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-rw-r--r--ipalib/dn.py1123
-rwxr-xr-xtests/test_ipalib/test_dn.py919
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diff --git a/ipalib/dn.py b/ipalib/dn.py
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+++ b/ipalib/dn.py
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+# Authors:
+# John Dennis <jdennis@redhat.com>
+#
+# Copyright (C) 2011 Red Hat
+# see file 'COPYING' for use and warranty information
+#
+# This program is free software; you can redistribute it and/or modify
+# it under the terms of the GNU General Public License as published by
+# the Free Software Foundation, either version 3 of the License, or
+# (at your option) any later version.
+#
+# 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. See the
+# GNU General Public License for more details.
+#
+# You should have received a copy of the GNU General Public License
+# along with this program. If not, see <http://www.gnu.org/licenses/>.
+
+from ldap.dn import str2dn, dn2str
+from ldap import DECODING_ERROR
+from copy import deepcopy
+
+__all__ = ['AVA', 'RDN', 'DN']
+
+'''
+
+Goal
+----
+
+To allow a Python programmer the ability to operate on DN's
+(Distinguished Names) in a simple intuitive manner supporting all the
+Pythonic mechanisms for manipulating objects such that the simple
+majority case remains simple with simple code, yet the corner cases
+are fully supported. With the result both simple and complex cases are
+100% correct.
+
+This is achieved with a fair of amount of syntax sugar which is best
+described as "Do What I Mean" (i.e. DWIM). The class implementations
+take simple expressions and internally convert them to their more
+complex full definitions hiding much of the complexity from the
+programmer.
+
+Anatomy of a DN
+---------------
+
+Some definitions:
+
+AVA
+ An AVA is an Attribute Value Assertion. In more simple terms it's
+ an attribute value pair typically expressed as attr=value
+ (e.g. cn=Bob). Both the attr and value in an AVA when expressed in
+ a string representation are subject to encoding rules.
+
+RDN
+ A RDN is a Relative Distinguished Name. A RDN is a non-empty set of
+ AVA's. In the common case a RDN is single valued consisting of 1
+ AVA (e.g. cn=Bob). But a RDN may be multi-valued consisting of
+ more than one AVA. Because the RDN is a set of AVA's the AVA's are
+ unordered when they appear in a multi-valued RDN. In the string
+ representation of a RDN AVA's are separated by the plus sign (+).
+
+DN
+ A DN is a ordered sequence of 1 or more RDN's. In the string
+ representation of a DN each RDN is separated by a comma (,)
+
+Thus a DN is:
+
+Sequence of set of <encoded attr, encoded value> pairs
+
+The following are valid DN's
+
+# 1 RDN with 1 AVA (e.g. cn=Bob)
+RDN(AVA)
+
+# 2 RDN's each with 1 AVA (e.g. cn=Bob,dc=redhat.com)
+RDN(AVA),RDN(AVA)
+
+# 2 RDN's the first RDN is multi-valued with 2 AVA's
+# the second RDN is singled valued with 1 AVA
+# (e.g. cn=Bob+ou=people,dc=redhat.com
+RDN({AVA,AVA}),RDN(AVA)
+
+Common programming mistakes
+---------------------------
+
+DN's present a pernicious problem for programmers. They appear to have
+a very simple string format in the majority case, a sequence of
+attr=value pairs separated by commas. For example:
+
+dn='cn=Bob,ou=people,dc=redhat,dc=com'
+
+As such there is a tendency to believe you can form DN's by simple
+string manipulations such as:
+
+dn='%s=%s' % ('cn','Bob') + ',ou=people,dc=redhat,dc=com'
+
+Or to extract a attr & value by searching the string, for example:
+
+attr=dn[0 : dn.find('=')]
+value=dn[dn.find('=')+1 : dn.find(',')]
+
+Or compare a value returned by an LDAP query to a known value:
+
+if value == 'Bob'
+
+All of these simple coding assumptions are WRONG and will FAIL when
+a DN is not one of the simple DN's which are probably the 95% of all
+DN's. This is what makes DN handling pernicious. What works in 95% of
+the cases and is simple, fails for the 5% of DN's which are not
+simple.
+
+Examples of where the simple assumptions fail are:
+
+* A RDN may be multi-valued
+
+* A multi-valued RDN has no ordering on it's components
+
+* Attr's and values must be UTF-8 encoded
+
+* String representations of AVA's, RDN's and DN's must be completely UTF-8
+
+* An attr or value may have reserved characters which must be escaped.
+
+* Whitespace needs special handling
+
+To complicate matters a bit more the RFC for the string representation
+of DN's (RFC 4514) permits a variety of different syntax's each of
+which can evaluate to exactly the same DN but have different string
+representations. For example, the attr "R,W" which contains a reserved
+character (the comma) can be encoded as a string in these different
+ways:
+
+'R\,W' # backslash escape
+'R\2cW' # hexadecimal ascii escape
+'#522C57' # binary encoded
+
+It should be clear a DN string may NOT be a simple string, rather a DN
+string is ENCODED. For simple strings the encoding of the DN is
+identical to the simple string value (this common case leads to
+erroneous assumptions and bugs because it does not account for
+encodings).
+
+The openldap library we use at the client level uses the backslash
+escape form. The LDAP server we use uses the hexadecimal ascii escape
+form. Thus 'R,W' appears as 'R\,W' when sent from the client to the
+LDAP server as part of a DN. But when it's returned as a DN from the
+server in an LDAP search it's returned as 'R\2cW'. Any attempt to
+compare 'R\,W' to 'R\2cW' for equality will fail despite the fact they
+are indeed equal once decoded. Such a test fails because you're
+comparing two different encodings of the same value. In MIME you
+wouldn't expect the base64 encoding of a string to be equal to the
+same string encoded as quoted-printable would you?
+
+When you are comparing attrs or values which are part of a DN and
+other string you MUST:
+
+* Know if either of the strings have been encoded and make sure you're
+ comparing only decoded components component-wise.
+
+* Extract the component from the DN and decode it. You CANNOT decode
+ the entire DN as a string and operate on it. Why? Consider a value
+ with a comma embedded in it. For example:
+
+ cn=R\2cW,cn=privilege
+
+ Is a DN with 2 RDN components: cn=R,W followed by "cn=privilege"
+
+ But if you decode the entire DN string as a whole you would get:
+
+ cn=R,W,cn=privilege
+
+ Which is a malformed DN with 3 RDN's, the 2nd RDN is invalid.
+
+* Determine if a RDN is multi-valued, if so you must account
+ for the fact each AVA component in the multi-valued RDN can appear
+ in any order and still be equivalent. For example the following two
+ RDN's are equal:
+
+ cn=Bob+ou=people
+ ou=people+cn=Bob
+
+ In addition each AVA (cn=Bob & ou=people) needs to be
+ INDEPENDENTLY decoded prior to comparing the unordered set of AVA's
+ in the multi-valued RDN.
+
+If you are trying to form a new DN or RDN from a raw string you cannot
+simply do string concatenation or string formatting unless you ESCAPE
+the components independently prior to concatenation, for example:
+
+ base = 'dc=redhat,dc=com'
+ value = 'R,W'
+ dn = 'cn=%s,%s' % (value, base)
+
+Will result in the malformed DN 'cn=R,W,dc=redhat,dc=com'
+
+Syntax Sugar
+------------
+
+The majority of DN's have a simple string form:
+
+attr=value,attr=value
+
+We want the programmer to be able to create DN's, compare them, and
+operate on their components as simply and concisely as possible so
+the classes are implemented to provide a lot of syntax sugar.
+
+The classes automatically handle UTF-8 <-> Unicode conversions. Every
+attr and value which is returned from a class will be Unicode. Every
+attr and value assigned into an object will be promoted to
+Unicode. All string representations in RFC 4514 format will be UTF-8
+and properly escaped. Thus at the "user" or "API" level every string
+is Unicode with the single exception that the str() method returns RFC
+compliant escaped UTF-8.
+
+RDN's are assumed to be single-valued. If you need a multi-valued RDN
+(an exception) you must explicitly create a multi-valued RDN.
+
+Thus DN's are assumed to be a sequence of attr, value pairs.
+
+The attr and value in the pair MUST be strings (we'll see why in a
+moment).
+
+You can express any part of a DN as an even numbered sequence of
+strings.
+
+ DN('cn', 'Bob', 'dc', 'redhat.com')
+
+This is equivalent to the DN string:
+
+ cn=Bob,dc=redhat.com
+
+And is exactly equal to:
+
+ DN(RDN(AVA('cn','Bob')),RDN(AVA('dc','redhat.com')))
+
+The following are alternative syntax's which are all exactly
+equivalent to the above example.
+
+If you prefer to be more explicit about the pair-wise grouping (or you
+have to have a pair) you can use tuples or lists with 2 elements.
+
+ DN(('cn', 'Bob'), ('dc', 'redhat.com'))
+ DN(['cn', 'Bob'], ['dc', 'redhat.com'])
+
+You can provide a properly escaped string representation.
+
+ DN('cn=Bob,dc=redhat.com')
+
+You can mix and match any of the forms.
+
+ DN('cn', 'Bob', ['dc', 'redhat.com'])
+ DN('cn', 'Bob', 'dc=redhat.com')
+ DN('cn', 'Bob', RDN('dc', 'redhat.com'))
+
+Note: this is why attr's and values must be strings, the parsing logic
+assumes 2 consecutive strings in a sequence is always a single valued
+RDN, everything else is interpreted according to it's type.
+
+AVA's have an attr and value property, thus if you have an AVA
+
+# Get the attr and value
+ava.attr -> u'cn'
+ava.value -> u'Bob'
+
+# Set the attr and value
+ava.attr = 'cn'
+ava.value = 'Bob'
+
+But since RDN's are assumed to be single valued, exactly the same
+behavior applies to an RDN (it will throw an exception if the RDN is
+not single valued)
+
+# Get the attr and value
+rdn.attr -> u'cn'
+rdn.value -> u'Bob'
+
+# Set the attr and value
+rdn.attr = 'cn'
+rdn.value = 'Bob'
+
+Also RDN's can be indexed by name or position (see the RDN class doc
+for details).
