Portal configuration services

 

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WebSphere Portal comprises a framework of services to accommodate the different scenarios that portals of today need to address. You can configure some of these services.

You can no longer set these properties by simply changing the property value in the properties file and restarting the portal. The configuration for each service is stored in and accessible through the administrative console. For more information about how to set properties refer to the topic about Set service configuration properties.

The following sections describe the services and their configuration that may be of interest to the portal administrator. Services that are not described in the following are purely for portal internal usage.

Do not modify them in any way.

• Configuration Service
• Deployment Service
• Data Store Service
• Loader Service
• Localizer Service
• Mail Service
• Navigator Service
• Registry Service
• Portlet Container Service
  • Parallel portlet rendering
• Pipe Pool Service
• HTTP client service
• Content Access Service
• Cache Manager Service
• State Manager Service
• Administrator Unique Names Mapping Service
• Portal Security Services - services related to Portal Access Control and authentication:
  • Access Control Data Management Service
  • Authentication Service
  • Credential Vault Service
  • External Access Control Service
  • Auditing Service
• Puma related services: Puma Store and Validation services
  • Puma Store Service
  • Puma Validation Service

In the following list of parameters the values given in parentheses are the default values. Parameters marked with <none> have no default values.

Configuration Service

The Configuration Service is responsible for collecting the most essential configuration data of the portal engine. Many of these parameters are set by the installation procedure. Therefore, plan well ahead and apply special care when modifying these parameters.

The Configuration Service also holds the configuration properties for WSRP services. They are listed and described in the WSRP context under Use WSRP services in the respective topics for which they are relevant.

was.home = (${WAS_INSTALL_ROOT})

Absolute path to the install directory of WAS.

wps.home = (${WPS_INSTALL_ROOT})

Home (or install) directory of the WebSphere Portal.

command.sessionvalidator = (SessionValidatorAuth)

The name of the command that serves as the session validator command.

command.login = (LoginUserAuth)

The name of the command that serves as the login command.

command.logout = (LogoutUserAuth)

The name of the command that serves as the logout command.

redirect.login = (true)

Turns on user-defined redirection after successful login. If a URL has been specified under redirect.login.url, that URL is used as the URL for the redirection. If no URL is specified, the portal determines the default page for the current user and sends a redirect to that page in the protected portal area.

redirect.login.ssl = (false)

Turns on SSL in the system-defined redirection after successful login. If no URL is specified, the redirect URL uses HTTPS.

redirect.login.url [optional] = <none>

URL for redirection after successful login. If no URL is specified, the portal determines the default page for the current user and sends a redirect to that page in the protected portal area.

Note that redirect.login.url proves to be problematic with Virtual Portals since the property does not allow relative URLs.

You might be able to override redirect.login.url using WasReqUrl

redirect.login.authenticated.url [optional] = <none>

URL for redirection after the first access to a protected page when the user has already been authenticated by an external security manager (TAI) and a portal session does not exist yet. If no URL is specified, the portal either displays the protected page that was originally requested, or, if session resume is enabled, the last page that the user had accessed in the previous session.

redirect.logout = (false)

Turns on user-defined redirection after successful logout. If a URL has been specified under redirect.logout.url, that URL is used as the URL for the redirection. If no URL is specified, the portal determines the default page in the public portal area and sends a redirect to that page.

redirect.logout.ssl = (false)

Turns on SSL in system-defined redirection after successful logout.

If no URL is specified, the redirect URL uses HTTPS.

redirect.logout.url = <none>

URL for redirection after successful logout. If no URL is specified, the portal determines the default page in the public portal area and sends a redirect to that page.

ldapserviceattributename.attribute [optional] = (uid)

Determine that portal workflow integration uses a dedicated user attribute when identifying individual users on WebSphere Process Server. Set this property to the user attribute that is used by WebSphere Process Server during task authorization. WebSphere Process Server uses the J2EE principal name for this purpose.

By default the J2EE principal name maps to the uid user attribute in most LDAP servers, except for Domino servers. Domino LDAP servers use the cn attribute by default, therefore for such a configuration set the ldapserviceattributename.attribute to the value cn.

Optional.

multiple.realms.enabled = false

Multiple Realms Support parameters to allow login with uid@realm.

multiple.realms.login.default.realm = <none>

Multiple Realms Support parameters to allow login with uid@realm.

multiple.realms.user.dn.template = <none>

Multiple Realms Support parameters to allow login with uid@realm.

host.name = <none>

The default is that no value exists for host.name. In this case, portal URLs start with the host name of the incoming request. If you want the host name in URLs be static, you enter a host name here. For example, in case of a cluster installation you can enter the name of the network traffic dispatcher here. If a host name is entered, this entry is used to create the portal URLs.

host.port.http = <none>

The HTTP port (normally 80).

host.port.https = <none>

The HTTP-SSL port (normally 443).

security.css.protection = (true)

Whether Cross-Site-Scripting security protection is turned on. The default is true for enabling the protection.

redirect.commands = (false)

Specifies that a portal command is followed with an HTTP redirect.

This way URLs can be bookmarked. Using this feature results in a certain performance overhead. Therefore it should only be used if needed.

uri.context.path = (/wps)

The context path under which the portal is running.

uri.context.path.facade = (/wsrp)

The context path for the additional WAR file that is used as a facade Web application for your WSRP implementation.

Enables you to use Secure Socket Layer (SSL) with Client Authentication for WSRP and simultaneously use other means of authentication for the portal, for example form based authentication. This separation is required as J2EE allows only for one authentication mechanism per WAR file.

uri.home.public = (/portal)

The servlet context of the portal engine for public (or anonymous) pages, i. e. pages that users can view without entering a user ID or password.

uri.home.protected = (/myportal)

The servlet context portal engine for protected (or personal) pages. i. e. pages that users can only view by entering a user ID and password.

uri.home.doc = (/doc)

The servlet context of the portal engine for the documentation area.

uri.home.substitution = (false)

Whether a public URL should be translated to a protected URL if a user session exists.

wsrp.resourceproxy.basic.auth.credentialslot = <none>

On a WSRP Consumer portal you can use this property to specify a credential vault slot that contains the user ID and password credentials.

The resource proxy servlet will use the credentials from the credential vault slot when fetching resources that are protected by HTTP basic authentication. The user ID and password will be sent to all remote resources that are referenced in the markup of the remote WSRP portlet.

wsrp.resourceproxy.no.header.forwarding = <none>

On a WSRP Consumer portal you can use this property to specify the list of HTTP headers that are not forwarded from the client request in addition to the host header and cookie headers. The host header and cookie headers are never forwarded independent of how this property is set.

persistent.session.level = (0)

Level on which the persistent session should operate.

For more details about persistent session state and its possible options refer to Configure user session persistance.

persistent.session.option = (0)

Whether the user gets the option to resume the session.

If set to 0, the level setting for the property persistent.session.level (see above) is applied during login, and the user has no choice whether to resume the previous session or not. If you give users the resume option by setting this property to 1, you should configure the persistent session preservation level by setting the parameter persistent.session.level above to 1 or 2.

For more details about persistent session state and the possible values for this parameter refer to Configure user session persistance.

timeout.resume.session = (false)

Whether resuming the session after a session timeout requires user authentication. Default is false.

If this property is set to false and the user tries to continue working after a session timeout, the portal shows an error message stating that the session has timed out and the user has to log in again. If set to true, the portal ignores the session timeout and does not show the error message. The user can resume the previous session without authentication and continue to work. In both cases the previous session is resumed according to the setting of the persisted.session.level property described above.

session.security.use.errorcode = (true)

Whether the portal performs a redirect or displays an HTTP error, if session security support is enabled for the portal server and the user in the session does not correspond to the authenticated user in the request.

Session security support is a hardening feature of WAS. You can activate it for each appserver in the application console under...

Web Container Settings | Session Management

If this session security support is active, the appserver checks for each authenticated request whether the user who owns the current session matches the user who originated the request.

For example, this can be determined by the LTPA token.

The portal service configuration property only specifies how the portal behaves, if it detects a mismatch between the session user and the authenticated user.

If set to true, the portal returns the HTTP error code that you define by the property session.security.errorcode.

This typically results in an appropriate error message being displayed.

If you set this property to false, you can specify a redirect URL by using the property session.security.redirecturl.

For example, you can redirect to a specific error page which is then displayed to the user.

By default this property is set to true.

For further information about session security support in general refer to the WAS information center.

session.security.errorcode = (409)

HTTP error code that is returned if all of the following conditions apply:

1. Session security support is enabled in the WAS.

2. The property session.security.use.errorcode is set to true.

3. A mismatch of the user in the session and the authenticated user is detected.

You must specify a valid HTTP error code. The default is error code 409.

session.security.redirecturl = <none>

Redirect URL to which portal redirects if all of the following conditions apply:

1. Session security support is enabled in the WAS.

2. The property session.security.use.errorcode is set to false.

3. A mismatch of the user in the session and the authenticated user is detected.

You must specify a value for this property, if the property session.security.use.errorcode is set to false. This property has no default.

portal.session.protection = (true)

For each authenticated portal request, portal checks whether the user in the portal session matches the calling user of the current request. If this results in a mismatch, the portal invalidates the existing session and creates a new one for the calling user to make sure that both identities match.

The portal provides this hardening feature, which is independent of the session security support provided by WAS. By default this property is set to true, therefore by default the portal performs this check.

portal.enable.filtering = (true)

Whether the portal should use Portal Filtering or not. The default is true.

portlet.url.find = <none>

URL that is used for find and set in global settings portlet.

portlets.unauthorized.visible = (false)

What a user sees if they are not authorized to view a portlet.

portletcontainer.std.custom.windowStates = <none>

Custom window states that are handled by the portal. This allows portlets to specify custom window states as defined in the Java Portlet Specification 1.0.

The portal allows portlets to generate URLs and consequently invoke other portlets with a custom window state if both of the following preconditions apply:

• The invoked portlet specifies a custom window state in its deployment descriptor ( portlet.xml ).

