/usr/share/pyshared/CedarBackup2/cli.py is in cedar-backup2 2.26.5-3.
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# vim: set ft=python ts=3 sw=3 expandtab:
# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #
#
# C E D A R
# S O L U T I O N S "Software done right."
# S O F T W A R E
#
# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #
#
# Copyright (c) 2004-2007,2010,2015 Kenneth J. Pronovici.
# All rights reserved.
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License,
# Version 2, as published by the Free Software Foundation.
#
# This program 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.
#
# Copies of the GNU General Public License are available from
# the Free Software Foundation website, http://www.gnu.org/.
#
# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #
#
# Author : Kenneth J. Pronovici <pronovic@ieee.org>
# Language : Python 2 (>= 2.7)
# Project : Cedar Backup, release 2
# Purpose : Provides command-line interface implementation.
#
# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #
########################################################################
# Module documentation
########################################################################
"""
Provides command-line interface implementation for the cback script.
Summary
=======
The functionality in this module encapsulates the command-line interface for
the cback script. The cback script itself is very short, basically just an
invokation of one function implemented here. That, in turn, makes it
simpler to validate the command line interface (for instance, it's easier to
run pychecker against a module, and unit tests are easier, too).
The objects and functions implemented in this module are probably not useful
to any code external to Cedar Backup. Anyone else implementing their own
command-line interface would have to reimplement (or at least enhance) all
of this anyway.
Backwards Compatibility
=======================
The command line interface has changed between Cedar Backup 1.x and Cedar
Backup 2.x. Some new switches have been added, and the actions have become
simple arguments rather than switches (which is a much more standard command
line format). Old 1.x command lines are generally no longer valid.
@var DEFAULT_CONFIG: The default configuration file.
@var DEFAULT_LOGFILE: The default log file path.
@var DEFAULT_OWNERSHIP: Default ownership for the logfile.
@var DEFAULT_MODE: Default file permissions mode on the logfile.
@var VALID_ACTIONS: List of valid actions.
@var COMBINE_ACTIONS: List of actions which can be combined with other actions.
@var NONCOMBINE_ACTIONS: List of actions which cannot be combined with other actions.
@sort: cli, Options, DEFAULT_CONFIG, DEFAULT_LOGFILE, DEFAULT_OWNERSHIP,
DEFAULT_MODE, VALID_ACTIONS, COMBINE_ACTIONS, NONCOMBINE_ACTIONS
@author: Kenneth J. Pronovici <pronovic@ieee.org>
"""
########################################################################
# Imported modules
########################################################################
# System modules
import sys
import os
import logging
import getopt
# Cedar Backup modules
from CedarBackup2.release import AUTHOR, EMAIL, VERSION, DATE, COPYRIGHT
from CedarBackup2.customize import customizeOverrides
from CedarBackup2.util import DirectedGraph, PathResolverSingleton
from CedarBackup2.util import sortDict, splitCommandLine, executeCommand, getFunctionReference
from CedarBackup2.util import getUidGid, encodePath, Diagnostics
from CedarBackup2.config import Config
from CedarBackup2.peer import RemotePeer
from CedarBackup2.actions.collect import executeCollect
from CedarBackup2.actions.stage import executeStage
from CedarBackup2.actions.store import executeStore
from CedarBackup2.actions.purge import executePurge
from CedarBackup2.actions.rebuild import executeRebuild
from CedarBackup2.actions.validate import executeValidate
from CedarBackup2.actions.initialize import executeInitialize
########################################################################
# Module-wide constants and variables
########################################################################
logger = logging.getLogger("CedarBackup2.log.cli")
DISK_LOG_FORMAT = "%(asctime)s --> [%(levelname)-7s] %(message)s"
DISK_OUTPUT_FORMAT = "%(message)s"
SCREEN_LOG_FORMAT = "%(message)s"
SCREEN_LOG_STREAM = sys.stdout
DATE_FORMAT = "%Y-%m-%dT%H:%M:%S %Z"
DEFAULT_CONFIG = "/etc/cback.conf"
DEFAULT_LOGFILE = "/var/log/cback.log"
DEFAULT_OWNERSHIP = [ "root", "adm", ]
DEFAULT_MODE = 0640
REBUILD_INDEX = 0 # can't run with anything else, anyway
VALIDATE_INDEX = 0 # can't run with anything else, anyway
INITIALIZE_INDEX = 0 # can't run with anything else, anyway
COLLECT_INDEX = 100
STAGE_INDEX = 200
STORE_INDEX = 300
PURGE_INDEX = 400
VALID_ACTIONS = [ "collect", "stage", "store", "purge", "rebuild", "validate", "initialize", "all", ]
COMBINE_ACTIONS = [ "collect", "stage", "store", "purge", ]
NONCOMBINE_ACTIONS = [ "rebuild", "validate", "initialize", "all", ]
SHORT_SWITCHES = "hVbqc:fMNl:o:m:OdsD"
LONG_SWITCHES = [ 'help', 'version', 'verbose', 'quiet',
'config=', 'full', 'managed', 'managed-only',
'logfile=', 'owner=', 'mode=',
'output', 'debug', 'stack', 'diagnostics', ]
#######################################################################
# Public functions
#######################################################################
#################
# cli() function
#################
def cli():
"""
Implements the command-line interface for the C{cback} script.
Essentially, this is the "main routine" for the cback script. It does all
of the argument processing for the script, and then sets about executing the
indicated actions.
As a general rule, only the actions indicated on the command line will be
executed. We will accept any of the built-in actions and any of the
configured extended actions (which makes action list verification a two-
step process).
The C{'all'} action has a special meaning: it means that the built-in set of
actions (collect, stage, store, purge) will all be executed, in that order.
Extended actions will be ignored as part of the C{'all'} action.
Raised exceptions always result in an immediate return. Otherwise, we
generally return when all specified actions have been completed. Actions
are ignored if the help, version or validate flags are set.
A different error code is returned for each type of failure:
- C{1}: The Python interpreter version is < 2.7
- C{2}: Error processing command-line arguments
- C{3}: Error configuring logging
- C{4}: Error parsing indicated configuration file
- C{5}: Backup was interrupted with a CTRL-C or similar
- C{6}: Error executing specified backup actions
@note: This function contains a good amount of logging at the INFO level,
because this is the right place to document high-level flow of control (i.e.
what the command-line options were, what config file was being used, etc.)
@note: We assume that anything that I{must} be seen on the screen is logged
at the ERROR level. Errors that occur before logging can be configured are
written to C{sys.stderr}.
@return: Error code as described above.
