Monday, October 17, 2011

Past, Present and Future of ...: UltraESB Documenation

AdroitLogic has released the first phase of the official documentation for the UltraESB. This documentation is a complete reference of the...
Does your ESB vendor charge you for access to Premium Content? Well, all UltraESB documentation, including our premium Production Support guides are free!

Wednesday, October 5, 2011

Drag-and-Drop Integration with Graphical Models and Studios - how effective are they?

Recently I was asked by a prospective user about the graphical tooling support of the UltraESB, and the answer I prepared is summarized below in this blog post.
  • Updates to a graphical configuration is sometimes difficult
  • Graphical models are not easily unit testable
  • How do you debug graphical models?
  • Graphical models cannot be version controlled easily, or backed-up and restored for production system changes quickly
  • Graphical models does not allow easily inserted and usable comments
  • Graphical models are vendor specific “language”s you need to learn from the start
  • Text based configurations support – visual code review and auditing of changes 
  • Real world management of graphical configurations are more difficult
  • Graphical tools are sometimes limited on extensibility
  • Vendors ship some IDE based “Studio” which may not be user friendly to some
We will consider the effectiveness of the graphical "Studios" and vendor customized "IDEs" and compare how effective they are for real world production system development, change management and auditing, code review and unit testing etc among other topics.

Now if you'd want to know what I am talking about, do a Google search for "ESB (Studio OR IDE)" and look at the results of the Image search.. You will find plenty from some ESB vendors.

In-contrast, an UltraESB configuration is held in files

In contrast, The UltraESB configurations are held in one or more configuration files. These files are human readable and understandable, and are Spring framework configuration files already familiar to many developers. Typically a configuration is split into two files namely ultra-root.xml to define the more
static aspects such as transports, JMX configuration etc, while the ultra-dynamic.xml defines the more dynamic aspects such as services, mediation sequences and endpoints of the business scenario. Where required the dynamic components can be split into any number of sub configurations.

Changes to the dynamic aspects does not require a server re-start, and can be applied to live production servers without disrupting existing or in-flight messages, and the UltraESB guarantees that a message flow will only use the configuration version available at the start of its processing. This makes the
configuration updates both safe and efficient, and is much more than whats typically offered as 'hot-deployment' by some products.

Holding the configuration in a concise XML document makes it easy to quickly:
– Understand the flow
– Take a backups
– Track changes across versions
– Add new services, change/remove/disable or co

Yet, still the UltraESB allows auto-completion and step-through debugging with your preferred IDE - See this 5 minute screen cast!

Comparison with Graphical Drag-and-Drop tools

The graphical tools will present themselves as “easy to use for any beginner” - which I do not contradict. However is its usefulness also limited when you are not a beginner anymore?

