261 lines
8.7 KiB
Ruby
261 lines
8.7 KiB
Ruby
# LDAP Entry (search-result) support classes
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#
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#----------------------------------------------------------------------------
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#
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# Copyright (C) 2006 by Francis Cianfrocca. All Rights Reserved.
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#
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# Gmail: garbagecat10
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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#
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#---------------------------------------------------------------------------
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#
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module Net
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class LDAP
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# Objects of this class represent individual entries in an LDAP
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# directory. User code generally does not instantiate this class.
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# Net::LDAP#search provides objects of this class to user code,
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# either as block parameters or as return values.
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#
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# In LDAP-land, an "entry" is a collection of attributes that are
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# uniquely and globally identified by a DN ("Distinguished Name").
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# Attributes are identified by short, descriptive words or phrases.
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# Although a directory is
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# free to implement any attribute name, most of them follow rigorous
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# standards so that the range of commonly-encountered attribute
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# names is not large.
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#
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# An attribute name is case-insensitive. Most directories also
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# restrict the range of characters allowed in attribute names.
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# To simplify handling attribute names, Net::LDAP::Entry
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# internally converts them to a standard format. Therefore, the
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# methods which take attribute names can take Strings or Symbols,
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# and work correctly regardless of case or capitalization.
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#
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# An attribute consists of zero or more data items called
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# <i>values.</i> An entry is the combination of a unique DN, a set of attribute
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# names, and a (possibly-empty) array of values for each attribute.
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#
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# Class Net::LDAP::Entry provides convenience methods for dealing
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# with LDAP entries.
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# In addition to the methods documented below, you may access individual
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# attributes of an entry simply by giving the attribute name as
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# the name of a method call. For example:
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# ldap.search( ... ) do |entry|
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# puts "Common name: #{entry.cn}"
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# puts "Email addresses:"
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# entry.mail.each {|ma| puts ma}
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# end
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# If you use this technique to access an attribute that is not present
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# in a particular Entry object, a NoMethodError exception will be raised.
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#
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#--
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# Ugly problem to fix someday: We key off the internal hash with
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# a canonical form of the attribute name: convert to a string,
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# downcase, then take the symbol. Unfortunately we do this in
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# at least three places. Should do it in ONE place.
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class Entry
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# This constructor is not generally called by user code.
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#--
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# Originally, myhash took a block so we wouldn't have to
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# make sure its elements returned empty arrays when necessary.
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# Got rid of that to enable marshalling of Entry objects,
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# but that doesn't work anyway, because Entry objects have
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# singleton methods. So we define a custom dump and load.
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def initialize dn = nil # :nodoc:
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@myhash = {} # originally: Hash.new {|k,v| k[v] = [] }
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@myhash[:dn] = [dn]
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end
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def _dump depth
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to_ldif
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end
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class << self
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def _load entry
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from_single_ldif_string entry
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end
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end
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#--
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# Discovered bug, 26Aug06: I noticed that we're not converting the
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# incoming value to an array if it isn't already one.
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def []= name, value # :nodoc:
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sym = name.to_s.downcase.intern
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value = [value] unless value.is_a?(Array)
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@myhash[sym] = value
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end
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#--
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# We have to deal with this one as we do with []=
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# because this one and not the other one gets called
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# in formulations like entry["CN"] << cn.
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#
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def [] name # :nodoc:
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name = name.to_s.downcase.intern unless name.is_a?(Symbol)
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@myhash[name] || []
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end
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# Returns the dn of the Entry as a String.
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def dn
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self[:dn][0].to_s
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end
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# Returns an array of the attribute names present in the Entry.
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def attribute_names
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@myhash.keys
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end
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# Accesses each of the attributes present in the Entry.
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# Calls a user-supplied block with each attribute in turn,
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# passing two arguments to the block: a Symbol giving
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# the name of the attribute, and a (possibly empty)
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# Array of data values.
