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Diffstat (limited to 'yocto-poky/bitbake/lib/pyinotify.py')
| -rw-r--r-- | yocto-poky/bitbake/lib/pyinotify.py | 2416 |
1 files changed, 0 insertions, 2416 deletions
diff --git a/yocto-poky/bitbake/lib/pyinotify.py b/yocto-poky/bitbake/lib/pyinotify.py deleted file mode 100644 index 2dae00211..000000000 --- a/yocto-poky/bitbake/lib/pyinotify.py +++ /dev/null @@ -1,2416 +0,0 @@ -#!/usr/bin/env python - -# pyinotify.py - python interface to inotify -# Copyright (c) 2005-2015 Sebastien Martini <seb@dbzteam.org> -# -# Permission is hereby granted, free of charge, to any person obtaining a copy -# of this software and associated documentation files (the "Software"), to deal -# in the Software without restriction, including without limitation the rights -# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell -# copies of the Software, and to permit persons to whom the Software is -# furnished to do so, subject to the following conditions: -# -# The above copyright notice and this permission notice shall be included in -# all copies or substantial portions of the Software. -# -# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR -# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, -# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE -# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER -# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, -# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN -# THE SOFTWARE. -""" -pyinotify - -@author: Sebastien Martini -@license: MIT License -@contact: seb@dbzteam.org -""" - -class PyinotifyError(Exception): - """Indicates exceptions raised by a Pyinotify class.""" - pass - - -class UnsupportedPythonVersionError(PyinotifyError): - """ - Raised on unsupported Python versions. - """ - def __init__(self, version): - """ - @param version: Current Python version - @type version: string - """ - err = 'Python %s is unsupported, requires at least Python 2.4' - PyinotifyError.__init__(self, err % version) - - -# Check Python version -import sys -if sys.version_info < (2, 4): - raise UnsupportedPythonVersionError(sys.version) - - -# Import directives -import threading -import os -import select -import struct -import fcntl -import errno -import termios -import array -import logging -import atexit -from collections import deque -from datetime import datetime, timedelta -import time -import re -import asyncore -import subprocess - -try: - from functools import reduce -except ImportError: - pass # Will fail on Python 2.4 which has reduce() builtin anyway. - -try: - from glob import iglob as glob -except ImportError: - # Python 2.4 does not have glob.iglob(). - from glob import glob as glob - -try: - import ctypes - import ctypes.util -except ImportError: - ctypes = None - -try: - import inotify_syscalls -except ImportError: - inotify_syscalls = None - - -__author__ = "seb@dbzteam.org (Sebastien Martini)" - -__version__ = "0.9.5" - -__metaclass__ = type # Use new-style classes by default - - -# Compatibity mode: set to True to improve compatibility with -# Pyinotify 0.7.1. Do not set this variable yourself, call the -# function compatibility_mode() instead. -COMPATIBILITY_MODE = False - - -class InotifyBindingNotFoundError(PyinotifyError): - """ - Raised when no inotify support couldn't be found. - """ - def __init__(self): - err = "Couldn't find any inotify binding" - PyinotifyError.__init__(self, err) - - -class INotifyWrapper: - """ - Abstract class wrapping access to inotify's functions. This is an - internal class. - """ - @staticmethod - def create(): - # First, try to use ctypes. - if ctypes: - inotify = _CtypesLibcINotifyWrapper() - if inotify.init(): - return inotify - # Second, see if C extension is compiled. - if inotify_syscalls: - inotify = _INotifySyscallsWrapper() - if inotify.init(): - return inotify - - def get_errno(self): - """ - Return None is no errno code is available. - """ - return self._get_errno() - - def str_errno(self): - code = self.get_errno() - if code is None: - return 'Errno: no errno support' - return 'Errno=%s (%s)' % (os.strerror(code), errno.errorcode[code]) - - def inotify_init(self): - return self._inotify_init() - - def inotify_add_watch(self, fd, pathname, mask): - # Unicode strings must be encoded to string prior to calling this - # method. - assert isinstance(pathname, str) - return self._inotify_add_watch(fd, pathname, mask) - - def inotify_rm_watch(self, fd, wd): - return self._inotify_rm_watch(fd, wd) - - -class _INotifySyscallsWrapper(INotifyWrapper): - def __init__(self): - # Stores the last errno value. - self._last_errno = None - - def init(self): - assert inotify_syscalls - return True - - def _get_errno(self): - return self._last_errno - - def _inotify_init(self): - try: - fd = inotify_syscalls.inotify_init() - except IOError, err: - self._last_errno = err.errno - return -1 - return fd - - def _inotify_add_watch(self, fd, pathname, mask): - try: - wd = inotify_syscalls.inotify_add_watch(fd, pathname, mask) - except IOError, err: - self._last_errno = err.errno - return -1 - return wd - - def _inotify_rm_watch(self, fd, wd): - try: - ret = inotify_syscalls.inotify_rm_watch(fd, wd) - except IOError, err: - self._last_errno = err.errno - return -1 - return ret - - -class _CtypesLibcINotifyWrapper(INotifyWrapper): - def __init__(self): - self._libc = None - self._get_errno_func = None - - def init(self): - assert ctypes - - try_libc_name = 'c' - if sys.platform.startswith('freebsd'): - try_libc_name = 'inotify' - - libc_name = None - try: - libc_name = ctypes.util.find_library(try_libc_name) - except (OSError, IOError): - pass # Will attemp to load it with None anyway. - - if sys.version_info >= (2, 6): - self._libc = ctypes.CDLL(libc_name, use_errno=True) - self._get_errno_func = ctypes.get_errno - else: - self._libc = ctypes.CDLL(libc_name) - try: - location = self._libc.__errno_location - location.restype = ctypes.POINTER(ctypes.c_int) - self._get_errno_func = lambda: location().contents.value - except AttributeError: - pass - - # Eventually check that libc has needed inotify bindings. - if (not hasattr(self._libc, 'inotify_init') or - not hasattr(self._libc, 'inotify_add_watch') or - not hasattr(self._libc, 'inotify_rm_watch')): - return False - - self._libc.inotify_init.argtypes = [] - self._libc.inotify_init.restype = ctypes.c_int - self._libc.inotify_add_watch.argtypes = [ctypes.c_int, ctypes.c_char_p, - ctypes.c_uint32] - self._libc.inotify_add_watch.restype = ctypes.c_int - self._libc.inotify_rm_watch.argtypes = [ctypes.c_int, ctypes.c_int] - self._libc.inotify_rm_watch.restype = ctypes.c_int - return True - - def _get_errno(self): - if self._get_errno_func is not None: - return self._get_errno_func() - return None - - def _inotify_init(self): - assert self._libc is not None - return self._libc.inotify_init() - - def _inotify_add_watch(self, fd, pathname, mask): - assert self._libc is not None - pathname = ctypes.create_string_buffer(pathname) - return self._libc.inotify_add_watch(fd, pathname, mask) - - def _inotify_rm_watch(self, fd, wd): - assert self._libc is not None - return self._libc.inotify_rm_watch(fd, wd) - - def _sysctl(self, *args): - assert self._libc is not None - return self._libc.sysctl(*args) - - -# Logging -def logger_init(): - """Initialize logger instance.""" - log = logging.getLogger("pyinotify") - console_handler = logging.StreamHandler() - console_handler.setFormatter( - logging.Formatter("[%(asctime)s %(name)s %(levelname)s] %(message)s")) - log.addHandler(console_handler) - log.setLevel(20) - return log - -log = logger_init() - - -# inotify's variables -class SysCtlINotify: - """ - Access (read, write) inotify's variables through sysctl. Usually it - requires administrator rights to update them. - - Examples: - - Read max_queued_events attribute: myvar = max_queued_events.value - - Update max_queued_events attribute: max_queued_events.value = 42 - """ - - inotify_attrs = {'max_user_instances': 1, - 'max_user_watches': 2, - 'max_queued_events': 3} - - def __init__(self, attrname, inotify_wrapper): - # FIXME: right now only supporting ctypes - assert ctypes - self._attrname = attrname - self._inotify_wrapper = inotify_wrapper - sino = ctypes.c_int * 3 - self._attr = sino(5, 20, SysCtlINotify.inotify_attrs[attrname]) - - @staticmethod - def create(attrname): - """ - Factory method instanciating and returning the right wrapper. - """ - # FIXME: right now only supporting ctypes - if ctypes is None: - return None - inotify_wrapper = _CtypesLibcINotifyWrapper() - if not inotify_wrapper.init(): - return None - return SysCtlINotify(attrname, inotify_wrapper) - - def get_val(self): - """ - Gets attribute's value. Raises OSError if the operation failed. - - @return: stored value. - @rtype: int - """ - oldv = ctypes.c_int(0) - size = ctypes.c_int(ctypes.sizeof(oldv)) - sysctl = self._inotify_wrapper._sysctl - res = sysctl(self._attr, 3, - ctypes.c_voidp(ctypes.addressof(oldv)), - ctypes.addressof(size), - None, 0) - if res == -1: - raise OSError(self._inotify_wrapper.get_errno(), - self._inotify_wrapper.str_errno()) - return oldv.value - - def set_val(self, nval): - """ - Sets new attribute's value. Raises OSError