The Apache Tomcat Servlet/JSP Container

The Apache Tomcat 5.5 Servlet/JSP Container

Apache Logo

Links

User Guide

Reference

Apache Tomcat Development

The Apache Tomcat 5.5 Servlet/JSP Container

Realm Configuration HOW-TO

Printer Friendly Version
print-friendly
version
Table of Contents

Quick Start

What is a Realm?
Configuring a Realm
Common Features
Digested Passwords
Example Application
Manager Application
Logging Within Realms
Standard Realm Implementations
JDBCRealm
DataSourceRealm
JNDIRealm
MemoryRealm
JAASRealm
UserDatabaseRealm

Quick Start

This document describes how to configure Tomcat to support container managed security, by connecting to an existing "database" of usernames, passwords, and user roles. You only need to care about this if you are using a web application that includes one or more <security-constraint> elements, and a <login-config> element defining how users are required to authenticate themselves. If you are not utilizing these features, you can safely skip this document.

For fundamental background information about container managed security, see the Servlet Specification (Version 2.4), Section 12.

For information about utilizing the Single Sign On feature of Tomcat 5 (allowing a user to authenticate themselves once across the entire set of web applications associated with a virtual host), see here.

Overview
What is a Realm?

A Realm is a "database" of usernames and passwords that identify valid users of a web application (or set of web applications), plus an enumeration of the list of roles associated with each valid user. You can think of roles as similar to groups in Unix-like operating systems, because access to specific web application resources is granted to all users possessing a particular role (rather than enumerating the list of associated usernames). A particular user can have any number of roles associated with their username.

Although the Servlet Specification describes a portable mechanism for applications to declare their security requirements (in the web.xml deployment descriptor), there is no portable API defining the interface between a servlet container and the associated user and role information. In many cases, however, it is desireable to "connect" a servlet container to some existing authentication database or mechanism that already exists in the production environment. Therefore, Tomcat 5 defines a Java interface (org.apache.catalina.Realm) that can be implemented by "plug in" components to establish this connection. Five standard plug-ins are provided, supporting connections to various sources of authentication information:

  • JDBCRealm - Accesses authentication information stored in a relational database, accessed via a JDBC driver.
  • DataSourceRealm - Accesses authentication information stored in a relational database, accessed via a named JNDI JDBC DataSource.
  • JNDIRealm - Accesses authentication information stored in an LDAP based directory server, accessed via a JNDI provider.
  • MemoryRealm - Accesses authentication information stored in an in-memory object collection, which is initialized from an XML document (conf/tomcat-users.xml).
  • JAASRealm - Accesses authentication information through the Java Authentication & Authorization Service (JAAS) framework.

It is also possible to write your own Realm implementation, and integrate it with Tomcat 5. To do so, you need to:

  • Implement org.apache.catalina.Realm,
  • Place your compiled realm in $CATALINA_HOME/server/lib,
  • Declare your realm as described in the "Configuring a Realm" section below,
  • Declare your realm to the MBeans Descriptor.

Configuring a Realm

Before getting into the details of the standard Realm implementations, it is important to understand, in general terms, how a Realm is configured. In general, you will be adding an XML element to your conf/server.xml configuration file, that looks something like this:

<Realm className="... class name for this implementation"
       ... other attributes for this implementation .../>

The <Realm> element can be nested inside any one of of the following Container elements. The location of the Realm element has a direct impact on the "scope" of that Realm (i.e. which web applications will share the same authentication information):

  • Inside an <Engine> element - This Realm will be shared across ALL web applications on ALL virtual hosts, UNLESS it is overridden by a Realm element nested inside a subordinate <Host> or <Context> element.
  • Inside a <Host> element - This Realm will be shared across ALL web applications for THIS virtual host, UNLESS it is overridden by a Realm element nested inside a subordinate <Context> element.
  • Inside a <Context> element - This Realm will be used ONLY for THIS web application.
Common Features
Digested Passwords

For each of the standard Realm implementations, the user's password (by default) is stored in clear text. In many environments, this is undesireable because casual observers of the authentication data can collect enough information to log on successfully, and impersonate other users. To avoid this problem, the standard implementations support the concept of digesting user passwords. This allows the stored version of the passwords to be encoded (in a form that is not easily reversible), but that the Realm implementation can still utilize for authentication.

