The following sections describe how to configure the security providers supplied by WebLogic Server.
Note:
WebLogic Server includes so many Authentication providers and Identity Assertion providers that they are better handled in a separate section. See Chapter 5, "Configuring Authentication Providers."Enabling Synchronization in Security Policy and Role Modification at Deployment
Configuring a SAML 2.0 Credential Mapping Provider for SAML 2.0
By default, most WebLogic security providers are generally configured to run after you install WebLogic Server. However, the following circumstances require you to supply configuration information:
Before using the WebLogic Identity Assertion provider, define the active token type. See Configuring Identity Assertion Providers.
To map tokens to a user in a security realm, configure the user name mapper in the WebLogic Identity Assertion provider. See Configuring a WebLogic Credential Mapping Provider.
To use auditing in the default (active) security realm, configure either the WebLogic Auditing provider or a custom Auditing provider. See Configuring the WebLogic Auditing Provider.
To use HTTP and Kerberos-based authentication in conjunction with WebLogic Server. See Chapter 6, "Configuring Single Sign-On with Microsoft Clients."
To use identity assertion based on SAML assertions. See Chapter 7, "Configuring Single Sign-On with Web Browsers and HTTP Clients."
To use certificate revocation. See Certificate Registry.
To use an LDAP server other than the embedded LDAP server, configure one of the LDAP Authentication providers. An LDAP authentication provider can be used instead of or in addition to the WebLogic Authentication provider. See Configuring LDAP Authentication Providers.
To access user, password, group, and group membership information stored in databases for authentication purposes. See Configuring RDBMS Authentication Providers The RDBMS Authentication providers can be used to upgrade from the RDBMS security realm.
To use Windows NT users and groups for authentication purposes. See Configuring a Windows NT Authentication Provider. The Windows NT Authentication provider is the upgrade path for the Window NT security realm.
When you create a new security realm, configure security providers for that realm. See Creating and Configuring a New Security Realm: Main Steps.
When you add a custom security provider to a security realm or replace a WebLogic security provider with a custom security provider, configure options for the custom security provider. When you create a custom security provider, you can implement options that are configurable through the Administration Console. However, those options are implementation-specific and are not addressed in this manual. See Extending the Administration Console for Oracle WebLogic Server.
You can use either the WebLogic-supplied security providers or a custom security provider in a security realm. To configure a custom security provider, see "Configure custom security providers" in the Oracle WebLogic Server Administration Console Help.
You can configure more than one security provider of a given type in a security realm. For example, you might use two or more different Role Mapping providers or Authorization providers. If you have more than one security provider of the same type in a security realm, the order in which these providers are called can affect the overall outcome of the security processes. By default, security providers are called in the order that they were added to the realm. You can use the Administration Console to change the order of the providers. See "Re-order security providers" in the Oracle WebLogic Server Administration Console Help.
For the best performance, and by default, Weblogic Server supports parallel modification to security policy and roles during application and module deployment. For this reason, deployable Authorization and Role Mapping providers configured in the security realm should support parallel calls. The WebLogic deployable XACML Authorization and Role Mapping providers meet this requirement.
However, custom deployable Authorization and Role Mapping providers may or may not support parallel calls. If your custom deployable Authorization or Role Mapping providers do not support parallel calls, you need to disable the parallel security policy and role modification and instead enforce a synchronization mechanism that results in each application and module being placed in a queue and deployed sequentially. Otherwise, if a provider does not support parallel calls, it generates a java.util.ConcurrentModificationException
exception.
You can turn on this synchronization enforcement mechanism on in two ways:
Note:
Enabling the synchronization mechanism affects every deployable provider configured in the realm, including the WebLogic Server XACML providers. Enabling the synchronization mechanism may negatively impact the performance of these providers.From the WebLogic Server Administration Console. Set the Deployable Provider Synchronization Enabled and Deployable Provider Synchronization Timeout controls for the realm.
The Deployable Provider Synchronization Enabled control enforces a synchronization mechanism that results in each application and module being placed in a queue and deployed sequentially.
The Deployable Provider Synchronization Timeout control sets or returns the timeout value, in milliseconds, for the deployable security provider synchronization operation. This is the maximum time a deployment cycle wants to wait in the queue when the previous cycle is stuck.
From the DeployableProviderSynchronizationEnabled
and DeployableProviderSynchronizationTimeout
attributes of the RealmMBean
. From WLST, set the DeployableProviderSynchronizationEnabled
and DeployableProviderSynchronizationTimeout
attributes of the RealmMBean.
See the RealmMBean in the Oracle WebLogic Server MBean Reference.
Authorization is the process whereby the interactions between users and resources are limited to ensure integrity, confidentiality, and availability. In other words, authorization is responsible for controlling access to resources based on user identity or other information. You should only need to configure an Authorization provider when you create a new security realm.
By default, security realms in newly created domains include the XACML Authorization provider. The XACML Authorization provider uses XACML, the eXtensible Access Control Markup Language. For information about using the XACML Authorization provider, see "Using XACML Documents to Secure WebLogic Resources" in Securing Resources Using Roles and Policies for Oracle WebLogic Server. WebLogic Server also includes the WebLogic Authorization provider, which uses a proprietary policy language. This provider is named DefaultAuthorizer, but is no longer the default authorization provider.
See Enabling Synchronization in Security Policy and Role Modification at Deployment for information about how Authorization providers support parallel modification to security policy during application and module deployment.
