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syncrepl.py
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# -*- coding: utf-8 -*- """ ldap.syncrepl - for implementing syncrepl consumer (see RFC 4533) See http://www.python-ldap.org/ for project details. $Id: syncrepl.py,v 1.3 2012/08/09 07:18:31 stroeder Exp $ """ #__all__ = [ # '', # '', #] from uuid import UUID # Imports from python-ldap 2.4+ import ldap.ldapobject from ldap.controls import RequestControl,ResponseControl,KNOWN_RESPONSE_CONTROLS # Imports from pyasn1 from pyasn1.type import tag,namedtype,namedval,univ,constraint from pyasn1.codec.ber import encoder,decoder __all__ = [ 'SyncreplConsumer' ] # RFC 4533: # # syncUUID ::= OCTET STRING (SIZE(16)) # syncCookie ::= OCTET STRING class syncUUID(univ.OctetString): subtypeSpec = constraint.ValueSizeConstraint(16,16) class syncCookie(univ.OctetString): pass # 2.2. Sync Request Control # # The Sync Request Control is an LDAP Control [RFC4511] where the # controlType is the object identifier 1.3.6.1.4.1.4203.1.9.1.1 and the # controlValue, an OCTET STRING, contains a BER-encoded # syncRequestValue. The criticality field is either TRUE or FALSE. # # syncRequestValue ::= SEQUENCE { # mode ENUMERATED { # -- 0 unused # refreshOnly (1), # -- 2 reserved # refreshAndPersist (3) # }, # cookie syncCookie OPTIONAL, # reloadHint BOOLEAN DEFAULT FALSE # } # # The Sync Request Control is only applicable to the SearchRequest # Message. class syncRequestMode(univ.Enumerated): namedValues = namedval.NamedValues( ('refreshOnly', 1), ('refreshAndPersist', 3) ) subtypeSpec = univ.Enumerated.subtypeSpec + constraint.SingleValueConstraint(1,3) class syncRequestValue(univ.Sequence): componentType = namedtype.NamedTypes( namedtype.NamedType('mode', syncRequestMode()), namedtype.OptionalNamedType('cookie', syncCookie()), namedtype.DefaultedNamedType('reloadHint', univ.Boolean(False)) ) class SyncRequestControl(RequestControl): controlType = '1.3.6.1.4.1.4203.1.9.1.1' def __init__(self, criticality=1, cookie=None, mode='refreshOnly', reloadHint=False): self.criticality = criticality self.cookie = cookie self.mode = mode self.reloadHint = reloadHint def encodeControlValue(self): r = syncRequestValue() r.setComponentByName('mode', syncRequestMode(self.mode)) if self.cookie is not None: r.setComponentByName('cookie', syncCookie(self.cookie)) if self.reloadHint: r.setComponentbyName('reloadHint', univ.Boolean(self.reloadHint)) return encoder.encode(r) # 2.3. Sync State Control # # The Sync State Control is an LDAP Control [RFC4511] where the # controlType is the object identifier 1.3.6.1.4.1.4203.1.9.1.2 and the # controlValue, an OCTET STRING, contains a BER-encoded syncStateValue. # The criticality is FALSE. # # syncStateValue ::= SEQUENCE { # state ENUMERATED { # present (0), # add (1), # modify (2), # delete (3) # }, # entryUUID syncUUID, # cookie syncCookie OPTIONAL # } # # The Sync State Control is only applicable to SearchResultEntry and # SearchResultReference Messages. class syncStateOp(univ.Enumerated): namedValues = namedval.NamedValues( ('present', 0), ('add', 1), ('modify', 2), ('delete', 3) ) subtypeSpec = univ.Enumerated.subtypeSpec + constraint.SingleValueConstraint(0,1,2,3) class syncStateValue(univ.Sequence): componentType = namedtype.NamedTypes( namedtype.NamedType('state', syncStateOp()), namedtype.NamedType('entryUUID', syncUUID()), namedtype.OptionalNamedType('cookie', syncCookie()) ) class SyncStateControl(ResponseControl): controlType = '1.3.6.1.4.1.4203.1.9.1.2' opnames = ( 'present', 'add', 'modify', 'delete' ) def decodeControlValue(self, encodedControlValue): d = decoder.decode(encodedControlValue, asn1Spec = syncStateValue()) state = d[0].getComponentByName('state') uuid = UUID(bytes=d[0].getComponentByName('entryUUID')) self.cookie = d[0].getComponentByName('cookie') self.state = self.