Cwikius-Spring
/
spring-security
mirror of https://github.com/spring-projects/spring-security.git
1
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity

Release numbering section.

This commit is contained in:
Ben Alex 2006-02-09 07:44:48 +00:00
parent 48f5d7f289
commit 32893f49cf
1 changed files with 224 additions and 201 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

425
doc/docbook/acegi.xml
View File

@ -95,27 +95,23 @@
although equivalent functionality is fully accommodated by Acegi
Security.</para>
<sect2 id="security-introduction-status">
<title>Current Status</title>
<sect2 id="security-introduction-release-numbering">
<title>Release Numbering</title>
<para>The Acegi Security System for Spring is widely used by members
of the Spring Community. The APIs are considered stable and only minor
changes are expected. Having said that, like many other projects we
need to strike a balance between backward compatibility and
improvement. Effective version 0.6.1, Acegi Security uses the Apache
Portable Runtime Project versioning guidelines, available from
<literal>http://apr.apache.org/versioning.html</literal>.</para>
<para>It is useful to understand how the Acegi Security release
numbers work, as it will help you identify the effort (or lack
thereof) involved in migrating to future releases of the project.
Officially, we use the Apache Portable Runtime Project versioning
guidelines, which can be viewed at
<literal>http://apr.apache.org/versioning.html</literal>. We quote the
introduction contained on that page for your convenience:</para>
<para>We are now at release 0.9.0, and a lot of effort has been made
to implement all non-backward compatible changes either in or before
this release. Some minor improvements are currently intended to the
1.0.0 release, although they will in no way modify the project's
central interfaces or classes. Users of Acegi Security System for
Spring should therefore be comfortable depending on the current
version of the project in their applications. Please note that we will
be changing the package name prefix in the 1.0.0 release, but this
should be a simple "find and replace" type operation in your
code.</para>
<para><quote>Versions are denoted using a standard triplet of
integers: MAJOR.MINOR.PATCH. The basic intent is that MAJOR versions
are incompatible, large-scale upgrades of the API. MINOR versions
retain source and binary compatibility with older minor versions, and
changes in the PATCH level are perfectly compatible, forwards and
backwards.</quote></para>
</sect2>
</sect1>
@ -4070,8 +4066,6 @@ $CATALINA_HOME/bin/startup.sh</programlisting></para>
process, is only invoked if the certificate is rejected and it always
returns an error to the user. With a suitable bean configuration, the
normal sequence of events is as follows <orderedlist>
<listitem>
<para>The <classname>X509ProcessingFilter</classname> extracts
the certificate from the request and uses it as the credentials
@ -4080,8 +4074,6 @@ $CATALINA_HOME/bin/startup.sh</programlisting></para>
The request is passed to the authentication manager.</para>
</listitem>
<listitem>
<para>The <classname>X509AuthenticationProvider</classname>
receives the token. Its main concern is to obtain the user
@ -4109,8 +4101,6 @@ $CATALINA_HOME/bin/startup.sh</programlisting></para>
load the user information.<!-- TODO: Give email matching as an example --></para>
</listitem>
<listitem>
<para>If everything has gone smoothly then there should be a
valid <classname>Authentication</classname> object in the secure
@ -4120,7 +4110,6 @@ $CATALINA_HOME/bin/startup.sh</programlisting></para>
<classname>X509ProcessingFilterEntryPoint</classname> which
returns a 403 error (forbidden) to the user.</para>
</listitem>
</orderedlist></para>
</sect2>
@ -4176,218 +4165,252 @@ $CATALINA_HOME/bin/startup.sh</programlisting></para>
<sect2 id="security-ldap-overview">
<title>Overview</title>
<para>LDAP is often used by organizations as a central repository for user information and
as an authentication service. It can also be used to store the role information for
application users. </para>
<para>There are many different scenarios for how an LDAP server may be configured so the
Acegi LDAP provider is fully configurable. It uses separate strategy interfaces for
authentication and role retrieval and provides default implementations which can be
configured to handle a wide range of situations. </para>
<para>You should be familiar with LDAP before trying to use it with Acegi. The following
link provides a good introduction to the concepts involved and a guide to setting up a
directory using the free LDAP server OpenLDAP: <ulink
url="http://www.zytrax.com/books/ldap/"/>. Some familiarity with the JNDI APIs used to
access LDAP from Java may also be useful. We don't use any third-party LDAP libraries
(Mozilla/Netscape, JLDAP etc.) in the LDAP provider. </para>
<para>LDAP is often used by organizations as a central repository for
user information and as an authentication service. It can also be used
to store the role information for application users.</para>
<para>There are many different scenarios for how an LDAP server may be
configured so the Acegi LDAP provider is fully configurable. It uses
separate strategy interfaces for authentication and role retrieval and
provides default implementations which can be configured to handle a
wide range of situations.</para>
<para>You should be familiar with LDAP before trying to use it with
Acegi. The following link provides a good introduction to the concepts
involved and a guide to setting up a directory using the free LDAP
server OpenLDAP: <ulink
url="http://www.zytrax.com/books/ldap/"></ulink>. Some familiarity
with the JNDI APIs used to access LDAP from Java may also be useful.
