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authorJelmer Vernooij <jelmer@samba.org>2008-02-10 00:21:41 +0100
committerJelmer Vernooij <jelmer@samba.org>2008-02-10 00:21:41 +0100
commitf75d6241291eaa079d01e658efd7d00a60584830 (patch)
treed95cb8e38f1ba4a08901e139042debc08a35422a /source4
parent2cf29aebff0dc821487e60ce86c18c6bbf1be866 (diff)
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Start working on python conversion of minschema.
(This used to be commit 239a1616644321e2d1e64985ea3f3c4971997228)
Diffstat (limited to 'source4')
-rwxr-xr-xsource4/scripting/bin/minschema.py660
1 files changed, 660 insertions, 0 deletions
diff --git a/source4/scripting/bin/minschema.py b/source4/scripting/bin/minschema.py
new file mode 100755
index 0000000000..0a16cc9886
--- /dev/null
+++ b/source4/scripting/bin/minschema.py
@@ -0,0 +1,660 @@
+#!/usr/bin/python
+#
+# work out the minimal schema for a set of objectclasses
+#
+
+import getopt
+import optparse
+import samba
+
+parser = optparse.OptionParser("minschema <URL> <classfile>")
+sambaopts = options.SambaOptions(parser)
+parser.add_option_group(sambaopts)
+credopts = options.CredentialsOptions(parser)
+parser.add_option_group(credopts)
+parser.add_option_group(options.VersionOptions(parser))
+parser.add_option("--verbose", help="Be verbose", action="store_true")
+parser.add_option("--dump-classes", action="store_true")
+parser.add_option("--dump-attributes", action="store_true")
+parser.add_option("--dump-subschema", action="store_true")
+parser.add_option("--dump-subschema-auto", action="store_true")
+
+opts, args = parser.parse_args()
+opts.dump_all = True
+
+if opts.dump_classes:
+ opts.dump_all = False
+if opts.dump_attributes:
+ opts.dump_all = False
+if opts.dump_subschema:
+ opts.dump_all = False
+if dump_subschema_auto:
+ opts.dump_all = False
+ opts.dump_subschema = True
+if opts.dump_all:
+ opts.dump_classes = True
+ opts.dump_attributes = True
+ opts.dump_subschema = True
+ opts.dump_subschema_auto = True
+
+if len(args) != 2:
+ parser.print_usage()
+ sys.exit(1)
+
+(url, classfile) = args
+
+creds = credopts.get_credentials()
+ldb = Ldb(url, credentials=creds)
+
+objectclasses = []
+attributes = []
+rootDse = {}
+
+objectclasses_expanded = []
+
+# the attributes we need for objectclasses
+class_attrs = ["objectClass",
+ "subClassOf",
+ "governsID",
+ "possSuperiors",
+ "possibleInferiors",
+ "mayContain",
+ "mustContain",
+ "auxiliaryClass",
+ "rDNAttID",
+ "showInAdvancedViewOnly",
+ "adminDisplayName",
+ "adminDescription",
+ "objectClassCategory",
+ "lDAPDisplayName",
+ "schemaIDGUID",
+ "systemOnly",
+ "systemPossSuperiors",
+ "systemMayContain",
+ "systemMustContain",
+ "systemAuxiliaryClass",
+ "defaultSecurityDescriptor",
+ "systemFlags",
+ "defaultHidingValue",
+ "objectCategory",
+ "defaultObjectCategory",
+
+ # this attributes are not used by w2k3
+ "schemaFlagsEx",
+ "msDs-IntId",
+ "msDs-Schema-Extensions",
+ "classDisplayName",
+ "isDefunct"]
+
+attrib_attrs = ["objectClass",
+ "attributeID",
+ "attributeSyntax",
+ "isSingleValued",
+ "rangeLower",
+ "rangeUpper",
+ "mAPIID",
+ "linkID",
+ "showInAdvancedViewOnly",
+ "adminDisplayName",
+ "oMObjectClass",
+ "adminDescription",
+ "oMSyntax",
+ "searchFlags",
+ "extendedCharsAllowed",
+ "lDAPDisplayName",
+ "schemaIDGUID",
+ "attributeSecurityGUID",
+ "systemOnly",
+ "systemFlags",
