The following topics are covered in this chapter:
Incompatibilities in the J2EE 1.4 Platform (since the J2EE 1.3 release)
Application Server 8.2 Options Incompatible With J2EE 1.4 Specification Requirements
Application Server 8.2 Options Contrary to J2EE 1.4 Specification Recommendations
The Java SDK included in Application Server 8.2 is the JavaTM 2 Platform, Enterprise Edition (J2EETM platform), version 1.4 SDK. This version of the J2EE SDK is upwards binary-compatible with J2EE SDK 1.3, except for the incompatibilities listed below. This means that, except for the noted incompatibilities, applications built for version 1.3 run correctly on the Sun Java System Application Server 8.2 release. For easy reference, the version of the J2EE SDK included in this release is referred to as J2EE 1.4 throughout this section.
Downward source compatibility is not supported. If source files use new J2EE APIs, they are not usable with an earlier version of the J2EE platform.
In general, the policy is as follows:
Maintenance releases do not introduce any new APIs, so they maintain source-compatibility with one another.
Functionality releases and major releases maintain upwards but not downwards source-compatibility.
Deprecated APIs are methods and classes that are supported only for backward compatibility. The compiler generates a warning message whenever one of these is used, unless the -nowarn command line option is used. It is recommended that programs be modified to eliminate the use of deprecated methods and classes, though there are no plans to remove such methods and classes entirely.
TheApplication Server 8.2 release is based on the Java 2 Platform, Enterprise Edition, version 1.4. The Application Server 7 release is based on the Java 2 Platform, Enterprise Edition, version 1.3.
TheApplication Server 8.2 release is strongly compatible with previous versions of the J2EE platform. Almost all existing programs should run on theApplication Server 8.2 release without modification. However, there are some minor potential incompatibilities that involve rare circumstances and corner cases documented here for completeness.
Java Servlet Specification Version 2.4 ships with theApplication Server 8.2 release, and can be downloaded from . Version 2.3 of the specification shipped with the J2EE 1.3 SDK. The following items discuss compatibility issues between these releases:
HttpSessionListener sessionDestroyed method was previously used to notify that a session was invalidated. As of this release, this method is used to notify that a session is about to be invalidated so that it notifies before the session invalidation. If the code assumed the previous behavior, it must be modified to match the new behavior.
ServletRequest methods getRemotePort, getLocalName, getLocalAddr, getLocalPort...
The following methods are added in the ServletRequest interface in this version of the specification. This addition causes source incompatibility in some cases, such as when a developer implements the ServletRequest interface. In this case, ensure that all the following new methods are implemented:
The getRemotePort() method returns the Internet Protocol (IP) source port of the client or last proxy that sent the request.
The getLocalName() method returns the host name of the IP interface on which the request was received.
The public java.lang.String getLocalAddr() method returns the IP address of the interface on which the request was received.
The public int getLocalPort() method returns the IP port number of the interface on which the request was received.
Java Server Pages (JSP) Specification 2.0 ships with theApplication Server 8.2 release and is downloadable from:
JSP specification 1.2 is shipped with the J2EE 1.3 SDK. Wherever possible, the JSP 2.0 specification attempts to be fully backward compatible with the JSP 1.2 specification. Some of the ambiguities in JSP 1.2 specification that have been clarified in the JSP 2.0 specification. Because some JSP 1.2 containers behave differently, some applications that rely on container-specific behavior may need to be adjusted to work correctly in a JSP 2.0 environment.
The following is a list of known backward compatibility issues:
The type coercion rules (shown in Table JSP.1-11 in the JSP 2.0 specification) have been reconciled with the EL coercion rules. There are some exceptional conditions that no longer result in an exception in the JSP 2.0 Specification. In particular, when passing an empty String to an attribute of a numeric type, a translation error or a NumberFormatException used to occur, whereas in the JSP 2.0 specification, a 0 is passed in instead. See Table JSP.1-11 in the JSP 2.0 specification for details. In general, this is not expected to cause any problems because these would have been exceptional conditions in the JSP 1.2 specification and the specification allowed for these exceptions to occur at either translation time or request time.
The JSP container uses web.xml to determine the default behavior of various container features. The following is a list of items of which JSP developers should be aware when upgrading their web.xml file from Servlet version 2.3 specification to Servlet version 2.4 specification.
Tag library validators that are not namespace aware and that rely solely on the prefix parameter might not correctly validate some JSP 2.0 pages. This is because the XML view might contain tag library declarations in elements other than jsp:root, and might contain the same tag library declaration more than once, using different prefixes. The uri parameter should always be used by tag library validators instead. Existing JSP pages with existing tag libraries do not create any problems.
You may observe differences in I18N behavior on some containers primarily due to ambiguity in the JSP 1.2 specification. Where possible, steps were taken to minimize the impact on backward compatibility and overall, the I18N abilities of technology have been greatly improved.
