3 Types Of Web Application Architecture
First, we’ll define a web application:
It is a client-server application – there is a browser (the client) and a web server. The logic of a web application is distributed among the server and the client, there’s a channel for information exchange, and the data is stored mainly on the server.
It’s near to impossible to evaluate these completely different architectures impartially. But we’ll try to, using several criteria of evaluation:
User:
- Responsiveness/Usability: Updates of data on pages, switching between pages (response time). Such qualities of user interface as richness and intuitiveness in use.
- Linkability: Ability to save bookmarks and links to various sections of the website.
- Offline work: Speaks for itself.
Developer:
- Speed of development: Addition of new functional features, refactoring, parallelizing the development process between developers, layout designers, etc.
- Performance: Maximum speed of response from the server with minimum consumption of computation power.
- Scalability: Ability to increase computation power or disc space under increases in amounts of information and/or number of users. In case the allocated scalable system is used, one must provide data consistence, availability and partition tolerance (CAP theorem). It’s also worth noting that the case, when the number of features/screens of the client app is increased at the software owner’s request, depends on the framework and implementation rather than the type of web architecture.
- Testability:Possibility and easiness of automated unit testing.
Software owner:
- Functional extendability: Adding functionality within minimal time and budget.
- SEO: Users must be able to find the application through any search engine.
- Support: Expenses on app infrastructure – hardware, network infrastructure, maintenance staff.
- Security: The software owner must be sure that both business data and information about users are kept secure. As the main security criterion we’ll consider the possibility of changes in functionality of app behavior on the client side, and all associated risks. Standard dangers are the same for the compared architectures. We do not consider security on the ‘server-client’ channel, because all these architectures are equally exposed to break-ins – this channel can be the same.
- Conversion site – mobile or desktop application: Possibility to publish the application on mobile markets or to make a desktop application out of it with minimal additional costs.
Some of these criteria might seem inaccurate, but the purpose of the article is not to show what’s good and what’s bad. It’s more of a detailed review that shows the possible options of choice.
Let’s outline three main types of web applications according to the roles performed by the server and the client browser.
Type 1: Server-side HTML
The most widespread architecture. The server generates HTML-content and sends it to the client as a full-fledged HTML-page. Sometimes this architecture is called ”Web 1.0”, since it was the first to appear and currently dominates the web.
- Responsiveness/Usability: 1/5. The least optimal value among these architectures. It’s so because there is a great amount of data transferred between the server and the client. The user has to wait until the whole page reloads, responding to trivial actions, for example, when only a part of the page needs to be reloaded. UI templates on the client depend directly on the frameworks applied on the server. Due to the limitations of mobile internet and huge amounts of transferred data, this architecture is hardly applicable in the mobile segment. There are no means of sending instant data updates or changes in real time. If we consider the possibility of real-time updates via generation of ready chunks of content on the server side and updates of the client (through AJAX, WebSockets), plus design with partial changes of a page, we’ll go beyond this architecture.
- Linkability: 5/5. The highest of the three, since it’s the easiest implementable. It’s due to the fact that by default one URL receives particular HTML-content on the server.
- SEO: 5/5. Rather easily implemented, similarly to the previous criterion – the content is known beforehand.
- Speed of development: 5/5. This is the oldest architecture, so it’s possible to choose any server language and framework for particular needs.
- Scalability: 4/5. If we take a look at the generation of HTML, under the increasing load comes the moment when load balance will be needed. There’s a much more complicated situation with scaling databases, but this task is the same for these three architectures.
- Performance: 3/5. Tightly bound to responsiveness and scalability in terms of traffic, speed etc. Performance is relatively low because a big amount of data must be transferred, containing HTML, design, and business data. Therefore it’s necessary to generate data for the whole page (not only for the changed business data), and all the accompanying information (such as design).
- Testability: 4/5. The positive thing is that there’s no need in special tools, which support JavaScript interpretation, to test the front-end, and the content is static.
- Security: 4/5. The application behavior logic is on the server side. However, data are transferred overtly, so a protected channel may be needed (which is basically a story of any architecture that concerns the server). All the security functionality is on the server side.
- Conversion: site – mobile or desktop application: 0/5. In most cases it’s simply impossible. Rarely there’s an exception (more of exotics): for example, if the server is realized upon node.js, and there are no large databases; or if one utilizes third-party web services for data acquisition (however, it’s a more sophisticated variant of architecture). Thus one can wrap the application in node-webkit or analogous means.
- Offline work: 2/5. Implemented with a manifest on the server, which is entered to HTML5 specifications. If the browser supports such a specification, all pages of the application will be cached: in case the connection is off, the user will see a cached page.
Type 2: JS generation widgets (AJAX)
Evolved architecture of the first type. The difference is that the page, which is displayed in the browser, consists of widgets (functionally independent units). Data are uploaded to these widgets through AJAX query from the server: either as a full-fledged chunk of HTML, or as JSON, and transforms (through JavaScript-templating/binding) into the content of the page. The option of uploading chunks of HTML excludes the necessity of using JavaScript-MV*-frameworks on the client side; in this case something simpler can be used – for example, jQuery. By lowering interactivity we boost the development speed and make functionality cheaper and more reliable.
The foremost advantage is that updates from the server arrive only for the part of the page requested by the client. It’s also good that widgets are separated functionally. A particular widget is in charge of a part of the page; changes in a part will not affect the whole page.