+
+rdn['cn'] -> u'Bob'
+rdn[0] -> AVA('cn', 'Bob')
+
+A DN is a sequence of RDN's, as such any of Python's container
+operators can be applied to a DN in a intuitive way.
+
+# How many RDN's in a DN?
+len(dn)
+
+# WARNING, this a count of RDN's not how characters there are in the
+# string representation the dn, instead that would be:
+len(str(dn))
+
+# Iterate over each RDN in a DN
+for rdn in dn:
+
+# Get the first RDN in a DN
+dn[0] -> RDN('cn', 'Bob')
+
+# Get the value of the first RDN in a DN
+dn[0].value -> u'Bob'
+
+# Get the value of the first RDN by indexing by attr name
+dn['cn'] -> u'Bob'
+
+# WARNING, when a string is used as an index key the FIRST RDN's value
+# in the sequence whose attr matches the key is returned. Thus if you
+# have a DN like this "cn=foo,cn=bar" then dn['cn'] will always return
+# 'foo' even though there is another attr with the name 'cn'. This is
+# almost always what the programmer wants. See the class doc for how
+# you can override this default behavior and get a list of every value
+# whose attr matches the key.
+
+# Set the first RDN in the DN (all are equivalent)
+dn[0] = 'cn', 'Bob'
+dn[0] = ('cn', 'Bob')
+dn[0] = RDN('cn', 'Bob')
+
+dn[0].attr = 'cn'
+dn[0].value = 'Bob'
+
+# Get the first two RDN's using slices
+dn[0:2]
+
+# Get the last two RDN's using slices
+dn[-2:]
+
+# Get a list of all RDN's using slices
+dn[:]
+
+# Set the 2nd and 3rd RDN using slices (all are equivalent)
+dn[1:4] = 'cn', 'Bob, 'dc', 'redhat.com'
+dn[1:4] = ('cn', 'Bob), ('dc', 'redhat.com')
+dn[1:4] = RDN('cn', 'Bob), RDN('dc', 'redhat.com')
+
+String representations and escapes:
+
+# To get an RFC compliant string representation of a DN, RDN or AVA
+# simply call str() on it or evaluate it in a string context.
+str(dn) -> 'cn=Bob,dc=redhat.com'
+
+# When working with attr's and values you do not have to worry about
+# escapes, simply use the raw unescaped string in a natural fashion.
+
+rdn = RDN('cn', 'R,W')
+
+# Thus:
+rdn.value == 'R,W' -> True
+
+# But:
+str(rdn) == 'cn=R,W' -> False
+# Because:
+str(rdn) -> 'cn=R\2cW' or 'cn='R\,W' # depending on the underlying LDAP library
+
+Equality and Comparing:
+
+# All DN's, RDN's and AVA's support equality testing in an intuitive
+# manner.
+dn1 = DN('cn', 'Bob')
+dn2 = DN(RDN('cn', 'Bob'))
+dn1 == dn2 -> True
+dn1[0] == dn2[0] -> True
+dn1[0].value = 'Bobby'
+dn1 == dn2 -> False
+
+# See the class doc for how DN's, RDN's and AVA's compare
+# (e.g. cmp()). The general rule is for objects supporting multiple
+# values first their lengths are compared, then if the lengths match
+# the respective components of each are pair-wise compared until one
+# is discovered to be non-equal
+
+Concatenation and In-Place Addition:
+
+# DN's and RDN's can be concatenated.
+# Return a new DN by appending the RDN's of dn2 to dn1
+dn3 = dn1 + dn2
+
+# Append a RDN to DN's RDN sequence (all are equivalent)
+dn += 'cn', 'Bob'
+dn += ('cn', 'Bob')
+dn += RDN('cn', 'Bob')
+
+# Append a DN to an existing DN
+dn1 += dn2
+
+Finally see the unittest for a more complete set of ways you can
+manipulate these objects.
+
+'''
+
+class AVA(object):
+ '''
+ An AVA is an LDAP Attribute Value Assertion. It is convenient to think of
+ AVA's as a <attr,value> pair. AVA's are members of RDN's (Relative
+ Distinguished Name).
+
+ The AVA constructor may be invoked with any of the following methods:
+
+ 1) With 2 string (or unicode) arguments, the first argument will be the
+ attr, the 2nd the value.
+
+ 2) With a sigle list or tuple argument containing exactly 2 string (or unicode
+ members), the first member is the attr and the second is the value.
+
+ 3) With a single string (or unicode) argument, in this case the string will
+ be interpretted using the DN syntax described in RFC 4514 to yield a AVA
+ <attr,value> pair. The parsing recognizes the DN syntax escaping rules.
+
+ For example:
+
+ ava = AVA('cn', 'Bob') # case 1: two strings
+ ava = AVA(('cn', 'Bob')) # case 2: 2-valued tuple
+ ava = AVA(['cn', 'Bob']) # case 2: 2-valued list
+ ava = AVA('cn=Bob') # case 3: DN syntax
+
+ AVA object have two properties for accessing their data:
+
+ attr: the attribute name, cn in our exmaple
+ value: the attribute's value, Bob in our example
+
+ When attr and value are returned they will always be unicode. When
+ attr or value are set they will be promoted to unicode.
+
+ AVA objects support indexing by name, e.g.
+
+ ava['cn']
+
+ returns the value (Bob in our example). If the index does key does not match
+ the attr then a KeyError will be raised.
+
+ AVA objects support equality testing and comparsion (e.g. cmp()). When they
+ are compared the attr is compared first, if the 2 attr's are equal then the
+ values are compared.
+
+ The str method of an AVA returns the string representation in RFC 4514 DN
+ syntax with proper escaping.
+ '''
+ flags = 0
+
+ def __init__(self, *args):
+ if len(args) == 1:
+ arg = args[0]
+ if isinstance(arg, basestring):
+ try:
+ rdns = str2dn(arg.encode('utf-8'))
+ except DECODING_ERROR:
+ raise ValueError("malformed AVA string = \"%s\"" % arg)
+ if len(rdns) != 1:
+ raise ValueError("multiple RDN's specified by \"%s\"" % (arg))
+ rdn = rdns[0]
+ if len(rdn) != 1:
+ raise ValueError("multiple AVA's specified by \"%s\"" % (arg))
+ ava = rdn[0]
+ elif isinstance(arg, (tuple, list)):
+ ava = arg
+ if len(ava) != 2:
+ raise ValueError("tuple or list must be 2-valued, not \"%s\"" % (ava))
+ else:
+ raise TypeError("with 1 argument, argument must be str,unicode,tuple or list, got %s instead" % \
+ arg.__class__.__name__)
+
+ attr = ava[0]
+ value = ava[1]
+ elif len(args) == 2:
+ attr = args[0]
+ value = args[1]
+ else:
+ raise TypeError("takes 1 or 2 arguments (%d given)" % (len(args)))
+
+ if not isinstance(attr, basestring):
+ raise TypeError("attr must be basestring, got %s instead" % attr.__class__.__name__)
+ if not isinstance(value, basestring):
+ raise TypeError("value must be basestring, got %s instead" % value.__class__.__name__)
+
+ self.attr = attr.decode('utf-8')
+ self.value = value.decode('utf-8')
+
+
+ def _to_openldap(self):
+ return [[(self.attr.encode('utf-8'), self.value.encode('utf-8'), self.flags)]]
+
+ def __str__(self):
+ return dn2str(self._to_openldap())
+
+ def __getitem__(self, key):
+ if isinstance(key, basestring):
+ if key == self.attr:
+ return self.value
+ raise KeyError("\"%s\" not found in %s" % (key, self.__str__()))
+ else:
+ raise TypeError("unsupported type for %s indexing, must be basestring; not %s" % \
+ (self.__class__.__name__, key.__class__.__name__))
+
+ def __eq__(self, other):
+ if not isinstance(other, self.__class__):
+ raise TypeError("expected %s but got %s" % (self.__class__.__name__, other.__class__.__name__))
+
+ return self.attr == other.attr and self.value == other.value
+
+ def __cmp__(self, other):
+ if not isinstance(other, self.__class__):
+ raise TypeError("expected %s but got %s" % (self.__class__.__name__, other.__class__.__name__))
+
+ result = cmp(self.attr, other.attr)
+ if result != 0: return result
+ result = cmp(self.value, other.value)
+ return result
+
+class RDN(object):
+ '''
+ An RDN is a LDAP Relative Distinguished Name. RDN's are members of DN's
+ (Distinguished Name). An RDN contains 1 or more AVA's. If the RDN contains
+ more than one AVA it is said to be a multi-valued RDN. When an RDN is
+ multi-valued the AVA's are unorderd comprising a set. However this
+ implementation orders the AVA's according to the AVA comparison function to
+ make equality and comparison testing easier. Think of this a canonical
+ normalization (however LDAP does not impose any ordering on multiple AVA's
+ within an RDN). Single valued RDN's are the norm.
+
+ The RDN constructor may be invoked in a variety of different ways.
+
+ * When two adjacent string (or unicode) argument appear together in the
+ argument list they are taken to be the <attr,value> pair of an AVA. An AVA
+ object is constructed and inserted into the RDN. Multiple pairs of strings
+ arguments may appear in the argument list, each pair add one additional AVA
+ to the RDN.
+
+ * A 2-valued tuple or list denotes the <attr,value> pair of an AVA. The
+ first member is the attr and the second member is the value, both members
+ must be strings (or unicode). The tuple or list is passed to the AVA
+ constructor and the resulting AVA is added to the RDN. Multiple tuples or
+ lists may appear in the argument list, each adds one additional AVA to the
+ RDN.
+
+ * A single string (or unicode) argument, in this case the string will
+ be interpretted using the DN syntax described in RFC 4514 to yield one or
+ more AVA <attr,value> pairs. The parsing recognizes the DN syntax escaping
+ rules.