In the JSP specification versions previous to JSP 2.0, JSP pages in XML syntax and those in standard syntax determined their page encoding in the same fashion, by examining the pageEncoding or contentType attributes of their page directive, defaulting to ISO-8859-1 if neither was present.
As of the JSP specification 2.0, the page encoding for JSP documents is determined as described in section 4.3.3 and appendix F.1 of the XML specification, and the pageEncoding attribute of those pages is only checked to make sure it is consistent with the page encoding determined as per the XML specification.
As a result of this change, JSP documents that rely on their page encoding to be determined from their pageEncoding attribute will no longer be decoded correctly. These JSP documents must be changed to include an appropriate XML encoding declaration.
Additionally, in the JSP 1.2 specification, page encoding is determined on a per translation unit basis whereas in the JSP 2.0 specification, page encoding is determined on a per-file basis. Therefore, if a.jsp statically includes b.jsp, and a page encoding is specified in a.jsp but not in b.jsp, in the JSP 1.2 specification a.jsp’s encoding is used for b.jsp, but in the JSP 2.0 specification, the default encoding is used for b.jsp.
EL expressions are ignored by default in applications created with JSP 1.2 technology. When upgrading a Web application to the JSP 2.0 specification, EL expressions are interpreted by default. The escape sequence \\$ can be used to escape EL expressions that should not be interpreted by the container. Alternatively, the isELIgnored page directive attribute, or the el-ignored configuration element can deactivate EL for entire translation units. Users of JSTL 1.0 need to either upgrade their taglib/ imports to the JSTL 1.1 URIs, or they need to use the _rt versions of the tags (for example c_rt instead of c, or fmt_rt instead of fmt).
Files with an extension of .jspx are interpreted as JSP documents by default. Use the JSP configuration element is-xml to treat .jspx files as regular JSP pages. There is no way to disassociate .jspx from the JSP container.
The escape sequence \\$ was not reserved in the JSP 1.2 specification. Any template text or attribute value that appeared as \\$ in the JSP 1.2 specification used to output \\$ but now outputs just $.
Application Server 8.2 supports JAXP 1.3, which in turn supports SAX 2.0.2. In SAX 2.0.2, DeclHandler.externalEntityDecl requires the parser to return the absolute system identifier for consistency with DTDHandler.unparsedEntityDecl. This might cause some incompatibilities when migrating applications that use SAX 2.0.0.
To migrate an application that uses SAX 2.0.0 to SAX 2.0.2 without changing the previous behavior of externalEntityDecl, you can set the resolve-dtd-uris feature to false. For example:
SAXParserFactory spf = SAXParserFactory.newInstance(); spf.setFeature("http://xml.org/sax/features/resolve-dtd-uris",false);
Other incompatibilities between SAX 2.0.0 and SAX 2.0.2 are documented in the JAXP Compatibility Guide.
Application Server 8.2 is compatible with the Java 2 Platform, Enterprise Edition specification by default. In this case, all portable J2EE programs run on the Application Server without modification. However, as allowed by the J2EE compatibility requirements, it is possible to configure applications to use features of theApplication Server 8.2 that are not compatible with the J2EE specification.
The pass-by-reference element in the sun-ejb-jar.xml file only applies to remote calls. As defined in the EJB 2.0 specification, section 5.4, calls to local interfaces use pass-by-reference semantics.
If the pass-by-reference element is set to its default value of false, the parameter passing semantics for calls to remote interfaces comply with the EJB 2.0 specification, section 5.4. If set to true, remote calls involve pass-by-reference semantics instead of pass-by-value semantics, contrary to this specification.
Portable programs cannot assume that a copy of the object is made during such a call, and thus that it’s safe to modify the original. Nor can they assume that a copy is not made, and thus that changes to the object are visible to both caller and callee. When this flag is set to true, parameters and return values are considered read-only. The behavior of a program that modifies such parameters or return values is undefined. For more information about the pass-by-reference element, see the Sun Java System Application Server Platform Edition 8.2 Developer’s Guide.
If the delegate attribute in the classloader element of the sun-web.xml file is set to its default value of true, classes and resources residing in container-wide library JAR files are loaded in preference to classes and resources packaged within the WAR file, contrary to what is recommended in the Servlet 2.3 specification, section 9.7.2. If set to false, the classloader delegation behavior complies with what is recommended in the Servlet 2.3 specification, section 9.7.2.
Do not package portable programs that use the delegate attribute with the value of true with any classes or interfaces that are a part of the J2EE specification. The behavior of a program that includes such classes or interfaces in its WAR file is undefined. For more information about the classloader element, the Sun Java System Application Server Platform Edition 8.2 Developer’s Guide.