Oracle® Database JPublisher User's Guide 11g Release 2 (11.2) Part Number E10587-01 |
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This chapter covers additional features and considerations for your use of JPublisher:
The following sections summarize key JPublisher features for Web services. Most features relate to Web services call-ins to the database, covering JPublisher features that make SQL, PL/SQL, and server-side Java classes accessible to Web services clients. There are also features and options to support Web services call-outs from the database.
See Also:
Oracle Database Java Developer's Guide for additional information about Oracle Database Web services
Oracle Application Server Web Services Developer's Guide for general information about Oracle features for Web services
Oracle Fusion Middleware Programming Advanced Features of JAX-RPC Web Services for Oracle WebLogic Server for a complete list of Database objects or functions that can be published as web services
The following JPublisher features support Web services call-ins to code running in Oracle Database. The generated Java class can then be deployed in Oracle Application Server, using the Java EE container. For example, a Java class representing a PL/SQL package can be deployed as a PL/SQL Web Service.
Generation of Java interfaces
By using extended functionality of the -sql
option, JPublisher can generate Java interfaces. This functionality eliminates the necessity to manually generate Java interfaces that represent the application programming interface (API) from which Web Services Description Language (WSDL) content is to be generated. Prior to Oracle Database 10g, JPublisher could generate classes but not interfaces.
See Also:
"Generation of Java Interfaces"JPublisher styles and style files
Style files, along with the related -style
option, enable Java-to-Java type mappings that ensure that generated classes can be used in Web services. In particular, Oracle provides the following style files to support Web services:
/oracle/jpub/mesg/webservices-common.properties /oracle/jpub/mesg/webservices10.properties /oracle/jpub/mesg/webservices9.properties
See Also:
"JPublisher Styles and Style Files"REF CURSOR
returning and result set mapping
The java.sql.ResultSet
type is not supported by Web services, which affects stored procedures and functions that return REF CURSOR
types. JPublisher supports alternative mappings that allow the use of query results with Web services.
Options to filter what JPublisher publishes
There are several features for specifying or filtering JPublisher output, particularly to ensure that JPublisher-generated code can be exposed as Web services. By using the extended functionality of the -sql
option, you can publish a specific subset of stored procedures. Using the -filtertypes
and -filtermodes
options, you can publish stored procedures based on the modes or types of parameters or return values. Using the -generatebean
option, you can specify that generated methods satisfy the JavaBeans specification.
See Also:
"Features to Filter JPublisher Output"Support for calling Java classes in the database
JPublisher uses the native Java interface for calls directly from a client-side Java stub, generated by JPublisher through the -java
option, to the server-side Java code. Prior to Oracle Database 10g, server-side Java code could be called only through a PL/SQL wrapper that had to be created manually. This PL/SQL wrapper was also known as a call spec. Since Oracle Database 10g release 2 (10.2), Web services call-ins of Java classes are supported in two modes, dynamic invocation mode and PL/SQL wrapper mode.
Support for publishing SQL queries or DML statements
JPublisher provides the -sqlstatement
option to take a particular SELECT
, UPDATE
, INSERT
, or DELETE
statement and publish it as a method on a Java class that can be published as a Web service.
Support for unique method names
To meet Web services requirements, you can instruct JPublisher to disallow overloaded methods and always use unique method names instead.
JPublisher supports Web services call-outs from Oracle Database. The Web services client code is written in SQL, PL/SQL, or Java and it runs on the database and invokes Web services elsewhere. This support is provided through the -proxywsdl
and -httpproxy
options. In addition, the -proxyopts
and -proxyclasses
options may possibly be relevant, but typically do not require any special settings for Web services.
Here is a summary of the key options:
-proxywsdl=
URL
Use this option to generate Web services client proxy classes, given the WSDL document at the specified URL. This option also generates additional wrapper classes to expose instance methods as static methods and generates PL/SQL wrappers.
