mirror of https://github.com/status-im/op-geth.git
406 lines
12 KiB
Go
406 lines
12 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 linux
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package notify
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import (
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"bytes"
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"errors"
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"path/filepath"
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"runtime"
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"sync"
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"sync/atomic"
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"unsafe"
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"golang.org/x/sys/unix"
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)
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// eventBufferSize defines the size of the buffer given to read(2) function. One
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// should not depend on this value, since it was arbitrary chosen and may be
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// changed in the future.
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const eventBufferSize = 64 * (unix.SizeofInotifyEvent + unix.PathMax + 1)
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// consumersCount defines the number of consumers in producer-consumer based
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// implementation. Each consumer is run in a separate goroutine and has read
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// access to watched files map.
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const consumersCount = 2
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const invalidDescriptor = -1
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// watched is a pair of file path and inotify mask used as a value in
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// watched files map.
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type watched struct {
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path string
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mask uint32
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}
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// inotify implements Watcher interface.
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type inotify struct {
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sync.RWMutex // protects inotify.m map
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m map[int32]*watched // watch descriptor to watched object
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fd int32 // inotify file descriptor
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pipefd []int // pipe's read and write descriptors
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epfd int // epoll descriptor
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epes []unix.EpollEvent // epoll events
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buffer [eventBufferSize]byte // inotify event buffer
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wg sync.WaitGroup // wait group used to close main loop
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c chan<- EventInfo // event dispatcher channel
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}
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// NewWatcher creates new non-recursive inotify backed by inotify.
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func newWatcher(c chan<- EventInfo) watcher {
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i := &inotify{
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m: make(map[int32]*watched),
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fd: invalidDescriptor,
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pipefd: []int{invalidDescriptor, invalidDescriptor},
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epfd: invalidDescriptor,
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epes: make([]unix.EpollEvent, 0),
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c: c,
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}
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runtime.SetFinalizer(i, func(i *inotify) {
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i.epollclose()
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if i.fd != invalidDescriptor {
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unix.Close(int(i.fd))
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}
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})
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return i
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}
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// Watch implements notify.watcher interface.
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func (i *inotify) Watch(path string, e Event) error {
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return i.watch(path, e)
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}
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// Rewatch implements notify.watcher interface.
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func (i *inotify) Rewatch(path string, _, newevent Event) error {
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return i.watch(path, newevent)
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}
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// watch adds a new watcher to the set of watched objects or modifies the existing
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// one. If called for the first time, this function initializes inotify filesystem
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// monitor and starts producer-consumers goroutines.
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func (i *inotify) watch(path string, e Event) (err error) {
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if e&^(All|Event(unix.IN_ALL_EVENTS)) != 0 {
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return errors.New("notify: unknown event")
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}
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if err = i.lazyinit(); err != nil {
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return
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}
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iwd, err := unix.InotifyAddWatch(int(i.fd), path, encode(e))
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if err != nil {
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return
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}
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i.RLock()
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wd := i.m[int32(iwd)]
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i.RUnlock()
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if wd == nil {
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i.Lock()
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if i.m[int32(iwd)] == nil {
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i.m[int32(iwd)] = &watched{path: path, mask: uint32(e)}
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}
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i.Unlock()
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} else {
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i.Lock()
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wd.mask = uint32(e)
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i.Unlock()
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}
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return nil
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}
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// lazyinit sets up all required file descriptors and starts 1+consumersCount
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// goroutines. The producer goroutine blocks until file-system notifications
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// occur. Then, all events are read from system buffer and sent to consumer
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// goroutines which construct valid notify events. This method uses
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// Double-Checked Locking optimization.
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func (i *inotify) lazyinit() error {
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if atomic.LoadInt32(&i.fd) == invalidDescriptor {
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i.Lock()
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defer i.Unlock()
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if atomic.LoadInt32(&i.fd) == invalidDescriptor {
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fd, err := unix.InotifyInit1(unix.IN_CLOEXEC)
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if err != nil {
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return err
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}
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i.fd = int32(fd)
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if err = i.epollinit(); err != nil {
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_, _ = i.epollclose(), unix.Close(int(fd)) // Ignore errors.
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i.fd = invalidDescriptor
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return err
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}
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esch := make(chan []*event)
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go i.loop(esch)
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i.wg.Add(consumersCount)
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for n := 0; n < consumersCount; n++ {
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go i.send(esch)
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}
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}
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}
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return nil
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}
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// epollinit opens an epoll file descriptor and creates a pipe which will be
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// used to wake up the epoll_wait(2) function. Then, file descriptor associated
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// with inotify event queue and the read end of the pipe are added to epoll set.
