/usr/lib/python2.7/dist-packages/fs/watch.py is in python-fs 0.4.0-2.
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fs.watch
========
Change notification support for FS.
This module defines a standard interface for FS subclasses that support change
notification callbacks. It also offers some WrapFS subclasses that can
simulate such an ability on top of an ordinary FS object.
An FS object that wants to be "watchable" must provide the following methods:
* ``add_watcher(callback,path="/",events=None,recursive=True)``
Request that the given callback be executed in response to changes
to the given path. A specific set of change events can be specified.
This method returns a Watcher object.
* ``del_watcher(watcher_or_callback)``
Remove the given watcher object, or any watchers associated with
the given callback.
If you would prefer to read changes from a filesystem in a blocking fashion
rather than using callbacks, you can use the function 'iter_changes' to obtain
an iterator over the change events.
"""
import sys
import weakref
import threading
import Queue
import traceback
from fs.path import *
from fs.errors import *
from fs.wrapfs import WrapFS
from fs.base import FS
from fs.filelike import FileWrapper
class EVENT(object):
"""Base class for change notification events."""
def __init__(self,fs,path):
self.fs = fs
if path is not None:
path = abspath(normpath(path))
self.path = path
def __str__(self):
return unicode(self).encode("utf8")
def __unicode__(self):
return u"<fs.watch.%s object (path='%s') at %s>" % (self.__class__.__name__,self.path,hex(id(self)))
def clone(self,fs=None,path=None):
if fs is None:
fs = self.fs
if path is None:
path = self.path
return self.__class__(fs,path)
class ACCESSED(EVENT):
"""Event fired when a file's contents are accessed."""
pass
class CREATED(EVENT):
"""Event fired when a new file or directory is created."""
pass
class REMOVED(EVENT):
"""Event fired when a file or directory is removed."""
pass
class MODIFIED(EVENT):
"""Event fired when a file or directory is modified."""
def __init__(self,fs,path,data_changed=False):
super(MODIFIED,self).__init__(fs,path)
self.data_changed = data_changed
def clone(self,fs=None,path=None,data_changed=None):
evt = super(MODIFIED,self).clone(fs,path)
if data_changed is None:
data_changed = self.data_changed
evt.data_changd = data_changed
return evt
class MOVED_DST(EVENT):
"""Event fired when a file or directory is the target of a move."""
def __init__(self,fs,path,source=None):
super(MOVED_DST,self).__init__(fs,path)
if source is not None:
source = abspath(normpath(source))
self.source = source
def __unicode__(self):
return u"<fs.watch.%s object (path=%r,src=%r) at %s>" % (self.__class__.__name__,self.path,self.source,hex(id(self)))
def clone(self,fs=None,path=None,source=None):
evt = super(MOVED_DST,self).clone(fs,path)
if source is None:
source = self.source
evt.source = source
return evt
class MOVED_SRC(EVENT):
"""Event fired when a file or directory is the source of a move."""
def __init__(self,fs,path,destination=None):
super(MOVED_SRC,self).__init__(fs,path)
if destination is not None:
destination = abspath(normpath(destination))
self.destination = destination
def __unicode__(self):
return u"<fs.watch.%s object (path=%r,dst=%r) at %s>" % (self.__class__.__name__,self.path,self.destination,hex(id(self)))
def clone(self,fs=None,path=None,destination=None):
evt = super(MOVED_SRC,self).clone(fs,path)
if destination is None:
destination = self.destination
evt.destination = destination
return evt
class CLOSED(EVENT):
"""Event fired when the filesystem is closed."""
pass
class ERROR(EVENT):
"""Event fired when some miscellaneous error occurs."""
pass
class OVERFLOW(ERROR):
"""Event fired when some events could not be processed."""
pass
class Watcher(object):
"""Object encapsulating filesystem watch info."""
