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//usr/lib/python2.4/site-packages/ldap/schema/models.py
""" schema.py - support for subSchemaSubEntry information written by Michael Stroeder <michael@stroeder.com> See http://python-ldap.sourceforge.net for details. \$Id: models.py,v 1.29 2005/11/17 20:01:19 stroeder Exp $ """ import UserDict,ldap.cidict from ldap.schema.tokenizer import split_tokens,extract_tokens if __debug__: from types import TupleType,StringType,IntType try: from types import BooleanType except ImportError: BooleanType = IntType NOT_HUMAN_READABLE_LDAP_SYNTAXES = { '1.3.6.1.4.1.1466.115.121.1.4':None, # Audio '1.3.6.1.4.1.1466.115.121.1.5':None, # Binary '1.3.6.1.4.1.1466.115.121.1.8':None, # Certificate '1.3.6.1.4.1.1466.115.121.1.9':None, # Certificate List '1.3.6.1.4.1.1466.115.121.1.10':None, # Certificate Pair '1.3.6.1.4.1.1466.115.121.1.23':None, # G3 FAX '1.3.6.1.4.1.1466.115.121.1.28':None, # JPEG '1.3.6.1.4.1.1466.115.121.1.40':None, # Octet String '1.3.6.1.4.1.1466.115.121.1.49':None, # Supported Algorithm } class SchemaElement: """ Base class for all schema element classes. Not used directly! """ token_defaults = { 'DESC':(None,), } def __init__(self,schema_element_str=None): if schema_element_str: l = split_tokens(schema_element_str,self.token_defaults) self.set_id(l[1]) assert type(self.get_id())==StringType d = extract_tokens(l,self.token_defaults) self._set_attrs(l,d) def _set_attrs(self,l,d): self.desc = d['DESC'][0] return def set_id(self,element_id): self.oid = element_id def get_id(self): return self.oid def key_attr(self,key,value,quoted=0): assert value is None or type(value)==StringType,TypeError("value has to be of StringType, was %s" % repr(value)) if value: if quoted: return ' %s %s' % (key,repr(value)) else: return ' %s %s' % (key,value) else: return '' def key_list(self,key,values,sep=' ',quoted=0): assert type(values)==TupleType,TypeError("values has to be of ListType") if not values: return '' if quoted: quoted_values = map(repr,values) else: quoted_values = values if len(values)==1: return ' %s %s' % (key,quoted_values[0]) else: return ' %s ( %s )' % (key,sep.join(quoted_values)) def __str__(self): result = [str(self.oid)] result.append(self.key_attr('DESC',self.desc,quoted=1)) return '( %s )' % ''.join(result) class ObjectClass(SchemaElement): """ ObjectClassDescription = "(" whsp numericoid whsp ; ObjectClass identifier [ "NAME" qdescrs ] [ "DESC" qdstring ] [ "OBSOLETE" whsp ] [ "SUP" oids ] ; Superior ObjectClasses [ ( "ABSTRACT" / "STRUCTURAL" / "AUXILIARY" ) whsp ] ; default structural [ "MUST" oids ] ; AttributeTypes [ "MAY" oids ] ; AttributeTypes whsp ")" """ schema_attribute = 'objectClasses' token_defaults = { 'NAME':(()), 'DESC':(None,), 'OBSOLETE':None, 'SUP':(()), 'STRUCTURAL':None, 'AUXILIARY':None, 'ABSTRACT':None, 'MUST':(()), 'MAY':() } def _set_attrs(self,l,d): self.obsolete = d['OBSOLETE']!=None self.names = d['NAME'] self.desc = d['DESC'][0] self.must = d['MUST'] self.may = d['MAY'] # Default is STRUCTURAL, see RFC2552 or draft-ietf-ldapbis-syntaxes self.kind = 0 if d['ABSTRACT']!=None: self.kind = 1 elif d['AUXILIARY']!=None: self.kind = 2 if self.kind==0 and not d['SUP'] and self.oid!