When a standard realm authenticates by retrieving the stored password and comparing it with the value presented by the user, you can select digested passwords by specifying the digest attribute on your <Realm> element. The value for this attribute must be one of the digest algorithms supported by the java.security.MessageDigest class (SHA, MD2, or MD5). When you select this option, the contents of the password that is stored in the Realm must be the cleartext version of the password, as digested by the specified algorithm.

When the authenticate() method of the Realm is called, the (cleartext) password specified by the user is itself digested by the same algorithm, and the result is compared with the value returned by the Realm. An equal match implies that the cleartext version of the original password is the same as the one presented by the user, so that this user should be authorized.

To calculate the digested value of a cleartext password, two convenience techniques are supported:

  • If you are writing an application that needs to calculate digested passwords dynamically, call the static Digest() method of the org.apache.catalina.realm.RealmBase class, passing the cleartext password and the digest algorithm name as arguments. This method will return the digested password.
  • If you want to execute a command line utility to calculate the digested password, simply execute
    java org.apache.catalina.realm.RealmBase \
        -a {algorithm} {cleartext-password}
    
    and the digested version of this cleartext password will be returned to standard output.

If using digested passwords with DIGEST authentication, the cleartext used to generate the digest is different. In the examples above {cleartext-password} must be replaced with {username}:{realm}:{cleartext-password}. For example, in a development environment this might take the form testUser:localhost:8080:testPassword.

To use either of the above techniques, the $CATALINA_HOME/server/lib/catalina.jar file will need to be on your class path to make the RealmBase class available. In addition, you will need the JMX jar and the commons-logging jar (either commons-logging-api.jar or commons-logging.jar). Both of these are included with the Tomcat distribution.

Non-ASCII usernames and/or passwords are supported using

java org.apache.catalina.realm.RealmBase \
    -a {algorithm} -e {encoding} {input}
but care is required to ensure that the non-ASCII input is correctly passed to the digester. The digester returns {input}:{digest}. If the input appears corrupted in the return, the digest will be invalid.

Example Application

The example application shipped with Tomcat 5 includes an area that is protected by a security constraint, utilizing form-based login. To access it, point your browser at http://localhost:8080/jsp-examples/security/protected/ and log on with one of the usernames and passwords described for the default MemoryRealm.

Manager Application

If you wish to use the Manager Application to deploy and undeploy applications in a running Tomcat 5 installation, you MUST add the "manager" role to at least one username in your selected Realm implementation. This is because the manager web application itself uses a security constraint that requires role "manager" to access ANY request URI within that application.

For security reasons, no username in the default Realm (i.e. using conf/tomcat-users.xml is assigned the "manager" role. Therfore, no one will be able to utilize the features of this application until the Tomcat administrator specifically assigns this role to one or more users.

Realm Logging

Debugging and exception messages logged by a Realm will be recorded by the logging configuration associated with the container for the realm: its surrounding Context, Host, or Engine.

Standard Realm Implementations
JDBCRealm

Introduction

JDBCRealm is an implementation of the Tomcat 5 Realm interface that looks up users in a relational database accessed via a JDBC driver. There is substantial configuration flexibility that lets you adapt to existing table and column names, as long as your database structure conforms to the following requirements:

  • There must be a table, referenced below as the users table, that contains one row for every valid user that this Realm should recognize.
  • The users table must contain at least two columns (it may contain more if your existing applications required it):
    • Username to be recognized by Tomcat when the user logs in.
    • Password to be recognized by Tomcat when the user logs in. This value may in cleartext or digested - see below for more information.
  • There must be a table, referenced below as the user roles table, that contains one row for every valid role that is assigned to a particular user. It is legal for a user to have zero, one, or more than one valid role.
  • The user roles table must contain at least two columns (it may contain more if your existing applications required it):
    • Username to be recognized by Tomcat (same value as is specified in the users table).
    • Role name of a valid role associated with this user.

