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netconn_test.go
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// Copyright 2024 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 http_test
import (
"bytes"
"context"
"internal/synctest"
"io"
"math"
"net"
"net/netip"
"os"
"sync"
"time"
)
func fakeNetListen() *fakeNetListener {
li := &fakeNetListener{
setc: make(chan struct{}, 1),
unsetc: make(chan struct{}, 1),
addr: netip.MustParseAddrPort("127.0.0.1:8000"),
locPort: 10000,
}
li.unsetc <- struct{}{}
return li
}
type fakeNetListener struct {
setc, unsetc chan struct{}
queue []net.Conn
closed bool
addr netip.AddrPort
locPort uint16
onDial func() // called when making a new connection
onClose func(*fakeNetConn) // called when closing a connection
trackConns bool // set this to record all created conns
conns []*fakeNetConn
}
func (li *fakeNetListener) lock() {
select {
case <-li.setc:
case <-li.unsetc:
}
}
func (li *fakeNetListener) unlock() {
if li.closed || len(li.queue) > 0 {
li.setc <- struct{}{}
} else {
li.unsetc <- struct{}{}
}
}
func (li *fakeNetListener) connect() *fakeNetConn {
if li.onDial != nil {
li.onDial()
}
li.lock()
defer li.unlock()
locAddr := netip.AddrPortFrom(netip.AddrFrom4([4]byte{127, 0, 0, 1}), li.locPort)
li.locPort++
c0, c1 := fakeNetPipe(li.addr, locAddr)
c0.onClose = li.onClose
c1.onClose = li.onClose
li.queue = append(li.queue, c0)
if li.trackConns {
li.conns = append(li.conns, c0)
}
return c1
}
func (li *fakeNetListener) Accept() (net.Conn, error) {
<-li.setc
defer li.unlock()
if li.closed {
return nil, net.ErrClosed
}
c := li.queue[0]
li.queue = li.queue[1:]
return c, nil
}
func (li *fakeNetListener) Close() error {
li.lock()
defer li.unlock()
li.closed = true
return nil
}
func (li *fakeNetListener) Addr() net.Addr {
return net.TCPAddrFromAddrPort(li.addr)
}
// fakeNetPipe creates an in-memory, full duplex network connection.
//
// Unlike net.Pipe, the connection is not synchronous.
// Writes are made to a buffer, and return immediately.
// By default, the buffer size is unlimited.
func fakeNetPipe(s1ap, s2ap netip.AddrPort) (r, w *fakeNetConn) {
s1addr := net.TCPAddrFromAddrPort(s1ap)
s2addr := net.TCPAddrFromAddrPort(s2ap)
s1 := newSynctestNetConnHalf(s1addr)
s2 := newSynctestNetConnHalf(s2addr)
c1 := &fakeNetConn{loc: s1, rem: s2}
c2 := &fakeNetConn{loc: s2, rem: s1}
c1.peer = c2
c2.peer = c1
return c1, c2
}
// A fakeNetConn is one endpoint of the connection created by fakeNetPipe.
type fakeNetConn struct {
// local and remote connection halves.
// Each half contains a buffer.
// Reads pull from the local buffer, and writes push to the remote buffer.
loc, rem *fakeNetConnHalf
// When set, synctest.Wait is automatically called before reads and after writes.
autoWait bool
// peer is the other endpoint.
peer *fakeNetConn
onClose func(*fakeNetConn) // called when closing
}
// Read reads data from the connection.
func (c *fakeNetConn) Read(b []byte) (n int, err error) {
if c.autoWait {
synctest.Wait()
}
return c.loc.read(b)
}
// Peek returns the available unread read buffer,
// without consuming its contents.
func (c *fakeNetConn) Peek() []byte {
if c.autoWait {
synctest.Wait()
}
return c.loc.peek()
}
// Write writes data to the connection.
func (c *fakeNetConn) Write(b []byte) (n int, err error) {
if c.autoWait {
defer synctest.Wait()
}
return c.rem.write(b)
}
// IsClosed reports whether the peer has closed its end of the connection.
