Configuring Tapestry
Tapestry runs on top of the standard Java Servlet API. To the servlet container, such as Tomcat, Tapestry appears as a servlet filter. This gives Tapestry great flexibility in matching URLs without requiring lots of XML configuration.
Contents
Changes to web.xml
Tapestry applications are configured almost entirely using Java, not XML. However, a small but necessary amount of configuration occurs inside the servlet deployment descriptor, WEB-INF/web.xml. Most of the configuration is boilerplate, nearly the same for all applications.
<!DOCTYPE web-app PUBLIC "-//Sun Microsystems, Inc.//DTD Web Application 2.3//EN" "http://java.sun.com/dtd/web-app_2_3.dtd"> <web-app> <display-name>My Tapestry Application</display-name> <context-param> <param-name>tapestry.app-package</param-name> <param-value>org.example.myapp</param-value> </context-param> <filter> <filter-name>app</filter-name> <filter-class>org.apache.tapestry5.TapestryFilter</filter-class> </filter> <filter-mapping> <filter-name>app</filter-name> <url-pattern>/*</url-pattern> </filter-mapping> </web-app>
The application-specific part, the tapestry.app-package
context parameter, provides your application's root package name. Tapestry uses this to locate your page and component classes. It expects page classes in the pages
sub-package and components in the components
sub-package. In the example above, page classes will be stored in the org.example.myapp.pages
package (or in sub-packages below). Likewise, component classes will be stored in the org.example.myapp.components
package.
By convention, the filter name (filter-name
) is almost always "app", but you can use any name you want. Tapestry uses this to determine what module class name to look for (see below).
Your Application's Module Class
Main Article: Tapestry IoC Configuration
Most other configuration occurs inside your application's module class. The application module class will often define new services, provide overrides of services, or make contributions to service configurations.
Tapestry looks for your application module class in the services package (under the root package) of your application. It capitalizes the <filter-name> and appends "Module". In the previous example, because the filter name was "app" and the application's root package name is "org.example.myapp", the module class would be org.example.myapp.services.AppModule.
If such a class exists, it is added to the IoC Registry. It is not an error for your application to not have a module class, though any non-trivial application will have one.
Your application module class (usually AppModule.java) will typically override some of Tapestry's default, or "factory", symbols, by contributing overrides to the ApplicationDefaults service configuration. For example:
public class AppModule { public static void contributeApplicationDefaults(MappedConfiguration<String,String> configuration) { configuration.add(SymbolConstants.SUPPORTED_LOCALES, "en,fr,de"); configuration.add(SymbolConstants.FILE_CHECK_INTERVAL, "10 m"); } }
Configuration Symbol Names
Main Article: Symbols
Many of Tapestry's built-in services (some of which are not even public) are configured via symbols. These symbols can be overridden by contributing to the ApplicationDefaults service configuration, or by placing a <context-param> element into the application's web.xml, or on the command line by defining JVM System Properties with the -D command line option.
These symbols are always defined in terms of strings, and those strings are coerced to the appropriate type (a number, a boolean, etc.). Of special note are time intervals, which are specified in a particular format.
Each of these symbols has a corresponding constant defined in the SymbolConstants class.
tapestry.app-catalog
The location of the global application message catalog, the default is context:WEB-INF/app-name.properties.
tapestry.application-version
The version of the application, which is incorporated into URLs for context and classpath assets. Assets may be compressed, and will have far-future expiration headers; they will be aggressively cached by the client web browser. You should change the application version on each new deployment of the application (that is, any time assets in the context change), to force clients to re-download changed versions of files. If you do not specify an application version, a random one will be assigned on every deployment (which is good for development but very bad for production).
tapestry.blackbird-enabled
A flag (true or false). When "false" the Blackbird javascript console will be disabled (in Tapestry 5.2 and newer). Defaults to "true".
tapestry.charset
The character encoding used when generating output (or parsing input). The default is "UTF-8". See Content Type and Markup for more details.
tapestry.combine-scripts
If "true", then Tapestry will combine (or "aggregate") the individual JavaScript libraries within a JavaScript stack; this reduces the number of requests from the client to the server, as the client can cache the combined JavaScript files locally (and will not need to
re-download them on subsequent pages). The implementation of this changed significantly between Tapestry 5.1 and 5.2.