-httpproxy=
proxy_URL
Where, a WSDL document is accessed through a firewall. Use this option to specify a proxy URL to use in resolving the URL of the WSDL document.
The Oracle JPublisher command line option -proxywsdl
can be used to generate database-side Java and PL/SQL wrappers from the WSDL file of a Web service. To allow JPublisher to generate and load wrappers for Web service clients into the database, the dbwsa.jar
and dbwsclient.jar
files must be present in the classpath and inside the database respectively.
The following procedure sets up the environment and the database for Oracle JPublisher-supported Web service call-out. This procedure needs to be performed only once.
Download and install Oracle JPublisher 11g Release 2 (11.2) if it is not already on your system.
You can obtain the Oracle JPublisher release from the following Web site:
http://www.oracle.com/technology/software/tech/java/sqlj_jdbc/index.html
Add the dbwsa.jar
to the directory ORACLE_HOME\sqlj\lib
(Microsoft Windows) or ORACLE_HOME/sqlj/lib
(Solaris).
Set up the appropriate JDK as the Java VM and Java compiler.
The version of the JDK must be the same as the Java VM in the target database:
Use JDK 1.5 and JDK 1.6 for Oracle Database 11g
Use JDK 1.4 for the Oracle Database 10g (Release 10.1 or 10.2)
Use JDK 1.3 for the Oracle Database 9.2
Add dbwsa.jar
file to the classpath environment variable.
Load the dbwsclient.jar
file either into the SYS
schema or into the schema where the Web service client will be invoked.
For example, the following loadjava
command will load the dbwsclient.jar
file into the SYS
schema.
%loadjava -u sys -r -v -f -s -grant public -noverify -genmissing dbwsclient.jar
Password: password
The following loadjava
command illustrates how to load the dbwsclient.jar
file into a specific schema.
% loadjava -u scott -r -v -f -noverify -genmissing dbwsclient.jar
Password: password
Example
The following example illustrates how to generate Java and PL/SQL wrappers for a Web service client and then invoke it by using SQL statements. The example follows these general steps:
Identify the Web service you want to invoke.
Call Oracle JPublisher with the appropriate options to generate the client proxy, the PL/SQL and Java wrappers, and load them into the database.
An Oracle JPublisher command to do this would include the required -proxywsdl
and -user
options. The command could also include the optional -endpoint
, -httpproxy
, -sysuser
, -dir
, and -proxyopts
options. For example:
% jpub -user=username -sysuser=sysuser_name/sysuser_password -proxywsdl=WSDL_URL -endpoint=Web_services_endpoint
It is assumed that the Web service has been previously deployed at http://localhost:8888/javacallout/javacallout
The following command creates the Web service client and its Java and PL/SQL wrappers in the subdirectory tmp
, then loads the wrappers into the database.
% jpub -user scott -sysuser sys/sys_password -proxywsdl=sample/javacallout.wsdl -endpoint=http://localhost:8888/javacallout/javacallout -dir=tmp Enter scott password: password
This command produces the following output:
tmp/HelloServiceEJBJPub.java tmp/plsql_wrapper.sql tmp/plsql_dropper.sql tmp/plsql_grant.sql tmp/plsql_revoke.sql Executing tmp/plsql_dropper.sql Executing tmp/plsql_wrapper.sql Executing tmp/plsql_grant.sql Loading tmp/plsql_proxy.jar
Invoke the Web service from inside the database.
You can invoke the PL/SQL functions provided in tmp/plsql_wrapper.sql
. Each PL/SQL function corresponds to an operation in the Web service. For example, if your Web service is available at the following endpoint:
http://localhost:8888/javacallout/javacallout
Then you can issue the following SQL command.
SQL> select jpub_plsql_wrapper.sayhello('hello') from dual;
The command will return the following output.