if the operation failed. - - @param nval: replaces current value by nval. - @type nval: int - """ - oldv = ctypes.c_int(0) - sizeo = ctypes.c_int(ctypes.sizeof(oldv)) - newv = ctypes.c_int(nval) - sizen = ctypes.c_int(ctypes.sizeof(newv)) - sysctl = self._inotify_wrapper._sysctl - res = sysctl(self._attr, 3, - ctypes.c_voidp(ctypes.addressof(oldv)), - ctypes.addressof(sizeo), - ctypes.c_voidp(ctypes.addressof(newv)), - sizen) - if res == -1: - raise OSError(self._inotify_wrapper.get_errno(), - self._inotify_wrapper.str_errno()) - - value = property(get_val, set_val) - - def __repr__(self): - return '<%s=%d>' % (self._attrname, self.get_val()) - - -# Inotify's variables -# -# FIXME: currently these variables are only accessible when ctypes is used, -# otherwise there are set to None. -# -# read: myvar = max_queued_events.value -# update: max_queued_events.value = 42 -# -for attrname in ('max_queued_events', 'max_user_instances', 'max_user_watches'): - globals()[attrname] = SysCtlINotify.create(attrname) - - -class EventsCodes: - """ - Set of codes corresponding to each kind of events. - Some of these flags are used to communicate with inotify, whereas - the others are sent to userspace by inotify notifying some events. - - @cvar IN_ACCESS: File was accessed. - @type IN_ACCESS: int - @cvar IN_MODIFY: File was modified. - @type IN_MODIFY: int - @cvar IN_ATTRIB: Metadata changed. - @type IN_ATTRIB: int - @cvar IN_CLOSE_WRITE: Writtable file was closed. - @type IN_CLOSE_WRITE: int - @cvar IN_CLOSE_NOWRITE: Unwrittable file closed. - @type IN_CLOSE_NOWRITE: int - @cvar IN_OPEN: File was opened. - @type IN_OPEN: int - @cvar IN_MOVED_FROM: File was moved from X. - @type IN_MOVED_FROM: int - @cvar IN_MOVED_TO: File was moved to Y. - @type IN_MOVED_TO: int - @cvar IN_CREATE: Subfile was created. - @type IN_CREATE: int - @cvar IN_DELETE: Subfile was deleted. - @type IN_DELETE: int - @cvar IN_DELETE_SELF: Self (watched item itself) was deleted. - @type IN_DELETE_SELF: int - @cvar IN_MOVE_SELF: Self (watched item itself) was moved. - @type IN_MOVE_SELF: int - @cvar IN_UNMOUNT: Backing fs was unmounted. - @type IN_UNMOUNT: int - @cvar IN_Q_OVERFLOW: Event queued overflowed. - @type IN_Q_OVERFLOW: int - @cvar IN_IGNORED: File was ignored. - @type IN_IGNORED: int - @cvar IN_ONLYDIR: only watch the path if it is a directory (new - in kernel 2.6.15). - @type IN_ONLYDIR: int - @cvar IN_DONT_FOLLOW: don't follow a symlink (new in kernel 2.6.15). - IN_ONLYDIR we can make sure that we don't watch - the target of symlinks. - @type IN_DONT_FOLLOW: int - @cvar IN_EXCL_UNLINK: Events are not generated for children after they - have been unlinked from the watched directory. - (new in kernel 2.6.36). - @type IN_EXCL_UNLINK: int - @cvar IN_MASK_ADD: add to the mask of an already existing watch (new - in kernel 2.6.14). - @type IN_MASK_ADD: int - @cvar IN_ISDIR: Event occurred against dir. - @type IN_ISDIR: int - @cvar IN_ONESHOT: Only send event once. - @type IN_ONESHOT: int - @cvar ALL_EVENTS: Alias for considering all of the events. - @type ALL_EVENTS: int - """ - - # The idea here is 'configuration-as-code' - this way, we get our nice class - # constants, but we also get nice human-friendly text mappings to do lookups - # against as well, for free: - FLAG_COLLECTIONS = {'OP_FLAGS': { - 'IN_ACCESS' : 0x00000001, # File was accessed - 'IN_MODIFY' : 0x00000002, # File was modified - 'IN_ATTRIB' : 0x00000004, # Metadata changed - 'IN_CLOSE_WRITE' : 0x00000008, # Writable file was closed - 'IN_CLOSE_NOWRITE' : 0x00000010, # Unwritable file closed - 'IN_OPEN' : 0x00000020, # File was opened - 'IN_MOVED_FROM' : 0x00000040, # File was moved from X - 'IN_MOVED_TO' : 0x00000080, # File was moved to Y - 'IN_CREATE' : 0x00000100, # Subfile was created - 'IN_DELETE' : 0x00000200, # Subfile was deleted - 'IN_DELETE_SELF' : 0x00000400, # Self (watched item itself) - # was deleted - 'IN_MOVE_SELF' : 0x00000800, # Self (watched item itself) was moved - }, - 'EVENT_FLAGS': { - 'IN_UNMOUNT' : 0x00002000, # Backing fs was unmounted - 'IN_Q_OVERFLOW' : 0x00004000, # Event queued overflowed - 'IN_IGNORED' : 0x00008000, # File was ignored - }, - 'SPECIAL_FLAGS': { - 'IN_ONLYDIR' : 0x01000000, # only watch the path if it is a - # directory - 'IN_DONT_FOLLOW' : 0x02000000, # don't follow a symlink - 'IN_EXCL_UNLINK' : 0x04000000, # exclude events on unlinked objects - 'IN_MASK_ADD' : 0x20000000, # add to the mask of an already - # existing watch - 'IN_ISDIR' : 0x40000000, # event occurred against dir - 'IN_ONESHOT' : 0x80000000, # only send event once - }, - } - - def maskname(mask): - """ - Returns the event name associated to mask. IN_ISDIR is appended to - the result when appropriate. Note: only one event is returned, because - only one event can be raised at a given time. - - @param mask: mask. - @type mask: int - @return: event name. - @rtype: str - """ - ms = mask - name = '%s' - if mask & IN_ISDIR: - ms = mask - IN_ISDIR - name = '%s|IN_ISDIR' - return name % EventsCodes.ALL_VALUES[ms] - - maskname = staticmethod(maskname) - - -# So let's now turn the configuration into code -EventsCodes.ALL_FLAGS = {} -EventsCodes.ALL_VALUES = {} -for flagc, valc in EventsCodes.FLAG_COLLECTIONS.items(): - # Make the collections' members directly accessible through the - # class dictionary - setattr(EventsCodes, flagc, valc) - - # Collect all the flags under a common umbrella - EventsCodes.ALL_FLAGS.update(valc) - - # Make the individual masks accessible as 'constants' at globals() scope - # and masknames accessible by values. - for name, val in valc.items(): - globals()[name] = val - EventsCodes.ALL_VALUES[val] = name - - -# all 'normal' events -ALL_EVENTS = reduce(lambda x, y: x | y, EventsCodes.OP_FLAGS.values()) -EventsCodes.ALL_FLAGS['ALL_EVENTS'] = ALL_EVENTS -EventsCodes.ALL_VALUES[ALL_EVENTS] = 'ALL_EVENTS' - - -class _Event: - """ - Event structure, represent events raised by the system. This - is the base class and should be subclassed. - - """ - def __init__(self, dict_): - """ - Attach attributes (contained in dict_) to self. - - @param dict_: Set of attributes. - @type dict_: dictionary - """ - for tpl in dict_.items(): - setattr(self, *tpl) - - def __repr__(self): - """ - @return: Generic event string representation. - @rtype: str - """ - s = '' - for attr, value in sorted(self.__dict__.items(), key=lambda x: x[0]): - if attr.startswith('_'): - continue - if attr == 'mask': - value = hex(getattr(self, attr)) - elif isinstance(value, basestring) and not value: - value = "''" - s += ' %s%s%s' % (output_format.field_name(attr), - output_format.punctuation('='), - output_format.field_value(value)) - - s = '%s%s%s %s' % (output_format.punctuation('<'), - output_format.class_name(self.__class__.__name__), - s, - output_format.punctuation('>')) - return s - - def __str__(self): - return repr(self) - - -class _RawEvent(_Event): - """ - Raw event, it contains only the informations provided by the system. - It doesn't infer anything. - """ - def __init__(self, wd, mask, cookie, name): - """ - @param wd: Watch Descriptor. - @type wd: int - @param mask: Bitmask of events. - @type mask: int - @param cookie: Cookie. - @type cookie: int - @param name: Basename of the file or directory against which the - event was raised in case where the watched directory - is the parent directory. None if the event was raised - on the watched item itself. - @type name: string or None - """ - # Use this variable to cache the result of str(self), this object - # is immutable. - self._str = None - # name: remove trailing '\0' - d = {'wd': wd, - 'mask': mask, - 'cookie': cookie, - 'name': name.rstrip('\0')} - _Event.__init__(self, d) - log.debug(str(self)) - - def __str__(self): - if self._str is None: - self._str = _Event.__str__(self) - return self._str - - -class Event(_Event): - """ - This class contains all the useful informations about the observed - event. However, the presence of each field is not guaranteed and - depends on the type of event. In effect, some fields are irrelevant - for some kind of event (for example 'cookie' is meaningless for - IN_CREATE whereas it is mandatory for IN_MOVE_TO). - - The possible fields are: - - wd (int): Watch Descriptor. - - mask (int): Mask. - - maskname (str): Readable event name. - - path (str): path of the file or directory being watched. - - name (str): Basename of the file or directory against which the - event was raised in case where the watched directory - is the parent directory. None if the event was raised - on the watched item itself. This field is always provided - even if the string is ''. - - pathname (str): Concatenation of 'path' and 'name'. - - src_pathname (str): Only present for IN_MOVED_TO events and only in - the case where IN_MOVED_FROM events are watched too. Holds the - source pathname from where pathname was moved from. - - cookie (int): Cookie. - - dir (bool): True if the event was raised against a directory. - - """ - def __init__(self, raw): - """ - Concretely, this is the raw event plus inferred infos. - """ - _Event.