Defaults to "true" in production mode.
tapestry.component-render-tracing-enabled
Starting with version 5.3, if "true" then Tapestry will emit rendering comments for all requests; these are comments (such as <!--BEGIN Index:loop (context:Index.tml, line 15)-->) that can assist you in debugging markup output on the client-side. This will significantly increase the size of the rendered markup, but can be very helpful with complex layouts to determine which component was responsible for which portion of the rendered page. (To turn on rendering comments only for a particular request, add the query parameter t:component-trace=true to the URL.)
tapestry.compress-whitespace
A flag (true or false). When true (the default) whitespace in component templates is compressed by default (this can be fine-tuned using the standard xml:space attribute on an element in the template). When this flag is false, then whitespace is retained by default (but can still be overridden).
tapestry.default-cookie-max-age
The default time interval that cookies created by Tapestry will be kept in the client web browser. Primarily, this is used with a cookie that exists to track the preferred user locale. The default value is "7 d" (7 days; see Time Interval Formats).
tapestry.default-stylesheet
The default stylesheet automatically injected into every rendered HTML page. Many Tapestry components assume that this stylesheet is available. All the classes defined in the stylesheet are prefixed with "t-". The exact contents of the stylesheet are subject to change at any time (they are considered internal), so replacing the stylesheet, rather than overriding selected rules within it, entails some risk.
The default is org/apache/tapestry5/default.css, stored on the classpath.
tapestry.exception-report-page
The name of the page used to report exceptions. This defaults to "ExceptionReport".
tapestry.file-check-interval
Time interval between file system checks. During a file system check, only a single thread is active (all others are blocked) and any files loaded are checked for changes (this is part of automatic component reloading).
The default is "1 s" (one second; see Time Interval Formats), and is usually overridden with a higher value in production (say, between one and five minutes).
tapestry.file-check-update-timeout
Time interval that Tapestry will wait to obtain the exclusive lock needed for a file check. If the exclusive lock can't be obtained in that amount of time, the request will proceed normally (without the check), but each successive request will attempt to get the lock and perform the check until successful.
The default is "50 ms" (50 milliseconds; see Time Interval Formats).
tapestry.force-absolute-uris
For Tapestry 5.0 and 5.1 only: when false (the default), Tapestry will attempt to optimize URIs that it generates, using relative URIs when such URIs are shorter than absolute URIs. When true, all URIs will be absolute URIs (including the context path, and the complete path for the request). Starting in Tapestry 5.2, URL optimization has been removed, and all URIs are always absolute.
tapestry.gzip-compression-enabled
Override to "false" to disable GZIP compression of dynamic Tapestry pages and static assets.
tapestry.min-gzip-size
The minimum stream size necessary for Tapestry to use GZIP compression on the response stream. See Response Compression for more details.
tapestry.omit-generator-meta
If "true", then the <meta> tag that Tapestry normally writes into the <head>, identifying the Tapestry version, will be omitted. Use this when you do not wish to advertise your application's use of Tapestry.
tapestry.page-pool.active-window
Starting in 5.2, this is only used if tapestry.page-pool-enabled is "true".
The time interval that an instantiated page instance may be cached before being removed. As pages are returned to the pool, they are time stamped. Periodically (as per the file check interval), the pool is scanned for page instances that have not been used recently; those that are outside the active window are discarded. This is used to free up unnecessary page instances after a request surge. Starting in 5.2, this is only effective if tapestry.page-pool-enabled is true.
The default is "10 m" (10 minutes; see Time Interval Formats).
tapestry.page-pool-enabled
Starting with Tapestry 5.2, page pooling has been turned off by default. This symbol lets you re-enable page pooling. Under most circumstances this symbol should not be set. The disabling of page pooling starting in 5.2 significantly reduces heap memory usage and improves performance for most web applications.
