forked from cerc-io/plugeth
190 lines
4.8 KiB
Go
190 lines
4.8 KiB
Go
// Copyright (c) 2014-2015 The Notify Authors. All rights reserved.
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// Use of this source code is governed by the MIT license that can be
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// found in the LICENSE file.
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// +build darwin,kqueue dragonfly freebsd netbsd openbsd
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package notify
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import (
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"fmt"
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"os"
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"syscall"
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)
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// newTrigger returns implementation of trigger.
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func newTrigger(pthLkp map[string]*watched) trigger {
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return &kq{
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pthLkp: pthLkp,
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idLkp: make(map[int]*watched),
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}
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}
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// kq is a structure implementing trigger for kqueue.
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type kq struct {
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// fd is a kqueue file descriptor
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fd int
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// pipefds are file descriptors used to stop `Kevent` call.
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pipefds [2]int
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// idLkp is a data structure mapping file descriptors with data about watching
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// represented by them files/directories.
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idLkp map[int]*watched
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// pthLkp is a structure mapping monitored files/dir with data about them,
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// shared with parent trg structure
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pthLkp map[string]*watched
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}
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// watched is a data structure representing watched file/directory.
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type watched struct {
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trgWatched
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// fd is a file descriptor for watched file/directory.
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fd int
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}
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// Stop implements trigger.
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func (k *kq) Stop() (err error) {
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// trigger event used to interrupt Kevent call.
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_, err = syscall.Write(k.pipefds[1], []byte{0x00})
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return
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}
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// Close implements trigger.
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func (k *kq) Close() error {
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return syscall.Close(k.fd)
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}
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// NewWatched implements trigger.
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func (*kq) NewWatched(p string, fi os.FileInfo) (*watched, error) {
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fd, err := syscall.Open(p, syscall.O_NONBLOCK|syscall.O_RDONLY, 0)
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if err != nil {
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return nil, err
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}
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return &watched{
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trgWatched: trgWatched{p: p, fi: fi},
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fd: fd,
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}, nil
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}
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// Record implements trigger.
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func (k *kq) Record(w *watched) {
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k.idLkp[w.fd], k.pthLkp[w.p] = w, w
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}
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// Del implements trigger.
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func (k *kq) Del(w *watched) {
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syscall.Close(w.fd)
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delete(k.idLkp, w.fd)
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delete(k.pthLkp, w.p)
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}
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func inter2kq(n interface{}) syscall.Kevent_t {
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kq, ok := n.(syscall.Kevent_t)
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if !ok {
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panic(fmt.Sprintf("kqueue: type should be Kevent_t, %T instead", n))
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}
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return kq
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}
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// Init implements trigger.
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func (k *kq) Init() (err error) {
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if k.fd, err = syscall.Kqueue(); err != nil {
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return
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}
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// Creates pipe used to stop `Kevent` call by registering it,
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// watching read end and writing to other end of it.
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if err = syscall.Pipe(k.pipefds[:]); err != nil {
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return nonil(err, k.Close())
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}
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var kevn [1]syscall.Kevent_t
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syscall.SetKevent(&kevn[0], k.pipefds[0], syscall.EVFILT_READ, syscall.EV_ADD)
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if _, err = syscall.Kevent(k.fd, kevn[:], nil, nil); err != nil {
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return nonil(err, k.Close())
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}
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return
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}
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// Unwatch implements trigger.
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func (k *kq) Unwatch(w *watched) (err error) {
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var kevn [1]syscall.Kevent_t
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syscall.SetKevent(&kevn[0], w.fd, syscall.EVFILT_VNODE, syscall.EV_DELETE)
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_, err = syscall.Kevent(k.fd, kevn[:], nil, nil)
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return
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}
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// Watch implements trigger.
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func (k *kq) Watch(fi os.FileInfo, w *watched, e int64) (err error) {
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var kevn [1]syscall.Kevent_t
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syscall.SetKevent(&kevn[0], w.fd, syscall.EVFILT_VNODE,
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syscall.EV_ADD|syscall.EV_CLEAR)
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kevn[0].Fflags = uint32(e)
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_, err = syscall.Kevent(k.fd, kevn[:], nil, nil)
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return
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}
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// Wait implements trigger.
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func (k *kq) Wait() (interface{}, error) {
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var (
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kevn [1]syscall.Kevent_t
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err error
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)
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kevn[0] = syscall.Kevent_t{}
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_, err = syscall.Kevent(k.fd, nil, kevn[:], nil)
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return kevn[0], err
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}
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// Watched implements trigger.
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func (k *kq) Watched(n interface{}) (*watched, int64, error) {
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kevn, ok := n.(syscall.Kevent_t)
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if !ok {
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panic(fmt.Sprintf("kq: type should be syscall.Kevent_t, %T instead", kevn))
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}
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if _, ok = k.idLkp[int(kevn.Ident)]; !ok {
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return nil, 0, errNotWatched
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}
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return k.idLkp[int(kevn.Ident)], int64(kevn.Fflags), nil
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}
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// IsStop implements trigger.
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func (k *kq) IsStop(n interface{}, err error) bool {
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return int(inter2kq(n).Ident) == k.pipefds[0]
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}
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func init() {
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encode = func(e Event, dir bool) (o int64) {
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// Create event is not supported by kqueue. Instead NoteWrite event will
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// be registered for a directory. If this event will be reported on dir
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// which is to be monitored for Create, dir will be rescanned
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// and Create events will be generated and returned for new files.
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// In case of files, if not requested NoteRename event is reported,
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// it will be ignored.
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o = int64(e &^ Create)
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if (e&Create != 0 && dir) || e&Write != 0 {
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o = (o &^ int64(Write)) | int64(NoteWrite)
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}
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if e&Rename != 0 {
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o = (o &^ int64(Rename)) | int64(NoteRename)
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}
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if e&Remove != 0 {
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o = (o &^ int64(Remove)) | int64(NoteDelete)
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}
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return
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}
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nat2not = map[Event]Event{
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NoteWrite: Write,
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NoteRename: Rename,
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NoteDelete: Remove,
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NoteExtend: Event(0),
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NoteAttrib: Event(0),
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NoteRevoke: Event(0),
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NoteLink: Event(0),
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}
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not2nat = map[Event]Event{
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Write: NoteWrite,
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Rename: NoteRename,
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Remove: NoteDelete,
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}
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}
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