See "Configure Authorization providers" in the Oracle WebLogic Server Administration Console Help.
Note:
The WebLogic Authorization provider improves performance by caching the roles, predicates, and resource data that it looks up. For information on configuring these caches, see "Best Practices: Configure Entitlements Caching When Using WebLogic Providers" in Securing Resources Using Roles and Policies for Oracle WebLogic Server. The XACML Authorization uses its own cache, but this cache is not configurable.When multiple Authorization providers are configured in a security realm, each may return a different answer to the "is access allowed" question for a given resource. This answer may be PERMIT
, DENY
, or ABSTAIN
. Determining what to do if multiple Authorization providers do not agree on the answer is the primary function of the Adjudication provider. Adjudication providers resolve authorization conflicts by weighting each Authorization provider's answer and returning a final decision.
Each security realm requires an Adjudication provider, and can have no more than one active Adjudication provider. By default, a WebLogic security realm is configured with the WebLogic Adjudication provider. You can use either the WebLogic Adjudication provider or a custom Adjudication provider in a security realm.
Note:
In the Administration Console, the WebLogic Adjudication provider is referred to as the Default Adjudicator.By default, most configuration options for the WebLogic Adjudication provider are defined. However, you can set the Require Unanimous Permit option to determine how the WebLogic Adjudication provider handles a combination of PERMIT
and ABSTAIN
votes from the configured Authorization providers.
If the option is enabled (the default), all Authorization providers must vote PERMIT
in order for the Adjudication provider to vote true
.
If the option is disabled, ABSTAIN
votes are counted as PERMIT
votes.
Role Mapping providers compute the set of roles granted to a subject for a given resource. Role Mapping providers supply Authorization providers with this role information so that the Authorization provider can answer the "is access allowed?" question for WebLogic resources. By default, a WebLogic security realm is configured with the XACML Role Mapping provider. The XACML Role Mapping provider uses XACML, the eXtensible Access Control Markup Language. For information about using the XACML Role Mapping provider, see "Using XACML Documents to Secure WebLogic Resources" in Securing Resources Using Roles and Policies for Oracle WebLogic Server.
WebLogic Server also includes the WebLogic Role Mapping provider, which uses a proprietary policy language. This provider is named DefaultRoleMapper, but is no longer the default role mapping provider in newly-created security realms. You can also use a custom Role Mapping provider in your security realm.
By default, most configuration options for the XACML Role Mapping provider are already defined. However, you can set Role Mapping Deployment Enabled, which specifies whether or not this Role Mapping provider imports information from deployment descriptors for Web applications and EJBs into the security realm. This setting is enabled by default.
In order to support Role Mapping Deployment Enabled, a Role Mapping provider must implement the DeployableRoleProvider
SSPI. Roles are stored by the XACML Role Mapping provider in the embedded LDAP server.
See Enabling Synchronization in Security Policy and Role Modification at Deployment for information about how Role Mapping providers support parallel modification to roles during application and module deployment.
For information about using, developing, and configuring Role Mapping providers, see:
"Users, Groups, And Security Roles" in Securing Resources Using Roles and Policies for Oracle WebLogic Server
"Role Mapping Providers" in Developing Security Providers for Oracle WebLogic Server
"Configure Role Mapping providers" in the Oracle WebLogic Server Administration Console Help
Note:
The WebLogic Role Mapping provider improves performance by caching the roles, predicates, and resource data that it looks up. For information on configuring these caches, see "Best Practices: Configure Entitlements Caching When Using WebLogic Providers" in Securing Resources Using Roles and Policies for Oracle WebLogic Server. The XACML Role Mapping provider uses its own cache, but this cache is not configurable.Auditing is the process whereby information about operating requests and the outcome of those requests are collected, stored, and distributed for the purposes of non-repudiation. In other words, Auditing providers produce an electronic trail of computer activity.
Configuring an Auditing provider is optional. The default security realm (myrealm
) does not have an Auditing provider configured. WebLogic Server includes a provider named the WebLogic Auditing provider (referred to as DefaultAuditor
in the Administration Console). You can also develop custom Auditing providers, as described in "Auditing Providers" in Developing Security Providers for Oracle WebLogic Server.
The WebLogic Auditing provider can log the events described in Table 4-1. In addition, if you enable configuration auditing (as described in Configuration Auditing), the WebLogic Auditing provider can log the events described in Table 4-4.
Table 4-1 WebLogic Auditing Provider Events
Audit Event | Indicates... |
---|---|
AUTHENTICATE |
Simple authentication (username and password) occurred. |
ASSERTIDENTITY |
Perimeter authentication (based on tokens) occurred. |
USERLOCKED |
A user account is locked because of invalid login attempts. |
USERUNLOCKED |
The lock on a user account is cleared. |
USERLOCKOUTEXPIRED |
The lock on a user account expired. |
ISAUTHORIZED |
An authorization attempt occurred. |
ROLEEVENT |
A |
ROLEDEPLOY |
A |
ROLEUNDEPLOY |
An |
POLICYDEPLOY |
A |
POLICYUNDEPLOY |
An |
START_AUDIT |
An Auditing provider has been started. |
STOP_AUDIT |
An Auditing provider has been stopped. |
By default, most configuration options for the WebLogic Auditing provider are already defined and, once it is added to the active security realm, the WebLogic Auditing provider will begin to record audit events. However, you need to define the following settings, which you can do in the WebLogic Server Administration Console by selecting the Configuration > Provider Specific page for the provider. You can also use WebLogic Scripting tool or the Java Management Extensions (JMX) APIs to configure the Auditing provider:
Rotation Minutes—Specifies how many minutes to wait before creating a new DefaultAuditRecorder.log
file. At the specified time, the audit file is closed and a new one is created. A backup file named DefaultAuditRecorder.
