Este conteúdo não está disponível no idioma selecionado.
Chapter 2. Securing the Container
Abstract
The Red Hat JBoss A-MQ container is secured using JAAS. By defining JAAS realms, you can configure the mechanism used to retrieve user credentials. You can also refine access to the container's administrative interfaces by changing the default roles.
2.1. JAAS Authentication
Abstract
The Java Authentication and Authorization Service (JAAS) provides a general framework for implementing authentication in a Java application. The implementation of authentication is modular, with individual JAAS modules (or plug-ins) providing the authentication implementations.
For background information about JAAS, see the JAAS Reference Guide.
2.1.1. Default JAAS Realm
Overview
This section describes how to manage user data for the default JAAS realm in a standalone container.
Default JAAS realm
The Red Hat JBoss A-MQ container has a predefined JAAS realm, the
karaf
realm, which is used by default to secure all aspects of the container.
How to integrate an application with JAAS
You can use the
karaf
realm in your own applications. Simply configure karaf
as the name of the JAAS realm that you want to use.
Default JAAS login modules
When you start JBoss A-MQ for the first time, the container is configured as a standalone container and uses the
karaf
default realm. In this default configuration, the karaf
realm deploys four JAAS login modules, which are enabled simultaneously. To see the deployed login modules, enter the jaas:realms
console command, as follows:
JBossFuse:karaf@root> jaas:realms Index Realm Module Class 1 karaf org.apache.karaf.jaas.modules.properties.PropertiesLoginModule 2 karaf org.apache.karaf.jaas.modules.publickey.PublickeyLoginModule 3 karaf org.apache.karaf.jaas.modules.audit.FileAuditLoginModule 4 karaf org.apache.karaf.jaas.modules.audit.EventAdminAuditLoginModule
Important
In a standalone container, both the properties login module and the public key login module are enabled. When JAAS authenticates a user, it tries first of all to authenticate the user with the properties login module. If that fails, it then tries to authenticate the user with the public key login module. If that module also fails, an error is raised.
Note
The
FileAuditLoginModule
login module and the EventAdminAuditLoginModule
login module are used to record an audit trail of successful and failed login attempts. These login modules do not authenticate users.
Configuring users in the properties login module
The properties login module is used to store username/password credentials in a flat file format. To create a new user in the properties login module, open the
InstallDir/etc/users.properties
file using a text editor and add a line with the following syntax:
Username=Password[,UserGroup|Role][,UserGroup|Role]...
For example, to create the
jdoe
user with password, topsecret
, and role, Administrator
, you could create an entry like the following:
jdoe=topsecret,Administrator
Where the
Administrator
role gives full administrative privileges to the jdoe
user.
Configuring user groups in the properties login module
Instead of (or in addition to) assigning roles directly to users, you also have the option of adding users to user groups in the properties login module. To create a user group in the properties login module, open the
InstallDir/etc/users.properties
file using a text editor and add a line with the following syntax:
_g_\:GroupName=Role1,Role2,...
For example, to create the
admingroup
user group with the roles, SuperUser
and Administrator
, you could create an entry like the following:
_g_\:admingroup=SuperUser,Administrator
You could then add the
majorclanger
user to the admingroup
, by creating the following user entry:
majorclanger=secretpass,_g_:admingroup
Configuring the public key login module
The public key login module is used to store SSH public key credentials in a flat file format. To create a new user in the public key login module, open the
InstallDir/etc/keys.properties
file using a text editor and add a line with the following syntax:
Username=PublicKey[,UserGroup|Role][,UserGroup|Role]...
For example, you can create the
jdoe
user with the Administrator
role by adding the following entry to the InstallDir/etc/keys.properties
file (on a single line):
jdoe=AAAAB3NzaC1kc3MAAACBAP1/U4EddRIpUt9KnC7s5Of2EbdSPO9EAMMeP4C2USZpRV1AIlH7WT2NWPq/xfW6MPbLm1Vs14E7
gB00b/JmYLdrmVClpJ+f6AR7ECLCT7up1/63xhv4O1fnfqimFQ8E+4P208UewwI1VBNaFpEy9nXzrith1yrv8iIDGZ3RSAHHAAAAFQCX
YFCPFSMLzLKSuYKi64QL8Fgc9QAAAnEA9+GghdabPd7LvKtcNrhXuXmUr7v6OuqC+VdMCz0HgmdRWVeOutRZT+ZxBxCBgLRJFnEj6Ewo
FhO3zwkyjMim4TwWeotifI0o4KOuHiuzpnWRbqN/C/ohNWLx+2J6ASQ7zKTxvqhRkImog9/hWuWfBpKLZl6Ae1UlZAFMO/7PSSoAAACB
AKKSU2PFl/qOLxIwmBZPPIcJshVe7bVUpFvyl3BbJDow8rXfskl8wO63OzP/qLmcJM0+JbcRU/53Jj7uyk31drV2qxhIOsLDC9dGCWj4
7Y7TyhPdXh/0dthTRBy6bqGtRPxGa7gJov1xm/UuYYXPIUR/3x9MAZvZ5xvE0kYXO+rx,Administrator
Important
Do not insert the entire contents of an
id_rsa.pub
file here. Insert just the block of symbols which represents the public key itself.
Configuring user groups in the public key login module
Instead of (or in addition to) assigning roles directly to users, you also have the option of adding users to user groups in the public key login module. To create a user group in the public key login module, open the
InstallDir/etc/keys.properties
file using a text editor and add a line with the following syntax:
_g_\:GroupName=Role1,Role2,...