The default is "false".
tapestry.page-pool.hard-limit
Starting in 5.2, this is only used if tapestry.page-pool-enabled is "true".
The absolute maximum number of page instances (for a particular page name / locale combination) that Tapestry will create at any time. If this number is reached, then requests will fail because a page instance is not available ... this can happen as part of a denial of service attack. For this value to have any meaning, it should be lower than the number of threads that the servlet container is configured to use when processing requests.
The default is 20 page instances.
tapestry.page-pool.soft-limit
Starting in 5.2, this is only used if tapestry.page-pool-enabled is "true".
The number of pages in the page pool (for a given page name / locale combination) before which Tapestry will start to wait for existing pages to be made available. Under this limit of pages, Tapestry will simply create a new page instance if no existing instance is readily available. Once the soft limit is reached, Tapestry will wait a short period of time (the soft wait interval) to see if an existing page instance is made available. It will then create a new page instance (unless the hard limit has been reached).
The default is 5 page instances. Remember that page pooling is done separately for each page (and localization of the page).
tapestry.page-pool.soft-wait
Starting in 5.2, this is only used if tapestry.page-pool-enabled is "true".
The time interval that Tapestry will wait for a page instance to become available before deciding whether to create an entirely new page instance.
The default is "10 ms" (10 milliseconds; see Time Interval Formats).
tapestry.production-mode
A flag (true or false) indicating whether the application is running in production or in development. The default is true, which means that runtime exceptions are not reported with full detail (only the root exception message is displayed, not the entire stack of exceptions, properties and other information shown in development mode).
tapestry.secure-enabled
If true, then @Secure annotation is honored; if false, no security checks or redirects take place. This defaults to tapestry.production-mode, meaning that in development mode it will (by default) be disabled.
tapestry.secure-page
If true, then the page may only be accessed via HTTPS. The @Secure annotation will set this value to true. This symbol is the default for all pages; set it to "true" to force the entire application to be secure.
tapestry.scriptaculous
The path to the embedded copy of script.aculo.us packaged with Tapestry. This value may be overridden to use a different version of the script.aculo.us library. See JavaScript for the default version.
tapestry.start-page-name
The logical name of the start page, the page that is rendered for the root URL. This is normally "start". This functionality is vestigial: it has been superseded by the use of Index pages.
tapestry.supported-locales
A comma-separated list of supported locales. Incoming requests as "narrowed" to one of these locales, based on closest match. If no match can be found, the first locale in the list is treated as the default.
The default is (currently) "en,it,es,zh_CN,pt_PT,de,ru,hr,fi_FI,sv_SE,fr_FR,da,pt_BR,ja,el". As the community contributes new localizations of the necessary messages files, this list will expand. Note that the Tapestry quickstart archetype overrides the factory default, forcing the application to be localized only for "en".
tapestry.suppress-redirect-from-action-requests
Normally, Tapestry responds to action requests (such as form submissions) by sending a client-side redirect to the rendering page. This has a lot of benefits in terms of improving browser navigation, making sure URLs are bookmarkable, and so forth. However, it has a cost: more data stored persistently in the session, and a double-request for each user action (one action request, one render request).
Setting this symbol to "true" changes the Tapestry behavior to make it more like Tapestry 4: a markup response is sent directly for the action request, with no redirect in the middle. This option should be used with care, and only in cases where you are certain that the benefits outweigh the disadvantages.
Configuring Ignored Paths
You may sometimes need to use Tapestry in concert with other servlets. This can cause problems, since Tapestry (being a servlet filter) may see URLs intended for another servlet and attempt to process them.
The Servlet API does not provide Tapestry with any clues about what other servlets are available in the web application. Instead, you must configure Tapestry to ignore paths intended for other servlets.
The IgnoredPathsFilter service is the method for this kind of configuration. Its configuration is an unordered collection of regular expression patterns. A request whose path matches any of these patterns is not processed by Tapestry.