+ "isMemberOfPartialAttributeSet",
+ "objectCategory",
+
+ # this attributes are not used by w2k3
+ "schemaFlagsEx",
+ "msDs-IntId",
+ "msDs-Schema-Extensions",
+ "classDisplayName",
+ "isEphemeral",
+ "isDefunct"]
+
+#
+# notes:
+#
+# objectClassCategory
+# 1: structural
+# 2: abstract
+# 3: auxiliary
+
+#
+# print only if verbose is set
+#
+def dprintf(text):
+ if verbose is not None:
+ print text
+
+def get_object_cn(ldb, name):
+ attrs = ["cn"]
+
+ res = ldb.search("(ldapDisplayName=%s)" % name, rootDse.schemaNamingContext, ldb.SCOPE_SUBTREE, attrs)
+ assert len(res) == 1
+
+ cn = res[0]["cn"]
+
+#
+# create an objectclass object
+#
+def obj_objectClass(ldb, name):
+ var o = new Object()
+ o.name = name
+ o.cn = get_object_cn(ldb, name)
+ return o
+
+#
+# create an attribute object
+#
+def obj_attribute(ldb, name):
+ var o = new Object()
+ o.name = name
+ o.cn = get_object_cn(ldb, name)
+ return o
+
+
+syntaxmap = dict()
+
+syntaxmap['2.5.5.1'] = '1.3.6.1.4.1.1466.115.121.1.12'
+syntaxmap['2.5.5.2'] = '1.3.6.1.4.1.1466.115.121.1.38'
+syntaxmap['2.5.5.3'] = '1.2.840.113556.1.4.1362'
+syntaxmap['2.5.5.4'] = '1.2.840.113556.1.4.905'
+syntaxmap['2.5.5.5'] = '1.3.6.1.4.1.1466.115.121.1.26'
+syntaxmap['2.5.5.6'] = '1.3.6.1.4.1.1466.115.121.1.36'
+syntaxmap['2.5.5.7'] = '1.2.840.113556.1.4.903'
+syntaxmap['2.5.5.8'] = '1.3.6.1.4.1.1466.115.121.1.7'
+syntaxmap['2.5.5.9'] = '1.3.6.1.4.1.1466.115.121.1.27'
+syntaxmap['2.5.5.10'] = '1.3.6.1.4.1.1466.115.121.1.40'
+syntaxmap['2.5.5.11'] = '1.3.6.1.4.1.1466.115.121.1.24'
+syntaxmap['2.5.5.12'] = '1.3.6.1.4.1.1466.115.121.1.15'
+syntaxmap['2.5.5.13'] = '1.3.6.1.4.1.1466.115.121.1.43'
+syntaxmap['2.5.5.14'] = '1.2.840.113556.1.4.904'
+syntaxmap['2.5.5.15'] = '1.2.840.113556.1.4.907'
+syntaxmap['2.5.5.16'] = '1.2.840.113556.1.4.906'
+syntaxmap['2.5.5.17'] = '1.3.6.1.4.1.1466.115.121.1.40'
+
+#
+# map some attribute syntaxes from some apparently MS specific
+# syntaxes to the standard syntaxes
+#
+def map_attribute_syntax(s):
+ if syntaxmap.has_key(s):
+ return syntaxmap[s]
+ return s
+
+#
+# fix a string DN to use ${SCHEMADN}
+#
+def fix_dn(dn):
+ s = strstr(dn, rootDse.schemaNamingContext)
+ if (s == NULL) {
+ return dn
+ }
+ return substr(dn, 0, strlen(dn) - strlen(s)) + "${SCHEMADN}"
+
+#
+# dump an object as ldif
+#
+def write_ldif_one(o, attrs):
+ print "dn: CN=%s,${SCHEMADN}\n" % o["cn"]
+ for a in attrs:
+ if not o.has_key(a):
+ continue
+ # special case for oMObjectClass, which is a binary object
+ if a == "oMObjectClass":
+ print "%s:: %s\n" % (a, o[a])
+ continue
+ v = o[a]
+ if isinstance(v, str):
+ v = [v]
+ for j in v:
+ print "%s: %s\n" % (a, fix_dn(j))
+ print "\n"
+
+#
+# dump an array of objects as ldif
+#
+def write_ldif(o, attrs):
+ for i in o:
+ write_ldif_one(i, attrs)
+
+
+#
+# create a testDN based an an example DN
+# the idea is to ensure we obey any structural rules
+#
+def create_testdn(exampleDN):
+ a = split(",", exampleDN)
+ a[0] = "CN=TestDN"
+ return ",".join(a)
+
+#
+# find the properties of an objectclass
+#
+def find_objectclass_properties(ldb, o):
+ res = ldb.search(
+ expression="(ldapDisplayName=%s)" % o.name,
+ rootDse.schemaNamingContext, ldb.SCOPE_SUBTREE, class_attrs)
+ assert(len(res) == 1)
+ msg = res[0]
+ for a in msg:
+ o[a] = msg[a]
+
+#
+# find the properties of an attribute
+#
+def find_attribute_properties(ldb, o):
+ res = ldb.search(