For example, to create the
admingroup
user group with the roles, SuperUser
and Administrator
, you could create an entry like the following:
_g_\:admingroup=SuperUser,Administrator
You could then add the
jdoe
user to the admingroup
, by creating the following user entry:
jdoe=AAAAB3NzaC1kc3MAAACBAP1/U4EddRIpUt9KnC7s5Of2EbdSPO9EAMMeP4C2USZpRV1AIlH7WT2NWPq/xfW6MPbLm1Vs14E7
gB00b/JmYLdrmVClpJ+f6AR7ECLCT7up1/63xhv4O1fnfqimFQ8E+4P208UewwI1VBNaFpEy9nXzrith1yrv8iIDGZ3RSAHHAAAAFQCX
YFCPFSMLzLKSuYKi64QL8Fgc9QAAAnEA9+GghdabPd7LvKtcNrhXuXmUr7v6OuqC+VdMCz0HgmdRWVeOutRZT+ZxBxCBgLRJFnEj6Ewo
FhO3zwkyjMim4TwWeotifI0o4KOuHiuzpnWRbqN/C/ohNWLx+2J6ASQ7zKTxvqhRkImog9/hWuWfBpKLZl6Ae1UlZAFMO/7PSSoAAACB
AKKSU2PFl/qOLxIwmBZPPIcJshVe7bVUpFvyl3BbJDow8rXfskl8wO63OzP/qLmcJM0+JbcRU/53Jj7uyk31drV2qxhIOsLDC9dGCWj4
7Y7TyhPdXh/0dthTRBy6bqGtRPxGa7gJov1xm/UuYYXPIUR/3x9MAZvZ5xvE0kYXO+rx,_g_:admingroup
Encrypting the stored passwords
By default, passwords are stored in the
InstallDir/etc/users.properties
file in plaintext format. To protect the passwords in this file, you must set the file permissions of the users.properties
file so that it can be read only by administrators. To provide additional protection, you can optionally encrypt the stored passwords using a message digest algorithm.
To enable the password encryption feature, edit the
InstallDir/etc/org.apache.karaf.jaas.cfg
file and set the encryption properties as described in the comments. For example, the following settings would enable basic encryption using the MD5 message digest algorithm:
encryption.enabled = true encryption.name = basic encryption.prefix = {CRYPT} encryption.suffix = {CRYPT} encryption.algorithm = MD5 encryption.encoding = hexadecimal
Note
The encryption settings in the
org.apache.karaf.jaas.cfg
file are applied only to the default karaf
realm in a standalone container. The have no effect on a Fabric container and no effect on a custom realm.
For more details about password encryption, see Section 2.1.8, “Encrypting Stored Passwords”.
Overriding the default realm
If you want to customise the JAAS realm, the most convenient approach to take is to override the default
karaf
realm by defining a higher ranking karaf
realm. This ensures that all of the Red Hat JBoss A-MQ security components switch to use your custom realm. For details of how to define and deploy custom JAAS realms, see Section 2.1.2, “Defining JAAS Realms”.
2.1.2. Defining JAAS Realms
Overview
When defining a JAAS realm in the OSGi container, you cannot put the definitions in a conventional JAAS login configuration file. Instead, the OSGi container uses a special
jaas:config
element for defining JAAS realms in a blueprint configuration file. The JAAS realms defined in this way are made available to all of the application bundles deployed in the container, making it possible to share the JAAS security infrastructure across the whole container.
Namespace
The
jaas:config
element is defined in the http://karaf.apache.org/xmlns/jaas/v1.0.0
namespace. When defining a JAAS realm you will need to include the line shown in Example 2.1, “JAAS Blueprint Namespace”.
Example 2.1. JAAS Blueprint Namespace
xmlns:jaas="http://karaf.apache.org/xmlns/jaas/v1.0.0"
Configuring a JAAS realm
The syntax for the
jaas:config
element is shown in Example 2.2, “Defining a JAAS Realm in Blueprint XML”.
Example 2.2. Defining a JAAS Realm in Blueprint XML
<blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0" xmlns:jaas="http://karaf.apache.org/xmlns/jaas/v1.0.0"> <jaas:config name="JaasRealmName" [rank="IntegerRank"]> <jaas:module className="LoginModuleClassName" [flags="[required|requisite|sufficient|optional]"]> Property=Value ... </jaas:module> ... <!-- Can optionally define multiple modules --> ... </jaas:config> </blueprint>
The elements are used as follows:
jaas:config
- Defines the JAAS realm. It has the following attributes:
name
—specifies the name of the JAAS realm.rank
—specifies an optional rank for resolving naming conflicts between JAAS realms . When two or more JAAS realms are registered under the same name, the OSGi container always picks the realm instance with the highest rank. If you decide to override the default realm,karaf
, you should specify arank
of100
or more, so that it overrides all of the previously installedkaraf
realms (in the context of Fabric, you need to override the defaultZookeeperLoginModule
, which has a rank of99
).
jaas:module
- Defines a JAAS login module in the current realm.
jaas:module
has the following attributes:className
—the fully-qualified class name of a JAAS login module. The specified class must be available from the bundle classloader.flags
—determines what happens upon success or failure of the login operation. Table 2.1, “Flags for Defining a JAAS Module” describes the valid values.Table 2.1. Flags for Defining a JAAS Module Value Description required
Authentication of this login module must succeed. Always proceed to the next login module in this entry, irrespective of success or failure. requisite
Authentication of this login module must succeed. If success, proceed to the next login module; if failure, return immediately without processing the remaining login modules. sufficient
Authentication of this login module is not required to succeed. If success, return immediately without processing the remaining login modules; if failure, proceed to the next login module. optional
Authentication of this login module is not required to succeed. Always proceed to the next login module in this entry, irrespective of success or failure.
The contents of ajaas:module
element is a space separated list of property settings, which are used to initialize the JAAS login module instance. The specific properties are determined by the JAAS login module and must be put into the proper format.NoteYou can define multiple login modules in a realm.
Converting standard JAAS login properties to XML
Red Hat JBoss A-MQ uses the same properties as a standard Java login configuration file, however Red Hat JBoss A-MQ requires that they are specified slightly differently. To see how the Red Hat JBoss A-MQ approach to defining JAAS realms compares with the standard Java login configuration file approach, consider how to convert the login configuration shown in Example 2.3, “Standard JAAS Properties”, which defines the
PropertiesLogin
realm using the Red Hat JBoss A-MQ properties login module class, PropertiesLoginModule
:
Example 2.3. Standard JAAS Properties
PropertiesLogin { org.apache.activemq.jaas.PropertiesLoginModule required org.apache.activemq.jaas.properties.user="users.properties" org.apache.activemq.jaas.properties.group="groups.properties"; };
The equivalent JAAS realm definition, using the
jaas:config
element in a blueprint file, is shown in Example 2.4, “Blueprint JAAS Properties”.