__init__(self, raw) - self.maskname = EventsCodes.maskname(self.mask) - if COMPATIBILITY_MODE: - self.event_name = self.maskname - try: - if self.name: - self.pathname = os.path.abspath(os.path.join(self.path, - self.name)) - else: - self.pathname = os.path.abspath(self.path) - except AttributeError, err: - # Usually it is not an error some events are perfectly valids - # despite the lack of these attributes. - log.debug(err) - - -class ProcessEventError(PyinotifyError): - """ - ProcessEventError Exception. Raised on ProcessEvent error. - """ - def __init__(self, err): - """ - @param err: Exception error description. - @type err: string - """ - PyinotifyError.__init__(self, err) - - -class _ProcessEvent: - """ - Abstract processing event class. - """ - def __call__(self, event): - """ - To behave like a functor the object must be callable. - This method is a dispatch method. Its lookup order is: - 1. process_MASKNAME method - 2. process_FAMILY_NAME method - 3. otherwise calls process_default - - @param event: Event to be processed. - @type event: Event object - @return: By convention when used from the ProcessEvent class: - - Returning False or None (default value) means keep on - executing next chained functors (see chain.py example). - - Returning True instead means do not execute next - processing functions. - @rtype: bool - @raise ProcessEventError: Event object undispatchable, - unknown event. - """ - stripped_mask = event.mask - (event.mask & IN_ISDIR) - maskname = EventsCodes.ALL_VALUES.get(stripped_mask) - if maskname is None: - raise ProcessEventError("Unknown mask 0x%08x" % stripped_mask) - - # 1- look for process_MASKNAME - meth = getattr(self, 'process_' + maskname, None) - if meth is not None: - return meth(event) - # 2- look for process_FAMILY_NAME - meth = getattr(self, 'process_IN_' + maskname.split('_')[1], None) - if meth is not None: - return meth(event) - # 3- default call method process_default - return self.process_default(event) - - def __repr__(self): - return '<%s>' % self.__class__.__name__ - - -class _SysProcessEvent(_ProcessEvent): - """ - There is three kind of processing according to each event: - - 1. special handling (deletion from internal container, bug, ...). - 2. default treatment: which is applied to the majority of events. - 3. IN_ISDIR is never sent alone, he is piggybacked with a standard - event, he is not processed as the others events, instead, its - value is captured and appropriately aggregated to dst event. - """ - def __init__(self, wm, notifier): - """ - - @param wm: Watch Manager. - @type wm: WatchManager instance - @param notifier: Notifier. - @type notifier: Notifier instance - """ - self._watch_manager = wm # watch manager - self._notifier = notifier # notifier - self._mv_cookie = {} # {cookie(int): (src_path(str), date), ...} - self._mv = {} # {src_path(str): (dst_path(str), date), ...} - - def cleanup(self): - """ - Cleanup (delete) old (>1mn) records contained in self._mv_cookie - and self._mv. - """ - date_cur_ = datetime.now() - for seq in [self._mv_cookie, self._mv]: - for k in seq.keys(): - if (date_cur_ - seq[k][1]) > timedelta(minutes=1): - log.debug('Cleanup: deleting entry %s', seq[k][0]) - del seq[k] - - def process_IN_CREATE(self, raw_event): - """ - If the event affects a directory and the auto_add flag of the - targetted watch is set to True, a new watch is added on this - new directory, with the same attribute values than those of - this watch. - """ - if raw_event.mask & IN_ISDIR: - watch_ = self._watch_manager.get_watch(raw_event.wd) - created_dir = os.path.join(watch_.path, raw_event.name) - if watch_.auto_add and not watch_.exclude_filter(created_dir): - addw = self._watch_manager.add_watch - # The newly monitored directory inherits attributes from its - # parent directory. - addw_ret = addw(created_dir, watch_.mask, - proc_fun=watch_.proc_fun, - rec=False, auto_add=watch_.auto_add, - exclude_filter=watch_.exclude_filter) - - # Trick to handle mkdir -p /d1/d2/t3 where d1 is watched and - # d2 and t3 (directory or file) are created. - # Since the directory d2 is new, then everything inside it must - # also be new. - created_dir_wd = addw_ret.get(created_dir) - if ((created_dir_wd is not None) and (created_dir_wd > 0) and - os.path.isdir(created_dir)): - try: - for name in os.listdir(created_dir): - inner = os.path.join(created_dir, name) - if self._watch_manager.get_wd(inner) is not None: - continue - # Generate (simulate) creation events for sub- - # directories and files. - if os.path.isfile(inner): - # symlinks are handled as files. - flags = IN_CREATE - elif os.path.isdir(inner): - flags = IN_CREATE | IN_ISDIR - else: - # This path should not be taken. - continue - rawevent = _RawEvent(created_dir_wd, flags, 0, name) - self._notifier.append_event(rawevent) - except OSError, err: - msg = "process_IN_CREATE, invalid directory %s: %s" - log.debug(msg % (created_dir, str(err))) - return self.process_default(raw_event) - - def process_IN_MOVED_FROM(self, raw_event): - """ - Map the cookie with the source path (+ date for cleaning). - """ - watch_ = self._watch_manager.get_watch(raw_event.wd) - path_ = watch_.path - src_path = os.path.normpath(os.path.join(path_, raw_event.name)) - self._mv_cookie[raw_event.cookie] = (src_path, datetime.now()) - return self.process_default(raw_event, {'cookie': raw_event.cookie}) - - def process_IN_MOVED_TO(self, raw_event): - """ - Map the source path with the destination path (+ date for - cleaning). - """ - watch_ = self._watch_manager.get_watch(raw_event.wd) - path_ = watch_.path - dst_path = os.path.normpath(os.path.join(path_, raw_event.name)) - mv_ = self._mv_cookie.get(raw_event.cookie) - to_append = {'cookie': raw_event.cookie} - if mv_ is not None: - self._mv[mv_[0]] = (dst_path, datetime.now()) - # Let's assume that IN_MOVED_FROM event is always queued before - # that its associated (they share a common cookie) IN_MOVED_TO - # event is queued itself. It is then possible in that scenario - # to provide as additional information to the IN_MOVED_TO event - # the original pathname of the moved file/directory. - to_append['src_pathname'] = mv_[0] - elif (raw_event.mask & IN_ISDIR and watch_.auto_add and - not watch_.exclude_filter(dst_path)): - # We got a diretory that's "moved in" from an unknown source and - # auto_add is enabled. Manually add watches to the inner subtrees. - # The newly monitored directory inherits attributes from its - # parent directory. - self._watch_manager.add_watch(dst_path, watch_.mask, - proc_fun=watch_.proc_fun, - rec=True, auto_add=True, - exclude_filter=watch_.exclude_filter) - return self.process_default(raw_event, to_append) - - def process_IN_MOVE_SELF(self, raw_event): - """ - STATUS: the following bug has been fixed in recent kernels (FIXME: - which version ?). Now it raises IN_DELETE_SELF instead. - - Old kernels were bugged, this event raised when the watched item - were moved, so we had to update its path, but under some circumstances - it was impossible: if its parent directory and its destination - directory wasn't watched. The kernel (see include/linux/fsnotify.h) - doesn't bring us enough informations like the destination path of - moved items. - """ - watch_ = self._watch_manager.get_watch(raw_event.wd) - src_path = watch_.path - mv_ = self._mv.get(src_path) - if mv_: - dest_path = mv_[0] - watch_.path = dest_path - # add the separator to the source path to avoid overlapping - # path issue when testing with startswith() - src_path += os.path.sep - src_path_len = len(src_path) - # The next loop renames all watches with src_path as base path. - # It seems that IN_MOVE_SELF does not provide IN_ISDIR information - # therefore the next loop is iterated even if raw_event is a file. - for w in self._watch_manager.watches.values(): - if w.path.startswith(src_path): - # Note that dest_path is a normalized path. - w.path = os.path.join(dest_path, w.path[src_path_len:]) - else: - log.error("The pathname '%s' of this watch %s has probably changed " - "and couldn't be updated, so it cannot be trusted " - "anymore. To fix this error move directories/files only " - "between watched parents directories, in this case e.g. " - "put a watch on '%s'.", - watch_.path, watch_, - os.path.normpath(os.path.join(watch_.path, - os.path.pardir))) - if not watch_.path.endswith('-unknown-path'): - watch_.path += '-unknown-path' - return self.process_default(raw_event) - - def process_IN_Q_OVERFLOW(self, raw_event): - """ - Only signal an overflow, most of the common flags are irrelevant - for this event (path, wd, name). - """ - return Event({'mask': raw_event.mask}) - - def process_IN_IGNORED(self, raw_event): - """ - The watch descriptor raised by this event is now ignored (forever), - it can be safely deleted from the watch manager dictionary. - After this event we can be sure that neither the event queue nor - the system will raise an event associated to this wd again. - """ - event_ = self.process_default(raw_event) - self._watch_manager.del_watch(raw_event.wd) - return event_ - - def process_default(self, raw_event, to_append=None): - """ - Commons handling for the followings events: - - IN_ACCESS, IN_MODIFY, IN_ATTRIB, IN_CLOSE_WRITE, IN_CLOSE_NOWRITE, - IN_OPEN, IN_DELETE, IN_DELETE_SELF, IN_UNMOUNT. - """ - watch_ = self._watch_manager.get_watch(raw_event.wd) - if raw_event.mask & (IN_DELETE_SELF | IN_MOVE_SELF): - # Unfornulately this information is not provided by the kernel - dir_ = watch_.dir - else: - dir_ = bool(raw_event.mask & IN_ISDIR) - dict_ = {'wd': raw_event.wd, - 'mask': raw_event.mask, - 'path': watch_.path, - 'name': raw_event.name, - 'dir': dir_} - if COMPATIBILITY_MODE: - dict_['is_dir'] = dir_ - if to_append is not None: - dict_.update(to_append) - return Event(dict_) - - -class ProcessEvent(_ProcessEvent): - """ - Process events objects, can be specialized via subclassing, thus its - behavior can be overriden: - - Note: you should not override __init__ in your subclass instead define - a my_init() method, this method will be called automatically from the - constructor of this class with its optionals parameters. - - 1. Provide specialized individual methods, e.g. process_IN_DELETE for - processing a precise type of event (e.g. IN_DELETE in this case). - 2. Or/and provide methods for processing events by 'family', e.g. - process_IN_CLOSE method will process both IN_CLOSE_WRITE and - IN_CLOSE_NOWRITE events (if process_IN_CLOSE_WRITE and - process_IN_CLOSE_NOWRITE aren't defined though). - 3. Or/and override process_default for catching and processing all - the remaining types of events. - """ - pevent = None - - def __init__(self, pevent=None, **kargs): - """ - Enable chaining of ProcessEvent instances. - - @param pevent: Optional callable object, will be called on event - processing (before self). - @type pevent: callable - @param kargs: This constructor is implemented as a template method - delegating its optionals keyworded arguments to the - method my_init(). - @type kargs: dict - """ - self.pevent = pevent - self.my_init(**kargs) - - def my_init(self, **kargs): - """ - This method is called from ProcessEvent.__init__(). This method is - empty here and must be redefined to be useful. In effect, if you - need to specifically initialize your subclass' instance then you - just have to override this method in your subclass. Then all the - keyworded arguments passed to ProcessEvent.__init__() will be - transmitted as parameters to this method. Beware you MUST pass - keyword arguments though. - - @param kargs: optional delegated arguments from __init__(). - @type kargs: dict - """ - pass - - def __call__(self, event): - stop_chaining = False - if self.pevent is not None: - # By default methods return None so we set as guideline - # that methods asking for stop chaining must explicitely - # return non None or non False values, otherwise the default - # behavior will be to accept chain call to the corresponding - # local method. - stop_chaining = self.pevent(event) - if not stop_chaining: - return _ProcessEvent.__call__(self, event) - - def nested_pevent(self): - return self.pevent - - def process_IN_Q_OVERFLOW(self, event): - """ - By default this method only reports warning messages, you can overredide - it by subclassing ProcessEvent and implement your own - process_IN_Q_OVERFLOW method. The actions you can take on receiving this - event is either to update the variable max_queued_events in order to - handle more simultaneous events or to modify your code in order to - accomplish a better filtering diminishing the number of raised events. - Because this method is defined, IN_Q_OVERFLOW will never get - transmitted as arguments to process_default calls. - - @param event: IN_Q_OVERFLOW event. - @type event: dict - """ - log.warning('Event queue overflowed.') - - def process_default(self, event): - """ - Default processing event method. By default does nothing. Subclass - ProcessEvent and redefine this method in order to modify its behavior. - - @param event: Event to be processed. Can be of any type of events but - IN_Q_OVERFLOW events (see method process_IN_Q_OVERFLOW). - @type event: Event instance - """ - pass - - -class PrintAllEvents(ProcessEvent): - """ - Dummy class used to print events strings representations. For instance this - class is used from command line to print all received events to stdout. - """ - def my_init(self, out=None): - """ - @param out: Where events will be written. - @type out: Object providing a valid file object interface. - """ - if out is None: - out = sys.stdout - self._out = out - - def process_default(self, event): - """ - Writes event string representation to file object provided to - my_init(). - - @param event: Event to be processed. Can be of any type of events but - IN_Q_OVERFLOW events (see method process_IN_Q_OVERFLOW). - @type event: Event instance - """ - self._out.write(str(event)) - self._out.write('\n') - self._out.flush() - - -class ChainIfTrue(ProcessEvent): - """ - Makes conditional chaining depending on the result of the nested - processing instance. - """ - def my_init(self, func): - """ - Method automatically called from base class constructor. - """ - self._func = func - - def process_default(self, event): - return not self._func(event) - - -class Stats(ProcessEvent): - """ - Compute and display trivial statistics about processed events. - """ - def my_init(self): - """ - Method automatically called from base class constructor. - """ - self._start_time = time.time() - self._stats = {} - self._stats_lock = threading.Lock() - - def process_default(self, event): - """ - Processes |event|. - """ - self._stats_lock.acquire() - try: - events = event.maskname.split('|') - for event_name in events: - count = self._stats.get(event_name, 0) - self._stats[event_name] = count + 1 - finally: - self._stats_lock.release() - - def _stats_copy(self): - self._stats_lock.acquire() - try: - return self._stats.copy() - finally: - self._stats_lock.release() - - def __repr__(self): - stats = self._stats_copy() - - elapsed = int(time.time() - self._start_time) - elapsed_str = '' - if elapsed < 60: - elapsed_str = str(elapsed) + 'sec' - elif 60 <= elapsed < 3600: - elapsed_str = '%dmn%dsec' % (elapsed / 60, elapsed % 60) - elif 3600 <= elapsed < 86400: - elapsed_str = '%dh%dmn' % (elapsed / 3600, (elapsed % 3600) / 60) - elif elapsed >= 86400: - elapsed_str = '%dd%dh' % (elapsed / 86400, (elapsed % 86400) / 3600) - stats['ElapsedTime'] = elapsed_str - - l = [] - for ev, value in sorted(stats.items(), key=lambda x: x[0]): - l.append(' %s=%s' % (output_format.field_name(ev), - output_format.field_value(value))) - s = '<%s%s >' % (output_format.class_name(self.__class__.__name__), - ''.join(l)) - return s - - def dump(self, filename): - """ - Dumps statistics. - - @param filename: filename where stats will be dumped, filename is - created and must not exist prior to this call. - @type filename: string - """ - flags = os.O_WRONLY|os.O_CREAT|os.O_NOFOLLOW|os.O_EXCL - fd = os.open(filename, flags, 0600) - os.write(fd, str(self)) - os.close(fd) - - def __str__(self, scale=45): - stats = self._stats_copy() - if not stats: - return '' - - m = max(stats.values()) - unity = float(scale) / m - fmt = '%%-26s%%-%ds%%s' % (len(output_format.field_value('@' * scale)) - + 1) - def func(x): - return fmt % (output_format.field_name(x[0]), - output_format.field_value('@' * int(x[1] * unity)), - output_format.simple('%d' % x[1], 'yellow')) - s = '\n'.join(map(func, sorted(stats.items(), key=lambda x: x[0]))) - return s - - -class NotifierError(PyinotifyError): - """ - Notifier Exception. Raised on Notifier error. - - """ - def __init__(self, err): - """ - @param err: Exception string's description. - @type err: string - """ - PyinotifyError.__init__(self, err) - - -class Notifier: - """ - Read notifications, process events. - - """ - def __init__(self, watch_manager, default_proc_fun=None, read_freq=0, - threshold=0, timeout=None): - """ - Initialization. read_freq, threshold and timeout parameters are used - when looping. - - @param watch_manager: Watch Manager. - @type watch_manager: WatchManager instance - @param default_proc_fun: Default processing method. If None, a new - instance of PrintAllEvents will be assigned. - @type default_proc_fun: instance of ProcessEvent - @param read_freq: if read_freq == 0, events are read asap, - if read_freq is > 0, this thread sleeps - max(0, read_freq - timeout) seconds. But if - timeout is None it may be different because - poll is blocking waiting for something to read. - @type read_freq: int - @param threshold: File descriptor will be read only if the accumulated - size to read becomes >= threshold. If != 0, you likely - want to use it in combination with an appropriate - value for read_freq because without that you would - keep looping without really reading anything and that - until the amount of events to read is >= threshold. - At least with read_freq set you might sleep. - @type threshold: int - @param timeout: - https://docs.python.org/3/library/select.html#polling-objects - @type timeout: int - """ - # Watch Manager instance - self._watch_manager = watch_manager - # File descriptor - self._fd = self._watch_manager.get_fd() - # Poll object and registration - self._pollobj = select.poll() - self._pollobj.register(self._fd, select.POLLIN) - # This pipe is correctely initialized and used by ThreadedNotifier - self._pipe = (-1, -1) - # Event queue - self._eventq = deque() - # System processing functor, common to all events - self._sys_proc_fun = _SysProcessEvent(self._watch_manager, self) - # Default