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Web Services in Oracle Database 10 g and beyond Ekkehard Rohwedder Manager, Web Services Oracle Corporation Session id: 40064.

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Presentation on theme: "Web Services in Oracle Database 10 g and beyond Ekkehard Rohwedder Manager, Web Services Oracle Corporation Session id: 40064."— Presentation transcript:

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2 Web Services in Oracle Database 10 g and beyond Ekkehard Rohwedder Manager, Web Services Oracle Corporation Session id: 40064

3 Content  Motivation  Web Services (An overview from 10,000 feet)  Consumed by the Database: Web Service call-outs – Installation – Java and PL/SQL clients  The Database Provides: Web Service call-ins – PL/SQL and Java – DML and Queries  Database Grid Services  Conclusion

4 Motivation – Who are you?  Are you writing programs in the Database? Using SQL, PL/SQL, or Java?  Then you may want to consume external Web Services – E.g. weather, stock prices, tax tables, products, genome data – E.g. as SQL query data sources => Enterprise Information Integration: => Can use table functions to virtualize Web Services as tables

5 Motivation – Who are you?  Want to get to Resources in Database? By using Web Services?  Then you want to provide Database Web Services – E.g. weather, stock prices, tax tables, products, genome data – E.g. PL/SQL packages and Java stored procedures; XML, MultiMedia; messaging capabilities

6 Content  Motivation  Web Services (An overview from 10,000 feet)  Consumed by the Database: Web Service call-outs – Installation – Java and PL/SQL clients  The Database Provides: Web Service call-ins – PL/SQL and Java – DML and Queries  Database Grid Services  Conclusion

7 An application or component with Three Things: 1.a URI 2.interacts through XML via internet 3.interfaces/binding described in XML Web Services – An Overview from 10,000 feet

8 Three Specifications 1.SOAP – the XML-based message protocol 2.WSDL – the service description 3.UDDI – the Web Service “phone directory”

9 Service Provider  package and deploy Service Consumer  connect Web Services – An Overview from 10,000 feet http://www.myserver.com/a/b Firewall

10 Service Provider  package and deploy  implement Service Consumer  connect  invoke service/methods Invoke: XML SOAP message Web Services – An Overview from 10,000 feet http://www.myserver.com/a/b Firewall <se:Envelope xmlns:se= “http://schemas.xmlsoap.org/soap/envelope/” se:encodingStyle= "http://schemas.xmlsoap.org/soap/encoding/”> 20 20

11 Service Provider  implement  package and deploy  describe and publish Service Consumer UDDI Repository Publish WSDL Web Services – An Overview from 10,000 feet  connect  invoke service/methods

12 Service Provider  implement  package and deploy  describe and publish Service Consumer  find/locate  bind  connect  invoke service/methods UDDI Repository Web Services – An Overview from 10,000 feet Get or Locate WSDL

13 Service Provider  implement  package and deploy  describe and publish Service Consumer  find/locate  bind/connect  invoke service/methods UDDI Repository 3-Connect, Invoke SOAP 1-Publish WSDL 2- Get or Locate WSDL, Bind Web Services – An Overview from 10,000 feet “ Shortcut ”

14 Content  Motivation  Web Services (An overview from 10,000 feet)  Consumed by the Database: Web Service call-outs – Installation – Java and PL/SQL clients  The Database Provides: Web Service call-ins – PL/SQL and Java – DML and Queries  Database Grid Services  Conclusion

15 Service Provider  implement  package and deploy  describe and publish Service Consumer Java and PL/SQL  bind  connect  invoke service/methods Connect, invoke SOAP Get WSDL and bind Consumed by the Database – Web Service call-outs Oracle Database “ access external Web Services from DB code: stock quotes, weather info, Web search, scientific data, enterprise data, etc. ”

16 Service Provider  implement  package and deploy  describe and publish Connect, invoke SOAP Web Service Call-Outs Java WS Client Stack Oracle Database Java Client Proxy PL/ SQL Wrap per SQL Engine Table Function Dyn Inv Itf

17 Web Service Call-Outs - Installation  Preloaded in Oracle 10g Database JVM  initdbws.sql script (under [OH]/sqlj ) – loads utl_dbws_jserver, sqljutl JAR files – creates SYS.UTL_DBWS package  JAX-RPC client stack for Web Services in JavaVM  grant java.net.SocketPermission to users of WS client library

18 Web Service Call-Outs – Java Clients  Using Dynamic Invocation Interface: Service s = factory.createService(serviceQname); // Note: can also consume a WSDL document Call call = service.createCall(portQname); call.setTargetEndpointAddress(endpoint); call.setProperty(…,…); … call.setReturnType(returnTypeQname); call.setOperationName(opQname); call.addParameter(pname, ptype, pmode); Object[] params = { … }; Object result = call.invoke(params);

19 Web Service Call-Outs – Java Clients  Generate static client proxy with JPublisher jpub -proxywsdl= WSDL-location -user= user / pwd – Creates static JAX-RPC client-proxy code – Loads Java code into the database  Invoke via client interface CInterf itf = new Client_Impl().getCInterfPort()); ((Stub)itf). _setProperty(…,…); … StringHolder p_inout = new StringHolder(“…”); Integer result = itf.operation(p_inout, p_in); …

20 Web Service Call-Outs – PL/SQL clients  Dynamic PL/SQL clients use UTL_DBWS package svc := UTL_DBWS.createService(WSDLLocation); call := UTL_DBWS.createCall(svc, operation); retval := UTL_DBWS.invoke(call, args); outargs := UTL_DBWS.get_output_values(call); – uses ANYDATA to represent argument values (primitive types only) – all names are qualified – explicitly close services and calls when done