__class__.opnames[int(state)] self.entryUUID = str(uuid) if self.cookie is not None: self.cookie = str(self.cookie) KNOWN_RESPONSE_CONTROLS[SyncStateControl.controlType] = SyncStateControl # 2.4. Sync Done Control # # The Sync Done Control is an LDAP Control [RFC4511] where the # controlType is the object identifier 1.3.6.1.4.1.4203.1.9.1.3 and the # controlValue contains a BER-encoded syncDoneValue. The criticality # is FALSE (and hence absent). # # syncDoneValue ::= SEQUENCE { # cookie syncCookie OPTIONAL, # refreshDeletes BOOLEAN DEFAULT FALSE # } # # The Sync Done Control is only applicable to the SearchResultDone # Message. class syncDoneValue(univ.Sequence): componentType = namedtype.NamedTypes( namedtype.OptionalNamedType('cookie', syncCookie()), namedtype.DefaultedNamedType('refreshDeletes', univ.Boolean(False)) ) class SyncDoneControl(ResponseControl): controlType = '1.3.6.1.4.1.4203.1.9.1.3' def decodeControlValue(self, encodedControlValue): d = decoder.decode(encodedControlValue, asn1Spec = syncDoneValue()) self.cookie = d[0].getComponentByName('cookie') self.refreshDeletes = d[0].getComponentByName('refreshDeletes') if self.cookie is not None: self.cookie = str(self.cookie) if self.refreshDeletes is not None: self.refreshDeletes = bool(self.refreshDeletes) KNOWN_RESPONSE_CONTROLS[SyncDoneControl.controlType] = SyncDoneControl # 2.5. Sync Info Message # # The Sync Info Message is an LDAP Intermediate Response Message # [RFC4511] where responseName is the object identifier # 1.3.6.1.4.1.4203.1.9.1.4 and responseValue contains a BER-encoded # syncInfoValue. The criticality is FALSE (and hence absent). # # syncInfoValue ::= CHOICE { # newcookie [0] syncCookie, # refreshDelete [1] SEQUENCE { # cookie syncCookie OPTIONAL, # refreshDone BOOLEAN DEFAULT TRUE # }, # refreshPresent [2] SEQUENCE { # cookie syncCookie OPTIONAL, # refreshDone BOOLEAN DEFAULT TRUE # }, # syncIdSet [3] SEQUENCE { # cookie syncCookie OPTIONAL, # refreshDeletes BOOLEAN DEFAULT FALSE, # syncUUIDs SET OF syncUUID # } # } # class refreshDelete(univ.Sequence): componentType = namedtype.NamedTypes( namedtype.OptionalNamedType('cookie', syncCookie()), namedtype.DefaultedNamedType('refreshDone', univ.Boolean(True)) ) class refreshPresent(univ.Sequence): componentType = namedtype.NamedTypes( namedtype.OptionalNamedType('cookie', syncCookie()), namedtype.DefaultedNamedType('refreshDone', univ.Boolean(True)) ) class syncUUIDs(univ.SetOf): componentType = syncUUID() class syncIdSet(univ.Sequence): componentType = namedtype.NamedTypes( namedtype.OptionalNamedType('cookie', syncCookie()), namedtype.DefaultedNamedType('refreshDeletes', univ.Boolean(False)), namedtype.NamedType('syncUUIDs', syncUUIDs()) ) class syncInfoValue(univ.Choice): componentType = namedtype.NamedTypes( namedtype.NamedType( 'newcookie', syncCookie().subtype( implicitTag=tag.Tag(tag.tagClassContext, tag.tagFormatSimple, 0) ) ), namedtype.NamedType( 'refreshDelete', refreshDelete().subtype( implicitTag=tag.Tag(tag.tagClassContext, tag.tagFormatSimple, 1) ) ), namedtype.NamedType( 'refreshPresent', refreshPresent().subtype( implicitTag=tag.Tag(tag.tagClassContext, tag.tagFormatSimple, 2) ) ), namedtype.NamedType( 'syncIdSet', syncIdSet().subtype( implicitTag=tag.Tag(tag.tagClassContext, tag.tagFormatSimple, 3) ) ) ) class SyncInfoMessage: responseName = '1.3.6.1.4.1.4203.1.9.1.4' def __init__(self, encodedMessage): d = decoder.decode(encodedMessage, asn1Spec = syncInfoValue()) self.newcookie = None self.refreshDelete = None self.refreshPresent = None self.syncIdSet = None for attr in [ 'newcookie', 'refreshDelete', 'refreshPresent', 'syncIdSet']: comp = d[0].getComponentByName(attr) if comp is not None: if attr == 'newcookie': self.newcookie = str(comp) return val = dict() cookie = comp.getComponentByName('cookie') if cookie is not None: val['cookie'] = str(cookie) if attr.startswith('refresh'): val['refreshDone'] = bool(comp.getComponentByName('refreshDone')) elif attr == 'syncIdSet': uuids = [] ids = comp.getComponentByName('syncUUIDs') for i in range(len(ids)): uuid = UUID(bytes=str(ids.getComponentByPosition(i))) uuids.append(str(uuid)) val['syncUUIDs'] = uuids val['refreshDeletes'] = bool(comp.getComponentByName('refreshDeletes')) setattr(self,attr,val) return class SyncreplConsumer: """ SyncreplConsumer - LDAP syncrepl consumer object. """ def syncrepl_search(self, base, scope, mode='refreshOnly', cookie=None, **search_args): """ Starts syncrepl search operation. base, scope, and search_args are passed along to self.search_ext unmodified (aside from adding a Sync Request control to any serverctrls provided). mode provides syncrepl mode. Can be 'refreshOnly' to finish after synchronization, or 'refreshAndPersist' to persist (continue to receive updates) after synchronization. cookie: an opaque value representing the replication state of the client. Subclasses should override the syncrepl_set_cookie() and syncrepl_get_cookie() methods to store the cookie appropriately, rather than passing it. """ if cookie is None: cookie = self.syncrepl_get_cookie() syncreq = SyncRequestControl(cookie=cookie, mode=mode) if 'serverctrls' in search_args: search_args['serverctrls'] += [syncreq] else: search_args['serverctrls'] = [syncreq] self.