+
+ Note, a DN syntax argument is distguished from AVA string pairs by testing
+ to see if two strings appear adjacent in the argument list, if so those two
+ strings are interpretted as an <attr,value> AVA pair and consumed.
+
+ * A AVA object. Each AVA object in the argument list will be added to the RDN.
+
+ Single AVA Examples:
+
+ RDN('cn', 'Bob') # 2 adjacent strings yield 1 AVA
+ RDN(('cn', 'Bob')) # tuple yields 1 AVA
+ RDN('cn=Bob') # DN syntax with 1 AVA
+ RDN(AVA('cn', 'Bob')) # AVA object adds 1 AVA
+
+ Multiple AVA Examples:
+
+ RDN('cn', 'Bob', 'ou', 'people') # 2 strings pairs yield 2 AVA's
+ RDN(('cn', 'Bob'),('ou', 'people')) # 2 tuples yields 2 AVA's
+ RDN('cn=Bob+ou=people') # DN syntax with 2 AVA's
+ RDN(AVA('cn', 'Bob'),AVA('ou', 'people')) # 2 AVA objects adds 2 AVA's
+ RDN('cn', 'Bob', "ou=people') # 3 strings, 1st two strings form 1 AVA
+ # 3rd string DN syntax for 1 AVA,
+ # adds 2 AVA's in total
+
+ Note: The RHS of a slice assignment is interpreted exactly in the
+ same manner as the constructor argument list (see above examples).
+
+ RDN objects support iteration over their AVA members. You can iterate all
+ AVA members via any Python iteration syntax. RDN objects support full Python
+ indexing using bracket [] notation. Examples:
+
+ len(rdn) # return the number of AVA's
+ rdn[0] # indexing the first AVA
+ rdn['cn'] # index by AVA attr, returns AVA value
+ for ava in rdn: # iterate over each AVA
+ rdn[:] # a slice, in this case a copy of each AVA
+
+ WARNING: When indexing by attr (e.g. rdn['cn']) there is a possibility more
+ than one AVA has the same attr name as the index key. The default behavior
+ is to return the value of the first AVA whose attr matches the index
+ key. This behavior can be modified by setting the first_key_match property
+ to false in the RDN object. If first_key_match is False a list of all values
+ will be returned instead. The first_key_match behavior is the default and is
+ useful because duplicate attr names in multi-valued RDN's are rare. We seek
+ the most useful common case for programmer friendliness, but you should be
+ aware of the caveat.
+
+ RDN objects support the AVA attr and value properties as another programmer
+ convenience because the vast majority of RDN's are single valued. The attr
+ and value properties return the attr and value properties of the first AVA
+ in the RDN, for example:
+
+ rdn = RDN('cn', 'Bob') # rdn has 1 AVA whose attr == 'cn' and value == 'Bob'
+ len(rdn) -> 1
+ rdn.attr -> u'cn' # exactly equivalent to rdn[0].attr
+ rdn.value -> u'Bob' # exactly equivalent to rdn[0].value
+
+ When attr and value are returned they will always be unicode. When
+ attr or value are set they will be promoted to unicode.
+
+ If an RDN is multi-valued the attr and value properties still return only
+ the first AVA's properties, programmer beware! Recall the AVA's in the RDN
+ are sorted according the to AVA collating semantics.
+
+ RDN objects support equality testing and comparision. See AVA for the
+ definition of the comparision method.
+
+ RDN objects support concatenation and addition with other RDN's or AVA's
+
+ rdn1 + rdn2 # yields a new RDN object with the contents of each RDN.
+ rdn1 + ava1 # yields a new RDN object with the contents of rdn1 and ava1
+
+ RDN objects can add AVA's objects via in-place addition.
+
+ rdn1 += rdn2 # rdn1 now contains the sum of rdn1 and rdn2
+ rdn1 += ava1 # rdn1 has ava1 added to it.
+
+ The str method of an RDN returns the string representation in RFC 4514 DN
+ syntax with proper escaping.
+ '''
+
+ flags = 0
+
+ def __init__(self, *args):
+ self.first_key_match = True
+ self.avas = self._avas_from_sequence(args)
+ self.avas.sort()
+
+ def _ava_from_value(self, value):
+ if isinstance(value, AVA):
+ return value
+ elif isinstance(value, basestring):
+ try:
+ rdns = str2dn(value.encode('utf-8'))
+ if len(rdns) != 1:
+ raise ValueError("multiple RDN's specified by \"%s\"" % (value))
+ rdn = rdns[0]
+ if len(rdn) == 1:
+ return AVA(rdn[0][0], rdn[0][1])
+ else:
+ avas = []
+ for ava_tuple in rdn:
+ avas.append(AVA(ava_tuple[0], ava_tuple[1]))
+ return avas
+ except DECODING_ERROR:
+ raise ValueError("malformed RDN string = \"%s\"" % value)
+ elif isinstance(value, (tuple, list)):
+ if len(value) != 2:
+ raise ValueError("tuple or list must be 2-valued, not \"%s\"" % (value))
+ return AVA(value)
+ else:
+ raise TypeError("must be str,unicode,tuple, or AVA, got %s instead" % \
+ value.__class__.__name__)
+
+
+ def _avas_from_sequence(self, seq):
+ avas = []
+
+ i = 0
+ while i < len(seq):
+ if i+1 < len(seq) and \
+ isinstance(seq[i], basestring) and \
+ isinstance(seq[i+1], basestring):
+ ava = AVA(seq[i], seq[i+1])
+ avas.append(ava)
+ i += 2
+ else:
+ arg = seq[i]
+ ava = self._ava_from_value(arg)
+ if isinstance(ava, list):
+ avas.extend(ava)
+ else:
+ avas.append(ava)
+ i += 1
+ return avas
+
+ def _to_openldap(self):
+ return [[(ava.attr.encode('utf-8'), ava.value.encode('utf-8'), self.flags) for ava in self.avas]]
+
+ def __str__(self):
+ return dn2str(self._to_openldap())
+
+ def _next(self):
+ for ava in self.avas:
+ yield ava
+
+ def __iter__(self):
+ return self._next()
+
+ def __len__(self):
+ return len(self.avas)
+
+ def __getitem__(self, key):
+ if isinstance(key, (int, long, slice)):
+ return self.avas[key]
+ elif isinstance(key, basestring):
+ if self.first_key_match:
+ for ava in self.avas:
+ if key == ava.attr:
+ return ava.value
+ raise KeyError("\"%s\" not found in %s" % (key, self.__str__()))
+ else:
+ avas = []
+ for ava in self.avas:
+ if key == ava.attr:
+ avas.append(ava.value)
+ if len(avas) > 0:
+ return avas
+ raise KeyError("\"%s\" not found in %s" % (key, self.__str__()))
+ else:
+ raise TypeError("unsupported type for %s indexing, must be int, basestring or slice; not %s" % \
+ (self.__class__.__name__, key.__class__.__name__))
+
+ def __setitem__(self, key, value):
+ if isinstance(key, (int, long)):
+ new_ava = self._ava_from_value(value)
+ if isinstance(new_ava, list):
+ raise TypeError("multiple AVA's")
+ self.avas[key] = new_ava
+ elif isinstance(key, slice):
+ avas = self._avas_from_sequence(value)
+ self.avas[key] = avas
+ elif isinstance(key, basestring):
+ new_ava = self._ava_from_value(value)
+ if isinstance(new_ava, list):
+ raise TypeError("cannot assign multiple values to single entry")
+ found = False
+ i = 0
+ while i < len(self.avas):
+ if key == self.avas[i].attr:
+ found = True
+ self.avas[i] = new_ava
+ if self.first_key_match: break
+ i += 1
+ if not found:
+ raise KeyError("\"%s\" not found in %s" % (key, self.__str__()))
+ else:
+ raise TypeError("unsupported type for %s indexing, must be int, basestring or slice; not %s" % \
+ (self.__class__.__name__, key.__class__.__name__))
+
+ def _get_attr(self):
+ if len(self.avas) == 0:
+ raise IndexError("No AVA's in this RDN")
+ return self.avas[0].attr
+
+ def _set_attr(self, new_attr):
+ if len(self.avas) == 0:
+ raise IndexError("No AVA's in this RDN")
+
+ if not isinstance(new_attr, basestring):
+ raise TypeError("attr must be basestring, got %s instead" % new_attr.__class__.__name__)
+
+ self.avas[0].attr = new_attr
+
+ attr = property(_get_attr, _set_attr)
+
+ def _get_value(self):
+ if len(self.avas) == 0:
+ raise IndexError("No AVA's in this RDN")
+ return self.avas[0].value
+
+ def _set_value(self, new_value):
+ if len(self.avas) == 0:
+ raise IndexError("No AVA's in this RDN")
+
+ if not isinstance(new_value, basestring):
+ raise TypeError("value must be basestring, got %s instead" % new_value.__class__.__name__)
+
+ self.avas[0].value = new_value
+
+ value = property(_get_value, _set_value)
+
+ def __eq__(self, other):
+ if not isinstance(other, self.__class__):
+ raise TypeError("expected %s but got %s" % (self.__class__.__name__, other.__class__.__name__))
+
+ return self.avas == other.avas
+
+ def __cmp__(self, other):
+ if not isinstance(other, self.__class__):
+ raise TypeError("expected %s but got %s" % (self.__class__.__name__, other.__class__.__name__))
+
+ result = cmp(len(self), len(other))
+ if result != 0: return result
+ i = 0
+ while i < len(self):
+ result = cmp(self[i], other[i])
+ if result != 0: return result
+ i += 1
+ return 0
+
+ def __add__(self, other):
+ result = deepcopy(self)
+ if isinstance(other, self.__class__):
+ for ava in other.avas:
+ result.avas.append(deepcopy(ava))
+ elif isinstance(other, AVA):
+ result.avas.append(deepcopy(other))
+ elif isinstance(other, basestring):
+ rdn = RDN(other)
+ for ava in rdn.avas:
+ result.avas.append(deepcopy(ava))
+ else:
+ raise TypeError("expected RDN, AVA or basestring but got %s" % (other.__class__.__name__))
+
+ result.avas.sort()
+ return result
+
+ def __iadd__(self, other):
+ if isinstance(other, self.__class__):
+ for ava in other.avas:
+ self.avas.append(deepcopy(ava))
+ elif isinstance(other, AVA):
+ self.avas.append(deepcopy(other))
+ elif isinstance(other, basestring):
+ rdn = RDN(other)
+ for ava in rdn.avas:
+ self.avas.append(deepcopy(ava))
+ else:
+ raise TypeError("expected RDN, AVA or basestring but got %s" % (other.__class__.__name__))
+
+ self.avas.sort()
+ return self
+
+class DN(object):
+ '''
+ A DN is a LDAP Distinguished Name. A DN is an ordered sequence of RDN's.