='2.5.6.0': # STRUCTURAL object classes are sub-classes of 'top' by default self.sup = ('top',) else: self.sup = d['SUP'] assert type(self.names)==TupleType assert self.desc is None or type(self.desc)==StringType assert type(self.obsolete)==BooleanType and (self.obsolete==0 or self.obsolete==1) assert type(self.sup)==TupleType assert type(self.kind)==IntType assert type(self.must)==TupleType assert type(self.may)==TupleType return def __str__(self): result = [str(self.oid)] result.append(self.key_list('NAME',self.names,quoted=1)) result.append(self.key_attr('DESC',self.desc,quoted=1)) result.append(self.key_list('SUP',self.sup)) result.append({0:'',1:' OBSOLETE'}[self.obsolete]) result.append({0:' STRUCTURAL',1:' ABSTRACT',2:' AUXILIARY'}[self.kind]) result.append(self.key_list('MUST',self.must,sep=' $ ')) result.append(self.key_list('MAY',self.may,sep=' $ ')) return '( %s )' % ''.join(result) AttributeUsage = ldap.cidict.cidict({ 'userApplication':0, 'userApplications':0, 'directoryOperation':1, 'distributedOperation':2, 'dSAOperation':3, }) class AttributeType(SchemaElement): """ AttributeTypeDescription = "(" whsp numericoid whsp ; AttributeType identifier [ "NAME" qdescrs ] ; name used in AttributeType [ "DESC" qdstring ] ; description [ "OBSOLETE" whsp ] [ "SUP" woid ] ; derived from this other ; AttributeType [ "EQUALITY" woid ; Matching Rule name [ "ORDERING" woid ; Matching Rule name [ "SUBSTR" woid ] ; Matching Rule name [ "SYNTAX" whsp noidlen whsp ] ; see section 4.3 [ "SINGLE-VALUE" whsp ] ; default multi-valued [ "COLLECTIVE" whsp ] ; default not collective [ "NO-USER-MODIFICATION" whsp ]; default user modifiable [ "USAGE" whsp AttributeUsage ]; default userApplications whsp ")" AttributeUsage = "userApplications" / "directoryOperation" / "distributedOperation" / ; DSA-shared "dSAOperation" ; DSA-specific, value depends on server """ schema_attribute = 'attributeTypes' token_defaults = { 'NAME':(()), 'DESC':(None,), 'OBSOLETE':None, 'SUP':(()), 'EQUALITY':(None,), 'ORDERING':(None,), 'SUBSTR':(None,), 'SYNTAX':(None,), 'SINGLE-VALUE':None, 'COLLECTIVE':None, 'NO-USER-MODIFICATION':None, 'USAGE':('userApplications',) } def _set_attrs(self,l,d): self.names = d['NAME'] self.desc = d['DESC'][0] self.obsolete = d['OBSOLETE']!=None self.sup = d['SUP'] self.equality = d['EQUALITY'][0] self.ordering = d['ORDERING'][0] self.substr = d['SUBSTR'][0] syntax = d['SYNTAX'][0] if syntax is None: self.syntax = None self.syntax_len = None else: try: self.syntax,syntax_len = d['SYNTAX'][0].split("{") except ValueError: self.syntax = d['SYNTAX'][0] self.syntax_len = None for i in l: if i.startswith("{") and i.endswith("}"): self.syntax_len=long(i[1:-1]) else: self.syntax_len = long(syntax_len[:-1]) self.single_value = d['SINGLE-VALUE']!=None self.collective = d['COLLECTIVE']!=None self.no_user_mod = d['NO-USER-MODIFICATION']!