"""
try:
if map(int, [sys.version_info[0], sys.version_info[1]]) < [2, 7]:
sys.stderr.write("Python 2 version 2.7 or greater required.\n")
return 1
except:
# sys.version_info isn't available before 2.0
sys.stderr.write("Python 2 version 2.7 or greater required.\n")
return 1
try:
options = Options(argumentList=sys.argv[1:])
logger.info("Specified command-line actions: %s", options.actions)
except Exception, e:
_usage()
sys.stderr.write(" *** Error: %s\n" % e)
return 2
if options.help:
_usage()
return 0
if options.version:
_version()
return 0
if options.diagnostics:
_diagnostics()
return 0
if options.stacktrace:
logfile = setupLogging(options)
else:
try:
logfile = setupLogging(options)
except Exception as e:
sys.stderr.write("Error setting up logging: %s\n" % e)
return 3
logger.info("Cedar Backup run started.")
logger.info("Options were [%s]", options)
logger.info("Logfile is [%s]", logfile)
Diagnostics().logDiagnostics(method=logger.info)
if options.config is None:
logger.debug("Using default configuration file.")
configPath = DEFAULT_CONFIG
else:
logger.debug("Using user-supplied configuration file.")
configPath = options.config
executeLocal = True
executeManaged = False
if options.managedOnly:
executeLocal = False
executeManaged = True
if options.managed:
executeManaged = True
logger.debug("Execute local actions: %s", executeLocal)
logger.debug("Execute managed actions: %s", executeManaged)
try:
logger.info("Configuration path is [%s]", configPath)
config = Config(xmlPath=configPath)
customizeOverrides(config)
setupPathResolver(config)
actionSet = _ActionSet(options.actions, config.extensions, config.options,
config.peers, executeManaged, executeLocal)
except Exception, e:
logger.error("Error reading or handling configuration: %s", e)
logger.info("Cedar Backup run completed with status 4.")
return 4
if options.stacktrace:
actionSet.executeActions(configPath, options, config)
else:
try:
actionSet.executeActions(configPath, options, config)
except KeyboardInterrupt:
logger.error("Backup interrupted.")
logger.info("Cedar Backup run completed with status 5.")
return 5
except Exception, e:
logger.error("Error executing backup: %s", e)
logger.info("Cedar Backup run completed with status 6.")
return 6
logger.info("Cedar Backup run completed with status 0.")
return 0
########################################################################
# Action-related class definition
########################################################################
####################
# _ActionItem class
####################
class _ActionItem(object):
"""
Class representing a single action to be executed.
This class represents a single named action to be executed, and understands
how to execute that action.
The built-in actions will use only the options and config values. We also
pass in the config path so that extension modules can re-parse configuration
if they want to, to add in extra information.
This class is also where pre-action and post-action hooks are executed. An
action item is instantiated in terms of optional pre- and post-action hook
objects (config.ActionHook), which are then executed at the appropriate time
(if set).
@note: The comparison operators for this class have been implemented to only
compare based on the index and SORT_ORDER value, and ignore all other
values. This is so that the action set list can be easily sorted first by
type (_ActionItem before _ManagedActionItem) and then by index within type.
@cvar SORT_ORDER: Defines a sort order to order properly between types.
"""
SORT_ORDER = 0
def __init__(self, index, name, preHooks, postHooks, function):
"""
Default constructor.
It's OK to pass C{None} for C{index}, C{preHooks} or C{postHooks}, but not
for C{name}.
@param index: Index of the item (or C{None}).
@param name: Name of the action that is being executed.
@param preHooks: List of pre-action hooks in terms of an C{ActionHook} object, or C{None}.
@param postHooks: List of post-action hooks in terms of an C{ActionHook} object, or C{None}.
@param function: Reference to function associated with item.
"""
self.index = index
self.name = name
self.preHooks = preHooks
self.postHooks = postHooks
self.function = function
def __cmp__(self, other):
"""
Definition of equals operator for this class.
The only thing we compare is the item's index.
@param other: Other object to compare to.
@return: -1/0/1 depending on whether self is C{<}, C{=} or C{>} other.
"""
if other is None:
return 1
if self.index != other.index:
if self.index < other.index:
return -1
else:
return 1
else:
if self.SORT_ORDER != other.SORT_ORDER:
if self.SORT_ORDER < other.SORT_ORDER:
return -1
else:
return 1
return 0
def executeAction(self, configPath, options, config):
"""
Executes the action associated with an item, including hooks.
See class notes for more details on how the action is executed.
@param configPath: Path to configuration file on disk.
@param options: Command-line options to be passed to action.
@param config: Parsed configuration to be passed to action.
@raise Exception: If there is a problem executing the action.
"""
logger.debug("Executing [%s] action.", self.name)
if self.preHooks is not None:
for hook in self.preHooks:
self._executeHook("pre-action", hook)
self._executeAction(configPath, options, config)
if self.postHooks is not None:
for hook in self.postHooks:
self._executeHook("post-action", hook)
def _executeAction(self, configPath, options, config):
"""
Executes the action, specifically the function associated with the action.
@param configPath: Path to configuration file on disk.
@param options: Command-line options to be passed to action.
@param config: Parsed configuration to be passed to action.
"""
name = "%s.%s" % (self.function.__module__, self.function.__name__)
logger.debug("Calling action function [%s], execution index [%d]", name, self.index)
self.function(configPath, options, config)
def _executeHook(self, type, hook): # pylint: disable=W0622,R0201
"""
Executes a hook command via L{util.executeCommand()}.
@param type: String describing the type of hook, for logging.
@param hook: Hook, in terms of a C{ActionHook} object.
"""
fields = splitCommandLine(hook.command)
logger.debug("Executing %s hook for action [%s]: %s", type, hook.action, fields[0:1])
result = executeCommand(command=fields[0:1], args=fields[1:])[0]
if result != 0:
raise IOError("Error (%d) executing %s hook for action [%s]: %s" % (result, type, hook.action, fields[0:1]))
###########################
# _ManagedActionItem class
###########################
class _ManagedActionItem(object):
"""
Class representing a single action to be executed on a managed peer.
This class represents a single named action to be executed, and understands
how to execute that action.
Actions to be executed on a managed peer rely on peer configuration and
on the full-backup flag. All other configuration takes place on the remote
peer itself.
@note: The comparison operators for this class have been implemented to only
compare based on the index and SORT_ORDER value, and ignore all other
values. This is so that the action set list can be easily sorted first by
type (_ActionItem before _ManagedActionItem) and then by index within type.
@cvar SORT_ORDER: Defines a sort order to order properly between types.
"""
SORT_ORDER = 1
def __init__(self, index, name, remotePeers):
"""
Default constructor.
@param index: Index of the item (or C{None}).
@param name: Name of the action that is being executed.
@param remotePeers: List of remote peers on which to execute the action.
"""
self.index = index
self.name = name
self.remotePeers = remotePeers
def __cmp__(self, other):
"""
Definition of equals operator for this class.
The only thing we compare is the item's index.
@param other: Other object to compare to.
@return: -1/0/1 depending on whether self is C{<}, C{=} or C{>} other.
"""
if other is None:
return 1
if self.index != other.index:
if self.index < other.index:
return -1
else:
return 1
else:
if self.SORT_ORDER != other.SORT_ORDER:
if self.SORT_ORDER < other.SORT_ORDER:
return -1
else:
return 1
return 0
def executeAction(self, configPath, options, config):
"""
Executes the managed action associated with an item.
@note: Only options.full is actually used. The rest of the arguments
exist to satisfy the ActionItem iterface.
@note: Errors here result in a message logged to ERROR, but no thrown
exception. The analogy is the stage action where a problem with one host
should not kill the entire backup. Since we're logging an error, the
administrator will get an email.
@param configPath: Path to configuration file on disk.
@param options: Command-line options to be passed to action.
@param config: Parsed configuration to be passed to action.
@raise Exception: If there is a problem executing the action.
"""
for peer in self.remotePeers:
logger.debug("Executing managed action [%s] on peer [%s].", self.name, peer.name)
try:
peer.executeManagedAction(self.name, options.full)
except IOError, e:
logger.error(e) # log the message and go on, so we don't kill the backup
###################
# _ActionSet class
###################
class _ActionSet(object):
"""
Class representing a set of local actions to be executed.
This class does four different things. First, it ensures that the actions
specified on the command-line are sensible. The command-line can only list
either built-in actions or extended actions specified in configuration.
Also, certain actions (in L{NONCOMBINE_ACTIONS}) cannot be combined with
other actions.
Second, the class enforces an execution order on the specified actions. Any
time actions are combined on the command line (either built-in actions or
extended actions), we must make sure they get executed in a sensible order.