Example 2.4. Blueprint JAAS Properties
<blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0" xmlns:jaas="http://karaf.apache.org/xmlns/jaas/v1.0.0" xmlns:ext="http://aries.apache.org/blueprint/xmlns/blueprint-ext/v1.0.0"> <jaas:config name="PropertiesLogin"> <jaas:module className="org.apache.activemq.jaas.PropertiesLoginModule" flags="required"> org.apache.activemq.jaas.properties.user=users.properties org.apache.activemq.jaas.properties.group=groups.properties </jaas:module> </jaas:config> </blueprint>
Important
You do not use double quotes for JAAS properties in the blueprint configuration.
Example
Red Hat JBoss A-MQ also provides an adapter that enables you to store JAAS authentication data in an X.500 server. Example 2.5, “Configuring a JAAS Realm” defines the
LDAPLogin
realm to use Red Hat JBoss A-MQ's LDAPLoginModule
class, which connects to the LDAP server located at ldap://localhost:10389.
Example 2.5. Configuring a JAAS Realm
<?xml version="1.0" encoding="UTF-8"?> <blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0" xmlns:jaas="http://karaf.apache.org/xmlns/jaas/v1.0.0" xmlns:ext="http://aries.apache.org/blueprint/xmlns/blueprint-ext/v1.0.0"> <jaas:config name="LDAPLogin" rank="200"> <jaas:module className="org.apache.karaf.jaas.modules.ldap.LDAPLoginModule" flags="required"> initialContextFactory=com.sun.jndi.ldap.LdapCtxFactory connection.username=uid=admin,ou=system connection.password=secret connection.protocol= connection.url = ldap://localhost:10389 user.base.dn = ou=users,ou=system user.filter = (uid=%u) user.search.subtree = true role.base.dn = ou=users,ou=system role.filter = (uid=%u) role.name.attribute = ou role.search.subtree = true authentication = simple </jaas:module> </jaas:config> </blueprint>
For a detailed description and example of using the LDAP login module, see Section 2.1.7, “JAAS LDAP Login Module”.
2.1.3. JAAS Properties Login Module
Overview
The JAAS properties login module stores user data in a flat file format (where the stored passwords can optionally be encrypted using a message digest algorithm). The user data can either be edited directly, using a simple text editor, or managed using the
jaas:*
console commands.
For example, a standalone container uses the JAAS properties login module by default and stores the associated user data in the
InstallDir/etc/users.properties
file.
Supported credentials
The JAAS properties login module authenticates username/password credentials, returning the list of roles associated with the authenticated user.
Implementation classes
The following classes implement the JAAS properties login module:
org.apache.karaf.jaas.modules.properties.PropertiesLoginModule
- Implements the JAAS login module.
org.apache.karaf.jaas.modules.properties.PropertiesBackingEngineFactory
- Must be exposed as an OSGi service. This service makes it possible for you to manage the user data using the
jaas:*
console commands from the Apache Karaf shell (see chapter "JAAS Console Commands" in "Console Reference").
Options
The JAAS properties login module supports the following options:
users
- Location of the user properties file.
Format of the user properties file
The user properties file is used to store username, password, and role data for the properties login module. Each user is represented by a single line in the user properties file, where a line has the following form:
Username=Password[,UserGroup|Role][,UserGroup|Role]...
User groups can also be defined in this file, where each user group is represented by a single line in the following format:
_g_\:GroupName=Role1[,Role2]...
For example, you can define the users,
bigcheese
and guest
, and the user groups, admingroup
and guestgroup
, as follows:
# Users bigcheese=cheesepass,_g_:admingroup guest=guestpass,_g_:guestgroup # Groups _g_\:admingroup=SuperUser,Administrator _g_\:guestgroup=Monitor
Sample Blueprint configuration
The following Blueprint configuration shows how to define a new
karaf
realm using the properties login module, where the default karaf
realm is overridden by setting the rank
attribute to 200
:
<?xml version="1.0" encoding="UTF-8"?>
<blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0"
xmlns:jaas="http://karaf.apache.org/xmlns/jaas/v1.0.0"
xmlns:cm="http://aries.apache.org/blueprint/xmlns/blueprint-cm/v1.1.0"
xmlns:ext="http://aries.apache.org/blueprint/xmlns/blueprint-ext/v1.0.0">
<type-converters>
<bean class="org.apache.karaf.jaas.modules.properties.PropertiesConverter"/>
</type-converters>
<!-- Allow usage of System properties, especially the karaf.base property -->
<ext:property-placeholder placeholder-prefix="$[" placeholder-suffix="]"/>
<jaas:config name="karaf" rank="200">
<jaas:module className="org.apache.karaf.jaas.modules.properties.PropertiesLoginModule"
flags="required">
users = $[karaf.base]/etc/users.properties
</jaas:module>
</jaas:config>
<!-- The Backing Engine Factory Service for the PropertiesLoginModule -->
<service interface="org.apache.karaf.jaas.modules.BackingEngineFactory">
<bean class="org.apache.karaf.jaas.modules.properties.PropertiesBackingEngineFactory"/>
</service>
</blueprint>
Remember to export the
BackingEngineFactory
bean as an OSGi service, so that the jaas:*
console commands can manage the user data.
2.1.4. JAAS OSGi Config Login Module
Overview
The JAAS OSGi config login modules leverages the OSGi Config Admin Service to store user data. This login module is fairly similar to the JAAS properties login module (for example, the syntax of the user entries is the same), but the mechanism for retrieving user data is based on the OSGi Config Admin Service.
The user data can be edited directly by creating a corresponding OSGi configuration file,
etc/PersistentID.cfg
or using any method of configuration that is supported by the OSGi Config Admin Service. The jaas:*
console commands are not supported, however.
Supported credentials
The JAAS OSGi config login module authenticates username/password credentials, returning the list of roles associated with the authenticated user.
