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eventloop_unix.go
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eventloop_unix.go
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// Copyright (c) 2019 The Gnet Authors. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//go:build linux || freebsd || dragonfly || netbsd || openbsd || darwin
// +build linux freebsd dragonfly netbsd openbsd darwin
package gnet
import (
"bytes"
"context"
"errors"
"fmt"
"os"
"strings"
"time"
"golang.org/x/sys/unix"
"github.com/panjf2000/gnet/v2/internal/io"
"github.com/panjf2000/gnet/v2/internal/netpoll"
"github.com/panjf2000/gnet/v2/internal/queue"
errorx "github.com/panjf2000/gnet/v2/pkg/errors"
"github.com/panjf2000/gnet/v2/pkg/logging"
)
type eventloop struct {
ln *listener // listener
idx int // loop index in the engine loops list
cache bytes.Buffer // temporary buffer for scattered bytes
engine *engine // engine in loop
poller *netpoll.Poller // epoll or kqueue
buffer []byte // read packet buffer whose capacity is set by user, default value is 64KB
connections connMatrix // loop connections storage
eventHandler EventHandler // user eventHandler
}
func (el *eventloop) getLogger() logging.Logger {
return el.engine.opts.Logger
}
func (el *eventloop) countConn() int32 {
return el.connections.loadCount()
}
func (el *eventloop) closeConns() {
// Close loops and all outstanding connections
el.connections.iterate(func(c *conn) bool {
_ = el.close(c, nil)
return true
})
}
type connWithCallback struct {
c *conn
cb func()
}
func (el *eventloop) register(itf interface{}) error {
c, ok := itf.(*conn)
if !ok {
ccb := itf.(*connWithCallback)
c = ccb.c
defer ccb.cb()
}
if err := el.poller.AddRead(&c.pollAttachment); err != nil {
_ = unix.Close(c.fd)
c.release()
return err
}
el.connections.addConn(c, el.idx)
if c.isDatagram && c.peer != nil {
return nil
}
return el.open(c)
}
func (el *eventloop) open(c *conn) error {
c.opened = true
out, action := el.eventHandler.OnOpen(c)
if out != nil {
if err := c.open(out); err != nil {
return err
}
}
if !c.outboundBuffer.IsEmpty() {
if err := el.poller.AddWrite(&c.pollAttachment); err != nil {
return err
}
}
return el.handleAction(c, action)
}
func (el *eventloop) read(c *conn) error {
n, err := unix.Read(c.fd, el.buffer)
if err != nil || n == 0 {
if err == unix.EAGAIN {
return nil
}
if n == 0 {
err = unix.ECONNRESET
}
return el.close(c, os.NewSyscallError("read", err))
}
c.buffer = el.buffer[:n]
action := el.eventHandler.OnTraffic(c)
switch action {
case None:
case Close:
return el.close(c, nil)
case Shutdown:
return errorx.ErrEngineShutdown
}
_, _ = c.inboundBuffer.Write(c.buffer)
c.buffer = c.buffer[:0]
return nil
}
// The default value of UIO_MAXIOV/IOV_MAX is 1024 on Linux and most BSD-like OSs.
const iovMax = 1024
func (el *eventloop) write(c *conn) error {
iov := c.outboundBuffer.Peek(-1)
var (
n int
err error
)
if len(iov) > 1 {
if len(iov) > iovMax {
iov = iov[:iovMax]
}
n, err = io.Writev(c.fd, iov)
} else {
n, err = unix.Write(c.fd, iov[0])
}
_, _ = c.outboundBuffer.Discard(n)
switch err {
case nil:
case unix.EAGAIN:
return nil
default:
return el.close(c, os.NewSyscallError("write", err))
}
// All data have been drained, it's no need to monitor the writable events,
// remove the writable event from poller to help the future event-loops.
if c.outboundBuffer.IsEmpty() {
_ = el.poller.ModRead(&c.pollAttachment)
}
return nil
}
func (el *eventloop) close(c *conn, err error) (rerr error) {
if addr := c.localAddr; addr != nil && strings.HasPrefix(c.localAddr.Network(), "udp") {
rerr = el.poller.Delete(c.fd)
if c.fd != el.ln.fd {
rerr = unix.Close(c.fd)
el.connections.delConn(c)
}
if el.eventHandler.OnClose(c, err) == Shutdown {
return errorx.ErrEngineShutdown
}
c.release()
return
}
if !c.opened || el.connections.getConn(c.fd) == nil {
return // ignore stale connections
}
// Send residual data in buffer back to the peer before actually closing the connection.