__refreshDone = False return self.search_ext(base, scope, **search_args) def syncrepl_poll(self, msgid=-1, timeout=None, all=0): """ polls for and processes responses to the syncrepl_search() operation. Returns False when operation finishes, True if it is in progress, or raises an exception on error. If timeout is specified, raises ldap.TIMEOUT in the event of a timeout. If all is set to a nonzero value, poll() will return only when finished or when an exception is raised. """ while True: type, msg, mid, ctrls, n, v = self.result4( msgid=msgid, timeout=timeout, add_intermediates=1, add_ctrls=1, all = 0 ) if type == 101: # search result. This marks the end of a refreshOnly session. # look for a SyncDone control, save the cookie, and if necessary # delete non-present entries. for c in ctrls: if c.__class__.__name__ != 'SyncDoneControl': continue self.syncrepl_present(None,refreshDeletes=c.refreshDeletes) if c.cookie is not None: self.syncrepl_set_cookie(c.cookie) return False elif type == 100: # search entry with associated SyncState control for m in msg: dn, attrs, ctrls = m for c in ctrls: if c.__class__.__name__ != 'SyncStateControl': continue if c.state == 'present': self.syncrepl_present([c.entryUUID]) elif c.state == 'delete': self.syncrepl_delete([c.entryUUID]) else: self.syncrepl_entry(dn, attrs, c.entryUUID) if self.__refreshDone is False: self.syncrepl_present([c.entryUUID]) if c.cookie is not None: self.syncrepl_set_cookie(c.cookie) break elif type == 121: # Intermediate message. If it is a SyncInfoMessage, parse it for m in msg: rname, resp, ctrls = m if rname != SyncInfoMessage.responseName: continue sim = SyncInfoMessage(resp) if sim.newcookie is not None: self.syncrepl_set_cookie(sim.newcookie) elif sim.refreshPresent is not None: self.syncrepl_present(None, refreshDeletes=False) if 'cookie' in sim.refreshPresent: self.syncrepl_set_cookie(sim.refreshPresent['cookie']) if sim.refreshPresent['refreshDone']: self.__refreshDone = True self.syncrepl_refreshdone() elif sim.refreshDelete is not None: self.syncrepl_present(None, refreshDeletes=True) if 'cookie' in sim.refreshDelete: self.syncrepl_set_cookie(sim.refreshDelete['cookie']) if sim.refreshDelete['refreshDone']: self.__refreshDone = True self.syncrepl_refreshdone() elif sim.syncIdSet is not None: if sim.syncIdSet['refreshDeletes'] is True: self.syncrepl_delete(sim.syncIdSet['syncUUIDs']) else: self.syncrepl_present(sim.syncIdSet['syncUUIDs']) if 'cookie' in sim.syncIdSet: self.syncrepl_set_cookie(sim.syncIdSet['cookie']) pass if all == 0: return True # virtual methods -- subclass must override these to do useful work def syncrepl_set_cookie(self, cookie): """ Called by syncrepl_poll() to store a new cookie provided by the server. """ pass def syncrepl_get_cookie(self): """ Called by syncrepl_search() to retreive the cookie stored by syncrepl_set_cookie() """ pass def syncrepl_present(self, uuids, refreshDeletes=False): """ Called by syncrepl_poll() whenever entry UUIDs are presented to the client. syncrepl_present() is given a list of entry UUIDs (uuids) and a flag (refreshDeletes) which indicates whether the server explicitly deleted non-present entries during the refresh operation. If called with a list of uuids, the syncrepl_present() implementation should record those uuids as present in the directory. If called with uuids set to None and refreshDeletes set to False, syncrepl_present() should delete all non-present entries from the local mirror, and reset the list of recorded uuids. If called with uuids set to None and refreshDeletes set to True, syncrepl_present() should reset the list of recorded uuids, without deleting any entries. """ pass def syncrepl_delete(self, uuids): """ Called by syncrepl_poll() to delete entries. A list of UUIDs of the entries to be deleted is given in the uuids parameter. """ pass def syncrepl_entry(self, dn, attrs, uuid): """ Called by syncrepl_poll() for any added or modified entries. The provided uuid is used to identify the provided entry in any future modification (including dn modification), deletion, and presentation operations. """ pass def syncrepl_refreshdone(self): """ Called by syncrepl_poll() between refresh and persist phase. It indicates that initial synchronization is done and persist phase follows. """ pass