=None try: self.usage = AttributeUsage[d['USAGE'][0]] except KeyError: raise self.usage = AttributeUsage.get(d['USAGE'][0],0) assert type(self.names)==TupleType assert self.desc is None or type(self.desc)==StringType assert type(self.sup)==TupleType,'attribute sup has type %s' % (type(self.sup)) assert type(self.obsolete)==BooleanType and (self.obsolete==0 or self.obsolete==1) assert type(self.single_value)==BooleanType and (self.single_value==0 or self.single_value==1) assert type(self.no_user_mod)==BooleanType and (self.no_user_mod==0 or self.no_user_mod==1) assert self.syntax is None or type(self.syntax)==StringType assert self.syntax_len is None or type(self.syntax_len)==type(0L) return def __str__(self): result = [str(self.oid)] result.append(self.key_list('NAME',self.names,quoted=1)) result.append(self.key_attr('DESC',self.desc,quoted=1)) result.append(self.key_list('SUP',self.sup)) result.append({0:'',1:' OBSOLETE'}[self.obsolete]) result.append(self.key_attr('EQUALITY',self.equality)) result.append(self.key_attr('ORDERING',self.ordering)) result.append(self.key_attr('SUBSTR',self.substr)) result.append(self.key_attr('SYNTAX',self.syntax)) if self.syntax_len!=None: result.append(('{%d}' % (self.syntax_len))*(self.syntax_len>0)) result.append({0:'',1:' SINGLE-VALUE'}[self.single_value]) result.append({0:'',1:' COLLECTIVE'}[self.collective]) result.append({0:'',1:' NO-USER-MODIFICATION'}[self.no_user_mod]) result.append( { 0:"", 1:" USAGE directoryOperation", 2:" USAGE distributedOperation", 3:" USAGE dSAOperation", }[self.usage] ) return '( %s )' % ''.join(result) class LDAPSyntax(SchemaElement): """ SyntaxDescription = "(" whsp numericoid whsp [ "DESC" qdstring ] whsp ")" """ schema_attribute = 'ldapSyntaxes' token_defaults = { 'DESC':(None,), 'X-NOT-HUMAN-READABLE':(None,), } def _set_attrs(self,l,d): self.desc = d['DESC'][0] self.not_human_readable = \ NOT_HUMAN_READABLE_LDAP_SYNTAXES.has_key(self.oid) or \ d['X-NOT-HUMAN-READABLE'][0]=='TRUE' assert self.desc is None or type(self.desc)==StringType return def __str__(self): result = [str(self.oid)] result.append(self.key_attr('DESC',self.desc,quoted=1)) result.append( {0:'',1:" X-NOT-HUMAN-READABLE 'TRUE'"}[self.not_human_readable] ) return '( %s )' % ''.join(result) class MatchingRule(SchemaElement): """ MatchingRuleDescription = "(" whsp numericoid whsp ; MatchingRule identifier [ "NAME" qdescrs ] [ "DESC" qdstring ] [ "OBSOLETE" whsp ] "SYNTAX" numericoid whsp ")" """ schema_attribute = 'matchingRules' token_defaults = { 'NAME':(()), 'DESC':(None,), 'OBSOLETE':None, 'SYNTAX':(None,), } def _set_attrs(self,l,d): self.names = d['NAME'] self.desc = d['DESC'][0] self.obsolete = d['OBSOLETE']!=None self.syntax = d['SYNTAX'][0] assert type(self.names)==TupleType assert self.desc is None or type(self.desc)==StringType assert type(self.obsolete)==BooleanType and (self.obsolete==0 or self.obsolete==1) assert self.syntax is None or type(self.syntax)==StringType return def __str__(self): result = [str(self.oid)] result.append(self.key_list('NAME',self.names,quoted=1)) result.append(self.key_attr('DESC',self.desc,quoted=1)) result.append({0:'',1:' OBSOLETE'}[self.obsolete]) result.append(self.key_attr('SYNTAX',self.syntax)) return '( %s )' % ''.join(result) class MatchingRuleUse(SchemaElement): """ MatchingRuleUseDescription = "(" whsp numericoid [ space "NAME" space qdescrs ] [ space "DESC" space qdstring ] [ space "OBSOLETE" ] space "APPLIES" space oids ; AttributeType identifiers extensions whsp ")" """ schema_attribute = 'matchingRuleUse' token_defaults = { 'NAME':(()), 'DESC':(None,), 'OBSOLETE':None, 'APPLIES':(()), } def _set_attrs(self,l,d): self.names = d['NAME'] self.desc = d['DESC'][0] self.obsolete = d['OBSOLETE']!