+
+ The DN constructor may be invoked in a variety of different ways.
+
+ * When two adjacent string (or unicode) argument appear together in the
+ argument list they are taken to be the <attr,value> pair of a
+ singled valued RDN. An RDN
+ object is constructed and inserted into the DN. Multiple pairs of strings
+ arguments may appear in the argument list, each pair adds one additional RDN
+ to the DN.
+
+ * A 2-valued tuple or list denotes the <attr,value> pair of an RDN. The
+ first member is the attr and the second member is the value, both members
+ must be strings (or unicode). The tuple or list is passed to the RDN
+ constructor and the resulting RDN is added to the DN. Multiple tuples or
+ lists may appear in the argument list, each adds one additional RDN to the
+ DN.
+
+ * A single string (or unicode) argument, in this case the string will
+ be interpretted using the DN syntax described in RFC 4514 to yield one or
+ more RDN's. The parsing recognizes the DN syntax escaping
+ rules.
+
+ Note, a DN syntax argument is distguished from RDN string pairs by testing
+ to see if two strings appear adjacent in the argument list, if so those two
+ strings are interpretted as an <attr,value> RDN pair and consumed.
+
+ * A RDN object. Each RDN object in the argument list will be added to the DN.
+
+ * A DN object. Each DN object in the argument list will add it's RDN's to the DN.
+
+ Single DN Examples:
+
+ DN('cn', 'Bob') # 2 adjacent strings yield 1 RDN
+ DN(('cn', 'Bob')) # tuple yields 1 RDN
+ DN('cn=Bob') # DN syntax with 1 RDN
+ DN(RDN('cn', 'Bob')) # RDN object adds 1 RDN
+
+ Multiple RDN Examples:
+
+ DN('cn', 'Bob', 'ou', 'people') # 2 strings pairs yield 2 RDN's
+ DN(('cn', 'Bob'),('ou', 'people')) # 2 tuples yields 2 RDN's
+ DN('cn=Bob,ou=people') # DN syntax with 2 RDN's
+ DN(RDN('cn', 'Bob'),RDN('ou', 'people')) # 2 RDN objects adds 2 RDN's
+ DN('cn', 'Bob', "ou=people') # 3 strings, 1st two strings form 1 RDN
+ # 3rd string DN syntax for 1 RDN,
+ # adds 2 RDN's in total
+ DN('cn', 'Bob', DN(container), DN(base)) # 1st two strings form 1 RDN
+ # then the RDN's from container are added
+ # followed by the RDN from base
+
+ Note: The RHS of a slice assignment is interpreted exactly in the
+ same manner as the constructor argument list (see above examples).
+
+ DN objects support iteration over their RDN members. You can iterate all
+ RDN members via any Python iteration syntax. DN objects support full Python
+ indexing using bracket [] notation. Examples:
+
+ len(rdn) # return the number of RDN's
+ rdn[0] # indexing the first RDN
+ rdn['cn'] # index by RDN attr, returns RDN value
+ for ava in rdn: # iterate over each RDN
+ rdn[:] # a slice, in this case a copy of each RDN
+
+ WARNING: When indexing by attr (e.g. rdn['cn']) there is a possibility more
+ than one RDN has the same attr name as the index key. The default behavior
+ is to return the value of the first RDN whose attr matches the index
+ key. This behavior can be modified by setting the first_key_match property
+ to false in the RDN object. If first_key_match is False a list of all values
+ will be returned instead. The first_key_match behavior is the default and is
+ useful because typical usage is to seek the first matching RDN. We seek
+ the most useful common case for programmer friendliness, but you should be
+ aware of the caveat.
+
+ DN object support slices.
+
+ # Get the first two RDN's using slices
+ dn[0:2]
+
+ # Get the last two RDN's using slices
+ dn[-2:]
+
+ # Get a list of all RDN's using slices
+ dn[:]
+
+ # Set the 2nd and 3rd RDN using slices (all are equivalent)
+ dn[1:4] = 'cn', 'Bob, 'dc', 'redhat.com'
+ dn[1:4] = ('cn', 'Bob), ('dc', 'redhat.com')
+ dn[1:4] = RDN('cn', 'Bob), RDN('dc', 'redhat.com')
+
+ DN objects support equality testing and comparision. See RDN for the
+ definition of the comparision method.
+
+ DN objects support concatenation and addition with other DN's or RDN's
+ or strings (interpreted as RFC 4514 DN syntax).
+
+ # yields a new DN object with the RDN's of dn2 appended to the RDN's of dn1
+ dn1 + dn2
+
+ # yields a new DN object with the rdn1 appended to the RDN's of dn1
+ dn1 + rdn1
+
+ DN objects can add RDN's objects via in-place addition.
+
+ dn1 += dn2 # dn2 RDN's are appended to the dn1's RDN's
+ dn1 += rdn1 # dn1 has rdn appended to its RDN's
+ dn1 += "dc=redhat.com" # string is converted to DN, then appended
+
+ The str method of an DN returns the string representation in RFC 4514 DN
+ syntax with proper escaping.
+ '''
+
+ flags = 0
+
+ def __init__(self, *args):
+ self.first_key_match = True
+ self.rdns = self._rdns_from_sequence(args)
+
+ def _rdn_from_value(self, value):
+ if isinstance(value, RDN):
+ return value
+ elif isinstance(value, basestring):
+ try:
+ rdns = str2dn(value.encode('utf-8'))
+ for rdn_list in rdns:
+ avas = []
+ for ava_tuple in rdn_list:
+ avas.append(AVA(ava_tuple[0], ava_tuple[1]))
+ rdn = RDN(*avas)
+ return rdn
+ except DECODING_ERROR:
+ raise ValueError("malformed RDN string = \"%s\"" % value)
+ elif isinstance(value, (tuple, list)):
+ if len(value) != 2:
+ raise ValueError("tuple or list must be 2-valued, not \"%s\"" % (rdn))
+ rdn = RDN(value)
+ return rdn
+ else:
+ raise TypeError("single argument must be str,unicode,tuple, or RDN, got %s instead" % \
+ value.__class__.__name__)
+
+ def _rdns_from_sequence(self, seq):
+ self.first_key_match = True
+ rdns = []
+
+ i = 0
+ while i < len(seq):
+ if i+1 < len(seq) and \
+ isinstance(seq[i], basestring) and \
+ isinstance(seq[i+1], basestring):
+ rdn = RDN(seq[i], seq[i+1])
+ rdns.append(rdn)
+ i += 2
+ else:
+ arg = seq[i]
+ i += 1
+ if isinstance(arg, RDN):
+ rdns.append(arg)
+ elif isinstance(arg, DN):
+ for rdn in arg.rdns:
+ rdns.append(deepcopy(rdn))
+ elif isinstance(arg, basestring):
+ try:
+ dn_list = str2dn(arg.encode('utf-8'))
+ for rdn_list in dn_list:
+ avas = []
+ for ava_tuple in rdn_list:
+ avas.append(AVA(ava_tuple[0], ava_tuple[1]))
+ rdn = RDN(*avas)
+ rdns.append(rdn)
+ except DECODING_ERROR:
+ raise ValueError("malformed RDN string = \"%s\"" % arg)
+ elif isinstance(arg, (tuple, list)):
+ if len(arg) != 2:
+ raise ValueError("tuple or list must be 2-valued, not \"%s\"" % (rdn))
+ rdn = RDN(arg)
+ rdns.append(rdn)
+ else:
+ raise TypeError("single argument must be str,unicode,tuple, or RDN, got %s instead" % \
+ arg.__class__.__name__)
+ return rdns
+
+ def _to_openldap(self):
+ return [[(ava.attr.encode('utf-8'), ava.value.encode('utf-8'), self.flags) for ava in rdn] for rdn in self.rdns]
+
+ def __str__(self):
+ return dn2str(self._to_openldap())
+
+ def _next(self):
+ for rdn in self.rdns:
+ yield rdn
+
+ def __iter__(self):
+ return self._next()
+
+ def __len__(self):
+ return len(self.rdns)
+
+ def __getitem__(self, key):
+ if isinstance(key, (int, long, slice)):
+ return self.rdns[key]
+ elif isinstance(key, basestring):
+ if self.first_key_match:
+ for rdn in self.rdns:
+ if key == rdn.attr:
+ return rdn.value