• That window state is registered by using this property.

The property value is a comma separated list of custom window states. An example is:

portletcontainer.std.custom.windowStates=winState1,myWinState

allow.derived.titles = (true)

Determines if the title and description of derived pages can be redefined by users. If the value is set to false, titles and description of pages can only be changed on non-derived pages.

wps.mappingurl.portal_url_identifier = (/!ut/p)

Identifier for Portal URLs. For the specification of the format of this property refer to the topic about URL mapping.

wps.mappingurl.enabled = (true)

Whether URL Mapping is enabled or not. Possible values are true to enable URL Mapping, or false to disable URL Mapping.

navigation.portletmenu.mode = (1)

Defines the way portlet menus are integrated in the overall portal navigation menu structure.

Portlet menus are navigation parts that are provided by the portlet itself. They can be added as a subtree to the navigation menu item that references the page in which the portlet resides.

Options...

0 Disabled	Portlet Menus are not displayed in the navigation menu at all.
1 Current selection	Only the portlet menus of the portlets that reside on the currently selected page are added below the navigation menu item for that page. Default.
2 Everything	The portlet menus of all portlets on all pages are added below the appropriate navigation menu items in the navigation tree.

navigation.expansion.defaultstate = (false)

Whether the nodes in the navigation tree are expanded or collapsed by default. The default is false, which means that the nodes are collapsed. Some exceptions apply; for example, the Portal Administration navigation tree is expanded by default.

Setting this to true does not affect Web 2.0 themes, as the expansion state is not returned from the portal REST service.

page.reload.interval = (0)

Page reload interval for unauthenticated users.

Interval in minutes after which the portal page hierarchy should be reloaded for an unauthenticated user.

The reload respects the most current access control settings for that user. If this value is set to zero, no automatic reload occurs during the session.

wsrp.caching.enabled = (true)

Enable or disable WSRP markup caching. The default for this parameter is true. This means that WSRP markup caching is enabled, if no value is specified for this parameter.

friendly.enabled = (true)

Whether friendly URL names can be set for portal pages in the Manage Pages portlet. Default is false .

If set to true, you can add friendly URLs for portal pages in the Manage Pages portlet. "Friendly" means that you can use a name that is easy to remember.

To add a friendly URL for a portal page, click the Edit Page Properties icon for the page for which you want to add a friendly URL. You can then give the portal users that URL, and they can access that page by entering the URL in the Address field of their browser.

PortletResponse headers

portletcontainer.response.headers.additionallyNotAllowed = <none>

There is a predefined set of response header fields which are not allowed to be used in portlet response fields. In addition to these predefined header fields it is possible to define additional fields, which are then also prohibited to be included into a portlet response header.

Values must be separated by commas, if more than one field is specified.

The following list shows the header fields of the HTTP 1.1 (RFC 2616) specification that are by default not allowed to be set:

6.2 Response Header Fields

The response-header fields allow the server to pass additional information about the response that cannot be placed in the Status-Line. These header fields give information about the server and about further access to the resource identified by the Request-URI.

• Accept-Ranges (Section 14.5)
• Location (Section 14.30)
• Proxy-Authenticate (Section 14.33)
• Server (Section 14.38)
• Vary (Section 14.44)
• WWW-Authenticate (Section 14.47)

7.1 Entity Header Fields

Entity-header fields define meta information about the entity-body or, if no body is present, about the resource identified by the request. Some of this meta information is optional; some might be required by portions of this specification.

• Allow (Section 14.7)
• Content-Encoding (Section 14.11)
• Content-Language (Section 14.12)
• Content-Length (Section 14.13)
• Content-Location (Section 14.14)
• Content-MD5 (Section 14.15)
• Content-Range (Section 14.16)
• Content-Type (Section 14.17)
• Expires (Section 14.21)

• Last-Modified (Section 14.29)

4.2 Message Headers

HTTP header fields, which include general-header (section 4.5), request-header (section 5.3), response-header (section 6.2), and entity-header (section 7.1) fields, follow the same generic format as that given in Section 3.1 of RFC 822 [9]. Each header field consists of a name followed by a colon (:) and the field value. Field names are case-insensitive.

portletcontainer.response.headers.forceAllowed = <none>

Re-enable the usage of the fields listed above which are by default prohibited header fields.

Values must be separated by commas, if more than one field is specified.

portlet.enable.transcoding = (true)

Whether transcoding is enabled.

portlet.automaximize = (false)

If set true, the portlet window is maximized when a portlet is set into edit, configure or help mode.

proxy.enable.app.config = (false)

If set to true, the AJAX proxy ignores all proxy-config.xml files inside portlets.

Deployment Service

The Deployment Service provides services for accessing the configuration parameters required for the portlet deployment.

The portlet deployment component is responsible for the integration of portlets into the portal. It handles the correct deployment of portlet applications and their WAR files into WebSphere Portal and WAS. It uses the WAS management services for the physical deployment and management of WAR files in the WAS. Management of WAR files includes installing, removing, redeploying, starting, and stopping portlet applications.

WebSphere Portal V6.1.5 has the configuration separated into two types:

• Deployed configuration. This is read-only. The deployed configuration is always read from the file portlet.xml.

• Administrative configuration. This is read/write.

The deployed configuration can be modified by administrative changes, for example, by using administrative portlets or the XML configuration interface. The administrative configuration is never overwritten by changes to the deployed configuration.

Portlet applications appear in the Enterprise Application list on the administrative console of WAS. However, you should never manage them from outside the portal. Instead, manage them by using the portal administration portlets or the XML configuration interface of the portal. You recognize Web applications which comprise a portlet application by their administrative name, also called the display name. It is shown in the administrative console. You can identify the name of such a portlet application by a portal specific identifier prefix PA_<name> .

This identifier is appended to the name. An example for such a name is PA_WPS_Welcome . The name in turn is derived from the name of the WAR file when the portlet application is installed. You can change this administrative name with an update of the portlet application.

In the following list of parameters the values given in parentheses are the default values.

was.admin.host = (localhost)

The WAS administrative host name. Used to adapt to the WAS bootstrap host name, if the default is not applicable.

use.admin.user = (true)

Select between two user authentication mechanisms for the portal Portlet Deployment Manager to authenticate with the WAS administrative services when portal security is enabled. Specify one of the following two possible values:

true

Use a single preset shared user ID for all portal administrative users who issue WAR deployment requests. Default.

This is a separate user ID that is common for all users who are allowed to perform install or manage applications tasks. You must register this user ID with WAS Console User Administrator rights.

false

Use the actual user ID by which the administrator issues the WAR deployment request. Every portal user with portlet deployment rights must be added to the WAS Console User list with administrator rights. Alternatively, you can add the complete group of portal administrators to the WAS Console Group administrator rights.

was.notification.timeout = (300)

Timeout value (in seconds). Specifies how many seconds the deployment tasks waits for an appserver event during the management of WAR files. This value may have to be increased on large portal installations.

portletapp.starting.weight = (100)

Value for the starting weight of the portlet applications (war files). To ensure the correct initialization sequence, this value must be higher than the starting weight of the portal itself.

portletapp.shared.library.list

List of library references which are added to each deployed WAR file during deployment. You can specify multiple references separated by a comma ( , ).

The library references must have already been defined in the appserver, and the JAR files must have already been deployed at the location assigned in the reference definition.

portletapp.reload.enabled = preserve

Reload property of the deployed WAR file. Can have the following values:

true

Enables reloading mode for all WAR files.

Use this value only for portlet development and portlet debugging purposes, but not for production environments.

false

Disable reloading mode for all WAR files. Default.

preserve

If specified, the setting from the file ibm-web-ext.xmi is applied, if available.

The default setting is false.

Do not enable reloading in a production environment. Enable reloading only for portlet development and portlet debugging purposes.

discard.config.interval = (60)

Minimum time interval for which the configuration service workspace that is used during WAR file deployment is kept. After this time expires, the workspace is discarded when the portal runs the next deployment task. The unit of measure is minutes.

Valid values...

-1

Never discard the workspace.

0

Always discard the workspace immediately after the action that required the workspace has been completed.

> 0 (numerical value greater than 0)

Time interval (in minutes) for which a workspace is retained before it is discarded. It is then rebuilt for the next deployment task.

Use good judgement when setting this property. The proper use of this setting must be a compromise between performance and workspace consumption for the following reasons:

• Discarding the workspace frequently has a negative impact on deployment performance. The larger the portal installation is, the longer it takes to discard and rebuild the workspace to save the configuration changes during WAR file deployment.

• However, retaining a workspace keeps the wp_xxx   temporary directories in the WAS wstemp directory. Consequently, the temporary space that they occupy in the file system grows every time a WAR file is deployed and every time the portal is restarted.

  The configuration service workspace is not discarded immediately after expiry of the time interval that you set. The cleanup is done the next time that a deployment operation is called. It checks for expired changes and discards the workspace that they occupy. If further deployment operations occurred after the last time that the timer interval expired and the workspace was released, the changes in the last allocated workspace remain in the file system even on portal shutdown. Nevertheless, the previous cleanup reduces the volume of occupied disk space to only those temporary files that were processed after the last cleanup interval.

The following values define file locations. All these settings have default values and should only be enabled and modified if the defaults are not appropriate.

delete.temp.files = (true)

Whether temporary files that were created during deployment in the directory application.repository.dir.name/temp are deleted or kept. The default is true , which means that the files are deleted. Change the value to false only for debugging purposes so that you can view the content of the temporarily expanded WAR files. When you have completed debugging, change the value back to true and delete the directories manually. If you change the value to false, be aware that the hard drive space required by the temporary directory grows with each WAR file that you add or update.

shorten.deployment.names = (true)

Enforce shorter file names during deployment.

Some platforms, such as Windows impose a limit to the length of a file path. This can cause deployment to fail if the resulting path is too long.

deployment.names.limit = (21)

Threshold value for portlet application file and display names. Longer names will be shortened if required.