Third, the class ensures that any pre-action or post-action hooks are
scheduled and executed appropriately. Hooks are configured by building a
dictionary mapping between hook action name and command. Pre-action hooks
are executed immediately before their associated action, and post-action
hooks are executed immediately after their associated action.
Finally, the class properly interleaves local and managed actions so that
the same action gets executed first locally and then on managed peers.
@sort: __init__, executeActions
"""
def __init__(self, actions, extensions, options, peers, managed, local):
"""
Constructor for the C{_ActionSet} class.
This is kind of ugly, because the constructor has to set up a lot of data
before being able to do anything useful. The following data structures
are initialized based on the input:
- C{extensionNames}: List of extensions available in configuration
- C{preHookMap}: Mapping from action name to list of C{PreActionHook}
- C{postHookMap}: Mapping from action name to list of C{PostActionHook}
- C{functionMap}: Mapping from action name to Python function
- C{indexMap}: Mapping from action name to execution index
- C{peerMap}: Mapping from action name to set of C{RemotePeer}
- C{actionMap}: Mapping from action name to C{_ActionItem}
Once these data structures are set up, the command line is validated to
make sure only valid actions have been requested, and in a sensible
combination. Then, all of the data is used to build C{self.actionSet},
the set action items to be executed by C{executeActions()}. This list
might contain either C{_ActionItem} or C{_ManagedActionItem}.
@param actions: Names of actions specified on the command-line.
@param extensions: Extended action configuration (i.e. config.extensions)
@param options: Options configuration (i.e. config.options)
@param peers: Peers configuration (i.e. config.peers)
@param managed: Whether to include managed actions in the set
@param local: Whether to include local actions in the set
@raise ValueError: If one of the specified actions is invalid.
"""
extensionNames = _ActionSet._deriveExtensionNames(extensions)
(preHookMap, postHookMap) = _ActionSet._buildHookMaps(options.hooks)
functionMap = _ActionSet._buildFunctionMap(extensions)
indexMap = _ActionSet._buildIndexMap(extensions)
peerMap = _ActionSet._buildPeerMap(options, peers)
actionMap = _ActionSet._buildActionMap(managed, local, extensionNames, functionMap,
indexMap, preHookMap, postHookMap, peerMap)
_ActionSet._validateActions(actions, extensionNames)
self.actionSet = _ActionSet._buildActionSet(actions, actionMap)
@staticmethod
def _deriveExtensionNames(extensions):
"""
Builds a list of extended actions that are available in configuration.
@param extensions: Extended action configuration (i.e. config.extensions)
@return: List of extended action names.
"""
extensionNames = []
if extensions is not None and extensions.actions is not None:
for action in extensions.actions:
extensionNames.append(action.name)
return extensionNames
@staticmethod
def _buildHookMaps(hooks):
"""
Build two mappings from action name to configured C{ActionHook}.
@param hooks: List of pre- and post-action hooks (i.e. config.options.hooks)
@return: Tuple of (pre hook dictionary, post hook dictionary).
"""
preHookMap = {}
postHookMap = {}
if hooks is not None:
for hook in hooks:
if hook.before:
if not hook.action in preHookMap:
preHookMap[hook.action] = []
preHookMap[hook.action].append(hook)
elif hook.after:
if not hook.action in postHookMap:
postHookMap[hook.action] = []
postHookMap[hook.action].append(hook)
return (preHookMap, postHookMap)
@staticmethod
def _buildFunctionMap(extensions):
"""
Builds a mapping from named action to action function.
@param extensions: Extended action configuration (i.e. config.extensions)
@return: Dictionary mapping action to function.
"""
functionMap = {}
functionMap['rebuild'] = executeRebuild
functionMap['validate'] = executeValidate
functionMap['initialize'] = executeInitialize
functionMap['collect'] = executeCollect
functionMap['stage'] = executeStage
functionMap['store'] = executeStore
functionMap['purge'] = executePurge
if extensions is not None and extensions.actions is not None:
for action in extensions.actions:
functionMap[action.name] = getFunctionReference(action.module, action.function)
return functionMap
@staticmethod
def _buildIndexMap(extensions):
"""
Builds a mapping from action name to proper execution index.
If extensions configuration is C{None}, or there are no configured
extended actions, the ordering dictionary will only include the built-in
actions and their standard indices.
Otherwise, if the extensions order mode is C{None} or C{"index"}, actions
will scheduled by explicit index; and if the extensions order mode is
C{"dependency"}, actions will be scheduled using a dependency graph.
@param extensions: Extended action configuration (i.e. config.extensions)
@return: Dictionary mapping action name to integer execution index.
"""
indexMap = {}
if extensions is None or extensions.actions is None or extensions.actions == []:
logger.info("Action ordering will use 'index' order mode.")
indexMap['rebuild'] = REBUILD_INDEX
indexMap['validate'] = VALIDATE_INDEX
indexMap['initialize'] = INITIALIZE_INDEX
indexMap['collect'] = COLLECT_INDEX
indexMap['stage'] = STAGE_INDEX
indexMap['store'] = STORE_INDEX
indexMap['purge'] = PURGE_INDEX
logger.debug("Completed filling in action indices for built-in actions.")
logger.info("Action order will be: %s", sortDict(indexMap))
else:
if extensions.orderMode is None or extensions.orderMode == "index":
logger.info("Action ordering will use 'index' order mode.")
indexMap['rebuild'] = REBUILD_INDEX
indexMap['validate'] = VALIDATE_INDEX
indexMap['initialize'] = INITIALIZE_INDEX
indexMap['collect'] = COLLECT_INDEX
indexMap['stage'] = STAGE_INDEX
indexMap['store'] = STORE_INDEX
indexMap['purge'] = PURGE_INDEX
logger.debug("Completed filling in action indices for built-in actions.")
for action in extensions.actions:
indexMap[action.name] = action.index
logger.debug("Completed filling in action indices for extended actions.")
logger.info("Action order will be: %s", sortDict(indexMap))
else:
logger.info("Action ordering will use 'dependency' order mode.")
graph = DirectedGraph("dependencies")
graph.createVertex("rebuild")
graph.createVertex("validate")
graph.createVertex("initialize")
graph.createVertex("collect")
graph.createVertex("stage")
graph.createVertex("store")
graph.createVertex("purge")
for action in extensions.actions:
graph.createVertex(action.name)
graph.createEdge("collect", "stage") # Collect must run before stage, store or purge
graph.createEdge("collect", "store")
graph.createEdge("collect", "purge")
graph.createEdge("stage", "store") # Stage must run before store or purge
graph.createEdge("stage", "purge")
graph.createEdge("store", "purge") # Store must run before purge
for action in extensions.actions:
if action.dependencies.beforeList is not None:
for vertex in action.dependencies.beforeList:
try:
graph.createEdge(action.name, vertex) # actions that this action must be run before
except ValueError:
logger.error("Dependency [%s] on extension [%s] is unknown.", vertex, action.name)
raise ValueError("Unable to determine proper action order due to invalid dependency.")
if action.dependencies.afterList is not None:
for vertex in action.dependencies.afterList:
try:
graph.createEdge(vertex, action.name) # actions that this action must be run after
except ValueError:
logger.error("Dependency [%s] on extension [%s] is unknown.", vertex, action.name)
raise ValueError("Unable to determine proper action order due to invalid dependency.")
try:
ordering = graph.topologicalSort()
indexMap = dict([(ordering[i], i+1) for i in range(0, len(ordering))])
logger.info("Action order will be: %s", ordering)
except ValueError:
logger.error("Unable to determine proper action order due to dependency recursion.")
logger.error("Extensions configuration is invalid (check for loops).")
raise ValueError("Unable to determine proper action order due to dependency recursion.")
return indexMap
@staticmethod
def _buildActionMap(managed, local, extensionNames, functionMap, indexMap, preHookMap, postHookMap, peerMap):
"""
Builds a mapping from action name to list of action items.