func (c *fakeNetConn) IsClosedByPeer() bool {
if c.autoWait {
synctest.Wait()
}
c.rem.lock()
defer c.rem.unlock()
// If the remote half of the conn is returning ErrClosed,
// the peer has closed the connection.
return c.rem.readErr == net.ErrClosed
}
// Close closes the connection.
func (c *fakeNetConn) Close() error {
if c.onClose != nil {
c.onClose(c)
}
// Local half of the conn is now closed.
c.loc.lock()
c.loc.writeErr = net.ErrClosed
c.loc.readErr = net.ErrClosed
c.loc.buf.Reset()
c.loc.unlock()
// Remote half of the connection reads EOF after reading any remaining data.
c.rem.lock()
if c.rem.readErr != nil {
c.rem.readErr = io.EOF
}
c.rem.unlock()
if c.autoWait {
synctest.Wait()
}
return nil
}
// LocalAddr returns the (fake) local network address.
func (c *fakeNetConn) LocalAddr() net.Addr {
return c.loc.addr
}
// LocalAddr returns the (fake) remote network address.
func (c *fakeNetConn) RemoteAddr() net.Addr {
return c.rem.addr
}
// SetDeadline sets the read and write deadlines for the connection.
func (c *fakeNetConn) SetDeadline(t time.Time) error {
c.SetReadDeadline(t)
c.SetWriteDeadline(t)
return nil
}
// SetReadDeadline sets the read deadline for the connection.
func (c *fakeNetConn) SetReadDeadline(t time.Time) error {
c.loc.rctx.setDeadline(t)
return nil
}
// SetWriteDeadline sets the write deadline for the connection.
func (c *fakeNetConn) SetWriteDeadline(t time.Time) error {
c.rem.wctx.setDeadline(t)
return nil
}
// SetReadBufferSize sets the read buffer limit for the connection.
// Writes by the peer will block so long as the buffer is full.
func (c *fakeNetConn) SetReadBufferSize(size int) {
c.loc.setReadBufferSize(size)
}
// fakeNetConnHalf is one data flow in the connection created by fakeNetPipe.
// Each half contains a buffer. Writes to the half push to the buffer, and reads pull from it.
type fakeNetConnHalf struct {
addr net.Addr
// Read and write timeouts.
rctx, wctx deadlineContext
// A half can be readable and/or writable.
//
// These four channels act as a lock,
// and allow waiting for readability/writability.
// When the half is unlocked, exactly one channel contains a value.
// When the half is locked, all channels are empty.
lockr chan struct{} // readable
lockw chan struct{} // writable
lockrw chan struct{} // readable and writable
lockc chan struct{} // neither readable nor writable
bufMax int // maximum buffer size
buf bytes.Buffer
readErr error // error returned by reads
writeErr error // error returned by writes
}
func newSynctestNetConnHalf(addr net.Addr) *fakeNetConnHalf {
h := &fakeNetConnHalf{
addr: addr,
lockw: make(chan struct{}, 1),
lockr: make(chan struct{}, 1),
lockrw: make(chan struct{}, 1),
lockc: make(chan struct{}, 1),
bufMax: math.MaxInt, // unlimited
}
h.unlock()
return h
}
// lock locks h.
func (h *fakeNetConnHalf) lock() {
select {
case <-h.lockw: // writable
case <-h.lockr: // readable
case <-h.lockrw: // readable and writable
case <-h.lockc: // neither readable nor writable
}
}
// h unlocks h.
func (h *fakeNetConnHalf) unlock() {
canRead := h.readErr != nil || h.buf.Len() > 0
canWrite := h.writeErr != nil || h.bufMax > h.buf.Len()
switch {
case canRead && canWrite:
h.lockrw <- struct{}{} // readable and writable
case canRead:
h.lockr <- struct{}{} // readable
case canWrite:
h.lockw <- struct{}{} // writable
default:
h.lockc <- struct{}{} // neither readable nor writable
}
}
// waitAndLockForRead waits until h is readable and locks it.
func (h *fakeNetConnHalf) waitAndLockForRead() error {
// First a non-blocking select to see if we can make immediate progress.