For example, say you are using Direct Web Remoting. You'll likely have the servlet path /dwr mapped to the Direct Web Remoting servlet.
You contribution would look like:
public static void contributeIgnoredPathsFilter(Configuration<String> configuration) { configuration.add("/dwr/.*"); }
The regular expression matches any path that begins with "/dwr/".
The regular expressions provided in the configuration are always compiled with case insensitivity enabled.
Also note that actual files in your web application (images, stylesheets, etc.) are always ignored by Tapestry.
Configuring Content Type Mapping
The mapping from file type (by extension) to content type is typically done as part of your servlet-containers configuration. Alternately, you may contribute to the ResourceStreamer service's configuration. This is a mapped configuration; it maps file extensions (such as "css" or "js") to content types ("text/css" or "text/javascript") respectively.
How can we define different execution configurations
Since Tapestry 5.2.4, we can declare an execution mode, by loading different Tapestry Modules through a JVM System property. All modules declared in this way will be loaded after the AppModule of your application. This feature is very interesting to define a different environment for Production and Development modes for example.
This JVM System property, named tapestry.execution-mode, is a comma-separated list of mode names. You can declare this property in different ways :
1. Add the parameter to your JVM command line
-Dtapestry.execution-mode=DevelopmentMode jetty:run
2. Add the parameter to the Jetty plugin
<plugin> <groupId>org.mortbay.jetty</groupId> <artifactId>maven-jetty-plugin</artifactId> <version>6.1.16</version> <configuration> <requestLog implementation="org.mortbay.jetty.NCSARequestLog"> <append>true</append> </requestLog> <systemProperties> <systemProperty> <name>tapestry.execution-mode</name> <value>DevelopmentMode</value> </systemProperty> </systemProperties> </configuration> </plugin>
3. Add the parameter to the Surfire plugin for your test
<plugin> <groupId>org.apache.maven.plugins</groupId> <artifactId>maven-surefire-plugin</artifactId> <version>2.8.1</version> <configuration> <systemPropertyVariables> <tapestry.execution-mode>DevelopmentMode</tapestry.execution-mode> </systemPropertyVariables> </configuration> </plugin>
For each mode declared in your JVM System Property, TapestryFilter checks for a parameter in your web.xml, named tapestry.TheModeName-modules, with TheModeName the name of the desired mode. Its value will be a comma-separated list of modules.
If the tapestry.execution-mode is not declared, Tapestry will automatically look for the tapestry.production-modules parameter, because “production” is the default tapestry.exection-mode value.
The example below defines 2 differents execution modes in your web.xml : production (the default value) and DevelopmentMode. For each mode, we list the modules we want to load. If we use JVM System property declared in the example above, the DevelopmentModeModule module will be loaded.
<context-param> <param-name>tapestry.production-modules</param-name> <param-value>org.apache.tapestry.appli.services.ProductionModeModule</param-value> </context-param> <context-param> <param-name>tapestry.DevelopmentMode-modules</param-name> <param-value>org.apache.tapestry.appli.services.DevelopmentModeModule</param-value> </context-param>
Tapestry will load the modules in the order that they are declared. For example, if we run the command line :
-Dtapestry.execution-mode=DevelopmentMode,DevelopmentMode2 jetty:run
And for each modes, we have two modules :
<context-param> <param-name>tapestry.DevelopmentMode-modules</param-name> <param-value> org.apache.tapestry.appli.services.DevelopmentMode1Module1, org.apache.tapestry.appli.services.DevelopmentMode1Module2 </param-value> </context-param> <context-param> <param-name>tapestry.DevelopmentMode2-modules</param-name> <param-value> org.apache.tapestry.appli.services.DevelopmentMode2Module1, org.apache.tapestry.appli.services.DevelopmentMode2Module2 </param-value> </context-param>
Tapestry will load in the order : DevelopmentMode1Module1, DevelopmentMode1Module2, DevelopmentMode2Module1 and DevelopmentMode2Module2