def __init__(self,fs,callback,path="/",events=None,recursive=True):
if events is None:
events = (EVENT,)
else:
events = tuple(events)
# Since the FS probably holds a reference to the Watcher, keeping
# a reference back to the FS would create a cycle containing a
# __del__ method. Use a weakref to avoid this.
self._w_fs = weakref.ref(fs)
self.callback = callback
self.path = abspath(normpath(path))
self.events = events
self.recursive = recursive
@property
def fs(self):
return self._w_fs()
def delete(self):
fs = self.fs
if fs is not None:
fs.del_watcher(self)
def handle_event(self,event):
if not isinstance(event,self.events):
return
if event.path is not None:
if not isprefix(self.path,event.path):
return
if not self.recursive:
if event.path != self.path:
if dirname(event.path) != self.path:
return
try:
self.callback(event)
except Exception:
print >>sys.stderr, "error in FS watcher callback", self.callback
traceback.print_exc()
class WatchableFSMixin(FS):
"""Mixin class providing watcher management functions."""
def __init__(self,*args,**kwds):
self._watchers = PathMap()
super(WatchableFSMixin,self).__init__(*args,**kwds)
def __getstate__(self):
state = super(WatchableFSMixin,self).__getstate__()
state.pop("_watchers",None)
return state
def __setstate__(self,state):
super(WatchableFSMixin,self).__setstate__(state)
self._watchers = PathMap()
def add_watcher(self,callback,path="/",events=None,recursive=True):
"""Add a watcher callback to the FS."""
w = Watcher(self,callback,path,events,recursive=recursive)
self._watchers.setdefault(path,[]).append(w)
return w
def del_watcher(self,watcher_or_callback):
"""Delete a watcher callback from the FS."""
if isinstance(watcher_or_callback,Watcher):
self._watchers[watcher_or_callback.path].remove(watcher_or_callback)
else:
for watchers in self._watchers.itervalues():
for i,watcher in enumerate(watchers):
if watcher.callback is watcher_or_callback:
del watchers[i]
break
def _find_watchers(self,callback):
"""Find watchers registered with the given callback."""
for watchers in self._watchers.itervalues():
for watcher in watchers:
if watcher.callback is callback:
yield watcher
def notify_watchers(self,event_or_class,path=None,*args,**kwds):
"""Notify watchers of the given event data."""
if isinstance(event_or_class,EVENT):
event = event_or_class
else:
event = event_or_class(self,path,*args,**kwds)
if path is None:
path = event.path
if path is None:
for watchers in self._watchers.itervalues():
for watcher in watchers:
watcher.handle_event(event)
else:
for prefix in recursepath(path):
if prefix in self._watchers:
for watcher in self._watchers[prefix]:
watcher.handle_event(event)
class WatchedFile(FileWrapper):
"""File wrapper for use with WatchableFS.
This file wrapper provides access to a file opened from a WatchableFS
instance, and fires MODIFIED events when the file is modified.
"""
def __init__(self,file,fs,path,mode=None):
super(WatchedFile,self).__init__(file,mode)
self.fs = fs
self.path = path
self.was_modified = False
def _write(self,string,flushing=False):
self.was_modified = True
return super(WatchedFile,self)._write(string,flushing=flushing)
def _truncate(self,size):
self.was_modified = True
return super(WatchedFile,self)._truncate(size)
def flush(self):
super(WatchedFile,self).flush()
# Don't bother if python if being torn down
if Watcher is not None:
if self.was_modified:
self.fs.notify_watchers(MODIFIED,self.path,True)
def close(self):
super(WatchedFile,self).close()
# Don't bother if python if being torn down
if Watcher is not None:
if self.was_modified:
self.fs.notify_watchers(MODIFIED,self.path,True)
class WatchableFS(WatchableFSMixin,WrapFS):
"""FS wrapper simulating watcher callbacks.
