op-geth/vendor/github.com/rjeczalik/notify/watcher_trigger.go

439 lines
10 KiB
Go

// Copyright (c) 2014-2015 The Notify Authors. All rights reserved.
// Use of this source code is governed by the MIT license that can be
// found in the LICENSE file.
// +build darwin,kqueue dragonfly freebsd netbsd openbsd solaris
// watcher_trigger is used for FEN and kqueue which behave similarly:
// only files and dirs can be watched directly, but not files inside dirs.
// As a result Create events have to be generated by implementation when
// after Write event is returned for watched dir, it is rescanned and Create
// event is returned for new files and these are automatically added
// to watchlist. In case of removal of watched directory, native system returns
// events for all files, but for Rename, they also need to be generated.
// As a result native system works as something like trigger for rescan,
// but contains additional data about dir in which changes occurred. For files
// detailed data is returned.
// Usage of watcher_trigger requires:
// - trigger implementation,
// - encode func,
// - not2nat, nat2not maps.
// Required manual operations on filesystem can lead to loss of precision.
package notify
import (
"os"
"path/filepath"
"strings"
"sync"
"syscall"
)
// trigger is to be implemented by platform implementation like FEN or kqueue.
type trigger interface {
// Close closes watcher's main native file descriptor.
Close() error
// Stop waiting for new events.
Stop() error
// Create new instance of watched.
NewWatched(string, os.FileInfo) (*watched, error)
// Record internally new *watched instance.
Record(*watched)
// Del removes internal copy of *watched instance.
Del(*watched)
// Watched returns *watched instance and native events for native type.
Watched(interface{}) (*watched, int64, error)
// Init initializes native watcher call.
Init() error
// Watch starts watching provided file/dir.
Watch(os.FileInfo, *watched, int64) error
// Unwatch stops watching provided file/dir.
Unwatch(*watched) error
// Wait for new events.
Wait() (interface{}, error)
// IsStop checks if Wait finished because of request watcher's stop.
IsStop(n interface{}, err error) bool
}
// encode Event to native representation. Implementation is to be provided by
// platform specific implementation.
var encode func(Event) int64
var (
// nat2not matches native events to notify's ones. To be initialized by
// platform dependent implementation.
nat2not map[Event]Event
// not2nat matches notify's events to native ones. To be initialized by
// platform dependent implementation.
not2nat map[Event]Event
)
// trg is a main structure implementing watcher.
type trg struct {
sync.Mutex
// s is a channel used to stop monitoring.
s chan struct{}
// c is a channel used to pass events further.
c chan<- EventInfo
// pthLkp is a data structure mapping file names with data about watching
// represented by them files/directories.
pthLkp map[string]*watched
// t is a platform dependent implementation of trigger.
t trigger
}
// newWatcher returns new watcher's implementation.
func newWatcher(c chan<- EventInfo) watcher {
t := &trg{
s: make(chan struct{}, 1),
pthLkp: make(map[string]*watched, 0),
c: c,
}
t.t = newTrigger(t.pthLkp)
if err := t.t.Init(); err != nil {
panic(err)
}
go t.monitor()
return t
}
// Close implements watcher.
func (t *trg) Close() (err error) {
t.Lock()
if err = t.t.Stop(); err != nil {
t.Unlock()
return
}
<-t.s
var e error
for _, w := range t.pthLkp {
if e = t.unwatch(w.p, w.fi); e != nil {
dbgprintf("trg: unwatch %q failed: %q\n", w.p, e)
err = nonil(err, e)
}
}
if e = t.t.Close(); e != nil {
dbgprintf("trg: closing native watch failed: %q\n", e)
err = nonil(err, e)
}
t.Unlock()
return
}
// send reported events one by one through chan.
func (t *trg) send(evn []event) {
for i := range evn {
t.c <- &evn[i]
}
}
// singlewatch starts to watch given p file/directory.