JPUB_PLSQL_WRAPPER.SAYHELLO('HELLO') ----------------------------------- HELLO!! You just said :hello
For more information about Oracle JPublisher call-out support, see "Web service Call-out using Dynamic Invocation Interface and the SYS.UTL_DBWS
Utility" in Oracle Database JPublisher User's Guide. This is available from the following Web site.
http://www.oracle.com/technology/software/tech/java/sqlj_jdbc/index.html
The server-side Java call-in functionality allows JPublisher to publish Java classes in the database for client-side invocation. JPublisher generates Java clients to invoke server-side Java.
In Oracle Database 10g release 1 (10.1), the JPublisher option for server-side call-in is -java
. JPublisher generates a Java client that uses the dynamic invocation interface, oracle.jpub.runtime.Client
, that is provided in the JPublisher run time, to invoke the oracle.jpub.runtime.Server
server-side class, which in turn calls the desired Java stored procedure. The Client
and Server
interfaces are a part of the JPublisher run time. Only static methods with serializable parameters and return types are supported. Beginning with Oracle Database 10g release 1 (10.1), oracle.jpub.runtime.Server
is located in the database.
In Oracle Database 10g release 2 (10.2), for server-side call-ins, JPublisher generates a PL/SQL wrapper for the stored procedure and the Java client that calls this PL/SQL wrapper. It supports both static and instance methods. The parameter and return types supported are primitive types, Java Beans, Serializable objects, and Oracle Java Database Connectivity (JDBC) types, typically those with the package name oracle.sql
.
In Oracle Database 10g release 2 (10.2), the -java
option is deprecated and the JPublisher option for server-side call-in is -dbjava
. However, the -java
option is still supported for backward compatibility. When the -compatible
option is set to 10.1
, -dbjava
acts same as -java
.
JPublisher provides some options that allow you to filter what JPublisher produces. For example, publishing just a subset of stored procedures from a package, filtering generated code according to parameter modes or parameter types, and ensuring that generated classes follow the JavaBeans specification.
The following sections provide details:
Publishing Functions or Procedures According to Parameter Modes or Types
Ensuring that Generated Methods Adhere to the JavaBeans Specification
Extended functionality of the -sql
option enables you to publish just a subset of the stored functions or procedures from a package or from the SQL top level.
Recall that the following syntax results in publication of all the stored procedures of a package:
-sql=plsql_package
To publish only a subset of the stored procedures of the package, use the following syntax:
-sql=plsql_package(proc1+proc2+proc3+...)
You can also specify the subset according to stored procedure names and argument types. Instead of just specifying proc1
, you can specify the following:
proc1(sqltype1, sqltype2, ...)
In some cases, particularly for code generation for Web services, not all parameter modes or types are supported in method signatures or attributes for the target usage of your code. The -filtermodes
and -filtertypes
options are introduced to allow you to filter generated code as needed, according to parameter modes, parameter types, or both.
For each option setting, start with a 1 to include all possibilities by default, that is no filtering is done. Then list specific modes or types that you want to exclude each followed by a minus sign (-
). For example:
-filtertypes=1,.ORADATA-,.ORACLESQL- -filtermodes=1,out-,inout-
Alternatively, you can start with a 0 to filter everything out. Then list specific modes or types that you want to allow each followed by a plus sign (+
). For example:
-filtertypes=0,.CURSOR+,.INDEXBY+ -filtermodes=0,in+,return+
The -generatebean
option is a flag that you can use to ensure that generated classes follow the JavaBeans specification. The default setting is -generatebean=false
.
With the -generatebean=true
setting, some generated methods are renamed so that they are not assumed to be JavaBean property getter or setter methods. This is accomplished by prefixing the method names with an underscore (_
).
This section discusses issues of backward compatibility, compatibility between Java Development Kit (JDK) versions, and migration between Oracle8i, Oracle9i, Oracle Database 10g, and Oracle Database 11g releases of the JPublisher utility.