The following setting is for debug purposes only. Enable it only when instructed to do so by support personnel.

deployment.debug.log.times = (false)

Data Store Service

WebSphere Portal uses a database to store configuration data for pages, clients, markup, and all other resources.

The DataStore Service is responsible for managing the data source of the portal as configured while installing WebSphere Portal. Normally there should not be a need to modify any of the configuration parameters in the DataStore service. The DataStore service parameters are listed in the following:

scheduler.cleanup.enabled = (true)

Whether deletion of portal pages is performed later by the scheduled cleanup service, or immediately after the user completes the deletion task. This affects the deletion of portal pages and all their dependent resources, such as components and portlet instances.

The default is true, which means that deletion of portal pages is delayed and performed by the cleanup service.

Even if this parameter is set to true and delayed cleanup, deleted pages are no longer visible to users immediately after deletion.

For details about this parameter and how to schedule the cleanup service, refer to Delayed cleanup of deleted portal pages.

datasource.machineid

The value for this parameter is equivalent to the MAC address of the server. It consists of a string of 12 hexadecimal figures.

Do not change the value for this parameter.

The following properties are domain specific properties. They are paired. The last three pairs are analog to the first pair. The possible valid values listed under the first property xxx.datasource.dbms of the first pair can also be specified for the first property of the following pairs.

Do not assign the same schema name twice for database domains that reside in the same database instance.

For example, if the release database domain resides in a database named DB1 and uses the schema SCHEMA1, no other domain in the same database instance can use that same schema name SCHEMA1.

This restriction applies to domains that are in the same database instance only. Using the same schema name more than once in different database instances of the same database management system is no problem.

rel.datasource.dbms = your_DBMS

Database management (DBMS) system for the release database domain. Default is DERBY.

Valid values are listed in the following table. They are also valid for the property xxx.datasource.dbms properties in the three property pairs listed further below.

DBMS used	DBMS value for xxx.datasource.dbms properties
Apache Derby	DERBY
IBM DB2 Universal Database for z/OS	DB2_ZOS
IBM DB2 Universal Database Enterprise Server Edition	DB2
IBM DB2 for iSeries	DB2_ISERIES
Oracle Enterprise Edition	ORACLE

rel.datasource.schema = ( RELEASE )

Schema used for database objects in the release database domain.

cust.datasource.dbms = your_DBMS

Database management system for the customization database domain. Default is DERBY.

For valid values refer to rel.datasource.dbms.

cust.datasource.schema = ( CUSTOMIZATION )

Schema used for database objects in the customization database domain.

comm.datasource.dbms = your_DBMS

Database management system for the community database domain. Default is DERBY.

For valid values refer to rel.datasource.dbms.

comm.datasource.schema = ( COMMUNITY )

Schema used for database objects in the community database domain.

jcr.datasource.dbms = your_DBMS

Database management system for the JCR database domain. Default is DERBY.

For valid values refer to rel.datasource.dbms.

jcr.datasource.schema = ( JCR )

Schema used for database objects in the JCR database domain.

The following property specifies the database domain tracking daemon setting:

domain.tracker.wait = (1000)

Time for which the domain tracking daemon waits for a response by the database domain until it polls again. The value is specified in milliseconds. Default is 1000 (milliseconds), which is equivalent to 1 second.

This daemon does not poll continuously, but only in case of errors. Therefore increasing this value will not reduce normal database traffic.

For further information about data sources and their configuration, refer to the WAS Handbook.

Loader Service

The Loader Service is responsible for dynamically loading class files in four categories: commands, and supporting classes for screen templates, skin templates, and theme templates. The service does so by looking up a given (class) name in different packages. Upon loading the respective class file, an instance of that class is returned. To optimize the efficiency, the implementation of the service is free to cache loaded class files or instances and return a cached instance. That means, that the implementation of any such classes must be thread-safe.

In cases where additional or alternative commands are required, the following configuration properties can be modified:

command.path

The package prefix(es) in which commands are searched.

Localizer Service

The Localizer Service provides access to the configured default locale and the system default locale. It also provides a list of supported bidirectional languages.

Giving the system default locale is necessary because Locale.getDefault() is set to the default.

Although the locale is set during installation time, it is possible to change the locale at a later time by modifying the following properties in the LocalizerService:

locale.default.language

The language of the locale, for example, EN or PT.

locale.default.country

The country or region code of the locale, for example, US or BR.

locale.default.variant

The variant code of the locale.

The default language must be supported by WebSphere Portal. If you leave all three parameters without a specified value, the system locale is used as the default locale.

All parameters are case-insensitive.

The ISO standard ISO-639 is used for the language codes of most languages.

For Hebrew the old language code iw is used. The ISO standard ISO-3166 is used for the country/region codes.

Mail Service

The Mail Service allows you to configure the properties that are used by the feature Enable sending e-mail to new members for composite application communities.

mail.from.fallback = ( root@your.host.com )

Replacement e-mail address that the mail sending service will use if a sender address does not comply with RFC822. - The mail sending service checks that the sender address of each e-mail complies with RFC822. If the sender address does not comply with RFC822, that sender address is replaced by the e-mail address specified by this property. The default is root@your.host.com .

This is an example e-mail address; its format is valid by RFC822, but it does not point to real address.

mail.jndi.name = ( mail/PortalMailService )

JNDI name of the mail session that is to be used. The default is mail/PortalMailService .

Navigator Service

The Navigator Service allows you to specify cache scope and cache expiration. Depending on your configuration, you might be able improve your performance by modifying these settings.

Settings that influence remote caching...

Key	Meaning	Default value
public.session	Set to true to give anonymous users a public session for public pages. The setting of public.session influences the If public.session is set to true, then the remote cache scope is set to non-shared (private). If public.session is set to false, then the cache scope is set to shared (public). If public.session is set to true, performance may suffer.	false
public.expires	Cache expiration time (in seconds) for caches outside of WebSphere Portal and for unauthenticated pages only. These caches must adhere to the HTTP 1.1 specification (RFC 2616). The public.expires key specifies the time after which HTTP caches should drop the response. This can be further restricted by the remote.cache.expiration key (see below). This value is used as a maximum value for the cache expiration time and as a global default value for unauthenticated pages. If the setting remote.cache.expiration is also set to a value greater than or equal to 0, the smaller one of the two values is used. WebSphere Portal calculates and aggregates the remote cache information, that is the scope and expiration time, by a number of parameters contributed by themes, pages, and portlets besides the settings described here. Therefore WebSphere Portal can do any of the following internally while processing a request: Reduce the cache lifetime Reduce the cache scope, for example, from public (shared) to private (non-shared) Switch off the overall cachability of pages. Therefore this value might not be static for all responses resulting from requests to unauthenticated pages. The response of WebSphere Portal sets the following header fields: The Expires header with the expiration time added to the system date and time. The Cache-Control : max-age = header with the expiration time as its parameter. The default setting specified in this file is 60 seconds. If no value is specified, WebSphere Portal defaults the value to 60 seconds.	60 (sec)
remote.cache.expiration	Maximum cache lifetime (in seconds) of a page, both public and private. Use this setting to specify a global value for the expiration of pages in remote caches. Setting this value to 0 switches caching off in remote caches. If the legacy setting is not available, this setting is used for authenticated and unauthenticated pages. If the legacy setting is available, then the smaller of the two values is used for unauthenticated pages only. In this case the remote.cache.expiration setting is used for authenticated pages in general. If theme, composition, and portlets contribute remote cache information, then the global settings also contribute to the information. In this case the lowest of the values of all contributors is used, including the global settings. The default setting specified in this file is 60 seconds. If no value is specified, WebSphere Portal defaults the value to zero (0 seconds).	0 (sec)
remoteCacheInfo.response.header.vary	HTTP headers that force a proxy to cache different variants of the same URL. Use this setting to specify a comma separated list of HTTP header fields to which WebSphere Portal should refer in its vary field of the generated HTTP response. This is required to ensure that proxy caches can invalidate entries in their cache if the specified header fields do not match from request to request.	User-Agent
public.cache-control	Value which is set for the cache-control HTTP header field when the portal generates a response in request for public pages. This header field controls the behavior of all caching mechanisms along the request/response chain.	no-cache
private.cache-control	Value which is set for the cache-control HTTP header field when the portal generates a response in request for private pages. This header field controls the behavior of all caching mechanisms along the request/response chain.	no-cache

Registry Service

The RegistryService loads and caches a small number of objects which are regularly accessed in the engine. This improves performance, however the trade off is that the cached objects are possibly stale compared to their database counterparts. This applies particularly in a cluster environment.

If the age of those objects causes a problem, try reducing the refresh rate for the respective entities.

default.interval = (1800)

The default interval for refreshing a bucket. The amount is specified in seconds, for example default.interval = 1800.

bucket.<bucket-name>.class

The type of class that the bucket with the given name is caching.

bucket.<bucket-name>.reload [optional = true]

Whether or not the bucket with the given name is reloaded in frequent intervals.

bucket.<bucket-name>.interval = (default.interval)

The length of the reload interval for the bucket with the given name. If no value is set, the default.interval setting is used.

bucket.<bucket-name>.sorted [optional = false]

Whether or not the bucket with the given name needs to keep the cached objects in a sorted order. The sorting order is determined by the objects themselves.

The bucket names...

theme

The theme bucket is used to cache the database representation of all themes stored in the database.

language

The language bucket is used to cache the database representation of all languages that are stored in the database.

skin

The skin bucket is used to cache the database representation of all skins stored in the database.

language

The language bucket is used to cache the database representation of all languages stored in the database.

client

The client bucket is used to cache the database representation of all clients stored in the database.

markup

The markup bucket is used to cache the database representation of all markups stored in the database.

Portlet Container Service

This section lists and describes the PortletContainer service related settings.

legacy.portlet.enable.filtering = (true)

Flag that determines whether or not to use Portlet Filtering.