func (t *trg) singlewatch(p string, e Event, direct mode, fi os.FileInfo) (err error) {
w, ok := t.pthLkp[p]
if !ok {
if w, err = t.t.NewWatched(p, fi); err != nil {
return
}
}
switch direct {
case dir:
w.eDir |= e
case ndir:
w.eNonDir |= e
case both:
w.eDir |= e
w.eNonDir |= e
}
var ee int64
// Native Write event is added to wait for Create events (Write event on
// directory triggers it's rescan).
if e&Create != 0 && fi.IsDir() {
ee = int64(not2nat[Write])
}
if err = t.t.Watch(fi, w, encode(w.eDir|w.eNonDir)|ee); err != nil {
return
}
if !ok {
t.t.Record(w)
return nil
}
return errAlreadyWatched
}
// decode converts event received from native to notify.Event
// representation taking into account requested events (w).
func decode(o int64, w Event) (e Event) {
for f, n := range nat2not {
if o&int64(f) != 0 {
if w&f != 0 {
e |= f
}
if w&n != 0 {
e |= n
}
}
}
return
}
func (t *trg) watch(p string, e Event, fi os.FileInfo) error {
if err := t.singlewatch(p, e, dir, fi); err != nil {
if err != errAlreadyWatched {
return nil
}
}
if fi.IsDir() {
err := t.walk(p, func(fi os.FileInfo) (err error) {
if err = t.singlewatch(filepath.Join(p, fi.Name()), e, ndir,
fi); err != nil {
if err != errAlreadyWatched {
return
}
}
return nil
})
if err != nil {
return err
}
}
return nil
}
// walk runs f func on each file/dir from p directory.
func (t *trg) walk(p string, fn func(os.FileInfo) error) error {
fp, err := os.Open(p)
if err != nil {
return err
}
ls, err := fp.Readdir(0)
fp.Close()
if err != nil {
return err
}
for i := range ls {
if err := fn(ls[i]); err != nil {
return err
}
}
return nil
}
func (t *trg) unwatch(p string, fi os.FileInfo) error {
if fi.IsDir() {
err := t.walk(p, func(fi os.FileInfo) error {
err := t.singleunwatch(filepath.Join(p, fi.Name()), ndir)
if err != errNotWatched {
return err
}
return nil
})
if err != nil {
return err
}
}
return t.singleunwatch(p, dir)
}
// Watch implements Watcher interface.
func (t *trg) Watch(p string, e Event) error {
fi, err := os.Stat(p)
if err != nil {
return err
}
t.Lock()
err = t.watch(p, e, fi)
t.Unlock()
return err
}
// Unwatch implements Watcher interface.
func (t *trg) Unwatch(p string) error {
fi, err := os.Stat(p)
if err != nil {
return err
}
t.Lock()
err = t.unwatch(p, fi)
t.Unlock()
return err
}
// Rewatch implements Watcher interface.
//
// TODO(rjeczalik): This is a naive hack. Rewrite might help.
func (t *trg) Rewatch(p string, _, e Event) error {
fi, err := os.Stat(p)
if err != nil {
return err
}
t.Lock()
if err = t.unwatch(p, fi); err == nil {
// TODO(rjeczalik): If watch fails then we leave trigger in inconsistent
// state. Handle? Panic? Native version of rewatch?
err = t.watch(p, e, fi)
}
t.Unlock()
return nil
}
func (*trg) file(w *watched, n interface{}, e Event) (evn []event) {
evn = append(evn, event{w.p, e, w.fi.IsDir(), n})
return
}
func (t *trg) dir(w *watched, n interface{}, e, ge Event) (evn []event) {
// If it's dir and delete we have to send it and continue, because
// other processing relies on opening (in this case not existing) dir.
// Events for contents of this dir are reported by native impl.