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// Note that `fd` member must be set before this function is called.
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func (i *inotify) epollinit() (err error) {
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if i.epfd, err = unix.EpollCreate1(0); err != nil {
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return
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}
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if err = unix.Pipe(i.pipefd); err != nil {
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return
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}
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i.epes = []unix.EpollEvent{
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{Events: unix.EPOLLIN, Fd: i.fd},
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{Events: unix.EPOLLIN, Fd: int32(i.pipefd[0])},
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}
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if err = unix.EpollCtl(i.epfd, unix.EPOLL_CTL_ADD, int(i.fd), &i.epes[0]); err != nil {
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return
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}
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return unix.EpollCtl(i.epfd, unix.EPOLL_CTL_ADD, i.pipefd[0], &i.epes[1])
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}
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// epollclose closes the file descriptor created by the call to epoll_create(2)
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// and two file descriptors opened by pipe(2) function.
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func (i *inotify) epollclose() (err error) {
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if i.epfd != invalidDescriptor {
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if err = unix.Close(i.epfd); err == nil {
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i.epfd = invalidDescriptor
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}
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}
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for n, fd := range i.pipefd {
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if fd != invalidDescriptor {
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switch e := unix.Close(fd); {
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case e != nil && err == nil:
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err = e
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case e == nil:
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i.pipefd[n] = invalidDescriptor
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}
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}
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}
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return
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}
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// loop blocks until either inotify or pipe file descriptor is ready for I/O.
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// All read operations triggered by filesystem notifications are forwarded to
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// one of the event's consumers. If pipe fd became ready, loop function closes
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// all file descriptors opened by lazyinit method and returns afterwards.
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func (i *inotify) loop(esch chan<- []*event) {
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epes := make([]unix.EpollEvent, 1)
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fd := atomic.LoadInt32(&i.fd)
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for {
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switch _, err := unix.EpollWait(i.epfd, epes, -1); err {
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case nil:
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switch epes[0].Fd {
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case fd:
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esch <- i.read()
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epes[0].Fd = 0
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case int32(i.pipefd[0]):
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i.Lock()
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defer i.Unlock()
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if err = unix.Close(int(fd)); err != nil && err != unix.EINTR {
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panic("notify: close(2) error " + err.Error())
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}
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atomic.StoreInt32(&i.fd, invalidDescriptor)
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if err = i.epollclose(); err != nil && err != unix.EINTR {
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panic("notify: epollclose error " + err.Error())
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}
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close(esch)
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return
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}
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case unix.EINTR:
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continue
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default: // We should never reach this line.
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panic("notify: epoll_wait(2) error " + err.Error())
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}
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}
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}
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// read reads events from an inotify file descriptor. It does not handle errors
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// returned from read(2) function since they are not critical to watcher logic.
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func (i *inotify) read() (es []*event) {
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n, err := unix.Read(int(i.fd), i.buffer[:])
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if err != nil || n < unix.SizeofInotifyEvent {
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return
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}
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var sys *unix.InotifyEvent
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nmin := n - unix.SizeofInotifyEvent
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for pos, path := 0, ""; pos <= nmin; {
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sys = (*unix.InotifyEvent)(unsafe.Pointer(&i.buffer[pos]))
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pos += unix.SizeofInotifyEvent
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if path = ""; sys.Len > 0 {
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endpos := pos + int(sys.Len)
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path = string(bytes.TrimRight(i.buffer[pos:endpos], "\x00"))
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pos = endpos
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}
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es = append(es, &event{
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sys: unix.InotifyEvent{
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Wd: sys.Wd,
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Mask: sys.Mask,
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Cookie: sys.Cookie,
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},
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path: path,
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})
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}
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return
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}
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// send is a consumer function which sends events to event dispatcher channel.
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// It is run in a separate goroutine in order to not block loop method when
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// possibly expensive write operations are performed on inotify map.
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func (i *inotify) send(esch <-chan []*event) {
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for es := range esch {
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for _, e := range i.transform(es) {
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if e != nil {
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i.c <- e
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}
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}
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}
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i.wg.Done()
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}
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// transform prepares events read from inotify file descriptor for sending to
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// user. It removes invalid events and these which are no longer present in
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// inotify map. This method may also split one raw event into two different ones
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// when system-dependent result is required.