Implementation classes
The following classes implement the JAAS OSGi config login module:
org.apache.karaf.jaas.modules.osgi.OsgiConfigLoginModule
- Implements the JAAS login module.
Note
There is no backing engine factory for the OSGi config login module, which means that this module cannot be managed using the
jaas:*
console commands.
Options
The JAAS OSGi config login module supports the following options:
pid
- The persistent ID of the OSGi configuration containing the user data. In the OSGi Config Admin standard, a persistent ID references a set of related configuration properties.
Location of the configuration file
The location of the configuration file follows the usual convention where the configuration for the persistent ID,
PersistentID
, is stored in the following file:
InstallDir/etc/PersistentID.cfg
Format of the configuration file
The
PersistentID.cfg
configuration file is used to store username, password, and role data for the OSGi config login module. Each user is represented by a single line in the configuration file, where a line has the following form:
Username=Password[,Role][,Role]...
Note
User groups are not supported in the JAAS OSGi config login module.
Sample Blueprint configuration
The following Blueprint configuration shows how to define a new
karaf
realm using the OSGi config login module, where the default karaf
realm is overridden by setting the rank
attribute to 200
:
<?xml version="1.0" encoding="UTF-8"?>
<blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0"
xmlns:jaas="http://karaf.apache.org/xmlns/jaas/v1.0.0"
xmlns:cm="http://aries.apache.org/blueprint/xmlns/blueprint-cm/v1.1.0"
xmlns:ext="http://aries.apache.org/blueprint/xmlns/blueprint-ext/v1.0.0">
<jaas:config name="karaf" rank="200">
<jaas:module className="org.apache.karaf.jaas.modules.osgi.OsgiConfigLoginModule"
flags="required">
pid = org.jboss.example.osgiconfigloginmodule
</jaas:module>
</jaas:config>
</blueprint>
In this example, the user data will be stored in the file,
InstallDir/etc/org.jboss.example.osgiconfigloginmodule.cfg
, and it is not possible to edit the configuration using the jaas:*
console commands.
2.1.5. JAAS Public Key Login Module
Overview
The JAAS public key login module stores user data in a flat file format, which can be edited directly using a simple text editor. The
jaas:*
console commands are not supported, however.
For example, a standalone container uses the JAAS public key login module by default and stores the associated user data in the
InstallDir/etc/keys.properties
file.
Supported credentials
The JAAS public key login module authenticates SSH key credentials. When a user tries to log in, the SSH protocol uses the stored public key to challenge the user. The user must possess the corresponding private key in order to answer the challenge. If login is successful, the login module returns the list of roles associated with the user.
Implementation classes
The following classes implement the JAAS public key login module:
org.apache.karaf.jaas.modules.publickey.PublickeyLoginModule
- Implements the JAAS login module.
Note
There is no backing engine factory for the public key login module, which means that this module cannot be managed using the
jaas:*
console commands.
Options
The JAAS public key login module supports the following options:
users
- Location of the user properties file for the public key login module.
Format of the keys properties file
The
keys.properties
file is used to store username, public key, and role data for the public key login module. Each user is represented by a single line in the keys properties file, where a line has the following form:
Username=PublicKey[,UserGroup|Role][,UserGroup|Role]...
Where the PublicKey is the public key part of an SSH key pair (typically found in a user's home directory in
~/.ssh/id_rsa.pub
in a UNIX system).
For example, to create the user
jdoe
with the Administrator
role, you would create an entry like the following:
jdoe=AAAAB3NzaC1kc3MAAACBAP1/U4EddRIpUt9KnC7s5Of2EbdSPO9EAMMeP4C2USZpRV1AIlH7WT2NWPq/xfW6MPbLm1Vs14E7
gB00b/JmYLdrmVClpJ+f6AR7ECLCT7up1/63xhv4O1fnfqimFQ8E+4P208UewwI1VBNaFpEy9nXzrith1yrv8iIDGZ3RSAHHAAAAFQCX
YFCPFSMLzLKSuYKi64QL8Fgc9QAAAnEA9+GghdabPd7LvKtcNrhXuXmUr7v6OuqC+VdMCz0HgmdRWVeOutRZT+ZxBxCBgLRJFnEj6Ewo
FhO3zwkyjMim4TwWeotifI0o4KOuHiuzpnWRbqN/C/ohNWLx+2J6ASQ7zKTxvqhRkImog9/hWuWfBpKLZl6Ae1UlZAFMO/7PSSoAAACB
AKKSU2PFl/qOLxIwmBZPPIcJshVe7bVUpFvyl3BbJDow8rXfskl8wO63OzP/qLmcJM0+JbcRU/53Jj7uyk31drV2qxhIOsLDC9dGCWj4
7Y7TyhPdXh/0dthTRBy6bqGtRPxGa7gJov1xm/UuYYXPIUR/3x9MAZvZ5xvE0kYXO+rx,Administrator
Important
Do not insert the entire contents of the
id_rsa.pub
file here. Insert just the block of symbols which represents the public key itself.
User groups can also be defined in this file, where each user group is represented by a single line in the following format:
_g_\:GroupName=Role1[,Role2]...
Sample Blueprint configuration
The following Blueprint configuration shows how to define a new
karaf
realm using the public key login module, where the default karaf
realm is overridden by setting the rank
attribute to 200
:
<?xml version="1.0" encoding="UTF-8"?>
<blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0"
xmlns:jaas="http://karaf.apache.org/xmlns/jaas/v1.0.0"
xmlns:cm="http://aries.apache.org/blueprint/xmlns/blueprint-cm/v1.1.0"
xmlns:ext="http://aries.apache.org/blueprint/xmlns/blueprint-ext/v1.0.0">
<!-- Allow usage of System properties, especially the karaf.base property -->
<ext:property-placeholder placeholder-prefix="$[" placeholder-suffix="]"/>
<jaas:config name="karaf" rank="200">
<jaas:module className="org.apache.karaf.jaas.modules.publickey.PublickeyLoginModule"
flags="required">
users = $[karaf.base]/etc/keys.properties
</jaas:module>
</jaas:config>
</blueprint>
In this example, the user data will be stored in the file,
InstallDir/etc/keys.properties
, and it is not possible to edit the configuration using the jaas:*
console commands.
