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webdav locking support

Project description

by Raphael Ritz, Jeff Roche, Martin Aspeli and others

Provides basic automatic locking support for Plone. Locks are stealable by default, meaning that a user with edit privileges will be able to steal another user’s lock, but will be warned that someone else may be editing the same object. Used by Plone, Archetypes and plone.app.iterate

Basic locking

By default, this is enabled on any ITTWLockable object. By default, this applies to any Archetypes content object.

>>> from Products.Archetypes.BaseContent import BaseContent
>>> obj = BaseContent('id')
>>> self.login('member1')

To lock this object, we adapt it to ILockable. The default adapter implements locking using WebDAV locks.

>>> from plone.locking.interfaces import ILockable
>>> lockable = ILockable(obj)

To begin with, this object will not be locked:

>>> lockable.locked()
False

We can then lock it:

>>> lockable.lock()
>>> lockable.locked()
True

If we try to lock it again, nothing happens.

>>> lockable.lock()
>>> lockable.locked()
True

We can get information about the lock as well:

>>> info = lockable.lock_info()
>>> len(info)
1
>>> info[0]['time'] > 0
True
>>> info[0]['creator']
'member1'

We can refresh the lock so that its timeout is recalculated relative to the current time.

>>> old_lock_time = lockable.lock_info()[0]['time']
>>> lockable.refresh_lock()
>>> new_lock_time = lockable.lock_info()[0]['time']
>>> new_lock_time > old_lock_time
True
Once we have finished working on the object, we can unlock it.
>>> lockable.unlock()
>>> lockable.locked()
False

There is no lock info when there is no lock:

>>> lockable.lock_info()
[]

Stealable locks

By default, locks can be stolen. That is, if a particular user has a lock and another user (with edit rights over the object) wants to edit the object, the second user can unlock the object. This is opposed to “safe” unlocking, which is done by the original owner.

Note that by convention, a user’s own lock is “stealable” as well (kind of like taking with the left hand and giving to the right).

>>> lockable.lock()
>>> lockable.can_safely_unlock()
True
>>> lockable.stealable()
True
>>> self.login('member2')
>>> lockable.locked()
True
>>> lockable.can_safely_unlock()
False
>>> lockable.stealable()
True
>>> lockable.unlock()
>>> lockable.locked()
False

Unlocked objects are “stealable” and can be safely unlocked, since calling unlock() on an unlocked object has no effect.

>>> lockable.stealable()
True
>>> lockable.can_safely_unlock()
True

However, an object can be marked as having a non-stealable lock

>>> from plone.locking.interfaces import INonStealableLock
>>> from zope.interface import directlyProvides
>>> directlyProvides(obj, INonStealableLock)
>>> lockable.lock()

The owner of the lock is of course free to unlock

>>> lockable.stealable()
True
>>> lockable.unlock()
>>> lockable.locked()
False

Another user is not, and unlock() has no effect.

>>> lockable.lock()
>>> lockable.locked()
True
>>> self.login('member1')
>>> lockable.stealable()
False
>>> lockable.unlock()
>>> lockable.locked()
True
>>> from zope.interface import noLongerProvides
>>> noLongerProvides(obj, INonStealableLock)
>>> lockable.clear_locks()
>>> lockable.locked()
False

Categorised locks

So far, we have been managing a single type of lock. However, it is possible to manage different types of locks which are mutually exclusive. For example, if a particular type of lock is applied, it cannot be stolen by a user who is attempting to create another type of lock.

Consider the default type of lock:

>>> from plone.locking.interfaces import STEALABLE_LOCK

This is simply a string that represents the default “stealable” locks. Let’s consider a check-in/check-out stating system that needs to lock the baseline copy of an object when a working copy is checked out:

>>> from plone.locking.interfaces import LockType
>>> COCI_LOCK = LockType(u'coci.lock', stealable=False, user_unlockable=False)

This is a very restrictive lock - it cannot be stolen or unlocked by the user. If we lock with this lock type, no-one can steal or safely unlock the object, regardless of lock type.

>>> lockable.lock(COCI_LOCK)
>>> lockable.locked()
True
>>> lockable.can_safely_unlock()
False
>>> lockable.can_safely_unlock(COCI_LOCK)
False
>>> lockable.stealable()
False
>>> lockable.stealable(COCI_LOCK)
False
>>> lockable.unlock(COCI_LOCK)
>>> lockable.locked()
False

Now consider a lock that is stealable, but distinct from the regular stealable lock. In this case, code managing one type of lock cannot steal locks or safely unlock objects locked with the other:

>>> SPECIAL_LOCK = LockType(u'special.lock', stealable=True, user_unlockable=True)
>>> lockable.lock(SPECIAL_LOCK)
>>> lockable.locked()
True
>>> lockable.can_safely_unlock()
False
>>> lockable.can_safely_unlock(SPECIAL_LOCK)
True
>>> lockable.stealable()
False
>>> lockable.stealable(SPECIAL_LOCK)
True
>>> lockable.unlock()
>>> lockable.locked()
True
>>> lockable.unlock(SPECIAL_LOCK)
>>> lockable.locked()
False

Anonymous locking

When we are anonymous but do have edit rights we can also do a lock.

>>> self.logout()
>>> lockable.lock()
>>> lockable.locked()
True
>>> info = lockable.lock_info()
>>> len(info)
1
>>> info[0]['time'] > 0
True
>>> info[0]['creator'] is None
True

Locking timeouts

Lock timeout should be ten minutes by default

>>> token = info[0]['token']
>>> lock = lockable.context.wl_getLock(token)
>>> lock._timeout
600L

Turning locking on or off

The status of the entire TTW locking mechanism can be controlled by setting up an ILockSettings adapter with a lock_on_ttw_edit property.

>>> class DummyLockSettings(object):
...     def __init__(self, context):
...         self.context = context
...     lock_on_ttw_edit = False
>>> from zope.component import getGlobalSiteManager
>>> from plone.locking.interfaces import ITTWLockable, ILockSettings
>>> gsm = getGlobalSiteManager()
>>> gsm.registerAdapter(DummyLockSettings, required=(ITTWLockable,), provided=ILockSettings)

Now trying to lock the object should have no effect.

>>> lockable.unlock()
>>> lockable.locked()
False
>>> lockable.lock()
>>> lockable.locked()
False

But if the property is True, then locking should function again.

>>> DummyLockSettings.lock_on_ttw_edit = True
>>> lockable.lock()
>>> lockable.locked()
True

Clean up.

>>> gsm.unregisterAdapter(DummyLockSettings, required=(ITTWLockable,), provided=ILockSettings)
True

Changelog

1.2.1 (2010-07-01)

  • Load the cmf.* permissions from Products.CMFCore. [hannosch]

1.2.0 (2009-03-04)

  • Added IRefreshableLockable interface and TTWLockable implementation. [davisagli]

  • Changed default lock timeout to 10 minutes. [davisagli]

1.1.0 (unreleased)

  • Clarified license and copyright statements. [hannosch]

  • Declare test dependencies in an extra. Avoid dependency on Plone. [hannosch]

  • Specify package dependencies. [hannosch]

  • Fix missing internationalization (#8609 thanks to Vincent Fretin) [encolpe]

1.0.5

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