processing method - self._default_proc_fun = default_proc_fun - if default_proc_fun is None: - self._default_proc_fun = PrintAllEvents() - # Loop parameters - self._read_freq = read_freq - self._threshold = threshold - self._timeout = timeout - # Coalesce events option - self._coalesce = False - # set of str(raw_event), only used when coalesce option is True - self._eventset = set() - - def append_event(self, event): - """ - Append a raw event to the event queue. - - @param event: An event. - @type event: _RawEvent instance. - """ - self._eventq.append(event) - - def proc_fun(self): - return self._default_proc_fun - - def coalesce_events(self, coalesce=True): - """ - Coalescing events. Events are usually processed by batchs, their size - depend on various factors. Thus, before processing them, events received - from inotify are aggregated in a fifo queue. If this coalescing - option is enabled events are filtered based on their unicity, only - unique events are enqueued, doublons are discarded. An event is unique - when the combination of its fields (wd, mask, cookie, name) is unique - among events of a same batch. After a batch of events is processed any - events is accepted again. By default this option is disabled, you have - to explictly call this function to turn it on. - - @param coalesce: Optional new coalescing value. True by default. - @type coalesce: Bool - """ - self._coalesce = coalesce - if not coalesce: - self._eventset.clear() - - def check_events(self, timeout=None): - """ - Check for new events available to read, blocks up to timeout - milliseconds. - - @param timeout: If specified it overrides the corresponding instance - attribute _timeout. - @type timeout: int - - @return: New events to read. - @rtype: bool - """ - while True: - try: - # blocks up to 'timeout' milliseconds - if timeout is None: - timeout = self._timeout - ret = self._pollobj.poll(timeout) - except select.error, err: - if err[0] == errno.EINTR: - continue # interrupted, retry - else: - raise - else: - break - - if not ret or (self._pipe[0] == ret[0][0]): - return False - # only one fd is polled - return ret[0][1] & select.POLLIN - - def read_events(self): - """ - Read events from device, build _RawEvents, and enqueue them. - """ - buf_ = array.array('i', [0]) - # get event queue size - if fcntl.ioctl(self._fd, termios.FIONREAD, buf_, 1) == -1: - return - queue_size = buf_[0] - if queue_size < self._threshold: - log.debug('(fd: %d) %d bytes available to read but threshold is ' - 'fixed to %d bytes', self._fd, queue_size, - self._threshold) - return - - try: - # Read content from file - r = os.read(self._fd, queue_size) - except Exception, msg: - raise NotifierError(msg) - log.debug('Event queue size: %d', queue_size) - rsum = 0 # counter - while rsum < queue_size: - s_size = 16 - # Retrieve wd, mask, cookie and fname_len - wd, mask, cookie, fname_len = struct.unpack('iIII', - r[rsum:rsum+s_size]) - # Retrieve name - fname, = struct.unpack('%ds' % fname_len, - r[rsum + s_size:rsum + s_size + fname_len]) - rawevent = _RawEvent(wd, mask, cookie, fname) - if self._coalesce: - # Only enqueue new (unique) events. - raweventstr = str(rawevent) - if raweventstr not in self._eventset: - self._eventset.add(raweventstr) - self._eventq.append(rawevent) - else: - self._eventq.append(rawevent) - rsum += s_size + fname_len - - def process_events(self): - """ - Routine for processing events from queue by calling their - associated proccessing method (an instance of ProcessEvent). - It also does internal processings, to keep the system updated. - """ - while self._eventq: - raw_event = self._eventq.popleft() # pop next event - if self._watch_manager.ignore_events: - log.debug("Event ignored: %s" % repr(raw_event)) - continue - watch_ = self._watch_manager.get_watch(raw_event.wd) - if (watch_ is None) and not (raw_event.mask & IN_Q_OVERFLOW): - if not (raw_event.mask & IN_IGNORED): - # Not really sure how we ended up here, nor how we should - # handle these types of events and if it is appropriate to - # completly skip them (like we are doing here). - log.warning("Unable to retrieve Watch object associated to %s", - repr(raw_event)) - continue - revent = self._sys_proc_fun(raw_event) # system processings - if watch_ and watch_.proc_fun: - watch_.proc_fun(revent) # user processings - else: - self._default_proc_fun(revent) - self._sys_proc_fun.cleanup() # remove olds MOVED_* events records - if self._coalesce: - self._eventset.clear() - - def __daemonize(self, pid_file=None, stdin=os.devnull, stdout=os.devnull, - stderr=os.devnull): - """ - @param pid_file: file where the pid will be written. If pid_file=None - the pid is written to - /var/run/<sys.argv[0]|pyinotify>.pid, if pid_file=False - no pid_file is written. - @param stdin: - @param stdout: - @param stderr: files associated to common streams. - """ - if pid_file is None: - dirname = '/var/run/' - basename = os.path.basename(sys.argv[0]) or 'pyinotify' - pid_file = os.path.join(dirname, basename + '.pid') - - if pid_file != False and os.path.lexists(pid_file): - err = 'Cannot daemonize: pid file %s already exists.' % pid_file - raise NotifierError(err) - - def fork_daemon(): - # Adapted from Chad J. Schroeder's recipe - # @see http://code.activestate.com/recipes/278731/ - pid = os.fork() - if (pid == 0): - # parent 2 - os.setsid() - pid = os.fork() - if (pid == 0): - # child - os.chdir('/') - os.umask(022) - else: - # parent 2 - os._exit(0) - else: - # parent 1 - os._exit(0) - - fd_inp = os.open(stdin, os.O_RDONLY) - os.dup2(fd_inp, 0) - fd_out = os.open(stdout, os.O_WRONLY|os.O_CREAT, 0600) - os.dup2(fd_out, 1) - fd_err = os.open(stderr, os.O_WRONLY|os.O_CREAT, 0600) - os.dup2(fd_err, 2) - - # Detach task - fork_daemon() - - # Write pid - if pid_file != False: - flags = os.O_WRONLY|os.O_CREAT|os.O_NOFOLLOW|os.O_EXCL - fd_pid = os.open(pid_file, flags, 0600) - os.write(fd_pid, str(os.getpid()) + '\n') - os.close(fd_pid) - # Register unlink function - atexit.register(lambda : os.unlink(pid_file)) - - def _sleep(self, ref_time): - # Only consider sleeping if read_freq is > 0 - if self._read_freq > 0: - cur_time = time.time() - sleep_amount = self._read_freq - (cur_time - ref_time) - if sleep_amount > 0: - log.debug('Now sleeping %d seconds', sleep_amount) - time.sleep(sleep_amount) - - def loop(self, callback=None, daemonize=False, **args): - """ - Events are read only one time every min(read_freq, timeout) - seconds at best and only if the size to read is >= threshold. - After this method returns it must not be called again for the same - instance. - - @param callback: Functor called after each event processing iteration. - Expects to receive the notifier object (self) as first - parameter. If this function returns True the loop is - immediately terminated otherwise the loop method keeps - looping. - @type callback: callable object or function - @param daemonize: This thread is daemonized if set to True. - @type daemonize: boolean - @param args: Optional and relevant only if daemonize is True. Remaining - keyworded arguments are directly passed to daemonize see - __daemonize() method. If pid_file=None or is set to a - pathname the caller must ensure the file does not exist - before this method is called otherwise an exception - pyinotify.NotifierError will be raised. If pid_file=False - it is still daemonized but the pid is not written in any - file. - @type args: various - """ - if daemonize: - self.__daemonize(**args) - - # Read and process events forever - while 1: - try: - self.process_events() - if (callback is not None) and (callback(self) is True): - break - ref_time = time.time() - # check_events is blocking - if self.check_events(): - self._sleep(ref_time) - self.read_events() - except KeyboardInterrupt: - # Stop monitoring if sigint is caught (Control-C). - log.debug('Pyinotify stops monitoring.') - break - # Close internals - self.stop() - - def stop(self): - """ - Close inotify's instance (close its file descriptor). - It destroys all existing watches, pending events,... - This method is automatically called at the end of loop(). - """ - self._pollobj.unregister(self._fd) - os.close(self._fd) - self._sys_proc_fun = None - - -class ThreadedNotifier(threading.Thread, Notifier): - """ - This notifier inherits from threading.Thread for instanciating a separate - thread, and also inherits from Notifier, because it is a threaded notifier. - - Note that every functionality provided by this class is also provided - through Notifier class. Moreover Notifier should be considered first because - it is not threaded and could be easily daemonized. - """ - def __init__(self, watch_manager, default_proc_fun=None, read_freq=0, - threshold=0, timeout=None): - """ - Initialization, initialize base classes. read_freq, threshold and - timeout parameters are used when looping. - - @param watch_manager: Watch Manager. - @type watch_manager: WatchManager instance - @param default_proc_fun: Default processing method. See base class. - @type default_proc_fun: instance of ProcessEvent - @param read_freq: if read_freq == 0, events are read asap, - if read_freq is > 0, this thread sleeps - max(0, read_freq - timeout) seconds. - @type read_freq: int - @param threshold: File descriptor will be read only if the accumulated - size to read becomes >= threshold. If != 0, you likely - want to use it in combination with an appropriate - value set for read_freq because without that you would - keep looping without really reading anything and that - until the amount of events to read is >= threshold. At - least with read_freq you might sleep. - @type threshold: int - @param timeout: - https://docs.python.org/3/library/select.html#polling-objects - @type timeout: int - """ - # Init threading base class - threading.Thread.