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1311 lines
53 KiB
1311 lines
53 KiB
# $Id: ldap.rb 154 2006-08-15 09:35:43Z blackhedd $
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#
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# Net::LDAP for Ruby
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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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# Written and maintained by Francis Cianfrocca, gmail: garbagecat10.
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#
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# This program is free software.
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# You may re-distribute and/or modify this program under the same terms
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# as Ruby itself: Ruby Distribution License or GNU General Public License.
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#
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#
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# See Net::LDAP for documentation and usage samples.
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#
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require 'socket'
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require 'ostruct'
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begin
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require 'openssl'
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$net_ldap_openssl_available = true
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rescue LoadError
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end
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require 'net/ber'
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require 'net/ldap/pdu'
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require 'net/ldap/filter'
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require 'net/ldap/dataset'
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require 'net/ldap/psw'
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require 'net/ldap/entry'
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module Net
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# == Net::LDAP
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#
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# This library provides a pure-Ruby implementation of the
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# LDAP client protocol, per RFC-2251.
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# It can be used to access any server which implements the
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# LDAP protocol.
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#
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# Net::LDAP is intended to provide full LDAP functionality
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# while hiding the more arcane aspects
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# the LDAP protocol itself, and thus presenting as Ruby-like
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# a programming interface as possible.
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#
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# == Quick-start for the Impatient
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# === Quick Example of a user-authentication against an LDAP directory:
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#
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# require 'rubygems'
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# require 'net/ldap'
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#
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# ldap = Net::LDAP.new
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# ldap.host = your_server_ip_address
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# ldap.port = 389
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# ldap.auth "joe_user", "opensesame"
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# if ldap.bind
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# # authentication succeeded
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# else
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# # authentication failed
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# end
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#
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#
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# === Quick Example of a search against an LDAP directory:
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#
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# require 'rubygems'
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# require 'net/ldap'
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#
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# ldap = Net::LDAP.new :host => server_ip_address,
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# :port => 389,
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# :auth => {
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# :method => :simple,
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# :username => "cn=manager,dc=example,dc=com",
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# :password => "opensesame"
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# }
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#
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# filter = Net::LDAP::Filter.eq( "cn", "George*" )
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# treebase = "dc=example,dc=com"
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#
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# ldap.search( :base => treebase, :filter => filter ) do |entry|
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# puts "DN: #{entry.dn}"
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# entry.each do |attribute, values|
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# puts " #{attribute}:"
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# values.each do |value|
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# puts " --->#{value}"
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# end
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# end
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# end
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#
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# p ldap.get_operation_result
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#
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#
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# == A Brief Introduction to LDAP
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#
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# We're going to provide a quick, informal introduction to LDAP
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# terminology and
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# typical operations. If you're comfortable with this material, skip
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# ahead to "How to use Net::LDAP." If you want a more rigorous treatment
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# of this material, we recommend you start with the various IETF and ITU
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# standards that relate to LDAP.
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#
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# === Entities
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# LDAP is an Internet-standard protocol used to access directory servers.
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# The basic search unit is the <i>entity,</i> which corresponds to
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# a person or other domain-specific object.
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# A directory service which supports the LDAP protocol typically
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# stores information about a number of entities.
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#
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# === Principals
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# LDAP servers are typically used to access information about people,
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# but also very often about such items as printers, computers, and other
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# resources. To reflect this, LDAP uses the term <i>entity,</i> or less
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# commonly, <i>principal,</i> to denote its basic data-storage unit.
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#
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#
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# === Distinguished Names
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# In LDAP's view of the world,
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# an entity is uniquely identified by a globally-unique text string
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# called a <i>Distinguished Name,</i> originally defined in the X.400
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# standards from which LDAP is ultimately derived.
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# Much like a DNS hostname, a DN is a "flattened" text representation
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# of a string of tree nodes. Also like DNS (and unlike Java package
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# names), a DN expresses a chain of tree-nodes written from left to right
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# in order from the most-resolved node to the most-general one.
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#
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# If you know the DN of a person or other entity, then you can query
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# an LDAP-enabled directory for information (attributes) about the entity.
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# Alternatively, you can query the directory for a list of DNs matching
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# a set of criteria that you supply.
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#
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# === Attributes
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#
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# In the LDAP view of the world, a DN uniquely identifies an entity.
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# Information about the entity is stored as a set of <i>Attributes.</i>
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# An attribute is a text string which is associated with zero or more
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# values. Most LDAP-enabled directories store a well-standardized
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# range of attributes, and constrain their values according to standard
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# rules.
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#
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# A good example of an attribute is <tt>sn,</tt> which stands for "Surname."
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# This attribute is generally used to store a person's surname, or last name.
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# Most directories enforce the standard convention that
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# an entity's <tt>sn</tt> attribute have <i>exactly one</i> value. In LDAP
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# jargon, that means that <tt>sn</tt> must be <i>present</i> and
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# <i>single-valued.</i>
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#
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# Another attribute is <tt>mail,</tt> which is used to store email addresses.
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# (No, there is no attribute called "email," perhaps because X.400 terminology
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# predates the invention of the term <i>email.</i>) <tt>mail</tt> differs
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# from <tt>sn</tt> in that most directories permit any number of values for the
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# <tt>mail</tt> attribute, including zero.
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#
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#
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# === Tree-Base
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# We said above that X.400 Distinguished Names are <i>globally unique.</i>
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# In a manner reminiscent of DNS, LDAP supposes that each directory server
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# contains authoritative attribute data for a set of DNs corresponding
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# to a specific sub-tree of the (notional) global directory tree.
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# This subtree is generally configured into a directory server when it is
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# created. It matters for this discussion because most servers will not
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# allow you to query them unless you specify a correct tree-base.
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#
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# Let's say you work for the engineering department of Big Company, Inc.,
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# whose internet domain is bigcompany.com. You may find that your departmental
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# directory is stored in a server with a defined tree-base of
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# ou=engineering,dc=bigcompany,dc=com
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# You will need to supply this string as the <i>tree-base</i> when querying this
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# directory. (Ou is a very old X.400 term meaning "organizational unit."
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# Dc is a more recent term meaning "domain component.")
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#
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# === LDAP Versions
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# (stub, discuss v2 and v3)
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#
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# === LDAP Operations
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# The essential operations are: #bind, #search, #add, #modify, #delete, and #rename.
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# ==== Bind
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# #bind supplies a user's authentication credentials to a server, which in turn verifies
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# or rejects them. There is a range of possibilities for credentials, but most directories
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# support a simple username and password authentication.
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#
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# Taken by itself, #bind can be used to authenticate a user against information
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# stored in a directory, for example to permit or deny access to some other resource.
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# In terms of the other LDAP operations, most directories require a successful #bind to
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# be performed before the other operations will be permitted. Some servers permit certain
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# operations to be performed with an "anonymous" binding, meaning that no credentials are
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# presented by the user. (We're glossing over a lot of platform-specific detail here.)
