# coding: utf-8
#
# Copyright 2011 Yesudeep Mangalapilly <yesudeep@gmail.com>
# Copyright 2012 Google, Inc & contributors.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""
:module: watchdog.observers.fsevents
:synopsis: FSEvents based emitter implementation.
:author: yesudeep@google.com (Yesudeep Mangalapilly)
:author: contact@tiger-222.fr (Mickaƫl Schoentgen)
:platforms: Mac OS X
"""
import os
import threading
import unicodedata
import _watchdog_fsevents as _fsevents
from ..events import (
FileDeletedEvent,
FileModifiedEvent,
FileCreatedEvent,
FileMovedEvent,
DirDeletedEvent,
DirModifiedEvent,
DirCreatedEvent,
DirMovedEvent
)
from .api import (
BaseObserver,
EventEmitter,
DEFAULT_EMITTER_TIMEOUT,
DEFAULT_OBSERVER_TIMEOUT
)
class FSEventsEmitter(EventEmitter):
"""
Mac OS X FSEvents Emitter class.
:param event_queue:
The event queue to fill with events.
:param watch:
A watch object representing the directory to monitor.
:type watch:
:class:`watchdog.observers.api.ObservedWatch`
:param timeout:
Read events blocking timeout (in seconds).
:type timeout:
``float``
"""
def __init__(self, event_queue, watch, timeout=DEFAULT_EMITTER_TIMEOUT):
EventEmitter.__init__(self, event_queue, watch, timeout)
self._lock = threading.Lock()
def on_thread_stop(self):
if self.watch:
_fsevents.remove_watch(self.watch)
_fsevents.stop(self)
self._watch = None
def queue_events(self, timeout):
with self._lock:
events = self.native_events
i = 0
while i < len(events):
event = events[i]
src_path = self._encode_path(event.path)
# For some reason the create and remove flags are sometimes also
# set for rename and modify type events, so let those take
# precedence.
if event.is_renamed:
# Internal moves appears to always be consecutive in the same
# buffer and have IDs differ by exactly one (while others
# don't) making it possible to pair up the two events coming
# from a singe move operation. (None of this is documented!)
# Otherwise, guess whether file was moved in or out.
# TODO: handle id wrapping
if (i + 1 < len(events) and events[i + 1].is_renamed
and events[i + 1].event_id == event.event_id + 1):
cls = DirMovedEvent if event.is_directory else FileMovedEvent
dst_path = self._encode_path(events[i + 1].path)
self.queue_event(cls(src_path, dst_path))
self.queue_event(DirModifiedEvent(os.path.dirname(src_path)))
self.queue_event(DirModifiedEvent(os.path.dirname(dst_path)))
i += 1
elif os.path.exists(event.path):
cls = DirCreatedEvent if event.is_directory else FileCreatedEvent
self.queue_event(cls(src_path))
self.queue_event(DirModifiedEvent(os.path.dirname(src_path)))
else:
cls = DirDeletedEvent if event.is_directory else FileDeletedEvent
self.queue_event(cls(src_path))
self.queue_event(DirModifiedEvent(os.path.dirname(src_path)))
# TODO: generate events for tree
elif event.is_modified or event.is_inode_meta_mod or event.is_xattr_mod:
cls = DirModifiedEvent if event.is_directory else FileModifiedEvent
self.queue_event(cls(src_path))
elif event.is_created:
cls = DirCreatedEvent if event.is_directory else FileCreatedEvent
self.queue_event(cls(src_path))
self.queue_event(DirModifiedEvent(os.path.dirname(src_path)))
elif event.is_removed:
cls = DirDeletedEvent if event.is_directory else FileDeletedEvent
self.queue_event(cls(src_path))
self.queue_event(DirModifiedEvent(os.path.dirname(src_path)))
if src_path == self.watch.path:
# this should not really occur, instead we expect
# is_root_changed to be set
self.stop()
elif event.is_root_changed:
# This will be set if root or any if its parents is renamed or
# deleted.
# TODO: find out new path and generate DirMovedEvent?
self.queue_event(DirDeletedEvent(self.watch.path))
self.stop()
i += 1
def run(self):
try:
def callback(pathnames, flags, ids, emitter=self):
with emitter._lock:
emitter.native_events = [
_fsevents.NativeEvent(event_path, event_flags, event_id)
for event_path, event_flags, event_id in zip(pathnames, flags, ids)
]
emitter.queue_events(emitter.timeout)
# for pathname, flag in zip(pathnames, flags):
# if emitter.watch.is_recursive: # and pathname != emitter.watch.path:
# new_sub_snapshot = DirectorySnapshot(pathname, True)
# old_sub_snapshot = self.snapshot.copy(pathname)
# diff = new_sub_snapshot - old_sub_snapshot
# self.snapshot += new_subsnapshot
# else:
# new_snapshot = DirectorySnapshot(emitter.watch.path, False)
# diff = new_snapshot - emitter.snapshot
# emitter.snapshot = new_snapshot
# INFO: FSEvents reports directory notifications recursively
# by default, so we do not need to add subdirectory paths.
# pathnames = set([self.watch.path])
# if self.watch.is_recursive:
# for root, directory_names, _ in os.walk(self.watch.path):
# for directory_name in directory_names:
# full_path = absolute_path(
# os.path.join(root, directory_name))
# pathnames.add(full_path)
self.pathnames = [self.watch.path]
_fsevents.add_watch(self,
self.watch,
callback,
self.pathnames)
_fsevents.read_events(self)
except Exception:
pass
def _encode_path(self, path):
"""Encode path only if bytes were passed to this emitter. """
if isinstance(self.watch.path, bytes):
return os.fsencode(path)
return path
class FSEventsObserver(BaseObserver):
def __init__(self, timeout=DEFAULT_OBSERVER_TIMEOUT):
BaseObserver.__init__(self, emitter_class=FSEventsEmitter,
timeout=timeout)
def schedule(self, event_handler, path, recursive=False):
# Fix for issue #26: Trace/BPT error when given a unicode path
# string. https://github.com/gorakhargosh/watchdog/issues#issue/26
if isinstance(path, str):
path = unicodedata.normalize('NFC', path)
return BaseObserver.schedule(self, event_handler, path, recursive)