This FS wrapper intercepts method calls that modify the underlying FS
and generates appropriate notification events. It thus allows watchers
to monitor changes made through the underlying FS object, but not changes
that might be made through other interfaces to the same filesystem.
"""
def __init__(self,*args,**kwds):
super(WatchableFS,self).__init__(*args,**kwds)
def close(self):
super(WatchableFS,self).close()
self.notify_watchers(CLOSED)
def open(self,path,mode="r",**kwargs):
existed = self.wrapped_fs.isfile(path)
f = super(WatchableFS,self).open(path,mode,**kwargs)
if not existed:
self.notify_watchers(CREATED,path)
self.notify_watchers(ACCESSED,path)
return WatchedFile(f,self,path,mode)
def setcontents(self, path, data='', chunk_size=64*1024):
existed = self.wrapped_fs.isfile(path)
ret = super(WatchableFS, self).setcontents(path, data, chunk_size=chunk_size)
if not existed:
self.notify_watchers(CREATED,path)
self.notify_watchers(ACCESSED,path)
if data:
self.notify_watchers(MODIFIED,path,True)
return ret
def createfile(self, path):
existed = self.wrapped_fs.isfile(path)
ret = super(WatchableFS, self).createfile(path)
if not existed:
self.notify_watchers(CREATED,path)
self.notify_watchers(ACCESSED,path)
return ret
def makedir(self,path,recursive=False,allow_recreate=False):
existed = self.wrapped_fs.isdir(path)
try:
super(WatchableFS,self).makedir(path,allow_recreate=allow_recreate)
except ParentDirectoryMissingError:
if not recursive:
raise
parent = dirname(path)
if parent != path:
self.makedir(dirname(path),recursive=True,allow_recreate=True)
super(WatchableFS,self).makedir(path,allow_recreate=allow_recreate)
if not existed:
self.notify_watchers(CREATED,path)
def remove(self,path):
super(WatchableFS,self).remove(path)
self.notify_watchers(REMOVED,path)
def removedir(self,path,recursive=False,force=False):
if not force:
for nm in self.listdir(path):
raise DirectoryNotEmptyError(path)
else:
for nm in self.listdir(path,dirs_only=True):
try:
self.removedir(pathjoin(path,nm),force=True)
except ResourceNotFoundError:
pass
for nm in self.listdir(path,files_only=True):
try:
self.remove(pathjoin(path,nm))
except ResourceNotFoundError:
pass
super(WatchableFS,self).removedir(path)
self.notify_watchers(REMOVED,path)
if recursive:
parent = dirname(path)
while parent and not self.listdir(parent):
super(WatchableFS,self).removedir(parent)
self.notify_watchers(REMOVED,parent)
parent = dirname(parent)
def rename(self,src,dst):
d_existed = self.wrapped_fs.exists(dst)
super(WatchableFS,self).rename(src,dst)
if d_existed:
self.notify_watchers(REMOVED,dst)
self.notify_watchers(MOVED_DST,dst,src)
self.notify_watchers(MOVED_SRC,src,dst)
def copy(self,src,dst,**kwds):
d = self._pre_copy(src,dst)
super(WatchableFS,self).copy(src,dst,**kwds)
self._post_copy(src,dst,d)
def copydir(self,src,dst,**kwds):
d = self._pre_copy(src,dst)
super(WatchableFS,self).copydir(src,dst,**kwds)
self._post_copy(src,dst,d)
def move(self,src,dst,**kwds):
d = self._pre_copy(src,dst)
super(WatchableFS,self).move(src,dst,**kwds)
self._post_copy(src,dst,d)
self._post_move(src,dst,d)
def movedir(self,src,dst,**kwds):
d = self._pre_copy(src,dst)
super(WatchableFS,self).movedir(src,dst,**kwds)
self._post_copy(src,dst,d)
self._post_move(src,dst,d)
def _pre_copy(self,src,dst):
dst_paths = {}
try:
for (dirnm,filenms) in self.wrapped_fs.walk(dst):
