What are the fundamentals that every Liferay developer should know?
- It’s Open Source and puts a strong emphasis on following standards, instead of reinventing the wheel.
- It’s based on Java EE and heavily leverages OSGi and several other popular technologies for the Java Platform.
- It is based on a modular architecture and facilitates following a modular development paradigm for your own projects.
- You can build your own web applications, portlets, or mobile apps on top of it.
- It provides mature development tools, while staying agnostic so you can use tools you prefer.
- It’s all about reusing, providing reusable frameworks and libraries and allowing you to create your own.
Interested? More details below.
Liferay DXP is both Open Source and built in the open, following a collaborative development model. That means that you can follow new development as it’s happening, make comments on it, and contribute! Here are some tools that you can use to do all this:
Our ticketing system. All product changes, including all bug fixes, improvements, and new features start with a ticket created in JIRA. We have several projects there, but the main one for tracking Liferay DXP work or for reporting bugs you find (with as many details as you can and steps to reproduce, of course) is LPS.
GitHub: The home of our source code. You can use it to see the code changes as they happen and also to send pull requests for improvements. There are also many repos, but the main one is liferay-portal.
Forums: It’s where our community gets together to share ideas, discuss, and collaborate. Go ahead and ask your questions and help others ask theirs.
Blogs: Read the latest news, advice, and best practices from key core developers and our most active community members.
Participate: Learn how to get started participating. There are options for all levels of expertise and time availability.
In addition to being Open Source, Liferay is also heavily based on standards. This is great news for your project, since it significantly reduces the lock-in on Liferay. That also encourages us to improve constantly.
Here are some key standards Liferay DXP supports:
Portlets 1.0 (JSR-168) and Portlets 2.0 (JSR-286): Liferay DXP can run any portlets that follow these two versions of the specification. Liferay is also heavily involved in the upcoming Portlets 3.0 specification.
JSF (JSR-127, JSR-314, JSR-344): The Java standard for building component based web applications. Liferay is an active contributor to the standard and lead of the JSF-Portlet Bridge specification.
WebDAV: Any Documents & Media folder can be mounted anywhere WebDAV is supported, such as Windows explorer or WebDAV-specific clients.
JAX-WS and JAX-RS: Incorporated since Liferay 7 as the preferred tooling to create web services.
OSGi r6: Liferay supports a wide range of the OSGi family of standards through its own implementations and also integrates the high quality implementations of the Apache Felix and Eclipse Equinox projects (which we also collaborate). Here are some of the most relevant supported standards:
- OSGi runtime: Allowing any OSGi module to run in Liferay DXP
- Declarative Services: Supports a dynamic component model for Liferay development.
- Configuration Admin: Lets you create highly configurable applications that can be reconfigured on the fly. Liferay provides an auto-generated UI to change the configuration of any component that leverages this standard.
Like any open source application, Liferay is built on the shoulders of giants. When we choose the technology on which to build our platform, it must have the following characteristics:
- It must balance being modern and being mature enough for demanding and critical enterprise environments.
- It should be widely adopted and have a mature community.
- It should be as easy as possible to contribute back, since we love to contribute to the Open Source projects we use.
- It should be possible to use only the piece of the project we need if we don’t need the whole thing. That way, it’s easier to replace that piece in the future if we find something that works better.
The goal, of course, is to give our developers and users the most up to date, easy-to-use, and stable platform to build services on.
At its base, Liferay is a JavaEE application that also includes an OSGi container. This offers the best of both worlds: access to the world’s most robust and fully featured enterprise platform, along with the benefits of the world’s most fully featured and stable modular container. Now you can develop and deploy enterprise-ready, scalable web and mobile-based applications in a dynamic, component-based environment.
With Java EE and OSGi at the bottom of the stack, we build the rest of our core on well known or widely used products:
- Spring for transactions (and Dependency Injection in the core)
- Hibernate for database access (along with direct JDBC access for optimized queries)
- Elasticsearch for indexing and searching
- Ehcache for caching.
In the application layer, developers have access to many of the libraries they’re familiar with and have been using for years:
- Apache Commons
If you’re approaching Liferay DXP with the intention of customizing it, you can know that most if not all of the tools you’re familiar with are there. If you’re writing applications on Liferay, the sky’s the limit: you can use any web framework you like, and you can write both servlet and portlet-based applications. If you’re looking for a recommendation, though, we’re happy to point you to our MVCPortlet framework.
On the front-end, Liferay has kept pace with the most recent progressions in that space. If you’ve used Liferay in the past, you can of course continue to use Liferay’s venerable Alloy UI, but you are also free to use the front-end technologies you love the most:
- EcmaScript 2015 (using Babel.js)
- Metal.js (developed by Liferay)
- jQuery (included)
- Lodash (included)
- Angular JS or Angular
- Your library of choice
Clay is automatically made available to you through a set of CSS classes and markup, although it’s even easier to use our tag library.
For templating, Java EE’s JSP is there as expected as well as FreeMarker, but the modularity of the platform allows you to use Google’s Soy (aka Closure Templates) or whatever else you like.
Liferay has also chosen build tools that give you freedom to use any development environment. Gradle along with bnd powers the product’s build, but project layouts are dynamic, which means you can use anything from Maven to Ant/Ivy to build applications for Liferay.
In short, Liferay has done a lot to make sure its users and developers have access to the most widely used, robust tools possible–as well as the freedom to use the tools they like the most. Know that Liferay has your back and will do everything we can to provide you with the most flexible technology platform possible, so that you have the freedom to go and build great things on it–things we never could have expected or imagined.