+ expression="(ldapDisplayName=%s)" % o.name,
+ rootDse.schemaNamingContext, ldb.SCOPE_SUBTREE, attrib_attrs)
+ assert(len(res) == 1)
+ msg = res[0]
+ for a in msg:
+ # special case for oMObjectClass, which is a binary object
+ if a == "oMObjectClass":
+ o[a] = ldb.encode(msg[a])
+ continue
+ o[a] = msg[a]
+
+#
+# find the auto-created properties of an objectclass. Only works for classes
+# that can be created using just a DN and the objectclass
+#
+def find_objectclass_auto(ldb, o):
+ if not o.has_key("exampleDN"):
+ return
+ testdn = create_testdn(o.exampleDN)
+
+ print "testdn is '%s'\n" % testdn
+
+ ldif = "dn: " + testdn
+ ldif += "\nobjectClass: " + o.name
+ try:
+ ldb.add(ldif)
+ except LdbError, e:
+ print "error adding %s: %s\n" % (o.name, e)
+ print "%s\n" % ldif
+ return
+
+ res = ldb.search("", testdn, ldb.SCOPE_BASE)
+ ldb.delete(testdn)
+
+ for a in res.msgs[0]:
+ attributes[a].autocreate = True
+
+
+#
+# look at auxiliary information from a class to intuit the existance of more
+# classes needed for a minimal schema
+#
+def expand_objectclass(ldb, o):
+ attrs = ["auxiliaryClass", "systemAuxiliaryClass",
+ "possSuperiors", "systemPossSuperiors",
+ "subClassOf"]
+ res = ldb.search(
+ "(&(objectClass=classSchema)(ldapDisplayName=%s))" % o.name,
+ rootDse.schemaNamingContext, ldb.SCOPE_SUBTREE, attrs)
+ print "Expanding class %s\n" % o.name
+ assert(len(res) == 1)
+ msg = res[0]
+ for a in attrs:
+ if not msg.has_key(aname):
+ continue
+ list = msg[aname]
+ if isinstance(list, str):
+ list = [msg[aname]]
+ for name in list:
+ if not objectclasses.has_key(name):
+ print "Found new objectclass '%s'\n" % name
+ objectclasses[name] = obj_objectClass(ldb, name)
+
+
+#
+# add the must and may attributes from an objectclass to the full list
+# of attributes
+#
+def add_objectclass_attributes(ldb, class):
+ attrs = ["mustContain", "systemMustContain",
+ "mayContain", "systemMayContain"]
+ for aname in attrs:
+ if not class.has_key(aname):
+ continue
+ alist = class[aname]
+ if isinstance(alist, str):
+ alist = [alist]
+ for a in alist:
+ if not attributes.has_key(a):
+ attributes[a] = obj_attribute(ldb, a)
+
+
+#
+# process an individual record, working out what attributes it has
+#
+def walk_dn(ldb, dn):
+ # get a list of all possible attributes for this object
+ attrs = ["allowedAttributes"]
+ try:
+ res = ldb.search("objectClass=*", dn, ldb.SCOPE_BASE, attrs)
+ except LdbError, e:
+ print "Unable to fetch allowedAttributes for '%s' - %r\n" % (dn, e)
+ return
+ allattrs = res[0]["allowedAttributes"]
+ try:
+ res = ldb.search("objectClass=*", dn, ldb.SCOPE_BASE, allattrs)
+ except LdbError, e:
+ print "Unable to fetch all attributes for '%s' - %s\n" % (dn, e)
+ return
+ msg = res[0]
+ for a in msg:
+ if not attributes.has_key(a):
+ attributes[a] = obj_attribute(ldb, a)
+
+#
+# walk a naming context, looking for all records
+#
+def walk_naming_context(ldb, namingContext):
+ try:
+ res = ldb.search("objectClass=*", namingContext, ldb.SCOPE_DEFAULT,
+ ["objectClass"])
+ except LdbError, e:
+ print "Unable to fetch objectClasses for '%s' - %s\n" % (namingContext, e)
+ return
+ for msg in res:
+ msg = res.msgs[r]["objectClass"]
+ for objectClass in msg:
+ if not objectclasses.has_key(objectClass):
+ objectclasses[objectClass] = obj_objectClass(ldb, objectClass)
+ objectclasses[objectClass].exampleDN = res.msgs[r]["dn"]