+ raise KeyError("\"%s\" not found in %s" % (key, self.__str__()))
+ else:
+ rdns = []
+ for rdn in self.rdns:
+ if key == rdn.attr:
+ rdns.append(rdn.value)
+ if len(rdns) > 0:
+ return rdns
+ raise KeyError("\"%s\" not found in %s" % (key, self.__str__()))
+ else:
+ raise TypeError("unsupported type for %s indexing, must be int, basestring or slice; not %s" % \
+ (self.__class__.__name__, key.__class__.__name__))
+
+ def __setitem__(self, key, value):
+ if isinstance(key, (int, long)):
+ new_rdn = self._rdn_from_value(value)
+ if isinstance(new_rdn, list):
+ raise TypeError("multiple RDN's")
+ self.rdns[key] = new_rdn
+ elif isinstance(key, slice):
+ rdns = self._rdns_from_sequence(value)
+ self.rdns[key] = rdns
+ elif isinstance(key, basestring):
+ new_rdn = self._rdn_from_value(value)
+ if isinstance(new_rdn, list):
+ raise TypeError("cannot assign multiple values to single entry")
+ found = False
+ i = 0
+ while i < len(self.rdns):
+ if key == self.rdns[i].attr:
+ found = True
+ self.rdns[i] = new_rdn
+ if self.first_key_match: break
+ i += 1
+ if not found:
+ raise KeyError("\"%s\" not found in %s" % (key, self.__str__()))
+ else:
+ raise TypeError("unsupported type for %s indexing, must be int, basestring or slice; not %s" % \
+ (self.__class__.__name__, key.__class__.__name__))
+
+ def __eq__(self, other):
+ if not isinstance(other, self.__class__):
+ raise TypeError("expected %s but got %s" % (self.__class__.__name__, other.__class__.__name__))
+
+ return self.rdns == other.rdns
+
+ def __cmp__(self, other):
+ if not isinstance(other, self.__class__):
+ raise TypeError("expected %s but got %s" % (self.__class__.__name__, other.__class__.__name__))
+
+ result = cmp(len(self), len(other))
+ if result != 0: return result
+ i = 0
+ while i < len(self):
+ result = cmp(self[i], other[i])
+ if result != 0: return result
+ i += 1
+ return 0
+
+ def __add__(self, other):
+ result = deepcopy(self)
+ if isinstance(other, self.__class__):
+ for rdn in other.rdns:
+ result.rdns.append(deepcopy(rdn))
+ elif isinstance(other, RDN):
+ result.rdns.append(deepcopy(other))
+ elif isinstance(other, basestring):
+ dn = DN(other)
+ for rdn in dn.rdns:
+ result.rdns.append(deepcopy(rdn))
+ else:
+ raise TypeError("expected DN, RDN or basestring but got %s" % (other.__class__.__name__))
+
+ return result
+
+ def __iadd__(self, other):
+ if isinstance(other, self.__class__):
+ for rdn in other.rdns:
+ self.rdns.append(deepcopy(rdn))
+ elif isinstance(other, RDN):
+ self.rdns.append(deepcopy(other))
+ elif isinstance(other, basestring):
+ dn = DN(other)
+ self.__iadd__(dn)
+ else:
+ raise TypeError("expected DN, RDN or basestring but got %s" % (other.__class__.__name__))
+
+ return self
+
diff --git a/tests/test_ipalib/test_dn.py b/tests/test_ipalib/test_dn.py
new file mode 100755
index 000000000..c47f38827
--- /dev/null
+++ b/tests/test_ipalib/test_dn.py
@@ -0,0 +1,919 @@
+#!/usr/bin/python
+
+import unittest
+from ipalib.dn import AVA, RDN, DN
+
+def make_rdn_args(low, high, kind, attr=None, value=None):
+ result=[]
+ for i in range(low, high):
+ if attr is None:
+ new_attr = 'a%d' % i
+ elif callable(attr):
+ new_attr = attr(i)
+ else:
+ new_attr = attr
+
+ if value is None:
+ new_value = str(i)
+ elif callable(value):
+ new_value = value(i)
+ else:
+ new_value = value
+
+ if kind == 'sequence':
+ result.append(new_attr)
+ result.append(new_value)
+ elif kind == 'tuple':
+ result.append((new_attr, new_value))
+ elif kind == 'list':
+ result.append([new_attr, new_value])
+ elif kind == 'RDN':
+ result.append(RDN(new_attr, new_value))
+ else:
+ raise ValueError("Unknown kind = %s" % kind)
+
+ return result
+
+class TestAVA(unittest.TestCase):
+ def setUp(self):
+ self.attr1 = 'cn'
+ self.value1 = 'Bob'
+ self.str_ava1 = '%s=%s' % (self.attr1, self.value1)
+ self.ava1 = AVA(self.attr1, self.value1)
+
+ def test_create(self):
+ # Create with attr,value pair
+ ava1 = AVA(self.attr1, self.value1)
+ self.assertEqual(ava1, self.ava1)
+
+ # Create with "attr=value" string
+ ava1 = AVA(self.str_ava1)
+ self.assertEqual(ava1, self.ava1)
+
+ # Create with tuple (attr, value)
+ ava1 = AVA((self.attr1, self.value1))
+ self.assertEqual(ava1, self.ava1)
+
+ # Create with list [attr, value]
+ ava1 = AVA([self.attr1, self.value1])
+ self.assertEqual(ava1, self.ava1)
+
+ # Create with no args should fail
+ with self.assertRaises(TypeError):
+ AVA()
+
+ # Create with more than 2 args should fail
+ with self.assertRaises(TypeError):
+ AVA(self.attr1, self.value1, self.attr1)
+
+ # Create with 1 arg which is not string should fail
+ with self.assertRaises(TypeError):
+ AVA(1)
+
+ # Create with malformed AVA string should fail
+ with self.assertRaises(ValueError):
+ AVA("cn")
+
+ # Create with non-string parameters, should fail
+ with self.assertRaises(TypeError):
+ AVA(1, self.value1)
+
+ with self.assertRaises(TypeError):
+ AVA(self.attr1, 1)
+
+ with self.assertRaises(TypeError):
+ AVA((1, self.value1))
+
+ with self.assertRaises(TypeError):
+ AVA((self.attr1, 1))
+
+ def test_encoding(self):
+ # Create with attr,value pair
+ ava1 = AVA(self.attr1, self.value1)
+ self.assertEqual(ava1, self.ava1)
+ self.assertIsInstance(ava1.attr, unicode)
+ self.assertIsInstance(ava1.value, unicode)
+
+ ava1 = AVA(unicode(self.attr1), self.value1)
+ self.assertEqual(ava1, self.ava1)
+ self.assertIsInstance(ava1.attr, unicode)
+ self.assertIsInstance(ava1.value, unicode)
+
+ ava1 = AVA(self.attr1, unicode(self.value1))
+ self.assertEqual(ava1, self.ava1)
+ self.assertIsInstance(ava1.attr, unicode)
+ self.assertIsInstance(ava1.value, unicode)
+
+ # Create with "attr=value" string
+ ava1 = AVA(self.str_ava1)
+ self.assertEqual(ava1, self.ava1)
+ self.assertIsInstance(ava1.attr, unicode)
+ self.assertIsInstance(ava1.value, unicode)
+
+ ava1 = AVA(unicode(self.ava1))
+ self.assertEqual(ava1, self.ava1)
+ self.assertIsInstance(ava1.attr, unicode)
+ self.assertIsInstance(ava1.value, unicode)
+
+ # Create with tuple (attr, value)
+ ava1 = AVA((unicode(self.attr1), self.value1))
+ self.assertEqual(ava1, self.ava1)
+ self.assertIsInstance(ava1.attr, unicode)
+ self.assertIsInstance(ava1.value, unicode)
+
+ ava1 = AVA((self.attr1, unicode(self.value1)))
+ self.assertEqual(ava1, self.ava1)
+ self.assertIsInstance(ava1.attr, unicode)
+ self.assertIsInstance(ava1.value, unicode)
+
+ def test_indexing(self):
+ self.assertEqual(self.ava1[self.attr1], self.value1)
+
+ with self.assertRaises(KeyError):
+ self.ava1['foo']
+
+ with self.assertRaises(TypeError):
+ self.ava1[0]
+
+ def test_properties(self):
+ self.assertEqual(self.ava1.attr, self.attr1)
+ self.assertEqual(self.ava1.value, self.value1)
+
+ def test_str(self):
+ self.assertEqual(str(self.ava1), self.str_ava1)
+ self.assertIsInstance(str(self.ava1), str)
+
+ def test_cmp(self):
+ # Equality
+ ava1 = AVA(self.attr1, self.value1)
+
+ self.assertTrue(ava1 == self.ava1)
+ self.assertFalse(ava1 != self.ava1)
+
+ result = cmp(ava1, self.ava1)
+ self.assertEqual(result, 0)
+
+ # Make ava1's attr greater