We build either C{_ActionItem} or C{_ManagedActionItem} objects here.
In most cases, the mapping from action name to C{_ActionItem} is 1:1.
The exception is the "all" action, which is a special case. However, a
list is returned in all cases, just for consistency later. Each
C{_ActionItem} will be created with a proper function reference and index
value for execution ordering.
The mapping from action name to C{_ManagedActionItem} is always 1:1.
Each managed action item contains a list of peers which the action should
be executed.
@param managed: Whether to include managed actions in the set
@param local: Whether to include local actions in the set
@param extensionNames: List of valid extended action names
@param functionMap: Dictionary mapping action name to Python function
@param indexMap: Dictionary mapping action name to integer execution index
@param preHookMap: Dictionary mapping action name to pre hooks (if any) for the action
@param postHookMap: Dictionary mapping action name to post hooks (if any) for the action
@param peerMap: Dictionary mapping action name to list of remote peers on which to execute the action
@return: Dictionary mapping action name to list of C{_ActionItem} objects.
"""
actionMap = {}
for name in extensionNames + VALID_ACTIONS:
if name != 'all': # do this one later
function = functionMap[name]
index = indexMap[name]
actionMap[name] = []
if local:
(preHooks, postHooks) = _ActionSet._deriveHooks(name, preHookMap, postHookMap)
actionMap[name].append(_ActionItem(index, name, preHooks, postHooks, function))
if managed:
if name in peerMap:
actionMap[name].append(_ManagedActionItem(index, name, peerMap[name]))
actionMap['all'] = actionMap['collect'] + actionMap['stage'] + actionMap['store'] + actionMap['purge']
return actionMap
@staticmethod
def _buildPeerMap(options, peers):
"""
Build a mapping from action name to list of remote peers.
There will be one entry in the mapping for each managed action. If there
are no managed peers, the mapping will be empty. Only managed actions
will be listed in the mapping.
@param options: Option configuration (i.e. config.options)
@param peers: Peers configuration (i.e. config.peers)
"""
peerMap = {}
if peers is not None:
if peers.remotePeers is not None:
for peer in peers.remotePeers:
if peer.managed:
remoteUser = _ActionSet._getRemoteUser(options, peer)
rshCommand = _ActionSet._getRshCommand(options, peer)
cbackCommand = _ActionSet._getCbackCommand(options, peer)
managedActions = _ActionSet._getManagedActions(options, peer)
remotePeer = RemotePeer(peer.name, None, options.workingDir, remoteUser, None,
options.backupUser, rshCommand, cbackCommand)
if managedActions is not None:
for managedAction in managedActions:
if managedAction in peerMap:
if remotePeer not in peerMap[managedAction]:
peerMap[managedAction].append(remotePeer)
else:
peerMap[managedAction] = [ remotePeer, ]
return peerMap
@staticmethod
def _deriveHooks(action, preHookDict, postHookDict):
"""
Derive pre- and post-action hooks, if any, associated with named action.
@param action: Name of action to look up
@param preHookDict: Dictionary mapping pre-action hooks to action name
@param postHookDict: Dictionary mapping post-action hooks to action name
@return Tuple (preHooks, postHooks) per mapping, with None values if there is no hook.
"""
preHooks = None
postHooks = None
if preHookDict.has_key(action):
preHooks = preHookDict[action]
if postHookDict.has_key(action):
postHooks = postHookDict[action]
return (preHooks, postHooks)
@staticmethod
def _validateActions(actions, extensionNames):
"""
Validate that the set of specified actions is sensible.
Any specified action must either be a built-in action or must be among
the extended actions defined in configuration. The actions from within
L{NONCOMBINE_ACTIONS} may not be combined with other actions.
@param actions: Names of actions specified on the command-line.
@param extensionNames: Names of extensions specified in configuration.
@raise ValueError: If one or more configured actions are not valid.
"""
if actions is None or actions == []:
raise ValueError("No actions specified.")
for action in actions:
if action not in VALID_ACTIONS and action not in extensionNames:
raise ValueError("Action [%s] is not a valid action or extended action." % action)
for action in NONCOMBINE_ACTIONS:
if action in actions and actions != [ action, ]:
raise ValueError("Action [%s] may not be combined with other actions." % action)
@staticmethod
def _buildActionSet(actions, actionMap):
"""
Build set of actions to be executed.
The set of actions is built in the proper order, so C{executeActions} can
spin through the set without thinking about it. Since we've already validated
that the set of actions is sensible, we don't take any precautions here to
make sure things are combined properly. If the action is listed, it will
be "scheduled" for execution.
@param actions: Names of actions specified on the command-line.
@param actionMap: Dictionary mapping action name to C{_ActionItem} object.
@return: Set of action items in proper order.
"""
actionSet = []
for action in actions:
actionSet.extend(actionMap[action])
actionSet.sort() # sort the actions in order by index
return actionSet
def executeActions(self, configPath, options, config):
"""
Executes all actions and extended actions, in the proper order.
Each action (whether built-in or extension) is executed in an identical
manner. The built-in actions will use only the options and config
values. We also pass in the config path so that extension modules can
re-parse configuration if they want to, to add in extra information.
@param configPath: Path to configuration file on disk.
@param options: Command-line options to be passed to action functions.
@param config: Parsed configuration to be passed to action functions.
@raise Exception: If there is a problem executing the actions.
"""
logger.debug("Executing local actions.")
for actionItem in self.actionSet:
actionItem.executeAction(configPath, options, config)
@staticmethod
def _getRemoteUser(options, remotePeer):
"""
Gets the remote user associated with a remote peer.
Use peer's if possible, otherwise take from options section.
@param options: OptionsConfig object, as from config.options
@param remotePeer: Configuration-style remote peer object.
@return: Name of remote user associated with remote peer.
"""
if remotePeer.remoteUser is None:
return options.backupUser
return remotePeer.remoteUser
@staticmethod
def _getRshCommand(options, remotePeer):
"""
Gets the RSH command associated with a remote peer.
Use peer's if possible, otherwise take from options section.
@param options: OptionsConfig object, as from config.options
@param remotePeer: Configuration-style remote peer object.
@return: RSH command associated with remote peer.
"""
if remotePeer.rshCommand is None:
return options.rshCommand
return remotePeer.rshCommand
@staticmethod
def _getCbackCommand(options, remotePeer):
"""
Gets the cback command associated with a remote peer.
Use peer's if possible, otherwise take from options section.
@param options: OptionsConfig object, as from config.options
@param remotePeer: Configuration-style remote peer object.
@return: cback command associated with remote peer.
"""
if remotePeer.cbackCommand is None:
return options.cbackCommand
return remotePeer.cbackCommand
@staticmethod
def _getManagedActions(options, remotePeer):
"""
Gets the managed actions list associated with a remote peer.
Use peer's if possible, otherwise take from options section.
@param options: OptionsConfig object, as from config.options
@param remotePeer: Configuration-style remote peer object.
@return: Set of managed actions associated with remote peer.
"""
if remotePeer.managedActions is None:
return options.managedActions
return remotePeer.managedActions
#######################################################################
# Utility functions
#######################################################################
####################
# _usage() function
####################
def _usage(fd=sys.stderr):
"""
Prints usage information for the cback script.
@param fd: File descriptor used to print information.
@note: The C{fd} is used rather than C{print} to facilitate unit testing.