__init__(self) - # Stop condition - self._stop_event = threading.Event() - # Init Notifier base class - Notifier.__init__(self, watch_manager, default_proc_fun, read_freq, - threshold, timeout) - # Create a new pipe used for thread termination - self._pipe = os.pipe() - self._pollobj.register(self._pipe[0], select.POLLIN) - - def stop(self): - """ - Stop notifier's loop. Stop notification. Join the thread. - """ - self._stop_event.set() - os.write(self._pipe[1], 'stop') - threading.Thread.join(self) - Notifier.stop(self) - self._pollobj.unregister(self._pipe[0]) - os.close(self._pipe[0]) - os.close(self._pipe[1]) - - def loop(self): - """ - Thread's main loop. Don't meant to be called by user directly. - Call inherited start() method instead. - - Events are read only once time every min(read_freq, timeout) - seconds at best and only if the size of events to read is >= threshold. - """ - # When the loop must be terminated .stop() is called, 'stop' - # is written to pipe fd so poll() returns and .check_events() - # returns False which make evaluate the While's stop condition - # ._stop_event.isSet() wich put an end to the thread's execution. - while not self._stop_event.isSet(): - self.process_events() - ref_time = time.time() - if self.check_events(): - self._sleep(ref_time) - self.read_events() - - def run(self): - """ - Start thread's loop: read and process events until the method - stop() is called. - Never call this method directly, instead call the start() method - inherited from threading.Thread, which then will call run() in - its turn. - """ - self.loop() - - -class AsyncNotifier(asyncore.file_dispatcher, Notifier): - """ - This notifier inherits from asyncore.file_dispatcher in order to be able to - use pyinotify along with the asyncore framework. - - """ - def __init__(self, watch_manager, default_proc_fun=None, read_freq=0, - threshold=0, timeout=None, channel_map=None): - """ - Initializes the async notifier. The only additional parameter is - 'channel_map' which is the optional asyncore private map. See - Notifier class for the meaning of the others parameters. - - """ - Notifier.__init__(self, watch_manager, default_proc_fun, read_freq, - threshold, timeout) - asyncore.file_dispatcher.__init__(self, self._fd, channel_map) - - def handle_read(self): - """ - When asyncore tells us we can read from the fd, we proceed processing - events. This method can be overridden for handling a notification - differently. - - """ - self.read_events() - self.process_events() - - -class TornadoAsyncNotifier(Notifier): - """ - Tornado ioloop adapter. - - """ - def __init__(self, watch_manager, ioloop, callback=None, - default_proc_fun=None, read_freq=0, threshold=0, timeout=None, - channel_map=None): - """ - Note that if later you must call ioloop.close() be sure to let the - default parameter to all_fds=False. - - See example tornado_notifier.py for an example using this notifier. - - @param ioloop: Tornado's IO loop. - @type ioloop: tornado.ioloop.IOLoop instance. - @param callback: Functor called at the end of each call to handle_read - (IOLoop's read handler). Expects to receive the - notifier object (self) as single parameter. - @type callback: callable object or function - """ - self.io_loop = ioloop - self.handle_read_callback = callback - Notifier.__init__(self, watch_manager, default_proc_fun, read_freq, - threshold, timeout) - ioloop.add_handler(self._fd, self.handle_read, ioloop.READ) - - def stop(self): - self.io_loop.remove_handler(self._fd) - Notifier.stop(self) - - def handle_read(self, *args, **kwargs): - """ - See comment in AsyncNotifier. - - """ - self.read_events() - self.process_events() - if self.handle_read_callback is not None: - self.handle_read_callback(self) - - -class AsyncioNotifier(Notifier): - """ - - asyncio/trollius event loop adapter. - - """ - def __init__(self, watch_manager, loop, callback=None, - default_proc_fun=None, read_freq=0, threshold=0, timeout=None): - """ - - See examples/asyncio_notifier.py for an example usage. - - @param loop: asyncio or trollius event loop instance. - @type loop: asyncio.BaseEventLoop or trollius.BaseEventLoop instance. - @param callback: Functor called at the end of each call to handle_read. - Expects to receive the notifier object (self) as - single parameter. - @type callback: callable object or function - - """ - self.loop = loop - self.handle_read_callback = callback - Notifier.__init__(self, watch_manager, default_proc_fun, read_freq, - threshold, timeout) - loop.add_reader(self._fd, self.handle_read) - - def stop(self): - self.loop.remove_reader(self._fd) - Notifier.stop(self) - - def handle_read(self, *args, **kwargs): - self.read_events() - self.process_events() - if self.handle_read_callback is not None: - self.handle_read_callback(self) - - -class Watch: - """ - Represent a watch, i.e. a file or directory being watched. - - """ - __slots__ = ('wd', 'path', 'mask', 'proc_fun', 'auto_add', - 'exclude_filter', 'dir') - - def __init__(self, wd, path, mask, proc_fun, auto_add, exclude_filter): - """ - Initializations. - - @param wd: Watch descriptor. - @type wd: int - @param path: Path of the file or directory being watched. - @type path: str - @param mask: Mask. - @type mask: int - @param proc_fun: Processing callable object. - @type proc_fun: - @param auto_add: Automatically add watches on new directories. - @type auto_add: bool - @param exclude_filter: Boolean function, used to exclude new - directories from being automatically watched. - See WatchManager.__init__ - @type exclude_filter: callable object - """ - self.wd = wd - self.path = path - self.mask = mask - self.proc_fun = proc_fun - self.auto_add = auto_add - self.exclude_filter = exclude_filter - self.dir = os.path.isdir(self.path) - - def __repr__(self): - """ - @return: String representation. - @rtype: str - """ - s = ' '.join(['%s%s%s' % (output_format.field_name(attr), - output_format.punctuation('='), - output_format.field_value(getattr(self, - attr))) \ - for attr in self.__slots__ if not attr.startswith('_')]) - - s = '%s%s %s %s' % (output_format.punctuation('<'), - output_format.class_name(self.__class__.__name__), - s, - output_format.punctuation('>')) - return s - - -class ExcludeFilter: - """ - ExcludeFilter is an exclusion filter. - - """ - def __init__(self, arg_lst): - """ - Examples: - ef1 = ExcludeFilter(["/etc/rc.*", "/etc/hostname"]) - ef2 = ExcludeFilter("/my/path/exclude.lst") - Where exclude.lst contains: - /etc/rc.* - /etc/hostname - - Note: it is not possible to exclude a file if its encapsulating - directory is itself watched. See this issue for more details - https://github.com/seb-m/pyinotify/issues/31 - - @param arg_lst: is either a list of patterns or a filename from which - patterns will be loaded. - @type arg_lst: list of str or str - """ - if isinstance(arg_lst, str): - lst = self._load_patterns_from_file(arg_lst) - elif isinstance(arg_lst, list): - lst = arg_lst - else: - raise TypeError - - self._lregex = [] - for regex in lst: - self._lregex.append(re.compile(regex, re.UNICODE)) - - def _load_patterns_from_file(self, filename): - lst = [] - file_obj = file(filename, 'r') - try: - for line in file_obj.readlines(): - # Trim leading an trailing whitespaces - pattern = line.strip() - if not pattern or pattern.startswith('#'): - continue - lst.append(pattern) - finally: - file_obj.close() - return lst - - def _match(self, regex, path): - return regex.match(path) is not None - - def __call__(self, path): - """ - @param path: Path to match against provided regexps. - @type path: str - @return: Return True if path has been matched and should - be excluded, False otherwise. - @rtype: bool - """ - for regex in self._lregex: - if self._match(regex, path): - return True - return False - - -class WatchManagerError(Exception): - """ - WatchManager Exception. Raised on error encountered on watches - operations. - - """ - def __init__(self, msg, wmd): - """ - @param msg: Exception string's description. - @type msg: string - @param wmd: This dictionary contains the wd assigned to paths of the - same call for which watches were successfully added. - @type wmd: dict - """ - self.wmd = wmd - Exception.