+ ava1.attr = self.attr1 + "1"
+
+ self.assertFalse(ava1 == self.ava1)
+ self.assertTrue(ava1 != self.ava1)
+
+ result = cmp(ava1, self.ava1)
+ self.assertEqual(result, 1)
+
+ result = cmp(self.ava1, ava1)
+ self.assertEqual(result, -1)
+
+ # Reset ava1's attr, should be equal again
+ ava1.attr = self.attr1
+
+ result = cmp(ava1, self.ava1)
+ self.assertEqual(result, 0)
+
+ # Make ava1's value greater
+ # attr will be equal, this tests secondary comparision component
+ ava1.value = self.value1 + "1"
+
+ result = cmp(ava1, self.ava1)
+ self.assertEqual(result, 1)
+
+ result = cmp(self.ava1, ava1)
+ self.assertEqual(result, -1)
+
+class TestRDN(unittest.TestCase):
+ def setUp(self):
+ # ava1 must sort before ava2
+ self.attr1 = 'cn'
+ self.value1 = 'Bob'
+ self.str_ava1 = '%s=%s' % (self.attr1, self.value1)
+ self.ava1 = AVA(self.attr1, self.value1)
+
+ self.str_rdn1 = '%s=%s' % (self.attr1, self.value1)
+ self.rdn1 = RDN(self.attr1, self.value1)
+
+ self.attr2 = 'ou'
+ self.value2 = 'people'
+ self.str_ava2 = '%s=%s' % (self.attr2, self.value2)
+ self.ava2 = AVA(self.attr2, self.value2)
+
+ self.str_rdn2 = '%s=%s' % (self.attr2, self.value2)
+ self.rdn2 = RDN(self.attr2, self.value2)
+
+ self.str_ava3 = '%s=%s+%s=%s' % (self.attr1, self.value1, self.attr2, self.value2)
+
+ self.str_rdn3 = '%s=%s+%s=%s' % (self.attr1, self.value1, self.attr2, self.value2)
+ self.rdn3 = RDN(self.ava1, self.ava2)
+
+ def test_create(self):
+ # Create with single attr,value pair
+ rdn1 = RDN(self.attr1, self.value1)
+ self.assertEqual(len(rdn1), 1)
+ self.assertEqual(rdn1, self.rdn1)
+ self.assertIsInstance(rdn1[0], AVA)
+ self.assertEqual(rdn1[0], self.ava1)
+
+ # Create with single attr,value pair passed as a tuple
+ rdn1 = RDN((self.attr1, self.value1))
+ self.assertEqual(len(rdn1), 1)
+ self.assertEqual(rdn1, self.rdn1)
+ self.assertIsInstance(rdn1[0], AVA)
+ self.assertEqual(rdn1[0], self.ava1)
+
+ # Create with multiple attr,value pairs
+ rdn3 = RDN(self.attr1, self.value1, self.attr2, self.value2)
+ self.assertEqual(len(rdn3), 2)
+ self.assertEqual(rdn3, self.rdn3)
+ self.assertIsInstance(rdn3[0], AVA)
+ self.assertEqual(rdn3[0], self.ava1)
+ self.assertIsInstance(rdn3[1], AVA)
+ self.assertEqual(rdn3[1], self.ava2)
+
+ # Create with multiple attr,value pairs passed as lists
+ rdn3 = RDN([self.attr1, self.value1], [self.attr2, self.value2])
+ self.assertEqual(len(rdn3), 2)
+ self.assertEqual(rdn3, self.rdn3)
+ self.assertIsInstance(rdn3[0], AVA)
+ self.assertEqual(rdn3[0], self.ava1)
+ self.assertIsInstance(rdn3[1], AVA)
+ self.assertEqual(rdn3[1], self.ava2)
+
+ # Create with multiple attr,value pairs but reverse
+ # constructor parameter ordering. RDN canonical ordering
+ # should remain the same
+ rdn3 = RDN(self.attr2, self.value2, self.attr1, self.value1)
+ self.assertEqual(len(rdn3), 2)
+ self.assertEqual(rdn3, self.rdn3)
+ self.assertIsInstance(rdn3[0], AVA)
+ self.assertEqual(rdn3[0], self.ava1)
+ self.assertIsInstance(rdn3[1], AVA)
+ self.assertEqual(rdn3[1], self.ava2)
+
+ # Create with single AVA object
+ rdn1 = RDN(self.ava1)
+ self.assertEqual(len(rdn1), 1)
+ self.assertEqual(rdn1, self.rdn1)
+ self.assertIsInstance(rdn1[0], AVA)
+ self.assertEqual(rdn1[0], self.ava1)
+
+ # Create with multiple AVA objects
+ rdn3 = RDN(self.ava1, self.ava2)
+ self.assertEqual(len(rdn3), 2)
+ self.assertEqual(rdn3, self.rdn3)
+ self.assertIsInstance(rdn3[0], AVA)
+ self.assertEqual(rdn3[0], self.ava1)
+ self.assertIsInstance(rdn3[1], AVA)
+ self.assertEqual(rdn3[1], self.ava2)
+
+
+ # Create with multiple AVA objects but reverse constructor
+ # parameter ordering. RDN canonical ordering should remain
+ # the same
+ rdn3 = RDN(self.ava2, self.ava1)
+ self.assertEqual(len(rdn3), 2)
+ self.assertEqual(rdn3, self.rdn3)
+ self.assertIsInstance(rdn3[0], AVA)
+ self.assertEqual(rdn3[0], self.ava1)
+ self.assertIsInstance(rdn3[1], AVA)
+ self.assertEqual(rdn3[1], self.ava2)
+
+ # Create with single string with 1 AVA
+ rdn1 = RDN(self.str_rdn1)
+ self.assertEqual(len(rdn1), 1)
+ self.assertEqual(rdn1, self.rdn1)
+ self.assertIsInstance(rdn1[0], AVA)
+ self.assertEqual(rdn1[0], self.ava1)
+
+ # Create with single string with 2 AVA's
+ rdn3 = RDN(self.str_rdn3)
+ self.assertEqual(len(rdn3), 2)
+ self.assertEqual(rdn3, self.rdn3)
+ self.assertIsInstance(rdn3[0], AVA)
+ self.assertEqual(rdn3[0], self.ava1)
+ self.assertIsInstance(rdn3[1], AVA)
+ self.assertEqual(rdn3[1], self.ava2)
+
+ def test_properties(self):
+ self.assertEqual(self.rdn1.attr, self.attr1)
+ self.assertIsInstance(self.rdn1.attr, unicode)
+
+ self.assertEqual(self.rdn1.value, self.value1)
+ self.assertIsInstance(self.rdn1.value, unicode)
+
+ self.assertEqual(self.rdn2.attr, self.attr2)
+ self.assertIsInstance(self.rdn2.attr, unicode)
+
+ self.assertEqual(self.rdn2.value, self.value2)
+ self.assertIsInstance(self.rdn2.value, unicode)
+
+ self.assertEqual(self.rdn3.attr, self.attr1)
+ self.assertIsInstance(self.rdn3.attr, unicode)
+
+ self.assertEqual(self.rdn3.value, self.value1)
+ self.assertIsInstance(self.rdn3.value, unicode)
+
+ def test_str(self):
+ self.assertEqual(str(self.rdn1), self.str_rdn1)
+ self.assertIsInstance(str(self.rdn1), str)
+
+ self.assertEqual(str(self.rdn2), self.str_rdn2)
+ self.assertIsInstance(str(self.rdn2), str)
+
+ self.assertEqual(str(self.rdn3), self.str_rdn3)
+ self.assertIsInstance(str(self.rdn3), str)
+
+ def test_cmp(self):
+ # Equality
+ rdn1 = RDN(self.attr1, self.value1)
+
+ self.assertTrue(rdn1 == self.rdn1)
+ self.assertFalse(rdn1 != self.rdn1)
+
+ result = cmp(rdn1, self.rdn1)
+ self.assertEqual(result, 0)
+
+ # Make rdn1's attr greater
+ rdn1.attr = self.attr1 + "1"
+
+ self.assertFalse(rdn1 == self.rdn1)
+ self.assertTrue(rdn1 != self.rdn1)
+
+ result = cmp(rdn1, self.rdn1)
+ self.assertEqual(result, 1)
+
+ result = cmp(self.rdn1, rdn1)
+ self.assertEqual(result, -1)
+
+ # Reset rdn1's attr, should be equal again
+ rdn1.attr = self.attr1
+
+ result = cmp(rdn1, self.rdn1)
+ self.assertEqual(result, 0)
+
+ # Make rdn1's value greater
+ # attr will be equal, this tests secondary comparision component
+ rdn1.value = self.value1 + "1"
+
+ result = cmp(rdn1, self.rdn1)
+ self.assertEqual(result, 1)
+
+ result = cmp(self.rdn1, rdn1)
+ self.assertEqual(result, -1)
+
+ # Make sure rdn's with more ava's are greater
+ result = cmp(self.rdn1, self.rdn3)
+ self.assertEqual(result, -1)
+ result = cmp(self.rdn3, self.rdn1)
+ self.assertEqual(result, 1)
+
+ def test_indexing(self):
+ self.assertEqual(self.rdn1[0], self.ava1)
+ self.assertEqual(self.rdn1[self.ava1.attr], self.ava1.value)
+ with self.assertRaises(KeyError):
+ self.rdn1['foo']
+
+ self.assertEqual(self.rdn2[0], self.ava2)
+ self.assertEqual(self.rdn2[self.ava2.attr], self.ava2.value)
+ with self.assertRaises(KeyError):
+ self.rdn2['foo']
+
+ self.assertEqual(self.rdn3[0], self.ava1)
+ self.assertEqual(self.rdn3[self.ava1.attr], self.ava1.value)
+ self.assertEqual(self.rdn3[1], self.ava2)
+ self.assertEqual(self.rdn3[self.ava2.attr], self.ava2.value)