// However events for rename must be generated for all monitored files
// inside of moved directory, because native impl does not report it independently
// for each file descriptor being moved in result of move action on
// parent dirLiczba dostępnych dni urlopowych: 0ectory.
if (ge & (not2nat[Rename] | not2nat[Remove])) != 0 {
// Write is reported also for Remove on directory. Because of that
// we have to filter it out explicitly.
evn = append(evn, event{w.p, e & ^Write & ^not2nat[Write], true, n})
if ge&not2nat[Rename] != 0 {
for p := range t.pthLkp {
if strings.HasPrefix(p, w.p+string(os.PathSeparator)) {
if err := t.singleunwatch(p, both); err != nil && err != errNotWatched &&
!os.IsNotExist(err) {
dbgprintf("trg: failed stop watching moved file (%q): %q\n",
p, err)
}
if (w.eDir|w.eNonDir)&(not2nat[Rename]|Rename) != 0 {
evn = append(evn, event{
p, (w.eDir | w.eNonDir) & e &^ Write &^ not2nat[Write],
w.fi.IsDir(), nil,
})
}
}
}
}
t.t.Del(w)
return
}
if (ge & not2nat[Write]) != 0 {
switch err := t.walk(w.p, func(fi os.FileInfo) error {
p := filepath.Join(w.p, fi.Name())
switch err := t.singlewatch(p, w.eDir, ndir, fi); {
case os.IsNotExist(err) && ((w.eDir & Remove) != 0):
evn = append(evn, event{p, Remove, fi.IsDir(), n})
case err == errAlreadyWatched:
case err != nil:
dbgprintf("trg: watching %q failed: %q", p, err)
case (w.eDir & Create) != 0:
evn = append(evn, event{p, Create, fi.IsDir(), n})
default:
}
return nil
}); {
case os.IsNotExist(err):
return
case err != nil:
dbgprintf("trg: dir processing failed: %q", err)
default:
}
}
return
}
type mode uint
const (
dir mode = iota
ndir
both
)
// unwatch stops watching p file/directory.
func (t *trg) singleunwatch(p string, direct mode) error {
w, ok := t.pthLkp[p]
if !ok {
return errNotWatched
}
switch direct {
case dir:
w.eDir = 0
case ndir:
w.eNonDir = 0
case both:
w.eDir, w.eNonDir = 0, 0
}
if err := t.t.Unwatch(w); err != nil {
return err
}
if w.eNonDir|w.eDir != 0 {
mod := dir
if w.eNonDir == 0 {
mod = ndir
}
if err := t.singlewatch(p, w.eNonDir|w.eDir, mod,
w.fi); err != nil && err != errAlreadyWatched {
return err
}
} else {
t.t.Del(w)
}
return nil
}
func (t *trg) monitor() {
var (
n interface{}
err error
)
for {
switch n, err = t.t.Wait(); {
case err == syscall.EINTR:
case t.t.IsStop(n, err):
t.s <- struct{}{}
return
case err != nil:
dbgprintf("trg: failed to read events: %q\n", err)
default:
t.send(t.process(n))
}
}
}
// process event returned by port_get call.
func (t *trg) process(n interface{}) (evn []event) {
t.Lock()
w, ge, err := t.t.Watched(n)
if err != nil {
t.Unlock()
dbgprintf("trg: %v event lookup failed: %q", Event(ge), err)
return
}
e := decode(ge, w.eDir|w.eNonDir)
if ge&int64(not2nat[Remove]|not2nat[Rename]) == 0 {
switch fi, err := os.Stat(w.p); {
case err != nil:
default:
if err = t.t.Watch(fi, w, (encode(w.eDir | w.eNonDir))); err != nil {
dbgprintf("trg: %q is no longer watched: %q", w.p, err)
t.t.Del(w)
}
}
}
if e == Event(0) {
t.Unlock()
return
}
if w.fi.IsDir() {
evn = append(evn, t.dir(w, n, e, Event(ge))...)
} else {
evn = append(evn, t.file(w, n, e)...)
}
if Event(ge)&(not2nat[Remove]|not2nat[Rename]) != 0 {
t.t.Del(w)
}
t.Unlock()
return
}