2.1.6. JAAS JDBC Login Module
Overview
The JAAS JDBC login module enables you to store user data in a database back-end, using Java Database Connectivity (JDBC) to connect to the database. Hence, you can use any database that supports JDBC to store your user data. To manage the user data, you can use either the native database client tools or the
jaas:*
console commands (where the backing engine uses configured SQL queries to perform the relevant database updates).
You can combine multiple login modules with each login module providing both the authentication and authorization components. For example, you can combine default
PropertiesLoginModule
with JDBCLoginModule
to ensure access to the system.
Note
User groups are not supported in the JAAS JDBC login module.
Supported credentials
The JAAS JDBC Login Module authenticates username/password credentials, returning the list of roles associated with the authenticated user.
Implementation classes
The following classes implement the JAAS JDBC Login Module:
org.apache.karaf.jaas.modules.jdbc.JDBCLoginModule
- Implements the JAAS login module.
org.apache.karaf.jaas.modules.jdbc.JDBCBackingEngineFactory
- Must be exposed as an OSGi service. This service makes it possible for you to manage the user data using the
jaas:*
console commands from the Apache Karaf shell (see chapter "JAAS Console Commands" in "Console Reference").
Options
The JAAS JDBC login module supports the following options:
- datasource
- The JDBC data source, specified either as an OSGi service or as a JNDI name. You can specify a data source's OSGi service using the following syntax:
osgi:ServiceInterfaceName[/ServicePropertiesFilter]
The ServiceInterfaceName is the interface or class that is exported by the data source's OSGi service (usuallyjavax.sql.DataSource
).Because multiple data sources can be exported as OSGi services in a container, it is usually necessary to specify a filter, ServicePropertiesFilter, to select the particular data source that you want. Filters on OSGi services are applied to the service property settings and follow a syntax that is borrowed from LDAP filter syntax. - query.password
- The SQL query that retrieves the user's password. The query can contain a single question mark character,
?
, which is substituted by the username at run time. - query.role
- The SQL query that retrieves the user's roles. The query can contain a single question mark character,
?
, which is substituted by the username at run time. - insert.user
- The SQL query that creates a new user entry. The query can contain two question marks,
?
, characters: the first question mark is substituted by the username and the second question mark is substituted by the password at run time. - insert.role
- The SQL query that adds a role to a user entry. The query can contain two question marks,
?
, characters: the first question mark is substituted by the username and the second question mark is substituted by the role at run time. - delete.user
- The SQL query that deletes a user entry. The query can contain a single question mark character,
?
, which is substituted by the username at run time. - delete.role
- The SQL query that deletes a role from a user entry. The query can contain two question marks,
?
, characters: the first question mark is substituted by the username and the second question mark is substituted by the role at run time. - delete.roles
- The SQL query that deletes multiple roles from a user entry. The query can contain a single question mark character,
?
, which is substituted by the username at run time.
Example of setting up a JDBC login module
To set up a JDBC login module, perform the following main steps:
Create the database tables
Before you can set up the JDBC login module, you must set up a users table and a roles table in the backing database to store the user data. For example, the following SQL commands show how to create a suitable
users
table and roles
table:
CREATE TABLE users ( username VARCHAR(255) NOT NULL, password VARCHAR(255) NOT NULL, PRIMARY KEY (username) ); CREATE TABLE roles ( username VARCHAR(255) NOT NULL, role VARCHAR(255) NOT NULL, PRIMARY KEY (username,role) );
The
users
table stores username/password data and the roles
table associates a username with one or more roles.
Create the data source
To use a JDBC datasource with the JDBC login module, the correct approach to take is to create a data source instance and export the data source as an OSGi service. The JDBC login module can then access the data source by referencing the exported OSGi service. For example, you could create a MySQL data source instance and expose it as an OSGi service (of
javax.sql.DataSource
type) using code like the following in a Blueprint file:
<blueprint xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0">
<bean class="com.mysql.jdbc.jdbc2.optional.MysqlDataSource" id="mysqlDatasource">
<property name="serverName" value="localhost"></property>
<property name="databaseName" value="DBName"></property>
<property name="port" value="3306"></property>
<property name="user" value="DBUser"></property>
<property name="password" value="DBPassword"></property>
</bean>
<service id="mysqlDS" interface="javax.sql.DataSource" ref="mysqlDatasource">
<service-properties>
<entry key="osgi.jndi.service.name" value="jdbc/karafdb"/>
</service-properties>
</service>
</blueprint>
The preceding Blueprint configuration should be packaged and installed in the container as an OSGi bundle.
Specify the data source as an OSGi service
After the data source has been instantiated and exported as an OSGi service, you are ready to configure the JDBC login module. In particular, the
datasource
option of the JDBC login module can reference the data source's OSGi service using the following syntax:
osgi:javax.sql.DataSource/(osgi.jndi.service.name=jdbc/karafdb)
Where
javax.sql.DataSource
is the interface type of the exported OSGi service and the filter, (osgi.jndi.service.name=jdbc/karafdb)
, selects the particular javax.sql.DataSource
instance whose osgi.jndi.service.name
service property has the value, jdbc/karafdb
.
For example, you can use the following Blueprint configuration to override the
karaf
realm with a JDBC login module that references the sample MySQL data source:
<?xml version="1.0" encoding="UTF-8"?> <blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0" xmlns:jaas="http://karaf.apache.org/xmlns/jaas/v1.0.0" xmlns:cm="http://aries.apache.org/blueprint/xmlns/blueprint-cm/v1.1.0" xmlns:ext="http://aries.apache.org/blueprint/xmlns/blueprint-ext/v1.0.0"> <!-- Allow usage of System properties, especially the karaf.base property --> <ext:property-placeholder placeholder-prefix="$[" placeholder-suffix="]"/> <jaas:config name="karaf" rank="200"> <jaas:module className="org.apache.karaf.jaas.modules.jdbc.JDBCLoginModule" flags="required"> datasource = osgi:javax.sql.DataSource/(osgi.jndi.service.name=jdbc/karafdb) query.password = SELECT password FROM users WHERE username=? query.role = SELECT role FROM roles WHERE username=? insert.user = INSERT INTO users VALUES(?,?) insert.role = INSERT INTO roles VALUES(?,?) delete.user = DELETE FROM users WHERE username=? delete.role = DELETE FROM roles WHERE username=? AND role=? delete.roles = DELETE FROM roles WHERE username=? </jaas:module> </jaas:config> <!-- The Backing Engine Factory Service for the JDBCLoginModule --> <service interface="org.apache.karaf.jaas.modules.BackingEngineFactory"> <bean class="org.apache.karaf.jaas.modules.jdbc.JDBCBackingEngineFactory"/> </service> </blueprint>
Note
The SQL statements shown in the preceding configuration are in fact the default values of these options. Hence, if you create user and role tables consistent with these SQL statements, you could omit the options settings and rely on the defaults.
