236 lines
8.1 KiB
Markdown
236 lines
8.1 KiB
Markdown
<!DOCTYPE html>
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<html>
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<head>
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<meta charset="utf-8"/>
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<link type="image/png" href="assets/logo.png" rel="icon">
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<title>ReadySet Markdown</title>
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</head>
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<script src="https://www.w3schools.com/lib/w3data.js"></script>
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<body>
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<topbar style="display:none;">
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<item><a href="index.html">Overview</a></item>
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<item><a href="plan.html">Project Plan</a></item>
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<item><a href="index-all.html">Workflows</a></item>
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<menu name="Themes"><item><a id="settheme"><b>Current</b></a></item></menu>
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<toc></toc>
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<xmp theme="readable" style="display:none;">
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<!-- Markdown content here -->
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# [Design](design.html) > Architecture
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---
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##### Project:
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::PROJECTNAME
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##### Internal Release Number:
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::X.Y.Z
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##### Related Documents:
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- [Software Requirements Specification](srs.html)
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- [Design](design.html) > [Security Worksheet](design-security.html)
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- [Glossary](glossary.html)
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- ::LINKS TO RELEVANT STANDARDS
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- ::LINKS TO OTHER DOCUMENTS
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---
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*TODO: Answer the questions below to help you define your system
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architecture. Some example text is provided.*
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### Overview
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#### What are the most important facts that a developer should know about this system architecture?
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::PARAGRAPH OR BULLETS
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#### What software architecture style is being used?
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- ::Single-process desktop application (with plug-in extension modules).
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- ::Client-server with a custom thick-clients and server.
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- ::2-tier web application: webserver/app-server, database.
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- ::3-tier web application: webserver, app-server, database.
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- ::Single web service: app-server, database.
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- ::Network of web services.
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- ::Peer-to-peer with/without central server.
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- ::Pipe-and-filter.
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- ::Computing grid / distributed servers.
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#### What are the ranked goals of this architecture?
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1. ::[Ease of integration](glossary-std.html#ease_of_integration)
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2. ::[Extensibility](glossary-std.html#extensibility)
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3. ::[Capacity matching](glossary-std.html#capacity_matching)
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### Components
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#### What are the components of this system?
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::The components of this system are clearly defined in this [UML Model
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with Component Diagram](LINK-TO-MODEL).
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::The components of this system are listed below by type:
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- ::Presentation/UI Components
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- ::[C-00: COMPONENTNAME](design-components.html#c-00)
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- ::Application Logic Components
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- ::[C-10: COMPONENTNAME](design-components.html#c-10)
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- ::Data Storage Components
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- ::[C-20: COMPONENTNAME](design-components.html#c-20)
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### Deployment
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#### How will the components be deployed to processes and machines?
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::The deployment of components to processes and machines is clearly
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defined in this [UML Model with Deployment Diagram](LINK-TO-MODEL).
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::The deployment of components to processes and machines is clearly
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defined below:
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- ::All-in-one server
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- ::Tomcat process
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- ::[C-00: Tomcat web server](design-components.html#c-00)
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- ::[C-10: PROJECTNAME
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application](design-components.html#c-10)
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- ::Database process
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- ::[C-20: COMPONENTNAME](design-components.html#c-30)
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::The deployment of components to processes and machines is clearly
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defined below:
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- ::Load-balanced front-end servers
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- ::[C-01: COMPONENTNAME](design-components.html#c-00)
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- ::Back-end server
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- ::JVM process
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- ::[C-00: COMPONENTNAME](design-components.html#c-00)
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- ::[C-10: COMPONENTNAME](design-components.html#c-10)
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- ::[C-11: PLUG-IN COMPONENTNAME](design-components.html#c-11)
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- ::[C-12: PLUG-IN COMPONENTNAME](design-components.html#c-12)
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- Database process
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- ::[C-20: COMPONENTNAME](design-components.html#c-30)
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#### What aspects/resources of their environment are shared?
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::Everything is on one server so all machine resources are shared by
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all components.
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::All machines share the same bandwidth to the Internet. All machines
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access the same file server. So, if one component uses the resources
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heavily, other components may have to wait.
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#### How are requests allocated to redundant or load-balanced servers?
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::We are not doing any load-balancing or redundancy for fail-over.
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::Load-balancing among front-end servers is handled by a load
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balancing device that we can make very few assumptions about.
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However, once a user session is established, the same front-end
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server will be used for all requests during that session.
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#### What alternative deployment configurations are possible?
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::This is the only possible deployment.
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::The database could be moved to a different machine with a fairly
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simple change to a configuration file. Otherwise, nothing can be
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changed about the deployment.
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::We have the ability to move the database process to a
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separate machine. We have the ability to add more front-end servers.
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The application logic running on the application server cannot be
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split or load-balanced.
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### Integration
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#### How will components be integrated? Specifically, how will they communicate?
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::All of our code uses direct procedure calls. The database is
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accessed through a driver.
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::Components within the same process use direct procedure call or
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standard Java events. Plug-ins are also accessed through a API of
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direct procedure calls and standard events. Communication with the
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database uses a JDBC driver. Communication between the front end-and
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back-end servers uses XML-RPC.
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#### What architectural mechanisms are being used to ease future extensions or modifications?
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::We could change the database by switching drivers. Otherwise,
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extensions and modifications can only be done at the design level.
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::New front-end components could be added so long as they access the
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back-end the same way. New plug-in components can be dynamically
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loaded, so long as they satisfy the plug-in API. Otherwise, there is
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no ability to add or exchange components, because this architecture
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uses direct dependencies between its components rather than
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implicit invocation. Extensions and modifications can be made at the
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design-level, but deploying those changes requires recompilation
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and down-time.
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### Architectural Scenarios
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*TODO: Provide architecture scenarios that show how objects will
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communicate across components, processes, and machines. Focus on
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scenarios where the architecture itself is changing, e.g., system
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startup, shutdown, adding or upgrading components, load balancing or
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fail-over.*
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The following sequence diagrams give step-by-step descriptions of how
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components communicate during some important usage scenarios:
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- ::[System startup](LINK-TO-DIAGRAM)
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- ::[System shutdown](LINK-TO-DIAGRAM)
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- ::[SCENARIO NAME](LINK-TO-DIAGRAM)
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### Architecture Checklist
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*TODO: Evaluate your architecture with respect to each of your goals.*
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#### Ease of integration: Have mechanisms been provided for all needed types of integration?
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::Yes. In this system, all of the new components are designed to
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work together. And, the reused components are integrated via fairly
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simple interfaces.
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#### Extensibility: What types of components can be added later and how?
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::See above.
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#### Capacity matching: How has this architecture matched component resource needs to machines?
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::The database can be on a machine with RAID disks and a hot-swappable
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power supply, while the web front-end components can be on cheaper
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machines that could fail individually without causing
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system downtime. The front-end web servers and application server
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are both CPU-intensive, so they are deployed to different CPUs. The
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database is disk-intensive, so it can be deployed to the same
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machine as the CPU-intensive application server, with only moderate
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competition for resources.
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#### Has the architecture been communicated to the development team and other stakeholders?
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::Yes, everyone understands. Feedback is welcome.
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::No, this is a risk that is noted in the [Risk
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Management](plan#risks) section.
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