__init__(self, msg) - - -class WatchManager: - """ - Provide operations for watching files and directories. Its internal - dictionary is used to reference watched items. When used inside - threaded code, one must instanciate as many WatchManager instances as - there are ThreadedNotifier instances. - - """ - def __init__(self, exclude_filter=lambda path: False): - """ - Initialization: init inotify, init watch manager dictionary. - Raise OSError if initialization fails, raise InotifyBindingNotFoundError - if no inotify binding was found (through ctypes or from direct access to - syscalls). - - @param exclude_filter: boolean function, returns True if current - path must be excluded from being watched. - Convenient for providing a common exclusion - filter for every call to add_watch. - @type exclude_filter: callable object - """ - self._ignore_events = False - self._exclude_filter = exclude_filter - self._wmd = {} # watch dict key: watch descriptor, value: watch - - self._inotify_wrapper = INotifyWrapper.create() - if self._inotify_wrapper is None: - raise InotifyBindingNotFoundError() - - self._fd = self._inotify_wrapper.inotify_init() # file descriptor - if self._fd < 0: - err = 'Cannot initialize new instance of inotify, %s' - raise OSError(err % self._inotify_wrapper.str_errno()) - - def close(self): - """ - Close inotify's file descriptor, this action will also automatically - remove (i.e. stop watching) all its associated watch descriptors. - After a call to this method the WatchManager's instance become useless - and cannot be reused, a new instance must then be instanciated. It - makes sense to call this method in few situations for instance if - several independant WatchManager must be instanciated or if all watches - must be removed and no other watches need to be added. - """ - os.close(self._fd) - - def get_fd(self): - """ - Return assigned inotify's file descriptor. - - @return: File descriptor. - @rtype: int - """ - return self._fd - - def get_watch(self, wd): - """ - Get watch from provided watch descriptor wd. - - @param wd: Watch descriptor. - @type wd: int - """ - return self._wmd.get(wd) - - def del_watch(self, wd): - """ - Remove watch entry associated to watch descriptor wd. - - @param wd: Watch descriptor. - @type wd: int - """ - try: - del self._wmd[wd] - except KeyError, err: - log.error('Cannot delete unknown watch descriptor %s' % str(err)) - - @property - def watches(self): - """ - Get a reference on the internal watch manager dictionary. - - @return: Internal watch manager dictionary. - @rtype: dict - """ - return self._wmd - - def __format_path(self, path): - """ - Format path to its internal (stored in watch manager) representation. - """ - # Unicode strings are converted back to strings, because it seems - # that inotify_add_watch from ctypes does not work well when - # it receives an ctypes.create_unicode_buffer instance as argument. - # Therefore even wd are indexed with bytes string and not with - # unicode paths. - if isinstance(path, unicode): - path = path.encode(sys.getfilesystemencoding()) - return os.path.normpath(path) - - def __add_watch(self, path, mask, proc_fun, auto_add, exclude_filter): - """ - Add a watch on path, build a Watch object and insert it in the - watch manager dictionary. Return the wd value. - """ - path = self.__format_path(path) - if auto_add and not mask & IN_CREATE: - mask |= IN_CREATE - wd = self._inotify_wrapper.inotify_add_watch(self._fd, path, mask) - if wd < 0: - return wd - watch = Watch(wd=wd, path=path, mask=mask, proc_fun=proc_fun, - auto_add=auto_add, exclude_filter=exclude_filter) - self._wmd[wd] = watch - log.debug('New %s', watch) - return wd - - def __glob(self, path, do_glob): - if do_glob: - return glob(path) - else: - return [path] - - def add_watch(self, path, mask, proc_fun=None, rec=False, - auto_add=False, do_glob=False, quiet=True, - exclude_filter=None): - """ - Add watch(s) on the provided |path|(s) with associated |mask| flag - value and optionally with a processing |proc_fun| function and - recursive flag |rec| set to True. - Ideally |path| components should not be unicode objects. Note that - although unicode paths are accepted there are converted to byte - strings before a watch is put on that path. The encoding used for - converting the unicode object is given by sys.getfilesystemencoding(). - If |path| si already watched it is ignored, but if it is called with - option rec=True a watch is put on each one of its not-watched - subdirectory. - - @param path: Path to watch, the path can either be a file or a - directory. Also accepts a sequence (list) of paths. - @type path: string or list of strings - @param mask: Bitmask of events. - @type mask: int - @param proc_fun: Processing object. - @type proc_fun: function or ProcessEvent instance or instance of - one of its subclasses or callable object. - @param rec: Recursively add watches from path on all its - subdirectories, set to False by default (doesn't - follows symlinks in any case). - @type rec: bool - @param auto_add: Automatically add watches on newly created - directories in watched parent |path| directory. - If |auto_add| is True, IN_CREATE is ored with |mask| - when the watch is added. - @type auto_add: bool - @param do_glob: Do globbing on pathname (see standard globbing - module for more informations). - @type do_glob: bool - @param quiet: if False raises a WatchManagerError exception on - error. See example not_quiet.py. - @type quiet: bool - @param exclude_filter: predicate (boolean function), which returns - True if the current path must be excluded - from being watched. This argument has - precedence over exclude_filter passed to - the class' constructor. - @type exclude_filter: callable object - @return: dict of paths associated to watch descriptors. A wd value - is positive if the watch was added sucessfully, - otherwise the value is negative. If the path was invalid - or was already watched it is not included into this returned - dictionary. - @rtype: dict of {str: int} - """ - ret_ = {} # return {path: wd, ...} - - if exclude_filter is None: - exclude_filter = self._exclude_filter - - # normalize args as list elements - for npath in self.__format_param(path): - # unix pathname pattern expansion - for apath in self.__glob(npath, do_glob): - # recursively list subdirs according to rec param - for rpath in self.__walk_rec(apath, rec): - if not exclude_filter(rpath): - wd = ret_[rpath] = self.__add_watch(rpath, mask, - proc_fun, - auto_add, - exclude_filter) - if wd < 0: - err = ('add_watch: cannot watch %s WD=%d, %s' % \ - (rpath, wd, - self._inotify_wrapper.str_errno())) - if quiet: - log.error(err) - else: - raise WatchManagerError(err, ret_) - else: - # Let's say -2 means 'explicitely excluded - # from watching'. - ret_[rpath] = -2 - return ret_ - - def __get_sub_rec(self, lpath): - """ - Get every wd from self._wmd if its path is under the path of - one (at least) of those in lpath. Doesn't follow symlinks. - - @param lpath: list of watch descriptor - @type lpath: list of int - @return: list of watch descriptor - @rtype: list of int - """ - for d in lpath: - root = self.get_path(d) - if root is not None: - # always keep root - yield d - else: - # if invalid - continue - - # nothing else to expect - if not os.path.isdir(root): - continue - - # normalization - root = os.path.normpath(root) - # recursion - lend = len(root) - for iwd in self._wmd.items(): - cur = iwd[1].path - pref = os.path.commonprefix([root, cur]) - if root == os.sep or (len(pref) == lend and \ - len(cur) > lend and \ - cur[lend] == os.sep): - yield iwd[1].wd - - def update_watch(self, wd, mask=None, proc_fun=None, rec=False, - auto_add=False, quiet=True): - """ - Update existing watch descriptors |wd|. The |mask| value, the - processing object |proc_fun|, the recursive param |rec| and the - |auto_add| and |quiet| flags can all be updated. - - @param wd: Watch Descriptor to update. Also accepts a list of - watch descriptors. - @type wd: int or list of int - @param mask: Optional new bitmask of events. - @type mask: int - @param proc_fun: Optional new processing function. - @type proc_fun: function or ProcessEvent instance or instance of - one of its subclasses or callable object. - @param rec: Optionally adds watches recursively on all - subdirectories contained into |wd| directory. - @type rec: bool - @param auto_add: Automatically adds watches on newly created - directories in the watch's path corresponding to |wd|. - If |auto_add| is True, IN_CREATE is ored with |mask| - when the watch is updated. - @type auto_add: bool - @param quiet: If False raises a WatchManagerError exception on - error. See example not_quiet.py - @type quiet: bool - @return: dict of watch descriptors associated to booleans values. - True if the corresponding wd has been successfully - updated, False otherwise. - @rtype: dict of {int: bool} - """ - lwd = self.__format_param(wd) - if rec: - lwd = self.__get_sub_rec(lwd) - - ret_ = {} # return {wd: bool, ...} - for awd in lwd: - apath = self.get_path(awd) - if not apath or awd < 0: - err = 'update_watch: invalid WD=%d' % awd - if quiet: - log.error(err) - continue - raise WatchManagerError(err, ret_) - - if mask: - wd_ = self._inotify_wrapper.inotify_add_watch(self._fd, apath, - mask) - if wd_ < 0: - ret_[awd] = False - err = ('update_watch: cannot update %s WD=%d, %s' % \ - (apath, wd_, self._inotify_wrapper.str_errno())) - if quiet: - log.error(err) - continue - raise WatchManagerError(err, ret_) - - assert(awd == wd_) - - if proc_fun or auto_add: - watch_ = self._wmd[awd] - - if proc_fun: - watch_.proc_fun = proc_fun - - if auto_add: - watch_.auto_add = auto_add - - ret_[awd] = True - log.debug('Updated watch - %s', self._wmd[awd]) - return ret_ - - def __format_param(self, param): - """ - @param param: Parameter. - @type param: string or int - @return: wrap param. - @rtype: list of type(param) - """ - if isinstance(param, list): - for p_ in param: - yield p_ - else: - yield param - - def get_wd(self, path): - """ - Returns the watch descriptor associated to path. This method - presents a prohibitive cost, always prefer to keep the WD - returned by add_watch(). If the path is unknown it returns None. - - @param path: Path. - @type path: str - @return: WD or None. - @rtype: int or None - """ - path = self.