Quick Start

To set up Tomcat to use JDBCRealm, you will need to follow these steps:

  1. If you have not yet done so, create tables and columns in your database that conform to the requirements described above.
  2. Configure a database username and password for use by Tomcat, that has at least read only access to the tables described above. (Tomcat will never attempt to write to these tables.)
  3. Place a copy of the JDBC driver you will be using inside the $CATALINA_HOME/server/lib directory (if you do not need it visible to web applications) or $CATALINA_HOME/common/lib (if it will be used both by Tomcat 5 and by your apps). Note that only JAR files are recognized!
  4. Set up a <Realm> element, as described below, in your $CATALINA_HOME/conf/server.xml file.
  5. Restart Tomcat 5 if it is already running.

Realm Element Attributes

To configure a JDBCRealm, you must create a <Realm> element and nest it in your $CATALINA_HOME/conf/server.xml file, as described above. The attributes supported by this Realm are listed in the Realm configuration documentation.

Example

An example SQL script to create the needed tables might look something like this (adapt the syntax as required for your particular database):

create table users (
  user_name         varchar(15) not null primary key,
  user_pass         varchar(15) not null
);

create table user_roles (
  user_name         varchar(15) not null,
  role_name         varchar(15) not null,
  primary key (user_name, role_name)
);

Example Realm elements are included (commented out) in the default $CATALINA_HOME/conf/server.xml file. Here's an example for using a MySQL database called "authority", configured with the tables described above, and accessed with username "dbuser" and password "dbpass":

<Realm className="org.apache.catalina.realm.JDBCRealm" debug="99"
      driverName="org.gjt.mm.mysql.Driver"
   connectionURL="jdbc:mysql://localhost/authority?user=dbuser&amp;password=dbpass"
       userTable="users" userNameCol="user_name" userCredCol="user_pass"
   userRoleTable="user_roles" roleNameCol="role_name"/>

Additional Notes

JDBCRealm operates according to the following rules:

  • When a user attempts to access a protected resource for the first time, Tomcat 5 will call the authenticate() method of this Realm. Thus, any changes you have made to the database directly (new users, changed passwords or roles, etc.) will be immediately reflected.
  • Once a user has been authenticated, the user (and his or her associated roles) are cached within Tomcat for the duration of the user's login. (For FORM-based authentication, that means until the session times out or is invalidated; for BASIC authentication, that means until the user closes their browser). The cached user is not saved and restored across sessions serialisations. Any changes to the database information for an already authenticated user will not be reflected until the next time that user logs on again.
  • Administering the information in the users and user roles table is the responsibility of your own applications. Tomcat does not provide any built-in capabilities to maintain users and roles.
DataSourceRealm

Introduction

DataSourceRealm is an implementation of the Tomcat 5 Realm interface that looks up users in a relational database accessed via a JNDI named JDBC DataSource. There is substantial configuration flexibility that lets you adapt to existing table and column names, as long as your database structure conforms to the following requirements:

  • There must be a table, referenced below as the users table, that contains one row for every valid user that this Realm should recognize.
  • The users table must contain at least two columns (it may contain more if your existing applications required it):
    • Username to be recognized by Tomcat when the user logs in.
    • Password to be recognized by Tomcat when the user logs in. This value may in cleartext or digested - see below for more information.
  • There must be a table, referenced below as the user roles table, that contains one row for every valid role that is assigned to a particular user. It is legal for a user to have zero, one, or more than one valid role.
  • The user roles table must contain at least two columns (it may contain more if your existing applications required it):
    • Username to be recognized by Tomcat (same value as is specified in the users table).
    • Role name of a valid role associated with this user.