if !c.outboundBuffer.IsEmpty() {
for !c.outboundBuffer.IsEmpty() {
iov := c.outboundBuffer.Peek(0)
if len(iov) > iovMax {
iov = iov[:iovMax]
}
if n, e := io.Writev(c.fd, iov); e != nil {
el.getLogger().Warnf("close: error occurs when sending data back to peer, %v", e)
break
} else { //nolint:revive
_, _ = c.outboundBuffer.Discard(n)
}
}
}
err0, err1 := el.poller.Delete(c.fd), unix.Close(c.fd)
if err0 != nil {
rerr = fmt.Errorf("failed to delete fd=%d from poller in event-loop(%d): %v", c.fd, el.idx, err0)
}
if err1 != nil {
err1 = fmt.Errorf("failed to close fd=%d in event-loop(%d): %v", c.fd, el.idx, os.NewSyscallError("close", err1))
if rerr != nil {
rerr = errors.New(rerr.Error() + " & " + err1.Error())
} else {
rerr = err1
}
}
el.connections.delConn(c)
if el.eventHandler.OnClose(c, err) == Shutdown {
rerr = errorx.ErrEngineShutdown
}
c.release()
return
}
func (el *eventloop) wake(c *conn) error {
if !c.opened || el.connections.getConn(c.fd) == nil {
return nil // ignore stale connections
}
action := el.eventHandler.OnTraffic(c)
return el.handleAction(c, action)
}
func (el *eventloop) ticker(ctx context.Context) {
if el == nil {
return
}
var (
action Action
delay time.Duration
timer *time.Timer
)
defer func() {
if timer != nil {
timer.Stop()
}
}()
for {
delay, action = el.eventHandler.OnTick()
switch action {
case None:
case Shutdown:
// It seems reasonable to mark this as low-priority, waiting for some tasks like asynchronous writes
// to finish up before shutting down the service.
err := el.poller.Trigger(queue.LowPriority, func(_ interface{}) error { return errorx.ErrEngineShutdown }, nil)
el.getLogger().Debugf("failed to enqueue shutdown signal of high-priority for event-loop(%d): %v", el.idx, err)
}
if timer == nil {
timer = time.NewTimer(delay)
} else {
timer.Reset(delay)
}
select {
case <-ctx.Done():
el.getLogger().Debugf("stopping ticker in event-loop(%d) from Engine, error:%v", el.idx, ctx.Err())
return
case <-timer.C:
}
}
}
func (el *eventloop) handleAction(c *conn, action Action) error {
switch action {
case None:
return nil
case Close:
return el.close(c, nil)
case Shutdown:
return errorx.ErrEngineShutdown
default:
return nil
}
}
func (el *eventloop) readUDP1(fd int, _ netpoll.IOEvent, _ netpoll.IOFlags) error {
n, sa, err := unix.Recvfrom(fd, el.buffer, 0)
if err != nil {
if err == unix.EAGAIN || err == unix.EWOULDBLOCK {
return nil
}
return fmt.Errorf("failed to read UDP packet from fd=%d in event-loop(%d), %v",
fd, el.idx, os.NewSyscallError("recvfrom", err))
}
var c *conn
if fd == el.ln.fd {
c = newUDPConn(fd, el, el.ln.addr, sa, false)
} else {
c = el.connections.getConn(fd)
}
c.buffer = el.buffer[:n]
action := el.eventHandler.OnTraffic(c)
if c.peer != nil {
c.release()
}
if action == Shutdown {
return errorx.ErrEngineShutdown
}
return nil
}
/*
func (el *eventloop) execCmd(itf interface{}) (err error) {
cmd := itf.(*asyncCmd)
c := el.connections.getConnByGFD(cmd.fd)
if c == nil || c.gfd != cmd.fd {
return errorx.ErrInvalidConn
}
defer func() {
if cmd.cb != nil {
_ = cmd.cb(c, err)
}
}()
switch cmd.typ {
case asyncCmdClose:
return el.close(c, nil)
case asyncCmdWake:
return el.wake(c)
case asyncCmdWrite:
_, err = c.Write(cmd.arg.([]byte))
case asyncCmdWritev:
_, err = c.Writev(cmd.arg.([][]byte))
default:
return errorx.ErrUnsupportedOp
}
return
}
*/