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#
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# ==== Search
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# Calling #search against the directory involves specifying a treebase, a set of <i>search filters,</i>
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# and a list of attribute values.
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# The filters specify ranges of possible values for particular attributes. Multiple
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# filters can be joined together with AND, OR, and NOT operators.
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# A server will respond to a #search by returning a list of matching DNs together with a
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# set of attribute values for each entity, depending on what attributes the search requested.
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#
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# ==== Add
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# #add specifies a new DN and an initial set of attribute values. If the operation
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# succeeds, a new entity with the corresponding DN and attributes is added to the directory.
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#
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# ==== Modify
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# #modify specifies an entity DN, and a list of attribute operations. #modify is used to change
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# the attribute values stored in the directory for a particular entity.
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# #modify may add or delete attributes (which are lists of values) or it change attributes by
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# adding to or deleting from their values.
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# Net::LDAP provides three easier methods to modify an entry's attribute values:
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# #add_attribute, #replace_attribute, and #delete_attribute.
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#
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# ==== Delete
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# #delete specifies an entity DN. If it succeeds, the entity and all its attributes
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# is removed from the directory.
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#
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# ==== Rename (or Modify RDN)
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# #rename (or #modify_rdn) is an operation added to version 3 of the LDAP protocol. It responds to
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# the often-arising need to change the DN of an entity without discarding its attribute values.
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# In earlier LDAP versions, the only way to do this was to delete the whole entity and add it
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# again with a different DN.
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#
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# #rename works by taking an "old" DN (the one to change) and a "new RDN," which is the left-most
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# part of the DN string. If successful, #rename changes the entity DN so that its left-most
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# node corresponds to the new RDN given in the request. (RDN, or "relative distinguished name,"
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# denotes a single tree-node as expressed in a DN, which is a chain of tree nodes.)
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#
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# == How to use Net::LDAP
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#
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# To access Net::LDAP functionality in your Ruby programs, start by requiring
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# the library:
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#
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# require 'net/ldap'
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#
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# If you installed the Gem version of Net::LDAP, and depending on your version of
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# Ruby and rubygems, you _may_ also need to require rubygems explicitly:
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#
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# require 'rubygems'
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# require 'net/ldap'
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#
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# Most operations with Net::LDAP start by instantiating a Net::LDAP object.
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# The constructor for this object takes arguments specifying the network location
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# (address and port) of the LDAP server, and also the binding (authentication)
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# credentials, typically a username and password.
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# Given an object of class Net:LDAP, you can then perform LDAP operations by calling
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# instance methods on the object. These are documented with usage examples below.
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#
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# The Net::LDAP library is designed to be very disciplined about how it makes network
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# connections to servers. This is different from many of the standard native-code
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# libraries that are provided on most platforms, which share bloodlines with the
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# original Netscape/Michigan LDAP client implementations. These libraries sought to
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# insulate user code from the workings of the network. This is a good idea of course,
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# but the practical effect has been confusing and many difficult bugs have been caused
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# by the opacity of the native libraries, and their variable behavior across platforms.
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#
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# In general, Net::LDAP instance methods which invoke server operations make a connection
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# to the server when the method is called. They execute the operation (typically binding first)
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# and then disconnect from the server. The exception is Net::LDAP#open, which makes a connection
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# to the server and then keeps it open while it executes a user-supplied block. Net::LDAP#open
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# closes the connection on completion of the block.
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#
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class LDAP
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class LdapError < Exception; end
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VERSION = "0.0.4"
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SearchScope_BaseObject = 0
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SearchScope_SingleLevel = 1
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SearchScope_WholeSubtree = 2
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SearchScopes = [SearchScope_BaseObject, SearchScope_SingleLevel, SearchScope_WholeSubtree]
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AsnSyntax = {
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:application => {
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:constructed => {
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0 => :array, # BindRequest
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1 => :array, # BindResponse
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2 => :array, # UnbindRequest
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3 => :array, # SearchRequest
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4 => :array, # SearchData
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5 => :array, # SearchResult
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6 => :array, # ModifyRequest
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7 => :array, # ModifyResponse
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8 => :array, # AddRequest
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9 => :array, # AddResponse
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10 => :array, # DelRequest
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11 => :array, # DelResponse
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12 => :array, # ModifyRdnRequest
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13 => :array, # ModifyRdnResponse
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14 => :array, # CompareRequest
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15 => :array, # CompareResponse
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16 => :array, # AbandonRequest
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19 => :array, # SearchResultReferral
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24 => :array, # Unsolicited Notification
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}
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},
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:context_specific => {
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:primitive => {
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0 => :string, # password
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1 => :string, # Kerberos v4
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2 => :string, # Kerberos v5
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},
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:constructed => {
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0 => :array, # RFC-2251 Control
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3 => :array, # Seach referral
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}
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}
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}
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DefaultHost = "127.0.0.1"
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DefaultPort = 389
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DefaultAuth = {:method => :anonymous}
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DefaultTreebase = "dc=com"
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ResultStrings = {
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0 => "Success",
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1 => "Operations Error",
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2 => "Protocol Error",
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3 => "Time Limit Exceeded",
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4 => "Size Limit Exceeded",
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12 => "Unavailable crtical extension",
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16 => "No Such Attribute",
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17 => "Undefined Attribute Type",
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20 => "Attribute or Value Exists",
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32 => "No Such Object",
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34 => "Invalid DN Syntax",
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48 => "Invalid DN Syntax",
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48 => "Inappropriate Authentication",
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49 => "Invalid Credentials",
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50 => "Insufficient Access Rights",
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51 => "Busy",
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52 => "Unavailable",
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53 => "Unwilling to perform",
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65 => "Object Class Violation",
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68 => "Entry Already Exists"
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}
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module LdapControls
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PagedResults = "1.2.840.113556.1.4.319" # Microsoft evil from RFC 2696
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end
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#
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# LDAP::result2string
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#
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def LDAP::result2string code # :nodoc:
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ResultStrings[code] || "unknown result (#{code})"
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end
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attr_accessor :host, :port, :base
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# Instantiate an object of type Net::LDAP to perform directory operations.
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# This constructor takes a Hash containing arguments, all of which are either optional or may be specified later with other methods as described below. The following arguments
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# are supported:
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# * :host => the LDAP server's IP-address (default 127.0.0.1)
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# * :port => the LDAP server's TCP port (default 389)
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# * :auth => a Hash containing authorization parameters. Currently supported values include:
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# {:method => :anonymous} and
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# {:method => :simple, :username => your_user_name, :password => your_password }
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# The password parameter may be a Proc that returns a String.
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# * :base => a default treebase parameter for searches performed against the LDAP server. If you don't give this value, then each call to #search must specify a treebase parameter. If you do give this value, then it will be used in subsequent calls to #search that do not specify a treebase. If you give a treebase value in any particular call to #search, that value will override any treebase value you give here.