"""
fd.write("\n")
fd.write(" Usage: cback [switches] action(s)\n")
fd.write("\n")
fd.write(" The following switches are accepted:\n")
fd.write("\n")
fd.write(" -h, --help Display this usage/help listing\n")
fd.write(" -V, --version Display version information\n")
fd.write(" -b, --verbose Print verbose output as well as logging to disk\n")
fd.write(" -q, --quiet Run quietly (display no output to the screen)\n")
fd.write(" -c, --config Path to config file (default: %s)\n" % DEFAULT_CONFIG)
fd.write(" -f, --full Perform a full backup, regardless of configuration\n")
fd.write(" -M, --managed Include managed clients when executing actions\n")
fd.write(" -N, --managed-only Include ONLY managed clients when executing actions\n")
fd.write(" -l, --logfile Path to logfile (default: %s)\n" % DEFAULT_LOGFILE)
fd.write(" -o, --owner Logfile ownership, user:group (default: %s:%s)\n" % (DEFAULT_OWNERSHIP[0], DEFAULT_OWNERSHIP[1]))
fd.write(" -m, --mode Octal logfile permissions mode (default: %o)\n" % DEFAULT_MODE)
fd.write(" -O, --output Record some sub-command (i.e. cdrecord) output to the log\n")
fd.write(" -d, --debug Write debugging information to the log (implies --output)\n")
fd.write(" -s, --stack Dump a Python stack trace instead of swallowing exceptions\n") # exactly 80 characters in width!
fd.write(" -D, --diagnostics Print runtime diagnostics to the screen and exit\n")
fd.write("\n")
fd.write(" The following actions may be specified:\n")
fd.write("\n")
fd.write(" all Take all normal actions (collect, stage, store, purge)\n")
fd.write(" collect Take the collect action\n")
fd.write(" stage Take the stage action\n")
fd.write(" store Take the store action\n")
fd.write(" purge Take the purge action\n")
fd.write(" rebuild Rebuild \"this week's\" disc if possible\n")
fd.write(" validate Validate configuration only\n")
fd.write(" initialize Initialize media for use with Cedar Backup\n")
fd.write("\n")
fd.write(" You may also specify extended actions that have been defined in\n")
fd.write(" configuration.\n")
fd.write("\n")
fd.write(" You must specify at least one action to take. More than one of\n")
fd.write(" the \"collect\", \"stage\", \"store\" or \"purge\" actions and/or\n")
fd.write(" extended actions may be specified in any arbitrary order; they\n")
fd.write(" will be executed in a sensible order. The \"all\", \"rebuild\",\n")
fd.write(" \"validate\", and \"initialize\" actions may not be combined with\n")
fd.write(" other actions.\n")
fd.write("\n")
######################
# _version() function
######################
def _version(fd=sys.stdout):
"""
Prints version information for the cback script.
@param fd: File descriptor used to print information.
@note: The C{fd} is used rather than C{print} to facilitate unit testing.
"""
fd.write("\n")
fd.write(" Cedar Backup version %s, released %s.\n" % (VERSION, DATE))
fd.write("\n")
fd.write(" Copyright (c) %s %s <%s>.\n" % (COPYRIGHT, AUTHOR, EMAIL))
fd.write(" See CREDITS for a list of included code and other contributors.\n")
fd.write(" This is free software; there is NO warranty. See the\n")
fd.write(" GNU General Public License version 2 for copying conditions.\n")
fd.write("\n")
fd.write(" Use the --help option for usage information.\n")
fd.write("\n")
##########################
# _diagnostics() function
##########################
def _diagnostics(fd=sys.stdout):
"""
Prints runtime diagnostics information.
@param fd: File descriptor used to print information.
@note: The C{fd} is used rather than C{print} to facilitate unit testing.
"""
fd.write("\n")
fd.write("Diagnostics:\n")
fd.write("\n")
Diagnostics().printDiagnostics(fd=fd, prefix=" ")
fd.write("\n")
##########################
# setupLogging() function
##########################
def setupLogging(options):
"""
Set up logging based on command-line options.
There are two kinds of logging: flow logging and output logging. Output
logging contains information about system commands executed by Cedar Backup,
for instance the calls to C{mkisofs} or C{mount}, etc. Flow logging
contains error and informational messages used to understand program flow.
Flow log messages and output log messages are written to two different
loggers target (C{CedarBackup2.log} and C{CedarBackup2.output}). Flow log
messages are written at the ERROR, INFO and DEBUG log levels, while output
log messages are generally only written at the INFO log level.
By default, output logging is disabled. When the C{options.output} or
C{options.debug} flags are set, output logging will be written to the
configured logfile. Output logging is never written to the screen.
By default, flow logging is enabled at the ERROR level to the screen and at
the INFO level to the configured logfile. If the C{options.quiet} flag is
set, flow logging is enabled at the INFO level to the configured logfile
only (i.e. no output will be sent to the screen). If the C{options.verbose}
flag is set, flow logging is enabled at the INFO level to both the screen
and the configured logfile. If the C{options.debug} flag is set, flow
logging is enabled at the DEBUG level to both the screen and the configured
logfile.
@param options: Command-line options.
@type options: L{Options} object
@return: Path to logfile on disk.
"""
logfile = _setupLogfile(options)
_setupFlowLogging(logfile, options)
_setupOutputLogging(logfile, options)
return logfile
def _setupLogfile(options):
"""
Sets up and creates logfile as needed.
If the logfile already exists on disk, it will be left as-is, under the
assumption that it was created with appropriate ownership and permissions.
If the logfile does not exist on disk, it will be created as an empty file.
Ownership and permissions will remain at their defaults unless user/group
and/or mode are set in the options. We ignore errors setting the indicated
user and group.
@note: This function is vulnerable to a race condition. If the log file
does not exist when the function is run, it will attempt to create the file
as safely as possible (using C{O_CREAT}). If two processes attempt to
create the file at the same time, then one of them will fail. In practice,
this shouldn't really be a problem, but it might happen occassionally if two
instances of cback run concurrently or if cback collides with logrotate or
something.
@param options: Command-line options.
@return: Path to logfile on disk.
"""
if options.logfile is None:
logfile = DEFAULT_LOGFILE
else:
logfile = options.logfile
if not os.path.exists(logfile):
mode = DEFAULT_MODE if options.mode is None else options.mode
orig = os.umask(0) # Per os.open(), "When computing mode, the current umask value is first masked out"
try:
fd = os.open(logfile, os.O_RDWR|os.O_CREAT|os.O_APPEND, mode)
with os.fdopen(fd, "a+") as f:
f.write("")
finally:
os.umask(orig)
try:
if options.owner is None or len(options.owner) < 2:
(uid, gid) = getUidGid(DEFAULT_OWNERSHIP[0], DEFAULT_OWNERSHIP[1])
else:
(uid, gid) = getUidGid(options.owner[0], options.owner[1])
os.chown(logfile, uid, gid)
except: pass
return logfile
def _setupFlowLogging(logfile, options):
"""
Sets up flow logging.
@param logfile: Path to logfile on disk.
@param options: Command-line options.
"""
flowLogger = logging.getLogger("CedarBackup2.log")
flowLogger.setLevel(logging.DEBUG) # let the logger see all messages
_setupDiskFlowLogging(flowLogger, logfile, options)
_setupScreenFlowLogging(flowLogger, options)
def _setupOutputLogging(logfile, options):
"""
Sets up command output logging.
@param logfile: Path to logfile on disk.
@param options: Command-line options.
