This chapter provides an overview of Sun Java System Communications Services 6 2005Q4, the business reasoning behind deploying Communications Services, and the deployment process itself.
This chapter contains the following sections:
Sun Java System Communications Services 6 2005Q4 are a secure, cost-effective communications and collaborations offering. Communications Services address customer concerns about costs, capabilities, and the security of the traditional communications infrastructure by offering a secure, scalable, lower total cost of ownership alternative to other communications and collaboration solutions.
Communications Services provide the email, calendar, and instant messaging solutions necessary to meet both enterprise and ISP communications and collaboration needs. The products and services that form Communications Services provide a compelling response to common business requirements. All organizations need communications, and many are required to provide these services across large, diverse, and geographically distributed communities of users. Traditional communications solutions are costly, and not sufficient to meet today’s requirements for scalability and security. Communications Services enable organizations to deploy solutions at a total cost of ownership they can afford.
In addition, Communications Services provide differentiated services and full-featured collaboration functionality that are required by a diverse audience. Finally, a Communications Services deployment meets your increased security needs when extending communications outside of a corporate firewall and to mobile users through multiple devices.
The Communications Services core solution consists of the following component products:
Sun Java System Messaging Server 6 (formerly SunTM ONE Messaging Server)
Sun Java System Calendar Server 6 (formerly SunTM ONE Calendar Server)
Sun Java System Instant Messaging 7 (formerly SunTM ONE Instant Messaging)
Additional features that enhance the Communications Services solution include:
Sun JavaTM System Communications Express 6
Sun ONETM Synchronization 1.1
Sun JavaTM System Connector for Microsoft Outlook 7
Taken as a whole, Communications Services provide a standards-based, integrated communications and collaboration suite of products for enterprise deployments of many thousands of users, and ISP deployments of hundreds of thousands of users. Communications Services deliver a robust and flexible platform meeting the diverse communications needs of all types of organizations. Communications Services are an optimal solution to connect remote offices, distributed workgroups, and global corporate locations.
Sun Java System Messaging Server 6 is a high-performance, highly secure messaging platform. Scaling from thousands to millions of users, Messaging Server is suitable for businesses interested in consolidating email servers and reducing total cost of ownership of communications infrastructure. Messaging Server provides extensive security features that help ensure the integrity of communications through user authentication, session encryption, and the appropriate content filtering to help prevent spam and viruses.
With Messaging Server, organizations can provide secure, reliable messaging services for entire communities of employees, partners, and customers.
Messaging Server currently supports two client user interfaces (UI):
Messenger Express
Communications Express
Going forward, no new features will be added to the Messenger Express user interface. It has been deprecated in favor of the Communications Express user interface. Sun Microsystems, Inc. will announce an end-of-life timeline for Messenger Express at a future date.
See Part II, Deploying Messaging Server for more information on Messaging Server concepts and other deployment aspects.
Sun Java System Calendar Server 6 facilitates team collaboration by enabling users to manage and coordinate appointments, events, tasks, and resources. With its intuitive, Web-based interface, Calendar Server enables end users to access their personal, public, or group calendars anytime, anywhere, from a Web browser. Deployments use Calendar Server, along with the Messaging Server and Instant Messaging, to offer users a comprehensive communications and collaborative environment.
Calendar Server currently supports two client user interfaces (UI):
Calendar Express has been deprecated in favor of the new Communications Express user interface. Going forward, no new features will be added to the Calendar Express user interface. Sun Microsystems, Inc. will announce an end-of-life time line for Calendar Express at a future date.
See Part III, Deploying Calendar Server for more information on Calendar Server concepts and other deployment aspects.
Sun Java System Instant Messaging 7 enables secure, real-time communication and collaboration. Instant Messaging combines presence awareness with instant messaging capabilities such as chat, conferences, alerts, news, polls, and file transfers to create a rich collaborative environment. These features enable one-to-one as well as group collaboration through either short-lived communications or persistent venues such as conference rooms or news channels. Instant Messaging, along with Calendar Server and Messaging Server, offers users a comprehensive communications and collaboration environment.