YYYYMMDDHHMM
.log
(for example, DefaultAuditRecorder.200405130110.log
) is created in the same directory.
Severity—Severity level appropriate for your WebLogic Server deployment. The WebLogic Auditing provider audits security events of the specified severity, as well as all events with a higher numeric severity rank. For example, if you set the severity level to ERROR, the WebLogic Auditing provider audits security events of severity level ERROR, SUCCESS, and FAILURE. You can also set the severity level to CUSTOM, and then enable the specific severity levels you want to audit, such as ERROR and FAILURE events only. Audit events include both the severity name and numeric rank; therefore, a custom Auditing provider can filter events by either the name or the numeric rank. Auditing can be initiated when the following levels of security events occur.
Event Severity | Rank |
---|---|
INFORMATION | 1 |
WARNING | 2 |
ERROR | 3 |
SUCCESS | 4 |
FAILURE | 5 |
All auditing information recorded by the WebLogic Auditing provider is saved in WL_HOME
\yourdomain\yourserver\logs\DefaultAuditRecorder.log
by default. Although an Auditing provider is configured per security realm, each server writes auditing data to its own log file in the server directory. You can specify a new directory location for the DefaultAuditRecorder.log
file on the command line with the following Java startup option:
-Dweblogic.security.audit.auditLogDir=c:\foo
The new file location will be c:\foo\yourserver\logs\DefaultAuditRecorder.log
.
For more information, see "Security" in the Command Reference for Oracle WebLogic Server.
Note:
Using an Auditing provider affects the performance of WebLogic Server even if only a few events are logged.For more information, see "Configure Auditing providers" in the Oracle WebLogic Server Administration Console Help.
An Audit Event includes a ContextHandler
that can hold a variety of information or objects. Set the WebLogic Auditing provider's Active ContextHandler
Entries attribute to specify which ContextElement entries in the ContextHandler
are recorded by the Auditing provider. By default, none of the ContextElements are audited. Objects in the ContextHandler
are in most cases logged using the toString method. Table 4-2 lists the available ContextHandler
entries.
Table 4-2 Context Handler Entries for Auditing
Context Element Name | Description and Type |
---|---|
com.bea.contextelement. servlet.HttpServletRequest |
A servlet access request or SOAP message via HTTP javax.http.servlet.HttpServletRequest |
com.bea.contextelement. servlet.HttpServletResponse |
A servlet access response or SOAP message via HTTP javax.http.servlet.HttpServletResponse |
com.bea.contextelement. wli.Message |
A WebLogic Integration message. The message is streamed to the audit log. java.io.InputStream |
com.bea.contextelement. channel.Port |
Internal listen port of the network channel accepting or processing the request java.lang.Integer |
com.bea.contextelement. channel.PublicPort |
External listen port of the network channel accepting or processing the request java.lang.Integer |
com.bea.contextelement. channel.RemotePort |
Port of the remote end of the TCP/IP connection of the network channel accepting or processing the request java.lang.Integer |
com.bea.contextelement. channel.Protocol |
Protocol used to make the request of the network channel accepting or processing the request java.lang.String |
com.bea.contextelement. channel.Address |
The internal listen address of the network channel accepting or processing the request java.lang.String |
com.bea.contextelement. channel.PublicAddress |
The external listen address of the network channel accepting or processing the request java.lang.String |
com.bea.contextelement. channel.RemoteAddress |
Remote address of the TCP/IP connection of the network channel accepting or processing the request java.lang.String |
com.bea.contextelement. channel.ChannelName |
Name of the network channel accepting or processing the request java.lang.String |
com.bea.contextelement. channel.Secure |
Whether the network channel is accepting or processing the request using SSL java.lang.Boolean |
com.bea.contextelement. ejb20.Parameter[1-N] |
Object based on parameter |
com.bea.contextelement. wsee.SOAPMessage |
javax.xml.rpc.handler.MessageContext |
com.bea.contextelement. entitlement.EAuxiliaryID |
Used by a WebLogic Server internal process. weblogic.entitlement.expression.EAuxiliary |
com.bea.contextelement. security.ChainPrevalidatedBySSL |
SSL framework has validated the certificate chain, meaning that the certificates in the chain have signed each other properly; the chain terminates in a certificate that is one of the server's trusted CAs; the chain honors the basic constraints rules; and the certificates in the chain have not expired. java.lang.Boolean |
com.bea.contextelement. xml.SecurityToken |
Not used in this release of WebLogic Server. weblogic.xml.crypto.wss.provider.SecurityToken |
com.bea.contextelement. xml.SecurityTokenAssertion |
Not used in this release of WebLogic Server. java.util.Map |
com.bea.contextelement. webservice.Integrity{id:XXXXX} |
javax.security.auth.Subject |
com.bea.contextelement. saml.SSLClientCertificateChain |
SSL client certificate chain obtained from the SSL connection over which a sender-vouches SAML assertion was received. java.security.cert.X509Certificate[] |
com.bea.contextelement. saml.MessageSignerCertificate |
Certificate used to sign a Web services message. java.security.cert.X509Certificate |
com.bea.contextelement. saml.subject.ConfirmationMethod |
Type of SAML assertion: bearer, artifact, sender-vouches, or holder-of-key. java.lang.String |
com.bea.contextelement. saml.subject.dom.KeyInfo |
org.w3c.dom.Element |
You can configure the Administration Server to emit log messages and generate audit events when a user changes the configuration of any resource within a domain or invokes management operations on any resource within a domain. For example, if a user disables SSL on a Managed Server in a domain, the Administration Server emits log messages. If you have enabled the WebLogic Auditing provider, it writes the audit events to an additional security log. These messages and audit events provide an audit trail of changes within a domain's configuration (configuration auditing).