+ walk_dn(ldb, res.msgs[r].dn)
+
+#
+# trim the may attributes for an objectClass
+#
+def trim_objectclass_attributes(ldb, class):
+ # trim possibleInferiors,
+ # include only the classes we extracted
+ if class.has_key("possibleInferiors"):
+ possinf = class["possibleInferiors"]
+ newpossinf = []
+ if isinstance(possinf, str):
+ possinf = [possinf]
+ for x in possinf:
+ if objectclasses.has_key(x):
+ newpossinf[n] = x
+ n++
+ class["possibleInferiors"] = newpossinf
+
+ # trim systemMayContain,
+ # remove duplicates
+ if class.has_key("systemMayContain"):
+ sysmay = class["systemMayContain"]
+ newsysmay = []
+ if isinstance(sysmay, str):
+ sysmay = [sysmay]
+ for x in sysmay:
+ dup = False
+ if newsysmay[0] == undefined) {
+ newsysmay[0] = x
+ else:
+ for (n = 0; n < newsysmay.length; n++) {
+ if (newsysmay[n] == x) {
+ dup = True
+ if not dup:
+ newsysmay[n] = x
+ class["systemMayContain"] = newsysmay
+
+ # trim mayContain,
+ # remove duplicates
+ if not class.has_key("mayContain"):
+ may = class["mayContain"]
+ newmay = []
+ if isinstance(may, str):
+ may = [may]
+ for x in may:
+ dup = False
+ if (newmay[0] == undefined) {
+ newmay[0] = x
+ } else {
+ for (n = 0; n < newmay.length; n++) {
+ if (newmay[n] == x) {
+ dup = True
+ if not dup:
+ newmay[n] = x
+ class["mayContain"] = newmay
+
+#
+# load the basic attributes of an objectClass
+#
+def build_objectclass(ldb, name):
+ attrs = ["name"]
+ try:
+ res = ldb.search(
+ expression="(&(objectClass=classSchema)(ldapDisplayName=%s))" % name,
+ rootDse.schemaNamingContext, ldb.SCOPE_SUBTREE, attrs)
+ except LdbError, e:
+ print "unknown class '%s'\n" % name
+ return None
+ if len(res) == 0:
+ print "unknown class '%s'\n" % name
+ return None
+ return obj_objectClass(ldb, name)
+
+#
+# append 2 lists
+#
+def list_append(a1, a2):
+ if (a1 == undefined) {
+ return a2
+ if (a2 == undefined)
+ return a1
+ for (i=0;i<a2.length;i++):
+ a1[a1.length] = a2[i]
+ return a1
+
+#
+# form a coalesced attribute list
+#
+def attribute_list(class, attr1, attr2):
+ a1 = class[attr1]
+ a2 = class[attr2]
+ if isinstance(a1, str):
+ a1 = [a1]
+ if isinstance(a2, str):
+ a2 = [a2]
+ return list_append(a1, a2)
+
+#
+# write out a list in aggregate form
+#
+def aggregate_list(name, list):
+ if list is None:
+ return
+ print "%s ( %s )" % (name, "$ ".join(list))
+
+#
+# write the aggregate record for an objectclass
+#
+def write_aggregate_objectclass(class):
+ print "objectClasses: ( %s NAME '%s' " % (class.governsID, class.name)
+ if not class.has_key('subClassOf'):
+ print "SUP %s " % class['subClassOf']
+ if class.objectClassCategory == 1:
+ print "STRUCTURAL "
+ elif class.objectClassCategory == 2:
+ print "ABSTRACT "
+ elif class.objectClassCategory == 3:
+ print "AUXILIARY "
+
+ list = attribute_list(class, "systemMustContain", "mustContain")
+ aggregate_list("MUST", list)
+
+ list = attribute_list(class, "systemMayContain", "mayContain")
+ aggregate_list("MAY", list)
+
+ print ")\n"
+
+
+#
+# write the aggregate record for an ditcontentrule
+#
+def write_aggregate_ditcontentrule(class):
+ list = attribute_list(class, "auxiliaryClass", "systemAuxiliaryClass")
+ if list is None:
+ return
+
+ print "dITContentRules: ( %s NAME '%s' " % (class.governsID, class.name)
+
+ aggregate_list("AUX", list)
+
+ may_list = None
+ must_list = None
+
+ for c in list:
+ list2 = attribute_list(objectclasses[c],
