// are closed, rather than triggering the closed signal directly
return c.wrapped.Close()
}
func (l *idleListener) Accept(ctx context.Context) (io.ReadWriteCloser, error) {
rwc, err := l.wrapped.Accept(ctx)
if err != nil {
if isClosingError(err) {
// underlying listener was closed
l.closeOnce.Do(func() { close(l.closed) })
// was it closed because of the idle timeout?
select {
case <-l.wasTimeout:
err = ErrIdleTimeout
default:
}
}
return nil, err
}
conn := &idleCloser{
wrapped: rwc,
closed: make(chan struct{}),
}
l.newConns <- conn
return conn, err
}
func (l *idleListener) Close() error {
defer l.closeOnce.Do(func() { close(l.closed) })
return l.wrapped.Close()
}
func (l *idleListener) Dialer() Dialer {
return l.wrapped.Dialer()
}
func (l *idleListener) run() {
var conns []*idleCloser
for {
var firstClosed chan struct{} // left at nil if there are no active conns
var timeout <-chan time.Time // left at nil if there are active conns
if len(conns) > 0 {
firstClosed = conns[0].closed
} else {
timeout = time.After(l.timeout)
}
select {
case <-l.closed:
// the main listener closed, no need to keep going
return
case conn := <-l.newConns:
// a new conn arrived, add it to the list
conns = append(conns, conn)
case <-timeout:
// we timed out, only happens when there are no active conns
// close the underlying listener, and allow the normal closing process to happen
close(l.wasTimeout)
l.wrapped.Close()
case <-firstClosed:
// a conn closed, remove it from the active list
conns = conns[:copy(conns, conns[1:])]
}
}
}