Quick Start

To set up Tomcat to use DataSourceRealm, you will need to follow these steps:

  1. If you have not yet done so, create tables and columns in your database that conform to the requirements described above.
  2. Configure a database username and password for use by Tomcat, that has at least read only access to the tables described above. (Tomcat will never attempt to write to these tables.)
  3. Configure a JNDI named JDBC DataSource for your database. Refer to the JNDI DataSource Example HOW-TO for information on how to configure a JNDI named JDBC DataSource.
  4. Set up a <Realm> element, as described below, in your $CATALINA_HOME/conf/server.xml file.
  5. Restart Tomcat 5 if it is already running.

Realm Element Attributes

To configure a DataSourceRealm, you must create a <Realm> element and nest it in your $CATALINA_HOME/conf/server.xml file, as described above. The attributes supported by this Realm are listed in the Realm configuration documentation.

Example

An example SQL script to create the needed tables might look something like this (adapt the syntax as required for your particular database):

create table users (
  user_name         varchar(15) not null primary key,
  user_pass         varchar(15) not null
);

create table user_roles (
  user_name         varchar(15) not null,
  role_name         varchar(15) not null,
  primary key (user_name, role_name)
);

Here is an example for using a MySQL database called "authority", configured with the tables described above, and accessed with the JNDI JDBC DataSource with name "java:/comp/env/jdbc/authority".

<Realm className="org.apache.catalina.realm.DataSourceRealm" debug="99"
   dataSourceName="jdbc/authority"
   userTable="users" userNameCol="user_name" userCredCol="user_pass"
   userRoleTable="user_roles" roleNameCol="role_name"/>

Additional Notes

DataSourceRealm operates according to the following rules:

  • When a user attempts to access a protected resource for the first time, Tomcat 5 will call the authenticate() method of this Realm. Thus, any changes you have made to the database directly (new users, changed passwords or roles, etc.) will be immediately reflected.
  • Once a user has been authenticated, the user (and his or her associated roles) are cached within Tomcat for the duration of the user's login. (For FORM-based authentication, that means until the session times out or is invalidated; for BASIC authentication, that means until the user closes their browser). The cached user is not saved and restored across sessions serialisations. Any changes to the database information for an already authenticated user will not be reflected until the next time that user logs on again.
  • Administering the information in the users and user roles table is the responsibility of your own applications. Tomcat does not provide any built-in capabilities to maintain users and roles.
JNDIRealm

Introduction

JNDIRealm is an implementation of the Tomcat 5 Realm interface that looks up users in an LDAP directory server accessed by a JNDI provider (typically, the standard LDAP provider that is available with the JNDI API classes). The realm supports a variety of approaches to using a directory for authentication.

Connecting to the directory

The realm's connection to the directory is defined by the connectionURL configuration attribute. This is a URL whose format is defined by the JNDI provider. It is usually an LDAP URL that specifies the domain name of the directory server to connect to, and optionally the port number and distinguished name (DN) of the required root naming context.

If you have more than one provider you can configure an alternateURL. If a socket connection can not be made to the provider at the connectionURL an attempt will be made to use the alternateURL.

When making a connection in order to search the directory and retrieve user and role information, the realm authenticates itself to the directory with the username and password specified by the connectionName and connectionPassword properties. If these properties are not specified the connection is anonymous. This is sufficient in many cases.

Selecting the user's directory entry

Each user that can be authenticated must be represented in the directory by an individual entry that corresponds to an element in the initial DirContext defined by the connectionURL attribute. This user entry must have an attribute containing the username that is presented for authentication.

Often the distinguished name of the user's entry contains the username presented for authentication but is otherwise the same for all users. In this case the userPattern attribute may be used to specify the DN, with "{0}" marking where the username should be substituted.

Otherwise the realm must search the directory to find a unique entry containing the username. The following attributes configure this search:

  • userBase - the entry that is the base of the subtree containing users. If not specified, the search base is the top-level context.
  • userSubtree - the search scope. Set to true if you wish to search the entire subtree rooted at the userBase entry. The default value of false requests a single-level search including only the top level.
  • userSearch - pattern specifying the LDAP search filter to use after substitution of the username.