We don't use any third-party LDAP libraries (Mozilla/Netscape, JLDAP
etc.) in the LDAP provider.</para>
<sect3 id="security-ldap-details">
<title>LDAP with Acegi Security</title>
<para>The main LDAP provider class is
<classname>org.acegisecurity.providers.ldap.LdapAuthenticationProvider</classname>. This
bean doesn't actually do much itself other than implement the
<methodname>retrieveUser</methodname> method required by its base class,
<classname>AbstractUserDetailsAuthenticationProvider</classname>. It delegates the work
to two other beans, an <interfacename>LdapAuthenticator</interfacename> and an
<interfacename>LdapAuthoritiesPopulator</interfacename> which are responsible for
authenticating the user and retrieving the user's set of
<interfacename>GrantedAuthority</interfacename>s respectively.
</para>
<classname>org.acegisecurity.providers.ldap.LdapAuthenticationProvider</classname>.
This bean doesn't actually do much itself other than implement the
<methodname>retrieveUser</methodname> method required by its base
class,
<classname>AbstractUserDetailsAuthenticationProvider</classname>. It
delegates the work to two other beans, an
<interfacename>LdapAuthenticator</interfacename> and an
<interfacename>LdapAuthoritiesPopulator</interfacename> which are
responsible for authenticating the user and retrieving the user's
set of <interfacename>GrantedAuthority</interfacename>s
respectively.</para>
</sect3>
</sect2>
<sect2 id="security-ldap-authenticators">
<title>LdapAuthenticator Implementations</title>
<para> The authenticator is also responsible for retrieving any required user attributes.
This is because the permissions on the attributes may depend on the type of
authentication being used. For example, if binding as the user, it may be necessary to
read them with the user's own permissions. </para>
<para> There are currently two authentication strategies supplied with Acegi Security:
<itemizedlist>
<listitem>
<para>Authentication directly to the LDAP server ("bind" authentication).</para>
</listitem>
<listitem>
<para>Password comparison, where the password supplied by the user is compared with
the one stored in the repository. This can either be done by retrieving the value
of the password attribute and checking it locally or by performing an LDAP
"compare" operation, where the supplied password is passed to the server for
comparison and the real password value is never retrieved.</para>
</listitem>
</itemizedlist>
</para>
<sect3>
<title>Common Functionality</title>
<para>Before it is possible to authenticate a user (by either strategy), the
distinguished name (DN) has to be obtained from the login name supplied to the
application. This can be done either by simple pattern-matching (by setting the
<property>setUserDnPatterns</property> array property) or by setting the
<property>userSearch</property> property. For the DN pattern-matching approach, a
standard Java pattern format is used, and the login name will be substituted for the
parameter <parameter>{0}</parameter>. The pattern should be relative to the DN that
the configured <interfacename>InitialDirContextFactory</interfacename> will bind to
(see the section on <link linkend="security-ldap-dircontextfactory">connecting to the
LDAP server</link> for more information on this). For example, if you are using an
LDAP server specified by the URL
<literal>ldap://monkeymachine.co.uk/dc=acegisecurity,dc=org</literal>, and have a
pattern <literal>uid={0},ou=greatapes</literal>, then a login name of "gorilla" will
map to a DN <literal>uid=gorilla,ou=greatapes,dc=acegisecurity,dc=org</literal>. Each
configured DN pattern will be tried in turn until a match is found. For information on
using a search, see the section on <link linkend="security-ldap-searchobjects">search
objects</link> below. A combination of the two approaches can also be used - the
patterns will be checked first and if no matching DN is found, the search will be
used. </para>
</sect3>
<sect3>
<title>BindAuthenticator</title>
<para>The class
<classname>org.acegisecurity.providers.ldap.authenticator.BindAuthenticator</classname>
implements the bind authentication strategy. It simply attempts to bind as the user.
