syncthing/vendor/github.com/zillode/notify/tree_recursive.go

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// 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.
package notify
import "sync"
// watchAdd TODO(rjeczalik)
func watchAdd(nd node, c chan<- EventInfo, e Event) eventDiff {
diff := nd.Watch.Add(c, e)
if wp := nd.Child[""].Watch; len(wp) != 0 {
e = wp.Total()
diff[0] |= e
diff[1] |= e
if diff[0] == diff[1] {
return none
}
}
return diff
}
// watchAddInactive TODO(rjeczalik)
func watchAddInactive(nd node, c chan<- EventInfo, e Event) eventDiff {
wp := nd.Child[""].Watch
if wp == nil {
wp = make(watchpoint)
nd.Child[""] = node{Watch: wp}
}
diff := wp.Add(c, e)
e = nd.Watch.Total()
diff[0] |= e
diff[1] |= e
if diff[0] == diff[1] {
return none
}
return diff
}
// watchCopy TODO(rjeczalik)
func watchCopy(src, dst node) {
for c, e := range src.Watch {
if c == nil {
continue
}
watchAddInactive(dst, c, e)
}
if wpsrc := src.Child[""].Watch; len(wpsrc) != 0 {
wpdst := dst.Child[""].Watch
for c, e := range wpsrc {
if c == nil {
continue
}
wpdst.Add(c, e)
}
}
}
// watchDel TODO(rjeczalik)
func watchDel(nd node, c chan<- EventInfo, e Event) eventDiff {
diff := nd.Watch.Del(c, e)
if wp := nd.Child[""].Watch; len(wp) != 0 {
diffInactive := wp.Del(c, e)
e = wp.Total()
// TODO(rjeczalik): add e if e != all?
diff[0] |= diffInactive[0] | e
diff[1] |= diffInactive[1] | e
if diff[0] == diff[1] {
return none
}
}
return diff
}
// watchTotal TODO(rjeczalik)
func watchTotal(nd node) Event {
e := nd.Watch.Total()
if wp := nd.Child[""].Watch; len(wp) != 0 {
e |= wp.Total()
}
return e
}
// watchIsRecursive TODO(rjeczalik)
func watchIsRecursive(nd node) bool {
ok := nd.Watch.IsRecursive()
// TODO(rjeczalik): add a test for len(wp) != 0 change the condition.
if wp := nd.Child[""].Watch; len(wp) != 0 {
// If a watchpoint holds inactive watchpoints, it means it's a parent
// one, which is recursive by nature even though it may be not recursive
// itself.
ok = true
}
return ok
}
// recursiveTree TODO(rjeczalik)
type recursiveTree struct {
rw sync.RWMutex // protects root
root root
// TODO(rjeczalik): merge watcher + recursiveWatcher after #5 and #6
w interface {
watcher
recursiveWatcher
}
c chan EventInfo
}
// newRecursiveTree TODO(rjeczalik)
func newRecursiveTree(w recursiveWatcher, c chan EventInfo) *recursiveTree {
t := &recursiveTree{
root: root{nd: newnode("")},
w: struct {
watcher
recursiveWatcher
}{w.(watcher), w},
c: c,
}
go t.dispatch()
return t
}
// dispatch TODO(rjeczalik)
func (t *recursiveTree) dispatch() {
for ei := range t.c {
dbgprintf("dispatching %v on %q", ei.Event(), ei.Path())
go func(ei EventInfo) {
nd, ok := node{}, false
dir, base := split(ei.Path())
fn := func(it node, isbase bool) error {
if isbase {
nd = it
} else {
it.Watch.Dispatch(ei, recursive)
}
return nil
}
t.rw.RLock()
defer t.rw.RUnlock()
// Notify recursive watchpoints found on the path.
if err := t.root.WalkPath(dir, fn); err != nil {
dbgprint("dispatch did not reach leaf:", err)
return
}
// Notify parent watchpoint.
nd.Watch.Dispatch(ei, 0)
// If leaf watchpoint exists, notify it.
if nd, ok = nd.Child[base]; ok {
nd.Watch.Dispatch(ei, 0)
}
}(ei)
}
}
// Watch TODO(rjeczalik)
func (t *recursiveTree) Watch(path string, c chan<- EventInfo,
doNotWatch func(string) bool, events ...Event) error {
if c == nil {
panic("notify: Watch using nil channel")
}
// Expanding with empty event set is a nop.
if len(events) == 0 {
return nil
}
path, isrec, err := cleanpath(path)
if err != nil {
return err
}
eventset := joinevents(events)
if isrec {
eventset |= recursive
}
t.rw.Lock()
defer t.rw.Unlock()
// case 1: cur is a child
//
// Look for parent watch which already covers the given path.
parent := node{}
self := false
err = t.root.WalkPath(path, func(nd node, isbase bool) error {
if watchTotal(nd) != 0 {
parent = nd
self = isbase
return errSkip
}
return nil
})
cur := t.root.Add(path) // add after the walk, so it's less to traverse
if err == nil && parent.Watch != nil {
// Parent watch found. Register inactive watchpoint, so we have enough
// information to shrink the eventset on eventual Stop.