__format_path(path) - for iwd in self._wmd.items(): - if iwd[1].path == path: - return iwd[0] - - def get_path(self, wd): - """ - Returns the path associated to WD, if WD is unknown it returns None. - - @param wd: Watch descriptor. - @type wd: int - @return: Path or None. - @rtype: string or None - """ - watch_ = self._wmd.get(wd) - if watch_ is not None: - return watch_.path - - def __walk_rec(self, top, rec): - """ - Yields each subdirectories of top, doesn't follow symlinks. - If rec is false, only yield top. - - @param top: root directory. - @type top: string - @param rec: recursive flag. - @type rec: bool - @return: path of one subdirectory. - @rtype: string - """ - if not rec or os.path.islink(top) or not os.path.isdir(top): - yield top - else: - for root, dirs, files in os.walk(top): - yield root - - def rm_watch(self, wd, rec=False, quiet=True): - """ - Removes watch(s). - - @param wd: Watch Descriptor of the file or directory to unwatch. - Also accepts a list of WDs. - @type wd: int or list of int. - @param rec: Recursively removes watches on every already watched - subdirectories and subfiles. - @type rec: bool - @param quiet: If False raises a WatchManagerError exception on - error. See example not_quiet.py - @type quiet: bool - @return: dict of watch descriptors associated to booleans values. - True if the corresponding wd has been successfully - removed, False otherwise. - @rtype: dict of {int: bool} - """ - lwd = self.__format_param(wd) - if rec: - lwd = self.__get_sub_rec(lwd) - - ret_ = {} # return {wd: bool, ...} - for awd in lwd: - # remove watch - wd_ = self._inotify_wrapper.inotify_rm_watch(self._fd, awd) - if wd_ < 0: - ret_[awd] = False - err = ('rm_watch: cannot remove WD=%d, %s' % \ - (awd, self._inotify_wrapper.str_errno())) - if quiet: - log.error(err) - continue - raise WatchManagerError(err, ret_) - - # Remove watch from our dictionary - if awd in self._wmd: - del self._wmd[awd] - ret_[awd] = True - log.debug('Watch WD=%d (%s) removed', awd, self.get_path(awd)) - return ret_ - - - def watch_transient_file(self, filename, mask, proc_class): - """ - Watch a transient file, which will be created and deleted frequently - over time (e.g. pid file). - - @attention: Currently under the call to this function it is not - possible to correctly watch the events triggered into the same - base directory than the directory where is located this watched - transient file. For instance it would be wrong to make these - two successive calls: wm.watch_transient_file('/var/run/foo.pid', ...) - and wm.add_watch('/var/run/', ...) - - @param filename: Filename. - @type filename: string - @param mask: Bitmask of events, should contain IN_CREATE and IN_DELETE. - @type mask: int - @param proc_class: ProcessEvent (or of one of its subclass), beware of - accepting a ProcessEvent's instance as argument into - __init__, see transient_file.py example for more - details. - @type proc_class: ProcessEvent's instance or of one of its subclasses. - @return: Same as add_watch(). - @rtype: Same as add_watch(). - """ - dirname = os.path.dirname(filename) - if dirname == '': - return {} # Maintains coherence with add_watch() - basename = os.path.basename(filename) - # Assuming we are watching at least for IN_CREATE and IN_DELETE - mask |= IN_CREATE | IN_DELETE - - def cmp_name(event): - if getattr(event, 'name') is None: - return False - return basename == event.name - return self.add_watch(dirname, mask, - proc_fun=proc_class(ChainIfTrue(func=cmp_name)), - rec=False, - auto_add=False, do_glob=False, - exclude_filter=lambda path: False) - - def get_ignore_events(self): - return self._ignore_events - - def set_ignore_events(self, nval): - self._ignore_events = nval - - ignore_events = property(get_ignore_events, set_ignore_events, - "Make watch manager ignoring new events.") - - - -class RawOutputFormat: - """ - Format string representations. - """ - def __init__(self, format=None): - self.format = format or {} - - def simple(self, s, attribute): - if not isinstance(s, str): - s = str(s) - return (self.format.get(attribute, '') + s + - self.format.get('normal', '')) - - def punctuation(self, s): - """Punctuation color.""" - return self.simple(s, 'normal') - - def field_value(self, s): - """Field value color.""" - return self.simple(s, 'purple') - - def field_name(self, s): - """Field name color.""" - return self.simple(s, 'blue') - - def class_name(self, s): - """Class name color.""" - return self.format.get('red', '') + self.simple(s, 'bold') - -output_format = RawOutputFormat() - -class ColoredOutputFormat(RawOutputFormat): - """ - Format colored string representations. - """ - def __init__(self): - f = {'normal': '\033[0m', - 'black': '\033[30m', - 'red': '\033[31m', - 'green': '\033[32m', - 'yellow': '\033[33m', - 'blue': '\033[34m', - 'purple': '\033[35m', - 'cyan': '\033[36m', - 'bold': '\033[1m', - 'uline': '\033[4m', - 'blink': '\033[5m', - 'invert': '\033[7m'} - RawOutputFormat.__init__(self, f) - - -def compatibility_mode(): - """ - Use this function to turn on the compatibility mode. The compatibility - mode is used to improve compatibility with Pyinotify 0.7.1 (or older) - programs. The compatibility mode provides additional variables 'is_dir', - 'event_name', 'EventsCodes.IN_*' and 'EventsCodes.ALL_EVENTS' as - Pyinotify 0.7.1 provided. Do not call this function from new programs!! - Especially if there are developped for Pyinotify >= 0.8.x. - """ - setattr(EventsCodes, 'ALL_EVENTS', ALL_EVENTS) - for evname in globals(): - if evname.startswith('IN_'): - setattr(EventsCodes, evname, globals()[evname]) - global COMPATIBILITY_MODE - COMPATIBILITY_MODE = True - - -def command_line(): - """ - By default the watched path is '/tmp' and all types of events are - monitored. Events monitoring serves forever, type c^c to stop it. - """ - from optparse import OptionParser - - usage = "usage: %prog [options] [path1] [path2] [pathn]" - - parser = OptionParser(usage=usage) - parser.add_option("-v", "--verbose", action="store_true", - dest="verbose", help="Verbose mode") - parser.add_option("-r", "--recursive", action="store_true", - dest="recursive", - help="Add watches recursively on paths") - parser.add_option("-a", "--auto_add", action="store_true", - dest="auto_add", - help="Automatically add watches on new directories") - parser.add_option("-g", "--glob", action="store_true", - dest="glob", - help="Treat paths as globs") - parser.add_option("-e", "--events-list", metavar="EVENT[,...]", - dest="events_list", - help=("A comma-separated list of events to watch for - " - "see the documentation for valid options (defaults" - " to everything)")) - parser.add_option("-s", "--stats", action="store_true", - dest="stats", - help="Display dummy statistics") - parser.add_option("-V", "--version", action="store_true", - dest="version", help="Pyinotify version") - parser.add_option("-f", "--raw-format", action="store_true", - dest="raw_format", - help="Disable enhanced output format.") - parser.add_option("-c", "--command", action="store", - dest="command", - help="Shell command to run upon event") - - (options, args) = parser.parse_args() - - if options.verbose: - log.setLevel(10) - - if options.version: - print(__version__) - - if not options.raw_format: - global output_format - output_format = ColoredOutputFormat() - - if len(args) < 1: - path = '/tmp' # default watched path - else: - path = args - - # watch manager instance - wm = WatchManager() - # notifier instance and init - if options.stats: - notifier = Notifier(wm, default_proc_fun=Stats(), read_freq=5) - else: - notifier = Notifier(wm, default_proc_fun=PrintAllEvents()) - - # What mask to apply - mask = 0 - if options.events_list: - events_list = options.events_list.split(',') - for ev in events_list: - evcode = EventsCodes.ALL_FLAGS.get(ev, 0) - if evcode: - mask |= evcode - else: - parser.error("The event '%s' specified with option -e" - " is not valid" % ev) - else: - mask = ALL_EVENTS - - # stats - cb_fun = None - if options.stats: - def cb(s): - sys.stdout.write(repr(s.proc_fun())) - sys.stdout.write('\n') - sys.stdout.write(str(s.proc_fun())) - sys.stdout.write('\n') - sys.stdout.flush() - cb_fun = cb - - # External command - if options.command: - def cb(s): - subprocess.Popen(options.command, shell=True) - cb_fun = cb - - log.debug('Start monitoring %s, (press c^c to halt pyinotify)' % path) - - wm.add_watch(path, mask, rec=options.recursive, auto_add=options.auto_add, do_glob=options.glob) - # Loop forever (until sigint signal get caught) - notifier.loop(callback=cb_fun) - - -if __name__ == '__main__': - command_line() |