21 Web Service Call-Outs – PL/SQL clients  Static PL/SQL clients (packages) are automatically created by JPublisher – generation of Java “glue” to expose static Java methods – generation of PL/SQL package call-specs – generation of SQL object types for complex arguments – installation of Java and PL/SQL code into database  Can be invoked from SQL and from PL/SQL code – SELECT WS_PACK.WS_OP(...) FROM... – BEGIN... x := WS_PACK.WS_OP(...); END;

22 Content  Motivation  Web Services (An overview from 10,000 feet)  Consumed by the Database: Web Service call-outs – Installation – Java and PL/SQL clients  The Database Provides: Web Service call-ins – PL/SQL and Java – DML and Queries  Database Grid Services  Conclusion

23 The Database Provides - Web Service Call-Ins  Database Capabilities – PL/SQL and Java Stored Procedures – SQL queries and DML – XML capabilities (XDB) – Advanced Queueing (AQ) and Streams  Access from JDBC => now through Web Services

24 Hosted as J2EE Web Service  delegate  package and deploy  describe and publish Connect, invoke SOAP Get WSDL and bind The Database Provides - Application Server Hosts Web Service Oracle Database Service Consumer  find/locate  bind/connect  invoke service/methods Service Implementation (PL/SQL, SQL, Java, XML, AQ, …) Oracle Application Server JDBC

25 Web Service Call-Ins  Oracle Application Server framework – J2EE-based, JAX-RPC Web Services => deployment, security, management  Tools – JDeveloper, Enterprise Manager – Web Services Assembler (JPublisher), DCM Control

26 Web Service Call-Ins  Web Services Assembler configuration – PL/SQL package, Java class, or SQL statement that is to be exposed; data source at runtime – connection information for Java code generation – name and package of generated Java class – Web context  EAR deployment, securing, UDDI publishing – Enterprise Manager or DCM Control  Use JDeveloper wizard to automate task – browse connection, right click over package and publish as Web Service

27 Web Service Call-Ins – Web Services Assembler configuration /statelessSP scott/tiger jdbc:oracle:thin:@host:5521:sqlj jdbc/ds Company acme … the database resource that is published as a Web Service … Invocation: java -jar wsa.jar -config config.xml

28 Web Service Call-Ins – PL/SQL packages … the database resource that is published … == Company method1 method2

29 Web Service Call-Ins – Java classes in the DB … the database resource that is published … == foo.bar.Baz method1 method2 Will expose public static methods with serializable arguments.

30 Web Service Call-Ins – PL/SQL packages and Java classes Automatic support for PL/SQL types: BOOLEAN, record, and table types. Generation of SQL object types as necessary Native Java calls use Java serialization over JDBC OUT and IN OUT arguments supported in generated Java code holder classes in 10g JAX-RPC JavaBeans in 9.0.4 stack JPublisher generates Java wrapper classes – this is useful by itself outside of DB Web Services

31 Web Service Call-Ins – SQL Queries and DML statements … the database resource that is published … == getEmp select ename from emp where ename=:{myname VARCHAR} updateEmp update emp SET sal=sal+500 where ename=:{theName VARCHAR} >

32 Web Service Call-Ins – SQL Queries and DML statements :{myname VARCHAR} is a SQL host variable DML statements automatically committed / rolled back. Provide a batch (array) API as well SQL queries / REF CURSOR arguments mapped to structured data (JavaBean format), or WebRowset or SQL/XML formats SYS.XMLTYPE mapped to XML subtrees

33 Content  Motivation  Web Services (An overview from 10,000 feet)  Consumed by the Database: Web Service call-outs – Installation – Java and PL/SQL clients  The Database Provides: Web Service call-ins – PL/SQL and Java – DML and Queries  Database Grid Services  Conclusion

34 Database Grid Services GRID = efficient utilization of resources GRID infrastructure defined by GGF (Global Grid Forum) is based on Web Services technologies DAIS Working Group in GGF (Database Access and Integration Services WG): databases become GRID resources generic access mechanism: “XML version of JDBC” distribution of results

35 Database Grid Services DAIS Specification – generic access => standard way for accessing the DB via XML => distribution mechanism – leveraging DB capabilities of Advanced Queueing, Streaming server-side XML support further integrated with DBWS support for asynchronous invocation and notification mechanisms for DBWS full JDeveloper support (today: PL/SQL call-in)

36 Content  Motivation  Web Services (An overview from 10,000 feet)  Consumed by the Database: Web Service call-outs – Installation – Java and PL/SQL clients  The Database Provides: Web Service call-ins – PL/SQL and Java – DML and Queries  Database Grid Services  Conclusion

37 Conclusion Database Web Services is  invoking database APIs such as SQL, PL/SQL, and Java through Web Services  re-use PL/SQL and Java stored procedures  utilize SQL queries and DML statements  handle result sets, XML documents, Relational, Text, Spatial, Binary and Multi Media data  accessing external Web Services as SQL data sources from Java and PL/SQL database code

38 Conclusion  JAX-RPC client in Oracle JavaVM for call-outs  Oracle Application Server for DB call-ins  create, deploy, secure, and publish Web Services – JDeveloper IDE – Oracle Enterprise Manager – command line: Web Service Assembler (with JPublisher), DCM Control

39 Conclusion – What Next…  Visit the Oracle Database Web Services demo on the DEMOgrounds  Visit the Web Services pages on OTN http://otn.oracle.com http://otn.oracle.com  Download the 10g Oracle Application Server preview with JAX-RPC Web Services

40 A Q & Q U E S T I O N S A N S W E R S

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