Default option settings and some features of the generated code changed in Oracle9i. If you have created an application using an Oracle8i implementation of JPublisher, you probably will not be able to rerun JPublisher in Oracle Database 10g (or Oracle9i) and have the generated classes still work within your application. In addition, there were changes in JPublisher functionality between Oracle9i and Oracle Database 10g, although to a lesser degree. The main difference is that .sqlj
files are no longer visibly generated by default, but you can change this behavior through a JPublisher setting.
The following subsections cover the details:
Changes in JPublisher Behavior Between Oracle Database 10g Release 1 and Release 2
Changes in JPublisher Behavior Between Oracle9i Database and Oracle Database 10g
Changes in JPublisher Behavior Between Oracle8i Database and Oracle9i Database
The JPublisher run time is packaged with JDBC in the ojdbc14.jar
, ojdbc5.8.jar,
or ojdbc6*.jar
library. Code generated by an earlier version of JPublisher is compatible as follows:
It can continue to run with the current release of the JPublisher run time.
It can continue to compile against the current release of the JPublisher run time.
If you use an earlier release of the JPublisher run time and Oracle JDBC drivers in generating code, then you can compile the code against that version of the JPublisher run time.
Since Oracle Database 10g release 2 (10.2), JPublisher adds the following new APIs for Java classes generated for PL/SQL:
<init>(javax.sql.DataSource)
A constructor that takes a java.sql.DataSource
object as argument
setDataSource(javax.sql.DataSource)
A method to set the data source that takes a java.sql.DataSource
object as argument
These methods allow the Java wrapper to acquire a JDBC connection from the data source provided as argument.
JPublisher supports the use of SQL URI types that store URLs, referred to as data links. In Oracle Database 10g release 1 (10.1), JPublisher maps the SQL URI type, SYS.URITYPE
, and the subtypes, SYS.DBURITYPE
, SYS.XDBURITYPE
, and SYS.HTTPURITYPE
, to java.net.URL
. When SQL URI types are used as PL/SQL stored procedures or SQL statement parameter and return types, this mapping works. However, when a SQL URI type is used as an attribute of a SQL type or element of a SQL array type, the mapping raises ClassCastException
at run time.
To overcome this issue, in Oracle Database 10g release 2 (10.2), the SQL URI types are mapped to the ORAData
subclasses that are generated by JPublisher. This is similar to the mapping used for user-defined SQL object types. You can also force JPublisher to map a SQL URI type to java.net.URL
by specifying the following:
-adddefaulttypemap= SYS.URITYPE:java.net.URL:VARCHAR2:SYS.URIFACTORY.GETURI:SYS.SQLJUTL.URI2VCHAR -adddefaulttypemap= SYS.DBURITYPE:java.net.URL:VARCHAR2:SYS.DBURITYPE.CREATEURI:SYS.SQLJUTL.URI2VCHAR -adddefaulttypemap= SYS.XDBURITYPE:java.net.URL:VARCHAR2:SYS.XDBURITYPE.CREATEURI:SYS.SQLJUTL.URI2VCHAR -adddefaulttypemap= SYS.HTTPURITYPE:java.net.URL:VARCHAR2:SYS.HTTPURITYPE.CREATEURI:SYS.SQLJUTL.URI2VCHAR
This includes the specification of data conversion functions.
Regarding backward compatibility, a key difference in JPublisher behavior between Oracle9i Database and Oracle Database 10g is that now, by default, SQLJ source code is translated automatically and the .sqlj
source files are invisible to the user.
In addition, note the following changes in JPublisher behavior in Oracle Database 10g:
In Oracle9i Database, JPublisher generates SQLJ classes with a protected
constructor with a boolean argument to specify whether the object must be initialized. For example:
protected BaseClass(boolean init) { ... }
This constructor is removed in Oracle Database 10g because it conflicts with the constructor generation for a SQL object type with BOOLEAN
attributes.
In Oracle Database 10g, SMALLINT
is mapped to int
instead of short
in Java.
