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MacFSEvents is a Python library that provides thread-safe directory observation primitives using callbacks. It wraps the Mac OS X FSEvents API in a C-extension.

Requirements:

  • Mac OS X 10.5+ (Leopard)
  • Python 2.7+

This software was written by Malthe Borch <[email protected]>. The pyfsevents module by Nicolas Dumazet was used for reference.

At this time of writing there are four other libraries that integrate with the FSEvents API:

watchdog:

This library actually builds on the code in MacFSEvents (this project), but currently does not support Python 3 (though this should happen soon). It also includes shell utilities.

pyobjc-framework-FSEvents

These use the PyObjC bridge infrastructure which most applications do not need.

pyfsevents

Not thread-safe (API is not designed to support it).

fsevents

Obsolete bindings to the socket API by John Sutherland.

The MacFSEvents library provides a clean API and has full test coverage.

Note that pyfsevents has bindings to the file descriptor observation primitives. This is not currently implemented by the present library.

Made available as-is under the BSD License.

To observe a directory structure (recursively) under path, we set up an observer thread and schedule an event stream:

from fsevents import Observer
observer = Observer()
observer.start()

def callback(FileEvent):
    ...

from fsevents import Stream
stream = Stream(callback, path)
observer.schedule(stream)

Streams can observe any number of paths; simply pass them as positional arguments (or using the * operator):

stream = Stream(callback, *paths)

To start the observer in its own thread, use the start method:

observer.start()

To start the observer in the current thread, use the run method (it will block the thread until stopped from another thread):

observer.run()

The callback function will be called when an event occurs. Depending on the stream, the callback will have different signitures:

  1. the standard stream (with callback and paths) will call callback with parameters callback(path, mask) where path is the directory where a file changed and mask can be decoded using FS_FLAG* and FS_ITEM* constants [1]. a convenience class Mask has a __str__ function to get a text representation of the flags.
  2. the stream is created with ids = True keyword parameter. In this case the call is callback(path, mask, id). The id can be used in the since keyword parameter of another stream object to also recieve historic events (that happened before the stream became active)
  3. if file_events is kwarg set to True, a FileEvent instance is passed to the callback and has 3 attributes: mask, cookie and name. name parameter contains the path at which the event happened (may be a subdirectory) while mask parameter is the event mask. this mimicks inotify behaviour. see also below.

To stop observation, simply unschedule the stream and stop the observer:

observer.unschedule(stream)
observer.stop()

While the observer thread will automatically join your main thread at this point, it doesn't hurt to be explicit about this:

observer.join()

We often want to know about events on a file level; to receive file events instead of path events, pass in file_events=True to the stream constructor:

def callback(event):
    ...

stream = Stream(callback, path, file_events=True)

The event object mimick the file events of the inotify kernel extension available in newer linux kernels. It has the following attributes:

mask
The mask field is a bitmask representing the event that occurred.
cookie
The cookie field is a unique identifier linking together two related but separate events. It is used to link together an IN_MOVED_FROM and an IN_MOVED_TO event.
name
The name field contains the name of the object to which the event occurred. This is the absolute filename.

Note that the logic to implement file events is implemented in Python; a snapshot of the observed file system hierarchies is maintained and used to monitor file events.

[1]See FSEventStreamEventFlags for a reference. To check for a particular mask, use the bitwise and operator &.

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Thread-based interface to file system observation primitives.

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