def __init__(self, monitor, ignore_config=None):
self.general_processor = GeneralINotifyProcessor(
monitor, self.handle_dir_delete, NAME_TRANSLATIONS,
self.platform_is_ignored, pyinotify.IN_IGNORED,
ignore_config=ignore_config)
self.held_event = None
self.timer = None
def __init__(self, monitor, ignore_config=None):
# XXX: avoid circular imports.
from ubuntuone.syncdaemon.filesystem_notifications import (
GeneralINotifyProcessor)
self.general_processor = GeneralINotifyProcessor(monitor,
self.handle_dir_delete, NAME_TRANSLATIONS,
self.platform_is_ignored, IN_IGNORED, ignore_config=ignore_config)
self.held_event = None
class _GeneralINotifyProcessor(pyinotify.ProcessEvent):
"""inotify's processor when a general event happens.
This class also catchs the MOVEs events, and synthetises a new
FS_(DIR|FILE)_MOVE event when possible.
"""
def __init__(self, monitor, ignore_config=None):
# XXX: avoid circular imports
from ubuntuone.syncdaemon.filesystem_notifications import (
GeneralINotifyProcessor
)
self.general_processor = GeneralINotifyProcessor(monitor,
self.handle_dir_delete, NAME_TRANSLATIONS,
self.platform_is_ignored, pyinotify.IN_IGNORED,
ignore_config=ignore_config)
self.held_event = None
self.timer = None
def shutdown(self):
"""Shut down the processor."""
if self.timer is not None and self.timer.active():
self.timer.cancel()
def rm_from_mute_filter(self, event, paths):
"""Remove an event and path(s) from the mute filter."""
self.general_processor.rm_from_mute_filter(event, paths)
def add_to_mute_filter(self, event, paths):
"""Add an event and path(s) to the mute filter."""
self.general_processor.add_to_mute_filter(event, paths)
def on_timeout(self):
"""Called on timeout."""
if self.held_event is not None:
self.release_held_event(True)
def release_held_event(self, timed_out=False):
"""Release the event on hold to fulfill its destiny."""
if not timed_out:
try:
self.timer.cancel()
except error.AlreadyCalled:
# self.timeout() was *just* called, do nothing here
return
self.general_processor.push_event(self.held_event)
self.held_event = None
@validate_filename
def process_IN_OPEN(self, event):
"""Filter IN_OPEN to make it happen only in files."""
if not (event.mask & pyinotify.IN_ISDIR):
self.general_processor.push_event(event)
@validate_filename
def process_IN_CLOSE_NOWRITE(self, event):
"""Filter IN_CLOSE_NOWRITE to make it happen only in files."""
if not (event.mask & pyinotify.IN_ISDIR):
self.general_processor.push_event(event)
def process_IN_MOVE_SELF(self, event):
"""Don't do anything here.
We just turned this event on because pyinotify does some
path-fixing in its internal processing when this happens.
"""
@validate_filename
def process_IN_MOVED_FROM(self, event):
"""Capture the MOVED_FROM to maybe syntethize FILE_MOVED."""
if self.held_event is not None:
self.release_held_event()
self.held_event = event
self.timer = reactor.callLater(1, self.on_timeout)
def platform_is_ignored(self, path):
"""Should we ignore this path in the current platform.?"""
# don't support links yet
if os.path.islink(path):
return True
return False
def is_ignored(self, path):
"""Should we ignore this path?"""
return self.general_processor.is_ignored(path)
@validate_filename
def process_IN_MOVED_TO(self, event):
"""Capture the MOVED_TO to maybe syntethize FILE_MOVED."""
if self.held_event is not None:
if event.cookie == self.held_event.cookie:
try:
self.timer.cancel()
except error.AlreadyCalled:
# self.timeout() was *just* called, do nothing here
pass
else:
f_path_dir = self.held_event.path
f_path = os.path.join(f_path_dir, self.held_event.name)
t_path_dir = event.path
t_path = os.path.join(t_path_dir, event.name)
is_from_forreal = not self.is_ignored(f_path)
is_to_forreal = not self.is_ignored(t_path)
if is_from_forreal and is_to_forreal:
f_share_id = self.general_processor.get_path_share_id(
f_path_dir)
t_share_id = self.general_processor.get_path_share_id(
t_path_dir)
if event.dir:
evtname = "FS_DIR_"
else:
evtname = "FS_FILE_"
if f_share_id != t_share_id:
# if the share_id are != push a delete/create
m = "Delete because of different shares: %r"
self.general_processor.log.info(m, f_path)
self.general_processor.eq_push(evtname+"DELETE",
path=f_path)
self.general_processor.eq_push(evtname+"CREATE",
path=t_path)
if not event.dir:
self.general_processor.eq_push(
'FS_FILE_CLOSE_WRITE', path=t_path)
else:
self.general_processor.monitor.inotify_watch_fix(
f_path, t_path)
self.general_processor.eq_push(evtname+"MOVE",
path_from=f_path, path_to=t_path)
elif is_to_forreal:
# this is the case of a MOVE from something ignored
# to a valid filename
if event.dir:
evtname = "FS_DIR_"
else:
evtname = "FS_FILE_"
self.general_processor.eq_push(evtname + "CREATE",
path=t_path)
if not event.dir:
self.general_processor.eq_push(
'FS_FILE_CLOSE_WRITE', path=t_path)
else:
# this is the case of a MOVE from something valid
# to an ignored filename
if event.dir:
evtname = "FS_DIR_"
else:
evtname = "FS_FILE_"
self.general_processor.eq_push(evtname + "DELETE",
path=f_path)
self.held_event = None
return
else:
self.release_held_event()
self.general_processor.push_event(event)
else:
# we don't have a held_event so this is a move from outside.
# if it's a file move it's atomic on POSIX, so we aren't going to
# receive a IN_CLOSE_WRITE, so let's fake it for files
self.general_processor.push_event(event)
if not event.dir:
t_path = os.path.join(event.path, event.name)
self.general_processor.eq_push('FS_FILE_CLOSE_WRITE', path=t_path)
@validate_filename
def process_default(self, event):
"""Push the event into the EventQueue."""
if self.held_event is not None:
self.release_held_event()
self.general_processor.push_event(event)
def freeze_begin(self, path):
"""Puts in hold all the events for this path."""
self.general_processor.freeze_begin(path)
def freeze_rollback(self):
"""Unfreezes the frozen path, reseting to idle state."""
self.general_processor.freeze_rollback()
def freeze_commit(self, events):
"""Unfreezes the frozen path, sending received events if not dirty.
If events for that path happened:
- return True
else:
- push the here received events, return False
"""
return self.general_processor.freeze_commit(events)
def handle_dir_delete(self, fullpath):
"""Some special work when a directory is deleted."""
# remove the watch on that dir from our structures
self.general_processor.rm_watch(fullpath)
# handle the case of move a dir to a non-watched directory
paths = self.general_processor.get_paths_starting_with(fullpath,
include_base=False)
paths.sort(reverse=True)
for path, is_dir in paths:
m = "Pushing deletion because of parent dir move: (is_dir=%s) %r"
self.general_processor.log.info(m, is_dir, path)
if is_dir:
self.general_processor.rm_watch(path)
self.general_processor.eq_push('FS_DIR_DELETE', path=path)
else:
self.general_processor.eq_push('FS_FILE_DELETE', path=path)
@property
def mute_filter(self):
"""Return the mute filter used by the processor."""
return self.general_processor.filter
@property
def frozen_path(self):
"""Return the frozen path."""
return self.general_processor.frozen_path
@property
def log(self):
"""Return the logger of the instance."""
return self.general_processor.log
class NotifyProcessor(ProcessEvent):
"""Processor that takes care of dealing with the events.
This interface will be exposed to syncdaemon, ergo all passed
and returned paths must be a sequence of BYTES encoded with utf8.
Also, they must not be literal paths, that is the \\?\ prefix should not be
in the path.
"""
def __init__(self, monitor, ignore_config=None):
# XXX: avoid circular imports.
from ubuntuone.syncdaemon.filesystem_notifications import (
GeneralINotifyProcessor)
self.general_processor = GeneralINotifyProcessor(monitor,
self.handle_dir_delete, NAME_TRANSLATIONS,
self.platform_is_ignored, IN_IGNORED, ignore_config=ignore_config)
self.held_event = None
def rm_from_mute_filter(self, event, paths):
"""Remove event from the mute filter."""
self.general_processor.rm_from_mute_filter(event, paths)
def add_to_mute_filter(self, event, paths):
"""Add an event and path(s) to the mute filter."""
self.general_processor.add_to_mute_filter(event, paths)
@is_valid_syncdaemon_path(path_indexes=[1])
def platform_is_ignored(self, path):
"""Should we ignore this path in the current platform.?"""
# don't support links yet
if path.endswith('.lnk'):
return True
return False
@is_valid_syncdaemon_path(path_indexes=[1])
def is_ignored(self, path):
"""Should we ignore this path?"""
return self.general_processor.is_ignored(path)
def release_held_event(self, timed_out=False):
"""Release the event on hold to fulfill its destiny."""
self.general_processor.push_event(self.held_event)
self.held_event = None
def process_IN_MODIFY(self, event):
"""Capture a modify event and fake an open ^ close write events."""