// This permits using a canceled context for a non-blocking operation.
select {
case <-h.lockr:
return nil // readable
case <-h.lockrw:
return nil // readable and writable
default:
}
ctx := h.rctx.context()
select {
case <-h.lockr:
return nil // readable
case <-h.lockrw:
return nil // readable and writable
case <-ctx.Done():
return context.Cause(ctx)
}
}
// waitAndLockForWrite waits until h is writable and locks it.
func (h *fakeNetConnHalf) waitAndLockForWrite() error {
// First a non-blocking select to see if we can make immediate progress.
// This permits using a canceled context for a non-blocking operation.
select {
case <-h.lockw:
return nil // writable
case <-h.lockrw:
return nil // readable and writable
default:
}
ctx := h.wctx.context()
select {
case <-h.lockw:
return nil // writable
case <-h.lockrw:
return nil // readable and writable
case <-ctx.Done():
return context.Cause(ctx)
}
}
func (h *fakeNetConnHalf) peek() []byte {
h.lock()
defer h.unlock()
return h.buf.Bytes()
}
func (h *fakeNetConnHalf) read(b []byte) (n int, err error) {
if err := h.waitAndLockForRead(); err != nil {
return 0, err
}
defer h.unlock()
if h.buf.Len() == 0 && h.readErr != nil {
return 0, h.readErr
}
return h.buf.Read(b)
}
func (h *fakeNetConnHalf) setReadBufferSize(size int) {
h.lock()
defer h.unlock()
h.bufMax = size
}
func (h *fakeNetConnHalf) write(b []byte) (n int, err error) {
for n < len(b) {
nn, err := h.writePartial(b[n:])
n += nn
if err != nil {
return n, err
}
}
return n, nil
}
func (h *fakeNetConnHalf) writePartial(b []byte) (n int, err error) {
if err := h.waitAndLockForWrite(); err != nil {
return 0, err
}
defer h.unlock()
if h.writeErr != nil {
return 0, h.writeErr
}
writeMax := h.bufMax - h.buf.Len()
if writeMax < len(b) {
b = b[:writeMax]
}
return h.buf.Write(b)
}
// deadlineContext converts a changable deadline (as in net.Conn.SetDeadline) into a Context.
type deadlineContext struct {
mu sync.Mutex
ctx context.Context
cancel context.CancelCauseFunc
timer *time.Timer
}
// context returns a Context which expires when the deadline does.
func (t *deadlineContext) context() context.Context {
t.mu.Lock()
defer t.mu.Unlock()
if t.ctx == nil {
t.ctx, t.cancel = context.WithCancelCause(context.Background())
}
return t.ctx
}
// setDeadline sets the current deadline.
func (t *deadlineContext) setDeadline(deadline time.Time) {
t.mu.Lock()
defer t.mu.Unlock()
// If t.ctx is non-nil and t.cancel is nil, then t.ctx was canceled
// and we should create a new one.
if t.ctx == nil || t.cancel == nil {
t.ctx, t.cancel = context.WithCancelCause(context.Background())
}
// Stop any existing deadline from expiring.
if t.timer != nil {
t.timer.Stop()
}
if deadline.IsZero() {
// No deadline.
return
}
now := time.Now()
if !deadline.After(now) {
// Deadline has already expired.
t.cancel(os.ErrDeadlineExceeded)
t.cancel = nil
return
}
if t.timer != nil {
// Reuse existing deadline timer.
t.timer.Reset(deadline.Sub(now))
return
}
// Create a new timer to cancel the context at the deadline.
t.timer = time.AfterFunc(deadline.Sub(now), func() {
t.mu.Lock()
defer t.mu.Unlock()
t.cancel(os.ErrDeadlineExceeded)
t.cancel = nil
})
}