Note the following changes in JPublisher behavior, beginning with Oracle9i Database:
By default, JPublisher does not declare the inner SQLJ connection context class _Ctx
for every object type. Instead, it uses the sqlj.runtime.ref.DefaultContext
connection context class throughout.
In addition, user-written code must call the getConnectionContext()
method to have a connection context instance, instead of using the _ctx
connection context field declared in code generated by Oracle8i versions of JPublisher.
Even with the -methods=true
setting, non-SQLJ classes are generated if the underlying SQL object type or PL/SQL package does not define any methods. However, a setting of -methods=always
always results in SQLJ classes being produced.
By default, JPublisher generates code that implements the oracle.sql.ORAData
interface instead of the deprecated oracle.sql.CustomDatum
interface.
By default, JPublisher places generated code into the current directory, rather than into a package/directory hierarchy under the current directory.
Changes in User-Written Subclasses of JPublisher-Generated Classes
If you provided user-written subclasses for classes generated by an Oracle8i version of JPublisher, then you must be aware that several relevant changes were introduced in Oracle9i Database related to JPublisher code generation. You must make changes in any applications that have Oracle8i functionality if you want to use them in Oracle9i Database, Oracle Database 10g, or Oracle Database 11g.
Note:
If you use the-compatible=8i
or -compatible=both8i
option setting, then you will not see the changes discussed here and your application will continue to build and work as before. For more information, refer to "Backward Compatibility Option".
However, it is advised that you make the transition to Oracle Database 11g or Oracle Database 10g JPublisher functionality, which insulates your user code from implementation details of JPublisher-generated classes.
You must make the following changes to use your code in Oracle9i Database, Oracle Database 10g, or Oracle Database 11g:
Replace any use of the declared _ctx
connection context field with use of the provided getConnectionContext()
method. The _ctx
field is no longer supported.
Replace the explicit implementation of the create()
method with a call to a superclass create()
method, and use ORAData
instead of CustomDatum
as the return type.
In the example that follows, assume that UserClass
extends BaseClass
. Instead of writing the following method in UserClass
:
public CustomDatum create(Datum d, int sqlType) throws SQLException { if (d == null) return null; UserClass o = new UserClass(); o._struct = new MutableStruct((STRUCT) d, _sqlType, _factory); o._ctx = new _Ctx(((STRUCT) d).getConnection()); return o; }
Supply the following:
public ORAData create(Datum d, int sqlType) throws SQLException { return create(new UserClass(),d,sqlType); }
Alternatively, if the class is part of an inheritance hierarchy, then write the following:
protected ORAData createExact(Datum d, int sqlType) throws SQLException { return create(new UserClass(),d,sqlType); }
In addition to the getConnectionContext()
method, JPublisher provides a getConnection()
method that can be used to obtain the JDBC connection instance associated with the object.
JPublisher supports settings for backward-compatibility modes through the -compatible
option. At the most elementary level, this includes a setting to explicitly generate .sqlj
files, which are transparent to users in Oracle Database 11g and Oracle Database 10g by default. There are also Oracle9i and Oracle8i compatibility modes, involving differences in the generated code itself as well as the creation of visible .sqlj
files. The following topics are discussed:
See Also:
"Backward Compatibility Option"In Oracle Database 11g, if you want to avoid automatic SQLJ translation so that JPublisher generates .sqlj
files that you can work with directly, then you can use the -compatible=sqlj
JPublisher setting.
Note:
In Oracle Database 11g, you do not have to invoke the SQLJ translator directly to explicitly translate.sqlj
files. You can use the JPublisher -sqlj
option instead.See Also:
"Option to Access SQLJ Functionality"The -compatible=9i
JPublisher option setting enables Oracle9i compatibility mode. In this mode, JPublisher generates code that is compatible with Oracle9i SQLJ and JDBC releases. In addition, JPublisher typically produces .sqlj
files that are visible to the user, as is the case with Oracle9i JPublisher.