The Administration Server writes configuration auditing messages to its local log file. They are not written to the domain-wide message log by default.
Note that configuration audit information is contained in Authorization Events. As a result, another approach to configuration auditing is to consume Authorization Events. Note, however, that the information in an Authorization Event tells you whether access was allowed to perform a configuration change; it does not tell you whether the configuration change actually succeeded (for instance, it might have failed because it was invalid).
Enable configuration auditing by one of these methods:
Use the Administration Console. Select the Configuration > General page for your domain and set the Configuration Audit Type. See "Enable configuration auditing" in the Oracle WebLogic Server Administration Console Help.
When you start the Administration Server, include one of the following Java options in the weblogic.Server
command:
-Dweblogic.domain.ConfigurationAuditType="audit"
Causes the domain to emit Audit Events only.
-Dweblogic.domain.ConfigurationAuditType="log"
Causes the domain to write configuration auditing messages to the Administration Server log file only.
-Dweblogic.domain.ConfigurationAuditType="logaudit"
Causes the domain to emit Audit Events and write configuration auditing messages to the Administration Server log file.
See "weblogic.Server Command-Line Reference" in Command Reference for Oracle WebLogic Server.
Use the WebLogic Scripting Tool to change the value of the ConfigurationAuditType
attribute of the DomainMBean
. See Oracle WebLogic Scripting Tool.
Configuration auditing messages are of the following severities:
Table 4-3 Configuration Auditing Message Severities
Severity | Description |
---|---|
SUCCESS |
A successful configuration change occurred. |
FAILURE |
An attempt to modify the configuration failed due to insufficient user credentials. |
ERROR |
An attempt to modify the configuration failed due to an internal error. |
Configuration auditing messages are identified by message IDs that fall within the range of 159900-159910
.
The messages use MBean object names to identify resources. Object names for WebLogic Server MBeans reflect the location of the MBean within the hierarchical data model. To reflect the location, object names contain name/value pairs from the parent MBean. For example, the object name for a server's LogMBean
is: mydomain:Name=myserverlog
,Type=Log,Server=myserver
. See "WebLogic Server MBean Data Model" in Developing Custom Management Utilities With JMX for Oracle WebLogic Server.
Table 4-4 summarizes the messages.
Table 4-4 Summary of Configuration Auditing Messages
When This Event Occurs... | WebLogic Server Generates a Message With This ID... | And This Message Text... |
---|---|---|
Authorized user creates a resource. |
159900 |
USER username CREATED MBean-name where |
Unauthorized user attempts to create a resource. |
159901 |
USER username CREATED MBean-name FAILED weblogic.management. NoAccessRuntimeException: exception-text stack-trace where |
Authorized user deletes a resource. |
159902 |
USER username REMOVED MBean-name where username identifies the WebLogic Server user who logged in and deleted a resource. |
Unauthorized user attempts to delete a resource. |
159903 |
USER username REMOVE MBean-name FAILED weblogic.management. NoAccessRuntimeException: exception-text stack-trace where username identifies the unauthorized WebLogic Server user. |
Authorized user changes a resource's configuration. |
159904 |
USER username MODIFIED MBean-name ATTRIBUTE attribute-name FROM old-value TO new-value where |
Unauthorized user attempts to change a resource's configuration. |
159905 |
USER username MODIFY MBean-name ATTRIBUTE attribute-name FROM old-value TO new-value FAILED weblogic.management. NoAccessRuntimeException: exception-text stack-trace where |
Authorized user invokes an operation on a resource. For example, a user deploys an application or starts a server instance. |
159907 |
USER username INVOKED ON MBean-name METHOD operation-name PARAMS specified-parameters where |
Unauthorized user attempts to invoke an operation on a resource. |
159908 |
USER username INVOKED ON MBean-name METHOD operation-name PARAMS specified-parameters FAILED weblogic.management. NoAccessRuntimeException: exception-text stack-trace where |
Authorized user enables configuration auditing. |
159909 |
USER username, Configuration Auditing is enabled
where |
Authorized user disables configuration auditing. |
159910 |
USER username, Configuration Auditing is disabled
where username identifies the WebLogic Server user who disabled configuration auditing. |
Note:
Each time an authorized user adds, modifies, or deletes a resource, the Management subsystem also generates an Info message with the ID 140009 regardless of whether configuration auditing is enabled. For example:<Sep 15, 2005 11:54:47 AM EDT> <Info> <Management> <140009> <Configuration changes for domain saved to the repository.>
While the message informs you that the domain's configuration has changed, it does not provide the detailed information that configuration auditing messages provide. Nor does the Management subsystem generate this message when you invoke operations on resources.