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# * :encryption => specifies the encryption to be used in communicating with the LDAP server. The value is either a Hash containing additional parameters, or the Symbol :simple_tls, which is equivalent to specifying the Hash {:method => :simple_tls}. There is a fairly large range of potential values that may be given for this parameter. See #encryption for details.
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#
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# Instantiating a Net::LDAP object does <i>not</i> result in network traffic to
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# the LDAP server. It simply stores the connection and binding parameters in the
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# object.
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#
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def initialize args = {}
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@host = args[:host] || DefaultHost
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@port = args[:port] || DefaultPort
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@verbose = false # Make this configurable with a switch on the class.
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@auth = args[:auth] || DefaultAuth
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@base = args[:base] || DefaultTreebase
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encryption args[:encryption] # may be nil
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if pr = @auth[:password] and pr.respond_to?(:call)
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@auth[:password] = pr.call
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end
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# This variable is only set when we are created with LDAP::open.
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# All of our internal methods will connect using it, or else
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# they will create their own.
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@open_connection = nil
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end
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# Convenience method to specify authentication credentials to the LDAP
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# server. Currently supports simple authentication requiring
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# a username and password.
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#
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# Observe that on most LDAP servers,
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# the username is a complete DN. However, with A/D, it's often possible
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# to give only a user-name rather than a complete DN. In the latter
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# case, beware that many A/D servers are configured to permit anonymous
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# (uncredentialled) binding, and will silently accept your binding
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# as anonymous if you give an unrecognized username. This is not usually
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# what you want. (See #get_operation_result.)
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#
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# <b>Important:</b> The password argument may be a Proc that returns a string.
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# This makes it possible for you to write client programs that solicit
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# passwords from users or from other data sources without showing them
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# in your code or on command lines.
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#
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# require 'net/ldap'
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#
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# ldap = Net::LDAP.new
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# ldap.host = server_ip_address
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# ldap.authenticate "cn=Your Username,cn=Users,dc=example,dc=com", "your_psw"
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#
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# Alternatively (with a password block):
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#
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# require 'net/ldap'
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#
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# ldap = Net::LDAP.new
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# ldap.host = server_ip_address
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# psw = proc { your_psw_function }
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# ldap.authenticate "cn=Your Username,cn=Users,dc=example,dc=com", psw
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#
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def authenticate username, password
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password = password.call if password.respond_to?(:call)
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@auth = {:method => :simple, :username => username, :password => password}
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end
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alias_method :auth, :authenticate
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# Convenience method to specify encryption characteristics for connections
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# to LDAP servers. Called implicitly by #new and #open, but may also be called
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# by user code if desired.
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# The single argument is generally a Hash (but see below for convenience alternatives).
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# This implementation is currently a stub, supporting only a few encryption
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# alternatives. As additional capabilities are added, more configuration values
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# will be added here.
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#
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# Currently, the only supported argument is {:method => :simple_tls}.
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# (Equivalently, you may pass the symbol :simple_tls all by itself, without
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# enclosing it in a Hash.)
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#
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# The :simple_tls encryption method encrypts <i>all</i> communications with the LDAP
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# server.
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# It completely establishes SSL/TLS encryption with the LDAP server
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# before any LDAP-protocol data is exchanged.
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# There is no plaintext negotiation and no special encryption-request controls
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# are sent to the server.
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# <i>The :simple_tls option is the simplest, easiest way to encrypt communications
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# between Net::LDAP and LDAP servers.</i>
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# It's intended for cases where you have an implicit level of trust in the authenticity
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# of the LDAP server. No validation of the LDAP server's SSL certificate is
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# performed. This means that :simple_tls will not produce errors if the LDAP
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# server's encryption certificate is not signed by a well-known Certification
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# Authority.
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# If you get communications or protocol errors when using this option, check
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# with your LDAP server administrator. Pay particular attention to the TCP port
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# you are connecting to. It's impossible for an LDAP server to support plaintext
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# LDAP communications and <i>simple TLS</i> connections on the same port.
|
|
# The standard TCP port for unencrypted LDAP connections is 389, but the standard
|
|
# port for simple-TLS encrypted connections is 636. Be sure you are using the
|
|
# correct port.
|
|
#
|
|
# <i>[Note: a future version of Net::LDAP will support the STARTTLS LDAP control,
|
|
# which will enable encrypted communications on the same TCP port used for
|
|
# unencrypted connections.]</i>
|
|
#
|
|
def encryption args
|
|
if args == :simple_tls
|
|
args = {:method => :simple_tls}
|
|
end
|
|
@encryption = args
|
|
end
|
|
|
|
|
|
# #open takes the same parameters as #new. #open makes a network connection to the
|
|
# LDAP server and then passes a newly-created Net::LDAP object to the caller-supplied block.
|
|
# Within the block, you can call any of the instance methods of Net::LDAP to
|
|
# perform operations against the LDAP directory. #open will perform all the
|
|
# operations in the user-supplied block on the same network connection, which
|
|
# will be closed automatically when the block finishes.
|
|
#
|
|
# # (PSEUDOCODE)
|
|
# auth = {:method => :simple, :username => username, :password => password}
|
|
# Net::LDAP.open( :host => ipaddress, :port => 389, :auth => auth ) do |ldap|
|
|
# ldap.search( ... )
|
|
# ldap.add( ... )
|
|
# ldap.modify( ... )
|
|
# end
|
|
#
|
|
def LDAP::open args
|
|
ldap1 = LDAP.new args
|
|
ldap1.open {|ldap| yield ldap }
|
|
end
|
|
|
|
# Returns a meaningful result any time after
|
|
# a protocol operation (#bind, #search, #add, #modify, #rename, #delete)
|
|
# has completed.
|
|
# It returns an #OpenStruct containing an LDAP result code (0 means success),
|
|
# and a human-readable string.
|
|
# unless ldap.bind
|
|
# puts "Result: #{ldap.get_operation_result.code}"
|
|
# puts "Message: #{ldap.get_operation_result.message}"
|
|
# end
|
|
#
|
|
def get_operation_result
|
|
os = OpenStruct.new
|
|
if @result
|
|
os.code = @result
|
|
else
|
|
os.code = 0
|
|
end
|
|
os.message = LDAP.result2string( os.code )