- Responsiveness/Usability: 3/5. The volume of transferred data for a part of a page is smaller than for the whole page, that’s why responsiveness is higher. But since a page is a set of widgets, the applicable UI templates in a web application are limited by the chosen UI framework. Cold start (the first full loading) of such a page will take a little longer. The content, which is fully generated and cached on the server, can be instantly displayed on the client; here time is spent on getting the data for the widget and, as a rule, on templating. At the first visit the website will not be that quick to load, but further it will be much more pleasant in use, if compared to sites based on the architecture of the first type. Also it’s worth to mention the possibility of implementation of ”partial” loading (like it’s done on yahoo.com).
- Linkability: 2/5. Here special tools and mechanisms are needed. As a rule, Hash-Bang mechanism is applied.
- SEO: 2/5. There are special mechanisms for these tasks. For example, for promotion of websites based on this architecture it’s possible to predefine the list of promoted pages and make static URLs for them, without parameters and modificators.
- Speed of development: 3/5. Not only does one need to know the server-side technologies, but also to use JavaScript frameworks on the client side. It’s also required to implement web services on the server side.
- Performance: 4/5. The time and resources, spent on generation of HTML-content, are relatively minor if compared to the time spent by the app on retrieving data from the databases, and on their processing before templating. Use of the extended type of this architecture (when data are transferred as JSON) lowers the traffic between the client and the server, but adds an abstraction level to the application: retrieval from database -> data processing, serialization in JSON -> API: JSON -> parsing of JSON -> binding of data object on the client to HTML.
- Scalability: 4/5. Same as for the first type of architecture.
- Testability: 1/5. It’s required to test the server side, the client code, and the web service which returns the data to update widgets.
- Security: 4/5. Part of the logic is shifted to the client JavaScript which can be modified by an intruder.
- Conversion: site – mobile or desktop application: 0/5. Same as for the first type of architecture.
- Offline work: 1/5. The manifest mechanism works in this case, but there’s a problem with updating or caching the data displayed on the widget. This functionality has to be implemented additionally: in the manifest can be indicated only names of the files which will be cached from the server. Correlation between the widget template file, cached in the manifest, and logic of page behavior requires extra labor efforts.
Type 3: Service-oriented single-page Web apps (Web 2.0, HTML5 apps)
Here we’d like to say that the term ”Web 2.0” isn’t quite correct here. One of peculiarities of Web 2.0 is the principle of involving users into filling and repeated adjustments of content. Basically the term ”Web 2.0” means projects and services which are actively developed and improved by users themselves: blogs, wikis, social networks. This means Web 2.0 isn’t bound to one technology or a set of technologies.
Let’s figure out the essence of this architecture. An HTML-page is downloaded from the server. This page is a container for JavaScript-code. This code adresses a particular web service and retrieves business data only. The data are used by JavaScript application, which generates the HTML-content of the page. This type of architecture is the evolution of the previous type, which actually is a self-sufficient and rather complex JavaScript application, where part of the functionality is shifted to the client side. To compare, the architecture of the second type cannot show a high number of interrelated and structured functions.
It’s also worth noting that nowadays rarely do appear JavaScript apps which work fully offline (with few exceptions, e.g. rad.js.com). This approach allows an easily made reverse conversion: publish an existing application on the web.
- Responsiveness/Usability: 5/5. The volume of data transferred for updates, is minimal. That’s why responsiveness is at the highest level. UI is generated via JavaScript, it’s possible to implement any necessary variants. There is an issue with multithreading in JavaScript: in this particular case processing of big volumes of business data should be shifted to the web service.
- Linkability: 1/5. One will need special tools and mechanisms, as well as frameworks which can use, for example, Hash-Bang mechanism.
- SEO: 1/5. The hardest architecture to promote. If the whole app is promoted directly, there’s no problem: it’s possible to promote the application container. If it’s needed for a part of the application, a special mechanism will be needed for that purpose. Each more or less big search engine offers its own methods of standartization for this process.
- Speed of development: 2/5. It’s required to develop a web service and apply more specialized JavaScript frameworks which build the app architecture. Since the architecture is relatively new, there aren’t many specialists who are able to create a high-quality site/system based on this approach. There aren’t many time-tested tools, frameworks and approaches.
- Performance: 5/5. Under this architecture this criterion has the lowest influence from the server side. The server only has to give the JavaScript application to the browser. On the client side performance and browser type are of the biggest importance.
- Scalability: 5/5. All the web logic is on the client side, there is no content generation on the server. When there’s an increase in the number of users, it’s required to scale only the web services that give the business data.
- Testability: 3/5. It’s required to test web services and the client JavaScript code.
- Security: 0/5. All the logic is shifted to the client JavaScript, which can be relatively easily modified by an intruder. For protected systems it’s required to develop a preventive architecture, which considers the peculiarities of open-source applications.
- Conversion: site – mobile or desktop application: 5/5. A website becomes an application with the help of such platform as PhoneGap or similar ones.
- Offline work: 5/5. This architecture is a full-fledged application; it’s possible to save separate data, as well as parts of the application using any storage (for example, localstorage). One more advantage is the possibility to switch data storage and management to the offline mode. To compare, the two aforementioned arhitectures are only partially functional in the offline. Here the missing data can be replaced with mocks, it’s possible to show alert windows or use data from the local storage, while synchronization may be left for later.
Conclusion:
Thus we can see that there’s no perfect architecture – the optimal choice depends on tasks and priorities. If some criterion wasn’t mentioned here, it doesn’t mean it was ignored – it’s just the fact that for each particular software project every criterion has different importance. Each project must be discussed separately so the software owner will be able to make a choice. For every real project one of these criteria may be defining. It’s also possible to optimize the architecture of the app or implement a hybrid architecture which will meet the business requirements
-By
Nitin Uttarwar
Helical It Solution
Best Open Source Business Intelligence Software Helical Insight is Here