Mini Shell
# emacs: -*- mode: python; py-indent-offset: 4; indent-tabs-mode: t -*-
# vi: set ft=python sts=4 ts=4 sw=4 noet :
# This file is part of Fail2Ban.
#
# Fail2Ban is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# Fail2Ban is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with Fail2Ban; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
__author__ = "Cyril Jaquier and Fail2Ban Contributors"
__copyright__ = "Copyright (c) 2004 Cyril Jaquier, 2011-2012 Yaroslav Halchenko"
__license__ = "GPL"
import logging
import os
import re
import signal
import subprocess
import tempfile
import threading
import time
from abc import ABCMeta
try:
from collections.abc import MutableMapping
except ImportError:
from collections import MutableMapping
from .failregex import mapTag2Opt
from .ipdns import DNSUtils
from .mytime import MyTime
from .utils import Utils
from ..helpers import getLogger, _merge_copy_dicts, \
splitwords, substituteRecursiveTags, uni_string, TAG_CRE, MAX_TAG_REPLACE_COUNT
# Gets the instance of the logger.
logSys = getLogger(__name__)
# Create a lock for running system commands
_cmd_lock = threading.Lock()
# Specifies whether IPv6 subsystem is available:
allowed_ipv6 = DNSUtils.IPv6IsAllowed
# capture groups from filter for map to ticket data:
FCUSTAG_CRE = re.compile(r'<F-([A-Z0-9_\-]+)>'); # currently uppercase only
COND_FAMILIES = ('inet4', 'inet6')
CONDITIONAL_FAM_RE = re.compile(r"^(\w+)\?(family)=(.*)$")
# Special tags:
DYN_REPL_TAGS = {
# System-information:
"fq-hostname": lambda: str(DNSUtils.getHostname(fqdn=True)),
"sh-hostname": lambda: str(DNSUtils.getHostname(fqdn=False))
}
# New line, space
ADD_REPL_TAGS = {
"br": "\n",
"sp": " "
}
ADD_REPL_TAGS.update(DYN_REPL_TAGS)
class CallingMap(MutableMapping, object):
"""A Mapping type which returns the result of callable values.
`CallingMap` behaves similar to a standard python dictionary,
with the exception that any values which are callable, are called
and the result is returned as the value.
No error handling is in place, such that any errors raised in the
callable will raised as usual.
Actual dictionary is stored in property `data`, and can be accessed
to obtain original callable values.
Attributes
----------
data : dict
The dictionary data which can be accessed to obtain items uncalled
"""
CM_REPR_ITEMS = ()
# immutable=True saves content between actions, without interim copying (save original on demand, recoverable via reset)
__slots__ = ('data', 'storage', 'immutable', '__org_data')
def __init__(self, *args, **kwargs):
self.storage = dict()
self.immutable = True
self.data = dict(*args, **kwargs)
def reset(self, immutable=True):
self.storage = dict()
try:
self.data = self.__org_data
except AttributeError:
pass
self.immutable = immutable
def _asrepr(self, calculated=False):
# be sure it is suitable as string, so use str as checker:
return "%s(%r)" % (self.__class__.__name__, self._asdict(calculated, str))
__repr__ = _asrepr
def _asdict(self, calculated=False, checker=None):
d = dict(self.data, **self.storage)
if not calculated:
return dict((n,v) for n,v in d.items() \
if not callable(v) or n in self.CM_REPR_ITEMS)
for n,v in list(d.items()):
if callable(v):
try:
# calculate:
v = self.__getitem__(n)
# convert if needed:
if checker: checker(v)
# store calculated:
d[n] = v
except: # can't calculate - just ignore it
pass
return d
def getRawItem(self, key):
try:
value = self.storage[key]
except KeyError:
value = self.data[key]
return value
def __getitem__(self, key):
try:
value = self.storage[key]
except KeyError:
value = self.data[key]
if callable(value):
# check arguments can be supplied to callable (for backwards compatibility):
value = value(self) if hasattr(value, '__code__') and value.__code__.co_argcount else value()
self.storage[key] = value
return value
def __setitem__(self, key, value):
# mutate to copy:
if self.immutable:
self.storage = self.storage.copy()
self.__org_data = self.data
self.data = self.data.copy()
self.immutable = False
self.storage[key] = value
def __unavailable(self, key):
raise KeyError("Key %r was deleted" % key)
def __delitem__(self, key):
# mutate to copy:
if self.immutable:
self.storage = self.storage.copy()
self.__org_data = self.data
self.data = self.data.copy()
self.immutable = False
try:
del self.storage[key]
except KeyError:
pass
del self.data[key]
def __iter__(self):
return iter(self.data)
def __len__(self):
return len(self.data)
def copy(self):
return self.__class__(_merge_copy_dicts(self.data, self.storage))
class ActionBase(object, metaclass=ABCMeta):
"""An abstract base class for actions in Fail2Ban.