The portlet container service also contains the properties for configuring parallel portlet rendering. For details refer to the separate topic about parallel portlet rendering Parallel portlet rendering.

Pipe Pool Service

Pipes are used to buffer content.

For example, for parallel portlet rendering the pipes are used to pass portlet content between threads.

To improve performance, all pipes are held in a pool for reuse. Configuration settings for the pool are located in the PipePoolService.

Variations in the usage of the pipes result in increase or decrease of the pool size. You can configure the pool size to be more stable by increasing the strength of the hysteresis function. This smoothens how directly the pool size follows the number of accesses. A second property defines the compacting rate, that is how often the pool size is actually reduced as determined by the hysteresis function.

parallelRenderingPoolHysteresis = (10)

Number of accesses to the pool that determines the strength of the hysteresis function. The default is 10.

parallelRenderingPoolCompactRate = (300)

How many seconds the pool size is actually reduced. The default is 300 seconds (= 5 minutes).

The pipes are also known as queues. You can configure pipes that are managed by this pool by setting the following parameter:

parallelRenderingPoolQueueSize = (5120)

Size of the queues in bytes.

The default is 5120.

For details refer to the separate topic about parallel portlet rendering Parallel portlet rendering.

Content Access Service

Portlets can access content from remote systems that are located on the other side of a firewall by invoking the Content Access Service. The following settings are used to configure the Content Access Service, but only for those portlets that call this service. You can configure these settings at either of the following locations:

• Under the WP PortletServiceRegistryService in the admin console.

• In the property file PortletServiceRegistryService.properties under the items beginning with com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.no.proxy.for =

Specifies host names for which ContentAccessServices does not use a proxy, even if a proxy is configured. Values must be separated by semicolon ( ; ). Wildcards are not supported.

Example:

com.ibm.wps.pe.pc.legacy.service...no.proxy.for =localhost;127.0.0.1

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.protocol.handlers =

Assigns additional URL protocol handlers that Java uses to handle connections to various URL protocols. Values must be separated by a vertical bar ( | ). The default is usually sufficient, as it supplies a handler for HTTPs URLs.

Example:

com.ibm.wps.pe.pc.legacy.service...ServiceImpl.protocol.handlers = com.ibm.net.ssl.internal.www.protocol

Proxy protocol and port settings

This section allows you to specify proxy protocol and port settings for different protocols. You must specify for each protocol the name and port number of the proxy servers that you use.

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.proxy.http.host = hostname

HTTP proxy host for HTTP URLs.

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.proxy.http.port = port number

Port for the HTTP proxy. If not specified, 80 is used as the default value.

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.proxy.https.host

HTTP proxy host for HTTPs URLs. The proxy must support CONNECT requests, otherwise known as 'tunneling' requests.

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.proxy.https.port

Port for the HTTP proxy. If not specified, 80 is used as the default value.

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.socks4.host

SOCKS V4 proxy host for any URL.

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.socks4.port

Port. If not specified, 1080 is used as the default value.

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.socks5.host

SOCKS V5 proxy host for any URL.

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.socks5.port

Port. If not specified, 1080 is used as the default value.

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.proxy.auth.enabled

Specifies if authentication should be tried for proxied connections. - This applies to the proxy server, not to the origin server from which the ContentAccessService is fetching. Also, this only applies to HTTP proxy (with settings from proxy.http.* and proxy.https.*) and SOCKS proxy (with settings from proxy.socks4.* and proxy.socks5.*).

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.proxy.auth.credentialslot

Specifies if proxy authentication should be used for connections that use a proxy server. Provide the user ID and password in a credential slot of the portal credential vault.

You must also specify the name of this slot in the content access service configuration. The credential must have the type UserPasswordPassive. Proxy authentication applies to the proxy server, not to the origin server from which the ContentAccessService is fetching. Also, this only applies to HTTP proxy (with settings from proxy.http.* and proxy.https.*) and SOCKS proxy (with settings from proxy.socks4.* and proxy.socks5.*).

If no proxy host is set, WebSphere Portal tries to load all URLs directly. If no port is set, the default port for HTTP (80) is used. Alternatively, you can socksify the TCP/IP stack of your system.

Examples:

The name of the HTTP proxy host:

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.proxy.http.host = host.somewhere.ibm.com

The name of the HTTP proxy port:

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.proxy.http.port = 80

The name of the tunneling HTTPs proxy host:

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.proxy.https.host = securehost.somewhere.ibm.com

The name of the HTTPs proxy port:

com.ibm.wps.pe.pc.legacy.service.ContentAccessServiceImpl.proxy.https.port = 443

HTTP client service

Several components of the portal need to open HTTP or HTTPs connections to other resources. The HTTP Client Service provides a central point for configuration properties to these outbound connections. You can set global settings for the SSL configuration and proxy server usage.

These settings do not currently replace all individual portlet proxy configuration settings. To set the proxy settings for specific portlets, consult the documentation for each portlet for how to modify their specific settings.

Some functional components of the portal can overwrite each of the settings if the component configuration differs from the global value. The following describes the global settings only; if a component allows you to set component specific properties, these are described in the respective component documentation.

global.ssl.configuration = (NodeDefaultSSLConfig)

Name of an SSL configuration to be used for secure communication as defined in the WAS security configuration.

global.sso.domain = domain name

Domain that starts with a dot, for example .a.com and denotes the range of hosts to which single-sign on cookies, such as LTPA, are forwarded from a client request. If the property is not set, single sign-on cookies are not forwarded to any remote host.

global.proxy.http.host = host name

Proxy host for HTTP URLs. If no proxy host is set, the portal tries to load all HTTP URLs directly.

global.proxy.http.port = port number

Port for the HTTP proxy. If no value is specified, 80 is used as the default value.

global.proxy.https.host = host name

Proxy host for HTTPs URLs. If no proxy host is set, WebSphere Portal tries to load all HTTPs URLs directly.

global.proxy.https.port = port number

Proxy port for HTTPs URLs. If no value is specified, 443 is used as the default value.

global.proxy.auth.credentialslot = slot name

Set if you want proxy authentication to be used for connections that use a proxy server. Provide the user ID and password in a credential slot of the portal credential vault.

You then specify the name of this credential slot in this property.

The credential must have the type UserPasswordPassive. Proxy authentication applies to the proxy server only, not to the target server of the outbound connection.

global.proxy.excludehost = host name

Particular host for which no proxy connection is used, even if a proxy is configured. Set this property multiple times. Specify one setting for each host that is excluded from proxy connections.

Cache Manager Service

The Cache Manager Service is responsible for managing the different caches used in WebSphere Portal V6.1.5. The portal provides two different types of caches: shared and non-shared.

Shared caches

The shared caches are cluster aware. This means that deleting an element from the cache on one cluster node results in deleting that element from the corresponding cache instances on all other nodes. This ensures that frequently changing data are kept consistent over the whole cluster installation.

Non-shared caches

The non-shared caches are used for data where cluster awareness is of no concern. This avoids unnecessary network communication overhead.

Plan well ahead and apply special care when modifying these parameters. There are two levels of parameters:

cacheglobal

Default settings used for all caches unless explicitly overridden by the corresponding cache instance parameter.

cacheinstance.cacheidentifier

Override a global setting, for example the size of the cache, for a specific instance of a cache.

Changing some or all of these settings can dramatically improve or impair portal performance. Therefore it is recommended not to change the shared setting for any cache unless the consequences are absolutely understood and agreed. To determine the optimal values for the size, lifetime, admit-threshold and replacement parameters, monitor the cache parameters during the staging phase of the portal installation. Use the Tivoli Performance viewer, that is the PMI client to find the optimal settings for your environment.

The parameters for the Cache Manager Service for both shared and non-shared caches...

cacheglobal.enabled = [ true | false ]

cacheinstance.cacheidentifier.enabled = [ true | false ]

Whether caching is enabled or not.

Use this parameter with care !

cacheglobal.size = number

cacheinstance.cacheidentifier.size = number

Number of elements that can be put into the cache before eviction takes place. The eviction uses a "near LRU" algorithm.

cacheglobal.shared = [ true | false ]

cacheinstance.cacheidentifier.shared = [ true | false ]

Whether a cluster-aware cache is to be used or not.

cacheglobal.lifetime = number

cacheinstance.cacheidentifier.lifetime = number

Lifetime of elements in the cache in seconds. When the specified lifetime is up, elements are not discarded from the cache immediately. They are evicted when the next element is inserted. Specifying -1 means an infinite lifetime. In this case no timeout is applied and the cache entry is never evicted.

randomizePercent = number

cacheinstance.cacheidentifier.randomizePercent= number

Randomize cache entry lifetimes to some extent. If all entries in a cache have the same lifetime, this can result in high loads on the database when reloading entries, as large amounts of entries are evicted at the same time.

Specify the value for this parameter as a numeric value given in percent.

For example, a value of 25 means that all cache entry lifetimes are up to 25 % higher or lower than the default lifetime (given by the lifetime parameter above). No cache entry will have a lifetime lower than 50 % of the default value, no matter how large you specify the value for this parameter. By default no value is specified.

In this case lifetimes are not randomized, and all cache entries have the default lifetime.

If you set the default lifetime parameter above to infinite by the value -1 , the lifetime randomization setting is not applied, even if you specify a value for the radnomizePercent parameter.

You can view the actual randomized lifetime of a cache entry by enabling tracing for class...

com.ibm.wps.services.cache.AbstractCache

Set the following additional parameters for non-shared caches. (Setting them for shared caches does no harm, they will be ignored.)

cacheglobal.replacement= [aggressive | moderate | conservative]

cacheinstance.cacheidentifier.replacement= [aggressive | moderate | conservative]

Controls the eviction algorithm behavior.

cacheglobal.admint-threshold = number

cacheinstance.cacheidentifier.admint-threshold = number

Admittance threshold. Use this parameter to keep unwanted entries from the cache. An entry is cached only if it is put into the cache as often as specified by the value for this parameter. If you want each entry to be cached, set this parameter to zero ( 0 ).