|
|
os
|
|
end
|
|
|
|
|
|
# Opens a network connection to the server and then
|
|
# passes <tt>self</tt> to the caller-supplied block. The connection is
|
|
# closed when the block completes. Used for executing multiple
|
|
# LDAP operations without requiring a separate network connection
|
|
# (and authentication) for each one.
|
|
# <i>Note:</i> You do not need to log-in or "bind" to the server. This will
|
|
# be done for you automatically.
|
|
# For an even simpler approach, see the class method Net::LDAP#open.
|
|
#
|
|
# # (PSEUDOCODE)
|
|
# auth = {:method => :simple, :username => username, :password => password}
|
|
# ldap = Net::LDAP.new( :host => ipaddress, :port => 389, :auth => auth )
|
|
# ldap.open do |ldap|
|
|
# ldap.search( ... )
|
|
# ldap.add( ... )
|
|
# ldap.modify( ... )
|
|
# end
|
|
#--
|
|
# First we make a connection and then a binding, but we don't
|
|
# do anything with the bind results.
|
|
# We then pass self to the caller's block, where he will execute
|
|
# his LDAP operations. Of course they will all generate auth failures
|
|
# if the bind was unsuccessful.
|
|
def open
|
|
raise LdapError.new( "open already in progress" ) if @open_connection
|
|
@open_connection = Connection.new( :host => @host, :port => @port, :encryption => @encryption )
|
|
@open_connection.bind @auth
|
|
yield self
|
|
@open_connection.close
|
|
@open_connection = nil
|
|
end
|
|
|
|
|
|
# Searches the LDAP directory for directory entries.
|
|
# Takes a hash argument with parameters. Supported parameters include:
|
|
# * :base (a string specifying the tree-base for the search);
|
|
# * :filter (an object of type Net::LDAP::Filter, defaults to objectclass=*);
|
|
# * :attributes (a string or array of strings specifying the LDAP attributes to return from the server);
|
|
# * :return_result (a boolean specifying whether to return a result set).
|
|
# * :attributes_only (a boolean flag, defaults false)
|
|
# * :scope (one of: Net::LDAP::SearchScope_BaseObject, Net::LDAP::SearchScope_SingleLevel, Net::LDAP::SearchScope_WholeSubtree. Default is WholeSubtree.)
|
|
#
|
|
# #search queries the LDAP server and passes <i>each entry</i> to the
|
|
# caller-supplied block, as an object of type Net::LDAP::Entry.
|
|
# If the search returns 1000 entries, the block will
|
|
# be called 1000 times. If the search returns no entries, the block will
|
|
# not be called.
|
|
#
|
|
#--
|
|
# ORIGINAL TEXT, replaced 04May06.
|
|
# #search returns either a result-set or a boolean, depending on the
|
|
# value of the <tt>:return_result</tt> argument. The default behavior is to return
|
|
# a result set, which is a hash. Each key in the hash is a string specifying
|
|
# the DN of an entry. The corresponding value for each key is a Net::LDAP::Entry object.
|
|
# If you request a result set and #search fails with an error, it will return nil.
|
|
# Call #get_operation_result to get the error information returned by
|
|
# the LDAP server.
|
|
#++
|
|
# #search returns either a result-set or a boolean, depending on the
|
|
# value of the <tt>:return_result</tt> argument. The default behavior is to return
|
|
# a result set, which is an Array of objects of class Net::LDAP::Entry.
|
|
# If you request a result set and #search fails with an error, it will return nil.
|
|
# Call #get_operation_result to get the error information returned by
|
|
# the LDAP server.
|
|
#
|
|
# When <tt>:return_result => false,</tt> #search will
|
|
# return only a Boolean, to indicate whether the operation succeeded. This can improve performance
|
|
# with very large result sets, because the library can discard each entry from memory after
|
|
# your block processes it.
|
|
#
|
|
#
|
|
# treebase = "dc=example,dc=com"
|
|
# filter = Net::LDAP::Filter.eq( "mail", "a*.com" )
|
|
# attrs = ["mail", "cn", "sn", "objectclass"]
|
|
# ldap.search( :base => treebase, :filter => filter, :attributes => attrs, :return_result => false ) do |entry|
|
|
# puts "DN: #{entry.dn}"
|
|
# entry.each do |attr, values|
|
|
# puts ".......#{attr}:"
|
|
# values.each do |value|
|
|
# puts " #{value}"
|
|
# end
|
|
# end
|
|
# end
|
|
#
|
|
#--
|
|
# This is a re-implementation of search that replaces the
|
|
# original one (now renamed searchx and possibly destined to go away).
|
|
# The difference is that we return a dataset (or nil) from the
|
|
# call, and pass _each entry_ as it is received from the server
|
|
# to the caller-supplied block. This will probably make things
|
|
# far faster as we can do useful work during the network latency
|
|
# of the search. The downside is that we have no access to the
|
|
# whole set while processing the blocks, so we can't do stuff
|
|
# like sort the DNs until after the call completes.
|
|
# It's also possible that this interacts badly with server timeouts.
|
|
# We'll have to ensure that something reasonable happens if
|
|
# the caller has processed half a result set when we throw a timeout
|
|
# error.
|
|
# Another important difference is that we return a result set from
|
|
# this method rather than a T/F indication.
|
|
# Since this can be very heavy-weight, we define an argument flag
|
|
# that the caller can set to suppress the return of a result set,
|
|
# if he's planning to process every entry as it comes from the server.
|
|
#
|
|
# REINTERPRETED the result set, 04May06. Originally this was a hash
|
|
# of entries keyed by DNs. But let's get away from making users
|
|
# handle DNs. Change it to a plain array. Eventually we may
|
|
# want to return a Dataset object that delegates to an internal
|
|
# array, so we can provide sort methods and what-not.
|
|
#
|
|
def search args = {}
|
|
args[:base] ||= @base
|
|
result_set = (args and args[:return_result] == false) ? nil : []
|
|
|
|
if @open_connection
|
|
@result = @open_connection.search( args ) {|entry|
|
|
result_set << entry if result_set
|
|
yield( entry ) if block_given?
|
|
}
|
|
else
|
|
@result = 0
|
|
conn = Connection.new( :host => @host, :port => @port, :encryption => @encryption )
|
|
if (@result = conn.bind( args[:auth] || @auth )) == 0
|
|
@result = conn.search( args ) {|entry|
|
|
result_set << entry if result_set
|
|
yield( entry ) if block_given?