Action Base is a base definition of what methods need to be in
place to create a Python based action for Fail2Ban. This class can
be inherited from to ease implementation.
Required methods:
- __init__(jail, name)
- start()
- stop()
- ban(aInfo)
- unban(aInfo)
Called when action is created, but before the jail/actions is
started. This should carry out necessary methods to initialise
the action but not "start" the action.
Parameters
----------
jail : Jail
The jail in which the action belongs to.
name : str
Name assigned to the action.
Notes
-----
Any additional arguments specified in `jail.conf` or passed
via `fail2ban-client` will be passed as keyword arguments.
"""
@classmethod
def __subclasshook__(cls, C):
required = (
"start",
"stop",
"ban",
"reban",
"unban",
)
for method in required:
if not callable(getattr(C, method, None)):
return False
return True
def __init__(self, jail, name):
self._jail = jail
self._name = name
self._logSys = getLogger("fail2ban.%s" % self.__class__.__name__)
def start(self): # pragma: no cover - abstract
"""Executed when the jail/action is started.
"""
pass
def stop(self): # pragma: no cover - abstract
"""Executed when the jail/action is stopped.
"""
pass
def ban(self, aInfo): # pragma: no cover - abstract
"""Executed when a ban occurs.
Parameters
----------
aInfo : dict
Dictionary which includes information in relation to
the ban.
"""
pass
def reban(self, aInfo): # pragma: no cover - abstract
"""Executed when a ban occurs.
Parameters
----------
aInfo : dict
Dictionary which includes information in relation to
the ban.
"""
return self.ban(aInfo)
@property
def _prolongable(self): # pragma: no cover - abstract
return False
def unban(self, aInfo): # pragma: no cover - abstract
"""Executed when a ban expires.
Parameters
----------
aInfo : dict
Dictionary which includes information in relation to
the ban.
"""
pass
WRAP_CMD_PARAMS = {
'timeout': 'str2seconds',
'bantime': 'ignore',
}
class CommandAction(ActionBase):
"""A action which executes OS shell commands.
This is the default type of action which Fail2Ban uses.
Default sets all commands for actions as empty string, such
no command is executed.
Parameters
----------
jail : Jail
The jail in which the action belongs to.
name : str
Name assigned to the action.
Attributes
----------
actionban
actioncheck
actionreban
actionreload
actionrepair
actionstart
actionstop
actionunban
timeout
"""
_escapedTags = set(('matches', 'ipmatches', 'ipjailmatches'))
def clearAllParams(self):
""" Clear all lists/dicts parameters (used by reloading)
"""
self.__init = 1
try:
self.timeout = 60
## Command executed in order to initialize the system.
self.actionstart = ''
## Command executed when ticket gets banned.
self.actionban = ''
self.actionreban = ''
## Command executed when ticket gets removed.
self.actionunban = ''
## Command executed in order to check requirements.
self.actioncheck = ''
## Command executed in order to restore sane environment in error case.
self.actionrepair = ''
## Command executed in order to flush all bans at once (e. g. by stop/shutdown the system).
self.actionflush = ''
## Command executed in order to stop the system.
self.actionstop = ''