In addition to creating a JDBCLoginModule, the preceding Blueprint configuration also instantiates and exports a
JDBCBackingEngineFactory
instance, which enables you to manage the user data using the jaas:*
console commands.
2.1.7. JAAS LDAP Login Module
Overview
The JAAS LDAP login module enables you to store user data in an LDAP database. To manage the stored user data, use a standard LDAP client tool. The
jaas:*
console commands are not supported.
For more details about using LDAP with Red Hat JBoss A-MQ see Chapter 9, LDAP Authentication Tutorial.
Note
User groups are not supported in the JAAS LDAP login module.
Important
In a Fuse Fabric, the Zookeeper login module must always be enabled. Hence, if you want to enable the LDAP login module in a Fabric, both the Zookeeper login module and the LDAP login module must be enabled. See Section 9.4, “Enable LDAP Authentication in the OSGi Container” for details.
Supported credentials
The JAAS LDAP Login Module authenticates username/password credentials, returning the list of roles associated with the authenticated user.
Implementation classes
The following classes implement the JAAS LDAP Login Module:
org.apache.karaf.jaas.modules.ldap.LDAPLoginModule
- Implements the JAAS login module. It is preloaded in the container, so you do not need to install its bundle.
Note
There is no backing engine factory for the LDAP Login Module, which means that this module cannot be managed using the
jaas:*
console commands.
Options
The JAAS LDAP login module supports the following options:
authentication
- Specifies the authentication method used when binding to the LDAP server. Valid values are
simple
—bind with user name and password authentication, requiring you to set theconnection.username
andconnection.password
properties.none
—bind anonymously. In this case theconnection.username
andconnection.password
properties can be left unassigned.
NoteThe connection to the directory server is used only for performing searches. In this case, an anonymous bind is often preferred, because it is faster than an authenticated bind (but you would also need to ensure that the directory server is sufficiently protected, for example by deploying it behind a firewall). connection.url
- Specifies specify the location of the directory server using an ldap URL, ldap://Host:Port. You can optionally qualify this URL, by adding a forward slash,
/
, followed by the DN of a particular node in the directory tree. To enable SSL security on the connection, you need to specify theldaps:
scheme in the URL—for example, ldaps://Host:Port. You can also specify multiple URLs, as a space-separated list, for example:connection.url=ldap://10.0.0.153:2389 ldap://10.10.178.20:389
connection.username
- Specifies the DN of the user that opens the connection to the directory server. For example,
uid=admin,ou=system
. connection.password
- Specifies the password that matches the DN from connection.username. In the directory server, the password is normally stored as a
userPassword
attribute in the corresponding directory entry. context.com.sun.jndi.ldap.connect.pool
- If
true
, enables connection pooling for LDAP connections. Default isfalse
. context.com.sun.jndi.ldap.connect.timeout
- Specifies the timeout for creating a TCP connection to the LDAP server, in units of milliseconds. We recommend that you set this property explicitly, because the default value is infinite, which can result in a hung connection attempt.
context.com.sun.jndi.ldap.read.timeout
- Specifies the read timeout for an LDAP operation, in units of milliseconds. We recommend that you set this property explicitly, because the default value is infinite.
context.java.naming.referral
- An LDAP referral is a form of indirection supported by some LDAP servers. The LDAP referral is an entry in the LDAP server which contains one or more URLs (usually referencing a node or nodes in another LDAP server). The
context.java.naming.referral
property can be used to enable or disable referral following. It can be set to one of the following values:follow
to follow the referrals (assuming it is supported by the LDAP server),ignore
to silently ignore all referrals,throw
to throw aPartialResultException
whenever a referral is encountered.
initial.context.factory
- Specifies the class of the context factory used to connect to the LDAP server. This must always be set to
com.sun.jndi.ldap.LdapCtxFactory
. role.base.dn
- Specifies the DN of the subtree of the DIT to search for role entries. For example,
ou=groups,ou=system
. role.filter
- Specifies the LDAP search filter used to locate roles. It is applied to the subtree selected by
role.base.dn
. For example,(member=uid=%u)
. Before being passed to the LDAP search operation, the value is subjected to string substitution, as follows:%u
is replaced by the user name extracted from the incoming credentials, and%dn
is replaced by the RDN of the corresponding user in the LDAP server (which was found by matching against theuser.filter
filter).%fqdn
is replaced by the DN of the corresponding user in the LDAP server (which was found by matching against theuser.filter
filter).
role.mapping
- Specifies the mapping between LDAP groups and JAAS roles. If no mapping is specified, the default mapping is for each LDAP group to map to the corresponding JAAS role of the same name. The role mapping is specified with the following syntax:
ldap-group=jaas-role(,jaas-role)*(;ldap-group=jaas-role(,jaas-role)*)*
For example, given the LDAP groups,admin
,devop
, andtester
, you could map them to JAAS roles, as follows:role.mapping=admin=Administrator;devop=Administrator,Deployer;tester=Monitor
role.name.attribute
- Specifies the attribute type of the role entry that contains the name of the role/group. If you omit this option, the role search feature is effectively disabled. For example,
cn
. role.search.subtree
- Specifies whether the role entry search scope includes the subtrees of the tree selected by
role.base.dn
. Iftrue
, the role lookup is recursive (SUBTREE
). Iffalse
, the role lookup is performed only at the first level (ONELEVEL
). ssl
- Specifies whether the connection to the LDAP server is secured using SSL. If connection.url starts with ldaps:// SSL is used regardless of this property.