|
|
}
|
|
end
|
|
conn.close
|
|
end
|
|
|
|
@result == 0 and result_set
|
|
end
|
|
|
|
# #bind connects to an LDAP server and requests authentication
|
|
# based on the <tt>:auth</tt> parameter passed to #open or #new.
|
|
# It takes no parameters.
|
|
#
|
|
# User code does not need to call #bind directly. It will be called
|
|
# implicitly by the library whenever you invoke an LDAP operation,
|
|
# such as #search or #add.
|
|
#
|
|
# It is useful, however, to call #bind in your own code when the
|
|
# only operation you intend to perform against the directory is
|
|
# to validate a login credential. #bind returns true or false
|
|
# to indicate whether the binding was successful. Reasons for
|
|
# failure include malformed or unrecognized usernames and
|
|
# incorrect passwords. Use #get_operation_result to find out
|
|
# what happened in case of failure.
|
|
#
|
|
# Here's a typical example using #bind to authenticate a
|
|
# credential which was (perhaps) solicited from the user of a
|
|
# web site:
|
|
#
|
|
# require 'net/ldap'
|
|
# ldap = Net::LDAP.new
|
|
# ldap.host = your_server_ip_address
|
|
# ldap.port = 389
|
|
# ldap.auth your_user_name, your_user_password
|
|
# if ldap.bind
|
|
# # authentication succeeded
|
|
# else
|
|
# # authentication failed
|
|
# p ldap.get_operation_result
|
|
# end
|
|
#
|
|
# You don't have to create a new instance of Net::LDAP every time
|
|
# you perform a binding in this way. If you prefer, you can cache the Net::LDAP object
|
|
# and re-use it to perform subsequent bindings, <i>provided</i> you call
|
|
# #auth to specify a new credential before calling #bind. Otherwise, you'll
|
|
# just re-authenticate the previous user! (You don't need to re-set
|
|
# the values of #host and #port.) As noted in the documentation for #auth,
|
|
# the password parameter can be a Ruby Proc instead of a String.
|
|
#
|
|
#--
|
|
# If there is an @open_connection, then perform the bind
|
|
# on it. Otherwise, connect, bind, and disconnect.
|
|
# The latter operation is obviously useful only as an auth check.
|
|
#
|
|
def bind auth=@auth
|
|
if @open_connection
|
|
@result = @open_connection.bind auth
|
|
else
|
|
conn = Connection.new( :host => @host, :port => @port , :encryption => @encryption)
|
|
@result = conn.bind @auth
|
|
conn.close
|
|
end
|
|
|
|
@result == 0
|
|
end
|
|
|
|
#
|
|
# #bind_as is for testing authentication credentials.
|
|
#
|
|
# As described under #bind, most LDAP servers require that you supply a complete DN
|
|
# as a binding-credential, along with an authenticator such as a password.
|
|
# But for many applications (such as authenticating users to a Rails application),
|
|
# you often don't have a full DN to identify the user. You usually get a simple
|
|
# identifier like a username or an email address, along with a password.
|
|
# #bind_as allows you to authenticate these user-identifiers.
|
|
#
|
|
# #bind_as is a combination of a search and an LDAP binding. First, it connects and
|
|
# binds to the directory as normal. Then it searches the directory for an entry
|
|
# corresponding to the email address, username, or other string that you supply.
|
|
# If the entry exists, then #bind_as will <b>re-bind</b> as that user with the
|
|
# password (or other authenticator) that you supply.
|
|
#
|
|
# #bind_as takes the same parameters as #search, <i>with the addition of an
|
|
# authenticator.</i> Currently, this authenticator must be <tt>:password</tt>.
|
|
# Its value may be either a String, or a +proc+ that returns a String.
|
|
# #bind_as returns +false+ on failure. On success, it returns a result set,
|
|
# just as #search does. This result set is an Array of objects of
|
|
# type Net::LDAP::Entry. It contains the directory attributes corresponding to
|
|
# the user. (Just test whether the return value is logically true, if you don't
|
|
# need this additional information.)
|
|
#
|
|
# Here's how you would use #bind_as to authenticate an email address and password:
|
|
#
|
|
# require 'net/ldap'
|
|
#
|
|
# user,psw = "joe_user@yourcompany.com", "joes_psw"
|
|
#
|
|
# ldap = Net::LDAP.new
|
|
# ldap.host = "192.168.0.100"
|
|
# ldap.port = 389
|
|
# ldap.auth "cn=manager,dc=yourcompany,dc=com", "topsecret"
|
|
#
|
|
# result = ldap.bind_as(
|
|
# :base => "dc=yourcompany,dc=com",
|
|
# :filter => "(mail=#{user})",
|
|
# :password => psw
|
|
# )
|
|
# if result
|
|
# puts "Authenticated #{result.first.dn}"
|
|
# else
|
|
# puts "Authentication FAILED."
|
|
# end
|
|
def bind_as args={}
|
|
result = false
|
|
open {|me|
|
|
rs = search args
|
|
if rs and rs.first and dn = rs.first.dn
|
|
password = args[:password]
|
|
password = password.call if password.respond_to?(:call)
|
|
result = rs if bind :method => :simple, :username => dn, :password => password
|
|
end
|
|
}
|
|
result
|
|
end
|
|
|
|
|
|
# Adds a new entry to the remote LDAP server.
|
|
# Supported arguments:
|
|
# :dn :: Full DN of the new entry
|
|
# :attributes :: Attributes of the new entry.
|
|
#
|
|
# The attributes argument is supplied as a Hash keyed by Strings or Symbols
|
|
# giving the attribute name, and mapping to Strings or Arrays of Strings
|
|
# giving the actual attribute values. Observe that most LDAP directories
|
|
# enforce schema constraints on the attributes contained in entries.
|
|
# #add will fail with a server-generated error if your attributes violate
|
|
# the server-specific constraints.
|
|
# Here's an example:
|
|
#
|
|
# dn = "cn=George Smith,ou=people,dc=example,dc=com"
|
|
# attr = {
|
|
# :cn => "George Smith",
|
|
# :objectclass => ["top", "inetorgperson"],
|
|
# :sn => "Smith",
|
|
# :mail => "gsmith@example.com"
|
|
# }
|
|
# Net::LDAP.open (:host => host) do |ldap|
|
|
# ldap.add( :dn => dn, :attributes => attr )
|
|
# end
|
|
#
|
|
def add args
|
|
if @open_connection
|
|
@result = @open_connection.add( args )
|
|
else
|
|
@result = 0
|
|
conn = Connection.new( :host => @host, :port => @port, :encryption => @encryption)
|
|
if (@result = conn.bind( args[:auth] || @auth )) == 0
|
|
@result = conn.add( args )