+ with self.assertRaises(KeyError):
+ self.rdn3['foo']
+
+ self.assertEqual(self.rdn1.attr, self.attr1)
+ self.assertEqual(self.rdn1.value, self.value1)
+
+ with self.assertRaises(TypeError):
+ self.rdn3[1.0]
+
+ # Slices
+ self.assertEqual(self.rdn3[0:1], [self.ava1])
+ self.assertEqual(self.rdn3[:], [self.ava1, self.ava2])
+
+ def test_assignments(self):
+ rdn = RDN(self.attr1, self.value1)
+ rdn[0] = self.ava2
+ self.assertEqual(rdn, self.rdn2)
+
+ rdn = RDN(self.attr1, self.value1)
+ rdn[0] = (self.attr2, self.value2)
+ self.assertEqual(rdn, self.rdn2)
+
+ rdn = RDN(self.attr1, self.value1)
+ rdn[self.attr1] = self.str_ava2
+ self.assertEqual(rdn[0], self.ava2)
+
+ # Can't assign multiples to single entry
+ rdn = RDN(self.attr1, self.value1)
+ with self.assertRaises(TypeError):
+ rdn[self.attr1] = self.str_ava3
+
+ rdn = RDN(self.attr1, self.value1)
+ with self.assertRaises(TypeError):
+ rdn[self.attr1] = (self.attr1, self.value1, self.attr2, self.value2)
+
+ rdn = RDN(self.attr1, self.value1)
+ with self.assertRaises(TypeError):
+ rdn[self.attr1] = [(self.attr1, self.value1), (self.attr2, self.value2)]
+
+ # Slices
+ rdn = RDN(self.attr1, self.value1)
+ self.assertEqual(rdn, self.rdn1)
+ rdn[0:1] = [self.ava2]
+ self.assertEqual(rdn, self.rdn2)
+
+ rdn = RDN(self.attr1, self.value1)
+ self.assertEqual(rdn, self.rdn1)
+ rdn[:] = [(self.attr2, self.value2)]
+ self.assertEqual(rdn, self.rdn2)
+
+ rdn = RDN(self.attr1, self.value1)
+ self.assertEqual(rdn, self.rdn1)
+ rdn[:] = [(self.attr1, self.value1),(self.attr2, self.value2)]
+ self.assertEqual(rdn, self.rdn3)
+
+ rdn = RDN(self.attr1, self.value1)
+ self.assertEqual(rdn, self.rdn1)
+ rdn[0:1] = [self.attr1, self.value1, self.attr2, self.value2]
+ self.assertEqual(rdn, self.rdn3)
+
+
+ def test_iter(self):
+ self.assertEqual(len(self.rdn1), 1)
+ self.assertEqual(self.rdn1[:], [self.ava1])
+ for i, ava in enumerate(self.rdn1):
+ if i == 0:
+ self.assertEqual(ava, self.ava1)
+ else:
+ self.fail("got iteration index %d, but len=%d" % (i, len(self.rdn1)))
+
+ self.assertEqual(len(self.rdn2), 1)
+ self.assertEqual(self.rdn2[:], [self.ava2])
+ for i, ava in enumerate(self.rdn2):
+ if i == 0:
+ self.assertEqual(ava, self.ava2)
+ else:
+ self.fail("got iteration index %d, but len=%d" % (i, len(self.rdn2)))
+
+ self.assertEqual(len(self.rdn3), 2)
+ self.assertEqual(self.rdn3[:], [self.ava1, self.ava2])
+ for i, ava in enumerate(self.rdn3):
+ if i == 0:
+ self.assertEqual(ava, self.ava1)
+ elif i == 1:
+ self.assertEqual(ava, self.ava2)
+ else:
+ self.fail("got iteration index %d, but len=%d" % (i, len(self.rdn3)))
+
+
+ def test_concat(self):
+ rdn1 = RDN(self.attr1, self.value1)
+ rdn2 = RDN(self.attr2, self.value2)
+
+ # in-place addtion
+ rdn1 += rdn2
+ self.assertEqual(rdn1, self.rdn3)
+
+ rdn1 = RDN(self.attr1, self.value1)
+ rdn1 += self.ava2
+ self.assertEqual(rdn1, self.rdn3)
+
+ rdn1 = RDN(self.attr1, self.value1)
+ rdn1 += self.str_ava2
+ self.assertEqual(rdn1, self.rdn3)
+
+ # concatenation
+ rdn1 = RDN(self.attr1, self.value1)
+ rdn3 = rdn1 + rdn2
+ self.assertEqual(rdn3, self.rdn3)
+
+ rdn3 = rdn1 + self.ava2
+ self.assertEqual(rdn3, self.rdn3)
+
+ rdn3 = rdn1 + self.str_ava2
+ self.assertEqual(rdn3, self.rdn3)
+
+
+class TestDN(unittest.TestCase):
+ def setUp(self):
+ # ava1 must sort before ava2
+ self.attr1 = 'cn'
+ self.value1 = 'Bob'
+ self.str_ava1 = '%s=%s' % (self.attr1, self.value1)
+ self.ava1 = AVA(self.attr1, self.value1)
+
+ self.str_rdn1 = '%s=%s' % (self.attr1, self.value1)
+ self.rdn1 = RDN(self.attr1, self.value1)
+
+ self.attr2 = 'ou'
+ self.value2 = 'people'
+ self.str_ava2 = '%s=%s' % (self.attr2, self.value2)
+ self.ava2 = AVA(self.attr2, self.value2)
+
+ self.str_rdn2 = '%s=%s' % (self.attr2, self.value2)
+ self.rdn2 = RDN(self.attr2, self.value2)
+
+ self.str_dn1 = self.str_rdn1
+ self.dn1 = DN(self.rdn1)
+
+ self.str_dn2 = self.str_rdn2
+ self.dn2 = DN(self.rdn2)
+
+ self.str_dn3 = '%s,%s' % (self.str_rdn1, self.str_rdn2)
+ self.dn3 = DN(self.rdn1, self.rdn2)
+
+ def test_create(self):
+ # Create with single attr,value pair
+ dn1 = DN(self.attr1, self.value1)
+ self.assertEqual(len(dn1), 1)
+ self.assertIsInstance(dn1[0], RDN)
+ self.assertIsInstance(dn1[0].attr, unicode)
+ self.assertIsInstance(dn1[0].value, unicode)
+ self.assertEqual(dn1[0], self.rdn1)
+
+ # Create with single attr,value pair passed as a tuple
+ dn1 = DN((self.attr1, self.value1))
+ self.assertEqual(len(dn1), 1)
+ self.assertIsInstance(dn1[0], RDN)
+ self.assertIsInstance(dn1[0].attr, unicode)
+ self.assertIsInstance(dn1[0].value, unicode)
+ self.assertEqual(dn1[0], self.rdn1)
+
+ # Create with multiple attr,value pairs
+ dn1 = DN(self.attr1, self.value1, self.attr2, self.value2)
+ self.assertEqual(len(dn1), 2)
+ self.assertIsInstance(dn1[0], RDN)
+ self.assertIsInstance(dn1[0].attr, unicode)
+ self.assertIsInstance(dn1[0].value, unicode)
+ self.assertEqual(dn1[0], self.rdn1)
+ self.assertIsInstance(dn1[1], RDN)
+ self.assertIsInstance(dn1[1].attr, unicode)
+ self.assertIsInstance(dn1[1].value, unicode)
+ self.assertEqual(dn1[1], self.rdn2)
+
+ # Create with multiple attr,value pairs passed as lists
+ dn1 = DN([self.attr1, self.value1], [self.attr2, self.value2])
+ self.assertEqual(len(dn1), 2)
+ self.assertIsInstance(dn1[0], RDN)
+ self.assertIsInstance(dn1[0].attr, unicode)
+ self.assertIsInstance(dn1[0].value, unicode)
+ self.assertEqual(dn1[0], self.rdn1)
+ self.assertIsInstance(dn1[1], RDN)
+ self.assertIsInstance(dn1[1].attr, unicode)
+ self.assertIsInstance(dn1[1].value, unicode)
+ self.assertEqual(dn1[1], self.rdn2)
+
+ # Create with multiple attr,value pairs but reverse
+ # constructor parameter ordering. RDN ordering should also be
+ # reversed because DN's are a ordered sequence of RDN's
+ dn1 = DN(self.attr2, self.value2, self.attr1, self.value1)
+ self.assertEqual(len(dn1), 2)
+ self.assertIsInstance(dn1[0], RDN)
+ self.assertIsInstance(dn1[0].attr, unicode)
+ self.assertIsInstance(dn1[0].value, unicode)
+ self.assertEqual(dn1[0], self.rdn2)
+ self.assertIsInstance(dn1[1], RDN)
+ self.assertIsInstance(dn1[1].attr, unicode)
+ self.assertIsInstance(dn1[1].value, unicode)
+ self.assertEqual(dn1[1], self.rdn1)
+
+ # Create with single RDN object
+ dn1 = DN(self.rdn1)
+ self.assertEqual(len(dn1), 1)
+ self.assertIsInstance(dn1[0], RDN)
+ self.assertIsInstance(dn1[0].attr, unicode)
+ self.assertIsInstance(dn1[0].value, unicode)
+ self.assertEqual(dn1[0], self.rdn1)
+
+ # Create with multiple RDN objects, assure ordering is preserved.
+ dn1 = DN(self.rdn1, self.rdn2)
+ self.assertEqual(len(dn1), 2)
+ self.assertIsInstance(dn1[0], RDN)
+ self.assertIsInstance(dn1[0].attr, unicode)
+ self.assertIsInstance(dn1[0].value, unicode)
+ self.assertEqual(dn1[0], self.rdn1)
+ self.assertIsInstance(dn1[1], RDN)
+ self.assertIsInstance(dn1[1].attr, unicode)
+ self.assertIsInstance(dn1[1].value, unicode)
+ self.assertEqual(dn1[1], self.rdn2)
+
+ # Create with multiple RDN objects in different order, assure
+ # ordering is preserved.