ssl.provider
- Specifies the SSL provider to use for the LDAP connection. If not specified, the default SSL provider is used.
ssl.protocol
- Specifies the protocol to use for the SSL connection. You must set this property to
TLSv1
, in order to prevent the SSLv3 protocol from being used (POODLE vulnerability). ssl.algorithm
- Specifies the algorithm used by the trust store manager. For example,
PKIX
. ssl.keystore
- The ID of the keystore that stores the LDAP client's own X.509 certificate (required only if SSL client authentication is enabled on the LDAP server). The keystore must be deployed using a
jaas:keystore
element (see the section called “Sample configuration for Apache DS”). ssl.keyalias
- The keystore alias of the LDAP client's own X.509 certificate (required only if there is more than one certificate stored in the keystore specified by
ssl.keystore
). ssl.truststore
- The ID of the keystore that stores trusted CA certificates, which are used to verify the LDAP server's certificate (the LDAP server's certificate chain must be signed by one of the certificates in the truststore). The keystore must be deployed using a
jaas:keystore
element. user.base.dn
- Specifies the DN of the subtree of the DIT to search for user entries. For example,
ou=users,ou=system
. user.filter
- Specifies the LDAP search filter used to locate user credentials. It is applied to the subtree selected by
user.base.dn
. For example,(uid=%u)
. Before being passed to the LDAP search operation, the value is subjected to string substitution, as follows:%u
is replaced by the user name extracted from the incoming credentials.
user.search.subtree
- Specifies whether the user entry search scope includes the subtrees of the tree selected by
user.base.dn
. Iftrue
, the user lookup is recursive (SUBTREE
). Iffalse
, the user lookup is performed only at the first level (ONELEVEL
).
Sample configuration for Apache DS
The following Blueprint configuration shows how to define a new
karaf
realm using the LDAP login module, where the default karaf
realm is overridden by setting the rank
attribute to 200
, and the LDAP login module connects to an Apache Directory Server:
<?xml version="1.0" encoding="UTF-8"?> <blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0" xmlns:jaas="http://karaf.apache.org/xmlns/jaas/v1.0.0" xmlns:cm="http://aries.apache.org/blueprint/xmlns/blueprint-cm/v1.1.0" xmlns:ext="http://aries.apache.org/blueprint/xmlns/blueprint-ext/v1.0.0"> <jaas:config name="karaf" rank="100"> <jaas:module className="org.apache.karaf.jaas.modules.ldap.LDAPLoginModule" flags="sufficient"> debug=true <!-- LDAP Configuration --> initialContextFactory=com.sun.jndi.ldap.LdapCtxFactory <!-- multiple LDAP servers can be specified as a space separated list of URLs --> connection.url=ldap://10.0.0.153:2389 ldap://10.10.178.20:389 <!-- authentication=none --> authentication=simple connection.username=cn=Directory Manager connection.password=directory <!-- User Info --> user.base.dn=dc=redhat,dc=com user.filter=(&(objectClass=InetOrgPerson)(uid=%u)) user.search.subtree=true <!-- Role/Group Info--> role.base.dn=dc=redhat,dc=com role.name.attribute=cn <!-- The 'dc=redhat,dc=com' used in the role.filter below is the user.base.dn. --> <!-- role.filter=(uniquemember=%dn,dc=redhat,dc=com) --> role.filter=(&(objectClass=GroupOfUniqueNames)(UniqueMember=%fqdn)) role.search.subtree=true <!-- role mappings - a ';' separated list --> role.mapping=JBossAdmin=admin;JBossMonitor=Monitor,viewer <!-- LDAP context properties --> context.com.sun.jndi.ldap.connect.timeout=5000 context.com.sun.jndi.ldap.read.timeout=5000 <!-- LDAP connection pooling --> <!-- http://docs.oracle.com/javase/jndi/tutorial/ldap/connect/pool.html --> <!-- http://docs.oracle.com/javase/jndi/tutorial/ldap/connect/config.html --> context.com.sun.jndi.ldap.connect.pool=true <!-- How are LDAP referrals handled? Can be `follow`, `ignore` or `throw`. Configuring `follow` may not work on all LDAP servers, `ignore` will silently ignore all referrals, while `throw` will throw a partial results exception if there is a referral. --> context.java.naming.referral=ignore <!-- SSL configuration --> ssl=false ssl.protocol=SSL <!-- matches the keystore/truststore configured below --> ssl.truststore=ks ssl.algorithm=PKIX </jaas:module> </jaas:config> <!-- Location of the SSL truststore/keystore <jaas:keystore name="ks" path="file:///${karaf.home}/etc/ldap.truststore" keystorePassword="XXXXXX" /> --> </blueprint>
Note
In order to enable SSL, you must remember to use the
ldaps
scheme in the connection.url
setting.
Important
You must set
ssl.protocol
to TLSv1
, in order to protect against the Poodle vulnerability (CVE-2014-3566)
Filter settings for different directory servers
The most significant differences between directory servers arise in connection with setting the filter options in the LDAP login module. The precise settings depend ultimately on the organisation of your DIT, but the following table gives an idea of the typical role filter settings required for different directory servers:
Directory Server | Typical Filter Settings |
---|---|
389-DS
Red Hat DS
|
user.filter=(&(objectClass=InetOrgPerson)(uid=%u)) role.filter=(uniquemember=%fqdn) |
MS Active Directory
|
user.filter=(&(objectCategory=person)(samAccountName=%u)) role.filter=(uniquemember=%fqdn) |
Apache DS
|
user.filter=(uid=%u) role.filter=(member=uid=%u) |
OpenLDAP
|
user.filter=(uid=%u) role.filter=(member:=uid=%u) |
Note
In the preceding table, the
&
symbol (representing the logical And operator) is escaped as &
because the option settings will be embedded in a Blueprint XML file.