The cache identifiers...

com.ibm.wps.pe.deployedresources

Cache servlet configuration information and the database representation of all Web modules stored in the database.

com.ibm.wps.pe.portletregistry

Cache the database representation of all portlets stored in the database.

com.ibm.wps.pe.portletdefinition

Cache the database representation of all portlet applications stored in the database.

State Manager Service

The State Manager Service is the access point for managing the navigational state of the portal. The navigational state represents the current view of portal resources as displayed to a user.

preprocessors = (com.ibm.wps.state.preprocessors.selection.StandardPortalSelectionImpl )

List of one or more preprocessors.

To add your own custom preprocessors, from the console...

1. Enter the default values in the same sequence as given below
2. Append custom preprocessors to the end of the list

This is for the following reasons:

1. If you specify a value for this parameter, that value overwrites the default value.
2. Default is mandatory. Therefore you cannot replace it by a different value.
3. The preprocessors must be arranged in the order given below, as for requests they are processed in that order.

The required syntax is...

(classname (, classname) * ) 1

Default is as follows:

preprocessors = com.ibm.wps.state.preprocessors.urlmapping.URLMappingPreProcessor, com.ibm.wps.resolver.friendly.preprocessors.FriendlyPreProcessor, com.ibm.wps.resolver.portal.ResolvedPreprocessor, com.ibm.wps.state.preprocessors.selection.StandardPortalSelectionImpl, com.ibm.wps.state.preprocessors.selection.FragmentSelectionImpl, com.ibm.wps.state.preprocessors.selection.ResourceSelectionImpl, com.ibm.wps.state.preprocessors.eclipse.ExtensionPreProcessor, com.ibm.wps.state.preprocessors.portlet.RequestParameterMerger

Of the values given above the following two selection preprocessors are alternative options. They process the page selected by the user. All other preprocessors are for portal internal use only and must not be changed.

Both of the following selection preprocessors are mutually exclusive. This means that they cannot be used in combination with each other.

com.ibm.wps.state.preprocessors.selection.StandardPortalSelectionImpl

Default. Implements the standard portal selection behavior which prefers displaying pages over displaying labels. If a user selects a label, the portal displays a page under that label, rather than the label itself with the message saying that there is no content available.

In this case the page displayed is the last page that the user selected under this label, or if that page is not available, the first available page below the label.

com.ibm.wps.state.preprocessors.selection.SimpleSelectionImpl

Implements a simple selection strategy, always displaying the element selected by the user, regardless of whether the user selects a label or a page.

If the user selects a label, the portal displays that label with the message that there is no content available. You can replace this value for the default value above.

keymanager.lru.size = ( integer )

History expiration limit of portal pages visited by users.

Determines how far backwards users can at least navigate in the recent history of portal pages that they visited. The number specified defines the minimum number of different pages selected by the user after which the portal can discard the render parameters of a page.

The decision whether the render parameters of the page are actually discarded depends on the expiration policy of the internal cache that stores the render parameters of those pages.

If the user returns to a page after visiting the specified number of other pages and if the render parameters of that page have expired, the portal displays that page in its default state.

You can specify by which circumstances the render parameters of a page are stored or discarded:

1	Each time that the user selects a different page, the render parameters of the portlets on the previously selected page can be discarded.
A positive integer	Required number of pages. The render parameters of a given page can be discarded after the user has visited that number of other pages.
0	Render parameters are always stored in the portal session memory and never discarded.

Do not specify a value below zero ( 0 ). Negative values are considered to be not valid.

URL normalization for search of portal pages by external search engines

URL normalization is required to enable external search engines to crawl the content of the portal.

URL normalization...

• Removes elements from a URL that are used for internal purposes.

  For example, actions coded into the URL that change the portal state.

• Reduces the portal page URL to those elements required for a crawler to read the URL and crawl the portal page.

URL normalization parameters...

com.ibm.wps.state.outputmediators.OutputMediatorFactory.normalization_xsl_file = ( UrlNormalization_MIN.xsl )

XSL stylesheet file that defines the transformation to be used for normalizing the portal URL. Set all on one line and concatenated.

The following two files are available to allow for a minimum or maximum transformation:

UrlNormalization_MIN.xsl (Default)

States for...

• portlet-mode
• window-state
• renderparameters
• selection
• locale

...in the normalized URL.

This transformation represents the minimum set of states that have to be defined in the URL. All other states are removed from the URL.

UrlNormalization_MAX.xsl

Contains the states for...

• portlet-mode
• window-state
• renderparameters
• selection
• solo
• locale
• screen-template

This maximum transformation represents the set of states that can be defined in a normalized URL for a Web crawler. All other states are removed from the URL.

The meaning of the different states listed for the minimum and maximum normalization style sheets is as follows:

portlet-mode

Portlet modes allow a portlet to display a different user interface, depending on the task that the user performs with the portlet. A portlet has five modes of display: view, help, edit, edit_defaults, config.

window-state

Portlet states allow users to change how the portlet window is displayed within the portal. Users can choose from three different states: maximized, minimized, normal.

renderparameters

Parameters set to render a portal page.

selection

Selected portal page.

solo

A portlet can also be displayed in solo state. Solo state hides the portal theme elements, such as a banner, page navigation, or tool bar.

locale

Language in which the page is presented.

screen-template

Screen that is used on the portal page.

theme-template

Theme that is used on the portal page.

You can also set up your own URL normalization.

To implement a URL normalization that is different than those provided by the two XSL stylesheets that come with the portal, create your own XSL stylesheet and set it as the value for the URL normalization parameter:

1. Here is an example for creating your own XSL stylesheet:

   <?xml version="1.0" encoding="UTF-8"?>
   <xsl:stylesheet version="1.0" 
                   xmlns:xsl="http://www.w3.org/1999/XSL/Transform">
   
        <xsl:output method="xml" 
                    version="1.0" 
                    encoding="UTF-8" 
                    indent="yes"/>
   
        <xsl:template match="text()">
   
        </xsl:template>
   
        <!-- Traverse through the tree starting at the root element -->
        <xsl:template match="root">
   
             <xsl:copy>
                  <xsl:copy-of select="@*"/>
   
                  <!-- Search for the state node with the attribute type = navigational -->
                  <xsl:apply-templates select="state[@type='navigational']"/>
   
             </xsl:copy>
        </xsl:template>
   
        <!-- Selection of all states which should stay coded in the URL -->
   
        <!-- Allowed States: portlet-mode, 
                             window-state, 
                             renderparameters (param, value, text), 
                             selection, 
                             solo, 
                             locale, 
                             screen-template 
        -->
   
        <xsl:template match="state">
   
             <xsl:copy>
                  <xsl:copy-of select="@*"/>
                  <xsl:apply-templates select=" . . . "/>
             ...
             </xsl:copy>
        </xsl:template>
   ... 
   ... 
   ... 
   
   </xsl:stylesheet>
   
   

2. Set the name of the new XSL stylesheet as the value for the URL normalization parameter:

   com.ibm.wps.state.outputmediators.OutputMediatorFactory.normalization_xsl_file = UrlNormalization_Your_Own_Style_Sheet_File_Name.xsl

Administrator Unique Names Mapping Service

Administration portlets and themes create URL links to other administration portlets and pages. If these links were hardcoded, they would no longer be usable if you changed the unique names of these pages. Therefore a service for obtaining those unique names is provided in the AdminUniqueNamesMappingService.

This file contains key-value pairs mapping internal keys to the actual unique names which are assigned to the referenced pages.

If you change the unique name of a portal administration page using the Manage Unique Names portlet, you also need to update that name in the properties. This is required so that the theme and administration portlets still function.

The available mappings are defined as follows:

     
     # ----------------------------------------------- #
     # Portal administration page unique names mapping #
     # ----------------------------------------------- #
     # Internal key           unique name              #
     # ----------------------------------------------- #
     #
     #CONTENT_LAYOUT          = ibm.portal.Content
     #APPEARANCES             = ibm.portal.Appearance
     #MANAGE_PAGES            = ibm.portal.Manage Pages
     #UNIQUE_NAMES            = ibm.portal.Custom Unique Names
     #ASSIGN_ROLES            = ibm.portal.Resource Permissions
     #PROPERTIES_PORTLET      = ibm.portal.Page Properties 
     #MY_FAVORITES            = wps.My Favorites 
     #ORGANIZE_FAVORITES      = wps.Organize Favorites 
     #SET_PERMISSIONS         = ibm.portal.Locks   
     #MANAGE_LOG              = ibm.portal.Enable Tracing   
     #MY_PORTAL               = ibm.portal.Home
     #ADMINISTRATION          = ibm.portal.Administration
     #PAGE_CUSTOMIZER         = ibm.portal.Page Customizer 
     #PORTLET_MANAGER         = ibm.portal.Web Modules 
     #MANAGE_MY_PORTLETS      = ibm.portal.Portlets
     #MANAGE_MY_PORTLET_APPS  = ibm.portal.Applications
     #MANAGE_WEBSERVICES      = ibm.portal.Web Services
     #IMPORTXML               = ibm.portal.Import XML
     #SEARCH_CENTER           = ibm.portal.Search Center
     #VIRTUAL_PORTAL          = ibm.portal.Virtual Portal  #LOGIN = wps.Login 
     #SELFCARE                = wps.Selfcare 
     #APP_PROPERTIES          = ibm.portal.Template and Application Properties
     #APP_PARAMETER           = ibm.portal.Template Parameters
     #APP_ROLES               = ibm.portal.Application Roles
     #APP_TEMPLATES           = ibm.portal.Templates
     #APP_MEMBERSHIP          = ibm.portal.Application Membership
     #APP_CATALOG             = ibm.portal.Catalog
     #APP_LAYOUT              = ibm.portal.Template and Application Layout
     #PZN_PICKER_PAGE         = ibm.portal.Personalization.Picker 

Examples of where these unique names are used are: Theme links for 'New Page', 'Edit Page', and 'Assign Permissions'.