## Command executed in case of reloading action.
self.actionreload = ''
finally:
self.__init = 0
def __init__(self, jail, name):
super(CommandAction, self).__init__(jail, name)
self.__init = 1
self.__properties = None
self.__started = {}
self.__substCache = {}
self.clearAllParams()
self._logSys.debug("Created %s" % self.__class__)
@classmethod
def __subclasshook__(cls, C):
return NotImplemented # Standard checks
def __setattr__(self, name, value):
if not name.startswith('_') and not self.__init and not callable(value):
# special case for some parameters:
wrp = WRAP_CMD_PARAMS.get(name)
if wrp == 'ignore': # ignore (filter) dynamic parameters
return
elif wrp == 'str2seconds':
value = MyTime.str2seconds(value)
# parameters changed - clear properties and substitution cache:
self.__properties = None
self.__substCache.clear()
#self._logSys.debug("Set action %r %s = %r", self._name, name, value)
self._logSys.debug(" Set %s = %r", name, value)
# set:
self.__dict__[name] = value
__setitem__ = __setattr__
def __delattr__(self, name):
if not name.startswith('_'):
# parameters changed - clear properties and substitution cache:
self.__properties = None
self.__substCache.clear()
#self._logSys.debug("Unset action %r %s", self._name, name)
self._logSys.debug(" Unset %s", name)
# del:
del self.__dict__[name]
@property
def _properties(self):
"""A dictionary of the actions properties.
This is used to substitute "tags" in the commands.
"""
# if we have a properties - return it:
if self.__properties is not None:
return self.__properties
# otherwise retrieve:
self.__properties = dict(
(key, getattr(self, key))
for key in dir(self)
if not key.startswith("_") and not callable(getattr(self, key))
)
return self.__properties
@property
def _substCache(self):
return self.__substCache
def _getOperation(self, tag, family):
# replace operation tag (interpolate all values), be sure family is enclosed as conditional value
# (as lambda in addrepl so only if not overwritten in action):
cmd = self.replaceTag(tag, self._properties,
conditional=('family='+family if family else ''),
cache=self.__substCache)
if not family or '<' not in cmd: return cmd
# replace family as dynamic tags, important - don't cache, no recursion and auto-escape here:
cmd = self.replaceDynamicTags(cmd, {'family':family})
return cmd
def _operationExecuted(self, tag, family, *args):
""" Get, set or delete command of operation considering family.
"""
key = ('__eOpCmd',tag)
if not len(args): # get
if not callable(family): # pragma: no cover
return self.__substCache.get(key, {}).get(family)
# family as expression - use it to filter values:
return [v for f, v in self.__substCache.get(key, {}).items() if family(f)]
cmd = args[0]
if cmd: # set:
try:
famd = self.__substCache[key]
except KeyError:
famd = self.__substCache[key] = {}
famd[family] = cmd
else: # delete (given family and all other with same command):
try:
famd = self.__substCache[key]
cmd = famd.pop(family)
for family, v in list(famd.items()):
if v == cmd:
del famd[family]
except KeyError: # pragma: no cover
pass
def _executeOperation(self, tag, operation, family=[], afterExec=None):
"""Executes the operation commands (like "actionstart", "actionstop", etc).
Replace the tags in the action command with actions properties
and executes the resulting command.