"""
outputLogger = logging.getLogger("CedarBackup2.output")
outputLogger.setLevel(logging.DEBUG) # let the logger see all messages
_setupDiskOutputLogging(outputLogger, logfile, options)
def _setupDiskFlowLogging(flowLogger, logfile, options):
"""
Sets up on-disk flow logging.
@param flowLogger: Python flow logger object.
@param logfile: Path to logfile on disk.
@param options: Command-line options.
"""
formatter = logging.Formatter(fmt=DISK_LOG_FORMAT, datefmt=DATE_FORMAT)
handler = logging.FileHandler(logfile, mode="a")
handler.setFormatter(formatter)
if options.debug:
handler.setLevel(logging.DEBUG)
else:
handler.setLevel(logging.INFO)
flowLogger.addHandler(handler)
def _setupScreenFlowLogging(flowLogger, options):
"""
Sets up on-screen flow logging.
@param flowLogger: Python flow logger object.
@param options: Command-line options.
"""
formatter = logging.Formatter(fmt=SCREEN_LOG_FORMAT)
handler = logging.StreamHandler(SCREEN_LOG_STREAM)
handler.setFormatter(formatter)
if options.quiet:
handler.setLevel(logging.CRITICAL) # effectively turn it off
elif options.verbose:
if options.debug:
handler.setLevel(logging.DEBUG)
else:
handler.setLevel(logging.INFO)
else:
handler.setLevel(logging.ERROR)
flowLogger.addHandler(handler)
def _setupDiskOutputLogging(outputLogger, logfile, options):
"""
Sets up on-disk command output logging.
@param outputLogger: Python command output logger object.
@param logfile: Path to logfile on disk.
@param options: Command-line options.
"""
formatter = logging.Formatter(fmt=DISK_OUTPUT_FORMAT, datefmt=DATE_FORMAT)
handler = logging.FileHandler(logfile, mode="a")
handler.setFormatter(formatter)
if options.debug or options.output:
handler.setLevel(logging.DEBUG)
else:
handler.setLevel(logging.CRITICAL) # effectively turn it off
outputLogger.addHandler(handler)
###############################
# setupPathResolver() function
###############################
def setupPathResolver(config):
"""
Set up the path resolver singleton based on configuration.
Cedar Backup's path resolver is implemented in terms of a singleton, the
L{PathResolverSingleton} class. This function takes options configuration,
converts it into the dictionary form needed by the singleton, and then
initializes the singleton. After that, any function that needs to resolve
the path of a command can use the singleton.
@param config: Configuration
@type config: L{Config} object
"""
mapping = {}
if config.options.overrides is not None:
for override in config.options.overrides:
mapping[override.command] = override.absolutePath
singleton = PathResolverSingleton()
singleton.fill(mapping)
#########################################################################
# Options class definition
########################################################################
class Options(object):
######################
# Class documentation
######################
"""
Class representing command-line options for the cback script.
The C{Options} class is a Python object representation of the command-line
options of the cback script.
The object representation is two-way: a command line string or a list of
command line arguments can be used to create an C{Options} object, and then
changes to the object can be propogated back to a list of command-line
arguments or to a command-line string. An C{Options} object can even be
created from scratch programmatically (if you have a need for that).
There are two main levels of validation in the C{Options} class. The first
is field-level validation. Field-level validation comes into play when a
given field in an object is assigned to or updated. We use Python's
C{property} functionality to enforce specific validations on field values,
and in some places we even use customized list classes to enforce
validations on list members. You should expect to catch a C{ValueError}
exception when making assignments to fields if you are programmatically
filling an object.
The second level of validation is post-completion validation. Certain
validations don't make sense until an object representation of options is
fully "complete". We don't want these validations to apply all of the time,
because it would make building up a valid object from scratch a real pain.
For instance, we might have to do things in the right order to keep from
throwing exceptions, etc.
All of these post-completion validations are encapsulated in the
L{Options.validate} method. This method can be called at any time by a
client, and will always be called immediately after creating a C{Options}
object from a command line and before exporting a C{Options} object back to
a command line. This way, we get acceptable ease-of-use but we also don't
accept or emit invalid command lines.
@note: Lists within this class are "unordered" for equality comparisons.
@sort: __init__, __repr__, __str__, __cmp__
"""
##############
# Constructor
##############
def __init__(self, argumentList=None, argumentString=None, validate=True):
"""
Initializes an options object.
If you initialize the object without passing either C{argumentList} or
C{argumentString}, the object will be empty and will be invalid until it
is filled in properly.
No reference to the original arguments is saved off by this class. Once
the data has been parsed (successfully or not) this original information
is discarded.
The argument list is assumed to be a list of arguments, not including the
name of the command, something like C{sys.argv[1:]}. If you pass
C{sys.argv} instead, things are not going to work.
The argument string will be parsed into an argument list by the
L{util.splitCommandLine} function (see the documentation for that
function for some important notes about its limitations). There is an
assumption that the resulting list will be equivalent to C{sys.argv[1:]},
just like C{argumentList}.
Unless the C{validate} argument is C{False}, the L{Options.validate}
method will be called (with its default arguments) after successfully
parsing any passed-in command line. This validation ensures that
appropriate actions, etc. have been specified. Keep in mind that even if
C{validate} is C{False}, it might not be possible to parse the passed-in
command line, so an exception might still be raised.
@note: The command line format is specified by the L{_usage} function.
Call L{_usage} to see a usage statement for the cback script.
@note: It is strongly suggested that the C{validate} option always be set
to C{True} (the default) unless there is a specific need to read in
invalid command line arguments.
@param argumentList: Command line for a program.
@type argumentList: List of arguments, i.e. C{sys.argv}
@param argumentString: Command line for a program.
@type argumentString: String, i.e. "cback --verbose stage store"
@param validate: Validate the command line after parsing it.
@type validate: Boolean true/false.
@raise getopt.GetoptError: If the command-line arguments could not be parsed.
@raise ValueError: If the command-line arguments are invalid.
"""
self._help = False
self._version = False
self._verbose = False
self._quiet = False
self._config = None
self._full = False
self._managed = False
self._managedOnly = False
self._logfile = None
self._owner = None
self._mode = None
self._output = False
self._debug = False
self._stacktrace = False
self._diagnostics = False
self._actions = None
self.actions = [] # initialize to an empty list; remainder are OK
if argumentList is not None and argumentString is not None:
raise ValueError("Use either argumentList or argumentString, but not both.")
if argumentString is not None:
argumentList = splitCommandLine(argumentString)
if argumentList is not None:
self._parseArgumentList(argumentList)
if validate:
self.validate()
#########################
# String representations
#########################
def __repr__(self):
"""
Official string representation for class instance.
"""
return self.buildArgumentString(validate=False)
def __str__(self):
"""
Informal string representation for class instance.
"""
return self.__repr__()
#############################
# Standard comparison method
#############################
def __cmp__(self, other):
"""
Definition of equals operator for this class.
Lists within this class are "unordered" for equality comparisons.
@param other: Other object to compare to.
@return: -1/0/1 depending on whether self is C{<}, C{=} or C{>} other.