|
|
end
|
|
conn.close
|
|
end
|
|
@result == 0
|
|
end
|
|
|
|
|
|
# Modifies the attribute values of a particular entry on the LDAP directory.
|
|
# Takes a hash with arguments. Supported arguments are:
|
|
# :dn :: (the full DN of the entry whose attributes are to be modified)
|
|
# :operations :: (the modifications to be performed, detailed next)
|
|
#
|
|
# This method returns True or False to indicate whether the operation
|
|
# succeeded or failed, with extended information available by calling
|
|
# #get_operation_result.
|
|
#
|
|
# Also see #add_attribute, #replace_attribute, or #delete_attribute, which
|
|
# provide simpler interfaces to this functionality.
|
|
#
|
|
# The LDAP protocol provides a full and well thought-out set of operations
|
|
# for changing the values of attributes, but they are necessarily somewhat complex
|
|
# and not always intuitive. If these instructions are confusing or incomplete,
|
|
# please send us email or create a bug report on rubyforge.
|
|
#
|
|
# The :operations parameter to #modify takes an array of operation-descriptors.
|
|
# Each individual operation is specified in one element of the array, and
|
|
# most LDAP servers will attempt to perform the operations in order.
|
|
#
|
|
# Each of the operations appearing in the Array must itself be an Array
|
|
# with exactly three elements:
|
|
# an operator:: must be :add, :replace, or :delete
|
|
# an attribute name:: the attribute name (string or symbol) to modify
|
|
# a value:: either a string or an array of strings.
|
|
#
|
|
# The :add operator will, unsurprisingly, add the specified values to
|
|
# the specified attribute. If the attribute does not already exist,
|
|
# :add will create it. Most LDAP servers will generate an error if you
|
|
# try to add a value that already exists.
|
|
#
|
|
# :replace will erase the current value(s) for the specified attribute,
|
|
# if there are any, and replace them with the specified value(s).
|
|
#
|
|
# :delete will remove the specified value(s) from the specified attribute.
|
|
# If you pass nil, an empty string, or an empty array as the value parameter
|
|
# to a :delete operation, the _entire_ _attribute_ will be deleted, along
|
|
# with all of its values.
|
|
#
|
|
# For example:
|
|
#
|
|
# dn = "mail=modifyme@example.com,ou=people,dc=example,dc=com"
|
|
# ops = [
|
|
# [:add, :mail, "aliasaddress@example.com"],
|
|
# [:replace, :mail, ["newaddress@example.com", "newalias@example.com"]],
|
|
# [:delete, :sn, nil]
|
|
# ]
|
|
# ldap.modify :dn => dn, :operations => ops
|
|
#
|
|
# <i>(This example is contrived since you probably wouldn't add a mail
|
|
# value right before replacing the whole attribute, but it shows that order
|
|
# of execution matters. Also, many LDAP servers won't let you delete SN
|
|
# because that would be a schema violation.)</i>
|
|
#
|
|
# It's essential to keep in mind that if you specify more than one operation in
|
|
# a call to #modify, most LDAP servers will attempt to perform all of the operations
|
|
# in the order you gave them.
|
|
# This matters because you may specify operations on the
|
|
# same attribute which must be performed in a certain order.
|
|
#
|
|
# Most LDAP servers will _stop_ processing your modifications if one of them
|
|
# causes an error on the server (such as a schema-constraint violation).
|
|
# If this happens, you will probably get a result code from the server that
|
|
# reflects only the operation that failed, and you may or may not get extended
|
|
# information that will tell you which one failed. #modify has no notion
|
|
# of an atomic transaction. If you specify a chain of modifications in one
|
|
# call to #modify, and one of them fails, the preceding ones will usually
|
|
# not be "rolled back," resulting in a partial update. This is a limitation
|
|
# of the LDAP protocol, not of Net::LDAP.
|
|
#
|
|
# The lack of transactional atomicity in LDAP means that you're usually
|
|
# better off using the convenience methods #add_attribute, #replace_attribute,
|
|
# and #delete_attribute, which are are wrappers over #modify. However, certain
|
|
# LDAP servers may provide concurrency semantics, in which the several operations
|
|
# contained in a single #modify call are not interleaved with other
|
|
# modification-requests received simultaneously by the server.
|
|
# It bears repeating that this concurrency does _not_ imply transactional
|
|
# atomicity, which LDAP does not provide.
|
|
#
|
|
def modify args
|
|
if @open_connection
|
|
@result = @open_connection.modify( args )
|
|
else
|
|
@result = 0
|
|
conn = Connection.new( :host => @host, :port => @port, :encryption => @encryption )
|
|
if (@result = conn.bind( args[:auth] || @auth )) == 0
|
|
@result = conn.modify( args )
|
|
end
|
|
conn.close
|
|
end
|
|
@result == 0
|
|
end
|
|
|
|
|
|
# Add a value to an attribute.
|
|
# Takes the full DN of the entry to modify,
|
|
# the name (Symbol or String) of the attribute, and the value (String or
|
|
# Array). If the attribute does not exist (and there are no schema violations),
|
|
# #add_attribute will create it with the caller-specified values.
|
|
# If the attribute already exists (and there are no schema violations), the
|
|
# caller-specified values will be _added_ to the values already present.
|
|
#
|
|
# Returns True or False to indicate whether the operation
|
|
# succeeded or failed, with extended information available by calling
|
|
# #get_operation_result. See also #replace_attribute and #delete_attribute.
|
|
#
|
|
# dn = "cn=modifyme,dc=example,dc=com"
|
|
# ldap.add_attribute dn, :mail, "newmailaddress@example.com"
|
|
#
|
|
def add_attribute dn, attribute, value
|
|
modify :dn => dn, :operations => [[:add, attribute, value]]
|
|
end
|
|
|
|
# Replace the value of an attribute.
|
|
# #replace_attribute can be thought of as equivalent to calling #delete_attribute
|
|
# followed by #add_attribute. It takes the full DN of the entry to modify,
|
|
# the name (Symbol or String) of the attribute, and the value (String or
|
|
# Array). If the attribute does not exist, it will be created with the
|
|
# caller-specified value(s). If the attribute does exist, its values will be
|
|
# _discarded_ and replaced with the caller-specified values.
|
|
#
|
|
# Returns True or False to indicate whether the operation
|
|
# succeeded or failed, with extended information available by calling
|
|
# #get_operation_result. See also #add_attribute and #delete_attribute.
|
|
#
|
|
# dn = "cn=modifyme,dc=example,dc=com"
|
|
# ldap.replace_attribute dn, :mail, "newmailaddress@example.com"
|
|
#
|
|
def replace_attribute dn, attribute, value
|
|
modify :dn => dn, :operations => [[:replace, attribute, value]]
|
|
end
|
|
|
|
# Delete an attribute and all its values.
|
|
# Takes the full DN of the entry to modify, and the
|
|
# name (Symbol or String) of the attribute to delete.
|
|
#
|
|
# Returns True or False to indicate whether the operation
|
|
# succeeded or failed, with extended information available by calling
|
|
# #get_operation_result. See also #add_attribute and #replace_attribute.
|
|
#
|
|
# dn = "cn=modifyme,dc=example,dc=com"
|
|
# ldap.delete_attribute dn, :mail
|
|
#
|
|
def delete_attribute dn, attribute
|
|
modify :dn => dn, :operations => [[:delete, attribute, nil]]
|
|
end
|
|
|
|
|
|
# Rename an entry on the remote DIS by changing the last RDN of its DN.
|
|
# _Documentation_ _stub_
|
|
#
|
|
def rename args
|
|
if @open_connection
|
|
@result = @open_connection.rename( args )
|
|
else
|
|
@result = 0
|
|
conn = Connection.new( :host => @host, :port => @port, :encryption => @encryption )
|
|
if (@result = conn.bind( args[:auth] || @auth )) == 0
|
|
@result = conn.rename( args )