=None self.applies = d['APPLIES'] assert type(self.names)==TupleType assert self.desc is None or type(self.desc)==StringType assert type(self.obsolete)==BooleanType and (self.obsolete==0 or self.obsolete==1) assert type(self.applies)==TupleType return def __str__(self): result = [str(self.oid)] result.append(self.key_list('NAME',self.names,quoted=1)) result.append(self.key_attr('DESC',self.desc,quoted=1)) result.append({0:'',1:' OBSOLETE'}[self.obsolete]) result.append(self.key_list('APPLIES',self.applies,sep=' $ ')) return '( %s )' % ''.join(result) class DITContentRule(SchemaElement): """ DITContentRuleDescription = LPAREN WSP numericoid ; object identifer [ SP "NAME" SP qdescrs ] ; short names [ SP "DESC" SP qdstring ] ; description [ SP "OBSOLETE" ] ; not active [ SP "AUX" SP oids ] ; auxiliary object classes [ SP "MUST" SP oids ] ; attribute types [ SP "MAY" SP oids ] ; attribute types [ SP "NOT" SP oids ] ; attribute types extensions WSP RPAREN ; extensions """ schema_attribute = 'dITContentRules' token_defaults = { 'NAME':(()), 'DESC':(None,), 'OBSOLETE':None, 'AUX':(()), 'MUST':(()), 'MAY':(()), 'NOT':(()), } def _set_attrs(self,l,d): self.names = d['NAME'] self.desc = d['DESC'][0] self.obsolete = d['OBSOLETE']!=None self.aux = d['AUX'] self.must = d['MUST'] self.may = d['MAY'] self.nots = d['NOT'] assert type(self.names)==TupleType assert self.desc is None or type(self.desc)==StringType assert type(self.obsolete)==BooleanType and (self.obsolete==0 or self.obsolete==1) assert type(self.aux)==TupleType assert type(self.must)==TupleType assert type(self.may)==TupleType assert type(self.nots)==TupleType return def __str__(self): result = [str(self.oid)] result.append(self.key_list('NAME',self.names,quoted=1)) result.append(self.key_attr('DESC',self.desc,quoted=1)) result.append({0:'',1:' OBSOLETE'}[self.obsolete]) result.append(self.key_list('AUX',self.aux,sep=' $ ')) result.append(self.key_list('MUST',self.must,sep=' $ ')) result.append(self.key_list('MAY',self.may,sep=' $ ')) result.append(self.key_list('NOT',self.nots,sep=' $ ')) return '( %s )' % ''.join(result) class DITStructureRule(SchemaElement): """ DITStructureRuleDescription = LPAREN WSP ruleid ; rule identifier [ SP "NAME" SP qdescrs ] ; short names [ SP "DESC" SP qdstring ] ; description [ SP "OBSOLETE" ] ; not active SP "FORM" SP oid ; NameForm [ SP "SUP" ruleids ] ; superior rules extensions WSP RPAREN ; extensions """ schema_attribute = 'dITStructureRules' token_defaults = { 'NAME':(()), 'DESC':(None,), 'OBSOLETE':None, 'FORM':(None,), 'SUP':(()), } def set_id(self,element_id): self.ruleid = element_id def get_id(self): return self.ruleid def _set_attrs(self,l,d): self.names = d['NAME'] self.desc = d['DESC'][0] self.obsolete = d['OBSOLETE']!=None self.form = d['FORM'][0] self.sup = d['SUP'] assert type(self.names)==TupleType assert self.desc is None or type(self.desc)==StringType assert type(self.obsolete)==BooleanType and (self.obsolete==0 or self.obsolete==1) assert type(self.form)==StringType assert type(self.sup)==TupleType return def __str__(self): result = [str(self.ruleid)] result.append(self.key_list('NAME',self.names,quoted=1)) result.append(self.key_attr('DESC',self.desc,quoted=1)) result.append({0:'',1:' OBSOLETE'}[self.obsolete]) result.append(self.key_attr('FORM',self.form,quoted=0)) result.append(self.key_list('SUP',self.sup,sep=' ')) return '( %s )' % ''.join(result) class NameForm(SchemaElement): """ NameFormDescription = LPAREN WSP numericoid ; object identifer [ SP "NAME" SP qdescrs ] ; short names [ SP "DESC" SP qdstring ] ; description [ SP "OBSOLETE" ] ; not active SP "OC" SP oid ; structural object class SP "MUST" SP oids ; attribute types [ SP "MAY" SP oids ] ; attribute types extensions WSP RPAREN ; extensions """ schema_attribute = 'nameForms' token_defaults = { 'NAME':(()), 'DESC':(None,), 'OBSOLETE':None, 'OC':(()), 'MUST':(()), 'MAY':(()), } def _set_attrs(self,l,d): self.names = d['NAME'] self.desc = d['DESC'][0] self.obsolete = d['OBSOLETE']!=None self.oc = d['OC'] self.must = d['MUST'] self.may = d['MAY'] assert type(self.names)==TupleType assert self.desc is None or type(self.desc)==StringType assert type(self.obsolete)==BooleanType and (self.obsolete==0 or self.obsolete==1) assert type(self.oc)==TupleType assert type(self.must)==TupleType assert type(self.may)==TupleType return def __str__(self): result = [str(self.oid)] result.append(self.key_list('NAME',self.names,quoted=1)) result.append(self.key_attr('DESC',self.desc,quoted=1)) result.append({0:'',1:' OBSOLETE'}[self.obsolete]) result.append(self.key_list('OC',self.oc,sep=' $ ')) result.append(self.key_list('MUST',self.must,sep=' $ ')) result.append(self.key_list('MAY',self.may,sep=' $ ')) return '( %s )' % ''.join(result) class Entry(UserDict.UserDict): """ Schema-aware implementation of an LDAP entry class. Mainly it holds the attributes in a string-keyed dictionary with the OID as key. """ def __init__(self,schema,dn,entry): self._keytuple2attrtype = {} self._attrtype2keytuple = {} self._s = schema self.dn = dn UserDict.UserDict.__init__(self,{}) self.update(entry) def _at2key(self,nameoroid): """ Return tuple of OID and all sub-types of attribute type specified in nameoroid. """ try: # Mapping already in cache return self._attrtype2keytuple[nameoroid] except KeyError: # Mapping has to be constructed oid = self._s.getoid(ldap.schema.AttributeType,nameoroid) l = nameoroid.lower().split(';') l[0] = oid t = tuple(l) self._attrtype2keytuple[nameoroid] = t return t def update(self,dict): for key in dict.keys(): self[key] = dict[key] def __getitem__(self,nameoroid): return self.data[self._at2key(nameoroid)] def __setitem__(self,nameoroid,attr_values): k = self._at2key(nameoroid) self._keytuple2attrtype[k] = nameoroid self.data[k] = attr_values def __delitem__(self,nameoroid): k = self._at2key(nameoroid) del self.data[k] del self._attrtype2keytuple[nameoroid] del self._keytuple2attrtype[k] def has_key(self,nameoroid): k = self._at2key(nameoroid) return self.data.has_key(k) def get(self,nameoroid,failobj): try: return self[nameoroid] except KeyError: return failobj def keys(self): return self._keytuple2attrtype.values() def items(self): return [ (k,self[k]) for k in self.keys() ] def attribute_types( self,attr_type_filter=None,raise_keyerror=1 ): """ Convenience wrapper around SubSchema.attribute_types() which passes object classes of this particular entry as argument to SubSchema.attribute_types() """ return self._s.attribute_types( self.get('objectClass',[]),attr_type_filter,raise_keyerror )