"""
# check valid tags in properties (raises ValueError if self recursion, etc.):
res = True
err = 'Script error'
if not family: # all started:
family = [famoper for (famoper,v) in self.__started.items() if v]
for famoper in family:
try:
cmd = self._getOperation(tag, famoper)
ret = True
# avoid double execution of same command for both families:
if cmd and cmd not in self._operationExecuted(tag, lambda f: f != famoper):
realCmd = cmd
if self._jail:
# simulate action info with "empty" ticket:
aInfo = getattr(self._jail.actions, 'actionInfo', None)
if not aInfo:
aInfo = self._jail.actions._getActionInfo(None)
setattr(self._jail.actions, 'actionInfo', aInfo)
aInfo['time'] = MyTime.time()
aInfo['family'] = famoper
# replace dynamical tags, important - don't cache, no recursion and auto-escape here
realCmd = self.replaceDynamicTags(cmd, aInfo)
ret = self.executeCmd(realCmd, self.timeout)
res &= ret
if afterExec: afterExec(famoper, ret)
self._operationExecuted(tag, famoper, cmd if ret else None)
except ValueError as e:
res = False
err = e
if not res:
raise RuntimeError("Error %s action %s/%s: %r" % (operation, self._jail, self._name, err))
return res
@property
def _hasCondSection(self):
v = self._properties.get('__hasCondSection')
if v is not None:
return v
v = False
for n in self._properties:
if CONDITIONAL_FAM_RE.match(n):
v = True
break
self._properties['__hasCondSection'] = v
return v
@property
def _families(self):
v = self._properties.get('__families')
if v: return v
v = self._properties.get('families')
if v and not isinstance(v, (list,set)): # pragma: no cover - still unused
v = splitwords(v)
elif self._hasCondSection: # all conditional families:
# todo: check it is needed at all # common (resp. ipv4) + ipv6 if allowed:
v = ['inet4', 'inet6'] if allowed_ipv6() else ['inet4']
else: # all action tags seems to be the same
v = ['']
self._properties['__families'] = v
return v
@property
def _startOnDemand(self):
"""Checks the action depends on family (conditional)"""
v = self._properties.get('actionstart_on_demand')
if v is not None:
return v
# not set - auto-recognize (depending on conditional):
v = self._hasCondSection
self._properties['actionstart_on_demand'] = v
return v
def start(self):
"""Executes the "actionstart" command.
Replace the tags in the action command with actions properties
and executes the resulting command.
"""
return self._start()
def _start(self, family=None, forceStart=False):
"""Executes the "actionstart" command.
Replace the tags in the action command with actions properties
and executes the resulting command.
"""
# check the action depends on family (conditional):
if self._startOnDemand:
if not forceStart:
return True
elif not forceStart and self.__started.get(family): # pragma: no cover - normally unreachable
return True
family = [family] if family is not None else self._families
def _started(family, ret):
if ret:
self._operationExecuted('<actionstop>', family, None)
self.__started[family] = 1
ret = self._executeOperation('<actionstart>', 'starting', family=family, afterExec=_started)
return ret
def ban(self, aInfo, cmd='<actionban>'):
"""Executes the given command ("actionban" or "actionreban").
Replaces the tags in the action command with actions properties
and ban information, and executes the resulting command.
Parameters
----------
aInfo : dict
Dictionary which includes information in relation to
the ban.
"""
# if we should start the action on demand (conditional by family):
family = aInfo.get('family', '')
if self._startOnDemand:
if not self.__started.get(family):
self._start(family, forceStart=True)
# ban:
if not self._processCmd(cmd, aInfo):
raise RuntimeError("Error banning %(ip)s" % aInfo)
self.__started[family] = self.__started.get(family, 0) | 3; # started and contains items
@property
def _prolongable(self):
return (hasattr(self, 'actionprolong') and self.actionprolong
and not str(self.actionprolong).isspace())
def prolong(self, aInfo):
"""Executes the "actionprolong" command.
Replaces the tags in the action command with actions properties
and ban information, and executes the resulting command.
Parameters
----------
aInfo : dict
Dictionary which includes information in relation to
the ban.
"""
if not self._processCmd('<actionprolong>', aInfo):
raise RuntimeError("Error prolonging %(ip)s" % aInfo)
def unban(self, aInfo):
"""Executes the "actionunban" command.
Replaces the tags in the action command with actions properties
and ban information, and executes the resulting command.
Parameters
----------
aInfo : dict
Dictionary which includes information in relation to
the ban.
"""
family = aInfo.get('family', '')
if self.__started.get(family, 0) & 2: # contains items
if not self._processCmd('<actionunban>', aInfo):
raise RuntimeError("Error unbanning %(ip)s" % aInfo)
def reban(self, aInfo):
"""Executes the "actionreban" command if available, otherwise simply repeat "actionban".