dirnm = dirnm[len(dst)+1:]
dst_paths[dirnm] = True
for filenm in filenms:
dst_paths[filenm] = False
except ResourceNotFoundError:
pass
except ResourceInvalidError:
dst_paths[""] = False
src_paths = {}
try:
for (dirnm,filenms) in self.wrapped_fs.walk(src):
dirnm = dirnm[len(src)+1:]
src_paths[dirnm] = True
for filenm in filenms:
src_paths[pathjoin(dirnm,filenm)] = False
except ResourceNotFoundError:
pass
except ResourceInvalidError:
src_paths[""] = False
return (src_paths,dst_paths)
def _post_copy(self,src,dst,data):
(src_paths,dst_paths) = data
for src_path,isdir in sorted(src_paths.items()):
path = pathjoin(dst,src_path)
if src_path in dst_paths:
self.notify_watchers(MODIFIED,path,not isdir)
else:
self.notify_watchers(CREATED,path)
for dst_path,isdir in sorted(dst_paths.items()):
path = pathjoin(dst,dst_path)
if not self.wrapped_fs.exists(path):
self.notify_watchers(REMOVED,path)
def _post_move(self,src,dst,data):
(src_paths,dst_paths) = data
for src_path,isdir in sorted(src_paths.items(),reverse=True):
path = pathjoin(src,src_path)
self.notify_watchers(REMOVED,path)
def setxattr(self,path,name,value):
super(WatchableFS,self).setxattr(path,name,value)
self.notify_watchers(MODIFIED,path,False)
def delxattr(self,path,name):
super(WatchableFS,self).delxattr(path,name)
self.notify_watchers(MODIFIED,path,False)
class PollingWatchableFS(WatchableFS):
"""FS wrapper simulating watcher callbacks by periodic polling.
This FS wrapper augments the functionality of WatchableFS by periodically
polling the underlying FS for changes. It is thus capable of detecting
changes made to the underlying FS via other interfaces, albeit with a
(configurable) delay to account for the polling interval.
"""
def __init__(self,wrapped_fs,poll_interval=60*5):
super(PollingWatchableFS,self).__init__(wrapped_fs)
self.poll_interval = poll_interval
self.add_watcher(self._on_path_modify,"/",(CREATED,MOVED_DST,))
self.add_watcher(self._on_path_modify,"/",(MODIFIED,ACCESSED,))
self.add_watcher(self._on_path_delete,"/",(REMOVED,MOVED_SRC,))
self._path_info = PathMap()
self._poll_thread = threading.Thread(target=self._poll_for_changes)
self._poll_cond = threading.Condition()
self._poll_close_event = threading.Event()
self._poll_thread.start()
def close(self):
self._poll_close_event.set()
self._poll_thread.join()
super(PollingWatchableFS,self).close()
def _on_path_modify(self,event):
path = event.path
try:
try:
self._path_info[path] = self.wrapped_fs.getinfo(path)
except ResourceNotFoundError:
self._path_info.clear(path)
except FSError:
pass
def _on_path_delete(self,event):
self._path_info.clear(event.path)
def _poll_for_changes(self):
try:
while not self._poll_close_event.isSet():
# Walk all directories looking for changes.
# Come back to any that give us an error.
error_paths = set()
for dirnm in self.wrapped_fs.walkdirs():
if self._poll_close_event.isSet():
break
try:
self._check_for_changes(dirnm)
except FSError:
error_paths.add(dirnm)
# Retry the directories that gave us an error, until
# we have successfully updated them all
while error_paths and not self._poll_close_event.isSet():
dirnm = error_paths.pop()
if self.wrapped_fs.isdir(dirnm):
try:
self._check_for_changes(dirnm)
except FSError:
error_paths.add(dirnm)
# Notify that we have completed a polling run
self._poll_cond.acquire()
self._poll_cond.notifyAll()
self._poll_cond.release()
