The following sections provide an overview to the Oracle SALT product:
Oracle Service Architecture Leveraging Tuxedo (SALT) is an add-on product option for Tuxedo, enabling Tuxedo applications to participate in SOA environments. Oracle SALT has two major components: native Web services stack and SCA container.
Oracle SALT allows external Web services applications to invoke Tuxedo services as Web services, and Tuxedo applications to invoke external Web services. Oracle SALT does not require any coding to achieve this. In addition, Oracle SALT includes an SCA container, which allows you to develop new SOA applications focusing on business logic, while still taking advantage of Tuxedo infrastructure. SCA container also helps with effective reuse of existing application assets.
Oracle SALT complies with standard Web service specifications (SOAP 1.1, SOAP 1.2, and WSDL 1.1), allowing Oracle SALT to interoperate with other Web service products and Oracle SALT Overview development toolkits. Tuxedo applications can easily integrate with Web services applications using Oracle SALT.
Web services are a set of functions packaged into a single entity made available to other systems on a network. They can be shared and used as a component of distributed Web-based applications. The network can be a corporate intranet or the Internet. Other systems, such as customer relationship management (CRM) systems, order-processing systems, and other existing back-end applications, can call these functions to request data or perform an operation. Because Web services rely on standard technologies which most systems provide, they are an excellent means for connecting distributed systems together.
The software industry has evolved toward loosely coupled service-oriented applications that interact dynamically over the Web. The applications break down the larger software system into smaller modular components, or shared services. These services can reside on different computers and can be implemented by vastly different technologies. They are packaged and made accessible using standard Web protocols, such as XML and HTTP.
Web services share the following properties that make them easily accessible from heterogeneous environments:
Web services communicate with clients (both end-user applications or other Web services) through simple XML messages that can be produced or parsed by virtually any programming environment or manually, if necessary.
Oracle SALT is a native Tuxedo Web service integration solution. It reduces Tuxedo/Web service integration costs and decreases conversion processes that may exist with other solutions for accessing Tuxedo services. It enables seamless connectivity between Tuxedo applications and external Web service applications.
Oracle SALT allows existing Tuxedo services (inbound) to be easily exposed as Web services without additional programming tasks. It also allows you to create native Tuxedo applications that access external Web services (outbound) transparently.
Major Web services benefits include:
Figure 1 illustrates how the Oracle SALT gateway is used in the Tuxedo framework.
Oracle SALT provides an SCA Container for new application development. The SCA container, which is based on standard SCA programming and assembly model, allows customers to focus on business logic without having to learn many middleware APIs. Use of SCA standard allows you to use SCA tools to develop and assemble applications. The SCA container still leverages all the benefits of Tuxedo infrastructure, such as reliability, availability, scalability and performance.
SCA container also improves interoperability and extensibility of existing and new Tuxedo applications by making it easier to interoperate with SOA environments.
Figure 2 shows an application based on SCA assembly and programming model. The application contains many services, offered by SCA components. These components include components hosted in SCA container as well as legacy components accessed from SCA components.
Oracle SALT is the latest add-on to the Tuxedo product family. Developed in 2006, Oracle SALT is designed to provide a seamless Tuxedo solution of integrating Tuxedo applications and standard Web services application. With the addition of an SCA container, SALT is also designed to better integrate existing Tuxedo applications in SOA environments, as well as design better SOA applications from the ground up with SCA.
Release 1.1 is the initial Oracle SALT release. Made available in 2006, SALT 1.1 introduced the following major features:
The Oracle SALT 2.0 release incorporates significant enhancements based on the SALT 1.1 release. SALT 2.0 introduced the following features:
SALT 10g Release 3 (10.3) introduces the following features:
SCA provides a new programming model that aims at simplifying component re-use and seamless communications between components. The SALT 10g Release 3 (10.3) SCA container enables new programming model and leverages Tuxedo's most valued features, such as reliability, availability, scalability, and performance. SALT 10g Release 3 (10.3) introduces the following SCA features:
Automatically discover service contract information at run time. The generated information can be put into metadata repository automatically or to a file which can then be loaded manually into the metadata repository using the tmloadrepos
utility. For more information, see Configuring an Oracle SALT Application in the Oracle Salt Administration Guide.
Assists Tuxedo client administrators to monitor application validity at runtime. You can record application high water client count, current client count, and named users.Automatic Service Definition Discovery
Oracle SALT consists of the following major components:
The Oracle SALT provided Tuxedo system server (GWWS), connects with other Web service applications via SOAP over HTTP/S protocol. The GWWS server acts as a Tuxedo gateway process and is managed in the same manner as general Tuxedo system servers. Each GWWS server has bi-directional (inbound/outbound) capability. The GWWS server:
You can have multiple GWWS instances in one Tuxedo domain. The same functionality for multiple GWWS instances is provided by specifying the same Oracle SALT configuration to improve throughput and failover protection. You can also group multiple GWWS instances in different configuration files for different purposes.