# lets ignore dir changes
if event.dir:
return
# on windows we just get IN_MODIFY, lets always fake
# an OPEN & CLOSE_WRITE couple
raw_open = raw_close = {
'wd': event.wd,
'dir': event.dir,
'name': event.name,
'path': event.path}
# caculate the open mask
raw_open['mask'] = IN_OPEN
# create the event using the raw data, then fix the pathname param
open_event = Event(raw_open)
open_event.pathname = event.pathname
# push the open
self.general_processor.push_event(open_event)
raw_close['mask'] = IN_CLOSE_WRITE
close_event = Event(raw_close)
close_event.pathname = event.pathname
# push the close event
self.general_processor.push_event(close_event)
def process_IN_MOVED_FROM(self, event):
"""Capture the MOVED_FROM to maybe syntethize FILE_MOVED."""
if self.held_event is not None:
self.general_processor.log.warn('Lost pair event of %s',
self.held_event)
self.held_event = event
def _fake_create_event(self, event):
"""Fake the creation of an event."""
# this is the case of a MOVE from an ignored path (links for example)
# to a valid path
if event.dir:
evtname = "FS_DIR_"
else:
evtname = "FS_FILE_"
self.general_processor.eq_push(evtname + "CREATE", path=event.pathname)
if not event.dir:
self.general_processor.eq_push('FS_FILE_CLOSE_WRITE',
path=event.pathname)
def _fake_delete_create_event(self, event):
"""Fake the deletion and the creation."""
# this is the case of a MOVE from a watch UDF to a diff UDF which
# means that we have to copy the way linux works.
if event.dir:
evtname = "FS_DIR_"
else:
evtname = "FS_FILE_"
m = "Delete because of different shares: %r"
self.log.info(m, self.held_event.pathname)
self.general_processor.eq_push(evtname + "DELETE",
path=self.held_event.pathname)
self.general_processor.eq_push(evtname + "CREATE", path=event.pathname)
if not event.dir:
self.general_processor.eq_push('FS_FILE_CLOSE_WRITE',
path=event.pathname)
def process_IN_MOVED_TO(self, event):
"""Capture the MOVED_TO to maybe syntethize FILE_MOVED."""
if self.held_event is not None:
if event.cookie == self.held_event.cookie:
f_path_dir = os.path.split(self.held_event.pathname)[0]
t_path_dir = os.path.split(event.pathname)[0]
is_from_forreal = not self.is_ignored(self.held_event.pathname)
is_to_forreal = not self.is_ignored(event.pathname)
if is_from_forreal and is_to_forreal:
f_share_id = self.general_processor.get_path_share_id(
f_path_dir)
t_share_id = self.general_processor.get_path_share_id(
t_path_dir)
if f_share_id != t_share_id:
# if the share_id are != push a delete/create
self._fake_delete_create_event(event)
else:
if event.dir:
evtname = "FS_DIR_"
else:
evtname = "FS_FILE_"
self.general_processor.eq_push(evtname + "MOVE",
path_from=self.held_event.pathname,
path_to=event.pathname)
elif is_to_forreal:
# this is the case of a MOVE from something ignored
# to a valid filename
self._fake_create_event(event)
self.held_event = None
return
else:
self.release_held_event()
self.general_processor.push_event(event)
else:
# We should never get here on windows, I really do not know how we
# got here
self.general_processor.log.warn(
'Cookie does not match the previoues held event!')
self.general_processor.log.warn('Ignoring %s', event)
def process_default(self, event):
"""Push the event into the EventQueue."""
if self.held_event is not None:
self.release_held_event()
self.general_processor.push_event(event)
@is_valid_syncdaemon_path(path_indexes=[1])
def handle_dir_delete(self, fullpath):
"""Some special work when a directory is deleted."""
# remove the watch on that dir from our structures, this mainly tells
# the monitor to remove the watch which is fowaded to a watch manager.
self.general_processor.rm_watch(fullpath)
# handle the case of move a dir to a non-watched directory
paths = self.general_processor.get_paths_starting_with(fullpath,
include_base=False)
paths.sort(reverse=True)
for path, is_dir in paths:
m = "Pushing deletion because of parent dir move: (is_dir=%s) %r"
self.general_processor.log.info(m, is_dir, path)
if is_dir:
# same as the above remove
self.general_processor.rm_watch(path)
self.general_processor.eq_push('FS_DIR_DELETE', path=path)
else:
self.general_processor.eq_push('FS_FILE_DELETE', path=path)
@is_valid_syncdaemon_path(path_indexes=[1])
def freeze_begin(self, path):
"""Puts in hold all the events for this path."""
self.general_processor.freeze_begin(path)
def freeze_rollback(self):
"""Unfreezes the frozen path, reseting to idle state."""
self.general_processor.freeze_rollback()
def freeze_commit(self, events):
"""Unfreezes the frozen path, sending received events if not dirty.
If events for that path happened:
- return True
else:
- push the here received events, return False
"""
return self.general_processor.freeze_commit(events)
@property
def mute_filter(self):
"""Return the mute filter used by the processor."""
return self.general_processor.filter
@property
def frozen_path(self):
"""Return the frozen path."""
return self.general_processor.frozen_path
@property
def log(self):
"""Return the logger of the instance."""
return self.general_processor.log