Replaces the tags in the action command with actions properties
and ban information, and executes the resulting command.
Parameters
----------
aInfo : dict
Dictionary which includes information in relation to
the ban.
"""
# re-ban:
return self.ban(aInfo, '<actionreban>' if self.actionreban else '<actionban>')
def flush(self):
"""Executes the "actionflush" command.
Command executed in order to flush all bans at once (e. g. by stop/shutdown
the system), instead of unbanning of each single ticket.
Replaces the tags in the action command with actions properties
and executes the resulting command.
"""
# collect started families, may be started on demand (conditional):
family = [f for (f,v) in self.__started.items() if v & 3 == 3]; # started and contains items
# if nothing contains items:
if not family: return True
# flush:
def _afterFlush(family, ret):
if ret and self.__started.get(family):
self.__started[family] &= ~2; # no items anymore
return self._executeOperation('<actionflush>', 'flushing', family=family, afterExec=_afterFlush)
def stop(self):
"""Executes the "actionstop" command.
Replaces the tags in the action command with actions properties
and executes the resulting command.
"""
return self._stop()
def _stop(self, family=None):
"""Executes the "actionstop" command.
Replaces the tags in the action command with actions properties
and executes the resulting command.
"""
# collect started families, if started on demand (conditional):
if family is None:
family = [f for (f,v) in self.__started.items() if v]
# if no started (on demand) actions:
if not family: return True
self.__started = {}
else:
try:
self.__started[family] &= 0
family = [family]
except KeyError: # pragma: no cover
return True
def _stopped(family, ret):
if ret:
self._operationExecuted('<actionstart>', family, None)
return self._executeOperation('<actionstop>', 'stopping', family=family, afterExec=_stopped)
def reload(self, **kwargs):
"""Executes the "actionreload" command.
Parameters
----------
kwargs : dict
Currently unused, because CommandAction do not support initOpts
Replaces the tags in the action command with actions properties
and executes the resulting command.
"""
return self._executeOperation('<actionreload>', 'reloading')
def consistencyCheck(self, beforeRepair=None):
"""Executes the invariant check with repair if expected (conditional).
"""
ret = True
# for each started family:
if self.actioncheck:
for (family, started) in list(self.__started.items()):
if started and not self._invariantCheck(family, beforeRepair):
# reset started flag and command of executed operation:
self.__started[family] = 0
self._operationExecuted('<actionstart>', family, None)
ret &= False
return ret
ESCAPE_CRE = re.compile(r"""[\\#&;`|*?~<>^()\[\]{}$'"\n\r]""")
@classmethod
def escapeTag(cls, value):
"""Escape characters which may be used for command injection.
Parameters
----------
value : str
A string of which characters will be escaped.
Returns
-------
str
`value` with certain characters escaped.
Notes
-----
The following characters are escaped::
\\#&;`|*?~<>^()[]{}$'"\n\r
"""
_map2c = {'\n': 'n', '\r': 'r'}
def substChar(m):
c = m.group()
return '\\' + _map2c.get(c, c)
value = cls.ESCAPE_CRE.sub(substChar, value)
return value
@classmethod
def replaceTag(cls, query, aInfo, conditional='', addrepl=None, cache=None):
"""Replaces tags in `query` with property values.
Parameters
----------
query : str
String with tags.
aInfo : dict
Tags(keys) and associated values for substitution in query.
Returns
-------
str
`query` string with tags replaced.