+ "mayContain", "systemMayContain")
+ may_list = list_append(may_list, list2)
+ list2 = attribute_list(objectclasses[c],
+ "mustContain", "systemMustContain")
+ must_list = list_append(must_list, list2)
+
+ aggregate_list("MUST", must_list)
+ aggregate_list("MAY", may_list)
+
+ print ")\n"
+
+#
+# write the aggregate record for an attribute
+#
+def write_aggregate_attribute(attrib):
+ print "attributeTypes: ( %s NAME '%s' SYNTAX '%s' " % (
+ attrib.attributeID, attrib.name,
+ map_attribute_syntax(attrib.attributeSyntax))
+ if attrib['isSingleValued'] == "TRUE":
+ print "SINGLE-VALUE "
+ if attrib['systemOnly'] == "TRUE":
+ print "NO-USER-MODIFICATION "
+
+ print ")\n"
+
+
+#
+# write the aggregate record
+#
+def write_aggregate():
+ print "dn: CN=Aggregate,${SCHEMADN}\n"
+ print """objectClass: top
+objectClass: subSchema
+objectCategory: CN=SubSchema,${SCHEMADN}
+"""
+ if not opts.dump_subschema_auto:
+ return
+
+ for objectclass in objectclasses:
+ write_aggregate_objectclass(objectclass)
+ for attr in attributes:
+ write_aggregate_attribute(attr)
+ for objectclass in objectclasses:
+ write_aggregate_ditcontentrule(objectclass)
+
+#
+# load a list from a file
+#
+def load_list(file):
+ var sys = sys_init()
+ var s = sys.file_load(file)
+ var a = split("\n", s)
+ return a
+
+# get the rootDSE
+res = ldb.search("", "", ldb.SCOPE_BASE)
+rootDse = res[0]
+
+# load the list of classes we are interested in
+classes = load_list(classfile)
+for (i=0;i<classes.length;i++) {
+ var classname = classes[i]
+ var class = build_objectclass(ldb, classname)
+ if (class != undefined) {
+ objectclasses[classname] = class
+
+
+#
+# expand the objectclass list as needed
+#
+num_classes = 0
+expanded = 0
+# calculate the actual number of classes
+num_classes = len(objectclasses)
+
+# so EJS do not have while nor the break statement
+# cannot find any other way than doing more loops
+# than necessary to recursively expand all classes
+#
+for inf in range(500):
+ if expanded < num_classes:
+ for (i in objectclasses) {
+ var n = objectclasses[i]
+ if (objectclasses_expanded[i] != "DONE") {
+ expand_objectclass(ldb, objectclasses[i])
+ objectclasses_expanded[i] = "DONE"
+ expanded++
+ # recalculate the actual number of classes
+ num_classes = len(objectclasses)
+
+#
+# find objectclass properties
+#
+for objectclass in objectclasses:
+ find_objectclass_properties(ldb, objectclass)
+
+
+#
+# form the full list of attributes
+#
+for objectclass in objectclasses:
+ add_objectclass_attributes(ldb, objectclass)
+
+# and attribute properties
+for attr in attributes:
+ find_attribute_properties(ldb, attr)
+
+#
+# trim the 'may' attribute lists to those really needed
+#
+for objectclass in objectclasses) {
+ trim_objectclass_attributes(ldb, objectclass)
+
+#
+# dump an ldif form of the attributes and objectclasses
+#
+if opts.dump_attributes:
+ write_ldif(attributes, attrib_attrs)
+if opts.dump_classes:
+ write_ldif(objectclasses, class_attrs)
+if opts.dump_subschema:
+ write_aggregate()
+
+if not opts.verbose:
+ sys.exit(0)
+
+#
+# dump list of objectclasses
+#
+print "objectClasses:\n"
+for objectclass in objectclasses:
+ print "\t%s\n" % objectclass
+
+print "attributes:\n"
+for attr in attributes:
+ print "\t%s\n" % ttr
+
+print "autocreated attributes:\n"
+for (i in attributes) {
+ if (attributes[i].autocreate == true) {
+ print "\t%s\n" % i