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.. | ||
nss-pam-ldapd | ||
alias.c | ||
ether.c | ||
group.c | ||
host.c | ||
ldapns.schema | ||
Makefile | ||
netgroup.c | ||
network.c | ||
nssov.c | ||
nssov.h | ||
pam.c | ||
passwd.c | ||
protocol.c | ||
README | ||
rpc.c | ||
service.c | ||
shadow.c | ||
slapo-nssov.5 |
This directory contains a slapd overlay, nssov, that handles NSS lookup requests through a local Unix Domain socket. It uses the same IPC protocol as Arthur de Jong's nss-ldapd, and a complete copy of the nss-ldapd source is included here. It also handles PAM requests. To use this code, you will need the client-side stuf library from nss-pam-ldapd. You can get it from: http://arthurdejong.org/nss-pam-ldapd You will not need the nslcd daemon; this overlay replaces that part. To disable building of the nslcd daemon in nss-pam-ldapd, add the --disable-nslcd option to the nss-pam-ldapd configure script. You should already be familiar with the RFC2307 and RFC2307bis schema to use this overlay. See the nss-pam-ldapd README for more information on the schema and which features are supported. To use the overlay, add: include <path to>nis.schema moduleload <path to>nssov.so ... database mdb ... overlay nssov to your slapd configuration file. (The nis.schema file contains the original RFC2307 schema. Some modifications will be needed to use RFC2307bis.) The overlay may be configured with Service Search Descriptors (SSDs) for each NSS service that will be used. SSDs are configured using nssov-ssd <service> <url> where the <service> may be one of aliases ethers group hosts netgroup networks passwd protocols rpc services shadow and the <url> must be of the form ldap:///[<basedn>][??[<scope>][?<filter>]] The <basedn> will default to the first suffix of the current database. The <scope> defaults to "subtree". The default <filter> depends on which service is being used. If the local database is actually a proxy to a foreign LDAP server, some mapping of schema may be needed. Some simple attribute substitutions may be performed using nssov-map <service> <orig> <new> See the nss-ldapd/README for the original attribute names used in this code. The overlay also supports dynamic configuration in cn=config. The layout of the config entry is dn: olcOverlay={0}nssov,ocDatabase={1}mdb,cn=config objectClass: olcOverlayConfig objectClass: olcNssOvConfig olcOverlay: {0}nssov olcNssSsd: passwd ldap:///ou=users,dc=example,dc=com??one olcNssMap: passwd uid accountName which enables the passwd service, and uses the accountName attribute to fetch what is usually retrieved from the uid attribute. PAM authentication, account management, session management, and password management are supported. Authentication is performed using Simple Binds. Since all operations occur inside the slapd overlay, "fake" connections are used and they are inherently secure. Two methods of mapping the PAM username to an LDAP DN are provided: the mapping can be accomplished using slapd's authz-regexp facility. In this case, a DN of the form cn=<service>+uid=<user>,cn=<hostname>,cn=pam,cn=auth is fed into the regexp matcher. If a match is produced, the resulting DN is used. otherwise, the NSS passwd map is invoked (which means it must already be configured). If no DN is found, the overlay returns PAM_USER_UNKNOWN. If the DN is found, and Password Policy is supported, then the Bind will use the Password Policy control and return expiration information to PAM. Account management also uses two methods. These methods depend on the ldapns.schema included with the nssov source. The first is identical to the method used in PADL's pam_ldap module: host and authorizedService attributes may be looked up in the user's entry, and checked to determine access. Also a check may be performed to see if the user is a member of a particular group. This method is pretty inflexible and doesn't scale well to large networks of users, hosts, and services. The second uses slapd's ACL engine to check if the user has "compare" privilege on an ipHost object whose name matches the current hostname, and whose authorizedService attribute matches the current service name. This method is preferred, since it allows authorization to be centralized in the ipHost entries instead of scattered across the entire user population. The ipHost entries must have an authorizedService attribute (e.g. by way of the authorizedServiceObject auxiliary class) to use this method. Session management: the overlay may optionally add a "logged in" attribute to a user's entry for successful logins, and delete the corresponding value upon logout. The attribute value is of the form <generalizedTime> <host> <service> <tty> (<ruser@rhost>) Password management: the overlay will perform a PasswordModify exop in the server for the given user. --- This work is part of OpenLDAP Software <http://www.openldap.org/>. Copyright 1998-2020 The OpenLDAP Foundation. Portions Copyright 2008-2009 Howard Chu, Symas Corp. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted only as authorized by the OpenLDAP Public License. A copy of this license is available in the file LICENSE in the top-level directory of the distribution or, alternatively, at <http://www.OpenLDAP.org/license.html>.