"""
if '<' not in query: return query
# use cache if allowed:
if cache is not None:
ckey = (query, conditional)
try:
return cache[ckey]
except KeyError:
pass
# **Important**: don't replace if calling map - contains dynamic values only,
# no recursive tags, otherwise may be vulnerable on foreign user-input:
noRecRepl = isinstance(aInfo, CallingMap)
subInfo = aInfo
if not noRecRepl:
# substitute tags recursive (and cache if possible),
# first try get cached tags dictionary:
subInfo = csubkey = None
if cache is not None:
csubkey = ('subst-tags', id(aInfo), conditional)
try:
subInfo = cache[csubkey]
except KeyError:
pass
# interpolation of dictionary:
if subInfo is None:
subInfo = substituteRecursiveTags(aInfo, conditional, ignore=cls._escapedTags,
addrepl=addrepl)
# cache if possible:
if csubkey is not None:
cache[csubkey] = subInfo
# additional replacement as calling map:
ADD_REPL_TAGS_CM = CallingMap(ADD_REPL_TAGS)
# substitution callable, used by interpolation of each tag
def substVal(m):
tag = m.group(1) # tagname from match
value = None
if conditional:
value = subInfo.get(tag + '?' + conditional)
if value is None:
value = subInfo.get(tag)
if value is None:
# fallback (no or default replacement)
return ADD_REPL_TAGS_CM.get(tag, m.group())
value = uni_string(value) # assure string
if tag in cls._escapedTags:
# That one needs to be escaped since its content is
# out of our control
value = cls.escapeTag(value)
# replacement for tag:
return value
# interpolation of query:
count = MAX_TAG_REPLACE_COUNT + 1
while True:
value = TAG_CRE.sub(substVal, query)
# **Important**: no recursive replacement for tags from calling map (properties only):
if noRecRepl: break
# possible recursion ?
if value == query or '<' not in value: break
query = value
count -= 1
if count <= 0:
raise ValueError(
"unexpected too long replacement interpolation, "
"possible self referencing definitions in query: %s" % (query,))
# cache if possible:
if cache is not None:
cache[ckey] = value
#
return value
ESCAPE_CRE = re.compile(r"""[\\#&;`|*?~<>\^\(\)\[\]{}$'"\n\r]""")
ESCAPE_VN_CRE = re.compile(r"\W")
@classmethod
def replaceDynamicTags(cls, realCmd, aInfo, escapeVal=None):
"""Replaces dynamical tags in `query` with property values.
**Important**
-------------
Because this tags are dynamic resp. foreign (user) input:
- values should be escaped (using "escape" as shell variable)
- no recursive substitution (no interpolation for <a<b>>)
- don't use cache
Parameters
----------
query : str
String with tags.
aInfo : dict
Tags(keys) and associated values for substitution in query.
Returns
-------
str
shell script as string or array with tags replaced (direct or as variables).
"""
# array for escaped vars:
varsDict = dict()
if not escapeVal:
def escapeVal(tag, value):
# if the value should be escaped:
if cls.ESCAPE_CRE.search(value):
# That one needs to be escaped since its content is
# out of our control
tag = 'f2bV_%s' % cls.ESCAPE_VN_CRE.sub('_', tag)
varsDict[tag] = value # add variable
value = '$'+tag # replacement as variable
# replacement for tag:
return value
# additional replacement as calling map:
ADD_REPL_TAGS_CM = CallingMap(ADD_REPL_TAGS)
# substitution callable, used by interpolation of each tag
def substVal(m):
tag = m.group(1) # tagname from match
try:
value = aInfo[tag]
except KeyError:
# fallback (no or default replacement)
return ADD_REPL_TAGS_CM.get(tag, m.group())
value = uni_string(value) # assure string
# replacement for tag:
return escapeVal(tag, value)
# Replace normally properties of aInfo non-recursive:
realCmd = TAG_CRE.sub(substVal, realCmd)
# Replace ticket options (filter capture groups) non-recursive:
if '<' in realCmd:
tickData = aInfo.get("F-*")
if not tickData: tickData = {}
def substTag(m):
tag = mapTag2Opt(m.group(1))
try:
value = uni_string(tickData[tag])
except KeyError:
return ""
return escapeVal("F_"+tag, value)
realCmd = FCUSTAG_CRE.sub(substTag, realCmd)
# build command corresponding "escaped" variables:
if varsDict:
realCmd = Utils.buildShellCmd(realCmd, varsDict)
return realCmd
@property
def banEpoch(self):
return getattr(self, '_banEpoch', 0)
def invalidateBanEpoch(self):
"""Increments ban epoch of jail and this action, so already banned tickets would cause
a re-ban for all tickets with previous epoch."""
if self._jail is not None:
self._banEpoch = self._jail.actions.banEpoch = self._jail.actions.banEpoch + 1
else:
self._banEpoch = self.banEpoch + 1
def _invariantCheck(self, family=None, beforeRepair=None, forceStart=True):
"""Executes a substituted `actioncheck` command.