Portal Security Services

The following sections describe the different configuration services provided for Portal Access Control and authentication.

Access Control Data Management Service

The Access Control Data Management Service contains the configuration settings for Portal Access Control. The domain short names have to correspond to the domain names that are defined for the Data Store Service.

The following set of properties is mandatory for each database domain that contains resources that need to be protected by Portal Access Control:

accessControlDataManagement.domain.domain_short_name.adminuser = full distinguished name of the administrative user for this domain

Define the administrative user. As the value specify a full distinguished name that corresponds to a valid entry in the associated user repository. Mandatory.

accessControlDataManagement.domain.domain_short_name.admingroup = full distinguished name of the administrative group for this domain

Define the administrative group. As the value specify a full distinguished name that corresponds to a valid entry in the associated user repository. Mandatory.

accessControlDataManagement.domain.domain_short_name.virtualresource = name of the virtual root resource of this domain

Virtual root resource. The value is the name of a virtual resource that actually exists in the domain and represents the root of the protected resource hierarchy in this domain. Meant for internal use only; do not change its value.

The administrative user and group are granted administrator roles on the full hierarchy of protected resources starting from the virtual root resource of the domain defined with the third setting. These roles are granted in addition to the portal roles of the user or group and therefore not displayed in the Access Control portlets. A valid set of values to these properties could for example look like the following:

accessControlDataManagement.domain.rel.adminuser=uid=Bob,o=Your Company accessControlDataManagement.domain.rel.admingroup=cn=Admins,o=Your Company accessControlDataManagement.domain.rel.virtualresource=PORTAL accessControlDataManagement.domain.cust.adminuser=uid=Bob,o=Your Company accessControlDataManagement.domain.cust.admingroup=cn=Admins,o=Your Company accessControlDataManagement.domain.cust.virtualresource=PORTAL accessControlDataManagement.domain.comm.adminuser=uid=Bob,o=Your Company accessControlDataManagement.domain.comm.admingroup=cn=Admins,o=Your Company accessControlDataManagement.domain.comm.virtualresource=PORTAL accessControlDataManagement.domain.jcr.adminuser=uid=Bob,o=Your Company accessControlDataManagement.domain.jcr.admingroup=cn=Admins,o=Your Company accessControlDataManagement.domain.jcr.virtualresource=PORTAL

The following additional properties of the Access Control Data Management Service are optional:

accessControlDataManagement.enableNestedGroups = (true)

Whether the group membership of groups is exploited at all by the Portal Access Control component.

Supported values are: true and false.

The default is true.

accessControlDataManagement.enableTargetResourceGroupInheritance = (false)

Whether the group membership of groups is exploited by the Portal Access Control component for permission enforcement on users or groups. If you specify false, you can only get permissions on user groups via roles on the groups and on users via roles on the direct groups of which the user is a member. Supported values are: true and false.

The default is false.

accessControlDataManagement.reorderRoleNames = (false)

Whether the role name contains the unique name or the title of the resource on which the role was created. Specify true when you use an external authorization provider, such as IBM Tivoli Access Manager, as this makes it easier to find the role names. Supported values are: true and false.

The default is false.

accessControlDataManagement.externalizeAllRoles = (false)

Applicable for externalization of resources through the user interface. the default value is false. If the property is set to false and a resource is externalized, then the following things happen:

1. The resource and all descendants of this resource that are not private and not externalized so far are externalized.

2. The roles and role mappings that exist on all resources that were identified in the previous step 1 are written into the external security manager object space.

3. For the root resource that was chosen to be externalized, a role mapping for the Administrator role for the executing user is created in the external security manager object space.

If this property is set to true, then in addition to the three steps above, roles are created in the external security manager object space for all action sets for the root resource that have not already been created in steps 2 and 3. above.

accessControlDataManagement.createAdminMappingXMLAccess = (true)

Applicable for externalization of resources through xmlaccess. If the property is set to false and a resource is externalized the following happens:

1. The resource will be externalized.

2. The roles and role mappings on the resource are written into the external security manager object space.

If the property is set to true, then in addition to the two steps above, a role mapping for the Administrator role is created for the executing user in the external security manager object space.

Connect to the user repository during startup:

Change the following two settings if you want the portal to wait and retry connecting to the underlying user repository, if it is not available during portal startup. This might be necessary in scenarios where the user repository is only available in a certain time frame after the initialization of the portal startup. As the domain administrative users and groups have to be resolved, the portal cannot start without connecting to the user repository. The service startup performs the specified number of attempts to connect to the user repository, each time waiting for the specified time interval before starting the next attempt. If none of the attempts is successful, the service startup quits with an exception.

accessControlDataManagement.ldapFailoverNumberOfAttempts = ( 1 )

Specify how many times the service startup attempts to connect to the user repository. The default is 1 (once).

accessControlDataManagement.ldapFailoverInterval = ( 60 )

Specify how long the service startup waits until it retries to connect to the user repository. This value is specified in seconds. The default is 60 seconds.

Authentication Service

The Authentication Service contains the configuration settings for portal authentication. Authentication means that users identify themselves in order to gain access to the system. Usually they do this by a user ID and password.

authentication.execute.portal.jaas.login = (false)

Enable or disable the execution of the portal JAAS login:

false

Disables the execution of the portal JAAS login. Default. Disable this property only if you have no JAAS Login Modules defined for the portal application login configuration.

true

Enables the execution of the portal JAAS login. You can enable this property if you have JAAS Login Modules defined for the portal application login configuration.

This is related to performance.

authentication.screen.login = (false)

Determine whether an error during authentication results in a redirect to an error screen or if an exception is thrown that can be caught by the Login portlet.

false

Means an error condition during authentication results in an exception that is caught by the Login portlet. Default.

true

Means an error condition during authentication results is redirected to an error screen.

Use the following properties to define the custom filters in the various authentication filter chains in the portal. Each of these properties takes a comma-separated list of the fully qualified class names of the custom filter implementations. For concept information about authentication filters refer to Configure authentication filters.

login.explicit.filterchain = <none>

Custom filters for the filter chain that is triggered for an explicit login by user name and password.

The classes listed in this property must implement the interface com.ibm.portal.auth.ExplicitLoginFilter.

login.implicit.filterchain = <none>

Custom filters for the filter chain that is triggered for an implicit login, that is if the user is already authenticated to WAS but has no portal session yet. The classes listed in this property must implement the interface com.ibm.portal.auth.ImplicitLoginFilter.

logout.explicit.filterchain = <none>

Custom filters for the filter chain that is triggered for an explicit logout. The classes listed in this property must implement the interface com.ibm.portal.auth.ExplicitLogoutFilter.

logout.implicit.filterchain = <none>

Custom filters for the filter chain that is triggered for an implicit logout, that is if the user got a session timeout. The classes listed in this property must implement the interface com.ibm.portal.auth.ImplicitLogoutFilter.

sessiontimeout.filterchain = <none>

Custom filters for the filter chain that is triggered directly after an idle timeout of the session occurred. The classes listed in this property must implement the interface com.ibm.portal.auth.SessionTimeoutFilter.

sessionvalidation.filterchain = <none>

Custom filters for the filter chain that is triggered for every request before the action handling and rendering is processed. The classes listed in this property must implement the interface com.ibm.portal.auth.SessionValidationFilter.

filterchain.properties.. = <none>

Use an arbitrary set of properties according to the above pattern to specify properties for any of custom filters. The property value is then available to the specified filter class in the SecurityFilterConfig object passed to its init method.

Credential Vault Service

You can use the Vault Service configuration to specify Vault Adapter implementations that are used by the Credential Vault Service to store credential secrets. By default two Vault Adapter implementations are available: default-release and default-customization. Those Vault Adapters store credential secrets in the portal server data store. For each implementation, define a unique string type, a class name, and a domain. Optionally, you can specify a configuration file, managing resources, and a read only flag.

You can define the following properties for each Vault Adapter Implementation Type.

In order to differentiate the settings for each type, the properties are in the format vault.type.key . Replace type by the Vault Adapter Implementation Type, and replace key by the key. The following list shows the keys that you can append:

class

Vault Adapter Implementation Class Name, but without the .class extension. Mandatory.

config

Path of a configuration file that your adapter may need . Optional.

domain = (rel)

Database domain where the segment and slot configuration data is stored. In the special case of the DefaultVault, this also specifies where the actual credentials are stored. Mandatory. Possible values are all available database domains as specified in the DataStore Service. Default is rel; this specifies the release domain.

manageresources = (false)

Whether the VaultAdapter should create and delete resources. Optional.

If you set this parameter to true, the adapter must have internal support to manage resources. If you omit this parameter, it will default to false .

readonly = (true)

Whether the underlying vault for this adapter should be considered read only. Optional.

If you set this parameter to true, the manageresources parameter is ignored. If you omit this parameter, it will default to true .

Additionally, you can set the following configuration values:

systemcred.dn

Distinguished name (DN) of the vault administrative user. All system credentials are stored under the user's account.

This key is set to the portal administrative user by default.

export.userDN

User DN value of the XML Access user allowed to import/export secrets via the XML Configuration interface. This is usually the same user DN string as defined in the same configuration file under the key systemcred.dn. This user needs authority to use the XML Configuration interface and has to be used during the import/export. Otherwise an import/export of credential secrets is not possible.

export.cipher

The cipher used during export for encryption. This cipher has to be available via Java JCE in the WebSphere Portal system. The default value is AES.

export.keyLength

Number of bits used as key length for the cipher. The default value is 128.

export.enforceSSL

This field controls if credential import/export must be done via secured HTTP connection (value=true) or if it shall be allowed to import/export credentials also via an unsecured HTTP connection (value=false). Default is true.

