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// Copyright 2010 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 net
import (
"io"
"os"
"sync"
"time"
)
// pipeDeadline is an abstraction for handling timeouts.
type pipeDeadline struct {
mu sync.Mutex // Guards timer and cancel
timer *time.Timer
cancel chan struct{} // Must be non-nil
}
func makePipeDeadline() pipeDeadline {
return pipeDeadline{cancel: make(chan struct{})}
}
// set sets the point in time when the deadline will time out.
// A timeout event is signaled by closing the channel returned by waiter.
// Once a timeout has occurred, the deadline can be refreshed by specifying a
// t value in the future.
//
// A zero value for t prevents timeout.
func (d *pipeDeadline) set(t time.Time) {
d.mu.Lock()
defer d.mu.Unlock()
if d.timer != nil && !d.timer.Stop() {
<-d.cancel // Wait for the timer callback to finish and close cancel
}
d.timer = nil
// Time is zero, then there is no deadline.
closed := isClosedChan(d.cancel)
if t.IsZero() {
if closed {
d.cancel = make(chan struct{})
}
return
}
// Time in the future, setup a timer to cancel in the future.
if dur := time.Until(t); dur > 0 {
if closed {
d.cancel = make(chan struct{})
}
d.timer = time.AfterFunc(dur, func() {
close(d.cancel)
})
return
}
// Time in the past, so close immediately.
if !closed {
close(d.cancel)
}
}
// wait returns a channel that is closed when the deadline is exceeded.
func (d *pipeDeadline) wait() chan struct{} {
d.mu.Lock()
defer d.mu.Unlock()
return d.cancel
}
func isClosedChan(c <-chan struct{}) bool {
select {
case <-c:
return true
default:
return false
}
}
type timeoutError struct{}
func (timeoutError) Error() string { return "deadline exceeded" }
func (timeoutError) Timeout() bool { return true }
func (timeoutError) Temporary() bool { return true }
func (timeoutError) Is(target error) bool {
return target == os.ErrTemporary || target == os.ErrTimeout
}
type pipeAddr struct{}
func (pipeAddr) Network() string { return "pipe" }
func (pipeAddr) String() string { return "pipe" }
type pipe struct {
wrMu sync.Mutex // Serialize Write operations
// Used by local Read to interact with remote Write.
// Successful receive on rdRx is always followed by send on rdTx.
rdRx <-chan []byte
rdTx chan<- int
// Used by local Write to interact with remote Read.
// Successful send on wrTx is always followed by receive on wrRx.
wrTx chan<- []byte
wrRx <-chan int
once sync.Once // Protects closing localDone
localDone chan struct{}
remoteDone <-chan struct{}
readDeadline pipeDeadline
writeDeadline pipeDeadline
}
// Pipe creates a synchronous, in-memory, full duplex
// network connection; both ends implement the Conn interface.
// Reads on one end are matched with writes on the other,
// copying data directly between the two; there is no internal
// buffering.
func Pipe() (Conn, Conn) {
cb1 := make(chan []byte)
cb2 := make(chan []byte)
cn1 := make(chan int)
cn2 := make(chan int)
done1 := make(chan struct{})
done2 := make(chan struct{})
p1 := &pipe{
rdRx: cb1, rdTx: cn1,
wrTx: cb2, wrRx: cn2,
localDone: done1, remoteDone: done2,
readDeadline: makePipeDeadline(),
writeDeadline: makePipeDeadline(),
}
p2 := &pipe{
rdRx: cb2, rdTx: cn2,
wrTx: cb1, wrRx: cn1,
localDone: done2, remoteDone: done1,
readDeadline: makePipeDeadline(),
writeDeadline: makePipeDeadline(),
}
return p1, p2
}
func (*pipe) LocalAddr() Addr { return pipeAddr{} }
func (*pipe) RemoteAddr() Addr { return pipeAddr{} }
func (p *pipe) Read(b []byte) (int, error) {
n, err := p.read(b)
if err != nil && err != io.EOF && err != io.ErrClosedPipe {
err = &OpError{Op: "read", Net: "pipe", Err: err}
}
return n, err
}
func (p *pipe) read(b []byte) (n int, err error) {
switch {
case isClosedChan(p.localDone):
return 0, io.ErrClosedPipe
case isClosedChan(p.remoteDone):
return 0, io.EOF
case isClosedChan(p.readDeadline.wait()):
return 0, timeoutError{}
}
select {
case bw := <-p.rdRx:
nr := copy(b, bw)
p.rdTx <- nr
return nr, nil
case <-p.localDone:
return 0, io.ErrClosedPipe
case <-p.remoteDone:
return 0, io.EOF
case <-p.readDeadline.wait():
return 0, timeoutError{}
}
}
func (p *pipe) Write(b []byte) (int, error) {
n, err := p.write(b)
if err != nil && err != io.ErrClosedPipe {
err = &OpError{Op: "write", Net: "pipe", Err: err}
}
return n, err
}
func (p *pipe) write(b []byte) (n int, err error) {
switch {
case isClosedChan(p.localDone):
return 0, io.ErrClosedPipe
case isClosedChan(p.remoteDone):
return 0, io.ErrClosedPipe
case isClosedChan(p.writeDeadline.wait()):
return 0, timeoutError{}
}
p.wrMu.Lock() // Ensure entirety of b is written together
defer p.wrMu.Unlock()
for once := true; once || len(b) > 0; once = false {
select {
case p.wrTx <- b:
nw := <-p.wrRx
b = b[nw:]
n += nw
case <-p.localDone:
return n, io.ErrClosedPipe
case <-p.remoteDone:
return n, io.ErrClosedPipe
case <-p.writeDeadline.wait():
return n, timeoutError{}
}
}
return n, nil
}
func (p *pipe) SetDeadline(t time.Time) error {
if isClosedChan(p.localDone) || isClosedChan(p.remoteDone) {
return io.ErrClosedPipe
}
p.readDeadline.set(t)
p.writeDeadline.set(t)
return nil
}
func (p *pipe) SetReadDeadline(t time.Time) error {
if isClosedChan(p.localDone) || isClosedChan(p.remoteDone) {
return io.ErrClosedPipe
}
p.readDeadline.set(t)
return nil
}
func (p *pipe) SetWriteDeadline(t time.Time) error {
if isClosedChan(p.localDone) || isClosedChan(p.remoteDone) {
return io.ErrClosedPipe
}
p.writeDeadline.set(t)
return nil
}
func (p *pipe) Close() error {
p.once.Do(func() { close(p.localDone) })
return nil
}