</para>
</sect3>
<sect3>
<title>PasswordComparisonAuthenticator</title>
<para>The class
<classname>org.acegisecurity.providers.ldap.authenticator.PasswordComparisonAuthenticator</classname>
implements the password comparison authentication strategy.</para>
</sect3>
<sect3 id="security-ldap-authenticators-adauth">
<title>Active Directory Authentication</title>
<para>In addition to standard LDAP authentication (binding with a DN), Active Directory
has its own non-standard syntax for user authentication.
</para>
</sect3>
<title>LdapAuthenticator Implementations</title>
<para>The authenticator is also responsible for retrieving any
required user attributes. This is because the permissions on the
attributes may depend on the type of authentication being used. For
example, if binding as the user, it may be necessary to read them with
the user's own permissions.</para>
<para>There are currently two authentication strategies supplied with
Acegi Security: <itemizedlist>
<listitem>
<para>Authentication directly to the LDAP server ("bind"
authentication).</para>
</listitem>
<listitem>
<para>Password comparison, where the password supplied by the
user is compared with the one stored in the repository. This can
either be done by retrieving the value of the password attribute
and checking it locally or by performing an LDAP "compare"
operation, where the supplied password is passed to the server
for comparison and the real password value is never
retrieved.</para>
</listitem>
</itemizedlist></para>
<sect3>
<title>Common Functionality</title>
<para>Before it is possible to authenticate a user (by either
strategy), the distinguished name (DN) has to be obtained from the
login name supplied to the application. This can be done either by
simple pattern-matching (by setting the
<property>setUserDnPatterns</property> array property) or by setting
the <property>userSearch</property> property. For the DN
pattern-matching approach, a standard Java pattern format is used,
and the login name will be substituted for the parameter
<parameter>{0}</parameter>. The pattern should be relative to the DN
that the configured
<interfacename>InitialDirContextFactory</interfacename> will bind to
(see the section on <link
linkend="security-ldap-dircontextfactory">connecting to the LDAP
server</link> for more information on this). For example, if you are
using an LDAP server specified by the URL
<literal>ldap://monkeymachine.co.uk/dc=acegisecurity,dc=org</literal>,
and have a pattern <literal>uid={0},ou=greatapes</literal>, then a
login name of "gorilla" will map to a DN
<literal>uid=gorilla,ou=greatapes,dc=acegisecurity,dc=org</literal>.
Each configured DN pattern will be tried in turn until a match is
found. For information on using a search, see the section on <link
linkend="security-ldap-searchobjects">search objects</link> below. A
combination of the two approaches can also be used - the patterns
will be checked first and if no matching DN is found, the search
will be used.</para>
</sect3>
<sect3>
<title>BindAuthenticator</title>
<para>The class
<classname>org.acegisecurity.providers.ldap.authenticator.BindAuthenticator</classname>
implements the bind authentication strategy. It simply attempts to
bind as the user.</para>
</sect3>
<sect3>
<title>PasswordComparisonAuthenticator</title>
<para>The class
<classname>org.acegisecurity.providers.ldap.authenticator.PasswordComparisonAuthenticator</classname>
implements the password comparison authentication strategy.</para>
</sect3>
<sect3 id="security-ldap-authenticators-adauth">
<title>Active Directory Authentication</title>
<para>In addition to standard LDAP authentication (binding with a
DN), Active Directory has its own non-standard syntax for user
authentication.</para>
</sect3>
</sect2>
<sect2 id="security-ldap-dircontextfactory">
<title>Connecting to the LDAP Server</title>
<para>The beans discussed above have to be able to connect to the server. They both have
to be supplied with an <interfacename>InitialDirContextFactory</interfacename> instance.