When the GWWS server boots, it loads the specified SALT configuration file and Tuxedo service contract information from the Tuxedo Service Metadata Repository.
The GWWS server also acts as a simple HTTP Web server for WSDL document and XML Schema file download.
The Web Services Description Language (WSDL) is an XML-based specification that describes a Web service. A WSDL document describes Web service operations, input and output parameters, and how a client application connects to the Web service. Oracle SALT provides two utilities (tmwsdlgen
and wsdlcvt
) to map Tuxedo applications and Web Service WSDL descriptions.
When using Oracle SALT to publish Tuxedo services as Web services, you do not need to compose a WSDL document manually; it is automatically generated as part of the SALT Web service development process. The generated WSDL document can be integrated using Web service development tools, or can be published to a UDDI server.
There are two ways to obtain a WSDL document:
tmwsdlgen
(the WSDL document file generating utility).To support external Web Service applications, external WSDL documents need to be converted. The Oracle SALT conversion utility, wsdlcvt
, converts external WSDL documents to Tuxedo specific definition files (SALT Web Service Definition file, Tuxedo Service Metadata Repository Definition file and FML32 Field Table Definition file).
The SALT Web Service Definition file can be imported into a SALT Deployment file and utilized by a particular GWWS server. The Tuxedo Service Metadata Repository Definition file and FML32 Field Table Definition file provide service interface descriptions for Tuxedo client programming.
Table 1 describes the SALT 10g Release 3 (10.3) SCA Container APIs and utilities.
The following sections describe the most common Oracle SALT Web services use cases:
Native Tuxedo services can be exposed as Web services using standard Web service SOAP protocol. The GWWS server accepts SOAP requests through HTTP/S and then converts them into Tuxedo ATMI calls. SALT generates a WSDL document that describes the open standard Web service interfaces for Tuxedo services.The Tuxedo Service Metadata Repository is used to define Tuxedo service contract information. This is an “inbound” use case.
Figure 3 illustrates a generic inbound Web service call.
Web service applications can be imported into a Tuxedo domain, advertised as Tuxedo services through the GWWS server, and invoked from Tuxedo applications. SALT converts and maps each wsdl:operation
as a particular Tuxedo service. The GWWS server advertises the mapped services (called SALT proxy services), and accepts Tuxedo ATMI requests from Tuxedo applications.
The Tuxedo Service Metadata Repository is used to store converted Tuxedo service contract information and helps Tuxedo programmers understand what type of Tuxedo buffers are expected for the imported SALT proxy services. This is an “outbound” use case.
Figure 4 illustrates a generic outbound Web service call.
Oracle SALT also allows you to connect two different Tuxedo domains using GWWS servers as an alternative to using /T domain. The GWWS server in the calling domain works in an outbound direction, the GWWS server in the receiving domain works in an inbound direction.
The receiving Tuxedo domain must propagate the Tuxedo service definition to the calling Tuxedo domain. This means that the calling domain Tuxedo Service Metadata Repository must contain the Tuxedo service definition file that runs in the receiving domain.
Note: | This should be set up manually. The Tuxedo Service Metadata Repository infrastructure does not currently provide automatic propagation between Tuxedo domains. |
The WSDL document is not required. Oracle SALT provides simple configurations to allow two GWWS servers to work together for domain connectivity using SOAP protocol without needing to exchange WSDL documents.
Figure 5 illustrates how to use Oracle SALT to connect two domains.
Two GWWS servers should not be used to create connections within the same Tuxedo domain, see Figure 6. Also, a single GWWS server cannot connect to itself, see Figure 7.
In either scenario, the GWWS server advertises the same Tuxedo services which are already advertised by other application servers. This might result in dead-loop service dispatching.
WARNING: | It is strongly advised that you carefully plan and configure your Oracle SALT application to avoid these scenarios. |
Oracle SALT provides an infrastructure that allows developing components that conform to the Services Component Architecture (SCA) specification. These components may interact natively, or leverage the performance and high-availability of the Tuxedo framework, by communicating using a native ATMI binding, a WorkStation protocol based binding, or a Web-Services binding as shown in Figure 8.
Newly developed SCA components can interact with existing Tuxedo ATMI services by using the ATMI binding, as shown in Figure 9.
Conversely, existing Tuxedo clients can interact with newly-developed SCA components by being exposed with the ATMI binding, as shown in Figure 10.
The following steps are used typically when you configure Web services using Oracle SALT:
tmloadrepos
.TMMETADATA
and GWWS
servers to your TuxedoUBBCONFIG
file.