JPublisher has the following functionality in Oracle9i compatibility mode:
In SQLJ classes, JPublisher generates a protected
constructor with a boolean
argument that specifies whether the object must be initialized, as it does in Oracle9i:
protected BaseClass(boolean init) { ... }
This constructor has neen removed since Oracle Database 10g
The mapping in Java from SMALLINT
reverts from int
, which is the mapping in Oracle Database 11g, to short
.
Either the -compatible=both8i
or -compatible=8i
JPublisher setting enables Oracle8i compatibility mode. In this mode, JPublisher generates code that is compatible with Oracle8i SQLJ and JDBC releases. In addition, JPublisher typically produces .sqlj
files visible to the user, as is the case with Oracle8i JPublisher.
However, for the use of this mode to be permissible, at least one of the following circumstances must hold:
You translate JPublisher-generated .sqlj
files with the default SQLJ -codegen=oracle
setting.
The JPublisher-generated code runs under JDK 1.5 or later and uses the SQLJ runtime12.jar
library or runs in the Oracle Database 11g release of the server-side Oracle JVM.
You run JPublisher with the -methods=false
or -methods=none
setting.
Note the following functionality in Oracle8i compatibility mode:
JPublisher generates code that implements the deprecated CustomDatum
and CustomDatumFactory
interfaces instead of the ORAData
and ORADataFactory
interfaces, as with the -compatible=customdatum
setting. In addition, if you choose the -compatible=both8i
setting, then the generated code also implements the ORAData
interface, though not ORADataFactory
.
With the -methods=true
setting, JPublisher always generates a SQLJ class for a SQL object type, even if the object type does not define any methods. This is the same as using the -methods=always
setting.
JPublisher generates connection context declarations and connection context instances on every object wrapper class, as follows:
#sql static context _Ctx; protected _Ctx _ctx;
This is the same as the -context=generated
setting.
JPublisher provides a constructor in the wrapper class that takes a generic ConnectionContext
instance, which is an instance of any class implementing the standard sqlj.runtime.ConnectionContext
interface, as input. In Oracle Database 11g, the constructor accepts only a DefaultContext
instance or an instance of the class specified through the -context
option when JPublisher was run.
JPublisher does not provide an API for releasing a connection context instance that has been created implicitly on a JPublisher object.
By contrast, the JPublisher utility in Oracle Database 11g provides both a setConnectionContext()
method for explicitly setting the connection context instance for an object, and a release()
method for releasing an implicitly created connection context instance of an object.
If you must choose Oracle8i compatibility mode, then it is advisable to use the -compatible=both8i
setting. This permits your application to work in a middle-tier environment, such as Oracle Application Server, in which JDBC connections are obtained through data sources and will likely be wrapped using oracle.jdbc.Oracle
Xxxx
interfaces. CustomDatum
implementations do not support such wrapped connections.
Note:
The-compatible=both8i
setting requires a JDBC implementation from Oracle9i release 1 (9.0.1) or later.Oracle8i compatibility mode is now the only way for a _ctx
connection context instance to be declared in JPublisher-generated code. No other option setting accomplishes this particular Oracle8i behavior. The _ctx
instance may be useful if you have legacy code that depends on it, but otherwise you should obtain connection context instances through the getConnectionContext()
method.
The individual option settings detailed in Table 4-1 will produce results, most of which are similar to those produced when using JPublisher in Oracle8i compatibility mode.
Table 4-1 JPublisher Backward Compatibility Options
Option Setting | Behavior |
---|---|
|
This setting results in the declaration of an inner class, |
|
This setting forces generation of SQLJ classes, in contrast to non-SQLJ classes, for all JPublisher-generated classes, whether or not the underlying SQL objects or packages define any methods. |
|
For Oracle-specific wrapper classes, this setting results in JPublisher implementing the deprecated |
|
Setting this option to a period ( |
For detailed descriptions of these options, refer to the following:
See Also:
"Oracle8i Compatibility Mode"