Unless you have special requirements, this will usually be a
<classname>DefaultInitialDirContextFactory</classname> bean, which can be configured
with the URL of your LDAP server and optionally with the username and password of a
"manager" user which will be used by default when binding to the server (instead of
binding anonymously). It currently supports "simple" LDAP authentication.</para>
<para><classname>DefaultInitialDirContextFactory</classname> uses Sun's JNDI LDAP
implementation by default (the one that comes with the JDK). It also supports the
built in connection pooling offered by Sun's provider. Connections which are obtained
either anonymously or with the "manager" user's identity will be pooled automatically.
Connections obtained with a specific user's identity will not be pooled. Connection
pooling can be disabled completely by setting the <property>useConnectionPool</property>
property to false.
</para>
<para> See the <ulink
url="http://acegisecurity.org/multiproject/acegi-security/xref/org/acegisecurity/providers/ldap/DefaultInitialDirContextFactory.html"
>class Javadoc and source</ulink> for more information on this bean and its properties.
</para>
</sect2>
<para>The beans discussed above have to be able to connect to the
server. They both have to be supplied with an
<interfacename>InitialDirContextFactory</interfacename> instance.
Unless you have special requirements, this will usually be a
<classname>DefaultInitialDirContextFactory</classname> bean, which can
be configured with the URL of your LDAP server and optionally with the
username and password of a "manager" user which will be used by
default when binding to the server (instead of binding anonymously).
It currently supports "simple" LDAP authentication.</para>
<para><classname>DefaultInitialDirContextFactory</classname> uses
Sun's JNDI LDAP implementation by default (the one that comes with the
JDK). It also supports the built in connection pooling offered by
Sun's provider. Connections which are obtained either anonymously or
with the "manager" user's identity will be pooled automatically.
Connections obtained with a specific user's identity will not be
pooled. Connection pooling can be disabled completely by setting the
<property>useConnectionPool</property> property to false.</para>
<para>See the <ulink
url="http://acegisecurity.org/multiproject/acegi-security/xref/org/acegisecurity/providers/ldap/DefaultInitialDirContextFactory.html">class
Javadoc and source</ulink> for more information on this bean and its
properties.</para>
</sect2>
<sect2 id="security-ldap-searchobjects">
<title>LDAP Search Objects</title>
<para>Often more a more complicated strategy than simple DN-matching is required to locate
a user entry in the directory. This can be encapsulated in an
<interfacename>LdapUserSearch</interfacename> instance which can be supplied to the
authenticator implementations, for example, to allow them to locate a user. The supplied
implementation is <classname>FilterBasedLdapUserSearch</classname>.
</para>
<para>Often more a more complicated strategy than simple DN-matching
is required to locate a user entry in the directory. This can be
encapsulated in an <interfacename>LdapUserSearch</interfacename>
instance which can be supplied to the authenticator implementations,
for example, to allow them to locate a user. The supplied
implementation is
<classname>FilterBasedLdapUserSearch</classname>.</para>
<sect3>
<title><classname>FilterBasedLdapUserSearch</classname></title>
<para>This bean uses an LDAP filter to match the user object in the directory. The
process is explained in the Javadoc for the corresponding search method on the
<ulink
url="http://java.sun.com/j2se/1.4.2/docs/api/javax/naming/directory/DirContext.html#search(javax.naming.Name,%20java.lang.String,%20java.lang.Object[],%20javax.naming.directory.SearchControls)">JDK
DirContext class</ulink>.
As explained there, the search filter can be supplied with parameters. For this class,
the only valid parameter is <parameter>{0}</parameter> which will be replaced with
the user's login name.
</para>
<para>This bean uses an LDAP filter to match the user object in the
directory. The process is explained in the Javadoc for the
corresponding search method on the <ulink
url="http://java.sun.com/j2se/1.4.2/docs/api/javax/naming/directory/DirContext.html#search(javax.naming.Name,%20java.lang.String,%20java.lang.Object[],%20javax.naming.directory.SearchControls)">JDK
DirContext class</ulink>. As explained there, the search filter can
be supplied with parameters. For this class, the only valid
parameter is <parameter>{0}</parameter> which will be replaced with
the user's login name.</para>
</sect3>
</sect2>
</sect2>
<sect2 id="security-ldap-config">
<title>Configuring the LDAP Provider</title>
<para>There is a version of the
<link linkend="security-sample">Contacts Sample Application</link> which
uses LDAP. You can copy the beans and filter setup from this as a starting
point for configuring your own application.