External Access Control Service

The External Access Control Service is responsible for collecting any authorization data from external security managers, such as eTrust SiteMinder, or IBM Tivoli Access Manager. These are the parameters set by the configuration of external security managers procedures.

The following configuration parameters can be modified in External Access Control Service. However, plan well ahead and apply special care when modifying these parameters.

General properties of the External Access Control Service:

These properties are used for general purposes of the External Access Control Service.

externalaccesscontrol.ready = (false)

This flag indicates whether the configuration in this file has been configured to connect to the External Security Manager. The default is false.

externalaccesscontrol.server = WebSphere_Portal

externalaccesscontrol.application = WPS

externalaccesscontrol.cell = cell

Role name representations are qualified with a context built by these three parameters.

For example, the Administrator@External_Access_Control/xxx/xxx is represented as follows:

Tivoli Access Manager: Protected object space entry

/WPSv6/Administrator@External_Access_Control/xxx/xxx/WPS/WebSphere_Portal/cell

eTrust SiteMinder:

resource/subrealms under Domain: WebSphere Portal v5 /cell/WebSphere_Portal/WPS/Administrator@External_Access_Control/xxx/xxx

Access Manager configuration:

Use the following properties to configure the connection between WebSphere Portal and your Tivoli Access Manager.

externalaccesscontrol.pdroot = (/WPSv6)

After you completed the AMJRTE and SrvSslCfg configuration tasks, the following directives are required to allow WebSphere Portal to use Tivoli Access Manager as an External Security Manager. Provide the root of your Protected Object Space for Portal Server entries.

externalaccesscontrol.pduser = sec_master

externalaccesscontrol.pdpw = passw0rd

Use these parameters to provide an administrative user ID and password with adequate rights in Tivoli to create, delete, modify the objects in the Protected Object Space. You can use the WAS PropFilePasswordEncoder utility to mask the password. Using PropFilePasswordEncoder will remove any comments and uncommented properties. Therefore create a backup copy of this file for future reference.

Example:

AppServer_root/bin/PropFilePasswordEncoder profile_root/PortalServer/config/properties/ExternalAccessControlService.properties externalaccesscontrol.pdpw

This command should be typed on one line in a command line window.

externalaccesscontrol.pdurl=file:///${WAS_INSTALL_ROOT}/java/jre/PdPerm.properties

URL location of the Access Manager properties file for AMJRTE. This URL must be in the format file:///directory_path_to_properties_file . HTTP URLs are not supported.

externalaccesscontrol.createAcl = (true)

Optional. Whether Access Control Lists (ACLs) are created in Access Manager for roles that are stored externally. The default is true.

If this parameter is set to false, the Access Manager administrator will be responsible for all ACL linkages between Tivoli Access Manager and WebSphere Portal. Possible values for this parameter are:

true

A Tivoli Access Manager ACL will be created for every WebSphere Portal resource. Default.

false

No ACLs will be created for portal objects.

externalaccesscontrol.pdactiongroup = ([WPS])

externalaccesscontrol.pdAction = (m)

These parameters are optional. Use these parameters to specify the action group and the customized actions to map to portal role membership. If these items do not exist, they will be created at startup.

The values given above are the default values.

Computer Associates eTrust SiteMinder Policy Server information:

Use the following properties to configure the connection between WebSphere Portal and your Policy Server.

externalaccesscontrol.domainname = WebSphere Portal v7

Domain name that is to be created in the eTrust SiteMinder administrative GUI. All realms and sub-realms will be created under this domain.

This domain will be created when starting WebSphere Portal.

externalaccesscontrol.scheme = (Basic)

Scheme that is to be to associated with the realms. You must define this scheme in eTrust SiteMinder before starting WebSphere Portal. Default is Basic.

externalaccesscontrol.agentname = wpsagent

externalaccesscontrol.agentsecret = passw0rd

Use these parameters to specify the agent name and secret to establish a run time connection with eTrust SiteMinder. The agent should be a Web agent with a static shared secret, so that Web Agents later than V4.6 of WebAgents should enable the parameter supports 4.x agents on the eTrust SiteMinder WebAgent. You can use the WAS PropFilePasswordEncoder utility to mask the password.

Using PropFilePasswordEncoder removes all comments and all properties that are commented out. Therefore make sure you create a backup copy of this file for future reference before using the PropFilePasswordEncoder utility.

An example of masking the password is:

AppServer_root/bin/PropFilePasswordEncoder profile_root/PortalServer/config/properties/ExternalAccessControlService.properties externalaccesscontrol.agentsecret

Type this command on one line in a command line window.

externalaccesscontrol.admin = siteminder

externalaccesscontrol.password = passw0rd

Use these parameters to specify the administrative user ID and password for a user who can create, delete, and modify eTrust SiteMinder objects that are used to represent WebSphere Portal roles.

This user ID must have sufficient access to domain level objects in eTrust SiteMinder. You can use the WAS PropFilePasswordEncoder utility to mask the password.

Using PropFilePasswordEncoder removes all comments and all properties that are commented out. Therefore make sure you create a backup copy of this file for future reference before using the PropFilePasswordEncoder utility.

An example of masking the password is:

AppServer_root/bin/PropFilePasswordEncoder profile_root/PortalServer/properties/ExternalAccessControlService.properties externalaccesscontrol.password

Type this command on one line in a command line window.

externalaccesscontrol.userdir = (User Directory 1)

User Directory associated with the domain. You can configure the failover for user directories in the eTrust SiteMinder administrative GUI. The user directory must exist before you start WebSphere Portal.

externalaccesscontrol.failOver = (false)

Whether the ESM subsystem should switch to another Policy Server if it cannot contact the current one. Possible values are true and false.

You can specify this property as either externalaccesscontrol.failOver or as externalaccesscontrol.failover .

It is important that this value and the number of Policy Server IP addresses that are specified by the servers property are carefully coordinated. If you specify multiple Policy Server addresses on the servers property, and this property is set to false, then the Computer Associate's Agent API will follow round-robin load balancing, by distributing or spraying requests between the configured Policy Servers. This may be appropriate for a TAI which is only doing read operations from the Policy Server(s), but not for write operations . If you have multiple servers defined in the externalaccesscontrol.servers property (following next), set failOver to true .

externalaccesscontrol.servers = server1,server2, . . .

IP addresses of all the Policy Servers. Multiple addresses need to separated by commas. An example is: servers=10.0.0.1,10.0.0.2 .

If you have multiple servers defined in the externalaccesscontrol.servers property, set the failOver property (see above) to true . You can define the following properties for each server. In order to differentiate the settings for each server, specify the keys in the format Server IP address.key=value . The defaults are assumed for any keys that you omit. The available keys are as follows:

accountingPort = (44441)

The accounting port for the Policy Server. The default is 44441.

authenticationPort = (44442)

The authentication port for the Policy Server. The default is 44442.

authorizationPort = (44443)

The authorization port for the Policy Server. The default is 44442.

connectionMax = (10)

The maximum number of connections which the authorization service may make to this Policy Server. The default is 10.

connectionMin = (1)

The initial number of connections which the authorization service will establish with this Policy Server. The default is 1.

connectionStep = (1)

The number of connections that are to be allocated if the authorization service runs out of connections to the Policy Server. The default is 1.

timeout = (20)

The connection timeout in seconds. The default is 20.

An example for server 10.0.0.1 is as follows:

    10.0.0.1.accountingPort=44441
    10.0.0.1.authenticationPort=44442
    10.0.0.1.authorizationPort=44443
    10.0.0.1.connectionMax=30
    10.0.0.1.connectionMin=10
    10.0.0.1.connectionStep=5
    10.0.0.1.timeout=60

Auditing Service

The auditing service allows you to log a set of events into a separate audit log file. All events are organized in groups. For example, the logging events User created and User deleted are grouped together and can therefore only be switched on or off together. The section Available events lists and describes the events that are available for auditing.

The audit logging output is written to the audit log file. No other log messages are written to this file. For an explanation of the contents of the audit log file refer to the section Audit log file.

Auditing service configuration

By default the audit logging service is disabled. This means that the service is loaded, but does not register any event listeners for audit logging.

The auditing service configuration is controlled by the AuditService.

audit.service.enable = (false)

Global switch. Switch the service on (true) or off (false). The default setting is false.

The actual log file access of the service can be configured by using the following two properties:

audit.logging.class = com.ibm.wps.services.audit.logging.impl.AuditLoggingImpl

Log class which writes the actual log statements to the log file. By default, this is set to the default implementation. Under normal circumstances there is no reason to replace it with another class.

audit.logFileName = log/audit_$create_time.log

Location and the name of the audit log file. The placeholder $create_time is replaced by a timestamp during filename generation. A second placeholder $APPSERVER_NAME is used for a vertical cluster configurations to make the log file name unique.

Example:

audit.logFileName = log/audit_$APPSERVER_NAME_$CREATE_TIME.log

The auditing service allows you to have the transaction ID written to the audit log file. As these transaction IDs can be very long and might not be required in every environment, you can disable the inclusion of the IDs.

audit.showTransactionID.enable = (true)

Disable transaction IDs in the audit log. To do this, change the value to false. The default value is true.

You determine the events that you want to be logged by enabling the appropriate properties as required. Set the events that you want to enable to the value true. The following groups of events are defined:

   audit.groupEvents.enable
  audit.userEvents.enable
  audit.portletEvents.enable
  audit.roleEvents.enable
  audit.roleBlockEvents.enable
  audit.ownerEvents.enable
  audit.resourceEvents.enable
  audit.externalizationEvents.enable
  audit.userInGroupEvents.enable
  audit.webModuleEvents.enable
  audit.applicationRoleEvents.enable
  audit.principalToApplicationRoleMappingEvents.enable
  audit.roleToApplicationRoleMappingEvents.enable
  audit.domainAdminDataEvents.enable
  audit.designerDeployServiceEvents.enable
  audit.impersonationEvents.enable 

The default value for all of these settings is false.