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func (i *inotify) transform(es []*event) []*event {
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var multi []*event
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i.RLock()
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for idx, e := range es {
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if e.sys.Mask&(unix.IN_IGNORED|unix.IN_Q_OVERFLOW) != 0 {
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es[idx] = nil
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continue
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}
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wd, ok := i.m[e.sys.Wd]
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if !ok || e.sys.Mask&encode(Event(wd.mask)) == 0 {
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es[idx] = nil
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continue
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}
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if e.path == "" {
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e.path = wd.path
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} else {
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e.path = filepath.Join(wd.path, e.path)
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}
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multi = append(multi, decode(Event(wd.mask), e))
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if e.event == 0 {
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es[idx] = nil
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}
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}
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i.RUnlock()
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es = append(es, multi...)
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return es
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}
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// encode converts notify system-independent events to valid inotify mask
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// which can be passed to inotify_add_watch(2) function.
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func encode(e Event) uint32 {
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if e&Create != 0 {
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e = (e ^ Create) | InCreate | InMovedTo
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}
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if e&Remove != 0 {
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e = (e ^ Remove) | InDelete | InDeleteSelf
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}
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if e&Write != 0 {
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e = (e ^ Write) | InModify
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}
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if e&Rename != 0 {
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e = (e ^ Rename) | InMovedFrom | InMoveSelf
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}
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return uint32(e)
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}
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// decode uses internally stored mask to distinguish whether system-independent
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// or system-dependent event is requested. The first one is created by modifying
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// `e` argument. decode method sets e.event value to 0 when an event should be
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// skipped. System-dependent event is set as the function's return value which
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// can be nil when the event should not be passed on.
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func decode(mask Event, e *event) (syse *event) {
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if sysmask := uint32(mask) & e.sys.Mask; sysmask != 0 {
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syse = &event{sys: unix.InotifyEvent{
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Wd: e.sys.Wd,
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Mask: e.sys.Mask,
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Cookie: e.sys.Cookie,
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}, event: Event(sysmask), path: e.path}
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}
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imask := encode(mask)
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switch {
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case mask&Create != 0 && imask&uint32(InCreate|InMovedTo)&e.sys.Mask != 0:
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e.event = Create
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case mask&Remove != 0 && imask&uint32(InDelete|InDeleteSelf)&e.sys.Mask != 0:
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e.event = Remove
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case mask&Write != 0 && imask&uint32(InModify)&e.sys.Mask != 0:
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e.event = Write
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case mask&Rename != 0 && imask&uint32(InMovedFrom|InMoveSelf)&e.sys.Mask != 0:
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e.event = Rename
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default:
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e.event = 0
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}
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return
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}
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// Unwatch implements notify.watcher interface. It looks for watch descriptor
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// related to registered path and if found, calls inotify_rm_watch(2) function.
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// This method is allowed to return EINVAL error when concurrently requested to
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// delete identical path.
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func (i *inotify) Unwatch(path string) (err error) {
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iwd := int32(invalidDescriptor)
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i.RLock()
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for iwdkey, wd := range i.m {
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if wd.path == path {
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iwd = iwdkey
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break
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}
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}
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i.RUnlock()
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if iwd == invalidDescriptor {
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return errors.New("notify: path " + path + " is already watched")
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}
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fd := atomic.LoadInt32(&i.fd)
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if err = removeInotifyWatch(fd, iwd); err != nil {
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return
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}
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i.Lock()
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delete(i.m, iwd)
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i.Unlock()
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return nil
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}
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// Close implements notify.watcher interface. It removes all existing watch
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// descriptors and wakes up producer goroutine by sending data to the write end
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// of the pipe. The function waits for a signal from producer which means that
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// all operations on current monitoring instance are done.
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func (i *inotify) Close() (err error) {
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i.Lock()
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if fd := atomic.LoadInt32(&i.fd); fd == invalidDescriptor {
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i.Unlock()
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return nil
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}
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for iwd := range i.m {
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if e := removeInotifyWatch(i.fd, iwd); e != nil && err == nil {
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err = e
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}
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delete(i.m, iwd)
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}
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switch _, errwrite := unix.Write(i.pipefd[1], []byte{0x00}); {
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case errwrite != nil && err == nil:
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err = errwrite
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fallthrough
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case errwrite != nil:
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i.Unlock()
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default:
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i.Unlock()
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i.wg.Wait()
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}
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return
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}
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// if path was removed, notify already removed the watch and returns EINVAL error
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func removeInotifyWatch(fd int32, iwd int32) (err error) {
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if _, err = unix.InotifyRmWatch(int(fd), uint32(iwd)); err != nil && err != unix.EINVAL {
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return
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}
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return nil
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}
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