Liferay’s design goals have from the beginning been to give you all the tools to create exactly the web presence you have in mind. To achieve this, the product must do these things:
- Provide a usable default configuration and interface
- Ship with best-of-breed apps that you can use to build sites quickly
- Make the UI customizable at any level of detail from small tweaks to a complete replacement
- Make the apps customizable at any level of detail
- Provide a robust development platform upon which you can build and share new best-of-breed apps
These goals are now achieved to the furthest extent ever in Liferay’s history, and it’s all because of our new modular architecture.
Imagine an environment where every piece of functionality is an independent module. The modules declare three important things:
- The functionality they implement or define
- Their dependency on other modules
- Their priority relative to their functionality
Using this information, the container can start all the modules that fulfill their definitions, implementations, dependencies, and priorities.
Anything a developer wants to do is implemented as one or more modules. If it’s a new application, that application can depend on existing modules and define a dependency on them. This enables you to use functionality that’s already there without rewriting it yourself for your app. If it’s a customization, in many cases it’s just a simple matter of defining your customization with a higher priority than the existing functionality.
This is the power of a modular architecture.
All new applications, extensions, and customizations built on Liferay are built in a modular way. A module is the single unit of distribution and deployment in a modular architecture.
In the spirit of following existing standards, Liferay has leveraged a set of very powerful standards known as OSGi. OSGi defines, among other things, how modules can depend on each other and communicate. It also defines the packaging format for modules: OSGi bundles. An OSGi module is just a typical JAR file, familiar to Java developers as a ZIP file containing compiled code, templates, resources, and some meta information.
One aspect of modern software architecture is the notion of services. These are independently running pieces of code that provide specific functionality when called. They operate just like services in the real world do. For example, you might call a service to come mow your lawn. You know how to call the service and to give it what it needs (money) in order to receive the service (a mown lawn). Software-based services work the same way.
Liferay’s services are standard services as defined by the OSGi Alliance. Writing anything, whether it be an application, an interface to a database, or even a “service” as you define it, is easy to implement as an OSGi service, because they’re both incredibly powerful and easy to develop. If you understand Java interfaces and how they are implemented–which is introductory Java material–you already understand more than 90% of what you need to know. First, you define the interface, or contract for the service: what it returns, and what it needs to return what it returns. Next, you define an implementation class that implements the contract.
In the services model, a class requests the service that provides the functionality it needs. This functionality is provided (often injected) with the right implementation automatically. It’s similar to Spring or EJBs with one important addition: implementations can be changed at runtime, without restarting the system. This is achieved because when a service is deployed, it becomes part of a service registry maintained by Liferay’s OSGi container. The container dynamically manages the lifecycle of the service and can start and stop services when appropriate.
The real power of services shines when they are extended. You can replace existing implementations or in advanced use cases have several implementations of a service. The developer can then choose to invoke all implementations or just the one with the highest priority (specified with what is called the service ranking). This means that if Liferay has a service that does something, you can customize or override that service by implementing its interface yourself and then deploying it with a higher ranking than the original service. The container then instantiates your implementation when the service is called by existing code. This simple, clean method is how most customizations are made to Liferay 7.
In OSGi, possibly the best and certainly the easiest way to create services is
through Declarative Services. In Declarative Services (aka DS), you create
Components. A Component is a Java class (marked with an
that provides an implementation of a Service (as described above) and whose
instantiation is handled automatically by DS. This is similar to what you might
be used to if you have used Spring Beans or EJBs. DS also provides dependency
injection using annotations (
@Reference). This is convenient because the
“wiring” of components is done by the container but can be changed while the
server is running (unlike Spring).
Modules may contain as many service declarations and as many components as desired (or zero, of course).
In software engineering terms, a component is the smallest building block of a larger application, and that application is itself made up of many small components. This makes it easier to develop an application because you only have to deal with small, well-defined, bite-sized chunks of code at a time.
The next question then becomes, so what? Why is this a big deal? Why should I have components, and what do I need them for?
It helps to examine two common development scenarios: a customization task and a full-blown application. Picture this: you have a system that generates a report in PDF format from data in a database. The data is captured from a web application running in Liferay. You come in to work in the morning and something’s happened (it doesn’t matter what it is; it could be corrupt data, the company has been bought, or a national emergency). You need to change that report as fast as possible, either to insert a new title page, add a warning to the existing title page, or whatever.
In the monolithic model you’d have to modify the application to change the report and then you’d have to redeploy the complete application. If this was a temporary change, to restore the application to its original state you’d again have to modify the application and redeploy it.
With a modular and component-based application, you’d fix a simple, small component–probably one Java class–that provides the functionality you need. You’d then deploy its module to the server. If you need to roll back that change in the future, you’d just do the same thing in reverse. In each case, you’re only changing and redeploying the small piece of functionality that needs to change, not the whole application. At no time would you ever have to redeploy the whole application or take the server down.
For a full-blown application, the benefits are even greater. Modular development helps developers be more efficient in three important ways:
- An application made up of components can be written in parallel by multiple developers working on different components.
- An existing application can be extended by writing new components to implement features in different ways.
- Components can be enabled and disabled, allowing administrators to choose which features to enable in production.
For example, Liferay’s Documents and Media library is a file repository that supports many back-ends. Each back-end is a component that can be maintained by different developers. They can be added and removed on the fly while the server is running.
Similarly, the services provided by the application are independent of the front-end technology. In fact, there can be multiple front-ends, from the web-based front-end Liferay provides out of the box, to a new front-end you might develop for either the web or mobile.
As you can see, many components running inside Liferay’s OSGi container form something of an ecosystem of complementary services. Much of Liferay’s functionality is in components, and when you deploy your code, it sits in the same ecosystem as Liferay’s, with the same extension points. You can write components to provide new services or to override existing services with your own implementation, and the container manages it all. Liferay is an exciting platform that empowers developers to be more productive.