2.1.8. Encrypting Stored Passwords
Overview
By default, the JAAS login modules store passwords in plaintext format. Although you can (and should) protect such data by setting file permissions appropriately, you can provide additional protection to passwords by storing them in an obscured format (using a message digest algorithm).
Red Hat JBoss A-MQ provides a set of options for enabling password encryption, which can be combined with any of the JAAS login modules (except the public key login module, where it is not needed).
Important
Although message digest algorithms are difficult to crack, they are not invulnerable to attack (for example, see the Wikipedia article on cryptographic hash functions). Always use file permissions to protect files containing passwords, in addition to using password encryption.
Options
You can optionally enable password encryption for JAAS login modules by setting the following login module properties. To do so, either edit the InstallDir
/etc/org.apache.karaf.jaas.cfg
file or deploy your own blueprint file as described in the section called “Example of a login module with Jasypt encryption”.
encryption.enabled
- Set to
true
, to enable password encryption. encryption.name
- Name of the encryption service, which has been registered as an OSGi service.
encryption.prefix
- Prefix for encrypted passwords.
encryption.suffix
- Suffix for encrypted passwords.
encryption.algorithm
- Specifies the name of the encryption algorithm—for example,
MD5
orSHA-1
. You can specify one of the following encryption algorithms:MD2
MD5
SHA-1
SHA-256
SHA-384
SHA-512
encryption.encoding
- Encrypted passwords encoding:
hexadecimal
orbase64
. encryption.providerName
(Jasypt only)- Name of the
java.security.Provider
instance that is to provide the digest algorithm. encryption.providerClassName
(Jasypt only)- Class name of the security provider that is to provide the digest algorithm
encryption.iterations
(Jasypt only)- Number of times to apply the hash function recursively.
encryption.saltSizeBytes
(Jasypt only)- Size of the salt used to compute the digest.
encryption.saltGeneratorClassName
(Jasypt only)- Class name of the salt generator.
role.policy
- Specifies the policy for identifying role principals. Can have the values,
prefix
orgroup
. role.discriminator
- Specifies the discriminator value to be used by the role policy.
Encryption services
There are two encryption services provided by JBoss A-MQ:
You can also create your own encryption service. To do so, you need to:
Following listing shows, how jasypt encryption service is exposed to OSGI container.
encryption.name = basic
, described in the section called “Basic encryption service”,encryption.name = jasypt
, described in the section called “Jasypt encryption”.
- implement interface
org.apache.karaf.jaas.modules.EncryptionService
- and expose your implementation as OSGI service.
<blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0"> <service interface="org.apache.karaf.jaas.modules.EncryptionService"> <service-properties> <entry key="name" value="jasypt" /> </service-properties> <bean class="org.apache.karaf.jaas.jasypt.impl.JasyptEncryptionService"/> </service> ... </blueprint>
Basic encryption service
The basic encryption service is installed in the standalone container by default and you can reference it by setting the
encryption.name
property to the value, basic
. In the basic encryption service, the message digest algorithms are provided by the SUN security provider (the default security provider in the Oracle JDK).
Jasypt encryption
By default, the Jasypt encryption service is installed on standalone JBoss Fuse, but not on standalone JBoss A-MQ. To install it on JBoss A-MQ, install the
jasypt-encryption
feature, using the following console command:
JBossA-MQ:karaf@root> features:install jasypt-encryption
This command installs the requisite Jasypt bundles and exports Jasypt encryption as an OSGi service, so that it is available for use by JAAS login modules. To access the Jasypt encryption service, set the
encryption.name
property to the value, jasypt
.
For more information about Jasypt encryption, see the Jasypt documentation.
Example of a login module with Jasypt encryption
Assuming that you have already installed the
jasypt-encryption
feature, you could deploy a properties login module with Jasypt encryption using the following Blueprint configuration:
<?xml version="1.0" encoding="UTF-8"?> <blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0" xmlns:jaas="http://karaf.apache.org/xmlns/jaas/v1.0.0" xmlns:cm="http://aries.apache.org/blueprint/xmlns/blueprint-cm/v1.1.0" xmlns:ext="http://aries.apache.org/blueprint/xmlns/blueprint-ext/v1.0.0"> <type-converters> <bean class="org.apache.karaf.jaas.modules.properties.PropertiesConverter"/> </type-converters> <!-- Allow usage of System properties, especially the karaf.base property --> <ext:property-placeholder placeholder-prefix="$[" placeholder-suffix="]"/> <jaas:config name="karaf" rank="200"> <jaas:module className="org.apache.karaf.jaas.modules.properties.PropertiesLoginModule" flags="required"> users = $[karaf.base]/etc/users.properties encryption.enabled = true encryption.name = jasypt encryption.algorithm = SHA-256 encryption.encoding = base64 encryption.iterations = 100000 encryption.saltSizeBytes = 16 </jaas:module> </jaas:config> <!-- The Backing Engine Factory Service for the PropertiesLoginModule --> <service interface="org.apache.karaf.jaas.modules.BackingEngineFactory"> <bean class="org.apache.karaf.jaas.modules.properties.PropertiesBackingEngineFactory"/> </service> <!-- Enable automatic encryption of all user passwords in InstallDir/etc/users.properties file - no login required to activate. Encrypted passwords appear in the InstallDir/etc/users.properties file as values enclosed by {CRYPT}...{CRYPT} prefix/suffix pairs --> <bean class="org.apache.karaf.jaas.modules.properties.AutoEncryptionSupport" init-method="init" destroy-method="destroy"> <argument> <map> <entry key="org.osgi.framework.BundleContext" value-ref="blueprintBundleContext"/> <entry key="users" value="$[karaf.base]/etc/users.properties"/> <entry key="encryption.name" value="jasypt"/> <entry key="encryption.enabled" value="true"/> <entry key="encryption.prefix" value="{CRYPT}"/> <entry key="encryption.suffix" value="{CRYPT}"/> <entry key="encryption.algorithm" value="SHA-256"/> <entry key="encryption.encoding" value="base64"/> <entry key="encryption.iterations" value="100000"/> <entry key="encryption.saltSizeBytes" value="16"/> </map> </argument> </bean> </blueprint>