mirror of https://github.com/status-im/op-geth.git
293 lines
7.1 KiB
Go
293 lines
7.1 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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package notify
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import "sync"
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// nonrecursiveTree TODO(rjeczalik)
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type nonrecursiveTree struct {
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rw sync.RWMutex // protects root
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root root
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w watcher
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c chan EventInfo
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rec chan EventInfo
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}
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// newNonrecursiveTree TODO(rjeczalik)
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func newNonrecursiveTree(w watcher, c, rec chan EventInfo) *nonrecursiveTree {
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if rec == nil {
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rec = make(chan EventInfo, buffer)
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}
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t := &nonrecursiveTree{
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root: root{nd: newnode("")},
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w: w,
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c: c,
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rec: rec,
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}
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go t.dispatch(c)
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go t.internal(rec)
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return t
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}
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// dispatch TODO(rjeczalik)
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func (t *nonrecursiveTree) dispatch(c <-chan EventInfo) {
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for ei := range c {
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dbgprintf("dispatching %v on %q", ei.Event(), ei.Path())
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go func(ei EventInfo) {
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var nd node
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var isrec bool
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dir, base := split(ei.Path())
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fn := func(it node, isbase bool) error {
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isrec = isrec || it.Watch.IsRecursive()
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if isbase {
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nd = it
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} else {
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it.Watch.Dispatch(ei, recursive)
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}
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return nil
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}
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t.rw.RLock()
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// Notify recursive watchpoints found on the path.
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if err := t.root.WalkPath(dir, fn); err != nil {
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dbgprint("dispatch did not reach leaf:", err)
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t.rw.RUnlock()
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return
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}
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// Notify parent watchpoint.
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nd.Watch.Dispatch(ei, 0)
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isrec = isrec || nd.Watch.IsRecursive()
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// If leaf watchpoint exists, notify it.
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if nd, ok := nd.Child[base]; ok {
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isrec = isrec || nd.Watch.IsRecursive()
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nd.Watch.Dispatch(ei, 0)
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}
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t.rw.RUnlock()
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// If the event describes newly leaf directory created within
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if !isrec || ei.Event() != Create {
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return
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}
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if ok, err := ei.(isDirer).isDir(); !ok || err != nil {
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return
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}
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t.rec <- ei
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}(ei)
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}
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}
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// internal TODO(rjeczalik)
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func (t *nonrecursiveTree) internal(rec <-chan EventInfo) {
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for ei := range rec {
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var nd node
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var eset = internal
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t.rw.Lock()
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t.root.WalkPath(ei.Path(), func(it node, _ bool) error {
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if e := it.Watch[t.rec]; e != 0 && e > eset {
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eset = e
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}
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nd = it
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return nil
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})
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if eset == internal {
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t.rw.Unlock()
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continue
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}
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err := nd.Add(ei.Path()).AddDir(t.recFunc(eset))
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t.rw.Unlock()
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if err != nil {
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dbgprintf("internal(%p) error: %v", rec, err)
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}
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}
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}
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// watchAdd TODO(rjeczalik)
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func (t *nonrecursiveTree) watchAdd(nd node, c chan<- EventInfo, e Event) eventDiff {
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if e&recursive != 0 {
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diff := nd.Watch.Add(t.rec, e|Create|omit)
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nd.Watch.Add(c, e)
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return diff
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}
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return nd.Watch.Add(c, e)
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}
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// watchDelMin TODO(rjeczalik)
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func (t *nonrecursiveTree) watchDelMin(min Event, nd node, c chan<- EventInfo, e Event) eventDiff {
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old, ok := nd.Watch[t.rec]
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if ok {
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nd.Watch[t.rec] = min
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}
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diff := nd.Watch.Del(c, e)
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if ok {
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switch old &^= diff[0] &^ diff[1]; {
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case old|internal == internal:
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delete(nd.Watch, t.rec)
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if set, ok := nd.Watch[nil]; ok && len(nd.Watch) == 1 && set == 0 {
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delete(nd.Watch, nil)
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}
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default:
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nd.Watch.Add(t.rec, old|Create)
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switch {
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case diff == none:
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case diff[1]|Create == diff[0]:
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diff = none
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default:
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diff[1] |= Create
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}
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}
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}
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return diff
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}
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// watchDel TODO(rjeczalik)
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func (t *nonrecursiveTree) watchDel(nd node, c chan<- EventInfo, e Event) eventDiff {
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return t.watchDelMin(0, nd, c, e)
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}
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// Watch TODO(rjeczalik)
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func (t *nonrecursiveTree) Watch(path string, c chan<- EventInfo, events ...Event) error {
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if c == nil {
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panic("notify: Watch using nil channel")
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}
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// Expanding with empty event set is a nop.