Instant Messaging ensures the integrity of communications through its multiple authentication mechanisms and secure SSL connections. Integration with Sun JavaTM System Portal Server 6 and Sun JavaTM System Access Manager 6 brings additional security features, services-based provisioning access policy, user management, and secure remote access. Furthermore, Instant Messaging supports the Extensible Messaging and Presence Protocol (XMPP). XMPP enables you to use a number of third-party clients, which aggregate contacts from the public networks. In one client, you can have contacts from AIM, Yahoo, MSN, Sun, and other XMPP-based servers.
See Part IV, Deploying Instant Messaging for more information on Instant Messaging concepts and deployment aspects.
Sun Java System Communications Express 6 provides an integrated web-based communications and collaboration client. Communications Express is a common part of Messaging Server and Calendar Server, providing end users with a web interface to their calendar information and mail, as well as an address book.
See Part V, Deploying Communications Express for more information on Communications Express concepts and deployment aspects.
Sun ONE Synchronization 1.1 is a software product that runs on a Windows personal computer and enables users to synchronize Calendar Server events and tasks with mobile devices and personal information managers (PIMs) such as Microsoft Outlook.
See the Sun ONE Synchronization documentation at the following location for more information:
http://docs.sun.com/db/coll/S1_Sync_11
Sun Java System Connector for Microsoft Outlook 7 enables Outlook to be used as a desktop client with Messaging Server and Calendar Server.
Connector for Microsoft Outlook is an Outlook plug-in that you install on end-users’ desktops. Connector for Microsoft Outlook queries Messaging Server for folder hierarchies and email messages. Connector for Microsoft Outlook then converts the information into Messaging API (MAPI) properties that Outlook can display. Similarly, Connector for Microsoft Outlook queries Calendar Server for events and tasks, which are then converted into MAPI properties. With this model, Connector for Microsoft Outlook builds an end-user Outlook view from two separate information sources: mail from Messaging Server and calendar information from Calendar Server.
Similarly, Connector for Microsoft Outlook uses Web Address Book Protocol (WABP) to query Address Book Server for contacts, which are then converted into MAPI properties. With this model, Connector for Microsoft Outlook builds an end-user Outlook view from three separate information sources: mail from Messaging Server, calendar information from Calendar Server, and contacts from Address Book Server.
See the Connector for Microsoft Outlook documentation at the following location for more information:
http://docs.sun.com/app/docs/coll/1312.1
Communications Services have dependencies on other Sun Java System component products that provide infrastructure services. These component products include Sun JavaTM System Directory Server and, optionally, Sun Java System Access Manager. Additionally, Communication Services depend on a web server to serve HTML content and provide HTML connections. You can use Sun JavaTM System Web Server (formerly SunTM ONE Web Server) or Sun JavaTM Application Server to fulfill this need.
Communications Services also depend on the existence of DNS. You need to have a functioning DNS server before you can install the Communications Services products.
See Chapter 3, Understanding Product Requirements and Considerations for more information on product dependencies.
Organizations want to deploy services that simultaneously reduce cost and complexity while providing a robust set of features. The architecture of services must add requirements for security and scalability that enable users to have more than just a single means of accessing information critical to their daily work. Communications Services meet these needs through providing scalable messaging, calendaring, and instant messaging at a total cost of ownership businesses can afford.
Communications Services enable you to develop an architecture that incorporates ease of deployment and maintenance with a complete set of features and functionality. Most important, a Communications Services architecture builds security into each service element. These elements include the network infrastructure, operating environment, and the Communications Services component products themselves.
Messaging Server promotes superior reliability and productivity as well as reduced administrative and operational costs. Messaging Server uses committed transactions, which means that messages are not acknowledged as received until they are committed to disk. This reliability feature protects mail messages from loss and corruption. Additionally, the Message Store is built around a custom-designed database that employs a write-once data store and a two-level index to achieve excellent performance and data integrity.
Calendar Server provides one of the industry’s most open, interoperable, and high-performance time and resource management solutions. Calendar Server provides the features you need at a lower total cost of ownership than alternative solutions. Through its flexible and extensible architecture, Calendar Server scales both vertically (by increasing the number of CPUs per system) and horizontally (by adding more servers to the network).