Authenticating the user

  • Bind mode

    By default the realm authenticates a user by binding to the directory with the DN of the entry for that user and the password presented by the user. If this simple bind succeeds the user is considered to be authenticated.

    For security reasons a directory may store a digest of the user's password rather than the clear text version (see Digested Passwords for more information). In that case, as part of the simple bind operation the directory automatically computes the correct digest of the plaintext password presented by the user before validating it against the stored value. In bind mode, therefore, the realm is not involved in digest processing. The digest attribute is not used, and will be ignored if set.

  • Comparison mode

    Alternatively, the realm may retrieve the stored password from the directory and compare it explicitly with the value presented by the user. This mode is configured by setting the userPassword attribute to the name of a directory attribute in the user's entry that contains the password.

    Comparison mode has some disadvantages. First, the connectionName and connectionPassword attributes must be configured to allow the realm to read users' passwords in the directory. For security reasons this is generally undesirable; indeed many directory implementations will not allow even the directory manager to read these passwords. In addition, the realm must handle password digests itself, including variations in the algorithms used and ways of representing password hashes in the directory. However, the realm may sometimes need access to the stored password, for example to support HTTP Digest Access Authentication (RFC 2069). (Note that HTTP digest authentication is different from the storage of password digests in the repository for user information as discussed above).

Assigning roles to the user

The directory realm supports two approaches to the representation of roles in the directory:

  • Roles as explicit directory entries

    Roles may be represented by explicit directory entries. A role entry is usually an LDAP group entry with one attribute containing the name of the role and another whose values are the distinguished names or usernames of the users in that role. The following attributes configure a directory search to find the names of roles associated with the authenticated user:

    • roleBase - the base entry for the role search. If not specified, the search base is the top-level directory context.
    • roleSubtree - the search scope. Set to true if you wish to search the entire subtree rooted at the roleBase entry. The default value of false requests a single-level search including the top level only.
    • roleSearch - the LDAP search filter for selecting role entries. It optionally includes pattern replacements "{0}" for the distinguished name and/or "{1}" for the username of the authenticated user.
    • roleName - the attribute in a role entry containing the name of that role.
  • Roles as an attribute of the user entry

    Role names may also be held as the values of an attribute in the user's directory entry. Use userRoleName to specify the name of this attribute.

A combination of both approaches to role representation may be used.

Quick Start

To set up Tomcat to use JNDIRealm, you will need to follow these steps:

  1. Make sure your directory server is configured with a schema that matches the requirements listed above.
  2. If required, configure a username and password for use by Tomcat, that has read only access to the information described above. (Tomcat will never attempt to modify this information.)
  3. Place a copy of the JNDI driver you will be using (typically ldap.jar available with JNDI) inside the $CATALINA_HOME/server/lib directory (if you do not need it visible to web applications) or $CATALINA_HOME/common/lib (if it will be used both by Tomcat 5 and by your apps).
  4. Set up a <Realm> element, as described below, in your $CATALINA_HOME/conf/server.xml file.
  5. Restart Tomcat 5 if it is already running.

Realm Element Attributes

To configure a JNDIRealm, you must create a <Realm> element and nest it in your $CATALINA_HOME/conf/server.xml file, as described above. The attributes supported by this Realm are listed in the Realm configuration documentation.

Example

Creation of the appropriate schema in your directory server is beyond the scope of this document, because it is unique to each directory server implementation. In the examples below, we will assume that you are using a distribution of the OpenLDAP directory server (version 2.0.11 or later), which can be downloaded from http://www.openldap.org. Assume that your slapd.conf file contains the following settings (among others):

database ldbm
suffix dc="mycompany",dc="com"
rootdn "cn=Manager,dc=mycompany,dc=com"
rootpw secret

We will assume for connectionURL that the directory server runs on the same machine as Tomcat. See http://java.sun.com/products/jndi/docs.html for more information about configuring and using the JNDI LDAP provider.