Table 4-5 lists additional message attributes for configuration auditing messages. All configuration auditing messages specify the same values for these attributes.
Table 4-5 Common Message Attributes and Values
Message Attribute | Attribute Value |
---|---|
Severity |
Info |
Subsystem |
Configuration Audit |
User ID |
kernel identity This value is always |
Server Name |
AdminServerName
Because the Administration Server maintains the configuration data for all resources in a domain, this value is always the name of the Administration Server. |
Machine Name |
AdminServerHostName
Because the Administration Server maintains the configuration data for all resources in a domain, this value is always the name of the Administration Server's host machine. |
Thread ID |
execute-thread
The value depends on the number of execute threads that are currently running on the Administration Server. |
Timestamp |
|
An audit event is an object that Auditing providers can read and process in specific ways. An Auditing provider is a pluggable component that the security realm uses to collect, store, and distribute information about operating requests and the outcome of those requests for the purposes of non-repudiation.
If you enable a domain to emit Audit Events, the domain emits the events described in Table 4-6. All Auditing providers that are configured for the domain can handle these events.
All of the events are of severity level SUCCESS
and describe the security principal who initiated the action, whether permission was granted, and the object (MBean or MBean attribute) of the requested action.
Table 4-6 Summary of Audit Events for Configuration Auditing
When This Event Occurs... | WebLogic Server Generates This Audit Event Object... |
---|---|
A request to create a new configuration artifact has been allowed or prevented. |
weblogic.security.spi.AuditCreateConfigurationEvent |
A request to delete an existing configuration artifact has been allowed or prevented. |
weblogic.security.spi.AuditDeleteConfigurationEvent |
A request to modify an existing configuration artifact has been allowed or prevented. |
weblogic.security.spi.AuditInvokeConfigurationEvent |
A invoke an operation on an existing configuration artifact has been allowed or prevented. |
weblogic.security.spi.AuditSetAttributeConfigurationEvent |
If you enable the default WebLogic Server Auditing provider, it writes all Audit Events as log messages in its own log file.
Other Auditing providers that you create or purchase can filter these events and write them to output repositories such as an LDAP server, database, or a simple file. In addition, other types of security providers can request audit services from an Auditing provider. See "Auditing Providers" in Developing Security Providers for Oracle WebLogic Server.
Credential mapping is the process whereby the authentication and authorization mechanisms of a remote system (for example, a legacy system or application) obtain an appropriate set of credentials to authenticate remote users to a target WebLogic resource. The WebLogic Credential Mapping provider maps WebLogic Server subjects to the username/password pairs to be used when accessing such resources.
By default, most configuration options for the WebLogic Credential Mapping provider are defined.
Note:
WebLogic Server provides the option of setting Credential Mapping Deployment Enabled, which specifies whether or not the Credential Mapping provider imports credential maps from a resource adapter's deployment descriptor (weblogic-ra.xml
file) into the security realm. However, this option is now deprecated. Deploying credential maps from a weblogic-ra.xml
file is no longer supported by WebLogic Server.In order to support Credential Mapping Deployment Enabled, a Credential Mapping provider must implement the DeployableCredentialProvider
SSPI. The credential mapping information is stored in the embedded LDAP server.
For more information:
See "Credential Mapping Providers" in Developing Security Providers for Oracle WebLogic Server.
See "Configure Credential Mapping Providers" and "Create credential mappings" in the Oracle WebLogic Server Administration Console Help.
For information about using credential maps, see Programming Resource Adapters for Oracle WebLogic Server.
You can also use the WebLogic Scripting Tool or Java Management Extensions (JMX) APIs to create a new security configuration.
For information about other credential mapping providers, see Configuring a PKI Credential Mapping Provider and Configuring a SAML Credential Mapping Provider for SAML 1.1.
The PKI (Public Key Infrastructure) Credential Mapping provider included in WebLogic Server maps (a) a WebLogic Server subject (the initiator) and target resource (and an optional credential action) to (b) a key pair or public certificate that can be used by applications when accessing the targeted resource. The PKI Credential Mapping provider uses the subject and resource name to retrieve the corresponding credential from the keystore.
To use the PKI Credential Mapping provider, you need to:
Configure keystores with appropriate keys and distribute the keystores on all machines in a WebLogic Server cluster. Setting up keystores is not a WebLogic Server function. For information about setting up keystores, see the help for the Java keytool utility at http://java.sun.com/javase/6/docs/tooldocs/solaris/keytool.html
. See also Chapter 11, "Configuring Identity and Trust," for information about keystores and keys in WebLogic Server.
Configure a PKI Credential Mapping provider. A PKI Credential Mapping provider is not already configured in the default security realm (myrealm
). See PKI Credential Mapper Attributes and "Configure Credential Mapping providers" in the Oracle WebLogic Server Administration Console Help.
Create credential mappings. See "Create PKI Credential Mappings" in the Oracle WebLogic Server Administration Console Help.
To configure the PKI Credential Mapping provider, set values for these attributes. See "Configure Credential Mapping Providers" in the Oracle WebLogic Server Administration Console Help.
Keystore Provider—A keystore provider for the Java Security API. If no value is specified, the default provider class is used.
Keystore Type— JKS (the default) or PKCS12.
Keystore Pass Phrase—Password used to access the keystore
Keystore File Name—Location of the keystore relative to the directory where the server was started.
