// Copyright 2017 Joshua J Baker. All rights reserved. // Use of this source code is governed by an MIT-style // license that can be found in the LICENSE file. // +build netbsd openbsd freebsd darwin dragonfly linux package evio import ( "errors" "net" "os" "sort" "strconv" "sync" "syscall" "time" "github.com/tidwall/evio/internal" ) func (ln *listener) close() { if ln.fd != 0 { syscall.Close(ln.fd) } if ln.f != nil { ln.f.Close() } if ln.ln != nil { ln.ln.Close() } if ln.network == "unix" { os.RemoveAll(ln.addr) } } func (ln *listener) system() error { var err error switch netln := ln.ln.(type) { default: ln.close() return errors.New("network not supported") case *net.TCPListener: ln.f, err = netln.File() case *net.UnixListener: ln.f, err = netln.File() } if err != nil { ln.close() return err } ln.fd = int(ln.f.Fd()) return syscall.SetNonblock(ln.fd, true) } type unixConn struct { id, fd, p int outbuf []byte outpos int action Action opts Options raddr net.Addr laddr net.Addr err error wake bool writeon bool detached bool attaching bool closed bool } func (c *unixConn) Read(p []byte) (n int, err error) { return syscall.Read(c.fd, p) } func (c *unixConn) Write(p []byte) (n int, err error) { if c.detached { if len(c.outbuf) > 0 { for len(c.outbuf) > 0 { n, err = syscall.Write(c.fd, c.outbuf) if n > 0 { c.outbuf = c.outbuf[n:] } if err != nil { return 0, err } } c.outbuf = nil } var tn int if len(p) > 0 { for len(p) > 0 { n, err = syscall.Write(c.fd, p) if n > 0 { p = p[n:] tn += n } if err != nil { return tn, err } } p = nil } return tn, nil } return syscall.Write(c.fd, p) } func (c *unixConn) Close() error { if c.closed { return syscall.EINVAL } err := syscall.Close(c.fd) c.fd = -1 c.closed = true return err } func serve(events Events, lns []*listener) error { p, err := internal.MakePoll() if err != nil { return err } defer syscall.Close(p) for _, ln := range lns { if err := internal.AddRead(p, ln.fd); err != nil { return err } } var mu sync.Mutex lock := func() { mu.Lock() } unlock := func() { mu.Unlock() } fdconn := make(map[int]*unixConn) idconn := make(map[int]*unixConn) var id int ctx := Context{ Wake: func(id int) bool { var ok = true var err error lock() c := idconn[id] if c == nil { ok = false } else if !c.wake { c.wake = true err = internal.AddWrite(c.p, c.fd, &c.writeon) } unlock() if err != nil { panic(err) } return ok }, Attach: func(v interface{}) error { var fd int var err error switch v := v.(type) { default: return errors.New("invalid type") case *net.TCPConn: f, err := v.File() if err != nil { return err } fd = int(f.Fd()) case *net.UnixConn: f, err := v.File() if err != nil { return err } fd = int(f.Fd()) case *os.File: fd = int(v.Fd()) case int: fd = v case uintptr: fd = int(v) } err = syscall.SetNonblock(fd, true) if err != nil { println(456) return err } lock() err = internal.AddRead(p, fd) if err != nil { unlock() return err } id++ c := &unixConn{id: id, fd: fd, p: p} c.attaching = true fdconn[fd] = c idconn[id] = c if events.Attached != nil { unlock() out, opts, action := events.Attached(id, v) lock() if opts.TCPKeepAlive > 0 { internal.SetKeepAlive(fd, int(c.opts.TCPKeepAlive/time.Second)) } c.action = action if len(out) > 0 { c.outbuf = append(c.outbuf, out...) } } // if len(c.outbuf) > 0 || c.action != None { err = internal.AddWrite(p, fd, &c.writeon) if err != nil { unlock() panic(err) } // } unlock() // println("---") return nil }, } ctx.Addrs = make([]net.Addr, len(lns)) for i, ln := range lns { ctx.Addrs[i] = ln.naddr } if events.Serving != nil { switch events.Serving(ctx) { case Shutdown: return nil } } defer func() { lock() type fdid struct { fd, id int opts Options } var fdids []fdid for fd, c := range fdconn { fdids = append(fdids, fdid{fd, c.id, c.opts}) } sort.Slice(fdids, func(i, j int) bool { return fdids[j].id < fdids[i].id }) for _, fdid := range fdids { syscall.Close(fdid.fd) if events.Closed != nil { unlock() events.Closed(fdid.id, nil) lock() } } unlock() }() var packet [0xFFFF]byte var evs = internal.MakeEvents(64) var lastTicker time.Time var tickerDelay time.Duration if events.Tick == nil { tickerDelay = time.Hour } for { pn, err := internal.Wait(p, evs, tickerDelay) if err != nil && err != syscall.EINTR { return err } if events.Tick != nil { now := time.Now() if now.Sub(lastTicker) > tickerDelay { var action Action tickerDelay, action = events.Tick() if action == Shutdown { return nil } lastTicker = now } } lock() for i := 0; i < pn; i++ { var in []byte var c *unixConn var nfd int var n int var out []byte var ln *listener var lnidx int var fd = internal.GetFD(evs, i) var sa syscall.Sockaddr for lnidx, ln = range lns { if fd == ln.fd { goto accept } } c = fdconn[fd] if c == nil { syscall.Close(fd) goto next } if c.attaching { println(fd) goto next // opt, err := syscall.GetsockoptInt(fd, syscall.SOL_SOCKET, syscall.SO_ERROR) // if opt != 0 { // } // fmt.Printf(">> %v %v\n", opt, err) switch evs.([]syscall.Kevent_t)[i].Filter { case syscall.EVFILT_WRITE: println(123) goto write case syscall.EVFILT_READ: println(456) goto read default: goto next } } goto read accept: nfd, sa, err = syscall.Accept(fd) if err != nil { goto next } if err = syscall.SetNonblock(nfd, true); err != nil { goto fail } if err = internal.AddRead(p, nfd); err != nil { goto fail } id++ c = &unixConn{id: id, fd: nfd, p: p} fdconn[nfd] = c idconn[id] = c c.laddr = getlocaladdr(fd, ln.ln) c.raddr = getaddr(sa, ln.ln) if events.Opened != nil { unlock() out, c.opts, c.action = events.Opened(c.id, Addr{lnidx, c.laddr, c.raddr}) lock() if c.opts.TCPKeepAlive > 0 { if _, ok := ln.ln.(*net.TCPListener); ok { if err = internal.SetKeepAlive(c.fd, int(c.opts.TCPKeepAlive/time.Second)); err != nil { goto fail } } } if len(out) > 0 { c.outbuf = append(c.outbuf, out...) } } goto write read: if c.action != None { goto write } if c.wake { c.wake = false } else { n, err = c.Read(packet[:]) if n == 0 || err != nil { if err == syscall.EAGAIN { goto write } c.err = err goto close } in = append([]byte{}, packet[:n]...) } if events.Data != nil { unlock() out, c.action = events.Data(c.id, in) lock() } if len(out) > 0 { c.outbuf = append(c.outbuf, out...) } goto write write: if len(c.outbuf)-c.outpos > 0 { if events.Prewrite != nil { unlock() action := events.Prewrite(c.id, len(c.outbuf[c.outpos:])) lock() if action == Shutdown { c.action = Shutdown } } n, err = c.Write(c.outbuf[c.outpos:]) if events.Postwrite != nil { amount := n if amount < 0 { amount = 0 } unlock() action := events.Postwrite(c.id, amount, len(c.outbuf)-c.outpos-amount) lock() if action == Shutdown { c.action = Shutdown } } if n == 0 || err != nil { println("C") if c.action == Shutdown { goto close } if err == syscall.EAGAIN { if err = internal.AddWrite(c.p, c.fd, &c.writeon); err != nil { goto fail } goto next } c.err = err goto close } c.outpos += n if len(c.outbuf)-c.outpos == 0 { c.outpos = 0 c.outbuf = c.outbuf[:0] } } if c.action == Shutdown { goto close } if len(c.outbuf)-c.outpos == 0 { if !c.wake { if err = internal.DelWrite(c.p, c.fd, &c.writeon); err != nil { goto fail } } if c.action != None { goto close } } else { if err = internal.AddWrite(c.p, c.fd, &c.writeon); err != nil { goto fail } } goto next close: delete(fdconn, c.fd) delete(idconn, c.id) if c.action == Detach { if events.Detached != nil { c.detached = true if len(c.outbuf)-c.outpos > 0 { c.outbuf = append(c.outbuf[:0], c.outbuf[c.outpos:]...) } else { c.outbuf = nil } c.outpos = 0 syscall.SetNonblock(c.fd, false) unlock() c.action = events.Detached(c.id, c) lock() if c.action == Shutdown { goto fail } goto next } } syscall.Close(c.fd) if events.Closed != nil { unlock() action := events.Closed(c.id, c.err) lock() if action == Shutdown { c.action = Shutdown } } if c.action == Shutdown { err = nil goto fail } goto next fail: unlock() return err next: } unlock() } } func getlocaladdr(fd int, ln net.Listener) net.Addr { sa, _ := syscall.Getsockname(fd) return getaddr(sa, ln) } func getaddr(sa syscall.Sockaddr, ln net.Listener) net.Addr { switch ln.(type) { case *net.UnixListener: return ln.Addr() case *net.TCPListener: var addr net.TCPAddr switch sa := sa.(type) { case *syscall.SockaddrInet4: addr.IP = net.IP(sa.Addr[:]) addr.Port = sa.Port return &addr case *syscall.SockaddrInet6: addr.IP = net.IP(sa.Addr[:]) addr.Port = sa.Port if sa.ZoneId != 0 { addr.Zone = strconv.FormatInt(int64(sa.ZoneId), 10) } return &addr } } return nil }