"""
if other is None:
return 1
if self.help != other.help:
if self.help < other.help:
return -1
else:
return 1
if self.version != other.version:
if self.version < other.version:
return -1
else:
return 1
if self.verbose != other.verbose:
if self.verbose < other.verbose:
return -1
else:
return 1
if self.quiet != other.quiet:
if self.quiet < other.quiet:
return -1
else:
return 1
if self.config != other.config:
if self.config < other.config:
return -1
else:
return 1
if self.full != other.full:
if self.full < other.full:
return -1
else:
return 1
if self.managed != other.managed:
if self.managed < other.managed:
return -1
else:
return 1
if self.managedOnly != other.managedOnly:
if self.managedOnly < other.managedOnly:
return -1
else:
return 1
if self.logfile != other.logfile:
if self.logfile < other.logfile:
return -1
else:
return 1
if self.owner != other.owner:
if self.owner < other.owner:
return -1
else:
return 1
if self.mode != other.mode:
if self.mode < other.mode:
return -1
else:
return 1
if self.output != other.output:
if self.output < other.output:
return -1
else:
return 1
if self.debug != other.debug:
if self.debug < other.debug:
return -1
else:
return 1
if self.stacktrace != other.stacktrace:
if self.stacktrace < other.stacktrace:
return -1
else:
return 1
if self.diagnostics != other.diagnostics:
if self.diagnostics < other.diagnostics:
return -1
else:
return 1
if self.actions != other.actions:
if self.actions < other.actions:
return -1
else:
return 1
return 0
#############
# Properties
#############
def _setHelp(self, value):
"""
Property target used to set the help flag.
No validations, but we normalize the value to C{True} or C{False}.
"""
if value:
self._help = True
else:
self._help = False
def _getHelp(self):
"""
Property target used to get the help flag.
"""
return self._help
def _setVersion(self, value):
"""
Property target used to set the version flag.
No validations, but we normalize the value to C{True} or C{False}.
"""
if value:
self._version = True
else:
self._version = False
def _getVersion(self):
"""
Property target used to get the version flag.
"""
return self._version
def _setVerbose(self, value):
"""
Property target used to set the verbose flag.
No validations, but we normalize the value to C{True} or C{False}.
"""
if value:
self._verbose = True
else:
self._verbose = False
def _getVerbose(self):
"""
Property target used to get the verbose flag.
"""
return self._verbose
def _setQuiet(self, value):
"""
Property target used to set the quiet flag.
No validations, but we normalize the value to C{True} or C{False}.
"""
if value:
self._quiet = True
else:
self._quiet = False
def _getQuiet(self):
"""
Property target used to get the quiet flag.
"""
return self._quiet
def _setConfig(self, value):
"""
Property target used to set the config parameter.
"""
if value is not None:
if len(value) < 1:
raise ValueError("The config parameter must be a non-empty string.")
self._config = value
def _getConfig(self):
"""
Property target used to get the config parameter.
"""
return self._config
def _setFull(self, value):
"""
Property target used to set the full flag.
No validations, but we normalize the value to C{True} or C{False}.
"""
if value:
self._full = True
else:
self._full = False
def _getFull(self):
"""
Property target used to get the full flag.
"""
return self._full
def _setManaged(self, value):
"""
Property target used to set the managed flag.
No validations, but we normalize the value to C{True} or C{False}.
"""
if value:
self._managed = True
else:
self._managed = False
def _getManaged(self):
"""
Property target used to get the managed flag.
"""
return self._managed
def _setManagedOnly(self, value):
"""
Property target used to set the managedOnly flag.
No validations, but we normalize the value to C{True} or C{False}.
"""
if value:
self._managedOnly = True
else:
self._managedOnly = False
def _getManagedOnly(self):
"""
Property target used to get the managedOnly flag.
"""
return self._managedOnly
def _setLogfile(self, value):
"""
Property target used to set the logfile parameter.
@raise ValueError: If the value cannot be encoded properly.
"""
if value is not None:
if len(value) < 1:
raise ValueError("The logfile parameter must be a non-empty string.")
self._logfile = encodePath(value)
def _getLogfile(self):
"""
Property target used to get the logfile parameter.
"""
return self._logfile
def _setOwner(self, value):
"""
Property target used to set the owner parameter.
If not C{None}, the owner must be a C{(user,group)} tuple or list.
Strings (and inherited children of strings) are explicitly disallowed.
The value will be normalized to a tuple.
@raise ValueError: If the value is not valid.
"""
if value is None:
self._owner = None
else:
if isinstance(value, str):
raise ValueError("Must specify user and group tuple for owner parameter.")
if len(value) != 2:
raise ValueError("Must specify user and group tuple for owner parameter.")
if len(value[0]) < 1 or len(value[1]) < 1:
raise ValueError("User and group tuple values must be non-empty strings.")
self._owner = (value[0], value[1])
def _getOwner(self):
"""
Property target used to get the owner parameter.
The parameter is a tuple of C{(user, group)}.
"""
return self._owner
def _setMode(self, value):
"""
Property target used to set the mode parameter.
"""
if value is None:
self._mode = None
else:
try:
if isinstance(value, str):
value = int(value, 8)
else:
value = int(value)
except TypeError:
raise ValueError("Mode must be an octal integer >= 0, i.e. 644.")
if value < 0:
raise ValueError("Mode must be an octal integer >= 0. i.e. 644.")
self._mode = value
def _getMode(self):
"""
Property target used to get the mode parameter.
"""
return self._mode
def _setOutput(self, value):
"""
Property target used to set the output flag.
No validations, but we normalize the value to C{True} or C{False}.
"""
if value:
self._output = True
else:
self._output = False
def _getOutput(self):
"""
Property target used to get the output flag.
"""
return self._output
def _setDebug(self, value):
"""
Property target used to set the debug flag.
No validations, but we normalize the value to C{True} or C{False}.
"""
if value:
self._debug = True
else:
self._debug = False
def _getDebug(self):
"""
Property target used to get the debug flag.
"""
return self._debug
def _setStacktrace(self, value):
"""
Property target used to set the stacktrace flag.
No validations, but we normalize the value to C{True} or C{False}.
"""
if value:
self._stacktrace = True
else:
self._stacktrace = False
def _getStacktrace(self):
"""
Property target used to get the stacktrace flag.
"""
return self._stacktrace
def _setDiagnostics(self, value):
"""
Property target used to set the diagnostics flag.
No validations, but we normalize the value to C{True} or C{False}.
"""
if value:
self._diagnostics = True
else:
self._diagnostics = False
def _getDiagnostics(self):
"""
Property target used to get the diagnostics flag.
"""
return self._diagnostics
def _setActions(self, value):
"""
Property target used to set the actions list.
We don't restrict the contents of actions. They're validated somewhere else.
@raise ValueError: If the value is not valid.
"""
if value is None:
self._actions = None
else:
try:
saved = self._actions
self._actions = []
self._actions.extend(value)
except Exception, e:
self._actions = saved
raise e
def _getActions(self):
"""
Property target used to get the actions list.
"""
return self._actions
help = property(_getHelp, _setHelp, None, "Command-line help (C{-h,--help}) flag.")
version = property(_getVersion, _setVersion, None, "Command-line version (C{-V,--version}) flag.")
verbose = property(_getVerbose, _setVerbose, None, "Command-line verbose (C{-b,--verbose}) flag.")
quiet = property(_getQuiet, _setQuiet, None, "Command-line quiet (C{-q,--quiet}) flag.")
config = property(_getConfig, _setConfig, None, "Command-line configuration file (C{-c,--config}) parameter.")
full = property(_getFull, _setFull, None, "Command-line full-backup (C{-f,--full}) flag.")
managed = property(_getManaged, _setManaged, None, "Command-line managed (C{-M,--managed}) flag.")
managedOnly = property(_getManagedOnly, _setManagedOnly, None, "Command-line managed-only (C{-N,--managed-only}) flag.")
logfile = property(_getLogfile, _setLogfile, None, "Command-line logfile (C{-l,--logfile}) parameter.")
owner = property(_getOwner, _setOwner, None, "Command-line owner (C{-o,--owner}) parameter, as tuple C{(user,group)}.")
mode = property(_getMode, _setMode, None, "Command-line mode (C{-m,--mode}) parameter.")
output = property(_getOutput, _setOutput, None, "Command-line output (C{-O,--output}) flag.")
debug = property(_getDebug, _setDebug, None, "Command-line debug (C{-d,--debug}) flag.")
stacktrace = property(_getStacktrace, _setStacktrace, None, "Command-line stacktrace (C{-s,--stack}) flag.")
diagnostics = property(_getDiagnostics, _setDiagnostics, None, "Command-line diagnostics (C{-D,--diagnostics}) flag.")
actions = property(_getActions, _setActions, None, "Command-line actions list.")