// return t.resetwatchpoint(parent, parent, c, eventset|inactive)
var diff eventDiff
if self {
diff = watchAdd(cur, c, eventset)
} else {
diff = watchAddInactive(parent, c, eventset)
}
switch {
case diff == none:
// the parent watchpoint already covers requested subtree with its
// eventset
case diff[0] == 0:
// TODO(rjeczalik): cleanup this panic after implementation is stable
panic("dangling watchpoint: " + parent.Name)
default:
if isrec || watchIsRecursive(parent) {
err = t.w.RecursiveRewatch(parent.Name, parent.Name, diff[0], diff[1])
} else {
err = t.w.Rewatch(parent.Name, diff[0], diff[1])
}
if err != nil {
watchDel(parent, c, diff.Event())
return err
}
watchAdd(cur, c, eventset)
// TODO(rjeczalik): account top-most path for c
return nil
}
if !self {
watchAdd(cur, c, eventset)
}
return nil
}
// case 2: cur is new parent
//
// Look for children nodes, unwatch n-1 of them and rewatch the last one.
var children []node
fn := func(nd node) error {
if len(nd.Watch) == 0 {
return nil
}
children = append(children, nd)
return errSkip
}
switch must(cur.Walk(fn)); len(children) {
case 0:
// no child watches, cur holds a new watch
case 1:
watchAdd(cur, c, eventset) // TODO(rjeczalik): update cache c subtree root?
watchCopy(children[0], cur)
err = t.w.RecursiveRewatch(children[0].Name, cur.Name, watchTotal(children[0]),
watchTotal(cur))
if err != nil {
// Clean inactive watchpoint. The c chan did not exist before.
cur.Child[""] = node{}
delete(cur.Watch, c)
return err
}
return nil
default:
watchAdd(cur, c, eventset)
// Copy children inactive watchpoints to the new parent.
for _, nd := range children {
watchCopy(nd, cur)
}
// Watch parent subtree.
if err = t.w.RecursiveWatch(cur.Name, watchTotal(cur)); err != nil {
// Clean inactive watchpoint. The c chan did not exist before.
cur.Child[""] = node{}
delete(cur.Watch, c)
return err
}
// Unwatch children subtrees.
var e error
for _, nd := range children {
if watchIsRecursive(nd) {
e = t.w.RecursiveUnwatch(nd.Name)
} else {
e = t.w.Unwatch(nd.Name)
}
if e != nil {
err = nonil(err, e)
// TODO(rjeczalik): child is still watched, warn all its watchpoints
// about possible duplicate events via Error event
}
}
return err
}
// case 3: cur is new, alone node
switch diff := watchAdd(cur, c, eventset); {
case diff == none:
// TODO(rjeczalik): cleanup this panic after implementation is stable
panic("watch requested but no parent watchpoint found: " + cur.Name)
case diff[0] == 0:
if isrec {
err = t.w.RecursiveWatch(cur.Name, diff[1])
} else {
err = t.w.Watch(cur.Name, diff[1])
}
if err != nil {
watchDel(cur, c, diff.Event())
return err
}
default:
// TODO(rjeczalik): cleanup this panic after implementation is stable
panic("watch requested but no parent watchpoint found: " + cur.Name)
}
return nil
}
// Stop TODO(rjeczalik)
//
// TODO(rjeczalik): Split parent watchpoint - transfer watches to children
// if parent is no longer needed. This carries a risk that underlying
// watcher calls could fail - reconsider if it's worth the effort.
func (t *recursiveTree) Stop(c chan<- EventInfo) {
var err error
fn := func(nd node) (e error) {
diff := watchDel(nd, c, all)
switch {
case diff == none && watchTotal(nd) == 0:
// TODO(rjeczalik): There's no watchpoints deeper in the tree,
// probably we should remove the nodes as well.
return nil
case diff == none:
// Removing c from nd does not require shrinking its eventset.
case diff[1] == 0:
if watchIsRecursive(nd) {
e = t.w.RecursiveUnwatch(nd.Name)
} else {
e = t.w.Unwatch(nd.Name)
}
default:
if watchIsRecursive(nd) {
e = t.w.RecursiveRewatch(nd.Name, nd.Name, diff[0], diff[1])
} else {
e = t.w.Rewatch(nd.Name, diff[0], diff[1])
}
}
fn := func(nd node) error {
watchDel(nd, c, all)
return nil
}
err = nonil(err, e, nd.Walk(fn))
// TODO(rjeczalik): if e != nil store dummy chan in nd.Watch just to
// retry un/rewatching next time and/or let the user handle the failure
// vie Error event?
return errSkip
}
t.rw.Lock()
e := t.root.Walk("", fn) // TODO(rjeczalik): use max root per c
t.rw.Unlock()
if e != nil {
err = nonil(err, e)
}
dbgprintf("Stop(%p) error: %v\n", c, err)
}
// Close TODO(rjeczalik)
func (t *recursiveTree) Close() error {
err := t.w.Close()
close(t.c)
return err
}