Mashed Articles

Recently I was challenged by a customer with strong Microsoft focus that required integration with a newly accquired application based on Java/JEE. Both the Microsoft .Net and Java side supported Web Services. The service contracts – message formats – were obviously different. The Java side also leveraged JMS for asynchronous communication.

That brought up 2 very interesting qustions:
1. How to link a .Net application to JMS?
2. Where to transform (and route, monitor, …) the web service interactions?
In this entry, I’ll cover the JMS question. In a next posting, I’ll discuss the Web Service mediation question.

To start, there is no out-of-the-box solution: no generic .Net component to talk to JMS, no generic MSMQ/JMS brige or no standard .Net version of the JMS API. Below a list of other options:

• Most JMS providers come with some .Net (or COM) API, although all proprietary. E.g. IBM has WebSphere(R) MQ classes for .NET and XMS.Net. WCF bindings from JMS providers are hardly available: Tibco has announced one (is it available already?) and IBM has a prototype available.
• Some JMS implementations expose a REST like interface, so simple interactions over HTTP. In case of WebSphereMQ, this is the MQ Brige for HTTP.
• Microsoft BizTalk has a WebSphereMQ adapter already a long time and more recently, a TibcoEMS adapter is available as well. But BizTalk does not have a generic JMS adapter.
• JNBridge is a company providing .Net/Java interoperability products (and earlier COM/Java interoperability). JNBridge has .Net JMS adapters: one for BizTalk and one for .Net.
• And Host Integration Server has a MSMQ/MQSeries bridge.

The 1st or 2nd option have my preference. Although you’re programming against a proprietary API, no BizTalk nor 3rd party software needed.

Note: using the JMS API with WebSphereMQ introduces an extra complexity because of the way JMS header fields are mapped to the MQ message structure. MQ uses the MQRFH2 header to store JMS specific properties. The Microsoft ESB Guidance comes with a a BizTalk Pipeline component that provides support for this MQRFH2 header.

Note: not 100% sure, but most probably the .Net or MSMQ adapters of Java based integration solutions such as WebSphereESB or JCAPS use JNBridge underneath.

While enjoying holidays, I read the book “Programming Amazon Web Services” by James Murty. As explained in my earlier post, I was most interested to learn how cloud computing could be leveraged for developing integration solutions.

The book discusses 5 Amazon Web Services (AWS):

• Simple Storage Service (S3)
• Elastic Cloud Computing (EC2), virtual Linux servers on demand
• Simple Queue Service (SQS), to deliver short messages
• Flexible Payment Service
• SimpleDB – simple database with no SQL support

The book goes into quite some technical detail and has code snippets showing in detail how to interact with the Amazon services. All the samples are written in Ruby. I don’t know Ruby, but the code is quite readable (should read Enterprise Integration with Ruby some day). The author prefers the REST and the Query API. Unfortunately, he does not show anywhere the use of the SOAP API to access Amazon WS.

The 1st chapter is introductory and e.g. explains how to use self-signed certificates to connect with AWS, explains how AWS were developed for internal use by Amazon and later turned into a products, come without an SLA (except for S3) and without real support.

In the 2nd chapter, the author builds up a library of Ruby code to access the Amazon Web Services. This is very well written and gives an immediate feeling for some aspects to take into account, e.g. clock differences.

S3 is covered in chapters 3 and 4. No standard file access but the use of buckets and objects through a non-standard API (REST or SOAP); no FTP, WebDAV or SFTP. And objects cannot be modified: only deleted and re-created (after the deletion has propagated). Ruby code is shown for all the options the API offers: bucket creation/lookup/deletion, object creation/listing/deletion, ACL update/retrieval and access logging file retrieval. Tricks with HTTP header fields (object metadata), posting data through forms, alternative hostnames and BitTorrent are discussed. The last part discusses signed URI’s: this is a neat trick to make S3 resources temporarily accessible to users without Amazon account.

Chapter 4 shows some applications of the S3 service: large file transfer, backup, turning S3 into a file system (with FTP or WebDAV). Interesting to note that the author has his doubts wrt. exposing S3 as a file system. The author also discusses his own Java open source application: JetS3t. This application is a “gatekeeper” for S3 resources and authorizes local agent applications after acquiring signed URL to upload files to S3 and download files from S3.

Chapter 5, 6 and 7 dive into EC2 and how virtual Linux systems (based on Xen) can be configured using Amazon Machine Images. Ruby code is shown for every available API: keypairs (for SSH access), network security (dynamically configure the firewall), images and instances. Chapter 6 explains instances in more detail and discusses how to create new images. This involves quite some commands and scripts at the Linux command prompt. Chapter 7 discusses some sample applications: VPN server, web photo album thereby backing up data on S3. Chapter 7 also discusses issues around dynamically assigned IP addresses and the use of dynamic DNS.

The Simple Queue Service (SQS) is discussed in chapters 8 and 9. Because of the small message size, SQS is clearly meant for events with actual data stored on S3 (or elsewhere). Again Ruby code to manipulate queues and messages. Chapter 9 describes a Messaging Simulator application, not that relevant in my opinion. The 2nd application – leveraging a video conversion tool – shows how to build generic service for implementing “batch” services (Command Message pattern). The 3rd application – LifeGuard – leverages SQS to manage EC2 instance pools and dynamically scale the number of EC2 instances.

The chapter on payment service I skipped and I only skimmed through the SimpleDB chapter. Enough to learn that SimpleDB is not an RDBMS but a basic storage mechanism (no data types) with proprietary query facilities (no SQL).

The author writes fluently and gives a non-biased view on the Amazon Web Services. Sometimes the code goes into too much detail, showing how to invoke every available method of the API. Although the book is very recent (March 2008), important new features such as elastic IP addresses, persistent storage for EC2 and availability zones weren’t yet available at the time of writing. The book definitely taught me that AWS is quite proprietary and not that trivial. And to use Amazon’s cloud computing and AWS, you’d better “think like Amazon”.