Instant Messaging software is closely integrated with Java Enterprise System, helping you to shorten the project life cycle and deploy new services affordably. In addition, Instant Messaging works with Portal Server, Access Manager, Messaging Server, and Calendar Server. This integration provides users with a full-featured, secure, scalable communications and collaboration services platform from a single vendor. The well-documented Java APIs included in Instant Messaging provide open standards for ease of integration, as well as multiple platform support, platform extensibility, and customization of real-time communications and collaboration features. These features can thus be embedded in existing applications or become the basis of new applications. Also, XMPP interoperability provides a great advantage to those businesses seeking to extend their ability to practice real-time communication with their partners and customers, many of which might have separate instant messaging systems.
Communications Express provides an integrated web-based communication and collaboration client that caters to the needs of Internet service providers, enterprises, and OEMs. Communications Express has an integrated user interface for calendar, mail, and address book and enables the access of one client module from another without re-authenticating user credentials. Communication between mail and calendar is established using Access Manager or Messaging Server single sign-on mechanism. Both calendar and mail applications share the same address book. All modules share the common user preferences specified in the Options tab of Communications Express.
The Communications Services components have been traditionally deployed in large-scale, carrier-class deployments. The same dependability required for the large-scale deployments can be used in the enterprise.
The following table summarizes the benefits provided by Communications Services.
Table 1–1 How Communications Services Benefit Your Organization
You can configure Messaging Server, Calendar Server, and Instant Messaging to be highly available by using clustering software. Messaging Server supports both SunTM Cluster and Veritas Cluster Server software. Calendar Server and Instant Messaging support Sun Cluster software. When using clustering software, a secondary Message Server, Calendar Server, or Instant Messaging host provides services to users if the primary system is taken offline for maintenance or is down due to a problem.
Even without the use of Sun Cluster, Messaging Server has built-in monitoring capabilities that continuously check the status of server processes and service availability. Messaging Server can restart process and services automatically, if necessary. Messaging Server logs failures and recovery operations, which you can use for reporting and analysis.
Additionally, you can deploy the Communications Services products in a highly available configuration through use of redundant components. This kind of deployment gives services a high level of uptime. A highly available deployment of this sort requires the redundancy of every component in the service architecture. These components include a duplicate data store server, duplicate network interface cards, and duplicate system storage.
This guide does not discuss the details of using Sun Cluster in highly available deployments for Communications Services. See the Sun Cluster, Messaging Server, Calendar Server, and Instant Messaging documentation for more information on this topic.
You can install Communications Services products with Portal Server to provide access to messaging and calendar portlets in a portal page. These portlets provide a summary of messaging information, calendar schedules, and address book information. The integration of Portal Server includes single sign-on capabilities between Portal Server, Calendar Express, Messenger Express, and the Communications Express client.
You can run Communications Express in both Sun JavaTM System Schema 1 and Schema 2 environments. If you are using Schema 2, then you can use Access Manager authentication and single sign-on for Communications Express.
Portal Server also supports message archiving for Instant Messaging. In addition, the Messenger Express, Calendar Express, and Instant Messenger clients are made available to users through the Portal Server Desktop.
The following two components of Portal Server provide additional functionality to a basic Communications Services deployment:
Portal Server Desktop. Enables users to access and launch Communications Services applications from portlets.
Sun JavaTM System Portal Server Secure Remote Access. Enables remote end users to securely connect to an organization’s network and its services over the Internet. End users access Secure Remote Access by logging in to the web-based Portal Server Desktop through the Secure Remote Access gateway. The authentication module configured for Portal Server authenticates the end user. The secure end-user session is established with Portal Server and the access is enabled to the end user’s Portal Server Desktop.
This guide does not discuss portal deploying Communications Services in a portal environment. See the Portal Server documentation for more information.