|
|
end
|
|
conn.close
|
|
end
|
|
@result == 0
|
|
end
|
|
|
|
# modify_rdn is an alias for #rename.
|
|
def modify_rdn args
|
|
rename args
|
|
end
|
|
|
|
# Delete an entry from the LDAP directory.
|
|
# Takes a hash of arguments.
|
|
# The only supported argument is :dn, which must
|
|
# give the complete DN of the entry to be deleted.
|
|
# Returns True or False to indicate whether the delete
|
|
# succeeded. Extended status information is available by
|
|
# calling #get_operation_result.
|
|
#
|
|
# dn = "mail=deleteme@example.com,ou=people,dc=example,dc=com"
|
|
# ldap.delete :dn => dn
|
|
#
|
|
def delete args
|
|
if @open_connection
|
|
@result = @open_connection.delete( args )
|
|
else
|
|
@result = 0
|
|
conn = Connection.new( :host => @host, :port => @port, :encryption => @encryption )
|
|
if (@result = conn.bind( args[:auth] || @auth )) == 0
|
|
@result = conn.delete( args )
|
|
end
|
|
conn.close
|
|
end
|
|
@result == 0
|
|
end
|
|
|
|
end # class LDAP
|
|
|
|
|
|
|
|
class LDAP
|
|
# This is a private class used internally by the library. It should not be called by user code.
|
|
class Connection # :nodoc:
|
|
|
|
LdapVersion = 3
|
|
|
|
|
|
#--
|
|
# initialize
|
|
#
|
|
def initialize server
|
|
begin
|
|
@conn = TCPsocket.new( server[:host], server[:port] )
|
|
rescue
|
|
raise LdapError.new( "no connection to server" )
|
|
end
|
|
|
|
if server[:encryption]
|
|
setup_encryption server[:encryption]
|
|
end
|
|
|
|
yield self if block_given?
|
|
end
|
|
|
|
|
|
#--
|
|
# Helper method called only from new, and only after we have a successfully-opened
|
|
# @conn instance variable, which is a TCP connection.
|
|
# Depending on the received arguments, we establish SSL, potentially replacing
|
|
# the value of @conn accordingly.
|
|
# Don't generate any errors here if no encryption is requested.
|
|
# DO raise LdapError objects if encryption is requested and we have trouble setting
|
|
# it up. That includes if OpenSSL is not set up on the machine. (Question:
|
|
# how does the Ruby OpenSSL wrapper react in that case?)
|
|
# DO NOT filter exceptions raised by the OpenSSL library. Let them pass back
|
|
# to the user. That should make it easier for us to debug the problem reports.
|
|
# Presumably (hopefully?) that will also produce recognizable errors if someone
|
|
# tries to use this on a machine without OpenSSL.
|
|
#
|
|
# The simple_tls method is intended as the simplest, stupidest, easiest solution
|
|
# for people who want nothing more than encrypted comms with the LDAP server.
|
|
# It doesn't do any server-cert validation and requires nothing in the way
|
|
# of key files and root-cert files, etc etc.
|
|
# OBSERVE: WE REPLACE the value of @conn, which is presumed to be a connected
|
|
# TCPsocket object.
|
|
#
|
|
def setup_encryption args
|
|
case args[:method]
|
|
when :simple_tls
|
|
raise LdapError.new("openssl unavailable") unless $net_ldap_openssl_available
|
|
ctx = OpenSSL::SSL::SSLContext.new
|
|
@conn = OpenSSL::SSL::SSLSocket.new(@conn, ctx)
|
|
@conn.connect
|
|
@conn.sync_close = true
|
|
# additional branches requiring server validation and peer certs, etc. go here.
|
|
else
|
|
raise LdapError.new( "unsupported encryption method #{args[:method]}" )
|
|
end
|
|
end
|
|
|
|
#--
|
|
# close
|
|
# This is provided as a convenience method to make
|
|
# sure a connection object gets closed without waiting
|
|
# for a GC to happen. Clients shouldn't have to call it,
|
|
# but perhaps it will come in handy someday.
|
|
def close
|
|
@conn.close
|
|
@conn = nil
|
|
end
|
|
|
|
#--
|
|
# next_msgid
|
|
#
|
|
def next_msgid
|
|
@msgid ||= 0
|
|
@msgid += 1
|
|
end
|
|
|
|
|
|
#--
|
|
# bind
|
|
#
|
|
def bind auth
|
|
user,psw = case auth[:method]
|
|
when :anonymous
|
|
["",""]
|
|
when :simple
|
|
[auth[:username] || auth[:dn], auth[:password]]
|
|
end
|
|
raise LdapError.new( "invalid binding information" ) unless (user && psw)
|
|
|
|
msgid = next_msgid.to_ber
|
|
request = [LdapVersion.to_ber, user.to_ber, psw.to_ber_contextspecific(0)].to_ber_appsequence(0)
|
|
request_pkt = [msgid, request].to_ber_sequence
|
|
@conn.write request_pkt
|
|
|
|
(be = @conn.read_ber(AsnSyntax) and pdu = Net::LdapPdu.new( be )) or raise LdapError.new( "no bind result" )
|
|
pdu.result_code
|
|
end
|
|
|
|
#--
|
|
# search
|
|
# Alternate implementation, this yields each search entry to the caller
|
|
# as it are received.
|
|
# TODO, certain search parameters are hardcoded.
|
|
# TODO, if we mis-parse the server results or the results are wrong, we can block
|
|
# forever. That's because we keep reading results until we get a type-5 packet,
|
|
# which might never come. We need to support the time-limit in the protocol.
|
|
#--
|
|
# WARNING: this code substantially recapitulates the searchx method.
|
|
#
|
|
# 02May06: Well, I added support for RFC-2696-style paged searches.
|
|
# This is used on all queries because the extension is marked non-critical.
|
|
# As far as I know, only A/D uses this, but it's required for A/D. Otherwise
|
|
# you won't get more than 1000 results back from a query.
|
|
# This implementation is kindof clunky and should probably be refactored.
|
|
# Also, is it my imagination, or are A/Ds the slowest directory servers ever???
|
|
#
|
|
def search args = {}
|
|
search_filter = (args && args[:filter]) || Filter.eq( "objectclass", "*" )
|
|
search_filter = Filter.construct(search_filter) if search_filter.is_a?(String)
|
|
search_base = (args && args[:base]) || "dc=example,dc=com"
|
|
search_attributes = ((args && args[:attributes]) || []).map {|attr| attr.to_s.to_ber}
|
|
return_referrals = args && args[:return_referrals] == true
|
|
|
|
attributes_only = (args and args[:attributes_only] == true)
|
|
scope = args[:scope] || Net::LDAP::SearchScope_WholeSubtree
|
|
raise LdapError.new( "invalid search scope" ) unless SearchScopes.include?(scope)
|
|
|
|
# An interesting value for the size limit would be close to A/D's built-in
|
|
# page limit of 1000 records, but openLDAP newer than version 2.2.0 chokes
|
|
# on anything bigger than 126. You get a silent error that is easily visible
|
|
# by running slapd in debug mode. Go figure.
|
|
rfc2696_cookie = [126, ""]
|
|
result_code = 0
|
|
|
|
loop {
|
|
# should collect this into a private helper to clarify the structure
|
|
|
|
request = [
|
|
search_base.to_ber,
|
|
scope.to_ber_enumerated,
|
|
0.to_ber_enumerated,
|
|
0.to_ber,
|
|
0.to_ber,
|
|
attributes_only.to_ber,
|
|
search_filter.to_ber,
|
|
search_attributes.to_ber_sequence
|
|
].to_ber_appsequence(3)
|
|
|
|
controls = [
|
|
[
|
|
LdapControls::PagedResults.to_ber,
|
|
false.to_ber, # criticality MUST be false to interoperate with normal LDAPs.