Next, assume that this directory server has been populated with elements as shown below (in LDIF format):


# Define top-level entry
dn: dc=mycompany,dc=com
objectClass: dcObject
dc:mycompany

# Define an entry to contain people
# searches for users are based on this entry
dn: ou=people,dc=mycompany,dc=com
objectClass: organizationalUnit
ou: people

# Define a user entry for Janet Jones
dn: uid=jjones,ou=people,dc=mycompany,dc=com
objectClass: inetOrgPerson
uid: jjones
sn: jones
cn: janet jones
mail: j.jones@mycompany.com
userPassword: janet

# Define a user entry for Fred Bloggs
dn: uid=fbloggs,ou=people,dc=mycompany,dc=com
objectClass: inetOrgPerson
uid: fbloggs
sn: bloggs
cn: fred bloggs
mail: f.bloggs@mycompany.com
userPassword: fred

# Define an entry to contain LDAP groups
# searches for roles are based on this entry
dn: ou=groups,dc=mycompany,dc=com
objectClass: organizationalUnit
ou: groups

# Define an entry for the "tomcat" role
dn: cn=tomcat,ou=groups,dc=mycompany,dc=com
objectClass: groupOfUniqueNames
cn: tomcat
uniqueMember: uid=jjones,ou=people,dc=mycompany,dc=com
uniqueMember: uid=fbloggs,ou=people,dc=mycompany,dc=com

# Define an entry for the "role1" role
dn: cn=role1,ou=groups,dc=mycompany,dc=com
objectClass: groupOfUniqueNames
cn: role1
uniqueMember: uid=fbloggs,ou=people,dc=mycompany,dc=com

An example Realm element for the OpenLDAP directory server configured as described above might look like this, assuming that users use their uid (e.g. jjones) to login to the application and that an anonymous connection is sufficient to search the directory and retrieve role information:

<Realm   className="org.apache.catalina.realm.JNDIRealm" debug="99"
     connectionURL="ldap://localhost:389"
       userPattern="uid={0},ou=people,dc=mycompany,dc=com"
          roleBase="ou=groups,dc=mycompany,dc=com"
          roleName="cn"
        roleSearch="(uniqueMember={0})"
/>

With this configuration, the realm will determine the user's distinguished name by substituting the username into the userPattern, authenticate by binding to the directory with this DN and the password received from the user, and search the directory to find the user's roles.

Now suppose that users are expected to enter their email address rather than their userid when logging in. In this case the realm must search the directory for the user's entry. (A search is also necessary when user entries are held in multiple subtrees corresponding perhaps to different organizational units or company locations).

Further, suppose that in addition to the group entries you want to use an attribute of the user's entry to hold roles. Now the entry for Janet Jones might read as follows:

dn: uid=jjones,ou=people,dc=mycompany,dc=com
objectClass: inetOrgPerson
uid: jjones
sn: jones
cn: janet jones
mail: j.jones@mycompany.com
memberOf: role2
memberOf: role3
userPassword: janet

This realm configuration would satisfy the new requirements:

<Realm   className="org.apache.catalina.realm.JNDIRealm" debug="99"
     connectionURL="ldap://localhost:389"
          userBase="ou=people,dc=mycompany,dc=com"
        userSearch="(mail={0})"
      userRoleName="memberOf"
          roleBase="ou=groups,dc=mycompany,dc=com"
          roleName="cn"
        roleSearch="(uniqueMember={0})"
/>

Now when Janet Jones logs in as "j.jones@mycompany.com", the realm searches the directory for a unique entry with that value as its mail attribute and attempts to bind to the directory as uid=jjones,ou=people,dc=mycompany,dc=com with the given password. If authentication succeeds, she is assigned three roles: "role2" and "role3", the values of the "memberOf" attribute in her directory entry, and "tomcat", the value of the "cn" attribute in the only group entry of which she is a member.