In addition, two optional attributes determine how the PKI Credential Mapping provider locates credential mappings in cases where the exact resource or subject may not be available:
Use Resource Hierarchy—A credential is located by traversing up the resource hierarchy for each type of resource. The search for all possible PKI credentials will start from the specific resource and will walk up the resource hierarchy to find all possible matches. This attribute is enabled by default.
Use Initiator Group Names—When a subject is passed to the PKI Credential Mapper provider, a credential is located by examining the groups of which the initiator is a member. This is enabled by default.
Optionally, you can label a credential mapping with a credential action. You can do this in the Administration Console when you create the credential mapping. The credential action is an arbitrary string that distinguishes credential mappings used in different circumstances. For example, one credential mapping could decrypt a message from a remote resource and another credential mapping could sign messages to be sent to the same resource. The subject initiator and the target resource are not sufficient to distinguish these two credential mappings. You can use the credential action to label one of these credential mappings something like decrypt
and the other one sign
. Then, the container calling the PKI Credential Mapping provider can provide the desired credential action value in the ContextHandler
that is passed to the provider.
For information about adding credential actions to PKI credential mappings, see "Create PKI Credential Mappings" in the Oracle WebLogic Server Administration Console Help.
This release of WebLogic Server includes two SAML Credential Mapping providers. SAML Credential Mapping Provider Version 2 provides greatly enhanced configuration options and is recommended for new deployments. SAML Credential Mapping Provider Version 1 is deprecated in WebLogic Server 9.1. A security realm can have not more than one SAML Credential Mapping provider, and if the security realm has both a SAML Credential Mapping provider and a SAML Identity Assertion provider, both must be of the same version. Do not use a Version 1 SAML provider in the same security realm as a Version 2 SAML provider. For information about configuring the SAML Credential Mapping Provider Version 1, see "Configuring a SAML Credential Mapping Provider" in Securing WebLogic Server in the WebLogic Server 9.0 documentation at http://download.oracle.com/docs/cd/E13222_01/wls/docs90/secmanage/providers.html#SAML_cred
.
For general information about WebLogic Server's support for SAML, see "Security Assertion Markup Language (SAML)" and "Single Sign-On with the WebLogic Security Framework" in Understanding Security for Oracle WebLogic Server. For information about how to use the SAML Credential Mapping provider in a SAML single sign-on configuration, see Chapter 7, "Configuring Single Sign-On with Web Browsers and HTTP Clients."
A SAML Assertion's validity is typically time-limited. The default time-to-live for assertions generated by the SAML Credential Mapping provider is specified by the DefaultTimeToLive
attribute. You can override the default time-to-live for assertions generated for different SAML Relying Parties.
Normally, an assertion is valid from the NotBefore
time, which defaults to (roughly) the time the assertion was generated, until the NotOnOrAfter
time, which is calculated as (NotBefore
+ TimeToLive
). To allow the Credential Mapper to compensate for clock differences between the source and destination sites, you can configure the SAML Credential Mapping provider's DefaultTimeToLiveDelta
attribute. This time-to-live offset value is a positive or negative integer indicating how many seconds before or after "now" the assertion's NotBefore
value should be set to. If you set a value for DefaultTimeToLiveDelta
, then the assertion lifetime is still calculated as (NotBefore
+ TimeToLive
), but the NotBefore
value is set to (now
+ TimeToLiveDelta
). For example, given the following settings:
DefaultTimeToLive = 120 DefaultTimeToLiveDelta = -30
an assertion when generated would have a lifetime of two minutes (120 seconds), starting 30 seconds before it is generated.
When you configure WebLogic Server to act as a source of SAML security assertions, you need to register the parties that may request SAML assertions to be generated. For each SAML Relying Party, you can specify the SAML profile used, details about the Relying Party, and the attributes expected in assertions for the Relying Party. For information, see:
"Configure a SAML 1.1 Relying Party" in the Oracle WebLogic Server Administration Console Help
The SAML 2.0 Credential Mapping provider included with WebLogic Server generates SAML 2.0 assertions that can be used to assert identity in the following use cases:
SAML 2.0 Web SSO Profile
WS-Security SAML Token Profile version 1.1
The SAML 2.0 Credential Mapping provider generates the assertion types listed and described in Table 4-7.
Table 4-7 Assertion Types Supported by the SAML 2.0 Credential Mapping Provider
Assertion Type | Description |
---|---|
bearer |
The subject of the assertion is the bearer of the assertion, subject to optional constraints on confirmation using attributes that may be included in the Used for all assertions generated for the SAML 2.0 Web Browser SSO Profile and with the Web Service Security SAML Token Profile 1.1. |
sender-vouches |
The Identity Provider (different from the subject) vouches for the verification of the subject. The receiver must have a trust relationship with the Identity Provider. Used with the Web Service Security SAML Token Profile 1.1 only. |
holder-of-key |
The subject represented in the assertion uses an X.509 certificate that may not be trusted by the receiver to protect the integrity of the request messages. Used with the Web Service Security SAML Token Profile 1.1 only. |
For general information about WebLogic Server's support for SAML 2.0, see "Security Assertion Markup Language (SAML)" and "Single Sign-On with the WebLogic Security Framework" in Understanding Security for Oracle WebLogic Server. For information about how to use the SAML 2.0 Credential Mapping provider in a SAML 2.0 single sign-on configuration, see Chapter 7, "Configuring Single Sign-On with Web Browsers and HTTP Clients." For information about specifying the confirmation method for assertions generated for web service Service provider partners, see "Using Security Assertion Markup Language (SAML) Tokens For Identity" in Securing WebLogic Web Services for Oracle WebLogic Server.