That means that no events will be logged by default, even if you have switched the service on by setting the property audit.service.enable to true.

For more details about which events are included in each group refer to Available events.

To enable one or more groups of events, change the default value of the appropriate audit.eventGroup.enable property to true.

Audit log file

The log file contains one audit log message per line.

All log messages start with a timestamp, followed by the optional transaction ID, the message code and the event message. Each event message contains the following:

• The user ID of the user who has performed the action which triggered the audit event

• Additional information about the event itself.

Events for actions that run in a transaction are written to the log file when the transaction is committed. If the transaction is rolled back, no event messages are written to the log file.

Events for actions that do not run in a transaction are written to the log immediately. In such cases it is not guaranteed that the related action was completed successfully.

Available events

This section lists the events that you can log by using the auditing service. They are listed by the groups in which they are available. If you enable one group, all events in that group are logged.

Table 4. Groups of events for the audit logging service

Audit logging group	Audit logging event	Meaning of the event
audit.groupEvents	Group created event	A new user group has been created via portal UIs.
Group modified event	A user group has been modified via portal UIs.
Group deleted event	A user group has been deleted via portal UIs.
audit.userEvents	User created event	A new user has been created via portal UIs.
User modified event	A user has been modified via portal UIs.
User deleted event	A user has been deleted via portal UIs.
audit.portletEvents	Portlet Application created event	A new Web module or portlet application has been created via portal UIs.
Portlet Application modified event	A Web module or portlet application has been modified via portal UIs.
Portlet Application deleted event	A Web module or portlet application has been deleted via portal UIs.
audit.roleEvents	Role assigned event	A portal role has been assigned to a user. The user has been given the specified type of access permission on all resources that are affected by this role. For example, this can be EDITOR on Page1.
Role unassigned event	A portal role has been unassigned from a user. The user no longer has the specified access rights on the resources that are affected by this role. For example, the user is no longer EDITOR on Page1.
audit.roleBlockEvents	Role block modified event	The portal role block information of a resource has been changed. The event message contains a list of blocked and non-blocked roles on the given resource. As roles can either be inherited or propagated, there are two separate lists for inheriting roles and propagating roles. If only propagating role blocks have been changed, the list for inheriting roles is empty and vice versa.
audit.ownerEvents	Resource owner modified event	The owner of a resource has been changed.
audit.resourceEvents	Resource created event	A new resource has been registered. This event is triggered when the resource is registered in Portal Access Control.
Resource modified event	A registered resource has been modified.
Resource deleted event	A registered resource is no longer registered in Portal Access Control. This usually happens when a resource is deleted.
audit.externalizationEvents	Resource externalized event	A resource has been externalized. This means that access permissions to this resource are no longer controlled by Portal Access Control, but by an external Access Manager. For example, this can be Tivoli Access Manager.
Resource internalized event	A resource has been internalized. It is now controlled by Portal Access Control and no longer by an external Access Manager.
audit.userInGroupEvents	User added to group event	A user has been added to a group. The user is now a member of this group and therefore inherits access rights from the group.
User removed from group event	A user has been removed from a group. The user is no longer a member of that group and does no longer have the inherited access rights.
audit.webModuleEvents	Web Module installed event	A new Web module has been installed or deployed.
Web Module uninstalled event	An installed Web module has been uninstalled.
audit.applicationRoleEvents	Application role created event	An application role has been created.
Application role deleted event	An application role has been deleted.
audit.principalToApplicationRoleMappingEvents	Application role assigned event	An application role has been assigned to a user. The user has been given the access permissions contained in all the roles that are aggregated in this application role.
Application role unassigned event	An application role has been unassigned from a user. The user no longer has the access permissions contained in all the roles that are aggregated in this application role.
audit.roleToApplicationRoleMappingEvents	Role added to application role event	A portal role has been added to an application role. All permissions contained in the portal role are added to the application role. Effective immediately, these added permissions are given to all users or groups to whom the application role is currently assigned.
Role removed from application role event	A portal role has been removed from an application role. The users who had this application role no longer have the access permissions that are contained by this role.
audit.domainAdminDataEvents.enable	Domain administration data initialized event	The administrative data for a domain, such as administrative user, administrative group, and virtual root resource, has been initialized during the startup of the portal. For the lifetime of the current portal process, this user and group have administrative permissions on the domain resource hierarchy, starting from the virtual root resource. For details about this refer to the Access Control Data Management Service. This event is always thrown for each defined domain during server startup. As this is done by the system, no performing user will be logged.
audit.designerDeployServiceEvents.enable	Component installed event	A portlet application has been created by using IBM Lotus Component Designer.
Component modified event	A portlet application created by using IBM Lotus Component Designer has been modified.
Component uninstalled event	A portlet application created by using IBM Lotus Component Designer has been deleted.
audit.impersonationEvents	Impersonation started event	A user started impersonation with another user.
Impersonation ended event	A user ended impersonation with another user.
Impersonation attempted with no permission event	A user tried to impersonate another user but has no permission.

Puma Store and Validation services

The following sections list and describe the configuration services for Portal User Management (PUMA): the Puma Store Service and the Puma Validation Service.

Puma Store Service

The Puma Store Service contains the configuration settings for Portal User Management. The following properties configure both the Portal User Management and the PUMA SPI:

store.puma_default.user.fbadefault.filter =

Default search attribute for users. Usually this is the same as the Relative Distinguished Name (RDN) attribute of the LDAP. Depending on your environment, it might be a different attribute.

The default is set to the same value as that of the LDAPUserPrefix in the file wkplc.properties.

store.puma_default.group.fbadefault.filter =

Default search attribute for groups. Usually this is the same as the RDN attribute of the LDAP. Depending on your environment, it might be a different attribute. The default is set to the same value as that of the LDAPGroupPrefix in the file wkplc.properties.

store.puma_default.user.base.attributes =

Attribute subset that portal loads during direct user lookups, for example at Login. Attributes that are not defined in this list are loaded by a separate request to the backend user store.

store.puma_default.user.minimum.attributes =

Attribute subset that portal loads during attribute searches for users. Attributes that are not defined in this list are loaded by a separate request to the backend user store.

store.puma_default.group.minimum.attributes =

Attribute subset that portal loads during attribute searches for groups. Attributes that are not defined in this list are loaded by a separate request to the backend user store.

store.puma_default.userManagement.cacheMode = (true)

Whether Puma uses a cache or not. The default for this property is true.

store.puma_default.logDuplicateKeyExceptions = (true)

Determine whether the DataStore component writes DuplicateKeyException error messages out to the portal log or not. This does not influence the error handling: With either setting, the exceptions are handled without an error to the portal system.

true

Default. If this property is set to true or if the property is not set at all, the exception error messages are written to the log. The exceptions are handled without error to the portal.

false

If set to false, the error messages are not written out to the log. The exceptions are handled without error to the portal.

The following properties configure only the Portal User Management, but not the PUMA SPI:

store.puma_default.puma.commonname = ( {0} {1} )

The Registration / Edit My Profile portlet can generate the common name (CN) of a user automatically.

This property defines how the CN is generated. You can define dynamic and static parts. Dynamic parts are added by using {X}, where X stands as a reference number to the puma.commonname.X that defines the attribute that you want to place here. Dynamic parts can only be user attributes that are available and valid. The default is {0} {1}.

store.puma_default.puma.commonname.parts =

Number of dynamic parts in the common name.

store.puma_default.puma.commonname.X =

The user attribute for dynamic part X. X must be between 0 and puma.commonname.parts -1.

The default is puma.commonname.0 = givenname and puma.commonname.1 = sn.

Puma Validation Service

The PUMA Validation Service contains the configuration settings for the Validation component of PUMA.

Properties for user validation

user.YOURATTRIBUTE.max = (60)

Maximum number of characters allowed for the defined YOURATTRIBUTE. The default is 60.

user.YOURATTRIBUTE.min = (1)

Minimum number of characters allowed for the defined YOURATTRIBUTE. The default is 1.

user.YOURATTRIBUTE.charset = (ascii)

Character set against which characters are validated. Supported values are ascii and unicode.

The default is ascii.

user.YOURATTRIBUTE.extra_chars = ( -._ )

Extra special characters which are not in the supported character set, but should be treated as valid. By default, the dash, period, and underscore are valid: -._

The YOURATTRIBUTE portion of the property needs to be spelt in uppercase.

The sets of attributes listed in the following sections follow the same pattern as the one above.

Settings for the attribute user.fbadefault.filter defined in the Puma Store Service:

user.UNIQUEID =

For this property specify the value of the user.fbadefault.filter attribute that is defined in the Puma Store Service.

user.UNIQUEID.min = 1

user.UNIQUEID.max = 60

user.UNIQUEID.charset = ascii

user.UNIQUEID.extra_chars = -._

Properties for group validation:

group.RDN=

For this property specify the value of the group.fbadefault.filter attribute that is defined in the Puma Store Service.

group.extra = -,_

group.RDN.min = 1

group.RDN.max = 200

Properties for password validation:

password.min_characters = 5

password.max_characters = 60

password.charset = ascii

password.extra_chars = -._

LC and WAI timeouts Time Outs

For ltpa tokens for SSO, you can use Web Application Integrator (WAI) to surface Lotus Connections in the portal. By default, portal has a shorter timeout than Connections. When users are in connections for a period longer than the portal timeout, the Web Application ends up not getting rendered because the user is timed out of the portal.

To fix...

1. Set uri.home.substitution to true.

   This will automatically change a request for an anonymous URI...

   /wps/portal/*

   ...to a protected one...

   /wps/myportal/*

   ...if the user is indeed logged in.

2. Change the WAI javascript that is pasted in Connections to reference...
   ../portal/..

   ...instead of...

   ../myportal/..

Users with legitimate portal sessions will see navigation applicable for their portal session. Users who have timed out in portal will see the anonymous user navigation.

Parent topic:

Set service configuration properties

Related concepts

Language support
Overview of configuration services
User IDs and passwords