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#
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def each
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if block_given?
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attribute_names.each {|a|
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attr_name,values = a,self[a]
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yield attr_name, values
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}
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end
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end
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alias_method :each_attribute, :each
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# Converts the Entry to a String, representing the
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# Entry's attributes in LDIF format.
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#--
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def to_ldif
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ary = []
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ary << "dn: #{dn}\n"
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v2 = "" # temp value, save on GC
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each_attribute do |k,v|
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unless k == :dn
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v.each {|v1|
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v2 = if (k == :userpassword) || is_attribute_value_binary?(v1)
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": #{Base64.encode64(v1).chomp.gsub(/\n/m,"\n ")}"
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else
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" #{v1}"
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end
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ary << "#{k}:#{v2}\n"
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}
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end
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end
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ary << "\n"
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ary.join
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end
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#--
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# TODO, doesn't support broken lines.
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# It generates a SINGLE Entry object from an incoming LDIF stream
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# which is of course useless for big LDIF streams that encode
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# many objects.
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# DO NOT DOCUMENT THIS METHOD UNTIL THESE RESTRICTIONS ARE LIFTED.
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# As it is, it's useful for unmarshalling objects that we create,
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# but not for reading arbitrary LDIF files.
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# Eventually, we should have a class method that parses large LDIF
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# streams into individual LDIF blocks (delimited by blank lines)
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# and passes them here.
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#
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# There is one oddity, noticed by Matthias Tarasiewicz: as originally
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# written, this code would return an Entry object in which the DN
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# attribute consisted of a two-element array, and the first element was
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# nil. That's because Entry#initialize doesn't like to create an object
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# without a DN attribute so it adds one: nil. The workaround here is
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# to wipe out the nil DN after creating the Entry object, and trust the
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# LDIF string to fill it in. If it doesn't we return a nil at the end.
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# (30Sep06, FCianfrocca)
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#
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class << self
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def from_single_ldif_string ldif
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entry = Entry.new
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entry[:dn] = []
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ldif.split(/\r?\n/m).each {|line|
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break if line.length == 0
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if line =~ /\A([\w]+):(:?)[\s]*/
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entry[$1] <<= if $2 == ':'
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Base64.decode64($')
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else
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$'
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end
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end
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}
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entry.dn ? entry : nil
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end
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end
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#--
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# Convenience method to convert unknown method names
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# to attribute references. Of course the method name
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# comes to us as a symbol, so let's save a little time
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# and not bother with the to_s.downcase two-step.
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# Of course that means that a method name like mAIL
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# won't work, but we shouldn't be encouraging that
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# kind of bad behavior in the first place.
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# Maybe we should thow something if the caller sends
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# arguments or a block...
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#
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def method_missing *args, &block # :nodoc:
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s = args[0].to_s.downcase.intern
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if attribute_names.include?(s)
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self[s]
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elsif s.to_s[-1] == 61 and s.to_s.length > 1
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value = args[1] or raise RuntimeError.new( "unable to set value" )
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value = [value] unless value.is_a?(Array)
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name = s.to_s[0..-2].intern
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self[name] = value
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else
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raise NoMethodError.new( "undefined method '#{s}'" )
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end
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end
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def write
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end
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#--
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# Internal convenience method. It seems like the standard
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# approach in most LDAP tools to base64 encode an attribute
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# value if its first or last byte is nonprintable, or if
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# it's a password. But that turns out to be not nearly good
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# enough. There are plenty of A/D attributes that are binary
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# in the middle. This is probably a nasty performance killer.
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def is_attribute_value_binary? value
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v = value.to_s
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v.each_byte {|byt|
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return true if (byt < 32) || (byt > 126)
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}
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if v[0..0] == ':' or v[0..0] == '<'
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return true
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end
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false
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end
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private :is_attribute_value_binary?
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end # class Entry
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end # class LDAP
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end # module Net
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