# Sleep for the specified interval, or until closed.
self._poll_close_event.wait(timeout=self.poll_interval)
except FSError:
if not self.closed:
raise
def _check_for_changes(self,dirnm):
# Check the metadata for the directory itself.
new_info = self.wrapped_fs.getinfo(dirnm)
try:
old_info = self._path_info[dirnm]
except KeyError:
self.notify_watchers(CREATED,dirnm)
else:
if new_info != old_info:
self.notify_watchers(MODIFIED,dirnm,False)
# Check the metadata for each file in the directory.
# We assume that if the file's data changes, something in its
# metadata will also change; don't want to read through each file!
# Subdirectories will be handled by the outer polling loop.
for filenm in self.wrapped_fs.listdir(dirnm,files_only=True):
if self._poll_close_event.isSet():
return
fpath = pathjoin(dirnm,filenm)
new_info = self.wrapped_fs.getinfo(fpath)
try:
old_info = self._path_info[fpath]
except KeyError:
self.notify_watchers(CREATED,fpath)
else:
was_accessed = False
was_modified = False
for (k,v) in new_info.iteritems():
if k not in old_info:
was_modified = True
break
elif old_info[k] != v:
if k in ("accessed_time","st_atime",):
was_accessed = True
elif k:
was_modified = True
break
else:
for k in old_info:
if k not in new_info:
was_modified = True
break
if was_modified:
self.notify_watchers(MODIFIED,fpath,True)
elif was_accessed:
self.notify_watchers(ACCESSED,fpath)
# Check for deletion of cached child entries.
for childnm in self._path_info.iternames(dirnm):
if self._poll_close_event.isSet():
return
cpath = pathjoin(dirnm,childnm)
if not self.wrapped_fs.exists(cpath):
self.notify_watchers(REMOVED,cpath)
def ensure_watchable(fs,wrapper_class=PollingWatchableFS,*args,**kwds):
"""Ensure that the given fs supports watching, simulating it if necessary.
Given an FS object, this function returns an equivalent FS that has support
for watcher callbacks. This may be the original object if it supports them
natively, or a wrapper class if they must be simulated.
"""
if isinstance(fs,wrapper_class):
return fs
try:
w = fs.add_watcher(lambda e: None,"/",recursive=False)
except (AttributeError,FSError):
return wrapper_class(fs,*args,**kwds)
else:
fs.del_watcher(w)
return fs
class iter_changes(object):
"""Blocking iterator over the change events produced by an FS.
This class can be used to transform the callback-based watcher mechanism
into a blocking stream of events. It operates by having the callbacks
push events onto a queue as they come in, then reading them off one at a
time.
"""
def __init__(self,fs=None,path="/",events=None,**kwds):
self.closed = False
self._queue = Queue.Queue()
self._watching = set()
if fs is not None:
self.add_watcher(fs,path,events,**kwds)
def __iter__(self):
return self
def __del__(self):
self.close()
def next(self,timeout=None):
if not self._watching:
raise StopIteration
try:
event = self._queue.get(timeout=timeout)
except Queue.Empty:
raise StopIteration
if event is None:
raise StopIteration
if isinstance(event,CLOSED):
event.fs.del_watcher(self._enqueue)
self._watching.remove(event.fs)
return event
def close(self):
if not self.closed:
self.closed = True
for fs in self._watching:
fs.del_watcher(self._enqueue)
self._queue.put(None)
def add_watcher(self,fs,path="/",events=None,**kwds):
w = fs.add_watcher(self._enqueue,path,events,**kwds)
self._watching.add(fs)
return w
def _enqueue(self,event):
self._queue.put(event)
def del_watcher(self,watcher):
for fs in self._watching:
try:
fs.del_watcher(watcher)
break
except ValueError:
pass
else:
raise ValueError("watcher not found: %s" % (watcher,))
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