</para>
<para>
A typical configuration, using some of the beans we've discussed above, might look like this:
<programlisting>
&lt;bean id=&quot;initialDirContextFactory&quot;
class=&quot;org.acegisecurity.providers.ldap.DefaultInitialDirContextFactory&quot;&gt;
&lt;constructor-arg value=&quot;ldap://monkeymachine:389/dc=acegisecurity,dc=org&quot;/&gt;
&lt;property name=&quot;managerDn&quot;&gt;&lt;value&gt;cn=manager,dc=acegisecurity,dc=org&lt;/value&gt;&lt;/property&gt;
&lt;property name=&quot;managerPassword&quot;&gt;&lt;value&gt;password&lt;/value&gt;&lt;/property&gt;
<para>There is a version of the <link
linkend="security-sample">Contacts Sample Application</link> which
uses LDAP. You can copy the beans and filter setup from this as a
starting point for configuring your own application.</para>
<para>A typical configuration, using some of the beans we've discussed
above, might look like this: <programlisting>
&lt;bean id="initialDirContextFactory"
class="org.acegisecurity.providers.ldap.DefaultInitialDirContextFactory"&gt;
&lt;constructor-arg value="ldap://monkeymachine:389/dc=acegisecurity,dc=org"/&gt;
&lt;property name="managerDn"&gt;&lt;value&gt;cn=manager,dc=acegisecurity,dc=org&lt;/value&gt;&lt;/property&gt;
&lt;property name="managerPassword"&gt;&lt;value&gt;password&lt;/value&gt;&lt;/property&gt;
&lt;/bean&gt;
&lt;bean id=&quot;userSearch&quot;
class=&quot;org.acegisecurity.providers.ldap.search.FilterBasedLdapUserSearch&quot;&gt;
&lt;constructor-arg index=&quot;0&quot;&gt;
&lt;bean id="userSearch"
class="org.acegisecurity.providers.ldap.search.FilterBasedLdapUserSearch"&gt;
&lt;constructor-arg index="0"&gt;
&lt;value&gt;&lt;/value&gt;
&lt;/constructor-arg&gt;
&lt;constructor-arg index=&quot;1&quot;&gt;
&lt;constructor-arg index="1"&gt;
&lt;value&gt;(uid={0})&lt;/value&gt;
&lt;/constructor-arg&gt;
&lt;constructor-arg index=&quot;2&quot;&gt;
&lt;ref local=&quot;initialDirContextFactory&quot; /&gt;
&lt;constructor-arg index="2"&gt;
&lt;ref local="initialDirContextFactory" /&gt;
&lt;/constructor-arg&gt;
&lt;property name=&quot;searchSubtree&quot;&gt;
&lt;property name="searchSubtree"&gt;
&lt;value&gt;true&lt;/value&gt;
&lt;/property&gt;
&lt;/bean&gt;
&lt;bean id=&quot;ldapAuthProvider&quot;
class=&quot;org.acegisecurity.providers.ldap.LdapAuthenticationProvider&quot;&gt;
&lt;bean id="ldapAuthProvider"
class="org.acegisecurity.providers.ldap.LdapAuthenticationProvider"&gt;
&lt;constructor-arg&gt;
&lt;bean class=&quot;org.acegisecurity.providers.ldap.authenticator.BindAuthenticator&quot;&gt;
&lt;constructor-arg&gt;&lt;ref local=&quot;initialDirContextFactory&quot;/&gt;&lt;/constructor-arg&gt;
&lt;property name=&quot;userDnPatterns&quot;&gt;&lt;list&gt;&lt;value&gt;uid={0},ou=people&lt;/value&gt;&lt;/list&gt;&lt;/property&gt;
&lt;bean class="org.acegisecurity.providers.ldap.authenticator.BindAuthenticator"&gt;
&lt;constructor-arg&gt;&lt;ref local="initialDirContextFactory"/&gt;&lt;/constructor-arg&gt;
&lt;property name="userDnPatterns"&gt;&lt;list&gt;&lt;value&gt;uid={0},ou=people&lt;/value&gt;&lt;/list&gt;&lt;/property&gt;
&lt;/bean&gt;
&lt;/constructor-arg&gt;
&lt;constructor-arg&gt;
&lt;bean class=&quot;org.acegisecurity.providers.ldap.populator.DefaultLdapAuthoritiesPopulator&quot;&gt;
&lt;constructor-arg&gt;&lt;ref local=&quot;initialDirContextFactory&quot;/&gt;&lt;/constructor-arg&gt;
&lt;bean class="org.acegisecurity.providers.ldap.populator.DefaultLdapAuthoritiesPopulator"&gt;