##################
# Utility methods
##################
def validate(self):
"""
Validates command-line options represented by the object.
Unless C{--help} or C{--version} are supplied, at least one action must
be specified. Other validations (as for allowed values for particular
options) will be taken care of at assignment time by the properties
functionality.
@note: The command line format is specified by the L{_usage} function.
Call L{_usage} to see a usage statement for the cback script.
@raise ValueError: If one of the validations fails.
"""
if not self.help and not self.version and not self.diagnostics:
if self.actions is None or len(self.actions) == 0:
raise ValueError("At least one action must be specified.")
if self.managed and self.managedOnly:
raise ValueError("The --managed and --managed-only options may not be combined.")
def buildArgumentList(self, validate=True):
"""
Extracts options into a list of command line arguments.
The original order of the various arguments (if, indeed, the object was
initialized with a command-line) is not preserved in this generated
argument list. Besides that, the argument list is normalized to use the
long option names (i.e. --version rather than -V). The resulting list
will be suitable for passing back to the constructor in the
C{argumentList} parameter. Unlike L{buildArgumentString}, string
arguments are not quoted here, because there is no need for it.
Unless the C{validate} parameter is C{False}, the L{Options.validate}
method will be called (with its default arguments) against the
options before extracting the command line. If the options are not valid,
then an argument list will not be extracted.
@note: It is strongly suggested that the C{validate} option always be set
to C{True} (the default) unless there is a specific need to extract an
invalid command line.
@param validate: Validate the options before extracting the command line.
@type validate: Boolean true/false.
@return: List representation of command-line arguments.
@raise ValueError: If options within the object are invalid.
"""
if validate:
self.validate()
argumentList = []
if self._help:
argumentList.append("--help")
if self.version:
argumentList.append("--version")
if self.verbose:
argumentList.append("--verbose")
if self.quiet:
argumentList.append("--quiet")
if self.config is not None:
argumentList.append("--config")
argumentList.append(self.config)
if self.full:
argumentList.append("--full")
if self.managed:
argumentList.append("--managed")
if self.managedOnly:
argumentList.append("--managed-only")
if self.logfile is not None:
argumentList.append("--logfile")
argumentList.append(self.logfile)
if self.owner is not None:
argumentList.append("--owner")
argumentList.append("%s:%s" % (self.owner[0], self.owner[1]))
if self.mode is not None:
argumentList.append("--mode")
argumentList.append("%o" % self.mode)
if self.output:
argumentList.append("--output")
if self.debug:
argumentList.append("--debug")
if self.stacktrace:
argumentList.append("--stack")
if self.diagnostics:
argumentList.append("--diagnostics")
if self.actions is not None:
for action in self.actions:
argumentList.append(action)
return argumentList
def buildArgumentString(self, validate=True):
"""
Extracts options into a string of command-line arguments.
The original order of the various arguments (if, indeed, the object was
initialized with a command-line) is not preserved in this generated
argument string. Besides that, the argument string is normalized to use
the long option names (i.e. --version rather than -V) and to quote all
string arguments with double quotes (C{"}). The resulting string will be
suitable for passing back to the constructor in the C{argumentString}
parameter.
Unless the C{validate} parameter is C{False}, the L{Options.validate}
method will be called (with its default arguments) against the options
before extracting the command line. If the options are not valid, then
an argument string will not be extracted.
@note: It is strongly suggested that the C{validate} option always be set
to C{True} (the default) unless there is a specific need to extract an
invalid command line.
@param validate: Validate the options before extracting the command line.
@type validate: Boolean true/false.
@return: String representation of command-line arguments.
@raise ValueError: If options within the object are invalid.
"""
if validate:
self.validate()
argumentString = ""
if self._help:
argumentString += "--help "
if self.version:
argumentString += "--version "
if self.verbose:
argumentString += "--verbose "
if self.quiet:
argumentString += "--quiet "
if self.config is not None:
argumentString += "--config \"%s\" " % self.config
if self.full:
argumentString += "--full "
if self.managed:
argumentString += "--managed "
if self.managedOnly:
argumentString += "--managed-only "
if self.logfile is not None:
argumentString += "--logfile \"%s\" " % self.logfile
if self.owner is not None:
argumentString += "--owner \"%s:%s\" " % (self.owner[0], self.owner[1])
if self.mode is not None:
argumentString += "--mode %o " % self.mode
if self.output:
argumentString += "--output "
if self.debug:
argumentString += "--debug "
if self.stacktrace:
argumentString += "--stack "
if self.diagnostics:
argumentString += "--diagnostics "
if self.actions is not None:
for action in self.actions:
argumentString += "\"%s\" " % action
return argumentString
def _parseArgumentList(self, argumentList):
"""
Internal method to parse a list of command-line arguments.
Most of the validation we do here has to do with whether the arguments
can be parsed and whether any values which exist are valid. We don't do
any validation as to whether required elements exist or whether elements
exist in the proper combination (instead, that's the job of the
L{validate} method).
For any of the options which supply parameters, if the option is
duplicated with long and short switches (i.e. C{-l} and a C{--logfile})
then the long switch is used. If the same option is duplicated with the
same switch (long or short), then the last entry on the command line is
used.
@param argumentList: List of arguments to a command.
@type argumentList: List of arguments to a command, i.e. C{sys.argv[1:]}
@raise ValueError: If the argument list cannot be successfully parsed.
"""
switches = { }
opts, self.actions = getopt.getopt(argumentList, SHORT_SWITCHES, LONG_SWITCHES)
for o, a in opts: # push the switches into a hash
switches[o] = a
if switches.has_key("-h") or switches.has_key("--help"):
self.help = True
if switches.has_key("-V") or switches.has_key("--version"):
self.version = True
if switches.has_key("-b") or switches.has_key("--verbose"):
self.verbose = True
if switches.has_key("-q") or switches.has_key("--quiet"):
self.quiet = True
if switches.has_key("-c"):
self.config = switches["-c"]
if switches.has_key("--config"):
self.config = switches["--config"]
if switches.has_key("-f") or switches.has_key("--full"):
self.full = True
if switches.has_key("-M") or switches.has_key("--managed"):
self.managed = True
if switches.has_key("-N") or switches.has_key("--managed-only"):
self.managedOnly = True
if switches.has_key("-l"):
self.logfile = switches["-l"]
if switches.has_key("--logfile"):
self.logfile = switches["--logfile"]
if switches.has_key("-o"):
self.owner = switches["-o"].split(":", 1)
if switches.has_key("--owner"):
self.owner = switches["--owner"].split(":", 1)
if switches.has_key("-m"):
self.mode = switches["-m"]
if switches.has_key("--mode"):
self.mode = switches["--mode"]
if switches.has_key("-O") or switches.has_key("--output"):
self.output = True
if switches.has_key("-d") or switches.has_key("--debug"):
self.debug = True
if switches.has_key("-s") or switches.has_key("--stack"):
self.stacktrace = True
if switches.has_key("-D") or switches.has_key("--diagnostics"):
self.diagnostics = True
#########################################################################
# Main routine
########################################################################
if __name__ == "__main__":
result = cli()
sys.exit(result)
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