Finally, to authenticate the user by retrieving the password from the directory and making a local comparison in the realm, you might use a realm configuration like this:

<Realm   className="org.apache.catalina.realm.JNDIRealm" debug="99"
    connectionName="cn=Manager,dc=mycompany,dc=com"
connectionPassword="secret"
     connectionURL="ldap://localhost:389"
      userPassword="userPassword"
       userPattern="uid={0},ou=people,dc=mycompany,dc=com"
          roleBase="ou=groups,dc=mycompany,dc=com"
          roleName="cn"
        roleSearch="(uniqueMember={0})"
/>

However, as discussed above, the default bind mode for authentication is usually to be preferred.

Additional Notes

JNDIRealm operates according to the following rules:

  • When a user attempts to access a protected resource for the first time, Tomcat 5 will call the authenticate() method of this Realm. Thus, any changes you have made to the directory (new users, changed passwords or roles, etc.) will be immediately reflected.
  • Once a user has been authenticated, the user (and his or her associated roles) are cached within Tomcat for the duration of the user's login. (For FORM-based authentication, that means until the session times out or is invalidated; for BASIC authentication, that means until the user closes their browser). The cached user is not saved and restored across sessions serialisations. Any changes to the directory information for an already authenticated user will not be reflected until the next time that user logs on again.
  • Administering the information in the directory server is the responsibility of your own applications. Tomcat does not provide any built-in capabilities to maintain users and roles.
MemoryRealm

Introduction

MemoryRealm is a simple demonstration implementation of the Tomcat 5 Realm interface. It is not designed for production use. At startup time, MemoryRealm loads information about all users, and their corresponding roles, from an XML document (by default, this document is loaded from $CATALINA_HOME/conf/tomcat-users.xml). Changes to the data in this file are not recognized until Tomcat is restarted.

Realm Element Attributes

To configure a MemoryRealm, you must create a <Realm> element and nest it in your $CATALINA_HOME/conf/server.xml file, as described above. The attributes supported by this Realm are listed in the Realm configuration documentation.

User File Format

The users file (by default, conf/tomcat-users.xml must be an XML document, with a root element <tomcat-users>. Nested inside the root element will be a <user> element for each valid user, consisting of the following attributes:

  • name - Username this user must log on with.
  • password - Password this user must log on with (in clear text if the digest attribute was not set on the <Realm> element, or digested appropriately as described here otherwise).
  • roles - Comma-delimited list of the role names associated with this user.

Example

The default contents of the conf/tomcat-users.xml file is:

<tomcat-users>
  <user name="tomcat" password="tomcat" roles="tomcat" />
  <user name="role1"  password="tomcat" roles="role1"  />
  <user name="both"   password="tomcat" roles="tomcat,role1" />
</tomcat-users>

Additional Notes

MemoryRealm operates according to the following rules:

  • When Tomcat first starts up, it loads all defined users and their associated information from the users file. Changes to the data in this file will not be recognized until Tomcat is restarted.
  • When a user attempts to access a protected resource for the first time, Tomcat 5 will call the authenticate() method of this Realm.
  • Once a user has been authenticated, the user (and his or her associated roles) are cached within Tomcat for the duration of the user's login. (For FORM-based authentication, that means until the session times out or is invalidated; for BASIC authentication, that means until the user closes their browser). The cached user is not saved and restored across sessions serialisations.
  • Administering the information in the users file is the responsibility of your application. Tomcat does not provide any built-in capabilities to maintain users and roles.
UserDatabaseRealm

Introduction

UserDatabaseRealm is an implementation of the Tomcat Realm interface. Information about all users, and their corresponding roles, is obtained from a JNDI resource that implements the UserDatabase interface.

Realm Element Attributes

To configure a UserDatabaseRealm, you must create a <Realm> element and nest it in your $CATALINA_HOME/conf/server.xml file, as described above. The attributes supported by this Realm are listed in the Realm configuration documentation.

Example

The default installation of Tomcat 5 is configured with a UserDatabaseRealm nested inside the <Engine> element, so that it applies to all virtual hosts and web applications. This realm uses the same tomcat-users.xml as the MemoryRealm.