"""
# for started action/family only (avoid check not started inet4 if inet6 gets broken):
if not forceStart and family is not None and family not in self.__started:
return 1
checkCmd = self._getOperation('<actioncheck>', family)
if not checkCmd or self.executeCmd(checkCmd, self.timeout):
return 1
# if don't need repair/restore - just return:
if beforeRepair and not beforeRepair():
return -1
self._logSys.error(
"Invariant check failed. Trying to restore a sane environment")
# increment ban epoch of jail and this action (allows re-ban on already banned):
self.invalidateBanEpoch()
# try to find repair command, if exists - exec it:
repairCmd = self._getOperation('<actionrepair>', family)
if repairCmd:
if not self.executeCmd(repairCmd, self.timeout):
self.__started[family] = 0
self._logSys.critical("Unable to restore environment")
return 0
self.__started[family] = 1
else:
# no repair command, try to restart action...
# [WARNING] TODO: be sure all banactions get a repair command, because
# otherwise stop/start will theoretically remove all the bans,
# but the tickets are still in BanManager, so in case of new failures
# it will not be banned, because "already banned" will happen.
try:
self._stop(family)
except RuntimeError: # bypass error in stop (if start/check succeeded hereafter).
pass
self._start(family, forceStart=forceStart or not self._startOnDemand)
if self.__started.get(family) and not self.executeCmd(checkCmd, self.timeout):
self._logSys.critical("Unable to restore environment")
return 0
return 1
def _processCmd(self, cmd, aInfo=None):
"""Executes a command with preliminary checks and substitutions.
Before executing any commands, executes the "check" command first
in order to check if pre-requirements are met. If this check fails,
it tries to restore a sane environment before executing the real
command.
Parameters
----------
cmd : str
The command to execute.
aInfo : dictionary
Dynamic properties.
Returns
-------
bool
True if the command succeeded.
"""
if cmd == "":
self._logSys.debug("Nothing to do")
return True
# conditional corresponding family of the given ip:
try:
family = aInfo["family"]
except (KeyError, TypeError):
family = ''
repcnt = 0
while True:
# got some error, do invariant check:
if repcnt and self.actioncheck:
# don't repair/restore if unban (no matter):
def _beforeRepair():
if cmd == '<actionunban>' and not self._properties.get('actionrepair_on_unban'):
self._logSys.error("Invariant check failed. Unban is impossible.")
return False
return True
# check and repair if broken:
ret = self._invariantCheck(family, _beforeRepair, forceStart=(cmd != '<actionunban>'))
# if not sane (and not restored) return:
if ret != 1:
return False
# Replace static fields
realCmd = self.replaceTag(cmd, self._properties,
conditional=('family='+family if family else ''), cache=self.__substCache)
# Replace dynamical tags, important - don't cache, no recursion and auto-escape here
if aInfo is not None:
realCmd = self.replaceDynamicTags(realCmd, aInfo)
else:
realCmd = cmd
# try execute command:
ret = self.executeCmd(realCmd, self.timeout)
repcnt += 1
if ret or repcnt > 1:
return ret
@staticmethod
def executeCmd(realCmd, timeout=60, **kwargs):
"""Executes a command.
Parameters
----------
realCmd : str
The command to execute.
timeout : int
The time out in seconds for the command.
Returns
-------
bool
True if the command succeeded.
Raises
------
OSError
If command fails to be executed.
RuntimeError
If command execution times out.
"""
if logSys.getEffectiveLevel() < logging.DEBUG:
logSys.log(9, realCmd)
if not realCmd:
logSys.debug("Nothing to do")
return True
with _cmd_lock:
return Utils.executeCmd(realCmd, timeout, shell=True, output=False, **kwargs)
Zerion Mini Shell 1.0