Configuration of the SAML 2.0 Credential Mapping provider is controlled by setting attributes on the SAML2CredentialMapperMBean
. You can access the SAML2CredentialMapperMBean
using the WebLogic Scripting Tool (WLST), or through the Administration Console by selecting the Security Realms > RealmName > Providers > Credential Mapping page and creating or selecting SAML2CredentialMapper. For details about the SAML2CredentialMapperMBean
attributes, see "SAML2CredentialMapperMBean" in the Oracle WebLogic Server MBean API Reference.
To configure the SAML 2.0 Credential Mapping provider, set the following attributes:
Issuer URI
Name of this security provider. The value that you specify should match the Entity ID specified in the SAML 2.0 General page that configures the per-server SAML 2.0 properties.
Name Qualifier
Used by the Name Mapper class as the security or administrative domain that qualifies the name of the subject. This provides a means to federate names from disparate user stores while avoiding the possibility of subject name collision.
Assertion life time
Values that limit the life time of generated assertions during which they may be used. Expired assertions cannot be made available for use.
Web service assertion signing key alias and passphrase
Used for signing generated assertions.
Custom name mapper class
The custom Java class that overrides the default SAML 2.0 Credential Mapping provider name mapper class, which maps Subjects to identity information contained in the assertion.
Generate attributes
Specifies whether group membership information associated with the authenticated Subject is included in generated assertions.
When you configure WebLogic Server to act as an Identity Provider, you need to create and configure the Service Provider partners for whom SAML 2.0 assertions are generated. When an Identity Provider site needs to generate an assertion, the SAML 2.0 Credential Mapping provider determines the Service Provider partner for whom the assertion must be generated, and generates it according to the configuration of that Service Provider partner.
The way in which you configure a Service Provider partner, and the specific information you configure for that partner, depends upon whether the partner is used for web single sign-on or web services. Configuring a web single sign-on Service Provider partner consists of importing that partner's metadata file and establishing additional basic information about that partner, such as the following:
Determining whether SAML documents, such as authentication responses, SAML artifacts, and artifact requests, must be signed
Certificates used for validating signed documents received from this partner
The binding to be used for sending SAML artifacts to this partner
The client user name and password used by this partner when connecting to the local site's binding
For details about configuring a Service Provider partner for web single sign-on, see:
Create and Configure Web Single Sign-On Service Provider Partners
"Create a SAML 2.0 Web Single Sign-on Service Provider partner" in the Oracle WebLogic Server Administration Console Help
Configuring a Web service Service Provider partner does not use a metadata file, but does consist of establishing the following information about that partner:
Audience URIs, which specify an audience restriction to be included in assertions generated for this partner
In WebLogic Server, the Audience URI attribute is overloaded to also include the partner lookup string, which is required by the web service run time to discover the partner. See Partner Lookup Strings Required for Web Service Partners.
Custom name mapper class that overrides the default name mapper and that is to be used specifically with this partner
Values that specify the life span attributes of assertions generated for this partner
Confirmation method for assertions received from this partner
For more information about configuring web service Service Provider partners, see "Create a SAML 2.0 Web Service Service Provider partner" in the Oracle WebLogic Server Administration Console Help.
For web service Service Provider partners, you also configure Audience URIs. In WebLogic Server, the Audience URI attribute is overloaded to perform two distinct functions:
Specify an audience restriction that consists of the target service URL, per the OASIS SAML 2.0 specification.
Contain a partner lookup string, which is required at run time by WebLogic Server to discover the Service Provider partner for which a SAML 2.0 assertion needs to be generated.
The partner lookup string specifies an endpoint URL, which is used for partner lookup and can optionally also serve as an Audience URI restriction that is included in the generated assertion. The ability to specify a partner lookup string that is also an Audience URI eliminates the need to specify a given target URL twice: once for lookup, and again for audience restriction.
Note:
You must configure a partner lookup string for a Service Provider partner so that partner can be discovered at run time by the web service run time.The partner lookup string has the following syntax:
[target:char:]<endpoint-url>
In this syntax, target:
char
:
is a prefix that designates the partner lookup string, where char
represents one of three special characters: a hyphen, plus sign, or asterisk (-, +, or *). This prefix determines how partner lookup is performed, as described in Table 4-8.
Table 4-8 Service Provider Partner Lookup String Syntax
Lookup String | Description |
---|---|
target:-:<endpoint-url>
|
Specifies that partner lookup is conducted for an exact match of the URL, This form of partner lookup string excludes the endpoint URL from being added as an Audience URI in the generated assertion. |
target:+:<endpoint-url>
|
Specifies that partner lookup is conducted for an exact match of the URL, Using the plus sign (+) in the lookup string results in the endpoint URL being added as an Audience URI in the assertion generated for this Service Provider partner. |
target:*:<endpoint-url>
|
Specifies that partner lookup is conducted for an initial-string pattern match of the URL, If more than one Service Provider partner is discovered that is a match for the initial string, the partner with the longest initial string match is selected. This form of partner lookup string excludes the endpoint URL from being added as an Audience URI in the generated assertion. |
Note:
Configuring one or more partner lookup strings for a Service Provider partner is required in order for that partner to be discovered at run time. If this partner cannot be discovered, no assertions for this partner can be generated.If you configure an endpoint URL without using the target lookup prefix, it will be handled as a conventional Audience URI that must be contained in assertions generated for this Service Provider partner. (This also enables backwards-compatibility with existing Audience URIs that may be configured for this partner.)