When you move into real world usage you will quickly understand that:
  1. Updates to a configuration (e.g. disabling an address from a load balance endpoint in a production system) will require a developer to open up a heavy weight IDE Studio, open up the latest version of the project, make the necessary change, build a new deployable binary artifact and then deploy this to a production server.
    • When this needs to be done quickly for emergency changes etc, it would be difficult for a system administrator, or just "any" developer to do – the availability of a configured developer environment would be needed to effectively use the graphical Studios.
    • Furthermore, a binary deployable artifact generated by a developer would be difficult to verify for correctness. It will also depend on the developers local user settings and local properties files etc. used at the build time, and may not be the ideal artifact with the correct settings for quick production deployments.
  2. Graphical models are not easily unit testable. Any UltraESB configuration can be easily unit tested with popular frameworks such as JUnit. Most of the samples we ship are automatically unit tested for each continuous build.
    • As an exercise: Ask any other ESB vendor how they suggest that you perform unit testing, and automated end-to-end configuration testing. Try out their suggestions by yourself, and verify how effectively they will work in your real world use
  3. Graphical models cannot be version controlled easily / Cannot backup and revert production system changes quickly. They will either use binary artifacts, or generate loads of meta XML which cannot be humanly understood, backed up or safely managed via a source control system for historical difference checking.
    • As all UltraESB configurations are simple and human readable and understandable XML files, changes can be checked into any version control system such as CVS, SVN, Mercurial, GIT etc, and tagged after development for QA testing, staging and production deployments. This allows one to quickly undo changes to revert back to a previous configuration level within a matter of seconds.
    • Here is a sample diff for you to verify which shows some changes over time on a UltraESB configuration. Our large enterprise users integrate the ESB configuration into version control systems for better management, visibility/openness and control of changes and auditing.
    • The UltraESB conf/ directory is typically checked into a version control system. When developers make changes they can commit locally (i.e. with Mercurial etc) and when ready push changes for QA / integration testing. Once changes are accepted for deployment, they would then be tagged by QA. The operations teams would map the source repository to the conf/ directory of the live servers, and to deploy changes, they would pull changes from the source repository. Depending on the change, a simple UTerm “cau – Configuration Add or Update” command or a graceful restart (e.g. if third party JARs etc are required for a new change) can then be initiated. Before updates, the configuration can be easily backed up, and if something goes wrong, the configuration can just as be easily reverted to the previous tag or restored configuration file which was backed up before.
  4. Graphical models does not allow easily inserted and usable comments. Some comments on graphical models maybe hidden as meta information in the huge models. They are not seen at all, or are rarely seen on a production configuration etc. Some models may not allow you to save user specified comments, or loose them during editing even when inserted manually. See how you can comment the UltraESB configurations here
  5. Graphical models are a vendor specific “language”. Yes, your team still needs to learn a new language, refer to its documentation from how to write an “if” condition, and understand which component can be added under or connected to which other. The UltraESB is configured with Java code fragments, classes, or compiled class libraries. In addition, you may use any JSR 223 scripting language such as Javascript, Groovy, Ruby etc which you already know.
    • As the UltraESB configuration is in Java, you can use concepts you already know such as:
    • Exception handling with a try-catch-finally
    • Easily refer to all possibilities of the API using Javadocs
    • Easily calling external libraries from within the in-line code you are writing etc. (Compare to calling an external Java library from one of the graphical models)
  6. Real world management of graphical configurations are more difficult. Imagine having to make a change to an endpoint URL across hundreds of services. With a graphical model, one would need to load each service and make the necessary changes, save and rebuild deployable artifacts for re-deployment. With a text based configuration you can easily use find-and-replace, sed, grep, find etc to quickly find certain values, or make changes across multiple services easily.
  7. Text based configurations support – visual code review and auditing of changes
  8. Graphical tools are sometimes limited on extensibility. You cannot easily extend the components available, or develop custom components. Even if you could, as an end user you would be writing an ESB vendors specific UI logic on your developers' time to build such extensions, which may break with new vendor releases etc. If you just concentrate on your business logic, you could write any extension as a Java library etc, and reuse the method from within the UltraESB from multiple locations.
    • Furthermore, some tools may not allow you flexibility. As an example, consider you are getting a message header “XXX-NNN-YYY” and you want conditionally perform a routing just looking at the “NNN” part. If your graphical editor provides a “if-then-else” construct, most definitely if will allow you to check if this complete header is equal to something or not. (See example screenshot). However, your mind will tell you that you just need to perform a substring(4,7) on the header and do the comparison. This is easily possible with the UltraESB configuration, where-as fixed UI “components” of most vendors would not allow you to go deeper than the beginner level use.
  9. Vendors ship some IDE based “Studio” which may not be user friendly to some. Most vendor studios are based on Eclipse or other such frameworks, and may not be easy for use for IDEA, NetBeans and other IDE users. The UltraESB allows its users to use any of their preferred IDEs.
  10. How do you debug graphical models? Usually, studios hide the actual execution code with very high level constructs, and hence users ultimately ends up using the log files for debugging which is sad. You cannot easily set a breakpoint at one of the nice graphical boxes, and evaluate message properties at the time a message reaches it. You cannot then step-through debug the configuration from there on.
    • With the UltraESB, you are at the actual execution code level. You can set real breakpoints, evaluate variables, and step-through debug as you've always known with your favorite IDE. Ofcourse, you can start the ~35 MB UltraESB within the IDE in its full glory, so you do not end-up having to remotely debug a monster server running with elsewhere.

Tuesday, October 4, 2011

ESB performance testing - Round 5 Results for 8 Open Source ESBs

AdroitLogic Private Ltd. announced today the results of the fifth round of ESB Performance testing. This round compares the WSO2 ESB, Mule ESB CE, Fuse ESB, Apache ServiceMix, Talend ESB, Petals ESB, JBoss ESB and the UltraESB. The ESB performance benchmark has been in use since June 2007 by vendors such as WSO2, AdoritLogic, Mulesoft and BEA to compare ESBs across different loads and message sizes for six common use cases. This round also publishes an EC2 AMI to easily reproduce the results by average users, and also publishes all source configuration for the 8 different ESBs in a public BitBucket repository

What's significant about this test suite is that it has now been accepted as a de-facto ESB performance test suite by vendors such as WSO2, BEA and Mulesoft in the past, who have reported results against their implementations publicly. This has also been used extensively by end users for ESB comparison, and load testing of configurations before production deployments.

Although 8 open source ESBs were considered, 4 of these failed without being able to complete the load test. One ESB had a 3-4% error rate, while three completed successfully. The test includes two variants of the free and open source UltraESB. The enhanced version is supercharged with the power of VTD XML which allows the UltraESB to perform XPath evaluation on XML payloads without XML parsing. This works nicely with the RAM Disk based file cache used by the UltraESB to provide both Zero-Copy and Java Non-Blocking IO for the extreme levels of performance.

Full information available at