+ dn1 = DN(self.rdn2, self.rdn1)
+ self.assertEqual(len(dn1), 2)
+ self.assertIsInstance(dn1[0], RDN)
+ self.assertIsInstance(dn1[0].attr, unicode)
+ self.assertIsInstance(dn1[0].value, unicode)
+ self.assertEqual(dn1[0], self.rdn2)
+ self.assertIsInstance(dn1[1], RDN)
+ self.assertIsInstance(dn1[1].attr, unicode)
+ self.assertIsInstance(dn1[1].value, unicode)
+ self.assertEqual(dn1[1], self.rdn1)
+
+ # Create with single string with 1 RDN
+ dn1 = DN(self.str_rdn1)
+ self.assertEqual(len(dn1), 1)
+ self.assertIsInstance(dn1[0], RDN)
+ self.assertIsInstance(dn1[0].attr, unicode)
+ self.assertIsInstance(dn1[0].value, unicode)
+ self.assertEqual(dn1[0], self.rdn1)
+
+ # Create with single string with 2 RDN's
+ dn1 = DN(self.str_dn3)
+ self.assertEqual(len(dn1), 2)
+ self.assertIsInstance(dn1[0], RDN)
+ self.assertIsInstance(dn1[0].attr, unicode)
+ self.assertIsInstance(dn1[0].value, unicode)
+ self.assertEqual(dn1[0], self.rdn1)
+ self.assertIsInstance(dn1[1], RDN)
+ self.assertIsInstance(dn1[1].attr, unicode)
+ self.assertIsInstance(dn1[1].value, unicode)
+ self.assertEqual(dn1[1], self.rdn2)
+
+ def test_str(self):
+ self.assertEqual(str(self.dn1), self.str_dn1)
+ self.assertIsInstance(str(self.dn1), str)
+
+ self.assertEqual(str(self.dn2), self.str_dn2)
+ self.assertIsInstance(str(self.dn2), str)
+
+ self.assertEqual(str(self.dn3), self.str_dn3)
+ self.assertIsInstance(str(self.dn3), str)
+
+ def test_cmp(self):
+ # Equality
+ dn1 = DN(self.attr1, self.value1)
+
+ self.assertTrue(dn1 == self.dn1)
+ self.assertFalse(dn1 != self.dn1)
+
+ result = cmp(dn1, self.dn1)
+ self.assertEqual(result, 0)
+
+ # Make dn1's attr greater
+ dn1[0].attr = self.attr1 + "1"
+
+ self.assertFalse(dn1 == self.dn1)
+ self.assertTrue(dn1 != self.dn1)
+
+ result = cmp(dn1, self.dn1)
+ self.assertEqual(result, 1)
+
+ result = cmp(self.dn1, dn1)
+ self.assertEqual(result, -1)
+
+ # Reset dn1's attr, should be equal again
+ dn1[0].attr = self.attr1
+
+ result = cmp(dn1, self.dn1)
+ self.assertEqual(result, 0)
+
+ # Make dn1's value greater
+ # attr will be equal, this tests secondary comparision component
+ dn1[0].value = self.value1 + "1"
+
+ result = cmp(dn1, self.dn1)
+ self.assertEqual(result, 1)
+
+ result = cmp(self.dn1, dn1)
+ self.assertEqual(result, -1)
+
+ # Make sure dn's with more rdn's are greater
+ result = cmp(self.dn1, self.dn3)
+ self.assertEqual(result, -1)
+ result = cmp(self.dn3, self.dn1)
+ self.assertEqual(result, 1)
+
+ def test_indexing(self):
+ self.assertEqual(self.dn1[0], self.rdn1)
+ self.assertEqual(self.dn1[self.rdn1.attr], self.rdn1.value)
+ with self.assertRaises(KeyError):
+ self.dn1['foo']
+
+ self.assertEqual(self.dn2[0], self.rdn2)
+ self.assertEqual(self.dn2[self.rdn2.attr], self.rdn2.value)
+ with self.assertRaises(KeyError):
+ self.dn2['foo']
+
+ self.assertEqual(self.dn3[0], self.rdn1)
+ self.assertEqual(self.dn3[self.rdn1.attr], self.rdn1.value)
+ self.assertEqual(self.dn3[1], self.rdn2)
+ self.assertEqual(self.dn3[self.rdn2.attr], self.rdn2.value)
+ with self.assertRaises(KeyError):
+ self.dn3['foo']
+
+ with self.assertRaises(TypeError):
+ self.dn3[1.0]
+
+ def test_assignments(self):
+ dn_low = 0
+ dn_high = 6
+
+ rdn_args = make_rdn_args(dn_low, dn_high, 'sequence')
+ dn1 = DN(*rdn_args)
+
+ rdn_args = make_rdn_args(dn_low, dn_high, 'tuple')
+ dn2 = DN(*rdn_args)
+
+ rdn_args = make_rdn_args(dn_low, dn_high, 'RDN')
+ dn3 = DN(*rdn_args)
+
+ self.assertEqual(dn1, dn2)
+ self.assertEqual(dn1, dn3)
+
+ for i in range(dn_low, dn_high):
+ attr = 'a%d' % i
+ value = str(i)
+ self.assertEqual(dn1[i].attr, attr)
+ self.assertEqual(dn1[i].value, value)
+ self.assertEqual(dn1[attr], value)
+
+ for i in range(dn_low, dn_high):
+ if i % 2:
+ orig_attr = 'a%d' % i
+ attr = 'b%d' % i
+ value = str(i*10)
+ dn1[i] = attr, value
+ dn2[orig_attr] = (attr, value)
+ dn3[i] = RDN(attr, value)
+
+ self.assertEqual(dn1, dn2)
+ self.assertEqual(dn1, dn3)
+
+ for i in range(dn_low, dn_high):
+ if i % 2:
+ attr = 'b%d' % i
+ value = str(i*10)
+ else:
+ attr = 'a%d' % i
+ value = str(i)
+ self.assertEqual(dn1[i].value, dn1[i].value)
+ self.assertEqual(dn1[attr], value)
+
+ # Slices
+ slice_low = 2
+ slice_high = 4
+ interval = range(slice_low, slice_high)
+
+ # Assign via sequence
+ rdn_args = make_rdn_args(dn_low, dn_high, 'sequence')
+ dn1 = DN(*rdn_args)
+
+ dn_slice = make_rdn_args(slice_low, slice_high, 'sequence',
+ lambda i: 'b%d' % i, lambda i: str(i*10))
+
+ dn1[slice_low:slice_high] = dn_slice
+
+ for i in range(dn_low, dn_high):
+ if i in interval:
+ attr = 'b%d' % i
+ value = str(i*10)
+ else:
+ attr = 'a%d' % i
+ value = str(i)
+ self.assertEqual(dn1[i].value, dn1[i].value)
+ self.assertEqual(dn1[attr], value)
+
+ query_slice = dn1[slice_low:slice_high]
+ for i, query_rdn in enumerate(query_slice):
+ slice_rdn = RDN(dn_slice[i*2], dn_slice[i*2+1])
+ self.assertEqual(slice_rdn, query_rdn)
+
+ # Slices
+ # Assign via tuple
+ rdn_args = make_rdn_args(dn_low, dn_high, 'sequence')
+ dn1 = DN(*rdn_args)
+
+ dn_slice = make_rdn_args(slice_low, slice_high, 'tuple',
+ lambda i: 'b%d' % i, lambda i: str(i*10))
+
+ dn1[slice_low:slice_high] = dn_slice
+
+ for i in range(dn_low, dn_high):
+ if i in interval:
+ attr = 'b%d' % i
+ value = str(i*10)
+ else:
+ attr = 'a%d' % i
+ value = str(i)
+ self.assertEqual(dn1[i].value, dn1[i].value)
+ self.assertEqual(dn1[attr], value)
+
+ query_slice = dn1[slice_low:slice_high]
+ for i, query_rdn in enumerate(query_slice):
+ slice_rdn = RDN(dn_slice[i])
+ self.assertEqual(slice_rdn, query_rdn)
+
+ # Slices
+ # Assign via RDN
+ rdn_args = make_rdn_args(dn_low, dn_high, 'sequence')
+ dn1 = DN(*rdn_args)
+
+ dn_slice = make_rdn_args(slice_low, slice_high, 'RDN',
+ lambda i: 'b%d' % i, lambda i: str(i*10))
+
+ dn1[slice_low:slice_high] = dn_slice
+
+ for i in range(dn_low, dn_high):
+ if i in interval:
+ attr = 'b%d' % i
+ value = str(i*10)
+ else:
+ attr = 'a%d' % i
+ value = str(i)
+ self.assertEqual(dn1[i].value, dn1[i].value)
+ self.assertEqual(dn1[attr], value)
+
+ query_slice = dn1[slice_low:slice_high]
+ for i, query_rdn in enumerate(query_slice):
+ slice_rdn = dn_slice[i]
+ self.assertEqual(slice_rdn, query_rdn)
+
+
+ def test_iter(self):
+ self.assertEqual(len(self.dn1), 1)
+ self.assertEqual(self.dn1[:], [self.rdn1])
+ for i, ava in enumerate(self.dn1):
+ if i == 0:
+ self.assertEqual(ava, self.rdn1)
+ else:
+ self.fail("got iteration index %d, but len=%d" % (i, len(self.rdn1)))
+
+ self.assertEqual(len(self.dn2), 1)
+ self.assertEqual(self.dn2[:], [self.rdn2])
+ for i, ava in enumerate(self.dn2):
+ if i == 0:
+ self.assertEqual(ava, self.rdn2)
+ else:
+ self.fail("got iteration index %d, but len=%d" % (i, len(self.rdn2)))
+
+ self.assertEqual(len(self.dn3), 2)
+ self.assertEqual(self.dn3[:], [self.rdn1, self.rdn2])
+ for i, ava in enumerate(self.dn3):
+ if i == 0:
+ self.assertEqual(ava, self.rdn1)
+ elif i == 1:
+ self.assertEqual(ava, self.rdn2)
+ else:
+ self.fail("got iteration index %d, but len=%d" % (i, len(self.dn3)))
+
+
+ def test_concat(self):
+ dn1 = DN(self.attr1, self.value1)
+ dn2 = DN(self.attr2, self.value2)
+
+ # in-place addtion
+ dn1 += dn2
+ self.assertEqual(dn1, self.dn3)
+
+ dn1 = DN(self.attr1, self.value1)
+ dn1 += self.rdn2
+ self.assertEqual(dn1, self.dn3)
+
+ dn1 = DN(self.attr1, self.value1)
+ dn1 += self.dn2
+ self.assertEqual(dn1, self.dn3)
+
+ dn1 = DN(self.attr1, self.value1)
+ dn1 += self.str_dn2
+ self.assertEqual(dn1, self.dn3)
+
+ # concatenation
+ dn1 = DN(self.attr1, self.value1)
+ dn3 = dn1 + dn2
+ self.assertEqual(dn3, self.dn3)
+
+ dn1 = DN(self.attr1, self.value1)
+ dn3 = dn1 + self.rdn2
+ self.assertEqual(dn3, self.dn3)
+
+ dn3 = dn1 + self.str_rdn2
+ self.assertEqual(dn3, self.dn3)
+
+ dn3 = dn1 + self.str_dn2
+ self.assertEqual(dn3, self.dn3)
+
+ dn3 = dn1 + self.dn2
+ self.assertEqual(dn3, self.dn3)
+
+class TestEscapes(unittest.TestCase):
+ def setUp(self):
+ self.privilege = 'R,W privilege'
+ self.dn_str_hex_escape = 'cn=R\\2cW privilege,cn=privileges,cn=pbac,dc=idm,dc=lab,dc=bos,dc=redhat,dc=com'
+ self.dn_str_backslash_escape = 'cn=R\\,W privilege,cn=privileges,cn=pbac,dc=idm,dc=lab,dc=bos,dc=redhat,dc=com'
+
+ def test_escape(self):
+ dn = DN(self.dn_str_hex_escape)
+ self.assertEqual(dn['cn'], self.privilege)
+ self.assertEqual(dn[0].value, self.privilege)
+
+ dn = DN(self.dn_str_backslash_escape)
+ self.assertEqual(dn['cn'], self.privilege)
+ self.assertEqual(dn[0].value, self.privilege)
+
+if __name__ == '__main__':
+ unittest.main()