&lt;constructor-arg&gt;&lt;ref local="initialDirContextFactory"/&gt;&lt;/constructor-arg&gt;
&lt;constructor-arg&gt;&lt;value&gt;ou=groups&lt;/value&gt;&lt;/constructor-arg&gt;
&lt;property name=&quot;groupRoleAttribute&quot;&gt;&lt;value&gt;ou&lt;/value&gt;&lt;/property&gt;
&lt;property name="groupRoleAttribute"&gt;&lt;value&gt;ou&lt;/value&gt;&lt;/property&gt;
&lt;/bean&gt;
&lt;/constructor-arg&gt;
&lt;/bean&gt;
</programlisting>
</programlisting> This would set up the provider to access an LDAP
server with URL
<literal>ldap://monkeymachine:389/dc=acegisecurity,dc=org</literal>.
Authentication will be performed by attempting to bind with the DN
<literal>uid=&lt;user-login-name&gt;,ou=people,dc=acegisecurity,dc=org</literal>.
After successful authentication, roles will be assigned to the user by
searching under the DN
<literal>ou=groups,dc=acegisecurity,dc=org</literal> with the default
filter <literal>(member=&lt;user's-DN&gt;)</literal>. The role name
will be taken from the <quote>ou</quote> attribute of each
match.</para>
This would set up the provider to access an LDAP server with URL
<literal>ldap://monkeymachine:389/dc=acegisecurity,dc=org</literal>. Authentication will be performed by
attempting to bind with the DN <literal>uid=&lt;user-login-name&gt;,ou=people,dc=acegisecurity,dc=org</literal>.
After successful authentication, roles will be assigned to the user by searching under the DN
<literal>ou=groups,dc=acegisecurity,dc=org</literal> with the default filter <literal>(member=&lt;user's-DN&gt;)</literal>.
The role name will be taken from the <quote>ou</quote> attribute of each match.
</para>
<para>
We've also included the configuration for a user search object, which uses the filter
<literal>(uid=&lt;user-login-name&gt;)</literal>. This could be used
instead of the DN-pattern (or in addition to it), by setting the authenticator's
<property>userSearch</property> property. The autheticator would then call the search
object to obtain the correct user's DN before attempting to bind as this user.
</para>
<para>We've also included the configuration for a user search object,
which uses the filter
<literal>(uid=&lt;user-login-name&gt;)</literal>. This could be used
instead of the DN-pattern (or in addition to it), by setting the
authenticator's <property>userSearch</property> property. The
autheticator would then call the search object to obtain the correct
user's DN before attempting to bind as this user.</para>
</sect2>
</sect1>
</sect1>
<sect1 id="security-channels">
<title>Channel Security</title>
@ -5394,12 +5417,12 @@ INSERT INTO acl_permission VALUES (null, 6, 'scott', 1);</programlisting></para>
<title>Further Information</title>
<para>Questions and comments on the Acegi Security System for Spring are
welcome. Please use the Spring Community Forum web site at
<ulink url="http://forum.springframework.org"></ulink>. You're also welcome
to join the acegisecurity-developer mailing list. Our project home page
welcome. Please use the Spring Community Forum web site at <ulink
url="http://forum.springframework.org"></ulink>. You're also welcome to
join the acegisecurity-developer mailing list. Our project home page
(where you can obtain the latest release of the project and access to
CVS, mailing lists, forums etc) is at
<ulink url="http://acegisecurity.org"></ulink>.</para>
CVS, mailing lists, forums etc) is at <ulink
url="http://acegisecurity.org"></ulink>.</para>
</sect1>
</chapter>
</book>