To support the need for a default Service Provider partner entry, one or more of the default partner's Audience URI entries may contain a wildcard match that works for all targets. The actual wildcard URI may depend on the specific format used by the web service run time. For example:
target:*:http://
target:*:https://
The SAML 2.0 Credential Mapping provider manages a set of trusted certificates for each partner configured for web single sign-on. Whenever a signed authentication or artifact request is received during a message exchange with a partner, the trusted certificate is used to verify the partner's signature. Partner certificates are used for the following purposes:
To validate trust when the SAML 2.0 Credential Mapping provider receives a signed authentication request or artifact request.
To validate trust in a Service Provider partner that is retrieving a SAML artifact from the Artifact Resolution Service (ARS) via an SSL connection.
From the Administration Console, you can view a web single sign-on Service Provider partner's signing certificate and transport layer client certificate in the partner management pages of the configured SAML 2.0 Credential Mapping provider.
For details about the available operations on web service partners, see the "com.bea.security.saml2.providers.registry.Partner Java" interface in the Oracle WebLogic Server API Reference.
WebLogic Server may receive digital certificates as part of Web services requests, two-way SSL, or other secure interactions. To validate these certificates, WebLogic Server includes a Certificate Lookup and Validation (CLV) framework, whose function is to look up and validate X.509 certificate chains. The key elements of the CLV framework are the CertPathBuilder and the CertPathValidators. The CLV framework requires one and only active CertPathBuilder which, given a reference to a certificate chain, finds the chain and validates it, and zero or more CertPathValidators which, given a certificate chain, validates it.
When WebLogic Server receives a certificate, the CLV framework uses the security provider configured as the CertPathBuilder to look up and validate the certificate chain. If the certificate chain is found and valid, the framework then calls each configured CertPathValidator, in the order the administrator configured them, to perform extra validation on the chain. The chain is only valid if the builder and all the validators successfully validate it.
A chain is valid only if all of the following are true:
The certificates in the chain have signed each other properly.
The chain terminates in a certificate that is one of the server's trusted CAs.
The chain honors the basic constraints rules (for example, no certificate in the chain has been issued by a certificate that is not allowed to issue certificates).
The certificates in the chain have not expired.
WebLogic Server includes two CLV security providers: the WebLogic CertPath provider (which acts as both a CertPathBuilder and a CertPathValidator), described in CertPath Provider, and the Certificate Registry, described in Certificate Registry. Use just the WebLogic CertPath provider if you want to use trusted CA-based validation of the full certificate chain. Use just the Certificate Registry if you want only to validate that certificates are registered. Use both, designating the Certificate Registry as the current builder, if you want to use both types of validation.
For more information about certificate lookup and validation, see Chapter 11, "Configuring Identity and Trust."
The default security realm in WebLogic Server is configured with the WebLogic CertPath provider. The CertPath provider serves two functions: CertPathBuilder and CertPathValidator. The CertPath provider receives an end certificate or a certificate chain. It uses the server's list of trusted CAs to complete the certificate chain, if necessary. After building the chain, the CertPath provider validates the chain, checking the signatures in the chain, ensuring that the chain has not expired, checking the chain's basic constraints, and verifying that the chain terminates in a certificate issued by one of the server's trusted CAs.
The WebLogic CertPath provider requires no configuration, other than its Current Builder attribute, which indicates whether the CertPath provider should be used as the active certificate chain builder.
The Certificate Registry is a security provider that allows you to explicitly register the list of trusted certificates that are allowed to access WebLogic Server. If you configure a Certificate Registry as part of your security realm, then only certificates that are registered in the Certificate Registry will be considered valid. The Certificate Registry provides an inexpensive mechanism for performing revocation checking. By removing a certificate from the Certificate Registry, you can invalidate a certificate immediately. The registry is stored in the embedded LDAP server.
The Certificate Registry is both a CertPath Builder and a CertPath Validator. In either case, the Certificate Registry ensures that the chain's end certificate is stored in the registry, but does no other validation. If you use the Certificate Registry as your security realm's CertPath Builder and you also want to use the WebLogic CertPath provider or another security provider to perform full chain validation, make sure that you register the intermediate and root CAs in each server's trust keystore, and the end certificates in the Certificate Registry.
The default security realm in WebLogic Server does not include a Certificate Registry. Once you configure a Certificate Registry, you can use the WebLogic Administration Console to add, remove, and view certificates in the registry. You can export a certificate from a keystore to a file, using the Java keytool utility. You can import a certificate that is a PEM or DER file in the file system into the Certificate Registry using the console. You can also use the Console to view the contents of a certificate, including its subject DN, issuer DN, serial number, valid dates, fingerprints, etc.
See "Configure Certification Path providers" in the Oracle WebLogic Server Administration Console Help.
Note:
The WebLogic Keystore provider is deprecated. It is only supported for backward compatibility. Use Java KeyStores (JKS) instead. All of the functionality that was supported by the WebLogic Keystore provider is available through use of Java KeyStores.For information about configuring the WebLogic Keystore provider, see "Configure keystores" in the Oracle WebLogic Server Administration Console Help.