JAASRealm

Introduction

JAASRealm is an implementation of the Tomcat 4 Realm interface that authenticates users through the Java Authentication & Authorization Service (JAAS) framework, a Java package that is available as an optional package in Java 2 SDK 1.3 and is fully integrated as of SDK 1.4 .

Using JAASRealm gives the developer the ability to combine practically any conceivable security realm with Tomcat's CMA.

JAASRealm is prototype for Tomcat of the proposed JAAS-based J2EE authentication framework for J2EE v1.4, based on the JCP Specification Request 196 to enhance container-managed security and promote 'pluggable' authentication mechanisms whose implementations would be container-independent.

Based on the JAAS login module and principal (see javax.security.auth.spi.LoginModule and javax.security.Principal), you can develop your own security mechanism or wrap another third-party mechanism for integration with the CMA as implemented by Tomcat.

Quick Start

To set up Tomcat to use JAASRealm with your own JAAS login module, you will need to follow these steps:

  1. Write your own LoginModule, User and Role classes based on JAAS (see the JAAS Authentication Tutorial and the JAAS Login Module Developer's Guide) to be managed by the JAAS Login Context (javax.security.auth.login.LoginContext) When developing your LoginModule, note that JAASRealm's built-in CallbackHandler +only recognizes the NameCallback and PasswordCallback at present.
  2. Although not specified in JAAS, you should create seperate classes to distinguish between users and roles, extending javax.security.Principal, so that Tomcat can tell which Principals returned from your login module are users and which are roles (see org.apache.catalina.realm.JAASRealm). Regardless, the first Principal returned is always treated as the user Principal.
  3. Place the compiled classes on Tomcat's classpath
  4. Set up a login.config file for Java (see JAAS LoginConfig file) and tell Tomcat where to find it by specifying its location to the JVM, for instance by setting the environment variable: JAVA_OPTS=-DJAVA_OPTS=-Djava.security.auth.login.config==$CATALINA_HOME/conf/jaas.config
  5. Configure your security-constraints in your web.xml for the resources you want to protect
  6. Configure the JAASRealm module in your server.xml
  7. Restart Tomcat 5 if it is already running.

Realm Element Attributes

To configure a JAASRealm, you must create a <Realm> element and nest it in your $CATALINA_HOME/conf/server.xml file, as described above. The attributes supported by this Realm are listed in the Realm configuration documentation.

Example

Here is an example of how your server.xml snippet should look.

<Realm className="org.apache.catalina.realm.JAASRealm"                 
                appName="MyFooRealm"       
    userClassNames="org.foobar.realm.FooUser"       
     roleClassNames="org.foobar.realm.FooRole" 
                      debug="99"/>

It is the responsibility of your login module to create and save User and Role objects representing Principals for the user (javax.security.auth.Subject). If your login module doesn't create a user object but also doesn't throw a login exception, then the Tomcat CMA will break and you will be left at the http://localhost:8080/myapp/j_security_check URI or at some other unspecified location.

The flexibility of the JAAS approach is two-fold:

  • you can carry out whatever processing you require behind the scenes in your own login module.
  • you can plug in a completely different LoginModule by changing the configuration and restarting the server, without any code changes to your application.

Additional Notes

  • When a user attempts to access a protected resource for the first time, Tomcat 5 will call the authenticate() method of this Realm. Thus, any changes you have made in the security mechanism directly (new users, changed passwords or roles, etc.) will be immediately reflected.
  • Once a user has been authenticated, the user (and his or her associated roles) are cached within Tomcat for the duration of the user's login. For FORM-based authentication, that means until the session times out or is invalidated; for BASIC authentication, that means until the user closes their browser. Any changes to the security information for an already authenticated user will not be reflected until the next time that user logs on again.
  • As with other Realm implementations, digested passwords are supported if the <Realm> element in server.xml contains a digest attribute; JAASRealm's CallbackHandler will digest the password prior to passing it back to the LoginModule

Copyright © 1999-2006, Apache Software Foundation