|
|
rfc2696_cookie.map{|v| v.to_ber}.to_ber_sequence.to_s.to_ber
|
|
].to_ber_sequence
|
|
].to_ber_contextspecific(0)
|
|
|
|
pkt = [next_msgid.to_ber, request, controls].to_ber_sequence
|
|
@conn.write pkt
|
|
|
|
result_code = 0
|
|
controls = []
|
|
|
|
while (be = @conn.read_ber(AsnSyntax)) && (pdu = LdapPdu.new( be ))
|
|
case pdu.app_tag
|
|
when 4 # search-data
|
|
yield( pdu.search_entry ) if block_given?
|
|
when 19 # search-referral
|
|
if return_referrals
|
|
if block_given?
|
|
se = Net::LDAP::Entry.new
|
|
se[:search_referrals] = (pdu.search_referrals || [])
|
|
yield se
|
|
end
|
|
end
|
|
#p pdu.referrals
|
|
when 5 # search-result
|
|
result_code = pdu.result_code
|
|
controls = pdu.result_controls
|
|
break
|
|
else
|
|
raise LdapError.new( "invalid response-type in search: #{pdu.app_tag}" )
|
|
end
|
|
end
|
|
|
|
# When we get here, we have seen a type-5 response.
|
|
# If there is no error AND there is an RFC-2696 cookie,
|
|
# then query again for the next page of results.
|
|
# If not, we're done.
|
|
# Don't screw this up or we'll break every search we do.
|
|
more_pages = false
|
|
if result_code == 0 and controls
|
|
controls.each do |c|
|
|
if c.oid == LdapControls::PagedResults
|
|
more_pages = false # just in case some bogus server sends us >1 of these.
|
|
if c.value and c.value.length > 0
|
|
cookie = c.value.read_ber[1]
|
|
if cookie and cookie.length > 0
|
|
rfc2696_cookie[1] = cookie
|
|
more_pages = true
|
|
end
|
|
end
|
|
end
|
|
end
|
|
end
|
|
|
|
break unless more_pages
|
|
} # loop
|
|
|
|
result_code
|
|
end
|
|
|
|
|
|
|
|
|
|
#--
|
|
# modify
|
|
# TODO, need to support a time limit, in case the server fails to respond.
|
|
# TODO!!! We're throwing an exception here on empty DN.
|
|
# Should return a proper error instead, probaby from farther up the chain.
|
|
# TODO!!! If the user specifies a bogus opcode, we'll throw a
|
|
# confusing error here ("to_ber_enumerated is not defined on nil").
|
|
#
|
|
def modify args
|
|
modify_dn = args[:dn] or raise "Unable to modify empty DN"
|
|
modify_ops = []
|
|
a = args[:operations] and a.each {|op, attr, values|
|
|
# TODO, fix the following line, which gives a bogus error
|
|
# if the opcode is invalid.
|
|
op_1 = {:add => 0, :delete => 1, :replace => 2} [op.to_sym].to_ber_enumerated
|
|
modify_ops << [op_1, [attr.to_s.to_ber, values.to_a.map {|v| v.to_ber}.to_ber_set].to_ber_sequence].to_ber_sequence
|
|
}
|
|
|
|
request = [modify_dn.to_ber, modify_ops.to_ber_sequence].to_ber_appsequence(6)
|
|
pkt = [next_msgid.to_ber, request].to_ber_sequence
|
|
@conn.write pkt
|
|
|
|
(be = @conn.read_ber(AsnSyntax)) && (pdu = LdapPdu.new( be )) && (pdu.app_tag == 7) or raise LdapError.new( "response missing or invalid" )
|
|
pdu.result_code
|
|
end
|
|
|
|
|
|
#--
|
|
# add
|
|
# TODO, need to support a time limit, in case the server fails to respond.
|
|
#
|
|
def add args
|
|
add_dn = args[:dn] or raise LdapError.new("Unable to add empty DN")
|
|
add_attrs = []
|
|
a = args[:attributes] and a.each {|k,v|
|
|
add_attrs << [ k.to_s.to_ber, v.to_a.map {|m| m.to_ber}.to_ber_set ].to_ber_sequence
|
|
}
|
|
|
|
request = [add_dn.to_ber, add_attrs.to_ber_sequence].to_ber_appsequence(8)
|
|
pkt = [next_msgid.to_ber, request].to_ber_sequence
|
|
@conn.write pkt
|
|
|
|
(be = @conn.read_ber(AsnSyntax)) && (pdu = LdapPdu.new( be )) && (pdu.app_tag == 9) or raise LdapError.new( "response missing or invalid" )
|
|
pdu.result_code
|
|
end
|
|
|
|
|
|
#--
|
|
# rename
|
|
# TODO, need to support a time limit, in case the server fails to respond.
|
|
#
|
|
def rename args
|
|
old_dn = args[:olddn] or raise "Unable to rename empty DN"
|
|
new_rdn = args[:newrdn] or raise "Unable to rename to empty RDN"
|
|
delete_attrs = args[:delete_attributes] ? true : false
|
|
|
|
request = [old_dn.to_ber, new_rdn.to_ber, delete_attrs.to_ber].to_ber_appsequence(12)
|
|
pkt = [next_msgid.to_ber, request].to_ber_sequence
|
|
@conn.write pkt
|
|
|
|
(be = @conn.read_ber(AsnSyntax)) && (pdu = LdapPdu.new( be )) && (pdu.app_tag == 13) or raise LdapError.new( "response missing or invalid" )
|
|
pdu.result_code
|
|
end
|
|
|
|
|
|
#--
|
|
# delete
|
|
# TODO, need to support a time limit, in case the server fails to respond.
|
|
#
|
|
def delete args
|
|
dn = args[:dn] or raise "Unable to delete empty DN"
|
|
|
|
request = dn.to_s.to_ber_application_string(10)
|
|
pkt = [next_msgid.to_ber, request].to_ber_sequence
|
|
@conn.write pkt
|
|
|
|
(be = @conn.read_ber(AsnSyntax)) && (pdu = LdapPdu.new( be )) && (pdu.app_tag == 11) or raise LdapError.new( "response missing or invalid" )
|
|
pdu.result_code
|
|
end
|
|
|
|
|
|
end # class Connection
|
|
end # class LDAP
|
|
|
|
|
|
end # module Net
|
|
|
|
|
|
|