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if len(events) == 0 {
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return nil
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}
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path, isrec, err := cleanpath(path)
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if err != nil {
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return err
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}
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eset := joinevents(events)
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t.rw.Lock()
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defer t.rw.Unlock()
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nd := t.root.Add(path)
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if isrec {
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return t.watchrec(nd, c, eset|recursive)
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}
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return t.watch(nd, c, eset)
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}
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func (t *nonrecursiveTree) watch(nd node, c chan<- EventInfo, e Event) (err error) {
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diff := nd.Watch.Add(c, e)
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switch {
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case diff == none:
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return nil
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case diff[1] == 0:
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// TODO(rjeczalik): cleanup this panic after implementation is stable
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panic("eset is empty: " + nd.Name)
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case diff[0] == 0:
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err = t.w.Watch(nd.Name, diff[1])
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default:
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err = t.w.Rewatch(nd.Name, diff[0], diff[1])
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}
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if err != nil {
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nd.Watch.Del(c, diff.Event())
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return err
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}
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return nil
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}
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func (t *nonrecursiveTree) recFunc(e Event) walkFunc {
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return func(nd node) error {
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switch diff := nd.Watch.Add(t.rec, e|omit|Create); {
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case diff == none:
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case diff[1] == 0:
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// TODO(rjeczalik): cleanup this panic after implementation is stable
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panic("eset is empty: " + nd.Name)
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case diff[0] == 0:
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t.w.Watch(nd.Name, diff[1])
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default:
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t.w.Rewatch(nd.Name, diff[0], diff[1])
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}
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return nil
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}
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}
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func (t *nonrecursiveTree) watchrec(nd node, c chan<- EventInfo, e Event) error {
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var traverse func(walkFunc) error
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// Non-recursive tree listens on Create event for every recursive
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// watchpoint in order to automagically set a watch for every
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// created directory.
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switch diff := nd.Watch.dryAdd(t.rec, e|Create); {
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case diff == none:
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t.watchAdd(nd, c, e)
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nd.Watch.Add(t.rec, e|omit|Create)
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return nil
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case diff[1] == 0:
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// TODO(rjeczalik): cleanup this panic after implementation is stable
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panic("eset is empty: " + nd.Name)
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case diff[0] == 0:
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// TODO(rjeczalik): BFS into directories and skip subtree as soon as first
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// recursive watchpoint is encountered.
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traverse = nd.AddDir
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default:
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traverse = nd.Walk
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}
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// TODO(rjeczalik): account every path that failed to be (re)watched
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// and retry.
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if err := traverse(t.recFunc(e)); err != nil {
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return err
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}
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t.watchAdd(nd, c, e)
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return nil
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}
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type walkWatchpointFunc func(Event, node) error
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func (t *nonrecursiveTree) walkWatchpoint(nd node, fn walkWatchpointFunc) error {
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type minode struct {
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min Event
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nd node
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}
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mnd := minode{nd: nd}
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stack := []minode{mnd}
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Traverse:
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for n := len(stack); n != 0; n = len(stack) {
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mnd, stack = stack[n-1], stack[:n-1]
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// There must be no recursive watchpoints if the node has no watchpoints
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// itself (every node in subtree rooted at recursive watchpoints must
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// have at least nil (total) and t.rec watchpoints).
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if len(mnd.nd.Watch) != 0 {
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switch err := fn(mnd.min, mnd.nd); err {
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case nil:
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case errSkip:
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continue Traverse
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default:
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return err
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}
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}
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for _, nd := range mnd.nd.Child {
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stack = append(stack, minode{mnd.nd.Watch[t.rec], nd})
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}
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}
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return nil
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}
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// Stop TODO(rjeczalik)
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func (t *nonrecursiveTree) Stop(c chan<- EventInfo) {
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fn := func(min Event, nd node) error {
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// TODO(rjeczalik): aggregate watcher errors and retry; in worst case
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// forward to the user.
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switch diff := t.watchDelMin(min, nd, c, all); {
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case diff == none:
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return nil
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case diff[1] == 0:
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t.w.Unwatch(nd.Name)
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default:
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t.w.Rewatch(nd.Name, diff[0], diff[1])
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}
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return nil
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}
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t.rw.Lock()
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err := t.walkWatchpoint(t.root.nd, fn) // TODO(rjeczalik): store max root per c
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t.rw.Unlock()
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dbgprintf("Stop(%p) error: %v\n", c, err)
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}
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// Close TODO(rjeczalik)
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func (t *nonrecursiveTree) Close() error {
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err := t.w.Close()
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close(t.c)
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return err
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}
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