The Communications Services deployment process consists of the following general phases, referred to as the Solution Life Cycle:
Analyzing business requirements
Analyzing technical requirements
Designing the logical architecture
Designing the deployment architecture
Implementing the deployment
Operating the deployment
The deployment phases are not rigid; the deployment process is iterative in nature. Nevertheless, the following subsections discuss each of the deployment phases independently.
For detailed information on the deployment process for Communications Services, and Java Enterprise System components, see the Sun Java Enterprise System 2005Q4 Deployment Planning Guide.
In the business analysis phase, you define the business goal of a deployment project and state the business requirements that must be met to achieve that goal. When stating the business requirements, consider any business constraints that might impact the ability to achieve the business goal. The business analysis phase results in business requirements documents that you later use in the Technical Requirements phase. Throughout the life cycle, you measure the success of your deployment planning, and ultimately your deployed system, according to the analysis performed in the business analysis phase.
In the technical requirements phase, you start with the business requirements and business constraints defined during the business analysis phase and translate them into technical specifications that can be used to design the deployment architecture. The technical specifications measure quality of service features, such as performance, availability, security, and others.
During the technical requirements phase you prepare the following information:
Analysis of user tasks and usage patterns
Use cases that model user interaction with the planned deployment
Quality of service requirements derived from the business requirements, taking into consideration the analysis of user tasks and usage patterns
The resulting set of usage analysis, use cases, and system requirements documents are inputs to the logical design phase of the Solution Life Cycle. During technical requirements analysis, you might also specify service level requirements, which are the terms under which customer support must be provided to remedy a deployed system failure to meet system requirements. Service level requirements are the basis for service level agreements signed during project approval.
In the logical design phase, you identify the services required to implement the deployment. Once the services are identified, you map logically distinct components providing those services within a logical architecture that shows the dependencies among the components. The logical architecture, together with the technical requirement specifications from the business analysis phase, characterize a deployment scenario.
The logical architecture does not specify the actual hardware required to implement the deployment scenario. However, it helps you visualize the interrelationship among components, provides a basis for further analysis of use cases and identified usage patterns, and becomes the starting point for the deployment design phase.
Additional work might be necessary, either in extending services through the use of APIs, or in customizing look and feel, for example, introducing a corporate branding.
For some solutions, development and customization might be quite extensive, requiring you to develop new business and presentation services. In other cases, it might be sufficient to customize existing graphical user interfaces, such as the Portal Server desktop, to achieve the functionality required.
For more information on using product APIs and customizing product functionality, see the appropriate component product documentation, including:
Sun Java System Communications Services 6 2005Q4 Event Notification Service Guide
Sun Java System Messenger Express 6 2005Q4 Customization Guide
Sun Java System Messaging Server 6 2005Q4 MTA Developer’s Reference
During the design phase, you map the logical components specified in the logical architecture to physical components in a deployment architecture. You also produce design documents that aid in the implementation of the deployment. Successful deployment design results in the following:
Project Approval
Project approval is typically based on design documents created during this phase. During project approval, the cost of the deployment is assessed, and if approved, contracts for implementation of the deployment are signed, and resources to build the project acquired. At what point the actual approval occurs depends on the type of deployment you are designing and internal policies of the company requesting the deployment.
Deployment Architecture
The deployment architecture is a high level design document that represents the mapping of logical components to network hardware and software.
Implementation Specification
The implementation specification is a set of design documents that includes the following:
A detailed design specification used as a blueprint for building out the deployment
A user management plan outlining procedures for designing and implementing directory services and data structures needed to provision users for access to system services
An installation plan that outlines procedures for distributed installation of the deployment
Additional plans covering phased rollout of the deployment, training for end users and administrators, and other plans related to a successful introduction of the deployment
During implementation phase, you work from design documents created during deployment design to build out the deployment architecture and implement the deployment. Depending on the nature of your deployment project, this phase includes some or all of the following steps:
Creating and deploying pilot and/or prototype deployments in a test environment
Designing and running functional tests to measure compliance with system requirements
Designing and running stress tests to measure performance under peak loads
Creating a production deployment, which might be phased into production in stages
Once a deployment is in production, you need to continue to monitor, test, and tune the deployment to ensure that it fulfills the business goals.